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Report (114) SUSA, ' (-k2...!(-04N(, V . °OFFICE COP ' ' . NOV 14 2018 IT ' OF TICARD PLEASE PROVIQI:. ._ 13U!1. NG DIVISION COMPLETEDND A a MATERIAL AND ______\ CERTIFICATE AT FINAL INSPECTIC I SPRINKIT FIRE PROTECTION c �" F ,,, / PWCCire'77506‹.40 .- c.,1 PE � 9r 11-12-2018 OREGON e P RY L . 0 EXPIRATION DATE:12/31/18 HYDRAULIC CALCULATION SUBMITTALS BY: Sprinklt FIRE PROTECTION P.O. BOX 2227 OREGON CITY, OR 97045 TEL: (503 ) 272-6650 ♦ • TABLE OF CONTENTS WATER FLOW INFORMATION DESIGNAREA 1 PREACTION SYSTEM - VAULT DESIGNAREA 2 WET SYSTEM - 1ST FLOOR OFFICE AREA PRODUCT DATA PREACTION VALVE CHECK VALVE BUTTERFLY VALVE HI/LO SWITCH PRESSURE SWITCH AIR MAINTENANCE DEVICE AIR COMPRESSOR PENDENT & UPRIGHT SPRINKLERS SIDEWALL SPRINKLER CONCEALED SPACE SPRINKLER u 14444e WYATT FIRE PROTECTION, INC. 9095 S.W. Burnham Tigard,OR 97223 Fire Hydrant Fire Flow PROJECT SW 74th AVE. 7 SW DURHAM RD. ADDRESS TIGARD OR CROSS STREET FLOW HYDRANT SW 74th JUST NORTH OF SW DURHAM RD. LOCATION STATIC 112 PITOT RESIDUAL 90 / 1 2.5" PITOT FLOWED GPM 1767 GPM AT 20 PSI 18,296 calculated per NEPA 291 DATED 03.16.18 9:30 AM MONITOR HYDRANT SW DURHAM RD. @ SW 74th SW 74th, SOUTH SIDE OF LOCATION DURHAM RD. STATIC 112 RESIDUAL 111 DATED 03.16.18 9:30 AM WITNESS WITNESSED BY TITLE ORGANIZATION CITY OF TIGARD PUBLIC WORKS SIGNATURE PERFORMED BY JACK GARDNER Jam . e ■ ` c'¢ `i`. `"_ . �,�•'� f ..� ..i " r" >f' t"��yyryy'e ..� '�a '4 , �^�A�' m5` y ,d `r,� 'tits e ..,4„, .',,,,c, *401, �.' x � "� ''''\%1°'',..'1:::'%41:C.:7-'";-4-171,14::::::-''''',':::.. � # ,'= ,� r : ;,,,,,,,-,...4.- ��1� 145 �, •• t ;' wadi tr, 1 ..:{ *- #°�' "4 ' i� ' Flow Hydrant ,w � A � ''` 'Ii.2SS Monitor Hydrant t u, 7375 �•ry New construction not on maps yet ` ar t , R,' , ' .' t s,a' , .,,�11 ± f � .v , 1c f�` , \::\''' / / r '�a!? u F f Y HYDRAULIC CALCULATIONS for Job Information Project Name : PWCC Contract No. :2018 City: TIGARD, OR 97223 Project Location: 7560 SW DURHAM RD Date: 11/6/2018 Contractor Information Name of Contractor: Sprinklt Fire Protection Address: P.O. Box 2227 City: Oregon City, OR 97045 Phone Number: 503-272-6650 E-mail: mailto:t.schweitzer@sprinkitfire.com Name of Designer: BOB KNIGHT,CET III Authority Having Jurisdiction: OR STATE FIRE MARSHAL Design Remote Area Name 1OF j p Remote Area Location VAULT Occupancy Classification OH 2 Density(gpm/ft2) 0.2 77506 PE 11-12-2018 Area of Application (ft2) 1565 OREGON co Coverage per Sprinkler(ft2) 116 tp„? 10 C\C'P� Y 0 Number of Calculated Sprinklers 16 EXPIRATION DATE:12/31/18 In-Rack Demand(gpm) 0 Special Heads Hose Streams(gpm) 250 Total Water Required(incl. Hose Streams)(gpm) 669 Required Pressure at Source(psi) 91.5 Type of System Dry Volume-Downstream DPV (gal) 51.2 gal Water Supply Information Date 3/16/18 Location SITE Source SRC Notes File:C:\DWG\_Sprinklt Fire\PWCC\PWCC FP.dwg Date 11/6/2018 Copyright©2002-2012 Tyco Fire Protection Products Page 1 Job: PWCC Hydraulic Analysis for : 1 Calculation Info Calculation Mode Demand Hydraulic Model Hazen-Williams Fluid Name Water @ 60F (15.6C) Fluid Weight, (Ib/ft3) N/A for Hazen-Williams calculation. Fluid Dynamic Viscosity, (lb•s/ft2) N/A for Hazen-Williams calculation. Water Supply Parameters Supply 1 : SRC Flow(gpm) Pressure(psi) 0 112 1767 111 Supply Analysis Residual Available Static Pressure Flow Total Demand Required Pressure Node at SourcePressure (gpm) Pressure (psi) (gpm) (psi) (psi) (Psi) SRC 112 111 1767 111.9 669 91.5 Hoses Inside Hose Flow/Standpipe Demand(gpm) Outside Hose Flow(gpm) Additional Outside Hose Flow(gpm) Other(custom defined) Hose Flow(gpm) Total Hose Flow(gpm) Sprinklers Ovehead Sprinkler Flow(gpm) 419 InRack Sprinkler Flow(gpm) 0 Other(custom defined)Sprinkler Flow(gpm) 0 Total Sprinkler Flow(gpm) 419 Other Required Margin of Safety(%) 0 SRC -Pressure(psi) 91.5 SRC -Flow(gpm) 419 Demand w/o System Pump(s) N/A File:C:\DWG\_Sprinklt Fire\PWCC\PWCC FP.dwg Date 11/6/2018 Copyright©2002-2012 Tyco Fire Protection Products Page 2 Job: PWCC Hydraulic Analysis for : 1 ,IN Supply f System Demand f Add.Out.Hose • Available At Source 150 140- e.. .- t . t 130 111.8 psi @ 669 gpm i 1 „ I - S2 � 110.856 1 of , 3 i 9 F 110- --- -- i .._._. 100 D2 p i ,. _ ._.. �.... _ _.�-... # i .Q 90 D3 1 - - - I _ N a. 60- . -- - 50 — i 1. 40 fjj ; 4- I _ _ _ 30 , 1 D1 i ! # -- 0- 0 50600700800900 100011001200 1300 1400 1500 1600 1700 1800 1900 Flow, gpm File:C:\DWG\_Sprinklt Fire\PWCC\PWCC FP.dwg Date 11/6/2018 Copyright©2002-2012 Tyco Fire Protection Products Page 3 Job: PWCC Hydraulic Analysis for : 1 Graph Labels Values Label Description Flow (gpm) Pressure (psi) S1 Supply point#1 -Static 0 112 S2 Supply point#2- Residual 1767 111 D1 Elevation Pressure 0 5.5 D2 System Demand 419 91.5 D3 System Demand+Add.Out.Hose 669 91.5 Curve Intersections & Safety Margins Intersection Safety Margin Curve Name Pressure (psi) Flow (gpm) Pressure (psi) @ Flow (gpm) Supply 111.9 470.2 20.4 669 Supply;Safety Pressure 89.5 413.9 -2 669 Open Heads Required Calculated Head Ref. Head Type Coverage K-Factor Density Flow Pressure Density Flow Pressure (ft2) (gpm/psi1/2) (gpm/ft2) (gpm) (psi) (gpm/ft2) (gpm) (psi) 101 Overhead 116 5.6 0.2 23.2 17.2 0.2 23.2 17.2 Sprinkler 102 Overhead 116 5.6 0.2 23.2 17.2 0.203 23.5 17.6 Sprinkler 103 Overhead 116 5.6 0.2 23.2 17.2 0.211 24.5 19.2 Sprinkler 104 Overhead 116 5.6 0.2 23.2 17.2 0.224 26 21.6 Sprinkler 105 Overhead 116 5.6 0.2 23.2 17.2 0.253 29.3 27.4 Sprinkler 106 Overhead 116 5.6 - 0.2 23.2 17.2 0.201 23.3 17.3 Sprinkler 107 Overhead 116 5.6 0.2 23.2 17.2 0.203 23.6 17.7 Sprinkler 108 Overhead 116 5.6 0.2 23.2 17.2 0.212 24.6 19.3 Sprinkler 109 Overhead 116 5.6 0.2 23.2 17.2 0.225 26.1 21.8 Sprinkler 110 Overhead 116 5.6 0.2 23.2 17.2 0.254 29.4 27.6 Sprinkler 111 Overhead 116 5.6 0.2 23.2 17.2 0.203 23.6 17.7 Sprinkler 112 Overhead 116 5.6 0.2 23.2 17.2 0.206 23.9 18.2 Sprinkler File:C:\DWG\_Sprinklt Fire\PWCC\PWCC FP.dwg Date 11/6/2018 Copyright©2002-2012 Tyco Fire Protection Products Page 4 113 Overhead 116 5.6 0.2 23.2 17.2 0.215 24.9 19.8 Sprinkler 114 Overhead 116 5.6 0.2 23.2 17.2 0.228 26.5 22.3 Sprinkler 115 Overhead 116 5.6 0.2 23.2 17.2 0.257 29.8 28.3 Sprinkler 116 Overhead 116 5.6 0.2 23.2 17.2 0.317 36.8 43.1 Sprinkler File:C:\DWG\_Sprinklt Fire\PWCC\PWCC FP.dwg Date 11/6/2018 Copyright©2002-2012 Tyco Fire Protection Products Page 5 Job: PWCC Hydraulic Calculations PIPE INFORMATION Node 1 Elev 1 K-Factor 1 Flow added (q) Nominal ID Fittings L C Factor total (Pt) Node 2 Elev 2 K-Factor 2 Total flow (Q) Actual ID quantity x (name) = length F Pf per ft elev (Pe) NOTES T frict (Pf) (ft) (gpm/Psi1/z) (gpm) (in) (ft) (ft) (Psi) (psi) Path No: 1 101 9.12 5.6 23.2 1.25 8.75 100 17.2 102 9.08 5.6 23.2 1.442 0 0.0508 0.0 8.75 0.4 102 9.08 5.6 23.5 1.25 8.25 100 17.6 103 9.03 5.6 46.7 1.442 0 0.1857 0.0 8.25 1.5 103 9.03 5.6 24.5 1.25 6 100 19.2 104 9 5.6 71.2 1.442 0 0.4057 0.0 6 2.4 104 9 5.6 26 1.25 8 100 21.6 105 8.96 5.6 97.3 1.442 0 0.7224 0.0 8 5.8 105 8.96 5.6 29.3 1.25 lx(us.Tee-Br)=5.3 3.47 100 27.4 363 8.13 126.6 1.442 1x(us.90)=2.65 7.95 1.1768 0.4 11.41 13.4 363 8.13 0 3 13.21 100 41.2 362 8.1 126.6 3.26 0 0.0222 0.0 13.21 0.3 362 8.1 127 3 13.21 100 41.5 003 8.07 253.6 3.26 0 0.0802 0.0 13.21 1.1 003 8.07 128.6 3 13.21 100 42.6 004 8.03 382.2 3.26 0 0.1715 0.0 13.21 2.3 004 8.03 36.8 3 1x(coupling)=0.96 48.82 100 44.9 PCV-O 6.32 419 3.26 4x(us.90)=26.83 27.79 0.2033 0.7 76.61 15.6 PCV-0 6.32 0 3 0.67 0 61.2 Check 590 PCV-I 5.66 419 0 0 2.4111 0.3 *** 0.67 1.6 PCV-I 5.66 0 3 1 0 63.1 DV-5 Deluge DV5-I 4.66 419 0 0 3.9593 0.4 *** 1 4 DV5-I 4.66 0 3 0.33 0 67.5 BFV-N PBF-I 4.32 41-9- - 0 - 0 6.2558 0.1 *** 0.33 2.1 PBF-I 4.32 0 3 4x(us.90)=37.63 7.32 120 69.7 FF 1 419 3.26 1x(us.Tee-Br)=20.16 57.79 0.145 1.4 65.11 9.4 FF 1 0 6 lx(coupling)=1.73 851.6 140 80.6 BFP-0 -3.67 419 6.4 1x(us.Tee-Br)=51.84 83.81 0.0041 2 lx(us.90)=24.19 935.41 3.8 1x(elbow.22.5)=6.05 BFP-0 -3.67 0 6 4.67 0 86.4 Febco856 BFP-I -3.67 419 0 0 1.0327 0 *** 4.67 4.8 BFP-I -3.67 0 6 1x(coupling)=1.73 45.19 140 91.2 022-0 -3.67 419 6.4 lx(elbow.22.5)=6.05 7.78 0.0041 0 52.96 0.2 File:C:\DWG\_Sprinklt Fire\PWCC\PWCC FP.dwg Date 11/6/2018 Copyright©2002-2012 Tyco Fire Protection Products Page 6 Job: PWCC Hydraulic Calculations PIPE INFORMATION Node 1 Elev 1 K-Factor 1 Flow added (q) Nominal ID Fittings L C Factor total (Pt) Node 2 Elev 2 K-Factor 2 Total flow (Q) Actual ID quantity x (name) = length F Pf per ft elev (Pe) NOTES T frict (Pf) (ft) (gpm/psis/z) (gpm) (in) (ft) (ft) (psi) (psi) Path No: 1 022-0 -3.67 0 6 0.88 0 91.5 Gate A2360 022-I -3.67 419 0 0 0.0073 0 *** 0.88 0 022-I -3.67 0 6 2 140 91.5 SRC -3.67 419 6.4 0 0.0041 0 2 0 SRC 91.5 Path No: 2 106 9.13 5.6 23.3 1.25 8.75 100 17.3 107 9.09 5.6 23.3 1.442 0 0.0511 0.0 8.75 0.4 107 9.09 5.6 23.6 1.25 8.25 100 17.7 108 9.04 5.6 46.9 1.442 0 0.1868 0.0 8.25 1.5 108 9.04 5.6 24.6 1.25 6 100 19.3 109 9.01 5.6 71.5 1.442 0 0.4081 0.0 6 2.4 109 9.01 5.6 26.1 1.25 8 100 21.8 110 8.96 5.6 97.6 1.442 0 0.7267 0.0 8 5.8 110 8.96 5.6 29.4 1.25 lx(us.Tee-Br)=5.3 3.5 100 27.6 362 8.1 127 1.442 lx(us.90)=2.65 7.95 1.1837 0.4 11.45 13.6 362 41.5 Path No: 3 111 9.13 5.6 23.6 1.25 8.75 100 17.7 112 9.09 5.6 23.6 1.442 0 0.0523 0.0 8.75 0.5 112 9.09 5.6 23.9 1.25 8.25 100 18.2 113 9.04 5.6 47.5 1.442 0 0.1913 0.0 8.25 1.6 113 9.04 5.6 24.9 1.25 6 100 19.8 114 9.01 5.6 72.4 1.442 0 0.4179 0.0 6 2.5 114 9.01 5.6 26.5 1.25 8 100 22.3 115 8.96 5.6 98.8 1.442 0 0.7441 0.0 8 6 115 8.96 5.6 29.8 1.25 lx(us.Tee-Br)=5.3 3.53 100 28.3 003 8.07 128.6 1.442 1x(us.90)=2.65 7.95 1.2119 0.4 11.48 13.9 003 42.6 File:C:\DWG\_Sprinklt Fire\PWCC\PWCC FP.dwg Date 11/6/2018 Copyright©2002-2012 Tyco Fire Protection Products Page 7 Job: PWCC Hydraulic Calculations PIPE INFORMATION Node 1 Elev 1 K-Factor 1 Flow added (q) Nominal ID Fittings L C Factor total (Pt) Node 2 Elev 2 K-Factor 2 Total flow (Q) Actual ID quantity x (name) = length F Pf per ft elev (Pe) NOTES T frict (Pf) • (ft) (gpm/psiY) (gpm) (in) (ft) (ft) (psi) (psi) Path No: 4 116 8.96 5.6 36.8 1.25 lx(us.Tee-Br)=5.3 3.56 100 43.1 004 8.03 36.8 1.442 1x(us.90)=2.65 7.95 0.1192 0.4 11.51 1.4 004 44.9 * Pressures are balanced to a high degree of accuracy. Values may vary by 0.1 psi due to display rounding. * Maximum Velocity of 25.27 ft/s occurs in the following pipe(s): (003-115) *** Device pressure loss (gain in the case of pumps) is calculated from the device's curve. If the device curve is printed with this report, it will appear below. The length of the device as shown in the table above comes from the CAD drawing. The friction loss per unit of length is calculated based upon the length and the curve-based loss/gain value. Internal ID and C Factor values are irrelevant as the device is not represented as an addition to any pipe, but is an individual item whose loss/gain is based solely on the curve data. File:C:\DWG\_Sprinklt Fire\PWCC\PWCC FP.dwg Date 11/6/2018 Copyright©2002-2012 Tyco Fire Protection Products Page 8 Job: PWCC Device Graphs Pressure vs. Flow Function Design Area: 1; Supply Ref.: SRC; Supply Name:SRC 125= 120= 115: 110= 105; 100' 95 90= 85' .N 80: 0- 75= 70= CO• 65= to 60= CD d 55 50: 45= 40: 35' 30= 25- 20= 15= 10= 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 rn 'o r- CO rn o Flow,gpm Pressure Loss Function Design Area: 1; BFP Ref.: 462 (Febco856, Size = 6); Inlet Node: BFP-I; Outlet Node: BFP-O 11.43 10.43 9.43 8.43- C 7.43- G) - 7 6.43" (f) ( 48psi@419gpm1 5.43- 0. .43a - 4.43' 3.43' 2.43' 1.43- 0.43- 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 N a b r m O cwt 0o O Flow,gpm File:C:\DWG\_Sprinklt Fire\PWCC\PWCC FP.dwg Date 11/6/2018 Copyright©2002-2012 Tyco Fire Protection Products Page 9 Job : PWCC Device Graphs Pressure Loss Function Design Area: 1; DPV Ref.: 460 (DV-5 Deluge, Size = 3); Inlet Node: DV5-I; Outlet Node: PCV-I 8.9- 7.9' 6.9- C. 5.9- 4 L - / H 4.9- 4 psi @ 419 gpm ami L d 3.9- 2.9- 1.9: 0.9" 0 ,00 0 0 0 0 0 0 0 - 0n 0 7 0 VD 0 0 0 M - .- N N M M rt , Flow,gpm Pressure Loss Function Design Area: 1; Valve Ref.: 459 (BFV-N, Size = 3); Inlet Node: PBF-I; Outlet Node: DV5-I i i 1 6.106 — _.__ Q- 4.106 - ' d 3 co co d 3.106 a 2.1 psi @ 419 gpm 2.106 — — ----- _ 1.106 _____ _______T_ _ t... . �_._, � 0.106 7 N y D\ N sD O M r r _,,i- N N M 7 0 s0 M 7-: ,, '0 N Flow,gpm File:C:\DWG\_Sprinklt Fire\PWCC\PWCC FP.dwg Date 11/6/2018 Copyright©2002-2012 Tyco Fire Protection Products Page 10 Job:PWCC Device Graphs Pressure Loss Function Design Area: 1; Valve Ref.: 461 (Check 590, Size = 3); Inlet Node: PCV-l; Outlet Node: PCV-O 4.5- 3.5- W a G) - L 3 co co 2.5- d a 1.6 psi @ 419 gpm 1.5- 0.5- I I aoo N Flow,gpm Pressure Loss Function Design Area: 1; Valve Ref.: 463 (Gate A2360, Size = 6); Inlet Node: 022-I; Outlet Node: 022-0 0.766- Q a) L N) H N i a 0.266- 0 0 0 0 Oy M 7 00 � � N Flow,gpm File:C:\DWG\_Sprinklt Fire\PWCC\PWCC FP.dwg Date 11/6/2018 Copyright©2002-2012 Tyco Fire Protection Products Page 11 HYDRAULIC CALCULATIONS for Job Information Project Name : PWCC Contract No. :2018 City: TIGARD, OR 97223 Project Location: 7560 SW DURHAM RD Date: 11/6/2018 Contractor Information Name of Contractor: Sprinklt Fire Protection Address: P.O.Box 2227 City: Oregon City, OR 97045 Phone Number: 503-272-6650 E-mail:mailto:t.schweitzer@sprinkitfire.com Name of Designer: BOB KNIGHT,CET III Authority Having Jurisdiction: OR STATE FIRE MARSHAL Design Remote Area Name 2 Remote Area Location 1ST FLR OFFICE AREA Occupancy Classification LIGHT HAZARD Density(gpm/ft2) 0.103 • OF -wit Area of Application (ft2) 944 144* ! Job:PWCC Hydraulic Analysis for : 2 Calculation Info Calculation Mode Demand Hydraulic Model Hazen-Williams Fluid Name Water @ 60F (15.6C) Fluid Weight, (Ib/ft3) N/A for Hazen-Williams calculation. Fluid Dynamic Viscosity, (lb•s/ft2) N/A for Hazen-Williams calculation. Water Supply Parameters Supply 1 : SRC Flow(gpm) Pressure(psi) 0 112 1767 111 Supply Analysis Static Pressure Residual Flow Available Total Demand Required Pressure Node at Source (psi) Pressure (gpm) Pressure (gpm) (psi) (psi) (psi) SRC 112 111 1767 112 325.6 87.7 Hoses Inside Hose Flow/Standpipe Demand(gpm) Outside Hose Flow(gpm) Additional Outside Hose Flow(gpm) Other(custom defined) Hose Flow(gpm) Total Hose Flow(gpm) Sprinklers Ovehead Sprinkler Flow(gpm) 225.6 InRack Sprinkler Flow(gpm) 0 Other(custom defined)Sprinkler Flow(gpm) 0 Total Sprinkler Flow(gpm) 225.6 Other Required Margin of Safety(psi) 0 SRC -Pressure(psi) 87.7 SRC -Flow(gpm) 225.6 Demand w/o System Pump(s) N/A File:C:\DWG\_Sprinklt Fire\PWCC\PWCC FP.dwg Date 11/6/2018 Copyright©2002-2012 Tyco Fire Protection Products Page 2 Job: PWCC Hydraulic Analysis for : 2 Supply it System Demand f Add.Out.Hose • Available At Source 150 140- 112 psi @325.6gpm S2][ 110.856 _ 110 1 101 i i ? [1342 I CL � r i t i 70_ CD 60 50- 40- _ � t D1 I 0 0 50600'00800900 100011001200 1300 1400 1500 1600 1700 1800 1900 Flow, gpm File:C:\DWG\_Sprinklt Fire\PWCC\PWCC FP.dwg Date 11/6/2018 Copyright©2002-2012 Tyco Fire Protection Products Page 3 • Job : PWCC Hydraulic Analysis for : 2 Graph Labels Values Label Description Flow (gpm) Pressure (psi) S1 Supply point#1 -Static 0 112 S2 Supply point#2- Residual 1767 111 D1 Elevation Pressure 0 5.7 D2 System Demand 225.6 87.7 D3 System Demand+Add.Out.Hose 325.6 87.7 Curve Intersections & Safety Margins Intersection Safety Margin Curve Name Pressure (psi) Flow (gpm) Pressure (psi) @ Flow (gpm) Supply 112 259.6 24.3 325.6 Open Heads Required Calculated Head Ref. Head Type Coverage K-Factor Density Flow Pressure Density Flow Pressure (ft2) (gpm/psi1/2) (gpm/ft2) (gpm) (psi) (gpm/ft2) (gpm) (psi) 201 Overhead 144 5.6 0.1 14.4 7 0.103 14.8 7 Sprinkler 202 Overhead 144 5.6 0.1 14.4 7 0.104 15 7.1 Sprinkler 203 Overhead 144 5.6 0.1 14.4 7 0.108 15.6 7.7 Sprinkler 204 Overhead 144 5.6 0.1 14.4 7 0.112 16.1 8.3 Sprinkler 205 Overhead 144 5.6 0.1 14.4 7 0.113 16.2 8.4 Sprinkler 206 Overhead 144 5.6 0.1 14.4 7 0.114 16.4 8.5 Sprinkler 207 Overhead 144 5.6 0.1 14.4 7 0.118 17 9.3 Sprinkler 208 Overhead 144 5.6 0.1 14.4 7 0.127 18.4 10.7 Sprinkler 209 Overhead 144 5.6 0.1 14.4 7 0.141 20.4 13.2 Sprinkler 210 Overhead 144 5.6 0.1 14.4 7 0.154 22.2 15.7 Sprinkler 211 Overhead 144 5.6 0.1 14.4 7 0.158 22.8 16.5 Sprinkler 212 Overhead 144 5.6 0.1 14.4 7 0.214 30.9 30.4 Sprinkler File:C:\DWG\_Sprinklt Fire\PWCC\PWCC FP.dwg Date 11/6/2018 Copyright©2002-2012 Tyco Fire Protection Products Page 4 Job: PWCC Hydraulic Calculations PIPE INFORMATION Node 1 Elev 1 K-Factor 1 Flow added (q) Nominal ID Fittings L C Factor total (Pt) Node 2 Elev 2 K-Factor 2 Total flow (Q) Actual ID quantity x (name) = length F Pf per ft elev (Pe) NOTES T frict (Pf) (ft) (gpm/psi1/2) (gpm) (in) (ft) (ft) (psi) (psi) Path No: 1 201 9.5 5.6 14.8 1 2x(us.Tee-Br)=10 1.17 120 7 002 9.83 14.8 1.049 10 0.0744 -0.1 11.17 0.8 002 9.83 0 1.25 10 120 7.7 006 9.83 14.8 1.442 0 0.0158 0 10 0.2 006 9.83 15 1.25 11 120 7.8 007 9.83 29.8 1.442 0 0.0576 0 11 0.6 007 9.83 15.6 1.25 lx(us.Tee-Br)=7.43 3.69 120 8.5 008 9.83 45.3 1.442 7.43 0.1253 0 11.12 1.4 008 9.83 16.1 1.5 5.41 120 9.9 009 9.83 61.5 1.68 0 0.1046 0 5.41 0.6 009 9.83 32.6 1.5 2.59 120 10.4 010 9.83 94 1.68 0 0.23 0 2.59 0.6 010 9.83 17 1.5 2.54 120 11 011 9.83 111.1 1.68 0 0.3131 0 2.54 0.8 011 9.83 18.4 1.5 8.13 120 11.8 012 9.83 129.4 1.68 0 0.4157 0 8.13 3.4 012 9.83 20.4 1.5 3.87 120 15.2 013 9.83 149.8 1.68 0 0.5448 0 3.87 2.1 013 9.83 22.2 1.5 2.71 120 17.3 014 9.83 172 1.68 0 0.7037 0 2.71 1.9 014 9.83 22.8 1.5 1x(us.Tee-Br)=9.84 8.57 120 19.2 015 9.83 194.8 1.68 9.84 0.8859 0 18.41 16.3 015 9.83 30.9 1.5 1x(us.90)=4.92 15.36 120 35.5- 031 5.E031 25.2 225.6 1.68 4.92 1.1634 -6.7-- 20.28 6.720.28 23.6 031 25.2 0 2 lx(us.Tee-Br)=12.31 9.07 120 52.5 033 25.2 225.6 2.157 lx(us.90)=6.15 18.46 0.3445 0 27.53 9.5 033 25.2 0 3 lx(coupling)=1.34 75.24 120 62 042-0 3.62 225.6 3.26 2x(us.90)=18.82 40.32 0.0461 9.4 lx(us.Tee-Br)=20.16 115.56 5.3 042-0 3.62 0 3 0.33 0 76.6 BFV-N 042-I 3.28 225.6 0 0 1.8126 0.1 *** 0.33 0.6 042-I 3.28 0 3 1x(coupling)=1.34 2.45 120 77.4 FF 1 225.6 3.26 1.34 0.0461 1 3.79 0.2 File:C:\DWG\_Sprinklt Fire\PWCC\PWCC FP.dwg Date 11/6/2018 Copyright©2002-2012 Tyco Fire Protection Products Page 5 Job : PWCC Hydraulic Calculations PIPE INFORMATION Node 1 Elev 1 K-Factor 1 Flow added (q) Nominal ID Fittings L C Factor total (Pt) Node 2 Elev 2 K-Factor 2 Total flow (Q) Actual ID quantity x (name) = length F Pf per ft elev (Pe) NOTES T frict (Pf) (ft) (gpm/psi1/2) (gpm) (1n) (ft) (ft) (psi) (psi) Path No: 1 FF 1 0 6 lx(coupling)=1.73 851.6 140 78.5 BFP-O -3.67 225.6 6.4 lx(us.Tee-Br)=51.84 101.96 0.0013 2 2x(us.90)=48.39 953.56 1.2 BFP-O -3.67 0 6 4.67 0 81.8 Febco856 BFP-I -3.67 225.6 0 0 1.2392 0 *** 4.67 5.8 BFP-I -3.67 0 6 lx(coupling)=1.73 45.19 140 87.6 022-0 -3.67 225.6 6.4 1x(elbow.22.5)=6.05 7.78 0.0013 0 52.96 0.1 022-0 -3.67 0 6 0.88 0 87.7 Gate A2360 022-I -3.67 225.6 0 0 0.0031 0 *** 0.88 0 022-I -3.67 0 6 2 140 87.7 SRC -3.67 225.6 6.4 0 0.0013 0 2 0 SRC 87.7 Path No: 2 202 9.5 5.6 15 1 2x(us.Tee-Br)=10 1.17 120 7.1 006 9.83 15 1.049 10 0.0758 -0.1 11.17 0.8 006 7.8 Path No: 3 203 9.5 5.6 15.6 1 2x(us.Tee-Br)=10 1.17 120 7.7 007 9.83 15.6 1.049 10 0.0814 -0.1 11.17 0.9 007 8.5 Path No: 4 204 9.5 5.6 16.1 1 2x(us.Tee-Br)=10 7.81 120 8.3 008 9.83 16.1 1.049 lx(us.90)=2 12 0.087 -0.1 19.81 1.7 008 9.9 Path No: 5 205 9.5 5.6 16.2 1 2x(us.Tee-Br)=10 1.48 120 8.4 369 9.83 16.2 1.049 10 0.0878 -0.1 11.48 1 369 9.83 0 1.25 10 120 9.2 367 9.83 16.2 1.442 0 0.0186 0 10 0.2 367 9.83 16.4 1.25 lx(us.Tee-Br)=7.43 7.5 120 9.4 009 9.83 32.6 1.442 7.43 0.0679 0 14.93 1 009 10.4 File:C:\DWG\_Sprinklt Fire\PWCC\PWCC FP.dwg Date 11/6/2018 Copyright©2002-2012 Tyco Fire Protection Products Page 6 . Job: PWCC Hydraulic Calculations PIPE INFORMATION Node 1 Elev 1 K-Factor 1 Flow added (q) Nominal ID Fittings L C Factor total (Pt) Node 2 Elev 2 K-Factor 2 Total flow (Q) Actual ID quantity x (name) = length F Pf per ft elev (Pe) NOTES T frict (Pf) (ft) (gpm/psi1/z) (gpm) (in) (ft) (ft) (psi) (psi) Path No: 6 206 9.5 5.6 16.4 1 2x(us.Tee-Br)=10 1.48 120 8.5 367 9.83 16.4 1.049 10 0.0894 -0.1 11.48 1 367 9.4 Path No: 7 207 9.5 5.6 17 1 2x(us.Tee-Br)=10 7.81 120 9.3 010 9.83 17 1.049 lx(us.90)=2 12 0.0965 -0.1 19.81 1.9 010 11 Path No: 8 208 9.5 5.6 18.4 1 2x(us.Tee-Br)=10 1.09 120 10.7 011 9.83 18.4 1.049 10 0.1106 -0.1 11.09 1.2 011 11.8 Path No: 9 209 9.5 5.6 20.4 1 2x(us.Tee-Br)=10 5.91 120 13.2 012 9.83 20.4 1.049 10 0.134 -0.1 15.91 2.1 012 15.2 Path No: 10 210 9.5 5.6 22.2 1 2x(us.Tee-Br)=10 1.09 120 15.7 013 9.83 22.2 1.049 10 0.1573 -0.1 11.09 1.7 013 17.3 Path No: 11 211 9.5 5.6 22.8 1 2x(us.Tee-Br)=10 7.17 120 16.5 014 9.83 22.8- 1.049 10 0.1649 -,0.1 17.17 2.8 014 19.2 Path No: 12 212 9.5 5.6 30.9 1 2x(us.Tee-Br)=10 7.17 120 30.4 016 9.83 30.9 1.049 10 0.2897 -0.1 17.17 5 016 9.83 0 1.5 1x(us.Tee-Br)=9.84 0.72 120 35.2 015 9.83 30.9 1.68 9.84 0.0292 0 10.56 0.3 015 35.5 File:C:\DWG\_Sprinklt Fire\PWCC\PWCC FP.dwg Date 11/6/2018 Copyright©2002-2012 Tyco Fire Protection Products Page 7 , Job:PWCC Hydraulic Calculations PIPE INFORMATION Node 1 Elev 1 K-Factor 1 Flow added (q) Nominal ID Fittings L C Factor total (Pt) Node 2 Elev 2 K-Factor 2 Total flow (Q) Actual ID quantity x (name) = length F Pf per ft elev (Pe) NOTES T frict (Pf) (ft) (gpm/psi1/2) (gpm) (in) (ft) (ft) (psi) (psi) * Pressures are balanced to a high degree of accuracy. Values may vary by 0.1 psi due to display rounding. * Maximum Velocity of 32.66 ft/s occurs in the following pipe(s): (031-015) *** Device pressure loss (gain in the case of pumps) is calculated from the device's curve. If the device curve is printed with this report, it will appear below. The length of the device as shown in the table above comes from the CAD drawing. The friction loss per unit of length is calculated based upon the length and the curve-based loss/gain value. Internal ID and C Factor values are irrelevant as the device is not represented as an addition to any pipe, but is an individual item whose loss/gain is based solely on the curve data. File:C:\DWG\_Sprinklt Fire\PWCC\PWCC FP.dwg Date 11/6/2018 Copyright©2002-2012 Tyco Fire Protection Products Page 8 Job: PWCC Device Graphs Pressure vs. Flow Function Design Area: 2; Supply Ref.: SRC; Supply Name:SRC 125 121 115 11 105 101 95 90 85 80 y Q. 75 c 70 i 3 65 V/ N 60 d 1Z 55 50 45 40 35 30 25 20 15 10 5 0 ,�.,,,,,,', ,t. „t : . t , , . , „ t I „, 0 0 0 0 0 0 0 0 0 o e 0 a , '0 0 0 rn o kr, h ^ Flow,gpm Pressure Loss Function Design Area: 2; BFP Ref.: 460 (Febco856, Size = 6); Inlet Node: BFP-l; Outlet Node: BFP-O I 1 ' ]1.43_ , 1 10.43 a., 1 4 I Y .,.. F j i I 9A37 8.43 �._. r _ _ �_, • Q. 7.43'.. { i _5.8 psi @ 225.6 gpm 6.43- .