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25A-185 (9)
DPV (n102) — Pressure, psi — Flow, gpm 180= - 175= -3,000 170 -2,900 165 X2,800 160_ 72,700 155= _2,600 150 _2,500 145, 140.` -2,400 135 -2,300 130 --2,200 125= -2,100 120 -2,000 115 110: `1,900 105-:- -1,800 100-i- - —1,700 95;. __ 71,600 L 90.- _ -1,500 0 us 85= 1,400 vii 80 to 'A r1,300 75= n_ - 70__ -1,200 65: --1,100 60. 71,000 55: 900 50- 45 -800 40= -700 35� =600 30- 7500 25: 1 1 -400 20 I - -300 15- 1o4 200 5= 7100 0: 0 -5. -100 -10. -200 -15� 0 2 4 6 8 10 12 14 16 18 20 22 24 26 28 30 32 Time, s File:QUELL_3.tyc Date 2/25/2011 Copyright©2002-2008 Tyco Fire and Building Products Page 2 Alm srcl — Pressure, psi — Flow, gpm 185= 180-:- _3,000 175: . I -2,900 170 72 ,800 165: .2 ,700 160 72,600 155 150 -2,500 = 145 ! 72,400 140= 72,300 135~ 72,200 130=` 1 = -2,100 25 120= X2 ,000 115= 71,900 110- — _1,800 105= 71,700 100 95= 71,600 a = 90– X1,500 0 " 85= 71,400 in to 0 tv 807 .__ _-- - --. :_. _... ._,.71,300 a_ 75� 70'=- -1,200 65:- ._ :1,100 60 -1,000 55= •. -900 50 800 45 40: -700 35. _._ _ 600 30::: _-. _ 500 252.7 `400 20= 7300 15-1 10. 200 5; =100 0" .0 -5 -100 -10- -200 -15:: 0 2 4 6 8 10 12 14 16 18 20 22 24 26 28 30 32 Time, s File:QUELL_3.tyc Date 2/25/2011 Copyright©2002-2008 Tyco Fire and Building Products Page 1 Amiumilommemmow 'Job:-Coca-Cola Hydraulic Calculations/Fluid Delivery Time Analysis • Node Data Node# Hgroup K-Fact. Elev X Type Fitting Stat. Pres. Coverage Y gpm/psi1/2 ft ft psi sq.ft ft 99 Node 39 -352.64 Node 0 412.9 114 Node 37.5 -344.98 Node 0 354.49 116 -344.98 Node Node 0 39 358.12 Node Node 0 37.5 35$?621 31 Node 39 -382.71 Node 0 358.12 98 Node 39 -352.64 Node 0 402.27 177 Node 37.5 -328.22 Node 0 354.49 194 Node 39 -325.6 Node 0 380.25 207 Node 39 -324.26 Node 0 369.87 97 Node 39 -352.64 Node 0 391.64 174 Node 37.5 -328.22 Node 0 350.25 96 Node 39 -352.64 Node 0 381.01 172 Node 37.5 -328.22 Node 0 340.25 • 175 Node 39 -328.22 Node 0 350.25 206 Node 39 -324.26 Node 0 358.12 170 Node 37.5 -328.22 Node 0 330.25 173 Node 39 -328.22 Node 0 340.25 169 Node 37.5 -328.22 Node 0 329.75. 171 Node 39 -328.22 Node 0 330.25 193 Node 39 -325.6 Node 0 350.25 113 Node 39 -349.03 Node 0 369.87 192 Node 39 -325.6 Node 0 340.25 112 Node 39 -349.03 Node 0 358.12 191 Node 39 -325.6 Node 0 330.25 File:QUELL_3.tyc Date 2/25/2011 Copyright©2002-2008 Tyco Fire and Building Products Page 9 Job:coca-Cola Hydraulic Calculations/Fluid Delivery Time Analysis Node Data • Node# Hgroup K-Fact. Elev X Type Fitting Stat. Pres. Coverage Y gpm/psi1/2 ft ft psi sq.ft ft 40 Node 37S `382.71 Node 0 402.27 43 Node 39 -382.71 Node 0 412.9 107 Node 39 -350.43 Node 0 442.69 123 Node 37.5 -344.98 Node 0 390.25 126 Node 39 -344.98 Node 0 400.25 41 Node 39 -382:71 Node 0 402.27 106 Node 39 -350.43 Node 0 431.38 124 Node 39 -344.98 Node 0 390.25 198 Node 39 -325.6 Node 0 420.25 37 -38 Node Node 0 37.5 391?641 120 Node 37.5 -344.98 Node 0 380.25 197 Node 39 -325.6 Node 0 410.25 Node Node 0 37.5 381?011 38 Node 39 -382.71 Node 0 391.64 118 Node 37.5 -344.98 Node 0 369.87 121 Node 39 -344.98 Node 0 380.25 36 Node 39 -382.71 Node 0 381.01 105 Node 39 -350.43 Node 0 420.75 119 Node 39 -344.98 Node 0 • 369.87 196 Node 39 -325.6 Node 0 400.25 32 Node Node 0 37.5 369.87-382.71 115 Node 37.5 -344.98 Node 0 358.12 195 Node 39 -325.6 Node 0 390.25 Node Node 0 37.5 358?121 33 Node 39 -382.71 Node 0 369.87 File:QUELL_3.tyc Date 2/25/2011 Copyright©2002-2008 Tyco Fire and Building Products Page 8 Job:.Coca-Cola Hydraulic Calculations/Fluid Delivery Time Analysis Node Data Node# Hgroup K-Fact. Elev X Type Fitting Stat. Pres. Coverage Y gpm/psi1/2 ft ft psi sq.ft ft 327 Node 39 -288.42 Node 0 380.25 328 Node 39 -288.42 Node 0 390.25 329 Node 39 -288.42 Node 0 400.25 330 Node 39 -288.42 Node 0 410.25 331 Node 39 -288.42 Node 0 420.25 332 Node 39 -288.42 Node 0 429.78 333 Node 39 -288.42 Node 0 438.82 334 Node 39 -288.42 Node 0 447.86 335 Node 39 -288.42 Node 0 456.9 336 Node 39 -288.42 Node 0 465.94 9 Node Node 0 37.5 420.75-383.63 130 Node 37.5 -344.98 Node 0 420.25 . 8 Node Node 0 37.5 41933 3 10 Node 39 -383.63 Node 0 420.75 109 Node 39 -350.43 Node 0 465.31 128 Node 37.5 -344.98 Node 0 410.25 131 Node 39 -344.98 Node 0 420.25 201 Node 39 -325.6 Node 0 447,86 44 i Node Node 0 37.5 438219.3 1 108 Node 39 -350.43 Node 0 454 129 Node 39 -344.98 Node 0 410.25 200 Node 39 -325.6 Node 0 438.82 42 Node Node 0 37.5 4182971 125 Node 37.5 -344.98 Node 0 400.25 199 Node 39 -325.6 Node 0 429.78 File: QUELL_3.tyc Date 2/25/2011 Copyright©2002-2008 Tyco Fire and Building Products Page 7 e ' Job :Coca-Cola Hydraulic Calculations/Fluid Delivery Time Analysis Node Data Node# Hgroup K-Fact. Elev X Type Fitting Stat. Pres. Coverage Y gpm/psi1/2 ft ft psi sq.ft ft 243 Node 39 -317,93 Node 0 456.9 245 Node 39 -317.93 Node 0 465.94 322 Node 39 -288.42 Node 0 330.25 323 Node 39 -288.42 Node 0 340.25 18 Node Node 0 37,5 4543.63 21 Node 39 -383.63 Node 0 465.31 140 Node 37.5 -344.98 Node 0 456.9 143 Node 39 -344.98 Node 0 465,94 19 Node 39 -383.63 Node 0 454 141 Node 39 -344.98 Node 0 456.9 15 Node Node 0 37.5 4423 93 137 Node 37.5 -344.98 Node 0 447.86 . 13 Node Node 0 37.5 383383 16 Node 39 -383.63 Node 0 442.69 • . 135 Node 37.5 -344.98 Node 0 438.82 138 Node 39 -344.98 Node 0 447.86' 14 Node 39 -383.63 Node 0 431.38 133 Node 37.5 -344,98 Node 0 429.78 136 Node 39 -344.98 Node 0 438.82 203 Node 39 -325.6 Node 0 465.94' 134 Node 39 -344.98 Node 0 429.78 202 Node 39 -325.6 Node 0 456.9 324 Node 39 -288.42 Node 0 350.25 325 -288.42 Node Node 0 39 360.25 326 Node 39 288.42 Node 0 370.25 File:QUELL_3.tyc Date 2/25/2011 Copyright©2002-2008 Tyco Fire and Building Products Page 6 o Job :'Coca-Cola Hydraulic Calculations/Fluid Delivery Time Analysis Node Data Node# Hgroup K-Fact. Elev X Type Fitting Stat. Pres. Coverage Y gpm/psi'/z ft ft psi sq.ft ft 244 Node 37.5 -317.93 Node 0 465.94 246 Node 37.5 -317.93 Node 0 469.28 292 16.8 -298.09 Head Head 0 39 330.25 293 16.8 -298.09 Head Head 0 39 340.25 307 Head 16.8 39 -288.92 Head 0 330.25 308 Head 16.8 39 -288.92 Head 0 340.25 n100 NODE 4 -402.89 Node 0 474.09 n101 NODE 5 -402.89 Node 0 474.09 n102 NODE 6 -402.89 Node 0 474.09 n103 NODE 7 -402.89 Node 0 474.09 n104 NODE 8 -402.89 Node 0 474.09 Node Node 0 37.5 683 63 Node Node 0 37,5 465.94 209 Node 37.5 -317.93 Node 0 329.75 215 Node 39 -317.93 Node 0 350.25 218 Node 39 -317.93 Node 0 360.25 220 Node 39 -317.93 Node 0 370.25 223 Node 39 -317.93 Node 0 380.25 225 Node 39 -317.93 Node 0 390.25 228 Node 39 -317.93 Node 0 400.25 230 Node 39 -317.93 Node 0 410.25 233 Node 39 -317.93 Node 0 420.25 235 Node 39 -317,93 Node 0 429.78 238 Node 39 -317.93 Node 0 438.82, 240 Node 39 -317.93 Node 0 447.86 File:QUELL_3.tyc Date 2/25/2011 Copyright©2002-2008 Tyco Fire and Building Products Page 5 cx Job :`Coca-Cola Hydraulic Calculations/Fluid Delivery Time Analysis Node Data Node# Hgroup K-Fact. Elev X Type Fitting Stat. Pres. Coverage Y gpm/psi1/2 ft ft psi sq.ft ft 0 Node 5 -406.89 Node 0 474.09 1 Node 3 -406.89 Node 0 474.09 srcl -406.89-5 Supply 0 499.09 Node Node 0 37.5 4702?54 5 Node 3 -402.89 Node 0 474.09 7 -402.89 Node Node 0 37.5 474.09 22 Node Node 0 37.5 4693283 Node Node 0 37.5 472.54 144 Node 37.5 -344.98 Node 0 469.28 210 Node 37.E -317.93 Node 0 330.25 211 Node 39 -317.93 Node 0 330.25 212 Node 37.5 -317.93 Node 0 340.25 213 Node 39 -317.93 Node 0 340.25 . 214 Node 37.5 -317.93 Node 0 350.25 217 Node 37.5 -317.93 Node 0 360.25 219 Node 37.5 -317.93 Node 0 370.25 222 Node 37.5 -317.93 Node 0 380.25 224 Node 37.5 -317.93 Node 0 390.25 227 Node 37.5 -317.93 Node 0 400.25 229 Node 37.5 -317.93 Node 0 410.25 232 Node 37.5 -317.93 Node 0 420.25' 234 Node 37.5 -317.93 Node 0 429.78 237 Node 37.5 -317.93 Node 0 438.82 239 Node 37.5 -317.93 Node 0 447.86 242 Node 37.5 -317.93 Node 0 456.9 , File:QUELL_3.tyc Date 2/25/2011 Copyright©2002-2008 Tyco Fire and Building Products Page 4 • Job :Coca-Cola Fluid Delivery Time Analysis System Summary Dry pipe system System Volume(gal): 0 Fluid: Water @ 40F(4.4C) Gas: Air @ 40°F and 30ps1 Differential Trip Ratio: 21 Accelerator: Differential Presure: 0.1psi i Time Delay: 4s System Time Parameters Trip Time: 4.19s Fluid Delivery Time: 19.73s @ 307 Operating Time: 19.754s @ 292 Required Fluid Delivery Time: 30s Safety Factor: 34.2% Water Supply Parameters Flow Pressure 0 170 2500 97 3000 10 Parameters of the 4 Open Heads Head# K-Factor Orifice Minimum Transit Time Fluid Oper. Time Open Time Operating Delivery SHALL NOT Pressure Time exceed 30s (gpm/psiV) (in) (psi) (s) (s) (s) (s) 292 16.8 . 0.772 22 15.09 19.28 19.754 0 293 16.8 0.772 22 14.89 19.08 19.654 3 307 16.8 0.772 22 15.54 19.73 19.754 6 308 16.8 0.772 22 15.36 19.55 19.654 8 Protocol: UL UL Statement .1 The UL Listing is for the calculation model used by SprinkFDT for non-looped tree type systems only. 2.It is the users responsibility to ensure accurate data inputcorresponding to the actual application. 3.The sprinkler system must be Installed in accordance with NFPA13. 4.The calculations should be performed for open sprinklers that yield the longest water delivery time. S.In accordance with UL criteria,the safety factor for water delivery time calculation shall not be less than 10%. •6.The inspectors test should be conducted to determine the initial water delivery time for comparison to future testing as required by NFPA25. If the measured water delivery time is excessive, there may be a problem with the installation or calculation inputs and the system should be reviewed. 7.UL requires that the Pipe Data printout table must include the following fields: Pipe #, Type, Material,Absolute Roughness, Size, Internal Diameter, Fittings, Length, Equivalent Length,Total Length, Starting node#, Ending node #, Hazen Williams coefficient. 8.UL requires that the Node Data printout table must include the following fields: Node#,Type, X and Y coordinates, Elevation, K-factor, Orifice Diameter, Open/Close, Minimum Operating Pressure. 9.SprinkFDT shall not be used to hydraulically calculate sprinkler systems in accordance with NFPA13. 10.Exhausters should not be used In calculation of water delivery time. Modelling Assumptions 1. Fluid is incompressible. 2. Pipes do not suffer deformation. 3. Fluid front is perpendicular to pipe centerline. 4.The dry pipe valve opens instantly. • File:QUELL_3.tyc Date 2/25/2011 Copyright 0 2002-2008 Tyco Fire and Building Products Page 3 .. a) D1 co \ 0 0 ` \, co co J J 0- 1 • o f is -f� v / o — t d a) m N co N ' J O U � Wy cc O L N O E G L O� � a 0 U 1 t f t4 O (-;) N U N O N U a) m FLUID DELIVERY TIME CALCULATIONS for Job Information Project Name:Coca-Cola Contract No. : City: Northhamton, MA Project Location: Date:2/25/2011 Contractor Information Name of Contractor: EFP Address: 237 Cedar Hill St. City: Marlboro, MA 01752 Phone Number: 508-485-8183 E-mail:rombardo @sprinklers-r-us.com Name of Designer: R. Lombardo Authority Having Jurisdiction: Northampton Fire Dept. Water Supply Information Date: 5-27-10 Location: @ conn.to yard loop Source: City water with new pump Notes File:QUELL_3.tyc Date 2/25/2011 Copyright©2002-2008 Tyco Fire and Building Products Page 1 DPV (n102) — Pressure, psi — Flow, gpm 180::' -3,000 175=. '72,900 170! - = ' -2,800 165 ' 160= 72,700 155. 72,600 150` 2,500 1457: 2,400 140- 135 =2,300 1307 =2,200 125; 2,100 120: _2,000 1157 ^1,900 110 1057 =1,800 1007 1,700 957 .=1,600 a 90= _1,500 0 cir v 85= 11,400 N• 80. =1,300 E 75_ 3 n 70= 71,200 65 .1,100 607. 71,000 55 :900 • 50= 1 -800 45_ -700 40- 35_ .600 -- ' - -500 25: 400 20= . -300 15= - =200 10 5- 1100 -0 -5= 7-100 -107 200 -15 I i i 7 I I i i i i i --300 0 2 4 6 8 10 12 14 16 18 20 22 24 26 28 30 32 34 36 38 Time, s File:QUELL_2.tyc Date 2/25/2011 Copyright©2D02-2008 Tyco Fire and Building Products Page 2 src1 — Pressure, psi — Flow, gpm 185 `3,000 180 _ 175 :2,900 170 _ =2,800 165 160 2,600 155 =2,500 150- 145 -2,400 140 . ! _ 2,300 135 72,200 130 :2,100 125 120 _2,000 115 1,900 110 1,800 105 :1,700 100 - _ ---.. _ __, _ - 05 v, `1,600 _, 90 `1,500 85 :1,400 w v) 80 .1 300 '0 a 75 :1,200 70 65 :1,100 60 ~1,000 55 -900 50 -_800 45 -700 40 35 :600 30 -500 25 =400 20 :300 15 200 10 5 -100 0 0 -5 =-100 -10 -200 -15 --300 0 2 4 6 8 10 12 14 16 18 20 22 24 26 28 30 32 34 36 38 Time, s File:QUELL_2.tyc Date 2/25/2011 Copyright©2002-2008 Tyco Fire and Building Products Page 1 Job Coca-Cola Hydraulic Calculations/Fluid Delivery Time Analysis Node Data, Node# Hgroup K-Fact. Elev X Type Fitting Stat. Pres. Coverage Y gpm/psi1/2 ft ft psi sq.ft ft 130 Node 39 -91.78 Node 0 334.9 141 Node 39 -91.78 Node 0 442.51 260 Node 39 -53.12 Node 0 334.9: 271 Node 39 -53.12 Node 0 442.51 0 Node 39 -130.45 Node 0 324.9 129 Node 39 -91.78 Node 0 324.9 142 Node 39 -91.78 • Node 0 451.55 259 Node 39 -53.12 Node 0 324.9 272 Node 39 -53.12 Node 0 451.55 • 143 Node 39 -91.78 Node 0 460.59, 273 Node 39 -53.12 Node 0 460.59 • • • • File:QUELL_2.tyc Date 2/25/2011 Copyright©2002-2008 Tyco Fire and Building Products Page 10 ' Job :Coca-Cola Hydraulic Calculations/Fluid Delivery Time Analysis Node Data Node# Hgroup K-Fact. Elev X Type Fitting Stat. Pres. Coverage Y gpm/psi1/2 ft ft . psi sq.ft ft 255 Node 39 -61.28 Node 0 451.55 Node Node 0 37.5 460.59 351 Node Node 0 37.5 324.4-21.28 353 Node 39 -21.28 Node 0 324.9 268 Node 39 -53.12 Node 0 414.9 386 Node 39 -21.28 Node 0 451.55 387 -21.28 Node Node 0 37.5 460 59, 4 Node 39 130,45 Node 0 364.9 133 Node 39 -91.78 Node 0 364.9 257 Node 39 -61.28 Node 0 460.59 258 -61.28 Node Node 0 37.5 46109 263 Node 39 -53.12 Node 0 i 364.9 i 3F8 Node= I I,- 1i-21.28• ' Node 0 - 460.59 389 'Node 37.5 -21.28 Node 0 461.09 3 Node 39 -130.45 Node 0 354.9 132 Node 39 -91.78 Node 0 354.9 139 Node 39 -91.78 Node 0 424.43 262 Node 39 -53.12 . Node 0 354.9 269 Node 39 -53.12 Node 0 424.43 140 Node 39 -91.78 Node 0 433.47 270 Node 39 -53.12 Node 0 433.47 2 Node Node 0 39 3 40945 131 Node 39 -91.78 Node 0 344.9 261 Node 39 -53.12 Node 0 344.9 1 Node 39 -130.45 Node 0 334,9 File: QUELL_2.tyc Date 2/25/2011 Copyright 0 2002-2008 Tyco Fire and Building Products Page 9 Job: Coca-Cola Hydraulic Calculations/Fluid Delivery Time Analysis Node Data Node# Hgroup K-Fact. Elev X Type Fitting Stat. Pres. Coverage Y gpm/psis/z ft ft psi sq.ft ft 252 -61.2 Node Node 0 37.5 442.51 8 Node Node 0 37.5 334 98 357 Node 39 -21.28 Node 0 344.9 265 53.12 Node Node 0 39 ... 384.9 .. 383 -21.2 Node Node 0 37.5 442.51 8 91 -97.28 Node Node 0 37.5 324.9 94 Node 39 -97.28 Node 0 334.9 5 Node 39 -130.45 Node 0 374.9 • Node Node 0 37.5 324.9 8 224 Node 39 -61.28 Node 0 334.9 134 Node 39 -91.78 Node 0 374.9 l 137 Node 39 -91.78 Node _ 0 404.9 I.N ode 1.w 139 Node Node 0 37.5 + 451.55 352 1 Node Node 0 37.5 324 9 355 Node 39 -21.28 Node 0 334.9 264 Node 39 -53.12 Node 0 374.9 267 Node 39 -53.12 Node 0 404.9 384 Node 39 -21.28 Node 0 442.51 385 -21.28 Node Node 0 37.5 451.55 90 -97.28 Node Node 0 37.5 324.4• 92 -97.28 Node 39 Node 0 324.9 220 -61.28 Node 37.5 Node 0 324.4 222 -61.28 Node 39 Node 0 324.9 138 -91.78 Node 39 Node 0 414.9 File:QUELL_2.tyc Date 2/25/2011 Copyright©2002-2008 Tyco Fire and Building Products Page 8 lob : Coca-Cola Hydraulic Calculations I Fluid Delivery Time Analysis • Node Data Node# Hgroup K-Fact. Elev X Type Fitting Stat. Pres. Coverage Y gpm/psi1/2 ft ft psi . sq.ft ft 7 Node 39 -130.45 Node 0 394.9 8 Node 39 -130.45 Node 0 404.9 9 Node 39 -130.45 Node 0 414.9 10 Node 39 -130.45 Node 0 424.43 11 Node 39 -130.45 Node 0 433..47 12 Node 39 -130.45 Node 0 442.51 229 Node 39 -61.28 Node 0 354.9 248 Node 39 -61.28 Node 0 424.43 249 -61.2 Node Node 0 37.5 33.48 360 Node 39 -21.28 Node 0 354.9 379 Node 39 -21.28 Node 0 424.43 380 Node Node 0 37.5 433.47 8 I I ,de , g 225 -61.28 Node Node 0 37.5 344.9 136 Node 39 -91.78 Node 0 394.9 250 Node 39 -61.28 Node 0 433.47 356 Node Node 0 37.5 344.9-21.28 266 Node 39 -53.12 Node 0 394.9 381 Node 39 -21.28 Node 0 433.47 Node Node 0 X7.5 334 98 96 Node 39 -97.28 Node 0 344.9 6 Node 39 -130.45 Node 0 384.9 223 Node Node 0 37.5 334 98 226 Node 39 -61.28-- Node 0 344.9 135 Node 39 -91.78 Node 0 384,9 File:QUELL_2.tyc Date 2/25/2011 Copyright©2002-2008 Tyco Fire and Building Products Page 7 ' Job : Coca-Cola Hydraulic Calculations/Fluid Delivery Time Analysis Node Data Node# Hgroup K-Fact. Elev X Type Fitting Stat. Pres. Coverage Y gpm/psi1/2 ft ft psi sq.ft ft 242 Node Node 0 37.5 04 98 364 -21.28 Node Node 0 37.5 374.9 367 Node 39 -21.28 Node 0 384.9 373 -21,28 Node Node 0 37,5 404.9 104 Node 39 -97.28 Node 0 374.9 234 Node 39 -61.28 Node 0 374.9 243 Node . 39 -61.28 Node 0 404.9 244 -61.28 Node Node 0 37.5 414.9 . • 365 Node 39 -21.28 Node 0 374.9 374 Node 39 -21.28 Node 0 404.9 Node Node 0 37.5 414.9 8 100 Node 37.5 -97'28•Node 1364.9 1....,;1 .-) c No�C Node i i .1364. . • 245 Node 39 -61.28 . • Node 0 414.9 361 Node Node 0 37.5 364.98 376 Node 39 -21.28 Node 0 414.9 98 Node Node 0 37.5 354.9-97.28 101 Node 39 -97.28 Node 0 364.9 Node Node y 0 37.5 354.9 231 Node 39 -61.28 Node 0 364.9 247 Node 37.5 -61.28 Node 0 424,43 Node Node 0 37.5 354 98 362 Node 39 -21.28 Node 0 364.9 378 -21.2 Node 37.5 Node 0 424.43 99 Node 39 -97.28 Node 0 354.9 File: QUELL_2.tyc Date 2/25/2011 Copyright©2002-2008 Tyco Fire and Building Products Page 6 c, ' Jab : Coca-Cola Hydraulic Calculations/Fluid Delivery Time Analysis Node Data Node# Hgroup K-Fact. Elev X . Type Fitting Stat. Pres. Coverage Y gpm/psi1/2 ft ft psi sq.ft ft n100 NODE 4 112.47 Node 0 386.13 n101 NODE 5 112.47 Node 0 386.13 n102 NODE 6 112.47 Node 0 386.13 n103 NODE 7 112.47 Node 0 386.13 n104 NODE 8 112.47 Node 0 386.13 13 Node 39 -130.45 Node 0 451.55. 14 Node 39 -130.45 Node 0 . 460.59 110 Node 39 -97.28 Node 0 394.9 113 Node 39 -97.28 Node 0 404.9 115 Node 39 -97.28 Node 0 414.9 118 Node 39 -97.28 Node 0 424.43 120 Node •gg -97.28 Node 0 , X433.47 I. 1No e Node 0 ,39 -, f Node Node ' 0 37'5 461.09 239 Node Node 0 37.5 394.98 370 -21.2 Node Node 0 37.5 394.9 8 105 Node Node 0 37.5 84.98 Node Node 0 37,5 384.9 240 Node 39 -61.28 Node 0 394.9 366 -21.28 Node Node 0 37.5 384.9 371 Node 39 -21.28 Node 0 394.9 Node Node 0 37.5 374.9 106 Node 39 -97.28 Node 0 384.9 233 Node Node 0 37.5 374 98 236 Node 39 -61.28 Node 0 384.9 File:QUELL_2.tyc Date 2/25/2011 Copyright©2002-2008 Tyco Fire and Building Products Page 5 ' Job': Coca-Cola Hydraulic Calculations/Fluid Delivery Time Analysis Node Data Node# Hgroup K-Fact. Elev X Type Fitting Stat. Pres. Coverage Y gpm!psi1/2 ft ft psi sq.ft ft 28 Head 16.8 39 -129.95 Head 0 451.55 29 Head 16.8 39 -129.95 Head 0 460.59 43 Head 16.8 39 -120.28 • Head 0 451.55 44 Head 16.8 39 -120.28 Head 0 460.59 108 Node Node 0 37.5 391.48 109 -97.28 Node Node 0 37.5 394.9 112 Node Node 0 37.5 -97.28 114 Node Node 0 37.5 414.98 Node Node 0 37.5 424.43 119 -97.2 Node Node 0 37.5 33,48 122 Node Node 0 37.5 442 28 Node Node 0 37.5 L97,c8 1 Ic • ii. Node 1r. 39 1.1,j, je . _i ti 55 Node Node 0 37.5 •460.59 127 Node 39 -97.28 Node 0 460.59 238 Node Node 0 37,5 391.48 350 -22.2 Node Node 0 37.5 391.48 369 -21.2 Node Node 0 37.5 391(.4 8 396 Node 37.5 110.81 Node 0 386.13 397 Node 37.5 110.81 Node 0 391.4 398 Node 5 112.47 Node 0 382.13 399 Node 3 112.47 Node 0 382.13 400 N 3 112.47 Node 0 386.13 402 112.47 Node 0 37.5 Node 386.13 srcl SUPPLY -5 137.47 Supply 0 382.13 File:QUELL_2.tyc Date 2/25/2011 Copyright©2002-2008 Tyco Fire and Building Products Page 4 Job Coca-Cola Fluid Delivery Time Analysis System Summary Dry pipe system System Volume (gal): 0 Fluid: Water @ 40F(4.4C) Gas: Air @ 40°F and 30psi Differential Trip Ratio: 21 Accelerator: Differential Presure: 0.1psi Time Delay:4s System Time Parameters Trip Time: 4.25s Fluid Delivery Time: 24.53s @ 29 Operating Time: 25.018s @ 28 Required Fluid Delivery Time: 30s Safety Factor: 18.2% Water Supply Parameters Flow Pressure D 170 2500 97 3000 10 Parameters of the 4 Open Heads Head# K-Factor Orifice Minimum Transit Time Fluid Oper. Time Open Time Operating Delivery SHALL NOT Pressure Time exceed 30s (9pm/psi1/2) (in) (psi) (s) (s) (s) (s) 28 16.8 0.772 22 20.12 24.37 25.018 0 29 16.8 0.772 22 20.28 24.53 25.018 3 43 16.8 0.772 22 19,6 23.85 24.416 6 44 16.8 0.772 22 19.78 24.03 25.018 8 • Protocol: UL UL Statement 1.Tne UL Lasing is for the to:ulation mode L2sec 'DV Sorinl•rDT foi-non-ioopec tree type systems only. • 2.It is the use"S res:ponsibiiity to ensure ai Gres_ bata input'cJ responding to the actuai ;The sprinkier- system•must be instahed',in accordance Mtn hr G.13:' 4.The calculations should be performed for open sprinklers that yield the longest water delivery time. Sin accordance with UL criteria,the safety factor for water delivery time calculation shall not be less than 10%. 6.The inspectors test should be conducted to determine the Initial water delivery time for comparison to future testing as required by NFPA25. If the measured water delivery time is excessive, there may be a problem with the installation or,calculation inputs and the system should be reviewed. 7.UL requires that the Pipe Data printout table must include the follovvirig fields: Pipe #,Type, Material, Absolute Roughness, Size, Internal Diameter, Fittings, Length, Equivalent Length,Total Length, Starting node #, Ending node#, Hazen Williams coefficient. 8.UL•requires that the Node Data printout table must include the following fields: Node#,Type, X and Y coordinates, Elevation,K-factor, Orifice Diameter, Open/Close, Minimum Operating Pressure. 9.SprinkFDT shall not be used to hydraulically calculate sprinkler systems in accordance with NFPA13. 10.Exhausters should not be used in calculation of water delivery time. Modelling Assumptions 1. Fluid is incompressible. 2. Pipes do not suffer deformation. 3. Fluid front is perpendicular to pipe centerline. 4.The dry pipe valve opens instantly. • File:QUELL_2.tyc Date 2/25/2011 Copyright >2002-2006 Tyco,Fire and Building Products Page 3 V. r • , CNI 0 \ CU a. . \ l ,--. ? e., \ . \ • Tu Ti \ .r) .0 as co —J —1 0 0 . \ '0 0- , O E \ z \ \ \ ‘ . ' . 1 . i . , f4.) I \ 0 5" Cn \ \ 1:3 ...6 CC$ '5 CI) \ . = = \ '• .1, . C1) \ , tn -J 0 CU . .-.-- • ,... ..-,.. ... . . c .".-.' s.. . . 0 • = E tri . ■ . -,,,.. .— a. . o 0 o . ' ' ‘ - , . , . / ; • . ' ,.... 1, \ \ \ \ @ 1 \ 5 0 C6 CV o NI O (N _c.:. a) o co --) 0 ,, FLUID DELIVERY TIME CALCULATIONS for Job Information Project Name:Coca-Cola Contract No.: City: Northampton, MA Project Location: Date:2/25/2011 Contractor Information Name of Contractor: EFP Address: 237 Cedar Hill St. City: Marlboro, MA 01752 Phone Number: 508-485-8183 E-mail: rlombardo@sprinklers-r-us.com Name of Designer: R.Lombardo Authority Having Jurisdiction: Northampton Fire Dept. Water Supply Information Date: 5-27-10 Location: at conn.to yard loop Source: City Water with new pump Notes File:QUELL_2.tyc Date 2/25/2011 Copyright©2002-2008 Tyco Fire and Building Products Page 1 DPV (n102) — Pressure, psi — Flow, gpm 180 3,000 175 170 •2,900 165 :2,800 160- -2,700 155 2,600 150 :2,500 145 140- 72,400 135 -2,300 130 -2,200 125 _-2,100 120 :2,000 115 -1,900 110 - 105: 71,800 100 7 1,700 95 -1,600 a 90 ._ _1,500 -" 85 -1,400 vii 80 75 :1,300 ts a 70 -1,200 65_ 71,100 60 1,000 55- _ ±900 50 800 45 40 _ -700 35 =600 30 :500 25 -400 20 -- -- _ - :300 15 - . - _ _.. _.__ - 10 -=200 5 :100 0 p -5 --100 -10 7-200 -15 300 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 Time, s File:QUELL_1.tyc Date 2/2512011 Copyright©2002-2008 Tyco Fire and Building Products Page 2 s rci — Pressure, psi — Flow, gpm 185 - :3,000 180 :2,900 175 � - 170 :2,800 165_ :2,700 160 :2,600 155 -2,500 150- r -2,400 145 - 140 -2,300 135 _ :2,200 130 -2,100 125 120 :2,000 115 :1,900 110 1,800 105 :1,700 100 - :1,600 95 Cl 90 _ 1,500 0 ai 85 :1,400 - n v 80 :1,300 3 a 75 ' -1,200 70 65 -1,100 60 :1,000 55 :900 50 :800 45. . :700 40 35 -. 600 : 30 — :500 25 =400 20 , :300 15 10 :200 5 :100 0 0 -5 -100 10 - :-200 -15 . , , j , , , , , , , ; . ; i , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , ; , , , , , , , , , , , , , , : ; . --300 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 Time, s File:QUELL_1.tyc Date 2/25/2011 Copyright©2002-2008 Tyco Fire and Building Products Page 1 ' Job: Coca-Cola Hydraulic Calculations I Fluid Delivery Time Analysis • Node Data Node# Hgroup K-Fact. Elev X Type Fitting Stat. Pres. Coverage Y gpm/psi'/2 ft ft psi sq.ft ft 90 324. 9 Node Node 0 37.5 303.73 92 Node 39 324.69 Node 0 304.23 9 Node 39 295.75 Node 0 394.23 125 Node 39 324.69 Node 0 430.87 126 Node Node 0 37.5 324.69 140 Node 39 332.67 Node 0 412.79 4 Node 39 295.75 Node 0 . 344.23 127 Node 39 324.69 Node 0 439.91 128 Node 37.5 324.69 Node 0 440.41 • :. 131 Node 39 332.67 Node 0 324.23 3 Node 39 295.75 Node 0 334.23 10 Node 39 295.75 Node ,0 403.75 130 I 1432E .i None None 1 �0 I '" 314.Z'3: • • 141 Node 39 332.67 Node 0 421.83 it Node 39 295.75 Node 0 412.79 129 Node 39 - 332.67 Node 0 304.23 142 Node 39 332.67 Node 0 430.87 2 Node 39 295.75 Node 0 324.23 143 Node 39 332.67 Node 0 439.91 1 Node 39 295.75 Node 0 314.23 12 Node 39 295.75 Node 0 421.83 0 Node 39 295.75 Node 0 304.23 13 Node 39 245,75 Node 0 430.87 14 Node 39 295.75 Node 0 439.91 File: QUELL_1.tyc Date 2/25/2011 i Copyright©2002-2008 Tyco Fire and Building Products Page 9 Job: Coca-Cola Hydraulic Calculations/Fluid Delivery Time Analysis Node Data Node#I Hgroup K-Fact. Elev X Type Fitting Stat. Pres. Coverage Y gpm/psiV2 ft ft psi sq.ft ft 137 Node 39 332.67 Node 0 384.23 272 N 39 374,42, Node 0 430.87 273 Node 37.5 374.42 Node 0 439.91 • 95 324.69 Node Node 0 37.5 324.23 7 Node 39 295.75 Node 0 374.23 � 120 Node gg 324.69 Node 0 412.79 138 Node 39 332.67 Node 0 394.23 274 Node 39 374,42 Node , 0 439.91. 275 Node 37.5 374.42 Node 0 440.41 284 Node 39 382.67 Node 0 421.83 93 34.69 Node Node 0 37.5 314.23 96 Node 39 324.69 Node ,0 ;324.23, I . �E. !IV°C 34 12� , • 122 691 Node • 37.5 324. Node 0 421.83. 133 Node 39 332.67 Node 0 344,23 285 Node 39 382.67 Node 0 430.87 91 324.69 Node Node 0 37.5 304.23 94 Node 39 324.69 Node 0 314.23 5 Node 39 295.75 Node 0 354.23 8 Node 39 295.75 Node 0 384.23 123 Node gg 324.69 Node 0 421.83 124 Node 37.5 324.69 Node 0 430.87 132 Node gg 332.67 Node 0 334.23 139 Node 0 332.67 Node 39 403.75 286 Node gg 382.67 Node 0 439.91 File:QUELL_1.tyc Date 2/25/2011 Copyright C 2002-2008 Tyco Fire and Building Products Page 8 emramaramosimmorwg Job:Coca-Cola Hydraulic Calculations/Fluid Delivery Time Analysis Node Data Node# Hgroup K-Fact. Elev X Type Fitting Stat. Pres. Coverage Y gpm/psi'/2 ft ft psi sq.ft ft 267 Node 39 374.42 e Node 0 412.79 372 Node 39 417.58 Node 0 439.91 373 Node 37.5 417.58: Node 0 440.41 100 Node 37.5 324.69 Node 0 344.23 115 Node gg 324.69 Node 0 394.23 240 Node 37.5 374.42 Node 0 314.23 243 Node 39 374.42 Node 0 324.23 136 Node 39 332.67 Node 0 374.23 269 Node 37.5 374.42 Node 0 . 421.83 282 Node 39 382.67 Node 0 403.75- 98 324.69 Node Node 0 37.5 334.23 101 Node 39 324.69 NNcde n 344.23 I X24 ,e 238 Node 37.5 374. 2 • Node 0 304.23 241 Node 39 374.42 Node 0 314.23 135 Node 39 332.67 Node 0 364.23 270 Node 39 374.42 Node 0 421.83 271 Node 37.5 374.42 Node 0 430.87 283 Node 39 382.67 Node 0 412.79 99 324.69 gg 324.69 Node 0 334.23 118 Node gg 324.69 Node 0 403.75 119 6 Node Node 0 37.5 412.79 237 Node 37.5 374.42 Node 0 303.73 239 Node 39 374.42 Node 0 304.23 134 Node gg 332.67 Node 0 354.23 File:QUELL_1.tyc Date 2/25/2011 Copyright©2002-2008 Tyco Fire and Building Products Page 7 Job :Coca-Cola Hydraulic Calculations/Fluid Delivery Time Analysis • ' Node Data Node# Hgroup K-Fact. Elev X Type Ftting Stat. Pres. Coverage Y gpm/psi1h ft ft psi sq.ft ft 247 Node 37.5 374.42 Node 0 344.23 262 Node 39 374.42' Node 0 394.23 367 Node 37.5 417.58 Node 0 421.83 276 Node 39 382.67 Node 0 344.23 105 Node 37.5 324.69 Node 0 364.23 110 Node 39 324.69 Node 0 374.23 245 Node 37.5 374.42 Node 0 334.23 248 Node 39 374.42 Node 0 344.23 264 Node 37.5 374.42 Node 0 403.75 280 Node 39 382.67 Node 0 384.23 368 Node 39 417.58 Node 0 421.83 369 Node 37,5 417.58 Node I i 430..E7 Node . I Node 10 7.5 ,35 .23 i • 106 Node 39 324,69 . Node 0 364.23 112 Node 37.5 324.69 Node 0 384.23 246 Node 39 374.42 Node 0 334.23 265 Node 39 374.42 Node 0 403.75 266 Node 37.5 374.42 Node 0 412.79 281 Node 39 382.67 Node 0 394.23 370 Node 39 417.58 Node 0 430.87 371 Node 37.5 417.58 Node 0 439.91 104 Node 39 324.69 Node 0 354.23 113 Node 39 324.69 Node 0 384.23 114 Node 37.5 324.69 Node 0 394.23. 242 Node 37.5 374.42 Node 0 324.23 File:QUELL_1.tyc Date 2/25/2011 Copyright©2002-2008 Tyco Are and Building Products Page 6 Job : Coca-Cola Hydraulic Calculations/Fluid Delivery Time Analysis Node Data Node# Hgroup K-Fact. Elev X Type Fitting Stat. Pres. Coverage Y gpm/psi1/2 ft ft psi sq.ft ft 357 Node 37,5 417.58 Node 0 384.23 278 Node 39 382.67 Node 0 364.23 279 Node 39 382.67 Node 0 374.23 344 Node 37.5 417.58 Node 0 343.73 346 Node 39 417.58 Node 0 344.23 255 Node 37.5 - 374.42 Node 0 368.73 358 Node 39 417.58 Node 0 384.23 • 359 Node 37.5 417.58 Node 0 394.23 256 Node 37.5 374.42 Node 0 374.23 360 Node 39 417.58 • Node 0 394.23 252 Node 37.5 374.42 Node 0 364.23 257 Node -;9 374.42 Node 0 , .374,23 N J Node 0 .5 17403.75 ,. - 250 Node 37,5 374.42 , Node . 0 354.23 253 Node 39 374.42 Node 0 364.23 259 Node 37.5 374.42 Node 0 384.23 363 Node 39 417.58 Node 0 403.75 364 Node 37.5 417.5 Node 0 412.79 108 Node 37.5 324.69 Node 0 368.73 251 Node 39 374.42 Node 0 354.23 260 Node 39 374.42 Node 0 384.23 374.42 261 Node Node 0 37.5 394.23 365 Node 39 417.58 Node 0 412.79 277 Node 39 382.67 Node 0 354.23 109 Node 37.5 324.69 Node 0 374.23 File:QUELL_1.tyc Date 2/25/2011 Copyright©2002-2008 Tyco Fire and Building Products Page 5 r Job: Coca-Cola Hydraulic Calculations/Fluid Delivery Time Analysis Node Data Node# Hgroup K-Fact, Elev X Type Fitting Stat. Pres. Coverage Y gpm/psi1/2 ft ft psi sq.ft ft 312 Head 16.8 39 403.17 Head 0 364.23 313 Head 16.8 39 403.17 Head 0 374.23 334 Head 16.8 39 413.17 Head 0 364.23 335 Head 16.8 39 413.17 Head 0 374.23 349 Node 37.5 417.58 Node 0 364.23 , 350 Node 39 417.58 Node 0 364.23 352 Node 37.5 417.58 Node 0 367.73 353 Node 37,5 417.58 Node 0 368.73 354 Node 37.5 417.58 Node 0 374.23 355 Node 39 417.58 Node 0 374.23 • 374 Node 37.5 419.69 Node 0 362.45 Node Node 0 37.5.' 7.5 419.69 ■75 j.. 1423 ,Node' Node 1 D 1-5 ,. 5a 451 i • 377 423.17 3 423.17 Node 0 358.45 378 Node 3 423.17 Node 0 362.45 380 Node 37.5 423.17 Node 0 362.45 srcl SUPPLY -5 448.17 Supply 0 358.45 n100 NODE 4 423.17 Node 0 362.45 n101 NODE 5 423.17 Node 0 362.45 n102 NODE 6 423.17 Node 0 362.45 n103 NODE 7 423.17 Node 0 362.45 n104 NODE 8 423.17 Node 0 362.45 347 Node 37.5 417.58 Node 0 354.23 345 Node 37.5 417.58 Node 0 344.23 348 Node 39 417.58 Node 0 354.23 File:QUELL_1.tyc Date 2/25/2011 Copyright©2002-2008 Tyco Fire and Building Products Page 4 Job : Coca-Cola Fluid Delivery Time Analysis System Summary Dry pipe system System Volume(gal): 0 Fluid: Water©40F(4.4C) Gas: Air @ 40°F and 30psi Differential Trip Ratio: 21 Accelerator: Differential Presure: 0.1psi i Time Delay: 4s System Time Parameters Trip Time: 4.23s Fluid Delivery Time: 8.444s @ 313 Operating Time: 9.104s @ 335 Required Fluid Delivery Time: 305 Safety Factor: 71.9% Water Supply Parameters Flow Pressure 0 170 2500 97 3000 10 Parameters of the 4 Open Heads Head K-Factor Orifice Minimum Transit Time Fluid Oper. Time Open Time Operating Delivery SHALL NOT Pressure Time exceed 30s (gpm/psiV) (in) (psi) (s) (s) (s) (s) 312 16.8 0.772 22 3.599 7.829 8.503 0 313 16.8 0.772 22 4.214 8,444 9.104 3 334 16.8 0.772 22 3.205 7.435 8.503 6 335 16.8 0.772 22 3.775 8.005 9.104 8 Protocol: UL UL Statement . I.The U. Listing is for t1re ccicuietio❑ rriecie uses nt SoenkFDT for non-loopec tree type systems on!\. 2'it is Inc users responsibility-tc ensure accurate data input cerres oondin_.: o the actual appiication- v.The sprinkler system.must be installed in accordance with NFPAa1. 4.The calculations should ae performed for open sprinklers tha:yield the longest water delivery time. • S.In accordance with UL criteria, the safety factor for water delivery time calculation shall not be less than 10%. 6.The inspectors test should be conducted to determine the initial water delivery time for comparison to future testing as required by NFPA25. If the measured water delivery time is excessive, there may be a problem with the installation or calculation inputs and the system should be reviewed. 7.UL requires that the Pipe Data printout table must include the following fields: Pipe #, Type, Material,Absolute Roughness, Size, Internal Diameter, Fittings, Length, Equivalent Length,Total Length,Starting node #, . Ending node#, Hazen Williams coefficient. 8,UL requires that the Node Data printout table must include the following fields: Node#,Type, X and Y coordinates, Elevation, K-factor, Orifice Diameter, Open/Close, Minimum Operating Pressure. 9.SprinkFDT shall not be used to hydraulically calculate sprinkler systems in accordance with NFPA13, 10.Exhausters should not be used in calculation of water delivery time. Modelling Assumptions 1. Fluid is incompressible. 2. Pipes do not suffer deformation. 3. Fluid front is perpendicular to pipe centerline. 4. The dry pipe valve opens instantly. File:QUELL_1.tyc Date 2/25/2011 Copyright C)2002-2008 Tyco Fire and Building Products Page 3 ,.r N m t a ■ N N m m t`"r J J ✓ O. I Z E j • N 2+, 4) C N m y 5 o C V) J o rC W y J n' • C' L r o. 0 a O U N in U �• N a a) ro FLUID DELIVERY TIME CALCULATIONS for Job Information Project Name :Coca-Cola Contract No. : City: Northampton, MA Project Location: Date:2/25/2011 Contractor Information Name of Contractor: EFP Address: 237 Cedar Hill St. City: Marlboro, MA 01752 Phone Number: 508-485-8183 E-mail:rlombardo @sprinklers-r-us.com Name of Designer: R.Lombardo Authority Having Jurisdiction: Northampton Fire Dept. Water Supply Information Date: 5-27-10 Location: @ conn,to yard loop Source: City water with new pump Notes File:QUELL_1.tyc Date 2/25/2011 Copyright©2002-2008 Tyco Fire and Building Products Page 1 , r DPV (n102) — Pressure, psi — Flow, gpm 180-75_ -3,000 170= `2,900 165: -2,800 160: -2,700 155= -2,600 150= 145= -2,500 140-E _-2,400 135_ 772,300 130= =2,200 1253 - 2,100 120! -2 ,000 115= 110= E1,900 105 ;-1,800 100 =1,700 = I 95 .1,600 a 90- 1,500 0 v 85= _ -1,400 vi 807 cfl a 75 �1,30Q 3 r 70 1,200 65= -1,100 60---' :71,000 55-. - -900 507 - 45 1800 40 x700 357- 30- _500 25-:+ i l`400 20_ , 1:300 15 10:. 7zuu 5 1.100 0- IQ -5. I.-100 -10. 15 -200 0 2 4 6 8 10 12 14 16 18 20 22 24 26 28 30 32 Time, s File:QUELL_1.tyc Date 2/25/2011 Copyright©2002-2008 Tyco Fire and Building Products Page 2 srcl — Pressure, psi — Flow, gpm 185 180: 3,000 175= I-2,900 170: ;=2,800 165= ;-2,700 160^ -�, .72,600 155= 150` 72,500 145= ,:2,400 140: 1-2,300 135- ; 2,200 1301 - 125= 172,100 120' x-2,000 115= :1,900 110- _1,800 105 1007 ,:1,700 N 95= i=1,600 0. 90- x-1,500 0 " 85. =1,400 80- -1,300 a 75-i- :71,200 70; , 65 11,100 60. :1,000 55= ..900 50' ' ._800 45: -- 40= ;7700 35= :600 30= 1=500 25: 17400 20= '300 15 i- 10= 1`200 5-E 7100 0_ C70 -5_ ,- 100 -10= . -15: 7-200 , , , , , , , , , , , , , , , , , , , , i ; , , , , , , , , , , . , , r , , , , , , , , , , , , , , , , , , , , . , r , --300 0 2 4 6 8 10 12 14 16 18 20 22 24 26 28 30 32 Time, s File:QUELL_1.tyc Date 2/25/2011 Copyright©2002-2008 Tyco Fire and Building Products Page 1 Job :Coca-Cola Hydraulic Calculations/Fluid Delivery Time Analysis Node Data Node# Hgroup K-Fact. Elev X Type Fitting Stat. Pres. Coverage Y gpm/psi1/2 ft ft psi sq.ft ft 7 Node 39 295.75 • Node 0 374.23 - 8 Node 39 295.75 Node 0 384.23 9 Node 39 295.75 Node 0 394.23 10 Node 39 295.75 Node 0 403.75 11 Node 39 295.75 Node 0 412.79 12 Node 39 295.75 Node 0 421.83 246 Node 39 374.42 Node 0 334.23 265 Node 39 374.42 Node 0 403.75 266 Node 37.5 374.42 Node 0 412.79 363 Node 39 417.58 Node 0 403.75 364 Node 37.5 417.58 Node 0 412.79 95 324.69 Node Node 0 37.5 324.23 242 Node 37.5 374.42 Node 0 324.23 267 Node 39 374.42 . Node 0 412.79 279 Node 39 382.67 Node 0 374.23 365 Node 39 417.58 Node 0 412.79 93 324.69 Node Node 0 37.5 314.23 96 Node 39 324.69 Node 0 324.23 6 Node 39 295.75 Node 0 364.23 240 Node 37.5 374.42 Node 0 314.23 243 Node 39 374.42 Node 0 324.23 136 Node 39 332.67 Node 0 374.23 269 Node 37.5 374.42 Node 0 421.83 278 Node 39 382.67 Node 0 364.23 367 Node 37.5 417.58 Node 0 421.83 File:QUELL_1.tyc Date 2/25/2011 Copyright©2002-2008 Tyco Fire and Building Products Page 7 Job:Coca-Cola Hydraulic Calculations/Fluid Delivery Time Analysis Node Data Node# Hgroup K-Fact. Elev X Type Fitting Stat. Pres. Coverage Y gpm/psi1/2 ft ft psi sq.ft ft 259 Node 37.5 374.42 Node 0 384.23 347 Node 37.5 417.58 Node 0 354.23 350 Node 39 417.58 Node 0 364.23 357 Node 37.5 417.58 Node 0 384.23 104 Node 39 324.69 Node 0 354.23 251 Node 39 374.42 Node 0 354.23 260 Node 39 374.42 Node 0 384.23 261 Node 37.5 374.42 Node 0 394.23 345 Node 37.5 417.58 Node 0 344,23 348 Node 39 417.58 Node 0 354.23 358 Node 39 417.58 Node 0 384.23 359 Node 37.5 417.58 Node 0 394.23 100 Node 37.5 324.69 Node 0 344.23 247 Node 37.5 374.42 Node 0 344.23 262 Node 39 374.42 Node 0 394.23 344 Node 37.5 417.58 Node 0 343.73 346 Node 39 417.58 Node 0 344.23 360 Node 39 417.58 Node 0 394.23 98 324.69 Node Node 0 37.5 334.23 101 Node 39 324.69 Node 0 344.23 245 Node 37.5 374.42 Node 0 334.23 248 Node 39 374.42 Node 0 344.23 264 Node 37.5 374.42 Node 0 403.75 362 Node 37.5 417.58 Node 0 403.75 99 324.69 39 324.69 Node 0 334.23 File:QUELL_1.tyc Date 2/25/2011 Copyright©2002-2008 Tyco Fire and Building Products Page 6 Job :Coca-Cola Hydraulic Calculations/Fluid Delivery Time Analysis Node Data Node# Hgroup K-Fact. Elev X Type Fitting Stat. Pres. Coverage Y gpm/psis/z ft ft psi sq.ft ft n100 NODE 4 423.17 Node 0 362.45 n101 NODE 5 423.17 Node 0 362.45 n102 NODE 6 423.17 Node 0 362.45 n103 NODE 7 423.17 Node 0 362.45 n104 NODE 8 423.17 Node 0 362.45 13 Node 39 295.75 Node 0 430.87 14 Node 39 295.75 Node 0 439.91 110 Node 39 324.69 Node 0 374.23 113 Node 39 324.69 Node 0 384.23 115 Node 39 324.69 Node 0 394.23 118 Node 39 324.69 Node 0 403.75 120 Node 39 324.69 Node 0 412.79 123 Node 39 324.69 Node 0 421.83 .128 Node 37.5 324.69 Node 0 440.41 256 Node 37.5 374.42 Node 0 374.23 354 Node 37.5 417.58 Node 0 374.23 105 Node 37.5 324.69 Node 0 364.23 252 Node 37.5 374.42 Node 0 364.23 257 Node 39 374.42 Node 0 374.23 349 Node 37.5 417.58 Node 0 364.23 355 Node 39 417.58 Node 0 374.23 103 Node 37.5 324.69 Node 0 354.23 106 Node 39 324.69 Node 0 364.23 250 Node 37.5 374,42 Node 0 354.23 253 Node 39 374.42 Node 0 364.23 File:QUELL_1.tyc Date 2/25/2011 Copyright©2002-2008 Tyco Fire and Building Products Page 5 e Job:Coca-Cola Hydraulic Calculations/Fluid Delivery Time Analysis Node Data Node# Hgroup K-Fact. Elev X Type Fitting Stat. Pres. Coverage Y gpm/psis ft ft psi sq.ft ft 28 Head 16.8 39 296.25 Head 0 430.87 29 Head 16.8 39 296.25 Head 0 439.91 43 Head 16.8 39 306.25 Head 0 430.87 44 Head 16.8 39 306.25 Head 0 439.91 108 Node 37.5 324.69 Node 0 368.73 109 Node 37.5 324.69 Node 0 374.23 112 Node 37.5 324.69 Node 0 384.23 114 Node 37.5 324.69 Node 0 394.23 117 Node 37.5 324.69 Node 0 403.75 119 Node 37.5 324.69 Node 0 412.79 122 Node 37.5 324.69 Node 0 421.83 124 Node 37.5 324.69 Node 0 430.87 125 Node 39 324.69 • Node 0 430.87 • 126 Node 37,5 324.69 Node 0 439.91 127 Node 39 324.69 Node 0 439.91 255 Node 37.5 374.42 Node 0 368.73 352 Node 37.5 417.58 Node 0 367.73 353 Node 37.5 417.58 Node 0 368.73 374 Node 37.5 419.69 Node 0 362.45 375 Node 37.5 419.69 Node 0 367.73 376 Node 5 423.17 Node 0 358.45 377 Node 3 423.17 Node 0 358.45 378 Node 3 423.17 Node 0 362.45 380 Node 37.5 423.17 Node 0 362.45 srcl SUPPLY 5 448.17 Supply 0 358.45 File:QUELL_1.tyc Date 2/25/2011 Copyright O 2002-2008 Tyco Fire and Building Products Page 4 Job : Coca-Cola Fluid Delivery Time Analysis System Summary Dry pipe system System Volume(gal): 0 Fluid: Water @ 40F(4.4C) Gas: Air @ 40°F and 30psi Differential Trip Ratio: 21 Accelerator: Differential Presure: 0.1psi Time Delay:4s System Time Parameters Trip Time: 4.23s Fluid Delivery Time: 18.76s @ 29 Operating Time: 20.159s @ 29 Required Fluid Delivery Time: 30s Safety Factor: 37.5% Water Supply Parameters Flow Pressure 0 170 2500 97 3000 10 Parameters of the 4 Open Heads Head# K-Factor Orifice Minimum Transit Time Fluid Oper. Time Open Time Operating Delivery SHALL NOT Pressure Time exceed 30s (gpm/psi1/:) (in) (psi) (s) (s) (s) (s) 28 16.8 0.772 22 14.15 18.38 19.758 0 29 16.8 0.772 . 22 14.53 18.76 20.159 3 43 16.8 0.772 22 13.72 17.95 19.256 6 44 16.8 0.772 22 14.11 18.34 19.758 8 Protocol: UL UL Statement 1.The UL Listing is for the calculation model used by SprinkFDT for non-looped tree type systems only, 2.It is the users responsibility to ensure accurate data input corresponding to the actual application. 3.The sprinkler system must be installed in accordance with NFPA13. 4.The calculations should be performed for open sprinklers that yield the longest water delivery time. 5.In accordance with UL criteria,the safety factor for water delivery time calculation shall not be less than 10%. 6.The inspectors test should be conducted to determine the initial water delivery time for comparison to future testing as required by NFPA25. If the measured water delivery time is excessive,there may be a problem with the installation or calculation inputs and the system should be reviewed. 7.UL requires that the Pipe Data printout table must include the following fields: Pipe#,Type, Material,Absolute Roughness, Size,Internal Diameter, Fittings, Length, Equivalent Length,Total Length,Starting node#, Ending node#, Hazen Williams coefficient. 8.UL requires that the Node Data printout table must include the following fields: Node#,Type,X and Y coordinates,Elevation, K-factor,Orifice Diameter, Open/Close, Minimum Operating Pressure. 9.SprinkFDT shall not be used to hydraulically calculate sprinkler systems in accordance with NFPA13. 10.Exhausters should not be used in calculation of water delivery time. Modelling Assumptions 1. Fluid is incompressible. 2.Pipes do not suffer deformation. 3. Fluid front is perpendicular to pipe centerline. 4.The dry pipe valve opens instantly. File:QUELL_1.tyc Date 2/25/2011 Copyright()2002-2008 Tyco Fire and Building Products Page 3 N a) O> a Op iii y ro J J CD Z a I F Vr' co N C, U a N b a CI m L a ro ,-.: P- I k L J 01 Z ns __ a o . N N L1 '\ tN 0 4 / U / / / J r cc U \ \ a 0 U a 0 0 N N N N CO 0 FLUID DELIVERY TIME CALCULATIONS for • Job Information Project Name:Coca-Cola Contract No. : City: Northampton, MA Project Location: Date: 2/25/2011 Contractor Information Name of Contractor: EFP Address: 237 Cedar Hill St. City: Marlboro, MA 01752 Phone Number: 508-485-8183 E-mail:rombardo @sprinklers-r-us.com Name of Designer: R.Lombardo Authority Having Jurisdiction: Northampton Fire Dept. Water Supply Information Date: 5-27-10 Location: @ conn.to yard loop Source: City water with new pump Notes File:QUELL_1.tyc Date 2/25/2011 Copyright©2002-2008 Tyco Fire and Building Products Page 1 0 o T in I 1 - -_ __ I I _��-- I I 1 I '11 rl l 11111I�IRRRII�WN�I 11III11� sl R!1 I I 1;, I • ! 1 1 , I ; 111�RI1111 ! 1 I 1, 1 CIJ I I� worm a III ,! 1. i , 1 ' III UI01 ' 1 I I 00 1 I1HHl IIRi iIINI IILI1111111i ::' 111IIiIMI1111111i II " c9 111111111111 di' : 4 11111 I RUII, II11' '!I 111111111111 ' ' I 1 1111111111111111 ;, � � � , , M LTI �. ii' L_ 11,.�.I I�I !"`iR i'; 1 V� 111111 , . 1,5111, 1111111111111111111111111111 I! � 1 ,r1ij � I � I I � 1I II 11II�IRRIRI1111R 1 I I URRIII 1111 .II , 1 �i 'III►' !,, Q 1 R11111�RII I I�RR'IRII111R* 1 11 1 1 I '11111110 !! .I' II1RIROU d 11111F IIIIP� 1 11111111111111 'I V I !1 u i I I . 1,,,,,H 1 ,! 1!1, 11 1 1 1 1 I ll, ,I' I Pil I' 1I ' I ,I( �, I I 11i,I 1 'q 1 11 I'1 , ;1 1 1 1 1 I T T,,,, 1 1! i l! !,1 i!,' 1 1 , I I i I I ' 1, II ,H,1 .� i GI, i ;1 r I i, 1I 11 i t ■, 1 ' j �'' til l i' 111 I I 1 O' 1 , 1 1IL 4, l ;. 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LI" = 5 v) - I CD• tt 0 CO 1 1 1 CO at E 0_ I = cn , E I I 1 cn. CI CD 2 , I 0 0 0 47- I 1 1 1 0 •,-- I's: Fr3 @ 1 I I 1 0 •• 1- 1 1 1 1 22 0 1 , 1 i , , 0 1 , I 1 1 I 1 1 I , i I 1 cr) CY LI 0 1 I 1 1 I . ! 1 ! I 1 1 , , I o < I 1 , o a) I 1 , i I a) c- iti, 1 , . , --s- o 0 , , I 1 i 1 1 I I I , o -(1=5) g 0 — I o c .=is . o 1 1 1 1 1 co . c)0 't E I i 0 C O a) , , -,02 CC I i I I I I I co o o o o o co .cr o o N N N N 1- N- Coca-Cola Drawing Date: 2/25/11 12:28 Tyco Fire Products Page 9 HYD. Qa DIA. FITTING PIPE Pt Pt REF "Cu TYPES FTNG' S Pe Pv ******* NOTES ******* POINT Qt Pf/ft TOTAL Pf Pn PATH 7 FROM HYDRAULIC REFERENCE 901 TO E7 CONTINUED 96 . 12 2 . 635 1E 3 . 00 32 . 7 32 . 7 K = 16 . 80 901 C=120 1T 24 . 71 0 . 6 0 . 0 96 . 12 0 . 027 27. 71 0 . 7 32 . 7 Vel = 5 .71 E7 96. 12 34 . 1 K = 16 .45 UNITS - DIAMETER (INCH) LENGTH (FOOT) FLOW (GPM) PRESSURE (PSI) Coca-Cola Drawing Date: 2/25/11 12:28 Tyco Fire Products Page 8 HYD. Qa DIA. FITTING PIPE Pt Pt REF "C" TYPES FTNG' S Pe Pv ******* NOTES ******* POINT Qt Pf/ft TOTAL Pf Pn PATH 5 FROM HYDRAULIC REFERENCE 909 TO E5 CONTINUED 80 . 22 2 .635 9 . 17 22 . 8 22 . 8 K = 16 . 80 908 C=120 0 . 00 0 . 0 0 . 0 160 . 14 0. 069 9 . 17 0 . 6 22 . 8 Vel = 9. 51 81. 33 2 .635 9. 17 23 .4 23 .4 K = 16 . 80 907 C=120 0 . 00 0 . 0 0 . 0 241. 46 0 . 147 9 . 17 1.3 23 .4 Vel = 14 .35 83 . 63 2 . 635 1E 3 . 00 24 . 8 24 . 8 K = 16 .80 906 C=120 1T 24 . 71 0 . 6 0 . 0 325 . 10 0 .255 27 . 71 7 . 1 24 . 8 Vel = 19 .31 E5 325 . 10 32 .:5: K = 57 . 02 PATH 6 FROM HYDRAULIC REFERENCE 905 TO E6 80 . 78 2 . 635 9 . 17 23 . 1 23 . 1 K = 16 .80 . 905 C=120 0 . 00 0 . 0 ' 0. 0 80 . 78 0 . 019 9. 17 0 .2 23 . 1 Vel = 4 .80 81 . 09 2 .635 9 . 17 23 . 3 23 . 3 K = 16. 80 904 C=120 0 . 00 0 . 0 0 . 0 161 . 87 0 . 070 9 . 17 0 . 6 23 .3 Vel = 9. 62 82 . 20 2 . 635 9 . 17 23 . 9 23 . 9 K = 16 .80 903 C=120 0 . 00 0 . 0 0 . 0 244 . 07 0 .150 9. 17 1.4 23 . 9 Vel = 14 .50 84 . 53 2 . 635 1E 3 . 00 25 .3 25 .3 K = 16. 80 902 0=120 1T 24. 71 0 . 6 0 . 0 328 . 60 0 .260 27 . 71 7 .2 25 .3 Vel = 19 .52 E6 328 . 60 " 33 .2 ' K = 57 . 05 PATH 7 FROM HYDRAULIC REFERENCE 901 TO E7 UNITS - DIAMETER (INCH) LENGTH (FOOT) FLOW (GPM) PRESSURE (PSI) Coca-Cola Drawing Date: 2/25/11 12:28 Tyco Fire Products Page 7 HYD. Qa DIA. FITTING PIPE Pt Pt REF "C" TYPES FTNG' S Pe Pv ******* NOTES ******* POINT Qt Pf/ft TOTAL Pf Pn PATH 3 FROM HYDRAULIC REFERENCE 917 TO E3 CONTINUED 80 . 40 2 . 635 9 . 17 22 . 9 22 . 9 K = 16 . 80 915 0=120 0. 00 0. 0 0 . 0 238 . 71 0 . 144 9. 17 1. 3 22 . 9 Vel = 14 . 18 82 . 69 2 . 635 lE 3 . 00 . 24 .2_ . 24 .2 K = 16 .80 914 0=120 1T 24.71 0 . 6 0 . 0 321 .40 0 . 250 27 . 71 6 . 9 24 .2 Vel = 19. 09 E3 321 . 40 31. 8 K = 57 .00 PATH 4 FROM HYDRAULIC REFERENCE 913 TO E4 79 . 34 2 . 635 9. 17 22 .3 22 .3 K = 16.80 913 0=120 0 . 00 0 .'0 0 . 0 79 . 34 0 . 019 9 . 17 0. 2 22 .3 Vel = 4 .71 79 . 65 2 . 635 9. 17 22 . 5 22 . 5 K = 16. 80 912 - C=120 0 . 00 0 . 0 0 . 0 158 . 99 0 . 068 9 . 17 0 . 6 22 . 5 Vel = 9.45 80 . 74 2 . 635 9. 17 23 . 1 23 . 1 K = 16. 80 911 0=120 0 . 00 0 . 0 0 . 0 239 . 73 0 . 145 9. 17 1.3 23 . 1 Vel = 14 .24 83 . 04 2 . 635 1E :3..0.0 : 24, 4 24.,4 K = 16.80 910 0=120 1T 24 . 71 0 . 6 0 . 0 322 . 77 0 . 252 27 . 71 7 . 0 24 .4 Vel = 19. 18 E4 322 . 77 32 . 1 K = 57 .01 PATH 5 FROM HYDRAULIC REFERENCE 909 TO E5 79 . 91 2 . 635 9. 17 22 . 6 22 . 6 K = 16 . 80 909 0=120 0 . 00 0 . 0 0 . 0 79 . 91 0 . 019 9. 17 0 . 2 22 . 6 Vel = 4 .75 UNITS - DIAMETER (INCH) LENGTH (FOOT) FLOW (GPM) PRESSURE (PSI) Coca-Cola Drawing Date: 2/25/11 12:28 Tyco Fire Products Page 6 HYD. Qa DIA. FITTING PIPE Pt Pt REF "C" TYPES FTNG' S Pe Pv ******* NOTES ******* POINT Qt Pf/ft ' TOTAL Pf Pn PATH 1 FROM HYDRAULIC REFERENCE 925 TO W (PRIMARY PATH) 8 . 249 1E 20 . 81 57 . 1 57 . 1 E8 C=120 20. 02 0 . 0 0. 0 2035 . 31 0 . 029 40 . 83 1 .2 57 . 1 Vel = 12 . 34 W 2035 . 31 58 .3 K = 266.47 PATH 2 FROM HYDRAULIC REFERENCE 921 TO E2 78 . 84 2 . 635 9. 17 22 . 0 22 . 0 K =16 . 80 921 0=120 0 . 00 0 . 0 0 . 0 78 . 84 0 . 019 9. 17 0 .2 22 . 0 Vel = 4 . 68 79 . 15 2 . 635 9. 17 22 .2 22 .2 K = 16 . 80 920 0=120 0 . 00 0. 0 0 . 0 157 . 99 0 . 067 9. 17 0 . 6 22 .2 Vel = 9. 39 80 . 24 2 . 635 9. 17 22 . 8 22 . 8 K = 16. 80 919 0=120 0 . 00 0 . 0 0 . 0 238 .23 0 . 144 9. 17 1. 3 22 . 8 Vel = 14 . 15 82 . 52 2 .635 1E 3 . 00 24 . 1 24 . 1 K =16 . 80 918 0=120 1T ' 24 . 71 0 . 6 0 . 0 320 . 75 0 .249 27. 71 6. 9 24 . 1 Vel = 19. 06 E2 320 . 75 31. 7 K = 56. 99 PATH 3 FROM HYDRAULIC REFERENCE 917 TO E3 79 . 00 2 . 635 9. 17 22 . 1 22 . 1 K = 16. 80 917 0=120 0. 00 0 . 0 0 . 0 79 . 00 0 . 019 9. 17 0 . 2 22 . 1 Vel = 4 . 69 79 . 31 2 . 635 9. 17 22 .3 22 . 3 K = 16 . 80 916 0=120 0. 00 0. 0 0 . 0 158 . 3 1 0 . 067 9. 17 0 . 6 22 . 3 Vel = 9 .41 UNITS - DIAMETER (INCH) LENGTH (FOOT) FLOW (GPM) PRESSURE (PSI) Coca-Cola Drawing Date: 2/25/11 12:28 Tyco Fire Products Page 5 HYD. Qa DIA. FITTING PIPE Pt Pt REF "C" TYPES FTNG'S Pe Pv ******* NOTES ******* POINT Qt Pf/ft TOTAL Pf Pn PATH 1 FROM HYDRAULIC REFERENCE 925 TO W (PRIMARY PATH) 78 . 80 2 . 635 9. 17 22 . 0 22 . 0 K = 16 . 80 925 0=120 0. 00 0 . 0 0 . 0 78 . 80 0 . 019 9. 17 0 . 2 22 . 0 Vel = 4 . 68 79 . 10 2 . 635 9. 17 22 .2 22 .2 K = 16 . 80 924 0=120 0. 00 0 . 0 0 . 0 157 . 90 0 . 067 9. 17 0 .6 22 .2 Vel = 9 . 38 80 . 19 2 . 635 9. 17 22 . 8 22 . 8 K = 16 . 80 923 0=120 0. 00 0 . 0 0 . 0 238 . 10 0 . 143 9. 17 1 . 3 22 . 8 Vel = 14 . 15 82 . 47 2 . 635 1E 3 . 00 24 . 1 24 . 1 K = 16 . 80 922 0=120 iT 24. 71 0 . 6 0 . 0 320 . 57 0 . 249 27. 71 6 . 9 24 . 1 Vel = 19 . 05 6. 357 10. 00 31 . 6 31. 6 El C=120 0. 00 0 . 0 0 . 0 320 . 57 0 . 003 10 . 00 0 . 0 31 . 6 Vel = 3 . 27 320 . 75 6 . 357 10 . 00 . 31 . 7 31 . 7 E2 C=120 0. 00 0 . 0 0 . 0 See PATH 2 641. 32 0 . 012 10. 00 0 . 1 - 31 . 7 Vel = 6 .55 321.40 6 . 357 10 . 00 31. 8 31 . 8 E3 C=120 0. 00 0 . 0 0 . 0 See PATH 3 962 . 72 0 . 026 10. 00 0 . 3 31. 8 Vel = 9 . 83 322 . 77 6 . 357 10 . 00 32 . 1 32 . 1 E4 C=120 0. 00 0 . 0 0 . 0 See PATH 4 1285 .49 0 . 045 10 . 00 0 .4 32 . 1 Vel = 13 . 12 325 . 10 6 . 357 10. 00 32 . 5 32 . 5 E5 C=120 0 . 00 0 . 0 0 . 0 See PATH 5 1610 . 59 0. 068 10 . 00 0 . 7 32 . 5 Vel = 16 .44 328 . 60 6 . 357 10. 00 33 .2 33 .2 E6 C=120 0 . 00 0 . 0 0 . 0 See PATH 6 1939 . 18 0 . 095 10. 00 1. 0 33 .2 Vel = 19 . 79 96 . 12 6 . 357 2E 147. 99 34 . 1 34 . 1 E7 C=120 1T 72 . 93 0 . 0 0 . 0 See PATH 7 2035 .31 0 . 104 220 . 91 23 . 0 34 . 1 Vel = 20 . 78 UNITS - DIAMETER (INCH) LENGTH (FOOT) FLOW (GPM) PRESSURE (PSI) Coca-Cola Drawing Date: 2/25/11 12:28 Page 4 NODE ELEVATION SPRINKLER PRESSURE ACTUAL MINIMUM ACTUAL • NUMBER K-FACTOR FLOW FLOW DENSITY (FT) (GPM/ (PSIA ) ) (PSI) (GPM) (GPM) (GPM/SQ.FT) 901 39 . 00 16 . 80 32 . 7 96 . 1 78 . 8 0. 96 902 39.00 16 . 80 25. 3 84 . 5 78 . 8 0 .85 903 39 . 00 16 . 80 • 23".9 • 82 .2 78 . 8 0 . 82 904 39 . 00 16 . 80 ' 23 . 3 81 . 1 78 . 8 0 . 81 905 39 .00 16 . 80 23 . 1 80 . 8 78 .8 0.81 906 39 . 00 16 . 80 24 . 8 83 .6 78 . 8 0 .84 907 39 . 00 16 . 80 23 .4 81. 3 78 . 8 0 . 81 908 39 . 00 16 . 80 22 . 8 80. 2 78 . 8 0. 80 909 39.00 16 .80 22. 6 79 . 9 78 . 8 0. 80 910 39 . 00 16 . 80 24 .4 83 . 0 78 . 8 0 .83 911 39 .00 16 . 80 23 . 1 80 . 7 78 . 8 0.81 912 39 . 00 16 . 80 22 . 5 79 . 6 78 . 8 0 .80 913 39 .00 16 . 80 22. 3 79 .3 78 . 8 0 . 79 914 39 .00 16 . 80 24 . 2 82 . 7 78 . 8 0 . 83 915 39 . 00 16 . 80 22 . 9 80 .4 78 . 8 0 .80 916 39 . 00 16 . 80 22 .3 79 .3 78 . 8 0.79 917 39. 00 16 . 80 22 . 1 79 . 0 78 . 8 0 .79 918 39 .00 16 . 80. 24 . 1 82 . 5 78 . 8 0.83 919 39 . 00 16 . 80 22 . 8 80 . 2 78 . 8 0 . 80 920 39. 00 16 . 80 22 .2 79 . 1 78 . 8 0.79 921 39 . 00 16 . 80 22 . 0 78 . 8 78 . 8 0 .79 922 39. 00 16 . 80 24. 1 82 . 5 78 . 8 0 .82 923 39.00 16 . 80 22 . 8 80 . 2 78 . 8 0 .80 924 39 . 00 . 16 . 80 22 .2 79 . 1 78 . 8 0.79 925 39 .00 16 . 80 22 . 0 78 . 8 78 . 8 0.79 El 37 .50 31. 6 . E2 37 . 50 31. 7 ' E3 37 . 50 31. 8 E4 37 . 50 32. 1 E5 37 .50 32 . 5 E6 37 .50 33 .2 E7 37. 50 34 . 1 E8 37 .50 57 . 1 W 37 .50 58. 3 Max velocity of 20 . 78 occurs in the pipe from E8 TO E7 Coca-Cola Drawing Date: 2/25/11 12:28 Page 3 FITTING NAME TABLE ABBREV. NAME C Coupling E 90 ' Standard Elbow F 45 ' Elbow S Straight Flow Thru Tee T 90 ' Flow Thru Tee ✓ Valve LEGEND HYD REF Hydraulic reference . Refer to accompanying flow diagram. _ K FACTOR Flow factor for open head or path where Flow (gpm) = K x -\/P Qa Flow added or subtracted Qt Total flow DIA Actual internal diameter of pipe C Hazen Williams pipe roughness factor Pf/ft Friction loss per foot of pipe PIPE Length of pipe FTNG' S Number of fittings . See table above. TOTAL Total length (PIPE + FTNG' S) Pt Total pressure (psi) at fitting Pe Pressure due to change in elevation where Pe = 0 . 433 x,change in elevation Pf Friction loss (psi) to fitting where Pf = 1 x 4 . 52 x (Q/C) A1 . 85 / IDA4 . 87 Pv Velocity pressure (psi) where Pv = 0 . 001123 x Q'2/ID"4 Pn Normal pressure (psi) , where Pn = Pt - Pv NOTES: - Pressures are balanced to 0 .01 psi. Pressures are listed to 0 . 1 psi . Addition may vary by 0 . 1 psi due to accumulation of round off . - Calculations conform to NFPA 13 . - Velocity Pressures are not considered in these Calculations Coca-Cola Drawing Date: 2/25/11 12:28 HYDRAULIC CALCULATION DETAILS HYDRAULIC FLOW LOSS QTY DESCRIPTION LENGTH C ID gpm psi TOTALS Hydr Ref W Required at Hyd Area 9 2035 58.3 psi Elevation Change 37 ' 6" 16 . 2 1 8" Grvd Butterfly Valve VIC "708W" 12 ' 120 8 . 071 2035 0 .4 1 8" Grvd Deluge Valve Tyco "DV-5" CHART LOSS 2035 3 . 5 1 8" Grvd Butterfly Valve VIC "708W" 12 ' 120 8 . 071 2035 0 .4 1 8" Groove-O-Let 35 ' 120 8 . 071 2035 1. 2 1 Pipe 8" 10x21 CSC Grvd 3 ' 120 8 .249 2035 0 . 1 1 8" Grvd Tee FIRELOCK 35 ' 120 8 . 071 2035 1. 2 1 8" Flngd 90 Ell 18 ' 120 8 . 071 2035 0 . 6 1 Pipe 8" DIx18 25 ' 140 8 . 390 2035 0 . 5 Fixed Flow Outside Hose Allow. 500 gpm Hydr Ref R1 Required at Source 2535 82.5 psi Water Source231 . 0 psi static, 97 . 0 psi residual @ 2500 gpm 2535 gpm 93 .5 psi SAFETY PRESSURE 11.0 psi Available Pressure of 93 .5 psi Exceeds Required Pressure of 82 .5 psi This is a safety margin of 11.6 psi or 12 % of Supply Maximum Water Velocity is 20 . 8 fps Coca-Cola Drawing Date: 2/25/11 12:28 HYDRAULIC DESIGN INFORMATION SHEET Job Name: Coca-Cola Location: Northampton, MA Drawing Date: Remote Area Number: 9 Contractor: EFP Telephone : 508-485-8183 237 Cedar Hill St . Marlboro, MA Designer: R.L. Calculated By:SprinkCAD www. sprinkcad. com 451 N. Cannon Ave . ; _ • Lansdale, PA 19446 Construction: Steel Occupancy:Storage Reviewing Authorities :Northhampton Fire Dept. SYSTEM DESIGN Code:Quell Data Hazard: Class 2 System Type:WET Area of Sprinkler Oper. 2250 sq ftj Sprinkler or Nozzle Density (gpm/sq ft) 0 . 788 I Make: TYC Area per Sprinkler 100 . 0 sq ftI Model: K17 Hose Allowance Inside 0 gpm I K-Factor: 16 . 80 Hose Allowance Outside 500 gpm I Temperature Rating: 286 CALCULATION SUMMARY 25 Flowing Outlets gpm Required: 2535. 3 psi Required: 82 . 5 @ Source • WATER SUPPLY Water Flow Test ' Pump Data Date of Test 5-27-2010 I Rated Capacity 0 gpm I Static Pressure 231. 0 psi ( Rated Pressure 0. 0 psi I Residual Pres 97 . 0 psi I Elevation : 0 At a Flow of 2500 gpm I Make: Elevation 0" I Model : I Location: @ fire pump discharge Source of Information: Calculated SYSTEM VOLUME 6290 Gallons Notes: • , O O I I ! 1 m 1. :111 1 1 I I I TII I (1 1 I MI II 1 � ■ I 1_�_____'_-___ _.;___ _ _____ _. ____ _. 1. __ ._ _ _ -1----"----- I 1 11 I 1 I I 'I+'I lr 11 11 I; , 1 „ I I i t I 1( l _ I I I I C I i . 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I Id 11 !IIII IIIIII! I III III FI!III I� 1 111;111 O O O O O O O O O O O O O O O O O O O O O O O O CO N r 0 O) 00 - CO LC) "Cr CO N c- 0 O CO N- CCJ CC, ci' CO N r„4. N N N N e-- c- i- c- r c- e- T- e- 6!sd `ainsseid O O .N I 1 1 CO 0 O O _ I 1 ` � c d W L In C YLL ,�a C O ^ ` UO l∎ Q , 0NN � O O , . I I I N 1 ■ O d d Q 1 O C) Cr) CT) I j g 0 0 I I 1 1 N o I 1 1 E �• � � Cr) o 7) = I O x . 0 I o E a �.Q I i I I o ooOCD I N O oi M N V' I I I I Ics a� 2oa. 0 - I I I I 1 0 co r.t CL. F- c) a a c E CI a v) 2 CCC • 1 : o NANO I ( 1 I I .,.-`1) - • i L o I 7 N N i I I I I 1 N ) I o a I O I I I O 1 rz A i• � = � 0 I , � 1 1 I i ; 1 1 1 1 1 - o 1 l c> °' i H I I I f I 1 I �o .DOt E I 1 I ► 1 i I I -) UZ° IY 1 1 1 1 1 I I 1 I i I 1 . I 1 1 1 N N N t- 1- Coca-Cola Drawing Date: 2/25/11 12:26 Tyco Fire Products Page 9 HYD. Qa DIA. FITTING PIPE ' Pt Pt REF "C" TYPES FTNG'S Pe Pv ******* NOTES ******* POINT Qt Pf/ft TOTAL Pf Pn PATH 7 FROM HYDRAULIC REFERENCE 801 TO D7 CONTINUED 96. 83 2 . 635 1E 5 . 17 33 .2 33 . 2 K = 16 . 80 801 C=120 1T 24. 71 0 .6 0. 0 96 . 83 0 . 027 29 . 88 0 . 8 33 .2 Vel = 5 . 75 D7 96 . 83 34 .7 K = 16 .44 UNITS - DIAMETER (INCH) LENGTH (FOOT) FLOW (GPM) PRESSURE (PSI) Coca-Cola Drawing Date: 2/25/11 12:26 Tyco Fire Products Page 8 HYD. Qa DIA. FITTING PIPE Pt Pt REF "C" TYPES FTNG'S Pe Pv ******* NOTES ******* POINT Qt Pf/ft TOTAL Pf Pn PATH 5 FROM HYDRAULIC REFERENCE 809 TO D5 CONTINUED 80 . 11 2 . 635. 9. 67 . 22 . 7 22 . 7 K = 16. 80 808 0=120 0. 00 0 . 0 0 . 0 159. 90 0 . 069 9. 67 0 .7 22 . 7 Vel = 9. 50 81 .27 2 . 635 9. 67 23 .4 23 .4 K = 16 . 80 807 0=120 0 . 00 0 . 0 0 . 0 241. 18 0 . 147 9. 67 1.4 23 .4 Vel = 14 .33 83 . 70 2 . 635 1E 5 . 17 24 .8 24 . 8 K = 16. 80 806 0=120 1T 24 . 71 0 . 6 0 . 0 324 . 88 0 . 255 29: 88 7 . 6 24 . 8 Vel = 19 .30 D5 324 . 88 33 . 1 K = 56 . 48 PATH 6 FROM HYDRAULIC REFERENCE 805 TO D6 80 . 60 2 . 635 9. 67 23 . 0 23 . 0 K = 16 . 80 805 0=120 0 . 00 0 . 0. 0 . 0 80 . 60 0 . 019 9. 67 0 . 2 ' 23 . 0 Vel = 4 . 79 80 . 92 2 . 635 9: 67 - 23 .2 23 . 2 K = 16 . 80 804 0=120 0. 00 0. 0 0 . 0 161 . 52 0 . 070 9. 67 0. 7 23 . 2 Vel = 9 . 60 82 . 09 2 . 635 9.67 23 . 9 23 . 9 K = 16. 80 803 0=120 0 . 00 0 . 0 0 . 0 243 .62 0 . 150 9. 67 1.4 ' 23 . 9 Vel = 14 .47 84 . 54 2 . 635 1E 5. 17 25 .3 25 . 3 K = 16 . 80 802 0=120 1T 24 .71 0 . 6 0 . 0 328 . 16 0 .260 29. 88 7 . 8 25 .3 Vel = 19. 50 D6 328 . 16 33 .7 K = 56 . 50 PATH 7 FROM HYDRAULIC REFERENCE 801 TO D7 UNITS - DIAMETER (INCH) LENGTH (FOOT) FLOW (GPM) PRESSURE (PSI) Coca-Cola Drawing Date: 2/25/11 12:26 Tyco Fire Products Page 7 HYD. Qa DIA. FITTING PIPE Pt Pt REF "C" TYPES . FTNG' S ,.. Pe Pv ******* NOTES ******* POINT Qt Pf/ft TOTAL Pf Pn PATH 3 FROM HYDRAULIC REFERENCE 817 TO D3 CONTINUED 80 .45 2 . 635 9. 67 22 . 9 22 . 9 K = 16. 80 815 0=120 0. 00 0 . 0 0 . 0 238 . 74 0 . 144 9 . 67 1 .4 22 . 9 Vel = 14 . 18 82 . 86 2 . 635 1E 5 . 17 24 . 3 24 . 3 K = 16 . 80 814 C=120 1T 24. 71 0 .6 0 . 0 321 .59 0 . 250 29. 88 7 .5 24 .3 Vel = 19. 11 D3 321 . 59 32 .4 K = 56 .46 PATH 4 FROM HYDRAULIC REFERENCE 813 TO D4 79 .28 2 . 635 9 . 67 22 .3 22 .3 K = 16 . 80 813 0=120 0. 00 0 . 0 0 . 0 79 .28 0 . 019 5 . 67 - 0 .2: 22.'3' Vel = -4 . 71 79 . 60 2 . 635 9 . 67 22 . 5 22 . 5 K = 16 . 80 812 0=120 0 . 00 0 . 0 0 . 0 158 . 88 0 . 068 9 . 67 _ 0 . 7 22 . 5 Vel = 9 .44 80 . 76 2 .635 9 . 67 23 .1 23 . 1 K = 16 . 80 811 0=120 0 . 00 0 . 0 0 . 0 239 . 64 0 . 145 9. 67 1 .4 23 . 1 Vel = 14 .24 83 . 17 2 .635 1E 5 . 17 24 .5 24 . 5 K = 16 . 80 810 C=120 1T 24 . 71 0 . 6 0 . 0 322 . 81 0 .252 29 . 88 7 .5 24 .5 Vel = 19. 18 D4 322 . 81 32 .7 K = 56 . 47 PATH 5 FROM HYDRAULIC REFERENCE 809 TO D5 79 .79 2 .635 9 . 67 22 . 6 22 . 6 K = 16 . 80 809 C=120 0 . 00 _ 0 . 0 0 . 0 . 79 . 79 0 . 019 9 . 67 0 .2 22 . 6 Ve7. = 4 . 74 UNITS - DIAMETER (INCH) LENGTH (FOOT) FLOW (GPM) PRESSURE (PSI) Coca-Cola Drawing Date: 2/25/11 12:26 Tyco Fire Products Page 6 HYD. Qa DIA. FITTING PIPE Pt Pt REF "C" TYPES FTNG' S Pe Pv ******* NOTES ******* POINT Qt Pf/ft TOTAL Pf Pn PATH 1 FROM HYDRAULIC REFERENCE 825 TO W (PRIMARY PATH) 8 .249 2E 140. 02 47 . 8 47. 8 D8 C=120 40. 04 0 . 0 0 . 0 2036 . 15 0 . 029 180. 06 5. 3 47. 8 Vel = 12 .34 W 2036 .15 53 . 1 K = 279 . 37 PATH 2 FROM HYDRAULIC REFERENCE 821 TO D2 78 . 84 2 . 635 9. 67 22 . 0 22 . 0 K = 16 . 80 821 C=120 0 . 00 0 . 0 0 . 0 78 . 84 0 . 019 9. 67 0 .2 22 . 0 Vel = 4 . 68 79 . 16 2 . 635 9.67 22 .2 22 .2 K = 16 . 80 820 C=120 0. 00 0 . 0 0 . 0 158 . 00 0 . 067 9. 67 0 . 6 22 .2 Vel = 9 . 39 80 . 31 2 . 635 9 . 67 22 . 9 22 . 9 K = 16 . 80 819 C=120 0 . 00 0 . 0 0 . 0 238 . 31 0 . 144 9. 67 1 .4 22 . 9 Vel = 14 . 16 82 . 71 2 . 635 1E 5 : 17 24 .2 24 .2 K = 16 . 80 818 C=120 1T 24 . 71 0 . 6 0 . 0 321 . 02 0 .249 29 . 88 7 .4 24 . 2 Vel = 19 . 07 D2 321. 02 32 . 3 K = 56 .45 PATH 3 FROM HYDRAULIC REFERENCE 817 TO D3 78 . 98 2 . 635 9. 67 22 . 1 22 . 1 K = 16 . 80 817 C=120 0. 00 0 . 0 0 . 0 78 . 98 0 . 019 9 . 67 0 .2 22 . 1 Vel = 4 . 69 79 . 30 2 . 635 9. 67 22 . 3 22 . 3 K = 16 . 80 816 C=120 0 . 00 0 . 0 0 . 0 158 . 28 0 . 067 9. 67 0 . 7 22 . 3 Vel = 9 . 40 • UNITS - DIAMETER (INCH) LENGTH (FOOT) FLOW (GPM) PRESSURE (PSI) Coca-Cola Drawing Date: 2/25/11 12:26 Tyco Fire Products Page 5 HYD. Qa DIA. FITTING PIPE Pt Pt REF BC" TYPES FTNG' S Pe Pv ******* NOTES ******* POINT Qt Pf/ft TOTAL Pf Pn PATH 1 FROM HYDRAULIC REFERENCE 825 TO W (PRIMARY PATH) 78 . 80 2 . 635 9 . 67 22 . 0 22 . 0 K = 16. 80 825 C=120 0 . 00 0 . 0 0 . 0 78 . 80 0 . 019 9 :67 0 .2 22 . 0 Vel = 4. 68 79 . 12 2 . 635 9 . 67 22 .2 22 . 2 K = 16. 80 824 C=120 0 . 00 0 . 0 0 . 0 157 . 92 0 . 067 9 . 67 0 . 6 22 .2 Vel = 9.38 80 . 27 2 . 635 9 . 67 22 . 8 22 . 8 K = 16. 80 823 C=120 0 . 00 0 . 0 0 . 0 238 . 19 0 . 143 9 . 67 1 . 4 22 . 8 Vel = 14 . 15 82 . 67 2 . 635 1E 5 . 17 24 .2 24 . 2 K = 16 . 80 822 C=120 1T 24 . 71 0 ..6 . 0 . 0 320 . 86 0 .249 29 . 88 7 .4 24 . 2 Vel = 19. 06 6 . 357 9 : 04 32 . 3 32 . 3 D1 C=120 0 . 00 0 . 0 0 . 0 320 . 86 0 . 003 9. 04 0 . 0 32 . 3 Vel = 3 . 28 321 . 02 6 . 357 9 . 04 32 . 3 32 . 3 D2 0=120 0 . 00 0 . 0 0 . 0 See PATH 2 641 . 88 0 . 012 9 . 04 0 . 1 32 .3 Vel = 6 . 55 321 .59 6 . 357 9 . 04 32 . 4 32 .4 D3 C=120 0 . 00 - 0 . 0 0 . 0 See PATH 3 963 .47 0 . 026 9 . 04 0 . 2 32 .4 Vel = 9 . 83 322 . 81 6 . 357 9 . 04 32 . 7 32 . 7 D4 C=120 0 . 00 0 . 0 0 . 0 See PATH 4 1286 .28 0 . 045 9 . 04 0 .4 32 . 7 Vel = 13 . 13 324 . 88 6 . 357 9 . 53 33 . 1 33 . 1 D5 C=120 0 . 00 0 . 0 0 . 0 See PATH 5 1611 . 16 0 . 068 9 . 53 0 . 6 33 . 1 Vel = 16 .45 328 . 16 6 . 357 10 . 00 33 . 7 33 . 7 D6 C=120 0 . 00 0 . 0 0 . 0 See PATH 6 1939 .32 0 . 095 10 . 00 1. 0 33 . 7 Vel = 19 . 80 96 . 83 6. 357 1T 88 . 50 34 . 7 34 . 7 D7 0=120 37 . 72 0 . 0 0 . 0 See PATH 7 2036 . 15 0 . 104 126 . 22 13 .2 34 . 7 Vel = 20 . 78 UNITS - DIAMETER (INCH) LENGTH (FOOT) FLOW (GPM) PRESSURE (PSI) Coca-Cola Drawing Date: 2/25/11 12:26 Page 4 NODE ELEVATION SPRINKLER PRESSURE ACTUAL MINIMUM ACTUAL NUMBER K-FACTOR FLOW FLOW DENSITY (FT) (GPM/ (PSIA ) ) (PSI) (GPM) (GPM) (GPM/SQ.FT) 801 39. 00 16 . 80 33 .2 96. 8 78 . 8 0.97 802 39 . 00 16 . 80 25.3 84 .5 78 . 8 0 .85 803 39 . 00 16 . 80 23 .9 82. 1 78 . 8 0.82 804 39 . 00 16 . 80 23 .2 80 . 9 78 . 8 0.81 805 39 . 00 16 . 80 23 . 0 80.6 78 . 8 0.81 806 39. 00 16 . 80 24 .8 83 . 7 78 . 8 0.84 807 39 . 00 16 . 80 23 .4 81. 3 78 . 8 0 .81 808 39. 00 16 . 80 22 . 7 80. 1 78 . 8 0.80 809 39 . 00 16 . 80 22 . 6 79. 8 78 . 8 0 .80 810 39. 00 16 . 80 24 . 5 83 .2 78 . 8 0.83 811 39. 00 16 . 80 23 . 1 80 . 8 78 . 8 0.81 812 39 . 00 16 . 80 22 . 5 79. 6 78 . 8 0 .80 813 39 . 00 16 . 80 22 . 3 79.3 78 . 8 0.79 814 39 . 00 16 . 80 24 . 3 82 . 9 78 . 8 0.83 815 39. 00 16 .80 22 . 9 80 . 5 78 . 8 0.80 816 39 . 00 16 . 80 22 . 3 79.3 78 . 8 0 .79 817 39. 00 16 . 80 22 . 1 79. 0 78 . 8 0.79 818 39 . 00 16 . 80 24 .2 82 . 7 78 . 8 0 .83 819 39. 00 16 . 80 22 . 9 80.3 78 . 8 0 .80 820 39. 00 16 . 80 22 .2 79. 2 78 . 8 0.79 821 39 . 00 16 . 80 22 . 0 78. 8 78 . 8 0 .79 822 39 . 00 16 . 80 24 .2 82 . 7 78 . 8 0 .83 823 39. 00 16 . 80 22 . 8 80. 3 78 . 8 0.80 . 824 39 . 00 16 . 80 22 . 2 79. 1 78 . 8 0 .79 825 39. 00 16 . 80 22. 0 78 . 8 78 . 8 0 .79 D1 37 . 50 32 . 3 D2 37. 50 32 .3 D3 37 . 50 32 .4 D4 37 . 50 32 .7 D5 37 . 50 33 . 1 D6 37 . 50 33 .7 D7 37 . 50 34. 7 D8 37 . 50 47. 8 W 37. 50 53 . 1 Max velocity of 20 . 78 occurs in the pipe from D7 TO D8 Coca-Cola Drawing Date: 2/25/11 12:26 Page 3 FITTING NAME TABLE ABBREV. NAME C Coupling E 90 ' Standard Elbow F 45 ' Elbow S Straight Flow Thru Tee T 90 ' Flow Thru Tee V Valve LEGEND HYD REF Hydraulic reference . Refer to accompanying flow diagram. K FACTOR Flow factor for open head or path where Flow (gpm) = K x -\/P Qa Flow added or subtracted Qt Total flow DIA Actual internal diameter of pipe C Hazen Williams pipe roughness factor Pf/ft Friction loss per foot of pipe PIPE Length of pipe FTNG' S Number of fittings. See table above. TOTAL Total length (PIPE + FTNG' S) Pt Total pressure (psi) at fitting Pe Pressure due to change in elevation where Pe -- 0 . 