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Home My WebLink AboutF14-0059 cut sheets.pdf Project Name : Garmisch Haus Drawing No. : Project Location: 2476 S Garmisch Dr. City: Vail, CO 81657CALCULATION SUMMARYDesign AreasDesign AreaNameMin.DensityArea ofApplicationOccupancyCalculatedHeadsMin.PressureHoseStreamsTotal WaterPressure @SourceMargin ToSource(gpm/ft²)(ft²)#(psi)(gpm)(gpm)(psi)(psi)Min.Flow(gpm)Calc. Mode(Model) 1Res115293.8Required26.60.08234013.515.7Demand (HW) 2Res115294.3Required32.70.0823407.315.7Demand (HW)Date 9/24/2014Page 1Copyright © 2002-2012 Tyco Fire Protection ProductsFile: C:\dwg\temp folder\Garmisch Res_1_1_6365.sv$ Design Remote Area Name Remote Area Location Occupancy Classification Density (gpm/ft²) Area of Application (ft²) Coverage per Sprinkler (ft²) Number of Calculated Sprinklers In-Rack Demand (gpm) Special Heads Hose Streams (gpm) Total Water Required (incl. Hose Streams) (gpm) Required Pressure at Source (psi) Type of System Volume - Entire System (gal) 1 Loft Res 0.08 1152 288 4 0 0 93.8 40.1 (available @ demand flow) Wet 31.8 gal Water Supply Information Date Location Source HYDRAULIC CALCULATIONS for Aug 2014 near site W1 4 head calculations Project Name : Garmisch Haus Contract No. : Project Location: 2476 S Garmisch Dr. City: Vail, CO 81657 Date: 8/1/2014 Name of Contractor: Phoenix Automatic Address: Phone Number: Name of Designer: TEM Authority Having Jurisdiction: Vail FIre City: E-mail: Job Information Contractor Information Notes Date 9/24/2014 Page 2Copyright © 2002-2012 Tyco Fire Protection Products File: C:\dwg\temp folder\Garmisch Res_1_1_6365.sv$ Job : Garmisch HausDiagram for Design Area : 1(Optimized Hydraulic Simplified)Node Labels:Pipe Labels:OffOffDate 9/24/2014Page 3Copyright © 2002-2012 Tyco Fire Protection ProductsFile: C:\dwg\temp folder\Garmisch Res_1_1_6365.sv$ Job : Garmisch Haus Hydraulic Analysis for : 1 Water Supply Parameters Calculation Info Calculation Mode Hydraulic ModelFluid Name Fluid Weight, (lb/ft³)Fluid Dynamic Viscosity, (lb·s/ft²) Demand Hazen-WilliamsWater @ 60F (15.6C) N/A for Hazen-Williams calculation.N/A for Hazen-Williams calculation. Supply 1 : W1 Flow (gpm)Pressure (psi) 0 40.5 789 18 Node at Source Static Pressure (psi) Residual Pressure (psi) Flow (gpm) Available Pressure (psi) Total Demand (gpm) Required Pressure (psi) Supply Analysis W1 40.5 18 789 40.1 93.8 26.6 System Pump Flow (gpm)Pressure (psi) Rated Flow (gpm) Rated Pressure (psi) Parameters not defined not defined 0 57.1 40 55.8 80 51.9 120 45.8 160 31.1 178 22 Date 9/24/2014 Page 4Copyright © 2002-2012 Tyco Fire Protection Products File: C:\dwg\temp folder\Garmisch Res_1_1_6365.sv$ 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) Hoses Ovehead Sprinkler Flow (gpm) InRack Sprinkler Flow (gpm) Other (custom defined) Sprinkler Flow (gpm) Total Sprinkler Flow (gpm) 93.8 0 0 93.8 Required Margin of Safety (psi) W1 - Pressure (psi) W1 - Flow (gpm) Demand w/o System Pump(s) 0 26.6 93.8 76.6 psi @ 93.8 gpm Sprinklers Other Available @ 020-O (psi) Required @ 020-O (psi) Safety Margin @ 020-O (psi) 69.5 56 13.5 Pressure Summary @ Pump Discharge Date 9/24/2014 Page 5Copyright © 2002-2012 Tyco Fire Protection Products File: C:\dwg\temp folder\Garmisch Res_1_1_6365.sv$ Job : Garmisch HausHydraulic Analysis for : 1Adj. System DemandAdj. Available SupplySystem PumpFlow, gpmPressure, psi80706050403020100D1D2Adjusted Available Supply: 69.5 psi @ 93.8 gpm0 100 150 200Date 9/24/2014Page 6Copyright © 2002-2012 Tyco Fire Protection ProductsFile: C:\dwg\temp folder\Garmisch Res_1_1_6365.sv$ Job : Garmisch Haus Hydraulic Analysis for : 1 Pressure (psi)Label Graph Labels Flow (gpm) ValuesDescription 0D1 11.7Elevation Pressure 93.8D2 56System Demand Open Heads Head Ref.DensityDensityK-Factor PressureFlowPressure (gpm/ft²)(gpm/ft²)(gpm/psi½)(psi)(gpm)(psi) Flow (gpm) Coverage (ft²) Required CalculatedHead Type 100 5.8 0.05 14.4 15.7 0.08 15.723288OverheadSprinkler 101 5.8 0.05 14.4 15.7 0.08 15.723288Overhead Sprinkler 102 5.8 0.05 14.4 15.7 0.083 1723.9288OverheadSprinkler 103 5.8 0.05 14.4 15.7 0.083 1723.9288OverheadSprinkler Date 9/24/2014 Page 7Copyright © 2002-2012 Tyco Fire Protection Products File: C:\dwg\temp folder\Garmisch Res_1_1_6365.sv$ Hydraulic CalculationsJob : Garmisch Haus PIPE INFORMATION Node 1 Node 2 Elev 1 Elev 2 (ft) K-Factor 1 K-Factor 2 (gpm/psi½) Flow added (q) Total flow (Q) (gpm) Nominal ID Actual ID (in) Fittings quantity x (name) = length (ft) L F T (ft) C Factor Pf per ft (psi) total (Pt) elev (Pe) frict (Pf) (psi) NOTES 1Path No: 101 103 18 18 5.8 5.8 23 23 1 1.055 12 0 12 150 0.1079 15.7 0 1.3 103 003 18 17.42 5.8 23.9 46.9 1.25 1.291 1x(us.Tee-Br)=6.55 2x(us.90)=6.55 7.31 13.1 20.41 150 0.1512 17 0.3 3.1 003 015 17.42 -0.5 46.9 93.8 1.5 1.527 2x(us.Tee-Br)=18.67 6x(us.90)=28.01 39.23 46.68 85.91 150 0.241 20.3 7.8 20.7 015 017 -0.5 -9 0 93.8 2 2.009 2x(us.90)=13.15 15.07 13.15 28.21 150 0.0634 48.8 3.7 1.8 017 018-I -9 -9 0 93.8 2 0 0.5 0 0.5 0 1.3557 54.3 0 0.7 Flow Switch *** 018-I 019-O -9 -9 0 93.8 2 2.009 1x(coupling)=1.31 0.28 1.31 1.6 150 0.0634 55 0 0.1 019-O 019-I -9 -9 0 93.8 2 0 0.56 0 0.56 0 1.5787 55.1 0 0.9 Swing Check *** 019-I 020-O -9 -9 0 93.8 2 2.009 1x(coupling)=1.31 0.31 1.31 1.62 150 0.0634 55.9 0 0.1 020-I 021-O -9 -9 0 93.8 2 2.009 1x(coupling)=1.31 0.7 1.31 2.01 150 0.0634 6 0 0.1 021-O 021-I -9 -9 0 93.8 2 0 0.5 0 0.5 0 12.0818 6.1 0 6 Febco 850 SMALL *** 021-I 022-O -9 -9 0 93.8 2 2.009 1x(coupling)=1.31 0.38 1.31 1.69 150 0.0634 12.2 0 0.1 022-O 022-I -9 -9 0 93.8 2 0 0.5 0 0.5 0 6.0617 12.3 0 3 WILKINS PRV *** 022-I W1 -9 -9.5 0 93.8 2 2.009 5x(us.90)=32.86 141.12 32.86 173.98 150 0.0634 15.3 0.2 11 W1 26.6 2Path No: 100 102 18 18 5.8 5.8 23 23 1 1.055 12 0 12 150 0.1079 15.7 0 1.3 102 003 18 17.42 5.8 23.9 46.9 1.25 1.291 1x(us.Tee-Br)=6.55 2x(us.90)=6.55 7.31 13.1 20.41 150 0.1512 17 0.3 3.1 003 20.3 Date 9/24/2014 Page 8Copyright © 2002-2012 Tyco Fire Protection Products File: C:\dwg\temp folder\Garmisch Res_1_1_6365.sv$ Hydraulic CalculationsJob : Garmisch Haus PIPE INFORMATION Node 1 Node 2 Elev 1 Elev 2 (ft) K-Factor 1 K-Factor 2 (gpm/psi½) Flow added (q) Total flow (Q) (gpm) Nominal ID Actual ID (in) Fittings quantity x (name) = length (ft) L F T (ft) C Factor Pf per ft (psi) total (Pt) elev (Pe) frict (Pf) (psi) NOTES Pump to Supply at Demand Flow 020-O 020-I -9 -9 0 93.8 2 0 1 0 1 0 49.9053 69.5 0 -50 pump *** 020-I 19.5 * Pressures are balanced to a high degree of accuracy. Values may vary by 0.1 psi due to display rounding. *** Device pressure loss (gain in the case of pumps) is calculated from the device’s curve. If the device curve is printed withthis 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 valuesare 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. * Maximum Velocity of 16.43 ft/s occurs in the following pipe(s): (015-003) Date 9/24/2014 Page 9Copyright © 2002-2012 Tyco Fire Protection Products File: C:\dwg\temp folder\Garmisch Res_1_1_6365.sv$ Device GraphsJob : Garmisch Haus Pressure vs. Flow Function Design Area: 1; Supply Ref.: W1; Supply Name:W1 Flow, gpm0200300400500600 700789Pressure, psi46 44 42 40 38 36 34 32 30 28 26 24 22 20 18 16 14 12 10 8 6 4 2 0 Pressure Loss Function Design Area: 1; BFP Ref.: 151 (Febco 850 SMALL, Size = 2); Inlet Node: 021-I; Outlet Node: 021-O Flow, gpm01530 6090120150180Pressure, psi8.9 7.9 6.9 5.9 4.9 3.9 2.9 1.9 0.9 6 psi @ 93.8 gpm Date 9/24/2014 Page 10Copyright © 2002-2012 Tyco Fire Protection Products File: C:\dwg\temp folder\Garmisch Res_1_1_6365.sv$ Device GraphsJob : Garmisch Haus Pressure Boost Function Design Area: 1; Pump Ref.: 152 (pump, Size = 2); Inlet Node: 020-I; Outlet Node: 020-O Flow, gpm04080120 160178Pressure, psi52.81 42.81 32.81 22.81 12.81 2.81 50 psi @ 93.8 gpm Pressure Loss Function Design Area: 1; Valve Ref.: 150 (WILKINS PRV, Size = 2); Inlet Node: 022-I; Outlet Node: 022-O Flow, gpm05375100 200500Pressure, psi89 79 69 59 49 39 29 19 9 3 psi @ 93.8 gpm Date 9/24/2014 Page 11Copyright © 2002-2012 Tyco Fire Protection Products File: C:\dwg\temp folder\Garmisch Res_1_1_6365.sv$ Device GraphsJob : Garmisch Haus Pressure Loss Function Design Area: 1; Valve Ref.: 153 (Swing Check, Size = 2); Inlet Node: 019-I; Outlet Node: 019-O Flow, gpm550100 200300400500Pressure, psi21.33 20.33 19.33 18.33 17.33 16.33 15.33 14.33 13.33 12.33 11.33 10.33 9.33 8.33 7.33 6.33 5.33 4.33 3.33 2.33 1.33 0.33 0.9 psi @ 93.8 gpm Pressure Loss Function Design Area: 1; Valve Ref.: 154 (Flow Switch, Size = 2); Inlet Node: 018-I; Outlet Node: 017 Flow, gpm02550100 175250300400500Pressure, psi15.492 14.492 13.492 12.492 11.492 10.492 9.492 8.492 7.492 6.492 5.492 4.492 3.492 2.492 1.492 0.492 0.7 psi @ 93.8 gpm Date 9/24/2014 Page 12Copyright © 2002-2012 Tyco Fire Protection Products File: C:\dwg\temp folder\Garmisch Res_1_1_6365.sv$ Design Remote Area Name Remote Area Location Occupancy Classification Density (gpm/ft²) Area of Application (ft²) Coverage per Sprinkler (ft²) Number of Calculated Sprinklers In-Rack Demand (gpm) Special Heads Hose Streams (gpm) Total Water Required (incl. Hose Streams) (gpm) Required Pressure at Source (psi) Type of System Volume - Entire System (gal) 2 Kitchen/Living Res 0.08 1152 288 4 0 0 94.3 40.1 (available @ demand flow) Wet 34.2 gal Water Supply Information Date Location Source HYDRAULIC CALCULATIONS for Aug 2014 near site W1 4 head calculation Project Name : Garmisch Haus Contract No. : Project Location: 2476 S Garmisch Dr. City: Vail, CO 81657 Date: 8/1/2014 Name of Contractor: Phoenix Automatic Address: Phone Number: Name of Designer: TEM Authority Having Jurisdiction: Vail FIre City: E-mail: Job Information Contractor Information Notes Date 9/24/2014 Page 13Copyright © 2002-2012 Tyco Fire Protection Products File: C:\dwg\temp folder\Garmisch Res_1_1_6365.sv$ Job : Garmisch HausDiagram for Design Area : 2(Optimized Hydraulic Simplified)Node Labels:Pipe Labels:OffOffDate 9/24/2014Page 14Copyright © 2002-2012 Tyco Fire Protection ProductsFile: C:\dwg\temp folder\Garmisch Res_1_1_6365.sv$ Job : Garmisch Haus Hydraulic Analysis for : 2 Water Supply Parameters Calculation Info Calculation Mode Hydraulic ModelFluid Name Fluid Weight, (lb/ft³)Fluid Dynamic Viscosity, (lb·s/ft²) Demand Hazen-WilliamsWater @ 60F (15.6C) N/A for Hazen-Williams calculation.N/A for Hazen-Williams calculation. Supply 1 : W1 Flow (gpm)Pressure (psi) 0 40.5 789 18 Node at Source Static Pressure (psi) Residual Pressure (psi) Flow (gpm) Available Pressure (psi) Total Demand (gpm) Required Pressure (psi) Supply Analysis W1 40.5 18 789 40.1 94.3 32.7 System Pump Flow (gpm)Pressure (psi) Rated Flow (gpm) Rated Pressure (psi) Parameters not defined not defined 0 57.1 40 55.8 80 51.9 120 45.8 160 31.1 178 22 Date 9/24/2014 Page 15Copyright © 2002-2012 Tyco Fire Protection Products File: C:\dwg\temp folder\Garmisch Res_1_1_6365.sv$ 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) Hoses Ovehead Sprinkler Flow (gpm) InRack Sprinkler Flow (gpm) Other (custom defined) Sprinkler Flow (gpm) Total Sprinkler Flow (gpm) 94.3 0 0 94.3 Required Margin of Safety (psi) W1 - Pressure (psi) W1 - Flow (gpm) Demand w/o System Pump(s) 0 40.1 94.3 82.7 psi @ 94.3 gpm Sprinklers Other Available @ 020-O (psi) Required @ 020-O (psi) Safety Margin @ 020-O (psi) 69.3 62 7.3 Pressure Summary @ Pump Discharge Date 9/24/2014 Page 16Copyright © 2002-2012 Tyco Fire Protection Products File: C:\dwg\temp folder\Garmisch Res_1_1_6365.sv$ Job : Garmisch HausHydraulic Analysis for : 2Adj. System DemandAdj. Available SupplySystem PumpFlow, gpmPressure, psi80706050403020100D1D2Adjusted Available Supply: 69.3 psi @ 94.3 gpm0 100 150 200Date 9/24/2014Page 17Copyright © 2002-2012 Tyco Fire Protection ProductsFile: C:\dwg\temp folder\Garmisch Res_1_1_6365.sv$ Job : Garmisch Haus Hydraulic Analysis for : 2 Pressure (psi)Label Graph Labels Flow (gpm) ValuesDescription 0D1 10.1Elevation Pressure 94.3D2 62System Demand Open Heads Head Ref.DensityDensityK-Factor PressureFlowPressure (gpm/ft²)(gpm/ft²)(gpm/psi½)(psi)(gpm)(psi) Flow (gpm) Coverage (ft²) Required CalculatedHead Type 200 5.8 0.05 14.4 15.7 0.08 15.723288OverheadSprinkler 201 5.8 0.05 14.4 15.7 0.084 17.424.2288Overhead Sprinkler 202 5.8 0.05 14.4 15.7 0.081 16.123.2288OverheadSprinkler 203 5.8 0.05 14.4 15.7 0.083 16.923.9288OverheadSprinkler Date 9/24/2014 Page 18Copyright © 2002-2012 Tyco Fire Protection Products File: C:\dwg\temp folder\Garmisch Res_1_1_6365.sv$ Hydraulic CalculationsJob : Garmisch Haus PIPE INFORMATION Node 1 Node 2 Elev 1 Elev 2 (ft) K-Factor 1 K-Factor 2 (gpm/psi½) Flow added (q) Total flow (Q) (gpm) Nominal ID Actual ID (in) Fittings quantity x (name) = length (ft) L F T (ft) C Factor Pf per ft (psi) total (Pt) elev (Pe) frict (Pf) (psi) NOTES 1Path No: 200 201 14.25 14.25 5.8 5.8 23 23 1 1.055 16 0 16 150 0.1079 15.7 0 1.7 201 084 14.25 13.42 5.8 24.2 47.2 1.25 1.291 3x(us.90)=9.82 6.8 9.82 16.62 150 0.1531 17.4 0.4 2.5 084 015 13.42 -0.5 47.1 94.3 1.5 1.527 7x(us.90)=32.67 2x(us.Tee-Br)=18.67 65.1 51.34 116.44 150 0.2435 20.3 6 28.4 015 017 -0.5 -9 0 94.3 2 2.009 2x(us.90)=13.15 15.07 13.15 28.21 150 0.064 54.7 3.7 1.8 017 018-I -9 -9 0 94.3 2 0 0.5 0 0.5 0 1.3695 60.2 0 0.7 Flow Switch *** 018-I 019-O -9 -9 0 94.3 2 2.009 1x(coupling)=1.31 0.28 1.31 1.6 150 0.064 60.9 0 0.1 019-O 019-I -9 -9 0 94.3 2 0 0.56 0 0.56 0 1.5947 61 0 0.9 Swing Check *** 019-I 020-O -9 -9 0 94.3 2 2.009 1x(coupling)=1.31 0.31 1.31 1.62 150 0.064 61.9 0 0.1 020-O 62 2Path No: 202 203 14.25 14.25 5.8 5.8 23.2 23.2 1 1.055 8 0 8 150 0.1102 16.1 0 0.9 203 084 14.25 13.42 5.8 23.9 47.1 1.25 1.291 1x(us.Tee-Br)=6.55 2x(us.90)=6.55 6.8 13.1 19.89 150 0.1525 16.9 0.4 3 084 20.3 Date 9/24/2014 Page 19Copyright © 2002-2012 Tyco Fire Protection Products File: C:\dwg\temp folder\Garmisch Res_1_1_6365.sv$ Hydraulic CalculationsJob : Garmisch Haus PIPE INFORMATION Pump to Supply at Demand Flow 020-O 020-I -9 -9 0 94.3 2 0 1 0 1 0 49.8304 69.3 0 -50 pump *** 020-I 021-O -9 -9 0 94.3 2 2.009 1x(coupling)=1.31 0.7 1.31 2.01 150 0.064 19.3 0 0.1 021-O 021-I -9 -9 0 94.3 2 0 0.5 0 0.5 0 12.0955 19.5 0 6 Febco 850 SMALL *** 021-I 022-O -9 -9 0 94.3 2 2.009 1x(coupling)=1.31 0.38 1.31 1.69 150 0.064 25.5 0 0.1 022-O 022-I -9 -9 0 94.3 2 0 0.5 0 0.5 0 6.1369 25.6 0 3.1 WILKINS PRV *** 022-I W1 -9 -9.5 0 94.3 2 2.009 5x(us.90)=32.86 141.12 32.86 173.98 150 0.064 28.7 0.2 11.1 W1 40.1 * Pressures are balanced to a high degree of accuracy. Values may vary by 0.1 psi due to display rounding. *** 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 frictionloss 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 basedsolely on the curve data. * Maximum Velocity of 16.52 ft/s occurs in the following pipe(s): (015-084) Date 9/24/2014 Page 20Copyright © 2002-2012 Tyco Fire Protection Products File: C:\dwg\temp folder\Garmisch Res_1_1_6365.sv$ Device GraphsJob : Garmisch Haus Pressure vs. Flow Function Design Area: 2; Supply Ref.: W1; Supply Name:W1 Flow, gpm0200300400500600 700789Pressure, psi46 44 42 40 38 36 34 32 30 28 26 24 22 20 18 16 14 12 10 8 6 4 2 0 Pressure Loss Function Design Area: 2; BFP Ref.: 151 (Febco 850 SMALL, Size = 2); Inlet Node: 021-I; Outlet Node: 021-O Flow, gpm01530 6090120150180Pressure, psi8.9 7.9 6.9 5.9 4.9 3.9 2.9 1.9 0.9 6 psi @ 94.3 gpm Date 9/24/2014 Page 21Copyright © 2002-2012 Tyco Fire Protection Products File: C:\dwg\temp folder\Garmisch Res_1_1_6365.sv$ Device GraphsJob : Garmisch Haus Pressure Boost Function Design Area: 2; Pump Ref.: 152 (pump, Size = 2); Inlet Node: 020-I; Outlet Node: 020-O Flow, gpm04080120 160178Pressure, psi52.81 42.81 32.81 22.81 12.81 2.81 50 psi @ 94.3 gpm Pressure Loss Function Design Area: 2; Valve Ref.: 150 (WILKINS PRV, Size = 2); Inlet Node: 022-I; Outlet Node: 022-O Flow, gpm05375100 200500Pressure, psi89 79 69 59 49 39 29 19 9 3.1 psi @ 94.3 gpm Date 9/24/2014 Page 22Copyright © 2002-2012 Tyco Fire Protection Products File: C:\dwg\temp folder\Garmisch Res_1_1_6365.sv$ Device GraphsJob : Garmisch Haus Pressure Loss Function Design Area: 2; Valve Ref.: 153 (Swing Check, Size = 2); Inlet Node: 019-I; Outlet Node: 019-O Flow, gpm550100 200300400500Pressure, psi21.33 20.33 19.33 18.33 17.33 16.33 15.33 14.33 13.33 12.33 11.33 10.33 9.33 8.33 7.33 6.33 5.33 4.33 3.33 2.33 1.33 0.33 0.9 psi @ 94.3 gpm Pressure Loss Function Design Area: 2; Valve Ref.: 154 (Flow Switch, Size = 2); Inlet Node: 018-I; Outlet Node: 017 Flow, gpm02550100 175250300400500Pressure, psi15.492 14.492 13.492 12.492 11.492 10.492 9.492 8.492 7.492 6.492 5.492 4.492 3.492 2.492 1.492 0.492 0.7 psi @ 94.3 gpm Date 9/24/2014 Page 23Copyright © 2002-2012 Tyco Fire Protection Products File: C:\dwg\temp folder\Garmisch Res_1_1_6365.sv$ Worldwide Contacts www.tyco-fire.com RAPID RESPONSE Series LFII Residential Sprinklers 4.9 K-factor Flat-Plate Concealed Pendent Wet Pipe and Dry Pipe Systems Page 1 of 6 APRIL 2013 TFP443 Worldwide Contacts www.tyco-fire.com General Description The TYCO RAPID RESPONSE Series LFII Residential Flat-Plate Concealed Pendent Sprinklers (TY2524) are decora-tive, fast response, fusible solder sprin-klers designed for use in residential oc-cupancies such as homes, apartments, dormitories, and hotels. The Cover Plate/Retainer Assembly con-ceals the sprinkler operating compo-nents above the ceiling. The flat profile of the Cover Plate provides the optimum aesthetically appealing sprinkler design. Additionally, the concealed design of the Series LFII Residential Flat-Plate Con-cealed Pendent Sprinklers provides 1/2 inch (12,7 mm) vertical adjustment. This adjustment provides a measure of flex-ibility when cutting fixed sprinkler drops. The Series LFII Residential Flat-Plate Concealed Pendent Sprinklers are in-tended for use in the following systems: • wet and dry pipe residential sprin-kler systems for one- and two-fam-ily dwellings and mobile homes per NFPA 13D • wet and dry pipe residential sprin-kler systems for residential occu-pancies up to and including four sto-ries in height per NFPA 13R • wet and dry pipe sprinkler systems for the residential portions of any occupancy per NFPA 13 The Series LFII Residential Sprinklers have been designed with heat sensitiv-ity and water distribution characteristics proven to help in the control of residen- tial fires and to improve the chance for occupants to escape or be evacuated. The Series LFII Residential Flat-Plate Concealed Pendent Sprinklers are shipped with a Disposable Protective Cap. The Protective Cap protects the sprinkler during ceiling installation or finish. After ceiling installation is com-plete, the Protective Cap is removed and the Cover Plate/Retainer Assem-bly is installed. Removing the Protec-tive Cap is required for proper sprinkler performance. Dry Pipe System ApplicationThe Series LFII Residential Flat-Plate Concealed Pendent Sprinkler offers a laboratory approved option for design-ing dry pipe residential sprinkler sys-tems, whereas, most residential sprin-klers are laboratory approved for wet systems only. Through extensive testing, it has been determined that the number of design sprinklers (hydraulic design area) for the Series LFII Residential Flat-Plate Con-cealed Sprinklers (TY2524) need not be increased over the number of design sprinklers (hydraulic design area) speci-fied for wet pipe sprinkler systems, as is customary for density/area sprinkler systems designed per NFPA 13, 13D, or 13R. Consequently, the Series LFII Residen-tial Flat-Plate Concealed Sprinklers (TY2524) offer the features of non-wa-ter filled pipe in addition to not having to increase the number of design sprinklers (hydraulic design area) for systems de-signed to NFPA 13, 13D, or 13R. Non-water filled pipe will permit options for areas sensitive to freezing. NOTICE The Series LFII Residential Flat-Plate Concealed Pendent Sprinklers (TY2524) described herein must be installed and maintained in compliance with this doc-ument and the applicable standards of the National Fire Protection Association, in addition to the standards of any au-thorities having jurisdiction. Failure to do so may impair the performance of these devices. The owner is responsible for maintain-ing their fire protection system and de-vices in proper operating condition. The installing contractor or sprinkler manu-facturer should be contacted with any questions. Sprinkler Identification Number (SIN) TY2524 IMPORTANTAlways 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 in-stallation can permanently damage a sprinkler system or its components and cause the sprinkler to fail to operate in a fire situation or cause it to operate prematurely. TFP443Page 2 of 6 3-3/16" DIA.