__.,... _.- -- T _ 7 - ® Ift H U1 - L 5.43- a 4.43 3.43 2.43' _.- __ 1.43 ... i 0.43"_ 0 0 0 0 0 0 0 0 0 0 0 0 0 o a 0 0r o00 0 v o0 0 Flow,gpm File:C:\DWG\_Sprinklt Fire\PWCC\PWCC FP.dwg Date 11/6/2018 Copyright©2002-2012 Tyco Fire Protection Products Page 9 Job: PWCC Device Graphs Pressure Loss Function Design Area: 2; Valve Ref.: 459 (BFV-N, Size = 3); Inlet Node: 042-I; Outlet Node: 042-0 6.106- 5.106- 0- .106-5.106-Q- 4.106 d L Cl) N d 3.106- 0_ 2.106- 1.106- 0.6 psi @225.6 gpm 0.106- N n ON O O M N N V N T D 7 OO M Flow,gpm Pressure Loss Function Design Area: 2; Valve Ref.: 461 (Gate A2360, Size = 6); Inlet Node: 022-I; Outlet Node: 022-0 Cl) 0.766_ _.. 0. N L 7 y y L o. 0.266- 0 0 0 0 0 Flow,gpm File:C:\DWG\_Sprinklt Fire\PWCC\PWCC FP.dwg Date 11/6/2018 Copyright©2002-2012 Tyco Fire Protection Products Page 10 tqco Worldwide Fire Protection Contacts www.tyco-fire.com Products Preaction System with DV-5 Deluge Valve Single Interlock, Supervised — Electric Actuation 1-1/2 thru 8 Inch (DN4O thru DN200) General Description �'� The TYCO DV-5 Supervised Single In- r• i� �� •) 00 terlock Preaction System with Elec- P I �. 0 tric Actuation(Fig. 1)utilizes automatic -%�/_�\.`/ ' ��; �► yil ie-, - sprinklers and a supplemental detec- v��, �;% ♦ mr tion system.The supplemental detec ;lip 1 �X�4 tion system is typically comprised of 24 e '\ r l ,��w. ,, j..'4,....., �,� �r/ 111 °' VDC heat detectors,smoke detectors, `,f/`7� .; i ��I0� ' r manual pull stations, etc. Actuation 'kW:, 1 ;MDQ ��I�`, i of the detection system automatically '��_ �' 1� �,I` operates (releases) the DV-5 Deluge mit_ 4!;I �I� '" Valve, allowing water to flow into the ,�`��' �` `r;,: , or sprinkler piping system and to be dis- ei !yet 0 charged from any sprinklers that may �� _�'�!* .�i1 di be o en. ..,ip.,!,l%0 ►�� p 4:4') I'r� r In accordance with the requirements tf;-r of the National Fire Protection Asso- , 'r/ dation, a preaction system employing ` M( more than 20 automatic sprinklers is -4 rl 1 to have the sprinkler piping automati- cally supervised to monitor the overall integrity of the system. In the case of water damage that might result from Solenoid Valve. In turn,the energized a Supervised Single Interlock Preac- damaged automatic sprinklers or pip- Solenoid Valve opens to release wa- tion System, a Riser Check Valve(that ing.Typically,such areas include corn- ter from the Diaphragm Chamber fast- does not require the use of priming wa- puter rooms,storage areas for valuable er than it can be replenished through ter) provides an air check so that the artifacts, libraries,and archives. the 1/8 inch (3,2 mm) restriction pro- system can be automatically pressur- Single interlock preaction systems are vided by the Model ASV-1 Automatic ized with a nominal supervisory air oralso effectively used to protect prop- Shut- Off Valve in the diaphragm sup- nitrogen pressure of 10 psi(0,69 bar).Aerties where a pre alarm of a possible ply connection (Item 5 - Fig. 3A, also supervisory low pressure alarm switch fire condition may allow time for fire ex- described in Technical Data Sheet that is set to transfer its contacts attinguishment by alternate suppression TFP1384).This results in a rapid pres- nominally 5 psi (0,34 bar), on decreas- means, prior to a sprinkler discharge. sure drop in the Diaphragm Chamber ing pressure, is utilized to indicate In the event the fire cannot otherwise to below the valve trip point.The wa- whether there are any abnormal leaks be extinguished,the preaction sprinkler ter supply pressure then forces the in the sprinkler system piping. Loss of Diaphragm open, permitting water to sysair pressure from the system as a re- fire protection will system.hen perform as the primary flow into the system piping, as well as suit of a damaged sprinkler or broken fire through the Alarm Port to actuate the piping will not cause the DV-5 Valve to The DV-5 Deluge Valve (described in system alarms. open — the air pressure is for supervi- Technical Data Sheet TFP1305) is a As water flows into the system,the pi- sory alarm only. diaphragm style valve that depends lot chamber of the Model ASV-1 Auto Typically,the system designer selects upon water pressure in the Diaphragm matic Shut-Off Valve(Item 5- Fig. 3A) the detection components for a single Chamber to hold the Diaphragm closed becomes pressurized and the ASV-1 interlock preaction system that will re- against the water supply pressure. automatically shuts off the diaphragm sand to a fire sooner than the auto- When the DV-5 Valve is set for service, chamber supply flow to the DV-5 Di- p the Diaphragm Chamber is pressurized matic sprinklers. Consequently, the through the trim connections from the aphragm Chamber. Shutting off the system will experience a minimal de- inlet side of the system's main control diaphragm chamber supply flow pre- lay in water delivery over that for a wetvents the DV-5 Diaphragm Chamber valve,such as an O.S.&Y.gate valve or pipe sprinkler system because the sys- butterfly valve(Fig. 1). from becoming re-pressurized, there- tem will have begun to fill with water by preventing inadvertent closing of the before a sprinkler operates. Operation of an electrical detection de- DV-5 during a fire(as may be the case preaction vice such as a heat sensitive thermo- should the Solenoid Valve become de- Supervisedems aresinglegninterlockally used to protect stat,smoke detector,or electrical man- energized after its initial operation). systareas where there is danger of serious ual control station signals the deluge Continued on Page 4 valve releasing panel to energize the Page 1 of 14 OCTOBER 2014 TFP1420 TFP1420 Page 2 of 14 alk li3O %,11(( 11111 ® — rstiit_l�,,,,,..._ � "en.. 1�� \ I%� gin'{�', 0001, _ .1 . , r- �i� ,)0 iip‘ 4.64-----Thoodi:._.)01i0 ..... 2 ....._, �� .ili- 12 ;,- I 0 il ti w((\�� i ii.'�,Ail . „,54-vi,..,-_ ,,,(iiii — -',gig le iiool.-..„,...re. - . -, 0 rpt ! �� .vI Q 11 _ /I�' mrr ail \*rt / 0 I AI • }C-; I� 8 0710 ve fii ‘,././..-- Torlit(i 0 li r� 18 1 - 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 - Supervisory Air Pressure Gauge 3 - Diaphragm Chamber Supply (Shown at Rear of Valve) 18 - Automatic Supervisory Air/Nitrogen Control Valve(N.O.) 11 - Diaphragm Chamber Automatic Supply 4 - Local Manual Control Station Shut Off Valve 19 - Supervisory Low Pressure Alarm 5 Automatic Sprinklers 12 - Waterflow Pressure Alarm Switch Switch 6 - Heat Detectors,Smoke Detectors, (Shown at Rear of Valve) etc.(Fire Detection) 13 - Water Motor Alarm(Optional) 7 - Water Supply Pressure Gauge 14 Solenoid Valve 8 Diaphragm Chamber Pressure 15 - Deluge Valve Releasing Panel Gauge FIGURE 1 (1 OF2) SUPERVISED SINGLE INTERLOCK PREACTION SYSTEM WITH ELECTRIC ACTUATION SYSTEM SCHEMATIC(FRONT VIEW) TFP1420 Page 3 of 14 ni illk vr- a,,, 0 am ,y '.l '.� ./ -.1 11.10111.110=1100111.1111.1.11. ,041r m 0 13 0 �y, a y _4iik �I 0 Si � - tort , �i 0 tvrs,-64ertiV'tork :A "Oir mil eillII i W► � *..; / \r - �� ,I� I, r% fi® L11r ..1,: .�ul�► ; 11 ` , � ► ,,,, Q ) .' :moi, O) .p %� per. 0 4P1010) - '11110p =rwr [c � 411\ -la1' iii 1 - 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 - Supervisory Air Pressure Gauge 3 - Diaphragm Chamber Supply 9 - System Drain Valve(N.C.) (Shown at Front of Valve) Control Valve(N.O.) 10 - Main Drain Valve(N.C.) 18 - Automatic Supervisory Air/Nitrogen 4 - Local Manual Control Station 11 - Diaphragm Chamber Automatic Shut-Off Supply (Shown at Front of Valve) Valve(Shown at Front of Valve) 19 - Supervisory Low Pressure Alarm 5 - Automatic Sprinklers 12 - Waterflow Pressure Alarm Switch Switch 6 - Heat Detectors,Smoke Detectors, 13 - Water Motor Alarm(Optional) etc.(Fire Detection) 14 - Solenoid Valve 7 - Water Supply Pressure Gauge 15 - Deluge Valve Releasing Panel (Shown at Front of Valve) FIGURE 1 (2 OF2) SUPERVISED SINGLE INTERLOCK PREACTION SYSTEM WITH ELECTRIC ACTUATION SYSTEM SCHEMATIC(REAR VIEW) TFP1420 Page 4 of 14 LOW AIR The trim arrangement is provided with WATERFLOW PRESSURE galvanized or black nipples and fittings. PRESSURE ALARM PREACTION The galvanized trim is intended for ALARM ! SWITCH SINGLE non-corrosive or corrosive conditions, z, CHECK SWITCH VALVE INTERLOCK whereas the black trim is principally in- t'ki ' ELECTRIC tended for use with AFFF systems. \a"_ ,�/ ACTUATION .; �‘ �� TRIM NOTE: When the system pressure is -,!*-411111� �o_- greater than 175 psi(12,1 bar), provi- ,� *-4 ( NOTES: sion is to be made to replace the stan- �ilo 4114.,, ,)„,, 7X,4 1. SEE FIGURE 3,PER VALVE SIZE dard order 300 psi (20,7 bar) Water �� ,-� AS APPLICABLE,FOR TRIM Pressure Gauges, shown in Figure 3A y•i Of, ��xi ARRANGEMENT WITH BILL OF or 3B with separately ordered 600 psi \4 ,r "41111.0%N.1111 MATERIALS AND COMPONENT :%,%r (41,4 bar) Water Pressure Gauges. - PART NUMBERS. i �� 2. TRIM SHOWN FULLY ASSEMBLED; Detection System `�� ("`S COMPONENTS SUCH AS GAUGES In order for a single interlock preaction � �, , I I„_�. DV-5 AND SWITCHES MAY REQUIRE system to be hydraulically calculated ,�� i%� • DELUGE ASSEMBLY IN TRIM AT VALVE ,.,il• ' x-41 VALVE INSTALLATION. as a wet pipe system, as opposed to a dry pipe sprinkler system,the detection W system must be designed to operate ��.' SYSTEM � SHUT-OFFsooner than the automatic sprinklers GROOVED `C VALVE on the sprinkler piping. COUPLING 4` The Supervised Single Interlock Pre- FIGURE 2 action System with Electric Actuation DV-5 PRE-TRIMMED DELUGE VALVE, Trim provides for electric operation of ELECTRIC ACTUATION the DV-5 Valve by a detection system consisting of electrical devices such as NOTICE Valve Trim heat sensitive thermostats, smoke de- The TYCO DV-5 Supervised Single In- The Supervised Single Interlock Pre- tectors,and/or electric manual pull sta- terlock Preaction System with Electric action System with Electric Actuation tions. Information on the various types Actuation Trim described herein must Trim (Fig. 3A or 3B)forms a part of the of separately ordered Solenoid Valves be installed and maintained in compli- laboratory listings and approvals.The that may be used with this trim pack- ance with this document, as well as trim is necessary for proper operation age is given in Technical Data Sheet with the applicable standards of the of the DV-5 Valve. TFP2180. Nominal installation dimen- National Fire Protection Association, in Each package of trim includes the fol- sions for the Supervised Single Inter- addition to the standards of any other lowing items: lock Preaction System with Electric Ac- authorities having jurisdiction. Failure tuation Trim are shown in Figure 4. to do so may impair the performance • Water Supply Pressure Gauge NOTES: of the related devices. • Diaphragm Chamber Approval by Factory Mutual is contin- The owner is responsible for main- Pressure Gauge gent on the use of an FM Approved tainin their fireprotection system 24VDC Solenoid Valve(P/N 52-287-1- g Y Diaphragm Chamber Connections 024 or P/N 52-287-1-124). and devices in proper operating con- . Manual Control Station FM only ap- dition. Contact the installing contrac- torproves solenoid valves for use in non or product manufacturer with any • Main Drain Valve hazardous locations. questions. • System Drain Valve Consult with the authority having ju- risdiction regarding installation cri- Technical • Alarm Test Valve teria pertaining to electric actuation • Automatic Drain Valve circuitry. Data • System Air Pressure Gauge The Supervised Single Interlock Pre- action System with Electric Actuation Approvals • Air Supply Connections Trim is provided with a Model ASV-1 UL and C-UL Listed • Low Air Pressure Supervisory Switch Automatic Shut-Off Valve(Item 5- Fig. FM Approved 3A); consequently, the release circuit • Waterflow Pressure Alarm Switch of the releasing panel need only pro- Deluge Valve (PS10-2) vide the standard ten minutes of alarm DV-5 The following items are included in the condition intended to energize the So Riser Check Valve Pre-trimmed Valve Assembly and can lenoid Valve.After the ten minute dura- Model CV-1 FR be ordered separately for the valve tion,should the Solenoid Valve become trim: de-energized and closed (especially NOTE: 1-1/2 inch (DN40)risers utilize while operating under battery back-up), a 2 inch (DN50) Model CV-1FR Riser • Model BFV-N Butterfly Valve the Automatic Shut-Off Valve will have Check Valve connected to the 1-1/2 • Figure 577 Grooved Coupling already automatically closed thereby inch (DN40) DV-5 Deluge Valve by a To ease field assemblyof the trim ar- preventing the DV-5 Diaphragm Cham- 2 x 1-1/2 inch Figure 716 Reducing ber from becoming re-pressurized and Coupling. rangement, the trim components are preventing an inadvertent closing of the provided partially assembled as shown DV-5 during a fire event. in Figure 3B. Continued on Page 10 TFP1420 Page 5 of 14 NO.DESCRIPTION QTY. P/N NO.DESCRIPTION QTY. P/N NO.DESCRIPTION QTY. P/N 1 300 psV 2000 kPa Water Pressure Gauge..2 92-343-1-005 24 1/2"90°Elbow 7 CH P4 1/4"Pressure Relief Valve 1 92-343-1-019 2 1/4"Gauge Test Valve 1 46-005-1-002 25 3/4"90°Elbow 1 CH P5 1/2"Swing Check Valve 1 46-049-1-004 3 Model MC-1 Manual Control Station 1 52-289-2-001 26 3/4"x 1/2'90"Elbow 1 CH P6 1/2"Globe Valve 1 46-047-1-004 4 Model AD-1 Automatic Drain Valve 1 52-793-2-004 27 1/2'Tee 3 CH P7 3/4'Angle Valve 1 46-048-1-007 5 Model ASV-1 Automatic Shut-Off Valve ...1 92-343-1-021 28 1/2'x 1/4"x 1/2"Tee 3 CH P8 1/4"Plug 3 CH 6 Waterflow Pressure Alarm Switch, 29 3/4"Tee 1 CH P9 1/2"x 1/4°Reducing Bushing 1 CH Model PS10-2 1 25710 30 3/4"x 1/2"x 3/4'Tee 2 CH P10 1/2"Union. 1 CH 7 1/2"Ball Valve 2 46-050-1-004 31 1/4'x Close Nipple 2 CH P11 1/2"90"Elbow 1 CH 8 1/2"Spring Loaded Check Valve 1 92-322-1-002 32 1/2"x Close Nipple 3 CH P12 1/2"Cross 1 CH 9 1/2"Y-Strainer 1 52-353-1-005 33 1/2'x 1-1/2"Nipple 11 CH P13 1/2"x 1/2"x 1/4'Tee 1 CH 10 3/4"Swing Check Valve 1 48-049-1-005 34 1/2"x 2"Nipple 1 CH P14 1"x 3/4"x 1/2"Tea 1 CH 11 3/4"Angle Valve 1 46-048-1-005 35 1/2"x 2-1/2"Nipple 3 CH P15 1/4"x 3"Nipple 1 CH 12 Drip Funnel Connector 1 92-211-1-005 36 1/2"x 5"Nipple. 2 CH P16 1/2"01-1/2"Nipple 5 CH 13 Drip Funnel Bracket 1 92-211-1-003 37 1/2"x 7"Nipple 1 CH P17 1/2"x 2-1/2"Nipple 1 CH 14 Drip Funnel 1 92-343-1-007 38 Select Nipple per Table 1 CH P18 3/4"01-1/2"Nipple 1 CH 15 3/32"Vent Fitting 1 92-032-1-002 39 Select Nipple per Table 1 CH P19 1"x 2"Nipple 1 CH 16 1/4"018"Tubing 1 CH 40 3/4'01-1/2"Nipple 6 CH El Solenoid Valve Ordered Separately Refer to 17 1/2"Tubing Connector 1 CH 41 3/4"x 2"Nipple 1 CH Per Data Sheet TFP2180 1 Data Sheet 18 1/2"x 12"Tubing 1 CH 42 3/4"x 4"Nipple 1 CH E2 1/2"Tubing Connector 1 CH 19 1/4"Plug 1 CH P1 250 psV 1750 kPa Air Pressure Gauge....1 92-343-1-012 E3 1/2"x 24"Tubing 1 CH 20 3/4"Plug 1 CH P2 1/4"Gauge Test Valve 1 46-005-1-002 E4 1/2"x 1-1/2"Nipple 1 CH 21 1/2"Union. 5 CH P3 Low Air Pressure Alarm Switch, 22 3/4"Union 1 CHModel PS10-2 1 25710 COMPONENTS INCLUDED ONLY IN 23 1/4"90°Elbow 1 CH PRE-TRIMMED VALVE ASSEMBLIES: Al Model CV-1FR Check Valve,2'(DN50) ...1 59-590-1-020 A2 Butterfly Valve,Power Ball 300: 1-1/2"(DN40) 1 51024A P16 „TO. P4 • 2'(DN50) 1 51021A A3 Figure 577 Coupling: \��. J P5 1-1/2"(DN40) 1 57715ACP P11 �� ! j0 2"(DNso) 1 57720ACP P10 1 -` A A4 Coupling for 1-1/2"(DN40)DV-5: •f- w- \ / P3 P16 " + P13 Figure 716 Reducing Coupling,2"x1-1/2 .1 7162015ES '1,, Coupling for 2"(DN50)DV-5: 6 P16 I< P9 "' P16 Figure 577 Coupling,2" 1 57720ACP P15 >�� 0 P16 l r P1 P6 15 P12 4,; l' 26 Select Appropriate Nipple Sizes GREEN ��, Nipple per DV-5 Deluge Valve Size ( , / 40 Number 1-1/2"(DN40) 2"(DN50) TINT) 16 = P2 :"' h 33 38 1/2"x Close 1/2"x 2" / P17 .. i% • 39 1/2"x 5" 1/2"x 5-1/2" 30 28 it P18 e� OP P8iv �� °J� ��1 27 71 El P19 20 1 , P7 �\ .4 ' r► 4 111411 �\ (ORDERED %I 35 ,:. > ' P14 PLUG 12 s.= E3 •yi/< SEPARATELY) 40 29 UNUSED �� •14 E2 "-� E4 II LOCATION 41 40 %w� 22 PORTS 13 , 36 21 32� /�/� 21 •G°, FOR OPTIONAL �, %�� Iqp 40 (- ) amine f �� 33 40 Com; �� it "(kr ELECTRICALLY � ' toy P8 "' 27 SUPERVISED 33 v ,, 10 40 /�Ir � Al �P� 24 39 N.O.ALARM •� � 40 1114 35 CONTROL ••*. 30 e�� /I� P8 , 'r@rte' A4 el 27 38 �'I�a< 25 / 33 32 f� �� 28 'a 11 42 r l , 33 24 4.0 7 � ' 8 il�p�17 37 tilfr."'" •9 '4611 NOTES: 21 o fJ• A3 ,�?° =�' 24 ��, /� 5 21 1. Supervised Single Interlock 19 2 ' <�� Preaction Trim with Electric "��; ow' A2 - Actuation is comprised of IP' ,� ' 36 ��0 �� ' 33 , 34 18 • //° �` 32 Items 1-42 plus Items P1-P19 -1 33 /< .___ and Items E2-E4.Item El 441r : 33 14,i17 ordered separaetly.Itgms 31 '1 28 2"(DN50) 33 24 24 _ A1-A4 included only in 23 31 GROOVE x GROOVE 21 pre-trimmed valve assemblies DV-5 DELUGE VALVh -- as applicable;otherwise SHOWN _ NOTES: ordered separately. �r 33 4. See Figure 2 of TFP1305 for 2. All Fittings and Nipples are ►; Deluge Valve Port identification. galvanized(Standard Order). j 7 5. Route all Tubing to Drip Funnel, 3. CH:Common Hardware. Item 14. FIGURE 3A(1 OF 3) 1-1/2 AND 2 INCH(DN40 AND DN50)DV-5 SUPERVISED SINGLE INTERLOCK PREACTION SYSTEM WITH ELECTRIC ACTUATION TRIM EXPLODED VIEW R r TFP1420 Page 6 of 14 NO.DESCRIPTION QTY. P/N NO.DESCRIPTION QTY. P/N NO.DESCRIPTION CITY. P/N 1 300 psV 2000 kPa Water Pressure Gauge..2 92-343-1-005 18 1/2"x 18"Tubing 1 CH 36 1/2'x 4"Nipple 1 CH 2 1/4"Gauge Test Valve 1 46-005-1-002 19 1/4"Plug 1 CH 37 1/2"x 4-1/2'Nipple 1 CH 3 Model MC-1 Manual Control Station 1 52-289-2-001 20 3/4"Plug 1 CH 38 1/2"x 5"Nipple 1 CH 4 Model AD-1 Automatic Drain Valve 1 52-793-2-004 21 1/2"Union 5 CH 39 1/2"x 5-1/2"Nipple 1 CH 5 Model ASV-1 Automatic Shut-Oft Valve ...1 92-343-1-021 22 3/4"Union 1 CH 40 1/2"x 7"Nipple 2 CH 6 Waterflow Pressure Alarm Switch, 23 1/4'90°Elbow 1 CH 41 3/4"x 1-1/2"Nipple 5 CH Model PS10-2 1 25710 24 1/2"90°Elbow 7 CH 42 3/4"x 2"Nipple 1 CH 7 1/2"Ball Valve 2 46-050-1-004 25 3/4"x 1/2"90°Elbow 1 CH 43 1-1/4'x 2"Nipple 1 CH 8 1/2"Spring Loaded Check Valve 1 92-322-1-002 26 1-1/4"90°Elbow 1 CH 44 1-1/4'x 4"Nipple 1 CH 9 1/2'Y-Strainer 1 52-353-1-005 27 1/2"Tee 3 CH 10 3/4'Swing Check Valve 1 46-049-1-005 28 1/2"x 1/4"x 1/2'Tee 3 CH P1 250 psi/1750 kPa Air Pressure Gauge....1 92-343-1-012 11 1-1/4"Angle Valve 1 46-048-1-007 29 3/4'Tee 1 CH P2 1/4"Gauge Test Valve 1 46-005-1-002 12 Drip Funnel Connector 1 92-211-1-005 30 3/4'x 1/2'x 3/4"Tee 2 CH P3 Low Air Pressure Alarm Switch, 13 Drip Funnel Bracket 1 92-211-1-003 31 1/4"x Close Nipple. 2 CH Model PS10-2 1 25710 14 Drip Funnel 1 92-343-1-007 32 1/2"x Close Nipple. 2 CH P4 1/4"Pressure Relief Valve 1 92-343-1-019 15 3/32"Vent Fitting 1 92-032-1-002 33 1/2"x 1-1/2'Nipple 13 CH P5 1/2'Swing Check Valve 1 46-049-1-004 16 1/4"018"Tubing 1 CH 34 1/2"x 2-1/2"Nipple 1 CH P6 1/2"Globe Valve 1 46-047-1-004 17 1/2'Tubing Connector 1 CH 35 1/2"x 3-1/2"Nipple 1 CH P7 1-1/4"Angle Valve 1 46-048-1-007 P8 1/4"Plug 3 CH P9 1/2"x 1/4'Reducing Bushing 1 CH P16 vim" �o� P4 P10 1/2"Union 1 CH ''' P11 1/2"90°Elbow 1 CH ' P16 P13 P12 1/2'Cross. 1 CH \�� ' �1 P13 1/2"x 1/2"x 1/4"Tee 1 CH P16 a�, P6 ,1 P14 1-1/4"x 1-1/4"x 1/2"Tee. 1 CH ��' P15 1/4"x 3"Nipple 1 CH e�A\� •/0 P5 P1 25 P16 1/2"x 1-1/2"Nipple 6 CH P11 P171-1/4"x2"Nipple 1 CH �(.,' P10 P3 41 P18 1-1/4°x 3'Nipple 1 CH ri 11 33 El Solenoid Valve Ordered Separately Refer to 'IX °4 , Per Data Sheet TFP2180 1 Data Sheet 6 P16 ajr P9 E2 1/2'Tubing Connector 1 CH (L P15 — 4,1 E3 1/2"x 24"Tubing 1 CH P16 ,. / P2 i1 AAE41/2"x 1-1/2"Nipple 1 CH 0 15 P12 - °-'1 lif 4 COMPONENTS INCLUDED ONLY IN (GREEN 27 PRE-TRIMMED VALVE ASSEMBLIES: P8 .-7-7: Al Model CV-1FR Check Valve,3"(DN80) ...1 59-590-1-030 TINT) 16 P16 / r1 tip 14 A2 Model BFV-N Butterfly Valve,3'(DN80)...1 59300F030N 12 A3 Figure 577 Coupling,3"(DN80) 2 57730ACPt ...„...„,„---:(,..=„‘ 30 28 P7 P17 (u\7/r fi13 El 20 01 �'lll P18 PLUG (ORDERED �Jlt� c P14 UNUSED E3 SEPARATELY) ,c;Av 34 �.�:)�:� P9 E2 -'' E4 LOCATION 42 •`,i 41 �� 22 P8 Al 39 21 33. ill : 21 FOR OPTIONAL /Of ')�XC r/dile 41 (.4W 36 t" 33 �� 41 C�� P8 %��. 70? 1slrc :0;; lum „�A �, ELECTRICALLY ,J !-„ 27 SUPERVISED 33 %\\l\\ I 10 *u' v' 24 40 e, 0 N.O.ALARM 24 % ‘ 41 `� , 24 24 f CONTROL 30 (t\` i/ ��' A3 1 , 27 JXC r 1 VALVE �l 33 �� Olfir ��i 33 33 �� / \ 26 �� 7 �Y--f rit, ifi\A 43 44 / X1140tie 11 (,�I, ' o ��i5 ` i - 33 3` 38 �, 'I 1NOTES: 4. 8 .- 21 _ 21 ,\\ 1. Supervised Single Interlock 19 2 ��%��' A3 24 /� .;- Preaction Trim with Electric - � - „.' 32 iit,P. 35 Actuation is comprised of . 37 A2 1 ' 9 '• c_ 18 �� Items 1-44 plus Items P1-P18 33 4u 33 33 i� 24 17 24 and Items E2-E4.Item El ordered separaetly.Items 31 �, 28 ;-% 33 Al-A3 included only in 23 31 3" DN80 `.%'14 1 21 pre-trimmed valve assemblies ( ) �` �- ,� as applicable;otherwise GROOVE x GROOVE `� NOTES: ordered separately. DV-5 DELUGE VALVE 33 and Nipples are SHOWN 2. All Fittings mo 4. See Figure 2 of TFP1305 for pp I'.