4 x change in. _3 evat i.on Pf Friction loss (psi) to fitting where Pf = 1 x 4 . 52 x (Q/C) A1. 85 / IDA4 . 87 Pv Velocity pressure (psi) where Pv = 0 . 001123 x QA2/IDA4 Pn Normal pressure (psi) , where Pn = Pt - Pv NOTES: - Pressures are balanced to 0 . 01 psi. Pressures are listed to 0 . 1 psi . Addition may vary by 0 . 1 psi due to accumulation of round off . • - Calculations conform to NFPA 13 . - Velocity Pressures are not considered in these Calculations • Coca-Cola Drawing Date: 2/25/11 12:26 HYDRAULIC CALCULATION DETAILS HYDRAULIC FLOW LOSS QTY DESCRIPTION LENGTH C ID gpm psi TOTALS Hydr Ref W Required at Hyd Area 8 2036 53 .1 psi 1 Pipe 8" 10x21 CSC Grvd 38 ' 120 8 . 249 2036 1. 1 Elevation Change 37 ' 6" 16.2 1 8" Grvd Butterfly Valve VIC "708W" 12 ' 120 8 . 071 2036 0 .4 1 8" Grvd Check Valve VIC "717" 93301 45 ' 120 8 . 071 2036 1. 5 1 8" Grvd Deluge Valve Tyco "DV-5" CHART LOSS 2036 3 . 5 1 8" Grvd Butterfly Valve VIC "708W" 12 ' 120 8 . 071 2036 0.4 1 8" Groove-O-Let 35 ' 120 8 . 071 2036 1.2 1 Pipe 8" 10x21 CSC Grvd 3 ' 120 8 . 249 2036 0. 1 1 8" Grvd Tee FIRELOCK 35 ' 120 8 . 071 2036 1. 2 1 8" Flngd 90 Ell 18 ' 120 8 . 071 2036 0. 6 1 Pipe 8" DIx18 25 ' 140 8 .390 2036 0. 5 Fixed Flow Outside Hose Allow. 500 gpm Hydr Ref R1 Required at Source 2536 79 .8 psi Water Source231. 0 psi static, 97 . 0 psi residual @ 2500 gpm 2536 gpm 93 .4 psi SAFETY PRESSURE 13 .6 psi Available Pressure of 93 .4 psi Exceeds Required Pressure of 79 . 8 psi This is a safety margin of 13 . 6 psi or 15 % of Supply Maximum Water Velocity is 20 . 8 fps Coca-Cola Drawing Date: 2/25/11 12:26 HYDRAULIC DESIGN INFORMATION SHEET Job Name : Coca-Cola Location: Northampton, MA Drawing Date : Remote Area Number: 8 Contractor: EFP Telephone: 508-485-8183 237 Cedar Hill St. Marlboro, MA Designer: R.L. Calculated By:SprinkCAD www. sprinkcad. com 451 N. Cannon Ave. Lansdale, PA 19446 Construction: Steel Occupancy:Storage Reviewing Authorities:Northhampton Fire Dept. SYSTEM DESIGN Code :Que"l1_ data Hazard: Class 2 System Type :WET Area of Sprinkler Oper. 2250 sq ft1 Sprinkler or Nozzle Density (gpm/sq ft) 0 . 788 1 Make: -TYC Area per Sprinkler 100 . 0 sq ftl Model : K17 Hose Allowance Inside 0 gpm 1 K-:Factor: 16. 80 Hose Allowance Outside 500 gpm 1 Temperature Rating: 286 CALCULATION SUMMARY 25 Flowing Outlets gpm Required: 2536.2 psi Required: 79 .8 @ Source WATER SUPPLY Water Flow Test 1 Pump Data Date of Test 5-27-2010 + Rated Capacity 0 gpm Static Pressure 231 . 0 psi 1 Rated Pressure' 0 :0 psi ' Residual Pres 97 . 0 psi 1 Elevation 0 At a Flow of 2500 gpm 1 Make: Elevation 0" 1 Model : Location: @ fire pump discharge Source of Information: Calculated SYSTEM VOLUME 6290 Gallons Notes: • C) C) o (...) , 1 1 , = - I 2 7:7 >,< c, , 03 0 6, u, c .,g LI--- Tra' • i 1 , • a v) F- •/??.. 1 i 1 i 1 I ' C C [ , 0) , , ! 1 . i , 1 1 , I } , 1 ' , 1 1 1 EE o o cz o on I • . N 0 1 1 -c7C "15 i i 1 1 , , I , -0 (7 E 1 . I 1 , . i ; I 0 ......0 • I . , (0 CO V) 1 oo • i w 0 co , --- c o o o c i) SE r E 1 0_ cn 0 1.0 I 1 i ' N cp 1 , 1 , . I 0 0 • 0.) .... 4-- ■ 1 1 i 0 W 0- 1.--(/) 1 1 ■ 1 E [ I 11, E 1 ci) cn 0. 0 0. 0. 0) 2...) , [ , 1 , ■ 1 I I 0 0 0 4= N■ 2 @ i I 1 1 I 0 0 1 1 , I If) N o 1 1 22 cp 1 1 , , = N 1 ij (/) N. = 0,) ■ 1 I , ■ , 1 P.2 i3 cp 1 I C) ' 1 , 71- ci) 0 7 •• --- . I , [ , i 1 I I < 1 1 I ! 1 , I 1 0 cn 2 N- 1 I , 1 1 O a• ) i I 1 1 I I . -6 E 2) , 1 1 , ' ' , (...) co ... , 1 I Cb -C 0 I 4:1 0 t E I 1 I ' I 0 0 0 0 1 1 , 1 1 1 1 I 1 I • . C o op cD c o (0 cD co N N N N •••• .•••• Coca-Cola Drawing Date: 2/25/11 12:25 Tyco Fire Products Page 7 HYD. Qa DIA. FITTING PIPE Pt Pt REF "C" TYPES FTNG'S Pe Pv ******* NOTES ******* POINT Qt ,.Pf/ft TOTAL Pf Pn PATH 3 FROM HYDRAULIC REFERENCE 709 TO C3 CONTINUED 31 . 66 1 . 682 1E 2 . 50 15 . 7 15. 7 K = 8 . 00 705 0=120 1T 14. 85 0 . 6 0 . 0 138 . 34 0 .467 17. 35 8 . 1 15. 7 Vel = 20 . 17 C3 138 . 34 24 .4 K = 27 . 99 PATH 4 FROM HYDRAULIC REFERENCE 704 TO C4 30 . 79 1 . 682 10 . 00 14 . 8 14 . 8 K = 8 . 00 704 C=120 0 . 00 0 . 0 0 . 0 30 . 79 0 . 029 10 . 00 0 . 3 14 . 8 Vel = 4 . 49 31. 09 1 . 682 10 . 00 15 . 1 15 . 1 K _ 8 . 00 703 0=120 0 . 00 0 . 0 0 . 0 61 . 88 0 . 105 10 . 00 1. 1 15 . 1 Vel = 9 . 02 32 . 16 1 .682 10 . 00 16 .2 16 . 2 K = 8 . 00 702 0=120 0. 00 0 . 0 0 . 0 94 . 04 0 .229 10. 00 2 . 3 16. 2 Vel = 13 . 71 34 . 36 1 .682 1E 2 . 50 18 .4 18 .4 K = 8 . 00 701 0=120 iT 14 . 85 0 .6 0 . 0 128 .40 0 .407 17.35 7 . 1 18 .4 Vel = 18 . 72 C4 128 .40 26 .2 K = 25 . 10 UNITS - DIAMETER (INCH) LENGTH (FOOT) FLOW (GPM) PRESSURE (PSI) Coca-Cola Drawing Date: 2/25/11 12:25 Tyco Fire Products Page 6 HYD. Qa DIA. FITTING PIPE Pt Pt REF "C" TYPES FTNG'S Pe Pv ******* NOTES ******* POINT Qt Pf/ft TOTAL Pf Pn PATH 2 FROM HYDRAULIC REFERENCE 714 TO C2 CONTINUED 25. 09 1 . 682 10. 00 9 . 8 9 . 8 K = 8 . 00 714 0=120 0. 00 0 . 0 0 . 0 25 . 09 0 . 020 10. 00 0 .2 9 . 8 Vel = 3 . 66 25 . 34 1 . 682 10. 00 10 : 0 10 . 0 K = 8 . 00 713 0=120 0. 00 0 . 0 0 . 0 50 .44 0 . 072 10. 00 0 . 7 10 . 0 Vel = 7 . 35 26 .24 1 . 682 10. 00 10 . 8 10 . 8 K = 8 . 00 712 0=120 0. 00 0 . 0 0 . 0 76 . 68 0 . 157 10. 00 1. 6 10 . 8 Vel = 11 . 18 28 . 09 1. 682 10 . 00 12 . 3 12 . 3 K = 8 . 00 711 0=120 0. 00 0 . 0 0 . 0 104 . 77 0 . 279 10. 00 2 . 8 12 . 3 Vel = 15 . 28 31. 11 1 . 682 1E 2. 50 15 . 1 15 . 1 K = 8 . 00 710 0=120 1T 14. 85 0 . 6 0 . 0 135 . 88 0 .452 17. 35 7 . 8 15 . 1 Vel = 19 . 81 C2 135 . 88 ' 23 . 6 K = 27 . 96 PATH 3 FROM HYDRAULIC REFERENCE 709 TO C3 25 . 55 1. 682 10: 00 10.2 10 .2 K = 8 . 00 709 0=120 0. 00 0 . 0 0 . 0 25 . 55 0 . 021 10. 00 0 .2 10 .2 Vel = 3 .73 25 . 81 1 . 682 10 . 00 10 .4 10 .4 K = 8 . 00 708 0=120 0. 00 0 . 0 0 . 0 51 . 36 0 . 075 10 . 00 0 .7 10 .4 Vel = 7 .49 26. 72 1 . 682 10. 00 11.2 11 .2 K = 8 . 00 707 C=120 0. 00 0 . 0 0 . 0 78 . 08 0 . 162 10. 00 1 . 6 11.2 Vel = 11 .38 • 28 . 60 1 . 682 10. 00 12 . 8 12 . 8 K = 8 . 00 706 0=120 0 . 00 0 . 0 0 . 0 106 . 68 0 .289 10 . 00 2 . 9 12 . 8 Vel = 15 . 55 UNITS - DIAMETER (INCH) LENGTH (FOOT) FLOW (GPM) PRESSURE (PSI) Coca-Cola Drawing Date: 2/25/11 12:25 Tyco Fire Products Page 5 HYD. Qa DIA. FITTING PIPE Pt Pt REF "C" TYPES FTNG'S Pe Pv ******* NOTES ******* POINT Qt Pf/ft TOTAL Pf Pn PATH 1 FROM HYDRAULIC REFERENCE 719 TO W (PRIMARY PATH) 25 . 00 1. 682 10 . 00 9.8 9. 8 K = 8 . 00 719 C=120 0 . 00 0 . 0 0 . 0 25 . 00 0 . 020 10 . 00 0 .2 9. 8 Vel = 3 . 65 25.25 1 . 682 10 . 00 10 . 0 10 . 0 K = 8 . 00 718 C=120 0 . 00 0 . 0 0. 0 50 .25 0 . 072 10 . 00 0 .7 10 . 0 Vel = 7. 33 26 . 15 1 . 682 10 . 00 10 .7 10 . 7 K = 8. 00 717 C=120 0 . 00 0 . 0 • 0 . 0 76 .40 0 . 156 10 . 00 1. 6 10 . 7 Vel = 11. 14 27 . 99 1. 682 10 . 00 12 .2 12 . 2 K = 8 . 00 716 C=120 0 . 00 0 . 0 0 . 0 104 . 38 0 . 278 10 . 00 2 . 8 12 .2 Vel = 15.22 31 . 00 1. 682 1E 2 .50 15 . 0 15 . 0 K = 8. 00 715 C=120 1T 14 . 85 0 . 6 0 . 0 135 . 38 0 .449 17 .35 7 . 8 15 . 0 Vel = 19. 74 3 .260 9 . 00 23 . 5 23 . 5 C1 C=120 0 . 00 0 . 0 0 . 0 135 . 38 0 . 018 9 . 00 0 . 2 23 . 5 Vel = 5 . 25 135 . 88 3 . 260 12 . 50 23 . 6 23 . 6 C2 C=120 0 . 00 0 . 0 0 . 0 See PATH 2 271 . 26 0 . 065 12 . 50 0 . 8 23 . 6 Vel = 10 .53 138 . 34 3 .260 12 . 50 24 .4 24 .4 C3 C=120 0. 00 0 . 0 0 . 0 See PATH 3 409 . 60 0 . 139 12 . 50 1 .7 24 .4 Vel = 15 . 90 128 . 40 3 . 260 1E 91. 96 26 .2 26.2 C4 0=120 9.41 0 . 0 0 . 0 See PATH 4 538 . 00 0 . 230 101. 37 23 .3 26. 2 Vel = 20 . 88 W 538 . 00 49 .4 K = 76 . 51 PATH 2 FROM HYDRAULIC REFERENCE 714 TO C2 UNITS - DIAMETER (INCH) LENGTH (FOOT) FLOW (GPM) PRESSURE (PSI) • Coca-Cola Drawing Date: 2/25/11 12:25 Page 4 NODE ELEVATION SPRINKLER PRESSURE ACTUAL MINIMUM ACTUAL NUMBER K-FACTOR FLOW FLOW DENSITY (FT) (GPM/ (PSIA ) ) (PSI) (GPM) (GPM) (GPM/SQ.FT) 701 39 . 00 8 . 00 18 .4 34.4 25 . 0 0 .27 702 39 . 00 8 . 00 16.2 32 . 2 25. 0 0 .26 703 39 . 00 8 . 00 15. 1 31 . 1 25 . 0 0 .25 704 39 . 00 8 . 00 14 . 8 30 . 8 25 . 0 0 .25 705 39 . 00 8 . 00 15 . 7 31.7 25 . 0 0 .25 706 39 . 00 8 . 00 12 . 8 28 . 6 25 . 0 0 .23 707 39 . 00 8 . 00 11.2 26. 7 25 . 0 0 .21 708 39 . 00 8 . 00 10 .4 25 . 8 25 . 0 0 .21 709 39 . 00 8 . 00 10 . 2 25. 6 25 . 0 0 .20 710 39 . 00 8 . 00 15 . 1 31. 1 25 . 0 0 .25 711 39 .00 8 . 00 12 . 3 28 . 1 25 . 0 0 .22 712 39 . 00 8 . 00 10 . 8 26.2 25 . 0 0 .21 713 39 . 00 8 . 00 10 . 0 25. 3 25 . 0 0 .20 714 39 . 00 8 . 00 9. 8 25 . 1 25 . 0 0 .20 715 39 . 00 8 . 00 15 . 0 31. 0 25 . 0 0 .25 716 39 . 00 8 . 00 12 .2 28 . 0 25 . 0 0 .22 717 39 . 00 8 . 00 10 . 7 26 . 1 25 . 0 0 .21 718 39 . 00 8 . 00 10 . 0 25 . 3 25 . 0 0 .20 719 39 . 00 8 . 00 9. 8 25. 0 25. 0 0 .20 Cl 37 . 50 23 . 5 C2 37 . 50 23 . 6 C3 37 . 50 22.4 C4 37 . 50 26 .2 W 37 . 50 49.4 Max velocity of 20 . 88 occurs in the pipe from C4 TO W Coca-Cola Drawing Late: 2/25/11 12:25 Page 3 FITTING NAME TABLE ABBREV. NAME C Coupling E 90 ' Standard Elbow F 45 ' Elbow S Straight Flow Thru Tee T 90 ' Flow Thru Tee ✓ Valve LEGEND HYD REF Hydraulic reference. Refer to accompanying flow diagram. _ K FACTOR Flow factor for open head or path where Flow (gpm) = K x -\/P Qa Flow added or subtracted Qt Total flow DIA Actual internal diameter of pipe C Hazen Williams pipe roughness factor Pf/ft Friction loss per foot of pipe PIPE Length of pipe FTNG'S Number of fittings. See table above. TOTAL Total length (PIPE + FTNG'S) Pt Total pressure (psi) at fitting Pe Pressure due to change in elevation where Pe = 0.433 x change in elevation Pf Friction loss (psi) to fitting where Pf = 1 x 4 .52 x '(Q/C) A1.85 / IDA4 . 87 Pv Velocity pressure (psi) where Pv = 0. 001123 x Q"2/ID'4 Pn Normal pressure (psi) , where Pn = Pt - Pv NOTES: - Pressures are balanced to 0 . 01 psi . Pressures are listed to 0 . 1 psi . Addition may vary by 0 . 1 psi due to accumulation of round off . - Calculations conform to NFPA 13 . - Velocity Pressures are not considered in these Calculations Coca-Cola Drawing Date: 2/25/11 12:25 HYDRAULIC CALCULATION DETAILS HYDRAULIC FLOW LOSS QTY DESCRIPTION LENGTH C ID gpm psi TOTALS Hydr Ref W Required at Hyd Area 7 538 49 .4 psi 1 Pipe 3" 10x21 CSC Grvd 38 ' 100 3 .260 538 12. 1 Elevation Change 37 ' 6" 16.2 1 4" FG Dry Valve CSC "AG" CHART LOSS 538 1. 0 1 4" Grvd Butterfly Valve VIC "708W" 12 ' 120 4 . 026 538 1. 0 1 4" Groove-O-Let 20 ' 120 4 . 026 538 1. 7 1 Pipe 8" 10x21 CSC Grvd 3 ' 120 8 . 249 538 0 . 0 1 8" Grvd Tee FIRELOCK 35 ' 120 8 . 071 538 0 . 1 1 8" Flngd 90 Ell 18 ' 120 8 . 071 538 0 . 1 1 Pipe 8" DIx18 25 ' 140 8 .390 538 0 . 0 Fixed Flow Outside Hose Allow. 250 gpm Hydr Ref Ri Required at Source 788 81.6 psi Water Source231. 0 psi static, 97 . 0 psi residual @ 2500 gpm 788 gpm 215 .2 psi SAFETY PRESSURE 133 .5 psi Available Pressure of 215. 2 psi Exceeds Required Pressure of 81.6 psi This is a safety margin of 133 . 5 psi or 62 % of Supply Maximum Water Velocity is 20 . 9 fps • Coca-Cola Drawing Date: 2/25/11 12:25 HYDRAULIC DESIGN INFORMATION SHEET Job Name : Coca-Cola Location: Northampton, MA Drawing Date: Remote Area Number: 7 Contractor: EFP Telephone : 508-485-8183 237 Cedar Hill St. Marlboro, MA Designer: R.L. Calculated By:SprinkCAD www. sprinkcad.com 451 N. Cannon Ave . Lansdale, PA 19446 Construction: Steel Occupancy:Storage Reviewing Authorities:Northhampton Fire Dept. SYSTEM DESIGN Code:NFPA 13 Hazard:Ord. Gr. 2 System Type:WET Area of Sprinkler Oper. 1950 sq ft1 Sprinkler or Nozzle Density (gpm/sq ft) 0 . 2.00., I Make: Area per Sprinkler 125. 0 sq ft1 Model : V-34 Hose Allowance Inside 0 gpm 1 K-Factor: 8 . 00 Hose Allowance Outside 250 gpm I Temperature Rating: 155 CALCULATION SUMMARY 19 Flowing Outlets gpm Required: 788 . 0 psi Required: 81.6 @ Source WATER SUPPLY Water Flow Test ( Pump Data Date of Test 5-27-2010 I Rated Capacity 0 gpm Static Pressure 231 . 0 psi , Rated Pressure 0 . 0 psi Residual Pres 97 . 0 psi 1 Elevation 0 At a Flow of 2500 gpm I Make: Elevation 0" I Model : Location: @ fire pump discharge Source of Information: Calculated SYSTEM VOLUME 6290 Gallons Notes: w ' 1 i 0 o U to 3 o r O 0- v 3• = 00 o` cn1-0° 1 1 1 o 11 1 I 1 1 I j E E V o) 1 0 X00 i 1 1 0 N 'I I , t fA• 7 ..N. I 1 O 7)=_ Q E a r-• rn � M co • a; a j 0 co co co Ll. r- 1 � I 1 I � 1 N C • o i LL_ a I N cr 0' I 0 0 N • o CO I E J I co Q' CLF- (J) a 0 0 N E • c- a. a (7) a O 0004= o c) 'n N N 0 1 N ili p L L. co • N 0• N 2 — o I o c5 ` � = J I i O v .2. .D CZ f w Q) 0 CZ C.01tiO 1 1 LU 2 ce c ii o 0 o ° Q 1 o o f fv o ca c_)t 0 O o 0 Q) ;1 - ) OZ fY 1 I i I I I , o o coo N o �o o N N N v- r- Coca-Cola Drawing Date: 2/25/11 12:22 Tyco Fire Products Page 5 HYD. Qa DIA. FITTING PIPE Pt Pt REF "C" TYPES FTNG' S Pe Pv ******* NOTES ******* POINT Qt Pf/ft TOTAL Pf Pn PATH 1 FROM HYDRAULIC REFERENCE 601 TO W (PRIMARY PATH) 22 . 00 2 . 157 15 . 00 7. 6 7 . 6 K = 8 . 00 601 C=120 0 . 00 0 . 0 0 . 0 22 . 00 0 . 005 15 . 00 0 . 1 7 . 6 Vel = 1. 95 22 . 10 2 . 157 15 . 00 7. 6 7 . 6 K = 8 . 00 602 0=120 0 . 00 0 . 0 0 . 0 44 . 10 0 . 017 15 . 00 0. 3 7 . 6 Vel = 3 . 91 22 . 46 2 . 157 15 . 00 7. 9 7 . 9 K = 8 . 00 603 C=120 0 . 00 0 . 0 0 . 0 66 . 56 0 . 036 15 . 00 0 . 5 7 . 9 Vel = 5. 90 23 . 22 2 . 157 15 . 00 8 .4 8 . 4 K = 8 . 00 604 0=120 0 . 00 0. 0 0 . 0 89. 78 0 . 063 15 . 00 0 . 9 8 .4 Vel = 7 . 96 24 .48 2 . 157 15 . 00 9 .4 9 .4 K = 8 . 00 605 C=120 0 . 00 0 . 0 0 . 0 114 . 26 0 . 098 15 . 00 1. 5 9 .4 Vel = 10. 13 26 . 32 2 . 157 15 . 00 10 . 8 10 . 8 K = 8 . 00 606 0=120 0 . 00 0 . 0 0 . 0 • 140 . 58 0 . 143 15 . 00 2 .2 - 10 . 8 Vel = 12 .46 28 . 82 2 . 157 1E 231 . 84 13 . 0 13 . 0 K = 8 . 00 607 0=120 iT 18 .46 0. 0 0 . 0 169 .40 0 .202 250 . 30 50 . 7 13 . 0 Vel = 15. 02 W 169 .40 63 . 6 K = 21.23 UNITS - DIAMETER (INCH) LENGTH (FOOT) FLOW (GPM) PRESSURE (PSI) Coca-Cola Drawing Date: 2/25/11 12:22 Page 4 NODE ELEVATION SPRINKLER PRESSURE ACTUAL MINIMUM ACTUAL NUMBER K-FACTOR FLOW FLOW DENSITY (FT) (GPM/ (PSIA ) ) (PSI) (GPM) (GPM) (GPM/SQ.FT) 601 39 . 00 8 . 00 7.6 22 . 0 22 . 0 0 .20 602 39 . 00 8 . 00 7 . 6 22 . 1 22 . 0 0 .20 603 39 . 00 8 . 00 7 . 9 22 .5 22 . 0 0 .20 604 39 . 00 8 . 00 8 . 4 23 .2 22 . 0 0 .21 605 39 . 00 8 . 00 9.4 24 .5 22 . 0 0 .22 606 39 . 00 8 . 00 10 . 8 26 . 3 22 . 0 0 .24 607 39 . 00 8 . 00 13 . 0 28 .8 22 . 0 0 .26 W 39 . 00 63,.6 Max velocity of 15 . 02 occurs in the pipe from 607 TO W Coca-Cola Drawing Date: 2/25/11 12:22 Page 3 FITTING NAME TABLE ABBREV. NAME C Coupling E 90 ' Standard Elbow F 45 ' Elbow S Straight Flow Thru Tee T 90 ' Flow Thru Tee ✓ Valve LEGEND HYD REF Hydraulic reference. Refer to accompanying flow diagram. K FACTOR Flow factor for open head or path where Flow (gpm) = K x -\/P Qa Flow added or subtracted Qt Total flow DIA Actual internal diameter of pipe C Hazen Williams pipe roughness factor Pf/ft Friction loss per foot of pipe PIPE Length of pipe FTNG' S Number of fittings . See table above. TOTAL Total length (PIPE + FTNG'S) Pt Total pressure (psi) at fitting Pe Pressure due to change in elevation where Pe = 0. 433 x change in elevation Pf Friction loss (psi) to fitting where Pf = 1 x 4 ..52 x (Q/C) '1 . 85 / TD'`4 . 87 Pv Velocity pressure (psi) where Pv = 0. 001123 x QA2/IDA4 Pn Normal pressure (psi) , where Pn = Pt - Pv NOTES : - Pressures are balanced to 0 . 01 psi . Pressures are listed to 0 . 1 psi . Addition may vary by 0. 1 psi due to accumulation of round off . - Calculations conform to NFPA 13 . - Velocity Pressures are not considered in these Calculations Coca-Cola Drawing Date: 2/25/11 12:22 HYDRAULIC CALCULATION DETAILS HYDRAULIC FLOW LOSS QTY DESCRIPTION LENGTH C ID gpm psi TOTALS Hydr Ref W Required at Hyd Area 6 169 63 . 6 psi 1 Pipe 2Y" 10x21 CSC Grvd 38 ' 100 2 . 635 169 4. 0 Elevation Change 37 ' 6" 16.2 1 21,x" Grvd Dry Valve CHART LOSS 169 0. 3 1 21A" Grvd Butterfly Valve VIC "708W" 7 ' 120 2 .469 169 0 . 7 1 2-1/2" Groove-O-Let 12 ' 120 2 .469 169 1.2 1 Pipe 8" 10x21 CSC Grvd 3 ' 120 8 .249 169 0 . 0 1 8" Grvd Tee FIRELOCK 35 ' 120 8 . 071 169 0 . 0 1 8" Flngd 90 Ell 18 ' 120 8 . 071 169 0. 0 1 Pipe 8" DIx18 25 ' 140 8 . 390 169 0 . 0 Fixed Flow Outside Hose Allow. 250 gpm Hydr Ref R1 Required at Source 419 86.1 psi Water Source231 . 0 psi static, 97 . 0 psi residual @ 2500 gpm 419 gpm 226 .1 psi SAFETY PRESSURE . 139 .9 psi Available Pressure of 226 . 1 psi Exceeds Required Pressure of 86.1 psi This is a safety margin of 139. 9 psi or 62 96- of Supply Maximum Water Velocity is 15 . 0 fps Coca-Cola Drawing Date: 2/25/11 12:22 HYDRAULIC DESIGN INFORMATION SHEET Job Name : Coca-Cola Location: Northampton, MA Drawing Date: Remote Area Number: 6 Contractor: EFP Telephone: 508-485-8183 237 Cedar Hill St . Marlboro, MA Designer: R.L. Calculated By:SprinkCAD www. sprinkcad.com 451 N. Cannon Ave. Lansdale, PA 19446 Construction: Steel Occupancy:Storage Reviewing Authorities:Northhampton Fire Dept . SYSTEM DESIGN Code :NFPA 13 Hazard:Ord. Gr. 2 .System Type :WET Area of Sprinkler Oper. sq ftI Sprinkler or Nozzle Density (gpm/sq ft) 0 .200 I Make: Area per Sprinkler 110 . 0 sq ft1 Model : V-34 Hose Allowance Inside 0 gpm I K-Factor: 8. 00 Hose Allowance Outside 250 gpm I Temperature Rating: 155 CALCULATION SUMMARY 7 Flowing Outlets gpm Required: 419 .4 psi Required: 86 .1 @ Source WATER SUPPLY • Water Flow Test I Pump Data I Date of Test 5-27-2010 I Rated Capacity 0 gpm I Static Pressure 231 . 0 psi I Rated Pressure 0 . 0 psi I Residual Pres 97 . 0 psi I Elevation 0 At a Flow of 2500 gpm I Make: Elevation 0" 1 Model : Location: @ fire pump discharge .. . Source of Information: Calculated SYSTEM VOLUME 6290 Gallons Notes : 0 0 'LIIIiIllhuiINhiI*.- L ...i _.._- 1 I liii ONION 111lIII11111 II�: 1 111111 ! PAIN IIIlIlIIII�II ' 11 ; 1 I II 1i , 1_ 1,� Ii �- I ! 1 1 . �� 1 I t. ■�1 I I 1 11 1 1 N O �I. M� 1 l i M 1 1 IIIIIIIIIIIIIIIII IIII 4^ l 1 I 101 III 1 ' L'IIIllll'ill IIIIII,III1lhlII��I H { 11 I .i lii I P' ! 1 N . 1, 111111111111 1� , , 11111 IIIIIII11111111111 r'i H �4 ' FI 1 AIIl m 1 11111111 11 �/� 0 r IIIIIIII11111 IIIIIIII 11lll Il��lJi iIl `111 I � ,, i I , 44t 1111111111111 M 1 1 1 1N � i i N I 1 Illllllllll 11 Ilflfllll : 111111,1111 AIF," ,1 1111/11 1 111 (.) 111111111,111111,1 !I In o11IIILll111IP 11 ' '1'1 l i 1 ! X11111 11'1 1, ''11 11111111'I !I lllll" 111��;14 !1 rill 11 , ',1 1111 111i 111111 l , , 11111 ,� 1 �I, � 1Iw11 , 1 , � ;1111 LU 11111111111EIII l 1 . ; ,II I . II 1, , 11111111 PN 1 ,- 1 _'� , li '!1 .1 II 1 �� � . I��',il I 111 , il.. I — _ . J � -T.7- T ,, 1�-1 �I ,r'tCI11 , h j� 1 T,i i 1 1 11 1 I III 1 i .1 1 1 I I 1 1 �': d lil 1 ICI , i'. lw I I1 II 11 !I II 11 1t11'll L 1 11 !1 rI I �` I III I o o I�11111111I1 NI PIE ' 1�II10II 1 ; . 1 a �' ill j I' Ili 1 ,I r hi i1 1 1;� , 1 _ 1 i I,� I 1 i �_ �i , �� 1'i i g 1 f iiiiii, 1 i 1� i I�fl W < 1 �I 17 j�.), iP '' : �, i� „� 1,11,1 1 III �I1 ��I 111H1 I 1 1 1 I' I Wr ' _i 1 I 00 i �(,', I 1 0 1 r ��f Ar►� I �,1 1 0 1 ill 7 i 1 11i i t 1 ilk lye t. 1 1 I I 1 ' i I 1 f 1 ,I 11 It 11 ' 1 , , 111111'11 1, 1'I 1 1 1 1 T r ill I 1 0 1,1 I II I it ;�_ Illl_II 1 111 '1 I 1 -, i ,Lai 1 i ' I 1 ! j I I Ii 1I �I li -I ,' 1 1 I 1 , , 111 i 11, 1 , , , til'Ilk° 1, 1d I, ,1 1 1,1 1 1 ”'! 1 "III 1 I I,' 1 1G ."J"li:'l 11 ' H ' �1 I1 1 ,i i1III III ,, 1 ii. 'O' 1 � 11 1 I i I I i. I 1� 1 I ir , 1 1 ,. 1 I I, , ,I I , I �1 , I 1 o — o 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 co 0 0 0 0 0 0 0 fi co N a- O C) 0) I- CD LC) co N r O D) CO I-- CD LC) 'C?' CO N r C..4, N. (N N N r r r r r r r r r r 5isd `aJnsseid • , o (I) I '; , o u c 1:3 / 9 0 T." t- Cr 0 D- 141-3 >•!,< cy . I c :re ii 411 ; if I o c, ,,- 1 N ! , I T I a) Cl) i 1 r 0 _c E EE I o. o 0 a_ C1 . '....;______ CO 0 c I , 0 , 0 0 : I I i cu 0 Lr> 1 3 co . o ' , I 1 1 [ 1 us 7 <1) [ o 7) m 1 1 1 I [ I i C 0 I ... i. 1 II ... E 1 i 1 ; a E . I I 1 CP 1 o . 0 ....- co co o 1 N > 0 , LL , , 1 6 , . . , I , Cl) ! , , ! 1 I I , I ! 1 I -0 • ' EL) I I O a) o [ , o o 1 co , I ; I , [ 1 >• 1 W CL I— 0 CI. = , I CI) 1 1 , ! 1 E r E I , 1 1 [ cn cc 0- 0. 0. OD 2 I 1 : I I ' i , 0 — h.: S g '-- --, co co os N I N 0 , ES C • 1 I ._• 0 N a) u) 0 ,a) C‘,4 i C C LL — 0 ! I N 0 _J I I ..-• *-71; -03 .;:,- I 1 r r ran:loom I 1 1 I cr) cn7E0 I i 1 I i I I I , 1 ; o C < 1 2 Lo , I 0-) o a) [ 1 1 I ! I [ , 0E a) , o j:2 c.,) "t 2 . , , 0 0 0 a) , ! 1 1 ! 1 I , -7 O Z I2C j • ' 0 0 0 0 0 CO co ' - o (..c) N CO .:er N N N a •a Coca-Cola Drawing Date: 2/25/11 12:18 Tyco Fire Products Page 9 HYD. Qa DIA. FITTING PIPE Pt Pt REF "C" TYPES FTNG' S Pe Pv ******* NOTES ******* POINT Qt Pf/ft TOTAL Pf Pn PATH 7 FROM HYDRAULIC REFERENCE 503 TO ,A7 CONTINUED 85 . 66 2 . 635 9 . 83 26 . 0 26 . 0 K = 16 . 80 503 C=120 0 . 00 0 . 0 0 . 0 85 . 66 0 . 022 9 . 83 0 .2 26 . 0 Vel = 5 . 09 86. 01 2 . 635 8 . 00 26 .2 26 . 2 K = 16. 80 502 C=120 0 . 00 0 . 0 0 . 0 171. 67 0 . 078 8 . 00 0 . 6 26 .2 Vel = 10.20 87. 03 2 . 635 1E 2 . 10 26 . 8 26 . 8 K = 16 . 80 501 C=120 1T 24 .71 0 . 6 0 . 0 258 . 70 0 . 167 26 .82 4 . 5 26 . 8 Vel = 15. 37 A7 258 . 70 32 . 0 K = 45. 75 UNITS - DIAMETER (INCH) LENGTH (FOOT) FLOW (GPM) PRESSURE (PSI) Coca-Cola Drawing Date: 2/25/11 12:18 Tyco Fire Products Page 8 HYD. Qa DIA. FITTING PIPE Pt Pt REF "C" TYPES FTNG'S Pe Pv ******* NOTES ******* POINT Qt Pf/ft TOTAL Pf Pn PATH 5 FROM HYDRAULIC REFERENCE 511 TO A5 CONTINUED 79 .42 2 . 635 9. 83 22 . 3 22 . 3 K = 16. 80 510 C=120 0 .00 0 . 0 0 . 0 158 . 51 0 . 068 9 . 83 0 .7 22 . 3 Vel = 9.42 80 . 59 2 . 635 8 . 00 23 . 0 23 . 0 K = 16. 80 509 C=120 0 . 00 0 . 0 0 . 0 239 . 10 0 . 144 8 . 00 1 .2 23 . 0 Vel = 14 .20 82 . 59 2 . 635 1E 2 . 10 24 .2 24 .2 K = 16 . 80 508 C=120 1T 24 . 71 0 . 6 0 . 0 321 . 69 0 .250 26 .82 6 . 7 24 .2 Vel = 19. 11 AS 321 . 69 31 . 5 K = 57 .29 PATH 6 FROM HYDRAULIC REFERENCE 507 TO A6 79 . 32 2 . 635 10 . 00 22 . 3 22 . 3 K = 16. 80 507 C=120 0 . 00 0 . 0 0 . 0 . 79. 32 0 . 019 10 . 00 0 .2 22 . 3 Vel = 4. 71 79. 66 2 . 635 9 . 83 22 . 5 22 . 5 K = 16. 80 506 C=120 0 . 00 0 . 0 0 . 0 158 . 98 0 . 068 9 . 83 0 . 7 22 . 5 Vel = 9.44 80 . 83 2 . 635 8 . 00 23 . 1 23 . 1 K = 16. 80 505 C=120 0 . 00 0 . 0 0 . 0 239 . 81 0 . 145 8 .00 1 .2 23 . 1 Vel = 14 .25 82 . 83 2 . 635 1E 2 . 10 24 . 3 24 . 3 K = 16 . 80 504 C=120 1T 24 . 71 0 . 6 0 . 0 322 . 64 0 .252 26 . 82 6 . 7 24 . 3 Vel = 19 .17 A6 322 . 64 31 .7 K = 57 . 30 PATH 7 FROM HYDRAULIC REFERENCE 503 TO A7 UNITS - DIAMETER (INCH) LENGTH (FOOT) FLOW (GPM) PRESSURE (PSI) Coca-Cola Drawing Date: 2/25/11 12:18 Tyco Fire Products Page 7 HYD. Qa DIA. FITTING PIPE Pt Pt REF "C" TYPES FTNG' S Pe Pv ******* NOTES ******* POINT Qt Pf/ft TOTAL Pf Pn PATH 3 FROM HYDRAULIC .REFERENCE 519 TO A3 CONTINUED 80 . 35 2 . 635 8 .00 22 . 9 22 . 9 K = 16 . 80 517 C=120 0 . 00 0 . 0 0 . 0 238 .39 0 . 144 8 .00 1.1 22 . 9 Vel = 14 . 16 82 .35 2 .635 1E 2 .10 24. 0 24 . 0 K = 16 . 80 516 C=120 1T 24 .71 0 . 6 0 . 0 320 . 73 0 .249 26 . 82 - 6.7 24 . 0 Vel = 19. 05 A3 320 .73 31 .3 K = 57 . 29 PATH 4 FROM HYDRAULIC REFERENCE 515 TO A4 78 . 94 2 . 635 10 . 00 22 .1 22 . 1 K = 16 . 80 515 C=120 0 . 00 0 . 0 0 . 0 78 . 94 0 . 019 10 . 00 0 .2 22 . 1 Vel = 4 . 69 79 .27 2 . 635 9 . 83 22 . 3 22 . 3 K = 16 . 80 514 C=120 0 . 00 0 . 0 0 . 0 158 .21 0 . 067 •- 9 . 83 0 .7 22 . 3 Vel = 9 .40 80 . 44 2 . 635 8 . 00 22 . 9 22 . 9 K = 16 . 80 513 C=120 0 . 00 0 . 0 0 . 0 238 . 65 0 . 144 8 . 00 1 .2 22 . 9 Vel = 14 . 18 82 . 44 2 .635 1E 2 . 10 24 . 1 24 . 1 K = 16 . 80 512 C=120 1T 24 .71 0 . 6 0 . 0 321 . 09 0 .249 26 82•, 6 .'7, 24 . 1 Vel = •19 . 08 A4 321 . 09 31.4 K = 57 . 29 PATH 5 FROM HYDRAULIC REFERENCE 511 TO AS 79 . 09 2 . 635 10 . 00 22 .2 22 . 2 K = 16 . 80 511 0=120 0 . 00 0 . 0 0 . 0 79 . 09 0 . 019 10 . 00 0 .2 22 . 2 Vel = 4 . 70 UNITS - DIAMETER (INCH) LENGTH (FOOT) FLOW (GPM) PRESSURE (PSI) Coca-Cola Drawing Date: 2/25/11 12:18 Tyco Fire Products Page 6 HYD. Qa DIA. FITTING PIPE Pt Pt REF "C" TYPES FTNG'S Pe Pv ******* NOTES ******* POINT Qt Pf/ft TOTAL Pf Pn PATH 1 FROM HYDRAULIC REFERENCE 527 TO W (PRIMARY PATH) 8 .249 2E 55.. 02 - 35 . 5 35 . 5 A8 C=120 2T 117 . 88 0 . 0 0 . 0 2185 . 94 0 . 033 172 . 91 5 . 8 35. 5 Vel = 13 . 25 W 2185 . 94 41. 2 K = 340 .42 PATH 2 FROM HYDRAULIC REFERENCE 523 TO A2 78 . 81 2 . 635 10 . 00 22 . 0 22 . 0 K = 16. 80 523 C=120 0 . 00 0 . 0 0 . 0 78 . 81 0 . 019 10 . 00 0 .2 22 . 0 Vel = 4. 68 79 . 14 2 .635 9 . 83 22 .2 22 . 2 K = 16. 80 522 0=120 0 . 00 0 . 0 0 . 0 157 . 95 0 . 067 9 . 83 0 . 7 22 . 2 Vel = 9. 38 80 . 31 2 . 635 8 . 00 22 . 9 22 . 9 K = 16. 80 521 0=120 . 0 . 00 0 . 0 0 . 0 238 . 26 0 . 144 8 . 00 1 . 1 22 . 9 Vel = 14. 16 . 82 . 30 2 . 635 1E 2:10 24 , 0 24 , 0 K = 16. 80 520 0=120 1T • 24 . 71 0 . 6 0 . 0 320 . 57 0 . 249 26 . 82 6 . 7 24 . 0 Vel = 19. 05 A2 320 . 57 31.3 K = 57. 28 PATH 3 FROM HYDRAULIC REFERENCE 519 TO A3 78 . 85 2 . 635 10 . 00 22 . 0 22 . 0 K = 16. 80 519 0=120 0 . 00 0 . 0 0 . 0 78 . 85 0 . 019 10 . 00 0 . 2 22 . 0 Vel = 4. 68 79 . 18 2 . 635 9 . 83 22 .2 22 . 2 K = 16. 80 518 0=120 0 . 00 0 . 0 0 . 0 158 . 04 0 . 067 9 . 83 0 . 7 22 . 2 Vel = 9.39 UNITS - DIAMETER (INCH) LENGTH (FOOT) FLOW (GPM) PRESSURE (PSI) Coca-Cola Drawing Date: 2/25/11 12:18 Tyco Fire Products Page 5 HYD. Qa DIA. FITTING PIPE Pt Pt REF "C" TYPES FTNG' S Pe Pv '******* NOTES ******* POINT Qt Pf/ft TOTAL Pf Pn PATH 1 FROM HYDRAULIC REFERENCE 527 TO W (PRIMARY PATH) 78 . 80 2 . 635 10 . 00 22 . 0 22. 0 K = 16 . 80 527 0=120 0 . 00 0 . 0 0. 0 78 . 80 0 . 019 10 . 00 0 .2 22 . 0 Vel = 4 . 68 79. 13 2 . 635 9 . 83 22 .2 22 . 2 K = 16 . 80 526 0=120 0 . 00 0 . 0 0 . 0 157 . 93 0 . 067 9. 83 0 . 7 22 . 2 Vel = 9 .38 80 . 30 2 . 635 8 . 00 22 . 8 22 . 8 K = 16 . 80 525 0=120 0 . 00 0 .0 0. 0 238 . 23 0 . 144 8. 00 1 . 1 22 . 8 Vel = 14 . 15 82 . 29 2 . 635 1E 2. 10 24 . 0 24 . 0 K = 16 . 80 524 0=120 1T 24. 71 0 . 6 0. 0 320 . 52 0 . 248 26. 82 6 .7 24 . 0 Vel = 19 . 04 8 . 249 9. 04 31 .3 31. 3 Al C=120 0": 00 0 . 0 0: 0 320 . 52 0 . 001 9. 04 0 . 0 31. 3 Vel = 1. 94 320 . 57 8 . 249 9. 04 - 31 .3 31. 3 A2 C=120 0 . 00 0 . 0 0 . 0 See PATH 2 641 . 09 0 . 003 9. 04 0 . 0 31 . 3 Vel = 3 . 89 320. 73 8 . 249 9. 04 31 . 3 31. 3 A3 C=120 0 . 00 0 . 0 0. 0 See PATH 3 961. 83 0 . 007 9. 04 0 .1 31 . 3 Vel = 5. 83 321. 09 8 .249 9. 04 31.4 31.4 A4 C=120 0 . 00 0 . 0 0 . 0 See PATH 4 1282 . 91 0 . 012 9. 04 - 0 . 1 31.4 Vel = 7 . 78 321 . 69 8 . 249 9. 53 31 .5 31. 5 AS C=120 0. 00 0 . 0 0 . 0 See PATH 5 1604 . 60 0 . 019 9 . 53 0 .2 31. 5 Vel = 9 .73 322 . 64 8 .249 10 . 00 31 .7 31 . 7 A6 C=120 0. 00 0 . 0 0 . 0 See PATH 6 1927 .24 0 . 026 10. 00 0 .3 31. 7 Vel = 11. 68 258 . 70 8 . 249 1T 65.23 32 . 0 32 . 0 A7 C=120 38. 92 0 . 0 0 . 0 See PATH 7 2185 . 94 0 . 033 104 . 16 3 . 5 32 . 0 Vel = 13 .25 UNITS - DIAMETER (INCH) LENGTH (FOOT) FLOW (GPM) PRESSURE (PSI) Coca-Cola Drawing Date: 2/25/11 12:18 Page 4 NODE ELEVATION SPRINKLER PRESSURE ACTUAL MINIMUM ACTUAL NUMBER K-FACTOR FLOW FLOW DENSITY (FT) (GPM/ (PSIA ) ) (PSI) (GPM) (GPM) (GPM/SQ.FT) 501 39. 00 16 . 80 26 . 8 87. 0 78 . 8 0 .87 502 39. 00 16 . 80 26 . 2 86. 0 78 . 8 0 .86 503 39. 00 16 . 80 26. 0 85. 7 78 . 8 0 .86 504 39. 00 .16 . 80 24 . 3 82 . 8 78 . 8 0 .83 505 39. 00 16 . 80 23 . 1 80 . 8 78 . 8 0 .81 506 39. 00 16 . 80. 22 .5 79. 7 78 . 8 0 .80 507 39 . 00 16 . 80 22 . 3 79. 3 78 . 8 0 .79 508 39. 00 16 . 80 24 .2 82 .6 78 . 8 0 .83 509 39. 00 16. 80 23 . 0 80 . 6 78 . 8 0 .81 510 39 . 00 16 . 80 22 .3 79.4 78 . 8 0 .79 511 39. 00 16 . 80 22 .2 79. 1 78 . 8 0 .79 512 39. 00 16 . 80 24. 1 82.4 78 . 8 0 .82 513 39. 00 16 . 80 22 . 9 80.4 78 . 8 0 .80 514 39 . 00 16 . 80 22 .3 79.3 78 . 8 0 .79 515 39 . 00 16 . 80 22 . 1 78 . 9 78 . 8 0 .79 516 39. 00 16. 80 24 . 0 82 . 3 78 . 8 0 .82 517 39. 00 16 . 80 22 . 9 80 .4 78 . 8 0 .80 518 39 . 00 16 . 80 22 .2 79.2 78 . 8 0 .79 519 39. 00 16 . 80 22 . 0 78 . 9 78 . 8 0 .79 520 39 . 00 16 . 80 24 . 0 82 .3 78 . 8 0 .82 521 39. 00 16 . 80 22 . 9 80 .3 78 . 8 0 .80 522 39. 00 16 .80 22 .2 79 . 1 78 . 8 0 .79 523 39 . 00 16 . 80 22 . 0 78 . 8 78 . 8 0 .79 524 39 . 00 16 . 80 24 . 0 82 . 3 78 . 8 0 .82 525 39. 00 16 . 80 22 . 8 80 .3 78 . 8 0 .80 526 . 39 . 00 16 . 80 22 .2 79. 1 78 . 8 0 .79 527 39 . 00 16 . 80 22 . 0 78 . 8 78 . 8 0 .79 Al 37 . 50 31 .3 A2 37 . 50 31.3 A3 37.50 31.3 A4 37 . 50 31 .4 A5 37. 50 31. 5 A6 37 . 50 31. 7 A7 37 .50 32 . 0 A8 37 . 50 35 . 5 W 37. 50 41 .2 Max velocity of 19 . 17 occurs in the pipe from 504 TO A6 Coca-Cola Drawing Date: 2/25/11 12:18 Page 3 FITTING NAME TABLE ABEREV: NAME C Coupling E 90 ' Standard Elbow F 45 ' Elbow S Straight Flow Thru Tee T 90 ' Flow Thru Tee ✓ Valve LEGEND HYD REF Hydraulic reference. Refer to accompanying flow diagram. K FACTOR Flow factor for open head or path where Flow (gpm) = K x -\/P Qa Flow added or subtracted Qt Total flow DIA Actual internal diameter of pipe C Hazen Williams pipe roughness factor Pf/ft Friction loss per foot of pipe PIPE Length of pipe FTNG' S Number of fittings. See table above. TOTAL Total length (PIPE + FTNG'S) Pt Total pressure (psi) at fitting Pe Pressure due to change in elevation where Pe = 0 . 433 x change in elevation Pf Friction loss (psi) to fitting where Pf = 1 x 4 . 52 x (Q/C) '1 . 85 / ID '4 . 87 Pv Velocity pressure (psi) where Pv = 0 . 001123 x QA2/IDA4 Pn Normal pressure (psi) , where Pn = Pt - Pv NOTES : - Pressures are balanced to 0 . 01 psi . Pressures are listed to 0 . 1 psi . Addition may vary by 0 . 1 psi due to accumulation of round off . - Calculations conform to NFPA 13 . - Velocity Pressures are not considered in these Calculations Coca-Cola Drawing Date: 2/25/11 12:18 HYDRAULIC CALCULATION DETAILS HYDRAULIC FLOW LOSS QTY DESCRIPTION LENGTH C ID gpm psi TOTALS Hydr Ref W Required at Hyd Area 5 2186 41.2 psi 1 Pipe 8" 10x21 CSC Grvd 38 ' 120 8 .249 2186 1.3 Elevation, Change .37 ' 6:" 16 .2 1 8" Grvd Butterfly Valve VIC "708W" 12 ' 120 8 . 071 2186 0 .4 1 8" Grvd Check Valve VIC "717" 93301 45 ' 120 8 . 071 2186 1. 7 1 8" Grvd Deluge Valve Tyco "DV-5" CHART LOSS 2186 4 .0 1 8" Grvd Butterfly Valve VIC "708W" 12 ' 120 8 . 071 2186 0 .4 1 8" Groove-O-Let 35 ' 120 8 . 071 2186 1 .4 1 Pipe 8" 10x21 CSC Grvd 3 ' 120 8 . 249 2186 0 . 1 1 8" Grvd Tee FIRELOCK 35 ' 120 8 . 071 2186 1.4 1 8" Flngd 90 Ell 18 ' 120 8 . 071 2186 0 . 7 1 Pipe 8" DIx18 25 ' 140 8 . 390 2186 0 . 6 Fixed Flow Outside Hose Allow. 500 gpm Hydr Ref R1 Required at Source 2686 69.3 psi Water Source231. 0 psi static, 97 . 0 psi residual @ 2500 gpm 2686 gpm 78 .0 psi SAFETY PRESSURE 8.6 psi Available Pressure of 78 . 0 psi Exceeds Required Pressure of 69 .3 psi This is a safety margin of 8.6 psi or 11 % of Supply Maximum Water Velocity is 19 . 2 fps Coca-Cola Drawing Date: 2/25/11 12: 19 HYDRAULIC DESIGN ,INFORMATION SHEET Job Name : Coca-Cola Location: Northampton, MA Drawing Date: Remote Area Number: 5 Contractor: EFP Telephone: 508-485-8183 237 Cedar Hill St . Marlboro, MA Designer: R.L. Calculated By: SprinkCAD www. sprinkcad. com 451 N. Cannon Ave . Lansdale, PA 19446 Construction: Steel Occupancy:Storage Reviewing Authorities:Northhampton Fire Dept . SYSTEM DESIGN Code:Quell Data Hazard:Class 2 System Type :WET Area of Sprinkler Oper. 2250 sq ftl Sprinkler or Nozzle Density (gpm/sq ft) 0 . 708 1 ..viake r:, TYC Area per Sprinkler 100 . 0' sq ft 'Model: —K17 Hose Allowance Inside 0 gpm 1 K-Factor:16. 80 Hose Allowance Outside 500 gpm 1 Temperature Rating: 286 CALCULATION SUMMARY 27 Flowing Outlets gpm Required: 2685 . 9 psi Required: 69 .3 @ Source WATER SUPPLY Water Flow Test 1 Pump Data Date of Test 5-27-2010 I Rated Capacity 0 gpm Static Pressure 231 . 0 psi 1 Rated Pressure 0 . 0 psi Residual Pres 97 . 0 psi 1 Elevation, 0 At a Flow of 2500 gpm 1 Make: Elevation 0" Model : Location: @ fire pump discharge Source of Information: Calculated SYSTEM VOLUME 6290 Gallons Notes : D O _ P I 1 I I 1 I( 1 c) I I I 7- � I ( j _ I I rl- v11 _ T i I ' �HUNIN, i 11 ' III ; r • ' 1I IIOO 1 I 1 111111 IIIIlII l i l l 1 ILill' 1 1 l i I 1. ! 11 'I 1 i ' I I 1 `il 1 I I iiT I� Ilii A I I o 1111 l� 1 ! 111 I II No i ! 1 ' II 1 ' ! ' I 4'�, .11 1 rII CN c0") Ill�ll I 1 NI IiIm�O 'II^ Ill eh' � I Ill It'1011111 '' ll ; l+ Iii 1 ��I N41lk I IlEll I I 1 ■ I .,T, LI liud ;�!+ I,P!1111111,i t. •IhhII 4 111ol , I � I I� IIII ' 1.. 1111111. : l !i1I!011111-1----ID I IJ! 1 11 8 Q I IIi III 'hllll I IHhii!I I hIII'' l I 1 A-i1 W 1 N ' N I I , ;; �, IIi M IIII�II: III II l I �IHIIm1111111 11F INIIIwIIII _uI NI, ' o 11111111111111H, hIIIIIIII I I III U'` VIII r 11'VIII II�IitI ! sl !! !!II�� Hill 1 EN � 11 I 1 1 Ili , 1111111111 l �ll o� ,II. INIIIM1III II UfIII kiI I ' ' ' 1� ' 1 I Nlll °W t ! 1 � I I , i I I; II ;I I ),. , 1 1 , , �, , „1 I , ,t li.i } I r— ,____,..,....;_•_:_.4.,_,L. — 1 —, f� ,__ S III 111 I',,1 Ai I �� 1� I�� � � � I IP;1'r �i II 1!111'1 I III I II ' I I I1 I I ;� � I•- 1ll1 1 I 1 1 /' II! e;1 1. I 1 VIII II 1 1 II1I 11 11!;;!Iii II!! 1 I'Thu, ww,0 I' k 0 I'� 'j� r C1J7 ' � ! i �., 1 Iffy"i I '1 i t 1 r —I � I IIIIirI�� ' 1 1I I l' 1' 111 iot 1I I I 11 11 1. I'I l i I'I �II ' il' ''i 1i I I I �i ' i i � jai ( I � I �I I'I ( ll4 I II i,i II ,I . � 1/!4 , r -:� �� ,� 11 � � III. _I' � I I 1 -� 11 I„;_, I Ce 1 I i I1 I W i I III 11'11111. i� -1`iili ill �il IIi, I � 11 1i I Iii i 11.11 ,1� 1111 I. 11 1� � ;� o t i1 1� { I . j1 1� 1 II i O i .A 0 4►. I 11 I 11 I it !IFI-1.19 1� I1 1 Ili I I l� iI 11111 I• I 1 I �� C 5 I I IO1!Th i Il 1 !I ,III ' IIIIIEIIIIIIIIII1111 ''II it '; I � i 1111111 1111'I11141;i1111161 F � �IIIIuIIII�lll1, (II, 1 I 1 '; 11011 ,II � III1115II00p'II 'IIIIIIIIIIII111111111�1 III 1' OI I�IIII01 �' " 52111 ' I , 1 , 11 11 ;11, 1 ;111 1 !, I ; 1 I I i ' BEN i J 1 Il 11 I :111. j r lij � k.i ' ig.n� „I 1 I 1 i I 1� 1 1 ! I� 1 ' � L, 1 1 i I ��R , W 1111;;!1`11 li' I 1 11 I! Ill - 11,! 1 IIi I I I' ( II , 1 1 11 I NCI 4l 11; I iI1' li 1 (I 11111 ,; I°, 111 ! I 1 CHI II •• I 11. I I'li H I HI I I: 0 O O O O O O O O O O O O O O O O 0 O O O O O 0 O (0 CO N T— O C) CO N- CO U') C- CO N r— 0 (5) CO t` (C LC) 't M N r— N N N N r \— r e— 1— T- -c— S S 6!sd `ainssaJd C o 5 c.) o n zi 2 ;t- o 0- 2 ›..,< a) , 00 ,- In ascii: I:4 3 .co - ! , . I . , I i , I 8 I i N 1 , . , i . I i t I r EE I .•' 0 a. a o 0 cr) ta) i o ' , , I , 0 cr) ■ N LO I 0 ■ 1 I I O ..0 . I O 6 2. o. cn7u) I O -65 = , lc ° I o to , --E E MIN El 8 DI KaTI , 1,14 1 III 1 , , i I N Mill 0 LO l'-- •,-- N 1 I " 45 , , , , . . , ..._ _r__ rn . (I) -0 6 ■._ . , , r 1 r ' I 7T) -07.50 ! i 0 0 O 1- 0 CZ I CO , ■ >, a a = , ,cr) I E E , (I) (t) o_ a ct. cm ti2 1 1 m nmc\J o I , . o 1 I , in N i •• .— i 2 © i = NI i ■ ;i15 u) r■ 1 L0) N I 1 1 i , = a) u) ,... , [ CI) CL 1 I I 1 1 I , E.I.) 6 , 1 o o... 73 I o 0 1 1 I N Cr.) CZ tv ci.) 0 76 1 r r cf) CECD 1 1 • , ; 1 , I I , m < , , 1 . m m -..,.. c. < m o co mot E . 0 0 0 0 0 0 0 00 •tt- 0 C.0 N CO 'cr. N N N N— 1.-• AIMINIMMININIIMMOINIMPIPP Coca-Cola Drawing Date: 2/25/11 12:18 Tyco Fire Products Page 8 HYD. Qa DIA. FITTING PIPE Pt Pt REF "C" TYPES FTNG'S Pe Pv ******* NOTES ******* POINT Qt Pf/ft TOTAL Pf Pn PATH 5 FROM HYDRAULIC REFERENCE 405 TO B5 CONTINUED 80 . 12 2 . 635 10 . 00 22 . 7 22 . 7 K = 16. 80 405 C=120 0 . 00 0 . 0 0 . 0 80 . 12 0 . 019 10 . 00 0.2 22 . 7 Vel = 4 . 76 80 .45 2 . 635 10 . 00 22 . 9 22 . 9 K = 16 . 80 404 C=120 0 . 00 0 . 0 0 . 0 160 . 57 0 . 069 10 . 00 0 . 7 22 . 9 Vel = 9. 54 81 . 66 2 . 635 10 . 00 23 . 6 23 .6 K = 16. 80 403 0=120 0 . 00 0 . 0 0 . 0 242 . 22 0 . 148 10 . 00 1. 5 23 . 6 Vel = 14 . 39 84 . 18 2 . 635 10 . 00 25 . 1 25 . 1 K = 16 . 80 402 0=120 0 . 00 0 . 0 0 . 0 326 . 40 0 . 257 10 . 00 2 . 6 25 . 1 Vel = 19.39 88 . 38 2 . 635 lE 2 . 75 27. 7 27 . 7 K = 16 . 80 401 C=120 iT 24 . 71 0 . 6 0 . 0 414 . 78 0 . 400 27 .46 11 . 0 27 .7 Vel = 24 . 64 55 414 . 78 39 . 3 K = 66. 15 UNITS - DIAMETER (INCH) LENGTH (FOOT) FLOW (GPM) PRESSURE (PSI) Coca-Cola Drawing Date: 2/25/11 12:18 Tyco Fire Products Page 7 HYD. Qa DIA. FITTING PIPE Pt Pt REF "C" TYPES FTNG'S Pe Pv ******* NOTES ******* POINT Qt Pf/ft TOTAL Pf. Pn PATH 3 FROM HYDRAULIC REFERENCE 415 TO B3 CONTINUED 83 . 05 2 .635 10 . 00 24 .4 24 .4 K = 16 .80 412 C=120 0 . 00 0 . 0 0 . 0 322 . 03 0 .251 10 . 00 2 .5 24 .4 Vel = 19. 13 87 . 21 2 . 635 1E 2 . 75 26 . 9 26 . 9 K = 16 . 80 411 C=120 1T 24 .71 0 . 6 0 . 0 409 . 24 0 .390 27 .46 10 .7 26 . 9 Vel = 24 .31 B3 409 .24 38 .3 K = 66 . 11 PATH 4 FROM HYDRAULIC REFERENCE 410 TO B4 79 .44 2 . 635 10 . 00 22 .4 22 .4 K = 16 . 80 410 C=120 0 . 00 0 . 0 0 . 0 79 . 44 0 . 019 10 . 00 0 .2 22 .4 Vel = 4 . 72 79 . 77 2 .635 10 . 00 22 .S 22 .5 K _ 16 . 80 409 C=120 0 . 00 0 . 0 0 . 0 159 .21 0 .068 10 . 00 0 .7 22 . 5 Vel = 9 .46 80 . 97 2 .635 10 . 00 23 .2 23 .2 K = 16 .80 408 C=120 0 . 00 0 . 0 0 . 0 240 . 18 0 .146 10 . 00 1 . 5 23 . 2 Vel = 14 .27 83 .47 2 .635 10 . 00 24 .7 24 . 7 K = 16 . 80 407 C=120 0 . 00 0 . 0 0 . 0 323 . 65 0 .253 10 . 00 2 .5 24 . 7 Vel = 19 .23 87 . 64 2 . 635 1E 2 . 75 27 .2 27 . 2 K = 16 . 80 406 C=120 iT 24 . 71 0 . 6 0 . 0 411 .29 0. 394 27 .46 10 . 8 27 . 2 Vel = 24 .44 B4 411 .29 38 .7 K = 66 . 12 PATH 5 FROM HYDRAULIC REFERENCE 405 TO B5 UNITS - DIAMETER (INCH) LENGTH (FOOT) FLOW (GPM) PRESSURE (PSI) Coca-Cola Drawing Date 2/25/11 12:18 Tyco Fire Products Page 6 HYD. Qa DIA. FITTING PIPE Pt Pt REF "C" TYPES FTNG'S Pe Pv ******* NOTES ******* POINT Qt Pf/ft TOTAL Pf Pn W 2051 . 58 52 . 1 K = 284 . 09 PATH 2 FROM HYDRAULIC REFERENCE 420 TO B2 78 . 85 2 . 635 10 . 00 22 . 0 22 . 0 K = 16 . 80 420 0=120 0 . 00 0 . 0 0 . 0 78 .85 0 . 019 10 . 00 0 . 2 22 . 0 Vel = 4 . 68 79 . 18 2 . 635 10 . 00 22 .2 22 . 2 K = 16 .80 419 C=120 0 . 00 0 . 0 0 . 0 158 . 04 0 . 067 10 . 00 0 . 7 22 . 2 Vel = 9 .39 80 .37 2 . 635 10 . 00 22 . 9 22 . 9 K = 16 . 80 418 0=120 0 .,00 ' 0 .0 0 . 0 238 .41 0 . 144 10 . 00 1.4 22 . 9 Vel = 14 . 16 82 . 86 2.635 10 . 00 24 .3 24 . 3 K = 16 .80 417 0=120 0 . 00 0 . 0 0 . 0 321 . 26 0 .250 10 . 00 2 . 5 24 . 3 Vel = 19. 09 87 . 00 2 . 635 lE 2 . 75 26 . 8 26 . 8 K = 16-. 80 416 0=120 1T 24 . 71 0 . 6 0 . 0 408 . 27 0 . 389 27 .46 ' 10 .7 26 . 8 Vel = 24 .26 • B2 408 . 27 38 . 1 K = 66 . 10 PATH 3 FROM HYDRAULIC REFERENCE 415 TO B3 79 . 04 2 . 635 10 . 00 22 . 1 22 . 1 K = 16 .80 415 0=120 0 . 00 0 . 0 0 . 0 79 . 04 0. 019 10 . 00 0.2 22 . 1 Vel = 4 . 70 79 . 37 2 . 635 10 .00 22 .3 22 . 3 K = 16 . 80 414 0=120 0 . 00 0. 0 0 . 0 158 .41 0 . 067 10 . 00 0 .7 22 . 3 Vel = 9.41 80 . 56 2 . 635 10 . 00 23 . 0 23 . 0 K = 16 .80 413 C=120 0 . 00 0 . 0 0 . 0 238 . 98 0 . 144 10 . 00 1. 4 23 . 0 Vel = 14 .20 UNITS - DIAMETER (INCH) LENGTH (FOOT) FLOW (GPM) PRESSURE (PSI) Coca-Cola Drawing Date: 2/25/11 12:18 Tyco Fire Products Page 5 HYD. Qa DIA. FITTING PIPE Pt Pt REF "C" TYPES FTNG'S Pe Pv ******* NOTES ******* POINT Qt Pf/ft TOTAL Pf Pn PATH 1 FROM HYDRAULIC REFERENCE 425 TO W (PRIMARY PATH) 78 . 80 2 . 635 10 . 00 22 . 0 22 . 0 K = 16 . 80 425 0=120 0 . 00 0 . 0 0 . 0 78 . 80 0 . 019 10 . 00 0 .2 22 . 0 Vel = 4 . 68 79 . 13 2 . 635 10 . 00 22 .2 22 . 2 K = 16 . 80 424 C=120 0 . 00 0 . 0 0 . 0 157 . 93 0 . 067 10. 00 0 .7 22 .2 Vel = 9. 38 80 . 32 2 . 635 10 . 00 22 . 9 22 . 9 K = 16. 80 423 0=120 0 . 00 0 . 0 0 . 0 238 .25 0 . 144 10 . 00 1 .4 22 . 9 Vel = 14 . 15 82 . 80 2 . 635 10 . 00 24 .3 24 . 3 K = 16. 80 422 0=120 0 . 00 0 . 0 0 . 0 321 . 05 0 . 249 10 . 00 2 . 5 24 . 3 Vel = 19. 07 86 . 95 2 . 635 1E 2 . 75 26 . 8 26 . 8 K = 16. 80 421 0=120 1T 24 .71 0 .6 0 . 0 408 . 00 0 . 388 27 .46 10 .7 26 . 8 Vel = 24 . 24 6 . 357 9 . 04 38 . 1 .38 . 1 El - 0=120 0 . 00 0 . 0 0 . 0 408 . 00 0 . 005 9 . 04 0 . 0 38 . 1 • Vel = 4 . 16 408 . 27 6 . 357 9 . 04 38 . 1 38 . 1 B2 C=120 0 . 00 0 . 0 0 . 0 See PATH 2 816 . 27 0 . 019 9 . 04 0 .2 38 . 1 Vel = 8.33 409 .24 6 . 357 9 . 04 38 .3 38 . 3 B3 0=120 “3 . 0"0 0 .,0 0 , 0 See 'PATH 3 1225 . 51 0 . 041 9 . 04 0 .4 38 . 3 Vel = 12 . 51 411 . 29 6 . 357 9. 04 38 . 7 38 . 7 B4 C=120 0 . 00 0 . 0 0 . 0 See PATH 4 1636 . 80 0 . 070 9 . 04 0 . 6 38 . 7 Vel = 16 . 71 414 . 78 6 . 357 1T 35 . 03 39 . 3 39 . 3 85 0=120 37 . 72 0 . 0 0 . 0 See PATH 5 2051 . 58 0 . 106 72 . 75 7 . 7 39 .3 Vel = 20. 94 8 . 249 2E 55 . 02 47 . 0 47 . 0 AS 0=120 2T 117 . 88 0 . 0 0 . 0 2051 . 58 0 . 030 172 . 91 5 . 1 47 . 0 Vel = 12 . 44 UNITS - DIAMETER (INCH) LENGTH (FOOT) FLOW (GPM) PRESSURE (PSI) Coca-Cola Drawing Date: 2/25/11 12:18 . Page 4 NODE ELEVATION SPRINKLER PRESSURE ACTUAL MINIMUM ACTUAL NUMBER K-FACTOR FLOW FLOW DENSITY (FT) (GPM/ (PSIA ) ) (PSI) (GPM) (GPM) (GPM/SQ.FT) 401 39. 00 16 . 80 27. 7 88 .4 78 . 8 0 .88 402 39 . 00 16 . 80 25. 1 84 .2 78 . 8 0. 84 403 39 . 00 16 . 80 23.. 6 81 .7 78 . 8 0 .82 404 39 . 00 16 . 80 ' 22 :9 80 . 5 78 .8 0 .80 405 39 . 00 16 . 80 22 .7 80 . 1 78 . 8 0.80 406 39 . 00 16. 80 27.2 87. 6 78 . 8 0 . 88 407 39 . 00 16 . 80 24 . 7 83 . 5 78 . 8 0 .83 408 39 . 00 16 . 80 23 .2 81 . 0 78 . 8 0 .81 409 39 . 00 16 . 80 22 . 5 79 . 8 78 . 8 0 . 80 410 39 . 00 16 . 80 22 .4 79 .4 78 . 8 0.79 411 39 . 00 16 . 80 26. 9 87 .2 78 . 8 0 .87 412 39 . 00 16. 80 24 .4 83 . 1 78 . 8 0.83 413 39 . 00 16. 80 23 . 0 80 . 6 78 . 8 0 .81 414 39 . 00 16. 80 22 .3 79 .4 78 . 8 0 .79 415 39 .00 16 . 80 22 . 1 79 . 0 78 . 8 - 0 . 79 416 39 .00 16. 80 26 . 8 87 . 0 78 . 8 0 . 87 417 39 . 00 16. 80 24 .3 82 . 9 78 . 8 0 . 83 418 39 . 00 16 . 80 22 . 9 80 .4 78 . 8 0. 80 419 39 . 00 16 . 80 22 .2 79 .2 78 . 8 0 .79 420 39 . 00 16. 80 22 . 0 78 . 9 78 . 8 0 . 79 421 39 . 00 16. 80 26 . 8 86 . 9 78 . 8 0. 87 422 39 . 00 16 . 80 24 . 3 82 . 8 78 .8 0 . 83 423 39 .00 16 . 80 22 . 9 83 ,3 78 , 8 0. 80 424 39 . 00 16 . 80 22 . 2 75 . 1 78 . 8 ' 0 . 79 425 39 . 00 16 . 80 22 . 0 78 . 8 78 . 8 0 .79 A8 37 .50 47 . 0 El 37 .50 38 . 1 B2 37 . 50 38 . 1 183 37 .50 38 .3 B4 37 .50 38 , 7 B5 37 .50 39. 3 W 37 .50 52. 1 Max velocity of 24 . 64 occurs in the pipe from 401 TO B5 Coca-Cola Drawing Date: 2/25/11 12:18 Page 3 FITTING NAME TABLE ABBREV. NAME C Coupling E 90 ' Standard Elbow F 45 ' Elbow S Straight Flow Thru Tee T 90 ' Flow Thru Tee ✓ Valve LEGEND HYD REF Hydraulic reference. Refer to accompanying flow diagram. K FACTOR Flow factor for open head or path where Flow (gpm) = K x -\/P Qa Flow added or subtracted Qt Total flow DIA Actual internal diameter of pipe C Hazen Williams pipe roughness factor Pf/ft Friction loss per foot of pipe PIPE Length of pipe FTNG' S Number of fittings . See table above.... , TOTAL Total length (PIPE + FTNG'S) Pt Total pressure (psi) at fitting Pe Pressure due to change in elevation where Pe = 0 .433 x change in elevation Pf Friction loss (psi) to fitting where Pf = 1 x 4 . 52 x (Q/C) ''1 . 85 / IDA4 . 87 Pv Velocity pressure (psi) where Pv = 0 . 001123 x Q'2/IDA4 Pn Normal pressure (psi) , where Pn = Pt - Pv NOTES : - Pressures are balanced to 0 . 01 psi. Pressures are listed to 0 . 1 psi . Addition may vary by 0 . 1 psi due to accumulation of round off. - Calculations conform to NFPA 13 . - Velocity Pressures are not considered in these Calculations Coca-Cola Drawing Date: 2/25/11 12:18 HYDRAULIC CALCULATION DETAILS HYDRAULIC FLOW LOSS QTY DESCRIPTION LENGTH C ID gpm psi TOTALS Hydr Ref W Required at Hyd Area 4 2052 52 . 1 psi 1 Pipe 8" 10x21 CSC Grvd 38 ' 120 8 .249 2052 1 . 1 Elevation Change 37 ' 6" 16 .2 1 8" Grvd Butterfly Valve VIC "708W" 12 ' 120 8 . 071 2052 0 .4 1 8" Grvd Check Valve VIC "717" 93301 45' 120 8 . 071 2052 1 . 5 1 8" Grvd Deluge Valve Tyco "DV-5" CHART LOSS 2052 3 . 6 1 8" Grvd Butterfly Valve VIC "708W" 12 ' 120 8 . 071 2052 0 .4 1 8" Groove-O-Let 35 ' 120 8 . 071 2052 1 .2 1 Pipe 8 " 10x21 CSC Grvd 3 ' 120 8 . 249 2052 0 . 1 1 8" Grvd Tee FIRELOCK 35 ' 120 8 . 071 2052 1 .2 1 8" Flngd 90 Ell 18 ' 120 8 . 071 2052 0 . 6 1 Pipe 8" DIx18 25 ' 140 8 .390 2052 0 .5 Fixed Flow Outside Hose Allow. 500 gpm Hydr Ref R1 Required at Source 2552 79.0 psi Water Source231. 0 psi static, 97 . 0 psi residual @ 2500 gpm 2552 gpm 91.8 psi SAFETY PRESSURE 12. 9 psi Available Pressure of 91.8 psi Exceeds Required Pressure of 79.0 psi This is a safety margin of 12 .9 psi or 14 % of Supply Maximum Water Velocity is 24 . 6 fps • Coca-Cola Drawing Date: 2/25/11 12:18 HYDRAULIC DESIGN INFORMATION SHEET Job Name : Coca-Cola Location: Northampton, MA Drawing Date : Remote Area Number: 4 Contractor: EFP Telephone : 508-485-8183 237 Cedar Hill St. Marlboro, MA Designer: R.L. Calculated By: SprinkCAD www. sprinkcad. com 451 N. Cannon Ave . Lansdale, PA 19446 Construction: Steel Occupancy:Storage Reviewing Authorities:Northhampton Fire Dept . SYSTEM DESIGN Code :Quell Data Hazard:Class 2 System Type :WET Area of Sprinkler Oper. 2250 sq ftj Sprinkler or Nozzle Density (gpm/sq ft) 0 .788 I Make: TYC Area per Sprinkler 100 . 0 sq ftj Model : K17 Hose Allowance Inside 0 gpm I K-Factor: 16 . 80 Hose Allowance Outside 500 gpm I Temperature Rating: 286 CALCULATION SUMMARY 25 Flowing Outlets gpm Required: 2551. 6 psi Required: 79 . 0 @ Source WATER- SUPPLY • Water Flow Test I Pump Data I Date of Test 5-27-2010 I Rated Capacity 0 gpm I Static Pressure 231. 0 psi I Rated Pressure 0 . 0 psi Residual Pres 97 . 0 psi I Elevation ; : 0 ; I ; At a Flow of 2500 gpm I Make: I Elevation 0" I Model : Location: @ fire pump discharge Source of Information: Calculated SYSTEM VOLUME 6290 Gallons Notes: 1 0 , 1 0 + I II 1 I l 1 j I I I I ' I I' 1 11E1 ',,11 I l ' 1 I ± I �� i I I Ili 111 11 11 NI 1 _� 1 NI 1' N Mlle 61! '?„ III I I 1 I 11 1118, r1 II 11 111 111111 I HIM i 1 11 MIAMI II II INNIN 1 N tII Il 1I1111i�,fl h; IF 11 .I 111111I'Mil i,i I I�III �N ; T - LI -I 1111111 0 ,4 I III 1 1 III._liu�ii I Q/ ! ! 1l1�II 11 4 Al 1 1I ,AINIII 1 i' �;� I ! 1II MIIN+1 w 0PP 11 I IIIIN 01 1' Q 1IIII '� 111INI111IIIl1 ' X14'111 N ' 1 uI�NINII II III I,'1 11111 I 1 !I ' III ".111111 NIIN110V IINNII1III 111 1 111111 V 1 X1911111111 I� i 1 II i 1 1 I ; ,, I I I I l r II��� INI�IIIoII l I l' � 11 11 1 I1 I ', 11 1 I II 141 II�:a 1 1� 'I'III I1 11111 i l ,l' I 1 11 I i 111111 H j I I �1 III ! l 1 aINI1NNli �il r I i , � ! , 1 0 1!111,1 +'! i '! IIINN10 ' I HII11®I1IIIINIINIIIIIIIIIIINIIUP 11111NIN�1 1 Ill ' ' lIIIIhIIiNNNoII W , III I 1 ! I !,., ',f! I i 11 1 I 11 1 I E I I 11 11111 +I I,' 1!!, 1 4 ' I ,i . li', Hi 1!11111+ 111111' II y 1 1 l II ! 1 1 1'11 1 11 1 11111111 1 I I _p I II ! ' l !li i!1 I 1 I 1111 III 1161 111 1 VIII ti 11!11 I I fI� NI I 1111 1 NIII till ;111 0 0 111 H '� 11 ! Iii 1 1 o 1 ' _II , III � I �I1111 HI 1j1 J 11 I I 1 . I hiIiii a , I 1 1 1 I, 1 111111111 " !1 I Tiiiiiellirill = I I I 11 11111 I , . , + ll II 11 1 ;Ce �. I 111 l i11 � 1 W I � - � 1 1 � o LU IIII11110 ��II INIIN II 1 T 111111111 IIIIhl0III111IhINN1 INI0�IiPi I IIN 1011 III ''W !�i i 1 I IIINNII IoI 0h 1 17LiJ !111► r. 1NI NNIN 11 1 111111111II11 11Uh1 5 1111110411111,11111111111111111111111111111111 1 �I 1 , � � �,,� ,I NIIIINII111111111111N1oI } NNE 1 IHI 11 1111111 , 1IIIUN�NNIUIIIINI� N10NININI I l h 4' \ 11111 I I 1 1 i'1 11111111 ''; 111 III I 1111110 ° ma y. � " ijL 'I11I1�' lllii l 11 + .11111111 1 !I��;IIl1�111111 11 -1 441r 1 4d 1 ' I �1 111! 1 11111 I,1 1 I1 II 11111 111 11�I. I1 '1+ 1 lil 1i 111 1 HY, `Ai I ll ; I' III I 111 11 11 1' 111 1 11 SIN, ? 11,,, +I! 1 li ! V III 1 III II 11 I I 1 1111 �1j11i 1!111 '111 I 1i� II j'1 �r c1 �1 I I1 MI 11 .N 1 1\4 `d� INIi11 11 t1 1111 + 111 •� 1111 I 11 Ill 1 11 l' Il! 1111 1 ��'; � 111 II 1! it i!I 11 111 1 11;11 11111', O 0 O 0 0 0 0 0 0 0 0 O 0 0 0 0 0 0 0 0 O 0 0 0 0 P c`') N e— 0 O) 00 t-- (. in '-r. C) N e— 0 6) 00 N- co if) ',71- co N .-- r,( N N N N e— e— r— e— . .. r- e- e- e- e- 6►sd 'eJnssald Coca Cola - Northampton, MA (Site Supply) PAGE 2 FITTING Equivalent Length per NFPA 13 1994, 6-4 .3 ' - ' Indicates Equivalent Length. 'T' Indicates Threaded Fitting 1=45 Elbow, 2=90 Elbow, 3='T' /Cross, 4=Butterfly Valve, 5=Gate Valve, 6=Swing Check Valve FROM TO FLOW PIPE FITS EQV. H-W PIPE DIA. FRIG. ELEV. FROM TO DIFF (gpm) (ft) (ft) C TYPE (in) (psi) (psi) (psi) (psi) (psi) 1 2 2500 . 00 8. 00 652 86. 19 120 2 10 .374 0. 014 0 . 000 116.35 115. 02 1.33 2 3 2500 . 00 20. 00 253 123 . 09 140 111 10.580 0.010 0 .867 115. 02 112 .77 1.38 3 4 1357 .22 200.00 0 0 . 00 140 111 8.550 0.009 0.000 112.77 111.02 1.76 4 5 1357 .22 115.00 33 130 . 19 140 111 8 .550 0.009 0.000 111. 02 108.86 2.16 5 6 1357 .22 175.00 112 57 . 65 140 111 8 .550 0.009 0.000 108 . 86 106. 81 2.04 6 7 1357 .22 850.00 2 24 .17 140 111 8 .550 0.009 0.000 106. 81 99. 13 7 .68 7 8 %-1142.78 700 . 00 2 24 .17 140 111 8 .550 0 . 006 0 .000 99. 13 103.76 -4.63 8 9 %-1142.78 590.00 11 33 .47 140 111 8.550 0 . 006 0. 000 103 .76 107.74 -3 .99 9 10 %-1142 .78 385. 00 22 48 .35 140 111 8.550 0 .006 0.000 107.74 110.51 -2.77 10 11 %-1142.78 130 .00 1 16.74 140 111 8.550 0.006 0.000 110.51 111.45 -0.94 11 3 %-1142.78 190 .00 1 16.74 140 111 8 .550 0. 006 0. 000 111.45 112.77 -1.32 7 13 2500 . 00 5.00 35 72 .53 140 111 8 .550 0.027 0.000 99. 13 97. 02 2 . 11 A MAX. VELOCITY OF 13 .96 ft. /sec. OCCURS BETWEEN REF. PT. 7 AND 13 Sprinkler-CALC Release 7.2 Win By Walsh Engineering Inc. North Kingstown R.I. U.S.A. Coca Cola - Northampton, MA (Site Supply) PAGE 1 HYDRAULIC CALCULATIONS AT SPECIFIED FLOW THE FOLLOWING SPRINKLERS ARE OPERATING IN: [ ] TEST AREA 1 [ ] TEST AREA 2 [ ] TEST AREA 3 [ ] REMOTE AREA Elevation of sprinklers = Elevation above water test. REF. PT. K ELEV. FLOW PRESSURE ft gpm psi 13 253 .80 2.00 2500 .00 97. 02 THE SPRINKLER SYSTEM FLOW IS 2500.00 gpm THE OUTSIDE HOSE FLOW AT REFERENCE POINT NO. 1 IS 0.00 gpm [ ] THE INSIDE HOSE [ J RACK SPKLR'S. [ ] YARD HYDT. FLOW IS 0.00 gpm THE FOLLOWING PRESSURES & FLOWS OCCUR ---> AT REF. PT. 1 c--- STATIC PRESSURE 231. 00 psi RESIDUAL PRESSURE 90 .00 psi AT 2800. 00 gpm TOTAL SYSTEM FLOW 2500.00 gpm AVAILABLE PRESSURE 116.69 psi AT 2500. 00 gpm OPERATING PRESSURE 116.35 psi AT 2500. 00 gpm PRESSURE REMAINING 0.34 psi • H Y D R A U L I C C A L C U L A T I O N S C O V E R S H E E T Coca Cola - Northampton, MA (Site Supply) W A T E R S U P P L Y STATIC PRESSURE (psi) 231 RESIDUAL PRESSURE (psi) 90 RESIDUAL FLOW (gpm) 2800 B O O S T E R P U M P S NUMBER OF BOOSTER PUMPS 0 S P R I N K L E R S MINIMUM FLOW PER SPRINKLER (gpm) 2500 MINIMUM PRESSURE PER SPRINKLER (psi) 97 .02 THIS SYSTEM OPERATES AT A FLOW OF 0 . 00 glom AT n ppFecTJRE OF 0.00 psi AT THE BASE OF THE RISER (REF. PT PIPES USED FOR THIS SYSTEM 002 SCHEDULE 10 111 DUCTILE IRON (350) r-x,,si ^*'° � r ...x&set,r MEi IT Type B Type C Type C/R Weld-MiserTM Tee-Let® Male Thread Standard Weight Standard Weight Schedu a 10 Welding Outlet Fittings IE E -'I A I� E -0-I A IF E ->I A 1 15 , T C C ; C B ' ��.I�- D-► t 4rJ B I�D-4-I WELO-MISER TEE-LET° ^DIMENSIONS (NOMINAL SIZES 21/2 THRU 8") Inside Diameter - 0 Wail Thickness - F Cut Nominal Nominal Outlet Outside Male Thread Roll Groove g Standard Schedule Standard Schedule Groove Std. Outlet Header Length Diameter Std.Wt. Wt Sch.10 A B C Weight 10 E Weight 10 NPT(t": *) NPT(S:. %-') NPT(.Cr 77) In.(- ) In.(,,-) In.(; rr) In.(:' ') In.(,:rr) In.(ms.) In.(..,v,:l In.(rr) 1325025 2025025 2225025 21 3 2.469 2.635 2.875 0.203 0.120 1325030 2025030 2225030 3 3 2.469 2.635 - 2.875 0.203 0.120_ 1325035 2025035 2225035 4 3 2.469 2.635 2.875 0.203 0.120 21 .. 1325050 2025050 2225050 5 3 2.469 2.635 2.875 0.203 0.120 1325060 2025060 2225060 6 3 2.469 2.635 2.875 0.203 0.120 1325080 2025080 2225080 8 3 2.469 2.635 2.875 0.203 0.120 1330030 2030030 2230030 3 3 3.068 3.260 3.500 0.216 0.120 1330035 2030035 2230035 31 3 3.068 3.260 3.500 0.216 0.120- 1330040 2030040 2230040 4 3 3.068 3.260 r1 3.500 0.216 0.120 3x - ' 1330050 2030050 2230050 5 3 3.068 3.260 3.500 0.216 0,120 ' 1330060 2030060 ' 2230060 t 6 3 3.068 3.260 3.500 0.216 0.120 1330080 2030080 2230080 8 3 3.068 3.260 3.500 0.216 0.120 1340040 2040040 2240040 4 4 4.026 4.260 4.500 0.237 0.120 , ip,,;r i`)'; 0 :''../: ,'.' 1340050 ' 2040050 2240050 5 4 4.026 4.260 4.500 0.237 0.120 4x 1C .. 6 1340060 2040060 2240060 6 4 4.026 4.260 4.500 0.237 0.120 1340080 2040080 2240080 8 4 4.026 4.260 4.500 0.237 0.120 - 2050050 - 5 4 5.047 - - - 2050060 - 5x 6 4 5.047 - - - 2050080 - 8 4 5.047 - - - 2060060 2260060 6 4 6.065 6.357 6.625 0.280 0.134 6x - 2060080 2260080 8 4 6.065 6.357 6.625 0.280 0.134 - 2080080 - 8 x 8 4 7.981 8.329 8.625 0.322 0.148 Note:Tee-Lets are manufactured to fit size-on-size,that is the contoured shape on a given Tee-Let is made to fit perfectly on the first listed header size. If installed on the second header size marked on the fitting,a slight gap of approximately 1/22"will appear along the longitudinal centerline of the header. For example,a 1'x 2 -21/2"Tee-Let,is al'outlet fitting manufactured to fit perfectly on,the-2".header size;listed,while leavirg a 1/32"gap:?lo,ng the.lgn,gitudinal centerline of the 21"size. If a perfect fit i's required for a 21/2"header pipe,then a 1"x 21-3'Tee-Let would be ordered,Size consolidations are employed to reduce inventory and provide for greater flexibility. Merit-1.10 -7- /I.w .Star° , flnr NY.xioetc rhye%*Oo or Anvil iotenuitonal M ERIC" a � ' :°, , . w.. � � ' .�.i..� Weld-Miser TM Tee-Let® Type B Type C Welding Outlet Fittings Male Thread eight Cut Standard Weight 1. E -0-1 A l.,- E -►i A C I C , ■ I - .E- F -0- <-- F T r B 1 I-4-- D-->-I t B c - --'D WELD-MISER TEE-LET® -DIMENSIONS NOMINAL SIZES 1"THRU 2") Male Thread Cut Nominal Outlet Nominal Header Outlet Inside Diameter Outside Diameter Wail Thickness Sid.Wt. Groove A B Length D E F Std.Wt. C NPT(5S;'7) NPT(f? .-) In.( :„,.) In.(",.,) In( ,') In.p:,;1) 1n.(rnr) 1n.(,7.,,,) 1310012 2010012 11/4-1/ 3 1.049 1.315 0.133 r _ - 1310015 2010015 11/2-2 3 1.049 1.315 0.133 1310020 2010020 i x 2-21/2 3 1.049 1.315 0.133 i 1310025 2010025 21/2-4 3 1.049 1:315 0.133 1310050 2010050 5 8 3 1.049 1:315 0.133 1312012 2012012 11/4 3 1.368 1.660 0.140 1312015 2012015 11 3 1.368 1.660 0.140 1312020 2012020 11/4 x 2-21 3 1.368 1.660 0.140 1312025 2012025 3-4 3 1.368 1.660 0.140 1312050 2012050 5-8 3 1.368 1.660 0.140 1315015 2015015 11/2 3 1.610 1.900 0.145 1315020 2015020 2 3 1.610 1.900 0.145 1315025 2015025 11/2 x 21/2 3 1.610 1.900 0.145 1315030 2015030 3-4 3 1.610 1.900 0.145 1315050 2015050 5-8 3 1.610 1.900 0.145 ' 1320020 2020020 2 3 2.067 2.375 0.154 1320025 2020025 21 3 2.067 2.375 0.154 1320030 2020030 3 3 2.067 2.375 0.154 1320035 2020035 2 a 4 3 2.067 2.375 0.154 1320050 2020050 5 3 .; 2 067,. 2 375 0.154 1320060 2020060 6 3 2.067 2.375 0.154 1320080 2020080 8 3 2.067 2.375 0.154 Note:Tee-Lets are manufactured to fit size-on-size,that is the contoured shape on a given Tee-Let Is made to fit perfectly on the first listed header size. If Installed on the second header size marked on the fitting,a slight gap of approximately 1/22`will appear along the longitudinal centerline of the header. For example,a 1"x 2 -21/2"Tee-Let,is a 1"outlet fitting manufactured to fit perfectly on the 2"header size listed,while leaving a 1/22"gap along the longitudinal centerline of the 21/2"size. If a perfect fit is required for a 21/2"header pipe,then a 1'x 21/2-3"Tee-Let would be ordered.Size consolidations are employed to reduce inventory and provide for greater flexibility. _6_ Merit-1.10 / wi Star" • Fire Products Division of Anvil International , .. A I1 Weld-MiserTM Tee-Let® II Welding Outlet Fittings Type A \r Female Thread ill' C M ! i , ,....,_D., . i WELD-NIISERT"TEE-LET®DIMENSIONS&PART NUMBERS WELD-MISER Tm TEE-LET®DIMENSIONS& PAR.NUMBERS Nominal Nominal Outlet inside Make Nominal Nominal Outlet Inside Make Part Weight Pali Weight Number Outlet Header Length Diameter Up Number Outlet Header Length Diameter Up Each Each A B C D M A B C D M AIPT(RS ) In(mm) In(r.r;) In(mm) In(v•,,) In(,.w,) Lb.(:;) NPT(P'S.,-'7) In(n-r,') In(n-m') In(n-n) In('7m) In(nm) Lb.(x.-) 1002002 1/4 x 1/4-8 0.080 1020020 2 1.750 2.067 0.875 0.857 1005012 11/4-11/2 ' 1.063 0.700 0.500 0.171 1020025 21/2 1.750 2.067 0.875 0.829 1005015 11/2-2 1.063 0.700 0.500 0.171 1020030 3 1.750 2.067 0.875 0.829 ltx 1005020 .' 2-21/2 1.063 0.700 0.500 0.171 1020040 2 x 4 1.750 2.067 0.875 0.800 1005025 21/2-8 1.063 0.700 0.500 0.169 1020050 5 1.750 2.067 0.875 0.743 1007012 11/4-11/2 1.125 0.900 0.500 0.260 :.- .,-~- :-.'' 1020060 6 1.750 2.067 0.875 0.743 1007015 11/2-2 1.125 0.900 0.500 0.260 , 1020080 8 1.750 2.067 0.875 0.743 1007020 ', . 2-21/2 1.125 0.900 0.500 0.260 •--.-:. 1025025 21/2 2.215 2.469 1.125 1.250 1007025 21/2-8 1.125 0.900 0.500 0.256 . ., 1010012 11/4-11/2 1.250 1.145 0.500 0 1025030 3 2.215 2.469 1.125 1.200.331 . ..",s 1010015 11/2-2 1.250 1.145 0.500 0.331 1025040 4 2.215 2.469 1.125 1.150 1010020 2-21/2 1.250 1.145 0.500 0.320 1025050 ' 5 2.215 2.469 1.125 1.150 - .. • 1010025 2r, 21/2-3 1.250 1.145 0.500 0.314 1025060 6 2.215 2.469 1.125 1.150 1010030 3-4 1.250 1.145 0.500 0.309 1025080 8 2.215 2.469 1.125 1.150 1010050 5-8 1.250 1.145 0.500 0.291 1030030 3 2.500 3.068 1.500 1.550 1012012 11/4 1.375 1490 0.500 0432 1030040 4 2.500 3.068 1.500 1.450 .,. . . . 1012015 11/2-2 1.375 1490 0.500 0.421 1030050 3x 5 2.500 3.068 1.500 1.450 1012020 2-2½ 1.375 1.490 0.500 0.421 ' 2.500 3.068 1.500 1.450 ‘ ,"A - 1012025 32n 21/2-3 1.375 1.490 0.500 0.411 1030080 8 2.500 3.068 1.500 1.450 1012030 _ _ 3-4 1.375 1.490 0.500 0.389 . , 1040040 4 3.000 4.028 2000. 2.850 1012050 5-8 1.375 1.490 0.500 0.389 1040050 5 3.000 4.026 2.000 2.850 1015015 11/2 1.625 1.610 0.875 0.477 4 x 1040060 (0,''';, 6 3.000 4.026 2.000 2.800 ,....... 1015020 2 1.625 1.610 0.875 0.477 7''.'+'-+‘."'..‘ .., ...•,,. . . 1040080 8 3.000 4.026 2000. 2.800 1015025 11/40 21/2 1.625 1.610 0.875 0.477 1015030 - 3-4 1.625 1,610 0.875 0.477 Note: 1.:-.. .:';: z n-: = - ,1'r: , 7.'.' Part#1002002 is not UL Listed or FM Approved. 1015040 4 1.625 1.610 0.875 0.477 Part#1012012 is not FM Approved. .. - 0 All size-on-size(i.e.2 x 2)Tee-Lets are not FM Approved. 1015050 5-8 .1.625 1.610 0.875 0.477 '7 I ,•* &WI-Star- Merit-1.10 -5- (err Prodort,Divmon<,f Amht ielt,trtrional MERIT ,: 4t Weld-MiserTM Tee-Let® Welding Outlet Fittings ., ® ® For Fire Protection & Other Low Pressure Piping Systems Merit Weld-Miserrm Tee-Let Welding Branch Outlet Fittings offer the user a high strength, low �. ® cost forged threaded and grooved line of fittings specifically designed and manufactured to be APPROVED installed on Schedules 5 thru 10,proprietary thin wall flow pipe and standard wall pipe. For Ilang'approval derails contact �, yoorA„va9,ar qa re onl t,�a. Merit Tee-Lets art,forged steel welding outl,t fittings.The,metetial used jn,manufacture meets the chemical and physical requirements of ASTM A 53,Grades A or B,Type E,A-135,A-795, � � Tee-Lets employ a low weld volume design to provide for either a partial or full penetration weld employing a single pass with minimum burn-through and pipe distortion. Weld Miser Tee-Lets 1 3 are recommended for use on proprietary thin wall,Schedules 5, 10 and 40 pipe.Threads comply , „'4.‘ with ANSI B1.20.1 or IS07/1.They are UL Listed and FM Approved for use conforming to the requirements of Bulletin 13 1999 of the National Fire Protection Association.When used in fire 4 � sprinkler systems,Tee-Lets are rated for 300 psi.When used in mechanical systems, maximum lf ,', ” pressures are calculated using criteria developed for ASME B31 piping code. K TEE-LET WELDED OUTLET FITTING(UL VIZU--EX60(2,FM APPROVAL GUIDE CHAPTER 1—PIPE FITTINGS) Outlet Model Outlet Pipe Size Header Pipe Size Rated Pressure (Inch) (Inch) (psig) 1/2, 1 1/2-8(Sch.10,40) lee Let Type A 11/4,1 fh.2,2'/2,3,4 1/2-4(Sch.5,DynaFlow) 300 (F-Threaded End) 2 4(EZ-Flow) 2,4 6(EZ-Flow) Tee-Let Type C 11/4.8 11/4.8(Sch.10,40) .(Grooved End) 300 21h-B ,h.4(Sch.°5,'.Dynafiow) Tee-Let Type C/R 11/4.6 11/4.8(All Schedules) 300 (Roll Grooved End) 1)Size-on-size(i.e.2 x 2)Tee-Lets are not FM Approved. , . . - , . 2)FM rated working pressure when welded on Sch.5 or non-threadable lightwall pipe is 175 psi. —4— Merit-1.10 Aiwi Starts•. ftreProducty Division of Anvil Intemaoonal MERIT® Weld-MiserTM Tee-Let® Welding Outlet Fittings Unified DesignTM Series Merit's Unified Design Series carries all important design considerations into its entire line of welding branch outlet fittings. Merits Weld-MiserTM Tee-Lets®are designed and Manufactured to reduce the amount of weld required to install the Tee-Lets on thin wall or proprietary flow pipe.Typically only one weld-pass completes the Installation.Merit Tee-Lets install with less weld volume than any other brand of welding outlet fittings for fire sprinkler applications.To accomplish this: •The contoured end of the fittings employs a reduced outside diameter. Two major advantages are immediately apparent: •The thinner wall on the contoured end permits welding temperatures to be matched to the thickness of the branch line or �� main thereby insuring complete penetration without cold welds,weld roll-off, burn-through or excessive distortion. •On smaller sizes a heavier section is maintained on the threaded end of the fitting.This protects the threads from dam- age during shipping and handling prior to installation as well as from weld distortion. �b _,-/� •Each outlet size 11/2"and larger,whether male or female threaded, cut grooved or beveled requires the same hole size in the header pipe.This simplifies the installation process. .. General Specifications •Tee-Let welding outlet fittings are manufactured from highly weldable steel which conforms to the chemical and physical requirements of ASTM A-53,Grades A or B,Type E. Ease of installation is assured when automatic welding equipment is used to install Merit Tee-Lets. •Threads are cut in accordance with the requirements of ANSI 81.20.1,national standard for tapered pipe threads,or ISO-7-1 threads are available. •Tee-Let threaded and grooved welding outlet fittings are UL/ULC Listed and FM Approved for use in the fire sprinkler systems installed in accordance with the requirements of NFPA Bulletin 13.They are rated for 300 PSI operation in fire sprinkler systems,and higher pressures in other non-critical piping systems. •Tee-Lets are offered in a wide variety of header sizes.The consolidated header sizes shown in the following charts allow the fittings to be installed on more than one header size, permitting the first size listed to fit the header perfectly,while a small gap along the longitudinal center line of the header will appear for the second size listed. •Merits Weld-MiserTM Tee-Lets®are identified by a lot number that provides full traceability per ISO 9000 specifications. • For Your Piping Systems Specify Weld-MiserTM Tee-Let® Branch Outlet Fittings shall be Merit Weld-Miser Tee-Let, Lightweight forged steel,employing low weld volume profile to provide for full penetration welds with minimum burn through and pipe distortion on Schedule 5 thru 10,proprietary thin wall,and standard wall pipe.Threads are to be ANSI 31.20.1,or ISO-7-1,and the bore of the fittings calculated to improve flow.Welding outlets to be UL Listed, FM Approved for use conforming to NFPA,Bulletin 13 and pressure rated for 300 PSI maximum. How to Order - Use either of the following methods for ordering Merit® Weld-MiserTM Tee-Let®. Method No. 1 Method No.2 Specify quantity desired followed by the part Use the following system: • number shown in the"dimensions"chart for the type and size of outlet desired. x Type Merit Steel Quantity Part Number Quantity Outlet Size Header Size Weight End Tee-Let Material 1 1 l l Always Column"A" Insert size Sch.10 A-Female Thread . order a few • o;Chart;. . consolidation . Standard. .B-Male,Thread more than from Column C-Cut Groove actually "B"of chart. C/R-Roll Groove required for the job. Merit-1.10 —3- Aw . .StarTM Fim Products f,vrt,on of Anvil lntncationxl arTM Fire Products Division of Anvil International January 2010 For the most current product/pricing inrormation on Anvil products,please visit our website at www.onvilintl.com. G t kor ,,,,:',17,-., -• • s es-11 :5 S'+ . k 1 .+_,. _,-.-., .. .' _ 7` °`m - �` MERIT oliii iii B,4" KO r Fire Proh! ction B U I L D I N G C O N N E C T I O N S T H A T LAST r•?1 c ,- , , i or--4-:-.7.- C ve,-20�ILOK <:, Catawissa "5 erkbtvt�K.r .� : - anrvri F-trr..n EMi.tO__.. "- ....�` ._. >. . ao- � i ClYIL. M rz t .Liam,21-.7.F27-,1-1 qh:•� .AMC Steel Groupa Tube ••• d 700 South Dock Street Sharon,PA 16146 Corporate Office 800.257.8182 3201 Enterprise Parkway nfo%awheatland.com Suite 150 Beachwood,OH 44122 wheatland.com 216.910.3700 info&,jmcsteelgroup.com jrncsteelgroup.corn .