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3960 SUNNYHILL DR; ; FPR2023-0023
Print Date: 07/17/2024 Job Address: 3960 SUNNYHILL DR, CARLSBAD, CA 92008-2749 (,City of Carlsbad Permit Type: FIRE-Construction Residential Work Class: Parcel #: 2070640200 Track #: Valuation: $190,575.61 Lot #: Occupancy Group: Project It: Itof Dwelling Units: Plan #: Bedrooms: Construction Type: Bathrooms: Orig. Plan Check It: Plan Check It: Permit No: FPR2023-0023 Status: Closed - Finaled Single Family Fire Sprinkl Applied: 03/14/2023 Issued: 04/05/2023 DEV2017-0216 Finaled Close Out: 07/17/2024 Final Inspection: INSPECTOR: Salcedo, Felix Robinson, Jarrod Project Title: SLOWIK ADU Description: SLOWIK -NEW 13D SPRINKLER SYSTEM FOR NEW ADU & GARAGE Applicant: FPContractor: INNOVATIVE FIRE PROTECTION INC INNOVATIVE FIRE PROTECTION INC ALEJANDRO AGUIRRE 8779 COTTONWOOD AVE, It 101 8779 COTTONWOOD AVE SANTEE, CA 92071-4457 SANTEE, CA 92071-4457 (619) 593-8200 (619) 593-8200 FEE • AMOUNT FIRE NFPA 13D Single Family System (lnsp/Bldg) $148.00 FIRE NFPA 13D Single Family System (Plan Review) $292.00 Total Fees: $440.00 Total Payments To Date: $440.00 Balance Due: $0.00 Fire Department Page 1 of 1 1635 Faraday Avenue, Carlsbad CA 92008-7314 1 442-339-2665 1 Inspections: 442-339-2660 1 www.carlsbadca;gov CALCULATION SUMMARY Project Name: C8701 SLOWIK ADU & GARAGE Project Location: 3960 SUNNYHILL DRIVE Contract No.: C -16 711148 City: CARLSBAD, CA 92008 Design Areas Design Area Caic. Mode Occupancy Area of Total Water Pressure @ Min. Min. Mm. Calculated Hose Margin To Name (Model) Application Source Density Pressure Flow Heads Streams Source (ft2) (gpm) (psi) (gpm/1t2) (psi) (gpm) 9 (gpm) (psi) 1 Demand (HW) 512 33.2 Required 61.3 0.051 7 13 2 5 14.3 2 Demand (HW) 512 31.7 Required 0.051 7 13 2 5 8.7 File: Y:\ENGINEERlNG3A.Project Files\C8701 SLOWIK ADU & GARAGEC8701 SLOWIK ADU & GARAGE.dwg Date 3/24/2023 Copyright © 2002-2012 Tyco Fire Protection Products Page 1 HYDRAULIC CALCULATIONS for Job Information Project Name: C8701 SLOWIK ADU & GARAGE Contract No.: C-16 711148 City: CARLSBAD, CA 92008 Project Location: 3960 SUNNYI-IILL DRIVE Date: 2/17/2023 Contractor Information Name of Contractor: INNOVATIVE FIRE PROTECT, INC. Address: 8779 COTTONWOOD AVE.,STE. 101 City: SANTEE, CA 92071 Phone Number: 619-593-8200 E-mail: alex@ifpinc.net Name of Designer: ALEJANDRO Authority Having Jurisdiction: CARLSBAD FIRE AUTHORITY Design Remote Area Name 1 Remote Area Location GARAGE Occupancy Classification Density (gpm/ft2) 0.051 Area of Application (ft2) 512 Coverage per Sprinkler (ft2) 256 Number of Calculated Sprinklers 2 In-Rack Demand (gpm) 0 Special Heads Hose Streams (gpm) 5 Total Water Required (incl. Hose Streams) (gpm) 33.2 Required Pressure at Source (psi) 61.3 Type of System Wet Volume - Entire System (gal) 53.7 gal Water Supply Information Date 02/27/2023 Location SITE Source 1 Notes File: Y:\ENGINEERING\3A.Project Files\C8701 SLOWIK ADU & GARAGE\C8701 SLOWIK ADU & GARAGE.dwg Date 3/24/2023 Copyright © 2002-2012 Tyco Fire Protection Products Page 2 Job: C8701 SLOWIK ADU & GARAGE Node Labels: Off Pipe Labels: Off Diagram for Design Area: I (Ontimizcd Hvdriulic Simnlifindl Date 3/24/2023 File: Y:\ENGINEERING\3A.Project Files\C8701 SLOWIK ADU & GARAGE\C8701 SLOWIK ADU & GARAGE.dwg Copyright© 2002-2012 Tyco Fire Protection Products Page 3 Supply 1: 1 Flow (gpm) Pressure (psi) 0 75.6 500 70.6 Supply Analysis Job: C8701 SLOWIK ADU & GARAGE Hydraulic Analysis for: I Calculation Info Calculation Mode Demand Hydraulic Model Hazen-Williams Fluid Name Water © 60F (15.6C) Fluid Weight, (lb/ft3) N/A for Hazen-Williams calculation. Fluid Dynamic Viscosity, (lb•s/ft2) N/A for Hazen-Williams calculation. Water Supply Parameters Static Pressure I Residual I I Flow I Available I I I Total Demand I Required Pressure Node atSource (psi) I Pressure I I (gpm) I Pressure I I I (gpm) I I (psi) (psi) I (psi) 1 75.6 70.6 500 75.6 33.2 61.3 Hoses Inside Hose Flow/ Standpipe Demand (gpm) 5 Outside Hose Flow (gpm) 0 Additional Outside Hose Flow (gpm) Other (custom defined) Hose Flow (gpm) 0 Total Hose Flow (gpm) 5 Sprinklers Ovehead Sprinkler Flow (gpm) 28.2 InRack Sprinkler Flow (gpm) 0 Other (custom defined) Sprinkler Flow (gpm) 0 Total Sprinkler Flow (gpm) 28.2 Other Required Margin of Safety (psi) 0 BOR - Pressure (psi) 28.1 BOR - Flow (gpm) 28.2 Demand w/o System Pump(s) N/A File: Y:\ENGINEERING\3A.Project Files\C8701 SLOWIK ADU & GARAGE\C8701 SLOWIK ADU & GARAGE.dwg Date 3/24/2023 Copyright © 2002-2012 Tyco Fire Protection Products Page 4 Job: C8701 SLOWIK ADU & GARAGE Hydraulic Analysis for: I Supply * System Demand 0 Available At Source 1001_ - --•- - - f 756psi332gpm JEEIEET - D2-•--- -------• - 60 - - - - - - 50---- 17 - 40 30 __ 0 200 300 400 500 600 Flow, gpm File: Y:\ENGlNEERING3A.Project Files\C8701 SLOWIK ADU & GARAGE\C8701 SLOWIK ADU & GARAGE.dwg Date 3/24/2023 Copynght © 2002-2012 Tyco Fire Protection Products Page 5 Job: C8701 SLOWIK ADU & GARAGE Hydraulic Analysis for: I Graph Labels Label Description Values Flow (gpm) Pressure (psi) Si Supply point #1 - Static 0 75.6 S2 Supply point #2 - Residual 500 70.6 Di Elevation Pressure 0 16.7 D2 System Demand 33.2 61.3 Curve Intersections & Safety Margins Curve Name Intersection I Safety Margin Pressure (psi) I Flow (gpm) Pressure (psi) I @ Flow (gpm) Supply 75.6 38.6 14.3 33.2 Open Heads Required ___________ Calculated Head Ref. Head Type Coverage K-Factor Density Flow Pressure Density Flow Pressure (ft2) (gpm/psil/2) (gpm/ft2) (gpm) (psi) (gpm/ft2) (gpm) (psi) Hi Overhead 256 4.9 0.05 12.8 7 0.06 15.2 9.7 Sprinkler H2 Overhead 256 4.9 0.05 12.8 7 0.051 13 7 Sprinkler File: Y:\ENGINEERING\3A.Project Files\C8701 SLOWIK ADU & GARAGE\C8701 SLOWIK ADU & GARAGE.dwg Date 3/24/2023 Copyright © 2002-2012 Tyco Fire Protection Products Page 6 Job: C8701 SLOWIK ADU & GARAGE Hydraulic Calculations I Fluid Delivery Time Analysis Node Data Node# Type K-Fact. Discharge Coverage Tot. Pres. Req. Pres. Elev Hgroup Open/Closed Overdischarge Density Elev. Pres. Req. Discharge gpm/psi½ gpm ft2 psi psi ft gpm gpm/ft2 psi gpm H2 Overhead Sprinkler 4.9 13 256 7 7 36 HEAD Open 0.2 0.051 -16.7 12.8 Hi Overhead Sprinkler 4.9 15.2 256 9.7 7 34 HEAD Open 2.4 0.06 -15.8 12.8 T3 Forced Node -8.7 37 MODE -17.1 T4 Forced Node -8.7 37 MODE -17.1 T5 Forced Node -8.7 37 MODE -17.1 T7 Forced Node -8.7 37 MODE -17.1 El Forced Node -6.1 35 MODE -16.2 T6 Forced Node -6.1 35 MODE -16.2 Ri-O Node 1.6 29.13 NODE -13.7 RI-I Node 2.2 28.63 NODE -13.5 BO Node 4.3 27 NODE -12.8 4A Node 8.2 24 NODE -11.5 T2 Forced Node 9.8 35 MODE -16.2 Ti Forced Node 16.5 35 MODE -16.2 R-O Node 21.1 29.13 NODE -13.7 R-I Node 27.2 28.63 NODE -13.5 BOR Node 28.1 27 NODE -12.8 G5 Inside Hose 5 28.7 26 HOSE -12.3 5 3A Node 28.7 26 NODE -12.3 2A Node 31 24 NODE -11.5 T Forced Node 31.2 24 FNODE -11.5 iA Node 44.9 -i NODE -0.6 BF-0 Node 45 -i NODE -0.6 BF-I Node 51.6 -1 NODE -0.6 W-O Node 51.8 -1 NODE 1 1-0.6 File: Y:\ENGINEERING\3A.Project Files\C8701 SLOWIK ADU & GARAGE\C8701 SLOWIK ADU & GARAGE.dwg Date 3/24/2023 Copyright © 2002-2012 Tyco Fire Protection Products Page 7 Job: C8701 SLOWIK ADU & GARAGE Hydraulic Calculations/ Fluid Delivery Time Analysis Node Data Node# Type K-Fact. Discharge Coverage Tot. Pres. Req. Pres. Elev Hqroup Open/Closed Overdischarge Density Elev. Pres. Req. Discharge gpm/p5i½ gpm ft2 psi psi ft gpm gpm/ft2 psi qpm W-I Node 56.4 -1 NODE -0.6 1 Supply -33.2 61.3 -2.49 SUPPLY 0 File: Y:\ENGINEERING\3A.Project Files\C8701 SLOWIK ADU & GARAGE\C8701 SLOWIK ADU & GARAGE.dwg Date 3/24/2023 Copyright © 2002-2012 Tyco Fire Protection Products Page 8 Job :C&701 SLOWIK ADU & GARAGE 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: 0 R1-O 29.13 0 1 0.5 1.6 1 IN RISER Ri-I 28.63 0 0 0 0 0.2 *** 0.5 0 4A 24 0 2 1x(BM.Tee-Run)=1 9.52 150 8.2 T 24 0 2.003 lx(BM.90)=10 11 0 0 20.52 0 BO 27 0 1 ix(us.90)=2.7 4 150 4.3 4A 24 0 1.025 2.7 0 1.3 6.7 0 Ri-I 28.63 0 1 1.63 150 2.2 BO 27 0 1.101 0 0 0.7 1.63 0 El 35 0 1 5x(BM.90)=25 17.45 150 -6.1 Ri-O 29.13 0 1.101 lx(BM.Tee-Run)=i 26 0 2.5 43.45 0 T3 37 0 1 2x(BM.90)=10 10.19 150 -8.7 El 35 0 1.101 lx(BM.Tee-Run)=l 11 0 0.9 21.19 0 T4 37 0 1 lx(BM.Tee-Run)=i 5.15 150 -8.7 T3 37 0 1.101 1 0 0 6.15 0 T5 37 0 1 1x(BM.Tee-Run)=1 6.16 150 -8.7 T4 37 0 