(81,0 mm) 1/2"NPT 2-1/2" DIA. (63,5 mm) MOUNTING SURFACE3/16"(4,8 mm) 1/8" GAP(3,2 mm) FACE OFSPRINKLERFITTING 7/8" (22,2 mm) 1-1/8" (28,6 mm) TIP DEFLECTOR INOPERATED POSITION 1/2" (12,7 mm)THREADEDADJUSTMENT SPRINKLER- SUPPORT CUP ASSEMBLY OPERATED SPRINKLER 1-7/8"±1/4"(47,6 mm±6,4 mm) SPRINKLER- SUPPORT CUP ASSEMBLY COVER- RETAINER ASSEMBLY COVER PLATE RETAINER DISPOSABLEPROTECTIVE CAP SPRINKLER/SUPPORT CUP ASSEMBLY COVER PLATE/RETAINER ASSEMBLY COVER PLATE EJECTION SPRING RETAINER WITH THREAD DIMPLES SOLDER TAB SEALINGASSEMBLY COMPRESSION SCREW DEFLECTOR(OPERATEDPOSITION) SPRINKLERWRENCHINGAREA SOLDER LINK ELEMENT LEVER DEFLECTOR CAP BODY(1/2" NPT) SADDLE SUPPORTCUP WITHROLL FORMEDTHREADS GUIDEPIN GUIDE PIN HOUSING THREAD INTO SUPPORT CUP UNTIL MOUNTING SURFACE IS FLUSH WITH CEILING WRENCHRECESS PUSH WRENCH IN TO ENSURE ENGAGEMENT WITH SPRINKLER WRENCHING AREA FIGURE 3 RAPID RESPONSE SERIES LFII RESIDENTIAL FLAT-PLATE (TY2524) INSTALLATION DIMENSIONS/PROTECTIVE CAP/ACTIVATED DEFLECTOR FIGURE 1 RAPID RESPONSE SERIES LFII RESIDENTIAL FLAT-PLATE CONCEALED PENDENT SPRINKLER (TY2524) FIGURE 2 W-TYPE 18 SPRINKLER WRENCH TFP443 Page 3 of 6 Technical Data ApprovalsUL and C-UL Listed The TYCO RAPID RESPONSE Series LFII Residential Flat-Plate Concealed Pendent Sprinklers are only listed with the Series LFII Concealed Cover Plates having a factory-applied finish. For details on approvals, refer to the De-sign Criteria section. Maximum Working Pressure175 psi (12,1 bar) Discharge CoefficientK=4.9 GPM/psi1/2 (70,6 LPM/bar1/2) Temperature RatingSprinkler: 160°F (71°C) Cover Plate: 139°F (59°C) Vertical Adjustment1/2 inch (12,7 mm) FinishesRefer to the Ordering Procedure section. Physical CharacteristicsCover Plate/Retainer Assembly:Cover Plate . . . . . . . . . . . . . CopperEjection Spring ....Stainless SteelRetainer ................Brass Sprinkler/Support Cup Assembly:Body ...................Brass Cap ...................Bronze Saddle . . . . . . . . . . . . . . . . . . Brass Sealing Assembly . . . . . . .Beryllium Nickel w/ TEFLON Soldered Link Halves . . . . . . NickelLever ..................BronzeCompression Screw . . . . . . . BrassDeflector . . . . . . . . . . . . . . . BronzeGuide Pin Housing........BronzeGuide Pins .............BronzeSupport Cup . . . . . . . . . . . . . . Steel Operation When exposed to heat from a fire, the Cover Plate, which is normally soldered to the Retainer at three points, falls away to expose the Sprinkler/Support Cup As-sembly. At this point, the Deflector, sup-ported by the Guide Pins, drops down to its operated position. The Solder Link Element of the Sprinkler/Support Cup Assembly is comprised of two link halves that are soldered togeth-er with a thin layer of solder. When the rated temperature is reached, the sol-der melts and the two link halves sepa-rate, allowing the sprinkler to activate and flow water. Design Criteria The TYCO RAPID RESPONSE Series LFII Residential Flat-Plate Concealed Pendent Sprinklers (TY2524) are UL and C-UL Listed for installation in ac-cordance with this section: Residential Sprinkler Design GuideWhen conditions exist that are outside the scope of the provided criteria, re-fer to the Residential Sprinkler Design Guide TFP490 for the manufacturer's recommendations that may be accept-able to the authority having jurisdiction. System TypePer the UL Listing, wet pipe and dry pipe systems may be utilized. Per the C-UL Listing, only wet pipe systems may be utilized. Refer to Technical Data Sheet TFP485 about the use of Residential Sprinklers in residential dry pipe systems. Ceiling TypesSmooth flat horizontal, or beamed, or sloped, in accordance with the 2013 Edition of NFPA 13D, 13R or 13 as applicable. Hydraulic Design (NFPA 13D and 13R)For systems designed to NFPA 13D or NFPA 13R, the minimum required sprin-kler flow rate are given in Tables A and B as a function of temperature rating and the maximum allowable coverage areas. The sprinkler flow rate is the mini-mum required discharge from each of the total number of “design sprinklers” as specified in NFPA 13D or NFPA 13R. The number of “design sprinklers” spec-ified in NFPA 13D and 13R for wet pipe systems is to be applied when designing dry pipe systems. Hydraulic Design (NFPA 13)For systems designed to NFPA 13, the number of design sprinklers is to be the four most hydraulically demanding sprinklers. The minimum required dis-charge from each of the four sprinklers is to be the greater of the following: • The flow rates given in Tables A and B as a function of temperature rating and the maximum allowable cover-age area • A minimum discharge of 0.1 gpm/ft2. over the “design area” comprised of the four most hydraulically demand-ing sprinklers for the actual coverage areas being protected by the four sprinklers The number of “design sprinklers” specified in NFPA 13 for wet pipe sys-tems is to be applied when designing dry pipe systems. Dry Pipe System Water DeliveryWhen using the Series LFII Residential Flat-Plate Concealed Pendent Sprinklers (TY2524) in dry pipe sprinkler systems, the time for water delivery must not ex-ceed 15 seconds for the most remote operating sprinkler. Obstruction to Water Distribution.Sprinklers are to be located in accor-dance with the obstruction rules of NFPA 13D, 13R, and 13 as applicable for residential sprinklers as well as with the obstruction criteria described within the Technical Data Sheet TFP490. Operational SensitivityInstall sprinklers relative to the ceiling mounting surface as shown in Figure 3. The Series LFII Residential Flat-Plate Concealed Pendent Sprinklers must not be used in applications where the air pressure above the ceiling is greater than that below. Down drafts through the Support Cup can delay sprinkler op-eration in a fire situation. Sprinkler SpacingThe minimum spacing between sprin-klers is 8 feet (2,4 m). The maximum spacing between sprinklers cannot ex-ceed the length of the coverage area (Table A) being hydraulically calculated (e.g., a maximum of 12 feet for a 12 ft. x 12 ft. coverage area or 20 feet for a 20 ft. x 20 ft. coverage area.) TFP443Page 4 of 6 Maximum Coverage Area (a) Ft. x Ft. (m x m) Maximum Spacing Ft. (m) WET PIPE SYSTEM Minimum Flow and Residual Pressure(b, c) Ordinary Temp Rating 160°F (71°C)Deflector to Ceiling Installation Type Minimum Spacing Ft. (m) Flow GPM (L/min) Pressure PSI (bar) 12 x 12(3,7 x 3,7)12(3,7)13 (49,2)7.0 (0,48)Smooth Ceilings 7/8 to 1-1/8 inches. Beamed Ceilings per NFPA 13D 13R, or 13 Installed in beam 7/8 to 1-1/8 inches below bottom of beam Concealed 8 (2,4) 14 x 14(4,3 x 4,3)14(4,3)13 49,2)7.0 (0,48) 16 x 16(4,9 x 4,9)16(4,9)13(49,2)7.0 (0,48) 18 x 18(5,5 x 5,5)18(5,5)17 (64,3)12.0 (0,83) 20 x 20(6,1 x 6,1)20(6,1)20 (75,7)16.7 (1,15) (a) For coverage area dimensions less than or between those indicated, use the minimum required flow for the next highest coverage area for which Hydraulic Design section under the Design Criteria are stated. (b) The Minimum Flow requirement is based on minimum flow in GPM (LPM) from each sprinkler. The associated residual pres- sures are calculated using the nominal K-factor. Refer to “Hydraulic Design” in the Design Criteria section for details. (c) For NFPA 13 residential applications, the greater of 0.1 gpm/ft.2 over the design area or the flow in accordance with the criteria in this table must be used. TABLE A WET PIPE SYSTEM SERIES LFII RESIDENTIAL FLAT-PLATE CONCEALED PENDENT SPRINKLER (TY2524) NFPA 13D, 13R, AND 13 HYDRAULIC DESIGN CRITERIA Maximum Coverage Area (a) Ft. x Ft. (m x m) Maximum Spacing Ft. (m) DRY PIPE SYSTEM Minimum Flow and Residual Pressure(b) Ordinary Temp Rating 160°F (71°C)Deflector to Ceiling Installation Type Minimum Spacing Ft. (m) Flow GPM (L/min) Pressure PSI (bar) 12 x 12(3,7 x 3,7)12(3,7)15 (56,8)9.4 (0,65)Smooth Ceilings 7/8 to 1-1/8 inches. Beamed Ceilings per NFPA 13D 13R, or 13 Installed in beam 7/8 to 1-1/8 inches below bottom of beam Concealed 8 (2,4) 14 x 14(4,3 x 4,3)14(4,3)15 (56,8)9.4 (0,65) 16 x 16(4,9 x 4,9)16(4,9)16 (60,6)10,7 (0,74) 18 x 18(5,5 x 5,5)18(5,5)17 (64,3)12.0 (0,83) 20 x 20(6,1 x 6,1)20(6,1)21 (79,5)18,4 (1,27) (a) For coverage area dimensions less than or between those indicated, use the minimum required flow for the next highest coverage area for which Hydraulic Design section under the Design Criteria are stated. (b) The Minimum Flow 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” in the Design Criteria section for details. (c) For NFPA 13 residential applications, the greater of 0.1 gpm/ft.2 over the design area or the flow in accordance with the criteria in this table must be used. TABLE B DRY PIPE SYSTEM SERIES LFII RESIDENTIAL FLAT-PLATE CONCEALED PENDENT SPRINKLER (TY2524) NFPA 13D, 13R, AND 13 HYDRAULIC DESIGN CRITERIA TFP443 Page 5 of 6 Installation The TYCO RAPID RESPONSE Series LFII Residential Flat-Plate Concealed Pendent Sprinklers must be installed in accordance with this section: General InstructionsDamage to the Solder Link Element dur-ing installation can be avoided by han-dling the sprinkler by the Support Cup only; that is, do not apply pressure to the Solder Link Element (Figure 1). A leak-tight 1/2 inch NPT sprinkler joint should be obtained by applying a min-imum-to-maximum torque of 7 to 14 ft.-lbs. (9,5 to 19,0 Nm). Higher levels of torque can distort the sprinkler inlet with consequent leakage or impairment of the sprinkler. Do not attempt to compensate for insuf-ficient adjustment in the Cover Plate/Retainer Assembly by under- or over-tightening the sprinkler. Re-adjust the position of the sprinkler fitting to suit. Step 1. Install pendent sprinklers in the pendent position, with the center-line of the sprinkler perpendicular to the mounting surface. Step 2. Remove the Protective Cap. Step 3. With pipe-thread sealant ap-plied to the pipe threads, and using the W-Type 18 Wrench shown in Figure 2, install and tighten the Sprinkler/Sup-port Cup Assembly into the fitting. The W-Type 18 Wrench accepts a 1/2 inch ratchet drive. Step 4. Replace the Protective Cap by pushing it upwards until it bottoms out against the Support Cup. The Protec-tive Cap helps prevent damage to the Deflector and Guide Pins during ceiling installation and/or during application of the finish coating of the ceiling. NOTICE As long as the protective Cap remains in place, the system is considered “Out Of Service”. Step 5. After the ceiling has been com-pleted with the 2-1/2 inch (63 mm) diam-eter hole and in preparation for install-ing the Cover Plate/Retainer Assembly, remove and discard the Protective Cap, and verify that the Deflector moves up and down freely. If the sprinkler has been damaged and the deflector does not move up and down freely, replace the entire sprinkler assembly. Do not attempt to modify or repair a damaged sprinkler. Step 6. Screw on the Cover Plate/Re-tainer Assembly until its flange contacts the ceiling. Do not continue to screw on the Cover Plate/Retainer Assembly such that it lifts a ceiling panel out of its normal position. If the Cover Plate/Retainer Assembly cannot be engaged with the Mounting Cup or the Cover Plate/Retainer Assem-bly cannot be engaged sufficiently to contact the ceiling, the Sprinkler Fitting must be repositioned. Care and Maintenance The TYCO RAPID RESPONSE Series LFII Residential Flat-Plate Concealed Pendent Sprinkler (TY2524) must be maintained and serviced in accordance with ths section: Before closing a fire protection system main control valve for maintenance work on the fire protection system that it con-trols, obtain permission to shut down the affected fire protection system from the proper authorities and notify all person-nel who may be affected by this action. Absence of a Cover Plate may delay the sprinkler operation in a fire situation. The owner must assure that the sprin-klers are not used for hanging any ob-jects and that the sprinklers are only cleaned by means of gently dusting with a feather duster; otherwise, non-opera-tion in the event of a fire or inadvertent operation may result. When properly installed, there is a nomi-nal 1/8 inch (3,2 mm) air gap between the lip of the Cover Plate and the ceil-ing, as shown in Figure 3. This air gap is necessary for proper operation of the sprinkler by allowing heat flow from a fire to pass below and above the Cover Plate to help assure appropriate release of the Cover Plate in a fire situation. If the ceiling needs repainting after sprinkler installation, exercise care to ensure that the new paint does not seal off any of the air gap. Failure to do so may impair sprinkler operation. Factory painted Cover Plates must not be repainted. They should be replaced, if necessary, by factory painted units. Non-factory applied paint may adversely delay or prevent sprinkler operation in the event of a fire. Do not pull the Cover Plate relative to the Retainer. Separation 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 otherwise altered after leaving the factory. Modi-fied or overheated sprinklers must be replaced. Care must be exercised to avoid dam-age to the sprinklers - before, during, and after installation. Sprinklers dam-aged by dropping, striking, wrench twist/slippage, or the like, must be replaced. The owner is responsible for the in-spection, 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 ju-risdiction. Contact the installing contrac-tor or sprinkler manufacturer regarding 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. TFP443Page 6 of 6 Copyright © 2012 Tyco Fire Products, LP. All rights reserved. TEFLON is trademark of The DuPont Corporation. GLOBAL HEADQUARTERS | 1400 Pennbrook Parkway, Lansdale, PA 19446 | Telephone +1-215-362-0700 Ordering Procedure Contact your local distributor for avail-ability. When placing an order, indicate the full product description and Part Number (P/N). Sprinkler/Support Cup AssemblySpecify: Series LFII (TY2524), K=4.9 (70,6), Residential Flat-Plate Concealed Pendent Sprinkler without Cover Plate/Retainer Assembly, P/N 51-114-1-160 Cover Plate/Retainer AssemblySpecify: Series LFII (TY2524), K=4.9 (70,6), Residential Flat-Plate Concealed Pendent Sprinkler Cover Plate/Retain-er Assembly with (specify) finish, P/N (specify): Ivory (RAL 1015)...........P/N 56-202-0-135 Beige (RAL 1001)..........P/N 56-202-2-135 Pure White (b) (RAL 9010) ...P/N 56-202-3-135 Signal White (a) (RAL 9003)..P/N 56-202-4-135 Grey White (RAL 9002) .....P/N 56-202-5-135 Brown (RAL 8028) .........P/N 56-202-6-135 Black (RAL 9005)..........P/N 56-202-7-135 Brushed Brass............P/N 56-202-8-135 Brushed Chrome ..........P/N 56-202-9-135 Custom Paint .............P/N 56-202-X-135 (a) Previously known as Bright White. (b) Eastern Hemisphere sales only. Note: All Custom Cover Plates are painted using Sherwin Williams Interior Latex Paint. Contact TYCO Customer Service with any questions related to custom orders. Sprinkler WrenchSpecify: W-Type 18 Sprinkler Wrench, P/N 56-000-1-265 Worldwide Contacts www.tyco-fire.com RAPID RESPONSE Series LFII Residential Sprinklers 4.2 K-factor Horizontal Sidewall Wet Pipe and Dry Pipe Systems Page 1 of 6 APRIL 2013 REV A TFP410 General Description The TYCO RAPID RESPONSE Series LFII Residential Horizontal Sidewall Sprinklers (TY1334) are decorative, fast response, frangible bulb sprinklers designed for use in residential occupan- cies such as homes, apartments, dormi- tories, and hotels. When aesthetics and optimized flow characteristics are the major consideration, the Series LFII Residential Sidewall Sprinklers (TY1334) should be the first choice. The Series LFII Residential Sprinklers are intended for use in the following scenarios: rwet and dry pipe residential sprinkler systems for one- and two-family dwellings and mobile homes per NFPA 13D rwet and dry pipe residential sprinkler systems for residential occupancies up to and including four stories in height per NFPA 13R rwet and dry pipe sprinkler systems for the residential portions of any occupancy per NFPA 13 The recessed version of the Series LFII Residential Sprinklers is intended for use in areas with finished walls. It employs a two-piece Style 20 Recessed Escutcheon. The Recessed Escutcheon provides 1/4 inch (6,4 mm) of recessed adjustment or up to 1/2 inch (12,7 mm) of total adjustment from the flush mounting surface position. The adjustment provided by the Recessed Escutcheon reduces the accuracy to which the pipe nipples to the sprinklers must be cut. The Series LFII Residential Sprinklers have been designed with heat sensitivity and water distribution characteristics proven to help in the control of residen- tial fires and to improve the chance for occupants to escape or be evacuated. Dry Pipe System Application The Series LFII Residential Horizontal and Recessed Horizontal Sidewall Sprinklers offers a laboratory approved option for designing dry pipe residen- tial sprinkler systems, whereas, most residential sprinklers are laboratory approved for wet systems only. Through extensive testing, it has been determined that the number of design sprinklers (hydraulic design area) for the Series LFII Residential Horizontal Sidewall Sprinklers (TY1334) need not be increased over the number of design sprinklers (hydraulic design area) as specified for wet pipe sprinkler systems, as is accustomed for density/ area sprinkler systems designed per NFPA 13. Consequently, the Series LFII Residential Sprinklers offer the features of non-water filled pipe in addition to not having to increase the number of design sprin- klers (hydraulic design area) for systems designed to NFPA 13, 13D, or 13R. Non-water filled pipe will permit options for areas sensitive to freezing. NOTICE The Series LFII Residential Horizontal Sidewall Sprinklers described herein must be installed and maintained in compliance with this document and the applicable standards of the National Fire Protection Association, in addition to the standards of any authorities having juris- diction. Failure to do so may impair the performance of these devices. The owner is responsible for maintaining their fire protection system and devices in proper operating condition. The installing contractor or sprinkler manu- facturer should be contacted with any questions. IMPORTANT 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 components. Improper handling and installation can permanently damage a sprinkler system or its components and cause the sprinkler to fail to operate in a fire situation or cause it to operate prematurely. Sprinkler Identification Number (SIN) TY1334 TFP410 Page 2 of 6 7/16" (11,1 mm) MAKE-IN NOMINAL SURFACE ESCUTCHEON PLATE SEATING Sealing Assembly-3 5 4 * 6 Compression Screw of Deflector. is indicated on top Temperature rating Bulb Deflector- - - * 1 Components: 2 Button Assembly Frame- -TOP(57,2 mm) 2-1/4" (41,3 mm) 1-5/8" *64 5321 2-7/8" DIA. (73,0 mm) RECESSED ESCUTCHEON STYLE 20 FLATS WRENCH CENTERLINE OF WATERWAY 1/2" NPT BOSS END-OF- DEFLECTOR TOP-OF- DEFLECTOR 7/16" (11,1 mm) FIGURE 1 RAPID RESPONSE SERIES LFII RESIDENTIAL HORIZONTAL SIDEWALL AND RECESSED HORIZONTAL SIDEWALL SPRINKLERS (TY1334) 1-3/8" (34,9 mm) 1-1/8" (28,6 mm) MOUNTING PLATE TY1334 MOUNTING SURFACE CLOSURE (73,0 mm) 1/2" (12,7 mm) (57,2 mm) 2-1/4" DIA. 1/4" (6,4 mm) 1/8" (3,2 mm) (11,1±3,2 mm) SPRINKLER FITTING FACE OF 7/16±1/8" 2-7/8" DIA. BOSS END-OF- DEFLECTOR TOP-OF- DEFLECTOR 7/16" (11,1 mm) FIGURE 2 STYLE 20 RECESSED ESCUTCHEON FOR USE WITH THE RAPID RESPONSE SERIES LFII RESIDENTIAL HORIZONTAL SIDEWALL SPRINKLER (TY1334) WRENCH RECESS (END "A" USED FOR TY1334) FIGURE 3 W-TYPE 6 SPRINKLER WRENCH RECESS WRENCH WITH SPRINKLER ENGAGEMENT IN TO ENSURE WRENCHING AREA PUSH WRENCH FIGURE 4 W-TYPE 7 RECESSED SPRINKLER WRENCH TFP410 Page 3 of 6 Technical Data Approvals UL Listed for use with wet pipe and dry pipe systems NSF Certified to NSF/ANSI 61 C-UL Listed for use only with wet pipe systems NYC Approved under MEA 44-03-E For details on these approvals, refer to the Design Criteria section. Maximum Working Pressure 175 psi (12,1 bar) Discharge Coefficient K=4.2 GPM/psi1/2 (60,5 LPM/bar1/2) Temperature Rating 155°F (68°C) or 175°F (79°C) Finishes Signal or Pure White Chrome Plated Natural Brass Physical Characteristics Frame ....................Brass Button ...................Copper Sealing Assembly . . . . . . . . Beryllium Nickel w/TEFLON Bulb (3 mm) . . . . . . . . . . . . . . . . Glass Compression Screw . . . . . . . . Bronze Deflector .................Copper Operation The glass bulb contains a fluid that 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 flow water. Design Criteria The TYCO RAPID RESPONSE Series LFII Residential Horizontal and Recessed Horizontal Sidewall Sprinklers (TY1334) are UL and C-UL Listed for installation in accordance with the following criteria. Residential Sprinkler Design Guide When conditions exist that are outside the scope of the provided criteria, refer to the Residential Sprinkler Design Guide TFP490 for the manufactur- er’s recommendations that may be acceptable to the local authority having jurisdiction. System Types Per the UL Listing, wet pipe and dry pipe systems may be utilized. Per the C-UL Listing, only wet pipe systems may be utilized. Refer to Technical Data Sheet TFP485 about the use of Residential Sprinklers in residential dry pipe systems. Ceiling Types Smooth flat horizontal, or beamed, or sloped, in accordance with the 2013 Edition of NFPA 13D, 13R, or 13 as applicable. Hydraulic Design (NFPA 13D and 13R) For systems designed to NFPA 13D or NFPA 13R, the minimum re quired sprinkler flow rates are given in Tables A and B as a function of temperature rating and the maximum allowable coverage areas. The sprinkler flow rate is the minimum required discharge from each of the total number of “design sprinklers” as specified in NFPA 13D or NFPA 13R. The number of “design sprinklers” specified in NFPA 13D and 13R for wet pipe systems is to be applied when designing dry pipe systems. Hydraulic Design (NFPA 13) For systems designed to NFPA 13, the number of design 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: rThe flow rates given in Tables A and B as a function of temperature rat- ing and the maximum allowable coverage area rA minimum discharge of 0.1 gpm/ft2 over the “design area” comprised of the four most hydraulically demand- ing sprinklers for actual coverage ar- eas protected by the four sprinklers The number of “design sprinklers” specified in NFPA 13 for wet pipe systems is to be applied when designing dry pipe systems. Dry Pipe System Water Delivery When using the Series LFII Residential Horizontal Sidewall Sprinklers (TY1334) in dry pipe sprinkler systems, the time for water delivery must not exceed 15 seconds for the most remote operating sprinkler. Obstruction to Water Distribution Sprinklers are to be located in accor- dance with the obstruction rules of NFPA 13D, 13R, and 13 as applicable for residential sprinklers as well as with the obstruction criteria described within the TYCO Technical Data Sheet TFP490. Operational Sensitivity The sprinklers are to be installed with an end-of-deflector-boss to wall distance of 1-1/4 to 6 inches. In addition the top-of-deflector-to- ceiling distance is to be within the range (Tables A and B) being hydraulically calculated. Sprinkler Spacing The minimum spacing between sprin- klers is 8 feet (2,4 m). The maximum spacing between sprinklers cannot exceed the width of the coverage area (Tables A and B) being hydraulically calculated (e.g., maximum 12 feet for a 12 ft. x 12 ft. coverage area, or 16 feet for a 16 ft. x 20 ft. coverage area.). TFP410 Page 4 of 6 TABLE A WET PIPE SYSTEM SERIES LFII RESIDENTIAL HORIZONTAL AND RECESSED HORIZONTAL SIDEWALL SPRINKLERS (TY1334) NFPA 13D, 13R, AND 13 HYDRAULIC DESIGN CRITERIA Max. Coverage Area (a) Width x Length (d) Ft. x Ft. (m x m) Max. Spacing Ft. (m) WET PIPE SYSTEM Minimum Flow and Residual Pressure(b, c) Ordinary Temp. Rating 155°F (68°C) Intermediate Temp. Rating 175°F (79°C)Deflector to Ceiling Installation Type Minimum Spacing Ft. (m) Flow GPM (L/min) Pressure PSI (bar) Flow GPM (L/min) Pressure PSI (bar) 12 x 12 (3,7 x 3,7) 12 (3,7) 12 (45,4) 8.2 (0,57) 12 (45,4) 8.2 (0,57) 4 to 6 inches Recessed using Style 20 Escutcheon or non-recessed per NFPA 13D, 13R, or 13 8 (2,4) 14 x 14 (4,3 x 4,3) 14 (4,3) 14 (53,0) 11.1 (0,77) 16 (60,6) 14.5 (1,00) 16 x 16 (4,9 x 4,9) 16 (4,9) 16 (60,6) 14.5 (1,00) 16 (60,6) 14.5 (1,00) 16 x 18 (4,9 x 5,5) 16 (4,9) 19 (71,9) 20.5 (1,41) 19 (71,9) 20.5 (1,41) 16 x 20 (4,9 x 6,1) 16 (4,9) 23 (87,1) 30.0 (2,07) 23 (87,1) 30.0 (2,07) 12 x 12 (3,7 x 3,7) 12 (3,7) 13 (49,2) 9.6 (0,66) 13 (49,2) 9.6 (0,66) 6 to 12 inches 14 x 14 (4,3 x 4,3) 14 (4,3) 17 (64,3) 16.4 (1,13) 18 (68,1) 