- .7 ._ . y'a.?1 rB 'Fr, ,!!.1.f F l'' �f�ijs 2:;:,..' } t', ., rs .1 }{>. }: .Silt'. •,R y�'4•v :a44•1 :-re. '! ,� t:«'r:`,x-i., .;i�':!'':403-A w +%- •ST ..?.'+'%1 ;: ; .Y �::ICi.. !'..`.Q-�. °F..��`�.'F�: e.{� ., Y`�s 'i•' "4.51++*>J 1en,. gt�sa3X �{ '.y.•- � _ „ "• ,.K,. 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'.:i:`Yis.';f: - :T' `"a'a'i,' ,a+.z`r•R:. :"s'i� "?a:,•'•"h.,s,•r,.r: .,..>+,. .r n .. ti.;` `,d'G�^:. •{,.'w .. =:•iy s,: .ec yy 7r . �. . yl•,?a4.:gt. ?, ti ,... ,,. .A._ : , .a.,,. i.0 e• { S�ac s .. ... .. ''�.., �.t:<� � :C:,' .ei,.e J,.:Y:,$,•'V°:v,' wit: ., ' 1:!:;!• ^�ti• + , _..•1i..: ,.�,;.,�...,s.. .,.-_..,.i-,:.s..:,t.,-,';:., ty �s.e.., :ity.. m.kei .:+'` :1:.F:=:'t+1f". . ; a }5.'<.:;;'tv' zL' ....-w :-i•Z. . a _::\i; Wheatland produces the most complete line of steel fire sprinkler pipe in the industry,including a number of proprietary products that offer unique benefits. Our coatings include: in-house, hot-dip galvanizing;black pipe with an antimicrobial coatings and;a number of proprietary mill coatings that extend the shelf life of our Products, and provide superior corrosion protection. . 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'�x.� •:;.�' Vii.: Y,�J,y,-3: "+�., :WYt� ?•: ,�. 1 : N,•!:5••3+C,=' :..'ka.•:�r �, n <is_l:.rLq., F :v::e .ass,_ kxt iS •f: •' :� aK:«.'.Sr,!<.`a: in�,g+':.� :.F+'.: '';r.�R ?i ,.k^:! s�;:;., > R..R,.�".!,% ,T:•:y'; y;.:'tJ, ,..1. .a'At :.'.� , fi'#' ,1 : '� ..Ya e k�« 5.: >1,V"t J v., "� y4 .:;:,,C,'", T�'., :.tk•s.E �! ! *•%,• J.`Vr' ? r., A. a. a r- '4i s F.b t . .'y tr,:,--: 4ii a ' �R i a'f•J � *� . KE ".t a- : s ;• a zX' } r"r+•t'x veJk �;:, > Tt L`. ` '3:i,; ,L+p J.•y r,:/` '�,'h: byy a. tea } y,•.> .••1. '� '�'-5 'i•-hT+•Ri.'" jF,�.x`MCi i\v,sk�. .� afrC7:: vt.r F'"_'Yai'S 'LS;`;„ ..2,6k.:. -4 .r�" :x rraii,+AY.'_- r 4.' -'£ • ri Lo : S %t g '''.'-.1%-.'', ' rb*:A # y,; ..,fir' For more information,contact Wheatiand's Sales Department, :":'+ email:info@wheatland.com or visit our website at www.wheatland.com. zr..P.:l::>i„r Made In U.S.A. Schedule . 0 and Schedule 40 Charts Schedule i 0 Specifications Nominal 0.D. Nominal I.D. j Nominal Wall Nominal Weight UL Pieces NPS in. mm in. mm in. j mm lbs./ft. kg/m CRR* Lift 11/4 1.660 42.2 1.442 36.6 .109 2.77 1,81 2.69 7,3 61 1 1/2 1.900 48.3 1.682 ' 42.7 I .109 2.77 2.09 3.11 5.8 61 2 2.375 60.3 2.157 54.8 .109 2.77 2.64 3.93 4.7 37 2 1/2 2.875 73.0 2.635 66.9 .120 3.05 3.53 5.26 3.5 30 1 3 3.500 88.9 3.260 82.8 .120 3.05 4.34 6.46 2.6 19 4 4.500 114.3 4.260 108.2 .120 3.05 5.62 8.37 1.6 19 5 5.563 141.3 5.2.95 13 .5 :1 .134 I 3 1,0'', . 7.78. ... 11.58, , 1.5 13 6 6.625 168.3 6.357 161.5 .134 3.40 9.30 13.85 1.0 10 Calculated using Standard UL CRR formula, UL Fire Protection Directory,Category VIZY The CRR is a ratio value used to measure the ability of a pipe to withstand corrosion.Threaded Schedule 40 steel pipe is used as the benchmark(value of 1.0). Schedule 40 Specifications Nominal 0.D. Nominal I.D. Nominal Wall Nominal Weight UL Pieces NPS in. mm in. ` mm in. 1 mm lbs./ft. kg/m CRR* Lift 1" 1.315 33.4 1,049 26.6 i .133 3.38 1.68 2.50 1.00 70 1 1/4' 1.660 42.2 1.380 35.1 ' .140 3.56 2.27 3.39 1.00 51 1 1/2" l 1.900 48.3 1.610 40.9 .145 , 3.68 2.72 4.05 1.00 44 i l 2" 2.375 ! 60.3 l 2.067 I 52.5 I .154 1 3.91 1 3.66 5.45 1 ,1.00 30 . "Calculated using Standard UL CRR formula, UL Fire Protection Directory,Category VIZY x The CRR is o ratio value used to measure the ability of a pipe to withstand corrosion.Threaded Schedule 40 steel pipe is used as the benchmark(value of 1.0). Weights/Dimensions Black Plain End Technical Data Charts Nominal ' 0.D. l Sch.40 Sch.80 Schedule 10 Size Inches I Wall Inches!Wt.Lb./Ft. Wall Inches Wt.Lb./Ft. PRODUCT NOM. WAFT 'WT/FT H2O PCS/ WT/LIFT WT/LIFT WT/LIFT 1/8" .405 .068 .24 .095 : 1 NPS i 1.0. in FILLED LIFT 21' 24' I 25' 1/4" .540 .088 .43 .119 .54 1 1/4" 1.442 1.807 2.514 61 2,315 2,645 2,756 3I8" .675 .091 .57 .126 .74 11/2" 1.682 2.087 3.049 61 2,673 3,055 3,183 1/2" .840 .109 ,85 .147 1.09 2" 2.157 2.640 4.222 37 2,051 2,344 2,442 3/4 1.050 113 1,13 154 1.48 21/2" 2.635 3.53415.895 30 2,226 2,544 2,651 1" 1.315 .133 1.68 .179 2.17 3" 3.260 4.336 7,949 19 1,730 ' 1,977 2,060 4" i 4.260 i 5.619 111.789! 19 2,242 2,562 2,669 1-1/4" 1.660 .140 2.27 .191 3.00 5" 5.2.95 7.780 17.309 13 2,124 2,427 2,529 1-1/2" I 1.900 .145 2.72 I .200 3.63 6" 6.3571 9,298 23.0381 10 1,953 1 2,232 1 2,325 ' 2" 2.375 .154 3.66 .218 5.03 -- Schedule 40 2-1/2" 2.875 .203 5.80 .276 7.67 1" 1.049x1.681 2.055 70 2,471 2,824 2,942 3" 3.500 .216 7.58 .300 10.26 1 1/4" 1.380 2.275 ' 2.922 51 2,437 1 2,785 2,901 3-1/2" 4.000 .226 9.12 .318 12.52 1 1/2" 1.610 2.720 3.602 44 2,513 2,872 2,992 4" 4.500 .237 10.80 .337 15.00 2" ! 2,067 3.656} 5.109 1 30 2,303 2,632 , 2,742 High h ua i , High Performance, Long-Losing Wheatland's Schedule 10 and Schedule 40 steel fire sprinkler pipe have set the industry's standards ��? - � p p p ry s andard.,for .a� �. years. Both products are subjected to the toughest po ssible testing to assure the highest passible quality . •..jjJ'•• and reliable, long-lasting performance, r j �, - ij Each is coated with Wheatland's proprietary mill r � � �` coating to assure d clean, corrosion-and heat- resistant surface that outperforms and outlasts ' standard lacquer coatings. The coating also allows �� t the pipe to be easily painted, without special , F preparation. J� ,: 31 ,- You can order Schedule 10 or Schedule 40 in black, .. '` or with hot-dip galvanizing, to meet FM requirements _, ,,w, 1,-,..- for dry systems to meet the zinc coating --,"4:* .*:specifications of ASTM A795 or A53. \ r A �'FRw.CVIRrMt' t. 6:+,:R�` Both Schedule 10 and 40 are UL and FM listed and '� � <� meet NFPA 13 standards, We coat all of our black ' ' products up to 6" with our patented MIC Shield'^^ --.1,---1.t":4,-.1_, .. ,,. ''; �: coating, which helps protect against the onset of 1' '" !4 � , microbial corrosion(MIC), Our MIC Shield was the first ' k ~" ' � coating to be approved by FM as compatible with Au' hybrid sprinkler systems that include CPVC plastic w ., 11!!'phemicall com atiblAp ith Flow Guard Gol �t�r err �� t Y p d®, Blaze � arrr ' • Master®and Corizan®CPVC, � �, k . ', f Why Wheatland? _- Schedule 10 and 40 Meet or Exceed These • Experience: We've manufactured fire sprinkler pipe Standards since 1955 • We product the most complete line of products in • UL&C UL Listed the industry • FM Approved • We offer a number of proprietary products and • ASTM A135, Grade A(Schedule 10) unique benefits • ASTM A795,type E,Grade A(Schedule 40) • We provide a complete line of coatings: -in-house, hot dip galvanizing Green: The steel used to produce Wheatiand's -black sprinkler pipe sprinkler pipe contains recycled steel and is -MIC shieldlM, the first FM global approved virtually totally recyclable. factory applied, anti-microbial coating for use with CPVC plastic pipe systems Seismic/Sway Bracing: Wheatland sprinkler pipe -proprietary mill coatings that provide corrosion data tables are available for determining the and heat resistant properties forces for piping used as a sway brace -proprietary mill coatings that extend shelf life component or in Seismic applications. , STEEL FIRE SPRINKLER PIPE Schedule 10 and Schedule 40 M k i� ,,,,,,-4.-;-<.'1-4. /-,4,;'-..,. ,',:-,:P. •\- ' � te ,.p , ,, r ,7' fits r �� �� ,tea ., 3 ?, '-' -; -w, ,' - ',- :, - ea and;.. .,. Tube ' , ..,,,,,c. 7"-EEL GROUP • ArceiarM(tta1 Arcelor Mitral P&T Canada Inc. , ;ci (t_r �g ASTM A53 Type F,Grade A Pipe AQUI co,...,s1saY stld bo1.4400 gluwnlod oinmee.44 Imam. weded(CGnrmora.a welded)Organ A pip&Pip.it mended for meen/4W and PrOU ire►Ppllesnos and tt li)40016111 6x tatLOary via is)main wow,pi or air liner,74i!tVe AS'M An Is VL,MC pan/WPM approved glen I"to 4-$40,Orr uss in not Sprleklot Pipe WI Imlon6 flpat to OYVbie for 9.004 dreading,pmAty nod D.4d144.PIp e u sot Mlydod ltr t bMtto.Prod hood to laws tevttiont of AS774 A57/A 5)M sad AS O3 Ma 10/A WT-DFILPEtt DALWollaRQ No',wage.414lu of ewe OesOta gill De not less tMn 14 of hr q.Ii author(slide sod simnel Wks gilvNlted Pipe it bons of othtr.voa Ahri4.111110►0 1 9 0 1 which h o o k a M e au*to omen or=unmet!t!be7od Ora Limn of e4iet irp,tamer tLhwg of the wallop trey eta'. ATICS1WG • Ft14a ,Oa_r 0iva.,44 forDiin+rrd/IPC art 1341i61140 t loot.LlafS1) tits 1 040 000 1 n Im 9 too r— t V,1 1a _a X44 ) 4 1300 ,7 V1 asoo bo _� 0 ?210 U00 3 112 MO o _ 1000 PAS I awe!maw Uolelo Wo rrMc goodfo 0 on order,ow gaga milt M s eteoflim OW m/•rdarwMf. NPS 1 end Ogler.STD hog SOO;ends an Ds.alee mp it tmgla of 1P,+P.)'•ith■tan toot e1Ina 0 1/32 Thrw4.Ct To ANSI Stmdstd 81.+11.1 CAleptiogn TO ASI11 SWAM Atli? CF1721KfrA I.It CO f nR6MM= Cemp_Ohit.sirs)% Caeaon 0.0,Myeaed.t 1,20,f5mpnertite.07,Suttur,.0s.i.•Cooper, 40 Ilan&.0 •Ginomum.44'6401)44.sseol.15.•VSr401tta Aa •Ttu amobtostiss ethane/eva.luaolon ihaII tot ooze%la." TMATLIt 1140fMtEMLAT$ Te+WIt Sirovir 411000 pal=Wino. TWO k'o b: 70000 pit'Mow= Wall/AirdAS1 task 7.4.1 I,rmWMKC UST MS 110 amo Ewe-.Ai rtes trrgtn0ty of the weld,p.9hlas of Ms odd et 90 boss Os 4Lroalas demise doom unfit the OD is 14 of the attjinN palida dlwow.l'ItI aa0k. *WI=not along tb ioeist or outddt wow or the weld, DIM,'_ O5,4 KD W 1GR7'_,( to4 ,toi tea l ;... Nr5 OD. i.:,: (.4o was i.., +erg+ I Soo t.d sere w.1/Di J _ . 1 Kist, u.tt.te" LO/F- .then - �'' I..tJ\ - _ . " 11 - , . 1Q NO �1t IL fri I,O9 . • 11 1,030 .1t1 1.10 ,J fa 1At ..........L.. 212....____... .13 1.68 �j9 317 ,c ,NO ,tan 2.27 ).30 1,900 ,145 291 7.63 2.335 3.06 ,111 3. 2.675 5.60 176 1,500 S 9.58 ,P00 10.3 a 4.500 7 10.40 1 M altrwm.va a di potra rot be mops DO 12M4 tolfer=mall.)&two thldo.=4o46.4- ram=LRyare&ttOW INsuaszA1<D!A948 floe NI%1 14 ind under x.010 loch Pim MS 2 Lane emit±1% mght111610.1lC!ialg aMILDr I,= PP.R GOAT Pipe ghol sot vary Isere rhea 0 1094 soon IMP=bawd I W.Od E •,•Isrgrh oC pp P'A NIDP YI'NSW le soAkle dy neseLled to Am the terrsJtra0Q,NI groan 0(riot(Arm A5)/lee land of pipe(V for CaorotvoW Wild,A Coe OMOdt AL the goo(1310 0w minim/340 f4er not►goats),imp.sod la number.Wm r000ind twin!fooAonp UW■wit Vi.,tAC Units d PM trPrtw d Air 11wt 1 loch to 4'mil few sit in Pb.Wolin.NM spf 1Iodirsa boo csdlnl Is u131111 a mmpltml va y IOe+M60010n wow. . iWiadonutloncomsLnd polio J►doIrsu41 Wow a the toe tRpb1I 6aNmholtli iei r,,oma►1 prbdwWPeed+rot>rpeci6mati>retmlodonandslits.t inoor:*obIlsttions(My 31,1007) Rt0Y00 by Rsptmrtt Onierilo,tag. .e too.Minat r•et'f Canna.I.e, Tel:+I Co-7624 ms SIMm.Ieo 9•-patriot, Tel I a I SDO.365 4444 !Ieetria1,Peg, MM 1..1 Si 4.74.341.17 Comets,nag 1 03 • ArreforMtttcai Arcatar Mittal P&T Canada lac. ASTM A795 Type F,Grade A Pipe c hies took and bmdlpptd*mixed exaaao.bua.dried(Catbeeous Wrid)tsade A pipe ripck IIOoMoa Alt UR le duo Kowedeo ormolu Kull,ASIN AWS is ULIX.0 ILRed ord EM tpp e•+d ilaxa 1 Po aw 1 1R•61 q ex mania Fe 0 9ptidM r PIP oesabotioe.1.14$-•okat pIP la 1,66E 6/otr'e�Usk*br veldlW;ea6 b7 toiled paev4n,nfilla One Wn4ir4.wdgh pica le atti&bie odI&r Wed war..01/%44.slid mini ta,!radioed to Burt',Moue of AIN A7951A?9ab.t.Lod AV.16 810.1ttt,t }107.1222ED CAVA�Un The oaraae weight aline oaaaas shell be OM boo dean I.7&e Per al.B.a{"Awe(ro4 it W attada) Wsa gJ vao.of pipe is bem e•alwir It Waco)m i*pm 10.14 uo►oi dot e041440 to Rae ireoniyta*sod the Illok of durieitv,tong ai tMit of the&Autos auy DOM ..au fade IO.0 aaaa• •11:4 e.. H. Ntlraitak eaa.::: lk• ., ..._. w. m • •i,drutadi stns¢fmOl do'POW.wi%010'Maly tmoups tae Lope wll,to tsde{ostk OS. ix 00 1 la X00 �N�a�i,ei�eT�pagt ve to d c •rosudc arri,aedl te&pit e(F.P W 040&qn k eevee Olt►ooadoomock eleanlc ter 14PSI ti(melt 1/Loeda are EavekdroaugfeoP70°, S°-0°welt ttoot I&eal1h6 a 0 Relied snare:To du roll Foam veseicedona of Vkaadlo ►R M RRO MS C a.ek name% • Ctfaeo:02S,Ma ere 09S•Pkaa7law:A25,su1Lr;,0)5 a?withal S�i{t@E' T8 Ptw q As•stew r quality of the veld,peeYioe of No weld at 90'urea tie dLeotloe aerate ad Mane entll tile OD 4 344 eft sfilieal elaal0o dlaraee er,No e.Oelte Mull trot►tons the 1nal4c ter euoid►eve=o(V a ta4. DT 1=1;1!! ANif t01gT3( I.A.ol.Ie.v 1 tips $v 610(WI in weird le+ LbJp1 =EOM 660 IIIMM11 011=111111•1113.7 AC_TIO1rtg M wA TsnC7CP 6 afidpWr wit riiraeasi aaN Oaoi soaii oa aa.oae iii612.SX IeodatOataieed ink tbrdraex ipxdb&d rest ape 1 t∎ w.d -•Al -ono, • • r[Rtl(284f8:1'tact,T10!1'M WEIZZ14:1 PC+^'. Pore Nat'OM We,loon IEea f ort FEt C.MOOC eprJhr • MOULT l�et ek Of Gae Olos ii eu&unuaatYy ne&hod a thaw the teaouhRdt'a,d+c pm.aryl/4(ASTM A'n'S),•04 l t I P i of pipe(F 0 o Ctrai e m s osI0&4,Aar C it A),Via Wu Slit(a IIaM a+11)lenOK ere loam`PRt-K not►ydioaadeallP laded WW1 elaaay.9tada ruritiopi MeiWe tn,LAX BeriO3 sea fM 100towd for elan 1 V.lid 1 U3 Beth - for too in Pita Sprinkler Pipe appbaaiiee Bat mitre to le as.luelanmwr idadhaaieo a&sber. AJI befOrtM o•tooulnd fiatda V Omit stet W WPM tJrc i aw 0(phliev b+r McNr O t∎I warmth,*fildt w amp iroa,rt tooal11MIIcaa.4b&a ooiea 6.4;IOW IM4itt4110614666rd 0.3117)/•3007) Preps d Iv;Uphold Clomiolle•ap• Anolea M IIIxi P A T Canada Inc TO I.1514-761•FO0 frro.Rao ethkotric. Td;•I aa•Shc.Oao Meowed.1`.0. f.Ta+{it14.10.433t caaada.DS'C tin • ArcelorM itta i • Amain!Mittel P&T Canada inc. ASTM A53 Type E,Grade B Pipe Mahood blast pod►aeiMed gd`ylad dents miasma o+lded*oohs B piPa P pa in lolednl fat m.Gtaeital Ipd prwmie IIpplicai ne 60d It a {0W IDs aiWAwy owl in - smelt,wow,toss w totr Ut.en,PIOa k PAW:4 for esOkaag ihreeehre grarNdse sad bode&Pipe It tta Ialxdd for de Aedtml r lanes re•i.leas el AIM AS3JA Wet tad AMU,BSCOh( b t,430aldX'ddwr Twc welt kph ordaa rle+edastu imdtd Opt in'Sendai 1MM be peso Wawa a9rr*tidal to•"Wm=or 1 iSWP(MOt'C)>e shat no oar ipervi le+rtdosiie ftM.ot,dr otbEMlee BIwdUI In well t mow Ifs is sie spared.tsneiske remain, jeam:tram GAL Yk motor isedidli sloe dohdes a►all M nor lest we Si ae Pa sq.S diastase NMI mad amide) who gd'wsded Opt Is beet weds/Wise dtiari ea to►duped a4de6 esuenrios seedeg m No or maps en beyond IM Last of etnora7,sea Linking.r B.a testing m.7 oetur. I.•t:1,Ct a t :..t• -.I.et '.Y.1 et•• M.:1: a let: ' ust..__... for • PSZI Tao Fromm atoll be)ollataitnd f otidiTVta ofS sesones. MEOMINIMUMMINIUMMINE IMMINWEEMMONNEMMNIMENIIIMIN • • NNoMottAatu.o elm ttic netting amour td et111 Is nputt'ed on mil Iewato OW/pipe NP$ std beper, PI►teaa0:NHS21md toner.adt tort H.wid too.ago Bt .•!'-O'wtoaeuleadVte oIAS Thrsdidr to ANSI Sundord 11241 eadPga'I'Tb ASTM Ialydrd AILS s7irmiteAh ItOOMII2t tit= Caoposden,mee7i WWI:0,34 s 110.Pr..05,Sulf.T.045,'Capps .40,•Mandl,t0 •Ctretnlsm;,Ito,a bdIN :.)7,•Vooid:+m At •111 tomalekliOn dtleu Ave deaden art amord 1.00K Tads&MEW 60000 pd medusa Yield f :WA psi Iw.Io wa • tIIrE.,� w�p+ata A.s see re)ovary-or lbn vaS�poise date vat v Af Owe the bn4los srkea let NI=w1;Gs OD It Y7 eel ono anginal ooto/Oi tlkear Rs auk',will oeoY lkog is IAltdr ter ousels melee a do vdL _ ft7Mt'N!t' p WD W 4?rS I Bb cH nl.ln end 1 NPS OD pdos.I• 940.eipM - _ y• 313 1 3 5St ENINIMINI1111 [:Ili .l7 7 010 L._ WI91111/111111111W' 8 4.5) I iY IL w kliaiat•m wilt sal s1 ltoi'poml alai oat H.mace Del 11114 Wdet WOW will*ldueao lttttttld>ad• P� x VA1u‘Ttt,"Ql TN Znagroiagl=a Pict 14PS 2 tad we z I% ap os dull net wry wee Want 1014 front eke eRnducl WsdLod ►scull "94ARfetwc, EAU layV or Poo:NP5 iM Iorlas le oonttnoousty arndle i m tkow too eaastimur,dee ossela.r pipe(ASTI l i ASS).the lad((pips(n ter•I.uA.•r'emmara.worked,0 mr (inset B).i✓Ilte(SOD lot mallo/l, -..• tam slumber end Ion ameba.bar...... 6 . . ..1 et t Map 1017al0aldon..team. Ito• OS COIJ net - e la daNrtte u - as ar•to or pu'oo dsa Aerdex..'... B'en oo • a elms.p°°dma .. .t ••••dotted 104 thefts Sroati,Q ebliptises (May 81,10071 p,.sod by.Bspnatl Ckeoctdlt,c .motor HLIW P6 Canmrla.loc. Tal t 41 514.7o1400, pH7o,rot sl•Patritt. Ted t+S 500445.4544 MsyvJ,P,Q, Pat t+1$5 '5)$)J Cowie,H.sVi I67 Test Switch Linear Heat Detection System Testing •For Easy Annual System Testing T HEl? •NFPA Approved Testing Method Cut Sheet Part Number:TC1003 Description Test Switches are placed at the end of a ThermoCable run and are to be used for commissioning, system inspections,and testing of the system. ATest Switches are not recommended for systems _ connected directly to a suppression system. ��t., Components -ti ,'. ,, The components required for the End of Line Test Switch include l the following: rf ` 1. HDJ/HDELR Box(Part#:TC1003) ,... . Enclosure for components x, 2. Test Switch(Part#:TC1004) Momentary switch for system testing • 3. Strain Relief Connector(Part#:TC100) Seals penetration of ThermoCable into enclosure Wiring Configuration 4. Screw Terminal(Part#: TC1005X) For securing wire connections 5. Backplate (Part#:TC1003) Tnennoca Ole conductors End of Line Momentary Screw Resistor Switch For mounting test switch and screw terminal Terminal M. Details PLAN VIEW SHOWN LESS COVER FOR CLARITY 63 in,TYF tali in.Tr, (16mm) 15 in. (7.9mm) , (3.8mm) .e in. D I ;\O l�(12mm) CID-32 IF ii i \ 16 1n.TYp - 1 1 SCREW THREAD 4.68 in (4.1mm) I — Q HDJ/HDELR Box---- 11111111 (124mm) (2j Tea;Switch 4,66 in. End of Line Resistor —— Strain Relief 4.25 in. (124mmi 1; l _ 4.01n. '1 Oennector .. I (106mm) 6,40 in. <�\ �, (101.6mm) (162.6mm) I: 111f���P bIe\ I, ,....,r)11111. 11_ '*0 -.l_' I Screw Terminalr� 1 Screw Terminal O End of Line Resistor 1.0 in.TYP .51 4.25 M. (25.4mm) a kpl ��13 r l )Backplete mounted (108mm) Backplate I (101 6rnm (13mm) to enclosure. Used I a� �� ) .34 m. to mount Test Button (h A,. - CD (6,6 mm) and Screw Terminal 0.,i, �,/q 1 _ 6.40 in A A. (16_.6mm; Note: Please refer to all federal,stale arid local codes,and manufacturer's recommendations prior to design or installation. SAFE Fire Detection, Inc. This document is provided for informational purposes only and may not be 5915 Stockbridge Drive repro in whort or witt ess written m imm E Fire .,...S Monroe, NC 281 10 Detection,Inc. SAFE Fire Detection,Inc.assumes no responsibility for the products Phone: 704-821-7920 suitability duced for a paicular le part pl apication.hou Specifications,designs per and ission any information Fax: 704-821 4327 contained herein may change without notice. rlRE DETECTION,Ill www.safefiredetection.com Publication Number:TC1003 v':3 ©2009 SAFE Fire Detection,Inc. a Installation Examples for HDJ l HDELR Boxes Typical ThermoCable Example Screw Terminal ®'l Screw art#:TC1005X ter Part#:TC1005X o 1 / Strain Relief Connector EMT for leader wire ✓ Part#:TC100 \ run to panel \ F N ThermoCable Compression Fitting J End of Line Resistor L. •l. HDJ Box HDELR Box End of Line Test Switch(Optional) Please refer to the ThermoCable Test Switch Cut Sheet for additional details. Not recommended for systems connected directly to a suppression system. Screw Terminal Part#:TC1005X Backplate Strain Relief Connector Part#:TC1003 • Part#:TC100 ■: —7,- Test Switch aceleemeneseemsest Q _�I 1 -- l l Part#:TC1004 ThermoCable f L.L__________ End of Line Resistor Splicing Box NEMA 4 rated enclosure for outdoor use. Strain Relief Connector ii Screw Terminal Part#;TC100 .. \ Part#:TC1005X ThermoCable / Y . . • ' LIIIIIIIIIMINIMMINNEJ Intrinsic Safety Barrier Please refer to the Intrinsic Safety Barrier Cut Sheet for additional details. ® ® 32mm DIN Rail for mounting EMT for leader wire' I FFII E. —Intrinsic Safety Barrier run from panel Part#:TC4406 J u ThermoCable - Compression Fitting o o,• Strain Relief Connector 0.-, • . Part4:TC100 Note: Please refer to all federal,state and local codes,and manufacturer's recommendations prior to design or installation. SAFE Fire Detection, Inc. This document is provided for informational purposes only and may not be 5915 Stockbridge Drive reproduced in whole or part without express written permission from SAFE Fire Monroe NC 28110 Detection,Inc. SAFE Fire Detection,Inc.assumes no responsibility for the products Phone: 704-821-7920 suitability for a particular application- Specifications,designs and any information 'FIRE DETECTION,/NC Fax: 704-521-4327 contained herein may change without notice. wwwsafefiredetection.corn Publication Number TC1002 v 1.3 0)2009 SAFE Fire Detection,Inc. Heavy Duty Enclosures Junction and ELR Boxes •For Connecting ThermoCable to Leader Wire and End of Line Resistor • Large Rugged Enclosure for Heavy Duty and Special Applications ur'Li- . Cut Sheet Part Number:TC1002 Description The HDJ/HDELR Box is a heavy duty nonmetallic junction and termination box which is UL listed with a NEMA 4X rating and manufactured from PVC or PPO thermoplastic. A foam-in-place gasketed lids attachs with stainless steel screws. All junction and termination boxes must use a Strain Relief Connector (Part #: TC100) for all , ThermoCable penetrations made through the enclosure ML, } wall. A 7/8" (22.2mm) hole is required to insert the Strain < .a,..>. lik Relief Connector which secures and prevents damage to , the ThermoCable, and seals the penetration from moisture and dirt helping prevent corrosion. r r. The HDJ/HDELR Box requires a Screw Terminal (Part #: TC1005X) for connecting the leader wire from the panel to :?1,-.,k , the beginning of the ThermoCable run. Screw Terminals are also used to securely connect the ThermoCable to the end of line resistor located at the end of the ThermoCable run. , HDJ/HDELR Boxes are also used as the enclosure for an optional test button at the end of the ThermoCable run or , for mounting intrinsic safety barriers. The optional test Appiicatiorts • switch can be used for annual system testing. Test buttons The heavy duty HDJ/HDELR Box is used for industrial are not recommended for systems connected directly to a applications and is suitable for outdoor ThermoCable suppression system. For details, please refer to the splices. The larger enclosure is also used for housing ThermoCable Test Switch cut sheet. Intrinsic safety addressable zone modules when connected to an barriers are used for explosion proof hazard applications. addressable system, intrinsic safety barriers for explosion For details, please refer to the ThermoCable Intrinsic proof installations, or end of line test buttons for easy Safety Barrier cut sheet. system inspection. Details PLAN VIEW SHOWN LESS COVER FOR CLARITY 63 in..TYP 0 1-.31 in.TYP (16m .15 in. (7.9mm) ( [(3.8mm) .49 in. oz,,,,, —------� O 7 I—(12mm) : � \ .16 in.TYP 1 1 81432 4.86 in.�1{—� (4.1 mm) �i SCREW THREAD (124mm) I . I I 1 4.881n. _ _ (124mm) %I_ _�t 4.0 in. 6.40 in. (101.6mm) •;(162.6mm) )I— U) 4.25 in, — f I i (108mm) ; t- 0 { 1.0 in.TYP J 14 GA 1 L.51 In, 4.25 in. I (25.4mm) Mounting Plate 4.0 in (13mm) (108mmj (101.6mm) I 0 .34 in. 0 0• (8.6mm) __ —_.__...__-- _ 4 O 1 6.40 in, A A (162.6mm) Indoor Splicing Screw Terminal Low Temperature Splicing Tape Two point Screw Terminal for all ThermoCable splices and Black. Use with Screw Terminal TC1005X for all indoor connections in J/ELR Boxes and HDJ/ELR Boxes. splicing in low temperature applications when not using Part#:TC1005X -10/pack Junction Box. Part#:TC1010 Splicing Tape Use with Screw Terminal TC1005X for all indoor �. Sealant Tape u ThermoCable spliceswhen not using Junction Box. For indoor splices in addition to Splicing Tape for low Part#:TC1007 - White 1 temperature applications when not using Junction Box. Part#:TC1008 • Red Part#:TC1006 • Part#:TC1009 - Blue Junction and ELR Boxes (Recommended for all Outdoor Splices) For additional details,see the Standard and Heavy Duty Enclosure Cut Sheets. Requires Strain Relief Connector(Part a:TC100)and Screw Terminal(Part it:TC1005X) JIELR-Box - Standard HDJ/HDELR-Box - Heavy Duty NEMA 4X moisture proof Standard Junction/ELR box. NEMA 4X moisture proof Heavy Duty Junction/ELR r Requires Screw Terminal TC1005X and Strain Relief Box. Requires Screw Terminal TC1005X and Strain Connector TO100 for installation,not included.. Relief Connector TC100 for installation,not included. Dim..4"x 4"x 2'(102mm x 102mm x 51mm) Dim..6 x 6"x 4"(162.6mm x 162.6mm x 102mm) Part#:TC1000 Part#:TC1002 Guidewire Installation Accessories Threaded Eyebolt Rubber Grommet For use in suspending ThermoCable with or without Black Rubber Grommet used to insulate ThermoCable • Guidewire. Includes one nut. 114"-20(6.4mm).,- from Eyebolt,TC1030ZX/SS. Part#:TC1030ZX —Zinc Plated,10/pack Part'/!:TC1032•C'-. 100/pack . Part#:TC1030SS - Stainless Steel Turnbuckle Locknuf Used to fasten and tighten Guidewire attached to For securing Eyebolts TC1030ZX/SS if needed, " � ThermoCable for long suspended lengths. • 1/4"(6.4mm) , Part#:TC1033Z - Zinc Plated Part#:TC1031ZC - Zinc Plated,100/pack Part#:TC1033SS - Stainless Steel Part#:TC1031 SSC • Stainless Steal,100/pack To ensure a proper installation and years of continuous services, only SAFE Fire Detection, Inc. approved mounting and connection accessories must be used. SAFE Fire Detection, Inc. This document is provided for informational purposes only and may not be • 5915 Stockbridge Drive reproduced in whole or part without express written permission from SAFE Fire Detection,Inc,.SAFE Fire Detection,Inc.assumes no responsibility for the products Monroe, NC 28110, suitability for irticul;ir:applivatiert. ,.Specifications, an designs and information Phone: 704-321-7920 contained herein may change without notice. 9 any 'FIRE DETECTION,INC,r Fax. 704-621-4327 www.safefiredetection.com Publication Number:TC10XX v1.3 ©2009 SAFE Fire Detection,Inc. Installation Accessories Fastening, Connecting,,and Splicing TH9Eli, 4 : r Cut Sheet The following fastening, mounting, and splicing accessories have been approved for use with ThermoCable Linear Heat Detection systems and are available through SAFE Fire Detection, Inc. The use of non-approved installation accessories may damage the detection wire,cause false alarms,and void the warranty, "m.",. Fastening Hardware Double Loop Cable Ties Beam Clamp,Spring Steel -' Black Nylon 6.6 rated from-40°to 185°F(-40°to 85°C) For material thickness up to 1/2"(12.7mm). {( . Fits 3/4"-2"(2cm-5cm)sprinkler pipe. Shown with Nylon Cable Clip TC1012C/M and \,.: Part#:TC1027C - 100/pack Push Pin TC1034Q,not included.May also be used with Part#:TC1027M • 1,000/pack Cable Clip TC1013C. Part#:TC1014C - 100/pack i'� Double Loop Cable Ties Black Nylon 6.6 rated from-40°to 185°F(-40°to 85°C). Beam Clamp,Zinc Plated Steel . Fits 21/2"-3Y°"(6cm-8.9cm)sprinkler pipe. ,; For material thickness up to 7/8"(22.2mm). Part#:TC1028M - 1,000/pack Shown with Nylon Cable Clip TC1012C/M and Push Pin TC1034Q,not included.May also be used with ' Cable Clip TC1013C. Large Single Loop Cable Tie Part#:TC1015C • 1,000/pack Black Nylon 6.6 rated from-40°to 185°F(-40°to 85°C). Fits 4"to 6"(10cm-15cm)sprinkler pipe. L-Bracket,Zinc Plated Steel Support ThermoCable using Small Single Loop Cable Tie ' For suspending detection cable on or around equipment. TC1018C/M fastened to Large Single Loop Tie TC1029L—,- . -: ,,N Use with Nylon Cable Clip TC1012C/M or Zinc Plated Part#:TC1029L • 50/pack Cable Clip TC1013L, and secured with Push Pin TC1034Q,not included. Small Single Loop Cable Tie Part#:TC1016 Black Nylon 6.6 rated from-40°to 185°F(-40°to 85°C). '.-'"'", Use with Cable Tie Mount TC1017C or Large Single Loop Cable Tray Mounting Clip,Zinc Plated Steel '`---, Cable Tie TC1029L,not included. \-' Cable Tray Mounting clip for material thickness from 1/16" Part#:TC1018C • 100/pack ,V, to 1/4"(1.6-6.4mm). Part#:TC1018M • 1,000/pack Part#:TC1020C - 100/pack Cable Tie Mount 1/16"(1.6mm)Cable Tray Mounting Clip NsFor environments between 0°to 180°F(-17.8°to 82°C). r For material thickness 1116"to 5/32"(1.6-4mm). Use with Small Single Loop Cable Tie TC1018C/M and Shown with Nylon Cable Clip TC1012C/M and Cable Tie Mount AdhesiveTC1019,not included. Push Pin TC1034Q,not included.May also be used with Part#:TC1017C • 100/pack f Cable Clip TC1013C. L Part#:TC1021 C - 100/pack Cable Tie Mount Adhesive ' ' + 5132"(4mm)Cable Tray Mounting Clip Use to secure Cable Tie Mount TC1017C to surface. For material thickness 5/32"to 1/4"(4-6.4mm). Part#:TC1019 Shown with Nylon Cable Clip TC1012C/M and Push Pin TC1013L. Cable Clip lb, Part#:TC1022C - 100/pack Black Nylon 6.6 rated from-40°to 185°F(-40°to 85°C). 3/16"(4.8mm)mounting hole. Use with Push Pin TC1034Q 1/8"(3.2mm)Universal Mounting Clip "' or appropriate screws,not included. For material thickness 1/8"to 1/4"(3.2-6.4mm). Part#:TC1012C - 100/pack o Shown with Nylon Cable Clip TC1012C/M and Part#:TC1012M - 1,000/pack Push Pin TC1034Q,not included.May also be used with :: :_ Cable Clip TC1013C. Part#:TC1023C - 100/pack Cable Clip Zinc plated steel cable clip with 1/4"(6.4mm)mounting hole. 5/16 (7:9mm)Universal Mounting Clip t' Use with Push Pin TC1034Q or appropriate sdievJs, not For material thickness 5/16"to 1/2"(7.9-12.7mm). included. .�'I' Shown with Nylon Cable Clip TC1012C/M and Part#:TC1013C - 100/pack , Push Pin TC1034Q,not included.May also be used with Cable Clip TC1013C. Push Pin Part TC1024C - 100/pack Black Nylon 6.6 rated from-40°to 185°F(-40°to 85°C). Secures cable clip TC1012C/M or TC1013C to Beam Cable Strain Relief Connector Clamps, Cable Tray Mounting Clips, and L-brackets •'` ,_ Required for all ThermoCable penetrations through the through 3/16"(4.8mm)mounting hole. ,, wall of a J/ELR Box or HDJ/ELR Box.. Part#:TC1034Q - 25/pack ' Part#:TC100 • FIRE DETECT/ONJ INCH im. ex , a PRC4�v ; �€A�,n AYa zV \ �',:.,,..',:.:,•-• a � 5.1 fi \4!' /� +t 7 a r �\rtn \0. v\ , 'f f 7 •,:J ''�1111111f!! ! t'::',.' c 4 c t a F w a C NL\RrE\a"am ^ ,.. . .,: ,,..,.".,,,„:,.....,.. .,::,,,.,.... .,..,,,. ..::„.......„.......,.,, , , .., . „,:,,..,,,,,...,,,..::„,„.k:„,.4,,w,,,,,,,:.,„:::,4,,, , . , . n Distributed by: 4 C ] .41 NFPA MEMBER ©200- SA F E Fire Detection,Inc. Pub.#:M-1200 v1.3 ` ''" ( 1i� e �a a �" a,wt cow ` t ''yF ' , a.` �e x a x 4 :x e 1-ge7;7,• t �R Z 1- �i t i 'a o. .S t t aaa a Engineered System Design, installation and Commissioning ,� SAFE Fire can provide a Turn-Key fire detection solution to power generating plants.. This. �; ensures the system,including its design,installation,and commissioning meet the requirements ' and expectations of a facility and its engineers. Testing Evaluation Design Installation Commissioning a .Ph. w`d. .a &c. �� a ' i.° ,,, {{ i E ik alt t 4 _._ �g:'.'‘'.: CD Based Training Programs � Comprehensive Training The CD based technical training program provides comprehensive training and may be used for future reference. Each narrated CD training module discusses system " '' ' components,design,installation,service and maintenance. : : Design Service •Learn proper design techniques Orientation Installation •Design,applications examples F,...,,....:: : • - •CAD examples ..m I CAD components ,.` ... I k •Installation,photos 7... ,,....1-. ---,. •Completely narrated - •Simply install the:training CD __ ,. _ •Windows'csr„natble -~ •w-~ ~ •Certificate upon completion .,mace t. E \n 1 t: k t (° t .. Engineering Specifications and General Information via our website Construction Specifications Institute'” (CSI) formatted engineering specifications in an editable Word' document, and other general information are available by downloading from our website or by calling our office at 704-821-7920. www.SafeFireDetection.com ThermoCable Application Guide Sales and Technical information in electronic (pdf) ,-.,--�'' format for easy emailing,viewing,and printing ;,- IaTK , , THewtn , Cut Sheets / ` Technical Data Sheets in electronic (pdf) format for easy emailing,viewing,and printing ' Courtesy Continuing Education Engineering Specifications _ Available For Consulting Editable specifications in Word format Engineering Firms 1` 4lai 4 ? 1: -71 ,,=, `v:, "^ � 'ate _ ,. p'v*x,, !.# \ ,.' �v�r • c M t u, a. g n q Double Loop Cable Ties L-Bracket,Zinc Plated Steel I 'i2 •Black Nylon 6.6 rated from-40°to 185°F(-40°to 85°C) v. •For suspending detection cable on or around equipment. 4 _. •Fits 3/4"-2"(2cm-5cm)sprinkler pipe. '„ •Use with Nylon Cable Clip or Zinc Plated Cable Clip T ' `"”' secured with Push Pin. s, Double Loop Cable Ties *.... •Black Nylon 6.6 rated from-40°to 185°F(-40°to 85°C) Cable Tray Mounting Clip,Zinc Plated Steel �m' �. •Fits 2/t"-3/°"(6cm-8.9cm)sprinkler pipe. `N •1/16"to 1/4"(1.6-6.4mm)material thickness 0 0 :, • Large Single Loop Cable Tie , •Black Nylon 6.6 rated from-40°to 185°F(-40°to 85°C) 4 Cable Tray Mounting Clips 1.6-4mm 5/32 1/16 • "to " material thickness •Fits 4"to 6"(10cm-15cm)sprinkler pipe. ( 4mm) " 1/4" 4-6.4mm" material thickness •Support ThermoCable using Small Single Loop Cable Tie •5/32 to /4 ( ) fastened to Large Single Loop Tie. t, •Use with Nylon or Zinc Cable Clip and Push Pin as shown. t, , Small Single Loop Cable Tie • 9 P Universal Mounting Clips ._ •Black Nylon 6.6 rated from-40°to 185°F(-40°to 85°C) •1/8"to 1/4"(3.2-6.4mm)material thickness ' •Use with Cable Tie Mount or Larger Single Loop Cable Tie,�_ 9 9 P � •5116"to%:"(7.9-12.7mm)material thickness Cable Tie Mount •Use with Nylon or Zinc Cable Clip and Push Pin as shown. " •For environments between 0°to 180°F(-17.8°to 82°C) Push Pin •Fasten cable to mount using Small Single Loop Cable Tie. •Black Nylon 6.6 rated from-40°to 185°F(-40°to 85°C) •Secures Cable Clip to Beam Clamps,Cable Tray Mounting •k: Cable Tie Mount Adhesive ∎P- •Use to secure Cable Tie Mount to surface. Clips,and L-brackets through 3/16"(4.8mm)mounting hole. Yizil Cable Clip Threaded Eyebolt-Zinc plated or Stainless Steel l; le •Black Nylon 6.6 rated from-40°to 185°F(-40°to 85°C) •Use for suspending ThermoCable with or without Guidewire. t. •3/16"(4.8mm)mounting hole. •Includes one 1/4"-20(6.4mm)nut. 0 Cable Clip Locknut-Zinc plated or Stainless Steel •Zinc plated steel cable clip. •For securing Eyebolts if needed. 1/4"(6.4mm) •1/4°(6.4mm)mounting hole Rubber w Grommet tivBeam Clamp,Spring Steel •For material thickness up to%"(12.7mm) •Black Rubber Grommet inserted in Eyebolt to insulate and •Shown with Nylon Cable Clip and Push Pin. prevent damage to ThermoCable. Beam Clamp,Zinc Plated Steel -, Turnbuckle-Zinc plated or Stainless Steel r ( ,•For material thickness up to 7/8"(22.2mm) •Use to fasten and tighten supporting Guidewire attached x •Shown with Nylon Cable Clip and Push Pin. <`, to ThermoCable for long suspended lengths. nO t F J/ELR-Box - Standard ' " Cable Strain Relief Connector �3 NEMA 4X Standard Junction/ELR Box. Requires Screw s Use to seal and fasten ThermoCable when entering or Terminal and Strain Relief Connector for exiting a J/ELR Box or HDJ/ELR Box. Helps prevent Dim.:4"x 4"x 2"(93.5mm x 93.5mm x 51 mm) corrosion from moisture and dirt build up on connections. Available in both Zinc plated and Nylon. HDJ/ELR-Box- Heavy Duty a NEMA 4X Heavy Duty Junction/ELR Box.Requires Screw Screw Terminal 1 Terminal and Strain Relief Connector for installation. Two point Screw Terminal for all ThermoCable splices and Dim.:6"x 6"x 4"(162.6mm x 162.6mm x 102mm) connections in J/ELR Boxes and HDJ/ELR Boxes. Splicing Tape .Low Temperature Splicing Tape Sealant Tape Use with Screw Terminal for all• °Use• with Screw Terminal for For indoor splices in addition to indoor ThermoCable splices when indoor splicing in low temperature Splicing Tape for low temperature not using a Junction Box. applications when not using applications when not using Junction Box. Junction Box. To ensure a proper installation and years of continuous services,only SAFE Fire Detection,Inc.approved mounting and connection accessories nwei he used. t Y ) i '4.Vy�L i- . '� y „ te 4 obi 7, v r1 '"z � 3�� < i i, a+<• ,y R ,�� �m� s t2 t .c.�9� C "� l w r a3. ., ","� 1 �4 r� .�\ 1► h /►/ ii .114 . %,!,-,.-.:': 1 . ;,�Identify which row and rack by � . ` using Addressable Modules �� a cN rya Y��` �.' 'Y`�• — - - 1Piatt6i4_ 11 ,56 vo:4 I � 1111tH 117. 1 • k 1t►4. �Il 'illll k � 1 II * '' %R '• akp ,,,;','4,-•- Q1.' t� !I, ��� p� .` +�r ��wA �w� R �1 e`� � � , i t t 111. ,� "� � � „ .�"� ry� -1-, '.^ Z�'dr +.R�� 41 ti:i � ` " ' ' � c� t +`.�. s s � '. ^, ., ?� .� ���� z, w X• d'a ' x% � 0 k2uvt '.' ' t Y;�V�,1r . ' 4 V ib%X• , is P Y r a � #r - I .. C r e Off Shoe i f rrrr Rack Storage Tunne€s HSV Engine a s Par€ it Decks Tr i t Sfafion fiat€arms Eve and Motors Moving g Sidew�€Foy Pipelines Trash ooms W each€ • fit''"'�� �' a 3, v „'-'4,'''''....'',41,1,7,;”` � ..,,:,-..,,,,,:.i..;:„„iz.,4,,,:;›,,, :::::1,.' e;..,07,..-,..1 •7 .;',, '',:::‘;`'. '1,1:,,,,,,,Aiii,7.t7.41;". c",NY7 Ey y�� �". y4' s uu "" its 1..:'3 .; :�`c't'l q..�irw,.�. °.:":'r. »sa.:i,',.:4,,,,,,-...,..,:.:'�... �._,� t :\ �� �?"� �� T° `s`pj k 1 Z G When used for special hazard applications, : ThermoCable is available with several outer jacket options. A UV resistant Nylon outer x moo jacket is extra durable and suitable for harsh • industrial environments and outdoor . (7 applications. A Polypropylene outer jacket is s used for chemically harsh and caustic �\ �n � — environments. ThermoCable with Guidewire (a stainless steel wire wound around the ThermoCable) is used for easily spanning l.....................___._.."._ ----- t distances up to 250 ft. (76m) with support at � � �'� OW 15 ft(4.6m)intervals. ■ eF �u - I i :. . Identify which by using Addressbearings or able Modrollers ules SS �,�, ;r k� c x14 z .: x _— z a �� .. ..,�w.� .cw 's` S e 4 r,---..,,,:„:__,.:::::_,,,:-,,,,„.,;:i„.. :7._____ ,,c7--- i . „,,,,,„,,,,w.5.,,,,:„,.. ..,_, ._,_, :_,. ..__ . .,„.,,,,,,,,,,,,,,„:„:„.)..„:„<::, „.::‘,7„::....,.:::,,,,4,„..,,.:........ R I . .�- i 0 tN,, ix; .a Psi. M. . '' ''''' '-:-'-J--'--•-.--"----'. '-rrWttf'.:-.61'''-iClitt.;"*04,14r,„‘X - ,, F J f ! ` . T�ti4T �t 1 1:,.....,, 4uYY I [ 1 j� ! i.. ' I. ,•a .l Aircraft Hangars Bulk Storage e Conveyors Emir e Compartr eats Baggage Handling Ca le Trays Cooling Towers Escalators Bridges and Piers Computer Rooms s Elevator Shafts Fuel Storage Tans 'f} es\ a $-+1 S' ,irt 'sue t o ��' t ,� _ 5 4� 5 .• o f 4 w C tom` � � , 0`'S a d $ i z ^s �:4 V g' � } euZ�."'t. � Z.� � � ��'�:x a`*'� ir..4� i�e Y . ����v: Y � a ' < i� ��k 4, 4 .—- ,� , .� ,, mr� 4 . t 4. iig �` � ,; *'i , a j P _ t L.J .. 1 To Nbxt Module Your addressable fire alarm system has many life ` Addressable Contact `� ' Monitor Module I! Y safety and economic advantages over older style conventional systems. Addressable contact 1,, `+s+' monitor modules each have a unique address which can identify the zone in alarm. A Distance ''' - .tt Locating Module may also be used to pin-point the Aressable a Fire dd Alarm Panel 41:;:40.7'....'. exact location of an alarm, or trouble condition, 1 along the entire length of the detection cable. By incorporating new sensitive thermal polymers I' and advanced alloys, our engineers were able to �'' ' reinvent traditional conventional linear heat 1 0 detection. The end result is a new sensitive and ` low impedance detection cable compatible with " Single or any addressable panel or module. Eliminated was Double Interlock the need to buy a special panel just to monitor . V • your linear heat detection. Releasing • elm, . ' i F N n ? t 0. ., i: t Leader Wires Run in Conduit , CONFIGURATtOfq f `I E T 1 ThermoCable is a new sensitive and low impedance detection cable compatible with any I ti:07):::'' 4' new or existing conventional fire alarm panel. '•, raw Simply attach ThermoCable directly to the zone wsrl connections located in the FACP, or run leader t. wires to a Junction Box located at the beginning of ` 11 i i each zone. ThermoCable can be used for Conventional repairing, replacing, or upgrading any existing Fire Alarm Panel it system which are wired in either 4 wire (Class "A") f R I iE or 2 wire(Class"'B")configurations. it_" ; . SAFE has eliminated the need for special proprietary Eui ' � ` � panels,now any approved panel can be used. ' d• n Single or Double Interlock Releasing ti 3x k! � � i � R 4y "C. i 6Y ._R . ,...C2 y.;..•Y `��� ���.\ Y\`\�a \A�..,��3�s�'.��J'.; � +��,,q{r� .�w4��R��•�5..�„< : C..-.Yom= `ili�C.�.li� �� . 4 �t ,,, �3 �v t y\ \ ' ,. .'?Ile',t ' *7;4 v 1 ."; , E y' w,.,K ....M 1a w s O o r. . �`. F � a a aw,as� � & � :, v x vi\so ,,, . The Technology. ��, LHD: Linear Heat Detection, as illustrated below, is Behind New LHD easy to design, install, operate, and maintain. A �"• typical system begins with any approved conventional l ThermoCable Linear Heat Detection (LHD), uses ,,,ft.-000a0 advanced polymers and a newly developed alloy to or addressable fire alarm panel. A ThermoCable provide exceptional detection, durability, and design 172L Y Distance Locating Module may be added to identify flexibility. At the core`of ThermoCable is'a twisted s where the overheating condition is occurring. Leader pair of extremely low resistance, tri-metallic ,. wires are then run in conduit from either the panel, an conductors which are sheathed in•new .advanced L addressable module, or the distance locating module, thermal polymers. These .polymers are chemically engineered ,o break down at specfic #►xed• to the beginning of the zone. Conventional panels temperatures •allowing the twisted .conductors to must run each zone independently. A NEMA 4 make contact and initiate an alarm , a Junction Box houses a Screw Terminal which - 4 t connects the leader wires to the ThermoCable. The 1 Tn-Metallic Core..:' ThermoCable then exits the Junction Box through a 1 •Steel Provi�desTensileStrength 0 g =; •Copper Increases Conductivity moisture proof Strain Relief Connector which seals , i I _ •T ResistsCorrasior: , ,40 the box to prevent corrosion. Approved mounting , / `; : , Thermal Reactant Sheathing hardware is then used at 3 to 5 ft. (1 - 1.5m) intervals A., Advanced polymers Provide to support the detection cable without restricting an 7 Te erature S ciGc Ac ivatinr" `,)t g Y ,�movement needed for contraction. '�� '`— PVC fluter Co�rei�nga •:Chemical Resistant. �� Several styles of mounting accessories are available •UV Resistant,*1, f t 4 • •which are designed to accommodate different types of Approved or Outs" :: se ,s rc�'"#ate z4"' 5 hazards. At the end of each zone, the ThermoCable Wire, - ,�� �L � , , Only A18 3 rn ;Dia{neter, g4 is terminated in an ELR-Box using the end of line FIextblefot 1..14,44.1:0 50Li resistor supplied by the panel manufacturer or looped Continuous,Cable:Lengthsup"3o� back when using a 4 Wire(Class"A" configuration. DDQ t i�ISna 4 4` A x s • Typical ThermoCable LHD System: 3'-5'(1-1.5m)Mounting Optional Distance �--Strain Relief 15'(4.6m)when using Guidewire Strain Relief--\, : Locating Module c' Connector 1 Connector Displays Distance in ,e---¢s r„ Both Feet and Meters '" .I / Screw Terminal 44,° ELR-Box--/ End of Line e Junction Box ( Resistor L:.____Irt.7.:L4i 4i-- Heat generated by a fire causes thermal sensitive polymers to break down which allows the internal conductors to make Fire Alarm Leader Wires contact signaling an alarm To Control Min,18 AWG or Module Max.8,000'(2.4km) Note: May also be used in a 4 Wire(Class"A")configuration. ❑+ `$ w ed. e ,s x ." j � C �y �F{;t� ��' . tori ■ ''' • may 3k g �V� s ThermoCable is listed for spacing up to 35 ft.(10.7m)between parallel runs,half the listed spacing from sidewalls,and.7 times • 0" the listed spacing from corners per NFPA 72. For installations 30 ft.(9.1 m)or above,half the listed spacing is recommended. Listed Spacing Area Spacin• Temperature Rating UL,C-UL-US FM \\7x 116""(5.3m) 155°F(68°C) 1 35'(10.7m) 30'(9.1m) 172'F(78°C) I 35'(10.7m) 30'(9.1m) , 190°F(88°C) 35'(10.7m) I 30'(9.1m) j 35'(10.7m) 220"F(105°C) 35'(10.7m) I 25'(7.6m) *Half the listed spacing is used for ceiling heights above 30 (9.1 m) j THE r'r ' sc: P‘":„1. ' n Compatible with ANY New or Existing Addressable or Nylon Outer Jacket(Optional)-Provides Greater UV Conventional Panel Protection for Outdoor Use and Harsh Industrial Environments than Standard PVC Up to 10,000 Linear Feet (3,000m) of ThermoCable May Be Used per Zone Polypropylene Outer Jacket (Optional) - Provides Multiple Alarm Temperatures May Be Combined on Greater Protection for Chemically Harsh and Caustic the Same Zone Environments than Standard PVC Can Detect Heat Anywhere Along its Entire Length Guidewire(Optional)-12 AWG gainless Steel Support Wire Attached to any Temperature ThermoCable. Used RF Tested Up to 10,000 ft. (3,000m) for Long Spans and Supported at 15'(4.6m)Intervals Lower Material and Installation Cost a Distance Locating(Optional)-May be Used with Any Temperature ThermoCable • Therm°Cabile Options ThermoCable-is available with several outer covering options for hazard specific installations. These options are available on all temperatures of ThermoCable. • • Nylon-L.N protected for outdoor applications and extra durable for harsh industrial environments. Polypropylene-For chemically harsh and caustic environments such as wet benches. FGuide Wire-For spanning distances up to 250 ft.(76m)with supports every 15 ft.(4.6m). YaF 4: a awl, Fy a\'>n :47- `2 e \.t.-i:3v, \7� off. "Y. § ` ' x'3.0. j•�` G $v C.-. O. ��\ �����'•u..� \bat ` �C � - .., a ''.r'.?m*,.. v. `sY"' r.�"-c_•�� ,..c.,:�..`!.�:` f' �,:.��. a � 3 °? i R- .Saw 3V.V ' :� S S . &0 k �.. : ;; ThermoCable Linear Heat Detection (LHD), uses advanced polymers and a newly developed alloy to ��l Detection•ma. : p Y Y P y provide detection and durability like no other LHDetel" Ce . \;°tea • •w1 cable. ThermoCable may also be used on ANY new •�� � `� �� o"' '4� * or existing addressable or conventional panel making li et O c it the cost effective solution. �t . . k At the core of ThermoCable is a twisted pair of '� ' ( > ) a extremely low resistance, tri-metallic conductors, ttll�' sheathed in new advanced thermal polymers. These polymers are chemically engineered to break down at specific fixed temperatures allowing the twisted conductors to make contact and initiate an alarm. The polymer used for the protective outer coating of ®� C ®� US ThermoCable is chemical resistant and provides UV protection. This allows for ThermoCable to be used t t> ( E in an extremely wide variety of indoor and outdoor APPROVED installations and hazards. An optional distance locating module is available M EA which can identify and display the exact location of ,�;1 the overheating condition in feet or meters. You may <-; ` also use addressable modules to allow the control I.` CSFM panel to pin- point and identify the location ate cost far less than distance locating. Registered `ISO 9001 Distance Locating :: • The Distance Locating option, available for SAFE Fire - r Detection's ThermoCable Linear Heat Detection, allows sa r.x TT ii tJ you to identify where the overheating condition is �; occurring anywhere along the entire length of detection �' Thermp " cable in a particular zone. Distance ,is displayed in both ': 7, ,,,,,_:_i__ feet and meters. Part Number: ADPL-Z1 ti r q • v.•"'" i''^ .: ,,, k ' ^'Ci � 'Yw' Luc" \ ":, w� .\ •f Eat Sa • c - � • g � � • [R`�v,p.� � v Eqv. q t� . � Sh)�LA �n"t,§p�' s.'w tOEV For over 50 years, linear heat detection has been the choice for industrial applications around the world. It has provided the industry with a tried and true method of heat detection for conventional fire alarm applications. Today's modern facilities require advanced fire detection technologies that are both addressable and programmable. Our engineers took the concept of conventional linear heat detection and incorporated the latest in thermal polymers and advanced alloys to produce a new product that works directly with your panel. There is no need to buy a special panel just to monitor your linear heat detection. These advancements make ThermoCable the best choice for use with any approved addressable or conventional panel in any commercial or industrial environment. Now for Use on ANYAddressable Panel V. Just Add an Addressable Contact Monitor Module • Compatible with ANY Conventional Fire Alarm Panel • ri• k..!0-- t' Up to 10,000 Linear Feet(3,000m)of ThermoCable per Zone Therefore Tested up to 10,000 Linear Feet(3,000m) Longer Spool Lengths Available tk Lower Material Costs E Less Installation Time No Expensive Linear Heat Detection Panels to Buy and Maintain ^F h,tKv ya7CSp 2� air e\s^`� ` ,4� 1 , ,, ,.:a. v t - �, '� —a ' "" a � � �` a a'�' C Yi R � .�, ... .... ........ .. ...... .:.: .... .. .. . . A...a . ... ...a w...x,,..i� ,_,x....,. �„�� ,...� yaw ,. �a e "�„ SAFE Fire Detection, Inc. is the innovator in :t, providing new the art detection products, protecting state companies of from loss due to fire, smoke, heat, and water. Our new Product line, ThermoCable, has revolutionized linear heat detection (LHD). Linear heat ' � detection is now Addressable and able to work Pak with today's modern fire alarm and suppression panels. There are no more expensive special panels to buy, or service. This new approach will save you thousands on ' every installation.SAFE has built its reputation ` ` on outstanding engineered detection solutions. no We combine extensive industry knowledge 4� with solid technical expertise to help our t V,.. .,. ? r s. clients safeguard their assets. 1 .. L s • SAFE Fire Detection, Inc. is committed to--`' providing the best customer support in the .. = industry. This provides our clients with the `` satisfaction of knowing that their valuable' ,.' assets and business operation are our ''''''''''''' ''' M � 'I greatest concerns. This trust has been um 1.:: '.. -...'„;- , ,,,.‘,.,,:,i.'s4, 71;7 earned through 35 years of proven product reliability, dedication, and by providing unparalleled detection, helping safeguard facilities around the world. ,t fNt �>R y a ti Z w� ,...,--...‘ .. i d \ ,h r t n \ \ ... .. . ... ., .... .. ... .. ...... ....,, _r 3..mow...... �,�.. _, _....,.,,,„:„:„.,,,,i,.. .:....;„..,,:::..,;: ::';';'''""''''''''''',.;.;',„..L.,f:.,.1,r". ,', ,k.i..,.4.;':,:',,:c.::: :IY.:..�a m : ` 2 "",: ac's":11."."1'.. ,�i\�,a'.Ga, r: T: .�t .Vi 3,,E fi ., C a 5 \�� V:TM k 1 ( \ Y i ^.3"— aty2N^X.w +\R '"5::�,1`Z. \`p+' ;*7i, ay,, •, 4\.., ......, .. „,:.,,„ `1 a*S z.,.• s..,f( � � "S S. ..".-7.-.77".,•,..H .q, t �7 51-h s :� i'k. z n r`'Y,tn t'';� +.S,'q"�„,,...k r FS.�z`,�t �'F� "n"S y� t L4 / t� 5 i � Y � .gyam. 1�,�y�� SAF ..: „ FIRE DETECTION, INC. ,,,,..:::....:,,,,,,,,,...,..,,,,,,,..:,..„...,,,,,,,,,... .......;,...c:,..„.„, ,L....,..,.....„.....‘ ....z.,:.....:,...„.„,,,:,.,::,... ...„=..„.....„..:::„....::,„,,,...., ,,,,:.:„,k._,,,.,..c..:,..., ,,,,,,.:,,,,...„:„....,,,i,:„, ,,..,,.,,.,,,,.:::•,.„.......„:.:.,...:::::,...:„....:::„.:........c,„...., ,,.: . MAIN LINE FLOW o IN I III III L III - 8 A 8 L IMIM IMO 1111 1.11 FLOW O . L_J -D-1_ -__ L_ L. BYPASS LINE \7 AMD1 /Moak , - MAIN LINE _ ril FLOW — 4 . .1 ak lik s Now III ' 'I I, L �-- 4� /_,,,,,,,18 C0 ✓ 18 r� . D - - _- �_- -- - '_- FLOW O 17 / BYPASS LINE AMD2 UL Listed and FM Approved Step 5. Open any valve connected to the piping system (such as the three-way valve for the air gauge on the _ = dry pipe valve trim)just enough to slowly reduce the air pressure. Close it immediately when the pressure switch AIR PRODUCTS cuts-in and note the cut-in pressure. Verify the the cut-in Manufactured by: General Air Products, Inc. and cut out pressures meet the minimum design 118 Summit Drive, Exton, PA 19341 requirements for the system air pressures. Installation (continued) Note: If necessary, adjust the cut-in or the cut-out pres- sure. Loosen the hex-nut on the cover of the pressure switch and remove the cover.Adjust the cut-in pressure Model AMD-1 (Pressure Regulator) by turning the Pressure Adjustment Screw in the proper direction.Adjust the pressure differential (difference Caution: Care must be taken NOT to overpressure between cut-in and cut-out pressure) by turning the the system above the regulator setting when using Pressure Differential Screw. Consult Factory if in any the quick load line. doubt. Note: If necessary to adjust the system pressure, move Step 6. Close the bypass valve (#17)and open the two the locking nut away from the body of the regulator and 1/4" ball valves (#18). The Air Maintenance Device is turn the adjusting screw clockwise to increase the now in service. system pressure and counter clockwise to reduce system pressure. Care and Maintenance When reducing from a higher to a lower setting, first reduce to some pressure less than desired, then bring The Air Maintenance Device does not require any regu- up to the desired point. any scheduled maintenance. However, it is recom- After achieving the desired pressure setting, lock the mended that proper operation and condition be periodi- pressure setting. tally verified as follows: Step 4. Close the bypass valve (#7)and open the two 1.Verify that the 3/4" bypass valve is closed, the two 1/4" ball valves (#8). The Air Maintenance Device is now valy ball valves are open and the air supply control in service. valve in the dry pipe valve trim is open. Model AMD-2 (Pressure Switch) 2. Verify that the cut-in and cut-out pressures are at the proper setting, if applicable. Step 1. An electrical power circuit should be installed 3. Verify that the regulated pressure is at the proper set- using the pressure switch to control the compressor ting, if applicable. motor in accordance with the National Electric Code and/or the requirements of the local Authority Having 4.Accumulated moisture should be removed from the Jurisdiction. Consult factory for specific recommenda- drip leg on the air supply line and the desiccant in the tions, air dryer should be replaced, if applicable. Step 2. Close the 1/4" ball valves (#18)and open the 5.The strainer should be cleaned. bypass valve (#17) in the Air Maintenance Device and open the air supply valve in the dry pipe valve trim. Step 3. Energize the branch circuit to the pressure switch to start the compressor and pressurize the sys- tem. Step 4. When the system is pressurized, the pressure switch will cut-out and stop the compressor. Note the cut-out pressure. AMDMSTR.2 09/20/06 the outgoing air pressure at the pressure setting of the UL Listed and FM Approved regulator, usually within an accuracy of 1 psi. The c-- — _ outgoing air pressure setting is field adjustable from 5 ia. -- w to 75 psi. If the dry pipe valve is equipped with an accel- erator, this method of air-maintenance is recommended. Manufactured by: General Air Products, Inc. 118 Summit Drive, Exton, PA 19341 Plant Air Supply and Air Maintenance Device (AMD-1) Design Data The plant air supply is mechanically connected to the An Air Maintenance Device should be permanently trim of the dry pipe valve through an Air Maintenance connected to all dry pipe sprinkler systems to avoid the Device equipped with an air pressure regulator. The pressure regulator continuously regulates the incoming possibility of false valve "trips"which may result from air and maintains the outgoing air pressure at the ores - small piping leaks gradually lowering system air sure setting of the regulator, usually within and accuracy pressure. of 1 psi. The outgoing air pressure setting is field An Air Maintenance Device may also be utilized to auto- adjustable from 5 to 75 psi. The minimum pressure in matically control the air supply to the the plant air supply must be greater than the design air Y pp y piping system of pressure required by the dry pipe system since the air an air supervised preaction system or to the pilot lines pressure regulator will only regulate pressure down- of a dry pilot actuated deluge valve. ward. There are several methods of providing a constant and Installation controlled supply of air to a sprinkler system as follows: Air Compressor and Air Maintenance Device Model General (AMD-2) The Air Maintenance Device must be installed in the air The air compressor is connected electrically and supply line leading to the dry pipe valve trim, preaction mechanically to the trim of the dry pipe valve, through system piping or dry pilot system piping.The air flow an Air Maintenance Device equipped with a pressure through the Device must be in the direction shown by switch. The air pressure switch continuously senses the the arrows on the units. air pressure in the piping system and turns the com- pressor on if the pressure drops below the cut-in setting Note: The minimum pipe size is 1/2" diameter, although and turns the compressor off if the pressure rises above 3/4" diameter piping will provide a more rapid initial the cut-out setting. The cut-in pressure is usually set at system fill. the design air pressure for maintaining the dry pipe valve in the closed position. The cut-out pressure Note: In particularly humid environments, a DRYS TAR'"' should be set approximately 10 psi above the cut-in desiccant air dryer should be properly installed between pressure. the compressor and the dry pipe valve to remove mois- ture from the compressed air supply. Condensed mois- Note: If the dry pipe valve is equipped with an accelera- ture that is allowed to back up into the compressor cylin- tor, this method of air maintenance is not recommended. der may cause compressor damage. Cold room/freez- The accelerator is sensitive to a 3 to 5 psi air pressure er room installations must have a pre-packaged Dry Air drop at a rate of approximately 1 psi in 10 seconds - Pac TM which includes an AMD-1. Consult factory for see AMD-1. correct installation procedures. Air Compressor with Air Receiver Tank and Air Model AMD-1 (Pressure Regulator) Maintenance Device (Model AMD-1) Step 1. Close the 1/4" ball valves (#8)and open the The compressor-tank unit is equipped with an integral, bypass valve (#7) in the Air Maintenance Device and pressure switch that controls the pressure in the tank, open"the'air supply valve in the'dry pipe valve trim. maintaining the tank pressure at a level 10 to 15 psi above the designed air pressure demand of any dry Step 2. Open the air supply control valve from the plant pipe system supplied by the air compressor tank unit. air system or air receiver tank to pressurize the system. The compressor-tank unit is mechanically connected to the trim of the dry pipe valve, through an Air Step 3. When the system is pressurized, check the air Maintenance Device equipped with an air pressure reg- pressure gauge to verify the the pressure is at the ulator. The pressure regulator continuously regulates the design pressure requirement for the system. incoming air(from the air receiver tank) and maintains (Continued) AMDMSTR.2 09/20/06 Air Maintenance Device UL Listed and FM Approved For Dry Pipe Sprinkler Systems, _ ---=— -= Air Supervised Preaction Systems, & AIR PRODUCTS Manufactured by: General Air Products, Inc. Dry Pilot Actuated Deluge Systems 118 Summit Drive, Exton, PA 19341 Call 1-800-345-8207 for assistance or visit our website for information on these and all of our products www.GENERALAIRPRODUCTS.com Product Description Operation The enclosed Automatic Air Maintenance Device is a UL The Air Maintenance Device provides a continuous but Listed and FM Approved assembly of valves, nipples, restricted air supply to the piping system. fittings, and actuators to automatically control the air pressure in the piping of dry pipe sprinkler systems, The activation of only one sprinkler in a dry pipe system, preaction sprinkler systems, or dry pilot actuated deluge will cause the system pressure to diminish to the point systems. where the dry pipe valve will "trip", thereby filling the system piping with water. The Air Maintenance Device is designed to automatical- ly feed air into the system piping at the required volume Small piping system air leaks will be compensated for and pressure from an air source such as: by the automatic air feed provided the air leaks do not exceed the restricted air supply. 1. An air compressor 2. An air receiver tank Technical Data 3. A plant air system (owner's air) • Model: AMD-1,AMD-1ALT;AMD-2,AMD-2ALT;AMD-3 When an air receiver tank or plant air is utilized as the Style: With Air Regulator(AMD-1,AMD-1ALT) air supply source, the pressure regulator in the Air With Air Pressure Switch (AMD-2,AMD-2ALT, Maintenance Device AMD-1 and AMD-1ALT automati- AMD3) cally regulates the air pressure to the designated level. Approvals: UL, FM The outlet pressure of the regulator is field adjustable. Factory Operation Test: 100% at 35 psi air(AMD-1,AMD-1 ALT) When an electrically-driven air compressor is utilized as 100% at 35 &40 psi air(AMD-2,AMD-2ALT, the air supply source, the pressure switch in the Air AMD-3) Maintenance Device AMD-2,AMD-2ALT and AMD-3 automatically causes the air compressor to cut-in or cut- Ordering Information out at the minimum and maximum air pressures desired, g respectively. The cut-in and cut-out pressures are field adjustable. Mfgr. Source: General Air Products, Inc. Weight: 7 lbs. (AMD-1,AMD-1ALT) The automatic air supply is directed through a restricted 11 lbs. (AMD-2,AMD-2ALT, AMD-3) orifice in the air maintenance device so that upon acti- When placing an order, indicate the full product name. vation of a sprinkler, the air supply will not interfere with Please specify the quantity, model and style. the operation of the dry pipe valve, by continuing to sup- ply high volumes of pressurized air to the piping system. Guarantee It is a recommended safeguard that a low pressure General Air Products, Inc.will repair and/or replace any switch and alarm be installed on dry pipe systems or products found to be defective in material or workman- other air supervised piping systems.. This will cause an . ship within a period of one year from the date of alarm to sound if the pressure falls below a predeter- • shipment. Please refer to the current price list for further mined level. details of the warranty. AMDMSTR.2 09/20/06 sir IMINisimr— AM i■ice. — ..... ',lir IOW ate= ——�� OW_ �� s AIR PRODUCTS 7 4ea & a4t.cci-actunet. 4 vL eamiprz44otd, i the 9vre Piratectroo 91.tdc a,e1.y DAP Dry Air Pad Series for Critical Applications Where Moisture Removal is Essential DAP Series Standard Features Include: - UL/FM Approved Air Maintenance Device 1 :: I - Combination Afterfilter and Regulator P i. t. - Dew Point Test Port e - Oversized Mufflers - Hour Meter APPROVED *000 - Fully Integrated Control Panel , vow- ,_-, ,,,A1,4r-.), .,,, '''', - Compact Air Cooled Aftercooter - Prefilter with Differential Pressure Gauge '„4--'t � - Vibration Pads tr -- Customer Service and Technical Support , �z� �� 60 Cycle Units - 50 Cycle Available, Consult Factory FM APPROVED ' Air Drying Unit for Refrigerated Area and Dry Pipe Sprinkler Systems ,y. System Model Dryer Dimensions Approx. Capacity - Number Rating Motor HP LxWxH (in.) Shipping (Gallons) (SCFM) Weight(lbs.) 500 DAP500A* 10 2 44 x 23 1/2 x 69 1/2 375 500 DAP500B* 10. 2 44 x 23 1/2 x 69 1/2 375 1000 DAP1000B* 20 5 44 x 23 1/2 x 69 1/2 550 2000 DAP2000B* 27 5 44 x 23 1/2 x 72 1/2 550 DRY AIR PAC Maintenance Kits Part Number Description KSMBO1t Includes Replacement Filter Elements(3), and Compressor Oil KAMA01t Includes Replacement Filter Elements(3), Compressor Oil, and Desiccant DAP-TK Moisture Indicator Test Kit Note:A=single phase, B=three phase 'Voltages available for single phase models: 120V/208V1230V/1PHI60Hz Voltages available for three phase models:208V/230VI460V(575VI3PHI60HZ t IMPORTANT NOTE: Model#and Serial#of DAP must be specified when ordering. Dry Air Pac Test Kit (DAP-TK) This accessory attaches easily Call 1-800-345-8207 to the dew point test port ,,.\ on each DAP Series unit. Fax: 610-524-8965 E-Mail: genairpro @generalairproducts.com When attached the visual :, r._: b. m www.GENERALAIRPRODUCTS.com indicator ensures the unit is functioning correctly by continually sampling the air supply for moisture. .. „..., ii) 0 SERIES The Symbol of Protection PRESSURE SWITCH . ... , .,�, Low Pressure Signal Connection High Pressure Signal Connection One Conduit Wiring Fig.5 Fig.6 Fig.7 _ Li oak out thin Section of divider to provide path for wires TO run:ALARM PANEL re> t v,r.ti, „n rL when wiring both switches from one conduit entrance, POLR_1 \ 7-L±..f2.11J7 / 1 • I ---/ 11�I IIII IIIIO' c anon 955.4 Amammosotagamookw C▪ hanging Pressure Removing Knockouts (With normal system pressure) Fig.y Fig.8 Terminal LOW PRESSURE SWITCH lkik C:Cotmnon 4c. I: Closed when installed under normal system c pressure. her-1 2: Open when installed unde:-norntalsystern ...:Z'' pressure.Closes on �'� � i pressure drop.I;se.for •IP ♦. , low air signal. ,'�,/,• �„t'4 lenn in„l HIGH PRESSURE SWITCH V.,' I °pet s+h,c itsudied Nc ,/�� �� under normal a stern r pressure Closes es on m�� �\ /r V increase in pressure. • N0 s / -� Lse for high air signal. l 2: Closed under normal o o _ system pressure r ' 2 7::. I)V•/Ci#925-5 nWCC 930.3 .