1.101 1 0 0 7.16 0 T6 35 0 .75 1x(BM.Tee-Run)=1 7.18 150 -6.1 T5 37 0 0.874 2x(BM.90)=8 9 0 -0.9 16.18 0 T7 37 0 .75 2x(BM.Tee-Run)=2 7.86 150 -8.7 T6 35 0 0.874 2x(BM.90)=8 13 0 0.9 lx(BM.Tee)=3 1 20.861 0 T6 -6.1 File: Y:\ENGINEERING\3A.Project Files\C8701 SLOWIK ADU & GARAGE\C8701 SLOWIK ADU & GARAGE.dwg Date 3/24/2023 Copyright © 2002-2012 Tyco Fire Protection Products Page 9 Job: C8701 SLOWIK ADU & GARAGE 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/psil/2) (gpm) (in) (ft) (ft) (psi) (psi) Path No: I H2 36 4.9 13 .75 lx(BM.Tee-Run)=i 11.82 150 7 T2 35 13 0.874 3x(BM.90)=12 13 0.0935 0.4 24.82 2.3 T2 35 15.2 .75 ix(BM.Tee-Run)=i 12.12 150 9.8 Ti 35 28.2 0.874 lx(BM.90)=4 5 0.3945 0 17.12 6.8 Ti 35 0 1 ix(BM.90)=5 11.01 150 16.5 R-0 29.13 28.2 1.101 5 0.1282 2.5 16.01 2.1 R-O 29.13 0 1 0.5 21.1 1 IN RISER R-I 28.63 28.2 0 0 11.7882 0.2 0.5 5.9 R-I 28.63 0 1 1.63 150 27.2 BOR 27 28.2 1.101 0 0.1282 0.7 1.63 0.2 BOR 27 0 1 1 150 28.1 3A 26 28.2 1.025 0 0.1816 0.4 1 0.2 3A 26 5 1 ix(us.90)=2.7 3 150 28.7 2A 24 33.2 1.025 2.7 0.2456 0.9 5.7 1.4 2A 24 0 2 1x(BM.Tee-Br)=10 7.64 150 31 T 24 33.2 2.003 10 0.0094 0 17.64 0.2 T 24 0 2 2x(BM.90)=20 280.86 150 31.2 1A -1 33.2 2.003 3x(BM.45)=6 26 0.0094 10.8 306.86 2.9 1A -i 0 1 0.4 150 44.9 BF-0 -1 33.2 1.025 0 0.2456 0 0.4 0.1 BF-0 -1 0 1 1.1 45 1950WLK BF-I -1 33.2 0 0 5.9967 0 *** 1.1 6.6 BF-I -1 0 1 0.75 150 51.6 W-0 -1 33.2 1.025 0 0.2456 0 0.75 0.2 W-O -1 0 1 0.75 51.8 1 SD M W-I -1 33.2 0 0 6.084 0 K 0.75 4.6 W-I -1 0 1 15.07 150 56.4 1 -2.49 33.2 0.995 0 0.2838 0.6 15.07 4.3 1 61.3 Path No: 2 Hi 34 4.9 15.2 .75 1x(BM.Tee-Br)=3 1 150 9.7 T2 35 15.2 0.874 3 0.1262 -0.4 4 0.5 T2 9.8 File: Y:\ENGINEERING\3A.Project Files\C8701 SLOWIK ADU & GARAGE\C8701 SLOWIK ADU & GARAGE.dwg Date 3/24/2023 Copyright© 2002-2012 Tyco Fire Protection Products Page 10 Job: C8701 SLOWIK ADU & GARAGE 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: 3 G5 26 5 1 1x(us.Tee-Br)=6.75 0.5 150 28.7 3A - 26 5 1.025 6.75 0.0074 0 7.25 0.1 3A 28.7 * Pressures are balanced to a high degree of accuracy. Values may vary by 0.1 psi due to display rounding. * Maximum Velocity of 15.09 ft/s occurs in the following pipe(s): (T1-T2) *** 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: Y:\ENGINEERING\3A.Project Files\C8701 SLOWIK ADU & GARAGE\C8701 SLOWIK ADU & GARAGE.dwg Date 3/24/2023 Copyright @ 2002-2012 Tyco Fire Protection Products Page 11 Job: C8701 SLOWIK ADU & GARAGE Device Graphs Pressure vs. Flow Function Design Area: 1; Supply Ref.: 1; Supply Name:1 8C — 7(• 6r — - - 60 55 5(, - -- 45—.- 40- 35-.- -- -- 30 - 25- 20— -- 10—--- 5— .- - - Flow, gpm Pressure Loss Function - *sign Area: 1; BFP Ref.: 106 (1 950 WLK. Size = 1); Inlet Node: BF-l; Outlet Node: BF-0 4.5- 03 93- a6.6 •- - - .------.-.---------.--- - - ________.-- ----.--------. -- _________ -- - - - psi 3.2 9_p;______ 37 - - Flow, gpm File: Y:\ENGINEERING\3A.Project Files\C8701 SLOWIK ADU & GARAGE\C8701 SLOWIK ADU & GARAGE.dwg Date 3/24/2023 Copyright © 2002-2012 Tyco Fire Protection Products Page 12 Job C8.701 SLOWIK ADU & GARAGE Device Graphs Pressure Loss Function Design Area: 1; Valve Ref: 105 (1 SD M, Size = 1); Inlet Node: W-I; Outlet Node: W-O 0Ptm Flow, gpm Pressure Loss Function Design Area: 1; Valve Ref.: 107 (1 IN RISER. Size = 1); inlet Node: RI-I; Outlet Node: RI-O 8.1 -.--.. -.----.- - 6.1 5.1 3.1 0.1 Flow, gpm File: Y:ENGiNEERiNG\3A.Project Files\C8701 SLOWIK ADU & GARAGE\C8701 SLOWIK ADU & GARAGE.dwg Date 3/24/2023 Copyright © 2002-2012 Tyco Fire Protection Products Page 13 a Job: C8701 SLOWIK ADU & GARAGE Device Graphs,, Pressure Loss Function Design Area: 1; Valve Ref.: 108 (1 IN RISER, Size 1); Inlet Node: RI; Outlet Node: R-O IL 0.1 Flow, gpm File: Y:\ENGINEERING\3A.Project Files\C8701 SLOWIK ADU & GARAGE\C8701 SLOWIK ADU & GARAGE.dwg Date 3/24/2023 Copyright © 2002-2012 Tyco Fire Protection Products Page 14 HYDRAULIC CALCULATIONS for Job Information Project Name: C8701 SLOWIK ADU & GARAGE Contract No.: C-16 711148 City: CARLSBAD, CA 92008 Project Location: 3960 SUNNYHILL DRIVE Date: 2/17/2023 Contractor Information Name of Contractor: INNOVATIVE FIRE PROTECT, INC. Address: 8779 COTTONWOOD AVE.,STE. 101 City: SANTEE, CA 92071 Phone Number: 619-593-8200 E-mail: alex©ifpinc.net Name of Designer: ALEJANDRO Authority Having Jurisdiction: CARLSBAD FIRE AUTHORITY Design Remote Area Name 2 Remote Area Location M BEDROOM Occupancy Classification Density (gpm/ft2) 0.051 Area of Application (ft2) 512 Coverage per Sprinkler (ft2) 256 Number of Calculated Sprinklers 2 In-Rack Demand (gpm) 0 Special Heads Hose Streams (gpm) 5 Total Water Required (incl. Hose Streams) (gpm) 31.7 Required Pressure at Source (psi) 66.8 Type of System Wet Volume - Entire System (gal) 53.9 gal Water Supply Information 02/27/2023 Date Location SITE Source Notes File: Y:\ENGINEERING\3A.Project Files\C8701 SLOWIK ADU & GARAGE\C8701 SLOWIK ADU & GARAGE.dwg Date 3/24/2023 Copyright © 2002-2012 Tyco Fire Protection Products Page 15 Job: C8701 SLOWIK ADU & GARAGE Node Labels: Off Pipe Labels: Off Diagram for Design Area: 2 (Ontimizd Hydraulic SimnIifid File: Y:\ENGINEERING\3A.Project Files\C8701 SLOWIK ADU & GARAGE\C8701 SLOWIK ADU & GARAGE.dwg Date 3/24/2023 Copyright © 2002-2012 Tyco Fire Protection Products Page 16 ,Job: C8701 SLOWIK ADU & GARAGE Hydraulic Analysis for: 2 Calculation Info Calculation Mode Hydraulic Model Fluid Name Fluid Weight, (lb/ft3) Fluid Dynamic Viscosity, (lbs/ft2) Water Supply Parameters Supply 1: 1 Supply Analysis Demand Hazen-Williams Water @ 60F (15.6C) N/A for Hazen-Williams calculation. N/A for Hazen-Williams calculation. Flow (gpm) Pressure (psi) 0 75.6 500 70.6 I Static Pressure I Residual I Flow I Available I I Total Demand I Required Pressure Node at Source (psi) Pressure I I I (gpm) Pressure I I I (gpm) I (psi) (psi) I (psi) 1 75.6 70.6 500 75.6 31.7 66.8 Hoses Inside Hose Flow/ Standpipe Demand (gpm) 5 Outside Hose Flow (gpm) 0 Additional Outside Hose Flow (gpm) Other (custom defined) Hose Flow (gpm) 0 Total Hose Flow (gpm) 5 Sprinklers Ovehead Sprinkler Flow (gpm) 26.7 InRack Sprinkler Flow (gpm) 0 Other (custom defined) Sprinkler Flow (gpm) 0 Total Sprinkler Flow (gpm) 26.7 Other Required Margin of Safety (psi) 0 BOR - Pressure (psi) 10.9 BOR -Flow (gpm) 0 Demand w/o System Pump(s) N/A File: Y:\ENGINEERING\3A.Project Files\C8701 SLOWIK ADU & GARAGE\C8701 SLOWIK ADU & GARAGE.dwg Date 3/24/2023 Copyright 0 2002-2012 Tyco Fire Protection Products Page 17 Job: C8701 SLOWIK ADU & GARAGE Hydraulic Calculations I Fluid Delivery Time Analysis Node Data Node# Type K-Fact. Discharge Coverage Tot. Pres. Req. Pres. Elev Hgroup Open/Closed Overdischarge Density Elev. Pres. Req. Discharge gpm/psi'/2 gpm ft2 psi psi ft gpm gpm/ft2 psi gpm 1 Supply -31.7 66.8 -2.49 SUPPLY . 0 1A Node 51.3 -1 NODE -0.6 2A Node 14.8 24 NODE -11.5 4A Node 37.6 24 NODE -11.5 5A Node 35.4 26 NODE -12.3 BF-I Node 57.9 -1 NODE -0.6 BF-0 Node 51.4 -1 NODE -0.6 BO Node 34.9 27 NODE -12.8 BOR Node 10.9 27 NODE -12.8 El Forced Node 20.7 35 MODE -16.2 G6 Inside Hose 35.4 26 HOSE -12.3 5 H3 Overhead Sprinkler 4.9 13.8 256 7.9 7 36 HEAD Open 1 0.054 -16.7 12.8 H4 Overhead Sprinkler 4.9 13 256 7 7 36 HEAD Open 0.2 0.051 -16.7 12.8 R-I Node 8.8 28.63 NODE -13.5 R-O Node 8.2 29.13 NODE -13.7 Ri-I Node 34 28.63 NODE -13.5 Ri-O Node 28.3 29.13 NODE -13.7 T Forced Node 37.8 24 MODE -11.5 Ti Forced Node 0.5 35 MODE -16.2 T2 Forced Node 0.5 35 MODE -16.2 T3 Forced Node 17.4 37 MODE -17.1 T4 Forced Node 16.7 37 MODE -17.1 T5 Forced Node 15.8 37 MODE -17.1 T6 Forced Node 10.9 35 FNODE -16.2 T7 Forced Node 8.4 37 MODE -17.1 File: Y:\ENGINEERING\3A.Project Files\C8701 SLOWIK ADU & GARAGE\C8701 SLOWIK ADU & GARAGE.dwg Date 3/24/2023 Copyright © 2002-2012 Tyco Fire Protection Products Page 18 Job: C8701 SLOWIK ADU & GARAGE Hydraulic Calculations I Fluid Delivery Time Analysis Node Data Node# Type K-Fact. Discharge Coverage Tot. Pres. Req. Pres. Elev Hgroup Open/Closed Overdischarge Density Elev. Pres. Req. Discharge gpm/psiv gpm ft2 psi psi It gpm gpm/ft2 psi gpm W-I Node 62.3 -1 NODE -0.6 W-O Node 1 58.1 1 -0.6 -1 NODE File: Y:\ENGNEERlNG\3A.Project Files\C8701 SLOWIK ADU & GARAGE\C8701 SLOWIK ADU & GARAGE.dwg Date 3/24/2023 Copyright © 2002-2012 Tyco Fire Protection Products Page 19 Job: C8701 SLOWIK