� Deluge Valve Port identification. galvanized(Standard Order). i 7 5. Route all Tubing to Drip Funnel, 3. CH:Common Hardware. Ill Item 14. FIGURE 3A (2 OF 3) 3 INCH(DN80)DV-5 SUPERVISED SINGLE INTERLOCK PREACTION SYSTEM WITH ELECTRIC ACTUATION TRIM EXPLODED VIEW TFP1420 Page 7 of 14 NO.DESCRIPTION QTY. P/N NO.DESCRIPTION QTY. P/N NO.DESCRIPTION QTY. P/N 1 300 psi/2000 kPa Water Pressure Gauge..2 92-343-1-005 27 1/2"x 1/4"x 1/2"Tee 3 CH P4 1/4"Pressure Relief Valve 1 92-343-1-019 2 1/4"Gauge Test Valve 1 46-005-1-002 28 3/4"x 1/2"x 3/4'Tee 2 CH P5 1/2"Swing Check Valve 1 46-049-1-004 3 Model MC-1 Manual Control Station 1 52-289-2-001 29 1'x 1/2"90°Elbow 1 CH P6 1/2"Globe Valve 1 46-047-1-004 4 Model AD-1 Automatic Drain Valve 1 52-793-2-004 30 1'x 3/4"x 1"Tee 1 CH P7 2"Angle Valve 1 46-048-1-009 5 Model ASV-1 Automatic Shut-Off Valve ...1 92-343-1-021 31 2'90°Elbow 1 CH P8 1/4"Plug 3 CH 6 Waterflow Pressure Alarm Switch, 32 1/4"x Close Nipple. 2 CH P9 1/2'x 1/4"Reducing Bushing 1 CH Model PS10-2 1 25710 33 1/2"x Close Nipple. 2 CH P10 1/2'Union 1 CH 7 1/2'Ball Valve 2 46-050-1-004 34 1/2"01-1/T Nipple 10 CH P11 1/2"90°Elbow 1 CH 8 1/2"Spring Loaded Check Valve 1 92-322-1-002 35 1/2"x 2-1/2"Nipple 2 CH P12 1/2"Cross 1 CH 9 1/2"Y-Strainer 1 52-353-1-005 36 1/2'x 3'Nipple 1 CH P13 1/2"x 1/2"x 1/4"Tee 1 CH 10 3/4"Swing Check Valve 1 46-049-1-005 37 1/2'x 5'Nipple 2 CH P14 2'x 2'x 1/2'Tee 1 CH 11 Item No.Not Used 38 1/2"x 6"Nipple 1 CH P15 1/4"x 3"Nipple 1 CH 12 2'Angle Valve 1 46-048-1-009 39 1/2"x 7"Nipple 2 CH P16 1/2"x 1-1/2'Nipple 6 CH 13 Drip Funnel Connector 1 92-211-1-005 40 Select Nipple per Table 1 CH P17 2"x 3"Nipple 2 CH 14 Drip Funnel Bracket 1 92-211-1-003 41 Select Nipple per Table 1 CH El Solenoid Valve Ordered Separately Refer to 15 Drip Funnel 1 92-343-1-007 42 Select Nipple per Table 1 CH Per Data Sheet TFP2180 1 Data Sheet 16 3/32"Vent Fitting 1 92-032-1-002 43 3/4"x 1-1/2"Nipple 1 CH E2 1/2°Tubing Connector 1 CH 17 1/4"x 24"Tubing 1 CH 44 3/4"x 2"Nipple 1 CH E3 1/2"x 24"Tubing 1 CH 18 1/2"Tubing Connector 1 CH 45 Select Nipple per Table 1 CH E4 1/2'x 1-1/2"Nipple 1 CH 19 1/2'x 24"Tubing 1 CH 46 1'x Close Nipple 2 CH 20 1/4'Plug 1 CH 47 1"x 3"Nipple 1 CH COMPONENTS INCLUDED ONLY IN 21 3/4"Plug 1 CH 48 Item No.Not Used PRE-TRIMMED VALVE ASSEMBLIES: 22 1/2"Union 5 CH 49 2"x 3"Nipple 2 CH 23 1"Union 1 CHA7 Model CV-IFR Check Valve: P1 250 psi/1750 kPa Air Pressure Gauge....1 92-343-1-012 24 1/4"90°Elbow 1 CH4"(DN100) 1 59-590-1-040 P2 1/4'Gauge Test Valve 1 46-005-1-002 6"(DN150) 1 59-590-1-060 25 1/2"90°Elbow 7 CH P3 Low Air Pressure Alarm Switch, 8"(DN200) 1 59-590-1-080 26 1/2"Tee 3 CH Model PS10-2 1 25710 A2 Model BFV-N Butterfly Valve: 4"(DN100) 1 59300F040N ,�`- if 6"(DN150) 1 59300F060N P6 0P4 8"(DN200) 1 59300F080N ,.v' P16 P13 A3 Figure 577 Coupling: ,r l 4"(DN100) 2 57740ACP it* •16 � 6"(DN150) 2 57760ACP P16O' 8"(DN200) 2 57780ACP aa' P5 P1 46 29 P11 e P10 P3 \ Select Appropriate Nipple Sizes rr1/je 1 I`ll Nipple per DV-5 Deluge Valve Size 6 tip:, �� Oil 36 No. 4.. 6.. 6.. P16 �r�qe P9 _ (DN100) (DN150) (DN200) P16 �"�y P15 40 12"02-vz^ vrxs 1/2 1/2"x6-12' el 16 '`1C r; /,_- P2 a`��j11 41 1/2"x2' 1/2 x3" 1/2'x3-1/2" (GREEN P12 ' ,,, 26 re$ 42 1/2"x 6-1/2" 1/2•x 7-1/2" 1/2"x 9" TINT) 17 — 4 45 3/4"x 2-1/2" 3/4"x 3-1/2" 3/4'x 4-1/2" P8 27 P16 l3f Ammik 28 c-'` ' P14 �_ � PLUG 15 El P17 UNUSED ( (ORDERED 21 ��11 NII °� �P7 <:, ��( P17 PORTS 14 E3 1-1— SEPARATELY) 35 E4 i P8 E2 4� 44 /ate 1�� 30 Al 38 22 41 °brie 22 ��1, �.�P '! � 34 LOCATION 14` r V '' 23 pg Y /�—/ .- iiir FOR OPTIONAL Qty •�� a0� e(�0 j 1�� 'j1�c �l IlC �.,, idle %1 26 ELECTRICALLY ,, 43 46 r4� , �� m `�� 25 SUPERVISED 34 U el�� 10 47 1r(C 35 25 42/ 25 I� ra N.O.ALARM 25 � � 45 Iali� ° rJX� _ 1 COfraA .,,�. //r A3 ,1 ' 26 o ri/2 NTROL 28 0 1)) I f�ij/ .,,, 34 33 40 �� , � �� y i X1 v34 J 27 039 (.11 ,-* . if 49 49 ��., 5 i 343 c'G (n{'i_ 12 lki.011.rf �C` 220L.NOTES: 39 �� 1 9 ,S>° _t. 3uH=rvi..JSingleInterlock vfym�y�� ,r 37 ` •Yi. Preaction Trim with Electric o 20 �-�� 0- 19 IP 33 `,i., ll .• A3 �l — Actuation is comprised of /- �� gir, Items 1-49 plus Items P1-P17 o��` 37 r0� "' rylP� 25 25 and Items E2-E4.Item El 411 34 �� A2 34 �� ordered separaetly.Items 32 ""✓t 27 .el 34 Al-A3 included only in `��/ ` 22 pre-trimmed valve assemblies 24 32 4%' as applicable;otherwise 4"(DN100) *-71114011/-4 � NOTES: ordered separately. GROOVE x GROOVE C1 4k, i% 34 4. See Figure 2 of TFP1305 for DV-5 DELUGE VALVE /4 �` `I 'i Deluge Valve Port identification. 2. All Fittings and Nipples are X11 �� 9 galvanized(Standard Order). SHOWN j 7 5. Route all Tubing to Drip Funnel, 3. CH:Common Hardware. Item 15. FIGURE 3A(3 OF 3) 4, 6,AND 8 INCH(DN100,DN150 AND DN200)DV-5 SUPERVISED SINGLE INTERLOCK PREACTION SYSTEM WITH ELECTRIC ACTUATION TRIM EXPLODED VIEW TFP1420 Page 8 of 14 NOTES: Nipple Select Appropriate Nipple Sizes per DV-5 Deluge Valve Size 1. Use only 2"(DN50)Model CV-1FR Riser Number 1-1/2"(DN40) 2"(DN50) 3'(DN80) 4"(DN100) 6"(DN150) 8"(DN200) Check Valve in 1-1/2"(DN40)and 2"(DN50) 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" assemblies.Use CV-1 FR Valve size equal to mating DV-5 Valve in larger assemblies. 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 3-1/2" 2. Nipples 1-4 vary in length relative to DV-5 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" size.Select per table.All other nipples 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" packed unassembled shall be installed per System appropriate trim exploded view,Figure 3A Main Drain 3/4"NPT 3/4"NPT 1-1/4"NPT 2"NPT 2"NPT 2"NPT 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 3/4"NPT 1-1/4"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 ''-'-' DRIP - CONNECTION " 3/4 INCH NPT1 r FOR SYSTEM AUTOMATIC FUNNEL =r_ - AIR SUPPLY CONNECTION FOR .- DRAIN WITH 1-1/4 4°:' r� SOLENOID VALVE, WATER MOTOR 111 B VALVE INCH NPT c �l ORDERED SEPARATELY 1/2 INCH ALARM �> i NIPPLE CONNECTION yl SYSTEM (NORMALLY CLOSED) CONDUIT �� TO DRAIN i AIR SUPPLY CONNECTION 4 •<•��X�o, !y�o PRESSURE FOR"ELECTRIC LOCATION t A! �1 ' , - GAUGE \c FOR OPTIONAL '�(0 / PLUG F a '" DETECTION" " AO id' �, ELECTRICALLY k „ UNUSED 41-_ •,�„ ,- `V v SYSTEM PORTS '" SUPERVISED RISER VALVE ,' (SIZED PER /4 �� (NOTE1) NIPPLE �} Gi N.O.ALARM l C�� CHECK VALVE CONTROL CONNECTION J0 �� 2 TABLE) 1� 0 7�C (�16 l ow 1 1 SYSTEM MAIN ��" �� , ° NIPPLE NIPPLE i �) •, 7 AUTOMATIC 3 1 DRAIN VALVE i_ p �� (NORMALLY i�i� _��\( �� SHUT-OFF(NORMALLY VALVE MAIN CLOSED) /� ® Y;;�� DIAPHRAGM DRAIN VALVE \'\i _ ♦ OPEN) X�/ CHAMBER PRESSURE (NORMALLY E )4r0 It- .1 GAUGE CLOSED) ►� �V i�� - 1 , \•" �� 1ALARM S —/ �� . �;.0. �� TEST VALVE �� A y �� (NORMALLY �•j 04 '. ,� ;�� 1PN� �r CMANUAL ONTROL CLOSED) v� D V qui rflitO �' •iyf STATION SYSTEM '` t WATER il' DIAPHRAGM SUPPLY C ��l`"� 4"(DN100) ' CHAMBER SUPPLY PRESSURE �,, I FLANGE x GROOVE CONTROL VALVE GAUGE _" MAIN DRAIN DV-5 DELUGE (NORMALLY CONNECTION VALVE SHOWN 1/2 INCH NPT OPEN) (SIZED PER TABLE) CONNECTION FROM WATER SUPPLY FIGURE 3B 1-1/2 THRU 8 INCH(DN40 THRU DN200)DV-5 SUPERVISED SINGLE INTERLOCK PREACTION WITH ELECTRIC ACTUATION TRIM OPERATIONAL COMPONENTS SEMI-PREASSEMBLED TRIM EXPLODED ARRANGEMENT TFP1420 Page 9 of 14 Valve Nominal Installation Dimensions in Inches and(mm) Size A B C D E F G H J K L M N 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 4.02 (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) (102,1) 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 4.09 (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) (103,9) 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 3.85 (DN80) (198,4) (265,1) (368,3) (266,7) (635,0) (42,9) (170,0) (170,0) (108,0) (177,8) (6,4) (536,6) (98,0) 4" 10.00 11.75 17.88 10.50 29.13 1.75 6.50 8.56 6.25 7.13 0.38 25.38 4.56 (DN100) (254,0) (298,5) (454,0) (266,7) (739,8) (44,5) (165,1) (217,5) (158,8) (181,0) (9,5) (644,5) (116,0) 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 5.86 (DN150) (289,0) (363,5) (476,3) (266,7) (811,2) (88,9) (200,0) (252,4) (158,8) (181,0) (39,7) (752,5) (149,0) 8" 12.00 16.00 21.25 10.50 36.75 1.75 10.75 10.63 6.25 7.13 7.13 36.50 5.26 (DN200) (304,8) (406,4) (539,8) (266,7) (933,5) (44,5) (273,1) (269,9) (158,8) (181,0) (181,0) (927,1) (134,0) * MINIMUM CLEARANCE. A*-1-1B — C* D* c i a I © i e trzi, .6 I -illililiddlirmi 'Pi tit O •Ilg l- : i 11:741.;"'"'-• * 4 -1.711 H II I �� • O O�I M v.. 11, ? o li 1 A #: —1�9P1'1, . ' 1' I O O �� ii■=e= fAAI i N I 1 F 1.1 i • G H J K LEFT VIEW FRONT VIEW FIGURE 4 1-1/2 THRU 8-INCH(DN40 THRU - ERVISED SINGLE BITERLOCKPREACTION _ WITH ELECTRIC ACTU, • , - , , • ' ' ' ' • ' ■ ' ' • TFP1420 Page 10 of 14 System Air Pressure RequirementsInstallation Step 9.A suitable automatic supervi- The supervisory air(nitrogen)pressure sory air(nitrogen)supply,as described is to be 10±2 psi (0,69 plus or minus in the Technical Data section, is to be 0,07 bar).The use of a higher supervi- General Instructions installed in accordance with the appli- sory pressure is subject to approval by Proper operation of the DV-5 Deluge cable technical data sheet and set for the authority having jurisdiction, and it Valve depends upon its trim being in- 10±2 psi(0,69±0,14 bar). should be understood that the use of stalled in accordance with the instruc- a higher supervisory pressure may in- tions given in this technical data sheet. Step 10.A desiccant dryer, when re- crease water delivery time.The use of Failure to follow the appropriate trim quired for the supervisory air supply, is a lower supervisory pressure may pre- diagram may prevent the DV-5 Valve to be installed between a drip leg and vent clearing the alarm of the Supervi from functioning properly, as well as the Model AMD-1 Air Maintenance De- sory Low Pressure Alarm Switch(Item void listings, approvals,and the manu- vice or between the Model G16AC812 P3 - Fig. 3A), which is factory set to facturer's warranties. Automatic Supervisory Air Supply and alarm at 5± 1 psi (0,34±0,07 bar) on 1-1/2 inch(DN40) risers utilize a 2 inch the Preaction Trim. decreasing pressure.The supervisory (DN50) Riser Check Valve in combina- Step 11. The Supervisory Low Pres- air supply pressure of 10±2 psi (0,69 tion with the 1-1/2 inch (DN40) DV-5 sure Alarm Switch is to be wired to the ±0,07 bar)can be provided by any of Deluge Valve. supervisory alarm initiating circuit of an the following methods. Refer to the ap- The DV-5 Valve must be installed in a alarm panel. plicabledata sheet for laboratory ap- readily visible and accessible location. Step 12. Conduit and electrical con- provalinformation. nections are to be made in accordance • Model G16AC812 (self contained) The DV-5 Valve associated trim must with the requirements of the authority bAutomatic Supervisory Air Supply ture mai40°FF (4(4 at a minimum tempera- having jurisdiction and/or the National described in Technical Data Sheet tof °C). Electric Code. TFP1620. Heat tracing of the DV-5 Valve or its Step 13. Before a system hydrostatic associated trim is not permitted. Heat • A maximum 200 psi (13,8 bar) plant test is performed in accordance with tracing can result in the formation of air supply in combination with the hardened mineral deposits that are ca NFPA 13 system acceptance test re- Model AMD-1 Air Maintenance De- gable of preventing proper operation. quirements, the DV-5 Diaphragm vice described in Technical Data Chamber is to be depressurized; the Sheet TFP1221. The DV-5 Deluge Valve is to be in- Automatic Drain Valve(Item 4, Fig.3A) • A maximum 3000 psi (206,9 bar) ni stalled in accordance with the follow- is to be temporarily replaced with a 1/2 trogen cylinder in combination with ing criteria: inch NPT plug,the 3/32 inch Vent Fit- the Model AMD-3 Nitrogen Mainte- Step 1. All nipples, fittings, and de- ting (16 - Fig. 3A) is to be temporarily nance Device described in Technical vices must be clean and free of scale replaced with a 1/4 inch NPT plug, and Data Sheet TFP1241. and burrs before installation. Use pipe the Diaphragm Cover Bolts must be thread sealant sparingly on male pipe uniformly and securely tightened using NOTE: The dew point of the air or ni- threads only. a cross-draw sequence.After tighten- trogen supply fora system exposed to ing,double-check to make certain that freezing conditions must be maintained Step 2. The DV-5 Valve must be all of the Diaphragm Cover Bolts are below the lowest ambient temperature trimmed in accordance with Figure 3A securely tightened. to which the system piping will be ex- or 3B. posed. Introduction of moisture into Step 3. Care must be taken to ensure the system piping can create ice build- that check valves, strainers, globe Valve Setting up that could prevent proper operation valves, etc. are installed with the flow Procedure of the system. arrows in the proper direction. The Supervisory Low Pressure Alarm Step 4. Drain tubing to the Drip Funnel Steps 1 through 12 are to be performed Switch(Item P3- Fig.3A)is factory set must be installed with smooth bends when initially setting the DV-5 Deluge at 5 ± 1 psi (0,34 ± 0,07 bar) on de- that will not restrict flow. Valve after an operational test of the creasing pressure.The Pressure Relief fire protection system,or,after system Valve(Item P4-Fig.3A)is factory set to Step 5.The main drain and Drip Funnel operation due to a fire. fully open at 25±2 psi(1,72±0,14 bar) drain may be interconnected provided Step 1. Close the Main Control Valve. and it begins to crack open at a pres- a check valve is located at least 12 sure of about 18 psi(1,24 bar). inches(300 mm)below the Drip Funnel. Step 2. Close the Diaphragm Cham- ber6. Suitableprovision must be Supply Control Valve,the Dry Pilot Friction Loss Step Line Air Supply Control Valve, and the The nominal pressure loss versus flow made for disposal of drain water. Drain- Supervisory Air Supply Control Valve. data for the DV-5 Deluge Valve plus age water must be directed such that Riser Check Valve is provided in Graph it will not cause accidental damage to Step 3. Open the Main Drain Valve, A. property or danger to persons. System Drain Valve, and all auxiliary Step 7.Connect the Diaphragm Cham- drains in the system.Close the System ber Supply Control Valve to the inlet Drain Valve and auxiliary drain valves side of the system's Main Control Valve after water ceases to discharge. Leave the Main Drain Valve open. in order to facilitate setting of the DV-5 Valve(Ref. Figure 4). Step 4. Depress the plunger of the Au- Step 8. Unused pressure alarm switch tomatic Drain Valve to verify that it is must be plugged. open and that the DV-5 Valve is corn- connectionspletely drained. Continued on Page 12 1 TFP1420 Page 11 of 14 FLOW RATE IN LITRES PER MINUTE(LPM) (1 GPM=3,785 LPM) 200 400 600 1000 2000 3000 5000 7000 10000 15.0 1 1 1 l l 1 1 11 111 1111 l l 1111 11111111 1 11 11 111 111 l l 1 l l l 1 1 _-1,00 _0,90 _—0,80 10.0 -0,70 9.0 0� . _ _ f ^0,60 I 8.0 �0 �o� / / / /_—0,50 z 7.0 V / " ' Lu 6.0 \� - / ~0,40 ix CV-- < • 5.0 ? cc w ,y ur. mmmoom � —0,30 m w 4.0 _ � —,—�f z aaxtr c) i 2��0" / ¢m u, z 3.0 `� C>� / `0,20 w 0., — ¢ 0co P mho = n o ? O cn w II a 2.0 -- / ,z..\-- —oo� o�up— ¢ ?O , — a a o / / o z' Ur 0,10 ( ////---- /— —0,09 O ( —0,08 z Lu _ a 1.0 —0,07 z0.9 =0,06 0.8 _ O 0.7 _0,05 z — 0.6 0,04 0.5 - -0,03 0.4 — 50 100 200 400 600 1000 2000 3000 FLOW RATE IN GALLONS PER MINUTE(GPM) The approximate friction loss, based on the Hazen and Williams formula and expressed in equivalent length of pipe with C-120, is as follows: 15 feet of 1-1/2 Sch.40 pipe for the 1-1/2 inch Valve Combination**calculated on a typical flow rate of 100 gpm. 28 feet of 2 inch Sch.40 pipe for the 2 inch Valve Combination*calculated on a typical flow rate of 175 gpm. 37 feet of 3 inch Sch.40 pipe for the 3 inch Valve Combination*calculated on a typical flow rate of 350 gpm. 48 feet of 4 inch Sch.40 pipe for the 4 inch Valve Combination*calculated on a typical flow rate of 600 gpm. 73 feet of 6 inch Sch. 40 pipe for the 6 inch Valve Combination*calculated on a typical flow rate of 1500 gpm. 103 feet of 8 inch Sch.30 Pipe for the 8 inch Valve Combination*calculated on a typical flow rate of 2500 gpm. GRAPH A DELUGE AND CHECK VALVE COMBINATION* NOMINAL PRESSURE LOSS VERSUS FLOW *DV-5 Deluge Valve combined with Model CV-1FR Riser Check Valve **1-1/2 Inch DV-5 Deluge Valve combined with 2 Inch Model CV-1FR Riser Check Valve TFP1420 Page 12 of 14 Step 5. Clean the Strainer in the Dia- NOTE: In order to prevent the pos- It is recommended that automatic phragm Chamber Supply connection sibility of a subsequent operation of sprinkler systems be inspected,tested, by removing the clean-out plug and an over-heated solder type automat- and maintained by a qualified Inspec- strainer basket. The Strainer may be ic sprinkler, any solder type automat- tion Service in accordance with local flushed out by momentarily opening ic sprinklers that were possibly ex- requirements and/or national codes. the Diaphragm Chamber Supply Con- posed to a temperature greater than trol Valve. their maximum rated ambient must be NOTICE Step 6. Reset the actuation system. replaced. Some of the procedures outlined in Manual Actuation — Push the operat Step 12. Slowly open the Main Con- this section will result in operation of ing lever up; however, do not close the trol Valve. Close the Main Drain Valve the associated alarms. Consequently, hinged cover at this time. as soon as water discharges from the notification must first be given to the drain connection. Observe the Auto- owner and the fire department, central Electric Actuation — Reset the electric matic Drain Valve for leaks. If there are station, or other signal station to which detection system in accordance with leaks, determine/correct the cause of the alarms are connected. the manufacturer's instructions to de- the leakage problem. If there are no energize the Solenoid Valve. leaks, the DV-5 Valve is ready to be Annual Operation Test Procedure Step 7.Open the Diaphragm Chamber placed in service and the Main Control Proper operation of the DV-5 Valve(i.e., Supply Control Valve and allow time Valve must then be fully opened. opening of the DV-5 Valve as during a for full pressure to build up in the Dia- NOTES: When the Main Control Valve fire condition)must be verified at least phragm Chamber. is opened, the pressure on the Dia once a year as follows: Step 8. Operate (open) the Manu- phragm Chamber may increase. This Step 1. If water must be prevented al Control Station to vent trapped air increase in pressure is normal. If the from flowing beyond the riser, perform from the Diaphragm Chamber. If nec- pressure is greater than 250 psi(17,2 the following steps. essary,first open the hinged cover, and bar), the pressure is to be relieved by • Close the Main Control Valve. then fully pull down on the operating partially and temporarily opening the Manual Control Station; however, do • Open the Main Drain Valve. lever. Slowly close the operating lever by pushing it up after aerated water not al/ow the pressure as indicated • Open the Main Control Valve one turn ceases to discharge from the Manual on the Diaphragm Chamber Pressure beyond the position at which water Control Station drain tubing. Close the Gauge to drop below the supply pres just begins to flow from the Main Pres- hinged cover and insert a new break sure shown on the Water Supply Pres Drain Valve. rod in the small hole through the top of sure Gauge since this action may result in tripping of the DV-5 Valve. • Close the Main Drain Valve. the enclosing box. pp g • Step 9. Inspect the drain connections After setting a fire protection system, Step 2.Test the Deluge Valve Releas- from the Manual Control Station and notify the proper authorities and advise ing Panel in accordance with the man- Solenoid Valve.Any leaks must be cor- those responsible for monitoring pro- ufacturer's instructions to energize the rected before proceeding to the next prietary and/or central station alarms. Solenoid Valve. step. NOTE:Be prepared to quickly perform Step 10. Verify the ability for the DV-5 Care and Steps 3, 4, and 5 if water must be pre- Diaphragm to hold pressure as follows: vented from flowing beyond the riser. • With the diaphragm chamber pres- Maintenance Step 3.Verify that the DV-5 Valve has tripped,as indicated by the flow of wa- surized per Step 8, temporarily The following procedures and inspec- ter into the system. close the Diaphragm Chamber Sup- tions must be performed in accor- ply Control Valve, and then monitor dance with this section, in addition to Step 4. Close the system's Main Con- the Diaphragm Chamber Pressure any specific requirements of the NFPA, trol Valve. Gauge for a drop in pressure. and any impairment must be immedi- Step 5. Close the Diaphragm Cham- • If a drop in pressure is noted, the ately corrected. ber Supply Control Valve,the Dry Pilot DV-5 Diaphragm is to be replaced Before closing a fire protection system Line Air Supply Control Valve, and the and/or any leaks must be corrected main control valve for maintenance Supervisory Air Supply Control Valve. before proceeding to the next step. work on the fire protection system that Step 6. Reset the DV-5 Deluge Valve • If the Diaphragm Chamber Pressure it controls, permission to shut down the in accordance with the Valve Setting Gauge does not indicate a drop in affected fire protection systems must Procedure. pressure, re open the Diaphragm first be obtained from the proper au- Chamber Supply Control Valve and thorities and all personnel who may be Quarterly Waterflow Alarm Test proceed to the next step. affected by this action must be notified. Procedure The owner is res onsible for the in- Testing of the system waterflow alarms Step 11. Replace operated automatic p must be performed quarterly. To test sprinklers on the system piping and spection,testing, and maintenance of the waterflow alarm, open the Alarm then open the Supervisory Air Supply their fire protection system and devices Test Valve, which will allow a flow of Control Valve and allow the system to in compliance with this document, as y well as with the applicable standards water to the Pressure Alarm Switch automatically re-establish its nominal pp and/or Water Motor Alarm. Upon sat- air pressure of 10 psi (0,69 bar). Ob- of the National Fire Protection Associa- isfactory completion of the test, close serve the Automatic Drain Valve for tion (e.g., NFPA 25), in addition to the leaks. If there are leaks,determine/cor standards of any authority having juris- the Alarm Test Valve. rect the cause of the leakage problem diction. Contact the installing contrac within the Riser Check Valve. tor or product manufacturer with any questions. TFP1420 Page 13 of 14 Quarterly Supervisory Low NOTE: 1-1/2 inch (DN40)risers utilize System With Electric Actuation Trim Pressure Alarm Test Procedure a 2 inch (DN50) Model CV-1FR Riser for DV-5 Deluge Valves, P/N (specify): Proper operation of the Supervisory Check Valve connected to the 1-1/2 1-1/2&2 Inch Galvanized P/N 52-478-2-119 Low Pressure Alarm Switch must be inch (DN40) DV-5 Deluge Valve by a 1-1/2&2 Inch Black P/N 52-478-1-119 performed quarterly as follows: 2 x 1-1/2 inch Figure 716 Reducing 3 Inch Galvanized P/N 52-478-2-116 Coupling. 