18.4 (1,27) 16 x 16 (4,9 x 4,9) 16 (4,9) 18 (68,1) 18.4 (1,27) 18 (68,1) 18.4 (1,27) 16 x 18 (4,9 x 5,5) 16 (4,9) 21 (79,5) 25.0 (1,72) 21 (79,5) 25.0 (1,72) 16 x 20 (4,9 x 6,1) 16 (4,9) 26 (98,4) 38.3. (2,64) 26 (98,4) 38.3. (2,64) (a) For coverage area dimensions less than or between those indicated, use the minimum required flow for the next highest coverage area for which hydraulic design criteria are stated. (b) 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 under the Design Criteria section. (c) For NFPA 13 residential applications, the greater of 0.1 gpm/ft2 over the design area or the flow in accordance with the criteria in this table must be used. (d) The Width x Length dimension refers to the Width (backwall where the sprinkler is located) times the Length (horizontal throw of sprinkler). TFP410 Page 5 of 6 TABLE B DRY PIPE SYSTEM SERIES LFII RESIDENTIAL HORIZONTAL AND RECESSED HORIZONTAL SIDEWALL SPRINKLERS (TY1334) NFPA 13D, 13R, AND 13 HYDRAULIC DESIGN CRITERIA Max. Coverage Area (a) Width x Length (d) Ft. x Ft. (m x m) Max. Spacing Ft. (m) DRY PIPE SYSTEM Minimum Flow and Residual Pressure(b, c) Ordinary Temp. Rating 155°F (68°C) Intermediate Temp. Rating 175°F (79°C)Deflector to Ceiling Installation Type Minimum Spacing Ft. (m) Flow GPM (L/min) Pressure PSI (bar) Flow GPM (L/min) Pressure PSI (bar) 12 x 12 (3,7 x 3,7) 12 (3,7) 12 (45,4) 8.2 (0,57) 12 (45,4) 8.2 (0,57) 4 to 6 inches Recessed using Style 20 Escutcheon or non-recessed per NFPA 13D, 13R, or 13 8 (2,4) 14 x 14 (4,3 x 4,3) 14 (4,3) 16 (60,6) 14.5 (1,00) 16 (60,6) 14.5 (1,00) 16 x 16 (4,9 x 4,9) 16 (4,9) 16 (60,6) 14.5 (1,00) 16 (60,6) 14.5 (1,00) 16 x 18 (4,9 x 5,5) 16 (4,9) 19 (71,9) 20.5 (1,41)N/A N/A 16 x 20 (4,9 x 6,1) 16 (4,9) 23 (87,1) 30.0 (2,07)N/A N/A 12 x 12 (3,7 x 3,7) 12 (3,7) 13 (49,2) 9.6 (0,66) 13 (49,2) 9.6 (0,66) 6 to 12 inches 14 x 14 (4,3 x 4,3) 14 (4,3) 18 (68,1) 18.4 (1,27) 18 (68,1) 18.4 (1,27) 16 x 16 (4,9 x 4,9) 16 (4,9) 18 (68,1) 18.4 (1,27) 21 (79,5) 25.0 (1,72) 16 x 18 (4,9 x 5,5) 16 (4,9) 21 (79,5) 25.0 (1,72) 21 (79,5) 25.0 (1,72) 16 x 20 (4,9 x 6,1) 16 (4,9)N/A N/A N/A N/A (a) For coverage area dimensions less than or between those indicated, use the minimum required flow for the next highest coverage area for which hydraulic design criteria are stated. (b) 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 under the Design Criteria section. (c) For NFPA 13 residential applications, the greater of 0.1 gpm/ft2 over the design area or the flow in accordance with the criteria in this table must be used. (d) The Width x Length dimension refers to the Width (backwall where the sprinkler is located) times the Length (horizontal throw of sprinkler). TFP410 Page 6 of 6 Copyright © 2013 Tyco Fire Products, LP. All rights reserved. TEFLON is trademark of The DuPont Corporation. GLOBAL HEADQUARTERS | 1400 Pennbrook Parkway, Lansdale, PA 19446 | Telephone +1-215-362-0700 Installation The TYCO RAPID RESPONSE Series LFII Residential Horizontal and Recessed Horizontal Sidewall Sprinklers (TY1334) must be installed in accordance with this section. General Instructions Do not install any bulb type sprinkler 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 diameter of the air bubble is approximately 1/16 inch (1,6 mm). A leak-tight 1/2 inch NPT sprinkler joint should be obtained by applying a minimum to maximum torque of 7 to 14 ft. lbs. (9,5 to 19,0 Nm). 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 an Escutcheon Plate by under- or over- tightening the Sprinkler. Re-adjust the position of the sprinkler fitting to suit. Series LFII Residential Horizontal Sidewall Sprinklers The Series LFII Residential Horizontal Sidewall Sprinklers must be installed in accordance with the following instructions. Step 1. Install horizontal sidewall sprin- klers in the horizontal position with their centerline of waterway perpendicular to the backwall and parallel to the ceiling. The word “TOP” on the Deflector is to face towards the ceiling with the front edge of the Deflector parallel to the ceiling. 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 3). With reference to Figure 1, apply the W-Type 6 Sprinkler Wrench to the wrench flats. Series LFII Residential Recessed Horizontal Sidewall Sprinklers The Series LFII Residential Recessed Horizontal Sidewall Sprinklers must be installed in accordance with the following instructions. Step A. Install recessed hori- zontal sidewall sprinklers in the hori- zontal position with their centerline of waterway perpendicular to the backwall and parallel to the ceiling. The word “TOP” on the Deflector is to face towards the ceiling. Step B. After installing the 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 C. Tighten the sprinkler into the sprinkler fitting using only the W-Type 7 Recessed Sprinkler Wrench (Figure 4). With reference to Figure 1, apply the W-Type 7 Recessed Sprinkler Wrench to the sprinkler wrench flats. Step D. After the ceiling has been installed or the finish coat has been applied, slide on the Style 20 Closure over the Series LFII Residential Sprinkler and push the Closure over the Mounting Plate until its flange comes in contact with the wall. Care and Maintenance The TYCO RAPID RESPONSE Series LFII Residential Horizontal and Recessed Horizontal Sidewall Sprinklers (TY1334) must be maintained and serviced 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. Absence 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 otherwise 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. Sprinklers damaged by dropping, striking, wrench twist/slippage, or the like, must be replaced. Also, replace any sprinkler that has a cracked bulb or that has lost liquid from its bulb. (Ref. Installation 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 standards of any authorities having jurisdiction. Contact the installing contractor or sprinkler manufacturer regarding any questions. Automatic sprinkler systems are recom- mended to be inspected, tested, and maintained by a qualified Inspection Service in accordance with local requirements and/or national codes. Ordering Procedure Contact your local distributor for availability. When placing an order, indicate the full product name and Part Number (P/N). Sprinkler Assembly Specify: Series LFII (TY1334), K=4.2, Residential Horizontal Sidewall Sprinkler, (specify) temperature rating, (specify) finish, P/N (specify). 155°F (68°C) Natural Brass . . . . . . . . . . . . . . . .P/N 51-211-1-155 Pure White (RAL9010)* ........P/N 51-211-3-155 Signal White (RAL9003) .......P/N 51-211-4-155 Chrome Plated ..............P/N 51-211-9-155 175°F (79°C) Natural Brass . . . . . . . . . . . . . . . .P/N 51-211-1-175 Pure White (RAL9010)* ........P/N 51-211-3-175 Signal White (RAL9003) .......P/N 51-211-4-175 Chrome Plated . . . . . . . . . . . . . . P/N 51-211-9-175 *Eastern Hemisphere sales only. Recessed Escutcheon Specify: Style 20 Recessed Escutcheon 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. a company LISTED R R PRESSURE REDUCING CONTROL ADJUSTMENT;TURN THE ADJUSTING STEM CLOCKWISE TO INCREASE THE SETTING CC BB AAAA (MAX) OUTLETINLET 4" SIZE SHOWN GG (MAX) DD FFFF EEEE OUTLET INLET D G C B A AA AAA F FFF FF E EE EEE INLET OUTLET OUTLETINLET INLET INLET OUTLET OUTLET Globe Body Grooved Angle Body Grooved UL ULC UL ULC UL UL 1 1/2" 2" 2 1/2" 3" 4" 6" 8" 10" UL/ULC LISTING 300lb Flange 150lb FlangeSize 1 1/222 1/23 4 6 8 10 AA 150 8 1/2 9 3/8 11 12 15 20 25 3/8 29 3/4 AAA 300 9 10 11 5/8 13 1/4 15 5/8 21 26 3/8 31 1/8 AAAA GROOVED 8 1/2 9 - 12 1/2 15 20 - - B 1 1/8 1 1/2 1 11/16 2 9/16 3 3/16 4 5/16 5 5/16 9 1/4 BB GROOVED 1 15/16 2 1/8 - 6 4 1/8 6 - - C Max. 5 1/2 6 1/2 7 9/16 8 3/16 10 5/8 13 3/8 16 17 1/8 CC Max. 4 3/32 5 - 6 1/2 8 13/16 11 3/32 - - D 2 13/16 3 5/16 4 4 9/16 5 3/4 7 7/8 10 11 13/16 DD GROOVED 2 13/16 3 5/16 - 4 9/16 5 3/4 7 7/8 - - EE 150 4 4 3/4 5 1/2 6 7 1/2 10 12 3/4 14 7/8 EEE 300 4 1/4 5 5 7/8 6 3/8 7 7/8 10 1/2 13 1/4 15 9/16 EEEE GROOVED - 4 3/4 - 6 7 1/2 - - - FF 150 4 3 1/4 4 4 5 6 8 8 5/8 FFF 300 4 1/4 3 1/2 4 5/16 4 3/8 5 5/16 6 1/2 8 1/2 9 5/16 FFFF GROOVED - 3 1/4 - 4 1/2 5 - - - G Max. 7 1/2 7 3/4 7 3/4 8 9 9 1/2 10 1/2 11 1/2 GG Max. 8 3/32 8 - 8 1/8 9 5/16 10 1/2 - - DIM ANSI CLASS VALVE SIZE inches • inches 1 1/222 1/2346810 mm 40 50 65 80 100 150 200 250 160 262 373 576 992 2251 3900 6150 10 15 20 30 50 115 200 300 Valve Size Min. Flow Rate (GPM) Max. Flow Rate (GPM) ZW109FP PRESSURE REDUCING VALVE MODEL P4000 PRESSURE RELIEF VALVE ZW109FP PRESSURE REDUCING VALVE MODEL P4000 PRESSURE RELIEF VALVE MAIN FIRE HEADER DISTRIBUTION TO EACH FLOOR (GPM) 0 5 10 15 20 0 20 40 60 80 100 120 ® 0 5 10 15 20 0 3 6 9 12 15 18 (GPM) 0 5 10 15 20 0 5 10 15 20 25 30 (GPM)(GPM) 0 5 10 15 20 0 30 60 90 120 150 180Head Loss (PSI)2" 1-1/2"Head Loss (PSI)0 5 10 15 20 0 102030405060(GPM) (GPM) 0 5 10 15 20 0 20406080100120 1/2"Head Loss (PSI)Model 850 (1/2" - 2") Flow Curves SPECIFICATION SHEET MODEL 850 (1/2" - 2") MODEL 850 (1/2" - 2") DOUBLE CHECK ASSEMBLY DOUBLE CHECK ASSEMBLY Application Non-Health Hazard Options Wye - Strainer Characteristics Physical Properties Size 1/2", 3/4", 1", 1-1/4", 1-1/2", 2" Max. Working Pressure 175 PSI (1200 KPa) Hydrostatic Test Press. 350 PSI (2400 KPa) Temperature Range 32 oF to 140oF (0oC to 60oC) End Connections Threaded ANSI B2.1 Materials Valve Body Bronze Elastomers Silicone Springs Stainless Steel Agency Compliance • ANSI/AWWA Conformance (C510-92) • ASSE Listed (Std. 1015) • CSA • Approved by the Foundation for Cross Connection Control and Hydraulic Research at the University of Southern California.Head Loss (PSI)3/4" 1"Head Loss (PSI)MODEL 850 (1/2" - 2") Outdoor Installation Flow 12" Minimum Installation Recommendations 1-1/4"Head Loss (PSI)12" Minimum Clearance to Fixed Structure Model 850 (1/2" - 2") ITEM DESCRIPTION MATERIALS 1 Body Bronze 1.2 Tailpiece Bronze 1.4 O-Ring Silicone 2 Cover Bronze 2.2 O-Ring Silicone 3 Seat Noryl 3.1 O-Ring Silicone 4 Poppet Noryl 5 Seat Disc Silcone 5.1 Disc Retainer Noryl 5.2 Rnd HD Screw Stainless Steel 6 Spring Stainless Steel 7 Guide Noryl 8 Retainer Spacer Noryl 9 Ball Valve (w/tap) Brozne 9.1 Ball Valve Bronze 11 Test Cock Bronze 21 Hex HD Capscrew Stainless Steel 60 Identification Plate Brass 61 Drive Screw Stick Stainless Steel Dimensions and Weights NET WT. SIZE A B C D E Lbs. (kgs.) 1/2"10 (254.00) 1 1/2 (38.10) 1 1/2 (38.10) 3 1/8 (79.38) 1 1/4 (31.75) 4.2 (1.91) 3/4"103/4 (273.05) 1 1/2 (38.10) 1 1/2 (38.10) 3 1/8 (79.38) 1 1/4 (31.75) 4.4 (2.00) 1"121/2 (317.50) 1 7/8 (47.63) 1 5/8 (41.28) 3 3/8 (85.73) 1 1/2 (38.10) 6.8 (3.08) 11/4"157/8 (403.23) 3 (76.20) 2 1/2 (63.50) 4 1/4 (107.95) 2 1/4 (57.15) 15.8 (7.17) 11/2"163/8 (415.93) 3 (76.20) 2 1/2 (63.50) 4 1/4 (107.95) 2 1/4 (57.15) 16.2 (7.35) 2"175/8 (447.68) 3 1/2 (88.90) 2 1/2 (63.50) 4 1/4 (107.95) 2 1/4 (57.15) 21.1 (9.57) Note: Dimensions are nominal. Allowances must be made for normal manufacturing tolerances. Model 850 (1/2" - 2") Check Assembly U.S. - Inches (mm) FEBCO Backflow Prevention P.O. Box 8070 • Fresno, CA 93747-8070 559 252-0791 • Fax: 559 453-9030 • www.FEBCOonline.com ss850sm 4/02 Copyright 2002 SPX Valves & Controls ISO 9001 CertifiedISO 9001 CertifiedISO 9001 CertifiedISO 9001 CertifiedISO 9001 Certified FEBCO is a product of CP CY AB MAX. BGW REF. SUCTION, SUCCIÓN X EE A F 3656/ 3756 S-Group Cast Iron Bronze Fitted Centrifugal Pumps WY DD CP Bombas centrífugas en hierro fundido con accesorios de bronce A Full Range of Product Features The 3656 and 3756 S-Group pumps from Goulds have been designed with technical benefits to meet the needs of users in a variety of water supply, recirculation, and cooling applications. • The model 3656 offers close coupled design for space saving and simplified maintenance. • The model 3756 offers a bearing frame mounted design for flexibility of installation and drive arrangements. • Back pull-out to reduce maintenance down time. • Standard Type 21 mechanical seal for both reliability and availability. Carbon/ceramic/ BUNA standard, with other faces and elastomers available. • 3656/3756 available in all iron, bronze fitted or all bronze construction for application versatility. • Replaceable wearing compo- nents include stainless steel shaft sleeve and casing and hub wear rings to maintain peak efficiency. • Packed box sealing is also available as an option. • Enclosed impeller design, dynamic balancing and renewable wear rings reduce losses affecting performance and pump life. • Suction and discharge pipe connections are NPT threaded, except 3 x 4 – 7 which has 125 lb. ANSI flat faced flanges. • Rigid cast iron motor adapter provides support and registered fits maintain positive unit alignment. • Standard NEMA motor frame, JM or JP shaft extension, C-face mounting, single phase or three phase, 3500 or 1750 RPM. Open drip proof and totally enclosed fan cooled. • Optional explosion proof or high efficiency motors available. • Optional rigid carbon steel bedplate, sheet metal coupling guard and T. B. Woods spacer coupling for 3756 models. Las bombas 3656 y 3756 del Grupo S de Goulds han sido diseñadas con beneficios técnicos para satisfacer las necesidades de los usuarios en variadas aplicaciones de suministro y recirculación de agua y aplicaciones de refrigeración. •El modelo 3656 cuenta con diseño de acoplamiento corto para ahorrar espacio y simplificar el mantenimiento. •El modelo 3756 cuenta con diseño de montaje sobre bastidor que ofrece gran flexibilidad en los arreglos de instalación y accionamiento. •Desmontaje posterior que reduce el tiempo de inactividad por mantenimiento. •Sello mecánico estándar Tipo 21, brinda gran confiabilidad y asegura la disponibilidad. Estándar de carbono/cerámica/ BUNA, también se encuentran disponibles con otras caras y elastómeros. •Los modelos 3656 y 3756 se fabrican en todo hierro, con accesorios de bronce o en todo bronce, para una mayor versatilidad de aplicación. •Los componentes de desgaste reemplazables incluyen los anillos de desgaste de la carcasa y del rodete y la camisa del eje, de acero inoxidable, para mantener la eficiencia pico. •El diseño de impulsor encerrado, balanceo dinámico y anillos de desgaste reemplazables reducen las pérdidas que afectan el desempeño y la vida de la bomba. •Las conexiones de succión y descarga son roscadas NPT, con excepción de la bomba de 3 x 4 – 7, que cuenta con bridas de cara lisa ANSI de 125 lbs. • El adaptador rígido del motor, de hierro fundido, ofrece soporte y los montajes registrados mantienen el alineamiento positivo de la unidad. •Motor con bastidor NEMA estándar, extensión de eje JM, montaje en cara C, monofásico o trifásico, 3500 ó 1750 RPM. Abierto a prueba de filtraciones o totalmente encerrado enfriado por ventilador. •Motores a prueba de explosiones y de alta eficiencia disponibles como opción. •Placa de asiento rígida de acero al carbono, protector de acoplamiento de chapa metálica y acoplamiento espaciador T. B. Woods disponibles como opción en los modelos 3756. Una amplia gama de variadas características Goulds Pumps is ISO 9001 Registered. Performance Coverage Curvas de desempeño 60 0 120 180 240 METERSMETROS 0 20 40 60 80 m3Úhr U.S. GPM GALLONS PER MINUTE (GALONES POR MINUTO) 0 10020 6040 80 8003000100 600400 700200 500 120 140 160 180TOTAL DYNAMIC HEAD (CARGA DINÁMICA TOTAL)FEETPIES 11/2 x 2 – 8 300 1 x 2 – 8 1 x 2 – 7 21/2 x 3 – 7 3 x 4 – 7 11/2 x 2 – 6 11/2 x 2 – 6H 3500 Coverage Curve, Curva de alcance 3500 1750 Coverage Curve, Curva de alcance 1750 1 0 40 60 80 METERSMETROS 0 10 30 20 m3Úhr U.S. GPM GALLONS PER MINUTE (GALONES POR MINUTO) 05010 3020 40 400150050 300200 350100 250 60 70 80 90 450 100 20 FEETPIES TOTAL DYNAMIC HEAD (CARGA DINÁMICA TOTAL)11/2 x 2 – 8 1 x 2 – 8 1 x 2 – 7 3 x 4 – 721/2 x 3 – 7 11/2 x 2 – 6 / 11/2 x 2 – 6H 3656/3756 S-Group Numbering System For All Units Built After June 1, 1998 Sistema de numeración del Grupo S, modelos 3656/3756, para todas las unidades fabricadas luego del 1¡ de junio de 1998 The various versions of the 3656 and 3756 S-Group are identified by a product code number on the pump label. This number is also the catalog number for the pump. The meaning of each digit in the product code number is shown below. Not all combinations of motor, impeller and seal options are available for every pump model. Please check with Goulds on non-cataloged numbers. Not recommended for operation beyond printed H-Q curve. For critical application conditions consult factory. Las diferentes versiones de los modelos 3656 y 3756 del Grupo S se identifican con un número de código de producto en la etiqueta de la bomba. Este número es también el número de catálogo de la bomba. A continuación se ilustra el significado de cada dígito en el código del producto. No todas las combinaciones de motor, impulsor y sellos están disponibles para cada modelo. Consulte a Goulds sobre números que no aparecen en el catálogo. No se recomienda la operación más allá de la curva impresa de H-Q (carga- capacidad). Para aplicaciones bajo condiciones críticas, consulte con la fábrica. 22BF 9BF 3BF 5BF 4BF 6BF 1 x 2 – 7 1 x 2 – 8 1 1⁄2 x 2 – 6 1 1⁄2 x 2 – 6H 1 1⁄2 x 2 – 8 2 1⁄2 x 3 – 7 3 x 4 – 7 Dia. Dia. Dia. Dia. Dia. Dia. Dia. A63⁄4"81⁄16"515⁄16"515⁄16"81⁄16"71⁄16"71⁄16" B67⁄16 75⁄8 55⁄8 55⁄8 75⁄8 63⁄4 63⁄8 C675⁄16 51⁄8 63⁄4 63⁄8 51⁄2 D53⁄4 743⁄4 53⁄4 57⁄8 411⁄16 E51⁄2 61⁄2 73⁄4 55⁄8 51⁄8 F51⁄16 63⁄16 757⁄16 6 G413⁄16 53⁄8 61⁄4 51⁄4 H49⁄16 51⁄8 61⁄8 415⁄16 J43⁄8 43⁄4 K41⁄16 41⁄8 L313⁄16 Driver, Elemento motor 1 = 1 PH, fase, ODP 4 = 1PH, fase, TEFC 7 = 3 PH, fases, XP 0 = 1 PH, fase, XP 2 = 3 PH, fases, ODP 5 = 3 PH, TEFC 8 = 575 V, XP 3 = 575 V, ODP 6 = 575 V, TEFC 9 = 3 PH, fases, TEFC, PREFF 1 PH, fase = Monofásiico; 3 PH, fases = Trifásico HP Rating, Potencia nominal, HP C=1⁄2 HP F =1 1⁄2 HP J = 5 HP M = 15 HP D=3⁄4 HP G =2 HP K = 7 1⁄2 HP N = 20 HP E=1 HP H =3 HP L = 10 HP Driver: Hertz/Pole/RPM, Elemento motor: Hertz/Polos/RPM 1=60 Hz, 2 pole, 3500 RPM 4 =50 Hz, 2 pole, 2900 RPM 2=60 Hz, 4 pole, 1750 RPM 5 =50 Hz, 4 pole, 1450 RPM 3=60 Hz, 6 pole, 1150 RPM Material, Material BF= Bronze fitted, Accesorios de bronce AI = All iron, Todo hierro AB = All bronze, Todo bronce Pump Size, Tamaño de bomba 3 = 11⁄2 x 2 – 6(H) 5 = 1 1⁄2 x 2 – 8 9 = 1 x 2 – 8 4 = 21⁄2 x 3 – 7 6 = 3 x 4 – 7 22 = 1 x 2 – 7 Example Product Code, Ejemplo del código de producto 9 BF 1 H 2 G 0 Mechanical Seal and O-ring, Sello mecánico y anillo en O Impeller Option Code, Código de opción de impulsor H High Head Impeller (11⁄2 x 2 – 6H Only), Impulsor de carga alta (11⁄2 x 2 – 6H únicamente) The 1 x 2 – 8 and 1 x 2 – 7 are only available in Bronze Fitted. Los tamaños 1 x 2 – 8 y 1 x 2 – 7 están disponibles con accesorios de bronce únicamente. For frame mounted version, substitute the letters “FRM” in these positions. Para las versiones de montaje en bastidor, reemplazar las letras en esta ubicación con “FRM”. 2 Impeller Code, Código del impulsor 0 Carbon,Ceramic, Cerámica BUNA-N 10K13 1 Carbón Sil-Carbide, EPR 10K19 3 Carburo de Viton 10K27 5 Sil-Carbide silicona 10K64 9 Packed Box Design with BUNA O-Ring, Diseño de prensaestopas empacado con anillo en O de BUNA 15K16 Note: 10K27 replaces obsolete 10K25, Nota: La 10K27 reemplace la obsoleta 10K25. Seal Code, Código del Sello Stationary, Estacionario Type 21 Mechanical Seal, Tipo 21 sello mecánico Elastomers, Elastómeros 316 SS, 316 Acero inoxidable Metal Parts, Partes Metálicas Rotary, Rotativo Part No., Pieza Número Performance Curves – 60 Hz, 3500 RPM Curvas de desempeño – 60 Hz, 3500 RPM These curves show the performance of the 3656 and 3756 at 3500 RPM and 1750 RPM, 60 Hz, and at 2900 RPM and 1450 RPM, 50 Hz. Standard impeller trims are shown. Estas curvas ilustran el desempeño de los modelos 3656 y 3756 operando a 3500 RPM y 1750 RPM en 60 Hz, y a 2900 RPM y 1450 RPM en 50 Hz. Se muestran los diámetros de impulsor estándar. Optional Impeller Impulsor optativo Ordering Code Dia. Código de pedido Diá. A63⁄4" B67⁄16 C6 D53⁄4 E51⁄2 F51⁄16 G413⁄16 H49⁄16 J43⁄8 K41⁄16 L313⁄16 NOTE: Pump will pass a sphere to 3⁄16" diameter. NOTA: La bomba dejará pasar una esfera de hasta 3⁄16 de pulgada de diámetro. D 53/4 A 63/4'' DIA. B 67/16 C 6 E 51/2 F 51/16 G 413/16 H 49/16 J 43/8 K 41/16 L 313/16 Model 3656/3756 S-Group 3500 RPM 22 BF / Size (Tamaño) 1 x 2 – 7 Imp. Dwg. 277-75 NOTE: Not recommended for operation beyond printed H-Q curve. NOTA: No se recomienda la operación más allá de la curva impresa de H-Q (carga-capacidad). 0 20 80 100 60 40 0 0 80300 m3Úhr U.S. GPM 25 10 60 9040 70 515 20 50 100 110 120 140 120 130 10 20 160 180 10 20 30 40 50 60% 60% 55% 58% METERSMETROS FEETPIES TOTAL DYNAMIC HEAD (CARGA DINÁMICA TOTAL)CAPACITY (CAPACIDAD) 58% NPSH FEET (PIES) 4'30% EFF 40%47%52%55% 52% 5' 7' 5.0 HP 15' 3.0 HP 2.0 HP 1.0 HP.75 HP 1.5 HP Model 3656/3756 S-Group 3500 RPM 9 BF / Size (Tamaño) 1 x 2 – 8 ODP & TEFC Imp. Dwg. 120-67 NOTE: Not recommended for operation beyond printed H-Q curve. NOTA: No se recomienda la operación más allá de la curva impresa de H-Q (carga-capacidad). 0 50 0 90 0 12010060200 m3Úhr U.S. GPM 25 10 40 80 110 300 200 250 80 70 7030 50 90 20515 150 100 60 50 40 30 20 10 100 METERSMETROS FEET PIES TOTAL DYNAMIC HEAD (CARGA DINÁMICA TOTAL)CAPACITY (CAPACIDAD) NPSHR-FT (PIES) 3' 25 30 35 40 45 50 50 % EFF 10' 6' 4' 10 H P 7.5 H P 5 H P 3 H P 2 H P A 81/16'' DIA. C 75/16'' E 61/2'' G 53/8'' D 7'' F 63/16'' H 51/8'' B 75/8'' Optional Impeller Impulsor optativo Ordering Code Dia. Código de pedido Diá. A81⁄16" B75⁄8" C75⁄16 D7 E61⁄2 F63⁄16 G53⁄8 H51⁄8 NOTE: Pump will pass a sphere to 3⁄16" diameter. NOTA: La bomba dejará pasar una esfera de hasta 3⁄16 de pulgada de diámetro. 3 Performance Curves – 60 Hz, 3500 RPM Curvas de desempeño – 60 Hz, 3500 RPM D 43Ú4" A 515Ú16" DIA. C 51Ú8" B 55Ú8" % EFF NPSHR – FEET (PIES) Model 3656/3756 S-Group 3500 RPM 3AI, BF, AB / Size (Tamaño) 11Ú2 x 2 – 6 ODP & TEFC Imp. Dwg. 114-04 50 5 H P 3 H P 40 60 65 70 70 72 72 73 65 60 50 5.5' 10'12' 14' 16'18' 20' NOTE: Not recommended for operation beyond printed H-Q curve. NOTA: No se recomienda la operación más allá de la curva impresa de H-Q (carga-capacidad). 