ADU & GARAGE 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/ps11/2) (gpm) (in) (ft) (ft) (psi) (psi) Path No: 0 R-O 29.13 0 1 0.5 8.2 1 IN RISER R-I 28.63 0 0 0 0 0.2 0.5 0 BOR 27 0 1 lx(us.90)=2.7 4 150 10.9 2A 24 0 1.025 2.7 0 1.3 6.7 0 R-I 28.63 0 1 1.63 150 8.8 BOR 27 0 1.101 0 0 0.7 1.63 0 Ti 35 0 1 ix(BM.90)=5 11.01 150 0.5 R-0 29.13 0 1.101 5 0 2.5 16.01 0 T2 35 0 .75 lx(BM.Tee-Run)=i 12.12 150 0.5 Ti 35 0 0.874 lx(BM.90)=4 8 0 0 ix(BM.Tee)=3 20.12 0 Ti 0.5 File: Y:\ENGINEERING\3A.Project Files\C8701 SLOWIK ADU & GARAGE\C8701 SLOWIK ADU & GARAGE.dwg Date 3/24/2023 Copyright© 2002-2012 Tyco Fire Protection Products Page 20 Job: C8701 SLOWIK ADU & GARAGE 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/p5i1/2) (gpm) (in) (ft) (ft) (psi) (psi) Path No: I H4 36 4.9 13 .75 1x(BM.Tee-Run)=1 10.58 150 7 T7 37 13 0.874 2x(BM.90)=8 9 0.0935 -0.4 19.58 1.8 T7 37 0 .75 2x(BM.Tee-Run)=2 7.86 150 8.4 T6 35 13 0.874 2x(BM.90)=8 10 0.0935 0.9 17.86 1.7 T6 35 13.8 .75 1x(BM.Tee-Run)=1 7.18 150 10.9 T5 37 26.7 0.874 2x(BM.90)=8 9 0.3571 -0.9 16.18 5.8 T5 37 0 1 1x(BM.Tee-Run)=1 6.16 150 15.8 T4 37 26.7 1.101 1 0.116 0 7.16 0.8 T4 37 0 1 1x(BM.Tee-Run)=1 5.15 150 16.7 T3 37 26.7 1.101 1 0.116 0 6.15 0.7 T3 37 0 1 2x(BM.90)=10 10.19 150 17.4 El 35 26.7 1.101 lx(BM.Tee-Run)=l 11 0.116 0.9 21.19 2.5 El 35 0 1 5x(BM.90)=25 17.45 150 20.7 Rl-O 29.13 26.7 1.101 lx(BM.Tee-Run)=l 26 0.116 2.5 43.45 5 Rl-O 29.13 0 1 0.5 28.3 1 IN RISER Rl-I 28.63 26.7 0 0 10.8911 0.2 0.5 5.4 Rl-I 28.63 0 1 1.63 150 34 BO 27 26.7 1.101 0 0.116 0.7 1.63 0.2 BO 27 0 1 1 150 34.9 5A 26 26.7 1.025 0 0.1643 0.4 1 0.2 5A 26 5 1 lx(us.90)=2.7 3 150 35.4 4A 24 31.7 1.025 2.7 0.2257 0.9 5.7 1.3 4A 24 0 2 lx(BM.Tee-Run)=l 9.52 150 37.6 T 24 31.7 2.003 lx(BM.90)=10 11 0.0086 0 20.52 0.2 T 24 0 2 2x(BM.90)=20 280.86 150 37.8 1A -1 31.7 2.003 3x(BM.45)=6 26 0.0086 10.8 306.86 2.7 1A -1 0 1 0.4 150 51.3 BF-0 -1 31.7 1.025 0 0.2257 0 0.4 0.1 BF-0 -1 0 1 1.1 51.4 1 950 WLK BF-I -1 31.7 0 0 5.9338 0 1.1 6.6 BF-1 -1 0 1 0.75 150 57.9 W-0 -1 31.7 1.025 01 0.2257 0 0.75 0.2 File: Y:\ENGINEERING\3A.Project Files\C8701 SLOWIK ADU & GARAGE\C8701 SLOWIK ADU & GARAGE.dwg Date 3/24/2023 Copyright © 2002-2012 Tyco Fire Protection Products Page 21 Job: C8701 SLOWIK ADU & GARAGE 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/psil/2) (gpm) (in) (ft) (ft) (psi) (psi) Path No: I W-O -1 0 1 0.75 58.1 1 SD M W-I -1 31.7 0 0 5.588 0 " 0.75 4.2 W-I -1 0 1 15.07 150 62.3 1 -2.49 31.7 0.995 0 0.2609 0.6 15.071 1 3.9 1 66.8 Path No: 2 H3 36 4.9 13.8 .75 lx(BM.Tee-Br)=3 9.9 150 7.9 T6 35 13.8 0.874 3x(BM.90)=12 15 0.1045 0.4 24.9 2.6 T6 10.9 Path No: 3 G6 26 5 1 1x(us.Tee-Br)=6.75 0.5 150 35.4 5A 26 5 1.025 6.75 0.0074 0 7.25 0.1 5A 35.4 Path No: 4 T 24 0 2 1x(BM.Tee-Br)=10 7.64 150 37.8 2A 24 0 2.003 10 0 0 17.64 0 2A 14.8 * Pressures are balanced to a high degree of accuracy. Values may vary by 0.1 psi due to display rounding. * Maximum Velocity of 14.3 ft/s occurs in the following pipe(s): (T5-T6) *** 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: Y:\ENGINEERING\3A.Project Files\C8701 SLOWIK ADU & GARAGE\C8701 SLOWIK ADU & GARAGE.dwg Date 3/24/2023 Copyright © 2002-2012 Tyco Fire Protection Products Page 22 Job: C8701 SLOWIK ADU & GARAGE Device Graphs Pressure vs. Flow Function Design Area: 2; Supply Ref.: 1; Supply Name:1 so 50 Is- Flow, gpm Pressure Loss Function Design Area: 2; BFP Ref.: 106 (1 950 WLK, Size = 1); Inlet Node: BF-I; Outlet Node: BF-0 [ 6.6psis31.79pm - - 5 :IIIIiII:4I:ii: Flow, gpm File: Y:\ENGINEERING\3A.Project Files\C8701 SLOWIK ADU & GARAGE\C8701 SLOWIK ADU & GARAGE.dwg Date 3/24/2023 Copyright© 2002-2012 Tyco Fire Protection Products Page 23 IL Job: C8701 SLOWIK ADU & GARAGE Pressure Loss Function Design Area: 2; Valve Ref.: 105 (1 SD M, Size = 1); Inlet Node: W4; Outlet Node: W-O Device Graph. Flow, gpm Pressure Loss Function Design Area: 2; Valve Ref.: 107 (1 IN RISER. Size = I); inlet Node: RI-I; Outlet Node: RI-O 10.1 : - - ------- - - - -- 9.1 - - - 8.1 .- 7.1-.-..- 6 5.4 psi @26.7 gpm - * ------ 4. : 0.11 -.: ------ Flow, gpm File: Y:\ENGINEERING\3A.Project Files\C8701 SLOWIK ADU & GARAGE\C8701 SLOWIK ADU & GARAGE.dwg Date 3/24/2023 Copyright © 2002-2012 Tyco Fire Protection Products Page 24 Job C8701 SLOWIK ADU & GARAGE Device Graphs Pressure Loss Function Design Area: 2; Valve Ref.: 108 (1 IN RISER, Size = 1); Inlet Node: R4; Outlet Node: R-O HA- 9.1- 6.1- 4.1- 0.I1 . . Flow, gpm File: Y:\ENGINEERING\3A.Project FilesC8701 SLOWIK ADU & GARAGE\C8701 SLOWIK ADU & GARAGE.dwg Date 3/24/2023 Copyright © 2002-2012 Tyco Fire Protection Products Page 25 ~,: ~fk ~, Senju Sprinkler Model RC-RES K-Factor: 4.9 o SIN: SS8464 Residential Lead Free Flat Concealed Sprinkler, Pendent C @ US LISTED I NSF/ANSI/CAN 61 &-372] EU co. GENERAL DESCRIPTION The Model RC-RES Residential Flat Concealed Sprinklers are automatic sprinklers of the compressed fusible solder type. They are decorative and fast responding. The Cover Plate Assembly hides the Deflector, Heat Responsive Element etc., which is concealed above the ceiling. The cover plate has a flat profile, and its diameter is extremely small (2-5/8 inch, 68mm). The push-on and/or thread-on, thread-off design of the concealed cover plate assembly allows for easy installation of the cover plate. Therefore, the Model RC-RES should be your first choice when aesthetics is the major consideration for ultimate appeal and unbeatable performance is desired. The Model RC-RES is designed for residential occupancies and is perfect for use in homes, hotels and other living quarters. The Model RC-RES is to be used in wet pipe residential sprinkler systems for One- and Two- Family Dwellings and Manufactured Homes per NFPA 13D; wet pipe residential sprinkler systems for Residential Occupancies up to and Including Four Stories in Height per NFPA 13R; or, wet pipe sprinkler systems for the residential portions of any occupancies per NFPA 13. The Model RC-RES has a 4.9 (70.6 LPM/bar112) K-factor that meets the required residential flow rates with minimal residual pressure, which allows for smaller pipe sizes and water supply requirements. For extended installation flexibility, the Model RC-RES provides 1/2 inch (12.8mm) vertical adjustment. This adjustment in installation decreases the need for precise cutting of the pipe that drops to the sprinkler and allows for a perfect fit with a range of pipe lengths. The heat sensitivity and water distribution design of Model RC-RES allows for an increased chance of residents to escape or evacuate in case of a fire. However, residential fire sprinkler systems are not a substitute for fire safety awareness or fire safety construction required by building codes. "Lead Free" is defined in the Reduction of Lead in Drinking Water Act (S.3874) endorsed by AWWA's Water Utility Council, and California Assembly Bill #1953 as having less than or equal to a weighted average of 0.25% lead in wetted surface of pipes, plumbing fittings and fixtures. www.senjusprinkler.com Page 1 of 8 Document No.UO85168 02-08-2021 2-1/16 (052mm) -Lot No Year of Manufacture - SIN SS8464 E ' - -K-Factor. 