__ Engineer/Architect Specifications Pressure Type A\aterUow Switch _. ;. _....... Pressure type supervisory switches;shall be a Model PS40 as manufactured by ^Y 4 yr,m � ARN . £,, ,„ ,. Potter Electric Signal Company,St.Louis,MO„and shall be installed on the lire -' " "•°�. '',"'" Sprinkler system as shown and or specified herein. •Installation must he performed by qualified personnel and in accordance with all national and local codes and ordinances. Switches shall be provided with a 1/2"NITYI male pressure connection to be •Shock hazard.Disamncct power source before servicing.Serious injury or death connected into the air supply line on the system side of any shut-off valve. A could result. Model B\!L bleeder valve as supplied by Potter Electric Signal Company of St. •Read all instructions carefully and understand them before stating installation. Louis.MO.,or equivalent shall be connected in line with the PS40 to provide is Save instniet ions for future INC. Failure to read and understand instructions could means of testing the operation Of the supervisory switch,(See:Fig.3) result in improper operation of device resulting in serious injury or death. The switch unit shall curtain SPOT(Form C) switchtes). One switch shall)be •Risk of expinstnn.Not for use is hazardous locations.Serious injury or death could result, set to operate at a pressure decrease of 10 PSI(0;7 1 BAR)from normal. If two switches are provided,the second switch shall be set to operate at a pressure CAUTION increase of 10 PSI(0,7 BAR)from normal. Switch contacts shall be rated at 10.1 Amps at 125,250VAC and 2.0 Amps at 30VI.)C, The units shall have a maximum pressure rating of 300 PSI(20,(18 BAR) •Do not tighten by grasping the switch enclosure. Use wrenching Sans on the bushing and shah be aglust able.from 10 to 60 PSI(0.7 to 4 1 BAR). only. Failure to install property could damage the switch and cause improper operation resulting in damage to equipment and property. Pressure switches shall have two conduit entrance', one for each individual Switch •To seal threads aptly Teflon tape to male threads only. using joint compounds or compartment to facilitate the use of dissimilar voltages for each individual switch, cement can obstruct the pressure port inlet and result in improper device operation and The cover ot'the pressure switch shall he zinc die-cast with rain lip and shall attach damage to equipaicnt. with one tamper resistant screw. The pressure switch shall be suitable Rn'indoor or •Do not over tighten the device,standard piping practices apply. outdoor service with a NEMA-4/1P55 tasting. The pressure switch shall be ill„IJL,C and C'SFM listed;}'1 j and 1..1?C'sy)prc ved . and N\'M[A accepted. . ter__ . .- .,k ..... . . ......... ..;a_ :.. .., .;��<. .. .. PRINTED IN USA MFG.55400930-REV D PAGE 3OF3 i tot .,, Fr) .. .. . . . . . . . PS40 SERIES The Symbol of Protection PRESSURE SWITCH „ .. . „ . .. . . . Asmonseausammossauseasessensuess Dimensions Switch Clamping Plate Terminal Fig. 1 Fig.2 l*" f I 2 N7 ,------_:-----, , , , on,yoND 1 sr 4 . SCREWS > • i ,f _ . ..0 ADJUSTMENT ' e-iii ' 172.97) MIMI 112"AIPT_ --__17---,„ W Ci owoq,23.3 _,.i 2.41 l'" His (62 ill -..-..- :1.7R _.„- ...,_ '', A 1 , t .1 2. IRS.89 tqgiiAlWARNING11*.AKE . . . .. , NOTE:To pretreat leakage applv Teflon tape sealant to male thready Mill'. An uninsulated section of a single conductor uw(,,,00, should not he looped around the terminal and serve as two separate connections. 1 he Ix ire must be severed,thereby providing supervision of the connection in the event that the wire hecoines dislodged from under the terminal. ... ' ' Typical Sprinkler Applications Fig.3 P540 A CAUTION AIR LINE. SHUT-OFF , psi° Closing of any shutoff valves between the VALVE BLEEDER ALARM TEST 0 PRESSURE alarm chock valve and the PSI)will render cur cit , • VALVE ' SW1TCE VALVE BVL --- ---- - the P510 inoperative.To comply with NI:PA- WATER 72 any such valve shall be electrically -- MOTOR GONG supervised with a supervisor) switch such as CHECK REVS DRY II PI: vALvi.E 1 Potter Model RBVS. VALVE -> 11.• WATER DWG./1924-IA BY•PASS OS&Y , TEST VALVE • VALVE , ...wow Typical Connections Fig.4 ... . WITH NORMAL SYSTIIM PRES- PS40-I PS40-2 SURE APPLIED LOW-TERMINAL 2 CLOSES ON PRESSURE DROP. TO FIRE ALARM \ i r- PANEL I HIGH AIR Pigi I — ' IIII EM ' p + I PAIIIMMIIIMMIN cum WIII-1 NORMAL SYSTEM LOW PRESSURE APPLIED 01G11 1 1-101.,R AIR TO HIM , i i ':" -TERMINAL,I WILI,CLOSE ALARM / \ ON PRESSURE INCREASE, PANEL / \,..1 1 \ , EGER ' \ I DWG/4 930-2 PRINTED IN USA MFG.#9400930-REV D PAGE 2 OF 3 UOR ,,—.. PS40 SERIES The Symbol of Protection PRESSURE SWITCH (UL, cUL, and CSFM Listed, FN1 and LPC Approved, NYMEA Accepted,CE Marked Pending) Dimensions:$.78"(4.6cm1W x 3.20"(8.1em)D x 4.22"(10,7cm)11• Conduit Entrance: Two knockouts pru:ided for 1/2"conduit Individual L PCY T.F F--1' switch compartments and ground screw suitable tier dissimilar voltages PSap-2 CE Enclosure: Cover-Die-cast with textured red powdercoat finish,single • cover screw and rain lip. Base-Die-cast Pressure Connection:Nylon 112"NPT male Factory Adjustment: PS40-i operates on decrease at 30 PSI(2,1 BAR) „a, PS40-2 operates in increase at 50 PS1(3,s BAR) .• and on decrease at 30 PSI(2,1 BAR) Pressure Range: 10-60 PSi(,7-4,1 BAR) Differential: Typical 1 lb.at 10 PSi 1,07 at.7 BAR) 4 lbs at 60 PSI(,2 1.1 at 4,1 BAR) • Maximum System Pressure:300 PSI(20.68 BAR) Switch Contacts: SPOT(Forst C) 10.1 Amps at 125/250VAC,2.0 Amps at 30VDC. One SPDT in PS40-1.Two SPDT in P540-2 Environmental Specifications: NEMA 4'1P55 Rated Enclosure-indoor or outdoor when used with NEMA 4 conduit finings. Temperature range:-40°F to 140"F(-40°C to 60°C) Tamper: Cover incorporates tamper resistant fastener that requires a special key for removal, One key is supplied with each device. Ordering information For optional cover tamper switch kit,order Stock No,0(190200. Model Description Stock No. See bulletin 45401200 PSCTSK. PS40-1 Pressure switch with one set SPDT contacts 134041)3 Service Use: PS40-2 Pressure switch with two sets SPOT contacts 1340404 Automatic Sprinkler NFPA-13 Hex Key 5250062 One or two family dwelling NEPA-13D Cover Tamper Switch hit 0090200, Residential Occupancy up to four stories NFPA-13R. BVL Bleeder valve 1000018 National Fire AlarinVode •NFPA-72 Installation The Potter PS40 Series PressureActuated Switches are designed primarily to 4. Connect the wires to the appropriate terminal connections for the detect an increase and/or decrease from normal system pressure in automatic service intended. See Figures 2,4,5,6,and 8 fire sprinkler systems. Typical applications are:Day pipe system,pre-action Adjustment And Testing air/nitrogen supervision,pressure tanks,air supplies,and water supplies. The operation of the pressure supervisory visoay switch should be tested upon ctot y set for 40 PSI(2,8 BAR)normal syste m pressure. The switch market]with the word LOW is set to operate at a pressure decrease complete»n of installation and periodically thereafter in accordance with of 10 PSI(,7 BAR)at 30 PSI(2,1 BAR). ".C1�e switch marked with the word the applicable NFT,A codes and standards and/or the authority having HIGH is set to operate at a pressure increase of 70 PSI(,7 BAR)at 50 PSI jurisdiction(manufacturer recommends quarterly or more frequently). (3,5 BAR). See section heading Adjustments and 'Testing if other than Note: '1"esting the PS40 may activate other system connected devices. factory set point is required. The usennf a Potter BVL(see.product bulletin 8900067 for details)is• I. Connect the PS40 to the.system side of arty shutoff'or check valve.. recommended to facilitate vetting a dttc;aitig of the PS40 pressure switch. 2. Apply Teflon tape to the threaded male connection on the device. When a BVl_(bleeder valve)is used,the pressure to the switch can be (Do not use pipe dope) isolated and bled from the exhaust port on the BVL without effecting the 3. Device should be mounted in the upright position. supervisory pressure of the entire system. See Fig.3 (Threaded connection down) The operation point of the PS40 Pressure Switch can be adjusted to any 4. Tighten the device acing a wrench on the flats on the device, point between 10 and 60 PSI(0,7-4,11 BAR)by turning the adjustment knob(s)clockwise to raise the actuation point and counter clockwise to Wiring Instructions lower Ilse actuation point. In the case of the PS40-2,both switches operate 1. Remove the tamper resistant screw with the special key provided. independent of each other. Each switch may be independently adjusted to 2. Carefully place a screwdriver on the edge of the knockout and sharply actuate at any point acrosss the switch adjustment range. initial adjustment apply a force sufficient to dislodge the knockout plug. See Fig.9 can be made with a visual reference from the top of the adjustment knob 3. Run wires through an approved conduit connector and affix the across to the printed]scale on the switch bracket. Final adjustments should connector to the device. A NEM A-4 rated conduit fitting is he verified with a pressure gauge. required for outdoor use. Potter Electric Signal Company, LLC • St. Louis, MO • Phone: 866-956.0988/Canada 888-882-1833 • www.pottersignal.com PRINTED IN'LISA • MFG.#5400930-REV t) PAGE I OF 3 I/0S ,‘ 1, POTTER ._ . S oSERIES . The Symbol of Protection PRESSURE SWITCH One Conduit Wiring Switch Operation Removing Knockouts Fig.7 Fig.8 Fig.9 wr PRESSURE APPLIED Break out thin section of divider to provide path for wires (1,e.7:11,,,, when wiring both switches from one conduit entrance. I: Closed when installed under ncsrntat sy^:,rem pressure. °®O 2 Open when instilled under normal mil Svttcu prey n C:.{t os on H e t41: i iu rwu,. - • low pr Lure ■ f � A t..i' lennnul`,um wJ0 PRESSURE APPLIED 1 /__ s- _ I Cipeu ra tth ne pressure demoti-I t loses upon <daccncn of prossure. llke J�r rr>tertlow I � indication. —_ raw==n,•�,r_, 2: Clotcdwithno c 6 DWCiY'!72$•5 presurr applied. .�j�, a>� r , t RN I i .a �, i CAUTION •Installation must be performed by qualified personnel and in •Do not tighten by grasping the switch enclosure. Use wrenching accordance with all national and local codes and ordinances. flats on the bushing only.Failure to install properly could damage •Shock hazard.Disconnect power source before servicing. the switch and cause improper operation resulting in damage to Serious injury or death could result. equipment and property. •Read all instructions carefully and understand them before •To seal threads,apply Teflon tape to male threads only. Using starting installation.Save instructions for future use.Failure to joint compounds or cement can obstruct the pressure pon inlet react and understand instructions could result in improper and result in improper device operation and damage to equipment. operation of device resulting in serious injury or death, *Do not over tighten the device,standard piping practices apply. •Risk of explosion.Not for use is hazardous locations.Serious injury or death could result. Engineer/Architect Specifications Pressure Type ly'atertiow Switch Pressure type waterflow switches;shall be a Model PS I0 as Pressure switch shall have one or two form C contacts,switch contact marnifacTured by Fate.Electric SitsnarCoinpany St Louis'MO., --ruing 1''0:1LLA1t3pti at'l"25t25-0-VAC;`2.0-Amps-at3-0-VD(— and shall be installed on the fire sprinkler system as shown and or Pressure type waterflow switches shall have two conduit entrances specified herein. one for each individual switch compartment to facilitate the use of Switches shall be provided with a'l"NPT male pressure connection dissimilar voltages for each individual switch. and shall be connected to the alarm port outlet of;Wet Pipe Alarm The cover of the pressure type waterflow switch shall he Zinc die-cast Valves,Dry Pipe Valves,Pre-Action Valves,or Deluge Valves.The with rain lip and shall attach with one tamper resistant screw.The • pressure switch shall be actuated when the alarm line.pressure reaches Pressure type waterilow switch shall he suitable for indoor or outdoor 4-8 PSI(0,27-0,55 BAR). service with a NEMA 4/IP55 rating. Pressure type waterilow switches shall have a maximum service The pressure type waterilow switch shall be UL Ulc and CSFM listed, pressure rating of 300 PSI(20.68 BAR)and shall be factory adjusted FM and LPC approved and NYMEA accepted. to operate on a pressure increase of 4-8 PSi(0,27-0,55 BAR) PRINTED IN USA MEG.55400928-REV 0 PAGE 3 OF 3 {i0S • .. ,_ . ,, ,,.. ,,, ‘ . . ,. POTTER PS10 SLR ES °j The Symbol of Protection PRESSURE SWITCH Dimensions . , Switch Clamping Plate Terminal Fig. 1 Fig.2 r---)--1 11 l i.87 I { SCREws c` ADJUST.MEN..P ���1�i.,,II �t [72J71 t l �.•KNOB Ijl� 1 4. ` ' '''''. � � ii � r [107.19:1 ■i OEM 1 d 224E T' (40k4) WARN•INGIA �'I 16 2.R7] .t_ 3.75 _,...• 3.20 An uninsulated section of a single conductor 195.891 {812R[ should not he looped around the terminal and serve as two separate Connections. The wire NOTE:To prevent leakage,apply Teflon tape sealant to male threads ally. must be severed,thereby prnvidine supervision of the connection in the event that the wire °'0'I becomes dislodged from under the terminal. • Typical Sprinkler Applications Fig.3 WET SYSTEM WITH WET SYSTEM WITHOUT DRY SYSTEM EXCESS PRESSURE EXCESS PRESSURE PO) p5,5 PSts NAT=R WATER .',,71M ���MO'''OR k 1 or's. UV; • 5050 R Aft 04(CI P'r a �l5TFA5 ► S}STrs: ALARM . . c ;1 ►• Al aR0.t ►� ALARM raft i. CHECK (HT.,CR Iti'YARI'; lAl VT tArrS —i ()SAY HY-PASS 'WAT-cR 55.3.5: VAt 05 • 1'.:I_•:i oSSE • '055a. 0.5,41' RY-PASS \'A 1.\'I. V,4i.1'E VAL 1'E VAIA E ING.S923-2AA ____2_2__22_._222_2_ __.__ _—_.._,_. . . ______. _ _ ____._ .. _.._ _..._. . ._._. __`_____. A CAUTION Closing of any shutoff v idles between the alarm check vah'e and the PS lb will render the PS l b inoperative.To comply with NFPA-72 any such valve shall be electrically supervised with a supervisory switch such as Potter Model RI3VS, Low'Pressure Signal Connection '4Vatertlow Signal Connection Local Bell For Watertiow Connection Fig.4 Fi g.5 Fig.6 NrGATIVE TO FIRE ALARM PANEL TO FIRE ALARM PANEL OR NGInRALCAC ® \ Lim- LOAD , !ELL POSITIVE DC ®1� �� OR NOT AC r ........, M _ L t� T_al ^ I JD O O j® �, • Q1 J v '✓ -� a®1 °\O' PRINTEI.)IN LISA MPG.55400928-REV D PAGE 2 O}3 1/OS i� O = PSI0 SERIES The Symbol of Protection PRESSURE SWITCH (UL, cUl., and CSFM Listed, EM and L•( Approved, NYMEA Accepted.CE Marked Pending) Dimensions:3.78"(9.6cn1)W x 3.20"(S.Icm)D x 4.22"(10.7wn1H POTTIER Conduit Entrance:Two knockouts provided for 112"conduit. individual switch compartments and ground screws suitable for PS10-� dissimilar voltages. ' Enclosure: Cover-Die-cast with textured red powdercoat finish.single cover screw and rain lip. Base-Die-cast Pressure Connection:Nylon I/2"NPT Male . Factory Adjustment: 4-8 PSI(0,27-0,55 BAR) Differential: 2 PSI(0,13 BAR)typical Maximum System Pressure: 300 PSi(20,68 BAR) Patent Pending Switch Contacts: SPDT(Form C) 10.1 Amps at 125/250VAC,2.0 Amps at 30VDC Ordering information One SPDT in PS 10-I.Two SPDT in PS 10-2 Model Description Stock No. Environmental Specifications: PS 10-1 Pressure switch with one set 1340103 NEMA 4/IP55 Rated Enclosure-indoor or outdoor when used SPDT contacts wi'.h NEMA 4 conduit fittings. PSI0-2 Pressure switch with two sets 1:140104 temperature range:-4)01 to 140'F i-40°C to 60°C) SPDT contacts Service Use: Hex Key 5250062 Automatic Sprinkler_ NFPA-13 Cover Tamper Switch Kit 0090200 One or two family dwelling NE PA-13D Tamper Residential Occupancy up to four stories NFPA-13R Cover incorporates tamper resistant Fastener that requires a special her for National Fire Alarm Code NFPA-72 removal.One key is supplied with each device. For optional cover tamper switch kit,order Stock No.0090200. See bulletin#5401200 PSCTSK. Installation The Potter PS 10 Series Pressure Actuated Switches are designed for the into alarm port piping on the input side of retard chamber and electrically detection of a waterflow condition in automatic fire sprinkler systems of connect PS I0 to control unit that provides a retard to compensate for surges. particular designs such as wet pipe systems with alarm check valves.eery Insure that no unsupervised;but-oft vailves ate present between the alarm pipe. preaction,or deluge valves. The PSI0 is also suitable to provide a check valve and PSIO. low pressure supervisory signal;adjustable between 4 and 15 psi(0,27 and 44a/rod 2: When using the PS 10 for local hell application or with a control 1.03 BAR). that does not provide a retard feature-the PS 10 must he installed on the alarm 1.Apply Teflon tape to the threaded male connection on the device. outlet side of the retard chamber of the sprinkler system. (Do not usepipe dopee) - - - ,--- 7csOog Accomplishe! by opening the_inspector's__end,nflinclesdvalue.� _ _ 2.Device should be mounted in the upright position(threaded connection dowti). Allow time to compensate for system or control retard. 3.Tighten the device using a wrench on the flats on the device. Now: Method 2 is not applicable for remote station service use,if there is an Wiring Instructions unsupervised shut-off valve between the alarm check valve and the PS 10. 1,Remove the tamper resistant screw with the special key provided. Wet System With Excess Pressure 2.Carefully place a screwdriver on the edge of the knockout and Connect PS 10 into alarm port piping extending from alarm check valve. sharply apply a force sufficient to dislodge the knockout plug.See Fig 9 Retard provisions are not required. Insure that no unsupervised shut-off 3.Run wires through an approved conduit connector and a'tlix the connector valves are present between the alarm check valve and the PS 10. to the device. Testing: Accomplished by opening the water by-pass test valve or i:he 4.Connect the wires to the appropriate terminal connections for the inspector's end-of-line test valve.When using end-of-line test,allow time service intended.See Figures 2,4,5,and 6.Sec Fit:,r for two,.switch,on i.or.:c.x•.ss pressure to bleed off - conduit wiring. Dry System "Testing Connect PS:10 into alarm port piping that extends from the intermediate The operation of the pressure alarm switch should be tested upon completion chamber of the alarm check valve, Install on the outlet side of the in-line 0 finstallat ion and periodically thereafter in accordance with the applicable check valve of the alarm port piping. Insure that no unsupervised shut-off NEPA codes and standards and/or the authority having jurisdiction valves are present between the alarm check valve and the PS 10. (manufacturer recommends quarterly or more frequently). Testing:Accomplished by opening the water by-pass test valve. Wet System Note: flue above tests may also activate any other circuit closer or water Method I: When using PSI0 and control unit with retard-connect.I'S 10 motor gongs Outt are present on the system. Potter Electric Signal Company, LUC • St. Louis, MO • Phone: 866-956-0988/Canada 888-882-1833 • www.pottersignai.com PRINT.;f.)IN USA MFG.04400928-REV D PAGE 1 OF 3 I/0S , . PF v C The Symbol of Protection RELEASING CONTROL PANEL Architects/Engineers Specifications • The control panel for the extinguishing agent releasing system shall Waierflow,Linear Heat Detection(up to 10,000 feet per zone), be a microprocessor based control capable of protecting multiple Manual Release,Low Air Alarm,Supervisory.Tamper,Low Air or hazards in one control panel.It shall be Underwriters Laboratories High Air. Inc.listed under Standard$64 Ninth Edition and Underwriters Optiorril Class A modules,CA2Z,may be added for Class A I...aboratories of Canada for Local Control Units for Releasing Service. operation.The panel shall have a Low Air Zone that creates a The control shall also be approved by Factory Mutual Research supervisory condition and map to an output.Ul..and ULC Listed,FM Corporation and be compliant with the requirements of NFPA-72 Approved,NYMEA Accepted,CSFM Approved (Local:A,M, SS service types;DAC and NC signaling type)and N1 1'A 12,NI"PA 12A. NFPA-13,NFPA-15,Nl'.l'A-16,NFPA-17. The control shall have two fully supervised Class.B(Style B) NFPA-i 7A,NFPA-750,and NFF,A-200 1. supervisory circuits,These circuits shall be selectable through the programming sequence to operate in one of the following modes: The control shall be housed in an 18 gauge steel cabinet that has a,' xipi,rvisory,Tamper,Low.Air or Nigh Air. hinged,removable door with a key lock.The finish shall be baked enamel and available in red or off-white with contrasting trim and )he control shall have one fully supervised class B(style B)Abort logo.An optional matching bezel should be available for semi-flush circuit with 3 different operating modes. ULI,IRI,and NYC. mounting.The cabinet shall have adequate space to house 18 AB The control shall have four fully supervised Class B(Style Y)output standby batteries capable of operating the system for at least 90 hours, circuits.These circuits shall be selectable through the programming sequence to operate as one of the following:Alarm Notification The control shall include a fully supervised integral power supply battery charger capable of providing?GOmA to the auxiliary Appliance,Supervisory Notification Appliance,Trouble Notification power circuit. It shall also be capable of providing 2.5 Amps to all Appliance or Releasing, The optional CAM module may be added to ;releasing and notification appliance circuits combined.All initiating, convert the outputs to Class A. output and auxiliary power circuits shall be power limited. The panel shall have an RS-48:5 output and auxiliary power outputs The control shall have a 32 character(16 characters,2 lines)backlit for connection and supervision of up to 4 remote annunciators or an LCD display and a 34 LED supplemental display.All diagnostic and ARM-44 Relay Module and 3 annunciators. alarm event information shall he viewable in text form on this display. The releasing circuits shall be supervised for short circuit conditions A field programmable custom banner message with the cun•ent date and shall be programmable for cross zoning operation when required. and time shall be displayed when no current alarm or diagnostic The discharge timer for these releasing circuits shall be programmable intonation exists. for times of 7.8,9, 10,20 minutes or continuous.All initiating and Ail operational features ot'the control panel shall be field output circuits shall be capable of being individually disabled or programmabl rations'using menu driven selections on the alpha-numeric enabled.In addition,when in the agent extinguishing mode there shall display and on board controls.No special programmer will be be a pre-discharge timer adjustable from 0-60 seconds from an alarm required and jumpers or switches to configure operational features zone 01 0-30 seconds from a manual release zone. shall not be permitted.Alarm and trouble indications shall resound The control shall have a test mode that will automatically disable when required. all releasing circuits.The test mode shall operate in such a manner The control panel shall be equipped with 19 programs built into the as to automatically reset the initiating circuit and indicating circuits panel memory, 13 for water based extinguishing and 6 for agent after detecting each alarm condition initiated by the test.All testing extinguishing. In addition,the panel shall have the ability io add custorim shall btr.recoyded.in the 40,event history buffer.The test mode will programs.All programming functions shall be password protected. autorimatically ceriiunatc afl.cr tweimty minutes of inactivity. The control shall have four fully super iced Class B(Sty B) The control shall have four integral relay contacts rated 3 Amps at 30 initiating circuits capable of supporting the operation of 25 compatible VDC for connection to external auxiliary equipment.One relay shall 2-wire smoke detectors on each circuit. operate when an alarm condition occurs,another when a trouble signal occurs,the third when a supervisory condition occurs,and the fourth The individual circuits shall be selectable through the programming during a waterilow condition. sequence to operate in one of the following modes:Conventional, UL.,and ULC Listed,FM Approved,NYMEA Accepted,CSFM Approved. ISONSIMUMBONSE •_ ,:� ....., ._oar . PRINTED IN USA MFG#5401250 REV A 1 2;09 PAGE,2 OF 2 IIK. a FC-441.ORC The Symbol of Protection RELEASING CONTROL PANEL minsonatemiamaisaavat •Multi-Hazard Operation • Four Class B Initiating.Circuits •Two Class B Supervisory Circuits ** •Four Class B Output Circuits •Programmable Cross Zoning Supen ised•Microprocessor • �; •32 Character Alpha-Numeric LCD Display t •Custom Banner Message and Zone Description text •Custom Zone Description Text •On Board Menu Driven Programming Controls •Releasing Circuits Protected From False Activation •Continuous or Timed Discharge •40 Event History Buffer •Walktest with Automatic Time-out •Alarm,Trouble Supervisory,and Waterflow relays v F PFC Series •Optional Class A Initiating Zone and output module smawaPrahow Panel ` •34 character LED supplemental display • 19 Standard Programs in Panel Memory •Password Protection for all Programming • •24 Hour Clock • •Suitable for agent or water-based extinguishing •Programmable pre-discharge timers* •One Class B Abort circuit*(Defaults to additional supervisory zone in water based mode.) Dimensions: 18 .4"i x 14!'2"x 4 ' •Three Abort modes* UL and ULC Listed,FM Approved,NYMEA Accepted, and *Available in Chemical mode only CSFM Approved **One zone programmable as abort in chemical mode. Genera) Description . The Potter Model PFC-44IuRC isa0exihle multi-hzizardreleasing control The panel is Ninth Edition UL listed. ULC listed, Factor), Mutual. panel that is well suited for a number of applications.The PFC-44IORC California State Fire Marshal(CSFM)andNewYork MaterialsEquipment is listed for use with lire-action and deluge sprinkler suppression systems Acceptanc-(M EA)approved. and agem based fire suppression system's. , , .The.PFC;-44.1 ORC:is.houseci.in a durable steel.cabinet with removable• The panel utilizes a microprocessor-based system that has 19 Standard door and key lock.The panel is available in either a red or white finish Programs,which covers a majority of installations The simple to follow and an optional flush mount trim ring is available.The cabinet contains Menu Structure programs the entire system in a matter of minutes. In knockouts on the side,back and top of the cabinet to ease installation. addition to the Standar&Progpams,thepanel allows customprogramming In addition,the cabinet will house up to 18 amp-hour batteries that will to accommodate any installation. provide in excess of 90 hours of standby power. Ordering Information Model Number Description Stock Number PFC-44 1 ORC 4 Zone Releasing Control(White Cabinet) 3006144 PFC-441 ORC: 4 Zone Releasing Control(Red Cabinet) 3006142 PFC-TW Bezel for Semi-Flush Mounting(White) 5090157 PFC-R Bezel for Semi-Flush Mounting(Red) 5090155 13T-40 Battery, 12 V 4AH for 24 hour standby(2 Req'd) 5130092 BT-80 Battery, l2V SAFI for 60 hour standby(2 Req'd) 5130084 BT-12,0 Battery,12V '12AF1 for 90 hour standby(2 Req'd) 5130090 B1-180 Battery,1,2V,18AH for 90 hour standby(2 Req'd) 5130086 CA 2Z 2 Zone Class A Initiating Circuit Module 3006013 CAM Class A Indicating Circuit Module 3005300 ARM-44 Relay Module for PFC-441 ORC 3006221 ARM-2 Auxiliary Relay Module 3004725 RA-44 I ORC Remote Annunciator 3006400 BB-RA-44R Surface Mount Back Box for RA-441 ORC(Red) 3006401 Potter Electric Signal Co.,LL.0•St.Louis,MO•Cust Service:866-240-1870•Tech Support:866-956-I 211• Canada 888-882-1833•www.pottersignal.com PRINTED IN USA MFG;#5401254=RF:A PAGt.t OF 2 12109 MOW Page 8 of 8 TFP151 - XXX -'X P/N 57 i.,'',.;' XXX I I SPRINKLER TEMPERATURE MODEL/SIN _ RATING 530 2.8K UPRIGHT(1/2"NPT) TY1151 1 NATURAL BRASS 135 135°F/57°C 531 2.8K PENDENT(1/2"NPT) TY1251 4 WHITE POLYESTER 155 155°FI68°C 570 5.6K UPRIGHT(1/2"NPT) TY3151 3 WHITE(RAL9010)* 175 175°F/79°C 571 5.6K PENDENT(1/2"NPT) TY3251 9 CHROME PLATED 200 200°F/93°C 590 8.0K UPRIGHT(3/4"NPT) TY4151 7 LEAD COATED 286 286°F/141°C 591 8.0K PENDENT(3/4"NPT) TY4251 6 WAX COATED 360 360Ftt82°C - 286°F/141°C MAX. 560 8.0K UPRIGHT(1/2"NPT) , TY4851 8 WAX OVER LEAD ' 561 8.0K PENDENT(1/2"NPT) TY4951 ' 286°F/141°C MAX. *Eastern Hemisphere sates only. TABLE C • PART NUMBER SELECTION SERIES TV-B PENDENT AND UPRIGHT SPRINKLERS Limited any .other legal theory, for incidental, indirect,special or consequential darn- Ordering Warranty ages, including but not limited to labor charges, regardless of whether TFBP Procedure was informed about the possibility of Products manufactured by Tyco Fire& such damages, and in no event shall When placing an order, indicate the Building Products (TFBP) are war- TFBP's liability exceed an amount full product name. Refer to the Price ranted solely to the original Buyer for equal to the sales price. List for complete listing of Part Num- ten (10)years against defects in mate- bers. rial and workmanship when paid for The foregoing warranty is made in lieu and properly installed and maintained of any.and all other warranties. ex- Contact your local distributor for avail- under normal use and service. This press or implied, including warranties ability. warranty will expire ten (10) years of merchantability and fitness fora Dar- from date of shipment by TFBP. No ticular purpose. Sprinkler Assemblies with NPT warranty is given for products or corn- Thread Connections: Y 9 P This limited warranty sets forth the ex- Specify: (Specify Model/SIN), Stand- ponents manufactured by companies clusive remedy for claims based on and Response, (specify K-factor), not affiliated,by ownership,with TFBP failure of or defect in products,.materi (specify temperature rating), Series or for products and components which els or components, whether the claim TY-B (specify Pendent or Upright) have been subject to misuse,improper is made in contract,tort, strict liability Sprinkler with(specify type of finish or installation, corrosion, or which have or any other legal theory. coating), P/N (specify from Table C). not been installed, maintained, modi- fied or repaired in accordance with ap- plicable Standards of the National Fire tent permitted by law.The invalidity, in Recessed Escutcheon: Protection Association, and/or the whole or part, of any portion of this Specify: Style (specify 10 or 40 ) Re- standards of any other Authorities warranty will not affect the remainder, cessed Escutcheon with(specify*)fin- Having Jurisdiction. Materials found ish, P/N (specify*). by TFBP to be defective shall be either 'Refer to Technical Data Sheet TFP770. repaired or replaced, at TFBP's sole option. TFBP neither assumes, nor Sprinkler Wrench: authorizes any person to assume for it, Specify: W-Type 6 Sprinkler Wrench, any other obligation in connection with P/N 56-Q00-6-387. the sale of products or parts of prod- ucts.TFBP shall not be responsible for Specify: W-Type 7 Sprinkler Wrench, sprinkler system design errors or inac- P/N 56-850-4-001. curate or incomplete information sup- plied by Buyer or Buyer's repre- sentatives. In no event shall TFBP be liable, in contract, tort, strict liability or under 02007 TYCO FIRE&BUILDING PRODUCTS,451 North Cannon Avenue,Lansdale,Pennsylvania 19446 TFP151 Page 7 of 8 sprinkler. Readjust the position of the The Series TY-B Recessed Pendent and after installation. Sprinklers dam- sprinkler fitting to suit. Sprinklers must be installed in ac- aged by d cordance with the following y ro Piling, striking, wrench g instruc- or the like, must be re- The Series TY-B Pendent and Up- right Sprinklers must be installed in tions. placed, Also, replace any sprinkler accordance with the following instruc- Step A.After installing the Style 10 or that has a cracked bulb or that has lost tions. 40 Mounting Plate,as applicable,over liquid from its bulb. (Ref. Installation Section). Step 1. Pendent sprinklers are to be the sprinkler threads and with pipe installed in the pendent position, and thread sealant applied to the pipe Frequent visual inspections are rec- upright sprinklers are to be installed in threads, hand tighten the sprinkler into ommended to be initially performed for the upright position. the sprinkler fitting. corrosion resistant coated sprinklers, Step 2. With pipe thread sealant ap- Step B. Tighten the sprinkler into the after the installation has been com plied to the pipe threads, hand tighten sprinkler fitting using only the W-Type pleted,to verify the integrity of the cor- the sprinkler into the sprinkler fitting. 7 Recessed Sprinkler Wrench (Ref. rosion resistant coating. Thereafter, Figure 8). With reference to Figure 3 annual inspections per NFPA 25 Step 3. Tighten the sprinkler into the or 4,the W-Type 7 Recessed Sprinkler should suffice; however, instead of in- sprinkler fitting using only the W-Type Wrench is to be applied to the sprinkler specting from the floor level,a random 6 Sprinkler Wrench (Ref. Figure 7), wrench flats. sampling of close-up visual inspec- except that an 8 or 10 inch adjustable tions should be made, so as to better Crescent wrench is to be used for wax Step C. After the ceiling has been in- determine the exact sprinkler condi- coated sprinklers. With reference to stalled or the finish coat has been ap- tion and the long term integrity of the Figures 1, 2, 3, and 4 the W-Type 7 plied, slide on the Style 10 or 40 Clo- corrosion resistant coating, as it may Sprinkler Wrench or the adjustable sure over the Series TY-B Sprinkler be affected by the corrosive conditions Crescent wrench, as applicable is to and push the Closyre over the Mount- present. be applied to the wrench flats. ing Plate until its flange comes in con- tact with the ceiling. The owner is responsible for the in- When installing wax coated sprinklers with the adjustable Crescent wrench, /+ and their fire testing, and maintenance de- additional care needs to be exercised Care an(,I their fire protection system and de- to prevent damage to the wax coating vices-in compliance with this docu- to the sprinkler wrench flats or frame Maintenance ment, as well as with the applicable arms and, consequently, exposure of standards of the National Fire Protec- arms metal to the corrosive environ- The Series TY-B Sprinklers must be addition dd Association (e.g., s of any 25t in r ment. The jaws of the wrench should maintained and serviced in accord- to it to the standards T The in- be opened sufficiently wide to pass ance with the following instructions: authorities having jurisdiction.oin e The - the wrench flats without damag- stalling contractor or sprinkler menu- over ive ing the wax coating. Before wrench NOTES facturer should be contacted relative tightening the sprinkler,the jaws of the Before closing a fire protection system to any questions. wrench are to be adjusted to just con- main control valve for maintenance Automatic sprinkler systems should be tact the sprinkler wrench flats. After work on the fire protection system that inspected, tested, and maintained by wrench tightening the sprinkler,loosen it controls,permission to shut down the ' a qualified Inspection Service in ac- the wrench jaws before removing the affected fire protection system must be cordance with local requirements wrench. obtained from the proper authorities and/or national codes. After installation,the sprinkler wrench and all personnel who maybe affected flats and frame arms must be in- by this action must be notified. spected and the wax coating re- The owner must assure that the sprin- touched(repaired)whenever the coat- kiers are not used for hanging of any ing has been damaged and bare metal objects; otherwise, non-operation in is exposed. The wax coating on the the event of a fire or inadvertent opera- wrench flats can be retouched by gen- tion may result. tly applying a heated 1/8 inch diameter Absence of an escutcheon, which is steel rod to the areas of wax that have used to cover a clearance hole, may been damaged,to smooth it back over delay the time to sprinkler operation in areas where bare metal is exposed. a fire situetinn. NOTES Sprinklers that are found to be leaking Only retouching of the wax coating ap- or exhibiting visible signs of corrosion plied to the wrench flats and frame must be replaced. arms is permitted, and the retouching Automatic sprinklers must never be is to be performed only at the time of painted, plated, coated or otherwise the initial sprinkler installation. altered after leaving the factory. Modi- The steel rod should be heated only to fied sprinklers must be replaced. the point at which it can begin to melt Sprinklers that have been exposed to the wax, and appropriate precautions corrosive products of combustion, but need to be taken, when handling the have not operated,should be replaced heated rod, in order to prevent the if they cannot be completely cleaned installer from being burned. by wiping the sprinkler with a cloth or by brushing it with a soft bristle brush. Care must be exercised to avoid dam- , age to the sprinklers - before, during, Page 6 of 8 TFP151 2-7/8"DIA. 5/8±1/4" (73,0 mm) 3/4"(19,1 mm) .T (15,9±6,4 mm) 2-1/4"DIA. 1/4"(6,4 mm) I / WRENCH RECESS FACE OF (57,2 mm) / (END"A"USED FOR 1/2"NPT MODELS) MOUNTING SPRINKLER PLATE FITTING 1/8" WRENCH RECESS (3,2 mm) (END"B"USED FOR MAIO1 3/4"NPT MODELS) IN 1 FIGURE 7 J r /,- ` W-TYPE 6 SPRINKLER MOUNTING ' j t WRENCH SURFACE -._ar. WRENCH CLOSURE SERIES 1-1/4"(31,8 mm)1 RECESS TY-B 3/4"(19,1 mm) t FIGURE 5 `�� SERIES TY-B RECESSED PENDENT SPRINKLER ASSEMBLY 1 �\ WITH TWO-PIECE 3/4 INCH TOTAL ADJUSTMENT l STYLE 10 RECESSED ESCUTCHEON _< / 5•6 K-FACTOR, 1/2 INCH NPT �o PUSH WRENCH IN TO ENSURE 2-7/8"DIA. _ ENGAGEMENT (73,0 mm) 3/4"(19,1 mm) WITH SPRINKLER _ 5/8±1/4" WRENCHING AREA (15,9±6,4 mm) 2-1/4"DIA. —� 1/4"(6,4 mm) (57.2 mm) FIGURE 8 FACE OF MOUNTING W-TYPE 7 RECESSED SPRINKLER PLATE SPRINKLER WRENCH . FITTING / 1/8" n (3,2 mm) Installation � /" The Series TY-B Sprinklers must be 4—� y installed in accordance with the follow- _: •; - ink instructions: MOUNTING SURFACE NOTES � Do not install any bulb type sprinkler if the bulb is cracked or there is a loss of CLOSURE SERIES 1-5/16"(33,3 mm) liquid from the bulb. With the sprinkler TY-B 13116"(20,6 mm) held horizontally, a small air bubble should be present. The diameter of the air bubble is approximately 1/16 inch FIGURE 6 (1,6 mm) for the 135°F/57°C to 3/32 SERIES TY-B RECESSED PENDENT SPRINKLER ASSEMBLY inch (2,4 mm) for the 360°F/182`C WITH TWO-PIECE 3/4 INCH TOTAL ADJUSTMENT temperature ratings. STYLE 40 RECESSED ESCUTCHEON A 1/2 inch NPT sprinkler joint should 8.0 K-FACTOR, 3/4 INCH NPT be obtained with a minimum to maxi- mum torque of 7 to 14 ft.lbs. (9,5 to 19,0 Nm). A 3/4 inch NPT sprinkler joint should be obtained with a mini- mum to maximum torque of 10 to 20 ft.lbs. (13,4 to 26,8 Nm).Higher levels of torque may distort the sprinkler inlet and cause leakage or impairment of the sprinkler. Do not attempt to make-up for insuffi- cient adjustment in the escutcheon plate by under- or over-tightening the • TFP151 Page 5 of 8 SPRINKLER FINISH K TYPE NATURAL CHROME WHITE LEAD WAX WAX OVER BRASS PLATED POLYESTER COATED COATED LEAD COATED 2.8 PENDENT(TY1251) NPT UPRIGHT(TY7151) 175'PSi.(12,1,BAR) N/A PENDENT(TY3251) 5.6 and 250 PSI(17,2 BAR) 175 PSI(12,1 BAR) 1/2" UPRIGHT(TY3151) OR NPT RECESSED PENDENT 175 PSI(12,1 BAR) (TY3251) (SEE NOTE 1) N/A 8.0 PENDENT(TY4251) 3/4" and 175 PSI(12,1 BAR) NPT UPRIGHT(TY4151) RECESSED PENDENT (TY4251) 175 PSI(12,1 BAR) N/A 8.0 PENDENT(TY4951) 1/2" and 175 PSI(12,1 BAR) NPT UPRIGHT(TY4851) NOTE: 1•The maximum working pressure of 250 psi(17,2 bar)only applies to the Listing by Underwriters Laboratories,Inc.(UL);the Listing by Underwriters Laboratories,Inc.for use in Canada(C-UL):and,the Approval by the City of New York. TABLE B, MAXIMUM WORKING PRESSURE Technical Operation • • Data The glass Bulb contains a fluid which expands when exposed to heat.When Approvals the rated temperature is reached, the UL and C-UL Listed4, fluid expands sufficiently to shatter the FM, LPCB,VdS, and NYC Approved. glass Bulb, allowing the sprinkler to (Refer to Table A for complete ap- activate and water to flow. proval information including corrosion resistant status.) Design Maximum Working Pressure __ Refer to-Table B -__ ____ Criteria Discharge Coefficient K= 2.8 GPM/psis/2(40,3 LPM/barl/2) The Series TY-B Pendent and Upright K= 5.6 GPM/psi1/2 (80,6 LPM/bars/2) Sprinklers are intended for fire protec- K=8.0 GPM/psi1/2(115,2 LPM/bar1/2) tion systems designed in accordance with the standard installation rules rec- Temperature Ratings ognized by the applicable Listing or Refer to Table A. Approval agency (e.g., UL Listing is Finishes based on the requirements of NFPA Sprinkler: Refer to Table A. 13, and FM Approval is based on the Recessed Escutcheon:White Coated, requirements of FM's Loss Prevention Chrome Plated, or Brass Plated. Data Sheets). Only the Style 10 or 40 Recessed Escutcheon, as applicable, E Physical Characteristics is to be used for recessed pendent Frame Bronze installations. Button Brass/Copper Sealing Assembly QJ Beryllium Nickel w/Teflont : Bulb Glass cc Compression Screw _ Bronze Deflector Copper ° Bushing (K=2.8) Bronze Page 4 of 8 TFP151 • SPRINKLER FINISH(See Note 8) K TYPE TEMP. BULB NATURAL CHROME WHITE*** LEAD WAX WAX OVER LIQUID BRASS PLATED POLYESTER COATED COATED LEAD COATED 135°F/57°C Orange PENDENT 155'F/68°C Red 2.8 (TY1251) 1,2,3 N/A 1/2" and 175°F/79°C Yellow NPT UPRIGHT 200°F/93°C Green (TY1151) 286"F/141°C Blue 360°F/182°C Mauve 1,2 135°F/57°C Orange PENDENT 155°F/68°C Red (TY3251) 1,2,3,4,5,6,7 1,2,3,5 1,2,3,5 1,2,3,5 and 175°F/79°C Yellow UPRIGHT 200°F/93°C Green 5.6 (TY3151) 286"F/141°C Blue 1**2** 3** 5** 1** 2** 3** 5** 1/2" NPT 360°F/182°C Mauve N/A 135°F/57°C Orange RECESSED 155°F/68°C Red • PENDENT 1,2,3,4,5 N/A (TY3251)* 175°F/79°C Yellow Figure 4 200°F/93°C Green 286°F/141°C Blue 1,2 135°F/57`C Orange PENDENT 155°F/68°C Red (TY4251) 1,2,5 1,2,3,5 1,2,5 and 175°F/79°C Yellow 1,2,3,4,5,6,7 8.0 UPRIGHT 200°F/93°C Green 3/4" (TY4151) 286°F/141°C Blue 1**2** 3** 5** 1** 2** 5** NPT 360°F/182°C Mauve N/A 135°F/57°C Orange RECESSED 155°F/68°C Red PENDENT 1,2,3,4,5 N/A (TY4251)° 175°F/79°C Yellow Figure 5 200°F/93°C Green 286°F/141°C Blue • 1,2 • 135°F/57°C Orange ,, PENDENT 155°F/68°C Red 8.0 (TY4951) and 175°F/79°C Yellow 1,2,3,4,5,6 N/A NPT UPRIGHT 200°F/93°C Green (TY4851) 286°F/141°C Blue 360°F/182°C Mauve NOTES: 1.Listed by Underwriters Laboratories, Inc. (UL). 2.Listed by Underwriters Laboratories, Inc.for,use..in Canada,(,C-UL) , 3.Approved by Factory Mutual Research Corporation(FM). 4.Approved by the Loss Prevention Certification Board(LPCB Ref.No.007k/03). 5.Approved by the City of New York under MEA 354-01-E. 6,VdS Approved(For details contact Tyco Fire&Building Products,Enschede,Netherlands,Tel.31-53-428-4444/Fax 31-53-428-3377). 7.Approved by the Loss Prevention Certification Board(LPCB Ref.No.094a/05). 8.Where Polyester Coated, Lead Coated,Wax Coated,and Wax over Lead Coated Sprinklers are noted to be UL and C-UL Listed,the sprinklers are UL and C-UL Listed as Corrosion Resistant Sprinklers.Where Lead Coated,Wax Coated,and Wax over Lead Coated Sprinklers are noted to be FM Approved,the sprinklers are FM Approved as Corrosion Resistant Sprinklers. * Installed with Style 10(1/2"NPT)or Style 40(3/4"NPT)3/4"Total Adjustment Recessed Escutcheon,as applicable. ** 150°F/66°C Maximum Ceiling Temperature. ***Frame and deflector only.Listings and approvals apply to color(Special Order). TABLE A, LABORATORY LISTINGS AND APPROVALS • TFP151 Page 3 of 8 ESCUTCHEON 1/2"(12,7 mm) STYLE 40 PLATE SEATING ** NOMINAL RECESSED SURFACE 314' MAKE-IN ESCUTCHEON NPT DEFLECTOR 6* imi r'rTi Ctit ?T�PnT�� 112" 5 2-5/16" i i�r f (12,7 mm) (58,7 mm) - A NOMINAL 4 1 MAKE-IN II 1-9/1 6" wow t_�\ I� ' 2 1/4" d 2 (39,7 mm) ' R`, \, I LSm) O WRENCH Of'Iil 3 T ice_, FLATS -- 1 + ` 1 SSP DEFLECTOR* tr— 2-7/8"(73,0 mm)DIA. --- 3/4"NPT** 1 PENDENT RECESSED PENDENT UPRIGHT CROSS SECTION 1-Frame 3-Sealing 4-Bulb 6-Deflector *"Ternperature rating is indicated on deflector or adjacent to 2-Button Assembly 5-Compression orifice seat on frame. Screw **Pipe thread connections per ISO 7/1 can be provided on special request. FIGURE 3 STANDARD RESPONSE SERIES TY-B UPRIGHT(TY4151)AND PENDENT(TY4251)SPRINKLERS 8.0 K-FACTOR, 3/4 INCH NPT ESCUTCHEON 7/16"(11,1 mm) PLATE SEATING 112„** NOMINAL SSU* SURFACE NPT MAKE-IN DEFLECTOR l ' �� * 6 -- - 1 . .2 Imo„ 5 2-114" _ 2-3/166 1 (57,2 mm) ' ' (55,fi mm) q 1-9/16" 104 WRENCH 'r , 2 ' (39,7 mm) FLATS ___—_----.-------- 1 ' f 3 SSP* - 1 DEFLECTOR CROSS PENDENT UPRIGHT SECTION 1-Frame 3-Sealing 4-Bulb 6-Dofloctor * 'Temperature rating is indicated on deflector or adjacent to 2-Button Assembly 5-Compression orifice seat on frame. ' Screw **Pipe thread connections per ISO 7/1 can be provided on special request. FIGURE 4 STANDARD RESPONSE SERIES TY-B UPRIGHT(TY4851)AND PENDENT(TY4951)SPRINKLERS 8.0 K-FACTOR, 1/2 INCH NPT Page 2of8 TFPI51 ESCUTCHEON „i, ,., 7/16.-01,1 mm) PLATE SEATING 1/2"** NOMINAL SSU* SURFACE NPT MAKE-IN DEFLECTOR I 6 l 1e► 5 2-1/4" JOJ 2-3/16" (57,21 mm) } LI�� (55,6 mm) 4 I 2 1-9/16" 'WRENCH ', 4�(39,7 mm) FLATS e 3 SSP* 7 • DEFLECTOR CROSS PENDENT UPRIGHT SECTION 1-Frame 3-Sealing 4-Bulb 6-Deflector * Temperature rating is indicated on deflector or adjacent to 2-Button Assembly 5-Compression 7-Bushing orifice seat on frame. Screw **Pipe thread connections per ISO 7/1 can be provided on special request. FIGURE 1 STANDARD RESPONSE SERIES TY-B UPRIGHT(TY1151)AND PENDENT(TY1251)SPRINKLERS 2.8 K-FACTOR, 1/2 INCH NPT ESCUTCHEON 7/16"(11,1 mm) • STYLE 10 PLATE SEATING 1/2„**' NOMINAL RECESSED SURFACE NPT MAKE-IN ESCUTCHEON SSU* —I / DEFLECTOR 6* / 2-3/16" ' �� }(55,6 mm) 1 (111 mm) 2a 2-3/16" �'- : ..t ;, ,(55,6 am)), 11i WRENCH 3 1 - -:��=.ter-. FLATS I — i 1 SSP DEFLECTOR* f— 2-7/8"(73,0 mm)DIA. 1/2"NPT** f PENDENT RECESSED PENDENT UPRIGHT CROSS SECTION 1-Frame 3-Sealing 4-Bulb 6-Deflector * Temperature rating is indicated on deflector or adjacent to 2-Button Assembly 5-Compression orifice seat on frame. Screw **Pipe thread connections per ISO 7/1 can be provided on special request. FIGURE 2 STANDARD RESPONSE SERIES TY-8 UPRIGHT(TY3151)AND PENDENT(TY3251)SPRINKLERS 5.6 K-FACTOR, 1/2 INCH NPT tqco I Fire & Building Products Technical Services:Tel: (800) 381-9312/Fax: (800)791-5500 Series TY-B -- 2.8, 5.6, and 8.0 K-factor Upright, Pendent, and Recessed Pendent Sprinklers Standard Response, Standard Coverage General cable approval agencies,the testing is not representative of all possible cor- - Description rosive atmospheres. Consequently, it " : gam. ° is recommended that the end user be "° 4' '. consulted with respect to the suitability The Series TY-B, 2.8, 5.6, and 8.0 of these coatings for any given corro- t K-factor, Upright and Pendent Sprin- ^i f P sive environment.The effects of ambi- f ti klers described in this data sheet are ent temperature, concentration of standard response - standard cover- chemicals, and gas/chemical velocity, i4 age, decorative 5 mm glass bulb type should be considered, as a minimum, spray sprinklers designed for use in along with the corrosive nature of the light, ordinary, or extra hazard, corn chemical to which the sprinklers will be ,,.,! mercial occupancies such as banks, exposed. ,,.. ' hotels,shopping malls,factories,refin- eries, chemical plants, etc. An intermediate level version of the ' Series TY-B Pendent Sprinkler can be The recessed version of the Series obtained by utilizing the Series TY-B TY-B Pendent Sprinkler, where appli- Pendent Sprinkler in.combination with cable,is intended for use in areas with the Model S2 Shield. - a finished ceiling. It uses a two-piece , "°-. °^ w -,,. Style 10(1/2 inch NPT)or Style 40(3/4 WARNINGS inch NPT)Recessed Escutcheon.The The Series TY-B Sprinklers described t Recessed Escutcheon provides 1/2 herein must be installed and main- inch (12,7 mm) of recessed adjust- tained in compliance with this docu- ment or up to 3/4 inch (19,1 mm) of ment, as well as with the applicable -t ', 4„,,,, , total adjustment from the flush pen- standards of the National Fire Protec- • dent position. The adjustment pro- Lion Association, in addition to the , 0 , vided by the Recessed Escutcheon re- standards of any other authorities hay- '^�. duces the accuracy to which the fixed ing jurisdiction. Failure to do so may '° pipe drops to the sprinklers must be impair the performance of these de- ' cut. vices. • Corrosion resistant coatings, where The owner is responsible for maintain- applicable, are utilized to extend the ing their fire protection system and de- life of copper alloy sprinklers beyond vices in proper operating condition. that which would otherwise be ob- The installing contractor or sprinkler tained when exposed to corrosive at- manufacturer should be contacted mospheres. Although corrosion resis- with any questions. tant coated sprinklers have passed the standard corrosion tests of the appli- Model/Sprinkler IMPORTANT Identification Always refer to Technical Data Sheet TFP700 for the "INSTALLER Numbers WARNING" that provides cautions with respect to handling and instal- TY1151 - Upright 2.8K,1l2"NPT tatlon of sprinkler systems and corn- TY1251 - Pendent 2.8K,1/2"NPT ponents. Improper handling and in- TY33151 - Upright.5,6K, 112"NPT stallation can permanently damage TY3251 - Pendent 5.6K,1/2"NPT a sprinkler system or its compo- TY4151 - Upright 8.0K,314"NPT nents and cause the sprinkler to fail TY4251 - Pendent 8.0K,314"NPT to operate in a fire situation or cause TY4851 - Upright 8.0K, 112"NPT it to operate prematurely. TY4951 - Pendent 8.0K, 1/2"NPT Page 1 of 8 DECEMBER, 2007 TFP151 Page 6 of 6 :... TFP1810 Figure 321 i--cm E---I Figure 321 Reducing Tee Nominal C to E Appx.Wt. Nominal C to E Appx.Wt. Size Inches Lbs. Size Inches Lbs. l Inches mm Kg. Inches mm Kg. 1/2x1' x1% 3.25 2.0 6x6x4 6.50 26.6 CtoE 82.6 0.9 165.1 12.1 ..0.. 2x 2x11/2 3.25 2.7 6x6x5 6.50 27.0 82.6 1.2 165.1 12.2 Figure 321 21 x 21/2 x 11/4 3.75 4.2 8 x 8 x 2 7.75 362 95.3 1.9 196.9 16.4 2Yzx2Yix1''/z 3.75 4.2 8x8x3 7.75 36.5 95.3 1.9 196.9 16.6 2Yx2Yx2 3.75 4.3 8x8x4 7.75 36.6 '95.3 2.0 196.9 16.6 3x 3x 11/2 4.25 5.3 8x8x5 7.75 36.8 108.0 2.4 196.9 16.7 4.25 5.5 7.75 37.0 3x3x2 108.0 P.5 Sx8x6 196.9 16.8 3x 3x2'/2 4.25 5.8 10x10x2 900 57.1 108.0 2.6 228.6 25.9 4x 4x1Y< 5.00 9.8 10x10x3 900 57.4 127.0 4.4 228.6 26.0 4x4x1'/ 5.00 9.9 10x10x4 9.00 57.6 127.0 4.5 228.6 26.1 4x4x2 5.00 10.1 10x10x5 9.00 57.8 127.0 4.6 228.6 . 26.2 4x4x21/2 5.00 10.3, . 10x1026- 900 58.0 • 127.0 4.7 228.6 26.3 4x4x3 5.00 10.5 10x10x8 9.00 58.4 127.0 4.8 228.6 26.5 5x5x2 5.50 14.5 12x12x3 10.00 80.2 139.7 6.6 254.0 36.4 5x5x21/2 5.50 14.8 12x12x4 10.00 80.5 139.7 6.7 254.0 36.5 5 x 5 x3 5.50 15.2 12 x 12 x5 10.00 80.7 139.7 6.9 254.0 36.6 5x5x4 5.50 15.8 12x12x6 10.00 80.9 139.7 7.2 254.0 • 36.7 6 x 6 x2 6.50 26.5 12 x12 x 8 10.00 .91.4 165.1 11.9 254.0 41.5 6x8x-21/2 . 6.50 26.5 12x12.x10 - 10-00 -_91.8 165.1 12.0 254.0 41.6 6x6x3 6.50 26.5 165.1 12.0 , 411101, General Notes: It is the Designer's responsibility to select products suitable for the intended service and to ensure ISO that pressure ratings and performance data is not exceeded.Always read and understand the installation instructions .e 9001 (IH-1000). Never remove any piping component or correct or modify any piping deficiencies without first gaty depressurizing and draining the system. Material and gasket selection should be verified to be compatible for the specific application. - , Certified Company TYCO FIRE PRODUCTS,451 North Cannon Avenue,Lansdale,Pennsylvania 19946 Printed U.S.A. Page 5 of 6 TFP1810 Figures 391 , 392, 393, 312 and 313 h•-E to E----.` Figures 391, II-_ 392 and 393 Figure Elbow Figure Elbow Adapter Nipples 221/2'Elbow 11 /<°Elbow Figure Nominal E to E Appx.Wt. C to E Appx.Wt. C to E Appx.Wt. Size Inches Lbs. Inches Lbs. Inches Lbs. mm Kg. mm Kg. mm Kg. '• f E to E i l 1'`°� 4.00 0.8 1.75 0.4 1.38 0.4 1 If 101.6 0.4 44.5 0.2 35.1 0.2 1`!z" 4.00 0.9 1.75 0.5 1.38 0.5 Figure,. 101.6 0.4 44.5 0.2 35.1 0.2 2.. 4.00 1.2 1.88 0.6 1.38 0.6 101.6 0.5 478 0.3 35.1 0.3 "-t-- 2'/2 4.00 1.9 2.00 0.7 1.50 1.1 •�r-E to E--►� 101.6 0.9 50.8 0.3 38.1 0.5 11 3„ 4.00 2.5 2.25 1.4 1.50 1.2 101.6 1.1 57.2 0.6 38.1 0.5 Figure 6.00 5.5 2.63 ' 2.4 1.75 2.2 393 4„ 152.4 2.5 66.8 1.1 44.5 1.0 5„ 6.00 ' 7.4 2.88 4.1 2.00 3.3 152.4 3.4 73.2 1.9 50.8 1.5 C to E 11111116444, 6" 6.00 9.5 3.13 5.6 2.00 4.6 152.4 4.3 79.5 2.5 50.8 2.1 Figure •' i 6.00 14.2 3.88 11.1 2.00 8.7 312 8°, 157.4 6 4 . 98.6 5.0 50.8 3.9 CtoE 8.00 27.0 4.38 14.0 2.13 9.1 =_ 10" 203.2 12.2 11.3 6.4 54.1 4.1 C to E 12" 8.00 33.0 4.88 22.0 2.25 16.7 �_�' Figure 203.2 15.0 124.0 10.0 57.2 7.6 C1°E. 313 immisoms Figures 327 and 341 ..-C to E--- Figure 341 Figure 327 150 lbs. 1 r Cross Flange Adapter Nominal C to E Appx.Wt. E to E Appx.Wt. ' �; nches Lbs. Inches Lbs. Size mm kg. mm kg. i r 2.75 69.6 2.0 0.9 4.00 2.8 11/4" 101.6 1.3 ■ CtoE 1,�2" 2.75 2.2 4.00 3.2 69.9 2.0 101.6 1.5 I , 2„ 3.25 2.7 4.0 5.2 82.6 1.2 101,6 2.4 Figure 327 3.75 5.0 4.00 8.0 212" 95.3 2.3 101.6 3.6 3„ 4.25 7.1 4.00 10.2 108.0 • 3.2 101;6 4.6 ' 5:00' " 11.9 '6.00 17.2 ' I ' 4„ 127.0 5.4 152.4 7.8 III j I 1f ,I. 5.50 17.1 6.00 21.4 E to E 6„ 139.7 7.8 152.4 9.7 I 6" 6.50 27.5 6.00 26.0 • i i 165.1 12.5 152.4 11.8 I I 1 7.75 47.0 6.00 38.4 8 196.9 21.3 152,4 17.4 Figure 341 10" 9.00 66.0 8.00 65.0 228.6 30.8 203,2 29.5 12" 10.00 107.0 8.00 91.0 259.0 48.5 203,2 41.3 • Page 4 of 6 TFP1810 • Figures 250 and 350 Figures 250 and 350 Concentric Reducer-Groove x Groove Nominal E to E Appx.Wt. Nominal E to E Appx,Wt. Nominal E to E Appx.Wt. --Eto El Size Inches Lbs. Size Inches Lbs. Size Inches Lbs. Inches mm Kg. Inches mm Kg. Inches mm Kg. 2.50 1.0 3.50 4.2 4.00 5.8 '2x1'1/4 a 63.5 0.5 *139.7m.x3 88.9 1.9 `6x5 101.6 2.6 '2 x 1'/z 2.50 1.3 `139.7mm x 4 3.50 4.4 8 x 2 5.00 12.2 63.5 0.6 88.9 2.0 127.0 5.5 2.50 1.2 3.50 4.6 5.00 12.1 Figure 250 `21/2 x 2 63.5 0,5 5 x.11/2 , 48.9 2.1 • 8 x 21/2 127.0 5,5 Cast 2.50 '° 1.5 '3.50 4.6 5.00 12.0• `76.1mmx11/2 63.5 0.7 5 x 2 88.9 2.1 8 x 3 127.0 5.5 2.50 1.6 3.50 4.5 5.00 11.9 '76.1mmx2 5x21/z 8x4 --EtoE� 63.5 0.8 88.9 2.0 127.0 5.4 3xib< 2.50 1.3 5x3 3.50 4.4 8x5 5.00 11.3 63.5 0.6 88.9 2.0 127.0 5.1 3x1'/z 2.50 1.3 *54 3.50 4,5 86 5.00 10.8 6 x x 3.5 0.6 88.9 2.D 127.0 4.9 `3 x 2 2.50 1.3 '165.imm x 3 4.00 5.5 10 x 4 6.00 21.9 Figure 350 63.5 0.6 101.6 2.5 152.4 10.0 Fabricated .3 x 2'1/2 3.00 1.5 "i65.1mm x 4 4.00 6.0 10 x 5 6.00 21.6 Sizes 3"to 6" 76.2 0.7 101.6 2.7 152.4 9.8 3 x 76.1 mm 3.00 2.0 165.1,x 1397mr 4.00 5.6 10 x 6 6.00 21.1 76.2 0.9 101.6 2.5 152.4 9.6 1.---E to E---1 3.00 2.2 4.00 6.0 6.00 19.5 4x1'/. 76.2 1.0 6x2 101.6 2.7 10x8 152.4 8.9 _ 3.00 2.3 4.00 6.0 7.00 28.0 4x1Yi 76.2 1.0 6x2-'z 101.6 2.7 12x4 177.8 12.7 3.00 2.3 4 00 6.0 7.00.-_,_--30.0 "4x-2-- 1 H__ 6x76:1 ,m 1 12-z6_.. 76.2 0 1 D7.6 2.7 177.8 13.6 Figure 350 3.00 2.3 4.00 6.0 7.00 28.0 Fabricated `4 x 21 76.2 1.0 6 x 3 101.6 2.7 12 x 8 177.8 12.7 Sizes 8"to 12" 3.00 3.2 4.00 5.9 7.00 33.0 `4 x76.1 mm 76.2 1.5 `6x4 101.6 21 12 x 10 177.8 15.0 • 4 x 3 3.00 2.6 "6 7 4.00 6.3 x 139. mm 76.2 1.2 101.6 2.9 Note:Sizes marked with an asterisk(')are only available in Figure 250 Cast. Sizes without an asterisk are only available in Figure 350 Fabricated. - • • ADA CAP® Patented Pipe Nominal Dimensions Size Outlet OAD. Takeout Center to End Wt.t Inches NPT' inches Inches Inches Inches Lbs. Inches mm mm mm mm Kg. 1/L„ 1.25 1.75 1.89 0.77 31.8 44.5 48.0 0.3 1.900 1.25 1.75 1.89 0.77 C a 1 /z l4 48.3 31.8 44.5 48.0 0.3 , ■ e 1.37 2.00 2.02 0.88 I 1 ' -.---1_._._I. 34.8 50.8 51.3 0.4 q _._.-.-.i._._:-._._._. . ._._. '/z 1.25 1.75 1.89 0.92 31.8 44.5 48.0 0.4 2 -/< 2.375 1.25 1.75 1.89 0.92 60.3 , 31.8 44.5 48.0 0.4 1 1.37 2.00 2.02 1.06 34.8 50.8 51.3 0.5 /z 1.47 1.97 1.89 1.28 37.3 50.0 48.0 0.6 2'/z s/a 2.875 1.47 1.97 1.89 1.28 73.0 37.3 , 50.0 48.0 0.6 1, 1.37 2.00 2.02 1.50 -.34.8. . 50.8- 51.3 0.7 ' ISO-7 threaded outlets are available upon request. 4, _ • Page 3 of 6 TFP1810 Figures 501 , 510, 519 and 51 ODE C of H---CtoE-I 1 I CIOE i f i CIoE . . L tt��� =mom ' C to E B 1 l i--C to E-I try 1 i.-A--•i-C to E 1 Figure 501 Figure 510 Figure 519 Figure 510DE Figure 501 Figure 510 Figure 519 Figure 510DE 45°Elbow 90°Elbow Tee 90°Drain Elbow Nominal C to E Appx.Wt. C to E Appx.Wt. C to E Appx.Wt: C to E A B Appx.Wt. Size inches Lbs. Inches Lbs. Inches Lbs. Inches Inches Inches Lbs. mm Kg. mm Kg. mm Kg. mm mm mm Kg. 1,/4„ 1.75 0.9 2.75 1.0 2.75 1.4 44.5 0.4 69.9 0.5 69.9 0.6 1'/2" 1.75 1.1 2.75 1.2 2.75 1.8 44.5 0.5 69,9 0.5 69.9 0.8 2„ 2.00 1.8 3.25 2.0 3.25 2.7 50.8 0.8 82.6 0.9 82.6 1.2 2'(z" 2.25 2.2 3.75 3.0 3.75 5.8 3.75 2.00 2.75 2.7 57.2 1.0 95.3 1.4 95.3 2.6 95.3 50.8 69.9 1.2 3„ 2.50 - 3.5 4.25 4.5 4.25 7.0 4.25 2.34 2.75 3.7 63.5 1.6 108.0 2.0 108.0 3.2 108.0 59.4 69.9 1.7 4„ 3.00 5.2 5.00 8.5 5.00 11.8 5.00 ' 2.85 2.75 7.0 76.2 2.4 127.0 3.9 127.0 5.4 127.0 72.4 69.9 3.2 5„ 3.25 8.5 5.50 13.5 5.50 17.0 5.50 3.38 2.75 13.0 82.6 3.9 139.7 6.1 139.7 7.7 139.7 85.9 69.9 5.9 3.50 12.0 6.50 18.5 6.50 26.0 6.50 3.92 2.75 13.4 6„ 88.9 '. __5.4 T65.1 8.4 --165.1- 11.8_ ' 165.1 99.6 -. 69.9 .. .__6.1 8,. 4.25 23.0 7.75 36.5 7.75 45.0 7.75 4.95 2.75 26.3 108.0 10.4 196.9 16.6 196.9 20.4 196.9 _ 125.7 69.9 11.9 Figures 501S, 510S and 519S CtoE I --Ctod- / 11 ( rs-CtoE i I CtoE ! 1! ,�CtoE Li 1 i•-CtoE-- 1 1 I Figure 501S Figure 510S* Figure 519S* ,Figure 501S Figure 5105 Figure 519S Friction Resistance 501S,5105&5195 45`Elbow 90°Elbow Tee (Expressed as Equivalent Straight Pipe) Nominal C to E Appx Wt. C to E Appx.Wt. C to E Appx.Wt. Elbow Tee Size Inches Lbs. Inches Lbs. Inches Lbs. Size 90° 45° Branch Run mm Kg. mm Kg. mm Kg. Inches Feet Feet Feet Feet 2„ 2.00 1.8 2.75 1.5 2.75 2.1 mm Meters Meters Meters Meters 50.8 0.8 69.9 0.7 69.9 1.0 /z' 2.25 2.2 3.00 2.2 3.00 3.0 2 3.2 1.6 8.0 3.2 2 60.3 1.0 0.5 2.5 1.0 57.2 1.0 76.2 1.0 76.2 1.4 21/2 3.9 2.0 9.8 3.9 76.1 mm 2.25 2.2 3.00 2.3 3.00 3.1 73.0 1.2 0.6 3.0 1.2 57.2 1.0 76.2 1.0 76.2 1.4 4.1 2.1 10.3 4.1 3„ 2.50 3.5 3.38 3.0 3.38 4.1 76.1mm 12 0.6 3.1 1.2 63.5 1.6 65.9 1.3 85.9 1.9 3 4.9 2.4 12.2 4.9 4„ 3.00 5.2 4.00 5.6 4.00 7.7 88.9 1.5 0.7 3.7 1.5 76.2 2.4 101.6 2.6 101.6 3.5 4 6.5 3.3 16.3 6.5 139 7°m 3.25 7.7 4.88 8.6 4.88 12.0 114.3 2.0 1.0 5.0 2.0 82.6 3.5 124.0 3.9 124.0 5.4 8.0 4.1 20.0 8.0 3.25 8.5 • 4.88 8.8 • 4.88 12.0 139.7mm 2.4 1.3 6.1 2.4 82.6 3.9 124.0 3.9 124.0 5.4 5 8.2 4.1 20.5 8.2 165.1mm 3.50 12.0 5.50 11.00 5.50 15.0 141.3 2.5 1.3 6.3 2.5 88.9 5.4 139.7 5.0 139.7 6.8 9.5 4.8 23.8 9.5 6„ 3.50 12.0 5.50 11.2 5.50 15.2 165.1 mm 2.9 1.4 7.2 2.9 88.9 5.4 139.7 5.1 139.7 6.9 6 9.9 5.0 24.8 9.9 8,. 4.25 23.0 6.88 23.4 6.88 31.2 168.3 3.0 1.5 7.6 3.0 108.0 10.4 174.8 10.6 174.B 14.2 8 13.1 6.6 32.8 13.1 *Note:Figure 510S and 519S fittings are special shorl radius fillings with smaller center to end dimensions 219.1 4.D 2.D 1 D'0 4.D than standard grooved fittings.Depending on the size and coupling used,there may be Interferences at the boll pads which requires repositioning of the coupling orientation.The use of flange adapters is not recommended with Figures 510S and 5195 fillings.Contact Tyco Fire Products for details. .w Page 2 of 6 TFP1310 Figures 201 , 210, 219, and 260 c to Et Figure 201 Figure 210 Figure 219 Figure 260$ alli 45°Elbow 90°Elbow Tee End Cap 1 Nominal C to E Appx.Wt. C to E Appx.Wt. C to E Apex.Wt. E to E Appx.Wt. Size Inches Lbs. Inches Lbs. Inches Lbs. Inches Lbs. C to E 0 to E mm Kg, mm Kg. mm Kg. mm Ko. Li j.. 1,1+" 1.75 0.9 2;5 1.0 2.75 ' 1,4 0.88 0.4 �� �'E 44.5 0.4 69.9 0.5 69.9 0.6 22.4 0.2 Figure 201 1'/z" 1.75 1.1 2.75 1.2 2.75 1.8 0.88 0.6 Figure 210 44.5 0.5 • 69.9 0.5 69.9 0.8 22.4 0.3 2„ 2.00 1.8 3.25 2.0 3.25 2.7 0.88 0.9 . 50.8 0.8 82.6 0.9 82.6 1.2 22.4 0.4 2,/, 2.25 2.2 3.75 3.0 3.75 5.8 0.88 0.9 i.--C to E---' E to E-I I'" 57.2 1.0 95.3 _ 1.4 95.3 2.6 22.4 0.4 III. 2.25 2.2 3.75 3.0 3.75 5.8 0.94 1.1 76.1 mm 57.2 1.0 95.3 1.4 95.3 2.6 23.9 0.5 ?._._._. 1._t ',_ 3" 2.50 3.5 4.25 4.5 4.25 7.0 0.88 1.1 63.5 1.6 108.0 2.0 108.0 3.2 22.4 0.5 C to E 108.0mm 2.88 5.5 4.75 8.5 4.75 11.5 73.0 2.5 120.7 3.9 120.7 5,2 " wirsium._�_ Figure 260 4„ 3.00 5.2 5.00 8.5 5.00 11.8 1.00 2.6 76.2 2.4 127.0 3.9 127.0 5.4 25.4 1.2 Figure 219 133.0mm 3.25 7.7 5.25 11.3 5.25 10.6 82.6 3.5 133.4 5.1 133.4 4.8 139.7mm 3.25 7.7 5.50 11.3 5.50 15.3 0.92 4.7 82.6 3.5 139.1 5.1 139,7 6.9 23.4 2.1 5„ 3.25 8.5 5.50 13.5 5.50 17.0 1.00 5.0 Friction Resistance* 82.6 3.9 139.7 6.1 .139.7 7.7 25.4 2.3 (Expressed as Equivalent Straight Pipe) 3.50 12.0 6.00 14.6 6.00 ' 13.9 Elbow Tee 159,Omm 88.9 5.4 152.4 6.6 152.4 6.3 Size 90° 45° Branch Run 165.1mm 3.50 12.0 6.50 18.5 6.50 26.0 1.00 7.5 Inches Feet Feet Feet Feet 88:9 5.4 165.1 8.4 165.1 11.8 25.4 3.4 mm Meters Meters Meters Meters 3.50 12.0 6.50 18.5 6.50 26.0 1.00 7.5 11 1,9 1.0 4.8 1,9 6" 88.9 5.4 165.1 8.4 165.1 11.8 25.4 3.4 42.4 0.6 0.3 1.5 0.6 ' 4.25 23.0 7.75 36.5 7.75 45.0 1 Y 2.3 1.2 5.8 2.3 216.3mm 108.0 10.4 196.9 16.6 196.9 20.4 48.3 0.7 0.4 1.8 0.7 4.25 23.0 7.75 36.5 7.75 ' 45.0 1.19 12.8 2 3.2 1.6 8.0 3.2 8 108.0 10.4 196.9 16.6 196.9 20.4 30.2 5.8 60.3 1.0 0.5 2.5 1.0 - 10„ 4.75 31,0 9.00 60.0 9.00 72.1 1.25 20.0 2'/2 ' 3.9 2.0 9.8 3.9 120.7 14.1 228.6 27.2 228.6 32.7 31.8 9.1 73.0 1.2 0.6 3.0 1.2 5.45 40.0 10.00 67.0 10.00 92.5 • 1.25 36.0 4.1 2,1 . 10.3 4.1 12 133.4 18.1 254.0 30.4 254.0 42.0 31.8 16,3 76.1mm 1.2 0.6 3.1 1.2 ' 3 4.9 2.4 12.2 4.9 -Available with tapped plugs.contact Tyco Fire&Building Products. 88.9 1.5 0,7 3.7 1.5 108.Omm 6.5 3.3 16.3 6.5 . 