0 40 80 120 160 0 10 20 30 40 50 0 18016012080400 10 20 m3Ú hr U.S. GPM 30 40 20 60 100 140 METERSMETROS FEET PIES TOTAL DYNAMIC HEAD (CARGA DINÁMICA TOTAL)CAPACITY (CAPACIDAD) 6' 8'7' Optional Impeller Impulsor optativo Ordering Code Dia. Código de pedido Diá. A515⁄16" B55⁄8" C51⁄8 D43⁄4 NOTE: Pump will pass a sphere to 5⁄16" diameter. NOTA: La bomba dejará pasar una esfera de hasta 5⁄16 de pulgada de diámetro. Optional Impeller Impulsor optativo Ordering Code Dia. Código de pedido Diá. A515⁄16" B55⁄8 NOTE: Pump will pass a sphere to 3⁄16" diameter. NOTA: La bomba dejará pasar una esfera de hasta 3⁄16 de pulgada de diámetro. A 515Ú16" DIA. B 55Ú8" NPSHR – FEET (PIES) 0 40 80 120 160 0 10 20 30 40 50 0 12080400 10 20 m3Úhr U.S. GPM 30 20 60 100 160140 METERSMETROS FEETPIES TOTAL DYNAMIC HEAD (CARGA DINÁMICA TOTAL)CAPACITY (CAPACIDAD) % EFF Model 3656/3756 S-Group 3500 RPM 3AI, BF, AB / Size (Tamaño) 11Ú2 x 2 – 6H ODP & TEFC Imp. Dwg. 114-18 H = High Head Impeller H = Impulsor de carga alta 3 H P 40 5.5' 8' 10' 12' 14' 16' 18' 40 50 50 60 60 65 65 67 67 6' 7' NOTE: Not recommended for operation beyond printed H-Q curve. May utilize 1.15 motor service factor. NOTA: No se recomienda la operación más allá de la curva impresa de H-Q (carga-capacidad). Puede utilizar factor de servicio 1.15. 4 Performance Curves – 60 Hz, 3500 RPM Curvas de desempeño – 60 Hz, 3500 RPM B 75Ú8" C 63Ú4" H 61Ú8" E 73Ú4" 1 5 H P % EFF Model 3656/3756 S-Group 3500 RPM 5AI, BF, AB / Size (Tamaño) 11Ú2 x 2 – 8 ODP & TEFC Imp. Dwg. 118-88 A 81Ú16" DIA. 50 7 1Ú2 H P 1 0 H P 10' 5 H P 2 0 H P 5040 60 60 65 65 67 70 8' 12'14' 16' 18' 20' 22'F 7" G 61Ú4" D 53Ú4" NPSHR – FEET (PIES) NOTE: Not recommended for operation beyond printed H-Q curve. NOTA: No se recomienda la operación más allá de la curva impresa de H-Q (carga-capacidad). 0 50 100 300 0 20 60 80 0 250150500 10 20 m3Úhr U.S. GPM 60 100 200 30 40 50 250 200 150 40 METERS METROS FEET PIES TOTAL DYNAMIC HEAD (CARGA DINÁMICA TOTAL)CAPACITY (CAPACIDAD) Optional Impeller Impulsor optativo Ordering Code Dia. Código de pedido Diá. A81⁄16" E73⁄4" B75⁄8 F7 C63⁄4 G61⁄4 H61⁄8 D53⁄4 NOTE: Pump will pass a sphere to 5⁄16" diameter. NOTA: La bomba dejará pasar una esfera de hasta 5⁄16 de pulgada de diámetro. 5 00 70 0 5003000 m3Úhr U.S. GPM 120 400 240 6040 10 20 80 40 200 80 200 160 120 60 50 40 30 20 100 100 METERS METROS FEET PIES TOTAL DYNAMIC HEAD (CARGA DINÁMICA TOTAL)CAPACITY (CAPACIDAD) 30 40 50 50 % EFF 10' 10 H P 7.5 H P 5 H P 3 H P 2 H P 15 H P 20 H P 40 55 60 60 55 65 70 70 12' 15' 20' 25' 65 A 71/16'' DIA. B 63/4'' D 57/8'' F 57/16'' H 415/16'' K 41/8'' C 63/8'' E 55/8'' J 43/4'' G 51/4'' Model 3656/3756 S-Group 3500 RPM 4AI, BF, AB / Size (Tamaño) 21Ú2 x 3 – 7 ODP & TEFC Imp. Dwg. 120-61 NOTE: Not recommended for operation beyond printed H-Q curve. NOTA: No se recomienda la operación más allá de la curva impresa de H-Q (carga-capacidad). NPSHR – FEET (PIES) Optional Impeller Impulsor optativo Ordering Code Dia. Código de pedido Diá. A71⁄16" B63⁄4 C63⁄8 D57⁄8 E55⁄8 F57⁄16 G51⁄4 H415⁄16 J43⁄4 K41⁄8 NOTE: Pump will pass a sphere to 7⁄16" diameter. NOTA: La bomba dejará pasar una esfera de hasta 7⁄16 de pulgada de diámetro. Performance Curves – 60 Hz, 3500 RPM Curvas de desempeño – 60 Hz, 3500 RPM % EFF Model 3656/3756 S-Group 3500 RPM 6AI, BF / Size 3 x 4-7 Imp. Dwg. 114-05 B 63Ú8" DIA. 71Ú2 HP E 51Ú8" C 51Ú2" 10 H P 6' 50 D 411Ú16" 15 H P 50 60 60 65 65 68 68 70 70 8' 10' 12' 16' 74 NPSHR – FEET (PIES) NOTE: Not recommended for operation beyond printed H-Q curve. May utilize 1.15 motor service factor. NOTA: No se recomienda la operación más allá de la curva impresa de H-Q (carga-capacidad).Puede utilizar factor de servicio 1.15. 0 25 75 175 0 20 40 0 6000 10 20 m3Úhr U.S. GPM 150 100 200 30 40 50 150 125 10030 500400300 1007060 10 50 60 1401301201109080 50 200 METERS METROS FEET PIES TOTAL DYNAMIC HEAD (CARGA DINÁMICA TOTAL)CAPACITY (CAPACIDAD) Optional Impeller Impulsor optativo Ordering Code Dia. Código de pedido Diá. B63⁄8" C51⁄2 D411⁄16 E51⁄8 F6 NOTE: Pump will pass a sphere to 1⁄2" diameter. NOTA: La bomba dejará pasar una esfera de hasta 1⁄2 de pulgada de diámetro. Optional Impeller Impulsor optativo Ordering Code Dia. Código de pedido Diá. A63⁄4" B67⁄16 C6 D53⁄4 E51⁄2 F51⁄16 G413⁄16 H49⁄16 J43⁄8 K41⁄16 L313⁄16 NOTE: Pump will pass a sphere to 3⁄16" diameter. NOTA: La bomba dejará pasar una esfera de hasta 3⁄16 de pulgada de diámetro. Model 3656/3756 S-Group 1750 RPM 22 BF / Size (Tamaño) 1 x 2 – 7 Imp. Dwg. 277-75 NOTE: Not recommended for operation beyond printed H-Q curve. NOTA: No se recomienda la operación más allá de la curva impresa de H-Q (carga-capacidad). 0 10 40 50 30 20 0 60200 U.S. GPM 15 10 40 7030 50 510 0 15 10 5 METERS METROS FEET PIES TOTAL DYNAMIC HEAD (CARGA DINÁMICA TOTAL)CAPACITY (CAPACIDAD) m3Úhr 30% EFF 40% 47% 52% 2' NPSH 55% .5 HP .75 HP 40% 47% 4'55% 18' 52% 25' A 63/4'' DIA. B 67/16 C 6 D 53/4 E 51/2 F 51/16 G 413/16 H 49/16J 43/8 K 41/16 L 313/16 6 Performance Curves – 60 Hz, 1750 RPM Curvas de desempeño – 60 Hz, 1750 RPM Performance Curves – 60 Hz, 1750 RPM Curvas de desempeño – 60 Hz, 1750 RPM 0 10 0 20 0 75706040200 610 m3Úhr U.S. GPM 14 16 10 30 50 65 20 40 30 70 5 50 60 15 10 4525515 35 55 12842 METERS METROS FEET PIES TOTAL DYNAMIC HEAD (CARGA DINÁMICA TOTAL)CAPACITY (CAPACIDAD) 25 30 35 40 45 % EFF 4' 45 11Ú2 H P 1 H P 3Ú4 HP 1Ú2 HP 20 A 81/16'' DIA. C 75/16 E 61/2 F 63/16 G 53/8 H 51/8 Model 3656/3756 S-Group 1750 RPM 9BF / Size (Tamaño) 1 x 2 – 8 Imp. Dwg. 120-67 NOTE: Not recommended for operation beyond printed H-Q curve. NOTA: No se recomienda la operación más allá de la curva impresa de H-Q (carga-capacidad). NPSHR – FEET (PIES) 3’ Model 3656/3756 S-Group 1750 RPM 3AI, BF, AB / Size (Tamaño) 11Ú2 x 2 – 6 Imp. Dwg. 114-04 3' 3 Ú4 H P 1Ú2 H P 4' 5' 9' 50 60 65 68 NOTE: Not recommended for operation beyond printed H-Q curve. NOTA: No se recomienda la operación más allá de la curva impresa de H-Q (carga-capacidad). 68 5 10 15 2 10 0 90806040200 510 m3Úhr U.S. GPM 15 20 10 30 50 70 20 25 30 35 4 6 8 METERS METROS FEET PIES TOTAL DYNAMIC HEAD (CARGA DINÁMICA TOTAL)CAPACITY (CAPACIDAD) % EFF 50 A 515Ú16" DIA. B 55Ú8" C 51Ú8" D 43Ú4" NPSHR – FEET (PIES) 60 65 Optional Impeller Impulsor optativo Ordering Code Dia. Código de pedido Diá. A81⁄16" C75⁄16 E61⁄2 F63⁄16 G53⁄8 H51⁄8 NOTE: Pump will pass a sphere to 3⁄16" diameter. NOTA: La bomba dejará pasar una esfera de hasta 3⁄16 de pulgada de diámetro. Optional Impeller Impulsor optativo Ordering Code Dia. Código de pedido Diá. A515⁄16" B55⁄8 C51⁄8 D43⁄4 NOTE: Pump will pass a sphere to 5⁄16" diameter. NOTA: La bomba dejará pasar una esfera de hasta 5⁄16 de pulgada de diámetro. 7 Performance Curves – 60 Hz, 1750 RPM Curvas de desempeño – 60 Hz, 1750 RPM A 515Ú16" DIA. B 55Ú8" % EFF Model 3656/3756 S-Group 1750 RPM 3AI, BF, AB / Size (Tamaño) 11Ú2 x 2 – 6H Imp. Dwg. 114-18 H = High Head Impeller H = Impulsor de carga alta 40 3' 1Ú2 HP 50 50 55 55 60 60 66 66 4' 5' 6' 7' NOTE: Not recommended for operation beyond printed H-Q curve. NOTA: No se recomienda la operación más allá de la curva impresa de H-Q (carga-capacidad). NPSHR – FEET (PIES) 5 10 15 2 10 0 806040200 510 m3Ú hr U.S. GPM 15 20 10 30 50 70 20 25 30 35 4 6 8 9 7 5 3 METERSMETROS FEETPIES TOTAL DYNAMIC HEAD (CARGA DINÁMICA TOTAL)CAPACITY (CAPACIDAD) A 81Ú16" DIA. B 75Ú8" C 63Ú4" D 53Ú4" % EFF NPSHR – FEET (PIES) Model 3656/3756 S-Group 1750 RPM 5AI, BF, AB / Size (Tamaño) 11Ú2 x 2 – 8 Imp. Dwg. 118-88 50 3' 3Ú4 H P 1 H P 2 H P 3 HP 11Ú2 H P 60 60 70 70 72 5' 7' 11' NOTE: Not recommended for operation beyond printed H-Q curve. NOTA: No se recomienda la operación más allá de la curva impresa de H-Q (carga-capacidad). 20 30 5 20 0 16012080400 10 20 m3Úhr U.S. GPM 30 40 20 60 100 140 40 50 60 70 10 15 10 METERS METROS FEET PIES TOTAL DYNAMIC HEAD (CARGA DINÁMICA TOTAL)CAPACITY (CAPACIDAD) Optional Impeller Impulsor optativo Ordering Code Dia. Código de pedido Diá. A81⁄16" B75⁄8 C63⁄4 D53⁄4 NOTE: Pump will pass a sphere to 5⁄16" diameter. NOTA: La bomba dejará pasar una esfera de hasta 5⁄16 de pulgada de diámetro. Optional Impeller Impulsor optativo Ordering Code Dia. Código de pedido Diá. A515⁄16" B55⁄8 NOTE: Pump will pass a sphere to 3⁄16" diameter. NOTA: La bomba dejará pasar una esfera de hasta 3⁄16 de pulgada de diámetro. 8 Performance Curves – 60 Hz, 1750 RPM Curvas de desempeño – 60 Hz, 1750 RPM Model 3656/3756 S-Group 1750 RPM 4AI, BF, AB / Size (Tamaño) 21Ú2 x 3 – 7 Imp. Dwg. 120-61 NOTE: Not recommended for operation beyond printed H-Q curve. NOTA: No se recomienda la operación más allá de la curva impresa de H-Q (carga-capacidad). 00 15 0 240160800 m3Ú hr U.S. GPM 50 40 200 55 3020 10 10 50 45 40 35 30 25 20 15 10 5 5 120 40 METERS METROS FEET PIES TOTAL DYNAMIC HEAD (CARGA DINÁMICA TOTAL)CAPACITY (CAPACIDAD) 3540 45 % EFF 5' 45 11Ú2 H P 3 H P 3Ú4 H P 1Ú2 HP 30 50 55 60 60 50 55 40 7' 2 H P 1 H P A 71/16'' DIA. C 63/8 E 55/8 H 415/16 K 41/8 NPSHR – FEET (PIES) 3’ A 71Ú16" DIA. B 63Ú8" C 51Ú2" D 411Ú16" NPSHR – FEET (PIES) % EFF Model 3656/3756 S-Group 1750 RPM 6AI, BF, AB / Size (Tamaño) 3 x 4 – 7 Imp. Dwg. 114-05 35 5' 11Ú2 HP 1 H P 2 HP 3 H P 48 48 60 60 65 65 67 67 4' 8' 16' F 6" NOTE: Not recommended for operation beyond printed H-Q curve. NOTA: No se recomienda la operación más allá de la curva impresa de H-Q (carga-capacidad). 10 20 0 15 0 3002001000 10 20 m3Úhr U.S. GPM 40 90 50 150 250 350 30 40 50 0 10 5 30 50 60 70 80 METERS METROS FEETPIES TOTAL DYNAMIC HEAD (CARGA DINÁMICA TOTAL)CAPACITY (CAPACIDAD) Optional Impeller Impulsor optativo Ordering Code Dia. Código de pedido Diá. A71⁄16" C63⁄8 E55⁄8 H415⁄16 K41⁄8 NOTE: Pump will pass a sphere to 7⁄16" diameter. NOTA: La bomba dejará pasar una esfera de hasta 7⁄16 de pulgada de diámetro. Optional Impeller Impulsor optativo Ordering Code Dia. Código de pedido Diá. A71⁄16" B63⁄8 C51⁄2 D411⁄16 F6 NOTE: Pump will pass a sphere to 1⁄2" diameter. NOTA: La bomba dejará pasar una esfera de hasta 1⁄2 de pulgada de diámetro. 9 10 Performance Curves – 50 Hz, 2900 RPM Curvas de desempeño – 50 Hz, 2900 RPM Optional Impeller Impulsor optativo Ordering Code Dia. Código de pedido Diá. A81⁄16" B75⁄8 C75⁄16 D7 E61⁄2 F63⁄16 G53⁄8 H51⁄8 NOTE: Pump will pass a sphere to 5⁄16" diameter. NOTA: La bomba dejará pasar una esfera de hasta 5⁄16 de pulgada de diámetro. Optional Impeller Impulsor optativo Ordering Code Dia. Código de pedido Diá. A63⁄4" B67⁄16 C6 D53⁄4 E51⁄2 F51⁄16 G413⁄16 H49⁄16 J43⁄8 K41⁄16 L313⁄16 NOTE: Pump will pass a sphere to 3⁄16" diameter. NOTA: La bomba dejará pasar una esfera de hasta 3⁄16 de pulgada de diámetro. A 63/4'' DIA. B 67/16 C 6 E 51/2 F 51/16 K 41/16 L 313/16 J 43/8 H 49/16 G 413/16 D 53/4 Model 3656/3756 S-Group 2900 RPM 22 BF / Size (Tamaño) 1 x 2 – 7 Imp. Dwg. 277-75 3.0 HP 2.0 HP 1.5 HP 1.0 HP .75 HP 4' 51% 48% NOTE: Not recommended for operation beyond printed H-Q curve. NOTA: No se recomienda la operación más allá de la curva impresa de H-Q (carga-capacidad). 0 20 100 0 0 80300 m3Úhr U.S. GPM 25 10 60 9040 70 515 20 50 100 110 10 20 10 20 30 57% 57% 55% 40 60 80 120 4 METERS METROS FEET PIES TOTAL DYNAMIC HEAD (CARGA DINÁMICA TOTAL)CAPACITY (CAPACIDAD) 55% 35% EFF 43%48%51% 6' 13' 3' NPSHR – FEET (PIES) Model 3656/3756 S-Group 2900 RPM 9 BF / Size (Tamaño) 1 x 2 – 8 Imp. Dwg. 120-67 NOTE: Not recommended for operation beyond printed H-Q curve. NOTA: No se recomienda la operación más allá de la curva impresa de H-Q (carga-capacidad). 0 50 0 0 10060200 m3Úhr U.S. GPM 25 10 40 80 110 200 70 7030 50 90 20510 150 100 60 50 40 30 20 10 15 METERS METROS FEET PIES TOTAL DYNAMIC HEAD (CARGA DINÁMICA TOTAL)CAPACITY (CAPACIDAD) E 61/2'' G 53/8'' 20 25 31 37 42 47 47 % EFF 8' 4' 3 H P 2 H P A 81/16'' DIA. B 75/8'' C 75/16'' D 7'' F 63/16'' H 51/8'' 1.5 H P 5 H P NPSHR – FEET (PIES) 3’ 11 Performance Curves – 50 Hz, 2900 RPM Curvas de desempeño – 50 Hz, 2900 RPM Optional Impeller Impulsor optativo Ordering Code Dia. Código de pedido Diá. A515⁄16" C51⁄8 NOTE: Pump will pass a sphere to 7⁄16" diameter. NOTA: La bomba dejará pasar una esfera de hasta 7⁄16 de pulgada de diámetro. Optional Impeller Impulsor optativo Ordering Code Dia. Código de pedido Diá. A515⁄16" B55⁄8 NOTE: Pump will pass a sphere to 1⁄2" diameter. NOTA: La bomba dejará pasar una esfera de hasta 1⁄2 de pulgada de diámetro. B 55Ú8" C 51Ú8" 3 H P 2 H P Model 3656/3756 S-Group 2900 RPM 3AI, BF, AB / Size (Tamaño) 11Ú2 x 2 – 6 Imp. Dwg. 114-04 % EFF 45 56 62 67 67 69 69 62 56 45 10' 12' NOTE: Not recommended for operation beyond printed H-Q curve. NOTA: No se recomienda la operación más allá de la curva impresa de H-Q (carga-capacidad). 0 20 40 100 120 0 10 40 60 70 0 16012080400 10 20 m3Úhr U.S. GPM 30 35 20 60 100 140 51525 80 60 20 METERS METROS FEET PIES TOTAL DYNAMIC HEAD (CARGA DINÁMICA TOTAL)CAPACITY (CAPACIDAD) 3' 4'A 515Ú16" DIA. D 43Ú4" 7' 1. 5 H P NPSHR – FEET (PIES) 0 40 60 100 120 0 10 20 30 40 0 12080400 10 20 m3Úhr U.S. GPM 30 20 60 100 140 20 80 51525 METERS METROS FEET PIES TOTAL DYNAMIC HEAD (CARGA DINÁMICA TOTAL)CAPACITY (CAPACIDAD) Model 3656/3756 S-Group 2900 RPM 3AI, BF, AB / Size (Tamaño) 11Ú2 x 2 – 6H Imp. Dwg. 114-18 H = High Head Impeller H = Impulsor de carga alta A 515Ú16" DIA. B 55Ú8" 7' 10' 50% EFF 50 55 55 61 61 66 66 3' 4' NOTE: Not recommended for operation beyond printed H-Q curve. NOTA: No se recomienda la operación más allá de la curva impresa de H-Q (carga-capacidad). NPSHR – FEET (PIES) 12' 2 H P 12 Performance Curves – 50 Hz, 2900 RPM Curvas de desempeño – 50 Hz, 2900 RPM Optional Impeller Impulsor optativo Ordering Code Dia. Código de pedido Diá. A71⁄16" C63⁄8 E55⁄8 H415⁄16 K41⁄8 NOTE: Pump will pass a sphere to 5⁄16" diameter. NOTA: La bomba dejará pasar una esfera de hasta 5⁄16 de pulgada de diámetro. Optional Impeller Impulsor optativo Ordering Code Dia. Código de pedido Diá. A81⁄16" B75⁄8 C63⁄4 D53⁄4 NOTE: Pump will pass a sphere to 3⁄16" diameter. NOTA: La bomba dejará pasar una esfera de hasta 3⁄16 de pulgada de diámetro. % EFF Model 3656/3756 S-Group 2900 RPM 5AI, BF, AB / Size (Tamaño) 11Ú2 x 2 – 8 Imp. Dwg. 118-88 47 7 1Ú2 H P 5 H P 3 H P 1 0 H P 1 5 H P 4735 57 62 64 66 6' 10' 13' 15'57 NOTE: Not recommended for operation beyond printed H-Q curve. NOTA: No se recomienda la operación más allá de la curva impresa de H-Q (carga-capacidad). NPSHR – FEET (PIES) D 53Ú4" C 63Ú4" B 75Ú8" A 81Ú16" DIA. 7' 62 0 50 100 0 10 60 0 150500 10 20 m3Úhr U.S. GPM100 200 30 40 50 200 150 40 20 30 50 70 METERS METROS FEET PIES TOTAL DYNAMIC HEAD (CARGA DINÁMICA TOTAL)CAPACITY (CAPACIDAD) A 71/16'' DIA. C 63/8 E 55/8 H 415/16 K 41/8 Model 3656/3756 S-Group 2900 RPM 4AI, BF, AB / Size (Tamaño) 21Ú2 x 3 – 7 Imp. Dwg. 120-61 10 H P 12' 15' 20' 18' NOTE: Not recommended for operation beyond printed H-Q curve. NOTA: No se recomienda la operación más allá de la curva impresa de H-Q (carga-capacidad). 00 50 0 4000 m3Úhr U.S. GPM50 350 10020 40 10 100 80 60 20 100 40 120 140 160 30 20 10 150 200 250 300 450 40 60 8030 50 70 90 METERS METROS FEET PIES TOTAL DYNAMIC HEAD (CARGA DINÁMICA TOTAL)CAPACITY (CAPACIDAD) 40 50 % EFF50 71Ú2 H P 55 60 65 65 55 60 5 H P 2 H P 3 H P 8' 7’ NPSHR – FEET (PIES) 13 Performance Curves – 50 Hz, 2900 RPM Curvas de desempeño – 50 Hz, 2900 RPM Optional Impeller Impulsor optativo Ordering Code Dia. Código de pedido Diá. A71⁄16" B63⁄8 C51⁄2 D411⁄16 F6 NOTE: Pump will pass a sphere to 7⁄16" diameter. NOTA: La bomba dejará pasar una esfera de hasta 7⁄16 de pulgada de diámetro. % EFF Model 3656/3756 S-Group 2900 RPM 6AI, BF, AB / Size (Tamaño) 3 x 4 – 7 Imp. Dwg. 114-05 37 8' 50 50 62 67 67 69 69 9' 5 H P 71Ú2 HP 10 HP 15 HP 62 14' 20' F 6" NOTE: Not recommended for operation beyond printed H-Q curve. NOTA: No se recomienda la operación más allá de la curva impresa de H-Q (carga-capacidad). A 71Ú16" DIA. B 63Ú8" C 51Ú2" D 411Ú16" 0 40 0 4502001000 20 m3Úhr U.S. GPM 40 50 150 400 500 0 10 5 60 80 20 40 60 80 100 120 140 160 15 20 25 30 35 45 50 250 300 350 550 600 650 100 120 140 METERSMETROS FEET PIES TOTAL DYNAMIC HEAD (CARGA DINÁMICA TOTAL)CAPACITY (CAPACIDAD) 6’ NPSHR – FEET (PIES) 3656 S-Group Materials of Construction Materiales de construcción - Grupo S, modelo 3756 NOTE: Pumps will be shipped with top-vertical discharge position as standard. For other orientations, remove casing bolts – rotate discharge to desired position – replace and tighten bolts to 25 ft./lbs. Note that discharge may extend below motor mounting surface in bottom-horizontal position; adequate clearance must be provided. NOTA: Las bombas salen de la fábrica con la descarga orientada en posición vertical superior de manera estándar. Para modificar la orientación, retirar los pernos de la carcasa, hacer girar la descarga hasta la posición deseada y volver a colocar los pernos, ajustándolos a una torsión de 25 pies/libras. Se ha de notar que la descarga se puede extender por debajo de la superficie de montaje del motor en la posición horizontal inferior; por lo tanto, debe proveerse suficiente espacio. For separate seal housing and adapter construction, all bronze material only, see repair parts page. Para la construcción separada del compartimiento del sello y el adaptador, materiales de bronce únicamente, consulte la página de piezas de repuesto. 1 AISI 1045 steel motor shaft extension (typical) Extensión del eje del motor de acero AISI 1045 (típico) 101 103 383 178 126 198 199 370408 513 108 371 100 Back wearing ring on S-Group (21⁄2 x 3 – 7) only Anillo de desgaste posterior en el Grupo S (21⁄2 x 3 – 7) únicamente. 1001 1 Item No. Description Materials, Materiales No. Ítem Descripción All Iron Bronze Fitted All Bronze Todo hierro Accesorios de bronce Todo bronce 100 Casing, Carcasa 1001 101 Impeller, Impulsor 1101 1101 103 Casing wear ring,1618 1618Anillo de desgaste de la carcasa 108 Adapter, Adaptador 1001 1001 184 Seal housing, Cubierta del sello One piece with adapter, Una pieza con adaptador 1101 126 Shaft sleeve, Camisa del eje 178 Impeller key, Chaveta del impulsor 198 Impeller bolt, Perno del impulsor 199 Impeller washer, Arandela del impulsor 370 Hex head cap screw (adapter to case), Tornillo de cabeza hexagonal (del adaptador a la cubierta)Steel SAE 1200 Grade 5371 Hex head cap screw (adapter to motor), Tornillo de Acero SAE 1200 grado 5 cabeza hexagonal (del adaptador al motor) 383 Mechanical seal, Sello mecánico See seal chart, Ver tabla del sello 408 Pipe plug 1⁄4" or 3⁄8", Tapón de tubos de 1⁄4 de pulgada ó 3⁄8 de pulgada Steel, Acero Bronze, Bronce 513 O-ring, Anillo en O BUNA-N, BUNA-N Material Code, Código de material Engineering Standard, Norma de ingeniería 1101 Cast iron ASTM A48 CL20, Hierro fundido ASTM A48 CL20 1101 Silicon bronze ASTM B584, C87500, Siliciuro de bronce ASTM B584, C87500 1618 Bizmuth brass, Latón al bismuto AISI Type 300 series stainless steel Acero inoxidable serie AISI tipo 300 14 Packed Box Arrangement, Caja prensaestopas Item No., No. Ítem Description, Descripción Materials, Materiales 105 Lantern ring, Aro de linterna TeflonTM 106 Packing, 5 rings; Empaquetadura, 5 aros Teflon Impregnated, Impregnado de Teflon 107 Gland, Casquillo AISI 316SS 126 Shaft sleeve, Camisa del eje 353 Gland stud, Perno del casquillo 355 Gland nut, Tuerca del casquillo 105 106 107 353 126 355 Packed Box Arrangement Caja prensaestopas AISI Type 300 Series Stainless Steel Acero inoxidable serie AISI tipo 300 0 Carbon,Ceramic, Cerámica BUNA-N 10K13 1 Carbón Sil-Carbide, EPR 10K19 3 Carburo de Viton 10K27 5 Sil-Carbide silicona 10K64 9 Packed Box Design with BUNA O-Ring, Diseño de prensaestopas empacado con anillo en O de BUNA 15K16 Note: 10K27 replaces obsolete 10K25, Nota: La 10K27 reemplace la obsoleta 10K25. Seal Code, Código del Sello Stationary, Estacionario Type 21 Mechanical Seal, Tipo 21 sello mecánico Elastomers, Elastómeros 316 SS, 316 Acero inoxidable Metal Parts, Partes Metálicas Rotary, Rotativo Part No., Pieza Número 3756 S-Group Materials of Construction Materiales de construcción - Grupo S, modelo 3756 NOTE: Above shows typical AI or BF construction. For separate seal housing adapter, all bronze construction, see repair parts. Pumps will be shipped with top- vertical discharge position as standard. For other orientations, remove casing bolts – rotate discharge to desired position – replace and tighten bolts to 25 ft./lbs. Note that discharge may extend below motor mounting surface in bottom- horizontal position; adequate clearance must be provided. NOTA: Esta información corresponde a las construcciones típicas AI y BF. Para el adaptador separado del compartimiento de sellos y construcción en todo bronce, consulte las partes de repuesto. Las bombas salen de la fábrica con la descarga orientada en posición vertical superior de manera estándar. Para modificar la orientación, retirar los pernos de la carcasa, hacer girar la descarga hasta la posición deseada y volver a colocar los pernos, ajustándolos a una torsión de 25 pies/libras. Se ha de notar que la descarga se puede extender por debajo de la superficie de montaje del motor en la posición horizontal inferior; por lo tanto, debe proveerse suficiente espacio. Item No. Description Materials, Materiales No. Ítem Descripción All Iron Bronze Fitted All Bronze Todo hierro Accesorios de bronce Todo bronce 100 Casing, Carcasa 1001 101 Impeller, Impulsor 1101 103 Casing wear ring, Anillo de desgaste de la carcasa 108 Adapter, Adaptador 1001 1001 184 Seal housing, Cubierta del sello One piece with adapter, Una pieza con adaptador 1101 112 Ball bearing (outboard), Cojinete de bolas (exterior)Steel, Acero 122 Shaft, Eje Carbon steel, Acero al carbono 123 V-ring (Deflector), Anillo en V (Deflector)BUNA-N 126 Shaft sleeve, Camisa del eje AISI Type 303 SS, Acero inoxidable AISI tipo 303 134 Bearing cover, Cubierta del cojinete 1001 168 Ball bearing (inboard), Cojinete de bolas (interior)Steel, Acero 178 Impeller key, Chaveta del impulsor 198 Impeller screw, Tornillo del impulsor 199 Impeller washer, Arandela del impulsor 228 Bearing frame, Marco de cojinete 1001 333A Lip seal, Sello con reborde 370 Hex head cap screw (adapter to case), Tornillo de cabeza hexagonal (del adaptador a la cubierta) 370B Hex head cap screw (adapter to bearing frame),Tornillo de cabeza hexagonal (del adaptador al marco de cojinetes)Steel SAE 1200 Grade 5 370C Hex head cap screw (bearing cover to frame),Tornillo de Acero SAE 1200 grado 5 cabeza hexagonal (de la cubierta de cojinetes al marco) 382 Retaining ring, Anillo de retención 383 Mechanical seal, Sello mecánico See seal chart, Ver tabla del sello 408 Pipe plug 1⁄4" or 3⁄8", Tapón de tubos de 1⁄4 de pulgada ó 3⁄8 de pulgada Steel, Acero Bronze, Bronce 513 O-ring, Anillo en O BUNA-N, BUNA-N Material Code, Código de material Engineering Standard, Norma de ingeniería 1101 Cast iron ASTM A48 CL20, Hierro fundido ASTM A48 CL20 1101 Silicon bronze ASTM B584, C87500, Siliciuro de bronce ASTM B584, C87500 1618 Bizmuth brass, Latón al bismuto AISI Type 303 Series SS Acero inoxidable serie AISI tipo 300 100 178 198 101 199 103 126 383 408 370 123 382 333A 134 112122228168108513 370C 370B 15 Packed Box Arrangement, Caja prensaestopas Item No., No. Ítem Description, Descripción Materials, Materiales 105 Lantern ring, Aro de linterna TeflonTM 106 Packing, 5 rings; Empaquetadura, 5 aros Teflon Impregnated, Impregnado de Teflon 107 Gland, Casquillo AISI 316SS 126 Shaft sleeve, Camisa del eje 353 Gland stud, Perno del casquillo 355 Gland nut, Tuerca del casquillo 1618 1618 1101 1001 AISI Type 300 Series Stainless Steel Acero inoxidable serie AISI tipo 300 105 106 107 353 126 355 Packed Box Arrangement Caja prensaestopas CP DC Motor Frame Size, BastidorPumpSuction Discharge Max. Max. DD R W X Y Z 140 180 210 250Bomba Succión Descarga L 1 x 2 – 7 3 1⁄2 41⁄8 51⁄2 3452 — 1 x 2 – 8 4 1⁄4 4315⁄16 53⁄4 33⁄16 41⁄4 52 — — 11⁄2 x 2 – 6 23 3⁄4 31⁄2 41⁄2 31⁄2 34 — — 11⁄2 x 2 – 8 27 1⁄8 53⁄8 45⁄8 41⁄4 541⁄4 54 11 3⁄8 115⁄8 21⁄2 x 3 – 7 3 2 1⁄2 255⁄8 51⁄8 41⁄2 113⁄16 3449101⁄8 103⁄4 113⁄4 — 3 x 4 – 7 4* 3* 25 1⁄4 53⁄4 51⁄8 33⁄4 43⁄8 21⁄2 41⁄2 82 9 3⁄4 103⁄8 113⁄8 — 3656 S-Group Dimensions and Weights Grupo S, modelo 3656 - Peso y dimensiones NOTE: All pumps shipped in vertical discharge position. May be rotated in 90º increments. Tighten casing bolts to 25 ft./lbs. torque. NOTA: Todas las bombas se embarcan con la descarga en posición vertical. Esta posición puede rotarse en incrementos de 90¡. Ajustar los pernos de la carcasa a una torsión de 25 pies/libras. 