3 Inch Black P/N 52-478-1-116 Step 1. Crack open the System Main 4,6&8 Inch Galvanized P/N 52-478-2-113 Drain Valve for the Riser Check Valve Replacement Trim Parts 4,6&8 Inch Black P/N 52-478-1-113 (Item P7, Figure 3A)to slowly relieve su- Specify:(description)for use with DV-5 Supervisory Air Supply(Select One) pervisory air pressure from the system. Deluge Valve, P/N (see Figure 3A) A device capable of maintaining a nom- Verify that the Supervisory Low Pres- inal system air or nitrogen pressure of sure Alarm Switch is operational and Deluge Valve(Select One) nominal 10 psi(0,69 bar)must be sepa- that the low pressure set point is ap- P/Ns are for American Standard rately ordered.Specify: (Model and de- proximately 5 psi (0,34 bar). Groove x Groove Connections, and scription), P/N (specify): Threaded Ports. For other configu- Step 2.Close the System Main Drain rations refer to Technical Data Sheet Model AMD-1 Air Maintenance Valve(Item P7, Figure 3A)and allow the TFP1305. Specify: (size) DV-5 Groove Device(TFP1221) P/N 52-324-2-002 y system supervisory pressure of 10 ±2 Model AMD-3 Nitrogen Maintenance psi(0,69±0,14 bar)to be automatical x Groove Deluge Valve, P/N (specify): Device(TFP1241) P/N 52-328-2-001 ly re-established.The Supervisory Low 1-1/2 Inch P/N 52-477-1-919 Model G112 Automatic Supervisory 2 Inch P/N 52-477-1-910 Air Supply ply(TF (TFP1620) P/N 52-150-1-001 Pressure Alarm Switch should return to 3 Inch P/N 52-477-1-912 Solenoid Valve(Select One) its"normal"condition. 4 Inch P/N 52-477-1-913 A Solenoid Valve compatible with the Pressure Relief Valve Maintenance 6 Inch P/N 52-477-1-9158 Inch P/N 52-477-1-916 anticipated maximum water supply Over pressurization of the system pip- Riser Check Valve Select One pressure must be ordered separately. ing with air will result in the opening ( ) Refer to Technical Data Sheet TFP2180 of the Pressure Relief Valve (Item P4, P/Ns are for American Standard for other voltage ratings and NEMA Fig. 3A). If the Relief Valve continues Grooved Connections. For other con- classifications.Specify:24 VDC, NEMA to bleed air after the system pressure figurations refer to Technical Data 2, 4, and 4X, (specify 175 or 250 psi) has been reduced to its normal su- Sheet TFP950 for the Groove x Groove Solenoid Valve, P/N (specify): Model CV-1 FR Riser Check Valve. pervisory pressure range of 10±2 psi Specify: (size), Model CV-1FR Groove 175 psi P/N 52-287-1-024 (0,69±0,14 bar), most likely debris has x Groove Riser Check Valve, P/N 250 psi P/N 52-287-1-124 become lodged in the seating area.To s ecif Pre-Trimmed DV-5 Assembly with help clean the seating area, slowly pull ( p y)' Butterfly Valve up on the ring at the top of the Relief 2 Inch P/N 59-590-1-020 Specify: (size), G x G End Connection, Valve to allow a full flow of air through 3 Inch P/N 59-590-1-030 pre Trimmed DV-5 Assemblywith But the Relief Valve, and then release the 4Inch P/N 59 590-1-040 ringto allow the Relief Valve to snap6 Inch P/N 59-590-1-060 terfly Valve, P/N (specify): 8 Inch P/N 59-590-1-080 1-1/2 Inch G x G P/N 52-916-0-1AP closed. Repeat the cleaning procedure NOTE:For 1-1/2 inch(DN40)risers,use 2 Inch G x G P/N 52-926-0-1AP as necessary. the 2 inch(DN50)Riser Check Valve. 3 Inch G X G P/N 52-936-0-1AP 4 Inch G x G P/N 52-946-0-1AP Coupling(Select One) 6 Inch G x G P/N 52-966-0-1AP Limited P/Ns are for American Standard 8 Inch G x G P/N 52-986 0-1AP Warranty Grooved Connections. For other con- Pre-Trimmed DV-5 Assembly figurations and finishes refer to Tech- without Butterfly Valve For terms and conditions,visit nical Data Sheet TFP1830 or TFP1880. Specify: (specify size), (specify) End For warrantyco-firterms A coupling to attach the Riser Check Connection, Pre-trimmed DV-5 As- Valve to the outlet of the Deluge Valve sembly without Butterfly Valve, P/N must be separately ordered. Specify: (specify): Ordering (Size),(Figure#), painted, (description), 3 Inch F x G P/N 52-936 2-1AP P/N (specify). For 1-1/2 inch risers, or- 4 Inch F x G P/N 52-946-2-1AP Procedure der an additional Reducing Coupling 6 Inch F x G P/N 52-966-2-1AP for the outlet of the 2 inch Riser Check 8 Inch F x G P/N 52-986-2-1AP The DV-5 Deluge Valve with Single In- Valve. Accessories(As Needed) terlock Preaction Electric Actuation 2 x 1-1/2 Inch Figure 716 Specify:(description), P/N(specify): trim can be ordered pre-trimmed or Painted Reducing Coupling.... P/N 7162015ES 600 psi Water Pressure non-assembled as separate items. 2 Inch Figure 772 Gauge P/N 92-343-1-004 For non assembled the followingitems Painted Rigid Coupling P/N 77220ASC Model WMA-1 Water Motor 3 Inch Figure 772 Alarm(TFP921) P/N 52-630-1-001P must be ordered separately: Painted Rigid Coupling P/N 77230ASC 4• DV-5 Deluge Valve inch FigureRigi772 P g Painted Rigid Coupling P/N 77240ASC • CF-1 FR Riser Check Valve 6 Inch Figure 772 Painted Rigid Coupling P/N 77260ASC • Couplings 8 Inch Figure 772 Painted Rigid Coupling P/N 77280ASC • Single Interlock Preaction Electric Preaction Trim(Select One) Actuation Trim, Semi-Preassembled Specify: (Size and finish — galvanized • Supervisory Air Supply is standard)Semi-Preassembled Su- • Dry Pilot Air Supply pervised Single Interlock Preaction • Accessories TFP1420 Page 14 of 14 GLOBAL HEADQUARTERS 11400 Pennbrook Parkway,Lansdale,PA 19446 I Telephone+1-215-362-0700 Copyright©2014 Tyco Fire Products,LP. All rights reserved. *NCO Fire Protection Product , Vico Worldwide Fire Protection Contacts www.tyco-fire.com Products Model CV-1FR Grooved-End Riser Check Valves 2 to 12 Inch (DN50 to DN300) General NOTICE The Model CV-1FR Riser Check Valve / fir, �, �. Description described herein must be installed and f'. maintained in compliance with this - 4 _ The TYCO Model CV-1FR Grooved- document and with the applicable stan- 1, r f Y • "' End Riser Check Valve is a compact dards of the National Fire Protection ,. ` .„ . •a,, and rugged swing-type unit that al- Association, in addition to the stan- , " ` lows water flow in one direction and dards of any authorities having juris- r % prevents flow in the opposite direc- diction. Failure to do so may impair the tion. A resilient elastomer seal fac- performance of this device. - r' ing on the spring-loaded clapper 4 ensures a leak-tight seal and non- Never remove any piping component sticking operation.The Model CV-1 FR nor correct or modify any piping defi- Riser Check Valves are designed to ciencies without first de-pressurizing minimize water hammer caused by flow and draining the system. Failure to do reversal. so may result in serious personal injury, 13 c 43 property damage, and/or impaired de- APPROVED The Model CV-1 FR Riser Check vice performance. Valve is furnished with grooved ends and can be installed using The owner is responsible for maintain- GRINNELL Grooved Couplings or ing their fire protection system and Installation GRINNELL Figure 71 Flange Adapters. devices in proper operating condition. The Model CV-1FR Riser Check Contact the installing contractor or The Model CV-1FR Riser Check Valves Valves have been designed with a manufacturer with any questions. are to be installed in accordance with removable cover for ease of field main this section: tenance.These valves can be installed Technical 1.The arrow cast on the Body must horizontally(with cover in the upward point in the direction of the flow. position)or vertically with the flow in the Data 2.Valves installed vertically must be upward direction. Refer to Figure 6. positioned with the flow in the up- To facilitate their use in wet-type auto- Approvals ward direction. matic sprinkler system risers,the Model UL, C-UL Listed 3.Valves installed horizontally must be CV-1 FR Riser Check Valves are provid- FM Approved ed with threaded outlets for pressure positioned with the Cover facing up. gauges and a drain connection.They Sizes Refer to Figure 6. provide a more compact and economi 2 to 12 Inch (DN50 to DN300) 4.Grooved-end pipe couplings cal alternative to an alarm check valve Maximum Working Pressure used with the Model CV-1 FR Riser where a water motor alarm is not re- 300 psi (20,7 bar) Check Valve must be installed in quired. Provisions must be made for accordance with manufacturer's a local alarm using an approved flow Valve Assembly Finish instructions. switch(not included). Red, non-lead paint NOTE: Valves should be installed a The Model CV-1FR Riser Check Valve reasonable distance downstream from is also Listed for use in conjunction pumps, elbows, expanders, reducers, with the TYCO DV-5 Deluge Valve in or other similar devices to extend the Preaction Systems under air pressure valve life. Standard piping practices call without the use of prime water. for a minimum of five(5)times the pipe The Model CV-1 FR Riser Check Valves diameter for general use. are a redesign for the Central Figure 590FR and GRINNELL Figure 590FR. Page 1 of 6 JULY 2014 TFP950 r , TFP950 Page 2 of 6 A - B 1/4" 1/4" •.• •.•. NPT ■. .. NPT -_ irp- 4,......... 111461. t lql ke) O.D. 1101) 0II c l A go D E� 1111 WNW J K E F Nominal Dimensions Nominal Pipe Size Inches (mm) CoverBoltApprox. Torque Weight ANSI O.D. K Lbs.-ft. Lbs. Inches Inches A B C D E F J Inches (Nm) (kg) DN (mm) NPT 2 2.375 6.75 4.38 1.96 2.57 3.25 4.37 1.561 18 9.0 DN50 (60,3) (171,5) (111,3) (49,8) (65,3) (82,3) (111,0) (39,6) (25) (4,5) 2-1/2 2.875 8.00 5.38 2.63 3.09 3.87 5.12 1.7311/4 39 10.0 DN65 (73,0) (203,2) (136,7) (66,8) (78,5) (98,3) (130,0) (43,9) (54) (4,5) 76,1 - 8.00 5.38 2.63 3.09 3.87 5.12 1.72 11/4 39 10.0 DN65 (76,1) (203,2) (136,7) (66,8) (78,5) (98,3) (130,0) (43,7) (54) (4,5) 3 3.500 8.37 5.72 2.81 3.31 3.87 5.12 1.72 1-1/4 39 11.0 DN80 (88,9) (212,6) (145,3) (71,4) (84,1) (98,3) (130,0) (43,7) (54) (5,0) 4 4.500 9.63 6.68 3.80 3.63 4.53 5.78 2.12 50 25.0 DN100 (114,3) (245,6) (169,7) (96,5) (92,2) (115,4) (146,8) (53,8) 2 (69) (11,3) 139.7 - 10.50 7.40 4.46 4.13 4.90 7.00 2.09 39 29.0 DN125 (139,7) (266,7) (188,0) (113,2) (104,9) (124,5) (177,8) (53,1) 2 (54) (13,2) 5 5.563 10.50 7.40 4.46 4.13 4.90 7.00 2.09 39 29.0 DN125 (141,3) (266,7) (188,0) (113,2) (104,9) (124,5) (177,8) (53,1) 2 (54) (13,2) 165.1 - 11.50 8.00 4.62 4.50 5.00 7.25 2.002 60 47.0 DN150 (165,1) (292,1) (203,2) (117,4) (114,3) (127,0) (184,2) (50,8) (82) (21,3) 6 6.625 11.50 8.00 4.62 4.50 5.00 7.25 2.00 60 47.0 DN150 (168,3) (292,1) (203,2) (117,4) (114,3) (127,0) (184,2) (50,8) 2 (82) (21,3) 8 8.625 14.00 10.14 6.67 5.52 5.46 10.50 2.43 120 66.0 DN200 (219,1) (355,6) (257,6) (169,4) (140,2) (138,7) (266,7) (61,7) 2 (164) (30,0) 10 10.750 18.00 12.38 8.62 6.41 7.50 10.75 3.38 130 109.7 DN250 (273,1) (457,2) (314,5) (218,9) (162,8) (190,5) (273,1) (85,9) 2 (178) (49,4) 12 12.750 21.0 14.28 9.93 7.27 7.62 10.00 3.13 130 151.0 DN300 (323,9) (533,4) (362,7) (252,2) (184,7) (193,5) (254,0) (79,5) 2 (178) (68,0) FIGURE 1 MODEL CV-1FR RISER CHECK VALVES NOMINAL DIMENSIONS TFP950 Page 3 of 6 4,15 17 16 9 E1111111111111111115 8 111111II ■■ ■■ 2 SEE , .r ii-- VIEW A �� 2 7 9 2 7 5 3 `� R 4 EI 2" 8" 10" -12" em-14 S`,` 1�1 (DN50 DN200) (DN250 DN300) ��`��__� ��0��`\�`+�. VIEW A 13 Ike) D y 5 % i 13 I" I o \Iiiii ( 1 .1\11,15 11 Mill 14,15 WIY1 �� _�� SEE % / 18 r �� '�� DETAIL B 6 5 , 6 bill 2" 8" 10" 12" 1 (DN50 DN200) (DN250-DN300) DETAIL B Detail Part Material Qty. Detail Part Material Qty. Detail Part Material Qty. 1 Body Ductile Iron 1 6 Clapper EPDM 1 14 Locknut Stainless 1 Facing Grade"E" Steel 2 Cover Ductile Iron 1 7 Spring Stainless 1 15 Adhesive Thread AR Steel Sealer 3 Cover Nitrile Rubber 1 8 Hinge Stainless 1 16 Nameplate Aluminum 1 Gasket Shaft Steel 4 Hex Cap Steel,Zinc AR 9 Retaining Stainless AR 17 Rivet Steel 2 Screw Plated Ring Steel Clapper Stainless Retention Stainless Stainless 2 8 Steel 11 Bolt Steel 1 18 Spacer Steel 1 5 (DN50-200) 1 Clapper Retaining Stainless 10""-12" Ductile Iron 13 Disc Steel 1 (DN250-300) FIGURE 2 MODEL CV-1FR RISER 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 Y? I i ■ . 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IIIIIiiIIII/IIIIIIIIIIIIIIICIIII��'�111 - o z ■■■■ - / 2/111111 Z 111111 ?d■ 49 AIMIII■■■■■9IUIIUIIIIIIIIIU0IIIWII■■•■■ o a w w ■■�■■11 `11 a "D ,111111 G .11111■■ a,11■ $ /■11111■■ �1J111111111111111I5■ID4i000Ii cc m - cc 2.0 =�..IA. ri=■ IA ■ _' Z i■■ Q �.■a D< IM..■..■■,I�.■I■■■■. , ,■■■III■ 0 AIME AIM MM tia ,11111111111 11111■1151::■i■■1 a Lo `� ilii/.•rUU .rA.••ii �riiiiiiii . 1111 0�iiiiiiii= =1111111111 o ii■■■�.MEE•■■■■ CC c0 w ■■■/I■■I,MMMIII,■■■■■MMM1/41111111 h Mr Z I■■■■■IIM Q I■■■MMMIMI �``>'AI O /1111■■11 D o CC(I) ■■I.■■I"/■■I■II■■■■■■■I/,1IIIIIIII �■■■ - /■■■■■Mui Z /■■■■■■111., All co I■■■u1•■■■■ 0,10 0 d a w ■.I■r/■■■1■I■.■■■■II%111IIIIII■■r!■■I (O,...■■■■I 0 i.■■■■■111 O AI Z 11111111111 0,09 �� J w ■AMPANNI■III■■■■■■■ AIIIIIIIIIII■VUUIII A■■■.■■■ ANEMONE All ° I w a s I■,.■■■111I■■■■■II/IIIIIIIIIII.I■IIIIIPHIIMM ■■I w A■■■■1II 0 Al ,.■■1111u■i■■ 0,08 a s Z o ■EMEI1111U■■■■Il/IIIIIIIIIIIII/■11IIh.lU■■III AUUIIIII ?ill 0 AIIIIIII■■■U■ 0,07 _1 Z 1.0 =::::C7'.::..:::'.: ,::....r,..: EmEwA::::::�� :C. _A1■1111i:■■■i: a 0 D 0.9 i■■i■■r.■■Iir■ ■EE ■■.M/IEEili■■■■..IIm■■■■.■ AN N 11■■■■MEMI��■■■ 0,06 Z Z Q 0.8 m■■■�I■IMMu■■•i■■.MEEEE1Ill/il■■■■MIEEm�■■■■■M/IEmo■■■■■EEEMEE ^ III■■■■MMMMM•■■■ z 0.7IPØJIP 'r 'rJI''r '' p" 1 � M11 0,05 00.6 I 0,04 0.5 100 200 300 400 600 1000 2000 3000 4000 6000 10000 15000 FLOW RATE IN GALLONS PER MINUTE(GPM) FIGURE 3 MODEL CV-IFR RISER CHECK VALVES PRESSURE LOSS DATA F , TFP950 Page 4 of 6 • OPP" ill amMr A 1111 IT_1 - 0 i 1 1.- 1.„ or E B - D Nominal Dimensions Nominal Pipe Size Inches (mm) ANSI O.D. E Inches Inches A B C D Inches DN (mm) NPT 2 2.375 6.75 5.87 3.25 9.52 DN50 (60,3) (171,5) (149,1) (82,6) (241,9) 1 2-1/2 2.875 8.00 6.66 3.87 10.80 DN65 (73,0) (203,2) (169,2) (98,3) (274,3) 1-1/4 76,1 - 8.00 6.66 3.87 10.80 1-1/4 DN65 (76,1) (203,2) (169,2) (98,3) (274,3) 3 3.500 8.37 6.88 3.87 11.02 11/4 DN80 (88,9) (212,6) (174,8) (98,3) (279,9) 4 4.500 9.63 7.63 4.53 11.92 DN100 (114,3) (244,6) (193,7) (115,1) (302,7) 2 139,7 - 10.50 8.13 4.90 12.42 2 DN125 (139,7) (266,7) (206,4) (124,5) (315,4) 5 5.563 10.50 8.13 4.90 12.42 DN125 (141,3) (266,7) (206,4) (124,5) (315,4) 2 165,1 - 11.50 8.50 5.00 12.79 DN150 (165,1) (292,1) (215,8) (127,0) (324,8) 2 6 6.625 11.50 8.50 5.00 12.79 2 DN150 (168,3) (292,1) (215,8) (127,0) (324,8) 8 8.625 14.00 9.52 5.46 13.81 DN200 (219,1) (355,6) (241,7) (138,7) (350,7) 2 10 10.750 18.00 10.41 7.50 14.70 2 DN250 (273,1) (457,2) (264,3) (190,5) (373,3) 12 12.750 21.00 11.27 7.62 15.56 0N300 (323,9) (533,4) (286,1) (193,5) (395,2) 2 FIGURE 4 MODEL CV-IFR RISER CHECK VALVE WITH TRIM COMPONENTS NOMINAL DIMENSIONS 1 TFP95O Page 5 of 6 P/N 59-591-1-020 2 Inch(DN50) NO. DESCRIPTION QTY. P/N 1 300 psi/2000 kPa NOTES: MAIN Water Pressure Gauge . .2 92-343-1-005 1. All Fittings and Nipples are DRAIN VALVE (NORMALLY 2 1/4" Gauge Test Valve . .2 46-005-1-002 galvanized(Standard Order). (11.11143 1/4" Plu 2 CH CLOSED) g 2. CH:Common Hardware.4 1"Angle Valve 1 46-048-1-006 ``0Ali 5 1/4"x 2" Nipple 1 CH Alb,1/4"x 5" Nipple 1 CH 1, 7 1"x 3" Nipple 1 CH 7 4 P/N 59-591-1-030 ��i 2-1/2 Inch(DN65)through 3 Inch(DN80) \� NO. DESCRIPTION QTY. P/N 4 1 300 psi/2000 kPa / SYSTEM Water Pressure Gauge ..2 92-343-1-005 �`♦ ((;)‘ PRESSURE 2 1/4"Gauge Test Valve . .2 46-005-1-002 C GAUGE 3 1/4" Plug 2 CH1\41i 4 1-1/4"Angle Valve 1 46-048-1-007 , / SUPPLY PRESSURE 5 1/4"x 2" Nipple 1 CH �, ' 2 6 1/4"x 5" Nipple 1 CH 4 , GAUGE 7 1-1/4"x 3" Nipple 1 CH . 5 401 3 P/N 59-591-1-080 4 Inch(DN100)through 12 Inch(DN300) NO. DESCRIPTION QTY P/N MODEL CV 1 FR fj 1 RISER CHECK V 1 300 psi/2000 kPa VALVE 2 Water Pressure Gauge . .2 92-343-1-005 6 f/ 2 1/4"Gauge Test Valve . .2 46-005-1-002i��I1 . 3 3 1/4" Plug 2 CH 1f� 4 2"Angle Valve 1 46-048-1-009 �`!�� 5 1/4"x 2" Nipple 1 CH 6 1/4"x 5" Nipple 1 CH 7 2"x 3" Nipple 1 CH FIGURE 5 MODEL CV-1FR RISER CHECK VALVES TRIM PARTS LIST COVER OUTLET 0.,INLET �I � OUTLET 0 t FLOW IN 1_.o �� 0. j •COVERIi2I'i•U1 —I ._.� FLOW '�1_.p or ._. '■ iii INLET VERTICAL ORIENTATION HORIZONTAL ORIENTATION FIGURE 6 MODEL CV-1FR RISER CHECK VALVES INSTALLATION TFP95O Page 6 of 6 Care and Limited Maintenance Warranty Before closing a fire protection system For warranty terms and conditions,visit main control valve for maintenance www.tyco-fire.com. work on the fire protection system that it controls, obtain permission to shut Ordering down the affected fire protection sys- tem from the proper authorities and no- Procedure tify all personnel who may be affected by this decision. Contact your local distributor for avail- After placing a fire protection system ability.When placing an order, indicate in service, notify the proper authorities the full product name and Part Number and advise those responsible for moni- (P/N). toring proprietary and/or central station alarms. Model CV-1 FR Check Valves Specify: Size and P/N (below). The owner is responsible for the in- spection,testing, and maintenance of 2"(DN50) P/N 59-590-1-020 their fire protection system and devic- 2-1/2 (DN65) P/N 59-590-1-025 es in compliance with this document, 761 mm(DN65) P/N 59-590-1-076 3"(DN80) P/N 59-590-1-030 as well as with the applicable stan- 4"(DN1oo) P/N 59-590-1-040 dards of the National Fire Protection 139,7 mm(DN125) P/N 59-590-1-139 Association (e.g., NFPA 25), in addition 5"(DN125) P/N 59-590-1-050 to the standards of any authority having 165,1 mm(DN150) P/N 59-590-1-165 jurisdiction. Contact the installing con- 6"(DN150) P/N 59-590-1-060 tractor or product manufacturer with 8"(DN200) P/N 59-590-1-080 any questions.Any impairments must 10"(DN250) P/N 59-590-1-100 be immediately corrected. 12"(DN300) P/N 59-590-1-120 Automatic sprinkler systems are recom- Model CV-1 FR mended to be inspected, tested, and Riser Check Valve Trim Assembly maintained by a qualified Inspection Specify: Size and P/N (below). Service in accordance with local re- quirements and/or national codes. 2"(DN50) P/N 59-591-1-020 2-1/2"(DN65) P/N 59-591-1-030 76,1 mm(DN65) P/N 59-591-1-030 3"(DN80) P/N 59-591-1-030 4"(DN100) P/N 59-591-1-080 139,7 mm(DN125) P/N 59-591-1-080 5"(DN125) P/N 59-591-1-080 165,1 mm(DN150) P/N 59-591-1-080 6"(DN150) P/N 59-591-1-080 8"(DN200) P/N 59-591-1-080 10"(DN250) P/N 59-591-1-080 12"(DN300) P/N 59-591-1-080 GLOBAL HEADQUARTERS 1 1400 Pennbrook Parkway,Lansdale,PA 19446(Telephone+1-215-362-0700 Copyright©2014 Tyco Fire Products,LP. All rights reserved. tyco Fire Protection Products tqca I Fire & Building Products Technical Services: Tel: (800) 381-9312/ Fax: (800)791-5500 Model BFV-N Butterfly Valve Grooved End 21/2 Inch - 10 Inch (DN65 - DN250) General Technical Description Data The Model BFV N Grooved End But Model 4 terfly Valves(Ref. Figure 1)are indicat- BFV-N �� „....."__ .,.,. ing type valves designed for use in fire Sizes:ANSI Inches/DN protection systems where a visual in- 21/2(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 21/2through 10 inch(DN65-DN250) cut groove inlet and outlet connections Model BFV-N Grooved End Butterfly 1 ' that are suitable for use with grooved Valves are UL and C-UL Listed and FM end pipe couplings that are listed and Approved. approved for fire protection systems. All laboratory listings and approvals are For applications requiring supervision for indoor and outdoor use. of the open position of the valve, the Gear Operators for the Model BFV-N Maximum Working Pressure Butterfly Valves are provided with ' 30 8 Inch(DN65 DN200): two sets of factory installed internal 300 psi (20,7) bar switches each having SPDT contacts. • 10 Inch (DN250): Friction Loss The supervisory switches transfer their 175 psi (12,0 bar) The approximate friction loss, based on the Hazen Williams formula and ex- electrical contacts when there is move- Materials of Construction: pressed in equivalent length of pipe ment from the valve's normal open po- Body with C. 120, is as follows. The data is sition during the first two revolutions of Ductile iron conforming to ASTM A-395 based on friction loss information col- the handwheel. Body Coating lected at a typical flow rate of 15 feet WARNINGS Polyimide per second. The Model BFV-N Grooved End But- Disc • 6.9 feet of inch Sch.40 pipe for terfly Valves described herein must be Ductile iron conforming to ASTM A-395 the 2'/2 inchh valve. installed and maintained in compliance Disc Seal •8.7 feet of 3 inch Sch. 40 pipe for with this document, as well as with the Grade EPDM"E"encapsulated rubber the 3 inch valve. applicable standards of the National conforming to ASTM D-2000 •4.5 feet of 4 inch Sch. 40 pipe for Fire Protection Association, in addition Upper&Lower Stem the 4 inch valve. to the standards of any other authori- Type 416 Stainless Steel conforming •6.6 feet of 5 inch Sch. 40 pipe for ties having jurisdiction. Failure to do to ASTM 582 the 5 inch valve. so may impair the performance of Lower Plug • 11.1 feet of 6 inch Sch. 40 pipe for these devices. PVC the 6 inch valve. The owner is responsible for maintain- Operator • 10.2 feet of 8 inch Sch.30 pipe for ing their fire protection system and de- Gear operator with iron housing the 8 inch valve. vices in proper operating condition. The installing contractor or sprinkler • 12.1 feet of 10 inch Sch.30 pipe for manufacturer should be contacted the 10 inch valve. with any questions. Page 1 of 4 MARCH, 2006 TFP1510 Page 2 of 4 TFP1510 Nominal Nominal Installation Dimensions in Inches and(mm) Weight Valve Pipe Sizes O.D. A B C D E F G H (kg) 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 DN80 (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) INDICATOR -.