2.0 1.0 5.0 2.0 4 6.5 ' 3.3 16.3 6.5 ' 114.3 2.0 1,0 5.0 2.0 133.Omm 8.0 4.0 20.0 8.0 2.4 1.2 6.1 2.4 139.7m., 8.0 4.1 20.0 8.0 2.4 1.3 6.1 2.4 5 8.2 4.1 20.5 8.2 141.3 2.5 1,3 6.3 2.5 159.Omm 9.5 4.8 23.8 9.5 2.9 1.4 7,2 2.9 165.1 mm 9.5 4.8 23.8 9.5 2.9 1.4 7.2 2.9 6 9.9 5.0 24.8 9.9 168.3 3.0 1.5 7.6 3.0 216.3m 13.1 6.6 32.8 13.1 m 4.0 • 2.0 10.0 4.0 8 •13.1 • 8:6• 32.8, 13.1 219.1 4.0 2.0 10.0 4.0 10 16.5 8.3 41.3 16.5 273.0 5.0 2.5 12.6 5.0 12 19.9 9.9 49.7 19.9 323.4 6.1 3.0 15.1 6.1 For reducing lees and branches,use the value that is corrosponding to the branch size.Example:for 8'x 8'x 2'tee,the branch value 2"is 8.01 eel. ' Friction resistance for all elbows and tees except Figures 51CS and 519S. q. tIjCO Fire & Building Products Technical Services:Tel: (800)381-9312/Fax: (800) 791-5500 www.tyco-f ire.com Grinnell Grooved Fire Protection Products Grooved Fittings General Material: Limited Cast:Figures:201,210,219,250,260,501,510, Description 519,510DE,501S,510S and 519S- Warranty See Fire Protection Ductile iron conforming to ASTM A-536, Products manufactured by Tyco Fire Products are (pcg VdS Submittal Sheet for Grade 65-45-12 warranted solely to the original Buyer for ten(10) CO CO Pressure Rating and Fabricated Steel: Figures 391, 392, 393, 312, years against defects in material and workmanship Listing/Approval Information Information 313,321, 327,341 and 350-Carbon Steel, (Sizes 1'/4" 6"are Schedule 40); when paid for and properly installed and maintained (Sizes 8" 12"are Schedule 30), under normal use and service. This warranty will (Sizes 8" conforming to ASTM Sc edul 30), B expire ten(10)years from date of shipmentbyTyco The grooved fittings provide an economical Protective Coatings: Fire po ents.manufactured giyenforpaniectsot and efficient method of changing direct ion, •Non-lead orange paint apmppdbyo mh pwith ycoFie Products not adding an outlet, reducing, or capping •Fire brigade red(optional)non-lead paint productsandc components ntswhichha have been subject grooved tin systems. Grooved fittings •Hot dipped galvanized conforming to ASTM tomsuts ampomponsntswon,coaosion, rwhi ch g piping g y g pp g g tomisuse,improperinstallation,corrosion,arwhich are available in durable ductile iron or A-153 have not been installed, maintained, modified or fabricated steel as indicated. repaired in accordance with applicable Standards of Note: Figure 510S and 519S fittings are Ordering the National Fire Protection Association (NFPA), special short radius fittings with smaller and/orthestandards of any other Authorities Having center to end dimensions than standard Procedure Jurisdiction. Materials found by Tyco Fire Products grooved fittings.Depending on the size and When placing an order,indicate the full product to be defective shall be either repaired or replaced,at coupling used,there may be interferences at name.Please specify the quantity,figure number, Tyco Fire Products'sole option.Tyco Fire Products the bolt pads that require repositioning of the wall thickness,and size. neither assumes, nor authorizes any person to coupling orientation. The use of flange Grinnell Grooved Piping Products, valves, assumeforit,anyotherobligationinconnectionwith adapters is not recommended with Figures accessories and other products are available the sale of products or parts of products. Tyco Fire 510S and 519S fittings. Contact Tyco Fire throughout the U.S.,Canada,and internationally, Productsshallnotberesponsibleforsprinklersystem Products for details. through a network`of distrlbution'centers.You desi gnerrorsorinaccurateorincomp leteinformation WARNING may Write directly or call 215-362-0700 for the supplied by Buyer or Buyer's representatives. The Fittings described herein must be installed distributor nearest you. IN NO EVENT SHALL TYCO FIRE PRODUCTS BE and maintained in compliance withthisdocument, LIABLE,IN CONTRACT,TORT,STRICT LIABILITY as well as with the applicable standards of the Care and OR UNDER ANY OTHER LEGAL THEORY, FOR National Fire Protection Association,in addition Maintenance INCIDENTAL, INDIRECT, SPECIAL OR to the standards of any other authorities having CONSEQUENTIAL DAMAGES,INCLUDING BUTNOT jurisdiction. Failure to do so may Impair the The owner is responsible for the inspection, LIMITED TO LABOR CHARGES,REGARDLESS OF performance of this device, testing,and maintenance of their fire protection WHETHERTYCOFIREPRODUCTSWASINFORMED The owner is responsible for maintaining their system and devices in accordance with the ABOUT THE POSSIBILITY OF SUCH DAMAGES, fire protection system and devices in proper applicabie standards of the National Fire Protection AND IN NO EVENT SHALLTYCO FIRE PRODUCTS' operating condition.The installing contractor or Association (e.g., NFPA 25), in addition to the LIABILITY EXCEED AN AMOUNT EQUAL TO THE sprinkler manufacturer should be contacted with standards of any authority having jurisdiction. SALES PRICE. any questions. The installing contractor or product manufacturer THE FOREGOING WARRANTY IS MADE IN LIEU OF should be contacted relative to any questions, ANY AND ALL OTHER WARRANTIES EXPRESS OR Technical Any impairment must be immediately corrected. IMPLIED, INCLUDING WARRANTIES OF It is recommended that automatic sprinkler MERCHANTABILITY AND FITNESS FOR A Data systems be inspected,tested,and maintained by PARTICULAR PURPOSE. Approvals: a qualified Inspection Service. UL,FM,ULC,VdS,and LPCB; Note: See Fire Protection Submittal Sheet for exact Listing/Approval information. Page 1 of 6 September 2004 TFP1810 Page 2 of 2 TFP1854 assumes,nor authorizes any person to IN CONTRACT, TORT, STRICT LI- SHALL TYCO FIRE & BUILDING assume for it, any other obligation in ABILITY OR UNDER ANY OTHER LE- PRODUCTS' LIABILITY EXCEED AN connection with the sale of products or GAL THEORY, FOR INCIDENTAL, AMOUNT EQUAL TO THE SALES parts of products.Tyco Fire&Building INDIRECT, SPECIAL OR CONSE- PRICE. Products shall not be responsible for QUENTIAL DAMAGES, INCLUDING THE FOREGOING WARRANTY IS sprinkler system design errors or inac- BUT NOT LIMITED MITED TO 'LABOR MAPS IN r(E OF AC _AND ALL curate orIncomplete information sup- CHARGES REGARDLESS OF OTHER W �WARRANTIES EXPRESS t plied by Buyer or Buyer's repro- WHETHER TYCO FIRE & BUILDING OR IMPLIED INCLUDING WARRAN- sentatives. PRODUCTS WAS INFORMED TIES OF MERCHANTABILITY AND IN NO EVENT SHALL TYCO FIRE & ABOUT THE POSSIBILITY OF SUCH FITNESS FORA PARTICULAR PI.JR- BUILDING PRODUCTS BE LIABLE, DAMAGES, AND IN NO EVENT EQsE Figure 577 Grooved Coupling f ,. Pipe Max.`t Max.t Max.t Nominal Dimensions Net O.D. End Gap Pressure End Load A B C Weight Size Inches Inches psi Lbs. inches Inches Inches Size*' Lbs. mm mm kPa N mm mm mm Dia.x Lg. Kg 1 1/4" 1.660 0.06 300 649 2.68 4.21 1.65 3/8"x 2 1/4" 1.3 42.4 1.5 2,068 2.888 68 107 42 M10 x 57 0.6 1 112" 1.900 0.06 300 851 2.91 4.45 1.65 3/8"x 2 1/4" 1.5 48.3 1.5 2,068 3,783 74 113 42 M10 x 57 0.7 2" 2.375 0.06 300 1329 3.39 5.00 1.69 3/8"x 2 1/4" 1.8 _ _ 60.3 _ 1.5 2,068 _5,912 86 127 43 M10 x 57 0.8 2 1/2" -2.875 0.06 300 1947 3.90 5.43 1.77 3/8"x 2 1/4" 2.0 73.0 1.5 2.068 8.663 99 138 45 M10 x 57 0.9 JF.i mm 3.000 0.06 300 2121 ,98 ` �9 1.77 3/8"x 2 1/4' 2.0 76.1 7.5 2,068 P 432 1.01 .. 442 45 ;:M110.x57.. 0.9 3„ 3.500 0.06 300 2886 4.49 6.14 1.77 3/8"x 2 1/4" 3.3 88.9 1.5 2,068 12.839 114 756 45 M10x57 1.5 4„ 4.500 0.19 300 4771 5.71 7.52 1.85 3/8"x 2 1/4" 3.3 114.3 4.8 2,068 21,223 145 191 47 M10x57 1.5 139.7 mm 5.500 0.19 300 7127 6.81 8.74 1.93 1/2"x 3" 5.3 139.7 4.8 2,068 31,704 173 222 49 M12 x 76 2.4 5.563 0.19 300 7291 6.85 8.82 1.93 1/2"x-3" 5.3 141.3 4.8 2,068 32,434 174 224 49 M12 x 76 2.4 165.1 mm 6.500 0.19 300 9955 7.80 9.76 1.93 1/2"x 3" 5.7 165.1 4.8 2,068 44,280 198 248 49 M12x76 2.6 6" 6.625 0.19 300 10341 7.91 9.88 1.93 1/2"x 3" 5.9 168.3 4.8 2,068 46,000 201 251 49 M12 x 76 2.7 8" 8.625 0.19 300 17527 10.24 12.80 2.40 5/8"x 3 1/4" 11.7 219.1_ 4.8 2,068 77,966 260 325 _ 61 _ M16x83 5.3 * Maximum available gap between pipe ends,Minimum gap=0. t Maximum pressure and end load are total from all loads based on standard weight steel pipe. Pressure ratings and end loads.may differ on other pipe materials andior wall thickness..Contact Tyco Fire&Building Products for details.See Fire Protection Equipment Submittal Sheet for Listing and Approval pressure ratings. ** Gold color coded metric bolt sizes are available upon request. t Max.End Gap is for cut grooved standard weight pipe.Valves for roll grooved pipe will be 1/2 that of cut grooved. Figure 577 Rigid Couplings have an Anti-Rotation Feature of"gripping teeth"along the coupling keys,which make the Figure 577 perfectly suited for"arm over" installations where the likelihood of rotation is greatest.This feature may eliminate the need of extra hangers to support the arm over due to increased rigidity and gripping force saving time and cost. General Notes: It is the Designer's responsibility to select products s iitahle to 'aloe-intended service and to ensure that pressure ratings and performance.data is not nzceEdwdi'Alwaye'ead and understand the installation instructions (IH-1000). Never remove any piping component or correct or modify any piping ,'• soot deficiencies without first depressurizing and draining the system.Material and gasket selection should be r�-i7�% verified to be compatible for the specific application. Certified company TYCO FIRE&BUILDING PRODUCTS,451 North Cannon Avenue,Lansdale,Pennsylvania 19446 . . , . . ; . . ,„ tqcr,I Fire & Building Products Technical Services:Tel: (800)381-9312/Fax:(800)791-5500 www.tyco-fire.com Grinnell Grooved Fire Protection Products Figure 577 Rigid Coupling - Patented General Technical Care and Description Data Maintenance Figure: 577 The owner is responsible for the in- Sizes: 1-1/4" -8" spection, testing, and maintenance of fLi r Approvals: UL, FM, ULC, VdS, and their fire protection system and de- LPCB; See Fire Protection Submittal vices in compliance with this docu- VdS - ' Sheet for exact Listing/Approval in- merit, as well as with the applicable , �,�<,- pp t � E formation standards of the National Fire Protec- Housing: Ductile iron oc iforming to on Association (e.g., NFPA 25), in ' A Tiv1 A-536, Glade 65-45-12. aC ditioi v r c standards of any `� See Fire Protection Protective Coatings: authority having jurisdiction. The in- Submittal Sheet for • Non-lead orange paint. stalling contractor or sprinkler menu- Pressure Rating and • Fire brigade red (optional) non-lead lecturer should be contacted relative Listing/Approval Information paint. to any questions. • Hot dipped galvanized conforming It is recommended that automatic to ASTM A-153. sprinkler systems be inspected, The Fieure 577 Rigid Coupling pro- Bolts/Nuts: Track Head Bolts - con- tested, and maintained by a qualified vides a rigid joint by firmly gripping - forming to ASTM A-183,Zinc Plated, Inspection Service in accordance with along the circumference of the pipe (Min.Tensile= 110,000 psi/758,422 local requirements and/or national grooves. Rigid couplings are preferred kPa). Metric - conforming to ASTM codes. for dry pipe and freezer applications. F568M.. Figure 577 Rigid Couplings are a Gasket: � �fMite6�J proven dependable method of joining • Prelubricated Grade "A" EPDMA , pipe and are an economical alternative violet color code ambient to+150°F(+66"C) Warranty to welding,threading,or using flanges. (+ C) for fire protection systems. It is capable of pressures up to 300 Not recommended for hot water sys- psig manufactured by Tyco Fire& psig (2069 kPa) depending on pipe tems. Building Products are warranted solely size and wall thickness when used in . Tri-seal (Grade "E" EPDM), green to the original Bu er for ten 10 ears fire protection services. color code for use in dry pipe or y ( )y freezers stem. against defects in material and work- Rigid Couplings are recommended See Data Sheet TFP 1855 for aid in manship when paid for and properly for dry pipe and freezer applica- installed and maintained under normal tions. selecting proper gasket.) use and service.This warranty will ex- pire,,� pire ten (10) years from date of ship- WARNING Figure 577 Rigid Coupling de- Ordering merit by Tyco Fire&Building Products. g g p g �� No warranty is given for products or scribed herein must be installed and Information components manufactured by compa- maintained in compliance with this vies not affiliated by ownership with document,in addition to the standards When placing an order,indicate the full Tyco Fire & Building Products or for of any other authorities ha ving jurisdic product name. 'Please specify the products and components which have flog.Failure to do so may impair the quantity, figure number, type of gas- been subject to misuse, improper in- integrity of this device, ket, Grade"A" EPDMA, Prelubricated stailation,corrosion,or which have not The owner is responsible for maintain- (Grade "A" EPDMA) or Grade "E" been installed, maintained, modified Ina their system and devices in proper EPDM Tri-Seal, and size. or repaired in accordance with applica- operating condition. The installing Grinnell Grooved Piping Products, ble Standards of the the standards of contractor or manufacturer should be valves, accessories, and other prod- any other Authorities Having Jurisdic- contacted with any questions. ucts are available throughout the U.S., tion. Materials found by Tyco Fire & Canada,and internationally,through a Building Products to be defective shall network of distribution centers. You be either repaired or replaced,at Tyco may write directly or call 215-362-0700 Fire & Building Products' sole option. for the distributor nearest you. Tyco Fire & Building Products neither Page 1 of 2 JULY, 2005 TFP1854 Page 20 of 20 TFP1020 Part Numbers For Other I Part Numbers For Other Part Numbers For Other 2-112 Inch (DN65) Dry Pipe 4 Inch (DN100) Dry Pipe Valves: 6 Inch(DN150) Dry Pipe Valves: Valves: Valves with NPT Ports Valves with NPT Ports Valves with NPT Ports F x G, G x G, G x G, ISO..Flange x 6.50"(165:1 _ 3.00"(76,1 4.50"(114.3 mm)Outside mm)Outside mm)Outside Dia.Groove x Dia.Groove x Dia.Groove P/N 52-309-1-253 • 6.5C'(165,1 3.00"(76,1 F x G, mm)Outside mm)Outside ' ' -' AS Flange x Dia.Groove P/N 52-309-1-935 Dia.Groove PIN 52-309-1-930 4.50"(114,3 F x G, mm)Outside ANSI Flange x Dia.Groove P/N 52.309-1-613 6.50"(165,1 Valves with ISO Ports F x G, mm)Outside G x G, JIS Flange x Dia.Groove P/N 52-309-1-435 (73,0 4.50"(114,3 F x G, 2.88" mm)( mm)Outside ISO Flange x mm Outside mm Dia.Groove P/N 52-309-1-813 6.62"(168,3 Dia.Groove x F x F, mm)Outside m)Outside ISO Flange x Dia.Groove PIN 52-309-1-255 m Dia.Groove P/N 52-309-1-920 ISO Flange P/N 52-309-1-133 F x G, F GxG, x F, ISO Flanges 3.00"(76,1 AS Flange . (i 0.50" "5,1 . mm)Outside AS Flange P/N 52-309-1-513 mm)Outside F x F, Dia.Groove P/N 52-309-1-335 Dia.Groove x JIS Flange s F x G, 3.00"(76,1 JIS Flange P/N 52-309-1-713 AS Flange x mm)Outside 6.62 1(168,3 Dia.Groove P/N 52-309-1-940 mm)Outside Valves with ISO Ports Dia,Groove P/N 52-309-1-615 GxG, FxG, 4.50"(114,3 AS Flange x _- 6.50"(165,1 mm)Outside mm)Outside Part Numbers For Other Dia.Groove x ) 3 Inch(DN80) Dry Pipe Valves: 4.50"(114,3 F x Gia.Groove P/N 52-309-1-635 mm)Outside JIS Flange x Dia.Groove P/N 52-309-1-923 Valves with ISO Ports F x G, 6.62"(168,3 G x G, ISO Flange x mm)Outside 3.50"(88,9 4.50"(114,3 Dia.Groove P/N 52-309-1-815 ' mm)Outside mm)Outside F x G, • Dia.Groove x Dia,Groove P/N 52-309-1-213 JIS Flange x 3.50"(88,9 F x F, 6.50"(165,1 mm)Outside ISO Flange x - mm)Outside Dia,Groove P/N 52-309-1-922 ISO Flange P/N 52-309-1-113 Dia.Groove P/N 52-309-1-835 FxF, • ISO Flange x ISO Flange P/N 52-309-1-135 FxF, AS Flange x AS Flange P/N 52-309-1-515 F x F, JIS Flange x JIS Flange P/N 52-309-1-715 Valves with ISO Ports G x G, 6.62°(168,3 mm)Outside • Did:'GrodJc x 6.62"(7'68,3 mm)Outside Dia.Groove P/N 52-309-1-925 G x G, • 6.50"(165,1 • mm)Outside Dia.Groove x 6.50"(165,1 mm)Outside Dia.Groove P/N 52-309-1-945 F x G, ISO Flange x 6.62"(168,3 mm)Outside Dia.Groove P/N 52-309-1-215 FxG. ISO Flange x 6.50"(165,1 mm)Outside Dia.Groove P/N 52-309-1-315 FxF, ' ISO Flange x .. ISO Flange P/N 52-309-1-115 TYCO FIRE&BUILDING PRODUCTS,451 North Cannon Avenue,Lansdale,Pennsylvania 19446 kwr —. TFP1020 Page 19 of 20 Ordering Standard Galvanized DPV-1 Trim Replacement Trim Parts g (Ref. Figure F): Specify: (description) for use with Specify:2-1/2 and 3 Inch DPV-1 Semi- (specify size) Model DPV-1 Dry Pipe Procedure Preassembled Galvanized Trim, Valve, P/N (see Figure 4, 5, or 6, as P/N 52-309-2-005. applicable). NOTE Refer to Table A for Flange Drilling Specify: 4 Inch DPV-1 Semi-Preas- Specifications. sembled Galvanized Trim, Weights: P/N 52-309-2-001. The following are the nominal weights for Part Numbers for factory pre-trimmed the valves and trim: Model DPV-1 Valves are provided in Specify: 6 Inch DPV-1 Semi-Preas- the Price Book. sembled Galvanized Trim, 2-1/2 Inch(DN65) P/N 52-309-2-002 Model DPV-1 G x G Dry Pipe Valve 37 lbs.(17 kg) Standard DPV-1 Dry Pipe Valve Optional Accelerator: 3Inch(DN8O) (American Standard Flange Model DPV-1 Drilling, Threaded Ports, and G x G Dry Pipe Valve 38 lbs.(18 kg) Model QRS Electronic 2-1/2 8 3 Inch(DN65/80)Valve Trim Groove Outside Diameter,as appli- Accelerator 23 lbs.(11 kg) cable): (Details provided in TFP1100) Specify: (specify size) Model DPV-1 4 Inch l(DN100) Dry Pipe Valve with (specify inlet x Specify: Model QRS Electronic Dry GodG Dry Pipe Valve 57 lbs.(26 kg) outlet)end connections,P/N(specify). Pipe Valve Accelerator Package, 4 Inch(DN100) P/N 52-312-2-101. Model DPV-1 2-1/2 Inch(DN65) F x G Dry Pipe Valve 67 lbs.(31 kg) G x G, Model ACC-1 Mechanical 4 Inch lDPV-1 2.88 inch(73,1 Model DPV-1 mm)O.D. Accelerator F x F Dry Pipe Valve 77 lbs,(36 kg) Groove x 2.88 (Details provided in TFP1112) 4 Inch(DN100)Valve Trim 30 lbs.(14 kg) inch(73,1 mm) 0.D.Groove P/N 52-310-1-925 Specify: Model ACC-1 Dry Pipe'Ac- 6 Inch(DPV-1 3 Inch(DN80) celerator, P/N 52-311-1-001, and God G Dry Pipe Valve 95 lbs.(44 kg) G x G, 6 Inch(DN150) 3.50 inch(88,9 Galvanized' Accelerator Trim for Model DPV-1 mm)O.D. Model DPV=1 Dry Pipe Valve, F x G Dry Pipe Valve 108 lbs.(50 kg) Groove x 3.50 P/N 52-311-2-010. 6 Inch(DN150) inch(88,9 mm) Model DPV-1 O.D.Groove P/N 52-310-1-930 F x F Dry Pipe Valve 121 lbs.(56 kg) Optional 600 PSI Water Pressure 6 Inch(DN150)Valve Trim 30 lbs.(14 kg) 4 Inch(DN100) Gauge: G x G, Specify: 600 PSI Water Pressure Other DPV-1 Dry Pipe Valves: 4.50 inch(114,3 p y' mm)0.D. Gauge, P/N 92-343-1-004. Groove x 4.50 NOTES inch(114,3 mm) Accessories: Other DPV-1 Dry Pipe Valves are 0.D.Groove... P/N 52-310-1-940 Order the Technical Data Sheets for valves ordered with a any combination F x G, the.followin at.a licable,'for details of flange, threaded ports, or groove ANSI Drilled 9' pp outside diameter not offered under Flange x 4.50 and additiorial aocdssories nch(114,3 mm) "Standard DPV-1 Dry Pipe Valve"of- O.D.Groove P/N 52-310-1-440 Model P510-2A ferings. F x F, Potter Electric ANSI Drilled • . , Waterflow Valves with NPT threaded ports are Flange x.ANSI Pressure Alarm intended for use with the "Standard Drilled Flanged P/N 52-310-1-040 Switch P/N 54-281-1-002 Galvanized DPV-1 Valve Trim"offered Model WMA1 and detailed in this document. Valves 6 Inch(DN150) Water Motor G x G, Alarm PIN 52-630-1-001 with ISO threaded ports are intended 6.62 inch(168,3 Model AMD-1 for use with special order trim that is mm)O.D. Air Maintenance provided by local distributors to meet Groove x 6.62 Device P/N 52-324-2-002 the specific needs of certain localities. inch(168,3 mm) Model AMD-2 Please contact your local distributor 0.D.Groove P/N 52-310-1-960 Air Maintenance regarding valves and valve trim for F x G, Device P/N 52-326-2-001 ANSI Drilled Model AMD-3 specific localities. Flange x 6.62 Nitrogen Specify: (specify size) Model DPV-1 inch(168,3 mm) Maintenance De- O.D.Groove P/N 52-310-1-460 vice p/N 52-328-2-001 Dry Pipe Valve with (specify inlet x F x F, outlet) connections with (specify NPT ANSI Drilled or ISO)threaded ports, P/N (specify). Flange x ANSI Replacement Valve Parts: Drilled Flanged P/N 52-310-1-060 Specify: (description) for use with (specify size) Model DPV-1 Dry Pipe Valve, P/N (see Figure 1A and 1B). Page 18 of 20 TFP1O2O the Handhole Cover, perform the fol- lowing steps: Liflhited Step 1. Make sure that the Seat Ring .Warranty . is clean and free of any nicks or signifi- cant scratches. Products manufactured by Tyco Fire& Step 2. Remove the Clapper Assem- Building Products (TFBP) are war- bly from the valve by first pulling out ranted solely to the original Buyer for the Hinge Pin. ten(10)years against defects in mate- Step 3, Disassemble the Clapper Fac- rial and workmanship when paid for ing Retainer from the Clapper so that and properly installed and and service. This the Clapper Facing can be removed under normal use ane service.years and inspected. Make sure that the from date will expire nt TFBP.. No Clapper Facing does not show signs of warranty my is of shipment products du TFBP. No compression set, damage, etc. Re- warranty is nufa for products or c ies place the Clapper Facing if there is any not ants manufactured by companies signs of wear. not affiliated by ownership with TFBP or for products and components which Step 4. Clean the Clapper Facing, have been subject to misuse,improper Clapper,and Clapper Facing Retainer, installation. corrosion, or which have and then reassemble the Clapper As- not been installed, maintained, modi- sembly. fled or repaired in accordance with ap- Step.5. Reinstall the Clapper Assem- plicable Standards of the National Fire bly with its Hinge Pin and then reinstall Protection of Association, and/or the the Handhole Cover. standards of any other Authorities Having Jurisdiction. Materials found by TFBP to be defective shall be either repaired or replaced, at TFBP's sole option. TFBP neither assumes, nor authorizes any person to assume for it, any other obligation in connection with the sale of products or parts of prod- ucts.TFBP shall not be responsible for sprinkler system design errors oriinac- curate or indomplete•information sup- plied by Buyer or Buyer's repre- sentatives. In no event shall TFBP be liable, in contract, tort, strict liability or under any other legal theory, for incidental, • indirect,special or consequential dam- ages, including but not limited to labor • charges, regardless of whether TFBP was informed about the possibility of such damages, and in no event shall TFBP's liability exceed an amount equal to the sales price. The foregoing warranty is made in lieu of any and all other warranties.` ex- press or implied, includi g warranties of merchantability and fitness for a par- ticular purpose. 'phis limited warranty sets forth the ex- clusive remedy for claims based on failure of or defect in products, materi- als or components, whether the claim is made in contract, tort, strict liability or any other legal theory. This warranty will apply to the full ex- tent permitted by law.The invalidity, in whole or part, of any portion of this warranty wi,l,(,not affect the remainder. TFP1O2O Page 17 of 20 Also partially open the Low Body Drain has operated,as indicated by the flow Valve(Fig.4,5,or 6)to assure that the Care and of water into the system and that all riser is completely drained. Close the .., alarms operate properly. Low Body Drain Valve as soon as aintenance water ceases to discharge. Step 4. Close the system's Main Con- Step 8. Refer to Table B and then The following-procedures and inspec- trol Valve. ac- restore the Refer to to the Bo and then tions should be performed as indi- Step 5. Reset the DPV-1 Valve in ac- rem air pressure system to t necessary al hold cated, in addition to any specific re- cordance with the Valve Setting Proce- tern DPV-1 Valve closed. quirements of the NFPA, and any dure. impairment must be immediately cor- Step 9. Depress the plunger on the rected. NOTE Automatic Drain Valve to make sure it The owner is responsible for the in- is /t is recommended that the require- charging.eand that there is no air'dis- spection, testing, and maintenance of ment of NFPA 25 to annually inspect their fire protection system and de- the inside of the valve be performed at The absence of•air discharging from vices in compliance with this docu- this time and prior to resetting the the Automatic Drain Valve is an indica- ment, as well as with the applicable DPV-1 Valve. Refer to the Automatic tion of a properly set air seat within the standards of the National Fire Protec Drain Valve Inspection sub-section DPV-1 Valve.If air is discharging,refer tion Association (e.g., NFPA 25), in Steps 2 through 5 for instructions with to the Care and Maintenance section addition to the standards of any regard to the inspection of the Clapper under Automatic Drain Valve Inspec- authority having jurisdiction. The in- Facing. tion to determine/correct the cause of stalling contractor or product manufac- the leakage problem. turer should be contacted relative to Quarterly Waterflow Alarm Test Step 10. Partially open the Main Con- any questions. Procedure trol Valve.Slowly close the Main Drain It is recommended that automatic Testing of the system m watereow Valve as soon as water discharges sprinkler systems 'be inspected, To to alarms should e performed quarterly. g Pr y P To test the waterflow alarm, open the from the drain connection. tested, and maintained"by a qualified Alarm Test Valve, which will allow a Depress the plunger on the Automatic Inspection Service. flow of water to the Waterflow Pres- Drain Valve to make sure that it is open NOTES sure Alarm Switch and/or Water Motor and that there is no water discharging. Alarm. Upon satisfactory completion The absence of water discharging The operational test procedure and of the test,close the Alarm Test Valve. from the Automatic Drain Valve is an waterflow pressure alarm test proce- from of a properly set water seat dure will result in operation of the as- Water Pressure Inspection within ton of a p Valve. If water is that sociated alarms. Consequently, notifi- The Water Pressure Gauge is to be charging, refer to the Care and Main- cation must first be given to the owner inspected monthly (per NFPA 25) to tenancy section under the Automatic and the fire department, central sta- ensure that normal system water pres- Drain Valve Inspection to deter- lion,or other signal station to which the sure is being maintained. mine/correct the cause of the leakage alarms are connected. problem. Before closing a fire protection system Air Pressure Inspection If there are no leaks, the DPV-1 Valve main control valve for maintenance The Air Pressure Gauge is to be fin- is ready to be placed in service and the work on the fire protection systeiri'that spected monthly(per NFPA 25)to en- Main Control Valve must then be full it controls,permission to shut down the sure that normal system air pressure opened. y affected protection systems must is being maintained. p first be obtained from the proper NOTE authorities arid all personnel who may Automatic Drain Valve Inspection be affected by this decision must be The Automatic Drain Valve should be After setting a fire protection system, notified. inspected monthly (per NFPA 25) by notify the proper authorities and ad- depressing the plunger and checking vise those responsible for monitoring Annual Operation Test Procedure to ensure that the Automatic Drain proprietary and/or central station Proper operation of the DPV-1 Valve Valve is not discharging water and/or alarms. (i.e., opening of the DPV-1 Valve dur- air. A discharge of water and/or air is Step 11. Once a week after a valve is ing a fire condition)should be verified an indication that the air and/or water reset following an operational test or at least once a year as follows: seats are leaking, which could sub- se operation,the Low Body Drain Step 1. If water must be prevented shouldnthe intermediate chambeartbe- Valve(and any low point drain valves) from flowin beyond.the riser, erform should be partially opened (and then 9 p. come inadve.rtentiy pressurized. subsequently closed)to relieve drain- the following steps If leakage is present, take the DPV-1 back water. Continue this procedure • Close the Main Control Valve. Valve out of service (i.e., close the unit drain-back water is no longer pre- . Open the Main Drain Valve. main control valve, open the main drain valve,close the air supply control • Open the Main Control Valve one valve, remove the Dry Pipe Valve Ac- turn beyond the position at which celerator from service, as applicable, water just begins to flow from the in acco-dance with its Technical Data Main Drain Valve. Sheet(Refer to TFP1100 for the QRS • Close the Main Drain Valve. or TFP1112 for the ACC-1), and open the Inspector's Test Connection to re- Step 2.Open the system's Inspector's lieve the system air pressure to 0 psig Test Connection. as indicated on the System Air Pres- Step 3. Verify that the DPV-1 Valve sure Gauge), and then after removing Page 16 of 20 TFP102O that it will not cause accidental dam- Installation age to property or danger to persons. Valve Setting NOTES Step 7.Unused pressure alarm switch Procedure Proper operation of the Model DPV-1 and/or water motor alarm connections Dry Pipe Valve depends upon its trim must be plugged. Steps 1 through 11 are to be per- being installed in accordance with the Step 8.The Pressure Relief Valve pro- formed when initially setting the Model instructions given in this Technical vided with the Valve Trim is factory set DPV-1 Dry Pipe Valve;after an opera- Data Sheet. Failure to follow the ap- to relieve at a pressure of approxi- tional test of the fire protection system; propriate trim diagram may prevent mately 45 psi(3,1 bar),which can typi- or,after system operation due to a fire. the DPV-1 Valve from functioning cally be used for a maximum normal properly, as well as void listings, ap- system air pressure of 40 psi(2,8 bar). NOTES provals, and the manufacturer's war- The Pressure Relief Valve may be re- If the DPV-1 is equipped with a Dry ranties. set to a lower or higher pressure;how- Pipe Valve Accelerator, refer to its re- Failure to latch open the Clapper As- ever, it must be be reset to relieve at a setting instructions before resetting sembly prior to a system hydrostatic pressure which is in accordance with the DPV-1. Refer to TFP1100 for the test may result in damage to the Clap- th;e requirements oft16 Authority Hay- QRS or TFP1112 for the ACC-1. per Assembly. ing Jurisdiction. Based on the instructions provided,re- The DPV 1 Valve must be installed in To reset the Pressure Relief Valve, set the Accelerator at the appropriate a readily visible and accessible loca first loosen the jam nut and then adjust time during the resetting of the DPV-1. tion. the cap accordingly—clockwise for a Step 1. Close the Main Control Valve, higher pressure setting or counter- and close the Air Supply Control Valve The DPV-1 Valve and associated trim clockwise for a lower pressure setting. (Fig. 4, 5, or 6). If the DPV-1 is must be maintained at a minimum tem- After verifying the desired pressure perature of 4OF/4°C. setting,tighten the jam nut. equipped erator,remove with the Dry Pipe Pipe Valve ve Ac- erator,remove the Dry Pipe Valve Ac- Heat tracing of the DPV-1 Valve or its Step 9. Installation of an Air Mainte- celerator from service in accordance associated trim is not permitted. Heat nance Device, as described in the with its Technical Data Sheet(Refer to tracing can result in the formation of Technical Data Section, is recom- TFP1100 for the QRS or TFP1112 for hardened mineral deposits that are ca- mended, the ACC-1). pable of preventing proper operation. Step 10.An Inspector's Test Connec- Step 2. Open the Main Drain Valve The Model DPV-1 Dry Pipe Valve is to tion as required By NFPA 13 must be (Fig. 4, 5, or 6)and all auxiliary drains be installed in accordance with the fol- provided on the system piping at the in the system.Close the auxiliary drain lowing criteria: most remote location from the Model valves after water ceases to dis- Step 1. All nipples, fittings, and de- DPV-1 Valve. charge. Leave the Main Drain Valve vices must be clean and free of scale Step 11. Conduit and electrical con- open. and burrs before installation. Use pipe nections are to be made in accordance Step 3. Depress the plunger of the thread sealant sparingly on male pipe with the requirements of the authority Automatic Drain Valve(Fig.4, 5, or 6) threads only. having jurisdiction and/or the National to verify that it is open and that the Step 2. The DPV-1 Valve must be Electric Code. DPV-1 Valve is completely drained. trimmed in accordance with Figures 4, Step 12. Before a system hydrostatic Step 4.Open the Optional Alarm Con- 5, or 6, as applicable. If the DPV-1 is test is performed in accordance with trol Valve (Fig. 4, 5, or 6), as applica- to be equipped with a Dry Pipe Valve NFPA 13 system acceptance test re- ble, if it was closed to silence local Accelerator, refer to the Technical quirements, the Clapper Assembly is alarms. Data Sheet TFP1100 for the Model to be manually latched open(Ref. Fig. Step 5. As necessary, replace all QRS Electronic Dry Pipe Valve Accel- 3D);the Automatic Drain Valve(Fig.4, sprinklers that have operated. Re- erator or TFP1112 for the Model ACC- 5,"or 6) ls•to-be temporarily replaced placement sprinklers must be of the 1 Mechanical Dry Pipe Valve Accel- with a 1/2 inch NPT plug,the 3/32 inch same type and temperature rating Vent Fitting (Item 13, Fig. 4; Item 15, YPc operated. erature ratin as Step 3. Care must be taken to make Fig. 5; or Item 15, Fig. 6) is to be those which have o sure that check valves, strainers, temporarily replaced with a 1/4 inch NOTE globe valves,etc.are installed with the NPT plug, and the Handhold Cover In order to prevent the possibility of a flow arrows in the proper direction. Bolts are to be tightened using across- subsequent operation of an over- draw sequence. heated solder type sprinkler, any sol- Step 4. Drain tubing to the drip funnel must be installed with smooth bends der type sprinklers which were possi- that will not restrict flow. bly exposed to a temperature greater than their maximum rated ambient Step 5.The main drain and drip funnel must be replaced. drain may be interconnected provided Step 6.Push down on the Reset Knob a check valve is located at least 12 (Fig. 3E)to allow the Clapper(300 mm)below the drip funnel. ( 9• ) pper Assem- inches Low Body Drain Valve (Fig. 4, 5, bly to reseat. or 6)may be piped so as to discharge Step 7.Pressurize the system with air into the Drip Funnel or to a'separate • (or nitrogen) to 10 psi (0,7 bar), and drain. then individually open all auxiliary Step 6. Suitable provision must be drain valves in the system piping to made for disposal of drain water. drain any remaining water in trapped Drainage water must be directed such sections. Close each drain valve as soon as water ceases to discharge. TFP1020 Page 15 of 20 8" 14-7/8" 9.114" (200 mm) (380 mm) (235 mm) (170 6-3/4" mm) 1 i. 40 2-112&3 INCH 1 1 (DN65&DN80) .a• VALVE 0NEIl lii��'�.�. 16-9/16" [�•C_.i�il� I (420,7 mm) 1 • 'i' ��i 12-1/4 .. .ti.dig E.. ' ' 1/2 or IN Q MI :l 2 (31 , 3INCH u�','-' ����J 'I VALVES r J` /�_ r-Q i low .1.1( I ll _l" 6" (150 mm) _ 12" 6" 12" ;�_ 14' (300 mm)---.-- (150 mm) (300 mm) (355 mm) • 4 INCH ! , 1 ! (DN,100) 01.—imjj(.�.a}yo, 17-114"' 1i1 —I — �--�' VALVE -i.,il- ' � (440 mm) � •-• *� -�: FxF:13-518"(346,1 mm) �{"�'-'• • • FxG:13-11/16"(347,7 mm) -_ fy..7.:-1, �bQ It GxG:13-3/4"(349,3 mm) Q F• 11■411=13:111•111111111•••=0.9" r411• 111111111111111111111111 2-1/2"(65 mm) . :. W ...11--- 11-1/2" --.1.- 7-1/4" 15" -y- 14-3/4" (290 mm) (190 mm) I (380 mm) (375 mm)—� 6 INCH I (DN150) I1 ® VALVE . i ��—18-3/4" : 16" (475 mm) •', (406.4 mm) nj, ' I I 1■'i� FxF, FxG, 5, :� or GxG li■11.11111111111111KONWw iii .." . W 4-v2° J (115}mm) W I FIGURE 7 MODEL DPV-1 DRY PIPE VALVE INSTALLATION DIMENSIONS— Page 14 of 20 TFP1020 1/2 INCH NPT 1/2 INCH NPT ' NOTES:, B CONNECTION CONNECTION 4. SLOPE 3/4"ANGLE VALVE AND FOR OPTIONAL FOR SYSTEM 3/4"x 4-1/2"NIPPLE(OF ASSEMBLY B) AIR PRESSURE AIR SUPPLY 4:0 SYSTEM INTO DRIP FUNNEL TO FACILITATE AIR SUPPLY SWITCH SUFFICIENT LOW BODY DRAINAGE. MI PRESSURE AIR SUPPLY DRIP • GAUGE (gym CONTROL VALVE LOW BODY 1/2 INCH NPT FUNNEL `�I /,- ��� (NORMALLY DRAIN VALVE CONNECTION SLOPE 1 INCH NPT N ,,>� OPEN) (NORMALLY FOR OPTIONAL TO FIT CONNECTION CLOSED) ACCELERATOR FOR LOCAL ,_ �' '1 1/2 INCH NPT %,�:' `o A CONNECTION SPRINKLER a AUTOMATIC L. FOR WATERFLOW o o c DRAIN VALVE � iri ({� _ PRESSURE SSWITCH t m /.,. o r mMAIN ♦ B ., 1 3l4 INCH NPT DRAIN VALVE � CONNECTION (NORMALLY m r.4,1* FOR WATER CLOSED) ,� �+� ■ „.10„„.. � MOTOR ALARM 2 INCH NFT D �' 1�- ® �l a �,,g,,, „iv``” CONNECTION . / adO \ ��TO DRAIN 6 INCH(DN 150) , \( DRIP ,� ��� MODEL DPV-1 j FUNNEL , C NOTES: DRY PIPE VALVE .� �ti. Q / •.^ qe `; . m ,� 1. INSTALL TRIM ASSEMBLIES IN � ' ' ALPHABETICAL ORDER. s`= 2. SEE FIGURE 3 FOR VALVE PORT �fiG I ALARM 1-1/4 INCH NPT SYSTEM TEST VALVE IDENTIFICATION. CONNECTION WATER SUPPLY (NORMALLY 3. ROUTE 1/4"TUBING TO DRIP TO.DRAIN •.. • --, PRESSURE CLOSED) FUNNEL. GAUGE ' FIGURE 6—Part 2 of 2 6 INCH(DN150)MODEL DPV-1 DRY PIPE VALVES . —ASSEMBLY PROCEDURE FOR VALVE TRIM— • • mow.. TFP1020 Page 13 of 20 9 i/ 1 NOTES: ((1qI Co 1. SEE FIGURE 3 FOR VALVE PORT IDENTIFICATION. 42 " 53 9P 4 2. ROUTE 1/4"TUBING,ITEM 16,TO DRIP FUNNEL, ITEM 14. ( i L, ,I �, 35 3. SLOPE 3/4"ANGLE VALVE,ITEM 9,AND 3/4"x 4-1/2"NIPPLE, 5 ITEM 42,INTO DRIP FUNNEL,ITEM 14,TO FACILITATE �r 29 SUFFICIENT LOW BODY DRAINAGE. 14 — � SLOPE 8 rwer` LOCATION —' TO FT 35 % ' ,, FOR OPTIONAL ��∎� % ""' ELECTRICALLY 18—, I .� ' 35 SUPERVISED 1 el 21 s\Ah L� /•2f 9 N.O.ALARM 3 � �� 26 Lry �(�/40 O 16 (GREEN CONTROL b s ~ " t �g� 27 18 \ TINT) (BVS-3/4") :+ 42 35 28 >. 17 �., ��� c 35 f i c 27 4"`"' , 37 33 ,,�� 43 "ciph, (,�� 20 �' ( ° "` a�te,, 35 *a. 31 $ 32 ��(�' ° ° . To �f 19 10 ry4e %1 40 (` SO 30 lirIl))) ° � ° ll 11 1(d a—_T_ 40 \ . �1g1\\ 7�f� j qq \ a 40 ^Nino 41 NI \��+ % 23 1 4 42 e 40 ��e 6 INCH(DN150) " 12 31 f' MODEL DPV-1 ,; 14 I 35 24 DRY PIPE VALVE - �`/ 13 38 � td O / 7 'J1' 34 c� ® / 39 22 � 35 � ell,`l 25 NO. DESCRIPTION QTY. P/N 2 4, 36 ,; Yr„ / 28 ii0 1 250 psi/1750 kPa 3 /'` 4lite I Air Pressure - r . �\ 0 Gauge 1 92-343-1-012 17 .,,v 33 2 300 psi/2000 kPa Water Pressure Gauge • 1 92-343-1-005 3 1/4"Gauge Test NO. DESCRIPTION QTY. P/N NO. DESCRIPTION QTY. P/N Valve 2 46-005-1-002 4 1/4"Pressure 17 1/4"Plug 2 CH 34 1/2"x Close Relief Valve 1 92-343-1-020 18 1/2"Plug 2 CH Nipple 1 CH 5 112"Angle Valve ...1 46-048-1-004 19 3/4"Plug 1 CH 35 1/2"x 1-1/2" 6 Model AD-1 20 1"Plug 1 CH Nipple 8 CH Automatic 21 1/2"x 1/4"Reducing 36 1/2"x 2"Nipple....1 CH Drain Valve 1 52-793-2-004 Bushing 1 CH 37 1/2"x 2-1/2" 7 1/2"Ball Valve ....1 46-050-1-004 22 1/2"Union 1 CH Nipple 1 CH 8 1/2"Swing 23 3/4"Union 1 CH 38 1/2"x 3"Nipple.... 1 CH Check Valve 1 46-049-1-004 24 1/2"90°Elbow ....1 CH 39 1/2"x 6"Nipple....1 CH 9 3/4"Angle Valve ...1 46-048-1-005 25 1/2"45°Elbow . . 1 CH . 40 3/4"x 1-1/2" 10 3/4"Swing 26 . 1/2"Cross ....,1:: CH Nipple 5 CH Check Valve 1 46-049-1-005 27 1/2"Tee 2 CH 41 3/4"x 2"Nipple....1 CH 11 2"Angle Valve .... 1 46-048-1-009 28 1/2"x 1/4"x 1/2" 42 3/4"x 4-1/2" 12 Drip Funnel Reducing Tee 2 CH Nipple 2 CH Connector 1 92-211-1-005 29 1/2"x 1/2"x 1/4" 43 1"x 4"Nipple 1 CH 13 Drip Funnel Reducing Tee 1 CH 44 2"x 4-1/2" Bracket 1 92-211-1-003 30 3/4"90°Elbow ....1 CH Nipple 1 CH 14 Drip Funnel 1 92-343-1-007 31 3/4"x 1/2"x 3/4" 15 3/32"Vent Reducing Tee 3 CH Fitting 1 92-032-1-002 32 1"x 1"x 1/2" All Fittings and Nippier are Galvanized 16 1/4"Tube, Reducing Tee 1 CH 24"Lon. 1 CH 33 1/4"x 3"Nipple. ...2 CH CH:Common Hardware FIGURE 6—Part 1 of 2 6 INCH(DN150)MODEL DPV-1 DRY PIPE VALVES —EXPLODED VIEW OF VALVE TRIM Page 12 of 20 TFP1020 II i) 112 INCH NPT AIR SUPPLY ■ r/ CONNECTION CONTROL VALVE. . FOR OPTIONAL (NORMALLY% .r ,' ACCELERATOR OPEN) 1/2 INCH NPT MAIN c r t. SYSTEM DRAIN VALVE = � � " 1/2 INCH NPT AUTOMATIC CONNECTION AIR SUPPLY CONNECTION DRAIN VALVE FOR OPTIONAL PRESSURE (NORMALLY FOR WATERFLOW 1 AIR PRESSURE GAUGE ) SLOPE B PRESSURE ALARM SWITCH , DOWN SWITCH al B �r 3/4 INCH NPT ��� � � �,CONNECTION it c FOR WATER 10 `-0.1 A f .1 MOTOR ALARM 411 ; =low., ;, 117 1/2 INCH NPT -71 ', 4.AN,.t. ./p. / ' I 2 INCH NPT ��)1 I f1� V.V.�,f °'� CONNECTION CONNECTION ' FOR SYSTEM r I v �r,,.'∎∎) ���I TO DRAIN AIR SUPPLY C lit..... ,�� 1�,y�N,, F��° ' iAke >� ' �y �i'r(,,off 4 INCH(DN100) ALARM A∎� a al 0 �Q_9J� MODEL DPV-1 TEST VALVE ' !` �, •∎v DRY PIPE VALVE (NORMALLY CLOSED) 1 INCH NPT NOTES: - 3/4 B CONNECTION 1. INSTALL TRIM ASSEMBLIES IN INCH NPT SYSTEM FOR LOCAL ALPHABETICAL ORDER. WATER SUPPLY CONNECTION SPRINKLER PRESSURE TO DRAIN Vori 2. SEE FIGURE 3 FOR VALVE PORT GAUGE ..+ LOW BODY IDENTIFICATION. DRIP DRAIN VALVE 3. ROUTE 1/4"TUBING TO DRIP FUNNEL. FUNNEL 1-1/4 INCH NPT (NORMALLY 4. SLOPE ASSEMBLY B DOWN TOWARD CONNECTION CLOSED) BACK OF VALVE TO FACILITATE TO DRAIN SUFFICIENT LOW BODY DRAINAGE. FIGURE 5-Part 2 of 2 4 INCH(DN100)MODEL DPV-1 DRY PIPE VALVES -ASSEMBLY PROCEDURE FOR VALVE TRIM- . TFP1020 Page 11 of 20 v NOTES: 15 16 1. SEE FIGURE 3 FOR VALVE (GREEN �,' TINT PORT IDENTIFICATION. . isq% {� 5 28 \ 6 2. ROUTE 1/4"TUBING, ITEM 16, .7.--.-_ 4\ 34 , 7y "" lT TO DRIP FUNNEL,ITEM 14. ♦'"A 34 l 3. SLOPE 3/4"ANGLE VALVE, 9 29 q t Lt �; / 1g 18 , '�'� 12 ITEM 9,DOWN TOWARD BACK SLOPE `\ a� �Oe " / / ;� OF VALVE TO FACILITATE DOWN \\ 8 Z!d �i4 �26 � , a�� SUFFICIENT LOW BODY TT DRAINAGE. 4e f_ 27 LOCATION 19 1 '�� 34 i/, 32 clillri FOR OPTIONAL �� 36 1 13 ELECTRICALLY 30 �� I - 11 tit L '•'t � SUPERVISED !� 21 ;. „ N.O.ALARM u‘ a\l� (�(e 14 44 CONTROL 41 r t , 30 1 ,y- 3 \ 01►`- VALVE s\\l\1 39 40 's��' 4 17 4 � , i r (BVS-314") 10 ��� e11►� 39 \\ 23 m / ')) �� 30 40 t..• •\ .' i 24 34 4 � s 34 i 43 33 ♦ t '� \ ,�� 0 4INCH(DN100) �� 42 31 71 f`� y MODEL DPV-1 ��/e'to....;, 7 9 � �J/o DRY PIPE VALVE 25 33/ 38 a 02 -- o∎ 7e / ..----,3* �'i 37 t 2 J 22 NO. DESCRIPTION QTY. P/N NO.DESCRIPTION QTY. P/N 20 28 2 a 3 30 3/4"x 1/2"x 3/4" 35 �4 Reducing Tee 3 CH 1 250 psi/1750 kPa . 17 • 31 1"x 1"x 1/2" Air Pressure 32 ' q(, • Reducing,Tee 1 CH• Gauge 1 92-343-1-012 32 1/4"x 3"Nipple....2 CH 2 300 psi/2000 kPa 33 1/2"x Close Water Pressure NO. DESCRIPTION QTY. P/N Nipple 2 CH Gauge 1 92-343-1-005 34 1/2"x 1-1/2" 3 1/4"Gauge Test - 15 3/32"Vent Nipple 7 CH Valve 2 46-005-1-002 Fitting 1 92-032-1-002 35 1/2"x 2"Nipple.... 1 CH 4 1/4"Pressure 16 1/4"Tube, 36 1/2"x 2-1/2" Relief Valve 1 92-343-1-020 24"Long 1 CH ' Nipple 1 CH 5 1/2"Angle Valve ...1 46-048-1-004 17 1/4"Plug 2 CH 37 1/2"x 3"Nipple....1 CH 6 Model AD-1 18 1/2"Plug 2 CH 38 1/2"x 3-1/2" Automatic 19 3/4"Plug 1 CH Nipple 1 CH Drain Valve 1 52-793-2-004 20 1"Plug 1 CH 39 3/4"x Close 7 1/2"Ball Valve . ... 1 46-050-1-004 21 1/2"x 1/4"Reducing Nipple 2 CH 8 1/2"Swing Bushing 1 CH 40 3/4"x 1-1/2" Check Valve 1 46-049-1-004 22 1/2"Union 1 CH Nipple 2 CH 9 3/4"Angle Valve . ..1 46-048-1-005 23 •3/4"Union 1 CH 41 3/4"x 2"Nipple.... 1 CH 10 3/4"Swing 24 1/2"90°Elbow . ...1 CH 42 3/4"x 3"Nipple....1 CH Check Valve 1 46-049-1-005 25 1/2"45°Elbow ....1 CH 43 1"x 4"Nipple 1 CH 11 2"Angle Valve .... 1 46-048-1-009 26 1/2"Cross "1 CH 44 2"x 4-1/2" 12 Drip Funnel 27 1/2"Tee 2 CH Nipple 1 CH Connector 1 92-211-1-005 28 1/2"x 1/4"x 1/2" 13 Drip Funnel Reducing Tee 2 CH All Fittings and Nipples Bracket 1 92-211-1-003 29 1/2"x 1/2'x 1/4" are Galvanized 14 Drip Funnel 1 92-343-1-007 Reducing Tee 1 CH CH:Common Hardware FIGURE 5—Part 1 of 2 4 INCH(DN100)MODEL DPV-1 DRY PIPE VALVES —EXPLODED VIEW OF VALVE TRIM— Page 10 of 20 TFP1020 AIR SUPPLY 1/2 INCH NPT 1/2 INCH NPT NOTES: CONTROL VALVE CONNECTION CONNECTION (NORMALLY OPEN) FOR OPTIONAL FOR OPTIONAL 1• INSTALL TRIM ASSEMBLIES IN ACCELERATOR AIR PRESSURE ALPHABETICAL ORDER. AUTOMATIC 1/2 INCH NPT I DRAIN VALVE SWITCH 2. SEE FIGURE 3 FOR VALVE PORT CONNECTION / IDENTIFICATION. FOR SYSTEM I / 3. ROUTE 1/4"TUBING TO DRIP AIR SUPPLY H ��J�� C FUNNEL. lir �/ie �;;�_ SYSTEM ��t % ,` AIR SUPPLY MAIN 0 1/2 INCH NPT �� ry PRESSURE D •. DRAIN VALVE CONNECTION cr'•�'.-; GAUGE G -y� tK x (NORMALLY FOR WATERFLOW �,�J`'L� E A CLOSED) PRESSURE ALARM -' ' `v. SWITCH Neil t; 0�1.� (4 C�) 1W .. .r l�' rte!. 1-1/4 INCH NPT DRIP `� m tii e `�'� r CONNECTION FUNNEL .1� TO DRAIN �— �� 0 1-1/4 INCH NPT CONNECTION S'r TO DRAIN 1 INCH NPT as �y CONNECTION `. 0 C 2-1/2 INCH(DN65) FOR LOCAL ��L rr� or 3 INCH(DN80) • SPRINKLER _ �` F -.NV MODEL DPV-1 'c s' rU 144-h. DRY PIPE VALVE ALARM I ' � � F E _-`�' LOW BODY TEST VALVE SYS I EM \ .i DRAIN VALVE (NORMALLY WATER SUPPLY 3/4 INCH NPT (NORMALLY CLOSED) PRESSURE CONNECTION CLOSED) GAUGE TO DRAIN FIGURE 4—Part 2 of 2 2-1/2 and 3 INCH(DN65 and DN80)MODEL DPV-1 DRY PIPE VALVES • —ASSEMBLY PROCEDURE FOR VALVE TRIM— TFP1020 Page 9 of 20 20 32 NOTES: 070 gr, 16 -� a��\ 4k 1 1. SEE FIGURE 3 FOR VALVE 5 6 �; 32 19 PORT IDENTIFICATION. 20 I ,,- g 23 'r((° � 2. ROUTE 1/4"TUBING,ITEM 14, 34 " 32ys 32 , TO DRIP FUNNEL,ITEM 12. g �, 4'- 32 ,-- _ �: , sly i�/ 30 i : 15 r' 33 11 CIS1. 31 �,�ti�� 24 1fi 4 3 25 s�� 27 r 22 31 i... LOCATION 32 i� �l\�� ✓ ) ll� p�G 40 FOR OPTIONAL �`1�� 23 36 , 8 18 ELECTRICALLY c� 10 // m �l� SUPERVISED g2 ��� I 1 N.O.ALARM 20 ° `/r 31 CONTROL 12 � �'�� VALVE 11 — \�� G�3 01H1 �' ( /26 (BVS-1/2") I - 2-1/2 INCH(DN65) '1 .�9 �, or3INCH(DNBO) 31 o t® MODEL DPV-1 28 DRY PIPE VALVE 13 Y• 6 17 . 14 (GREEN .';r 35 �1� TINT) 6tee ��� 37 NO. DESCRIPTION QTY. P/N j / 7 I 32 V 2 21 /(� 27 1/2"x 1/2"x 3/4" 26 -� 38 Reducing Tee 1 CH NO. DESCRIPTION QTY. P/N r., F/Iv,' 28 1"x 1"x 112" 30 L ,:s 15 l " "x Reducing Tee 1 CH 3 29 Not Used 1 250 psi/1750 kPa 30 1/4"x 3"Nipple. ...2 CH Air Pressure 31 1/2"x Close Gauge 1 92-343-1-012 NO. DESCRIPTION QTY. P/N Nipple 4 CH 2 300 psi/2000 kPa 32 1/2"x 1-1/2" Water Pressure 13 3/32"Vent Nipple 8 CH Gauge 1 92-343-1-005 Fitting 1 92-032-1-002 33 112'x 2"Nipple. ...1 CH 3 1/4"Gauge Test 14 1/4"Tube, 34 1/2"x 4-1/2" Valve 2 46-005-1-002 18"Long 1 CH Nipple 1 CH 4 Model AD-1 15 1/4"Plug 2 CH 35 1/2'x 6"Nipple....1 CH Automatic 16 1/2'Plug 2 CH 36 3/4"x Close Drain Valve 1 52-793-2-004 17 1"Plug 1 CH Nipple 1 CH 5 1/4"Pressure 18 1/2"Union 1 CH 37 3/4"x 1-1/2" Relief Valve 1 92-343-1-020 19 1/2"x 1/4"Reducing Nipple 1 CH 6 1/2"Ball Valve ....2 46-050-1-004 Bushing 1 CH 38 3/4"x 2-1/2" 7 3/4"Angle Valve ...1 46-048-1-005 20 1/2"90°Elbow ....3 CH Nipple 1 CH 8 1-1/4"Angle Valve .1 46-048-1-007 21 3/4"90°Elbow ....1 CH 39 1"x Close Nipple ..1 CH 9 1/2"Swing 22 1-1/4"90°Elbow...1 CH 40 1-1/4"x Close Check Valve 2 46-049-1-004 . 23 1/2"Cross 2 CH Nipple 1 CH 10 Drip Funnel 24 1/2"x 1/2"x 1/4" 41 1-1/4"x 4"Nipple ..1 CH Connector 1 92-211-1-005 Reducing Tee 1 CH 11 Drip Funnel - 25_ 1/2"Tee .1-r CH All Fittings and Nipples Bracket 1 92-211-1-003 26 1/2"x 1/4"x 1/2" are Galvanized 12 Drip Funnel 1 92-343-1-007 Reducing Tee 2 CH CH:Common Hardware FIGURE 4—Part 1 of 2 2-1/2 and 3 INCH(DN65 and DN80)MODEL DPV-1 DRY PIPE VALVES —EXPLODED VIEW OF VALVE TRIM— • Page 8 of 20 TFP1020 AIR PRESSURE WATERFLOW TO SYSTEM TO SYSTEM ft CLAPPER /� ASSEMBLY `iL11' FULLY OPEN 1"NPT 1117 71h. AIR SUPPLY ER LATCH ir .PORT PIVOTS TO ALLOW CLAPPER CLAPPER ASSEMBLY i a 01 •.TO FULLY OPEN alb , MINI 1.e`l 3/4"NPT ALARM 4 CLAPPER �� 03 PORT OPEN TO ASSEMBLY ATMOSPHERE IN SET `POSITION �� �" 1J2"NPT_ - WATER SUPPLY ..__ 02 PRESSURE '//'`�' ITEST PORT Iriiiuti! ALARM PORT WATERROW CLAPPER TO ALARM ASSEMBLY AIR FROM SEAT FROM WATER SUPPLY WATER SUPPLY FIGURE 3A "'nib WATER � � ALARM FIGURE 3C SET POSITION SEAT MIIII PORT OPERATED POSITION DRAIN ' ���� . 03 DRAIN FROM SYSTEM FROM SYSTEM INTERMEDIATE W VALVE COMPLETE CHAMBER WATERWAY FIGURE 38 PUSH HERE SET POSITION TO RESET INTERMEDIATE VALVE 1117• CLAPPER CHAMBER ( � ASSEMBLY 'sr] RESET LATCHED KNOB OPEN - RESET mil ASSEMBLY r�i /ms VVII 3/4"NPT �� I / LOW BODY ' CLAPPER DR7iii &I1 LATCH 04N' CLAPPER�� ASSEMBLY ���N ��� CLAPPER AClIIi1IIIL'Ij5 05 MI ASSEMBLY TM RESEATED WATER SUPPLY WATER SUPPLY SHUTOFF SHUT OFF FIGURE 3D FIGURE 3E DRAIN POSITION RESET POSITION FIGURE 3—Part 2 of 2 MODEL DPV-1 DRY PIPE VALVES 6 INCH(DN150) —SET AND OPEN POSITIONS— TFP7020 Page 7 of 20 AIR PRESSURE WATERFLOW TO SYSTEM TO SYSTEM CLAPPER CLAPPER 1"NPT ASSEMBLY ASSEMBLY AIR SUPPLY IN SET FULLY OPEN PORT POSITION : D1 9 Ii �i� CLAPPER LATCH III °� ��' PIVOTS TO ALLOW , I V.`•1 1/2"NPT .L:Y' CLAPPER ASSEMBLY p WATER SUPPLY TO FULLY OPEN PRESSURE �'d!� ���@``�x 3/4"NPT ALARM --r-_,-- &ALARM �Y4- ' I i PORT OPEN TO 11 TEST PORT MI ATMOSPHERE �° � 02 Mil 1.1.1h IN uh 03 III ALARM WATERFLOW PORT 1 r CLAPPER TO ALARM ASSEMBLY 1 r FROM FROM • WATER SUPPLY AIR WATER SUPPLY . FIGURE 3A A ,.Y„t SEAT FIGURE 3C SET POSITION WATER m ALARM OPERATED POSITION SEAT mill 03 PORT DRAIN FROM DRAIN FROM SYSTEM SYSTEM VALVE 11111FINTERMEDIATE COMPLETE n WATERWAY CHAMBER PUSH HERE V FIGURE 3B U. TO RESET SET POSITION VALVE INTERMEDIATE • �J RESET CHAMBER KNOB CLAPPER . ASSEMBLY LATCHED J Alire E RESET OPEN ASSEMBLY CLAPPER �� ac ill LAT CH �1 ��� ' '�� PIVOTS TO 4' CLAPPER i`�y/�f LATCH UNLATCH / ". �� CLAPPER i+■�.� �r_�' �� i' j ASSEMBLY u� i' 04 MAIN DRAIN PORT: 3W NPT �' 111 05 1 1 3 INCH VALVES)INCH III ASSEMBLY LOW BODY 2"NPT(4 INCH VALVE) RESEATED DRAIN PORT 1 r WATER SUPPLY *DN40 FOR VALVES WITH WATER SUPPLY SHUT OFF ISO THREADED PORTS SHUT OFF FIGURE3D FIGURE 3E DRAIN POSITION RESET POSITION FIGURE 3—Part 1 of 2 MODEL DPV-1 DRY PIPE VALVES 2-1/2,3,and 4 INCH(0N65,DN80,and DN100) - —SET AND OPEN POSITIONS— , Page 6 of 20 TFP1020 This action permits water flow into the Operating system piping and subsequently to be Maximum System Air discharged from any open sprinklers. Water Supply Pressure Principles Also,with the Clapper Assembly open, Pressure, Range, the intermediate chamber is pressur- psi psi The Model DPV-1 Dry Pipe Valve is a ized and water flows through the alarm differential type valve that utilizes a port(Ref. Figure 3B) at the rear of the 20 10 substantially lower system(air or nitro- DPV-1 Valve to actuate system water gen) pressure than the supply(water) flow alarms. The flow from the alarm 60 15-23 pressure, to maintain the set position port is also sufficient to close the oth- shown in Figure 3A. The differential erwise normally open Automatic Drain 80 20-28 nature of the DPV-1 is based on the Valve in the valve trim. area difference between the air seat 100 25-33 and the water seat in combination with • After a valve actuation and upon sub- the ratio of the radial difference from sequent closing of a system main con- ' 120 I 30-38 I the Hinge Pin to the center of the trot valve to stop water flow, the Clap- , Water Seat and the Hinge Pin to the per Assembly will latch open as shown 145 35-43 center of the Air Seat. The difference in Figure 3D. Latching open of the is such that 1 psi (0,07 bar)of system DPV-1 will permit complete draining of 165 40-48 air pressure can hold approximately the system(including any loose scale) 5.5 psi(0,38 bar)of water supply pres- through the main drain port. 185 45-53 sure. During the valve resetting procedure 205 1 50 58 Table B establishes the minimum re- and after the system is completely quired system air pressure that in- drained, the external reset knob can 225 55-63 cludes a safety factor to help prevent be easily depressed to externally un false operations that occur due to latch the Figure Asuernbly as'shpwn 250 60 68 P water supply fluctuations. 9 the Clapper Assembly is returned to its normal set TABLE B The intermediate Chamber of the position to facilitate setting of the dry SYSTEM AIR PRESSURE DPV-1 is formed by the area between pipe sprinkler system, without having REQUIREMENTS the Air Seat and Water Seat as shown to remove the Handhole Cover. in Figure 3B.The intermediate Cham- ber normally remains at atmospheric pressure through the Alarm Port con- nection and the valve trim to the nor- mally open Automatic Drain Valve , (Fig_4, 5, or 6). Having the Intermedi- ate Chamber, Figure 3B, open to at- mosphere is critical to the DPV-1 Valve remaining set,otherwise the full • resulting pressure of the system air , pressure on top of the Clapper Assem- bly cannot be realized. For example and assuming a water , supply pressure of 100 psi(6,9 bar), if . the system air pressure is 25 psi (1,7 bar) and there was 15 psi (1,0 bar) pressure trapped in the Intermediate Chamber, the resulting pressure across the top of the Clapper would only be 10 psi (0,7 bar).This pressure would be insufficient to hold the Clap- per Assembly closed against a water supply pressure of 100 psi (6,9 bar). It is for this reason that the plunger of the Automatic Drain Valve must be de- pressed during several of the resetting steps, as well as during inspections, making certain that the Automatic Drain Valve is open. . When one or more automatic sprin- klers operate in response to a fire, air pressure within the system piping is relieved through the open sprinklers. When the air pressure is sufficiently reduced, the water pressure over- comes the differential holding the Clapper Assembly closed and the Clapper Assembly swings clear of the water seat, as shown in Figure 3C, TFP1020 Page 5 of 20 FLOW RATE IN LITRES PER MINUTE(LPM) (1 GPM=3.785 LPM) 500 700 1000 2000 3000 5000 7000 10000 901 iii I iii ii Nimi°NNiii1N°i■"""N■C'iiiliiNni'N■1WAIIINiINMEi uMNIVilW.rt oso 7.0 NNNNNAII Muauu iIMIN N/NI■1■NNNN►IaMUMMII NNII_0,50 7.o NN■NI.N.NNNN.NNNNIII.IIIN■.I IIIINNNI/.IINIINIO/I■- Naa...NIfNNN/.NNNINIINNIraln IMMINI .. MEWAII. MINIM I=s.o CC_CC MOM II= :C:CCC.CC C.'E SCE :N:�C: 0,40 5.0 ra=N.v.mNru....ign. o■G■■1N......ummoNV...u....r/N.. aiiminimilimmominimummonamommumnimmomoramomilummirimmisi 0,30 4.0 ' =p■i.•Niiiii■1ui111iaiiwi■N iNN■in�m■ mil■■■■■■11■111Mt■■■■■■■INIIn IIIIIIM■■■■I♦uMIIIIIIIIIMIIt■��/tIIMIIII■■ ■INm■■1111111I■1■■■■ IUNIU1�r■■■■■MIII�■■■gM I■MI■■ NN■M■■I•Nlr■■■■■NI111U/N■N■1I•/INNIMIM■■NIBNNNN NA■■■N1NNN■NI11NN/ D'N1�NNI,INN1•�NViNNNN■ 3.0 N.n11111∎ . � nC:N�.� IINIIM II �� 0,20 a. 1 MUM a A11111C���I�iuuui%ice MIN z 2.0 _I_A11012m FA 1111111111111111111111111111111A1111111111111111 • I..I■..■■■ ■ c AI1111�OA.I /■■■.----.■■■..�.� W �N■■aai�N '- WaNMNI1NCA■■SNNrll�WANN a c ■W■ONN•■■ V� , 'AUUIIUI 'B■■■INN%■■■■UMMUM ■ g N■NN■■■MIM■ '2 11/p ■ MEW ■■ INNIAN1UNlN■ a a 11.11111111.1111111111111._I_ /IIIr11IMnNOsuINMMIU N ■■oN■ ■■ANINNNNN /11111 IWAm./imNN'I•mmi.NNN.. 0,10 cc . ® (;• B 1N o� ►I...NNNI�ia.NINi.NN.. 0 09 0- i 1111■ ;a`° IN� ° I 1 lI.IILi �n11S..NiUNSII. O a o ■lli_I ° ►INII ' e !minim ' in__iiii1_�AUi_0,08 CC D 1.0 p■�■iir�1■i SUS ;viii V�r%il1oii ^�o Ir) n����m 0,07 a N��N� + ^ LN■■1 LiB�■I• 2 'ArA■■■■�8��■■ =o Z 0.9 �N■■■■11 /■■■■I ° INS `O G1NM�■■■■■■UFO■■ 0,06 2. 0.8 N■N■■■N : `� /■t•■II w1M■N .r %IN musnamINa/■■ . w ', fa- A■NN■■■ ' v4u uu■IIIDAN■N c) P NN��■■N■I■N�N■ = 0 0.7 N■INNI■NNNOM.NN■1N/.ANN au1 1NNNau 0,05 a N.N. AMMpNI ,�NNIII ►,�NNNN..N�ININN.■ <'--: 0.6 i..11.NNNV/N..1IN1 Nua.Ci ;NNN_NIar.dna.a.1 z NoM..==iral ...i7N..■ w�i.ii.mN inmma i.....■..... 0,04 p o W 0.5 rN=.N■M/IN=III../.}N.N■■MI. .. .�NN�INNSNN�. Z NN�N..N.. /NN���..IH■.. =/MC.POC.NNN�M�....NI�N/. LU 0_ 11M111.11111MIIIIIMIT..... ���I■1EMMIE IIMIM IA%....a MyA�. 0,03 Z 0.4 I.�r•...p, I.'SB.1•.•.MII.LI• ..���BO..BA . IOIBN■■■%N IIIIAMMISBOOMMOIIF/■■■I■8IIIIIINMMI■■I•BNMNIIM■■ Z , n■11•M �iNIII%�%�i1i11�1■111n/nv■�i1■■i■°�� ■■1N■iiiN■■ 0.3 INNNA■ INIIII ■N I4uNNMMIUM�aN MI 0,02 .N... NNNUWI MUMMI1F .III■..NIuNI MIIMINNIM.. NNwa.ui.Nar u�...INI� iMIMMII1..NNNAN.NNNNAu. alu/u■aI1_Il■u■_IIII// 1111 MIIMM n■u■��B•uuI.■INmaA ■ U MI I A�UM■■■11•N�/IU IUiINNIUNiuNrN1�:!■INNM�R NI/I■NN1W���■■NN�1�1DI■pi■■■■■■1NN■■■■■NNr1111■■ '/■■NN11MI NIMIMM II MMI1111111•1■■■NINNNNI■NINN/M■ IAIaNNINIIra.m■.NEMNIN■111R■NNNNNN..■N aRm 0,01 . rINNN.11/NNN..NI�IT 1NIIIIIIN.NI.1NNNNN.■NNNNN _%n_______U%.IIN1 plIUIIIICUAAINiil�1�1 0.1 r � 1 r i� 1 1 - 100 200 300 400 500 700 1000 2000 3000 FLOW RATE IN GALLONS PER MINUTE(GPM) The approximate friction losses,based on the Hazen and Williams formula and expressed in equivalent length of Schedule 40 pipe with C=100 are as follows: 2.2 feet for the 2-1/2 inch valve at a typical flow rate of 250 GPM 4.9 feet for the 3 inch valve at a typical flow rate of 350.GPM . 8.9 feet for the 4 inch valve at.at typical flow rate of 600 GPM •- 22 feet for the 6 inch valve at a typical flow rate of 1500 GPM FIGURE 2 MODEL DPV-1 DRY PIPE VALVES —NOMINAL PRESSURE LOSS VERSUS FLOW— Page 4 of 20 TFP1020 Air/Water Seat Ring is brass,the Clap- ommended to be automatically main- Technical per is bronze or aluminum bronze,and tained by using one of the following both the Clapper Retaining Plate and pressure maintenance devices,as ap- Data Latch are bronze. The Hinge Pin is propriate: aluminum bronze, and the fasteners Approvals: for the Handhole Cover are carbon • Model AMD-1 Air Maintenance De- UL and C-UL Listed. FM Approved. steel. vice(pressure reducing type). NYC under MEA 172-02-E (4 and 6 • Model AMD-2 Air Maintenance De- inch). Valve Trim; .,� r ., .vice (compressor control type). Installation dimensions are given in n' -- odel Dry Pipe Valve: Figure 7, and the Valve Trim is illus- AMD-3 Nitrogen Mainte- The Model DPV-1 Dry Pipe Valves are trated in Figures 4,5,and 6.The Valve nance Device(high pressure reduc- for vertical installations (flow going Trim forms a part of the laboratory ing type). up), and they are rated for use at a listings and approval of the DPV-1 The Pressure Relief Valve provided maximum service pressure of 250 psi Valve and is necessary for the proper with the valve trim is factory set to (17,2 bar). The Valve dimensions are operation of the DPV-1 Valve. Each relieve at a pressure of approxi- shown in Figure 7. package of trim includes the following mately 45 psi (3,1 bar). If the normal Flanged connections are available items: system air pressure is less than or drilled per ANSI, ISO, AS, and JIS exceeds 40 psi (2,8 bar), then the specifications (Ref. Table A). The • Water Supply Pressure Gauge pressure Relief Valve must be reset to grooved outlet connections, as appli-g pp ' • System Air Pressure Gauge relieve at a pressure that is in accord- cable, are cut in accordance with ance with the Authority Having Juris- standard groove specifications for • Air Supply Connections diction. steel pipe. They are suitable for use • Main Drain Valve Quick Opening Device: with grooved end pipe couplings that are listed or approved for fire protec- • Low Body Drain Valve As an option, the Model DPV-1 Dry tion system service. Available combi- Pipe Valve may be equipped with the nations of inlet and outlet connections Alarm Test Valve Model QRS Electronic Dry Pipe Valve are detailed in the Ordering Procedure • Automatic Drain Valve Accelerator (4 and 6 inch sizes) as section. detailed in Technical Data Sheet Threaded port connections of valves • Drip Funnel TFP1100 or the Model ACC-1 Me- having flanges drilled to ANSI, AS, or • Connections For Optional Quick chanical Dry Pipe Valve Accelerator JIS specifications are NPT threaded Opening Device(Accelerator) (2-1/2, 3, 4, and 6 inch sizes) as de per ANSI Standard 61.20.1.Threaded tailed in Technical Data Sheet TFP1112. port connections of valves having NOTE flanges drilled to ISO are available When the system pressure is greater The QRS or the ACC-1 is used to re- either threaded per ISO 7/1 or NPT than 175 psi(12,1 bar),provision is to °duce the time to valve actuation fol- threaded per ANSI Standard 81.20.1. be made to replace the standard order lowing the operation of one or more Valves with NPT threaded ports will 300 psi (20,7'bar) Water:'Pressure automatic sprinklers. In some cases readily accept the trim arrangements gauge with a Separately ordered 600 the use of a quick opening device such detailed in Figures 4, 5, and 6. psi(41,4 bar) Water Pressure Gauge. as the QRS or the ACC-1 may be re- quired to meet the requirements of the Components of the DPV-1 Valves are Air Supply: National Fire Protection Association to shown in Figure 1. The Body and Table B shows the system air pressure meet water delivery times. Handhole Cover are ductile iron. The requirements as a function of the water Handhole Cover Gasket is neoprene, supply pressure. The air(or nitrogen) Patents: and the Clapper Facing is EPDM.The pressure in the sprinkler system is rec- U.S.A. Patent No. 6,557,645 • Flange Drilling Specification Nominal Dimensions in Inches and(mm) Nominal ANSI B16.1 ' ISO 7005-2 JIS B 2210 AS 2129 •Valve Size (Class 125) (PN16)2 (10K) (Table E) Dim. Dim. Qty. Dim. Dim. Qty. Dim. Dim. Qty. Dim. Dim. , Qty. A B N A B N A B N A B ' N 4 Inch 7.50 0.75 7.09 0.75 6.89 0.59 7.00 0.71 (DN100) (190,5) (199,0) 8 (180,0) (19,0) , 8 (175,0) (15,0) 8 (178,0) (18,0) 8 6 Inch 9.50 0.88 �_9.45 0.91 9.45 0.75 9.25 0.87 (DN150) (241,3) (22,2) 8 (240,0) (23,0) 8 (240,0) (19,0) , 8 (235,0) (22,0) 8 'Same drilling as for ANSI 816.5(Class 150)and ANSI B16.42(Class 150). Dim.A Qty.N 2 Same drilling as for BS 4504 Section 3.2(PN16)and DIN 2532(PN16). Bolt Circle Number of Diameter����� Bolt Holes P c—o))) TABLE A DIMENSIONAL SPECIFICATIONS FOR SELECTION OF FLANGE DRILLING im.B Bolt Hole \\ –,—o ..Diameter • T TFP1020 Page 3 of 20 NO. DESCRIPTION QTY. REF. NO. DESCRIPTION QTY. REF. ' NO.DESCRIPTION QTY. REF. 1 Valve Body 1 NR 5 3/8-16 UNC x 1" 8 5/8-11 UNC x 1" 2 Air and Water Socket Head Cap Hex Head Cap Seat 1 NR Screw 8 NR Screw 6 CH 3 Water Seal 6 Handhole Cover... 1 NR 9 Clapper 1 See(a) 0-Ring 1 NR 7 Handhole Cover 10 Clapper Facing.... 1 See(a)or(b) 4 Air Seal 0-Ring.... 1 NR Gasket 1 See(b) 11 Clapper Facing Retaining Plate.... 1 See(a) 12 1/4-20 UNC x 1/2" 00.' Socket Head Cap Screw 9 See(a) 13 Clapper Hinge i 4110 14 Pin 1 See(a) 14 Reset Knob 1 See(c) 9 15 Reset Spring 1 See(c)15 K, 16 Reset Bushing .... 1 See(c) "P '10 17 Reset Bushing CLAPPER 16 i 0-Ring 1 See(b)or(c) a o ASSEMBLY. v� 18 Reset Plunger 11 - RESET O-R 17 PLUNGER 19 Reset ing • 1 See(b)or(c) Plunger 1 See(c) • ��: 12 PARTS 20 Reset Latch __j 18 21 Subassembly 1 See(c) 21 Dow Corning FS3452 i Flourosilicone 19 Grease,1.5 g 1 See(b)or(c) NR:Not Replaceable / 20 CH:Common Hardware REPLACEMENT PARTS r NO. DESCRIPTION P/N (a) Clapper Assembly - /),(- Includes Items: { �// 9 through 13 92-309-2-603 (b) Repair Parts Kit 1 �, Includes Items: (((( 2 7,10,17, 18,21 92-309-1-604 "r\/ � (c) Reset Plunger Parts Kit \� Includes Items: r-7--/-!: \ ® 14 through 21 92.309-1-405 �� �� O , L ~ 4 ibb, . 40\...............:~'-‘04111‘.. - / 6 Ck 3 5 ®' i 13 Nit O \ '''',. ., 01/e . ( -- t� ® r - 8 ' FIGURE 1—Part 2 of 2 MODEL DPV-1 DRY PIPE VALVES 6 INCH(DN150) —ASSEMBLY— Page 2 of 20. • .; . . TFP1020 NO.DESCRIPTION QTY. REF. 1 Valve Body 1 NR 2 Air and Water Seat 1 NR 3 Handhole Cover ... 1 NR 4 Handhole Cover . 41110 Gasket 1 See(b) 11 5 1/2-13 UNC x 1"Hex - Head Cap Screw: • &3 Inch Valves 12 Valv 5 CH 6 4 Inch Valve 6 CH i /�j o 6 Clapper 1 See(a) •' \ Q� 13 i 7 Clapper Facing .... 1 See(a)or(b) ..... 7 CLAPPER RESET 8 Clapper Facing ASSEMBLY _i 14 PLUNGER Retaining Plate .... 1 See(a) °� 8 PARTS 9 2-1/2 and 3 Inch Valves: Z, 15, 1/4"x 3/8"Long ` _ 'li 5, 18 #10-32 Shoulder 9 1 C� Screw 5 See(a) 16 4 Inch Valve: I 1/4-20 UNC x 1/2" Socket Head Cap 17 Screw 7 See(a) ' 10 Clapper Hinge Pin 1 See(a) 11 Reset Knob 1 See(c) 12 Reset Spring 1 See(c) 13 Reset Bushing .... 1 See(c) ..1% *� 14 Reset Bushing -r0 O-Ring 1 See(b)or(c) 15 Reset Plunger • 0-Ring 1 See(b)or(c) • 16 Reset Plunger 1 See(c) 2 17 Reset Latch ilj Subassembly 1 See(c) 18 Dow Corning FS3452 Flourosilicone t �I�r,. Grease, 1.5 g 1 See(b)or(c) l 1 _„ 4 NR:Not Replaceable �� \ CH:Common Hardware ��t� ® 3 ®j�/ 4,Q REPLACEMENT PARTS NO DESCRIPTION P/N ;�'% (a) Clapper Assembly 1 /�� Includes Items 6-10: 2-1/2&3 Inch Valves .. 92-309-2-203 4 inch Valve • 92-309-2-403 10 ) 0 (b) Repair Parts Kit r l(a Includes Items 0 irdt 5 4,7,14,15,&18: 2-1/2&3 Inch Valves .. 92-309-1-204 4 Inch Valve 92-309-1-404 (c) Reset Plunger Parts Kit Includes Items: 11 through 18 92-309-1-405 FIGURE 1—Part 1 of 2 MODEL DPV-1 DRY PIPE VALVES 2-1/2, 3, and 4 INCH(DN65, DN80, and DN100) —ASSEMBLY— t IFire & Building Products • Technical Services:Tel:(800)381-9312/Fax: (800)791-5500 Model DPV-1 Dry Pipe Valve, External Resetting 2-1/2 thru 6 Inch (DN65 thru DN150) 250 psi (17,2 bar) General Description The Tyco® Model DPV-1 Dry Pipe Valves are differential valves used to a automatically control the flow of water into dry pipe fire protection sprinkler systems upon operation of one or f more automatic sprinklers.The DPV-1 " . also provides for actuation of fire alarms upon system operation. The � I Model DPV-1 features are as follows: • External reset. • 250 psi (17,2 bar) pressure rating. • Unique offset single clapper design enabling a simple compact valve to ,: minimize installation labor. =�• Ductile iron construction to ensure a lightweight valve to minimize ship- ping cost. • A variety of inlet and outlet connec- Available End Connections and Sizes tions. Nominal Valve Size • Compact, semi-preassembled or. 