11⁄16127 2 11⁄2 11⁄4 6 10 93⁄4 103⁄4 101⁄225⁄8 — AB MAX.Z R X D G E E A 1⁄4" NPT DC MAX DD Y W L F F B CP MAX. P MAX. H - 4 HOLES 4 ORIFICIOS Motor Frame 3500 RPM 1750 RPM Bastidor 1 Phase 3 Phase 1 Phase 3 Phase del motor ODP TEFC ODP TEFC ODP TEFC ODP TEFC 143 — 3⁄4,1,11⁄2 3⁄4,1,11⁄2 3⁄4,1,11⁄2 —1⁄2,3⁄4 1⁄2,3⁄4,1 1⁄2,3⁄4,1 145 — 2 2,3 2,3 — 1,1 1⁄2 11⁄2,2 1 1⁄2,2 182 335332,333 184 5 3,5 7 1⁄2 5——5 5 213 7 1⁄2 —1071⁄2 5—71⁄2 71⁄2 215 10 — 15 10,15 ———— 254TCZ — — 20 ————— 256TCZ — — 25 20,25 ———— All dimensions in inches and weights in lbs. Do not use for construction purposes. Todas las dimensiones están en pulgadas, el peso en libras. No utilizar para fines de construcción. Motor Frames and Horsepower Bastidores del motor y potencia en HP Pump Dimensions and Weights (Dimension “L” determined by Pump and Motor) Peso y dimensiones de la bomba (la dimensión “L” está determinada por la bomba y el motor) DISCHARGE DESCARGA SUCTION SUCCIÓN Frame Size JM AB P Weight (lbs.)Tamaño del ABDEFGH(Max.)bastidor JM (Max.)Pesos (libras) 143 2 41 145 61⁄2 51⁄4 631⁄2 23⁄4 21⁄2 1⁄8 11⁄32 65⁄8 57 182 2 1⁄4 77 184 81⁄2 57⁄8 61⁄2 41⁄2 33⁄4 23⁄4 3⁄16 13⁄32 77⁄8 97 213 2 3⁄4 122 215 91⁄2 73⁄8 851⁄4 41⁄4 31⁄2 7⁄32 13⁄32 95⁄8 155 254 TCZ 9 1⁄2 41⁄8 265 256 TCZ 111⁄4 9 113⁄4 61⁄4 5 5 1⁄4 17⁄32 111⁄2 320 16 Mechanical Seal Sello mecánico Wt. (lbs.) Pesos (libras) Motor Dimensions and Weights (may vary with manufacturer)* Peso y dimensiones del motor (pueden variar de acuerdo al fabricante) * *For use with ANSI class 150 mating flange. All others are NPT connections. * Para uso con brida de contacto ANSI clase 150. Todas las demás son conexiones NTP. CP DC Motor Frame Size, BastidorPumpSuction Discharge Max. Max. DD R W X Y Z 140 180 210 250Bomba Succión Descarga L 1 x 2 – 7 3 1⁄2 73⁄16 51⁄2 3452 — — 1 x 2 – 8 4 1⁄4 4753⁄4 33⁄16 41⁄4 52 — — 11⁄2 x 2 – 6 26 3⁄4 31⁄2 41⁄2 31⁄2 34 — — 11⁄2 x 2 – 8 30 1⁄8 53⁄8 45⁄8 75⁄16 541⁄4 54 14 7⁄16 115⁄8 21⁄2 x 3 – 7 3 2 1⁄2 285⁄8 51⁄8 41⁄2 113⁄16 3449133⁄16 1313⁄16 1413⁄16 — 3 x 4 – 7 4* 3* 281⁄4 53⁄4 51⁄8 33⁄4 77⁄16 21⁄2 41⁄2 82 1213⁄16 137⁄16 147⁄16 — 17 3656 S-Group Dimensions and Weights Grupo S, modelo 3656 - Peso y dimensiones NOTE: All pumps shipped in vertical discharge position. May be rotated in 90º increments. Tighten casing bolts to 25 ft./lbs. torque. NOTA: Todas las bombas se embarcan con la descarga en posición vertical. Esta posición puede rotarse en incrementos de 90¡. Ajustar los pernos de la carcasa a una torsión de 25 pies/libras. 11⁄161 2 11⁄2 11⁄4 6 25⁄8 AB MAX.Z R X D G E E A 1⁄4" NPT DC MAX DD Y W L F F B CP MAX. P MAX. H - 4 HOLES 4 ORIFICIOS Motor Frame 3500 RPM 1750 RPM Bastidor 1 Phase 3 Phase 1 Phase 3 Phase del motor ODP TEFC ODP TEFC ODP TEFC ODP TEFC 143 JP —————— 1 — 145 JP — — 3 2,3 — — 1 1⁄2,2 1 1⁄2,2 182 JP 3 — 5 — 3 — 3 3 184 JP 5 — 7 1⁄2 5——5 5 213 TCZ 7 1⁄2 —1071⁄2 5 ——— 215 TCZ 10 — 15 10,15 ———— 254 TCZ — — 20 ————— 256 TCZ — — 25 ————— All dimensions in inches and weights in lbs. Do not use for construction purposes. Todas las dimensiones están en pulgadas, el peso en libras. No utilizar para fines de construcción. TCZ indicates west coast fit. Motor Frames and Horsepower Bastidores del motor y potencia en HP Pump Dimensions and Weights (Dimension “L” determined by Pump and Motor) Peso y dimensiones de la bomba (la dimensión “L” está determinada por la bomba y el motor) DISCHARGE DESCARGA SUCTION SUCCIÓN Frame Size JP AB P Weight (lbs.)Tamaño del ABDEFGH(Max.)bastidor JP (Max.)Pesos (libras) 143 2 41 145 61⁄2 51⁄4 631⁄2 23⁄4 21⁄2 1⁄8 11⁄32 65⁄8 57 182 2 1⁄4 77 184 81⁄2 57⁄8 61⁄2 41⁄2 33⁄4 23⁄4 3⁄16 13⁄32 77⁄8 88 213 TCZ 2 3⁄4 122 215 TCZ 91⁄2 73⁄8 851⁄4 41⁄4 31⁄2 7⁄32 13⁄32 95⁄8 155 254 TCZ 9 1⁄2 23⁄4 265 256 TCZ 111⁄4 9 113⁄4 61⁄4 5 31⁄2 1⁄4 17⁄32 111⁄2 320 TCZ indicates west coast fit. Packed Box Caja prensaestopas 30 1213⁄16 139⁄16 1313⁄16131⁄16 Wt. (lbs.) Pesos (libras) Motor Dimensions and Weights (may vary with manufacturer)* Peso y dimensiones del motor (pueden variar de acuerdo al fabricante) * *For use with ANSI class 150 mating flange. All others are NPT connections. * Para uso con brida de contacto ANSI clase 150. Todas las demás son conexiones NTP. 3756 S-Group Dimensions and Weights Grupo S, modelo 3756 - Peso y dimensiones NOTE: All pumps shipped in vertical discharge position. May be rotated in 90º increments. Tighten casing bolts to 25 ft./lbs. torque. Dimensions in inches, weights in lbs. Do not use for construction purposes. NOTA: Todas las bombas se embarcan con la descarga en posición vertical. Esta posición puede rotarse en incrementos de 90¡. Ajustar los pernos de la carcasa a una torsión de 25 pies/libras. Dimensiones en pulgadas, peso en libras. No utilizar para fines de construcción. Pump Suction Discharge DC Wt.(lbs.) CP DD L R W X Y Z PesosBomba Succión Descarga Max.(libras) 1 x 2 –7 3 1⁄2 41⁄8 51⁄2 34 84 1 x 2 – 8 1163⁄4 41⁄4 4 811⁄16 315⁄16 53⁄4 33⁄16 41⁄4 84 11⁄2 x 2 – 6 2 31⁄2 41⁄2 31⁄2 66 11⁄2 x 2 – 8 11⁄2 161⁄2 53⁄8 45⁄8 73⁄4 11⁄4 41⁄4 5 25⁄8 41⁄4 86 21⁄2 x 3 – 7 3 2 1⁄2 167⁄8 51⁄8 41⁄2 81⁄8 113⁄16 34 81 3 x 4 – 7 4* 3* 16 1⁄2 53⁄4 51⁄8 73⁄4 33⁄4 43⁄8 6 21⁄2 41⁄2 114 *For use with ANSI class 150 mating flange. All others are NPT connections. * Para uso con brida de contacto ANSI clase 150. Todas las demás son conexiones NTP. Z R DISCHARGE DESCARGA SUCTION SUCCIÓN 1⁄4" NPT X 23⁄4 L 7 51⁄4 23⁄4 5 6 1⁄2 3⁄4 1⁄2 4 HOLES 4 ORIFICIOS 7⁄16 DIA. KEYWAY CHAVETERO 1⁄4 x 1⁄8 Y W 3 1.125 1.124 DIA. DC MAX DD Pump Dimensions and Weights (Dimension “L” determined by Pump and Motor) Peso y dimensiones de la bomba (la dimensión “L” está determinada por la bomba y el motor) CP 18 Mechanical Seal Sello mecánico 19 3756 S-Group Dimensions and Weights Grupo S, modelo 3756 - Peso y dimensiones NOTE: All pumps shipped in vertical discharge position. May be rotated in 90º increments. Tighten casing bolts to 25 ft./lbs. torque. Dimensions in inches, weights in lbs. Do not use for construction purposes. NOTA: Todas las bombas se embarcan con la descarga en posición vertical. Esta posición puede rotarse en incrementos de 90¡. Ajustar los pernos de la carcasa a una torsión de 25 pies/libras. Dimensiones en pulgadas, peso en libras. No utilizar para fines de construcción. Pump Suction Discharge DC Wt.(lbs.) CP DD L R W X Y Z PesosBomba Succión Descarga Max.(libras) 1 x 2 –7 3 1⁄2 73⁄16 51⁄2 34 84 1 x 2 – 8 1197⁄16 41⁄4 4 111⁄16 11⁄16 753⁄4 33⁄16 41⁄4 84 11⁄2 x 2 – 6 2 31⁄2 41⁄2 31⁄2 66 11⁄2 x 2 – 8 11⁄2 199⁄16 53⁄8 45⁄8 1013⁄16 11⁄4 75⁄16 5 25⁄8 41⁄4 86 21⁄2 x 3 – 7 3 2 1⁄2 1915⁄16 51⁄8 41⁄2 113⁄16 113⁄16 34 81 3 x 4 – 7 4* 3* 19 9⁄16 53⁄4 51⁄8 1013⁄16 33⁄4 77⁄16 6 21⁄2 41⁄2 114 *For use with ANSI class 150 mating flange. All others are NPT connections. * Para uso con brida de contacto ANSI clase 150. Todas las demás son conexiones NTP. Z R DISCHARGE DESCARGA SUCTION SUCCIÓN 1⁄4" NPT X 23⁄4 L 7 51⁄4 23⁄4 5 6 1⁄2 3⁄4 1⁄2 4 HOLES 4 ORIFICIOS 7⁄16 DIA. KEYWAY CHAVETERO 1⁄4 x 1⁄8 Y W 3 1.125 1.124 DIA. DC MAX DD Pump Dimensions and Weights (Dimension “L” determined by Pump and Motor) Peso y dimensiones de la bomba (la dimensión “L” está determinada por la bomba y el motor) CP Packed Box Caja prensaestopas Wt.(lbs.) Motor Frame Size, Tamaño del bastidorPumpSuction Discharge CP DC DD R W X Y Z Pesos 140 / 180 210 250 / 280Bomba Succión Descarga Max. Max.(libras)HL 1 x 2 – 7 3 1⁄2 41⁄8 51⁄2 34 84 — — 1 x 2 – 8 4 1⁄4 4 11⁄16 315⁄16 53⁄4 33⁄16 41⁄4 84 — 11⁄2 x 2 – 6 3 1⁄2 41⁄2 31⁄2 66 91⁄4 73⁄4 — 11⁄2 x 2 – 8 5 3⁄8 11⁄4 41⁄4 5 25⁄8 41⁄4 86 — 21⁄2 x 3 – 7 3 2 1⁄2 167⁄8 51⁄8 41⁄2 113⁄16 34 81 9 5⁄8 81⁄8 43⁄8 3 x 4 – 7 4* 3* 16 1⁄2 53⁄4 51⁄8 33⁄4 43⁄8 21⁄2 41⁄2 114 9 1⁄4 73⁄4 7 3756 S-Group Dimensions and Weights Grupo S, modelo 3756 - Peso y dimensiones Bedplate Dimensions and Weights, Pesos y dimensiones de la place de asiento Motor Frame Motor Bearing Frame Weight (lbs.) Bastidor HA HB HD HE HF HG HP*Shim Shim Cuña del Pesos del motor Cuña marco de cojinetes (libras) 143 T 145 T 13⁄4 — 182 T 10 28 8 3 3⁄4 24 2 3⁄4 3⁄4 48 184 T 3⁄4 — 213 T 215 T 12 31 8 1⁄4 41⁄4 29 3 1 — — 65 254 T 256 T 13 42 9 1⁄4 51⁄4 381⁄2 4 13⁄4 —1 110 284 TS/T 15 44 10 1⁄2 53⁄4 401⁄2 31⁄2 —13⁄4 124 * “HP” Dimension at Motor end only. * Dimensión “HP” al extremo del motor únicamente. Z R X AB MAX HE HE HA DD 1⁄4" NPT HF HB HP 4 HOLES 5⁄8 DIA. 4 ORIFICIOS P MAX 33⁄4 3 CP Y SINGLE PHASE ONLY DC MAX 1.125 1.124 HD HG W HL C MAX (Motor End Only) (Extremo del motor únicamente) DIA. DISCHARGE DESCARGA SUCTION SUCCIÓN NOTE: 1. All pumps shipped in vertical discharge position. May be rotated in 90¡ increments. Tighten casing bolts to 25 ft./lbs. torque. 2. Dimensions in inches, weights in lbs. Do not use for construction purposes. 3. Motor dimensions and weights very with manufacturer. NOTA: 1. Todas las bombas se embarcan con la descarga en posición vertical. Esta posición puede rotarse en incrementos de 90¡. Ajustar los pernos de la carcasa a una torsión de 25 pies/libras. 2. Dimensiones en pulgadas, peso en libras. No utilizar para fines de construcción. 3. Las dimensiones y el peso de los motores varían de acuerdo al fabricante. Motor Frame 3500 RPM 1750 RPM Wt. (lbs.) Bastidor 1 Phase 3 Phase 1 Phase 3 Phase AB C P Pesos del motor ODP TEFC ODP TEFC ODP TEFC ODP TEFC Max. Max. Max.(libras) 143 T 1⁄2,1,11⁄2 3⁄4,1,11⁄2 3⁄4,1,11⁄2 3⁄4,1,11⁄2 1⁄2,3⁄4 1⁄2,3⁄4 1⁄2,3⁄4,1 1⁄2,3⁄4,1 13 3⁄8 45 145 T 2 2 2,3 2,3 1,1 1⁄2 1,11⁄2 11⁄2,2 1 1⁄2,2 14 1⁄4 53 182 T 335322,333 16 5⁄8 74 184 T 5 3,5 7 1⁄2 53—55 18 1⁄8 95 213 T 7 1⁄2 —1071⁄2 5—71⁄2 71⁄2 18 116 215 T 10 — 15 10,15 ———— 19 1⁄8 136 254 T — — 20 ————— 21 5⁄8 266 256 T — — 25 20,25 ———— 23 3⁄8 264 284 TS/T — — 30 25 ———— 12 5⁄8 247⁄8 15 392 SPACER COUPLING, ACOPLAMIENTO ESPACIADOR COUPLING GUARD, PROTECTOR DE ACOPLAMIENTO Motor Dimensions and Weights, Peso y dimensiones del motor 51⁄4 51⁄4 57⁄8 57⁄8 73⁄8 73⁄8 101⁄8 101⁄8 *For use with ANSI class 150 mating flange. All others are NPT connections. * Para uso con brida de contacto ANSI clase 150. Todas las demás son conexiones NTP. 1 163⁄8 2 11⁄2 6 161⁄2 KEYWAY CHAVETERO1⁄8 x 1⁄4 MONOFÁSICO SOLAMENTE 20 Mechanical Seal Sello mecánico Pump Dimensions and Weights (Dimension “HL” determined by Pump and Motor) Peso y dimensiones de la bomba (la dimensión “HL” está determinada por la bomba y el motor) Motor Frame 3500 RPM 1750 RPM Wt. (lbs.) Bastidor 1 Phase 3 Phase 1 Phase 3 Phase AB C P Pesos del motor ODP TEFC ODP TEFC ODP TEFC ODP TEFC Max. Max. Max.(libras) 143 T 1⁄2,1,11⁄2 3⁄4,1,11⁄2 3⁄4,1,11⁄2 3⁄4,1,11⁄2 1⁄2,3⁄4 1⁄2,3⁄4 1⁄2,3⁄4,1 1⁄2,3⁄4,1 13 3⁄8 45 145 T 2 2 2,3 2,3 1,1 1⁄2 1,11⁄2 11⁄2,2 1 1⁄2,2 14 1⁄4 53 182 T 335322,333 16 5⁄8 74 184 T 5 3,5 7 1⁄2 53—55 18 1⁄8 95 213 T 7 1⁄2 —1071⁄2 5—71⁄2 71⁄2 18 116 215 T 10 — 15 10,15 ———— 19 1⁄8 136 254 T — — 20 ————— 21 5⁄8 266 256 T — — 25 20,25 ———— 23 3⁄8 264 284 TS/T — — 30 25 ———— 12 5⁄8 247⁄8 15 392 Wt.(lbs.) Motor Frame Size, Tamaño del bastidorPumpSuction Discharge CP DC DD R W X Y Z Pesos 140 / 180 210 250 / 280Bomba Succión Descarga Max. Max.(libras)HL 1 x 2 – 7 3 1⁄2 73⁄16 51⁄2 34 84 — — 1 x 2 – 8 4 1⁄4 4 11⁄16 753⁄4 33⁄16 41⁄4 84 — 11⁄2 x 2 – 6 3 1⁄2 41⁄2 31⁄2 66 125⁄16 1013⁄16 — 11⁄2 x 2 – 8 5 3⁄8 11⁄4 75⁄16 5 25⁄8 41⁄4 86 — 21⁄2 x 3 – 7 3 2 1⁄2 1915⁄16 51⁄8 41⁄2 113⁄16 34 81 12 11⁄16 113⁄16 77⁄16 3 x 4 – 7 4* 3* 19 9⁄16 53⁄4 51⁄8 33⁄4 77⁄16 21⁄2 41⁄2 114 12 5⁄16 1013⁄16 101⁄16 21 3756 S-Group Dimensions and Weights Grupo S, modelo 3756 - Peso y dimensiones Motor Frame Motor Bearing Frame Weight (lbs.) Bastidor HA HB HD HE HF HG HP*Shim Shim Cuña del Pesos del motor Cuña marco de cojinetes (libras) 143 T 145 T 1 3⁄4 — 182 T 10 28 8 3 3⁄4 24 23⁄4 3⁄4 48 184 T 3⁄4 — 213 T 215 T 12 31 8 1⁄4 41⁄4 29 3 1 — — 65 254 T 256 T 13 42 9 1⁄4 51⁄4 381⁄2 4 13⁄4 —1 110 284 TS/T 15 44 10 1⁄2 53⁄4 401⁄2 31⁄2 —13⁄4 124 * “HP” Dimension at Motor end only. * Dimensión “HP” al extremo del motor únicamente. Z R X AB MAX HE HE HA DD 1⁄4" NPT HF HB HP 4 HOLES 5⁄8 DIA. 4 ORIFICIOS P MAX 33⁄4 3 CP Y SINGLE PHASEONLY DC MAX 1.125 1.124 HD HG W HL C MAX (Motor End Only) (Extremo del motor únicamente) DIA. DISCHARGE DESCARGA SUCTION SUCCIÓN NOTE: 1. All pumps shipped in vertical discharge position. May be rotated in 90¡ increments. Tighten casing bolts to 25 ft./lbs. torque. 2. Dimensions in inches, weights in lbs. Do not use for construction purposes. 3. Motor dimensions and weights very with manufacturer. NOTA: 1. Todas las bombas se embarcan con la descarga en posición vertical. Esta posición puede rotarse en incrementos de 90¡. Ajustar los pernos de la carcasa a una torsión de 25 pies/libras. 2. Dimensiones en pulgadas, peso en libras. No utilizar para fines de construcción. 3. Las dimensiones y el peso de los motores varían de acuerdo al fabricante. SPACER COUPLING, ACOPLAMIENTO ESPACIADOR COUPLING GUARD, PROTECTOR DE ACOPLAMIENTO Bedplate Dimensions and Weights, Pesos y dimensiones de la place de asiento Motor Dimensions and Weights, Peso y dimensiones del motor 51⁄4 51⁄4 57⁄8 57⁄8 73⁄8 73⁄8 101⁄8 101⁄8 *For use with ANSI class 150 mating flange. All others are NPT connections. * Para uso con brida de contacto ANSI clase 150. Todas las demás son conexiones NTP. 1 2 11⁄2 6 KEYWAY CHAVETERO1⁄8 x 1⁄4 MONOFÁSICO SOLAMENTE Packed Box Caja prensaestopas 197⁄16 199⁄16 Pump Dimensions and Weights (Dimension “HL” determined by Pump and Motor) Peso y dimensiones de la bomba (la dimensión “HL” está determinada por la bomba y el motor) Specifications Especificaciones Capacities to: 550 GPM (125 m3/hr) at 3500 RPM 350 GPM (79 m3/hr) at 1750 RPM Heads to: 280 feet TDH (85 m) at 3500 RPM 67 feet TDH (20 m) at 1750 RPM Working pressure to: 175 PSIG (12 bars) Suction pressure to: 100 PSIG (7 bars) Maximum temperature to: 212¡F (100¡C) with standard seal or 250¡F (121¡C) with optional seal. Motor: NEMA standard JM frame or JP frame for 3656 or T-frame for 3756. Open drip-proof, totally enclosed fan cooled and explosion proof enclosures available. Single phase (115/208 – 230 V), 1⁄2 to 3 HP (208 – 230 V) 5 HP and (230V only) on 71⁄2, 10 HP. Three phase (208 – 230/460 V) standard note that 20 and 25 HP are (230/460 V). Direction of Rotation: Clockwise viewed from motor end. •Booster service •Spraying systems •Irrigation •Water circulation •Liquid transfer •General purpose pumping Typical Applications Aplicaciones típicas Goulds Pumps 1 Goulds Drive Auburn, NY 13021 Capacidad hasta: 550 GPM (125 m 3/hr) a 3500 RPM 350 GPM (79 m 3/hr) a 1750 RPM Cargas hasta: 280 pies (85 m) carga dinámica total a 3500 RPM 67 pies (20 m) carga dinámica total a 1750 RPM Presión de operación hasta: 175 PSIG (12 bars) Presión de succión hasta: 100 PSIG (7 bars) Temperatura máxima: 212 ¡F (100 ¡C) con sello estándar o 250 ¡F (121 ¡C) con sello optativo. Motor: Bastidor NEMA JM estándar en el modelo 3656 y bastidor NEMA T estándar en el modelo 3756. Las cubiertas disponibles son: abierta a prueba de filtración, totalmente encerrada con enfriamiento por ventilador y a prueba de explosiones. Monofásico (115/208 – 230 V), 1⁄2 a 3 HP; (208 – 230 V) 5 HP y (230 V solamente) 71⁄2 a 10 HP. Trifásico (208 – 230/460 V) estándar. Los motores de 20 a 25 HP son de 230/460 V. Dirección de rotación: Dextrorsa (sentido de las agujas del reloj) cuando se mira desde el extremo del motor. •Servicio de refuerzo •Sistemas de rociado •Sistemas de riego •Circulación de agua •Transferencia de líquidos •Aplicaciones de bombeo en general © 2004 Goulds Pumps (June, 2004) Printed in USA 36/3756S Printed on recycled paper. Goulds Pumps and the ITT Engineered Blocks Symbol are registered trademarks and tradenames of ITT Industries. www.goulds.com Goulds Pumps y el símbolo de ITT Engineered Blocks son marcas registradas y marcas comerciales de ITT Industries. General Description The Riser Manifolds described in this technical data sheet provide the nec- essary waterflow alarm, pressure gauge,and drain equipmentin a single assembly for use in NFPA 13D or 13R residential sprinkler systems as fol- lows: NFPA 13D •Figure 513D (13D) 1 Inch (DN25) Female Thread x Female Thread NFPA 13D/13R •Figure 513D/R (13D/R) 1-1/2 Inch (DN40) Male Thread x Female Thread Male Thread x Male Thread •Figure 513D/R (13D/R) 2 Inch (DN50) Groove x Groove Male Thread x Groove The variety of sizes and end connec- tions allow cost effective and easy transition to check valves, control valves, and system piping. The Riser Manifoldsmaybeinstalledineitherthe horizontal (flow switch on top) or verti- cal (flow going up). WARNING The Riser Manifolds described herein must be installed and maintained in compliance with this document, as well as with the applicable standards of the National Fire Protection Asso- ciation, in addition to the standards of any other authorities having jurisdic- tion.Failure to do so may impair the performance of these devices. The owner is responsible for maintain- ing their fire protection system and de- vices in proper operating condition. The installing contractor or sprinkler manufacturer should be contacted with any questions. Technical Data Approvals The Figure 513D (13D) and 513D/R (13D/R) Riser Manifolds with a cover tamper switch for the waterflow alarm switch are UL Listed, ULC Listed, and FM Approved. The Figure 513D (13D) and 513D/R (13D/R) Riser Manifolds without a cover tamper switch for the waterflow alarm switch are UL Listed and FM Approved. Maximum Working Pressure 175 psi (12,1 bar) Assembly The manifold body of the Figure 513 is ductile iron, whereas the manifold body of the Figure 13 is cast iron. The two assemblies are completely inter- changeable in function, application, and end-to-end laying length. Finish Red painted. Installation The Riser Manifolds may be installed in either the horizontal (flow switch on top) or vertical (flow going up). The inlet of the Riser Manifold may be di- rectly connected to a shut-off control valve. NOTES (1) Where applicable pipe thread sealant is to be applied sparingly. Use ofa non-hardening pipe threadsealant is recommended. (2) Provisions for an alarm test flow must be made. The alarm test flow is to be through an orifice having a flow capacity equal to or smaller than the smallestorificesprinklerinthesystem. One of two options can be considered. The first option is to temporarily install a test orifice in the outlet of the drain line prior to performing the alarm test. The second option is to install an In- spector’s Test Connection down- stream of the Waterflow Alarm Switch. (3) Never remove any piping compo- nent nor correct or modify any piping deficiencies without first depressuriz- ing and draining the system. Step 1.Install the manifold body with the flow arrow pointing in the down- stream position using threaded con- nections and/or listed mechanical grooved connections, as applicable. Step 2.Connect the drain line, and then close the drain valve. Step 3.Refer to Figure 4 for wiring guidance. All wiring must be per- formed in accordance with the Author- ity Having Jurisdiction and/or the Na- tional Electrical Code. Step 4.Place the system in service by filling the system with water. When fill- ing the system, partially open the con- trol valve to slowly fill the system.Fill- ing the system slowly will help avoid damaging the waterflow alarm switch. After the system is fully pressurized, completely open the control valve. Step 5.Secure all supply valves open. Figure 513D (13D) and 513D/R (13D/R) Riser Manifolds 1, 1-1/2, and 2 Inch (DN25, DN40, and DN50) For NFPA 13D/13R Residential Sprinkler Systems Page 1 of 6 TFP960APRIL, 2006 Technical Services:Tel: (800) 381-9312 / Fax: (800) 791-5500 Page2of6 TFP960 FIGURE 1 1 INCH (DN25) RISER MANIFOLD ASSEMBLY AND DIMENSIONS 4-1/2" to the Waterflow Alarm Switches. Cover Tamper Switches installed internal ULC Listed Manifolds are equipped with (114,3 mm) 10" (254,0 mm) Approximate weight, 7.5 lbs. (3,4 kg).1. 2. NOTES: 3/4" NPT (92,1 mm) 3-5/8"1 (73,0 mm) 2-7/8" 9-3/4" (247,7 mm) Waterflow 3 2 CH: Common Hardware3. (88,9 mm) 3-1/2" Paddle and Cover Tamper VSR-SF modified with QTY.DESCRIPTION Female x Female NPT 1" Manifold Body, Water Pressure Gauge 200 psi/1400 kPa VSR-SF modified with Waterflow Alarm Switch: 1 3 2 NO. ..1 . . . 1 N/A 2343 P/N Paddle, UL/FM . . . . . . . . 1 971-096-01 Switch, ULC/FM 1 976-519-01........ (Normally Closed) Drain Valve FIGURE 2 1-1/2 INCH (DN40) RISER MANIFOLD ASSEMBLY AND DIMENSIONS (136,5 mm) 5-3/8" (288,9 mm) 11-3/8" Male x Male NPT Manifold 11-1/8" (282,6 mm) (54,0 mm) Male x Female NPT Manifold 10" (254,0 mm) NPT 2-1/8" 1" (114,3 mm) 4-1/2" Waterflow 32 to the Waterflow Alarm Switches. Cover Tamper Switches installed internal ULC Listed Manifolds are equipped with Approximate weight, 8.7 lbs. (3,9 kg).1. 2. NOTES: CH: Common Hardware3. (88,9 mm) 3-1/2" QTY.DESCRIPTION 1-1/2" Manifold Body, Male x Female NPT Water Pressure Gauge 300 psi/2000 kPa3 2 1 NO. ..1 .....1 2341 N/A P/N Switch, ULC/FM. . . . . . . . 1 976-519-02 ......... Waterflow Alarm Switch: VSR-SF modified with VSR-SF modified with Paddle and Cover Tamper Paddle, UL/FM 971-096-001 1 (Normally Closed) Drain Valve Male x Male NPT . . . . . . . 