4 -Temperature Rating: 162F172C or 205 'Ff96 'C -ULMatk 6 - -Control No: 6P37 ALS Mark: NSF 61/372 RES SPKR ()) Body (Copper Alloy) ® Deflector (Phosphorus Bronze) 2.5(6 () ® Fusible Mood (SoMer) (1) Gasket (PIPE) or 31/4' (083mm) ( Heat Collector (Copper) or 2.5/8' square (o68mm) I 4 C47ver Plato Assembly Figure 1: Mode/ RC-RES K = 4.9 Marking (Deflector) mg: 162F/72'C or 206 /% 'C Cover Plate Sprinkler (Top V(ew) (Bottom View) Figure 1.1: Marking (Co/or Code) WARNINGS The Model RC-RES must be installed and maintained in accordance with the rules stated herein as well as in compliance with the applicable standards of the National Fire Protection Association regulations and the standards of any other authorities having jurisdiction. In the event of this condition, consult the authorities having jurisdiction for guidance and approval. Failure to do so may impair the integrity of these devices. It is the responsibility of the installing contractor to provide a copy of this document to the owner or their representative, and in turn, it is the obligation of the owner to provide a copy of this document to a succeeding owner. The owner is responsible for maintaining their fire protection system and devices in proper operating condition. The installing contractor or sprinkler manufacturer should be contacted with any related questions. a' TECHNICAL DATA Approvals: 0 cULus Listed UL-EU Listed (162°F (72°C) only) NSF/ANSI/CAN 61, NSF/ANSI 372 Sprinkler Identification Number (SIN): S58464 Maximum Working Pressure: 175psi (12.1 bar) Discharge Coefficient (Nominal K-Factor): K = 4.9 GPM/psi112 (70.6 LPM/barh12) Temperature Rating: 162°F (72°C) Sprinkler with 140°F (60°C) Cover Plate 205°F (96°C) Sprinkler with 162°F (72°C) Cover Plate Color Code (Sprinkler) 162°F (720C): Uncolored 205°F (96°C): White Color Code (Cover Plate) 140°F (60°C): No Mark 162°F (720C): White-Colored Mark Vertical Adjustment: 1/2 inch (12.8 mm) Cover Plate Finishes: ° Standard Finishes: White, Ivory, Beige, Brown, Black, Nickel, Wood Grain Custom Finishes: Custom color and custom pattern cover plates are available on special order. Contact a Senju Sprinkler representative with any custom orders. Please see chart on Page 8 for more detail. Physical Characteristics: Ref. Figures 1 and 1.1 www.senJusprinkler.com Page 2 of 8 Document No.U085168 - 02-08-2021 OPERATION In case of fire, the solder component that holds together the Cover Plate and the Retainer melts. Then the Cover Plate is released at once. As a result, the Deflector drops down to the intended position. Two Heat Collectors are exposed to fire, and when sufficient heat from the fire is reached, internal components of the sprinkler fall apart. This leads to the water flow to be distributed on the affected fire area. (Ref. Figure 2) Normal condition Cover Plate Operation Sprinkler Operation Water Discharge Figure 2: Operation Process (For illustrative purposes only) DESIGN CRITERIA The herein stated rules for use and installation of Model RC-RES are provided by the manufacturer and must be strictly implemented for safe and full results. Notes Residential Fire Sprinkler Systems should only be designed and installed by individuals who are completely familiar with automatic sprinkler system design, installation procedures, and techniques. Several criteria may apply to the installation and usage of each sprinkler, consequently, it is recommended that the sprinkler system designer review and develop a working understanding of the complete list of criteria prior to initiating the design of the sprinkler system. Questions concerning sprinkler installation and usage criteria, which are not covered by the following instructions, should be submitted to your contracted company. Include sketches and technical details, as appropriate. In some instances, the requirements of this document may concern specifications which are more stringent, and which take precedence over those specified in NFPA 13, 1313, 13R, or by the authority having jurisdiction. The Model RC-RES must not be used in applications where the air pressure above the ceiling is greater than that below. Inspect all sprinklers after installation to ensure that both the gap between the cover plate, ceiling and the 6 slots in the cup are open and free from any air flow impediment. The spray from the sprinkler is distributed radially outward and downward from the sprinkler deflector. Consequently, the sprinklers must be located such that there will be no blind spaces shielded from spray by partitions, room dividers, overhangs or other parts of the dwelling structure. The number of sprinklers within each compartment (as defined by NFPA 13D, 13R, or 13) must be kept as few as possible while observing all guidelines relating to obstructions and spacing. Use only the Cover Plate provided for the Model RC-RES. The sprinkler must be secured in place by firmly fastening the sprinkler system piping to the structure. If the sprinkler is not properly secured in position, reaction forces resulting from sprinkler operation could alter its orientation and its water distribution pattern. www.senjusprinkler.com Page 3 of 8 Document No.U085168 . 02-08-2021 a Obstruction to Water Distribution Locations of sprinklers must follow the obstruction rules of NFPA 13,13D and 13R for Residential Sprinklers. General Service Conditions The Model RC-RES must only be utilized in WET PIPE sprinkler systems. Heat Source Criteria Refer to NFPA 13D, 13R or 13 for the requirements relating to the prevention of possible activation of the Heat Responsive Element of Model RC-RES, due to the exposure of a heat source other than an actual fire. Precautionary Warnings for Corrosive Environments Model RC-RES sprinklers should not be installed where they may be subjected to a corrosive environment including the following Chlorine ion and Chloride environment Stress corrosion cracking may be caused by exposure to environments with Chlorine ion and Chloride. Exposure to this environment may result in sprinklers operating under Non-Fire conditions or Not Operating when exposed to an actual fire. Sprinkler system piping with Copper Sprinkler systems should be constructed in compliance with the applicable standards and the requirements for copper piping when copper piping is used in the sprinkler system. (Reference standards NFPA 13, ASTM B813, B828, and CDA (Copper Development Association) - Solder Joint) All residual flux must be removed from the interior and exterior of the copper piping by thoroughly flushing before installation of the Sprinkler Heads. Otherwise, residues of flux may cause corrosion and/or leakage in the sprinkler system. Hydraulic Design Criteria The minimum required sprinkler flow rates for systems designed to NFPA 13D or 13R are given in Table A as a function of temperature rating and the maximum allowable coverage area. The sprinkler flow rate is the minimum required discharge from the most hydraulically demanding sprinkler from each of the total number of "design sprinklers" as specified in NFPA 13D or 13R. For systems designed to NFPA 13, the number of designed sprinklers is to be the four most hydraulically demanding sprinklers. The minimum required discharge from each of the four sprinklers is to be the greater of the following: The flow rates given in Table A for NFPA 13D and 13R as a function of temperature rating and maximum allowable coverage area. A minimum discharge of 0.1GPM/sq.ft. [4.07LPM/sq.m] over the "design area" comprised of the four most hydraulically demanding sprinklers for the actual coverage area being protected by the four sprinklers. www.senjusprinkler.com Page 4 of 8 Document No.U085168 02-08-2021 Table A. NFPA 13D & 13R Wet Pipe Hydraulic Design Criteria for Model 558464 For systems with ceiling types smooth flat horizontal, or beamed, or sloped, in accordance with NFPA 13D, 13R or 13 as applicable. Maximum Maximum Ordinary Temperature Intermediate Temperature Coverage Spacing Rating 162°F (72°C) Rating 205°F (96°C) Deflector to Installation Minimum Area (a) Ft. Ceiling Type Spacing Ft x Ft (m) Flow(b)GPM Pressure Flow(b)GPM Pressure ' Ft. (m) (mx m) (LPM) PSI (bar) (LPM) PSI (bar) 12 X 12 12 13 7.0 13 7.0 Smooth (3.7 X 3.7) (3.7) (49.2) (0.48) (49.2) (0.48) Ceilings 3/8 to 7/8 Inches. 