'EndrConnection, 2-1/2 Inch 31nch 4`I'nch 61nch fully assembled,and easy to operate (DN65) (DN80) (DN100) (DN150) valve trim. • Simple reset procedure through the Flange x Flange N/A N/A • • elimination of priming water. Dry pipe sprinkler systems are used in Flange x Groove N/A N/A • • unheated warehouses, parking ga- rages, store windows, attic spaces, Groove x Groove loading docks, and other areas ex- posed to freezing temperatures,where • Available water filled pipe cannot be utilized. N/A Not Available When set for service, the dry pipe sprinkler system is pressurized with air (or nitrogen). The loss of pressure through an operated automatic sprin- WARNING The owner is responsible for maintain- kier in response to heat from a fire The Model DPV-1 Dry Pipe Valves de- ing their fire protection system and de- permits the DPV-1 Dry Pipe Valve to scribed herein must be installed and vices in proper operating condition. open and allow a flow of water into the maintained in compliance with this The installing contractor or manufac- sprinkler system piping. Table B es- document, as well as with the appiica- turer should be contacted with any tablishes the minimum required sys- ble standards of the National Fire Pro- questions. tern air pressure that includes a safety tection Association, in addition to the factor to help prevent false operations standards of any other authorities hay- that might occur due to water supply ing jurisdiction. Failure to do so may fluctuations. impair the performance of these de- vices. Page 1 of 20 AUGUST, 2007 TFP1020 TFP1550 Page 4 of 4 Care and Limited TFSBP was informed about the possi- bility of such damages, and in no Maintenance Warranty event shall TFSBP's liability exceed an amount equal to the sales price. Products manufactured by Tyco Fire The foregoing warranty is made in lieu NOTICE Suppression & Building Products of any and all other warranties.expresa Before closing a fire protection system (TFSBP) are warranted solely to the or implied, including warranties of main control valve for maintenance original Buyer for ten(10)years against merchantability and fitness for a partic- work on the fire protection system defects in material and workmanship ular purpose. that it controls, obtain permission to when paid for and properly installed shut down the affected fire protection and maintained under normal use This limited warranty sets forth the system from the proper authorities and and service.This warranty will expire exclusive remedy for claims based on notify all personnel who may be affect- ten (10) years from date of shipment failure of or defect in products,materi- ed by this decision. by TFSBP. No warranty is given for als or components,whether the claim is products or components manufac- made in contract,tort,strict liability or After placing a fire protection system tured by companies not affiliated by any other legal theory. in service, notify the proper authorities ownership with TFSBP or for products This warranty will apply to the full p and advise those responsible for moni- and components which have been y pp y toring proprietary and/or central station extent permitted by law.The invalidity, alarms. subject to misuse, improper instal- in whole or part,of any portion of this lation, corrosion, or which have not warranty will not affect the remainder. Responsibility lies with owners for the been installed, maintained, modified inspection,testing,and maintenance of or repaired in accordance with appli- Ordering their fire protection system and devices cable Standards of the National Fire in compliance with this document, as Protection Association,and/or the sten- Procedure . well as with the applicable standards of dards of any other Authorities Having the National Fire Protection Association Jurisdiction.Materials found by TFSBP Contact your local distributor for avail- (for example, NFPA 25), in addition to to be defective shall be either repaired ability.When placing an order,indicate the standards of any authority having or replaced, at TFSBP's sole option. the full product name and Part Number jurisdiction. The installing contractor TFSBP neither assumes,nor authorizes (P/N). or product manufacturer should be any person to assume for it,any other contacted relative to any questions. obligation in connection with the sale of Model CV-1F Check Valves Any impairments must be immediately products or parts of products.TFSBP Specify:size and P/N(below). corrected. shall not be responsible for sprinkler system design errors or inaccurate or 2"(DN50) P/N 59-590-0-020 Automatic sprinkler systems are recom- incomplete information supplied by 2-1/2"(DN65) P/N 59-590-0-025 mended to be inspected, tested, and 76,1 mm(DN65) P/N 59-590-0-076 Buyer or Buyer's representatives. maintained by a qualified Inspection 3,(DN8Q) ,.,,.,,,,,, P/N 59-590-0-030 Service in accordance witn local In no event shall TFSBP be liable, in 4"(DN100) P/N 59-590-0-040 requirements and/or national codes. , contract, tort, strict liability or under 139,7 mm(DN125) P/N 59-590-0-139 . any other legal theory, for inciden- 5"(DN125) P/N 59-590-0-050 .. tal, indirect, special or consequential 165,1 mm(DN150) P/N 59-590-0-165• . damages, including but not limited to 6"(DN150) P/N 59-590-0-060 labor charges,regardless of whether 8'(DN200) P/N 59-590-0-080 10"(DN250) P/N 59-590-0-100 12"(DN300) P/N 59-590-0-120 OUTLET ` COVER \ FLOW _ ■ COVER _=1,� J INLET.__ -: OUTLET C // INLET FLOW VERTICAL ORIENTATION HORIZONTAL ORIENTATION FIGURE 4 MODEL CV-1F CHECK VALVES INSTALLATION Copyright O 2008-2010 Tyco Fire Suppression&Building Products.All rights reserved. TFP1550 Page 3 of 4 ' 4,16 18 17 q=e!l ;111111111hi1!1! . 5 6 11Iti_ 2 SEE 2 7 g \ _ l 3 VIEW A 2" 8" 2 10"-12" 7 5 �i L7 (DN50 DN200) (DN250 DNS00) �../� :\--- `. • �n VIEW A J Il D SEE �' I 1� 1/ 11,16 DETAIL B 11 —� 114,16 ! I'ri� � I1..--.2— 6 1 15 2" 8" 5 10"-12" 6 • (DN50-DN200) (DN250-DN300) ' DETAIL B Detail Part Material Qty, Detail Part Material Qty. Detail Part 1 Material Qty. 1 Body Ductile Iron 1 6 Clapper EPDM 1 14 Locknut Stainless 1 - e-crng Grade"E" Steel 2 Cover Ductile Iron 1 7 Spring Stainless 1 15 plug Cast Iron 2 Steel 1/2"-14 NPT Cover Hinge Stainless Thread 3 Gasket Nitrite Rubber 1 $ Shaft Steel 1 16 Adhesive Sealer AR Hex Cap Steel,Zinc Retaining Stainless 4 Screw Plated AR 9 !non Str.e Aid 17 Nameplate Aluminum 1 CiaopClapper. Stainless Retention Stainless 2 B Steel 11 Bolt Steel 1 18 Rivet Stee4 2 5 (DN50-200) 1 Clapper Retaining Stainless Stainless 10°12" Ductile Iron 13 Disc Steel 1 19 Spacer Steel 1 (DN250-300) FIGURE 2 'MODEL CV-IF CHECK VALVES ' ASSEMBLY FLOW RATE IN LITRES PER MINUTE(LPM) (1 GPM=3,785 LPM) 500 700 1000 2000 3000 5000 7000 10000 20000 30000 50000 5.0 ;I ' I I 1 I �i I'-, , 4 ,4 1 - „r., 4.0 a Tp-'��i d ��~ 'i �J �n4' -.Ar ilifA �oL'r.1_0,30 :7 - 2' -_ U2 moo - + 4:117-:737: ifiliggiraP/M art 3.0 ,-e' t.'� r O`?41- } ,o �iII 0,20 n LT il , , c- -N a 0 I .QIN - • --47 o +Ai A s '. FM - r._EE aN 2.0 2 n .. ., m co HBO r ,... - "" _ 1i 1 V� - e --r.• h�4: �_ wtt1• Z 2 � 0,10 0 a a w - _.- V OZ _ 0,09 w u•z cn Al 11 � f _ - I.'1..6 ;,O 0,08 i�n z�, 1.0iA I ■ -III i 1 I �l { 1 1 007 a 0.9 .�i 1iC 1{RIZI'�.'S"i '�►4'.�� i it'-;..' `ireo '�i'�.,-,- i-,: - ,o, ry Ura'�natoo=".�i z o a pe ■NC�AS�.�s�� =� �+1a1�,,p11111�q=sa :a -,.-. Ai Z 121113�..m..1M-0,06 a 0 8 �nGrHiq►4iO ��f �1-!'-I- ucmciow■�_0,05 p Millilinglit. -- 0'5 =_# — 4= 1-a -+_, 141 4. Mil_=1--iM i fi , ...=0'04 100 200 300 400 600 1000 2000 3000 4000 6000 10000 15000 FLOW RATE IN GALLONS PER MINUTE(GPM) FIGURE 3 MODEL CV-IF CHECK VALVES PRESSURE LOSS DATA leimmonomem TFP1550 Page 2 of 4 „raillimillaj-,7•„6,..--LT-i..it,..--1_, f ...,....-- .............._ 1 K K C O.D. i. ) D 4 I _. �\��tt : /— — NPT 1/2" l NPT --I 3 i i . F — Nominal Pipe Size Nominal Dimensions Inches(mm) Cover Approx. Bolt Torq. Weight ANSI 0.D. Lbs.-ft. Lbs. Inches Inches A B C 0 E F J (Nm) (kg) ON (mm) 2 2.375 6.75 4.38 2.55 2.57 3.25 4.75 1.62 18 9.0 DN50 (60,3) (171,5) (111,3) (64,8) (65.3) (82,3) (120,7) (41.5) (25) (4,5) 2-1/2 2.875 8.00 5.80 3.41 3.40 3.88 6.00 1.70 39 10.0 DN65 (73,0) (203.2) (147.3) (86,6) (86,4) (98.6) (152,4) (43,2) (54) (4.5) 76,1 - 8.00 5.80 3.41 3.40 3.88 6.00 1.70 39 10.00 DN65 (76,1) (203,2) (147,3) (86.6) (86,4) (98,6) (152,4) (43,2) (54), (4,5) 3 3.500 8.37 5.76 3.60 3.40 3.88 6.00 1.70 39 11.0 DN80 (88.9) (212,6) (146,3) (91,4) (86,4) (98,6) (152,4) (43,2) (54) (5,0) 4 4.500 9.63 6.74 4.61 3.63 4.56 7.13 1.84 50 25.0 DN100 (114,3) (244,6) (171,2) (117,1) (92,2) (115,1) (181,1) (46,7) (69) {11.3) 139.7 - 10.50 7.50 5.29 4.20 4.90 7.60 1.90 39 29.0 DN125 (139.7) (266,7) (190,5) (134,4) (106,7) (124,5) (193,0) (48,3) (54) (13.2) 5 5.563 10.50 7.50 5.29 4.20 4.90 7.60 1,90 39 29.0 DN125 (141,3) (266,7) (190,5) (134,4) (106,7) (124,5) (193,0) (48,3) (54) (13,2) 165.1 - 11.50 8.05 5.75 4.50 5.00 7.60 1.48 60 47.0 DN150 (165.1) (292,1) (204,5) (146,1) , (114,3) .(127,0) (193,0) (37;6) (82) (21,3) 6 6.625 11.50 8.05 5.75 4.50 5.00 7.60 1.48 60 47.0 DN150 (168,3) (292,1) (204,5) (146,1) (114,3) (12.7,0) (193,0) (37.6) (82) (21,3) 8 8.625 14.00 10.25 7.75 5.62 5.45 8.40 2.20 120 66.0 DN200 , (219,1) (355,6) (260,4) (196,9) (142,7) (138,4) (213,4) (58,9) (164) (29,9) 10 10.750 16.00 13.00 10.21 6.38 7.50 10.50 3.00 130 109.7 DN250 (273,1) (457,2) (330,2) (259,3) (162.1) (190.5) (266,7) (76,2) (178) (49,4) 12 12.750 21.00 14.28 11.31 7.26 7.62 10.62 2.75 130 151.0 DN300 (323,9) (533,4) (362,7) (287,2) (184,4) (193,5) (269,7) (69.9) (178) (68,0) FIGURE 1 MODEL CV-1F CHECK VALVES NOMINAL DIMENSIONS tliCO Fire Suppression & Building Products Technical Services 800-381-93121+1-401-781-8220 www.tyco-fire.com Model CV-1F Check Valves 2 to 12 Inch (DNSO to DN300) General The Model CV-1F Check Valves described herein must be installed Description and maintained in compliance with this �•/ document and with the applicable sten The TYCO Model CV-1F Check Valve is dards of the National Fire Protection Association, in addition to the sten- i a compact and rugged swing-type unit n 1,, that allows water flow in one direction lards of any authorities having furis- 1 and prevents flow in the opposite direc diction.Failure to do so may impair the � � p PP , -� tion. A resilient elastomer seal facing p erformance of this device. on the spring-loaded clapper ensures Owners are responsible for maintain r, a leak-tight seal and non-sticking oper- ing their fire protection system and '.:,*ii,; ation.The Model CV-1F Check Valves devices in proper operating condition. ; g' are designed to minimize water hammer The installing contractor or manufac- �4' =2 caused by flow reversal. turer should be contacted with any The Model CV-1F Check Valve is questions. ;-- furnished with grooved ends and can , be installed using Grinnell Grooved Technical Couplings or GRINNELL Figure 71 Installation Flange Adapters. The Model CV-1F Data Check Valves have been designed • The Model CV-1F Check Valves are with a removable cover for ease of field to be installed in accordance with the Approvals 'maintenance. These valves can be UL,OWL. arid FM following instructions: installed horizontally(with cover in the 1 The arrow cast on the Body must upward position)or vertically with the Sizes . oint irn the direction of the flow. flow in the upward direction. Refer to 2 to 12 Inch(DN50 to DN300) p Figure 4. 2.Valves installed vertically must be Maximum Working Pressure positioned with the flow in the up- A Maintenance Check Valve Kit 300 psi(20,7 bar) ward direction. (TFP1555) is available to allow the maintenance procedure of back- Valve Assembly Finish 3.Valves installed horizontally must be flushing through the fire department Red, non-lead paint positioned with the Cover facing up. connection without removing the Model Refer to Figure 4. CV-1F Check Valve from the pipe line. 4.Grooved end pipe couplings used The Model CV 1F Check Valves are a with the Model CV-1F Check Valve n for the Central Figure 590F must be installed in accordance with redesign g manufacturer's instructions. and GRINNELL Figure 590F. NOTICE Never remove any piping component nor correct or modify any piping defi- ciencies without first de-pressurizing and draining the system. Failure to do so may result in serious personal injury, property damage, and/or •impaired • ' device performance. Page 1 of 4 OC O ER :2010 TFP1550 Page 4 of 4 TFP1510 Limited Ordering Warranty Procedure Products manufactured by Tyco Fire Grooved End Butterfly Valves & Building Products (TFBP) are war- Specify: (specify inch size) Model ranted solely to the original Buyer for BFV-N Grooved End Butterfly Valve ten(10)years against defects in mate- with internal supervisory switches, rial and workmanship when paid for P/N(specify). and properly installed and maintained under normal use and service. This V 1 /2 sire Valve Part Number warranty will expire ten(10)years from 59-300-F-030N 3 59-300-F-0 date of shipment by TFBP. No warran- N ty is given for products or components 5 59-300-F-o5 59-300-r--O50N N manufactured by companies not af- 6 59-300-F-060N filiated by ownership with TFBP or for 8 59-300-F-080N products and components which have 10 59-300-F-100N been subject to misuse, improper in- stallation,corrosion, or which have not been installed,maintained,modified or repaired in accordance with applicable Standards of the National Fire Protec- tion Association, and/or the standards of any other Authorities Having Juris- diction. Materials found by TFBP to be defective shall be either repaired or re- placed, at TFBP's sole option. TFBP neither assumes, nor authorizes any person to assume for it, any other ob- ligation in connection with the sale of products or parts of products. TFBP shall not be responsible for sprinkler system design errors or inaccurate or incomplete information supplied by Buyer or Buyer's representatives. In no event shall TFBP be liable, in contract, tort, strict liability or under any other legal theory, for incidental, indirect,special or consequential dam- ages, including but not limited to labor charges, regardless of whether TFBP was informed about the possibility of such damages, and in no event shall • TFBP's liability exceed an amount equal to the sales price. The foregoing warranty is made in lieu of any and all other warranties,ex- press or implied, including warranties of merchantability and fitness for a par- ticular purpose. • This limited warranty sets forth the ex- clusive remedy for claims based on failure of or defect in products,materi- als or components, whether the claim is made in contract, tort, strict liability or any other legal theory. This warranty will apply to the full ex- tent permitted by law. The invalidity, in whole or part, of any portion of this warranty will not affect the remainder. ©2008 TYCO FIRE&BUILDING PRODUCTS,451 North Cannon Avenue,Lansdale,Pennsylvania 19446 TFP1510 Page3of4 Installation The Model BFV-N Grooved End But- r —I terfly Valves may be installed with flow I I--SUPERVISORY in either direction and can be posi- SWITCH tioned either horizontally or vertically. The grooved end pipe couplings used 1 I SWITCH SHOWN with the Model BFV-N must be listed L _ J WITH VALVE or approved for fire protection service 3 w FULL OPEN and installed in accordance with the o o z z manufacturers instructions. w al E r r o 0 The Model BFV-N Butterfly Valve'may be installed with any schedule of pres- sure class of pipe or tubing that is list- END OF LINE PANEL ed or approved for fire protection. RESISTOR As applicable, refer to Figure 2 for the internal switch wiring diagram, 1— Conduit and electrical connections I H-- AUXILIARY are to be made in accordance with GND SWITCH the authority having jurisdiction and/ I • or the National Electrical Code. With 1 ( SWITCH SHOWN reference to Figure 2, the "supervi- L _,_ ^ ^ , — J WITH VALVE sory switch" is intended for connec- FULL OPEN tion to the supervisory circuit of a fire w t o w alarm control panel in accordance with o c NFPA 72. The "auxiliary switch" is in O > °' o z tended for the unsupervised connec- 1 tion to auxiliary equipment in accor- r-, i BELL dance with NFPA 70, National Electric Code. POWER ♦ . + NOTE , For outdoor applications with inter- nal supervisory switches, it is recom- • • mended that wiring connections be made at a temperature above 15°F CONTACT RATING .... 1/2A a 125 VDC , order sufficient 15 1 250 a 125, . �-9`C in ordr to inr ffiit flex- 1 . q/12HP�s 125,250 VAC ' ibility of the wire lead insulation. 5A a 125 VAC"L" Care and FIGURE 2 Maintenance MODEL BFV-N BUTTERFLY VALVE If/aintenance -INTERNAL SWITCH WIRING DIAGRAM- The owner is responsible for the in- spection,testing,and maintenance of their fire protection system and devic- NOTE es in accordance with the applicable Before closing a fire protection system standards of the National Fire Pro- control valve for maintenance or in- tection Association (e.g., NFPA25), in spection work on either the valve or fire addition to the standards of any au- protection system which it controls, thority having jurisdiction. The install- permission to shut down the affected ing contractor or product manufac- fire protection systems must be ob- turer should be contacted relative to tained from the proper authorities and ' any questions. Any impairment must all personnel who may be affected by be immediately corrected. this decision must be notified. It is recommended that automatic sprinkler systems be inspected,test- ed, and maintained by a qualified in- spection service. • wlww Paige 2 of 4 TFP1510 Nominal Pipe Nominal Installation Dimensions in Inches and(mm) Weight Valve O.D. Sizes A B C D E F G H Ibs, (k9) ' 2-1/2" 2.88 3.85 11.71 3.25 5.43 6.00 7.81 2.50 22 DN65 (73,0) (98,0) (297,4) (83,0) (137,9) (152,4) (198,4) (63,5) 0 (10,0) 3" 3.50 3.85 12.25 3.54 5.68 6.00 7.81 2.50 23 DNBO (88,9) (98,0) (311,1) (90,0) (144,2) (152,4) (198,4) (63,5) 0 (10,4) 4" 4.50 4.56 13.95 4.35 6.58 6.00 7.81 2.50 28 DN100 (114,3) (116,0) (354,3) (110,0) (167,1) (152,4) (198,4) (63,5) 0 (12,7) 5" 5.56 5.86 14.93 4.84 7.07 6.00 7.81 2.50 31 DN125 (141,3) (149,0) (379,2) (123,0) (179,6) (152,4) (198,4) (63,5) 0 (14,1) 6" 6.63 5.86 17.31 5.93 8.35 6.00 7.81 2.50 0.67 41 DN150 (168,3) (149,0) (439,7) (151,0) (212,0) (152,4) (198,4) (63,5) (17,0) (18,6) 8" 8.63 5.26 19.20 6.87: ..9.29:' 6.00 7.81 . 2.50 . 5.86 53 DN200 (219,1) (134,0) (487,7) (174,0) (236,0) (152,4) (198,4) (63,5) (148,8) (24,1) 10" 10.75 6.29 25.11 9.17 11.50 9.00 7.68 3.00 7.41 88 DN250 (273,1) (160,0) (637,8) (233,0) (292,1) (228,6) (195,1) (76,2) (188,2) (40,0) - G F �i HANDWHEEL INDICATOR FLAG 1/2"NPT \-- / CONDUIT ') ' 4era �ONNECION GEAR OPERATOR Lam— , - E JO BODY If Igilkil B ' � Disc H A— 1 FIGURE 1 MODEL BFV-N GROOVED END BUTTERFLY VALVE -NOMINAL DIMENSIONS.- tqco /FIre & Building .. ‘ Products Technical Services: Tel: (800) 381-9312/ Fax: (800)791-5500 Model BFV-N Butterfly Valve Grooved End 2-1/2 Inch - 10 Inch (DN65 - DN250) General Technical Description Data The Model BFV-N Grooved End But Model or terfly Valves(Ref.Figure 1)are indicat- BFV-N ,4 ing type valves designed for use in fire sizes:ANSI Inches/DN protection systems where a visual in 2-1/2(DN65), 3 (DN80), dication is required as to whether the 4(DN100),5(DN125), valve is open or closed.They are used 6(DN150),8(DN200), 10(DN250) for example,as system,sectional,and Approvals .�"" pump water control valves.They have The 2-1/2 through 10 inch (DN65 --s„,:::‘,;.,,,, cut groove inlet and outlet connections DN250) Model BFV-N Grooved End #t r that are suitable for use with grooved Butterfly Valves are UL and C-UL List- end pipe couplings that are listed and ed and FM Approved. ,, approved for fire protection systems. „, applications requiring supervision In addition,the Model BFV-N Grooved Fora pP q 9 P End Butterfly Valves are listed by the of the open position of the valve, the California State Fire Marshall under . Gear Operators for the Model BFV-N Listing No.7770-1670:100. Butterfly Valves are provided with two sets of factory installed internal All laboratory listings and approvals are switches each having SPDT contacts. for indoor and outdoor use. Friction Loss The supervisory switches transfer their Maximum Working Pressure The app friction loss, ndsed electrical contacts when there is move- •2-1/2 -8 Inch(DN65-DN200): on the Haazzeeimate n Williams formula and ex ment from the valve's normal open po- 300 psi(20,7)bar pressed in equivalent length of pipe sition during the first.two,revolutions of with C= 120, is as follows.The data is • col- the handwhe 10 Inch(DN250): based on friction loss information col- 175 psi(12,0 bar) lected at a typical flow rate of 15 feet WARNINGS Materials of Construction: per second. The Model BFV-N Grooved End But- Body •6.9 feet of 2-1/2 inch Sch. 40 pipe terfly Valves described herein must be Ductile iron conforming to ASTM A-395 for the 2-1/2 inch valve. installed and maintained in compliance Body Coating •8.7 feet of 3 inch Sch. 40 pipe for with this document, as well as with the Polyamide the 3 inch valve. applicable standards of the National Disc •4.5 feet of 4 inch Sch. 40 pipe for Fire Protection Association, in addition Ductile iron conforming to ASTM A-395 the 4 inch valve. to the standards of any other authori- Disc Seal •6.6 feet of 5 inch Sch. 40 pipe for ties having jurisdiction. Failure to do Grade EPDM"E"encapsulated rubber the 5 inch valve. so may impair the performance of conforming to ASTM D-2000 • 11.1 feet of 6 inch Sch.40 pipe for these devices. the 6 inch valve. Upper&Lower'Stem The owner is responsible for maintain- Type 416 Stainless Steel conforming • 10.2 feet of 8 inch Sch. 30 pipe for ing their fire protection system and de- to ASTM 582 the 8 inch valve. vices in proper operating condition. Lower Plug • 12.1 feet of 10 inch Sch.30 pipe for The installing contractor or sprinkler PVC the 10 inch valve. manufacturer should be contacted with any questions. Operator Gear operator with iron housing Page 1 of 4 MAY, 2008 TFP151O Page 16 of 16 TFP110O Ordering Procedure Dry Pipe Valve Electronic Accelerator Package (Required components for one dry pipe valve riser or one double inter- lock electric/electric preaction sys- tem riser): Specify: Model QRS Electronic Accel- erator Package, P/N 52-312-2-102. The Model QRS Electronic Accelera- tor Package includes the following: • Model QRS Electronic Accelerator Riser Components(Qty. 1), P/N 52-312-2-001. • Model PFC-4410-RC Releasing Panel, (Qty. 1)P/N 20135. • Model BT-120 12.0 AH Battery(Qty. of 2 provided and required), P/N 20128. Dry Pipe Valve Electronic Accelerator Riser Components (One each required for each addi- tional dry pipe riser up to three ad- ditional dry pipe risers): Specify: Model QRS Electronic Accel- erator Riser Components, P/N 52-312-2-001. Model DV-5 Double Interlock Preac- tion Trim with Elecrtric/Electric Ac- tuation and Model QRS Elctronic Accelerator (Refer to Technical Data Sheet'TFP1465 for additional details): Specify: (specify size), Galvanized, Semi-Preassembled Double Interlock Preaction System with Electric/Elec- tric Actuation Trim and Model QRS Electronic Accelerator for Model DV-5 Deluge Valves, P/N (specify). 1-1/2&2 Inch Galvanized P/N 52-478-2-1280 3 Inch Galvanized • P/N 52-478-2-1250 4,6&8 Inch Galvanized P/N 52-478-2-122Q Replacement Parts: (Specify description) for use with Model QRS Electronic Accelerator, P/N (see Figure 1). ©2009 TYCO FIRE SUPPRESSION&BUILDING PRODUCTS,451 North Cannon Avenue,Lansdale,Pennsylvania 19446 TFP1100 Page 15 of 16 NOTES: NO DESCRIPTION QTY P/N 1. Installation notes are typical of all Dry Pipe Valve models shown. 1 Quick Release Switch, Model QRS 1 92-312-1-001 2. Some items provided with the Model ORS Trim(P/N 52-312-2-001)are not used and may 2 Solenoid Valve .. ..1 52-287-1.024 be discarded.Field fabrication of additional materials will be required to facilitate connection 3 1/2'Union 2 CH to the existing system riser accelerator connection. 4 1/2"Tee 1 CH 6 1/2'x Close Nipple 2 CH CHt Common Hardware P i ..1 ... ■ 1 1 i • ___ I. 4 _ Ii 4 4 it $ 1/2"NPT i l FABRICATE SYSTEM RISER 0 I I ©� TO SUIT FROM ACCELERATOR u- O(�O CONNECTION I I 1/2"NPS PIPE OP Milk AND FITTINGS a O 2 ONV QI l�O 8 O it Fa O 2 ' 0110 2 6 - ��� an 6 I n 6 �.� Otigleiz .. `, C `al I X10 3 / 1►`. - II/ 6 DG I 6 1/2"NPT © >t�� ACCELERATOR MMOMMEMENIN TRIM CONNECTION TO INTERMEDIATE RIGHT SIDE VIEW RIGHT SIDE VIEW CHAMBER LEFT SIDE VIEW Refer to Data Sheets: Refer to Data Sheets: Refer to Data Sheet: Central 3 Inch Model AF, 10-3.2(7-96), Star Model A Gem 4&6 Inch and 4&6 Inch Model AF/AG, 2-2.1.30(6-97)4 Inch Model F302/F3021 10-4.0(7-96)or 10-5.0(7-96), 2-2.1.40(6-97)6 Inch TD107(11-97) Star Model A-1 • 2-2.1.31 (2-00)4 Inch 2-2.1.41 (2-00)6 Inch ' FIGURE 7 MODEL QRS ELECTRONIC ACCELERATOR RISER COMPONENTS INSTALLATION DIAGRAM WITH DRY PIPE VALVES MANUFACTURED BY TFSBP OTHER THAN THE MODEL DPV-1 DRY PIPE VALVE Page 14 of 16 TFP1100 Care and the system's Main Control Valve and open the system's Main Drain Valve to Limited relieve the supply pressure to the dry Warranty • iipelpreactibn valve. Otherwise pro- Warranty ceed as follows. The following procedures and inspec- tions should be performed as indi- Step 2. For a dry pipe system, open Products ionufactured_by Tyco Fire cated, in addition to any specific re- the Inspector's Test Connection. Ver- Suppression & Building solely the quirements of the NFPA, and any ify that the time to Accelerator trip is (TFSBP) are warranted solely years the impairment must be immediately cor- essentially the same as in previous original Buyer for ten (10) years work- rected. tests.A momentary burst of air from a against defects in material and work- dry pipe valve's Automatic Drain Valve installed when paid for and properly The owner is responsible for the in- indicates that the Accelerator has installed and maintained under normal ex- spection, testing, and maintenance of tripped. In addition the Display„on the use and service.This warranty will ex- their fire protection system and de- Operating Interface ofith-.e,Retease Pie ten TF years from date is given vices in compliance with this docu- Panel will notify operation. for products ducts or components m No oven warranty is given ment, as well as with the applicable for products or components manufac- standards of the National Fire Protec- For a double interlock electric/electric tured by companies not affiliated by tion Association (e.g., NFPA 25), in preaction system,first operate the de- ownership with TFSBP or for products addition to the standards of any tection system and then open the In- and components which have been authority having jurisdiction. The in- spector's Test Connection.Verify that subject to misuse, improper installa- stalling contractor or product manu- time to Accelerator trip is essen- tion,corrosion,or which have not been facturer should be contacted relative tially the same as in previous tests. installed, maintained, modified or re- to any questions. Release of the DV-5 diaphragm Ares- paired in accordance with applicable sure though the open solenoid valve Standards of the National Fire Protec- Automatic sprinkler systems are rec- indicates that the Accelerator has tion Association,and/or the standards ommended to be inspected, tested, tripped. In addition,the Display on the of any other Authorities Having Juris- and maintained by a qualified Inspec- Operating Interface of the Release diction. Materials found by TFSBP to tion Service. Panel will notify operation. be defective shall be either repaired or The Model QRS Electronic Accelera- Step 3. Reset the Model QRS Elec replaced, at TFSBP's sole option. for must be maintained and serviced tronic Accelerator in accordance with TFSBP neither assumes, nor author- tor accordance with the following in- the appropriate Setting Procedure izes any person to assume for it, any structions: Section. other obligation in connection with the sale of products or parts of products. NOTICE Release Panel and Batteries TFSBP shall not be responsible for Inspect, test, and maintain per the sprinkler system design errors or inac- The QRS uses electronic components instructions provided for the Model curate oy incomplete information sup- Plied d b y to monitor the system air pressure. PFC-4410-RC Releasing Panel. Buyer or Buyer's repre sentatives. Keep all radio transmitters or RF sources at least one foot from the In no event shall TFSBP be liable, in QRS. Failure to do so could result in contract, tort, strict liability or under an unintended operation of the dry any other legal theory, for incidental, pipe or preaction system. indirect, special or consequential If an Accelerator is to be temporarily damages, including but not limited to taken out of service, the proper labor charges, regardless of whether TFSBP authorities and all personnel who may Was informed about the possi- be affected must be notified. bility of such damages,and in no event shall TFSBP's liability exceed an Before performing an alarm test,notify amount equal to the sales price. the proper authorities and all person- nel who may be affected. The foregoing warranty is made in lieu of any ny and all other warranties, ex- Before closing a fire protection system press or implied including warranties main control valve for inspection or of merchantability and fitness for a maintenance work on the fire protec- particular purpose. Lion system that it controls,permission to shut down the affected fire protec- This limited warranty sets forth the ex- tion system must be obtained from the elusive remedy for claims based on proper authorities and all personnel failure of or defect in products, materi- als or components,whether the claim who may be affected by this action must be notified. _ is made in contract, tort, strict liability or any other legal theory. Model ORS Electronic Accelerator • This warranty will apply to the full ex- Testing Procedure tent permitted by law.The invalidity, in whole or part, of any portion of this It is recommended that the'following warranty will not affect the remainder. Accelerator test procedure be per- formed quarterly. Step 1, When operation of the dry pipe/preaction valve is not intended during the Accelerator trip test, close • TFP1100 Page 13 of 16 • RED OUTPUT LED STEADY:ABORT •C ZONE 1 • r , {• OUTPUT 1 :) X , [•'.;.`ZONE 2 6) • 'OUTPUT.2. , (• ZONE 3 �� (• OUTPUT 3 .1 PROGRAM RUN, 0 ire ZONE 4 .1 (• OUTPUT 4 41 MODE MODE . • AC POWER • SUP IIABORT - SGROLL-UP • POWER TBL • SUPERVISORY2 BUZZER SILENCE RUN • SYSTEM TBL • COMMON ALARM PROGRAM W • SUP TBL • ALARM SILENCE MP TLAEST GROUND STEADY:DISCHARGED • FAULT • FLASHING:PRE- DISCHARGE SET SCROLL-DOWN BUZZER SILENCE DISPLAY j SELECT Li SIGNAL SILENCE SYSTEM RESET • • FUNCTION 0 VIEWING ANGLE FIGURE 6 OPERATING INTERFACE FOR THE MODEL PFC-4410-RC RELEASING PANEL of the system will be more easily ac- automatic air supply,arid;"att waiting complished with 10 psi air pressure in for the pressure to stabilize,return the 'Jet Ling the system. "Program Switch"to the left, iprocedure Step 6. When the system reaches the Step 8. Partially open the Main Con- intended pressure and the pressure is trol Valve. Slowly close the system's (Preaction stabilized,return the"Program Switch" Main Drain Valve as soon as water (Figure 6)to the left. discharges from the drain connection. System) Step 7. After waiting at least 60 sec- Depress the plunger on the dry pipe onds, open the Inspector's Test Con- valve's Automatic Drain Valve to make The Tyco® Model DV-5 Double Inter- nection, wait 5 seconds, and then sure that it is open and that no water lock Electric/Electric Preaction Sys- close the Inspector's Test Connection. discharges.The absence of water dis- tern and the Tyco® Model QRS Elec- charge that the time to Accelerator trip charge from the Automatic Drain tronic Accelerator must be reset and Verify essentially the the same as Accelerator rator trip Valve is an indication of a properly set restored to service as soon as possi- is es.e momentary t'te same burst of air previous a water seat within the dry pipe valve. If ble after an operation. Refer to Tech- dry s.A e' Au burst Drain from Valve water is discharging, refer to the Care nical Data Sheet TFP1465 for details. indicates that the QRS has tripped. In and Maintenance eection within pipe addition the Display on the Operating valve data sheet in ecorr ct t eause Interface of the Release Panel will valve to determine/correct the cause notify operation., This procedure will of the leakage problem. also allow any scale and debris to be If there are no leaks, the system's cleared from the pipe and nipples that Main Control Valve must be fully are connected solenoid valve. opened. Momentarily press the"System Reset" The system is now set for service. button and then move the "Program Switch" to the right. The display will NOTICE read "OK to charge system". At this point, once again, the solenoid valve After setting a fire protection system, will be de-energized and allowed to notify the proper authorities and ad- close to enable pressurization of the , vise. gloss.responsible::.for anorritoring system piping. proprietary and/or central station Allow the system to automatically re- alarms. turn to its intended pressure via its Page 12 of 16 TFP1100 shield and drain. (Alpha wire type the proper authorities and all person- nstalla Lion 5198C or equivalent. Color coding nel who may be affected must be noti- provided Tyco®Model QRS Electronic Ac- provided in the wiring diagrams is ap- fled. In the event ofa fire and where a plicable to Alpha wire type 5198C.) QRS Electronic Accelerator has been The Tyco® must Model installed S Electronic t in accord- ance with the following instructions: All QRS wiring must be terminated taken "out of service", an increased (landed) while the PFC-4410-RC is time in water delivery can be ex- Step 1.The QRS Electronic Accelera- de-energized. Failure to do so may petted. tor Riser Components (P/N 52-312-2- result in unseen damage to the QRS, Step 1.If desired and until the system 001) must be installed per Figure 2 or rendering it inoperable. is to be set for service, the internal 7 as applicable; the Model DV-5 Dou- ble Interlock Preaction Trim with Elec- To de-energize the PFC-4410-RC, audible alarm may be silenced by mo- tric/Electric Actuation and Model QRS disconnect the stand-by batteries then mentarily depressing the "Buzzer Si- Electronic Accelerator must be in- disconnect the A/C input. Reverse this lence"button (Figure 6). stalled per Figure 3;the solenoid valve process to re-energize the panel. Step 2. Locate of all of the system's must be installed with its flow direction For additional PFC-4410-RC Releas- low point drain valves to help facilitate arrow as indicated; and, pipe thread ing Panel information(e.g.power and resetting of the system. sealant is to be applied sparingly, to battery connections, programming, Step 3.Follow the resetting procedure male threads only. basic operation, etc.,)refer to the Pot- for the dry pipe valve using the instruc- Step 2. The Releasing Panel is to be ter Electric Signal Company Manual tions provided in the technical data located in a dry and protected area; #5403550. sheet for the dry pipe valve.When the however, it should be located in close For additional QRS Quick Release procedure calls for the system piping proximity to the valve riser(s). (In the Switch information refer to the Potter to be pressurized with air, proceed case of one panel being used for mul- Electric Signal Company Data Sheet with Step 4. tiple dry pipe valve risers, it is recom- #5471131. Step 4. Momentarily that a single panel only be p y press the "Sys- mended when the multiple risers are ad Step 4.As a function of the nominal air tern Reset"button(Figure D)and then jacent to each other. Otherwise, diffi- pressure to be maintained in the,sprin- move the "Program Switch" to the culty may be encountered when per- trier c'�sfem,•set the AO, po ition, right. The display will read "OK to forming the resetting procedure.) high/low level, rotary switch setting of charge system". Begin applying air the QRS Quick Release Switch using pressure to the system. At this point Step 3. The QRS Quick Release the information provided in Table A on the solenoid valve will be de-ener- Switch, Solenoid Valve, and Releas- Page 12,as well as inside the cover of Sized and allowed to close to enable ing Panel must be wired per Figure 4 the-QRS Quick-Re-tease Switch pressurization of the system piping, or 5 as applicable. All electrical con- - and a-3O7it7hute couTlidown 16-repres nections are to meet the requirements Step 5. To complete the installation, surize the system will be displayed. of NFPA 72. the cover of the QRS Quick Release Switch must be securely fastened to NOTICE NOTICE • the base to ensure metal to metal con- nect, and the PFC-4410-RC Releas- If within 30 minutes, the "Program FiguFigure 4, provides t wiring connec- ing panel must be programmed using Switch'is not returned to the left posi- 4, provides pipe the hete wiring using the Standard Program #13 or#14, as ap- tion during the upcoming Step 6, the PF PFC-4or dry pipe systems ms using the plicable. Programming instructions releasing panel will automatically re- Figure 5 provides to the wiring am#14. are.provided in Potter Electric Signal vert to a normal condition. If at least 8 tions for a double interlock elec Company Manual#5403550. psi has not been reached,the solenoid tric/electric preaction system using the valve will be energized and open. If at PFC-4410-RC Standard Program#13. Setting least the low air pressure threshold of SIn the case of Figure 4, the EOLR-for etting Table A has not been reached, a su- the supervisory circuit is located in the pervisory condition will occur. last QRS Quick Release Switch. In the Procedure If more than 30 minutes is required, case of Figure 5, the EOLR for the the counter can be restarted before supervisory zone is located at the (Dry Pipe the 30 minutes has elapsed. In order QRS and the Orange and Yellow wires Valve) to reset the counter, the system must are not used.Any tamper switches for be pressurized to at least 8 psi, at system shut off valves required for which time the "Program Switch"can double interlock preaction systems The Dry Pipe System and the Tyco can be moved to the left and then should be connected to Zone 3 of the Model QRS Electronic Accelerator quickly back to the right. A 30 minute must be reset and restored,to service countdown will then be restarted. PFC-4410-RC releasing panel which is programmed as a Tamper Zone. as soon as b,ossible_after an operation. Refer to PFC-4410-RC Manual Step 5.When the system reaches an #5403545. NOTICE air pressure of approximately 10 psi and while the system is in process of The�wiredtotheModelPFCt4410-RC The system must be completely down" each Idrai dvalve onerat abtime Releasing panel using shielded cable drained before proceeding. (including the low body drain (or prim- in metal conduit(rigid or flexible). Con- In the case of one panel serving mul- ing level valve) at the dry pipe valve nett drain wire of the shield to earth tiple risers, whenever the "Program and the Inspector's Test Connection) ground of the PFC-4410-RC only. Do Switch"is moved to the right(Steps 4 by opening each drain valve until not connect drain wire to the QRS. and 7), the QRS Electronic Accelera- water ceases to drain and then closing Shielded cable: 8 conductor, 22 AWG tors is taken "out of service" for all the drain valve. The blow-down proce- stranded, PVC jacket, overall foil connected system risers. Therefore, dure that will assure complete draining TFP1100 Page 11 of 16 CAUTION: CONDO T(RIGID OR FELEXIBLE).CONNECT DRAIN WIRE OF SHIIELLD TO EARTH GROUND OFITHE PFC-441(1_-RC ONLY DO NOBT CONNECT L DRAIN WIRE TO ORS.SHIELDED CABLE:a CONDUCTOR,22 AWG STRANDED,PVC JACKET,OVERALL FOIL SHIELD WITH DRAIN. (ALPHA WIRE TYPE 51B8C DR EQUIVALENT.) r —1 TAMPER ALARM HIGR/ 24VDC LOW . + QRS AIR 0 0 0 .0 0 0 0 0 0 -- SWITCH . 6 5 m 2 5.1 K EOLR 0 g GM ° LOCATE ° AT QRS ORANGE NOT YELLOW USED L DO NOT ALPHA WIRE " - ° ' DETECTION CONNECT �4 TYPE 51 SEE POTTER SHIELD OR EQUIVALENT MANUAL gam #5403545 r---A 1 SYSTEM SHIELD E ' ' i w c o i °1 'N -- NOT USED . SEE POTTER MANUAL #5403545 X00 � 1 � 00 ? ! ! ! $ 4 $ $ i } I AUX.POWER ABORT SUPERVISORY ZONE 4 L 24VNR DC J I 24VR OC ZONE t ZONE 2 ZONE 3 J GND. /v �, 7 OUTPUT 1 OUTPUT 2 OUTPUT 3 OUTPUT 4 \ P —1 I ' L. J PFC-4410-RC PANEL © RELEASING--T 1-SOLENOID U 0 SEE POTTER 3 ' SEE POTTER MANUAL LINE MANUAL REFERENCE #5403545 D1ODEA5 A IPARTS3oasB12 #5403545 WIRING DIAGRAM I NsTAL;Ar PROGRAM #13 L — J LOCATION • SYSTEM • FIGURE 5 • WIRING DIAGRAM FOR MODEL QRS ELECTRONIC ACCELERATOR FOR DOUBLE INTERLOCK ELECTRIC/ELECTRIC PREACTION SYSTEMS Page 10 of 16 TFP1100 CAUTION. CONDUIT(RIGID OR FLEXIBLE).CONNECT DRAIN WIRE OF SHIELD TO EARTH GROUND OF THE PF PANEL C•4410•RC ONLY.00 NO CABLE T CONNECT DRAIN WIRE TO ORS.SHIELDED CABLE:8 CONDUCTOR,22 AWG STRANDED,PVC JACKET.OVERALL FOIL SHIELD WITH DRAIN. (ALPHA WIRE TYPE 51 BEG OR EQUIVALENT.) 7 7 r JUMPER 7 • LAST JUMPER TAMPER ALARM HIGH/ 24VDC QRS TAMPER ALARM HIGH/ 24VDC ECM LOW fro 410 41, 0 0 SWITCH �/(��EOLR AIR (�tS?�,) (f,'�'�)Co 0 7AIR� SWITCH � Q Co T ? '`l �/ w w j z o o w w i OLR� p z o m g § w ,p ,1 • 6 o `m•••. ...z 5.1 KEOLR a 5 m Q ' m FIRST, ' m LOCATE AT m SECOND OR LAST QRS THIRD QRS TYPICAL WIRING SWITCH WIRING ORANGE 1 NOT FOR QRS 1,2 OR 3 FOR LAST QRS YELLOW } USED ON L Y;wti (ALL BUT LAST) J L_ ONLY w LAST QRS oc DO NOT �'•~,'.�~ ALPHA WIRE DO NOT $:::}�::' CONNECT 44.• TYPE 5198C CONNECT - �$.••`• ALPEAWIRE tiv p' 0ti` TYPE 5198C SHIELD e�.::.R� OR EQUIVALENT SHIELD %4�• • �:7a ou,• OR EQUIVALENT SYSTEM 1 SYSTEM 2 a SYSTEM 3 "•�' SYSTEM 4 SHIELD / b SHIELD SHIELD SHIELD p u w t w w u W w ° 0 ; p L) A/ r- ..7 .0 J 3 m o ¢ a m ri 5 1 w m m ' m '6 O-y g w m m yi...41•1 L�M4 M �� M���� M USED ON rawil4uMri LAST QRS Ykellsols ., 1 r-- 1 •11 � 0 X01 1 00' 6 X00 0000001 1 + 1 I + + SUP. SUP• t • + + + L–24VNR DC J I AUX.POWER ABORT SUPERVISORY ZONE 1 ZONE 2 ZONE 3 ZONE4 24VR DC /_' =.-J-= ` ! — \ _ _ (/ 1 OUTPUT 1 OUTPUT 2 OUTPUT 3 OUTPUT 4 / 1 GNO. L_ J / — PFC-4410-RC . RELEASING RELEASING_ RELEASING RELEASING PANEL © SOLENOID ©_ SOLENOID © SOLENOID SOLENOID .. Y • Y <Y< Y m 4: m tt 5 K m END OF LINE — END OF LINE END OF LINE — END OF LINE REFERENCE DIODE ASS'Y DIODE ASSY DIODE ASS'Y DIODE ASS'Y I a I PART#3005012 I A I PART#3005012 I vY^i - I PART#3DOSO12 I A I PART#3D05C12 WIRING DIAGRAM I (SOLENOID 1 (SOLENOID SOT NIOID SOLENOID L — J LOCATION L _ J LOCATION L _ LOCATION L — LOCATION PROGRAM#14 SYSTEM 1 SYSTEM 2 SYSTEM 3 SYSTEM 4 FIGURE 4 WIRING DIAGRAM FOR MODEL QRS ELECTRONIC ACCELERATOR FOR DRY PIPE VALVE(S) • TFP1100 Page 9 of 16 NOTES: Nipple Select Appropriate Nipple Sizes per DV-5 Deluge Valve Size 1. Use only the 2"Model CV-1FR Riser Check Number 1-1/2"(DN40) 2"(DN50) 3"(DN80) 4"(DN100) 6"(DN150) 8"(DN200) Valve with 1-1/2"and 2"DV-5 Valves.Use 1 1/2"x Close 112"x 2" 1/2"x 1.1/2" 112"x 2-1/2" 1/2"x 5-1/2" 1/2"x 8-1/2" corresponding sized Model CV-1FR Riser Check Valves for 3"-8"Model DV-5 Valves. 2 1/2"x Close 1/2"x Close 1/2"x 1-1/2" 1/2"x 2" 1/2"x 3" 1(2"x 3-112" 2. Nipples 1-4 vary in length relative to the 3 1/2"x 5" 1/2"x 5-1/2" 1/2"x 7" 1/2"x 6-1/2" 1/2"x 7-1/2" 1/2"x 9" Model DV-5 size used.Select per the 4 3/4"x 1-1/2" 314"x 1-1/2" 3/4"x 1-1/2" 3/4"x 2-1/2" 3/4"x 3.1/2" 3/4"x 4-1/2" table.All other nipples packed unassembled System shall be installed per the appropriate trim Main Drain 3/4"NPT 3/4"NPT 1-1/4"NPT 2"NPT 2"NPT 2"NPT exploded view,Figure 3A Part 1,2,or 3. Size 3. Install subassemblies in alphabetical order. Main Drain 4. See Figure 2 of TFP1305 for Deluge Valve Size 3/4"NPT 314"NPT 1-1/4'NPT 2"NPT 2"NPT 2"NPT Port identification. 5. Route all Tubing to Drip Funnel. QUICK RELEASING VENT FITTING SYSTEM . RELEASE PANEL WITH (GREEN TINT) AIR SUPPLY SWITCH BATTERY WATERFLOW CONTROL VALVE BACK-UP PRESSURE / (NORMALLY 1/2 INCH NPT ALARM SWITCH OPEN) 6a� CFOONR SYSTEM i Y e�� DRIP TJ at 3/4 INCH NPT ` AUTOMATIC FUNNEL /AIR SUPPLY /� CONNECTION FOR o� DRAIN WITH 1-114 '` 1 \ / 1 ,011: WATER MOTOR r B VALVE INCH NPT '�,y SOLENOID ALARM ti CONNECTION �� 'I VALVE � " TO DRAIN.; SYSTEM (NORMALLY NIPPLE °. (tii. '�,c„1cy f AIR SUPPLY 4 ' �I'�� / PLUG. PRESSURE CLOSED) e� + UNUSED ,,GAUGE : u , l SYSTEM / "' PORTS RISER "*a ' CONDUIT MAIN DRAIN CHECK VALVE r� or CONNECTION ♦ NOTE 1 _�"` CONNECTION (SIZED PER ��i( ) NIPPLE 2 \ FOR"ELECTRIC NIPPLE " (SIZED TABLE) g ' �i� r '=mow, 4-+4 Alla '. DETECTION" 1 SYSTEM MAIN DRAIN VALVE /\�� -..11111,..,„ �� AUTOMATIC NIPPLE 3 MAIN (NORMALLY �\ .frol'eo SHUT-OFF VALVE Apt DRAIN VALVE CLOSED) (NORMALLY C��, DIAPHRAGM 0 (NORMALLY�\\ E � �� 4 OPEN) l if. CHAMBER l(( ` PRESSURE CLOSED) / GAUGE ALARM `4� .�✓ Q � � Cliy TEST VALVE (NORMALLY A. -��® .,�01f I�� ��� MANUAL A CLOSED) C/�S CONTROL tt,n' xf�% .,1„ STATION SYSTEM i/' #y\�� WATER l�! C TYr 4"(DN100) DIAPHRAGM SUPPLY I ����.,. FLANGE x GROOVE I CHAMBER SUPPLY PRESSURE e` MODEL DV-5 , CONTROL VALVE GAUGE MAIN DRAIN .,DELUGE VALVE (NORMALLY 1/2 INCH NPT OPEN) CONNECTION SHOWN ) CONNECTION FROM (SIZED PER TABLE WATER SUPPLY FIGURE 3B 1-1/2 thru 8 INCH(DN40 thru DN200)MODEL DV-5 DELUGE VALVES DOUBLE INTERLOCK PREACTION SYSTEM WITH ELECTRIC/ELECTRIC ACTUATION TRIM ' WITHMODEL ORS ELECTRONIC ACCELERATOR —OPERATIONAL COMPONENTS— Page 8 of 16 TFP1100 NO. DESCRIPTION QTY. P/N NO. DESCRIPTION QTY. P/N NO. DESCRIPTION QTY. P/N 1 Releasing Panel, 19 2"Angle Valve 2 46-048-1-009 44 1/4'x 3"Nipple 1 CH Model PFC-4410-RC....1 20135 20 Drip Funnel Connector ..1 92-211-1-005 45 1/2"x Close Nipple 2 CH 2 Battery Back-Up, 21 Drip Funnel Bracket ....1 92-211-1-003 46 1/2"x 1-1/2"Nipple 17 CH Model BT-120 2 20128 22 Drip Funnel 1 92-343-1-007 47 1/2"x 2-1/2"Nipple 2 CH 3 300 psi/2000 kPa 23 3/32"Vent Fitting 1 92-032-1-002 48 1/2"x 3"Nipple 1 CH Water Pressure Gauge ..2 92-343-1-005 24 114"x 24"Tubing 1 CH 49 112"x 5"Nipple 2 CH 4 250 psi/1750 kPa 25 1/2"Tubing Connector ..2 CH 50 1/2"x 6"Nipple 1 CH Air Pressure Gauge 1 92-343-1-012 26 1/2"x 24"Tubing 2 CH 51 1/2"x 7"Nipple 2 CH 5 1/4"Gauge Test Valve ..2 46-005-1-002 27 1/4"Plug 4 CH 52 Select Nipple per Table ..2 CH 6 Quick Release Switch, 28 3/4"Plug 1 CH 53 Select Nipple per Table ..2 CH Model QRS 1 92-312-1-001 29 1/2'x 1/4'Reducing 54 Select Nipple per Table ..2 CH 7 Model MC-1 Manual Bushing 1 CH 55 3/4"x 1-1/2"Nipple 1 CH Control Station 1 52-289-2.001 30 1/2"Union 6 CH 56 3/4"x 2"Nipple 1 CH 8 Model AD-1 Automatic 31 1"Union 1 CH 57 Select Nipple per Table ..2 CH Drain Valve - 1 52-793-2.004 32 1/4"90'Elbow 1 CH 58 1"x Close Nipple 2 CH 9 Automatic Shut-Off Valve, 33 1/2"90°Elbow 8 CH 59 1"x 3"Nipple 1 CH Model ASV-1 1 92-343-1-021 34 1/2"Tee 3 CH 60 2"x 3"Nipple 4 CH 10 Waterflow Pressure 35 1/2"x 1/4"x 1/2"Tee ....3 CH Alarm Switch(PS10-2) ..1 25710 36 1/2"x 1/2"x 1/4"Tee....1 CH 11 Solenoid Valve 1 52-287-1-024 37 1/2"Cross 1 CH Select Appropriate Nipple Sizes 12 1/4"Pressure Relief 38 3/4"x 1/2"x 3/4"Tee....2 CH Nipple per DV-5 Delude Valve Size Valve 1 92-343-1-020 39 1"x 1/2"90'Elbow 1 CH No. 4" 6" 8" 13 1/2"Ball Valve 2 46-050-1-004 40 1"x 3/4"x 1"Tee 1 CH (DN100) (DN150) (DN200) 14 1/2"Spring Loaded 41 2"90°Elbow 1 CH ' Check Valve 1 92-322-1-002 42 2"x 2"x 1/2"Tee 1 CH 52 1/2"x 2.1/2" 1/2"x 5-1/2" 1;2"x 8.1/2" 15 1/2"Y-Strainer 1 52-353-1-005 43 1/4"s Close Nipple 2 CH 53 1/2"x 2" 1/2"x 3" 1/2'x 3.1/2" 16 1/2"Swing Check Valve .1 46-049-1-004 54 1;2"x 6-1/2" 1/2"x 7-1(2" 1/2"x 9" 17 1/2"Globe-Valve 1 46-047-1-004 " 18 3/4"Swing Check Valve .1 46-049-1-005 46 ` 12 57 3/4"x 2-1r" '3/4"x 3-1/2" 3/4"x 4-1/2" I ,: ' 46 36 46 17 t 16 \aa 4 33 (e) 30 1� 6 4$ :: 39 1 2 Nr 10 46 ��` 29 t��0 _ 8 . Iii 46 <<�' 44 48 23 '74"'s / 5 � (GREEN 37 _ ` y� TINT) 24 °/ 22 \ 46 c7 o \\ a i ;34i 28 J 19 l\\ ) 60 PORTS 21 J 26 '',0 ��• 47 ''��� ; 27 RISER 25 Iy 46 `r \, �1 40 1 �) CHECK VALVE tiv ,.30 LOCATION 56 4" .. U r. 31 Ir o.1 N 50 30 53 FOR OPTIONAL �'.° ���, 27 I (NOTE 1) !° it" 46 ELECTRICALLY 1t" 55 '14 m 1 Gm�fnc tiyy mer,,, 1 34•SUPERVISED 46 a>� 18 58 ■ 33 54 I N.O.ALARM 33 "")�� 57 59 -(0 �,�"tow V 33 /l CONTROL ,A\ 38 �F� 47 33 \ 3�C 3 VALVE �1 52 (ll�� !1$ l a I/ ® 45 �" (� • TI, e�. p '� 46--� 46 .► 35 Ali 13 Aph 41 '�,( 1 �, �:.� �, 51 ,�� V i— : 60 ` 46 15 i 46 7 51 49 _[ 9 30 1e Ml CV1FR 90 �.�i/ e 14 27 . .- qg qg •%q, 45 2. All Fittings and Nipples are /: 33 26 Ir galvanized(Standard Order). 'S' 1 4"(DN100) 46 33 25 33 3. CH:Common Hardware. - FLANGE x GROOVE 30 4. See Figure 2 of TFP1305 for 43 =^ \ 35 MODEL DV-5 Deluge Valve Port identification. 32 43 DELUGE VALVE 46 5. Route all Tubing to Drip Funnel, SHOWN Item 22. 13 FIGURE 3A—PART 3 OF 3 4, 6, and 8 INCH(DN100, DNI50,and DN200)MODEL DV-5 DELUGE VALVES DOUBLE INTERLOCK PREACTION SYSTEM WITH ELECTRIC/ELECTRIC ACTUATION TRIM(52-478-2-122Q) WITH MODEL QRS ELECTRONIC ACCELERATOR —EXPLODED VIEW— TFP1100 Page 7 of 16 NO DESCRIPTION QTY. P/N NO.-DESCRIPTION QTY. P/N NO. DESCRIPTION QTY. P/N 1 Releasing Panel, 17 1/2"Globe Valve 1 46-047-1-004 38 1/2"Tee 3 CH Model PFC-4410-RC....1 20135 . 18 3/4"Swing Check Valve .1 46-049-1-005 39 1/2"x 1/4"x 1/2"Tee....3 CH 2 Battery Back-Up, 19 1-1/4"Angle Valve 2 46-048-1-007 40 1/2"x 1/2"x 1/4"Tee....1 CH Model BT-120 2 20128 20 Drip Funnel Connector ..1 92-211-1-005 41 3/4"Tee 1 CH 3 300 psi/2000 kPa 21 Drip Funnel Bracket ....1 92-211-1-003 42 3/4"x 1/2"x 3/4"Tee....2 CH Water Pressure Gauge ..2 92-343-1-005 22 Drip Funnel 1 92-343-1-007 43 1-1/4"x 1-1/4"x 1/2"Tee .1 CH 4 250 psi/1750 kPa 23 3/32"Vent Fitting 1 92-032-1-002 44 1/4"x Close Nipple 2 CH Air Pressure Gauge 1 92-343-1.012 24 1/4'x 18"Tubing 1 CH 45 1/4"x 3"Nipple 1 CH 5 1/4"Gauge Test Valve ..2 46-005-1-002 25 1/2"Tubing Connector ..2 CH 46 1/2'x Close Nipple 2 CH 6 Quick Release Switch, 26 1/2"x 18"Tubing 1 CH 47 1/2"x 1-1/2"Nipple 20 CH Model QRS 1 92-312-1-001 27 1/2"x 24"Tubing 1 CH 48 1/2"x 2-1/2"Nipple 1 CH 7 Model MC-1 Manual 28 1/4"Plug 4 CH 49 1/2"x 3-1/2"Nipple 1 CH Control Station 1 52-289-2-001 29 3/4"Plug 1 CH 50 1/2"x 4"Nipple 1 CH 8 Model AD-1 Automatic 30 1/2"x 1/4'Reducing 51 1/2"x 4-1/2"Nipple 1 CH Drain Valve 1 52-793-2-004 Bushing 1 CH 52 1/2"x 5"Nipple 1 CH 9 Automatic Shut-Off Valve, 31 1/2"Union 6 CH 53 1/2"x 5-1/2"Nipple 1 CH Model ASV-1 1 92-343-1-021 32 3/4"Union . 1 CH 54 1/2"x 7"Nipple 2 CH 10 Waterflow Pressure • 33 1/4"90'-Elbow:... ,1l' ._CH 55 3/4"x 1-1/2"Nipple 5 CH Alarm Switch(PS10-2) ..1 25710 34 1/2"90°Elbow 8 CH 56 3/4"x 2"Nipple 1 CH 11 Solenoid Valve 1 52-287-1-024 35 3/4"x 1/2"90°Elbow.,..1 CH 57 1-1/4"x 2"Nipple 2 CH 12 1/4"Pressure Relief 36 1-1/4"90°Elbow 1 CH 58 1-1/4"x 3"Nipple 1 CH Valve 1 92-343-1-020 37 1/2"Cross 1 CH 59 1-1/4"x 4"Nipple 1 CH 13 1/2"Ball Valve 2 46-050-1-004 14 1/2"Spring Loaded 12 Check Valve 1 92-322-1-002 40 • 15 1/2"Y-Strainer 1 52-353-1-005 16 1/2"Swing Check Valve .1 46-049-1-004 47 "43' ,j 6 ' 47 47 A,. ,��• 17 `a,`4/ 16 35 All 34 IfrLi° 31 / E 4 55 1,2 10 47 '4,n. 30 �[(// 1\ /47 47 �c � I 45 � �: �: 5 :i o 23 37 v/`) '' y� 8 • �� .- (GREEN 38 TINT) X24 47 -- 28 ii 22 /� 39 57 1 20 / 42 19 <,� �i11\ I� 21 V 29 �' ' \ 58 l PLUG \ 11 1 / \ 43 UNUSED 27 °fin a-) 48 ��Z�� 41 i PORTS RISER 25 - 47 % 55 28 I CHECK VALVE 'y,,, 31 LOCATION 56 WO 32 j/ (NOTE 1) 53 31 47 A. 47 FOR OPTIONAL 4, s�Q, , , 55 Ike ELECTRICALLY ` 55 28 f o 50 '� SUPERVISED 47 a111� 18 ,,F/,y�e IA 0 34 54 38 00 N.O.ALARMS CONTROL 34 �\ 55 l \ ,�,_ .' 34 34 /a VALVE 1' 42 l �� �1 38 C' 3 iii ViT /47 36 ` �! , ! 47 ... .46 - I : A1 10 e 1 47 39 13 d8� 57 59 54 s 52 19 15 r ,, / 0. 47 7 ` 3 ,' 'I� NOTES: 31 51 / 34 \ g 31 t= 1. Use only the Model CV-1FR 28 (iffr 5 / A 1 N. I, Riser Check Valve. /,,�� ;.��ti 3"(DN80) �1° 47 47 49 a4yry 46 R ." GROOVE x GROOVE 26 40 2. All Fittings and Nipples are ^ \ MODEL DV-5 47 galvanized(Standard Order). 47 DELUGE VALVE 34 25 34 3. CH:Common Hardware. 44 \ 39 SHOWN 31 4. See Figure 2 of TFP1305 for 33 44 Deluge Valve Port identification. 47 5. Route all Tubing to Drip Funnel, Gig Item 22. 13 1i FIGURE 3A—PART 2 OF 3 3 INCH(DN80)MODEL DV-5 DELUGE VALVES DOUBLE INTERLOCKPREACTION SYSTEM WITH ELECTRIC/ELECTRIC ACTUATION TRIM(52-478-2-125Q) WITH MODEL QRS ELECTRONIC ACCELERATOR —EXPLODED VIEW— Page 6 of 16 TFP1100 NO. DESCRIPTION QTY. P/N NO. DESCRIPTION QTY. P/N NO. DESCRIPTION QTY. P/N 1 Releasing Panel, 16 1/2"Swing Check Valve .1 46-049-1-004 37 1/2"Tee 3 CH Model PFC-4410-RC....1 20135 17 1/2"Globe Valve 1 46-047-1-004 38 1/2"x 1/4"x 1/2"Tee....3 CH 2 Battery Back-Up, 18 3/4"Swing Check Valve .1 46-049-1-005 39 1/2"x 1/2"x 1/4"Tee....1 CH Model BT-120 2 20128 19 3/4"Angle Valve 2 46-048-1-005 40 1/2"Cross 1 CH 3 300 psi/2000 kPa 20 Drip Funnel Connector .•1 92-211-1-005 41 3/4"Tee 1 CH Water Pressure Gauge ..2 92-343-1-005 21 Drip Funnel Bracket ....1 92-211-1-003 42 3/4"x 1/2"x 3/4"Tee....2 CH 4 250 psi/1750 kPa 22 Drip Funnel 1 ,92=343-.1-007 43 1"x 3/4"x 1/2"Tee 1 CH Air Pressure Gauge 1 92-343-1-012 23 3/32"Vent•Fitting 1 -.92-032-1=002 • 44•1/4"x Close Nipple .. 2 CH 5 1/4"Gauge Test Valve ..2 46-005-1-002 24 1/4"x 18"Tubing.•.....1 CH 45 1/4"x 3"Nipple 1 CH 6 Quick Release Switch, 25 1/2"Tubing Connector ..2 CH 46 1/2"x Close Nipple 3 CH Model QRS 1 92-312-1-001 26 1/2"x 12"Tubing 1 CH 47 1/2"x 1-1/2"Nipple 17 CH 7 Model MC-1 Manual 27 1/2"x 24"Tubing 1 CH 48 1/2"x 2"Nipple 1 CH Control Station..,.,.....1 52-289-2-001 28 1/4"Plug 4 CH 49 1/2"x 2-1/2"Nipple 3 CH 8 Model AD-1 Automatic 29 3/4"Plug 1 CH 50 1/2"x 4"Nipple 1 CH Drain Valve 1 52-793-2-004 30 112"x 1/4"Reducing 51 1/2"x 5"Nipple 2 CH 9 Automatic Shut-Off Valve, Bushing 1 CH 52 1/2"x 7"Nipple 1 CH Model ASV-1 1 92-343-1-021 31 1/2"Union 6 CH 53 Select Nipple per Table ..2 CH 10 Waterflow Pressure 32 3/4"Union 1 CH 54 Select Nipple per Table ..2 CH Alarm Switch(PS10-2) ..1 25710 33 1/4"90°Elbow 1 CH 55 3/4"x 1-1/2"Nipple 7 CH 11 Solenoid Valve 1 52-287.1-024 34 1/2"90°Elbow B CH 56 3/4"x 2"Nipple 1 CH 12 1/4"Pressure Relief 35 3/4"90°Elbow 1 CH 57 3/4"x 4"Nipple 1 CH Valve 1 92-343-1-020 36 3/4"x 1/2'90°Elbow....1 CH 58 1"x 2"Nipple 1 CH 13 1/2"Ball Valve 2 46-050-1-004 14 1/2"Spring Loaded iL Check Valve 1 92-322.1-002 39 15 1/2"Y-Strainer 1 52-353-1-005 Select Appropriate Nipple Sizes 4• A0 Nipple per DV-5 Deluge Valve Size Number 16 c 47 1-1/2"(DN40) 2"(DN50) ' fo 47p 17 53 1/2"x Close 1/2"x 2" 34 17/ 3__ 54 1/2'x 5" 1/2"x 5-1/2' 31 6 F:- 4 10 47 47 w, 1/0-:„,30 45 ea 23 - "' 0 40 (GREEN �,,. / 11111 1,2 TINT) 24 I 58 4-erc, 38 ®• 50 - I 42 &a Ol�lA 55 5 28 �� 27 1' 19 55 43 d6 25 11 29 6- 49 41 .% „ PLUG i' ���►° 47 UNUSED : 47 LOCATION 56 55 We r 28 PORTS 51 31 46 ari w 31 • FOR OPTIONAL 4,\ .0 v, 55 !+'r 47 ELECTRICALLY 13 55 fK' 1G, SUPERVISED 47 e\� 18 32 •,1 u> 28 Nae \ 37 N.O.ALARM 34 � 55 �i 34 54 « 49 CONTROL VA ` s 42 it0 I W ` r 34 34 /in 3 �/e 2. � RISER 1 " 37 wry ( 53 r�ai: 35 �y CHECK 47 ; 13 i19 55 57 ,�\�: VALVE _ 46 4 \ 47 ,� 38 i t 4 u I"77t�� (NOTE 1) ll ac r. L 52 49 3 51 14i 47 7 ,off>%° 26 5 47 2"(DN50) 47 9 G:q 31 lr NOTES: ,1 GROOVE x GROOVE — 1. Use only the Model CV-1FR �': , et''' 'C y Vic;' 46' 31 MODELDV•5 .\ 75 I 0a, Y 46 Riser Check Valve. 4,4' DELUGE VALVE 48 26 I`p' 2. All Fittings and Nipples are SHOWN / galvanized(Standard Order). 44 '=� 38 AO, 34 47 25 44 ∎,.. 47 34 34 3. CH:Common Hardware. 33 10 8 31 4. See Figure 2 of TFP1305 for 37 Deluge Valve Port identification. 11 /22 47 5. Route all Tubing to Drip Funnel, 20 Item 22. I 13 21 OW) FIGURE 3A—PART 1 OF 3 1-1/2 and 2 INCH(DN40 and DN50)MODEL DV-5 DELUGE VALVES DOUBLE INTERLOCK PREACTION SYSTEM WITH ELECTRIC/ELECTRIC ACTUATION TRIM(52-478-2-128Q) WITH MODEL QRS ELECTRONIC ACCELERATOR . —EXPLODED-VIEW-,: : 7 7. TFP1100 Page 5 of 16 QUICK P/N 52-312-2-001 RELEASE NO DESCRIPTION QTY P/N 10 SWITCH 1 Quick Release Switch, Model ORS 1 92-312-1-001 U 1 2 Solenoid Valve 1 52-287-1-024 r 8 3 1/2"Union 2 CH 4 E 3 4 112"Tee 1 CH 5 1/2"90°Elbow 2 CH 7 C itte, �„�` 7 6 1/2"x Close Nipple 2 CH ', 5 7 1/2"x 1-1/2"Nipple 2 CH 1/2"NPT ( • 8 1/2"x 5-1/2"Nipple 1 CH ACCELERATOR 9 1/2"x4-1/2"Nipple TRIM CONNECTION for Inch Valves 1 CH TO AIR SUPPLY '"4".32'. .,'"4".32'. .,` e 1/2"x 7"Nipple PORT for 6 Inch Valves 1 CH 0 0 IVA•� " 10 1/2"x Inch Valves Nipple 0 0 ` .y��� s, 10 for 4 Inch Valves 1 CH �(.I -)►' 1/2"x 8-1/2"Nipple °\Iiii%V �.r 5 for 6 Inch Valves 1 CH �. CH:Common Hardware 1* 1r 2 SOLENOID � `),- .� VALVE '=trIPArmor://� toy 6 I QUICK '�"`� --,411 1/2"CONDUIT RELEASE �0 3: . ei CONNECTION \�,� SWITCH NO a TO-RELEASING '.J 1/2"NPT PANEL v� 1 ��� ACCELERATOR 6 �(° 8 4 INCH(DN100) TRIM CONNECTION 4 �C ( 3 TO INTERMEDIATE MODEL DPV-1 7 ire DRY PIPE VALVE CHAMBER 7 y�4ti 5 WITH TRIM 1/2"NPT *4P fl ACCELERATOR TRIM CONNECTION �� TO AIR SUPPLY PORT & Z 1%" 0 10 "1 o,. \;`O 6 INCH(DN150) j� • • �' 9 SOLENOID MODEL DPV-1 4. VALVE DRY PIPE VALVE. �N '�►J) = WITH TRIM ' s>�7C . '` 'i7 S4 r 'ri l��� �� ,....- 2 1/2"CONDUIT CONNECTION tQi!-1•��t TO RING j• : l � 6 , ��. 00/„,6 1/2"NPT - Li 'ACCELERATOR ° M CONNECTION TO INTERMEDIATE CHAMBER FIGURE 2 MODEL QRS ELECTRONIC ACCELERATOR RISER COMPONENTS INSTALLATION DIAGRAM FOR THE 4 AND 6 INCH MODEL DPV-1 DRY PIPE VALVES Page 4 of 16 • TFP1100 2800(10598) 2600(9841) ,.�`1'' 11 i L/.111111111111•111111121111 //111111 III 4111111 2400(9084) MI ■ , AIME I I 2200(8327) I I .d w 2000 7570' I %56 1 , 0 z 1800(6813) Will�■ p� O ®�� i- 2--/ 1600(6056) ■11111111PL , 1 MIME I x Ni�< 1400(5299) 1200(4542) • I _I ' �' 1000(3785) ppr- 800(3028) I 1 1 1 10 20 30 40 50 60 (0,7) (1,4) (2,1) (2,8) (3,4) (4,1) MINIMUM SYSTEM AIR PRESSURE,PSI(BAR) Note 1.Quick operation of the Electronic Accelerator does not ensure that the fire protection system will meet the water delivery time requirement of the authority having jurisdiction (following opening of the Inspector's Test Connection). The sprinkler system designer has to be aware that water delivery time is primarily determined by the configuration anc volume of the piping network, system air pressure at time of Accelerator trip, number and orifice size of open sprinklers, and water supply characteristics. . Note 2.The sensitivity criteria for the Model QRS Electronic Accelerator is a function of its pressure decay for trip rating of 0.1 psi(0,007 bar) per second, as well as the system volume, the K-factor of the sprinklers being utilized, and the minimum initial air pressure.The larger the system volume combined with smaller sprinkler K-factor or lower initial air pressure results in a slower air decay rate upon the first sprinkler operation. Conversely, a smaller system volume combined with a larger sprinkler K-factor or higher initial air pressure results in a faster air decay rate. Note 3.When the sprinkler system has been designed within the criteria provided by Graph A, operation of the Model QRS Electronic Accelerator and subsequent operation of the associated dry pipe or preaction valve can be expected within four seconds. In the case of the double interlock preaction system, operation is based on the electric detection system operating before a first sprinkler operation. Note 4. The minimum system air pressure must be the greater of that required for the dry pipe/preaction valve as a function of the maximum expected water supply pressure or per.Graph A when using the Model QRS Electronic Accelerator. Note 5.When multiple sprinkler operations are being considered as in the case of using a dry system water delivery design per the 2007 edition of NFPA 13, Section 7.2.3.6, use the "11.2 K-factor and larger" curve as referenced in Example 3. , Example 1.Assuming a system volume of 1500 gallons(5680 liters)and the use of sprinklers having a K-factor of 5.6, the minimum system air pressure must be 18.5 psi(1,3 bar). Example 2. Assuming a system volume of 2000 gallons (7570 liters) and the use of sprinklers having a K-factor of 8.0,the minimum system air pressure must be 16.0 psi (1,1 bar). Example 3.Assuming the use of a dry system water delivery design per the 2007 edition of NFPA 13,Section 7.2.3.6, wherein the operation of two 5.6 K-factor sprinklers might be anticipated (and the effective K-factor is then 11.2),the "11.2 K-factor and larger"curve can be utilized. Consequently,assuming a system volume of 2400 gallons(9084 liters), the minimum system air pressure must be 11.5 psi(0,8 bar). GRAPH A MODEL QRS ELECTRONIC ACCELERATOR ' SENSITIVITY CRITERIA'BASED ON FM APPROVAL— lir TFP1100 Page 3 of 16 THE QRS QUICK RELEASE SWITCH IS TO BE WIRED TO THE MODEL PFC-4410-RC RELEASING PANEL USING SHIELDED CABLE IN METAL CONDUIT(RIGID OR FLEXIBLE).CONNECT DRAIN WIRE OF SHIELD TO EARTH GROUND OF'THE PFC-4410-RC ONLY.DO NOT CONNECT DRAIN WIRE TO QRS. SHIELDED CABLE:8 CONDUCTOR,22 AWG STRANDED,PVC JACKET,OVERALL FOIL SHIELD WITH DRAIN. (ALPHA WIRE TYPE 5198C OR EQUIVALENT.) MODEL QRS QUICK RELEASE SWITCH P/N 92-312-1-001 4 INCH(DN100) . MODEL DPV-1 DRY PPE VALVE �� WITH TRIM SHOWN ; rt. o o ' r 0 0 x.16- --4j1 120 VAC [ 1::] 0 °A 4 0 o �, � MODEL QRS I \ � i a �i,w,o ELECTRONIC I ACCELERATOR TRIM /J P/N 52.312-2-001 / ra'4�1<<�/, =:i / MODELPFC-4410-RC ������' A *, RELEASING PANEL, P/N 20135, lip '-, '.. � \ / MODEL BATTERY BACK-UP,, SW i P/N 20128• li1 klit / ��. 24 VDC u SOLENOID VALVE (NORMALLY CLOSED UNTIL ENERGIZED) • P/N 52-287-1-024 • • • FIGURE 1 MODEL QRS ELECTRONIC ACCELERATOR —TYPICAL ARRANGEMENT SHOWN ON ONE DRY PIPE VALVE— Switch Setting Low Air Threshold Nominal Pressure High Air Threshold PSI(Bar) PSI(Bar) PSI(Bar) . • 0 7(0,48) 10(0,69) 15(1,04) 1 7(0,48) 15(1,04) 20(1,38) 2 15(1,04) 20(1,38) 25(1,72) 3 15(1,04) 25(1,72) 30(2,07) 4 20(1,38) 30(2,07) 35(2,41) 5 25(1,72) 35(2,41) 40(2,76) 6 30(2,07) 40(2,76) 45(3,10) 7 35(2,41) 45(3,10) 50(3,45) 8 45(3,10) 55(3,79) 60(4,14) 9 55(3,79) 65(4,48) 70(4,83) TABLE A HIGH/LOW PRESSURE SETTINGS FOR THE MODEL QRS QUICK RELEASE SWITCH Page 2 of 16 TFP1100 standards of any authorities having ju- Pressure Decay For Trip Rating risdiction. Failure to do so may impair Technical 0.1 psi/sec. (0,007 bar/s) the performance of this device. Data High/Low Pressure Settings The owner is responsible for maintain- Refer to Table A. ing their fire protection system and de- .Appravafs vices in proper operating condition. Environmental Specifications The installing contractor or sprinkler UL Listed: The QRS Quick Release Switch is for manufacturer should be contacted The Model QRS Electronic Accelera- indoor use only(NEMA 1/IP50). with any questions. tor is UL Listed per UL1486 for a Battery Back-Up The QRS uses electronic components maximum system capacity of 1690 Battery back-up is provided by two to monitor the system air pressure. gallons mina 5.6 K litters) for a a single BT 120(12 AH) Batteries. Keep all radio transmitters or RF nominal 5.6 K-factor sprinkler and a sources at least ane foot from the maximum working water pressure of The nominal battery back-up times are QRS. Failure to do so could result in 175 psi (12,1 bar). as follows for dry pipe systems: an unintended operation of the dry FM Approved: • 40 hours in standby with four QRS's. pipe or preaction system. The Model QRS Electronic Accelera- • With 4 QRS's connected, 1 in alarm For additional information please refer tor is FM Approved based on the and the solenoid activated continu- For additional Potter Electric io Signal Company sensitivity criteria provided in Graph ously, the batteries will provide 12 Data Sheet #5471131 for the QRS A and a maximum working water additional hours of standby. Quick Release Switch and/or Manual pressure of 250 psi (17,2 bar). #5403545 for the PFC-4410-RC Re- Listings and approvals are under the With 3 solenoid connected,ac activated d 1 in alarm leasing Panel. name of Potter Electric Signal Com- and the solenoid activated provide 3 ously, the batteries will provide 13 pany, additional hours of standby. NOTICE • With 2 QRS's connected, 1 in alarm and the solenoid activated continu- Quick operation of the Electronic Ac- ously, the batteries will provide 14 celerator does not ensure that the fire additional hours of standby. protection system will meet the water For double interlock preaction sys- delivery time requirement of the tems,battery calculations must be per- authority having jurisdiction (following formed by the system designer to de- opening of the Inspector's Test Con- termine adequacy of the two BT-120 nection). The sprinkler system design (12 AH) Batteries to meet the require- must be knowledgeable that water de- ments of the authority having jurisdic- • Il>ery time is primarily determined by tion:Battery site may be increased as the configuration and volume of the necessary with the use of a separately piping network, system air pressure at ordered battery cabinet. time of Accelerator trip, number and • orifice size of open sprinklers, and Patent water supply characteristics. U.S.A. No. 5,971,080 In the case of a double interlock preac- tion system, water delivery is also based on the electric detection system operating before the first sprinkler ac- tivates. Dry Pipe Valve Compatibility The Model QRS Electronic Accelera- tor is UL Listed and FM Approved for use with the following dry pipe valves: 4 and 6"(DN 100/150)TFBP DPV-1 3"(DN80)Central AF 4 and 6"(DN100/150)Central AF/AG 4 and 6"(DN100/150)Gem F302/F3021 4 and 6"(DN100/150)Star Model A 4 and 6"(DN100/150)Star Model A-1 Preaction System Compatibility The Model QRS Electronic Accelera- tor is UL Listed and FM Approved for use with the 1-1/2 thru 8 inch (DN40 thru DN200)Model DV-5 Double Inter- lock Electric/Electric Preaction Sys- tern. Refer; to 'Technical,Data;Sheet TFP1465 for additional details. Maximum Working Air Pressure 70 psi (4,8 bar) • tlJCI3 Fire Suppression Building Products Technical Services: Tel: (800) 381-9312/ Fax: (800)791-5500 Model QRS Electronic Accelerator (Quick Opening Device) For Dry Pipe or Preaction Systems General Description The Tyco® Model QRS Electronic Ac- „ " '_ .. ,.i celerator is a quick opening device in- tended to reduce the operating time of - ., ) , a dry pipe valve in a dry pipe system "' or an automatic control valve (deluge valve) in a double interlock elec- 4 ' its tric/electric preaction system. i- .