1 N/A Care and Maintenance The following inspection procedure must be performed as indicated, in ad- dition to any specific requirements of the NFPA, and any impairment must be immediately corrected. The owner is responsible for the in- spection, testing, and maintenance of their fire protection system and de- vices in compliance with this docu- ment, as well as with the applicable standards of the National Fire Protec- tion Association (e.g., NFPA 25), in addition to the standards of any authority having jurisdiction. The in- stallingcontractor orproductmanufac- turer should be contacted relative to any questions. It is recommended that automatic sprinkler systems be inspected, tested, and maintained by a qualified Inspection Service in accordance with local requirements and/or national codes. NOTES Noattemptistobemadetorepairany Riser Manifold component in the field. Only the pressure gauge or waterflow alarm switch can be replaced. If any other problems are encountered the entire riser manifold must be replaced. The flow and alarm test procedure will result in operation of the associated alarms. Consequently, notification must be given to the owner and the fire department, central station, or other signal station to which the alarms are connected, and notification must be given to the building occupants. Before closing a fire protection system control valve for inspection or mainte- nance work on the fire protection sys- tem that it controls, permission to shut down the effected fire protection sys- tem must first be obtained from the proper authorities and all personnel who may be affected by this action must be notified. After placing a fire protection system in service, notify the proper authorities and advise thoseresponsibleformoni- toring proprietary and/or central sta- tion alarms. Flow Test Procedure Step 1.Fully open the drain valve. Make certain that drainage water will not cause any damage or injury. Step 2.Verify that the residual (flow- ing) pressure indicated by the pres- sure gauge is no less that originally recorded for the system when it was first installed. Step 3.Close the drain valve. Step 4.Verify that the static (not flow- ing) pressure indicated by the pres- sure gauge is no less that originally recorded for the system when it was first installed. Alarm Test Procedure With A Test Orifice (See Installation Note 2) Step 1.Temporarily install a test ori- fice in the drain line outlet. Step 2.Fully open the drain valve. Make certain that drainage water will not cause any damage or injury. Step 3.Verify operation of the associ- ated alarms. Step 3.Close the drain valve. Step 4.Remove the test orifice from the drain line outlet. Alarm Test Procedure With An Inspector’s Test Connection (See Installation Note 2) Step 1.Fully open the Inspector’s Test Connection Valve. Make certain that drainagewaterwillnotcauseanydam- age or injury. Step 2.Verify operation of the associ- ated alarms. Step 3.Close the Inspector’s Test Connection Valve. TFP960 Page3of6 FIGURE 3, 2 INCH (DN50) RISER MANIFOLD ASSEMBLY AND DIMENSIONS Optionally Supply End Grooved or Male NPT (57,2 mm) (114,3 mm) 2-1/4" 2. ULC Listed Manifolds are equipped with Cover Tamper Switches installed internal to the Waterflow Alarm Switches. .......1 N/AGroove x Groove Male NPT x Groove 300 psi/2000 kPa Water Pressure Gauge Approximate weight, 11.0 lbs. (5,0 kg). NOTES: 1. 3 2 5-7/16" (138,1 mm) 1" NPT 4-1/2" . . 1 2341 (304,8 mm) 12" N/A1..... Waterflow DESCRIPTION 2" Manifold Body,1 NO. P/NQTY. 3 2 CH: Common Hardware3. ULC/FM . . . . . . . . . . . . . . 1 976-520-01 ............... Waterflow Alarm Switch: VSC with Paddle, VSC with Paddle and Cover Tamper Switch, UL/FM 976-357-011 13" (330,2 mm) Male NPT x Groove Groove x Groove, Connection (88,9 mm) 3-1/2" 1 (Normally Closed) Drain Valve Page4of6 TFP960 FIGURE 4 WIRING GUIDANCE INCOMING OUTGOING SINGLE CONDUCTOR TERMINAL PLATE LOOPED SECTION UNINSULATED CLAMPING CONDUCTORS SEPARATE STRIPPED ENDS SWITCH TERMINAL CONNECTIONS CLAMPING TERMINAL PLATE IMPROPER CONNECTION METHOD PROPER CONNECTION METHOD SEVERED CAUTION: An uninsulated section of a single conductor is not permitted to be looped around the terminal and serve as two separate connections. The wire must be severed to serve as two separate connections, thereby providing supervision of the connection in the event that the wire becomes dislodged from the terminal. WATERFLOW SWITCH TYPICAL ELECTRICA CONNECTIONS COM NCNO NO FLOW CONTACTS SPDT (Form C) 5A @ 125 VACCONTACT RATING 2.5A @ 30 VDC .......... .... COM NO NC POWER SIGNAL LOCAL DEVICE NON-SUPERVISED CIRCUITCONDITION END OF LINE RESISTOR COM SUPERVISED CIRCUIT STYLE B/CLASS B CONTROL NO NC PANEL signaling unit, while the other contact is used to operate a local audible or visual annunciator. Switch has two switches, one can be used to operate a central station, proprietary or remove For supervised circuits, see "Switch Terminal Connections" above. The Waterflow Alarm NOTE: (SEE NOTE) COVER TAMPER SWITCH (ULC ASSEMBLIES ONLY) CONTACTS SHOWN WITH COVER IN PLACE COM .......... ....CONTACT RATING NO CONTACTS 3A @ 250 VAC 5A @ 125 VAC NC SPDT (Form C) 1mA @ 5 VDC min. Limited Warranty Products manufactured by Tyco Fire & Building Products (TFBP) are war- ranted solely to the original Buyer for ten (10) years against defects in mate- rial and workmanship when paid for and properly installed and maintained under normal use and service. This warranty will expire ten (10) years from date of shipment by TFBP. No warranty is given for products or com- ponents manufactured by companies not affiliated by ownership with TFBP or for products and components which havebeensubjecttomisuse,improper installation,corrosion, or which have not been installed, maintained, modi- fied or repaired in accordance with ap- plicable Standards of the National Fire Protection Association, and/or the standards of any other Authorities Having Jurisdiction. Materials found by TFBP to be defective shall be either repaired or replaced, at TFBP’s sole option. TFBP neither assumes, nor authorizes any person to assume forit, any other obligation in connection with the sale of products or parts of prod- ucts. TFBP shall not be responsible for sprinkler system design errors or inac- curate or incomplete information sup- plied by Buyer or Buyer’s repre- sentatives. In no event shall TFBP be liable, in contract, tort, strict liability or under any other legal theory, for incidental, indirect,specialorconsequentialdam- ages, including but not limited to labor charges, regardless of whether TFBP was informed about the possibility of such damages, and in no event shall TFBP’s liability exceed an amount equal to the sales price. Theforegoingwarrantyismadeinlieu of any and all other warranties, ex- press or implied, including warranties ofmerchantabilityandfitnessforapar- ticular purpose. This limited warranty sets forth the ex- clusive remedy for claims based on failure of or defect in products, materi- als or components, whether the claim is made in contract, tort, strict liability or any other legal theory. This warranty will apply to the full ex- tent permitted by law. The invalidity, in whole or part, of any portion of this warranty will not affect the remainder. Ordering Information Riser Manifold: Specify; Size (specify), Figure (specify 513D or 513D/R, (specify connection type inlet x outlet) Riser Manifold (specify - without or with) a cover tam- per switch for the waterflow alarm switch, P/N (specify). NOTES Orders forFigure513D or 513D/Rmay be filled with a Figure 13D or 13D/R, respectively. The two assemblies are completely interchangeable in func- tion, application, and end-to-end lay- ing length. If a ULC Listing is required, the Riser Manifold must be ordered with a cover tamper switch for the waterflow alarm switch. UL/ULC/FM Assemblies With Cover Tamper Switch 1 Inch (DN25) FT x FT. . . . . . . . . . . . . . . P/N 4085 1-1/2 Inch (DN40) MT x FT . . . . . . . . . . . . . . P/N 4088 1-1/2 Inch (DN40) MT x MT . . . . . . . . . . . . . . P/N 4089 2 Inch (DN50) G x G . . . . . . . . . . . . . . . . P/N 4093 2 Inch (DN50) MT x G . . . . . . . . . . . . . . . P/N 4094 UL/FM Assemblies Without Cover Tamper Switch 1 Inch (DN25) FT x FT. . . . . . . . . . . . . . . P/N 4047 1-1/2 Inch (DN40) MT x FT . . . . . . . . . . . . . . P/N 4057 1-1/2 Inch (DN40) MT x MT . . . . . . . . . . . . . . P/N 4058 2 Inch (DN50) G x G . . . . . . . . . . . . . . . . P/N 4059 2 Inch (DN50) MT x G . . . . . . . . . . . . . . . P/N 4064 Replacement Parts: Specify: (description) for use with Fig- ure 513D, 513D/R, 13D, or 13D/R Riser Manifold, P/N (Ref. Figure 1, 2 or 2, as applicable). TFP960 Page5of6 Page6of6 TFP960 TYCO FIRE & BUILDING PRODUCTS,451 North Cannon Avenue, Lansdale, Pennsylvania 19446 AHEAD OF THE FLOW ™ www.nibco.com Revision 5/14/02 NIBCO INC. WORLD HEADQUARTERS • 1516 MIDDLEBURY ST. • ELKHART, IN 46516-4740 • USA • PH: 1.800.234.0227 TECH SERVICES PH: 1.888.446.4226 • FAX: 1.800.234.0557 • INTERNATIONAL SERVICE PH: +1.574.295.3221 • FAX: +1.574.295.3455 www.nibco.com 4 All of the advantages found in copper as a metal have been capitalized to the utmost in the manufacture of NIBCO Fittings. Because of the accuracy of construction and design, copper plumbing is more efficient and less expensive. NIBCO manufactures nine general types of fittings: Wrot Pressure; Cast Pressure; Wrot Drainage; Cast Drainage; Flanges; Flared Tube; Threaded Bronze; Insert Fittings for PEX; Barbed Insert Fittings for Polybutylene. Each has its particular place and use and each offers its own advantages when used for the proper service requirement. ALLOY AND FINISH — NIBCO Fittings are made from highest quality raw materials available — Cast Fittings are made from Copper Alloy C84400 which consists of 81% Copper, 7% Lead, 3% Tin, and 9% Zinc per ASTM Specification B584. Wrot Copper Fittings are made from commercially pure copper mill products per ASTM Specifications B75 Alloy C12200. NIBCO fittings are produced to meet requirements of applicable standards wherever practicable. NIBCO brand wrot and cast fittings are manufactured in the U.S.A. and Mexico. The manufacturing plants at South Glens Falls, NY, Stuarts Draft, VA, Nacogdoches, TX and Reynosa, Mexico are registered to ISO 9002 quality standards. Following is suggested phrasing to be incorporated in your specifications or bills of material for Copper Tube Fittings. WROT SOLDER JOINT FITTINGS — “Wrot Solder Joint Fittings shall be produced to one of the following specifications: 1. Material and workmanship shall be in accordance with ASME/ANSI B16.22; Wrought Copper and Copper Alloy Solder Joint Pressure Fittings.” Specifications 2. The dimensional, material and workmanship shall meet the requirements of MSS SP-104; Wrought Copper Solder Joint Pressure Fittings.” 3. The dimensional, material and workmanship of 5"–12" copper fittings shall meet the requirements of MSS SP-109 “Welded Fabricated Copper Solder Joint Pressure Fittings.” 4. Certified to ANSI/NSF 61. CAST COPPER ALLOY SOLDER JOINT FITTINGS — “Cast Copper Alloy Solder Joint Fittings shall be in accordance with ANSI Std. B16.18.” WROT DRAINAGE FITTINGS — “Wrot Drainage Fittings shall be in accordance with ASME/ANSI Std. B16.29.” CAST COPPER ALLOY SOLDER JOINT DRAINAGE FITTINGS — “Cast Copper Alloy Solder Joint Drainage Fittings shall be in accordance with ASME Std. B16.23.” CAST COPPER ALLOY FLARED TUBE FITTINGS — “Cast Copper Alloy Flared Tube Fittings shall be in accor- dance with ASME/ANSI Std. B16.26. CAST COPPER ALLOY FLANGES AND FLANGED FITTINGS— CLASS 150 — Cast Copper Alloy Flanges and Flanged Fittings shall meet the requirements of MSS SP-106 and/or the workmanship and dimensions of Federal Specifications WW-F-406 or ASME Std. B16.24. CLASS 125 — Material, workmanship and dimensions of flanges shall be in accordance with MSS SP-106. CAST BRONZE THREADED FITTINGS — “Cast Bronze Threaded Fittings shall be in accordance with ANSI/ASME B16.15.” POLYBUTYLENE COPPER INSERT TYPE VALVES AND FITTINGS — “Wrot Copper Insert Fittings shall be manufactured per the following specifications: MSS SP-103 or ASTM F1380.” NIBCO Copper Tube Fittings are all produced to above Standards. To simplify, write your specifications to read: “Copper Tube Fittings to be in accordance with specifications as outlined in NIBCO Catalog c-cf-0602.” WROT COPPER MEDICAL MEDICAL GAS SYSTEM COMPONENTS — Wrot copper fittings that are to be installed in medical gas applications shall be prepared in accordance with NFPA 99, Health Care Facilities Gas and Vacuum Systems and the Compressed Gas Association, Pamphlet G4.1. Packaging shall be adequately protective and include labeling that identifies the preparer and states that the product has been cleaned and bagged for oxygen or med gas service. For technical information and dimensions refer to the engineering section contained in this catalog. AHEAD OF THE FLOW ™ www.nibco.com Revision 5/14/02 NIBCO INC. WORLD HEADQUARTERS • 1516 MIDDLEBURY ST. • ELKHART, IN 46516-4740 • USA • PH: 1.800.234.0227 TECH SERVICES PH: 1.888.446.4226 • FAX: 1.800.234.0557 • INTERNATIONAL SERVICE PH: +1.574.295.3221 • FAX: +1.574.295.3455 www.nibco.com 42 TYPES OF JOINTS Flared Joint — The principle of the flared joint was first developed for copper tube plumbing in 1928 by NIBCO. The flared type joint is wholly a mechanical means of joining copper tubes. The tube nut is placed over the end of the copper tube to be joined; the tube end then is flared out at an approximate 45 degree angle by a flaring tool. The flared end is then drawn up by the tube nut so the inside surface is tightly secured against the ball seat of the fitting. This joint can be readily dismantled at any time and is, in effect, a type of union connection. Its use is generally restricted to soft (annealed) copper tubes since hard drawn tubes would be subject to splitting when flared (if the ends were not previously annealed). The flared ends of NIBCO Flared Fittings are produced to the requirements of ASME B16.26, “Cast Copper Alloy Fittings for Flared Copper Tube.” Solder Joint — NIBCO pioneered the development of the solder joint and its application to the field of copper tube piping. Today the solder joint is widely adopted, as evidenced by the majority of cities and states that have written codes to include copper tube and solder joints as desirable for general plumbing, water lines, vent, stack, waste and drain lines, as well as other uses in industry. Testing has shown that often the solder joint has greater strength than the tubes being joined, depending upon the soldering alloy selected. While the method of preparing a solder joint is an exacting art to insure a full strength joint, it can be readily mastered by skilled tradesmen. It is for this reason — to insure the public of the protection afforded by properly prepared joints — that NIBCO products are marketed through the reputable sources of supply to the piping trades. Important procedures for preparing a solder joint are graphically illustrated in this catalog on page 95. Brazed Joint — This type of joint has long been used wherever and whenever critical situations have been encountered in copper piping. The joint itself is completed much in the same manner as the solder joint; however, considerably more heat and several refinements of technique require separate procedures that are described further in this catalog on pages 96-97. Threaded Ends — To adapt copper tube to equipment having National Standard Pipe Taper (NPT) threads or to add copper tube to existing iron pipe installations or other threaded connections, NIBCO provides fittings having both external and internal NPT threads. These threaded ends are produced to the requirements of ASME B1.20.1, “Pipe Threads, General Purpose (Inch).” Flanges — To adapt copper tube to equipment having flanged connections, or to add copper tube to flanged pipe installations or other purposes, NIBCO provides flanges. The flanges are produced in two standard types widely used in this field where copper tube can serve — Class 150, comply with ASME B16.24, “Cast Copper Alloy Pipe Flanges and Flanged Fittings Class 150, 300, 400, 600, 900, 1500 and 2500”; and Class 125, which conform to MSS SP 106, “Cast Copper Alloy Flanges and Flanged Fittings Class 125, 150 and 300.” Barbed Insert Fittings for Polybutylene (PB) — NIBCO offers a complete line of copper barbed insert fittings for joining PB tube. The insert fittings are produced to the requirements of ASTM F 1380. Along with the insert fittings are copper crimp rings, which, when properly installed, provide a leak-tight mechanical joint. Transition fittings are available for adapting to new or existing threaded or solder joint ends. Barbed Insert Fittings for PEX — NIBCO offers a complete line of copper barbed insert fittings for joining PEX tube. The insert fittings are produced to the requirements of ASTM F 1807. Along with the insert fittings are copper crimp rings, which, when properly installed, provide a leak-tight mechanical joint. Transition fittings are available for adapting to new or existing threaded or solder joint ends. Fitting Terms and Abbreviations C Female solder cup Ftg Male solder end F Female NPT thread M Male NPT thread Hose Standard hose thread Hub Female end for soil pipe Spigot Male end for soil pipe No Hub Used with mechanical coupling O.D. Tube Actual tube outside diameter S Straight thread SJ Slip joint FL Flared Copper Tube Fittings 1. Soldering Clearance (between the outside of the tube and the inside diameter of the solder cup) and the Depth of the Solder Cup (into which the tube is inserted). Chart 1 – Soldering Clearance and Solder Cup Depth Nominal Maximum Minimum Maximum Depth of Size I.D. of O.D. of Clearance Solder Cup of Fitting Fitting Tube for Soldering (Inches) Inch (mm) Inch (mm) Inch (mm) Inch (mm) 1/4 0.381 (9.66) 0.374 (9.50) 0.007 (0.18) 0.31 (7.9) 3/8 0.506 (12.85) 0.499 (12.67) 0.007 (0.18) 0.38 (9.7) 1/2 0.631 (16.03) 0.622 (15.85) 0.009 (0.18) 0.50 (12.7) 5/8 0.756 (19.20) 0.749 (19.02) 0.007 (0.18) 0.62 (15.7) 3/4 0.881 (22.38) 0.872 (22.20) 0.009 (0.18) 0.75 (19.1) 1 1.132 (28.75) 1.123 (28.54) 0.008 (0.216) 0.91 (23.1) 1 1/4 1.382 (35.10) 1.373 (34.88) 0.008 (0.216) 0.97 (24.6) 1 1/2 1.633 (41.48) 1.623 (41.22) 0.010 (0.25) 1.09 (27.7) 2 2.133 (54.18) 2.123 (53.92) 0.010 (0.25) 1.34 (34.0) 2 1/2 2.633 (66.88) 2.623 (66.62) 0.010 (0.25) 1.47 (37.3) 3 3.133 (79.58) 3.123 (79.32) 0.010 (0.25) 1.66 (42.2) 3 1/2 3.633 (92.28) 3.623 (92.02) 0.010 (0.25) 1.91 (48.5) 4 4.133 (104.98) 4.123 (104.72) 0.010 (0.25) 2.16 (54.9) 5 5.133 (130.38) 5.123 (130.12) 0.010 (0.25) 2.66 (67.6) 6 6.133 (155.78) 6.123 (155.52) 0.010 (0.25) 3.09 (78.5) The National Bureau of Standards Report BMS58, “Strength of Soft-Soldered Joints in Copper Tubing,” reporting on tests conducted with 3/4-inch tubing and fitting, says “When the clearance is greater than 0.010 inch (0.25 mm), there is difficulty in filling the joint properly.” 2. Depth of Solder Penetration drastically affects the breaking load of the joint. When there is too great a soldering clearance, there is no capillary flow to assure complete solder penetration. As shown in the chart below, the holding power of the 3/4-inch joint is directly proportional to the depth of solder penetration. For example: If you get only one-third penetration, you get approximately one-third the strength needed to assure complete satisfaction. Chart 2 – Type K 3/4" Tubing AHEAD OF THE FLOW ™ www.nibco.com Revision 5/14/02 NIBCO INC. WORLD HEADQUARTERS • 1516 MIDDLEBURY ST. • ELKHART, IN 46516-4740 • USA • PH: 1.800.234.0227 TECH SERVICES PH: 1.888.446.4226 • FAX: 1.800.234.0557 • INTERNATIONAL SERVICE PH: +1.574.295.3221 • FAX: +1.574.295.3455 www.nibco.com 44 SOLDER JOINT SPECIFICATION Copper Tube Fittings continued HOW TO BE SURE OF PROPER TOLERANCES It is apparent that all of the scientific apparatus used to test tube and fittings, according to the dimensions indicated in Chart 1, would be impractical to use on the job. It is therefore essential that you install tube and fittings manufactured by companies known to be dedicated to the highest quality control standards. Should you encounter a condition where there is difficulty in filling the joint properly, NIBCO will analyze the trouble without charge. Just send six inches of the tube, along with the fitting and our technicians will provide you with an authoritative report. Solder penetration of one-third the cup depth — breaking load, approximately 2,100 lb. (955 kg) Solder penetration of the entire cup depth — breaking load approximately 7,000 lb. (3175 kg) U.S. customary units in this document are the standard; the metric units are provided for reference only. The values stated in each system are not exact equivalents. AHEAD OF THE FLOW ™ www.nibco.com Revision 5/14/02 NIBCO INC. WORLD HEADQUARTERS • 1516 MIDDLEBURY ST. • ELKHART, IN 46516-4740 • USA • PH: 1.800.234.0227 TECH SERVICES PH: 1.888.446.4226 • FAX: 1.800.234.0557 • INTERNATIONAL SERVICE PH: +1.574.295.3221 • FAX: +1.574.295.3455 www.nibco.com 45 BRAZING INFORMATION For Estimating PurposesCopper Water Tube Size BrazingAFiller Required Torch Tip Acetylene Consumption Oxygen Pressure (Approx.) Acetylene Pressure (Approx.) (In Inches) Inches (mm) Drill Size No. C.F.H. (C.M.H.) PSI (kPa) PSI (kPa) 1/4 0.25B (6.4) 54 15.9 (0.5) 4 (27) 4 (27) 3/8 0.38B (9.7) 54 15.9 (0.5) 4 (27) 4 (27) 1/2 0.50 (12.7) 51 24.8 (0.7) 5 (34) 5 (34) 5/8 0.62 (15.7) 51 24.8 (0.7) 5 (34) 5 (34) 3/4 1.00 (25.0) 51 24.8 (0.7) 5 (34) 5 (34) 1 1.60 (41.0) 48 31.6 (0.9) 6 (41) 6 (41) 1 1/4 2.00 (51.0) 48 31.6 (0.9) 6 (41) 6 (41) 1 1/2 2.60 (66.0) 44 38.7 (1.1) 7 (48) 7 (48) 2 4.40 (112.0) 40 60.0 (1.7) 7 (48) 7 (48) 2 1/2 5.90 (150.0) 40 60.0 (1.7) 7 (48) 7 (48) 3 7.90 (200.0) 35 70.0 (2.0) 71/2 (52) 71/2 (52) 3 1/2 10.50 (207.0) 35 70.0 (2.0) 71/2 (52) 7 1/2 (52) 4 13.50 (343.0) 30 88.5 (2.5) 9 (62) 9 (62) 5 20.50 (521.0) 30 88.5 (2.5) 9 (62) 9 (62) 6 28.50 (724.0) 30 88.5 (2.5) 9 (62) 9 (62) AApproximate consumption when brazing one cup of the fitting. Actual consumption depends on workmanship. For filler sizes shown, one pound of filler alloy provides 1,068 inches (27.13 mm) of 1/16-inch wire or 475 inches (12,065 mm) of 3/32-inch wire. B1/16-inch (1.59 mm) diameter wire; all other is 3/32-inch (2.38 mm) diameter. SOLDER AND FLUX REQUIREMENTS Nom. Size Joint Solder Required, LB (kg) (In Inches) General Use Drainage Use 1/4 0.097 – 3/8 0.159 – 1/2 0.261 – 5/8 0.389 – 3/4 0.548 – 1 0.856 – 1 1/4 1.115 1.2 (0.5) 1 1/2 1.480 1.4 (0.6) 2 2.380 1.5 (0.7) 2 1/2 3.225 – 3 4.335 2.8 (1.3) 3 1/2 5.786 – 4 7.446 4.2 (1.9) 5 11.392 – 6 15.815 – 8 26.955 – Solder requirements in this table are based on estimate of weight of solder used to prepare 100 solder joints of sizes shown. Two (2) ounces (0.06 kg) of solder flux will be required for each pound (0.45 kg) of solder. U.S. customary units in this document are the standard; the metric units are provided for reference only. The values stated in