�- G F HANDWHEEL FLAG 1/2"NPT / a/CONDUIT CONNECTION GEAR JG^ , OPERATOR E N074 111111 —1 r BODY D B _ 4 i-- - --y_�� DISC H ( _l l t A FIGURE 1 MODEL BFV-N GROOVED END BUTTERFLY VALVE -NOMINAL DIMENSIONS- Installation The Model BFV-N Grooved End But- r 7 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 I I SWITCH SHOWN with the Model BFV-N must be listed L — _ WITH VALVE FULL OPEN or approved for fire protection service and installed in accordance with the o o a a manufacturers instructions. 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. Conduit and electrical connections I— AUXILIARY are to be made in accordance with I • the authority having jurisdiction and/ or the National Electrical Code. With I 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 J o alarm control panel in accordance with _o m NFPA 72. The "auxiliary switch" is in- c5 tended for the unsupervised connec- 1 • tion to auxiliary equipment in accor- - • B dance with NFPA 70, National Electric Code. • 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 125 VDC @ p 1/4A Q 250 VDC (-9°C), in order to insure sufficient flex- 15.1A/12HP @ 125,250 VAC ibility of the wire lead insulation. 5A @ 125 VAC"L" Care and FIGURE 2 MODEL BFV-N BUTTERFLY VALVE Maintenance -INTERNAL SWITCH WIRING DIAGRAM— The owner is responsible for the in- spection,testing, and maintenance of their fire protection system and devic- es in accordance with the applicable standards of the National Fire Pro- tection Association (e.g., NFPA25), in addition to the standards of any au- thority having jurisdiction.The install- ing contractor or product manufac- turer should be contacted relative to any questions. Any impairment must be immediately corrected. It is recommended that automatic sprinkler systems be inspected, test- ed, and maintained by a qualified in- spection service. POTTER PS10 SERIES The Symbol of Protection PRESSURE SWITCH UL, cUL, and CSFM Listed, FM and LPC Approved, NYMEA Accepted,CE Marked Dimensions:3.78"(9,6cm)W x 3.20"(8,lcm)D x 4.22"(10,7cm)H POTTER Conduit Entrance:Two knockouts provided for 1/2"conduit. Individual switch compartments and ground screws suitable for WM., tAp.t"""; C dissimilar voltages. PS10-2 •^ Enclosure: Cover-Die-cast with textured red powdercoat finish,single cover screw and rain lip. Base-Die-cast Pressure Connection:Nylon 1/2"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) Switch Contacts: SPDT(Form C) 10.1 Amps at I25/250VAC,2.0 Amps at 30VDC Ordering Information One SPDT in PS10-1,Two SPDT in PS10-2 Model Description Stock No. Environmental Specifications: PS10-1 Pressure switch with one set 1340103 NEMA 4/IP66 Rated Enclosure-indoor or outdoor when used SPDT contacts with NEMA 4 conduit fittings. PS10-2 Pressure switch with two sets 1340104 Temperature range:-40°F to 140°F(-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 NFPA-13D Tamper Residential Occupancy up to four stories NFPA-13R Cover incorporates tamper resistant fastener that requires a special key 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 PS10 to control unit that provides a retard to compensate for surges. particular designs such as wet pipe systems with alarm check valves,dry Insure that no unsupervised shut-off valves are present between the alarm pipe,preaction,or deluge valves. The PS10 is also suitable to provide a check valve and PS10. low pressure supervisory signal;adjustable between 4 and 15 psi(0,27 and Method 2: When using the PS10 for local bell application or with a control 1,03 BAR). that does not provide a retard feature-the PS10 must be 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 use pipe dope) Testing: Accomplished by opening the inspector's end-of-line test valve. 2.Device should be mounted in the upright position(threaded connection down). Allow time to compensate for system or control retard. 3.Tighten the device using a wrench on the flats on the device. Note: 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 PS10 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 affix the connector valves are present between the alarm check valve and the PS10. to the device. Testing: Accomplished by opening the water by-pass test valve or the 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.See Fig 7 for two switch,one for excess pressure to bleed off. conduit wiring. Dry System Testing Connect PS10 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 of installation and periodically thereafter in accordance with the applicable check valve of the alarm port piping. Insure that no unsupervised shut-off NFPA codes and standards and/or the authority having jurisdiction valves are present between the alarm check valve and the PS10. (manufacturer recommends quarterly or more frequently). Testing:Accomplished by opening the water by-pass test valve. Wet System Note: The above tests may also activate any other circuit closer or water Method 1: When using PS10 and control unit with retard-connect PS10 motor gongs that are present on the system. Potter Electric Signal Company, LLC • St. Louis, MO • Phone: 866-956-0988/Canada 888-882-1833 • www.pottersignal.com PRINTED IN USA MFG.#5400928-REV D-1 PAGE 1 OF 3 12/10 Y t C.D POTTER PS10 SERIES The Symbol of Protection PRESSURE SWITCH Dimensions Switch Clamping Plate Terminal Fig. 1 Fig.2 (�' �"1 ®O I 2}7 Iii GROUND )1°°11" 'GADJUSTMENT II:: ' ® [72.97] 4.22 , e''• ��■ SCREWS ` �otJ KNOB Rap ■__ [107.19] r ..[�-.L-4I I I W I GONG` DWG#923-3 1/2"NPT ! WWI' 0° [62.87] - I— [40.64] A WA R N I N G 3.78 f 3.20 An uninsulated section of a single conductor [95.89] [81.28] should not be looped around the terminal and serve as two separate connections. The wire NOTE:To prevent leakage,apply Teflon tape sealant to male threads only. must be severed,thereby providing supervision of the connection in the event that the wire DWG#930-1 becomes dislodged from under the terminal. Typical Sprinkler Applications Fig.3 WET SYSTEM WITH WET SYSTEM WITHOUT DRY SYSTEM EXCESS PRESSURE EXCESS PRESSURE PS10 PSIO PSIO WATER WATER WATER MOTOR MOTOR illli MOTOR AIL GONG GONG GONG RBVS CHECK WET RBVS DRY VALVE ROES SYSTEML ,, WET SYSTEM SYSTEM. ►4 I ALARM ►4 CHECK ALARM CHECK RETARD VALVE CHECK VALVE ►4 VALVE I ,,Iii ►4 WATER WATER WATER OS&Y V BYPASSOS&Y V BY-PASS VALVE A VALVE OS&E ♦ BY-PASS • VALVE VALVE • VALVE VALVE DWG.#923-2AA A CAUTION Closing of any shutoff valves between the alarm check valve and the PS 10 will render the PS 10 moperative.To comply with Ni-PA-72 any such valve shall be electrically supervised with a supervisory switch such as Potter Model REALS. Low Pressure Signal Connection Waterflow Signal Connection Local Bell For Waterflow Connection Fig.4 Fig.5 Fig.6 TO FIRE ALARM PANEL TO FIRE ALARM PANEL NEGATIVENEUTRAL OR AC 11: 1111 0E1.1 rm 110 POSITIVE DC LINE LOAD --- - -- - OR HOT AC -� �= 00r_ -. -`■r _.sE� --miO ® ---- _ I I _ l I � � _ 1fIrP51M ® 0I pO10 IicJTc O° - p p 110 O !�°ill- °,IIII1 „ill DWGK 9281 Uw6,977-2 DWG,928-3 PRINTED IN USA MFG.#5400928-REV D-1 PAGE 2 OF 3 12/10 cT4' POTTER PS10 SERIES i The Symbol of Protection PRESSURE SWITCH One Conduit Wiring Switch Operation Removing Knockouts Fig.7 Fig.8 Fig.9 Break out thin section of divider to provide path for wires Terminal w/PRESSURE APPLIED C:Common when wiring both switches from one conduit entrance. 1: Closed when installed under normal system << is-_-., pressure.p 'r, 1-1 G1' � �° �° 2: Open when installed under normal system ai •0.:7,0, © pressure.Closes on iiik w ��,t pressure drop.Use for ► = low pressure ,„7,74.71./...,i, u p A ® I/� supervision. � i , I r' Terminal W/O PRESSURE APPLIED `%II , I _ I: Open with no pressure �� ' supplied.Closes upon 4-1,_eitio7, I'detection of pressure. >, �Use for waterflowQ `� indication. bl 2: Closed with no DWG#928-5 -_--_ DWG#928-4 1 2 pressure applied. DWG9928-6 AWARNING A 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 port inlet read 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 Waterflow Switch Pressure type waterflow switches;shall be a Model PS 10 as Pressure switch shall have one or two form C contacts,switch contact manufactured by Potter Electric Signal Company,St Louis MO., rating 10.1 Amps at 125/250 VAC,2.0 Amps at 30 VDC. 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'/2"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 be 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 waterflow switch shall be suitable for indoor or outdoor 4-8 PSI(0,27-0,55 BAR). service with a NEMA 4/IP66 rating. Pressure type waterflow switches shall have a maximum service The pressure type waterflow 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 MFG.#5400928-REV D-1 PAGE 3 OF 3 12/10 POuTER PS40 SERIES ® The Symbol of Protection SUPERVISORY PRESSURE SWITCH UL, cUL, and CSFM Listed, FM and LPC Approved, NYMEA Accepted,CE Marked Dimensions:3.78"(9,6cm)W x 3.20"(8,1cm)D x 4.22"(10,7cm)H Conduit Entrance: Two knockouts provided for 1/2"conduit.Individual switch compartments and ground screw suitable for dissimilar voltages 0 POTTER Enclosure: Cover-Die-cast with textured red powdercoat finish,single cover screw and rain lip. Base-Die-cast footnote ,1•—•:. Mr,r -.r ll PS40-2 Pressure Connection:Nylon 1/2"NPT male gu� Z.7., SUPERVISORY Factory Adjustment: PS40-1 operates on decrease at 30 PSI(2,1 BAR) PS40-2 operates in increase at 50 PSI(3,5 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(,07 at,7 BAR) 4 lbs at 60 PSI(,28 at 4,1 BAR) Maximum System Pressure:300 PSI(20,68 BAR) Switch Contacts: SPDT(Form C) 10.1 Amps at 125/250VAC,2.0 Amps at 30VDC One SPDT in PS40-1,Two SPDT in PS40-2 Environmental Specifications: NEMA 4/IP66 Rated Enclosure-indoor or outdoor when used with NEMA 4 conduit fittings. 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.0090200. Model Description Stock No. See bulletin#5401200 PSCTSK. PS40-1 Pressure switch with one set SPDT contacts 1340403 Service Use: PS40-2 Pressure switch with two sets SPDT contacts 1340404 Automatic Sprinkler NFPA-13 Hex Key 5250062 One or two family dwelling NFPA-13D Cover Tamper Switch Kit 0090200 Residential Occupancy up to four stories NFPA-13R BVL Bleeder valve 1000018 National Fire Alarm Code NFPA-72 Installation The PotterPS40 Series Supervisory Pressure Actuated Switches are designed 4. Connect the wires to the appropriate terminal connections for the primarily to detect an increase and/or decrease from normal system pressure service intended. See Figures 2,4,5,6,and 8 in automatic fire sprinkler systems. Typical applications are: Dry pipe Adjustment And Testing systems,pre-action air/nitrogen supervision,pressure tanks, air supplies, The operation of the pressure supervisory switch should be tested upon and water supplies. The PS40 switch is factory set for 40 PSI(2,8 BAR) completion of installation and periodically thereafter in accordance with normal system pressure. The switch marked with the word LOW is set to the applicable NFPA codes and standards and/or the authority having operate at a pressure decrease of 10 PSI(,7 BAR)at 30 PSI(2,1 BAR). The jurisdiction(manufacturer recommends quarterly or more frequently). switch maikcd with the wuid HIOH;b bcl to ove.atv at a p cs.at c incrcasc Note: Tcsting the PS110 may activate other system connected devices. of 10 PSI(,7 BAR)at 50 PSI(3,5 BAR). See section heading Adjustments The use of a Potter BVL(see product bulletin 8900067 for details)is and Testing if other than factory set poinT7s required. recommended to facilitate setting and testing of the PS40 pressure switch. 1. Connect the PS40 to the system side of any shutoff or check valve. When a BVL(bleeder valve)is used,the pressure to the switch can be 2. Apply Teflon tape to the threaded male connection on the device. isolated and bled from the exhaust port on the BVL without effecting the (Do not use pipe dope) supervisory pressure of the entire system. See Fig.3 3. Device should be mounted in the upright position. The operation point of the PS40 Pressure Switch can be adjusted to any (Threaded connection down) point between 10 and 60 PSI(0,7-4,11 BAR)by turning the adjustment 4. Tighten the device using a wrench on the flats on the device. knob(s)clockwise to raise the actuation point and counter clockwise to Wiring Instructions lower the 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 NEMA-4 rated conduit fitting is be 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 USA MFG.#5400930-REV E PAGE 1 OF 3 09/12 P POTTER PS40 SERIES The Symbol of Protection SUPERVISORY PRESSURE SWITCH Dimensions Switch Clamping Plate Terminal Fig. 1 Fig.2 f{(�_• _ 1 00 s GROUND � of J� 2.87 �. .� SCREWS ADJUSTMENT '�`' I [72.97] • KNOB I 4.22 [107.19] ..i 1.- 9� 1/2'NPT =MI1 'Cl* [ O GO DWG#923-3 2. 8 f I 0.6 1.60 O° [62.2.87] 1 [40.64] 3.78 _y t 3.20 [95.89] [81.28] ,A WARNING NOTE:To prevent leakage,apply Teflon tape sealant to male threads only. An uninsulated section of a single conductor DWG#930-1 should not be looped around the terminal and serve as two separate connections. The wire must be severed,thereby providing supervision of the connection in the event that the wire becomes dislodged from under the terminal. Typical Sprinkler Applications Fig.3 PS40 SUPERVISORY PRESSURE SWITCH A CAUTION AIR LINE SHUT-OFF A BLEEDER PS10 Closing of any shutoff valves between the alarm VALVE y TEST ALAS`' • check valve and the PS 10 will render the PS 10 CHECK A VALVE PRESSURE VALVE BVL SWITCH inoperative.To comply with IBC,IFC,and WATER NFPA-13,any such valve shall be electrically MOTOR GONG supervised with a supervisory switch such as CHECK RBVS Potter Model RBVS. DRY PIPE VALVE VALVE 1lI WATER DWG.#924-IA OS&Y BY-PASS VALVE A TEST VALVE Typical Connections Fig.4 WITH NORMAL SYSTEM PRES- PS40-1 PS40-2 SURE APPLIED LOW-TERMINAL 2 CLOSES ON PRESSURE DROP. TO FIRE ALARM PANEL r r^7 HIGH COM 1 2 �f AIR /!� COM7 © WITH NORMAL SYSTEM TO FIRE EOLR w Ag PRGH ESSURE ETERMINAL IPWILLL LIED CLOSE ALARM ON PRESSURE INCREASE. PANEL EOLR DWG#930-2 PRINTED IN USA MFG.#5400930-REV E PAGE 2 OF 3 09/12 , P POTTER PS40 SERIES e The Symbol of Protection SUPERVISORY PRESSURE SWITCH Low Pressure Signal Connection High Pressure Signal Connection One Conduit Wiring Fig.5 Fig.6 Fig.7 Break out thin section of divider to provide path for wires TO FIRE ALARM PANEL TO FIRE ALARM PANEL ® when wiring both switches from one conduit entrance. irlin (S- % O O lar Ilis91.-911)' I ® ® irir-7,74vr, 00 ......." Lora° ir---- 1: 1 c'',,.._fi.-- ...-12 . DW.928-2 DWGM 928-1 11 DWG4 928-4 Changing Pressure Removing Knockouts (With normal system pressure) Fig. 9 Fig.8 Terminal LOW PRESSURE SWITCH C:Common 1: Closed when installed under normal system c pressure. 2: Open when installed ` /if under normal system d ^ i�� pressure.Closes on c , - ,,4, tr4� . i pressure drop.Use for low air signal. (/ �0 AI , 1--- Terminal HIGH PRESSURE SWITCH \4. 1: Open when installed t" under normal system rel / I►; ® ,,.� pressure.Closes on it� r✓� f increase in pressure. ` /�-� Use for high air signal. \� 2: Closed under normal c 1 2 "" DWG#928-5 system pressure. DWGS 930-3 I ...wog Engineer/Architect Specifications Pressure Type Waterflow Switch Pressure type supervisory switches;shall be a Model PS40 as manufactured by A WA R N I N G Potter Electric Signal Company,St.Louis,MO.,and shall be installed on the fire .Installation must be performed by qualified personnel and in accordance with all iiii. sprinkiersybtem as show..a�.d or syecift�.dherein. national and local codes and ordinances:` - Switches shall be provided with a 1/2"NPT male pressure connection to be •Shock hazard.Disconnect power source before servicing.Serious injury or death connected into the air supply line on the system side of auy shut-ofT valve. A wuld iesuit. - - Model BVL bleeder valve as supplied by Potter Electric Signal Company of St. 'Read all instructions carefully and understand them before starting installation. Louis,MO.,or equivalent shall be connected in line with the PS40 to provide a Save instructions for future use. 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. 'Risk of explosion.Not for use is hazardous locations.Serious injury or death could result. The switch unit shall contain SPDT(Form C) switch(es). One switch shall be set to operate at a pressure decrease of 10 PSI(0,7 BAR)from normal. If two switches are provided,the second switch shall be set to operate at a pressure A CAU T I 0 N 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 'Do not tighten by grasping the switch enclosure. Use wrenching flats on the bushing 30VDC. The units shall have a maximum pressure rating of 300 PSI(20,68 BAR) only. Failure to install properly could damage the switch and cause improper operation • and shall be adjustable from 10 to 60 PSI(0,7 to 4,1 BAR). resulting in damage to equipment and property. Pressure switches shall have two conduit entrances,one for each individual switch 'To seal threads,apply 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 of the pressure switch shall be zinc die-cast with rain lip and shall attach damage to equipment. •Do not over tighten the device,standard piping practices apply. with one tamper resistant screw. The pressure switch shall be suitable for indoor or 'Do not apply any lubricant to any component of the pressure switch. outdoor service with a NEMA-4/IP66 rating. The pressure switch shall be UL,ULC,and CSFM listed,FM and LPC approved and NYMEA accepted. eimim PRINTED IN USA MFG.#5400930-REV E PAGE 3 OF 3 09/12 tijco Fire Suppression & Building d g Products Technical Services 800-381-9312 I+1-401-781-8220 www.tyco-fire.com Model AMD-1 Automatic Air Maintenance Device Pressure Reducing Type with Field-Adjustable Pressure Regulator General Technical Description Data The TYCO Model AMD-1 Automatic Air Approvals .. ,.. , Maintenance Device is an automatic, UL and C-UL Listed - .,#i field-adjustable, pressure reducing FM Approved device. It is used to control the pres- NYC Approved under MEA 206-02-E sure in a dry pipe sprinkler system,preolio - action system, or dry pilot line system Maximum Inlet Air(or Nitrogen) of a dry pilot actuated deluge or preac- Supply 200 psi (13Pressure3,8 bar) tion valve. The Model AMD-1 Device is utilized Field-Adjustable Outlet Pressure Installation in applications where there is a corn- Range pressed air (or nitrogen) source con- 5 to 70 psi (0,4 to 4,8 bar) The TYCO Model AMD-1 Automatic Air trolled at a higher pressure than the Assembly Maintenance Device must be installed desired system pressure. Pressure Major components illustrated in Figure in accordance with the following sources include plant air supplies with 1 are factory assembled with galva- instructions. their own automatic compressor con- nized steel nipples and malleable iron trols or nitrogen supplies with sin- pipe fittings. NOTICE gle-stage, cylinder-mounted pressure regulators. Moisture build-up can adversely affect Operation performance. Suitable consideration The Model AMD-1 Automatic Air Main- must be given to the removal of exces- tenance Device is a re-designation for The By-Pass Valve in the Model AMD-1 sive moisture from the compressed air the Central Model D-2, Gem Model Automatic Air Maintenance Device is supply. F324, and Star Model S460. opened to quickly fill the system during 1. Make connections a minimum of initial pressurization.Once the required 1/2 inch (DN15) pipe size between NOTICE system pressure has been reached, the inlet air supply and the Model The Model AMD-1 Automatic Air Main- the By Pass Valve is closed and the Air AMD-1 Device, as well as between tenance Devices described herein Supply Control Valve is left open to the Model AMD-1 Device and the must be installed and maintained in place the Model AMD-1 Device in auto- system to pressurize. compliance with this document and matic operation. with the applicable standards of the When there is a small leak in the sys- 2. loaded,Plade a 1/2u fibernch faced, swing-typee National Fire Protection Association, tern, the Pressure Regulator automati- check rubber-faced,between theModel in addition to the standards of any cally maintains system pressure at the AMD-1 valve be nd the sy Model authorities havingjurisdiction. Failure Device and valvestem to preset level.The 3/32 inch(2,4 mm)ori- pressurize. A check of this to do so may impair the performance fice in the Restrictor Check Valve limits type is provided in the air supply of these devices. the flow of air from the Pressure Regu- trim of TYCO dry pipe valves, pre- Owners are responsible for maintain- lator into the system to a value signifi- action valves, and dry pilot trim. ing their fire protection system and cantly less than that exhausted by the devices in proper operating condition. operation of a 5.6 K-factor sprinkler. The installing contractor or sprinkler manufacturer should be contacted with any questions. Page 1 of 4 JULY 2010 TFP1221 TFP1221 Page 2 of 4 — 2" 16-1/8"" (50,8 mm) (409,6 mm) 1 1/4" NPT BY-PASS VALVE (NORMALLY GAUGE T f CLOSED) 3-1/4" 1/2" NPT TEST PORT T P/N 46-047-1-004 (82,6 mm) OUTLET • CONNECTION i^� (TO SYSTEM) ••�ii�Iui16I_��I�Iili� v • •• 8-1/2" (215,9 mm) dor I. 1/2" NPT hikahill .