� � ” The control panel for the QRS may be '� ....,. used with up to four QRS switches for ''& r one to four system risers using of the �.' � � following dry pipe valves: ' ' • TFSBP 4 & 6 inch (DN100/150) . _ r K , Model DPV-1 Dry Pipe Valves. • Central 3 inch (DN80) Model AF or a Central 4 & 6 inch (DN100/150) V� ..,-. 1 Model AF/AG Dry Pipe Valves. a V • Gem 4 &6 inch (DN100/150) Model c�, o 4, k‘ ��° F302/F3021 Dry Pipe Valves. , . • Star 4&6 inch(DN100/150)Models - 4.0.4' A or A-1 Dry Pipe Valves. The control panel for the QRS may be • In the case of a dry. pipe valve, the valve within four seconds — inde- used with one QRS switch for one sys- energized Solenoid Valve introduces pendent of various combinations of tern riser using the following automatic system air pressure to the intermedi- system initial air pressures, system control valve (deluge valve) used in a ate chamber of the dry pipe valve.This volumes, or sprinkler K-factors. double interlock electric/electric pre- pressure neutralizes the differential . One release panel can control up to ac tion system: pressure holding the dry pipe valve four dry pipe systems or one double • TFSBP 1-1/2 thru 8 inch(DN40 thru closed and permits it to open. interlock preaction system. DN200) Model DV-5 Deluge Valve. In the case of a double interlock elec- tric/electric preaction system, the en- • Built-in low pressure and high ores - The Model QRS Electronic Accelera- ergized Solenoid Valve releases dia- sure alarm supervision. tor (Ref. Figure 1) utilizes a unique phragm pressure from the automatic . Proven electric release technology system air pressure monitoring device control valve (deluge valve) to permit as used for electrically operated del- (UL and C-UL Listed, as well as FM the automatic`control valve (deluge y p Approved, Model QRS Extinguishing ( ,,: g uge and preaction systems. pp g g valve)to open. System Attachment)that continuously • Battery back-up in the event of pri- samples air pressure twice per sec- The Model QRS Electronic Accelera- mary power failure. ond. When the air pressure is deter- tor automatically adjusts to both small mined, to have a sustained drop ex- and slow changes in system pressure, NOTICE ceeding a rate of 0.1 psi (0,007 bar) but trips when there is a steady drop in per second as verified by three con- pressure (as in the case of sprinkler The Model QRS Electronic Accelera- secutive samplings, the QRS signals operation). Releasing Panel (Model PFC tor described herein must be installed the the 4410-RC)e via its"Panel Input"initiating The QRS Electronic Accelerator fea- and maintained in compliance with this tures the following: document and with the applicable zone circuit,which energizes the Sole- e a pp noid Valve. • Operation of a dry pipe or preaction standards of tion Associatio do National Fire t otthe n, in addition to the Page 1 of 16 MAY, 2009 TFPI 100 Page 14 of 14 TFP1465 • curate or incomplete information sup- DELUGE VALVE(SELECT ONE) plied by Buyer or Buyer's repre- P/N's are for American Standard Groove x Groove Connections,and Threaded Ports,For sentatives. other configurations refer to Technical Data Sheet TFP1305.Specify:(size)Model DV-5 In no event shall TFSBP be liable, in groove x groove Deluge Valve,P/N(specify). contract, tort, strict liability or under 1-1/2 Inch P/N 52-477-1-919 any other legal theory, for incidental, 2 Inch P/N 52-477-1-910 indirect,special or consequential dam- 3 Inch P/N 52-477-1-912 ages, including but not limited to labor 4 Inch P/N 52-477-1-913 6 inch P/N 52-477-1-915 charges, regardless Of 'whether 8 Inch P/N 52-477-1-916 TFSBP was informed about the possi- RISER CHECK VALVE(SELECT ONE) bility of such damages,and in no event P/N's are for American Standard Grooved Connections.For other configurations refer to shall TFSBP's liability exceed an Technical Data Sheet TFP950 for the groove x groove Model CV-1FR Riser Check Valve. amount equal to the sales price. Specify: (size), Model CV-1 FR groove x groove Riser Check Valve, P/N (specify). For The foregoing warranty is made in lief 1-1/2 inch risers, use the 2 Inch Riser Check Valve. of any and all other warranties. ex- 2 Inch P/N 59-590-1-020 press or imolied, including warranties 3 Inch P/N 59-590-1-030 of merchantability and fitness for a par- 4 Inch PIN 59-590-1-040 ticular purpose, 6 Inch P/N 59-590-1-060 8 Inch P/N 59-590-1-080 This limited warranty sets forth the ex- COUPLING(SELECT ONE) ' • •.a clusive remedy for claims based on P/N's are for American Standard Grooved Connections, For other configurations and failure of or defect in products, materi- finishes refer to Technical Data Sheet TFP1830 or TFP1880.A coupling to attach the als or components, whether the claim Riser Check Valve to the outlet of the Deluge Valve must be separately ordered.Specify: is made in Contract;tort, strict liability (Size), (Figure #), painted, (description), P/N (specify). For 1-1/2 inch risers, order an or any other legal theory. additional Reducing Coupling for the outlet of the 2 inch Riser Check Valve. This warranty will apply to the full ex- 2 x 1-1/2 Inch Figure 716 Painted Reducing Coupling P/N 7162015ES tent permitted by law.The invalidity, 2 Inch Figure 772 Painted Rigid Coupling P/N 77220ASC y' n 3 Inch Figure 772 Painted Rigid Coupling P/N 77230ASC whole or part, of any portion of this 4 Inch Figure 772 Painted Rigid Coupling P/N 77240ASC warranty will not affect the remainder. 6 Inch Figure 772 Painted Rigid Coupling P/N 77260ASC 8 Inch Figure 772 Painted Rigid Coupling P/N 77280ASC DOUBLE INTERLOCK PREACTION TRIM (SELECT ONE) Specify:(specify size),(specify galvanized or black—galvanized is standard)Semi-Pre- Ordering assembled Double'Interlock Preaction System With Electric/Electric Actuation Trim for Model DV-5 Deluge Valves (specify'without or with) Model QRS Electonic Accelerator, Procedure P/N(specify). -WITHOUT MODEL QRS ELCTRONIC ACCELERATOR- • With reference to Table A onpa e 14, 1-1/2&2 Inch Galvanized P/N 52-478-2-128 Page 1-112&2 Inch,Black P/N 52-478-1-128 the following items must be ordered 3 Inch Galvanized . P/N 52-478-2-125 separately: 3 Inch Black P/N 52-478-1-125 4,6&8 Inch Galvanized P/N 52-478-2-122 • Deluge Valve 4,6&8 Inch Black D P/N 52-478-1-122 • Riser Check Valve -WITH QRS MODEL ELECTRONIC ACCELERATOR- (See Technical Data Sheet TFP1100 for details, • Coupling (Deluge Valve to Riser Includes QRS Release Switch,Releasing Panel,Solenoid Valve,and Check Valve) Back-up Batteries) 1-1/2&2 Inch Galvanized P/N 52-478-2-128Q • Double Interlock Preaction Trim 3 Inch Galvanized P/N 52-478-2-125Q • Automatic System Air Supply 4,6&8 Inch Galvanized P/N 52-478-2-1220 • Solenoid Valve AUTOMATIc SYSTEM:AIR SUPPLY(SELECT ONE)„:, A device capable of maintaining a nominal system air or nitrogen pressure of nominal 15 • Accessories psi(1,0 bar)must be separately ordered.Specify: (Specify model and description),P/N (specify). Note:1-1/2 inch(DN40)risers utilize a Model AMD-1 Air Maintenance Device(TFP1221)inch (DN50) Riser Check Valve in ( ) P/N 52-324-2-002 Model AMD-3 Nitrogen Maintenance Device(TFP1241) P/N 52-328-2-001 combination with the 1-1/2 (DN40) SOLENOID VALVE(SELECT ONE ONLY WHEN USING DOUBLE INTERLOCK PRE- Model DV-5 Deluge Valve. ACTION TRIM WITHOUT QRS ACCELERATOR) Note: Part Numbers for factory pre- A Solenoid Valve compatible with the anticipated maximum water supply pressure must trimmed Model DV-5 Valves are pro- be ordered separately. Refer to Technical Data Sheet TFP2180 for other voltage ratings vided in the Price Book. and NEMA classifications.Specify:24 VDC,NEMA 2,4 and 4X,(specify 175 or 250 psi) Solenoid Valve, P/N(specify). Replacement Trim Parts: 175 psi P/N 52-287-1-024 Specify: (description) for use with 250 psi P/N 52-287-1-124 Model DV-5 Deluge Valve, P/N (see ACCESSORIES (AS NEEDED) Figure 2A). Specify:(description), PN(specify). 600 PSI Water Pressure Gauge P/N 92-343-1-004 Model WMA-1 Water Motor Alarm(TFP921) P/N 52-630-1-001 ' TABLE A—ORDERING LIST ©2009 TYCO FIRE SUPPRESSION&BUILDING PRODUCTS,451 North Cannon Avenue,Lansdale,Pennsylvania 19446 TFP1465 Page 13 of 14 turer should be contacted relative to Verify the'operation of the Releasing tially opening the System Main Drain any questions. Panel and its associated alarms. Valve (Fig. 2B) to relieve air pressure Automatic sprinkler systems are rec- • Verify that there is no leakage from at the Low Pressure Alarm Switch,and ommended to be inspected, tested, the Solenoid Valve(Fig. 2B). verify the following: and maintained by a qualified Inspec- tion Service in accordance with local Note: During this procedure,the Sole- . Verify that the DV-5 Deluge Valve requirements and/or national codes. noid Valve should remain closed and operates, as is indicated by a dis- h is recommended that the System the DV-5 Deluge Valve Diaphragm charge of water from the System Inspection Procedure be performed at Chamber should remain pressurized. Main Drain Valve. least semi-annually by a qualified In- This procedure is used to yeri(y,that • Verify that the Waterflow Pressure spection Service. The Double Inter- the DV-5 Deluge Valve•v✓ill'remain set Alarm'Switch(Fig.2B)and its asso- lock Preaction System Inspection Pro- if the electric detection system(Zone 1) ciated alarms properly operate. cedure may be followed in lieu of operates but the sprinkler system • Verify that the Water Motor Alarm, if performing any of the operational tests (Zone 2)remains in its normally pres- applicable, properly operates. recommended in the Technical Data surized condition. Sheets for the Model DV-5 Deluge Step 4.Restore the electric fire detec- Note: This procedure simulates auto- Valve, Riser Check Valve,24 VDC So- tion system to a normal condition in matic system operation upon both lenoid Valve, and Model MC-1 Manual accordance with the manufacturer's electric detection and loss of system Control Station. instructions. air pressure. NOTICE Step 5. Open the Inspector's Test Step 12. Reset the Double Interlock Connection to relieve system air pres- Dry System in accordance with the It is recommended that the individuals sure, and verify the following: System Setting Procedure section. responsible for the care and m Preac- Verify that the Low Air Pressure Quarterly Waterflow Alarm Test nance of the Double Interlock Preac Alarm Switch (Fig. 2B)Air Procedure tion System develop a working under- ( g• ) d Zone 2 standing of the system, in general, of the Releasing Panel,as well as its Testing of the system waterflow prior to performing inspection and/or associated alarms, operate prop- alarms must be performed quarterly. maintenance procedures. These in- erly. The Low Pressure Alarm To test the waterflow alarm, open the structions, as well as individual in Switch should operate at approxi- Alarm Test Valve, which will allow a structions for the deluge valve, riser mately 12 psi (0,8 bar), flow of water to the Waterflow Pres check valve, solenoid valve, manual • Verify that there is no leakage from sure Alarm Switch and/or Water Motor control station,switches,and pressure the Solenoid Valve (Fig.2B). of the Upon satisfactory Test Valve. maintenance device should be re of the test,close the Alarm Test Valve. viewed. Close the Inspector's Test Connec- ,,/ • The following procedures pertain to tion. LImI fed,/ the automatic control valve portion of Note: During this procedure, the Sole- warranty the Double interlock Preaction Sys- noid Valve should remain closed and . tem. Refer to the manufacturer's in- the DV-5 Deluge Valve Diaphragm Products manufactured by Tyco Fire structions and NFPA 25 for care and Qhambersl ould re.haira pressurized. Suppression•L Building Products maintenance procedures for all other This procedure is used to verify that (TFSBP) are warranted solely to the devices (e.g., electric detection, main the DV-5 Deluge Valve will remain set on inal Buyer for ten (10) years control and system shut-off valves,su- g Y ( ) Y pervisory devices, sprinklers, etc.). if the Low Pressure Alarm Switch against defects in material and work- (Zone 2) operates due to loss of sys- manship when paid for and properly Before performing the System Inspec- tem air pressure and the electric de- installed and maintained under normal tion Procedure, which will result in op- tection system (Zone 1) remains in a use and service.This warranty will ex- eration of alarms, notify the proper normal condition. pire ten (10) years from date of ship- authorities and all personnel who may Step 6. Restore the electric fire detec ment by TFSBP. No warranty is given be affected. tion system to a normal condition in for products or components manufac- Before closing a fire protection system accordance with the manufacturer's tured by companies not affiliated by main control valve for maintenance instructions after the system air pres- ownership with TFSBP or for products work on the fire protection system that sure has automatically been restored and components which have been it controls,permission to shutdown the to normal. subject to misuse, improper ot bela- affectedfire protection system must be • tion,corrosion,or which have not been obtained from the proper authorities Step 7. Close the System Shut-off installed, maintained, modified or re- Valve(Fig. 1). paired in accordance with applicable and all personnel who maybe affected by this action must be notified. Step 8. Open the Main Control Valve Standards of the National Fire standards 1,)one turn beyond the position at tion Association, and/or the standards System Inspection Procedure which water just begins to flow from of any other Authorities Having Juris- Step 1. Close the Main Control Valve the Main Drain Valve (Fig. 2B). diction, Materials found by TFSBP to (Fig. 1) and then open the DV-5 Main be defective shall be either repaired or Drain Valve (Fig.2B). Step 9. Close the Main Drain Valve. replaced, at TFSBP's sole option. Step 10. Close the Air Supply Control TFSBP neither assumes, nor author- Step 2.Manually operate Zone 1 of the Valve. izes any person to assume for it, any Releasing Panel,and verify the follow- other obligation in connection with the ing: Step 11. Manually operate Zone 1 of sale of products or parts of products. the Releasing Panel,and then operate TFSBP shall not be responsible for Zone 2 of the Releasing Panel by par- sprinkler system design errors or inac- Page 12 of 14 TFP1465 contacts are to be connected to the klers must be of the same type and Diaphragm Chamber Supply Control Zone 2 initiating circuit contacts of the temperature rating as those that oper- Valve, and monitor the Diaphragm Cross-Zone Deluge Valve Releasing ated. Chamber Pressure Gauge for a drop Panel in presSUre. Step 13. Before a system hydrostatic NOTICE If a drop in pressure is noted,the DV-5 test is performed in accordance with Diaphragm is to be replaced and/or NFPA 13 system acceptance test re- In order to prevent the possibility of a any leaks must be corrected before quirements, the DV-5 Diaphragm subsequent operation of an over- proceeding to the next step. Chamber is to be depressurized; the heated solder type sprinkler, any sol- Automatic Drain Valve(4, Fig.2A)is to der type sprinklers that were possibly If the Diaphragm Chamber Pressure be temporarily replaced with a 1/2 inch exposed to a temperature greater than Gauge does not indicate a drop in NPT plug, the 3/32 inch Vent Fitting their maximum rated ambient must pressure, re-open the Diaphragm (16 - Fig. 2A) is to be temporarily re- also be replaced. Chamber Supply Control Valve and placed with a 1/4 inch NPT plug, and proceed to the next step. Step 8. Service the air dryer, if appli- the Diaphragm Cover Bolts must be cable, in accordance with the manu- Step 15.Slowly open the Main Control uniformly and securely tightened facturer's instructions. Valve. Close the Main Drain Valve as using a cross-draw sequence. After soon as water discharges from the tightening, double-check to make cer- Step 9. Open the System Air Supply drain connection. Observe the Auto- tain that all of the Diaphragm Cover Control Valve and allow the system to matic Drain Valve for leaks.If there are Bolts are securely tightened. automatically re-establish its nominal leaks, determine/correct the cause of air pressure of 15 psi (1,0 bar). Ob- the leakage problem. If there are no serve the Automatic Drain Valve for leaks, the DV-5 Valve is ready to be Leaks. If there are leaks, deter- placed in service and the Main Control Valve Setting mine/correct the cause of the leakage Valve must then be fully opened. problem within the Riser Check Valve. Procedure Step 10. Reset the actuation system. NOTICE Steps 1 through 15 are to be per- Manual Actuation—Push the operat- formed when initially setting the Tycoo ing lever up; however,do not close the When the Main Control Valve is Dia- hinged cover at this time. opened, the pressure on the Model DV-5 Deluge Valve; after an phragm Chamber may increase. This operational test of the fire protection Electric Actuation—Reset the electric increase in pressure is normal, and if system;or,after system operation due detection system in accordance with the pressure is greater than 250 psi to a fire. the manufactu,ter's,instructiohs.to de- (17,2 bar),,,the pressure is to be re- Step 1. Close the Main Control Valve. energize the Solenoid Valve. lieved by partially and temporarily Step 2. Close the Diaphragm Cham- Note: For systems eqipped with the opening the Manual Control Station; Model QRS Electronic Accelerator in- however, do not allow the pressure as ber Supply Control Valve and the Sys- stalled per Technical Data Sheet indicated on the Diaphragm Chamber 'tern Air Supply Control Valve. p Pressure Gauge to drop below the TFP1100,momentarily press the"Sys- Step 3. Open the Main Drain Valve, tem Reset" button (Figure 6 in supply pressure shown on the Water . System Drain Valve, and all auxiliary TFP1100). Zone 1 Alarm and Zone 2 Supply Pressure Gauge, since this ac drains in the system. After water Low Air Alarm should then clear. tion may result in tripping of the DV 5 ceases to discharge,close the System Valve. Drain Valve and auxiliary drain valves. Step 11. Open the Diaphragm Cham- Drain ber Supply Control Valve and allow full After setting a fire protection system, Leave the Main Drain Valve open. ad- pressure to build up in the Diaphragm notify the proper authorities and ad- Note:Do not open the Inspector's Test Chamber, vise those responsible for monitoring Connection and auxiliary drains if re- , proprietary and/or central station setting after a system test;otherwise, Step 12. Operate (open) the Manual alarms. system air pressure will be relieved Control Station to vent trapped air from unnecessarily, the Diaphragm Chamber. If neces Care and sary, first open the hinged cover, and Step 4. Depress the plunger of the then fully pull down on the operating Automatic Drain Valve to verify that it lever.. SLOWLY close the operating Maintenance is open and that the DV-5 Valve is lever, by pushing it up, after aerated completely drained. water ceases to discharge from the The following procedures,inspections, Step 5. Clean the Strainer in the Dia- Manual Control Station drain tubing. and maintenance must be performed phragm Chamber Supply connection Close the hinged cover and insert a as indicated,in addition to any specific by removing the clean-out plug and new break rod in the small hole requirements of the NFPA, and any strainer basket. The Strainer may be through the top of the enclosing box. impairment must be immediately cor- flushed out by momentarily opening rected. Y Y P 9 Step 13.Inspect the drain connections the Diaphragm Chamber Supply Con- from the Manual Control Station and The owner is responsible for the in- trol Valve. the Solenoid Valve.Any leaks,must be spection, testing, and maintenance of Step 6. Inspect for and clear all ice corrected; +oefbre proceeding to the their fire protection system and de next ste vices in'compliance with this docu plugs where system piping has been p' ment, as well as with the applicable exposed to freezing conditions and Step 14.Verify the ability for the DV-5 standards of the National Fire Protec- when there has been a flow of water Diaphragm to hold pressure as fol- tion Association (e.g., NFPA 25), in into the system. lows: addition to the standards of any Step 7. Replace all damaged or oper- With the diaphragm chamber pressur- authority having jurisdiction. The in- ated sprinklers. Replacement sprin- ized per Step 12,temporarily close the stalling contractor or product manufac- TFP1465 Page 11 of 14 sure for the Double Interlock Preaction that check valves, strainers, globe System with Electric/Electric Actuation Installation valves, etc. are installed with the flow is.nominally 15 psi (1,0 bar), irrespec- arrows in the proper direction. tive of the water supply pressure. The NOTICE Step 4.Drain tubing to the drip f use of a higher system air pressure p g p unnel may increase water delivery time, and 1-1/2 inch(DN40)risers utilize a 2 inch must be installed with smooth bends the use of a lower system air pressure (DN50)Riser Check Valve in combina- that will not restrict flow. may prevent clearing the alarm of the tion with the 1-1/2(DN40)Model DV-5 Step 5.The main drain and drip funnel Low Air Pressure Alarm Switch (Item Deluge Valve. drain may be interconnected provided P3 - Fig. 2A) on increasing pressure. Proper operation of the Model DV-5 a check valve is located at least 12 The Low Pressure Alarm Switch is Deluge Valves depends upon their trim inches(300 mm)below the drip funnel. field set to alarm at nominally 12 psi , being installed in accordance with the Step 6. Suitable provision must be (0,8 bar)on decreasing pressure. It is instructions given in this Technical made for disposal of drain water. recommended that the system air Data Sheet. Failure to follow the ap- Drainage water must be directed so pressure be maintained 'by'either of propriate trim diagram may prevent that it will not cause accidental dam- the following methods. the DV-5 Valve from functioning prop- age to property or danger to persons. • A maximum 200 psi (13,8 bar) erly,as well as void listings,approvals, p ( )p lant and the manufacturer's warranties. Step 7, Connect the Diaphragm air supply in combination with the Chamber Supply Control Valve to the Model AMD-1 Air Maintenance De- Field adjustments of the Air Mainte- inlet side of the system's main control vice described in Technical Data nance Device, Low Pressure Alarm valve in order to facilitate setting of the Sheet TFP1221. Switch, and Pressure Relief Valve are DV-5 Valve (Fig. 3). • A maximum 3000 psi (206,9 bar) required. The Air Maintenance Device Step 8. Unused pressure alarm nitrogen cylinder in combination with and the Low Pressure Alarm Switch p P • the Model AMD-3 Nitrogen Mainte should be set as close:as possible to switch connections must be plugged. Hance Device described in Techni- the specified settings in order to mini Step'9.A suitable`automatic supervi- cal Data Sheet TFP1241. mize water delivery time. sory air (nitrogen) supply, as de- cal using compressed air as op- scribed in the Technical Data Section, NOTES , posed to compressed nitrogen for re- is to be installed in accordance with It is recommended that the pressure frigerated area service, alternate air the applicable Technical Data Sheet maintenance device be of a type that supply connections with an air dryer and set to maintain nominally 15 psi maintains a constant system pressure, may be required by the Authority Hay- (1,0 bar). i.e., a pressure maintenance device ing Jurisdiction. The "1/2 Inch NPT Step 10. Adjust the Pressure Relief that utilizes a pressure regulator ver- Connection For System Air Supply" Valve (P4-Fig. 2A), as applicable, to sus a pressure switch(e.g.,the AMD-1 shown in Figure 2B is to be plugged crack open at approximately 20 psi or AMD-3). Use of a pressure switch when using an alternate air supply (1,4 bar). As shipped, it is set to open operated pressure maintenance de- connection; the location of the Air at approximately 45 psi (3,1 bar). vice with a cut-in/cut-out differential Pressure Maintenance is to be as may result in a delay in the operation specified by the Authority Having Ju To reset the Pressure Relief Valve, of the system due to a fire, because of risdiction; and, Step 10 regarding the first loosen the jam nut and then adjust the cut-out pressure being higher than adjustment of the Pressure Relief the cap accordingly—clockwise for a the recommended nominal system air Valve can be omitted, since the Pres- higher pressure setting or counter- pressure. sure Relief Valve in this:case will be clockwise for a lower pressure setting. ineffective. After verifying the desired pressure The dew point of the air or nitrogen setting,tighten the jam nut. supply, for a system exposed to freez- The DV-5 Valve must be installed in a ing conditions,must be maintained be- readily visible and accessible location. Step 11. Adjust the Low Pressure low the lowest ambient temperature to Alarm Switch (P3-Fig. 2A) to transfer which the system piping t temperature wer to ex- The DV-5 Valve and associated trim the electrical contacts at nominally 12 posed. Introduction of moisture into must be maintained at a minimum tem- psi (0,8 bar) on decreasing pressure. the system piping can create ice build perature of 40°F/4 C. As shipped,the switch is set to transfer up which could prevent proper opera- Heat tracing of the DV-5 Valve or its the electrical contacts at approxi- tion of the system. associated trim is not permitted. Heat mately 5 psi (0,3 bar) on decreasing tracing can result in the formation of pressure. The Pressure Relief Valve (Item P4- hardened mineral deposits that can Use the,instructions provided with the Fig. 2A) is typically field set to crack prevent proper operation.. , , switch to adjust the pressure setting. open at a pressure of about 20 psi(1,4 1 P 9• bar). The Tyco®Model DV-5 Deluge Valve Step 12. Conduit and electrical con- Friction Loss is to be installed in accordance with nections are to be made in accordance The nominal pressure loss versus flow the following criteria: with the requirements of the authority data for the Model DV-5 Deluge Valve Step 1. All nipples, fittings, and de- having jurisdiction and/or the National plus Riser Check Valve is provided in vices must be clean and free of scale Electric Code. Graph A. and burrs before installation. Use pipe thread sealant sparingly on male pipe NOTICE threads only Step2. The DV-5 Valve must be The heat detection devices are to be Step 2. connected to the Zone 1 initiating cir- trimmed in accordance with Figure cuff 2A/2B(or TFP1100 when using Model contacts of the Cross-Zone Del QRS Electronic Accelerator) uge Vaa lve Releasing Panel. Step 3. Care must betaken to ensure The Low Air Pressure Alarm Switch Page 10 of 14 TFP1465 FLOW RATE IN LITRES PER MINUTE(LPM) (1 GPM=3,785 LPM) 200 400 . 600 1000 2000 • 3000 5000 7000 10000 15.0 1 i I i i ! i 1. 1 I I I 1 i I 1.11..■■■Sul■ .■■■■MnAusIMM■■s•m■um1111I.rj■■nu■ . .. ilMmIW ■■ 1,000 111■..■■u 11��.■n■■►.��1'A■■tlnN11N11111111/■tl■�11UnMIn■nII�IMINI 0,900 11tl■1■1.1 11111111■■■■911 /.f1■ntl1.111111nn/I■■tl■111/11■n■■■■u11►4■n 1111■■ ■■111U■■n vausir ■umi nnIIIIIIINa■■■■6!%.u■.n■m,.im.■■ 0,800 11111■■ 1111111�■■■■/A11IW■■1■■111BIIIPA■■I■II/IM■■■■■■MI►I1■■■-0,700 10.0 mnn/sap■w. a■.. /�..nm. W,p..n.nrm//..■n■oNMIME ■■■Y■/■■■.q■� /AI■■.A..■■■■■1111/1111■//■..N■I..//11/11■■■N.//�N u, 9.0 II■II..p..um. °\ rA■.11r u.nniism nsW u■. r ..m■�..o■ inommi.■ 0,600 a 8.0 °riiii`iii■i� �°r■ ■i1..*m.iiuim�`°iir�oiiiiii MI - U 7.0 •iiui ■u■■i • TFP1465 Page 9 of 14 Data Sheet TFP1384). This results in Each package of trim includes the fol- In order to readily perform the System a rapid pressure drop in the Dia- lowing items: Inspection Procedure described in the phragm Chamber below the valve trip Care and Maintenance section, it is point.The water supply pressure then • Water Supply Pressure Gauge recommended that a System Shut-Off forces the Diaphragm open permitting • Diaphragm Chamber Valve be installed above the Riser water to flow into the system piping,as Pressure Gauge Check Valve, as shown in Figure 1. well as through the Alarm Port to actu- The System Shut-Off Valve should be ate the system alarms. •, Diaphragm Chamber Connections a listed or approved (as appropriate) As water flows into the system, the • Manual Control Station " `` ' indicating"valve with a supervisory pilot chamber of the Model ASV-1 • Main Drain Valve switch to monitor the normally open (Item 5-Fig. position. Automatic Shut-Off Valve ( g• • System Drain Valve 2A) becomes, pressurized and the • Alarm Test Valve Detection System ASV-1 automatically shuts off the dia- The Double Interlock Preaction Sys- phragm chamber supply flow to the • Automatic Drain Valve tern With Electric/Electric Actuation DV-5 Diaphragm Chamber. Shutting • System Air Pressure Gauge Trim provides for electric operation of off the diaphragm chamber supply flow • Air Supply Connections the DV-5 Valve by a detection system prevents the DV-5 Diaphragm Cham- consisting of electrical devices such as ber from becoming re-pressurized, • Low Air Pressure Alarm Switch heat sensitive thermostats, smoke de- thereby preventing inadvertent closing • Waterflow Pressure Alarm Switch tectors,and/or electric manual pull sta- of the DV-5 during a fire(as may be the tions. Information on the various types case should the Solenoid Valve be- To ease field assembly of the trim ar- of separately ordered Solenoid Valves come de-energized after its initial op- rangement, the trim components are that may be used with this trim pack- eration). provided partially assembled as age is given in Technical Data Sheet shown in Figure 2B. TFP2180. Nominal installation dimen- NOT/CE The trim arrangement is provided with sions for the Double Interlock Preac- galvanized or black nipples and fit- tion System With Electric/Electric Ac- The Model DV-5 Double Interlock Pre- tings. The galvanized trim is intended tuation Trim are shown in Figure 3. action System with Electric/Electric for non-corrosive or corrosive condi- The cross-zone deluge valve releasing Actuation described herein must be tions,whereas the black trim is princi- panel(automatic control unit)with bat- installed and maintained in compli- pally intended for use with AFFF sys- tery back-up, fire detection devices, ance with this document and with the tems. manual pull stations,and signaling de- applicable standards of the National vices,that are utilized with the Double Fire Protection Association,in addition Note: When the system pressure is Interlock Preaction System with Elec- to the standards of any authorities hay- greater than 175 psi(12,1 bar), provi- tric/Electric Actuation must be UL ing jurisdiction. Failure to do so may sion is to be made to replace the stand- Listed,ULC Listed,C-UL Listed,or FM impair the performance of the related and order 300 psi (20,7 bar) Water Approved, as applicable. devices. Pressure Gauges, shown in Figure 2A/2B with separately ordered 600 psi Note: Approval by Factory Mutual is The owner is responsible for maintain- (41,4 bar)'Water Pressure Gauges. ' contingent on the use of an FM Ap- ing their fire protection system and de- proved 24VDC Solenoid Valve (P/N vices in proper operating condition. System Design Considerations 52-287-1-024 or P/N 52-287-1-124). The installing contractor or manufac- Because a double interlock preaction FM only approves solenoid valves for turer should be contacted with any system requires time for a drop in sys- use in non-hazardous locations. questions. tem air pressure to occur(concurrently with the response time for the separate Note: Consult with the Authority Hay- fire detection system), before it will ing Jurisdiction regarding installation allow water to enter the system piping, criteria pertaining to electric actuation Technical this system has characteristics similar circuitry. to a dry pipe sprinkler system. There- The Double Interlock Preaction Sys- Data fore,the system design considerations tern With Electric/Electric Actuation for a dry pipe system are normally ap- Trim is provided with a Model ASV-1 Approvals plied to a double interlock preaction pP Automatic Shut-Off Valve(Item 5-Fig. UL and C-UL Listed. FM Approved. system—including a 30%increase in 2A); consequently, the release circuit design area; a maximum 1 minute of the releasing anel need onl ro- Deluge Valve water delivery time for system capaci- g p y p Model DV-5. ties of 750 gallons, (2800 litres) or vide the standard ten minutes of alarm So- more;,and, prohibition of ridded sys- Riser condition intended to energize the So- Check Valve tern piping.p g lenoid Valve to open. After the ten Model CV-1 FR. P P 9• . minute duration, at which point should Note:1-1/2 inch(DN40)risers utilize a As an option the Model DV-5 Double the Solenoid Valve become de-ener- 2 inch (DN50) Riser Check Valve in Interlock Preaction System with Elec- gized and close(especially while oper- combination with the 1-1/2 (DN40) trio/Electric Actuation may be sting under battery back-up),the Auto- Model DV-5 Deluge Valve. equipped with the Model QRS Elec- matic Shut-Off Valve will have already tronic Accelerator to reduce the the automatically closed,thereby prevent- Valve Trim time to valve actuation following the ing the DV-5 Diaphragm Chamber The Double Interlock Preaction Sys- operation of the electric detection sys- from becoming re-pressurized and tern with Electric/Electric Actuation tem and one or more automatic sprin- preventing an inadvertent closing of Trim (Fig. 2A/2B) forms a part of the klers. Refer to Technical Data Sheet the DV-5 during a fire event. laboratory listings and approvals. The TFP1100 for details installa- System,Air Pressure Requirements trim is necessary for proper operation tion requirements ,and-pressure rat- The'recbmmended system air pres- of the DV-5 Valve. ings. Page 8 of 14 TFP1465 Valve Nominal Installation Dimensions in Inches and(mm) Size A I B 1 C D E 1 F 1 G 1 H J 1 K L M 1-1/2" 7.00 8.88 13.00 10.50 20.50 4.00 5.81 5.81 3.00 7.00 4.00 14.81 (DN40) (177,8) (225,4) (330,2) (266,7) (520,7) (101,6) (147,6) (147,6) (76,2) (177,8) (101,6) (376,2) 2" 7.13 9.13 13.00 10.50 21.06 3.13 6.00 6.00 3.00 7.00 3.13 15.38 (DN50) (181,0) (231,8) (330,2) (266,7) (535,0) (79,4) (152,4) (152,4) (76,2) (177,8) (79,4) , (390,5) 3" 7.81 10.44 14.50 10.50 25.00 1.69 6.69 .6.69 4.25 7.00 0.25 21.13 (DN80) (198,4) (265,1) (368,3) (266,7) (635,0) (42,9) 1 (170,0) (170,0) (108,0) (177,8) (6,4) (536,6) 4" 10.00 1 11.75 1 17.88 10.50 29.13 I 1.75 6.50 8.56 6.25 7.13 0.38 25.38 (DN100) (254,0) (298,5) 1 (454,0) (266,7) 1 (739,8) (44,5) (165,1) (217,5) (158,8) (181,0) I (9,5) (644,5) 6" 11.38 14.31 18.75 10.50 31.94 3.50 7.88 9.94 6.25 7.13 1.56 29.63 (DN150) (289,0) (363,5) (476,3) (266,7) (811,2) (88,9) (200,0) I (252,4) (158,8) 1 (181,0) (39,7) (752,5) 8" 12.00 16.00 21.25 10.50 36.75 1.75 1 10.75 ' 10.63 6.25 7.13 7.13 36.50 (DN200) (304,8) (406,4) I (539,8) , (266,7) (933,5) (44,5) I (273.1) (269.9) (158,8) (181,0) , (181.0) (927,1) *MINIMUM CLEARANCE. * * * A- - B r C •-1+—D—+- 1 'Vair A 11 11-islopri-i, . u Apoliiiime i■I∎ia Tir $ ii I E n���: DIAPHRAGM ,IM%) I Io N 1.i21111!11 CHAMBER SUPPLY CONNECTING TRIM pi� j j �!D Ql ' a i� (FIELD FABRICATED) ,', il, -1 : 1 W 1 r ............ II - I � ■ I MAIN 2"NPS i� �� 114"NPS G CONTROL DRAIN DRAIN VALVE —H J — 'r-•--ter—K LEFT VIEW FRONT VIEW FIGURE 3 1-1/2 thru 8 INCH(D40 and DN200)MODEL DV-5 DELUGE VALVES DOUBLE INTERLOCK PREACTION SYSTEM WITH ELECTRIC/ELECTRIC ACTUATION TRIM WITH OR WITHOUT MODEL QRS ELECTRONIC ACCELERATOR —NOMINAL INSTALLATION DIMENSIONS— TFP1465 Page 7 of 14 NOTES: Nipple Select Appropriate Nipple Sizes per DV-5 Deluge Valve Size 1. Use only the 2"Model CV-1FR Riser Check Number 1-1/2"(DN40) 2"(DN50) 3"(DN80) 4"(ON100) 6"(DN150) 8"(DN200) Valve with 1-1/2"and 2"DV-5 Valves.Use 1 1/2"x Close • 1/2"x 2" 1/2"x 1-1/2" 1/2"x 2.1/2" 1/2"x 5-1/2" 1/2"x 8-1/2" corresponding sized Model CV-1FR Riser Check Valves for 3"-8"Model DV-5 Valves. 2 1/2"x Close 112"x Close 1/2"x 1-1/2" 1/2"x 2" 1/2'x 3' 1/2"x 3-1/2" 2. Nipples 1-4 vary in length relative to the 3 1/2"x 5" _ 1/2"x 5-1/2"_ 1/2"x 7" 1/2"x 6-1/2" 1/2"x 7-1/2" 1/2"x 9" Model DV-5 size used.Select per the 4 3/4"x 1-1/2" 3/4"x 1-1/2" 3/4"x 1-1/2" 3/4"x 2-1/2" 3/4"x 3-1/2" 3/4"x 4-1/2" table.All other nipples packed unassembled System shall be installed per the appropriate trim Main Drain 3/4°NPT 3/4"NPT 1-1/4"NPT 2"NPT 2"NPT 2"NPT exploded view,Figure 2A Part 1,2,or 3. Size •3. Install subassemblies in alphabetical order. Main Drain 4. See Figure 2 of TFP1305 for Deluge Valve Size 3/4"NPT 314"NPT 1.114"NPT 2"NPT 2"NPT 2"NPT Port identification. - 5. Route all Tubing to Drip Funnel. VENT FITTING SYSTEM LOW AIR (GREEN TINT) AIR SUPPLY PRESSURE CONTROL VALVE ALARM SWITCH WATERFLOW / (NORMALLY PRESSURE OPEN) 1,2'INCH NPT „ ALARM SWITCH 9% DRIP CONNECTION 3/4 INCH NPT �,"'''r AUTOMATIC FUNNEL FOR SYSTEM CONNECTION FOR DRAIN WITH 1-1/4 .,FAIR SUPPLY SOLENOID VALVE, WATER MOTOR 4l, B • VALVE INCH NPT „,,,.;/.0 ORDERED SEPARATELY 1/2 INCH ' ALARM .:0 CONNECTION �� SYSTEM (NORMALLY CLOSED) CONDUIT X i AIR SUPPLY \`�'�-, TO DRAIN I,r,��r '(� CONNECTION NIPPLE `� 4:-,.` / l PRESSURE FOR"ELECTRIC 4 �� 'toe / PLUG F GAUGE ;/DETECTION” UNUSED cM:" SYSTEM I PORTS .1 aA MAIN DRAIN ' CHECK VALVE NIPPLE CONNECTION �./ �,�/` (NOTE 1) 2 '% (SIZED PER i�� NIPPLE TABLE) ©i/� y ��:" :r u�u< �� 1 SYSTEM MAIN c �" \ 1. ', NIPPLE DRAIN VALVE �,\ 1, ►.�� AUTOMATIC 3 MAIN (NORMALLY iat III ; n� SHUT-OFF VALVE �- DRAIN VALVE CLOSED) / (NORMALLY �,,�� DIAPHRAGM• rl OPEN) /\''' CHAMBER (NORMALLY E �1 �� PRESSURE CLOSED IfitArit ' ., GAUGE ALARM TEST VALVE ��) � A R 0 4 ` s�rr'; � (NORMALLY . �►��!Vii- III MANUAL CLOSED) I' 1 .��-� `�, ! D s PPPY CONTROL n 4� 479 STATION SYSTEM WATER 0 C ` I 4"(DN100) �y DIAPHRAGM SUPPLY III CHAMBER SUPPLY FLANGE x GROOVE PRESSURE MODEL DV-5 CONTROL VALVE GAUGE ® MAIN DRAIN DELUGE VALVE (NORMALLY 1/2 INCH NPT OPEN) CONNECTION SHOWN . (SIZED.PER TABLE)..„ CONNECTION FROM WATER SUPPLY • FIGURE 2B 1-1/2 thru 8 INCH(DN40 thru DN200)MODEL DV-5 DELUGE VALVES DOUBLE INTERLOCK PREACTION SYSTEM WITH ELECTRIC/ELECTRIC ACTUATION TRIM WITHOUT MODEL ORS ELECTRONIC ACCELERATOR —OPERATIONAL COMPONENTS— Page 6 of 14 TFP1465 NO. DESCRIPTION QTY. P/N NO. DESCRIPTION QTY. P/N NO DESCRIPTION QTY. P/N 1 300 psi/2000 kPa 22 1/2"Union 5 CH 47 1"x 3"Nipple, 1 CH Water Pressure Gauge ..2 92-343-1-005 23 1"Union 1 CH 48 Not Used 0 N/A 2 1/4"Gauge Test Valve ..1 46-005-1-002 24 1/4"90°Elbow 1 CH 49 2"x 3"Nipple 2 CH 3 Model MC-1 Manual 25 1/2"90°Elbow 7 CH Control Station 1 52-289-2-001 26 1/2"Tee 3 CH P1 250 psi/1750 kPa 4 Model AD-1 Automatic 27 1/2"x 1/4"x 1/2"Tee....3 CH Air Pressure Gauge 1 92-343-1-012 Drain Valve 1 52-793-2-004 28 3/4"x 1/2"x 3/4"Tee ....2 CH P2 1/4"Gauge Test Valve ..1 46-005-1-002 5 Automatic Shut-Off Valve, 29 1"x 1/2"90°Elbow 1 CH P3 Low Air Pressure Alarm Model ASV-1 1 92-343-1-021 30 1"x 3/4"x 1"Tee 1 CH Switch(P510-2A) 1 2571 6 Waterflow Pressure 31 2"90°Elbow 1 CH P4 1/4"Pressure Relief Alarm Switch(PS10-2A) .1 2571 32 1/4"x Close Nipple 2 CH Valve 1 92-343-1-020 7 1/2"Ball Valve 2 46-050-1-004 33 1/2"x Close Nipple 2 CH P5 1/2"Swing Check Valve .1 46-049-1-004 8 1/2"Spring Loaded 34 1/2"x 1-1/2"Nipple .,,....10 CH P6 1/2"Globe Valve 1 46.047-1-004 Check Valve . 1 92-322-1-002 3€ 1/21 x 2 1i27 Nipple ,•;.2. OH P7 2"Angle Valve •• • 1 46-048-1-009 9 1/2"Y•Strainer 1 52-353-1-005 36 1/2"x 3"Nipple -1• •CH ' P8 -1/4"Plug 3 CH 10 3/4'Swing Check Valve .1 46-049-1-005 37 1/2"x 5"Nipple 2 CH P9 1/2"x 1/4"Reducing 11 Not Used 0 N/A 38 1/2"x 6"Nipple 1 CH Bushing 1 CH 12 2"Angle Valve 1 46-046-1-009 39 1/2"x 7"Nipple 2 CH P10 1/2"Union 1 CH 13 Drip Funnel Connector ..1 92-211-1-005 40 Select Nipple per Table ..2 CH P11 1/2"90°Elbow 1 CH 14 Drip Funnel Bracket ..,.1 92-211-1-003 41 Select Nipple per Table ..2 CH P12 1/2"Cross 1 CH 15 Drip Funnel 1 92-343-1.007 42 Select Nipple per Table ..2 CH P13 1/2"x 1/2"x 1/4"Tee....1 CH 16 3/32"Vent Fitting 1 92-032-1-002 43 3/4"x 1-1/2"Nipple 1 CH P14 2"x 2"x 1/2"Tee 1 CH 17 1/4"x 24"Tubing 1 CH 44 3/4"x 2"Nipple 1 CH P15 1/4"x 3"Nipple 1 CH 18 1/2"Tubing Connector ..1 CH 45 Select Nipple per Table ..2 CH P16 1/2"x 1-1/2"Nipple 6 CH 19 1/2"x 24'Tubing 1 CH 46 1"x Close Nipple 2 CH P17 2"x 3"Nipple 2 CH 20 1/4"Plug 1 CH 0 21 3/4"Plug 1 CH El Solenoid Valve Per Data Ordered P16 ‘0%nf� P4—� Sheet 1/2"Tubing P2 Co 1 Separately \ E2 1/2"Tubi Connector ..1 CH 4''' a'� P16 P13 E3 1/2"x 24"Tubing ... ...1 CH P16 P6 E4 1/2"x 1-1/2"Nipple 1 CH ' / P5 P11 r., 0 ,/ P3 P1 46 ` 29 r� y Select Appropriate Nipple Sizes 6' S:' '� 0 6,-!•• 36 Nipple per DV-5 Deluge Valve Size P16 N P9 No. 4" 6" g 16 P16 -1411 115 P2 A�• (DN100) (DN150) (DN200) (GREEN P12 • i ? Air 40 112"x 2.1/2" 112"x 5-112" 112"x 8-1/2" TINT) 17 ! `' 26 4 41 1/2"x 2" 1/2"x 3" 1/2"x 3-1/2" 27 I P16 / /1 PB 42 1/2"x 6-1/2" 1/2"x 7-1/2" 1/2"x 9"vresi P14 I� 13 a 15 45• 314"x 2.1/2" 3/4"x 3-1/2" 3/4"x 4.1/2" 28 c., ii PLUG P17 UNUSED IIIN� 2\ I 1 P7 * o� - P17 I PORTS -.. 14 E3� (ORDERED 40 35 P8 I E2 SEPARATELY)• RISER _ ` -x-30 ,, �� CHECK VALVE q "fir, 22 LOCATION r1 44 ,,, II ��,� 38 22 41 � � / Rp � 23 P8 r ` (NOTE 2) f4"," 34 FOR OPTIONAL `'Yi +, a �///� _ i E4 Wb ELECTRICALLY \ 4", 43" ,!1 i,, .. , °.+" pia 1 26 •SUPERVISEDi 10 46 ∎.x .,�I�., i�N, • -� N.O.ALARM 34 Ut 47 S �y �� ��l'� 25 42 / ) CONTROL VALVE 25 45 ,� � 35 25 .G 1 (BVS-3/4") • l 014' 40 28 V\ ��l Il �% i�'I 25 _�X33 26 rig- Too. '. 7 _144 31 7(( �,i ' 34 If ## 39 34 - 27 �,'1/� �`'•N� 12 49 49 4, • ,, 34 9 i ( 34 3 ,NP III NOTES: 39 /�' 1 �® i - 'Tr 22 L 1. Supervised Double ry�j - -- 6 Interlock Preaction Trim 20 2 22 \iii/ ��' 34 I 37 mod% . 33 with Electric/Electric 1 `_"� Release is comprised 11i,r; \Av,`1„ 37 34 20 19 (� of Items 1-50 plus Items 11 34 .. x►ry/ 25 18 25• P1-P18 and Items E1-E4. 323 4"(DN100) 22 2. Use only the Model CV-1FR 27 FLANGE x GROOVE Riser Check Valve. 24 32 MODEL DV-5 NOTES: DELUGE VALVE ni 34 5. See Figure 2 of TFP1305 for 3. All Fittings and Nipples are SHOWN •U Deluge Valve Port identification. galvanized(Standard Order). , 7 6. Route all Tubing to Drip Funnel, 4. CH:Common Hardware. ' Item 15. FIGURE 2A—PART 3OF3 4, 6, and 8 INCH(DN100, DN150, and DN200)MODEL DV-5 DELUGE VALVES DOUBLE INTERLOCK PREACTION SYSTEM WITH ELECTRIC/ELECTRIC ACTUATION TRIM(52-478-X-122) WITHOUT MODEL QRS ELECTRONIC ACCELERATOR —EXPLODED VIEW— TFP1465 Page 5 of 14 NO. DESCRIPTION QTY. P/N NO. DESCRIPTION QTY. P/N NO. DESCRIPTION QTY. P/N 1 300 psi/2000 kPa 18 1/2"x 18"Tubing 1 CH 38 1/2"x 5"Nipple 1 CH Water Pressure Gauge ..2 92-343-1-005 19 1/4'Plug 1 CH 39 1/2"x 5.1/2"Nipple 1 CH 2 1/4"Gauge Test Valve ..1 46-005-1-002 20 3/4"Plug 1 CH 40 1/2"x 7"Nipple 2 CH 3 Model MC-1 Manual 21 1/2"Union 5 Cl) 41 3/4"x 1-1/2"Nipple 5 CH Control Station 1 52-289-2-001 •22 374"Union 1 CH '' •• 42 3/4"x 2"Nipple ' 1 CH 4 Model AD-1 Automatic 23 1/4"90°Elbow 1 CH 43 1-1/4"x 2"Nipple 1 CH Drain Valve 1 52-793-2-004 24 1/2"90°Elbow 7 CH 44 1.1/4"x 4"Nipple 1 CH 5 Automatic Shut-Off Valve, 25 3/4"x 1/2"90°Elbow....1 CH Model ASV-1 . 1 92-343-1-021 26 1-1/4"90°Elbow 1 CH P1 250 psi/1750 kPa 6 Waterflow Pressure 27 1/2"Tee 3 CH Air Pressure Gauge 1 92-343-1-012 Alarm Switch(PS10-2A) .1 2571 28 1/2"x 1/4"x 1/2"Tee....3 CH P2 1/4"Gauge Test Valve ..1 46-005-1-002 7 1/2"Ball Valve 2 46-050-1-004 29 3/4"Tee 1 CH P3 Low Air Pressure Alarm 8 1/2"Spring Loaded 30 3/4"x 1/2"x 3/4"Tee....2 CH Switch(PS10-2A) 1 2571 Check Valve 1 92-322-1-002 31 1/4"x Close Nipple 2 CH P4 1/4"Pressure Relief 9 1/2"Y-Strainer 1 52-353-1-005 32 1/2"x Close Nipple 2 CH Valve 1 92-343-1-020 10 3/4"Swing Check Valve .1 46-049-1-005 33 1/2"x 1-1/2"Nipple 13 CH P5 1/2"Swing Check Valve .1 46-049-1-004 11 1-1/4"Angle Valve 1 46-048-1-007 34 1/2"x 2-1/2"Nipple 1 CH P6 1/2'Globe Valve 1 46-047-1-004 12 Drip Funnel Connector ..1 92-211-1-005 35 1/2"x 3-1/2"Nipple 1 CH P7 1-1/4"Angle Valve 1 46-048-1-007 13 Drip Funnel Bracket ....1 92-211-1-003 36 1/2"x 4"Nipple 1 CH P8 1/4"Plug 3 CH 14 Drip Funnel 1 92-343-1-007 37 1/2"x 4-112"Nipple 1 CH P9 1/2"x 1/4"Reducing 15 3/32"Vent Fitting 1 92-032-1.002 Bushing 1 CH 16 1/4"x 18"Tubing 1 CH P10 1/2"Union 1 CH 17 1/2"Tubing Connector ..1 CH P16 P4 1 P11 1/2"90°Elbow 1 CH P16 P13 P12 1/2"Cross 1 CH P13 1/2"x1/2"x1/4"Tee....1 CH C' P16 W P6 P14 1-1/4'z 1-1/4'x 1/2"Tee .1 CH �A` d P5 P1 25 P15 1/4"x 3"Nipple 1 CH PQ1 P10 ,� P3 41 P16 1/2"x 1-1/2"Nipple 6 CH w4, P17 1-1/4"x 2"Nipple 1 CH P16 Sri`' q„` e�\` /33 P18 1-1/4"x 3"Nipple 1 CH g P9 1f�_ <__> P16 I P15 P2 „ij� El Solenoid Valve Per Data Ordered 15 P12 .t..- "' /t;tips 4 SheetTFP2180 1 Separately ?1 (GREEN �` 27 E2 1/2"Tubing Connector ..1 CH 28 TINT)I / 6 P16 /\ P8 12 ' 14 E3 1/2"x 24"Tubing 1 CH• '1 I E4 1/2"x 1-1/2"Nipple 1 CH% 20 30 �� P7 I��� P18 PLUG �y 13 E1•A.1 ``� 10' P14 UNUSED CHECK t E3 , 'SEPARATELLY)•a1� 34 b �i 29' PORTS RISER E2 E ``% PB CK VALVE C. �, 21 - LOCATION 42 41 22 /(NOTE 2) 39 21 33 FOR OPTIONAL 4., e�P�� .we 41 M 36 / / ` 33 ELECTRICALLY -.40, 41 1 " PB O log tea. °'I' Ole e' 27 SUPERVISED 33 e��1, 10 'k0e N," 0 I 24 40 N.O.ALARM 'S �. 1 CONTROL VALVE 24 - 30 41 bib 24 24 (BVS-3/4") 1 ��� • 1 ° 32 dire 33 �0 ri 33 32 a� gill 26 NP I 33 28 �� 7 vti 43 44 0,, T 40 1 38 11 .': e; i 33 3 1 e \ ."'- NOTES: ( 33 411 , 6 21 ` 1. Supervised Double 19 - 2 21 �\ 24 j'��\ i 8 33 - Interlock Preaction Trim /r. ./ 9 35 / `% 32 18 / / with Electric/Electric f. l 410 37 A_33 Fy„�� 17 Release is comprised ? 33 3"(DN80) kd 24 24 of Items 1-44 plus Items '31 ■ "�\ ;;, 28 GROOVE x GROOVE P1-P18 and Items E1-E4. 21 2. Use only the Model CV-1FR 23 MODEL AL Y 31 DELUGE VALVE NOTES: Riser Check Valve. SHOWN 33 5. See Figure 2 of TFP1305 for 3. All Fittings and Nipples are 7 is- Deluge Valve Port identification. galvanized(Standard Order). g 6. Route all Tubing to Drip Funnel, '4. CH:Common Hardware. Item 14. FIGURE 2A—PART 1 OF 3 3 INCH(DN80)MODEL LW-5 DELUGE VALVES - DOUBLE INTERLOCK PREACTION SYSTEM WITH ELECTRIC/ELECTRIC ACTUATION TRIM(52-478-X-125) WITHOUT MODEL QRS ELECTRONIC ACCELERATOR —EXPLODED VIEW— Page 4 of 14 TFP1465 NO. DESCRIPTION QTY. P/N NO. DESCRIPTION QTY, P/N NO. DESCRIPTION QTY. P/N 1 300 psi/2000 kPa 19 114"Plug 1 CH P1 250 psi/1750 kPa Water Pressure Gauge ..2 92-343-1-005 20 3/4"Plug I CH Air Pressure Gauge 1 92-343-1-012 2 114"Gauge Test Valve ..1 46-005-1-002 21 1/2"Union 5 CH P2 1/4"Gauge Test Valve ..1 46-005-1-002 3 Model MC-1 Manual 22 3/4"Union 1 CH P3 Low Air Pressure Alarm Control Station 1 52-289-2-001 23 1/4"90°Elbow 1 CH Switch(PS10-2A) 1 2571 4 Model AD-1 Automatic 24 1/2"90°Elbow 7 CH P4 1/4"Pressure Relief Drain Valve 1 52-793-2-004 25 3/4"90°Elbow 1 CH Valve 1 92-343-1-020 5 Automatic Shut-Off Valve, 26 3/4"x 1/2"90°Elbow....1 CH P5 1/2°Swing Check Valve .1 46-049-1-004 Model ASV-1 1 92-343-1-021 27 1/2'Tee 3 CH P6 1/2"Globe Valve 1 46-047-1-004 6 Waterflow Pressure 28 112"x 1/4"x 1/2"Tee....3 CH P7 3/4'Angle Valve 1 46-048-1-007 Alarm Switch(PS10-2A) .1 2571 29 3/4"Tee 1 CH P8 1/4"Plug 3 CH 7 1/2"Ball Valve 2 46.050.1-004 30 3/4"x 1/2"x 3/4"Tee.....2 CH - P9 1/2'x 1/4"Reducing 8 1/2"Spring Loaded 31 1/4"x Close Nipple 2 CH Bushing 1 CH Check Valve 1 92.322-1-002 32 1/2"x Close Nipple 3 CH P10 1/2"Union 1 CH 9 1/2"Y-Strainer 1 52-353-1-005 33 1/2"0-1/2"Nipple .. :.11 CH P11 1/2'90°Elbow 1 CH 10 3/4"Swing Check Valve .1 46-049.1-005 34 1/2"x 2"Nipple '1 . CH P12 1/2"Cross 1 CH 11 3/4"Angle Valve 1 46-048-1-005 35 1/2"x 2-1/2"'Nipple • 3 CH P13 1/2"x 1/2"x 114'Tee....1 CH 12 Drip Funnel Connector ..1 92-211-1-005 36 1/2"x 5"Nipple 2 CH P14 1"x 3/4"x 1/2"Tee 1 CH 13 Drip Funnel Bracket ....1 92-211-1-003 37 1/2"x 7"Nipple 1 CH P15 1/4"x 3"Nipple 1 CH 14 Drip Funnel 1 92.343-1-007 38 Select Nipple per Table ..2 CH P16 1/2"x 1-1/2"Nipple 5 CH 15 3/32"Vent Fitting 1 92-032-1-002 39 Select Nipple per Table ..2 CH P17 1/2"x 2-1/2"Nipple 1 CH 16 1/4"x 18"Tubing I CH 40 3/4"x 1-1/2'Nipple 6 CH P18 3/4'x 1.1/2"Nipple 1 CH 17 112"Tubing Connector ..1 CH 41 3/4"x 2"Nipple 1 CH P19 1"x 2"Nipple 1 CH 18 1/2"x 12"Tubing 1 CH 42 3/4"x 4"Nipple 1 CH El Solenoid Valve Per Data Ordered Sheet TFP2180 1 Separately P16 P4 E2 1/2"Tubing Connector ..1 CH . pr ,z P5 E3 1/2"x 24"Tubing 1 CH E4 1/2"x 1-1/2"Nipple 1 CH I P3 c� P11 7 r 'r, P10 \ P16 ti,wC P13 y"' P P 16 6 P16 - op,,, r. P9 a, P16 fO, P15//J P6 T Select Appropriate Nipple Sizes 15 P12 '4'i `li// Nipple per DV-5 Deluge Valve Size (GREEN �.. / 26 Number TINT) 16 P2 .,-q, / 40 1-1/2"(DN40) 2"(DN50) 38 112"x Close 112"x2" 28 P17 l` eta` 33 39 1/2"x 5" 1/2"x 5-1/2" CZ) �A�� Pe 30 P7 P18 ,; t P19 27 . 5A El 20 11 .0. P14 l 4 (ORDERED ' cS 35 ,�' 29 12 E3 14 SEPARATELY) r 40 � 14 E2 Y•'' E4 • LOCATION 41 C:A�[r' 22 P8 13 36 21 32 t, 21 FOR OPTIONAL a0� 4'Ne 40 ' 33 ELECTRICALLY ;t 1 40 NA, P8 0.^..„%, a_'m t:r km, ft vr° SUPERVISED 33 % ' 10 7lUe �t �� 24 39 27 N.O.ALARM 24 40r 40 40 l ( 35 lat CONTROL VALVE r' �� 24 24 �. 1 30 i� , �..i RISER (BVS-3/4") .� �%e 7/r �1 27 ♦ 38 ;.��nr 25 ��, CHECK 33 32 /"' 11 42 - VALVE �p ,, 37 33 28 7. -' 11 �H NOTE 2 L 1 ..' �` 35 1 `> :r o ' 33 37 3 • 8 NOTES: e�,\ 1. Supervised Double t 9 2 21 ti 33 %, 5 " 21 L. Interlock Preaction Trim ' �p RYA; 0 'ae,! 36 24 jI' " c- with Electric/Electric ♦1 9 14 . 34 18 yi. I 32 Release is comprised = 33 2"(DN50) 33 try: GROOVE x GROOVE �' 24 17 24 of Items 1-42 plus Items 31 28 33 P1-P19 and Items E1-E4. MODEL DV-5 2. Use only the 2"Model CV-1FR 23 31 DELUGE VALVE 21 Riser Check Valve for 1-1/2"or SHOWN NOTES: 2"assemblies. 5. See Figure 2 of TFP1305 for 3. All Fittings and Nipples are 7 Deluge Valve Port identification. galvanized(Standard Order). 6. Route all Tubing to Drip Funnel, 4. CH:Common Hardware. Item 14. FIGURE 2A—PART IOF3 1-1/2 and 2 INCH(DN40 and DN50)MODEL DV-5 DELUGE VALVES DOUBLE INTERLOCK PREACTION SYSTEM WITH ELECTRIC/ELECTRIC ACTUATION TRIM(52-478-X-128) WITHOUT MODEL QRS ELECTRONIC ACCELERATOR —EXPLODED VIEW— TFP1465 Page 3 of 14 0:ii, • ■. ;]�k, ;ii, II -r...„,, � r *MN I -0 ili111 liiiiii , 0 20 17 Q 13 16 I 15 ® 1► ..•___„,.,...„............. ,Himmirvi,40..-ii,„ ;Ill 0 APPIP-Zp+.4,m 9:1161 If I r gow,itimiii. / , -row .., .....1% • . - -. ii tr/.-i� . i e_,; 3 / .1 111 -MI MIN 10 1 .,:.„,,,,,.:::,,,f... -wig ( ...., .....,_ ......,_ _.,._ v,, .. 2 1 - Model DV-5 Deluge Valve 8 - Diaphragm Chamber Pressure 16- Riser Check Valve 2 - Main Control Valve(N.O.) Gauge(Shown at Front of Valve) 17- System Shut-Off Valve(N.O.) 3 - Diaphragm Chamber Supply 9 System Drain Valve(N.C.) 18- Air Pressure Gauge Control Valve(N.O.) 10- Main Drain Valve(N.C.) (Shown at Front of Valve) 4 - Local Manual Control Station 11 - Diaphragm Chamber Automatic 19- Automatic Air/Nitrogen Supply (Shown at Front of Valve) Shut-Off Valve 20- Low Pressure Alarm Switch 5 - Automatic Sprinklers 12- Waterflow Pressure Alarm Switch A - Fire Detection Initiating Circuit 6 - Heat Detectors,Smoke Detectors, 13- Water Motor Alarm(Optional) (Zone 1) etc.(Fire Detection) 14 - Solenoid Valve B - Low Pressure Alarm Initiating Circuit 7 - Water Supply Pressure Gauge 15- Cross-Zone Deluge Valve (Zone 2) (Shown at Front of Valve) Releasing Panel FIGURE 1—PART 2.0F 2 DOUBLE INTERLOCK PREACTION SYSTEM WITH ELECTRIC/ELECTRIC ACTUATION WITHOUT MODEL QRS ELECTRONIC ACCELERATOR -SYSTEM SCHEMATIC(Rear View)— Page 2 of 14 TFP1465 • O 0 P. • ,12,* ti iti egiti ter- •.._ �, 111�I ' 13 17 ' f 18 1 III16 hiv......:011 - 15 NI yr. Tit m- O I Olt ,��.�Y 4 i(c:e O At 1 - Model DV-5 Deluge Valve 9 - System Drain Valve(N.C.) 16- Riser Check Valve 2 - Main Control Valve(N.O.) 10- Main Drain Valve(N.C.) 17- System Shut-Off Valve(N.O.) 3 - Diaphragm Chamber Supply (Shown at Rear of Valve) 18- Air Pressure Gauge Control Valve(N.O.) 11 - Diaphragm Chamber Automatic 19- Automatic Air/Nitrogen Supply 4 Local Manual Control Station Shut-Off Valve 20- Low Pressure Alarm Switch 5 Automatic Sprinklers 12 Waterflow Pressure Alarm Switch A - Fire Detection Initiating Circuit (Shown at Rear of Valve) 6 - Heat Detectors,Smoke Detectors, (Zone 1) etc.(Fire Detection) '" 13- Water"Motor Alarm(Optional) B - Low Pressure Alarm Initiating Circuit 7 - Water Supply Pressure Gauge 14 Solenoid Valve (Zone 2) 8 - Diaphragm Chamber Pressure 15 Cross-Zone Deluge Valve Gauge Releasing Panel FIGURE 1—PART 1 OF 2 DOUBLE INTERLOCK PREACTION SYSTEM WITH ELECTRIC/ELECTRIC ACTUATION WITHOUT MODEL QRS ELECTRONIC ACCELERATOR —SYSTEM SCHEMATIC(Front View)— 1 tLJCD Fire Suppression & Building Products. Technical Services:Tel:(800)381-9312/Fax: (800)791-5500 Preaction System with Model DV-5 Deluge Valve Double Interlock — Electric/Electric Actuation 1-1/2 thru 8 Inch (DN40 thru DN200) General . . Description ' «,,.r« The Tyco!Model DV-5 Double Inter- _. r � a �,„. lock Preaction System with Elec- —' !AI;� trio/Electric Actuation (Fig. 1) is de- 411101b. signed for use in applications,such as refrigerated areas, requiring the maxi- mum degree of protection against in- I advertent flooding of the sprinkler sys- tem piping. The Model DV-5 Double Interlock Pre- action System with Electric/Electric Actuation utilizes a Model DV-5 Del- uge Valve and a Riser Check Valve. ) The Riser Check Valve (that does not I "ii •.�`"= require the use of priming water) iso- —��- � lates the Deluge Valve from the sys- rtfi"(ry �!'ls tern air pressure.The releasing trim for �i >> ;� ;: — the Deluge Valve utilizes a Solenoid `� ice , •> . Valve that is operated by energizing C i��'�•: nr m . the releasing circuit of a Cross-Zone -�:1 i i�t� 1 Deluge Valve Releasing Panel (auto �`` P% C'1)1 �� matic control unit). 1 ` „Lai, 34� A ,tom Zone 1 of the Releasing Panel is oper- << �==- _..,, -- ate_by either a fire detection device or '' manual pull station. Zone 2 of the Re- �'�' leasing Panel is operated by a Low Air 'fifth”' ��i�,;��t„itr..�(gaE, Pressure Alarm Switch in response to von a loss of system air pressure due to the �t '` `' � opening of an automatic sprinkler.The . Solenoid Valve remains closed until it ' is electrically energized by the Releas- ing Panel. In order for the Double Interlock Pre- Releasing Panel have operated,ener- supply pressure.When the DV-5 Valve action System to automatically actu- gizing the Solenoid Valve. Accidental is set for service, the Diaphragm ate, two independent events must oc- loss of system air pressure(for exam- Chamber is pressurized through the cur. Zone 1 of the Releasing Panel ple:a lift truck accidentally dislodges a trim connections from the inlet side of must operate upon automatic opera sprinkler), or operation of just the fire the system's main control valve, for tion of the electric fire detection initiat- detection circuit(for example:an acci- example an O.S.&Y.gate valve or but- ing circuit or operation of the electric- dental operation of an electric pull sta- terfly valve (Fig. 1). manual pull initiating circuit, and Zone tion),will only cause an alarm,and will Operation the Solenoid Valve releases 2 of the Releasing Panel operate not actuate the system or,flood the g must p sprinkler SyStem,f�iping. water from the Diaphragm Chamber via the Low Air Pressure Alarm Switch faster than it can be replenished upon loss of air pressure from the The Model DV-5 Deluge Valve (de- through the 1/8 inch (3,2 mm) restric- sprinkler system piping, due to opera- scribed in Technical Data Sheet tion provided by the Model ASV-1 tion of one or more sprinklers. TFP1305) is a diaphragm style valve Automatic Shut-Off Valve in the dia- The Double Interlock Preaction Sys- that depends upon water pressure in phragm supply connections (Item 5 - tern will automatically actuate only the Diaphragm Chamber to hold the Fig. 2A, also described in Technical when both Zone 1 and Zone 2 of the Diaphragm closed against the water (TEXT CONTINUED ON PAGE 9) Page 1 of 14 MAY, 2009 TFP1465 Page 12 of 12 TFP370 Care and Limited Ordering Maintenance Warranty Procedure The Tyco®QUELL Preaction and Dry Products manufactured by Tyco Fire When placing an order, indicate the Systems must be maintained and Suppression & Building Products full product name. Refer to the Price serviced in accordance with the follow- (TFSBP) are warranted solely to the List for complete listing of Part Num- ing instructions: original Buyer for ten (10) years bers and system packages. against defects in material and work- Contact your local distributor for avail- NOTES manship when paid for and properly ability. Before closing a main control valve for installed and maintained under normal maintenance work on the fire protec- use and service.This warranty will ex- tion system that it controls,permission pire ten (10) years from date of ship- to shut down the fire protection system ment by'TFSBP. No warranty is given must be obtained from the proper for products or components manufac- authorities. In addition, all personnel tured by companies not affiliated by who may be impacted by the fire pro- ownership with TFSBP or for products tection system shut down must be no- and components which have been tified in advance. subject to misuse, improper installa- Modifications, repair, or adjustments tion,corrosion,or which have not been re- to the QUELL System must not result installed, maintained, modified or re- in a change from the design require Paired in accordance with applicable Protec- ments specified by the QUELL Licen- Standards of the National Fire standards without approval by the QUELL of any.y.oth r-Au horities thavingJuri s • Licensee. In the event of modification, of any.other rills f iund b Having Juris- repair, or adjustment, the water deliv- diction. Materials found by TFSBP to ery time of the QUELL System must be replaced,be defective e e shall be either repaired n. re-verified through. the use, of the rlad, th at TFSBP's ssu sole aution- SprinkFDT Q Water Delivery Calcula TFSBP neither assumes, nor author lion Program by personnel who have izes any person to assume for it, any been trained by TFBP (Ref. Training other obligation in.or parts of odh the section on Page 1). Re-verification of sale of products or parts of products. the water delivery time is required to TFSBP shall not be responsible for assure that the performance of the curl curate system e e information errors or nisup- QUELL System as originally designed pliede oy incomplete Buyer'sor sup- QUELL not been affected. plied by Buyer or Buyer's repre- has All components must be inspected, In no event shall'TFSBP be liable, in tested, and maintained in accordance contract, tort, strict liability or under • with their applicable data sheets (see any other legal theory, for incidental, System Components section). indirect,special or consequential dam- The owner is responsible for the in- ages, including but not limited to labor spection, testing, and maintenance of charges, regardless of whether their-fire protection system and de- TFSBP was informed about the possi- vices in compliance with this docu- bility of such damages,and in no event ment, as well as with the applicable shall TFSBP's liability exceed an standards of the National Fire Protec- amount equal to the sales price. tion Association (e.g., NFPA 25), in addition to the standards of any other The foregoing warranty is made in lieu authorities having jurisdiction. The in- of any and all other warranties. stalling contractor or sprinkler mane- Dress or implied. including warranties es facturer should be contacted relative of merchantability and fitness for a par- to any questions. ticular purpose. Automatic sprinkler systems are rec- This limited warranty sets forth the ex- Automatic to be inspected, tested, clusive remedy 'for 'claims based on and maintained be inspected,spected, Ins tested, failure of or defect in products, materi- and Service in accordance with local als or components, whether the claim requirements and/or.,national codes. is made in contract, tort, strict liability or any other legal theory. This warranty will apply to the full ex- tent permitted by law.The invalidity,in whole or part, of any portion of this warranty will not affect the remainder. ©2009 TYCO FIRE SUPPRESSION&BUILDING PRODUCTS,451 North Cannon Avenue,Lansdale, Pennsylvania 19446 TFP370 Page 11 of 12 pressure that had been entered into evaluation should be performed based demanding four sprinklers within the the SprinkFDT Q Water Delivery Cal- upon the specific penthouse and 'star- prescribed time. culation Program. After the proper air age arrangement to determine the pre Inadvertent operation of only the linear pressure has been established, use ferred method of protection including detection or an automatic sprinkler, the calibrated gauge to determine the consideration of the following: due for example to incidental damage standard air pressure gauge deviation • (if any)and note the calibration devia • Quantity and class of material stored or malicious activity, will not allow tion between the calibrated gauge and below penthouse. water flow into the system. Not allow- the standard gauge for future refer- • Volume of penthouse. ing water to flow in these cases is ence. desirable for refrigerated spaces, • Area of openings between storage Dry System. When the system is set space and penthouse. for service,the system piping is Mechanical System Shut-Down: Y p p g ores- Mechanical The fire detection system must be de- • Arrangement of air distribution duct- surized with a dry source of air,and the signed to shut fans down in powered work. releasing panel is in a normal standby systems or to close damp- condition. In the event of a fire, the ventilation s Y p- To ensure the proper operation of the opening of one or more Ultra K17 ers in natural ventilation systems upon fire sprinkler system, In this area, the sprinklers will begin to relieve air pres- actuation. The system is to be de- following design featuressho'uld be in- sure from the system piping.The QRS signed to shut down fans to avert de- cluded whenever possible: electronic accelerator will respond to eyed operation of the first sprinklers. p • Minimize openings between the an air decay rate of at least 0.1 psi/sec A separately ordered Auxiliary Relay storage space and the penthouse to to initiate Zone 1 of the releasing Module for the Potter Electric Series the minimum area necessary to pro- panel. With Zone 1 initiated, the re- PFC-4410-RC Releasing Panel must vide makeup air for the chillers. leasing panel will energize the releas- be utilized to perform this function. ing circuit to the solenoid valve in the • Minimize total penthouse volume. DV-5 deluge valve trim.Opening of the NOTE • Install sub ceiling beneath open ar- Auxiliary solenoid valve actuates the DV-5 al- Relay Modules are available lowing water to enter the system piping for mounting either inside or outside of eas with Ultra K17 Sprinklers in- and flow from at least each of the most stalled below. Sub-ceiling should be the Series PF -4 10-RCsRel easing provided in accordance with FM klers within llthe prescribed time.sprin- the externally located Auxiliary Relay Loss Prevention Data Sheet 2-2, Module to avoid electrical interference Paragraph 2.2.6.2(b). with the wiring connections to the • Install draft curtains around the pe- Installation Model QRS Electronic Accelerator. rimeter of the penthouse openings. NOTICE Using an externally located Auxiliary • Eliminate storage beneath mechani- Relay Module will also maximize on g battery space within the PFC-4410- cal penthouses. • Except as noted below all components• RC. It is highly recommended that imple- must be installed in accordance with mentation of the design features be their applicable data sheet or installa performed through the coordination of tion manuals. To Mechanical that l System Start-Up: the Architect/Engineer, Owner, To ensure t the full hydraulic capac- g ity is available for system filling, fire Authority Having Jurisdiction, Me- pump start-up is recommended to be chanical Designer,and Fire Protection Valve Trim initiated upon actuation of the fire de- Designer. T references the use of nomi- tection system. nal air air ir p pr ressure of 15 psi(1,0 bar).The normal system air pressure for the A separately ordered Auxiliary Relay Op.erati.on . QUELL Preaction or Dry System can Module for the Potter Electric Series be at'any pressure compatible to the PFC-4410-RC Releasing Panel must Double Interlock Preaction System. QRS Electronic Accelerator (Ref. Ta- be utilized to perform this function. When the system is set for service,the ble D).The pressure relief valve in the system piping is pressurized with a dry trim is to be set at 10 psi (0,7 bar) . NOTE source of air, and the releasing panel higher than than the normal system air Auxiliary Relay Modules are available is in a normal standby condition. In the pressure being used. for mounting either inside or outside of event of a fire, the fire detection will Air Pressure Gauge the Series PFC-4410-RC Releasing respond (155°F/68°C) to initiate Zone During the system set-up acceptance Panel. For QUELL Systems, only use 1 of the releasing panel. As the fire tests, a calibrated pressure gauge the externally located Auxiliary Relay continues to grow, the opening of should be used to set the system air Module to avoid electrical interference one or more Ultra K17 sprinklers pressure that had been entered into with the wiring connections to the (286°F/141°C)will begin to relieve air the SprinkFDT Q Water Delivery Cal- Model QRS Electronic Accelerator, pressure from the system piping. The culation Program. After the proper air Using an externally located Auxiliary QRS electronic accelerator will re- pressure has been established, use Relay Module will also maximize on spond to an air decay rate of at least the calibrated gauge to determine the battery space within the PFC-4410- 0.1 psi/sec to initiate Zone 2 of the standard air pressure gauge deviation RC. releasing panel. With Zones 1 and 2 (if any)and note the calibration devia- initiated,the releasing panel will ener- tion between the calibrated gauge and Penthouse: gize the releasing circuit to the sole the standard gauge for future refer- ` noid valve in the DV-5 deluge valve Penthouse configurations consid- trim. Opening the solenoid valve actu- ence. erably,and as such there is no univer- ates the DV-5 allowing water to enter sal solution for providing protection be- the system piping and flow from at neath these areas. An engineering least each of the most hydraulically • Page 10 of 12 TFP370. c.,,,,, L . • 1-Ifft, „-w- or,19,11, „.