each system are not exact equivalents. AHEAD OF THE FLOW ™ www.nibco.com Revision 3/29/04 NIBCO INC. WORLD HEADQUARTERS • 1516 MIDDLEBURY ST. • ELKHART, IN 46516-4740 • USA • PH: 1.800.234.0227 TECH SERVICES PH: 1.888.446.4226 • FAX: 1.800.234.0557 • INTERNATIONAL SERVICE PH: +1.574.295.3221 • FAX: +1.574.295.3455 www.nibco.com 46 Copper Tube Fittings continued RATED INTERNAL WORKING PRESSURES OF JOINTS MADE WITH FLARED FITTINGS AND COPPER WATER TUBE Nominal Size Joint (In Inches) Temperature, °F(°C) A Pressure, PSI (BAR)A 3/8, 1/2, 3/4, 1, 1 1/4, 1 1/2, 2 100 (38) 175 (12) A ASME B16.26 RATED INTERNAL WORKING PRESSURES OF POLYBUTYLENE TUBE AND COPPER BARBED INSERT FITTINGS Nominal Size Joint (In Inches) Temperature, °F (°C) Pressure, PSI (BAR) 3/8, 1/2, 3/4, 1 73 (23) 200 (14) 140 (60) 160 (11) 180 (82) 100 (7) 200 (93) 80 (5) RATED INTERNAL WORKING PRESSURES OF JOINTS MADE WITH COPPER WATER TUBE AND SOLDER TYPE FITTINGS, PSI (BAR) Maximum Gauge Working Pressure for Standard Water Tube Sizes [Note (1)] Saturated SteamWorking Temperature 1/8" though 1" 1 1/4" through 2" 2 1/2" through 4" 5" through 8" 10" to 12" LB (kg) Joining Material °F °C PSI BAR PSI BAR PSI BAR PSI BAR PSI BAR All Sizes Alloy Sn50 100 38 200 (14) 175 (12) 150 (10) 135 (9) 100 (6) 50-50 Tin-Lead solder 150 66 150 (10) 125 (9) 100 (7) 90 (6) 70 (5)15 [Notes (2), (3)]200 93 100 (7) 90 (6) 75 (5) 70 (5) 50 (3) 250 121 85 (6) 75 (5) 50 (3) 45 (3) 40 (3) Alloy Sb5 100 38 1090 (9)(75) 850 (8)(59) 705 (9)(49) 660 (8)(46) 340 (23) 95-5 Tin-Antimony solder 150 66 625(10)(43) 485(10)(34) 405(10)(28) 375(10)(26) 280 (19)15 [Note (4)]200 93 505(11)(35) 395(10)(27) 325(10)(32) 305(10)(21) 230 (16) 250 121 270 (19) 210 (15) 175 (12) 165 (11) 120 (8) Alloy E 100 38 710(10)(49) 555( 10)(38) 460(10)(32) 430(10)(30) 320 (22) 150 66 475(11)(33) 370(10)(26) 305(10)(21) 285(11)(20) 215 (15)15200 93 375 (26) 290 (20) 240(11)(17) 225(11)(16) 170 (12) 250 121 320 (22) 250 (17) 205 (14) 195 (13) 145 (9) Alloy HB 100 38 1035 (9)(71) 805 (8)(56) 670 (8)(46) 625 (9)(43) 340 (23) [Note (6)]150 66 710(10)(49) 555(10)(38) 460(10)(32) 430(10)(30) 320 (22)15 200 93 440(11)(30) 345(11)(24) 285(11)(20) 265(11)(18) 200 (14) 250 121 430(11)(30) 335(11)(23) 275(11)(19) 260(11)(18) 195 (13) Joining materials at or above 593°C Pressure-temperature ratings consistent with the materials and procedures employed. [Note (7)] GENERAL NOTE: For extremely low working temperatures in the 0°F to 200°F range, it is recommended that a joint material melting at or above 1000°F be employed [see Note (5)]. NOTES:(1) Standard water tube sizes per ASTM B 88 (2) ASTM B 32 Alloy Grade Sn50 (3) The Safe Drinking Water Act Amendment of 1986 prohibits the use of any solder having a lead content in excess of 0.2% in potable water systems. (4) ASTM B 32 Alloy Grade Sb5 (5) ASTM B 32 Alloy Grade E (6) ASTM B 32 Alloy Grade HB (7) These joining materials are defined as brazing alloys by the American Welding Society. (8) The solder joint exceeds the strength of Types K, L & M tube in drawn and annealed tempers. (9) The solder joint exceeds the strength of Types L & M tube in drawn temper and Type K tube in annealed temper. (10) The solder joint exceeds the strength of Type M tube in drawn temper and Types L & K in annealed temper. (11) The solder joint exceeds the strength of Type L tube in annealed temper. U.S. customary units in this document are the standard; the metric units are provided for reference only. The values stated in each system are not exact equivalents. RATED INTERNAL WORKING PRESSURE1 FOR COPPER FITTINGS, PSI (BAR) Water Temperature Range Nominal Water Tube Size -20° to 100°F 150°F 200°F 250°F 300°F 350°F 400°F (In Inches) (-29° to 38°C) (66°C) (95°C) (120°C) (149°C) (177°C) (204°C) 1/4 912 (62) 775 (53) 729 (50) 729 (50) 714 (49) 608 (42) 456 (31) 3/8 779 (54) 662 (46) 623 (43) 623 (43) 610 (42) 519 (36) 389 (27) 1/2 722 (50) 613 (42) 577 (40) 577 (40) 565 (39) 481 (33) 361 (25) 5/8 631 (43) 537 (37) 505 (35) 505 (35) 495 (34) 421 (29) 316 (21) 3/4 582 (40) 495 (34) 466 (32) 466 (32) 456 (31) 388 (27) 291 (20) 1 494 (34) 420 (29) 395 (27) 395 (27) 387 (26) 330 (23) 247 (17) 1 1/4 439 (30) 373 (26) 351 (24) 351 (24) 344 (23) 293 (20) 219 (15) 1 1/2 408 (28) 347 (24) 327 (23) 327 (23) 320 (22) 272 (19) 204 (14) 2 364 (25) 309 (21) 291 (20) 291 (20) 285 (20) 242 (17) 182 (13) 2 1/2 336 (23) 285 (20) 269 (19) 269 (19) 263 (18) 224 (15) 168 (12) 3 317 (22) 270 (19) 254 (17) 254 (17) 248 (17) 211 (15) 159 (11) 3 1/2 304 (21) 258 (18) 243 (17) 243 (17) 238 (16) 202 (14) 152 (10) 4 293 (20) 249 (17) 235 (16) 235 (16) 230 (16) 196 (13) 147 (10) 5 269 (19) 229 (16) 215 (15) 215 (15) 211 (15) 179 (12) 135 1(9) 6 251 (17) 213 (15) 201 (14) 201 (14) 196 (14) 167 (12) 125 1(8) 8 270 (19) 230 (16) 216 (15) 216 (15) 212 (15) 180 (12) 135 1(9) 1The fitting pressure rating applies to the largest opening of the fitting. AHEAD OF THE FLOW ™ www.nibco.com Revision 5/14/02 NIBCO INC. WORLD HEADQUARTERS • 1516 MIDDLEBURY ST. • ELKHART, IN 46516-4740 • USA • PH: 1.800.234.0227 TECH SERVICES PH: 1.888.446.4226 • FAX: 1.800.234.0557 • INTERNATIONAL SERVICE PH: +1.574.295.3221 • FAX: +1.574.295.3455 www.nibco.com 47 RATED INTERNAL WORKING PRESSURES OF CAST COPPER ALLOY FLANGES AND FLANGED FITTINGS Pressure (PSI) Nominal Size Joint Temperature (In Inches) °F (°C) A Class 125A, B Class 150B Class 150A, C 1/2, 3/4,1, 1 1/4, 0 – 150 (0 – 66) 105 (7) 210 (14) 225 (15) 1 1/2, 2, 2 1/2, 175 1(79) 100 (7) 205 (14) 220 (15) 3, 4, 5, 6, 8 200 1(93)195 (7) 195 (13) 210 (15) (also 10" for 225 (107)190 (6) 190 (13) 205 (14) Class 125) 250 (121)190 (6) 180 (12) 195 (13) 275 (135)185 (6) 175 (12) 190 (13) 300 (149)185 (6) 170 (12) 180 (12) 350 (177)175 (5) 150 (10) 165 (11) 406 (208)170 (5) 140 1(9) 150 (10) A MSS SP-106 B ASTM B584, UNS C83800 and UNS C84400 C ASTM B62, UNS C83600 and ASTM B584, UNS C83600 U.S. customary units in this document are the standard; the metric units are provided for reference only. The values stated in each system are not exact equivalents. AHEAD OF THE FLOW ™ www.nibco.com Revision 5/14/02 NIBCO INC. WORLD HEADQUARTERS • 1516 MIDDLEBURY ST. • ELKHART, IN 46516-4740 • USA • PH: 1.800.234.0227 TECH SERVICES PH: 1.888.446.4226 • FAX: 1.800.234.0557 • INTERNATIONAL SERVICE PH: +1.574.295.3221 • FAX: +1.574.295.3455 www.nibco.com 50 Copper Water Tube continued U.S. customary units in this document are the standard; the metric units are provided for reference only. The values stated in each system are not exact equivalents. DIMENSIONAL DATA – COPPER WATER TUBE – TYPE “K” TYPE “K” Hard Drawn: 20-ft. (6.1m) Straight Lengths Soft Annealed: 20-ft. (6.1m) Straight Lengths, or 40-ft. (12.2m) and 60-ft. (18.3m) Length Coils (to and including size 1 1/2) Usage: For underground service and general purpose plumbing and heating installations under severe conditions. Tolerances Hard Drawn Soft Annealed (Hard Drawn Only) Outside Tubing OD Nominal Wall Weight Bursting Safe Working Bursting Safe Working Nominal Diameter Thickness Per Foot PressureA PressureB PressureA PressureC Water Tube Min. Max. Size (In Inches) Inch (mm) Inch (mm) Inch (mm) Inch (mm) Lb (kg) psi (bars) psi (bars) psi (bars) psi (bars) 1/4 0.375 (9.53) 0.373 (9.47) 0.376 (9.55) 0.035 (0.89) 0.145 (0.07) N/A N/A 1612 (111) N/A N/A 913 (63) 3/8 0.500 (12.70) 0.497 (12.62) 0.501 (12.73) 0.049 (1.24) 0.269 (0.12) N/A N/A 1675 (115) N/A N/A 960 (66) 1/2 0.625 (15.88) 0.622 (15.80) 0.626 (15.90) 0.049 (1.24) 0.344 (0.16) 9840 (678) 1337 (92) 4535 (313) 758 (52) 5/8 0.750 (19.05) 0.747 (18.97) 0.751 (19.08) 0.049 (1.24) 0.418 (0.19) N/A N/A 1104 (76) N/A N/A 626 (43) 3/4 0.875 (22.23) 0.872 (22.15) 0.876 (22.25) 0.065 (1.65) 0.641 (0.29) 9300 (641) 1278 (88) 4200 (290) 724 (50) 1 1.125 (28.58) 1.122 (28.50) 1.127 (28.63) 0.065 (1.65) 0.839 (0.38) 7200 (496) 982 (68) 3415 (235) 557 (38) 1 1/4 1.375 (34.93) 1.372 (34.85) 1.377 (34.98) 0.065 (1.65) 1.040 (0.47) 5525 (381) 797 (55) 2800 (193) 452 (31) 1 1/2 1.625 (41.28) 1.621 (41.17) 1.627 (41.33) 0.072 (1.83) 1.360 (0.62) 5000 (345) 742 (51) 2600 (179) 420 (29) 2 2.125 (53.98) 2.121 (53.87) 2.127 (54.03) 0.083 (2.11) 2.060 (0.93) 3915 (270) 652 (45) 2235 (154) 370 (26) 2 1/2 2.625 (66.68) 2.621 (66.57) 2.627 (66.73) 0.095 (2.41) 2.930 (1.33) 3575 (246) 597 (41) N/A N/A 338 (23) 3 3.125 (79.38) 3.121 (79.27) 3.127 (79.43) 0.109 (2.77) 4.000 (1.81) 3450 (238) 578 (40) N/A N/A 328 (23) 3 1/2 3.625 (92.08) 3.621 (91.97) 3.627 (92.13) 0.120 (3.05) 5.120 (2.32) N/A N/A 549 (38) N/A N/A 311 (21) 4 4.125 (104.78) 4.121 (104.67) 4.127 (104.83) 0.134 (3.40) 6.510 (2.95) 3415 (235) 540 (37) N/A N/A 306 (21) 5 5.125 (130.18) 5.121 (130.07) 5.127 (130.23) 0.160 (4.06) 9.670 (4.39) 3585 (247) 517 (36) N/A N/A 293 (20) 6 6.125 (155.58) 6.121 (155.47) 6.127 (155.63) 0.192 (4.88) 13.900 (6.30) 3425 (236) 520 (36) N/A N/A 295 (20) 8 8.125 (206.38) 8.119 (206.22) 8.127 (206.43) 0.271 (6.88) 25.900 (11.75) 3635 (251) 553 (38) N/A N/A 314 (22) 10 10.125 (257.18) 10.119 (257.02) 10.127 (257.23) 0.338 (8.59) 40.300 (18.28) N/A N/A 553 (38) N/A N/A 314 (22) 12 12.125 (307.98) 12.119 (307.82) 12.127 (308.03) 0.405 (10.29) 57.800 (26.22) N/A N/A 555 (38) N/A N/A 314 (22) Note: Information and data contained in these charts, as taken from ASTM Specifications B 88. Rated internal pressure for copper water tube based on the strength of the tube alone and applicable to systems using suitable mechanical joints. ABased on actual laboratory test data provided by Copper Development Association, Inc. BBased upon 150°F (65.6°C) with an allowable stress of 9500 psi (668 kPa). CBased upon 150°F (65.6°C) with an allowable stress of 5100 psi (359 kPa). AHEAD OF THE FLOW ™ www.nibco.com Revision 5/14/02 NIBCO INC. WORLD HEADQUARTERS • 1516 MIDDLEBURY ST. • ELKHART, IN 46516-4740 • USA • PH: 1.800.234.0227 TECH SERVICES PH: 1.888.446.4226 • FAX: 1.800.234.0557 • INTERNATIONAL SERVICE PH: +1.574.295.3221 • FAX: +1.574.295.3455 www.nibco.com 51 U.S. customary units in this document are the standard; the metric units are provided for reference only. The values stated in each system are not exact equivalents. DIMENSIONAL DATA – COPPER WATER TUBE – TYPE “L” TYPE “L” Hard Drawn: 20-ft. (6.1m) Straight Lengths Soft Annealed: 20-ft. (6.1m) Straight Lengths, or 40-ft. (12.2m) and 60-ft. (18.3m) Length Coils (to and including size 1 1/2) Usage: For general purpose plumbing and heating conditions. Tolerances Hard Drawn Soft Annealed (Hard Drawn Only) Outside Tubing OD Nominal Wall Weight Bursting Safe Working Bursting Safe Working Nominal Diameter Thickness Per Foot PressureA PressureB PressureA PressureC Water Tube Min. Max. Size (In Inches) Inch (mm) Inch (mm) Inch (mm) Inch (mm) Lb (kg) psi (bars) psi (bars) psi (bars) psi (bars) 1/4 0.375 (9.53) 0.373 (9.47) 0.376 (9.55) 0.030 (0.76) 0.126 (0.06) N/A N/A 1367 (94) N/A N/A 775 (53) 3/8 0.500 (12.70) 0.497 (12.62) 0.501 (12.73) 0.035 (0.89) 0.198 (0.09) N/A N/A 1168 (81) N/A N/A 662 (46) 1/2 0.625 (15.88) 0.622 (15.80) 0.626 (15.90) 0.040 (1.02) 0.285 (0.13) 7765 (535) 1082 (75) 3885 (268) 613 (42) 5/8 0.750 (19.05) 0.747 (18.97) 0.751 (19.08) 0.042 (1.07) 0.362 (0.16) N/A N/A 947 (65) N/A N/A 537 (37) 3/4 0.875 (22.23) 0.872 (22.15) 0.876 (22.25) 0.045 (1.14) 0.455 (0.21) 5900 (407) 873 (60) 2935 (202) 495 (34) 1 1.125 (28.58) 1.122 (28.50) 1.127 (28.63) 0.050 (1.27) 0.655 (0.30) 5115 (353) 741 (51) 2650 (183) 420 (29) 1 1/4 1.375 (34.93) 1.372 (34.85) 1.377 (34.98) 0.055 (1.40) 0.884 (0.40) 4550 (314) 658 (45) 2400 (165) 373 (26) 1 1/2 1.625 (41.28) 1.621 (41.17) 1.627 (41.33) 0.060 (1.52) 1.140 (0.52) 4100 (283) 613 (42) 2200 (152) 347 (24) 2 2.125 (53.98) 2.121 (53.87) 2.127 (54.03) 0.070 (1.78) 1.750 (0.79) 3365 (232) 545 (38) 1910 (132) 309 (21) 2 1/2 2.625 (66.68) 2.621 (66.57) 2.627 (66.73) 0.080 (2.03) 2.480 (1.12) 3215 (222) 504 (35) N/A N/A 285 (20) 3 3.125 (79.38) 3.121 (79.27) 3.127 (79.43) 0.090 (2.29) 3.330 (1.51) 2865 (198) 476 (33) N/A N/A 270 (19) 3 1/2 3.625 (92.08) 3.621 (91.97) 3.627 (92.13) 0.100 (2.54) 4.290 (1.95) N/A N/A 455 (31) N/A N/A 258 (18) 4 4.125 (104.78) 4.121 (104.67) 4.127 (104.83) 0.110 (2.79) 5.380 (2.44) 2865 (198) 440 (30) N/A N/A 249 (17) 5 5.125 (130.18) 5.121 (130.07) 5.127 (130.23) 0.125 (3.18) 7.610 (3.45) 2985 (206) 404 (28) N/A N/A 229 (16) 6 6.125 (155.58) 6.121 (155.47) 6.127 (155.63) 0.140 (3.56) 10.200 (4.63) 2690 (185) 376 (26) N/A N/A 213 (15) 8 8.125 (206.38) 8.119 (206.22) 8.127 (206.43) 0.200 (5.08) 19.290 (8.75) 2650 (183) 406 (28) N/A N/A 230 (16) 10 10.125 (257.18) 10.119 (257.02) 10.127 (257.23) 0.250 (6.35) 30.100 (13.65) N/A N/A 407 (28) N/A N/A 231 (16) 12 12.125 (307.98) 12.119 (307.82) 12.127 (308.03) 0.280 (7.11) 40.400 (18.33) N/A N/A 380 (26) N/A N/A 215 (15) Note: Information and data contained in these charts, as taken from ASTM Specifications B 88. Rated internal pressure for copper water tube based on the strength of the tube alone and applicable to systems using suitable mechanical joints. ABased on actual laboratory test data provided by Copper Development Association, Inc. BBased upon 150°F (65.6°C) with an allowable stress of 9500 psi (668 kPa). CBased upon 150°F (65.6°C) with an allowable stress of 5100 psi (359 kPa). AHEAD OF THE FLOW ™ www.nibco.com Revision 5/14/02 NIBCO INC. WORLD HEADQUARTERS • 1516 MIDDLEBURY ST. • ELKHART, IN 46516-4740 • USA • PH: 1.800.234.0227 TECH SERVICES PH: 1.888.446.4226 • FAX: 1.800.234.0557 • INTERNATIONAL SERVICE PH: +1.574.295.3221 • FAX: +1.574.295.3455 www.nibco.com 52 U.S. customary units in this document are the standard; the metric units are provided for reference only. The values stated in each system are not exact equivalents. Copper Water Tube continued DIMENSIONAL DATA – COPPER WATER TUBE – TYPE “M” TYPE “M” Hard Drawn Only: 20-ft. (6.1m) Straight Lengths Usage: For general purpose plumbing, heating and drainage installations. Tolerances Hard Drawn (Hard Drawn Only) Outside Tubing OD Nominal Wall Weight Bursting Safe Working Nominal Diameter Thickness Per Foot PressureA PressureB Water Tube Min. Max. Size (In Inches) Inch (mm) Inch (mm) Inch (mm) Inch (mm) Lb (kg) psi (bars) psi (bars) 1/4 0.375 (9.53) 0.373 (9.47) 0.376 (9.55) N/A N/A N/A N/A N/A N/A N/A N/A 3/8 0.500 (12.70) 0.497 (12.62) 0.501 (12.73) 0.025 (0.64) 0.145 (0.07) N/A N/A 855 (59) 1/2 0.625 (15.88) 0.622 (15.80) 0.626 (15.90) 0.028 (0.71) 0.204 (0.09) 6135 (423) 741 (51) 5/8 0.750 (19.05) 0.747 (18.97) 0.751 (19.08) N/A N/A N/A N/A N/A N/A N/A N/A 3/4 0.875 (22.23) 0.872 (22.15) 0.876 (22.25) 0.032 (0.81) 0.328 (0.15) 4717 (325) 611 (42) 1 1.125 (28.58) 1.122 (28.50) 1.127 (28.63) 0.035 (0.89) 0.465 (0.21) 3865 (266) 506 (35) 1 1/4 1.375 (34.93) 1.372 (34.85) 1.377 (34.98) 0.042 (1.07) 0.682 (0.31) 3875 (267) 507 (35) 1 1/2 1.625 (41.28) 1.621 (41.17) 1.627 (41.33) 0.049 (1.24) 0.940 (0.43) 3550 (245) 497 (34) 2 2.125 (53.98) 2.121 (53.87) 2.127 (54.03) 0.058 (1.47) 1.460 (0.66) 2935 (202) 448 (31) 2 1/2 2.625 (66.68) 2.621 (66.57) 2.627 (66.73) 0.065 (1.65) 2.030 (0.92) 2800 (193) 411 (28) 3 3.125 (79.38) 3.121 (79.27) 3.127 (79.43) 0.072 (1.83) 2.680 (1.22) 2665 (184) 380 (26) 3 1/2 3.625 (92.08) 3.621 (91.97) 3.627 (92.13) 0.083 (2.11) 3.580 (1.62) N/A N/A 378 (26) 4 4.125 (104.78) 4.121 (104.67) 4.127 (104.83) 0.095 (2.41) 4.660 (2.11) 2215 (153) 377 (26) 5 5.125 (130.18) 5.121 (130.07) 5.127 (130.23) 0.109 (2.77) 6.660 (3.02) 2490 (172) 349 (24) 6 6.125 (155.58) 6.121 (155.47) 6.127 (155.63) 0.122 (3.10) 8.920 (4.05) 2000 (138) 328 (23) 8 8.125 (206.38) 8.119 (206.22) 8.127 (206.43) 0.170 (4.32) 16.500 (7.48) 2285 (158) 344 (24) 10 10.125 (257.18) 10.119 (257.02) 10.127 (257.23) 0.212 (5.38) 25.600 (11.61) N/A N/A 344 (24) 12 12.125 (307.98) 12.119 (307.82) 12.127 (308.03) 0.254 (6.45) 36.700 (16.65) N/A N/A 345 (24) Note: Information and data contained in these charts, as taken from ASTM Specifications B 88. Rated internal pressure for copper water tube based on the strength of the tube alone and applicable to systems using suitable mechanical joints. ABased on actual laboratory test data provided by Copper Development Association, Inc. BBased upon 150°F (65.6°C) with an allowable stress of 9500 psi (668 kPa). AHEAD OF THE FLOW ™ www.nibco.com Revision 5/14/02 NIBCO INC. WORLD HEADQUARTERS • 1516 MIDDLEBURY ST. • ELKHART, IN 46516-4740 • USA • PH: 1.800.234.0227 TECH SERVICES PH: 1.888.446.4226 • FAX: 1.800.234.0557 • INTERNATIONAL SERVICE PH: +1.574.295.3221 • FAX: +1.574.295.3455 www.nibco.com 54 Copper Water Tube continued Under normal conditions, the physical properties of copper tubes, when produced by responsible manufacturers are perfectly adapted for the conveyance of hot and cold water, steam, oil, gas, and air. Copper tubes will stand up under ordinary conditions, but the user is specifically cautioned against laying underground tube in cinderfill, especially if the ground is apt to be wet. Due to the sulphur compounds in the cinders, a condition of this kind may corrode the outside of the tubes. This may be overcome either by wrapping the tube with canvas and asphaltum or by surrounding the tube with a bed of clean sand mixed with lime, or with limestone or broken plaster. When conditions are doubtful, it is advisable to consult the Copper Development Association, or the tube manufacturer. Annealed copper tubes are generally recommended for underground use. 1/2" annealed copper tubes have been frozen as many as six times before finally bursting, eight times for 1" size, and eleven times for 2" size. Hard drawn copper tubes, however, burst during the first freezing the same as iron pipe. (Condensed from Copper Tube Handbook.) COMPARATIVE DATA – COPPER WATER TUBE AND IRON PIPES BTUs to Raise 100°F/38°C Nominal “A” “B” “C” “D” “E” “F” “G” “H” “I” Water New Pipe Inside Outside Weight Volume Water Pipe Heat Loss Flow Tube Size Diameter Diameter (In Inches) Inch (mm) Inch (mm) Lb (Kg)Gal/10ft. L/3.05m BTU kJ BTU kJ BTU kJ GPM LPM 3/8 Coper .430 (10.92) 0.500 (12.70) 0.198 (0.090) 0.0754 (0.2854) 62.89 (66.4) 18.61 (19.6) No Data No Data 1.873 (7.089) Iron .493 (12.52) 0.675 (17.15) 0.567 (0.257) 0.0992 (0.3755) 82.66 (87.2) 62.37 (65.8) No Data No Data 2.464 (9.326) 1/2 Coper .545 (13.84) 0.625 (15.88) 0.285 (0.129) 0.1212 (0.4587) 101.20 (106.8) 26.70 (28.2) 0.34 (0.36) 3.565 (13.494) Iron .622 (15.80) 0.840 (21.34) 0.850 (0.386) 0.1578 (0.5973) 131.60 (138.8) 93.50 (98.6) 5.94 (6.27) 4.585 (17.354) 3/4 Coper .785 (19.94) 0.875 (22.23) 0.455 (0.207) 0.2514 (0.9515) 209.60 (221.1) 42.67 (45.0) 0.41 (0.44) 9.599 (36.332) Iron .824 (20.93) 1.050 (26.67) 1.130 (0.513) 0.2770 (1.0484) 230.10 (242.8) 124.30 (131.1) 7.16 (7.55) 9.720 (36.790) 1 Coper 1.025 (26.04) 1.125 (28.58) 0.655 (0.297) 0.4287 (1.6226) 357.30 (377.0) 61.38 (64.8) 0.50 (0.53) 19.80 (74.94) Iron 1.049 (26.64) 1.315 (33.40) 1.678 (0.762) 0.4490 (1.6995) 374.30 (394.9) 184.58 (194.7) 8.62 (9.09) 18.53 (70.14) 1 1/4 Coper 1.265 (32.13) 1.375 (34.93) 0.884 (0.401) 0.6529 (2.4712) 544.30 (574.3) 82.91 (87.5) 0.62 (0.65) 35.05 (132.66) Iron 1.380 (35.05) 1.660 (42.16) 2.270 (1.031) 0.7770 (2.9409) 647.70 (683.4) 249.70 (263.4) 10.65 (11.24) 38.56 (145.95) 1 1/2 Coper 1.505 (38.23) 1.625 (41.28) 1.140 (0.518) 0.9241 (3.4977) 770.40 (812.8) 107.16 (113.1) 0.69 (0.73) 56.16 (212.57) Iron 1.610 (40.89) 1.900 (48.26) 2.720 (1.235) 1.0580 (4.0045) 881.60 (930.1) 298.10 (314.5) 11.97 (12.63) 58.20 (220.29) 2 Coper 1.985 (50.42) 2.125 (53.98) 1.750 (0.795) 1.6080 (6.0863) 1340.00 (1413.8) 164.50 (173.6) 0.84 (0.89) 119.10 (450.79) Iron 2.067 (52.50) 2.375 (60.33) 3.650 (1.657) 1.7430 (6.5973) 1453.00 (1533.0) 401.50 (423.6) 14.61 (15.41) 113.50 (429.60) 2 1/2 Coper 2.465 (62.61) 2.625 (66.68) 2.480 (1.126) 2.4790 (9.3830) 2066.00 (2179.7) 233.00 (245.8) 1.01 (1.07) 214.30 (811.13) Iron 2.469 (62.71) 2.875 (73.03) 5.790 (2.629) 2.4870 (9.4133) 2073.00 (2187.1) 636.90 (672.0) 17.42 (18.38) 182.50 (690.76) 3 Coper 2.945 (74.80) 3.125 (79.38) 3.330 (1.512) 3.5390 (13.3951) 2945.00 (3107.1) 313.20 (330.4) 1.13 (1.19) 347.40 (1314.91) Iron 3.068 (77.93) 3.5 (88.90) 7.58 (3.441) 3.8400 (14.5344) 3201.00 (3377.2) 832.70 (878.5) 20.63 (21.77) 326.00 (1233.91) 4 Coper 3.905 (99.19) 4.125 (104.78) 5.380 (2.443) 6.2220 (23.5503) 5186.00 (5471.5) 505.72 (533.6) 1.50 (1.58) 747.10 (2827.77) Iron 4.026 (102.26) 4.5 (114.30) 10.79 (4.899) 6.6130 (25.0302) 5513.00 (5816.5) 1186.90 (1252.2) 26.00 (27.43) 673.80 (2550.33) COLUMN A: The copper tube is Type L Standard, meeting the requirements of ASTM Specification B 88. The iron pipe is standard weight, schedule 40, bare pipe, except as to Column I where new galvanized pipe is referred to. COLUMN B: From manufacturers’ specifications. Slight variations can be noted between specifications of different manufacturers, but these figures are representative. COLUMN C: From manufacturers’ specifications with the same considerations as noted for Column B. COLUMN D: From manufacturers’ specifications. COLUMN E: Cubic contents of 10 linear feet/3.05 linear metres of tube and have been calculated from dimeters given in Column B, by the formula for the contents of a cylinder. COLUMN F: This column has been calculated from Column E and shows the number of BTUs (kilojoules) required to heat the water content only of 10 feet (3.05 metres) of the given tube and pipe 100°F (38°C). It requires 833.6 BTUs (879.5 kJ) to heat 1 gallon (3.875 litres) of water 100°F (38°C). COLUMN G: These figures are calculated from Column D and show the number of BTUs (kJ) required to raise the temperature of 10 feet (3.05 metres) of empty tube and pipe 100°F (38°C). Due to difference in the specific heat of the materials, it requires 9.4 BTUs (9.9 kJ) to raise 1 pound (0.454 kilograms) of copper 100°F (38°C) and 11.0 BTUs (11.6 kJ) to raise 1 pound (0.454 kilograms) of iron 100°F (38°C). COLUMN H: This column shows the heat emission from 10 feet (3.05 metres) of the given tube and pipe placed horizontally. The column in terms of BTUs lost per hour (kilojoules lost per hour) for each degree of difference in temperature between the pipe and the surrounding air. The figures for iron are taken from experimental data obtained at the Mellon Institute. Figures for copper have been calculated with reference to those for iron on the basis of the known ratio of heat emission between the two materials. COLUMN I: This column shows the number of gallons (litres) of water which will flow through 100 feet (30.48 metres) of the given tube and pipe with a pressure loss of 10 pounds per square inch (70 kilopascals). Flow is based on diameters in Column B according to Professor Dawson’s formulae for NEW galvanized iron pipe and NEW copper tube. Due to the corrosion of iron and its tendency