�. INLET CONNECTION MI LABEL i',:,-. =.; e (FROM COMPRESSED • • AIR SUPPLY) .J Hi RESTRICTOR I "—'-'L' CHECK VALVE P/N 92-326-1-003 PRESSURE AIR SUPPLY REGULATOR STRAINER CONTROL VALVE (ADJUSTABLE) P/N 52-353-1-002 (NORMALLY OPEN) P/N 92-324-1-012 P/N 46-048-1-002 FIGURE 1 MODEL AMD-1 AUTOMATIC AIR MAINTENANCE DEVICE Setting 7. While observing the relocated pres- 10.Open the control valve in the sure gauge, adjust the output pres- air supply trim to the system to Procedure sure of the Pressure Regulator. Pull pressurize. the knob out and away from the 11. Open the Air Supply Control Valve The TYCO Model AMD-1 Automatic Pressure Regulator body and then in the Model AMD-1 Device. Air Maintenance Device must be set slowly turn the knob clockwise, as in accordance with the following viewed from the knob end of the 12.Open the By-Pass Valve in the instructions. Pressure Regulator, to increase Model AMD-1 Device. pressure, and counter-clockwise to 13.Close the By-Pass Valve after the 1. Determine the pressure that meets decrease pressure. the minimum requirements of the system is pressurized to approxi- system to pressurize. When decreasing pressure, the air mately 5 psi (0,4 bar) less than the pressure must be relieved down- minimum required system pressure 2. Close the Model AMD-1 By-Pass stream of the Pressure Regulator determined in Step 1. Valve, and close the Model AMD-1 by temporarily opening the control 14.After the system pressure stabi- Air Supply Control Valve. valve in the air supply trim of the system topressurize,assumingthat lizes, note the value and compare 3. Open the control valve in the air y with the requirement. Re-adjust the supply trim of the system to pres- the system to pressurize is at 0 psi. Pressure Regulator,as required. surize and then reduce the system After the Pressure Regulator is set, air pressure to 0 psi. push the knob in and towards the NOTICE 4. Close the control valve in the Pressure Regulator body to "snap" If the system was over-pressur- air supply trim of the system to it in a locked position. ized during manual fill, open a pressurize. 8. Close the Air Supply Control Valve suitable connection to the system 5. Remove the system pressure gauge in the Model AMD-1 Device. and manually reduce the pressure from its connection and temporarily 9. Return the system air pressure to the desired value. The Model install it in the 1/4 inch NPT Model gauge to its normal location. Re- AMD-1 Automatic Air Maintenance AMD-1 Gauge Test Port. install the 1/4 inch pipe plug in the Device then automatically maintains Model AMD-1 Gauge Test Port. the preset system pressure. The CAUTION Apply pipe-thread sealant sparingly Restrictor Check Valve prevents to the plug threads only. the Pressure Regulator from bleed- Before removing the plug, make ing down the system pressure. certain that the piping to which the Model AMD-1 Gauge Test Port is CAUTION In order to minimize the time for connected is at 0 psi. Failure to do Before removing the pressure system trip in the event of a sprin- so may result in personal injury or gauge,make certain that thei in kler operation,set the system pres- property damage. to which the Model AMD-1 Gauge sure at the minimum required value. 6. Open the Air Supply Control Valve in Test Port is connected is at 0 psi. the Model AMD-1 Device. Failure to do so may result in per- sonal injury or property damage. TFP1221 Page 3 of 4 Care and 4. Verify that the system pressure is The foregoing warranty is made in lieu essentially the same as the previ- of any and all other warranties,express Maintenance ously established requirement. If or implied, including warranties of mer- not, adjust the system pressure as chantability and fitness for a particular The TYCO Model AMD-1 Automatic follows: purpose. Air Maintenance Device must be main- a.Close the system's main con- This limited warranty sets forth the tained and serviced in accordance with trol valve and open the main exclusive remedy for claims based on the following instructions, in addition to drain valve. If the system is so failure of or defect in products, materi- any specific requirements of the NFPA. equipped, close the Accelerator als or components,whether the claim is Any impairment must be immediately Control Valve. made in contract, tort, strict liability or corrected. any other legal theory. b.Follow Steps 1 through 14 in the Setting Procedure section. This warranty will apply to the full NOTICE extent permitted by law. The invalidity, Before closing a fire protection system c.Slowly open the Accelerator Con- in whole or part, of any portion of this main control valve for maintenance trol Valve, as applicable. warranty will not affect the remainder. work on the fire protection system d.Slowly open the main control that it controls, obtain permission to valve. After water begins to flow, Ordering shut down the affected fire protec- slowly close the main drain valve, tion system from the proper authori- then completely open the main Procedure ties and notify all personnel who may control valve. The Model AMD-1 be affected by this action. Automatic Air Maintenance Contact your local distributor for avail- It is recommended that accumulated Device is now ready for service. ability. When placing an order, indi- moisture be removed from air supply cate the full product name, including moisture filtration equipment at least - description and Part Number(P/N). quarterly. More frequent inspections — Model AMD-1 Device may be necessary in particularly humid arranty Specify: Model AMD-1 Automatic Air environments. Products manufactured by Tyco Fire Maintenance Device, After placing a fire protection system Suppression & Building Products P/N 52-324-2-002. in service, notify the proper authorities (TFSBP) are warranted solely to the Replacement Parts and advise those responsible for mon- original Buyer for ten(10)years against itoring proprietary and/or central sta- defects in material and workmanship Specify: (description) for use with the tion alarms. when paid for and properly installed Model AMD-1 Automatic Air Mainte- and maintained under normal use and nance Device, P/N (from Figure 1). Responsibility lies with owners for the service. This warranty will expire ten inspection,testing,and maintenance of (10) protection system and devices years from date of by their fire Y TFSBP. No warranty is given for prod- in compliance with this document, as ucts or components manufactured by well as with the applicable standards of companies not affiliated by ownership the National Fire Protection Association with TFSBP or for products and corn- (for example, NFPA 25), in addition to ponents which have been subject to the standards of any other authorities misuse, improper installation, corro- having jurisdiction. Contact the install- sion, or which have not been installed, ing contractor or sprinkler manufac- maintained, modified or repaired in turer regarding any questions. accordance with applicable Standards sprinkler systems are rec- of the National Fire Protection Associa- Automaticr ommend to be inspected, tested, and tion,oahies the standards of any Mate- maintainedoeby a qualified Inspec- Authorities Having Jurisdiction.Servide in accordance with local rials found by TFSBP to be defective tionrequirements and/or national code. shall P'be either oreption. Fr BP neat at TFSBP's sole option. TFSBP neither The Model AMD-1 Device must be assumes, nor authorizes any person inspected quarterly in accordance with to assume for it, any other obligation the following instructions. in connection with the sale of prod- ucts or parts of products.TFSBP shall 1. Verify that the By-Pass Valve is not be responsible for sprinkler system closed. design errors or inaccurate or incom- 2. Close the Model AMD-1 Air Supply plete information supplied by Buyer or Control Valve and clean out the 1/4 Buyer's representatives. inch Strainer located at the inlet to In no event shall TFSBP be liable, in the Restrictor Check Valve. Be sure contract, tort, strict liability or under to reinstall the strainer screen and any other legal theory, for incidental, tighten the cap securely. indirect,special or consequential dam- 3. Open the Model AMD-1 Air Sup- ages, including but not limited to labor ply Valve and verify that the con- charges, regardless of whether TFSBP trol valve in the air supply trim to the was informed about the possibility of system to pressurize is open. such damages, and in no event shall TFSBP's liability exceed an amount equal to the sales price. TFP1221 Page 4 of 4 Copyright©2007-2010 Tyco Fire Suppression&Building Products.All rights reserved. s .� �' i MIIIIIIIIIR Mi. AMMIL 111181 daalift"m I......MOM allir IIIMIP....1111W.11111111111 MO! - --1111111111111mm --- NM Eli 4111111111111111111111111 111111. wrrrrp siimi a #SIIIIIIIIIMOr M OM Aini7 inn ' �now ice- PAS f......., AIR PRODUCTS 74- leace4f9, 4 act 4e/r 0,1 44 eg-00,4.004444 04 tie 9e .e Pukaectcag Titduoe OI! OILLESS TANK MOUNTED COMPRESSORS $erI for Dry Pipe Sprinkler Systems bn -A.S.M.E. Coded Tanks ` : = C UL US - 1/2" Outlet Connections r t 1 - Thermal Overload Protection 41" - Fully Automatic - Fills System to 40 PSI in 30 Minutes (NFPA 13) K (. - Direct Drive -Air Intake Filter(s) . , d x - Oil Less Piston Compressor e. a - UL Listed Pressure Switch - Bubble Tight Air Check Valve - Permanently Lubricated Bearings 60CycleUnits V Its - 50 Cycle Available, Consult Factory System Model Average Motor Min. Wire Dimensions Weight Tank Capacity Number CFM* H.P. Size ++ (lbs.) Capacity (gallons)** L W H (gallons) 1101 OL11016ACT 1.33 1/6 12 32 13.5 22.5 94 10 215t OL21533ACT 2.61 1/3 10 32 13.5 23 98 10 335 OL33550ACT 4.06 1/2 8 32 13.5 23 114 10 435 OL435V75ACT 5.27 3/4 8 32 14 24 120 10 610 OL610V100ACT 7.40 1 8 32 14 24 124 10 900 OL900V100ACT 10.91 1 6 35 17 32 165 20 1200$ OL1200V200ACT 14.55 2 10 35 17 32 165 20 *Average CFM is the average free air delivery from 0 to 40 PSIG. laillO ;',...;111' ++ Based on 100 foot run. ''' Consult Factory for longer or shorter runs. ' 'Fr ** Based on 70 degree F system temp. 0 For other conditions consult factory for pump up times. .�. L y, t- 115 volt only, $-230 volt only, all other units 115/230 volt. IV V 3 Phase Units available - Consult Factory. V 'VP f".,-1: Air Maintenance Device Part#AMD-1 Magnetic Line Starters - Thermal Overload Protection ,:i 71 The AMD 1 is used when Single Phase go compressed air is supplied through -. an existingfactoryair supply or when 115V 230V Size Model - Pp Y 1/3 HP 1 HP 00 MGOOA* using tank mounted units. Maximum 1 HP 2 HP 0 MGXOA* Call 1-800-345-8207 HP 2 HP 3 HP 1 MGO1A* Fax: 610-524-8965 3 HP 5 HP 1P MG15A* E-Mail: genairpro@generalairproducts.com When Ordering a Magnetic Line Starter you must specify Remerril ind this sheet and more at HP, Voltage and Phase that is supplied to the motor. www.GENERALAIRPRODUCTS.com TANK MOUNTED OIL-LESS COMPRESSORS ,..GENERAL ALL PIPING AND WIRING TO INSTALLATION INSTRUCTIONS ' BE IN ACCORDANCE WITH INSTALLATION a iri a:A".1.4's .r : APPLICABLE STATE, LOCAL AND NATIONAL CODES& SHOULD BE APPROVED BY AHJ MULTIPLE CHECK VALVES IN FEED LINES CAN RESULT--, IN LOWER SYSTEM PRESSURE CONNECT TO REQUIRED DUE TO PRESSURE DROPS. IF SYSTEM IS FEEDING FREEZER ,-- ROOM OR AREA EXPOSED TO SYSTEM TRIM -, TEMPERATURES BELOW FREEZING. ( PIR PAC INFORHIATIDHI AIR MAINTENANCE DEVICE_ PIN AMD-1 MO F MAX. LJ ACCELERATOR 4T ,f TANK MOUNTED UNITS ARE RECOMMENDED FOR USE 1/T MINIMUM ©PV I WITH ACCELERATORS LARGER IF REQUIRED BY COOS — WARNING! PRESSURE SWITCH IS FACTORY SET DO NOT INSTALL IN '::' 27X CUT IN 4( CUT OUT;HIGHER PRESSURE AREAS EXPOSED TQ SETTINGS MAY REQUIRE A LARGER TEMPERATURES MOTOR ON THE COMPRESSOR, CONSULT BELOW 40 OE(REES F FACTORY FOR DETAILS OR AREAS EXPOSED TO PRESSURE SWITCH MUST WEATHER.CONSULT INTAKES SHOULD NOT BE MOST MOTORS ARE MULTIPLE BE WIRED IN CIRCUIT TO FACTORY FOR CONTROL COMPRESSOR — CONNECTED TO FREEZER VOLTAGE.CHECK NAMEPIA ROOMS. WEATHERPROOF OPTIONS. CORRECT iNTE RNAL - (see ORY AIR PAC INFORMATION} CONNECTIONS FOR VOLTAGE BEING SUPPLED TO UNIT MAGNETIC STARTER I REQUIRED FOR ALL _FLEX HOSE , r3 `•• 1_R PHASE UNITS UNITS AND SINGLE P/N P1202MP1 HP AND ..--- --. LARGER.. General Alr Products MANUAL DRAIN a ' ' FS1IE:hA MANUAL DRAIN STANDARD RECOMMENDED AS--- ' AUTOMATIC DRAIN(P/N DVA-2T) MINIMUM �. ^__ �_. .. , RECOMMENDED FOR HUMID AREAS. ^ice JF7 �_ \iiiik=..---':._.. _—R AUTOMATIC DRAIN 1PRN FD-I l L. :.;,, - .-,i . ' // RECOMMENDED ON DRIP LEG ` VIBRATION ISOLATORS _ TO REMOVE EXCESS WATER P/N KVP4XA ACCUMULATION. PART NUMBERS LISTED ARE FOR ACCESSORY ITEMS RECOMMENDED FOR COMPLETE INSTALLATION-CONSULT YOUR LOCAL DISTRIBUTOR FOR AVAILABILITY 1 tL1II Worldwide www.tyco-fire.com Fire Protection Contacts Products Series TY-FRB, 5.6 K-factor Upright, Pendent, and Recessed Pendent Sprinklers Quick Response, Standard Coverage General NOTICE , The TYCO Series TY-FRB Sprinklers f Description described herein must be installed and _ 0,'"`° maintained in compliance with this doc- i% '" The TYCO Series TY-FRB,5.6 K-factor, ument, as well as with the applicablej .- Upright(TY313)and Pendent(TY323) standards of the National Fire Protec- �_ E P Sprinklers described in this data sheet tion Association, in addition to the stan are quick response,standard coverage, dards of any other authorities having decorative 3 mm glass bulb-type spray jurisdiction. Failure to do so may impair sprinklers designed for use in light or the performance of these devices. ` - -' ordinary hazard,commercial occupan- "'�"" ", cies such as banks, hotels, and shop- The owner is responsible for maintain rY ping malls. ing their fire protection system and devices in proper operating condition. The recessed version of the Series TY- The installing contractor or sprinkler FRB Pendent Sprinkler,where applica- manufacturer should be contacted with ble, is intended for use in areas with a any questions. , ., finished ceiling.This recessed pendent , 1 sprinkler uses one of the following: • A two-piece Style 15 Recessed Sprinkler Escutcheon with recessed adjust- Identifications " merit up to 5/8 inch (15,9 mm) from r,. yr the flush pendent position. Number (SIN) , • A two-piece Style 20 Recessed Escutcheon with recessed adjust- TY313 Upright 5.6K, 1/2"NPT ment up to 1/2 inch (12,7 mm) from TY323 Pendent 5.6K, 1/2"NPT * a,l '` ;� * the flush pendent position. The adjustment provided by the Technical Recessed Escutcheon reduces the Temperature Rating accuracy to which the fixed pipe drops Data 135°F(57°C) to the sprinklers must be cut. 155°F(68°C) Approvals 175°F(79°C) Intermediate level versions of Series200°F93°C TY-FRB Sprinklers are described in UL and C-UL Listed 286°F(141 °C) Technical Data Sheet TFP357. Sprin- FM, LPCB,and VdS Approved kler guards and shields are described CE Certified Finishes in Technical Data Sheet TFP780. Sprinklers with Polyester Finish are UL Sprinkler: Refer to Table A and C-UL Listed as Corrosion-Resis- Recessed Escutcheon:White Coated, tant Sprinklers. Chrome Plated, or Brass Plated Maximum Working Pressure Physical Characteristics 175 psi (12.1 bar) Frame Bronze 250 psi(17.2 bar)* Button Brass/Copper "The maximum working pressure of 250 psi Sealing Assembly Stainless IMPORTANT (17.2 bar)only applies to the listing by Un- Steel w/TEFLON Always refer to Technical Data derwriters Laboratories,Inc.(UL). Bulb Glass Sheet TFP700 for the "INSTALLER Discharge Coefficient Compression Screw Bronze WARNING"that provides cautions K=5.6 GPM/psis/2(80,6 LPM/bars/2) Deflector Bronze with respect to handling and instal- lationof 0 sprinkler systems and com- ponents. Improper handling and installation can permanently dam- age a sprinkler system or its compo- nents and cause the sprinkler to fail to operate in a fire situation or cause it to operate prematurely. Page 1 of 4 FEBRUARY 2014 TFP172 1 4 TFP172 Page 2 of 4 Components: *Temperature rating is ** Pipe thread connections per ISO 7-1 1 - Frame 4 - Bulb indicated on Deflector. can be provided on special request. 2 - Button 5 - Compression STYLE 15 or 20 3 - Sealing Screw ESCUTCHEON PLATE 1/2" 7/16"(11,1 mm) RECESSED Assembly 6 - Deflector* DEFLECTOR* SEATING SURFACE NPT** NOMINAL MAKE-IN ESCUTCHEON 6* I �r _ 7 Er T iN ' irrilf 71�\\ 5 n�c' \ 7/16" Y i �- (11,1 mm) 01-14NOMINAL 2" �) f I MAKE IN vir (50,8 mm) 2 R y 2" \�j [1/ 1-3/8" 3 D� W, p (50,8 mm) (34,91 mm) WRENCH IV / _ FLATS 1 1/2" NPT** DEFLECTOR* 2-7/8" (73,0 mm)DIA. CROSS SECTION UPRIGHT PENDENT RECESSED PENDENT FIGURE 1 SERIES TY-FRB UPRIGHT(TY313)AND PENDENT(TY323)SPRINKLERS 5.6 K-FACTOR, 1/2 INCH NPT, QUICK RESPONSE L- Operation Installation WRENCH RECESS The glass bulb contains a fluid which The TYCO Series TY-FRB,5.6 K-factor, expands when exposed to heat.When Upright(TY313)and Pendent(TY323) (USE ONLY the rated temperature is reached, the Sprinklers must be installed in accor- .. 7'. END"A") fluid expands sufficiently to shatter the dance with this section. �� glass bulb, allowing the sprinkler to General Instructions FIGURE 2 activate and water to flow. Do not install any bulb-type sprinkler if W-TYPE 6 the bulb is cracked or there is a loss SPRINKLER WRENCH Design of liquid from the bulb.With the sprin- kler held horizontally, a small air bub- Criteria ble should be present. The diameter WRENCH of the air bubble is approximately 1/16 RECESS The TYCO Series TY-FRB,5.6 K-factor, inch(1,6 mm)for the 135°F(57°C)and Upright(TY313) and Pendent(TY323) 3/32 inch(2,4 mm)for the 286°F(141°C) PT1 Sprinklers are intended for fire protec- temperature ratings. tion systems designed in accordance A leak tight 1/2 inch NPT sprinkler joint with the standard installation rules rec- ognized by the applicable Listing or imum to maximum torque of 7 to 14 Approval agency (such as, UL Listing ft.-lbs. (9,5 to 19,0 Nm). Higher levels f is based on the requirements of NFPAof torque can distort the sprinkler Inlet ,� 13, and FM Approval is based on the with consequent leakage or impairment PUSH WRENCH requirements of FM's Loss Prevention of the sprinkler. IN TO ENSURE Data Sheets).Only the Style 15 or Style ENGAGEMENT 20 Recessed Escutcheon is to be used Do not attempt to compensate for WITH SPRINKLER for recessed pendent installations. insufficient adjustment in the Escutch- WRENCHING AREA eon Plate by under-or over-tightening the sprinkler. Re-adjust the position of FIGURE 3 the sprinkler fitting to suit. W-TYPE 7 RECESSED SPRINKLER WRENCH Upright and Pendent Sprinklers The Series TY-FRB Upright and Pen- dent Sprinklers must be installed in accordance with the following instructions. Step 1.Install Pendent sprinklers in the pendent position. Install upright sprin- klers in the upright position. Step 2. With pipe-thread sealant applied to the pipe threads, hand- tighten the sprinkler into the sprinkler fitting. TFP172 Page 3 of 4 Step 3. Tighten the sprinkler into the 2-7/8" DIA. sprinkler fitting using only the W-Type (73,0 mm) 6 Sprinkler Wrench (Figure 2). With ref- erence to Figure 1,apply the W-Type 6 2-1/4" DIA. Sprinkler Wrench to the wrench flats. FACE OF (57,2 mm) Torque sprinklers 7 to 14 ft.-lbs. (9,5 to SPRINKLER 19,0 Nm). FITTING 5/8"(15,9 mm) Recessed Pendent Sprinklers l' \ '7 FLUSH The Series TY-FRB Recessed Pendent 3/8±5/16" ,� ___—_=-1 i Sprinklers must be installed in accor- (9,5±7,9 mm) ' i" / + Idance with the following instructions. } / , Step A.After installing the Style 15 or MOUNTING , � 1/8" Style 20 Mounting Plate over the sprin- SURFACE (3,2 mm) kler threads, and with pipe-thread ---_-- sealant applied to the pipe threads, CLOSURE SERIES MOUNTING 1-3/8" (34,9 mm) hand-tighten the sprinkler into the TY-FRB PLATE sprinkler fitting. 3/4"(19,1 mm) Step B.Tighten the sprinkler into the FIGURE 4 Step B. fittingghtusing onln the W-Type SERIES TY-FRB RECESSED PENDENT SPRINKLER ASSEMBLY(TY323) 7spriRecessed SprinkleruinWrench (Figure WITH TWO PIECE 5/8 INCH TOTAL ADJUSTMENT STYLE 15 3).With reference to Figure 1,apply the RECESSED ESCUTCHEON W-Type 7 Recessed Sprinkler Wrench to the sprinkler wrench flats. Torque _ 2-7/8" DIA. - sprinklers 7 to 14 ft.