14x14 14 13 7.0 13 7.0 (4.3 x 4.3) (4.3) (49.2) (0.48) (49.2) (0.48) Beamed Ceilings per 16x16 16 13 7.0 13 7.0 NFPA 131), Concealed 8 (4.9 x 4.9) (4.9) (49.2) (0.48) (49.2) (0.48) 13R or 13. Installed in (2.4) 18 x 18 18 17 12.0 17 12.0 (5.5 x 5.5) (5.5) (64.4) (0.83) (64.4) (0.83) beam 3/8 to 7/8 inches below bottom 20 x 20 20 21 18.4 21 18.4 (6.1 x6.1) (6.1) (79.5) (1.27) (79.5) (1.27) of beam. For coverage area dimensions less than the above mentioned, it needs to use the minimum required flow for the Next Higher Coverage Area listed. Requirement is based on minimum flow in GPM (LPM) from each sprinkler. The associated residual pressures are calculated using the nominal K-Factor. Refer to Hydraulic Design Criteria Section for details. Sprinkler Spacing Criteria The minimum spacing between sprinklers is 8 feet (2.4m). The maximum spacing between sprinklers cannot go beyond the coverage area calculated by using the specific hydraulic factors. (Ref. Table A) INSTALLATION The Model RC-RES must be installed in accordance with the following instructions: NOTES Do not use any sprinklers which have been subjected to potential mechanical damage. Do not use any sprinklers which show deformation or cracking in either the Sprinkler or the Protective Cap. Prior to installation, sprinklers should be maintained in the original cartons and packaging until used to minimize the potential for damage to the sprinklers that could cause improper operation or non-operation. The Protective Cap must remain on the sprinkler during installation. After the installation is completed, the Protective Cap must be removed to place the sprinkler in service. Use a torque of 7 to 14 ftlbs (9.5 to 19.0 N.m) to achieve a 1/2 inch NPT sprinkler joint. If you exceed the recommended maximum torque, this could result in damage to the sprinkler inlet, which may lead to leakage from the sprinkler. Use only NR-H model wrench socket for installation of RC-RES sprinklers. Use of any other wrench or socket is prohibited and may cause damage to the sprinkler. In case of insufficient adjustment in Cover Plate installation, do not try to overly tighten, screw the sprinkler too loosely or make any modification to the cover plate assembly. Readjust the sprinkler fitting for a better fit. Do not rotate the Cap Removal Tool for RC to the left with force when placing the two hook arms into place. The installed sprinkler may become loosened, which may cause water leakage. www.senjusprinkler.com Page 5 of 8 Document No.1_1085168 . 02-08-2021 en [ Correct j incorrect Figure 3: Installation Figure 4: Ratchet & Socket Installation Steps Step 1: The installation requirements for the sprinkler are as follows: to be installed only in the pendent position with the waterway perpendicular to the ceiling. Install the sprinkler fitting so that the distance from the face of the fitting to the mounting surface will be nominally 2 inches (50.8mm) as shown in Figure 3. Step 2: With pipe thread sealant applied to the threads, hand tighten the sprinkler into the sprinkler fitting. Then tighten it with the Socket NR-H or Ratchet (3/8" drive) & Socket NR-H Combination (Ref. Figure 4). The teeth of the Socket must fit perfectly with the grooves on the Sprinkler for proper installation (Ref. Figure 4). Step 3: If desired, the Protective Cap may also be used to locate the center of the clearance hole by gently pushing the ceiling material against the center point of the Protective Cap. Before the installation of the ceiling, the sprinkler installation can be started with a 2-3/8 inch (60mm) diameter clearance hole (Ref. Figure 3). Use the "Vertical Adjustment" indicator on the Protective Cap to check for proper installation height (Ref. Figure 3). Step 4: Use the Cap Removal Tool for RC to remove the Protective Cap (Ref. Figure 5), and then push or screw a Cover Plate Assembly on the Cup of the Sprinkler by hand until its flange just has contact with the ceiling (Ref. Figure 6 and Figure 7). Stop tightening the Cover Plate Assembly once the flange has contact with the ceiling. If the ceiling has been lifted from its normal position in the process of tightening the Cover Plate Assembly, readjust the cover plate assembly as necessary. If the flange of the Cover Plate Assembly cannot contact the ceiling sufficiently, readjust the sprinkler fitting as necessary. When properly installed, there is a nominal 1/16 inch (1.6mm) air gap between the lip of the Cover Plate and the ceiling, as shown in Figure 6. Hook Up Cap Removal Tool 'I] Steo 1 SteD 2 Figure 5: Protective Cap Removal www.senjusprinkler.com Page 6 of 8 4 Pull down Sten S Document No.U085168 02-08-2021 W im ThIi8n Figure 6: Installation (Cover Plate Assembly) Incorrect I correct IncOrrect Figure 7: Installation (Correct and Incorrect) CARE & MAINTENANCE The following instructions must be implemented for the maintenance and service of the Model RC-RES. Notes Wet pipe sprinkler systems must be maintained at a minimum temperature of 40°F / 4°C to prevent freezing and bursting of the pipe and/or sprinklers. Automatic sprinklers are not to be tested with a heat source. Operation of the heat responsive element can result. Absence of a Cover Plate Assembly may delay the response time of the sprinkler in case of a fire. Install the cover plate assembly properly, as shown in Figure 6. Improper installation of the cover plate assembly may cause improper operation or non-operation. If the ceiling is to be repainted after the installation of the Sprinkler, care must be exercised to ensure that the new paint does not seal off any of the air gap. Factory painted Cover Plates must not be repainted. They should be replaced, if necessary, by factory painted cover plates. Non- factory applied paint may adversely delay or prevent sprinkler operation in case of a fire. Do not pull the Cover Plate. Separation may result. In preparation for maintenance of the fire protection system, permission to close the main control valve must be obtained from the proper authorities, and all affected parties by this action, and must be informed before the maintenance session can commence. Do NOT enclose any sprinklers within drapes, curtains, or valances. Do NOT hang anything from the sprinklers. Do NOT clean the sprinklers with soap and/or water, detergents, ammonia, cleaning fluids, or other chemicals. Remove dust, lint, cobwebs, cocoons, insects, and larvae by gently brushing with a feather duster or gently vacuuming with a soft bristle (i.e., dusting) brush attachment. Exercise suitable safety precautions in the use and storage of highly flammable materials. The rapid rate of fire development and spread of these materials can reduce the ability of the sprinkler system to aid in the control of a fire involving such hazards. www.senjusprinkler.com Page 7 of 8 Document No.U085168 02-08-2021 Leaking or corroded sprinklers must be replaced. Automatic Sprinklers must be kept in a cool and dry place. Automatic sprinklers must never be physically altered, such as painted, plated, or coated, once shipped from the factory. If the sprinklers have been in any way modified, they must be replaced. Great caution must be applied to prevent damage to the sprinklers at all stages - before, during, and after installation. Damaged units because of dropping, hitting, over-tightening, or wrench slippage, must be replaced. The Model RC-RES must only be replaced with pendent sprinklers which are listed for residential fire protection service and which have the same nominal K-Factor, the same coverage area, and the same or lower flow ratings (as indicated under Table A "Hydraulic Design Criteria"). When remodeling, such as by adding false beams or light fixtures or changing the location of compartment walls, first verify that the new construction will not violate the installation requirements of the applicable standards of NFPA. Alter the new construction and/or the sprinkler system to suit the requirements of this document and the applicable NFPA regulations. The owner is responsible for the maintenance of the sprinkler system, including inspection and testing of its compliance with this document, as well as the standards of the National Fire Protection Association (e.g., NFPA 25), and the regulations of any other authorities having jurisdiction. The owner should direct any questions regarding the above rules and regulations to the installing contractors or the sprinkler manufacturer. It is recommended that automatic sprinkler systems be inspected, tested, and maintained by a qualified Inspection Service in accordance with NFPA 25. LIMITED WARRANTY For details of warranty, refer to Sales Contract ORDER PROCEDURE When placing an order, please contact a local distributor with the following information (Model Name, Temperature Rating and Finish). Sprinkler Model: RC-RES SIN: SS8464, Residential Flat Concealed Sprinkler, Pendent, K4.9, Temperature: 162°F (72°C) or 205°F (96°C) Cover Plate Assembly 2-5/8 inch (()68mm) or 3-1/4 inch (4583mm) or 2-5/8 inch square (068mm), Order separately from Sprinkler Please refer to the chart below for available sizes, temperature, and finishes. White I Ivory I Beige I Standard Brown Finishes Black Nickel Copper Wood .,rain Custom Custom Color Finishes Custom Pattern 2-5/8" Round, 140°F 0 0 - - - - - - 0 0 3-1/4" Round, 140°F 0 0 0 0 0 0 0 0 0 0 2-5/8" Square, 140°F 0 - - - - - - - 0 0 2-5/8" Round, 162°F 0 - - - - - - - 0 0 3-1/4" Round, 162°F 0 0 0 0 - - 0 © © 2-5/8" Square, 162°F 0 - - - - - - - © 1 0 Tools & Accessories Socket NR-H for use with a 3/8" drive ratchet (not included) Socket NR-H Plastic for use with a 1/2" drive ratchet (not included) Cap Removal Tool for RC Cover Plate Installation Tool www.senjusprinkler.com Page 8 of 8 Document No.U085168 . 