„ hie ju , t+yA WRENCH . a� FLAT ■— 5 — 4 /---- 2-3/8" � 3 � • Ihig 2 ti . (60.3 mmj.� y 1 3/4"' 1/2" (12,7 mm) ? NPT NOMINAL MAKE—IN 1-Frame 4-Bulb *Temperature rating is "Pipe thread 2-Button 5-Compression Screw indicated on deflector. connections per ISO 3-Sealing Assembly 6-Deflector* 7/1 can be provided on special request. FIGURE 4 ULTRA K17,286°F/141°C, UPRIGHT(TY7103)SPRINKLERS Switch Setting Low Air Threshold Nominal Pressure High Air Threshold PSI(Bar) PSI(Bar) PSI(Bar) 0 7(0,48) 10(0,69) 15(1,04) 1 7(0,48) 15(1,04) 20(1,38) TABLED 2 15(1,04) 20(1,38) 25(1,72) HIGH/NORMAL/LOW AIR PRESSURE SETTINGS FOR 3 15(1,04) 25(1,72) 30(2,07) THE QUELL-SYSTEM 4 20(1,38) • 30(2,07) 35(2,41) THAT ARE COMPATIBLE WITH THE QRS . - .5 , '25(1 72) 35(2,41): • 40(2,76) QUICK RELEASE SWITCH 6 30(2,07) 40(2,76) 45(3,10) 7 35(2,41) 45(3,10) 50(3,45) 8 45(3,10) 55(3,79) 60(4,14) 9 55(3,79) 65(4,48) 70(4,83) TFP370 Page 9 of 12 CAUTION. CONDUIT(RIGID ORL FLEXIBLE). TO B MODEL FLLE LE).CONNECTDRAIN WIRE OF SHIEDLD TO EARTH GROUND OFT PANEL HE PFC-441D-RC ON Y O DO BTLCONN CTL DRAIN WIRE TO ORS.SHIELDED CABLE:6 CONDUCTOR,22 AWG STRANDED,PVC JACKET,OVERALL FOIL SHIELD WITH DRAIN. (ALPHA WIRE TYPE 5198C OR EQUIVALENT) J<)MPER 7 JUMPPR QRS TAMPER ALARM HIGH/ 24VDC r..- SWITCH SOLE LOW - O O © ROLFS) AIR D Og 5.1K 5.1K w w T y EOLR W U ' m 5.1 K EOER m SYSTEM WATERFLOW AT QRS •4 SHUT-OFF PRESSURE II VALVE ALARM SWITCH MAIN ORANGE + CONTROL ORANGE VALVE r4 } USED J L DO NOT ; ; __ ALPHA WIRE • CONNECT .$0,41 TYPE 5198C SHIELD ' OR EQUIVALENT 4y :00 SYSTEM t. I I SHIELD -.mi.- D w w w z .. ... ... _ ,:.. ... .._. .._ . Y NOT . USED • • —1 r i O OOC� O • • 00 I I + - + - SUP• SUP- + - + + - + _ I AVE.POWER ABORT SUPERVISORY ZONE I ZONE 2 ZONE 3 ZONE 24VDC I _ _ \ __ _--•` \ J OUTPUT OUTPUT OUTPUT OUTPUT 1 • • + • • • • • L_ _I L r J PFC-4410-RC PANEL U D U D © RELEN m m C SOLENOID ASIG • - U D • •- . . MI..• ' END OF LINE DIODE ASS'Y IPART#3005012 REFERENCE 5.1 K 5.1 K NSTALI%1 EOLR EOLR 1_ _ J 6oLENOID LOCATION WIRING DIAGRAM GENERAL WATER SYSTEM PROGRAM #8 ALARM BELL FLOW BELL FIGURE 3 QUELL SYSTEM ELECTRICAL SCHEMATIC FOR DRY SYSTEMS • Page 8 of 12 TFP370 CAUTION. CONDUIT QUICK IGID ORLF FLEX SWITCH IS TO BE WIRED TO THE IBLE)E),CONNECT DRAIN WIRE O SH SHIELD TO EARTH GROUND OF THE PFC 410-RC ONLY DO NOBT CONNECT THE ORS DRAIN WIRE TO ORS.SHIELDED CABLE.8 CONDUCTOR.22 AWG STRANDED,PVC JACKET,OVERALL FOIL SHIELD WITH DRAIN. (ALPHA WIRE TYPE 5198C OR EQUIVALENT.) 7 JUMPFR JUMPER QRS TAMPER ALARM HIGH/ 24VDC .., SWITCH EOLR LOW 0 ® 0 © 6 AIR 900 EOI.R EOLR EOLR EOL C c o ' Q 5.1 KEOLR &'° 3' m m m SYSTEM WATERFLOW LOCATE $ 4 SHUT-OFF $ 4 PRESSURE AT QRS VALVE Z ALARM SWITCH N o MAIN H- CONTROL w ORANGE l NOT VALVE LL, YELLOW I USED w rile 11- CC DO NOT ... ALPHA WIRE CONNECT %•,`'C"-'•'`�: TYPE 5198C SHIELD �, .....••.. OR EQUIVALENT '' *,.64: SYSTEM ;H i tt tr, 1 1 SHIELD o chi W O O 5 m C > w m A � m NOT USED I0 100 000006 . 0001 I + - + - SUP. SUP. + - + - + + - AUX,POWER ABORT SUPERVISORY ZONE I ZONE 2 ZONE 3 ZONE 4 I 24VDC I /- - � — _ � — —. / — s.... _ ^ \ -J 7.—.. V—7— OUTPUT OUTPUT OUTPUT OUTPUT P. GNO. I + - 1 I • • 0011 • • 1 L r J PFC-4410-RC PANEL U C U w 0 RELN 3 a 5 SO.EASIENOID G m • m • U 0 m K lei END OF LINE DIODE ASS'Y I A I PART#3LA05012 5.1 K 5.1 K srLLar REFERENCE EOLR EOLR L —J snTON WIRING DIAGRAM GENERAL WATER SYSTEM PROGRAM#13 ALARM BELL FLOW BELL , FIGURE 2 QUELL SYSTEM ELECTRICAL SCHEMATIC FOR D.I. PREACTION SYSTEMS TFP370 Page 7 of 12 QUELL SYSTEM CARTONED, UNEXPANDED, GROUP A PLASTIC COMMODITIES GENERAL GUIDELINES: Ultra K17 (TY7103) Sprinklers with a 286°F/141°C temperature rating may be installed in double interlock preaction systems or dry systems for the protection of high piled storage occupancies including single-, double-, and multiple-row rack storage, as well as palletized and solid piled storage, of cartoned, unexpended, Group A Plastic commodities. For ceiling only protection (no in-rack sprinklers), the installation criteria is as follows: • a minimum deflector to top of storage clearance of 36 inches (0,9 m); • a maximum coverage area of 100 ft2 (9,3 m2) per sprinkler; • a minimum coverage area of 80 ft2 (7,3 rr)?) per sprinkler,, • sprinkler spacing criteria: 12 feet(3,6 m) maximum for unobstructed construction (palletized and solid piled storage), 10 feet(3,0 m)maximum for unobstructed construction (rack storage), 10 feet(3,0 m) maximum for obstructed construction, and 8 feet(2,4 m)minimum; • storage height, building height, hydraulic design pressure, and water delivery times are as follows: Minimum Storage Ht./ Design Recommended Maximum Minimum Sequential Sprinkler Ceiling/Ht., Pressure, No. of Design Water Delivery Water Delivery Opening Times, Sec.(b a c) Ft./Ft. psi Sprinklers(a) Time, Sec.(b) Time, Sec(c) 1st 2nd 3rd 4th (m/m) (bar) (Ref.Appendix, Test'No.) 20/30 (6;1/9,1) 22 (1,5) 25 (App. D) 25 8 0 3 6 8 25/30 (7,6/9,1) 35 (2,4) 25 (App. E) 25 8 0 3 6 8 20/35 (6,1/10,7) 35 (2,4) 25 (App. E) 25 8 0 3 6 8 25/35 (7,6/10,7) 35 (2,4) 25 (App. E) 25 8 0 3 6 8 30/35 (9,1/10,7) 35(2,4) 25 (App. E) 25 8- 0 3 6 8 (a)The minimum recommended number of design sprinklers is to be confirmed with the Authority Having Jurisdiction. Refer to the appropriate appendix material.When sprinkler coverage areas of 100 112(9,3 m2)are used for all 25 Design Sprinklers,the resulting design area is 2500 ft2(232 m2). If sprinkler coverage areas less than 100 112(9,3 m2)are utilized,the design area is not to be less than 2250 ft2(209 m2);therefore,the number of design sprinklers may need to be increased accordingly. (b)The maximum water delivery time shall be calculated'So as to assure the design pressure is available at each of the most hy- draulically demanding four sprinklers within the noted time (when applying the water delivery calculation enter the sequential sprinkler opening times for each of the four sprinklers). (c)The minimum water delivery time shall be calculated so as to assure the design pressure is NOT available at any of the least hydraulically demanding four sprinklers within the noted time(when applying the water delivery calculation enter the sequential sprinkler opening times for each of the four sprinklers). TABLE C HYDRAULIC DESIGN AND WATER DELIVERY CRITERIA TO PROVIDE CEILING ONLY PROTECTION OF UNEXPANDED GROUP A PLASTIC COMMODITIES Page 6 of 12 TFP370 QUELL SYSTEM CLASS III COMMODITIES Ultra K17 (GY7103)ISprinklers with a�286°F/14111°C temperature rating may be installed in''double interlock preaction systems or dry systems for the protection of high piled storage occupancies including single-,double-, and multiple-row rack storage, as well as palletized and solid piled storage, of up to Class Ill commodities with no plastic containers or open top combustible containers. For ceiling only protection(no in-rack sprinklers),the installation criteria is as follows: • a minimum deflector to top of storage clearance of 36 inches (0,9 m); • a maximum coverage area of 100 ft2 (9,3 m2) per sprinkler; • a minimum coverage area of 80 ft2(7,3 m2)per sprinkler; • sprinkler spacing criteria: 12 feet(3,6 m) maximum for unobstructed construction (palletized and solid piled storage), 10 feet(3,0 m) maximum for unobstructed construction (rack storage), 10 feet(3,0 m)maximum for obstructed construction, and 8 feet(2,4 m)minimum; • storage height, building height, hydraulic design pressure, and water delivery times are as follows: . Minimum Storage Ht./ Design Recommended Maximum Minimum Sequential Sprinkler Ceiling/Ht., Pressure, No. of Design Water Delivery Water Delivery Opening Times, Sec.(b B`c) Ft./Ft. psi Sprinklers(a) Time, Sec.(b) Time,Sec(`) 1st 2nd 3rd 4th (m/m) (bar) (Ref. Appendix, Test No.) 20/30 (6,1/9,1) 30(2,1) 25(App.A, T4) 25 8 0 3 5 7 25/30 (7,6/9,1) 30 (2,1) 25(App.A,T4) r 25:.. 8 0 3 5 7 20/35(6,1/10,7) 30 (2,1) 25(App.A,T4) `• ' '25 ' 8 0 3' 5 7 25/35 (7,6/10,7) 30(2,1) 25 (App.A, T4) 25 8 0 3 5 7 30/35 (9,1/10,7) 30 (2,1) 25(App.A,T4) 25 8 0 3 5 7 . 20/40 (6,1/12,2) . 30 (2,1) 25(App.A, T7) 25 8 0 3 5 7 25/40 (7,6/12,2) 30 (2,1) 25(App.A,T7) 25 8 0 3 5 7 30/40 (9,1/12,2) 30(2,1) 25 (App.A,T7) 25 8 0 3 5 7 35/40 (10,7/12,2) 30(2,1) 25(App.A,T7) 25 8 0 3 5 7 20/45 (6,1/13,7) 30 (2,1) 25(App.A, T7) 25 8 0 3 5 7 25/45 (7,6/13,7) 30 (2,1) 25(App.A,T7) 25 8 0 3 5 7 30/45 (9,1/13,7) 30(2,1) 25(App.A, T7) 25 8 0 3 5 7 35/45 (10,7/13,7) 30 (2,1) 25(App.A, T7) 25 8 0 3 5 7 40/45(12,2/13,7) 30(2,1) 25(App.A,T6) 25 8 0 3 5 7 40/48 (12,2/14,6) 30 (2,1) 30 (App. C) 25 8 0 3 5 7 (a)The minimum recommended number of design sprinklers is to be confirmed with the Authority Having Jurisdiction. Refer to the appropriate appendix material.When sprinkler coverage areas of 100 ft2(9,3 m2)are used for all 25 or 30 Design Sprin- klers, the resulting design area is 2500 ft2(232 m2)or 3000 ft2(279 m2), respectively. If sprinkler coverage areas less than 100 ft2(9,3 m2)are utilized,the design area is not to be less than 2250 ft2(209 m2)for ceiling heights 45 ft.(13,7 m)or less, or 2700 ft2(251 m2)for ceiling heights greater than 45 ft. (13,7 m)and less than or equal to 48 ft. (14,6 m);therefore,the number of design sprinklers may need to be increased accordingly. (b)The maximum water delivery time shall be calculated so as to assure the design pressure is available at each of the most hy- draulically demanding four sprinklers within the noted time(when applying the water delivery calculation enter the sequential sprinkler opening times for each of the four sprinklers). (c)The minimum water delivery time shall be calculated so as to assure the design pressure is NOT available at any of the least hydraulically demanding four sprinklers within the noted time(when applying the water delivery calculation enter the sequential sprinkler opening times for each of the four sprinklers). ,.. TABLE 6. . HYDRAULIC DESIGN AND WATER DELIVERY CRITERIA TO PROVIDE CEILING ONLY PROTECTION OF CLASS III COMMODITIES TFP37O - . , ,, Page 5 of 12 QUELL SYSTEM . CLASS II COMMODITIES GENERAL GUIDELINES: Ultra K17 (TY7103) Sprinklers with a 286°F/141°C temperature rating may be installed in double interlock preaction systems or dry systems for the protection of high piled storage occupancies including single-, double-, and multiple-row rack storage, as well as palletized and solid piled storage, of up to Class II commodities with no plastic containers or open top combustible containers. For ceiling only protection(no in-rack sprinklers),the installation criteria is as follows: • a minimum deflector to top of storage clearance of 36 inches(0,9 m); • a maximum coverage area of 100 ft2 (9,3 m2)per sprinkler; • a minimum coverage area of 80 ft2(7,3 m2) per sprinkler; • sprinkler spacing criteria: . 12 feet(3,6 m) maximum for unobstructed construction(palletized and solid piled storage), 10 feet(3,0 m)maximum for unobstructed construction(rack storage) 10 feet (3,0 m) maximum for obstructed construction, and 8 feet(2,4 m) minimum; • storage height, building height, hydraulic design pressure, and water delivery times are as follows: Minimum Storage Ht./ Design Recommended Maximum .Minimum Sequential Sprinkler Ceiling/Ht., Pressure, No..of Design Water Delivery''Water Delivery' ' Opening Times, Sec.tb 8'c) Ft./Ft. psi Sprinklers(a) Time, Sec.(b) Time,Sec.(c) 1st 2nd 3rd 4th (m/m) (bar) (Ref.Appendix, . Test No.) 20/30 (6,1/9,1) 22 (1,5) 25 (App. B,T1) 30 9 0 3 6 8 25/30 (7,6/9,1) 22 (1,5) 25 (App. B,T1) 30 9 0 3 6 8 20/35 (6,1/10,7) 22 (1,5) 25(App. B, T1) 30 9 0 3 6 8 25/35 (7,6/10,7) 22 (1,5) 25 (App. B, T1) 30 9 . 0 3 6 8 30/35 (9,1/10,7) 22 (1,5) 25 (App. B, T1) 30 9 0 3 6 8 20/40 (6,1/12,2)) 22 (1,5) 25 (App.'B, T1) 30 9 0 3 6 8 25/40 (7,6/12,2) 22 (1,5) 25(App. B,T1) 30 , 9 0 3 6 8 30/40 (9,1/12,2) 22 (1,5) 25 (App. B,T1) 30 9 0 3 6 8 35/40 (10,7/12,2) 22 (1,5.) 25(App. B, T1) • .30 9 0 3 6 8 20/45(6,1/13,7) 30 (2,1) 25(App.A, T7) 25 9 0 3 6 8 25/45 (7,6/13,7) 30 (2,1) 25 (App.A, T7) 25 9 0 3 6 8 30/45(9,1/13,7) 30 (2,1) 25 (App.A, T7) 25 9 0 3 6 8 35/45 (10,7/13,7) 30 (2,1) 25(App.A, T7) 25 9 0 3 6 8 40/45 (12,2/13,7) 30 (2,1) 25(App.A, T6) 25 9 0 3 6 8 40/48(12,2/14,6) 30 (2,1) 25 (App. C) 25 8 0 3 5 7 (a)The minimum recommended number of design sprinklers is to be confirmed with the Authority Having Jurisdiction. Refer to the appropriate appendix material,When sprinkler coverage areas of 100 ft2(9,3 m2)are used for all 25 Design Sprinklers,the resulting design area is 2500 ft2(232 m2). If sprinkler coverage areas less than 100 ft2(9,3 m2)are utilized,the design area is not to be less than 2250 ft2 (209 m2);therefore,the number of design sprinklers may need to be increased accordingly. (b)The maximum water delivery time shall be calculated Aso as to assure the design pressure is available•at each of the most hy- draulically demanding four sprinklers within the noted time(when applying the water delivery calculation enter the sequential sprinkler opening times for each of the four sprinklers), (c)The minimum water delivery time shall be calculated so as to assure the design pressure is NOT available at any of the least hydraulically demanding four sprinklers within the noted time(when applying the water delivery calculation enter the sequential sprinkler opening times for each of the four sprinklers). TABLE A HYDRAULIC DESIGN AND WATER DELIVERY CRITERIA TO PROVIDE CEILING ONLY PROTECTION OF CLASS II COMMODITIES • • Page 4 of 12 TFP37O • gap between the pipe ends,e.g.,Grin- than or equal to nominal 2-1/2 inch Hell Tri-Seal Gaskets. Design Criteria (DN65) pipe size based on NFPA 13 Where Grinnell grooved type cou- (2002) 8.1.1(5). When sprinklers are plings are being utilized, the Grinnell NOTICE specifically tested (as was the case Figure are being 577 Rigid utilized, the Figure Grinnell during the fire tests reported inAppen- QUELL Systems are an innovative ap- dix A and B) and test results demon- Flexible Type Couplings with Tri-Seal proach to addressing a high-challenge strate that deviations from clearance "Grade E EPDM"Gaskets and a petro- fire hazard that departs from previous requirements to structural members leum-free silicone lubricant are to be control mode and suppression mode do not impair the ability of the sprin- utilized. These components are de- approaches for addressing a high- kler, their positioning and locating in scribed in TFP1800, TFP1820, challenge fire, and instead employs a accordance with the test results shall TFP1840, and TFP1850. sprinkler operational area sufficient to be permitted. (10)Control Valves: surround and drown a high-challenge Branch lines of nominal 3 inch (DN80) The Main Control Valve(preaction and fire. pipe size are acceptable when riser dry) and System Shut-Off Valve (pre- Except as modified below, all installa- nipples are provided to elevate the de- action only)must be supervised in the tion criteria provided in NFPA 13 ap- flector 15 inches (380 mm) above the normally open position.The use of the plies. centerline of the pipe. Branch lines of use of Model BFV-N Butterfly Valves nominal 4 inch (DN100) pipe size are are recommended.The BFV-N Valves The Ultra KIT Upright Sprinklers are are described in TFP1510, TFP1515, `Specific.Application Sprinklers Used acceptable,when riser nipples are pro- and TFP1520. For Storage Protection". Except as vided to elevate the deflector 18 modified below,all installation require inches(460 mm)above the centerline (11) Red-E Cabinet: ments provided in NFPA 13, Section of the pipe. The Model DV-5 Preaction Red-E 8.11 apply. Releasing Panel: Cabinet (without air compressor) that The Potter Electric Series PFC-4410- can house Items 2 thru 6 is recom- Hydraulic Design and RC Releasing Panel utilizes a NEMA mended.This component is described Water Delivery: in TFP1400. The hydraulic design, maximum water Type 1 enclosure (i.e., general pur delivery time, and minimum water de- pose enclosure). Therefore the panel *Components'1,2,3,4,5,and 6 have livery time must be in accordance with must be located where it will not be been selected based on their ability to Table A, B, or C, as applicable. subject to direct or indirect wetting meet the performance requirements of (e.g., condensation). the QUELL System and in some cases The SprinkFDT Q Water Delivery Cal- Fire Detection: the compatibility of certain compo- culation Program must be used to as For preaction systems, 155T/68°C nents,e.g.,the QRS Electronic Accel- sure water delivery within the pre- rated linear heat detection wire must erator with the Series PFC-4410-RC scribed maximum and minimum times, be installed on each branchline in ac Releasing Panel.TFBP is not aware of as well as to take pump start up time . alternative components that meet the into consideration. cordance with the manufacturer's in QUELL System performance require- structions. The fire detection zone Y p q When applying-the water delivery cal- must match the sprinkler system area. ments. Accordingly, at this time there culation program, the trip ratio for the Overlapping of the fire detection zone is no assurance that QUELL Systems system is determined by dividing the to adjacent sprinkler system areas is will function as intended if the indi- available static water supply pressure not permitted. • cated components are not used. It is by seven psi (e.g., if the static water possible that functional alternatives to supply is 140 psi, the trip ratio will be Fire Detection Circuit: these components will be developed 140 psi/7 psi=20,or if the static water The fire detection circuit illustrated in and tested in the future. supply is 70 psi,the trip ratio will be 70 Figure 2 is shown as Class B. A Class psi/7 psi = 10). A detection circuit may be utilized when installed per Potter Manual Also when applying the water delivery #5403545 describing the Potter Elec- calculation program,.the fixed trip time tric Series PFC-4410-RC Releasing to be entered for.ttie electronic'QRS Panel. accelerator is 4 Sec011dS:,, Battery Back-Up: In order to accurately predict water The duration of battery back-up is to delivery time, the use of an accurate be in accordance with the require- water supply curve is critical for the ments of the Authority Having Jurisdic- SprinkFDT Q Water Delivery Calcula- tion.A minimum of 90 hours of battery tion Program. The water supply infor- back-up is recommended. Battery mation must include pressure and flow back-up calculations are to be per- points at the system fill flow rate. formed in accordance with Potter Manual#5403545 describing the Pot- System Piping Layout: ter Electric Series PFC-4410-RC Re- The system piping layout must be a leasing Panel. "tree"configuration in order to use the Automatic Air Supply: SprinkFDT Q Water Delivery Calcula- The normal system air pressure can tion.Program and to help assure the be at any pressure compatible to the quickest water delivery times.Gridded QRS Electronic Accelerator (Ref. Ta- and looped systems are prohibited. ble D). Automatic Sprinklers: During the system set-up acceptance The.Ultra K17 Sprinklers may be at- tests, a calibrated pressure gauge tached directly to branch lines less should be used to set the system air (Continued on Page 11) v TFP370 Page 3 of 12• without air dryer may be utilized and Technical System there must be provision for low drains to be drained twice a year when the Data Components ambient temperature is in excess of °C. pp (& Data Sheet 32°Fire Approvals Detection Tyco® QUELL System Compo- (8) Fire Detection (Preaction Only): nents 1 through 6 described on Page Reference) The fire detection utilized must be se- 3 are UL Listed and FM Approved. lected so that it will operate before the (1)*Automatic Sprinklers: automatic sprinklers. (The fire detec- QUELL Systems are intended to be tion must be compatible with the Potter applied via"Equivalency"as defined in Ultra K1 g rd 4) 3 with 286 FI141 C Electric Series PFC-4410-RC Releas- (Ref. Figure"4)�wtth a�286`F/141°C Releas- NFPA 13;consequently,the hydraulic temperature rating must be utilized. ing Panel. Where acceptable to the design and water delivery criteria pro- This component is described in Authority Having Jurisdiction, the dry vided in Tables A,B,and C are subject TFP331. contacts of a separate fire detection to approval by the Authority Having releasing panel may be used to initiate Jurisdiction and may differ from NFPA (2)*Automatic Control Valve: Zone 1 of the PFC-4410-RC shown in 13 and FM Loss Prevention Data Model DV-5 Deluge Valve (automatic Figure 2.) Sheets. For FM insured projects, con- control valve) must be utilized. This 155°F/68°C SAFE ThermoCable"* suit FM Loss Prevention Data Sheet component is described in TFP1305. Linear Heat Detection is ThermoCable- 8-9.9 (3)* Riser Check Valve: mended.This component is described Maximum Working Water Pressure Model CV-1 FR Riser Check Valve in SAFE Fire Detection Inc. Manual 175 psi (12,1 bar) must be utilized. This component is #32502-05/06. Allowable System Air Pressure described inTFP950. SAFE ThermoCable linear heat detec- Range • (4)*Valve Trim: tion has been verified during full scale 15 to 65 psi (1,0 to 4,5 bar) Model DV-5 Double Interlock Elec- fire testing to meet the fire detection Maximum System Volume tric/Electric Preaction Trim must be requirements for QUELL Preaction Maxi Maxi gallons (15900 liters) • used. This component is described in Systems. Up to 10,000 linear feet 4200 TFP1465. (3000 m) of SAFE ThermoCable may NOTICE (5)* Quick Opening Device: be installed on Zone 1 of the Potter Model QRS Electronic Accelerator ing Series PFC-4410-RC Releas- SprinkFDT Q fluid delivery calculation must be utilized. This component is g Panel. program must be applied to assure described in TFP1100. (9) Pipe and Fittings: desired water delivery time. (6)* Releasing Panel: Pipe must be internally galvanized or Potter Electric Series PFC-4410-RC equivalent and of a type material ac- Patents (PFC-4410A-RC for Canada) Releas- ceptable per NFPA 13 for preaction or Patent Pending ing Panel must be utilized. This corn- dry systems. • . ponent is described in Potter Manual EXCEPTION: Pipe may be black only #5403545. for a Quell Preaction System and only (7).Automatic.Air(Nitrpgen)'Supply: when all three of the following criteria For protection areas maintained be- are met: low 32°F/0°C,the air(nitrogen)supply • The piping is in areas maintained must be provided in accordance with below 32°F/0°C. the 2007 Edition of NFPA 13, Section • 7.9.2.4. • A listed air compressor/dryer pack- age is provided per NFPA 13, • When installing. per 7.9.2.4(1), the 7.9.2.4(2)or a compressed nitrogen piping arrangement must be in ac- supply is provided per NFPA 13, cordance with Figure A.7.9.2.4 (i.e., 7.9.2.4(3), refer to Component 7. inclusive of an air dryer and coa- lescer filter to provide a higher de- • The system is to be trip tested in a gree of preventing the formation of manner that does not introduce ice plugs). moisture into the system piping. (The 2002 Edition of NFPA 25, Sec- • When installing per 7.9.2.4(2), the tion 12.4.3.2.2.3 requires that preac- use of the General Air Products Dry tion valves protecting freezers, (i.e., Air Pac Model DAP500, DAP1000, below 32°F/0°C)shall be trip tested or DAP2000 is recommended. This in a manner that does not introduce component is described in General moisture into the system piping. Aid, Products DAP-Instruction With this in mind, the riser for the Manual-011606. QUELL System (Figure 1) is pro- • When installing per 7.9.2.4(3), the vided with a System Shut-Off Valve use of the Model AMD-3 Nitrogen so that trip tests can be discharged Maintenance Device is recom- to the System Main Drain Valve in- mended. This component is de- stead of the system piping.) scribed in TFP1241. Where gasketed grooved type cou- For protection areas NOT maintained plings are being utilized, the gasket below 32°F/0°C, a standard air supply type must be capable of closing off the .**Registered Trademark of SAFE Fire Detection Inc. Page 2 of 12 TFP370 SYSTEM PIPING WITH ULTRA K17 AUTOMATIC SPRINKLERS DIAPHRAGM LOW AIR FIRE DETECTION CHAMBER MODEL (PREACTION ONLY) PRESSURE QRS SYSTEM GAUGE SWITCH AUTOMATIC SHUT-OFF VALVE I \ DRY AIR (SUPERVISED I II SUPPLY NORMALLY I r OPEN) I I SOLENOID 0 • • VALVE MODEL RELEASING PANEL CV-1FR (AUTOMATIC SYSTEM MAIN . RISER CHECK CONTROL UNIT DRAIN DRAIN VALVE �e VALVE (NORMALLY WITH BATTERY MODEL ASV-1 CLOSED) DRAIN BACK-UP) LOCAL AUTOMATIC T HYDRAULIC SHUT-OFF VALVE PRESSURE i MANUAL w/RESTRICTION - L ALARM SWITCH CONTROL { V STATION y MODEL DV-5 � y � O DELUGE VALVE MANUAL MAIN DRAIN VALVE WATER SUPPLY PRIMARY ELECTRICAL DRAIN (NORMALLY CLOSED) DRAIN PRESSURE •POWER PULL STATION GAUGE SUPPLY (AS REQUIRED) DIAPHRAGM CHAMBER SUPPLY CONNECTION MAIN DIAPHRAGM CHAMBER \ CONTROL VALVE SUPPLY CONTROL VALVE (SUPERVISED (NORMALLY OPEN) WATER NORMALLY SUPPLY OPEN) FIGURE 1 QUELL SYSTEM PIPING SCHEMATIC • vantageous for refrigerated and cold hazard that departs from previous ing their fire protection system and de- storage. ' control mode and suppression mode vices in proper operating condition. One of the best alternatives for elimi- approaches. The installing contractor or manufac- nating in-rack sprinklers has been the • Eliminates the need for care inten- turer should be contacted with any installation of an Early Suppression sive anti-freeze system. questions. Fast Response (ESFR) sprinkler sys ' Fully pre-engineered riser. tem; however, due to its limitation of being a wet pipe sprinkler system,the . Fully supervised riser with dedicated ESFR System is limited to installations control panel. at or above 40°F/4°C. Now with the QUELL System,SprinkFDTTM Q Water • Built-in electronic accelerator to op- Delivery Calculation Program, and timize water delivery time. QRS technology there is an alternative • Selection of system air pressure is for protecting refrigerated and cold independent of water supply to opti- storage without the need for in-rack mize water delivery time. sprinklers (Ref. Tables A, B,and C). Applications for the QUELL Preaction ' Trip testing without flooding system. and Dry Systems are expanding be- • Remote signal contacts. yond the currently approved hydraulic design and water delivery criteria. For NOTICE information regarding research fire tests which may be acceptable to an The QUELL Preaction and Dry Sys- Authority Having Jurisdiction, please terns described herein must be in- contact the Technical Services De- stalled and maintained in compliance partment. with this document,.and with the'appli- Features: cable standards of the National Fire Protection Association, in addition to • Eliminates in-rack sprinklers for re- the standards of any authorities having frigerated and cold storage. jurisdiction. Failure to do so may im- • Provides an innovative approach to pair the performance of these devices. addressing a high-challenge fire The owner is responsible for maintain- tLJCtJ 9'' Fire Suppression & Building Products QuIITM FIRE SPRINKLER SYSTEMS Technical Services:Tel: (800)381-9312/Fax: (800)791-5500 A Greater Degree of Fire Protection QUELLTM Systems Preaction and Dry Alternatives For Eliminating In-Rack Sprinklers Table of , ° - '0, f Contents � �F�� � �� � � I �� Y�� .,gy , e SECTIONS ' = (( ft Training 1 t. {i . `, General Description 1 '4.--,- r t 1 Technical Data 2 , System Components 3 Design Criteria 4 'h ` 'b - Operation 11 .. s 4 ` Installation 11 ` � _ � Care& Maintenance 12 ;" b a Y :' _ - Limited Warranty 12 . :t4 ." � Ordering Procedure 12 -, -... ,•--L�u" ' .- --� �„,,1004.- - �t t•'' k UL Fire Test : . •'' ..€ Report App.A (4/07) - FM Fire Test , � � `, ”` Summary App. B(3/09) , UL Fire Test s1. "�� ►�_.:" ` Report (48'Ceiling Class ll& Ill) ., . . • App. C(4/0 7) UL Group A Training General Unezpanded Plastic Fire Test Report . App. D(4/07) UL Group A Training provided by TFBP is manda Description Unezpanded Plastic tory prior to bidding, designing, pro Fire Test Report . App. E(4/07) curement of components, installation, The Tyco QUELL Systems are an and maintaining of the Tyco QUELL innovative approach to addressing a Preaction and Dry Systems. These high-challenge fire hazard that departs TABLES systems are unique in their intent and from previous control mode and sup- Class II Storage 5 design. Anyone involved at any level pressiorr mode approaches for ad Class Ill Storage 6 Iriu '.taoro,}ghly understand the timita- dressing high-challenge fires, and in- systems tions and capabilities of such systems. stead employs a sprinkler operational Group A Plastic Storage . . . . 7 area sufficient to surround and drown Air Pressure Setting 10 a high challenge fire.The QUELL Pre action and Dry Systems provide an alternative method of protecting high FIGURES challenge storage without the need for Piping Schematic 2 in-rack sprinklers. The elimination of Electrical, Preaction System . . 8 in-rack sprinklers avoids the greatest potential of inadvertent operation Electrical, Dry System 9 caused by mechanical sprinkler and Ultra K17 Sprinkler 10 piping damage during loading and un- loading of racks.Due to the non-wt ater filled piping of the QUELL Sysems, the QUELL Systems are especially ad- Page 1 of 12 MARCH, 2009 TFP370 Coca-Cola (Quell Cooler/Freezer, Cooler Dock,and corr.) Manufacturer Product Location to be used Tyco Quell system Cooler/Freezer Tyco DV-5 precation system(elec./elec.) — — — y — — — -Quell risers Tyco ---- QRS switch IQuell risers Tyco Butterfly valve Quell risers/dry risers Tyco Check valve Quell risers Tyco I Dry pipe valve Cooler dock/Corridor -- -.__ _-- -- -------Tyco ----------------------- Rigid Coupling I Quell and dry systems Tyco Grooved fittings — _ -- — — — Quell and dry systems Tyco TY-B upright Std. response sprinkler Cooler dock/Corridor --------------- ----- Potter Releasing panel — Quell systems Potter PS-10 pressure sw. I Dry pipe systems Potter PS-40 pressure sw. Dry pipe systems __ General Air products Dry air pac Quell and dry systems General Air products Air Maint device Quell and dry systems Safe Thermo LHD Cable Quell systems Safe Installation accessories Quell systems ------ ---------- Safe Junction Boxes !Quell systems Safe Test switch IQuell systems Arcelor Mittal Galv. 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J:\ NEW JOBS\COCA COLA NORTHAMPTON\building permit narrative 3-11-11.doc Coca Cola 5 3/11/2011 45 Industrial Drive,Northampton, MA a) The Fire Sprinkler System design for this building and described by this Narrative are based on the prescriptive requirements identified in Section 3 above. b) There were no interpretations or clarification between the prescriptive design criteria and code requirements necessary for these systems. c) The intend is to use a "Alternative Fire Protection Design Methodology — Independent Engineering Review" as outlined in section 901.7.2.1 of the Massachusetts State Building Code (780 CMR, 7th edition) and as permitted by NFPA 13, 2007 edition, sections 1.5 for Equivalency and 1.6 for New Technology. It is our intention to provide equivalency to the prescriptive requirements of the building code for use of a Tyco Quell fire suppression system for protection of the freezer warehouse areas of the building. We will make application to the State Building Code Appeals Board as provided in 780 CMR section 122.0. lb) Sequence of Operation The wet pipe sprinkler system will respond to an abnormal high temperature at the rating for each type sprinkler. When the heat responsive element actuates, the sprinkler will allow water to flow to control the fire, start the fire pump, and continue to flow water until manually shut off. A flow from ONLY one (1) sprinkler will activate the water flow alarm on the Sprinkler Riser and close a contact in the Fire Alarm Control Panel (e.g. installed BY OTHERS) and cause a Fire Alarm in accordance with the Fire Alarm Control Panel design and notify the Northampton Fire Department. The Quell pre-action sprinkler systems will respond to an abnormal high temperature via linear heat detection and automatic sprinklers. When the linear heat detection and the sprinkler fusible element actuate, the sprinkler system will allow water to fill the fire protection system piping and flow from fused and open sprinklers to control the fire, start the fire pump, and continue to flow water until manually shut off A flow from ONLY one (1) sprinkler will activate the water flow alarm on the Sprinkler Riser and close a contact in the Fire Alarm Control Panel (e.g. installed BY OTHERS) and cause a Fire Alarm in accordance with the Fire Alarm Control Panel design and notify the Northampton Fire Department. 1 c) Testing Criteria SECTION 1 a) Environmental Fire Protection will be responsible to all fire protection system testing. Hydrostatic testing of system components will be conducted at 200 psi for two hours as required by NFPA 13, 2007 edition. b) NFPA13, 2007 edition,test certificates and final 780 CMR affidavits will be provided. c) The general contractor shall coordinate acceptance testing between trades and code officials. SECTION 2 Environmental Fire Protection will provide all required equipment and tools for testing the fire protection system. Coca Cola 4 3/11/2011 45 Industrial Drive,Northampton, MA plastic bottles) stored in single, double, or multiple row racks, to a maximum storage height of 32 feet, with a 36 foot ceiling height, on pallets, with no in rack sprinklers. Design includes the use of Tyco Ultra K+17 (TY7103) sprinklers with 286 degree F temperature rating, 100 sf or 10 foot maximum spacing, 80 sf or 8 foot minimum spacing, and minimum 30 psi operating pressure on the hydraulically most remote 25 sprinklers operating. Minimum water delivery time to operating sprinklers is 8 seconds and maximum water delivery time to operating sprinklers is 25 seconds. Minimum 36 inches of clearance required from top of storage to sprinkler deflector. Fire protection system piping shall be 1" schedule 40 threaded and 1 1/2" thru 4" schedule 10 welded and grooved and 6" and larger schedule 10 welded and grooved. All wet pipe fire protection system piping is black steel. All dry pipe and pre-action system fire protection piping is galvanized. c) Standpipe System: Not applicable. Existing occupant use hose valves in the cooler and freezer will be removed. d) Fire alarm system by others. Fire protection system tamper switches, flow switches and fire pump to be monitored by the base building fire alarm system. e) Automatic fire extinguishing systems are not applicable. f) Manual fire suppression systems include standpipe system as noted above and fire extinguishers by others. g) Smoke control/management system is not applicable. h) Kitchen cooking equipment and exhaust system is not applicable. i) Emergency power equipment by others. Emergency power is provided for the fire pump j) No hazardous materials monitoring equipment. k) All fire protection system equipment and piping will be provided with seismic protection in accordance with NFPA 13,2007 edition. SECTION 5 a) Building Occupant notification and evacuation procedures are the responsibility of the owner. b) Emergency response personnel, site and systems features are not applicable. c) Safeguards, fire prevention and emergency procedures during construction and impairment plans associated are the responsibility of General Contractor. d) Method of FUTURE System Testing and Maintenance shall be in accordance with NFPA 25 and it is the responsibility of the owner. SECTION 6 Coca Cola 3 3/11/2011 45 Industrial Drive,Northampton,MA asanwew a) The Sprinkler Systems will be designed and installed in accordance with the Commonwealth's State Building Code, 780CMR, seventh edition, and NFPA 13, 2007 edition. b) The Fire Sprinkler System will meet the applicable requirements in NFPA 13-2007 edition for equivelancy. c) MGL 148 section 26G is applicable. d) 527 CMR Fire Prevention Regulations is applicable. e) Northampton Fire Prevention local ordinances were considered. f) Non applicable. g) OSHA and ADA laws are applicable. SECTION 3 Option C —Design Build by Environmental Fire Protection. Engineer of Record is: Michael J. Joanis, PE (MA#39974) Environmental Fire Protection, 237 Cedar Hill Road, Marlborough, MA 01752 Office: (508) 485-8183 mjoanis @sprinklers-r-us.com SECTION 4 a) Water supply is provided from the existing city water mains in Industrial Drive to the site via existing 10" water main. Water supply is provided by the Northampton Water Department. Fire mains on site are 8" loop with fire hydrants located on all four sides of the building and a fire hydrant located within 100 feet of the fire department connections. b) Complete automatic wet pipe sprinkler protection throughout all heated building areas; complete automatic dry pipe sprinkler protection for the unheated Loading Dock; Tyco Quell pre-action sprinkler protection for the unheated Cooler and Freezer Storage Areas. Single 10" connection to the city water mains. New 2,000 gpm @ 100 psi diesel fire pump located in the existing fire pump house on site. Fire pump will pre start upon an alarm condition from the Tyco Quell pre-action system control panels. Automatic wet pipe sprinkler protection is hydraulically designed to provide 0.10 gpm/sf over 1,500 sf with a 100 gpm outside hose allowance and a maximum sprinkler spacing of 225 sf per sprinkler for protection of light hazard office space. Automatic wet pipe sprinkler protection is provided above the ceilings in void spaces as required by the Northampton Fire Department. Automatic dry pipe sprinkler protection for the loading dock is hydraulically designed to provide 0.20 gpm/sf over 1,950 sf with a 250 gpm outside hose allowance and a maximum sprinkler spacing of 130 sf per sprinkler for protection of ordinary hazard group II (miscellaneous storage of Class III commodities to a maximum height of 12 feet per NFPA 13, 2007 edition, section 13.2.1) loading dock areas. Tyco Quell Systems are hydraulically designed in accordance with the manufacture's installation instructions. Systems are designed to protect Class II commodities (non combustible liquid filled Coca Cola 2 3/11/2011 45 Industrial Drive,Northampton,MA MA Cont.Lic.#SC 000669 RI Cont.Lic.#8235 CT F1 Lic.#40528 ENVIRONMENTAL FIRE PROTECTION, INC. V A Leader in the Fire Protection Sprinkler Industry Since 1976 March 11, 2011 Office of the Building Commissioner Puchalski Municipal Building 212 Main Street Northampton, MA 01060 Attn: Louis Hasbrouck, Building Commissioner Re: Permit#BP-2011-0017 Proposed Tyco Quell Fire Protection System Area B & C Proposed Cooler and Freezer Warehouse Coca Cola, 45 Industrial Drive, Northampton, MA BUILDING PERMIT NARRATIVE REPORT IN ACCORDANCE WITH THE GUIDE ISSUED BY THE STATE la) Basis of Design Methodology SECTION 1 a) Building Use Group: Storage S-1 Warehouse (Cooler 35 F and Freezer 0 F Warehouse) b) Total Square Feet: Total Building 472,800 sf, Area of work 47,300 sf c) Building Height: Partial two story and mezzanine - 36 feet d) Number of Stories Above Grade: One plus partial second floor and mezzanines e) Number of Stories below Grade: None f) Square Footage per Floor: 472,800 first floor g) Types of occupancies (hazards) within the building: Storage of Class II commodities (non combustible liquid filled plastic bottles) on racks to a maximum storage height of 32 feet with a 36 foot ceiling height. h) Construction Type: Type 2B unprotected steel construction i) No dedicated Hazardous Materials Storage room j) Storage of Class II commodities on racks to a maximum storage height of 32 feet with a 36 foot ceiling height. k) Fire department emergency vehicle access is existing to remain to all four sides of the building via public streets and paved on site fire lanes. SECTION 2 Coca Cola N�, 1 3/11/2011 45 Ind rieeca' Hill-street•pmarlboro, MA 01752 (508) 485-8183 • Fax (508) 481-2085 www.sprinklers-r-us.com . . .. -Quell Frequently Asked Questions"Tyco Fire and Building Products, 5/18/2007. "The. Application of Performance Based Design Principles to Water Based Fire Suppression Systems" Tyco Fire and Building Products, In summary, The Quell System provides roof level dry sprinkler protection for rack storage in coolers and freezers. This is a significant improvement over the conventional design that requires in-rack sprinklers. Elimination of in-rack sprinklers reduces false alarms and the costly problems of flooding pipes in a freezer environment. It is the opinion of Rybak Engineering. Inc. that the Quell system has been engineered to properly protect freezers and coolers by incorporating several important features. The system does not perform like a dry system. it has performance equal to or better than a wet system. This is accomplished by using the following: - Fluid delivery time software optimizes water delivery. By allowing a short delay, sprinkler head skipping is minimized. With a maximum water delivery time,the water is delivered to several open sprinklers at an early stage in fire development. - The fire pump servicing the system is integrated to start with system activation - A linear heat detection system provides an interlock to prevent false. se activation. Sincerely, 4 . i • / Carl C. Koslowski, P.E. 7 4,, N k 'A ,I ' :A Fire Protection Engineer --- i ' '-:// i \ ?\ 1\A 1 Page 3 of 3 20110400 quell,docx ,#, 2. The design criteria were established through testing and are not a prescriptive design defined in NFPA 13. The system design criteria are not UL Listed or FM Approved. 3. Tyco indicates that individual components are UL Listed and FM approved, however these agencies do not specifically approve the Quell System. FM Global states that it's products are marked "approved". However,these same products are not"accepted"by FM unless the equipment or materials are installed at a specific location and are suitable for their intended use. Component listing, while important, should not be misunderstood to imply total system acceptance. 4. Tyco indicates that local Authority Having Jurisdiction approval is necessary and relies on the following text of NFPA 13 as it's means for approval. NFPA 13 2007 Edition 1.5 Equivalency.Nothing in this standard is intended to prevent the use of systems,methods,or devices of equivalent or superior quality,strength,fire resistance,effectiveness,durability,and safety over those prescribed by this standard. Technical documentation shall be submitted to the authority having jurisdiction to demonstrate equivalency.The system,method,or device shall be approved for the intended purpose by the authority having jurisdiction. 1.6 New Technology. 1.6.1 Nothing in this standard shall be intended to restrict new technologies or alternate arrangements,provided the level of safety prescribed by this standard is not lowered. 1.6.2 Materials or devices not specifically designated by this standard shall be utilized in complete accord with all conditions,requirements,and limitations of their listings. It is my opinion that 1.5 Equivalency has been met with the documentation provided. Rybak Engineering has utilized 1.6 New technology in the past for system designs without hesitation. However, 1.6 does infer that a listing of the products has been included with the new technology. This is not applicable for the Quell system. 5. Rybak Engineering has been retained to perform an independent engineering review for the Quell Alternative Design methodology. 780 CMR,The Massachusetts State Building Code 901.7.2.1 requires this independent review. Tyco Fire Products has provided Rybak Engineering with the following documents; "Fire Performance Evaluation of a Simulated K 16.8 Dry Pipe Sprinkler System Used For the Protection of 20 ft Group A Plastic Commodity Under a 30 Ft Ceiling"by Underwriters Laboratories, 11/7/2005. "Fire Performance Evaluation of Dry Pipe Sprinkler System Used For the Protection of Class I, II, and III and Group A Plastic Commodity Using K=16.8 Sprinklers" by Underwriters Laboratories, 06/02/2006. "Fire Performance Evaluation of Dry Pipe Sprinkler Systems For the Protection of Group A Unexpanded Plastic Commodity Using K=16.8 Sprinklers"by Underwriters Laboratories, 03/13/2007. "Fire Performance Evaluation of Dry Pipe Sprinkler Systems with 40 ft of Class III Commodity Stored Under a 48 ft Ceiling Using K=16.8 Sprinklers"by Underwriters Laboratories, 03/22/2007. Page 2 of 3 20110400 quell.docx Rybak Engineering, Inc. Fire Protection Consultants 132 Forest Avenue Warren,MA 01083-0709 (413)436-5500• Fax 436-5563 March 18, 2011 Michael J.Joanis,PE Director of Engineering Environmental Fire Protection 237 Cedar Hill Street Marlboro, MA 01752 RE: Coca Cola,45 Industrial Drive, Northampton,MA I have performed a third party review of the use of the Quell Fire Sprinkler System as an alternative to in-rack sprinklers at this facility. The scope of my review is limited to the following two main points. First,determine whether the Quell system based on sound fire protection engineering principles. Secondly, determine whether the Quell system is an applicable system within the current structure of the Massachusetts State Building Code. I have not reviewed the design and installation of this current project. Quell System Design Technical Criteria Evaluation On balance it is my professional opinion that this system provides a sound alternative to conventional cooler/freezer protection that includes both in-rack sprinklers and roof level sprinklers. The following factors were evaluated in generating my opinion. 1. The hazard presented by frozen commodities is less than the same commodity at room temperature. The Tyco documentation suggests a reduction in actual hazard by a factor of one for each classification. However,the design does not consider this reduced hazard and thus incorporates a safety factor. 2. Sprinklers at the roof level are known to undergo a"skipping"phenomena where the flow of the fire gases and adjacent sprinkler water spray may reduce sprinkler operation directly over the fire. The 30 second (approximate) delay allows better sprinkler operating patterns. 3. The nature of fire sprinkler system reliability is a major point of concern for the fire sprinkler industry. Double interlocked sprinkler protection is not a guarantee of false discharge. The elimination of in-rack sprinklers greatly reduces this problem. Applicability of the Quell system within the current structure of the Massachusetts State Building Code. There are several factors of concerns with regards to applying this technology with regards to approval. The following is the current approach stated by Tyco Fire and Building Products. 1. The Quell System is a performance based design solution to an industry problem of protecting cold storage facilities. Page 1 of 3 20110400 quell.docx a�iHAmpr� • � �;�IDcpr„ Northampton Fire Department 26 Carlon Drive, Northampton, Massachusetts 01060-2373 r e Telephone: (413) 587-1032 Fax (413) 587-1034 p ( ) ARE .; E 75 Assistant Chief: Duane A. Nichols Deputy Chiefs: Stephen Vanasse, David Gagne, William Hurley and Timothy McQueston Deputy Chief in charge of EMS: Christopher W. Norris Brian P. Duggan Websiite: http//: www.northamptonfire.org Fire Chief January 28, 2011 This letter is in regards to the Tyco Quell system proposed for the Coca Cola plant on Industrial Drive in Northampton. Following the meeting we had with you regarding this system we believe this system may be appropriate for the location but as the system is not NFPA compliant you would need special permission from the state to use this as an alternative to meet the code. You should also notify the Northampton Building Department regarding this system also to get their opinion. From the Northampton Fire Departments perspective we support the potential use of the system provided the state gives permission for such. If you have any questions or require additional information please contact me at 587-1032 x4230. Captain Larry Therrien Fire Inspector-Northampton Fire Department "Professionalism through Courage and Dedication" Commonwealth of Massachusetts 1,. ?' 7 City of Northampton �� 3,-.,,� I S A ti * ' 4. • DEPARTMENT OF BUILDING INSPECTIONS 'y M,+ 212 Main Street • Municipal Building r,.' ',..,4:'^" ': Northampton, MA 01060 FJ'')y ,J'4'.' Department of Public Safety Building Code Appeals Board One Ashburton Place, room 1301 Boston, MA 02108 March 7, 2011 Re:Coca Cola Facility 45 Industrial Drive Northampton, MA 01060 25A-185 Dear Board Members, I am writing in support of the proposal to install an alternative fire protection system at the Coca Cola facility here in Northampton. I have met with the fire protection engineer and project manager and I am persuaded that the system proposed is a viable alternative to the prescriptive requirements of NFPA 13. In my opinion, the system design meets the standards of NFPA 13 § 1.5 and 1.6. Feel free to contact me if you have any questions or require additional information. Respectfully Louis Hasbrouck Building Commissioner City of Northampton lasbroucka,city.northampton.ma.us cc: Northampton Fire Department R. C. Stevens (Allyn Brice) Environmental Fire Protection (Michael Joanis) Coca Cola (James Lane) Commonwealth of Massachusetts City of Northampton A` u t, DEPARTMENT OF BUILDING INSPECTIONS y 14 ttw _. 212 Main Street • Municipal Building Northampton, MA 01060 fki \'‘ Michael J. Joanis, PE Environmental Fire Protection 237 Cedar Hill Street Marlborough, MA 01752 March 18, 2011 Re:Coca Cola Facility 45 Industrial Drive Northampton, MA 01060 25A-185 Dear Mr. Joanis, I have reviewed the materials you have presented to me regarding the proposed fire protection system in the freezer and 35 degree cooler at the Coca Cola facility in Northampton. While I agree that the Tyco Quell fire protection system will provide more than adequate protection, it does not meet the prescriptive requirements of the Massachusetts State Building Code or NFPA 13. I cannot approve installation of this system. I will support the installation of this system if you elect to appeal my decision to the State Building Code Appeals Board. Feel free to contact me if you have any questions or require additional information. Respectfully Louis Hasbrouck X44 Building Commissioner City of Northampton lhasbrouck@citv.northamoton.ma.us cc: Northampton Fire Department R. C. Stevens (Allyn Brice) Environmental Fire Protection (Michael Joanis) Coca Cola (James Lane) •it, ;,.A STATE'BUILDING CODE APPEALS BOARD. iN:re;A,,,ZaitAV;#!::,;V:Z a a,,,0 a ,. f . ��, Service Nonce I, \Li�4>r'L �. .:c t` iS � Q� ,as i 1/ A ��dN /V T for the Appellant/Petitioner t■ V I L EN'Mt.. T11 c �br-) an appeal filed with the State Building Code Appeals Board on ,4' 4g c-1-1 ' 3 20 1/ HEREBY SWEAR UNDER THE PAINS AND PENALTIES OF PERJURY THAT IN ACCORDANCE WITH THE PROCEDURES ADOPTED BY THE STATE BOARD OF BUILDING REGULATIONS AND STANDARDS AND SECTION 122.3.1 OF THE STATE BUILDING CODE, I SERVED OR CAUSED TO BE SERVED, A COPY OF THIS APPEAL APPLICATION ON THE FOLLOWING PERSON(S) IN THE FOLLOWING MANNER: NAME AND ADDRESS OF METHOD OF DATE OF PERSON OR AGENCY SERVED SERVICE SERVICE 1 L ou i 5 f < ZCX.,k- > /LQ C't11d/tit 1. (bp a 5131111 t xitii 6 l'10 0iD~) Z /uo2T t1 -11 �t,t 4 �.�pi�G 2c� C -cs- D,a1 3Z3jf 3 Signature:Appellant or Petitioner N 1 On the Day of �", 20 k t PERSONALLY APPEARED BEFORE ME THE ABOVE NAMED C pcilk i . J b P-)iS I (Type or Print the Name of the Appellant) • 1 D ACKNOWLEDGED AND SWORE THE ABOVE STATEMENTS TO BE TRUE. � , . / NOTARY P 4 % IC M71 OMMISSION EMPIRES _.,. PAULA J.VARIEUR 1 t I Not ary Public , ( COMMONWEALTH Of MASSACHUSETTS) My Commission Expires 1 ( ) January 27,2017 7 STRUCTURE RELATIVE TO THE MASSACHUSETTS SirA ultlef NG,CODE(7th EDITION): {Check as appropriate) Do not complete the entire table below for a One-or Two-Family Dwelling;complete only section entitled "Description of the Proposed Work". DESCRIPTION OF PROPOSED WORK(check all applicable) I New Construction E Existing Building y Repair(s) _I Alteration(s) ) Addition Accessory Bldg. L Demolition Li Other L Specify: Brief Description of Proposed Work: ~7vt,✓r�,��.7 'fb Elf S77Ntr- z 2-c? osE SzDA-c.E It) (OA)L' 7z� 'v' - . _ _ ore US°_ /4-0,-)0 ( i 7G ✓L�- 3>: cj -S USE GROUP AND CONSTRUCTION TYPE USE GROUP(Circle appropriate Use Group) CONSTRUCTION TYPE A Assembly A-1 A-2 A-3 lA A-4 A-5 1B B Business 2A E Educational 2B F Factory F-1 F-2 2C H High Hazard 3A I Institutional I-1 I-2 I-3 3B M Mercantile 4 R Residential R-1 R-2 R-3 5A S Storage �S-1j S-2 5B U Utility Specify: M Mixed Use Specify: S Special Use Specify: COMPLETE THIS SECTION IF EXISTING BUILDING UNDERGOING RENOVATIONS,ADDITIONS AND/OR CHANGE IN USE Existing Use Group: '6.— Proposed Use Group: S— f Existing Hazard Index(780 CMR 34): Proposed Hazard Index(780 CMR 34): 3 BUILDING HEIGHT AND AREA BUILDING AREA Existing(if applicable) Proposed Number of Floors or stories include basement levels I Floor Area per Floor(sf) 4/-7s 660 c 0 Total Area(sf) E00 0 't c) Total Height(ft) -1 Co (,p Are there unresolved issues with local zoning ordinances? Yes L or No X, If yes,please explain briefly why this zoning issue is not a factor in the appeal: 6 Please take care to submit all written supporting documentation with this application to allow time for review. However,Board members reserve the right to continue proceedings if such material warrant extensive review. Please provide a brief description of the desired relief below. Additional information may be attached if space is not sufficient. All appropriate code sections that are subject to appeal must be identified in the description. ebtok4r1--HC8- l:ice r'1'r'1�� l K f�C L ui2 ;4N c E cti`t 1H- f cm 2..1;-�+ ��i\b J S c-f i ) 9 0 ."4 2. 1 Ft /by hz--io 4-J I/E: j€c Pleoi Zrr7c)J 1.6711,iU M T ot90 V .. fib&® G2N7' 6///&merit// /1.cU�t 4.1, 11) /1Ys7?9z.c 4j9i c�h� , // cm7e 3 71/co - sy, r iN , ec,4 cE �u'r • / (j ( 'S geSi&A) ,4M9 01-114 -) jt I / n-C 6 c<<-/ Please complete the following section completely and accurately. Name of � �V V/€m„),4,t� -. epresenn Appellant: `-k‘C, CC - Jo°5Y, Ct re „ Address For Service -k {�- 0(3-6- L Telephone / /teS Fax Number: 6r1-67 Lf ' 1(6-s Number: SD Li$ I Gb Address of c Subject Property (if different from %\--kp/L-`-vk J . service address): t-i3S 1 t�tia - t-J b/ What is appellant's connection to subject property? Czrti:SVt.S --tom c �, y p(,v i _ � vc�� ��2 Signature of Appe • . or presentative Please Print Name Legibly Please return applications to: Program Manager,Board of Appeals Regulations anti Standards One Ashburton Place,Room 1301 `Boston,:MA 02108-1618, 5 ` The Commonwealth of Massachusetts * t f rl {4;,,,,,,,_ly Department of Public Safety Board of Building Regulations and Standards One Ashburton Place, Room 1301 Boston, Massachusetts 02108-1618 Phone (617) 727-7532 Fax (617) 227-1754 STATE BUILDING CODE APPEALS BOARD APPEAL APPLICATION FORM )® % Ft' , f / p1, 10if {t =Ust' ly). , DATE The undersigned hereby appeals to the State Board of Building Regulations and Standards from the decision of the following person. (Please fill-in the name of the appropriate municipal or state building inspector or other authorit Also,Also indicate if this is a request for a hearing de novo (new hearing)relative to a decision of a municipal app board.) Building Official from the City/Town of: 1 10 11\,AMPS Board of Appeals from the City/Town of: (Request for hearing de novo) State Building Official: Other: ''ti b 0— -A' `i) 'C't i}2.-c Please mark the appropriate box indicating the requested action to be considered by Appeals Board members. Variance Order Direction Interpretation Failure to Act Other .MPU * s H �,idraw% 'z�4 t k° * Y ,�, /r?i y�1 STA �Sm ONLY - 'mG 4d tX4 k' ""0"' ,,Z.,:,,.. ', ;3 , , y 4 >C 1 k�tipiber 't 11)1'4,14,,,,,,,'" i, , s i4 r , :Re � ar,,, 6,,.. , ,a x ,,,, (This section must be completed or the application will be returned.) Has the building or structure been the subject of an appeal by this or any other appeals board previous to this filing? No X Yes ❑ If,yes,please indicate the date of the previous appeal,whether the matter was heard before a local or state appeals board,the code section that was at issue,and the specifics of the decision (i.e.a variance was granted\not granted). 4 ,, 4 technology as permitted by NFPA 13, Standard for the Installation of Sprinkler Systems, 2007 edition, section 1.5 and 1.6 respectively. The Northampton Fire Department has indicated their support for the proposed alternative fire protection design methodology and have directed us to seek the board's approval as required by 780 CMR, 7th edition, section 901.7.2.1. The compliance alternative application package includes the following information to support our claim: 1. (1) Application Fee $150 2. (4) Application Form 3. (4)EFP letter dated 3/7/11 providing additional information (this letter). 4. (4) Service Notice 5. (4)Northampton Building & Fire Department review letters 6. (4) Fire Protection installation drawings 7. (4) Fire Protection system hydraulic calculations 8. (4) Quell system water delivery time calculations 9. (4) Fire protection system equipment data sheets 10. (4) Quell system design and installation manual 11. (4) Building permit fire protection system narrative report in accordance with 780 CMR, 7th edition, section 907.7.1.1. 12. (4) Independent Engineering Review report from Rybak Engineering in accordance with 780 CMR, 7th edition, section 901.7.2.1. We hope that the board will find the attached information adequately supports our request for an alternate fire protection design methodology in accordance with 780 CMR, 7th edition, section 901.7.2.1 and approves our request for a compliance alternative. There have been two previous board hearings with precedence on this matter. We look forward to presenting our case to the board at a hearing. Thank you for your time and consideration on this matter. Please contact me at(508) 962-9765 or mjoanisCsprinklers-r-us.com with any questions or concerns. Sincerely, Mic - .. oanis,PE Fi - 'rotection Engineer J:\ NEW JOBS\COCA COLA NORTHAMPTON\Appeal Documents\application additional information 3-7-11.doc MA ContCi.Llcf 1.#LiSc:0400656298 C RI Cont.Lic 8235 MOOPk r ENVIRONMENTAL FIRE PROTECTION, INC. _ A Leader in the Fire Protection Sprinkler Industry Since 1976 March 7, 2011 The Commonwealth of Massachusetts Department of Public Safety Board of Building Regulations and Standards One Ashburton Place, Room 1301 Boston, MA 02108-1618 Attn: State Building Code Appeals Board Re: Coca Cola Facility 45 Industrial Drive,Northampton, MA The following additional information is provided in response to the attached state building code appeals board appeal application form section requesting a brief description of the desired relief. The subject property has an existing beverage manufacturing and warehouse facility that stores cooled and frozen beverage products (Class II commodity, non combustible liquid filled plastic bottles) on multiple row racks to a maximum storage height of 30 feet with a 36 foot ceiling height. Portions of the existing facility will be converted to cooler and freezers and it is proposed to removed and replaced the existing automatic wet pipe sprinkler protection with new Tyco Quell pre-action systems. We seek approval from the board in accordance with 780 CMR, 7th edition, section 901.7.2.1 for a alternate fire protection design methodology—independent engineering review to install a specific application Tyco Quell fire protection system in accordance with the manufacture's design and installation manual based on testing conducted with UL and FM for a freezer warehouse at the subject property. The Tyco Quell fire protection system has been designed and tested by the manufacture for this application. The Tyco Quell fire protection system has been designed and will be installed by Environmental Fire Protection in accordance with the Tyco design and installation manual for the Quell fire protection systems. We consider the Tyco Quell fire protection system to be a alternative fire protection design methodology, reviewed and approved by an independent fire protection engineer. in accordance with 780 CMR, 7th edition, 901.7.2.1 and an equivalency and new 237 Cedar Hill Street • Marlboro, MA 01752 (508) 485-8183 • Fax (508) 481-2085 www.sprinklers-r-us.com