-lbs. (9,5 to 19,0 (73,0 mm) Nm). FACE OF Step C.After ceiling installation and fin- SPRINKLER 2-1/4" DIA. ishing,slide on the Style 15 or Style 20 FITTING (57,2 mm) Closure over the Series TY-FRB Sprin- 5/16±1/4" 1/2" 12,7 mm) kler and push the Closure over the (7,9±6,4 mm) ( Mounting Plate until its flange comes in FLUSH contact with the ceiling. + =1 �I 7 24_ Care and t / 111 1/8" i Maintenance SOURFACE (3,2 mm) The TYCO Series TY-FRB,5.6 K-factor, Upright (TY313) and Pendent(TY323) CLOSURE SERIES MOUNTING 1-3/8"(34,9 mm) Sprinklers must be maintained and ser- TY-FRB PLATE 7/8" (22,2 mm) viced in accordance with this section. FIGURE 5 Before closing a fire protection system SERIES TY-FRB RECESSED PENDENT SPRINKLER ASSEMBLY(TY323) main control valve for maintenance WITH TWO PIECE 1/2 INCH TOTAL ADJUSTMENT STYLE 20 work on the fire protection system RECESSED ESCUTCHEON that it controls, obtain permission to shut down the affected fire protection Modified sprinklers must be replaced. standards of any other authorities hav- systems from the proper authorities Sprinklers that have been exposed to ing jurisdiction. Contact the installing and notify all personnel who may be corrosive products of combustion, but contractor or sprinkler manufacturer affected by this action. have not operated, should be replaced regarding any questions. Absence of the outer piece of an if they cannot be completely cleaned Automatic sprinkler systems are rec- escutcheon, which is used to cover by wiping the sprinkler with a cloth or by brushing it with a soft bristle brush. ommended to be inspected, tested, intained by a qualified Inspec- operation in a fire situation. Care must be exercised to avoid dam- tion Service in accordance with local The owner must assure that the sprin- age to the sprinklers before,during,and requirements and/or national codes. klers are not used for hanging any after installation. Sprinklers damaged objects and that the sprinklers are only by dropping, striking, wrench twist/ cleaned by means of gently dusting slippage, or the like, must be replaced. with a feather duster; otherwise, non- Also, replace any sprinkler that has a operation in the event of a fire or inad- cracked bulb or that has lost liquid from vertent operation may result. its bulb. (Ref. Installation Section.) Sprinklers which are found to be leak- The owner is responsible for the ing or exhibiting visible signs of corro inspection,testing,and maintenance of sion must be replaced. their fire protection system and devices in compliance with this document, as Automatic sprinklers must never be well as with the applicable standards painted, plated, coated, or other- of the National Fire Protection Associa- wise altered after leaving the factory. tion (e.g., NFPA 25), in addition to the 4 TFP172 Page 4 of 4 P/N* 77 - XXX - X - XXX I � SPRINKLER TEMPERATURE FINISH RATINGS SIN 1 NATURAL BRASS 135 135°F(57°C) 370 5.6K UPRIGHT(1/2"NPT) TY313 3 PURE WHITE(RAL9010)" 155 155°F(68°C) POLYESTER 371 5.6K PENDENT(1/2""NPT) TY323 q SIGNAL WHITE(RAL9003) 175 175°F(79°C) POLYESTER Use suffix"I"for ISO 7-1 connection; 9 CHROME PLATED 200 200°F(93°C) for example,77-370-4-175-I ""Eastern Hemisphere sales only 286 286°F(141°C) TABLE A SERIES TY-FRB UPRIGHT AND PENDENT SPRINKLERS PART NUMBER SELECTION Limited Ordering Warranty Procedure For warranty terms and conditions,visit Contact your local distributor for avail- www.tyco-fire.com. ability.When placing an order, indicate the full product name and Part Num- ber(P/N). Sprinkler Assemblies with NPT Thread Connections Specify:Series TY-FRB Upright or Pen- dent(specify)Sprinkler, SIN (specify), K=5.6, Quick Response, (specify)tem- perature rating, (specify) finish, P/N (specify, refer to Table A). Recessed Escutcheon Specify:Style 15 Recessed Escutcheon with(specify*)finish, P/N (specify*) Specify: Style 20 Recessed Escutch- eon with(specify*)finish, P/N (specify*) *Refer to Technical Data Sheet TFP770 Sprinkler Wrench Specify: W-Type 6 Sprinkler Wrench, P/N 56-000-6-387 Specify: W-Type 7 Sprinkler Wrench, P/N 56-850-4-001 GLOBAL HEADQUARTERS 1 1400 Pennbrook Parkway,Lansdale,PA 19446 I Telephone+1-215-362-0700 Copyright©2014 Tyco Fire Products,LP. All rights reserved. -NCO TEFLON is trademark of The DuPont Corporation. Fire Protection Products t1Itt1 Worldwide Fire Protection Contacts www.tyco-fire.com Products Series TY-FRB — 5.6 K-factor Horizontal and Vertical Sidewall Sprinklers Quick Response, Standard Coverage General tained when exposed to corrosive at- mospheres. Although corrosion resis- Descri tion tant coated sprinklers have passed the p standard corrosion tests of the appli- The Series TY-FRB, 5.6 K-factor, Hor- cable approval agencies,the testing is izontal and Vertical Sidewall Sprin- not representative of all possible cor- klers described in this data sheet rosive atmospheres. Consequently, it ..,,t are quick response -standard cover- is recommended that the end user be irr , ik age, decorative 3 mm glass bulb type consulted with respect to the suitabil- i spray sprinklers designed for use in ity of these coatings for any given cor- , light and ordinary hazard, commer- rosive environment.The effects of am- ' cial occupancies such as banks, ho- bient temperature, concentration off tels, shopping malls, etc.They are de- chemicals, and gas/chemical velocity, 4 ., signed for installation along a wall or should be considered, as a minimum, the side of a beam and just beneath a along with the corrosive nature of the smooth ceiling. Sidewall sprinklers are chemical to which the sprinklers will commonly used instead of pendent or be exposed. upright sprinklers due to aesthetics or building construction considerations, NOTICE where piping across the ceiling is not The Series TY-FRB Sprinklers de- desirable. scribed herein must be installed and . ," The recessed version of the Series maintained in compliance with this it TY-FRB Horizontal Sidewall Sprin- document, as well as with the appli- I; kler is intended for use in areas with cable standards of the National Fire a finished wall. It uses a two-piece Protection Association, in addition to Style 10 Recessed Escutcheon with the standards of any other authorities ,z 1/2 inch (12,7 mm)of recessed adjust- having jurisdiction. Failure to do so ment or up to 3/4 inch(19,1 mm)of to- may impair the performance of these + ; tal adjustment from the flush sidewall devices. position, or a two-piece Style 20 Re- The owner is responsible for main- cessed Escutcheon with 1/4 inch (6,4 taining their fire protection system < mm) of recessed adjustment or up to and devices in proper operating con- 1/2 inch (12,7 mm) of total adjustment dition. Contact the installing contrac- from the flush sidewall position. The tor or sprinkler manufacturer with any adjustment provided by the Recessed questions. Technical Escutcheon reduces the accuracy to which the fixed pipe nipples to the Sprinkler Data sprinklers must be cut. Corrosion resistant coatings, where Identification Approvals applicable, are utilized to extend the UL and C-UL Listed. life of copper alloy sprinklers beyond Numbers FM, LPCB, and NYC Approved. that which would otherwise be ob- (Refer to Table A for complete approv- TY3331 Horizontal al information including corrosion re- TY3431 Vertical sistant status.) IMPORTANT Always refer to Technical Data Maximum Working Pressure Sheet TFP700 for the "INSTALLER Refer to Table B. WARNING" that provides cau- Discharge Coefficient tions with respect to handling K=5.6 GPM/psi1�2(80,6 LPM/bariiz) and installation of sprinkler sys tems and components. lmprop- Temperature Ratings er handling and installation can Refer to Table A. permanently damage a sprin- Finishes kler system or its components Sprinkler: Refer to Table C. and cause the sprinkler to fail Recessed Escutcheon: Signal or Pure to operate in a fire situation or cause White, Jet Black, Chrome Plated, or it to operate prematurely. Brass Plated. Page 1 of 6 FEBRUARY 2014 TFP176 4 TFP176 Page 2 of 6 1 Frame DEFLECTOR Installation 2 - Button HAT �` 5 t�'�'�A.t�' The Series TY-FRB,5.6 K-factor, Hori- 3 Sealing R. zontal and Vertical Sidewall Sprinklers Assembly r must be installed in accordance with 4 - Bulb Pc war* section. 5 - Compression Screw General Instructions idd 6 - Deflector* 6*/ 4 2 3 1 Do not install any bulb type sprin- kler if the bulb is cracked or there is a loss of liquid from the bulb. With the 9/16" WRENCH 1/2"** sprinkler held horizontally, a small air (14,3 mm) FLATS NPT bubble should be present. The diam- eter of the air bubble is approximately 1111111 , �� 1/16 inch(1,6 mm)for the 135°F(57°C) / F " 11\1 1 to 3/32 inch (2,4 mm) for the 286°F _ - I■�.,I (141°C)temperature ratings. N'� A leak tight 1/2 inch NPT sprinkler joint • should be obtained with a torque of 7 1-13/16" 7/16° to 14 ft.-lbs. (9,5 to 19,0 Nm). Higher (46,0 mm) (11 1 mm) levels of torque may distort the sprin NOMINAL - kler and cause leakage or impairment CENTERLINE of the sprinkler. OF SPRINKLER MAKE-IN WATERWAY Do not attempt to make-up for insuf- 1-1/2' ficient adjustment in the escutcheon x(38,1 mm) plate by under-or over-tightening the *Temperature rating sprinkler. Readjust the position of the is indicated on 2-3/16" sprinkler fitting to suit. Deflector. (55,6 mm) ESCUTCHEON Series TY-FRB Horizontal and STYLE Vertical Sidewall Sprinkler ** Pipe thread 10 or 20 — PLATE SEATING p connections per RECESSED I SURFACE Installation ISO 7-1 can be ESCUTCHEON The Series TY-FRB Horizontal and provided on ' r�UI Vertical Sidewall Sprinklers must be special request. installed in accordance with the fol- lowing instructions. 2-7/8" Irlifda,IIIIII�IIIIII Step 1. Horizontal sidewall sprinklers (73,0are to be installed in the horizontal po- sition with their centerline of waterway perpendicular to the back wall and parallel to the ceiling.The word "TOP" on the Deflector is to face towards the ceiling. Vertical sidewall sprinklers are to be FIGURE 1 installed in the pendent or upright po- 5.6 K-FACTOR QUICK RESPONSE sition with the arrow on the Deflector SERIES TY-FRB HORIZONTAL SIDEWALL(TY3331)SPRINKLERS pointing away from the wall. ysical Characteristics Step 2. With pipe thread sealant ap- Physical Bronze Design plied to the pipe threads, hand tighten Frathe sprinkler into the sprinkler fitting. Button Brass/Copper Sealing Assembly Beryllium Nickel w/ Criteria Step 3. Tighten the sprinkler into the TEFLON sprinkler fitting using only the W-Type Bulb Glass The Series TY FRB, 5.6 K-factor, Hori- Bulb Sprinkler Wrench (Ref. Figure 5), Compression Screw Bronze zontal and Vertical Sidewall Sprinklers With reference to Figure 1 or 2,the W- HSW Deflector Bronze are intended for fire protection sys- Type 6 Sprinkler Wrench is to be ap- VSW Deflector Copper tems designed in accordance with the plied to the wrench flats. standard installation rules recognized Operation by the applicable Listing or Approval agency (e.g., UL Listing is based on The glass bulb contains a fluid which the requirements of NFPA 13, and FM expands when exposed to heat.When Approval is based on the requirements the rated temperature is reached, the of FM's Loss Prevention Data Sheets). fluid expands sufficiently to shatter Only the Style 10 or 20 Recessed Es- the glass bulb, allowing the sprinkler cutcheon, as applicable, is to be used to activate and water to flow. for recessed horizontal installations. TFP176 Page 3 of 6 Series TY-FRB Recessed *Temperature ** Pipe thread 1 - Frame 4 - Bulb 7 - Ejection Horizontal Sidewall Sprinkler rating is connections 2 - Button 5 - Compression Spring Installation indicated on per ISO 7-1 can 3 - Sealing Screw The Series TY-FRB Recessed Hori- Deflector. be provided on Assembly 6 - Deflector* zontal Sidewall Sprinklers must be special request. installed in accordance with this A section. ARROW MUST Step A. Recessed horizontal sidewall POINT AWAY ,--<7/16" FROM AND BE sprinklers are to be installed in the ESCUTCHEON (11,1 mm) PERPENDICULAR P O horizontal position with their center- PLATE SEATING NOMINAL TO THE BACK ' line of waterway perpendicular to the SURFACE NPT** MAKE-IN WALL SURFACE , back wall and parallel to the ceiling. The word "TOP" on the Deflector is to 6* face towards the ceiling. I s��i�z �iIP Step B. After installing the Style 10 or ��l FLAW 1�— �y 5 20 Mounting Plate over the sprinkler ,m� } w threads, hand tighten the sprinkler into 2-3/16" as 1� 2-3/16" I 4 the sprinkler fitting. (55,6 mm) i 1 7 - (55,6 mm) R Step C. Tighten the sprinkler into the 1-1/2" \ $: 2 sprinkler fitting using only the W-Type (38,1 mm) l WRENCH/" 7 Recessed Sprinkler Wrench (Ref. FLATS 7 O 3 Figure 6). With reference to Figure A R4 fa 1, the W-Type 7 Recessed Sprinkler �� V 1 Wrench is to be applied to the sprin SHOWN SHOWN CROSS kler wrench flats. PENDENT UPRIGHT SECTION Step D. After the ceiling has been in- FIGURE 2 stalled or the finish coat has been ap 5.6 K-FACTOR QUICK RESPONSE plied, slide on the Style 10 or 20 Clo SERIES TY-FRB VERTICAL SIDEWALL (TY3431)SPRINKLERS sure over the Series TY-FRB Sprinkler and push the Closure over the Mount- ing Plate until its flange comes in con- if they cannot be completely cleaned The owner is responsible for the in- tact with the ceiling. by wiping the sprinkler with a cloth or spection, testing, and maintenance by brushing it with a soft bristle brush. of their fire protection system and de- Care and Care must be exercised to avoid dam- vices in compliance with this docu- age to the sprinklers before, during, ment, as well as with the applicable Maintenance and after installation. Sprinklers dam- standards of the National Fire Pro- aged by dropping, striking, wrench tection Association (e.g., NFPA 25), in The Series TY-FRB, 5.6 K-factor, Hori- twist/slippage, or the like, must be addition to the standards of any oth- zontal and Vertical Sidewall Sprinklers replaced. Also, replace any sprinkler er authorities having jurisdiction. The must be maintained and serviced in that has a cracked bulb or that has installing contractor or sprinkler man- accordance with this section. lost liquid from its bulb. (Ref. Installa- ufacturer should be contacted relative to any questions. Before closing a fire protection sys- tion Section). tem main control valve for mainte- The owner must assure that the sprin- It is recommended that automatic nance work on the fire protection sys- klers are not used for hanging any ob- sprinkler systems be inspected, test- tern that it controls,permission to shut jects and that the sprinklers are only ed, and maintained by a qualified In- down tem muhe affected fire st be obtained from then s- with aed means st of gently dusting, no - localtion requirem requirements and/orrvice in ance with national prop- with feather duster; otherwise, non- codes. er authorities and all personnel who operation in the event of a fire or inad may be affected by this action must vertent operation may result. be notified. Frequent visual inspections are rec- Absence of an escutcheon, which is ommended to be initially performed • used to cover a clearance hole, may for corrosion resistant coated sprin- delay the time to sprinkler operation in klers, after the installation has been a fire situation. completed,to verify the integrity of the Sprinklers that are found to be leaking corrosion resistant coating. Thereat- or exhibiting visible signs of corrosion ter, annual inspections per NFPA 25 must be replaced. should suffice; however, instead of in- specting from the floor level,a random Automatic sprinklers must never be sampling of close-up visual inspec- painted, plated, coated or other- tions should be made, so as to better wise altered after leaving the factory. determine the exact sprinkler condi- Modified sprinklers must be replaced. tion and the long term integrity of the Sprinklers that have been exposed to corrosion resistant coating, as it may corrosive products of combustion, but be affected by the corrosive condi- have not operated,should be replaced tions present. r TFP176 Page 4 of 6 y 5/8±1/4" `l (15,9±6,4 mm) MOUNTING FACE OF WRENCH RECESS SURFACE SPRINKLER (END"A" USED FOR FITTING 1/2" NPT MODELS) n .� FIGURE 5 CLOSURE / - W- SPRINKLER WRENCH //_ 2-7/8" DIA. SERIES V` (73,0 mm) TY FRB lin. �III 2-1/4" DIA. (57,2mm) WRENCH �` 1RECESS MOUNTING • 1 40 PLATE Ir I�0 .,E• 1/8" (3,2 mm) 1-1/4" (31,8 mm) 3/4"(19,1 mm) PUSH WRENCH 3/4"(19,1 mm) 1/4"(6,4 mm) IN GE ENGAGEMENT FIGURE 3 WITH SPRINKLER SERIES TY-FRB RECESSED HORIZONTAL SIDEWALL SPRINKLER WRENCHING AREA WITH TWO-PIECE 3/4 INCH TOTAL ADJUSTMENT FIGURE 6 STYLE 10 RECESSED ESCUTCHEON W-TYPE 7 RECESSED SPRINKLER WRENCH 1/2±1/8" y (12,7±3,2 mm) MOUNTING FACE OF SURFACE --- SPRINKLER FITTING / CLOSURE A �= 2-7/8" DIA. SERIES ISI (73,0 mm) TY FRB ■��9nlll 2-1/4" DIA. (57,2 mm) `I MOUNTING I� PLATE /1 __� 1/8" rr (3,2 mm) 1-1/4" (31,8 mm) 1/2" (12,7 mm) 1"(25,4 mm) 1/4"(6,4 mm) FIGURE 4 SERIES TY-FRB RECESSED HORIZONTAL SIDEWALL SPRINKLER WITH TWO-PIECE 1/2 INCH TOTAL ADJUSTMENT STYLE 20 RECESSED ESCUTCHEON TFP176 Page 5 of 6 SPRINKLER FINISH(See Note 11) K TYPE TEMP. BULB NATURAL CHROME LIQUID BRASS PLATED POLYESTER*** LEAD COATED 135°F(57°C) Orange HORIZ. 155°F(68°C) Red SIDEWALL 175°F(79°C) Yellow 1,2,3,4,9, 10 1,2,3,9 1,2,3,9 (TY3331) 200°F(93°C) Green 286°F(141°C) Blue 5.6 RECESSED 135°F(57°C) Orange 1/2" HORIZ. 155°F(68°C) Red NPT SIDEWALL 1,2,4,9, 10 1,2,9 N/A (TY3331)* 175°F(79°C) Yellow Figure 3 200°F(93°C) Green RECESSED 135°F(57°C) Orange HORIZ. 155°F(68°C) Red SIDEWALL 1,2,3,4,9 N/A (TY3331)** 175°F(79°C) Yellow Figure 4 200°F(93°C) Green VERTICAL 135°F(57°C) Orange SIDEWALL 155°F(68°C) Red 5.6 (TY3431) 1/2" Installed 175°F(79°C) Yellow 5,6,7,8,9 5,6,7,9 NPT Pendent or 200°F(93°C) Green Upright 286°F(141°C) Blue NOTES: 1. Listed by Underwriters Laboratories,Inc.(UL)as Quick Response Sprinklers for use in Light and Ordinary Hazard Occupancies at a 4 to 12 inch(100 to 300 mm)top of deflector to ceiling distance. 2. Listed by Underwriters Laboratories Inc.for use in Canada(C-UL)as Quick Response Sprinklers for use in Light and Ordinary Hazard Occupancies at a 4 to 12 inch(100 to 300 mm)top of deflector to ceiling distance. 3. Approved by Factory Mutual Research Corporation(FM)as Quick Response Sprinklers for use in Light Hazard Occupancies at a 4 to 12 inch(100 to 300 mm)top of deflector to ceiling distance. 4. Approved by the Loss Prevention Certification Board(LPCB Ref.No.007a/04)at a 4 to 6 inch(100 to 150 mm)top of deflector to ceiling distance.The LPC does not rate the thermal sensitivity of horizontal sidewall sprinklers. 5. Listed by Underwriters Laboratories,Inc.as Quick Response Sprinklers for use in Light and Ordinary Hazard Occupancies. 6. Listed by Underwriters Laboratories for use in Canada(C-UL)as Quick Response Sprinklers for use in Light and Ordinary Hazard Occupancies. 7. Approved by Factory Mutual Research Corporation(FM)as Quick Response Sprinklers for use in Light Hazard Occupancies. 8. Approved by the Loss Prevention Certification Board(LPCB Ref.No.094a/06&007a/04)as Quick Response Sprinklers. 9. Approved by the City of New York under MEA 354-01-E. 10. Approved by the Loss Prevention Certification Board(LPCB Ref.No.094a/06)at a 4 to 6 inch(100 to 150 mm)top of deflector to ceiling distance.The LPC does not rate the thermal sensitivity of horizontal sidewall sprinklers. 11. Where Polyester Coated and Lead Coated Sprinklers are noted to be UL and C-UL Listed,the sprinklers are UL and C-UL Listed as Corrosion Resis- tant Sprinklers.Where 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)3/4"Total Adjustment Recessed Escutcheon. *"Installed with Style 20(1/2"NPT)1/2"Total Adjustment Recessed Escutcheon. ""*Frame and deflector only. TABLE A LABORATORY LISTINGS AND APPROVALS TFP176 Page 6 of 6 SPRINKLER FINISH K TYPE NATURAL BRASS CHROME PLATED POLYESTER LEAD COATED HORIZONTAL SIDEWALL 250 PSI(17,2 BAR) (TY3331) or 175PSI(12,1 BAR) 1/2" RECESSED HORIZ. (SEE NOTE 1) NPT SIDEWALL(TY3331) VERTICAL SIDEWALL (TY3431) 175 PSI(12,1 BAR) NOTES: 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 P/N 57 - XXX - X - XXX I I SIN SPRINKLER TEMPERATURE FINISH RATINGS 378 HORIZONTAL SIDEWALL TY3331 1 NATURAL BRASS 135 135°F(57°C) 375 VERTICAL SIDEWALL TY3431 3 PURE WHITE(RAL9010)° 155 155°F(68°C) POLYESTER 4 SIGNAL WHITE(RAL9003) 175 175°F(79°C) POLYESTER 5 JET BLACK(RAL9005)" 200 200°F(93°C) POLYESTER 7 LEAD COATED 286 286°F(141°C) 9 CHROME PLATED Eastern Hemisphere sales only. **Available in 155°F(68°C)or 200°F (93°C)temperature rating only. TABLE C PART NUMBER SELECTION SERIES TY-FRB HORIZONTAL AND VERTICAL SIDEWALL SPRINKLERS OrderingSprinkler Assemblies with NPT Recessed Escutcheon Thread Connections: Specify:Style(10 or 20)Recessed Es- Procedure Specify: Series TY-FRB (specify SIN), cutcheon with (specify*) finish, P/N (specify K-factor), (specify) Horizontal (specify*). Contact your local distributor for avail- Sidewall or Vertical Sidewall Sprinkler, Refer to Technical Data Sheet TFP770 ability. When placing an order, indi- Standard Response, Standard Cov- cate the full product name and Part erage, (specify) temperature rating, Sprinkler Wrench Number(P/N). (specify) finish or coating, P/N (spec- Specify: W-Type 6 Sprinkler Wrench, ify from Table C) P/N 56-000-6-387 Specify: W-Type 7 Sprinkler Wrench, P/N 56-850-4-001 GLOBAL HEADQUARTERS 11400 Pennbrook Parkway,Lansdale,PA 194461 Telephone+1-215-362-0700 Copyright©2013 Tyco Fire Products,LP. All rights reserved. */7 Cp TEFLON is trademark of The DuPont Corporation. ' Fire Protection Products , . CICO Worldwide www.tyco-fire.com Fire Protection Contacts Products Model CC2 — 4.2 and 5.6 K-factor Combustible Concealed Space Sprinklers Specific Application, Upright General to achieve effective coverage within a shallow space. The Model CC2 Com- - , , Descri t►On bustible Concealed Space Sprinklers " . p have addressed the difficult "above The Model CC2 Combustible Con- ceiling"fire challenge for both wet pipe ,> cealed Sprinklers are fast response, and dry pipe sprinkler systems. upright, specific application sprinklers designed to provide protection of spe- NOTICE , x ,' cific light hazard combustible, as well The Model CC2 Combustible Con- f .` as non-combustible,concealed spaces cealed Sprinklers described herein requiring sprinkler protection.The CC2 must be installed and maintained in Sprinklers comply with the criterion for compliance with this document,as well the protection of combustible con- as with the applicable standards of the "'" cealed spaces as described in NFPA National Fire Protection Association, in 13. addition to the standards of any other The Model CC2 Sprinklers are authorities having jurisdiction. Failure Physical Characteristics p to do so mayimpair the Frame Brass designed for installation on BlazeMas- P performance Button Bronze ter CPVC wet pipe systems and steel of these devices. Sealing Assembly...Stainless Steel w/TEFLON wet pipe or dry pipe sprinkler systems The owner is responsible for maintain- CGlass(3 mm) (refer to the respective Design Criteria Compression Screw Brass p g ing their fire protection system and Deflector Bronze sections). They provide the following devices in proper operating condition. features as compared to the 2.8K-fac- Contact the installing contractor or Operation tor Model CC1 Sprinklers described on manufacturer with any questions. Technical Data Sheet TFP630: The glass bulb contains a fluid that • Can be used on steel dry pipe sprin- Sprinkler expthe acted nds temperaturerhen xostls reached,heat.When ten kler systems Identification fluid expands sufficiently to shatter the • Increased spacing from 10 ft.