02-08-2021 Worldwide tllcu Contacts www.tyco-fire.com Series TY.FRB, 56 K-factor Upright, Pendent, and Recessed Pendent Sprinklers Quick Response, Standard Coverage General Description The TYCO Series TY-FRB, 5.6 K-factor, Upright (TY313) and Pendent (TY323) Sprinklers described in this data sheet are quick response, standard coverage, decorative 3 mm glass bulb-type spray sprinklers designed for use in light or ordinary hazard, commercial occupan- cies such as banks, hotels, and shop- ping malls. The recessed version of the Series TY-FRB Pendent Sprinkler, where applicable, is intended for use in areas with a finished ceiling. This recessed pendent sprinkler uses one of the following: A two-piece Style 15 Recessed Escutcheon with recessed adjust- ment up to 5/8 in. (15,9 mm) from the flush pendent position. A two-piece Style 20 Recessed Escutcheon with recessed adjust- ment up to 1/2 in: (12,7 mm) from the flush pendent position. The adjustment provided by the Recessed Escutcheon reduces the accuracy to which the fixed pipe drops to the sprinklers must be cut. Intermediate level versions of Series TY-FRB Sprinklers are described in Technical Data Sheet TFP357. Sprin- kler guards and shields are described in Technical Data Sheet TFP780. IMPORTANT Refer to Technical Data Sheet TFP2300 for warnings pertaining to regulatory and health information. Always refer to Technical Data Sheet TFP700 for the "INSTALLER WARNING" that provides cautions with respect to handling and instal- lation of sprinkler systems and com- ponents. Improper handling and installation can permanently damage 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 NOTICE The TYCO Series TY-FRB Sprinklers described herein must be installed and maintained in compliance with this document, as well as with the applicable standards of the National Fire Protection Association, in addition to the standards of any other authori- ties having jurisdiction. Failure to do so may impair the performance of these devices. The owner is responsible for main- taining their fire protection system and devices in proper operating con- dition. Contact the installing contrac- tor or product manufacturer with any questions. Sprinkler Identification Number (SIN) TY313.... Upright 5.61K, 1/2 in. NPT TY323. . . .Pendent 5.61K, 1/2 in. NPT Technical Data Approvals Refer to Table A Maximum Working Pressure 175 psi (12.1 bar) 250 psi (17.2 bar)* The maximum working pressure of 250 psi (17.2 bar) only applies to the listing by Underwriters Laborato-ries, Inc. (UL). Discharge Coefficient K=5.6 GPM/p5i½ (80,6 LPM/bar½) Temperature Rating Refer to Table A Finishes Sprinkler: Refer to Table B Recessed Escutcheon: White Coated, Black Coated, Chrome Plated, or Brass Plated Physical Characteristics Frame ............................Bronze Button ......................Brass/Copper Sealing Assembly . . . Stainless Steel w/TEFLON Bulb...............................Glass Compression Screw .................Bronze Deflector ..........................Bronze AUGUST 2018 Operation The glass bulb contains a fluid which expands when exposed to heat. When the rated temperature is reached, the fluid expands sufficiently to shatter the glass bulb, allowing the sprinkler to activate and water to flow. Design Criteria The TYCO Series TY-FRB, 5.6 K-factor, Upright (TY313) and Pendent (TY323) Sprinklers are intended for fire protec- tion systems designed in accordance with the standard installation rules recognized by the applicable Listing or Approval agency (such as, UL Listing is based on the requirements of NFPA 13, and FM Approval is based on the requirements of FM's Loss Prevention Data Sheets). Only the Style 15 or Style 20 Recessed Escutcheon is to be used for recessed pendent installations. TFPI72 ESCUTCHEON PLATE SEATING SURFACE 2" (50,8 mm) V 1-3/8 - (34,9 mm) 1 -c STYLE 150r20 1/2" 7/16" (11,1 mm) RECESSED NPT** NOMINAL MAKE-IN ESCUTCHEON / WRENCH FLATS DEFLECTOR * 2-7/8' (73,0 mm) DIA. TFPI72 Page 2 of 4 Components: 1 - Frame 4 - Bulb 2 - Button 5 - Compression 3 - Sealing Screw Assembly 6 - Deflector* 7/16" 7 I I (11,1 mm) NOMINAL MAKE-IN 2' NI [ (50,8 mm) 1/2" NPT** DEFLECTOR * ** Pipe thread connections per ISO 7-1 can be provided on special request. * Temperature rating is indicated on Deflector. 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 Installation The TYCO Series TY-FRB, 5.6 K-factor, Upright (TY313) and Pendent (TY323) Sprinklers must be installed in accor- dance with this section. General Instructions 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 sprinkler held horizontally, a small air bubble should be present. The diam- eter of the air bubble is approximately 1/16 in. (1,6 mm) for the 135°F (57°C) and 3/32 in. (2,4 mm) for the 286°F (141°C) temperature ratings. A leak-tight 1/2 in. NPT sprinkler joint should be obtained by applying a minimum to maximum torque of 7 to 14 lb-ft (9,5 to 19,0 N.m). Higher levels of torque can distort the sprinkler Inlet with consequent leakage or impairment of the sprinkler. Do not attempt to compensate for insufficient adjustment in the Escutch- eon Plate by under- or over-tightening the sprinkler. Re-adjust the position of the sprinkler fitting to suit. Upright and Pendent Sprinklers The Series TY-FRB Upright and Pendent 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. Step 3. Tighten the sprinkler into the sprinkler fitting using only the W-Type 6 Sprinkler Wrench (Figure 2). With ref- erence to Figure 1, apply the W-Type 6 Sprinkler Wrench to the wrench flats. Torque sprinklers 7 to 14 lb-ft (9,5 to 19,0 N•m). Recessed Pendent Sprinklers The Series TY-FRB Recessed Pendent Sprinklers must be installed in accor- dance with the following instructions. Step A. After installing the Style 15 or Style 20 Mounting Plate over the sprinkler threads, and with pipe-thread sealant applied to the pipe threads, hand-tighten the sprinkler into the sprinkler fitting. Step B. Tighten the sprinkler into the, sprinkler fitting using only the W-Type 7 Recessed Sprinkler Wrench (Figure 3). With reference to Figure 1, apply the W-Type 7 Recessed Sprinkler Wrench to the sprinkler wrench flats. Torque sprinklers 7 to 14 lb-ft (9,5 to 19,0 N.m). Step C. After ceiling installation and finishing, slide on the Style 15 or Style 20 Closure over the Series TY-FRB Sprinkler and push the Closure over the Mounting Plate until its flange comes in contact with the ceiling. / WRENCH RECESS / (USE ONLY FIGURE 2 W-TYPE 6 SPRINKLER WRENCH WRENCH RECESS PUSH WRENCH IN TO ENSURE ENGAGEMENT WITH SPRINKLER WRENCHING AREA FIGURE 3 W-TYPE 7 RECESSED SPRINKLER WRENCH TFPI72 Page 3 of 4 Care and Maintenance The TYCO Series TY-FRB, 5.6 K-factor, Upright (TY313) and Pendent (1Y323) Sprinklers must be maintained and ser- viced in accordance with this section. Before closing a fire protection system main control valve for maintenance work on the fire protection system that it controls, obtain permission to shut down the affected fire protection systems from the proper authorities and notify all personnel who may be affected by this action. Absice of the outer piece of an escutcheon, which is used to cover a clearance hole, can delay sprinkler operation in a fire situation. The owner must assure that the sprin- klers are not used for hanging any objects and that the sprinklers are only cleaned by means of gently dusting with a feather duster; otherwise, non- operation in the event of a fire or inad- vertent operation may result. Sprinklers which are found to be leaking or exhibiting visible signs of corrosion must be replaced. Automatic sprinklers must never be painted, plated, coated, or other- 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 Asso- ciation (e.g., NFPA 25), in addition to the standards of any other authorities having jurisdiction. Contact the install- ing contractor or product manufacturer with any questions. Automatic sprinkler systems are rec- ommended to be inspected, tested, and maintained by a qualified Inspec- tion Service in accordance with local requirements and/or national codes. Limited Warranty For warranty terms and conditions, visit www.tyco-fire.com. Ordering Procedure Contact your local distributor for avail- ability. When placing an order, indicate the full product name and Part Number (P/N). Sprinkler Assemblies with NPT Thread Connections Specify: Series TY-FRB Upright or Pendent (specify) Sprinkler, SIN (specify), K=5.6, Quick Response, (specify) temperature rating, (specify) finish, P/N (specify, refer to Table A). Recessed Escutcheon Specify: Style 15 Recessed Escutch- eon 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 2-7/8' DIA. (73,0 mm) 2-1/4 DIA. FACE OF (57,2 mm) SPRINKLER FITTING ____ ______________ FLUSH 3/8±5/16" F~ ____________ 5/8(15,9mm) (9,5±7,9 mm) \ 1/8" J I'— MOUNTING SURFACE ______ _____ (3,2 mm) CLOSURE SERIES MOUNTING 1-3/8 (34,9 mm) TYFRB PLATE 3/4" (19,1 mm) FIGURE 4 SERIES TY-FRB RECESSED PENDENT SPRINKLER ASSEMBLY (TY323) WITH TWO PIECE 5/8 INCH TOTAL ADJUSTMENT STYLE 15 RECESSED ESCUTCHEON 2-7/8 DIA. (73,0 mm) FACE OF SPRINKLER - 2-1/4 DIA. FITTING (57,2 mm) 5/16±1/4" 1/2 (12,7 mm) (7,9±6,4 mm) FLUSH // MOUNTING / 1;8, SURFACE \ (3,2 mm) CLOSURE SERIES MOUNTING 1-3/8" (34,9 mm) TYFRB PLATE 7/8" (22,2 mm) FIGURE 5 SERIES TY-FRB RECESSED PENDENT SPRINKLER ASSEMBLY (TY323) WITH TWO PIECE 1/2 INCH TOTAL ADJUSTMENT STYLE 20 RECESSED ESCUTCHEON TFPI72 Page 4 of 4 SPRINKLER FINISH (See Note 7) K FACTOR TYPE TEMPERATURE BULB LIQUID COLOR NATURAL BRASS I CHROME PLATED 1 POLYESTER, 5.6 1/2 in. NPT UPRIGHT (TY313) and PENDENT (TY323) 135°F (57°C) Orange 1, 2, 3, 4, 5, 6 155°F (68°C) Red 175°F (79°C) Yellow 200°F (93°C) Green 286-F (141-q Blue RECESSED PENDENT (TY323) Figures 4a and 5b 135°F (57°C) Orange 1,21 3,4 155°F (68°C) Red 175°F (79°C) Yellow 200°F (93°C) Green Notes: - Listed by Underwriters Laboratories, Inc., (UL) as Quick Response Sprinklers. Listed by Underwriters Laboratories, Inc., for use in Canada (C-UL) as Quick Response Sprinklers. Approved by Factory Mutual Research Corporation (FM) as Quick Response Sprinklers. Approved by the City of New York under MEA 354-01-E. VdS Approved (For details, contact Johnson Controls, Enschede, Netherlands, Tel. 31-53-428-4444/Fax 31-54-428-3377.) Approved by the Loss Prevention Certification Board (LPCB Ref. No. 094a/06) as Quick Response Sprinklers. Where Polyester Coated Sprinklers are noted to be UL and C-UL Listed, the sprinklers are UL and C-UL Listed as Corrosion-Resistant Sprinklers. Installed with Style 15(1/2 in. NPT) 5/8 in. Total Adjustment Recessed Escutcheon, as applicable. Installed with Style 20(1/2 in. NPT) 1/2 in. Total Adjustment Recessed Escutcheon, as applicable. Frame and Deflector only. Listings and approvals apply to color (Special Order). TABLEA LABORATORY LISTINGS AND APPROVALS FOR 5.6 K-FACTOR SPRINKLERS P/Na 77_XXX_X_XXX 9 CHROME PLATED Notes: a. Eastern Hemisphere sales only TABLE B SERIES TY-FRB UPRIGHT AND PENDENT SPRINKLERS PART NUMBER SELECTION I I SIN I 370 1 5;6K UPRIGHT (1/2 in.NPT) TY313 371 1 5.6K PENDENT (1/2 in.NPT) TY323 Notes: a. Use suffix "I" for ISO 7-1 connection; for example, 77-370-4-175-I I SPRINKLER FINISH 1 NATURAL BRASS PURE WHITE (RAL901O)a - POLYESTER SIGNAL WHITE (RAL9003) POLYESTER JET BLACK (RAL9005) POLYESTER I TEMPERATURE RATINGS 1135 135°F(57°C) 1551 155°F(68°C) i-;; 1 175-F (79-C) 2001 200°F(93°C) 286 1 286°F (141-C) 1400 Pennbrook Parkway, Lansdale, PA 194461 Telephone +1-215-362-0700 02018 Johnson controls. All rights reserved. All specifications and other Information Shown were current as RI document revision date and are subject to change without notice. Johnson Alti NATIONAL :IRE PROTECTION ASSOCIATION and NEPA are registered trademarks, r National Fire Protection Association; TEFLON is registered trademark of DuPont - DISCHARGE AND HYDRAULIC CALCULATIONS 13D-23 Table 10.4.4(a) Pressure Losses in psi in Water Meters Meter Size Flow (gpm) (L/min) (in.) 18 or less (68) 23 (87) 26(98) 31(117) 39(148) 52(197) 4(15 nun) 9 (0.67 bar) 14 (0.97 bar) 18 (1.2 bar) 26 (1.8 bar) 38 (2.6 bar) * V,(20 mm) 7 (0.48 bar) 11 (0.76bar) 14 (1.5 bar) 22 (1.5 bar) 35 (2.4 bar) * 1 (25 mm) 2 (0.14 bar) 3 (0.21 bar) 3 (0.21 bar) 4 (0.28 bar) 6 (0.41 bar) 10 (0.69 bar) lV2(40 mm) 1 (0.07 bar) 1 (0.07 bar) 2 (0.14 bar) 2 (0.14 bar) 4 (0.28 bar) 7 (0.48 bar) 2 (50 mm) 1 (0.07 bar) 1 (0.07 bar) 1 (0.07 bar) 1 (0.07 bar) 2 (0.14 bar) 3 (0.21 bar) For SI units, 1 gpm = 3.785 L/min; 1 in. = 25 mm; 1 psi = 0.07 bar. *Above maximum rated flow of commonly available meters. (1) The system flow rate shall be established in accordance with Sections 10.1 and 10.2, and it shall be determined that the flow allowed by the water meter meets or exceeds the system demand and that the total demand flow does not exceed the maximum flow allowed by the piping system components. (2) The water pressure in the street shall be determined. (3) Pipe sizes shall be selected. (4) * Pressure loss for a water meter, if any, shall be deter- mined and deducted using one of the following: Table 10.4.4(a) shall be permitted to be used, even where the sprinkler demand flow exceeds the meter's rated continuous flow. Higher pressure losses specified by the manufac- turer shall be used in place of those specified in Table 10.4.4(a). Lower pressure losses shall be permitted to be used where supporting data are provided by the meter manufacturer. (5) Pressure loss for elevation shall be deducted as follows: Building height above street (ft) x 0.433 = pressure loss (psi) Building height above street (m) x 0.098 = pres- sure loss (bar) (6) * Pressure losses from the city main to the inside control valve shall be deducted by multiplying the pressure loss associated with the pipe material by the total length(s) of pipe in feet (meters). (7) Pressure loss for piping within the building shall be deducted by multiplying the pressure loss associated with the pipe material by the total length(s) of pipe in feet (meters). (8) Pressure loss for valves and fittings shall be deducted as follows: The valves and fittings from the control valve to the farthest sprinkler shall be counted. The equivalent length for each valve and fitting as shown in Table 10.4.4(b), Table 10.4.4(c), Table 10.4.4(d), or Table 10.4.4(e) shall be determined and the values added to obtain the total equivalent length for each pipe size. The equivalent length for each size shall be multi- plied by the pressure loss associated with the pipe material and the values totaled. In multilevel buildings, the steps in 10.4.4(1) through 10.4.4(8) shall be repeated to size piping for each floor. If the remaining pressure is less than the operating pres- sure established by the testing laboratory for the sprin- kler being used, the sprinkler system shall be redesigned. If the remaining pressure is higher than required, smaller piping shall be permitted to be used where justi- fied by calculations. The remaining piping shall be sized the same as the piping up to and including the farthest sprinkler unless smaller pipe sizes are justified by calculations. 10.4.5 To size piping for systems with an elevated tank, pump, or pump-tank combination, the pressure at the water supply outlet shall be determined and the steps in 10.4.4(3), (4), (7), (8), (9), (10), and (11) shall be followed. 10.4.6 Hydraulic calculation procedures in accordance with NFPA 13 shall be used for grid-type systems. 10.4.7 Hydraulic calculation procedures in accordance with NFPA 13 shall be used for looped-type systems. 10.4.8 Hydraulic calculation procedures in accordance with NFPA 13 shall be used for systems connected to city water mains of less than 4 in. (100 mm) in diameter. 