(3,1 m) glass bulb allowing the sprinkler to acti- to 12 ft. (3,7 m) Number vate and flow water. • Increased coverage area from 100 ft2 (9,3 m2)to 144 ft2(13,4 m2) TY2189-Upright,4.2K Design The effectiveness of the Model CC2 TY3189-Upright, 5.6K Criteria Sprinklers in combustible concealed spaces was clearly evident during the Technical Design criteria is provided as follows: full scale fire testing for this product. Concealed spaces between floors, as Data • 175°F(79°C),Model CC2 Combusti- ble Concealed Sprinklers with CPVC well as low pitch attics (slope of 2:12 Approvals Pipe and horizontal slope above or less) are inherently shallow. Stan- UL Listed sprinklers not exceeding 2:12 (Refer dard spray sprinklers, by design, have an like spray pattern that (Listings and approvals only apply to the to Page 2). a umbrella uit eh spray a when trying service conditions indicated in the Design • 175° F(79°C), Model CC2 Combus- posesg Y g Criteria sections.) tible Concealed Sprinklers with Steel Maximum Working Pressure Pipe and horizontal slope above IMPORTANT 175 psi(12,1 bar) sprinklers not exceeding 2:12 (Refer Always refer to Technical Data Pipe Thread Connection to Page 4). Sheet TFP700 for the "INSTALLER 1/2 inch NPT WARNING" that provides cautions Discharge Coefficient with respect to handling and instal- K=4.2 gpm/psi'%(60,5 Ipm/bar ) lation of sprinkler systems and com- K=5.6 gpm/psi%(80,6 Ipm/bar'%) ponents. Improper handling and installation can permanently damage Temperature Rating a sprinkler system or its compo- 175°F(79°C) nents and cause the sprinkler to fail Finish to operate in a fire situation or cause Natural Brass it to operate prematurely. Page 1 of 8 AUGUST 2016 TFP632 TFP632 Page 2 of 8 1-11/16" (42,9 mm) 6 Components: �,1 �" "–�—�-1111-1 1 - Frame 5 i SPRINKLER 2 - Sealing ARMS c Assembly 4 3 - Button / 2-1/4" 4 Bulb f/ 7 (57,2 mm) 5 - Compression 3 Screw •/ WRENCH �� 6 - Deflector 7 - Ejection 2 FLATS ------• Spring i 1 1/2" NPT 7/16"(11,1 mm) J NOMINAL MAKE-IN FIGURE 1 MODEL CC2 SPRINKLER Design Criteria, System Type(CPVC Pipe) area of 144 ft2, the 4.2K may provide Light hazard,wet pipe system a hydraulic advantage. The use of the CPVC Pipe CCI sprinkler having a K-factor of 2.8, Minimum Distance Between Model minimum operating pressure of 10 psi, CC2 Temperature Rating CC2 Sprinklers(CPVC Pipe) and resulting minimum flow of 9.5 gpm (CPVC Pipe) The minimum distance between sprin- may provide a further hydraulic advan- 175° F(79°C) klers is 7 Ft.(2,1 m). tage for yet smaller coverage areas. Area of Use(CPVC Pipe) NOTE: Minimum spacing does not The CC1 is described in Technical Data Horizontal (slope not exceeding 2:12) apply to any additional sprinklers Sheet TFP630. combustible concealed spaces of: required for protection of BlazeMaster Obstructions(CPVC Pipe) • Unobstructed wood truss construc- CPVC that is offset over an obstruction. See Figure 8 in this data sheet for tion or unobstructed bar joist con- Maximum Distance Between Model obstructions rules. struction(Ref. Figure 2). CC2 Sprinklers(CPVC Pipe) Use of UL Listed BlazeMaster • Non-combustible, insulation-filled 12 feet(3,7 m) CPVC Piping with Model CC2 solid wood or composite wood joist Maximum Coverage Area(CPVC Sprinklers construction (Ref. Figure 3). Pipe) Only BlazeMaster CPVC product may NOTE: In order to be considered 144 ft2(13,4 m2) be used in concealed spaces requir- "non-combustible insulation-filled Deflector Position(CPVC Pipe) ing automatic sprinklers,when used in solid wood or composite wood joist • 1-1/2 to 4 inches (40 to 100 mm) conjunction with Model CC2 Sprinklers. construction," the insulation (includ- below upper deck for wood truss In order to use the BlazeMaster CPVCproduct for truss or joist ing insulation provided with a combus- construction or bar joist construc- construction,roduct for the woodrusshorizontal run bar tible vapor barrier),must completely fill tion (Ref. Figure 2) must be a maximum of 6 Inches rof pipepe the bottom pocketsfbetween thedjoists l the • 1-1/2 to 4 inches (40 to 100 mm) mm) above the ceiling or noncombus- of the joists, and the insulation below solid wood or composite wood tible ceiling insulation,or 1/3 the depth must be secured in place with metal wire netting. The metal wire netting is joists(Ref. Figure 3) of concealed space (as measured intended to hold the insulation in place Minimum Distance Away From from the top surface of the ceiling to should the insulation become wetted Trusses(CPVC Pipe) the bottom of the deck above), which- by the operation of the CC2 Sprinklers 4-1/2 inches(114 mm) ever is smaller(Ref. Figure 2). For insu- in the event of a fire. lation filled solid wood or composite Remote Area(CPVC Pipe) wood joist construction, the horizon- Concealed Space Area(CPVC Pipe) The remote area is 1000 ft2(93 m2) tal run of pipe must be a maximum The area of the concealed space is not of 6 Inches (150 mm) above ceiling or limited; however,for both Figure 2 and NOTE: The remote area does not non-combustible ceiling insulation, or Figure 3,where CPVC pipe is being util- include any additional sprinklers 1/3 the depth of concealed space (as ized, draft-curtains or full height walls required for protection of BlazeMaster measured from the top surface of the must be provided at 1000 ft2 (93 m2) CPVC that is offset over an obstruction. ceiling to the bottom surface of the joist areas. This draft curtain shall be at Required Density(CPVC Pipe) insulation above), whichever is smaller least 1/3 the depth of the concealed 0.10 gpm/ft2(4,1 mm/min) (Ref. Figure 3). The CPVC piping can space or 8 inches (200 mm), which- then be used to supply the Model ever is greater, and be constructed Minimum Operating Pressure CC2 Sprinklers, as well as the sprin- using a material that will not allow heat (CPVC Pipe) klers below the ceiling. Unless modi- to escape through or above the draft 7 psi(0,48 bar) fied by this Technical Data Sheet, all curtain. NOTE:The minimum resulting flow for other guidelines of the "BlazeMaster Concealed Space Size(CPVC Pipe) the 4.2K is 11.1 gpm,and the minimum — Installation Instructions & Techni- The depth of the concealed space is 36 resulting flow for the 5.6K is 14.8 gpm. cal Manual" must be met. When using inches(915 mm)maximum to 12 inches Therefore, for coverage areas less 1 inch (DN25) or larger pipe, a hanger (305 mm)minimum. than the maximum permitted coverage must be located at the truss nearest a v b TFP632 Page 3 of 8 MODEL CC2 4-1/2"(114 mm)MINIMUM UPPER DECK SPRINKLER FROM FACE OF WOOD TRUSS OR TOP CHORD OF BAR JOIST 6"(152 mm) TOP CHORD MAXIMUM FOR _ 4"(102 mm) —Ci CPVC PIPE 1.1 OR LESS a1 r FRAME ARMS OF -. 4" (10x2 mm) 1 I SPRINKLER MUST MAXIMUM BE INSTALLED IN-LINE WITH 1-1/2"(40 mm) MINIMUM PIPE RUN J 36"(915 mm) OBSTRUCTION MAXIMUM TOP OF CHORD a 12"(305 mm) ��V n . \ MINIMUM CEILING lit Y 6"(152 mm)MAXIMUM ABOVE WHEN OFFSETTING CPVC PIPE OVER AN CEILING TO BOTTOM OF PIPE OR OBSTRUCTION,A MODEL CC2 SPRINKLER NON-COMBUSTIBLE CEILING INSULATION, MUST BE INSTALLED DIRECTLY ON THE OR 1/3 THE DEPTH OF CONCEALED SPACE CPVC PIPE OVER THE OBSTRUCTION (AS MEASURED FROM TOP SURFACE OF CEILING TO BOTTOM OF DECK ABOVE), WHICHEVER IS SMALLER FIGURE 2 UNOBSTRUCTED WOOD TRUSS CONSTRUCTION OR UNOBSTRUCTED BAR JOIST CONSTRUCTION CROSS SECTION ELEVATION VIEW CPVC PIPE UPPER COMPOSITE SOLID WOOD NON-COMBUSTIBLE DECK WOOD JOISTS JOISTS INSULATION 4"(102 mm) MAXIMUM T►/T♦T►1T NOTT1, T \ 110TT T 1M NI40 mm)M 6" ,��„ IK MAXIMUM FOR CPVC PIPE MODEL CC2 6—SPRINKLER------6,,.. I Tr FRAME ARMS OF -II I SPRINKLER MUST 36"(915 mm) BE INSTALLED MAXIMUM IN-LINE WITH TOP OF 12"(305 mm) PIPE RUN CHORD MINIMUM OBSTRUCTION I- P C CEILING )( X \ >,,,5, ,,,,,,, ,,,,, ,,,,,, , , 6"(152 mm)MAXIMUM ABOVE WHEN OFFSETTING CPVC PIPE OVER AN CEILING TO BOTTOM OF PIPE OR OBSTRUCTION,A MODEL CC2 SPRINKLER NON-COMBUSTIBLE CEILING INSULATION, BOTTOM MUST BE INSTALLED DIRECTLY ON THE OR 1/3 THE DEPTH OF CONCEALED SPACE OF PIPE CPVC PIPE OVER THE OBSTRUCTION (AS MEASURED FROM TOP SURFACE OF CEILING TO BOTTOM SURFACE OF JOIST INSULATION ABOVE), WHICHEVER IS SMALLER FIGURE 3 NON-COMBUSTIBLE INSULATION-FILLED UPPER DECK SOLID WOOD OR COMPOSITE WOOD JOIST CONSTRUCTION CROSS SECTION ELEVATION VIEW CPVC PIPE ,, TFP632 Page 4 of 8 sprig for purposes of restraint. If using least 1/3 the depth of the concealed Maximum Distance Between Model 3/4 inch (DN19) piping, all sprigs over space or 8 inches (200 mm), which- CC2 Sprinklers(Steel Pipe) 12 inches (305 mm) must be laterally ever is greater, and be constructed 12 feet(3,7 m) braced using methods described in the using a material that will not allow Maximum Coverage Area(Steel NFPA standards. heat to escape through or above the Pipe) Where the CPVC must be offset up draft curtain. 144 ft2(13,4 m2) and over an obstruction and the pipe • for solid wood joist construction(Ref. exceeds the allowed horizontal posi- Figure 5)and obstructed wood truss Deflector Position(Steel Pipe) tioning requirements specified above construction(Ref. Figure 7), blocking 1-1/2 to 4 inches(40 to 100 mm)below as well as shown in Figures 2 and 3, must be provided in each upper deck upper deck for wood truss construction additional Model CC2 Sprinklers are to and ceiling joist channel at a maxi- or concealed spaces of non-combusti- be installed as shown in Figure 2 and mum 32 feet (9,75 m) intervals. This ble bar joist construction(Ref. Figure 4) 3 to protect the BlazeMaster CPVC blocking shall be installed to the full 1-1/2 to 2 inches (40-50 mm) below product. depth of the joists and be installed solid wood joist (Ref. Figure 5) or top A minimum lateral distance of 18 inches so as to not allow heat to escape chord of a wood truss that has a depth (460 mm)must be maintained between through or above the blocking. The greater than 4 inches the CPVC pipe and heat pumps, fan blocking must be constructed using 1-1/2 to 4 inches(40 to 100 mm)below motors, and heat lamps. anon combustible material or the non-combustible insulation filled solid joist construction material. wood joists or composite wood joists Design _Criteria, Draft curtains must protrude below (Ref. Figure 6) Steel Pipe the joist a minimum of 6 inches (150 Remote Area(Steel Pipe) p mm) or 1/3 the space, whichever is p ) CC2 Temperature Rating greatest, and run parallel with the The remote area for wood truss con- (Steel Pipe) joist spaced at 31 feet (9,4 m) width struction or bar joist construction (Ref. maximum to limit the area to a maxi- Figure 4) or solid wood joist construc- 175° F(79° C) mum of 1000 ft2 (93 m2). The draft tion(Ref. Figure 5)is 1000 ft2(93 m2)for Area of Use(Steel Pipe) curtain may be constructed of 1/4 wet or dry pipe systems. Horizontal (slope not exceeding 2:12) inch (6,4 mm) plywood to prevent The remote area for non combusti combustible concealed spaces of: heat from escaping beyond the area. ble insulation filled solid wood joist • Unobstructed wood truss construc- • for non-combustible,insulation-filled or wood composite joist construction tion or unobstructed bar joist con- solid wood joist or composite wood (Ref. Figure 6) is to be calculated per struction (Ref. Figure 4) joist construction (Ref. Figure 6), the requirements of NFPA 13. the requirement for draft curtains or • Solid wood joist construction (Ref. blocking does not apply. Required Density(Steel Pipe) Figure 5) where the upper deck and 0.10 gpm/ft2(4,1 mm/min) ceiling joists may have a maximum Concealed Space Size(Steel Pipe) Minimum Operating Pressure(Steel depth of 12 inches(300 mm)and typ- The minimum and maximum concealed ical on center joist spacing of mini- space depth is as follows: Pipe) mum 16 inches400 mm) 7 psi(0,48 bar) ( For unobstructed wood truss construc-• Non-combustible insulation filled tion or concealed spaces of unob- NOTE:The minimum resulting flow for solid wood joist or wood composite structed bar joist construction (Ref. the 4.2K is 11.1 gpm,and the minimum joist construction (Ref. Figure 6) Figure 4) the depth of the concealed resulting flow for the 5.6K is 14.8 gpm. space is 36 inches(915 mm)maximum Therefore, for coverage areas less • Obstructed wood truss construction to 12 inches(305 mm) minimum. than the maximum permitted coverage (Ref. Figure 7) area of 144 ft2, the 4.2K may provide For solid wood joist construction (Ref. a hydraulic advantage. The use of the NOTE:In order to be considered"non- Figure 5), solid wood or composite CC/ sprinkler having a K factor of 2.8, combustible insulation filled solid wood wood joist construction filled with non- minimum operating pressure of 10 psi, joist or composite wood joist construc- combustible insulation (Ref. Figure 6), and resulting minimum flow of 9.5 gpm tion", the insulation (including insula- or obstructed wood truss construction tion provided with a combustible vapor Ref. Figure 7 , the maximum depth of may provide a furtherahydraulic-areas barrier),must completely fill thepock- ( g ) p tage for yet smaller coverage areas p Y the concealed space is 54 inches from when designing wet pipe systems. The ets between the joists to the bottom bottom of upper deck to top of ceiling, CC1is described in Technical Data of the joists, and the insulation must and the minimum depth is 6 inches Sheet TFP630. be secured in place with metal wire net- from the bottom of the upper deck ting. The metal wire netting is intended joists to the top of the ceiling joists. Obstructions(Steel Pipe) to hold the insulation in place should See Figure 8 in this data sheet for the insulation become wetted by the System Type(Steel Pipe) obstructions rules. operation of the CC2 Sprinklers in the Light hazard, wet or dry pipe system event of a fire. using steel pipe. Concealed Space Area(Steel Pipe) NOTES: Use of the 4.2K sprinklers in The area of the concealed space is not dry pipe systems is permitted by section limited; however, 8.3.4.3 of NFPA 13 (2007 edition) where • for unobstructed wood truss con piping is corrosion resistant or internally galvanized. struction or concealed spaces of non-combustible, unobstructed Minimum Distance Between Model bar joist construction (Ref. Figure CC2 Sprinklers(Steel Pipe) 4) draft-curtains or full height walls 7 feet(2,1 m) must be provided at 1000 ft2(93 m2) areas. This draft curtain shall be at TFP632 Page 5 of 8 MODEL CC2 4-1/2"(114 mm)MINIMUM UPPER DECK SPRINKLER FROM FACE OF WOOD TRUSS OR TOP CHORD OF BAR JOIST \ A LIIMIllill I 1 d TOP CHORD 4"M(102 mmAXIMUM) 4"(102 mm) OR LESS r 1 1-1/2"(40 mm) FRAME ARMS OF MINIMUM P SPRINKLER MUST �I BE INSTALLED IN-LINE WITH 36" (915 mm) PIPE RUN MAXIMUM L J 12"(305 mm) MINIMUM CEILING - FIGURE 4 UNOBSTRUCTED WOOD TRUSS CONSTRUCTION OR UNOBSTRUCTED BAR JOIST CONSTRUCTION CROSS SECTION ELEVATION VIEW STEEL PIPE r FRAME ARMS OF SPRINKLER I MUST BE INSTALLED I UPPER 2x FLOOR SOLID � IN-LINE WITH PIPE RUN � DECK WOOD JOISTS L _ J / � N wIl i "(1372 m A �1 LI � 54 ( 3 m) MODEL CC2 i MAXIMUM 3 SPRINKLER 36" (915 mm) al niiii 161 Nimi , MAXIMUM 2"(51 mm) I I 6"(152 mm) MAXIMUM MINIMUM 1-1/2" (38 mm) _ li MINIMUM 1 'A1 11 A F1 1 CEILING CEILING FRAMING FIGURE 5 SOLID WOOD JOIST CONSTRUCTION CROSS SECTION ELEVATION VIEW STEEL PIPE 4 TFP632 Page 6 of 8 r � FRAME ARMS OF SPRINKLER I MUST BE INSTALLED I UPPER NON-COMBUSTIBLE IN-LINE WITH PIPE RUN I DECK INSULATION L J / T►/T � � I T T i T /T. IHI54"(1372 mm) me me*P � K MAXIMUM COMPOSITE MODEL CC2 2x FLOOR SOLID T WOOD JOISTS SPRINKLER WOOD JOISTS 36"(915 mm) ,Ii___0 MAXIMUM 4"(102 mm) I I 6" (152 mm) MINIMUM MAXIMUM 1-1/2"(38 mm) ,aiiI■I MINIMUM 1 11-1 " 1 1 CEILING CEILING FRAMING FIGURE 6 NON-COMBUSTIBLE INSULATION-FILLED UPPER DECK SOLID WOOD OR COMPOSITE WOOD JOIST CONSTRUCTION CROSS SECTION ELEVATION VIEW STEEL PIPE r 1 FRAME ARMS OF SPRINKLER i MUST BE INSTALLED 1 UPPER TOP CHORD GREATER IN-LINE WITH PIPE RUN I DECK THAN 4"(102 mm)IN DEPTH L J ,T„,„„,„1 _ 1 54" (1372 mm) MODEL CC2 MAXIMUM f SPRINKLER �� 2"(51 mm) 36" (915 mm) MAXIMUM MAXIMUM 1-1/2" (38 mm) 6" (152 mm) MINIMUM MINIMUM Ij rri am r. ( x CEILING CEILING FRAMING FIGURE 7 OBSTRUCTED WOOD TRUSS CONSTRUCTION CROSS SECTION ELEVATION VIEW STEEL PIPE Y TFP632 Page 7 of 8 Distance from Maximum Allowable G- UPPER DECK Centerline of Distance of Deflector OR BOTTOM OF Sprinkler to Side Above Bottom of of Obstruction Obstruction NON-COMUSTIBLE (A) (B) WRECESS \ INSULATION <12" 0„ (USE END"A" _L <(304,8 mm) (0 mm) / RENCH ONLY) M DE 12"to<18" \ B �—MODEL CC2 2-1/2" SPRINKLER (304,8 mm to<457,2 mm) 63,5 mm)) FIGURE 9 18"to<24" 3-1/2" W-TYPE 6 SPRINKLER (457,2 mm to<609,6 mm) (88,9 mm) WRENCH A 24"to<30" 5-1/2" (609,6 mm to<762,0 mm) (139,7 mm) OBSTRUCTION 30"to<36" 7-1/2" Installation (762,0 mm to<914,4 mm) (190,5 mm) NOTE: 36"to<42" 9-1/2" WEB MEMBERS AND GUSSETS (914,4 mm to<1066,8 mm) (241,3 mm) The Model CC2 Sprinklers must be installed in accordance with this SHALL NOT BE CONSIDERED 42"to<48" 12" section. OBSTRUCTIONS PROVIDED THE (1066,8 mm to<1219,2 mm) (304,8 mm) MINIMUM 4-1/2 INCH LATERAL 48"to<54" 14" General Instructions DISTANCE(FIG.2)REQUIRED (1219,2 mm to<1371,6 mm) (355,6 mm) The Model CC2 Sprinklers are to be BY THE SPECIFIC APPLICATION 54"to<60" 16-1/2" installed upright and with their frame LISTING IS MAINTAINED. (1371,6 mm to<1524,0 mm) (419,1 mm) arms (Ref. Figure 1) in-line with the pipe run (Ref. Figures 2 through 7, as applicable). A>_3C or 3D Do not install anybulb UPPER A<24"(609,6 mm) type sprinkler DECK (Use dimension C or D,whichever is greater) if the bulb is cracked or there is a loss of liquid from the bulb. With the sprin- OBSTRUCTION OBSTRUCTION kler held horizontally,a small air bubble MODEL CC2 should be present.The diameter of the \ AI + SPRINKLER air bubble is approximately 1/16 inch (1,6 mm)for the 175°F(79°C)tempera- C , MODEL CC2 C \ ture rating. SPRINKLER F A leak-tight 1/2 inch NPT sprinkler joint should be obtained with a torque of 7 to D D f A 14 ft.-lbs.(9,5 to 19,0 Nm).Higher levels LOWER of torque may distort the sprinkler inlet DECK with consequent leakage or impairment of the sprinkler. The Model CC2 Sprinklers must only ELEVATION VIEW PLAN VIEW be installed in the upright position with FIGURE 8 the deflector parallel to the upper deck. NFPA 13 OBSTRUCTION TO WATER DISTRIBUTION CRITERIA With pipe thread sealant applied to the (REFERENCE) pipe threads, use only the W-Type 6 (End A) Sprinkler Wrench (Ref. Figure 9) for installation of the Model CC2 Sprinklers by applying the wrench to the sprinkler wrench flats only. TFP632 Page 8 of 8 Care and Limited Ordering Maintenance Warranty Procedure The Model CC2 Sprinklers must be For warranty terms and conditions,visit Contact your local distributor for avail- maintained and serviced in accordance www.tyco-fire.com. ability.When placing an order,indicate with this section. the full product name and Part Number Before closing a fire protection system (P/N). main control valve for maintenance Sprinkler Assemblies with NPT work on the fire protection system that Thread Connections it controls,permission to shut down the Specify: SIN (specify), K-factor affected fire protection systems must (specify), Model CC2 Combustible be obtained from the proper authorities Concealed Space Sprinkler, Specific and all personnel who may be affected Application, Upright, 175°F (79°C), by this action must be notified. P/N (specify): Sprinklers that are found to be leaking TY2189,4.2K 51-311-1-175 or exhibiting visible signs of corrosion TY3189,5.6K 51-301-1-175 must be replaced. Sprinkler Wrench: Automatic sprinklers must never be Specify: W-Type 6 Sprinkler Wrench, painted, plated, coated, or other- P/N 56-000-6-387 wise altered after leaving the factory. Modified sprinklers must be replaced. Sprinklers that have been exposed to corrosive products of combustion, but have not operated,should be replaced if they cannot be completely cleaned by wiping the sprinkler with a cloth or by brushing it with a soft bristle brush. Care must be exercised to avoid damage to the sprinklers before, during, and after installation. Sprin- klers damaged by dropping, striking, wrench twist/slippage,or the like,must be replaced. Also, replace any sprin- kler that has a cracked bulb or that has lost liquid from its bulb. (Ref. Installa- tion Section). The owner is responsible for the inspection,testing,and maintenance of their fire protection system and devices in compliance with this document, as well as with the applicable standards of the National Fire Protection Association (e.g., NFPA 25), in addition to the stan- dards of any other authorities having jurisdiction.Contact the installing con- tractor or sprinkler manufacturer with any questions. It is recommended that automatic sprinkler systems be inspected,tested, and maintained by a qualified Inspec- tion Service in accordance with local requirements and/or national codes. GLOBAL HEADQUARTERS 11400 Pennbrook Parkway,Lansdale,PA 19446 I Telephone+1-215-362-0700 Copyright©2016 Tyco Fire Products,LP. All rights reserved. vice TEFLON is a trademark of The DuPont Corporation '7 Fire Protection Products BlazeMaster is a trademark of The Lubrizol Corporation