10.4.9 Prescriptive Pipe Sizing Method. Pipe shall be sized by determining the available pressure to offset friction loss in piping and identifying a piping material, diameter, and length using the equation in 10.4.9.1 and the procedure in 10.4.9.2. Table 10.4.4(b) Equivalent Length in Feet of Fittings and Valves for Schedule 40 Steel Pipe Tee or Cross Long. Tee or Cross (flow Globe "Y" Diameter 45 Degree 90 Degree Radius (flow turned straight Pattern (in.) Elbow Elbow Elbow 90 degrees) through) Gate Valve Angle Valve Globe Valve Valve Cock Valve Check Valve 1 (25 mm) 1(0.3 m) 2 (0.6 m) 2 (0.6 m) 5 (1.5 m) 2 (0.6 m) 0 12 (3.7 m) 28 (8.5 m) 15 (4.6 m) 4 (1.2 m) 5 (1.5 m) V/4(32 mm) 1(0.3 m) 3 (0.9 m) 2 (0.6 m) 6 (1.8 m) 2 (0.6 m) 0 15 (4.6 m) 35 (10.7 m) 18 (5.5 m) 5 (1.5 m) 7 (2.1 m) 1)12(40mm 2 (0.6 m) 4(1.2 m) 2 (0.6 m) 8 (2.4 m) 3 (0.9 m) 0 18 (5.5 m) 43 (13.1 m) 22 (6.7 m) 6 (1.8 m) 9 (2.7 m) 2 (50 mm) 2 (0.6 m) 5 (1.5 m) 3 (0.9 m) 10 (3m) 3 (0.9 m) 1(0.3 m) 24 (7.3 m) 57(17.4 m) 28 (8.5 m) 7 (2.1 m) 11(3.3 m) For SI units, I in. = 25 mm; 1 ft = 0.3 m. 2016 Edition B A G SPECIFICATION SUBMITTAL SHEET FEATURES Sizes: 03/4" U 1" U 1-1/4" U 1-1/2" U 2" Maximum working water pressure 175 PSI Maximum working water temperature 180°F Hydrostatic test pressure 350 PSI End connections Threaded ANSI B1.20.1 OPTIONS (Suffixes can be combined) U - with full port QT ball valves (standard) U L - less ball valves U U - with union ball valves U S - with bronze "Y" type strainer U TCU - with test cocks "vertical" up U V - with union swivel elbows (3/4'.'& 1") U OSY - with OS & Y gate valves U FDC - with fire hydrant connection (2" only) U FT - with integral male 450 flare SAE test fitting APPLICATION Designed for installation on potable water lines to protect against both backsiphonage and backpressure of polluted water into the potable water supply. Assembly shall provide protection where a potential health hazard does not exist. STANDARDS COMPLIANCE (All sizes approved horizontal. Vertical approvals as listed below.) ASSE® Listed 1015 (vertical 3/4", 1 1/4", 1 1/2" & 2") IAPMO® Listed (vertical I 114"-2") CSA® Listed (vertical 3/4", 1 1/4", 1 1/2" & 2") AWWA Compliant C510 (vertical 3/4") UL® Classified (less shut-off valves only) C-UL® Classified (less shut-off valves only) Approved by the Foundation for Cross Connection Control and Hydraulic Research at the University of Southern California (vertical 3/4") City of Los Angeles Approved (vertical 1-1/4"-2") NYC MEA 426-89-M VOL 3 MATERIALS Main valve body Cast Bronze ASTM B 584 Access covers Cast Bronze ASTM B 584 Internals Stainless Steel, 300 Series Elastomers Silicone (FDA approved) Buna Nitrile (FDA approved) Polymers NorylTM, NSF Listed Springs Stainless steel, 300 series ACCESSORIES U Repair kit (rubber only) U Thermal expansion tank (Model WXTP) U QT-SET Quick Test Fitting Set U Test Cock Lock (Model TCL24) 41 DIMENSIONS & WEIGHTS (do not include pkg.) DIMENSIONS (approximate) WEIGHT MODEL A UNION B LESS BALL LESS WITH SIZE A BALL VALVES C D E F G BALL BALL VALVES VALVES VALVES in. mm in. mm in. mm in. mmmm in. I mm in. mm in. mm in. mmlbskglbsg 3/4 20 111/4 286 121/2 318 7 178 11/2 38 3 76 31/2 89 3 76 15 381 5 2.3 7 3.2 1 25 121/4 311 137/8 353 7 178 11/2 38 3 76 3 1/2 89 3 76 173/4 451 8 3.6 12 5.4 11/4 32 151/2 419 181/2 470 109/16 268 2 51 31/2 89 41/2 114 41/2 114 211/2 546 16 7.3 22 10 11/2 40 171/8435 191/8 486 109/16 268 2 51 31/2 89 41/2 114 41/2 114 223/4 578 16 7.3 22 10 2 501181/44601 20 15081109/16 2681 2 1 51131/2 89141/2 114 114251/8 638116 7.3128112.7, DOCUMENT#: REVISION: BF-950XL 7/12 Page 1 of 2 WILKINS a Zurn company, 1747 Commerce Way, Paso Robles, CA 93446 Phone:805-238-7100 Fax:805-238-5766 In Canada: ZURN INDUSTRIES LIMITED, 3544 Nashua Dr., Mississauga, Ontario L4V 1L2 Phone:905-405-8272 Fax:905-405-1292 Product Support Help Line: 877-BACKFLOW (877-222-5356) Website: http:IIwww.zurn.com FLOW CHARACTERISTICS MODEL 950XL 3/4", 1", 1 1/4",11 1/2" & 2" (STANDARD & METRIC) FLOW RATES (us) 0 a. (I, Co 0 -j Ui U) U) Ui IX IL ELT P.- I III' 11' III '4. I FLOW RATES (GPM) 0 Rated Flow (Established by approval agencies) TYPICAL INSTALLATION Local codes shall govern installation requirements. To be installed in accordance with the manufacturer's instructions and the latest edition of the Uniform Plumbing Code. Unless otherwise specified, the assembly shall be mounted at a minimum of 12" (305mm) and a maximum of 30" (762mm) above adequate drains with sufficient side clearance for testing and maintenance. The installation shall be made so that no part of the unit can be submerged. Capacity thruSchedule 40 Pipe Pipe size 5 ft/sec 7.5 ft/sec 10 ft/sec 15 ft/sec 1/8" 1 1 2 3 1/4" 2 2 3 5 3/8" 3 4 6 9 1/2 5 1 7 9 14 3/4" 8 12 17 25 13 20 27 40 1 1/4" 23 35 47 70 1 1/2" 32 48 63 95 52 78 105 167 DIRECTION OF FLOW OUTDOOR INSTALLATION INDOOR INSTALLATION SPECIFICATIONS The Double Check Valve Backflow Preventer shall be ASSE® Listed 1015 approved, and supplied with full port ball valves. The main body and access covers shall be bronze (ASTM B 584), the seat rings and all internal polymers shall be NSF® Listed NorylTM and the seat disc elastomers shall be silicone. The first and second checks shall be acces- sible for maintenance without removing the device from the line. The Double Check Valve Backflow Preventer shall be a WILKINS Model 950XL. WILKINS a Zurn company, 1747 Commerce Way, Paso Robles, CA 93446 Phone:805-238.7100 Fax:805-238-5766 IN CANADA: ZURN INDUSTRIES LIMITED, 3544 Nashua Dr., Mississauga, Ontario L4V 1L2 Phone:905-405-8272 Fax:905.405-1292 Product Support Help Line: 877-BACKFLOW (877-222-5356) • Website: http:llwww.zurn.com Page 2 of 2 Al B RESI-RISERTM i NATIONAL , 'I FIRE PRODUCTS Pre-assembled, compact fire sprinkler riser unit for residential sprinkler systems COMPONENTS DESCRIPTION 1 Manifold body, male thread x male thread 2 Inline check valve, spring-loaded 3 Flow switch with retard 14 Drain valve, with optional pressure relief valve S Pressure gauge, 0-300 psi FEATURES & BENEFITS Manifold is manufactured as a one- piece casting that is air-tested for leaks Raised lettering on both sides allows installation to the right or left and easily identifies the flow direction and test and drain outlet Two mounting legs are molded onto the manifold allowing for a secure right or left anchoring Flow switch has dual SPDT switches and a retard of 0-90 seconds Optional "all-in-one" cost-saving combination pressure relief valve/test and drain valve is available Unique, compact design allows installation within standard frame construction and in tighter spaces TECHNICAL DATA Sizes: 1", 1-1/4", 1-1/2", 2" Style: Thread x thread Riser Body Finish: Cast brass Water Pressure Gauge: 0-300 psi Optional Accessories: 175 psi pressure relief valve/test and drain In accordance with NFPA 13,13R and 13D Flow switch and pressure gauge are UL Listed UL lily j 'E.-I[iJ E II DESCRIPTION r i-i/ti" 1-112" A Height* 13" 13" 13" B Width** 11" 12" 12-1/4' C Depth 3-1/2" 3-1/2 3-1/2" - Drain Size 1/2" 1" 1" Dimensions include all spacing needed to operate drain valve and remove flow switch cover * Without check valve "With or without pressure relief valve 13" 12-3/4' 3-1/2" 1.1 02019 National Fire Products 0819 1342881 I NATIONAL RESI-RISER TM FIRE PRODUCTS MODEL NUMBERS WITH INLINE WITH SWING WITH PRESSURE WITH CPVC PART # CHECK VALVE CHECK VALVE RELIEF VALVE ADAPTERS SR100-IR4 '1 SR100-R4 SR100-SR4 'I SR100-IRR4 SR100-SRR4 'I SR100-IR4-TD SR100-SR4-TD SR100-IRR4-TD SR100-RR4-TD I I SR100-SRR4-TD 1 1 1 SR125-IR4 I SR125-R4 SR125-SR4 I SR125-IRR4 I I SR125-SRR4 I I SR125-IR4-TD I I SR125-SR4-TD I I SR125-IRR4-TD I I I SR125-RR4-TD I I SR125-SRR4-TD I I I SR15O-R4 I SR15O-R4 SR150-SR4 I SR150-IRR4 'I I SR150-SRR4 'I I SR150-IR4-TD I SR150-SR4-TD 1 1 SR150-IRR4-TD SR150-RR4-TD I I SR150-SRR4-TD 1 1 1 SR200-IR4 I SR200-R4 SR200-SR4 I SR200-IRR4 I I SR200-SRR4 I I SR200-IR4-TD I I SR200-SR4-TD I I SR200-IRR4-TD I I I SR200-RR4-TD I I SR200-SRR4-TD I I I 02019 National Fire Products 0819 1342881 Relieving pressure Manual Open: exceeding 175 psi Drain or flow switch test Locked closed for hydrostatic test RESI-RISER" Normal Position: Static pressure •NATIONALF IAFI FIRE PRODUCTS HOW IT WORKS: PRESSURE RELIEF/TEST S DRAIN I PRESSURE LOSS 10 8 CL 0 10 20 30 40 50 60 70 80 90 100 Flow (gpm) 1' 1-1/4'.1-1/2' 2' ©2019 National Fire Products 0819 1342881 REI_RISERTM NATIONAL FIRE PRODUCTS INLINE SPRING CHECK VALVE COMPONENTS DESCRIPTION 1 Nut 2 Spring Cap 3 Spring 4 0-Ring Seat 5 Clapper, Spring-Loaded B Body 7 Washer DIMENSIONS 1" 11/11" 1-1/2" 2" A 1-9/16' 2" 2-1/8" 2-3/4" B 3-1/4' 3-5/8" 4" 5" C 1-3/16" 1-9/16' 1-3/4" 2-3/16" MATERIAL Stainless Steel Stainless Steel Stainless Steel Rubber Brass Brass Teflon'' 02019 National Fire Products 0819 1342881