to accumulate sediments and other foreign matter, Prof. Dawson suggests that 15% be deducted from the figures for iron pipe in order to arrive at a reasonable performance expectancy for such pipe in service. Because copper resists rust and is inherently more smooth, Professor Dawson suggests a deduction of only 5% from the figures given for copper tube. U.S. customary units in this document are the standard; the metric units are provided for reference only. The values stated in each system are not exact equivalents. RADII OF COILED EXPANSION LOOPS AND DEVELOPED LENGTHS OF EXPANSION OFFSETS Expected Expansion Nominal 1/2 1 1 1/2 2 2 1/2 3 3 1/2 4 TubeRLRLRLRLRLRLRLRL Size Inch (mm) Inch (mm) Inch (mm) Inch (mm) Inch (mm) Inch (mm) Inch (mm) Inch (mm) Inch (mm) 1/4 6 (152.4) 38 (965.2) 9 (228.6) 54 (1371.6) 11 (279.4) 66 (1676.4) 12 (304.8) 77 (1955.8) 14 (355.6) 3/8 7 (177.8) 44 (1117.6) 10 (254.0) 63 (1600.2) 12 (304.8) 77 (1955.8) 14 (355.6) 89 (2260.6) 16 (406.4) 1/2 8 (203.2) 50 (1270.0) 11 (279.4) 70 (1778.0) 14 (355.6) 89 (2260.6) 16 (406.4) 99 (2514.6) 18 (457.2) 3/4 9 (228.6) 59 (1498.6) 13 (330.2) 83 (2108.2) 16 (406.4) 101 (2565.4) 19 (482.6) 117 (2971.8) 21 (533.4) 1 11 (279.4) 67 (1701.8) 15 (381.0) 94 (2387.6) 18 (457.2) 115 (2921.0) 21 (533.4) 133 (3378.2) 24 (609.6) 1 1/2 13 (330.2) 80 (2032.0) 18 (457.2) 113 (2870.2) 22 (558.8) 138 (3505.2) 25 (635.0) 160 (4064.0) 29 (736.6) 2 15 (381.0) 91 (2311.4) 21 (533.4) 129 (3276.6) 25 (635.0) 158 (4013.2) 29 (736.6) 183 (4648.2) 33 (838.2) 2 1/2 16 (406.4) 102 (2590.8) 23 (584.2) 144 (3657.6) 28 (711.2) 176 (4470.4) 32 (812.8) 203 (5156.2) 36 (914.4) 3 18 (457.2) 111 (2819.4) 25 (635.0) 157 (3987.8) 30 (762.0) 191 (4851.4) 35 (889.0) 222 (5638.8) 40 (1016.0) 3 1/2 19 (482.6) 120 (3048.0) 27 (685.8) 169 (4292.6) 33 (838.2) 206 (5232.4) 38 (965.2) 239 (6070.6) 43 (1092.2) 4 20 (508.0) 128 (3251.2) 29 (736.6) 180 (4572.0) 35 (889.0) 220 (5588.0) 41 (1041.4) 255 (6477.0) 45 (1143.0) 5 23 (584.2) 142 (3606.8) 32 (812.8) 201 (5105.4) 39 (990.6) 245 (6223.0) 45 (1143.0) 284 (7213.6) 51 (1295.4) Inch (mm) Inch (mm) Inch (mm) Inch (mm) Inch (mm) Inch (mm) Inch (mm) 86 (2184.4) 15 (381.0) 94 (2387.6) 16 (406.4) 102 (2590.8) 17 (431.8) 109 (2768.6) 99 (2514.6) 17 (431.8) 109 (2768.6) 19 (482.6) 117 (2971.8) 20 (508.0) 126 (3200.4) 111 (2819.4) 19 (482.6) 122 (3098.8) 21 (533.4) 131 (3327.4) 22 (558.8) 140 (3556.0) 131 (3327.4) 23 (584.2) 143 (3632.2) 25 (635.0) 155 (3937.0) 26 (660.4) 166 (4216.4) 149 (3784.6) 26 (660.4) 163 (4140.2) 28 (711.2) 176 (4470.4) 30 (762.0) 188 (4775.2) 179 (4546.6) 31 (787.4) 196 (4978.4) 34 (863.6) 212 (5384.8) 36 (914.4) 226 (5740.4) 205 (5207.0) 36 (914.4) 224 (5689.6) 39 (990.6) 242 (6146.8) 41 (1041.4) 259 (6578.6) 227 (5765.8) 40 (1016.0) 249 (6324.6) 43 (1092.2) 269 (6832.6) 46 (1168.4) 288 (7315.2) 248 (6299.2) 43 (1092.2) 272 (6908.8) 47 (1193.8) 293 (7442.2) 50 (1270.0) 314 (7975.6) 267 (6781.8) 47 (1193.8) 293 (7442.2) 50 (1270.0) 316 (8026.4) 54 (1371.6) 338 (8585.2) 285 (7239.0) 50 (1270.0) 312 (7924.8) 54 (1371.6) 337 (8559.8) 57 (1447.8) 361 (9169.4) 318 (8077.2) 55 (1397.0) 348 (8839.2) 60 (1524.0) 376 (9550.4) 64 (1625.6) 402(10210.8) AHEAD OF THE FLOW ™ www.nibco.com Revision 5/14/02 NIBCO INC. WORLD HEADQUARTERS • 1516 MIDDLEBURY ST. • ELKHART, IN 46516-4740 • USA • PH: 1.800.234.0227 TECH SERVICES PH: 1.888.446.4226 • FAX: 1.800.234.0557 • INTERNATIONAL SERVICE PH: +1.574.295.3221 • FAX: +1.574.295.3455 www.nibco.com 55 In the majority of low-pressure heating systems employing copper tube and installed in small houses or private dwellings, provision for expansion and contraction is relatively simple. Mains, risers, and branches to radiators should be free or floating at one end of the line. Holes should be large enough to permit free movement of the tube, and care should be exercised so that pipe hangers and supports permit unrestricted movement and do not anchor the tube. Wrought copper tube hangers that are both practicable and neat in appearance are available. Unusually long runs of copper tubing should be provided with an expansion bend or loop. By bending soft temper copper tube, a simple form of expansion loop can be made. With the addition of combination flared-tube to solder joint fittings, as illustrated in Figure 1, these types of loops can be used when space or other limitations exist. The correct proportions of such expansion loop to meet various conditions are shown in the accompanying table. FIGURE 1 EXPANSION AND CONTRACTION U.S. customary units in this document are the standard; the metric units are provided for reference only. The values stated in each system are not exact equivalents. The above chart is calculated using 10ft (3.05m) of copper tubing as the reference point. You may use it as follows: 100ft (30.5m) of copper tube, with a 200°F (93.3°C) temperature change. Reference point .2256 inches for 10ft, (5.73mm for 3.05m), multipy by 10 for 100ft (30.5m), resulting in an answer of 2.256 inches (57.3mm) of expansion or contraction. NOTE: Calculations for expansion and contraction should be based on the average coefficient of expansion of copper which is 0.0000094 per °F (0.00001692 per °C) between 77°F and 212°F (25°C and 100°C). For example, the expansion for each 10ft (3.05m) of any size of tube heated from room temperature of 70°F (21.1°C) to 170°F (76.7°C), that is, 100°F (55.6°C) rise, is: Rise Coefficient 100°F 10ft 12 inches 0.000094 0.1128 in.xx x =(55.6°C) (3.05m) (1000mm) (0.00001692) (2.87mm) a. U-Bend c. Offset and Return b. Coiled Loop APPROXIMATE FRICTION LOSS ALLOWANCES FOR FITTINGS AND VALVES IN FEET OF STRAIGHT TUBE Wrought-Copper Fittings Cast Copper Alloy Fittings and Valves Nominal 90° 45° Tee Tee 90° 180° 90° 45° Tee Tee Comp. Globe Gate Tube Size Elbow Elbow Run Side Outlet Bend Bend Elbow Elbow Run Side Outlet Stop Valve Valve (In Inches) Feet (m) Feet (m) Feet (m) Feet (m) Feet (m) Feet (m) Feet (m) Feet (m) Feet (m) 3/8 0.5 (0.15) 0.5 (0.15) 0.5 (0.15) 1 (0.31) 0.5 (0.15) 0.5 (0.15) 1 (0.31) 0.5 (0.15) 0.5 (0.15) 1/2 0.5 (0.15) 0.5 (0.15) 0.5 (0.15) 1 (0.31) 0.5 (0.15) 1 (0.31) 1 (0.31) 0.5 (0.15) 0.5 (0.15) 5/8 0.5 (0.15) 0.5 (0.15) 0.5 (0.15) 2 (0.61) 1 (0.31) 1 (0.31) 2 (0.61) 1 (0.31) 0.5 (0.15) 3/4 1 (0.31) 0.5 (0.15) 0.5 (0.15) 2 (0.61) 1 (0.31) 2 (0.61) 2 (0.61) 1 (0.31) 0.5 (0.15) 1 1 (0.31) 1 (0.31) 0.5 (0.15) 3 (0.92) 2 (0.61) 2 (0.61) 4 (1.22) 2 (0.61) 0.5 (0.15) 1 1/4 2 (0.61) 1 (0.31) 0.5 (0.15) 4 (1.22) 2 (0.61) 3 (0.92) 5 (1.53) 2 (0.61) 1 (0.31) 1 1/2 2 (0.61) 2 (0.61) 1 (0.31) 5 (1.53) 2 (0.61) 4 (1.22) 8 (2.44) 3 (0.92) 1 (0.31) 2 2 (0.61) 2 (0.61) 1 (0.31) 7 (2.14) 3 (0.92) 8 (2.44) 11 (3.36) 5 (1.53) 2 (0.61) 2 1/2 2 (0.61) 3 (0.92) 2 (0.61) 9 (2.75) 4 (1.22) 16 (4.88) 14 (4.27) 8 (2.44) 2 (0.61) 3 3 (0.92) 4 (1.22) – – – – 5 (1.53) 20 (6.10) 18 (5.49) 11 (3.36) 2 (0.61) 3 1/2 4 (1.22) – – – – – – 7 (2.14) 24 (7.32) 24 (7.32) 14 (4.27) 2 (0.61) 4 – – – – – – – – 8 (2.44) 28 (8.54) 28 (8.54) 17 (5.19) 2 (0.61) 5 – – – – – – – – 10 (3.05) 37 (11.29) 41 (12.51) 22 (6.71) 2 (0.61) 6 – – – – – – – – 13 (3.97) 47 (14.34) 52 (15.86) 28 (8.54) 2 (0.61) Notes: This table is based on tests conducted at Harvard University (1948). If the type of fitting is not known – i.e., whether wrought copper or cast alloy – use cast copper alloy values for design. Feet (m)Feet (m) Feet (m) Feet (m) 2 (0.61) 9 (2.75) – – – – 2 (0.61) 13 (3.97) – – – – 3 (0.92) 17 (5.19) – – – – 3 (0.92) 21 (6.41) – – – – 5 (1.53) 30 (9.15) – – 1 (0.31) 7 (2.14) – – 53 (16.17) 1 (0.31) 9 (2.75) – – 66 (20.13) 2 (0.61) 12 (3.66) – – 90 (27.45) 2 (0.61) 16 (4.88) – – – – 2 (0.61) 20 (6.10) – – – – 2 (0.61) 31 (9.46) – – – – 2 (0.61) 37 (11.29) – – – – 2 (0.61) 48 (14.64) – – – – – – 61 (18.61) – – – – – – AHEAD OF THE FLOW ™ www.nibco.com Revision 5/14/02 NIBCO INC. WORLD HEADQUARTERS • 1516 MIDDLEBURY ST. • ELKHART, IN 46516-4740 • USA • PH: 1.800.234.0227 TECH SERVICES PH: 1.888.446.4226 • FAX: 1.800.234.0557 • INTERNATIONAL SERVICE PH: +1.574.295.3221 • FAX: +1.574.295.3455 www.nibco.com 56 SELECTION OF TUBE SIZES The smooth interior of copper tube, and the design of both solder joint and flared-tube-type fittings, which have no shoulders projecting into the flow of water, decrease friction loss. With the use of copper tube, no allowance is necessary for the accumulation of rust deposits in supply and service lines. Consequently, copper tube lines are usually figured one size smaller than iron pipe for the same service. This rule does not apply to lines from a well to a pump where the nominal diameters specified by the pump manufacturer must be adhered to strictly. Water passing through any pipe line encounters resistance by friction. The resistance is increased by bends and turns in the line, which should be taken into account in complex piping systems. For example, a one-inch 90° elbow will cause friction loss equivalent to that of one foot (0.305m) of straight one-inch tube. (See below for allowance to be made for fittings and valves in equivalent lengths of tube.) Friction loss in terms of head loss must be taken into consideration in calculating tube sizes to be used for various types of installations. For most average-size-house installations with water pressures 40 PSI (275.8kPa) and higher, 3/4" copper tube will be ample for main supply lines, and 1/2" copper tube can be used for risers and branches to all fixtures. The smaller 3/8" tube is adequate to supply branches, but with pressures at 40 PSI (275.8kPa) and higher, water hammer becomes a concern when the flow is suddenly stopped. Copper Water Tube continued U.S. customary units in this document are the standard; the metric units are provided for reference only. The values stated in each system are not exact equivalents. AHEAD OF THE FLOW ™ www.nibco.com Revision 5/14/02 NIBCO INC. WORLD HEADQUARTERS • 1516 MIDDLEBURY ST. • ELKHART, IN 46516-4740 • USA • PH: 1.800.234.0227 TECH SERVICES PH: 1.888.446.4226 • FAX: 1.800.234.0557 • INTERNATIONAL SERVICE PH: +1.574.295.3221 • FAX: +1.574.295.3455 www.nibco.com 57 COPPER WATER TUBE – INTERNAL WORKING PRESSURES* Service Temperature °F (°C) 100°F (37.8°C) 200°F (93.3°C) 300°F (148.9°C) 400°F (204.4°C) Nominal S = 6000psi (414 bars) S = 4800psi (331 bars)S=4700 psi (324 bars) S=3000 psi (207 bars) Tube Size (In Inches) Type K Type L Type M Type K Type L Type M Type K Type L Type K Type L 1/4 1210 (83.43) 1025 (70.67) – – 850 (58.61) 700 (48.27) – – 830 (57.23) 690 (47.58) 530 (36.54) 3/8 1275 (87.91) 890 (61.37) 625 (43.09) 930 (64.12) 630 (43.44) 460 (31.72) 910 (62.74) 610 (42.06) 590 (40.68) 1/2 1005 (69.29) 810 (55.85) 560 (38.61) 730 (50.33) 580 (39.99) 415 (28.61) 720 (49.64) 570 (39.30) 460 (31.72) 5/8 830 (57.23) 705 (48.61) – – 600 (41.37) 500 (34.48) – – 580 (39.99) 500 (34.48) 380 (26.20) 3/4 950 (65.50) 645 (44.47) 450 (31.03) 700 (48.27) 470 (32.41) 325 (22.41) 690 (47.58) 460 (31.72) 440 (30.34) 1 725 (49.99) 550 (37.92) 380 (26.20) 540 (37.23) 400 (27.58) 270 (18.62) 530 (36.54) 400 (27.58) 340 (23.44) 1 1/4 590 (40.68) 495 (34.13) 375 (25.86) 440 (30.34) 370 (25.51) 270 (18.62) 430 (29.65) 360 (24.82) 280 (19.31) 1 1/2 550 (37.92) 455 (31.37) 370 (25.51) 410 (28.27) 340 (23.44) 270 (18.62) 400 (27.58) 330 (22.75) 260 (17.93) 2 485 (33.44) 405 (27.92) 335 (23.10) 350 (24.13) 310 (21.37) 240 (16.55) 345 (23.79) 305 (21.03) 230 (15.86) 2 1/2 450 (31.03) 375 (25.86) 305 (21.03) 330 (22.75) 275 (18.96) 220 (15.17) 320 (22.06) 270 (18.62) 210 (14.48) 3 430 (29.65) 355 (24.48) 280 (19.31) 320 (22.06) 260 (17.93) 205 (14.13) 315 (21.72) 255 (17.58) 210 (14.48) 3 1/2 410 (28.27) 340 (23.44) 280 (19.31) 300 (20.69) 250 (17.24) 200 (13.79) 300 (20.69) 245 (16.89) 190 (13.10) 4 400 (27.58) 325 (22.41) 280 (19.31) 295 (20.34) 240 (16.55) 200 (13.79) 290 (20.00) 235 (16.20) 190 (13.10) 5 385 (26.55) 300 (20.69) 260 (17.93) 290 (20.00) 220 (15.17) 190 (13.10) 280 (19.31) 215 (14.82) 180 (12.41) 6 385 (26.55) 280 (19.31) 240 (16.55) 280 (19.31) 205 (14.13) 180 (12.41) 280 (19.31) 200 (13.79) 190 (13.10) 8 410 (28.27) 300 (20.69) 255 (17.58) 300 (20.69) 220 (15.17) 190 (13.10) 300 (20.69) 215 (14.82) 200 (13.79) 10 410 (28.27) 300 (20.69) 255 (17.58) 310 (21.37) 225 (15.51) 190 (13.10) 305 (21.03) 220 (15.17) 200 (13.79) 12 410 (28.27) 280 (19.31) 225 (15.51) 310 (21.37) 210 (14.48) 190 (13.10) 305 (21.03) 205 (14.13) 200 (13.79) *Rated internal pressures for Copper Water Tube based on the strength of the tube alone and applicable to systems using suitable mechanical joints. The values are based on the formula in the American Standard Code, Power Piping ANSI/ASME B31.1 1992. Formulas 450 (31.03) 400 (27.58) 370 (25.51) 330 (22.75) 300 (20.69) 260 (17.93) 230 (15.86) 220 (15.17) 190 (13.10) 180 (12.41) 170 (11.72) 160 (11.03) 150 (10.34) 140 (9.65) 130 (8.96) 140 (9.65) 150 (10.34) 140 (9.65) PDtm = + C2S + 0.8P or 2 S tmP = when C is OD - 0.8 tm tm Minimum tube wall thickness P Maximum rated internal working pressure D Outside diameter of tube S Allowable stress in material due to internal pressure at operating temperature C Allowance for threading, mechanical strength and/or corrosion U.S. customary units in this document are the standard; the metric units are provided for reference only. The values stated in each system are not exact equivalents. AHEAD OF THE FLOW ™ www.nibco.com Revision 5/14/02 NIBCO INC. WORLD HEADQUARTERS • 1516 MIDDLEBURY ST. • ELKHART, IN 46516-4740 • USA • PH: 1.800.234.0227 TECH SERVICES PH: 1.888.446.4226 • FAX: 1.800.234.0557 • INTERNATIONAL SERVICE PH: +1.574.295.3221 • FAX: +1.574.295.3455 www.nibco.com 60 1/2" TYPE “K” COPPER TUBE — WATER FLOW AND FRICTION LOSS PER 100 FEET Maximum O.D. = 0.626 inches (15.900 mm) Nominal O.D. = 0.6250 inches (15.875 mm) Minimum O.D. = 0.624 inches (15.850 mm) Nominal I.D. = 0.527 inches (13.3858 mm) Nominal Wall Thickness = 0.049 inches (1.245 mm) Flow Area = 0.2181 sq. inches (140.73 sq. mm) Hazen Williams Formula C Factor = 150 FLOW, Q Pressure Loss Head Loss Velocity FLOW, Q Pressure Loss Head Loss Velocity (GPM) (psi/100 ft) (ft/100 ft) (ft./sec.) (cu. cm/sec.) (kPa/100 m) (m/100 m) (m/sec.) 1.00 0.95 2.22 1.47 63 0.22 2.22 0.45 1.50 2.02 4.70 2.21 95 0.46 4.70 0.67 2.00 3.44 8.00 2.94 126 0.78 8.00 0.90 2.50 5.19 12.10 3.68 158 1.18 12.10 1.12 3.00 7.28 16.95 4.41 189 1.65 16.95 1.34 3.50 9.69 22.54 5.15 221 2.19 22.54 1.57 4.00 12.40 28.86 5.88 252 2.81 28.86 1.79 4.50 15.43 35.88 6.62 284 3.49 35.88 2.02 5.00 18.75 43.61 7.35 315 4.24 43.61 2.24 5.50 22.37 52.01 8.09 347 5.06 52.01 2.47 6.00 26.28 61.10 8.83 379 5.95 61.10 2.69 6.50 30.48 70.85 9.56 410 6.90 70.85 2.91 7.00 34.97 81.26 10.30 442 7.91 81.26 3.14 7.50 39.73 92.32 11.03 473 8.99 92.32 3.36 8.00 44.78 104.03 11.77 505 10.13 104.03 3.59 8.50 50.10 116.38 12.50 536 11.33 116.38 3.81 9.00 55.69 129.36 13.24 568 12.60 129.36 4.03 9.50 61.56 142.97 13.97 599 13.93 142.97 4.26 10.00 67.69 157.20 14.71 631 15.31 157.20 4.48 10.50 74.10 172.05 15.44 662 16.76 172.05 4.71 11.00 80.76 187.51 16.18 694 18.27 187.51 4.93 11.50 87.69 203.58 16.91 725 19.84 203.58 5.16 12.00 94.88 220.26 17.65 757 21.46 220.26 5.38 12.50 102.34 237.54 18.39 789 23.15 237.54 5.60 13.00 110.05 255.41 19.12 820 24.89 255.41 5.83 13.50 118.01 273.89 19.86 852 26.70 273.89 6.05 14.00 126.23 292.95 20.59 883 28.56 292.95 6.28 1/2" TYPE “L” COPPER TUBE — WATER FLOW AND FRICTION LOSS PER 100 FEET Maximum O.D. = 0.626 inches (15.900 mm) Nominal O.D. = 0.6250 inches (15.875 mm) Minimum O.D. = 0.624 inches (15.850 mm) Nominal I.D. = 0.5450 inches (13.843 mm) Nominal Wall Thickness = 0.049 inches (1.245 mm) Flow Area = 0.2333 sq. inches (150.50 sq. mm) Hazen Williams Formula C Factor = 150 FLOW, Q Pressure Loss Head Loss Velocity FLOW, Q Pressure Loss Head Loss Velocity (GPM) (psi/100 ft) (ft/100 ft) (ft./sec.) (cu. cm/sec.) (kPa/100 m) (m/100 m) (m/sec.) 1.00 0.81 1.89 1.38 63 0.18 1.89 0.42 1.50 1.71 3.99 2.06 95 0.39 3.99 0.63 2.00 2.92 6.80 2.75 126 0.66 6.80 0.84 2.50 4.41 10.27 3.44 158 1.00 10.27 1.05 3.00 6.18 14.39 4.13 189 1.40 14.39 1.26 3.50 8.23 19.14 4.81 221 1.86 19.14 1.47 4.00 10.53 24.51 5.50 252 2.38 24.51 1.68 4.50 13.10 30.47 6.19 284 2.96 30.47 1.89 5.00 15.92 37.03 6.88 315 3.60 37.03 2.10 5.50 19.00 44.17 7.56 347 4.30 44.17 2.31 6.00 22.32 51.89 8.25 379 5.05 51.89 2.52 6.50 25.89 60.17 8.94 410 5.86 60.17 2.72 7.00 29.70 69.01 9.63 442 6.72 69.01 2.93 7.50 33.74 78.41 10.31 473 7.63 78.41 3.14 8.00 38.03 88.35 11.00 505 8.60 88.35 3.35 8.50 42.55 98.83 11.69 536 9.62 98.83 3.56 9.00 47.30 109.86 12.38 568 10.70 109.86 3.77 9.50 52.28 121.41 13.07 599 11.83 121.41 3.98 10.00 57.49 133.50 13.75 631 13.00 133.50 4.19 10.50 62.92 146.11 14.44 662 14.23 146.11 4.40 11.00 68.59 159.24 15.13 694 15.51 159.24 4.61 11.50 74.47 172.89 15.82 725 16.85 172.89 4.82 12.00 80.58 187.05 16.50 757 18.23 187.05 5.03 12.50 86.91 201.73 17.19 789 19.66 201.73 5.24 13.00 93.46 216.91 17.88 820 21.14 216.91 5.45 13.50 100.22 232.60 18.57 852 22.67 232.60 5.66 14.00 107.20 248.78 19.25 883 24.25 248.78 5.87 U.S. customary units in this document are the standard; the metric units are provided for reference only. The values stated in each system are not exact equivalents. AHEAD OF THE FLOW ™ www.nibco.com Revision 5/14/02 NIBCO INC. WORLD HEADQUARTERS • 1516 MIDDLEBURY ST. • ELKHART, IN 46516-4740 • USA • PH: 1.800.234.0227 TECH SERVICES PH: 1.888.446.4226 • FAX: 1.800.234.0557 • INTERNATIONAL SERVICE PH: +1.574.295.3221 • FAX: +1.574.295.3455 www.nibco.com 61 1/2" TYPE “M” COPPER TUBE — WATER FLOW AND FRICTION LOSS PER 100 FEET Maximum O.D. = 0.626 inches (15.900 mm) Nominal O.D. = 0.6250 inches (15.875 mm) Minimum O.D. = 0.624 inches (15.850 mm) Nominal I.D. = 0.5690 inches (14.4526 mm) Nominal Wall Thickness = 0.028 inches (0.711 mm) Flow Area = 0.2543 sq. inches (164.05 sq. mm) Hazen Williams Formula C Factor = 150 FLOW, Q Pressure Loss Head Loss Velocity FLOW, Q Pressure Loss Head Loss Velocity (GPM) (psi/100 ft) (ft/100 ft) (ft./sec.) (cu. cm/sec.) (kPa/100 m) (m/100 m) (m/sec.) 1.00 0.66 1.53 1.26 63 0.15 1.53 0.38 1.50 1.39 3.24 1.89 95 0.31 3.24 0.58 2.00 2.37 5.51 2.52 126 0.54 5.51 0.77 2.50 3.58 8.33 3.15 158 0.81 8.33 0.96 3.00 5.01 11.67 3.79 189 1.13 11.67 1.15 3.50 6.67 15.52 4.42 221 1.51 15.52 1.35 4.00 8.54 19.87 5.05 252 1.93 19.87 1.54 4.50 10.62 24.71 5.68 284 2.40 24.71 1.73 5.00 12.91 30.03 6.31 315 2.92 30.03 1.92 5.50 15.41 35.82 6.94 347 3.48 35.82 2.12 6.00 18.10 42.07 7.57 379 4.09 42.07 2.31 6.50 20.99 48.79 8.20 410 4.75 48.79 2.50 7.00 24.08 55.96 8.83 442 5.45 55.96 2.69 7.50 27.36 63.57 9.46 473 6.19 63.57 2.88 8.00 30.83 71.64 10.09 505 6.98 71.64 3.08 8.50 34.50 80.14 10.72 536 7.80 80.14 3.27 9.00 38.35 89.08 11.36 568 8.68 89.08 3.46 9.50 42.39 98.45 11.99 599 9.59 98.45 3.65 10.00 46.61 108.25 12.62 631 10.54 108.25 3.85 10.50 51.02 118.47 13.25 662 11.54 118.47 4.04 11.00 55.61 129.12 13.88 694 12.58 129.12 4.23 11.50 60.39 140.19 14.51 725 13.66 140.19 4.42 12.00 65.34 151.67 15.14 757 14.78 151.67 4.61 12.50 70.47 163.57 15.77 789 15.94 163.57 4.81 13.00 75.78 175.88 16.40 820 17.14 175.88 5.00 13.50 81.26 188.60 17.03 852 18.38 188.60 5.19 14.00 86.93 201.72 17.66 883 19.66 201.72 5.38 5/8" TYPE “K” COPPER TUBE — WATER FLOW AND FRICTION LOSS PER 100 FEET Maximum O.D. = 0.751 inches (19.075 mm) Nominal O.D. = 0.7500 inches (19.050 mm) Minimum O.D. = 0.749 inches (19.025 mm) Nominal I.D. = 0.6520 inches (16.5608 mm) Nominal Wall Thickness = 0.049 inches (1.245 mm) Flow Area = 0.3339 sq. inches (215.40 sq. mm) Hazen Williams Formula C Factor = 150 FLOW, Q Pressure Loss Head Loss Velocity FLOW, Q Pressure Loss Head Loss Velocity (GPM) (psi/100 ft) (ft/100 ft) (ft./sec.) (cu. cm/sec.) (kPa/100 m) (m/100 m) (m/sec.) 1.00 0.34 0.79 0.96 63 0.08 0.79 0.29 2.00 1.22 2.84 1.92 126 0.28 2.84 0.59 3.00 2.58 6.02 2.88 189 0.58 6.02 0.88 4.00 4.40 10.24 3.84 252 1.00 10.24 1.17 5.00 6.66 15.48 4.80 315 1.51 15.48 1.46 6.00 9.33 21.69 5.77 379 2.11 21.69 1.76 7.00 12.41 28.85 6.73 442 2.81 28.85 2.05 8.00 15.90 36.93 7.69 505 3.60 36.93 2.34 9.00 19.77 45.92 8.65 568 4.47 45.92 2.64 10.00 24.03 55.81 9.61 631 5.44 55.81 2.93 11.00 28.67 66.57 10.57 694 6.49 66.57 3.22 12.00 33.69 78.20 11.53 757 7.62 78.20 3.51 13.00 39.07 90.68 12.49 820 8.84 90.68 3.81 14.00 44.82 104.00 13.45 883 10.14 104.00 4.10 15.00 50.92 118.16 14.41 946 11.52 118.16 4.39 16.00 57.39 133.14 15.37 1009 12.98 133.14 4.69 17.00 64.21 148.95 16.34 1072 14.52 148.95 4.98 18.00 71.38 165.56 17.30 1136 16.15 165.56 5.27 19.00 78.89 182.98 18.26 1199 17.85 182.98 5.56 20.00 86.76 201.19 19.22 1262 19.63 201.19 5.86 21.00 94.96 220.19 20.18 1325 21.48 220.19 6.15 22.00 103.51 239.98 21.14 1388 23.41 239.98 6.44 U.S. customary units in this document are the standard; the metric units are provided for reference only. The values stated in each system are not exact equivalents. AHEAD OF THE FLOW ™ www.nibco.com Revision 5/14/02 NIBCO INC. WORLD HEADQUARTERS • 1516 MIDDLEBURY ST. • ELKHART, IN 46516-4740 • USA • PH: 1.800.234.0227 TECH SERVICES PH: 1.888.446.4226 • FAX: 1.800.234.0557 • INTERNATIONAL SERVICE PH: +1.574.295.3221 • FAX: +1.574.295.3455 www.nibco.com 62 5/8" TYPE “L” COPPER TUBE — WATER FLOW AND FRICTION LOSS PER 100 FEET Maximum O.D. = 0.751 inches (19.075 mm) Nominal O.D. = 0.7500 inches (19.050 mm) Minimum O.D. = 0.749 inches (19.025 mm) Nominal I.D. = 0.6660 inches (16.9164 mm) Nominal Wall Thickness = 0.042 inches (1.067 mm) Flow Area = 0.3484 sq. inches (224.75 sq. mm) Hazen Williams Formula C Factor = 150 FLOW, Q Pressure Loss Head Loss Velocity FLOW, Q Pressure Loss Head Loss Velocity (GPM) (psi/100 ft) (ft/100 ft) (ft./sec.) (cu. cm/sec.) (kPa/100 m) (m/100 m) (m/sec.) 1.00 0.30 0.71 0.92 63 0.07 0.71 0.28 2.00 1.10 2.56 1.84 126 0.25 2.56 0.56 3.00 2.33 5.43 2.76 189 0.53 5.43 0.84 4.00 3.97 9.24 3.68 252 0.90 9.24 1.12 5.00 6.00 13.96 4.60 315 1.36 13.96 1.40 6.00 8.41 19.56 5.53 379 1.90 19.56 1.68 7.00 11.20 26.02 6.45 442 2.53 26.02 1.96 8.00 14.34 33.31 7.37 505 3.24 33.31 2.25 9.00 17.83 41.41 8.29 568 4.03 41.41 2.53 10.00 21.67 50.33 9.21 631 4.90 50.33 2.81 11.00 25.86 60.03 10.13 694 5.85 60.03 3.09 12.00 30.38 70.52 11.05 757 6.87 70.52 3.37 13.00 35.23 81.77 11.97 820 7.97 81.77 3.65 14.00 40.41 93.79 12.89 883 9.14 93.79 3.93 15.00 45.92 106.56 13.81 946 10.39 106.56 4.21 16.00 51.75 120.07 14.74 1009 11.71 120.07 4.49 17.00 57.90 134.32 15.66 1072 13.10 134.32 4.77 18.00 64.37 149.30 16.58 1136 14.56 149.30 5.05 19.00 71.15 165.01 17.50 1199 16.09 165.01 5.33 20.00 78.24 181.43 18.42 1262 17.70 181.43 5.61 21.00 85.64 198.57 19.34 1325 19.37 198.57 5.89 22.00 93.34 216.42 20.26 1388 21.11 216.42 6.18 3/4" TYPE “K” COPPER TUBE — WATER FLOW AND FRICTION LOSS PER 100 FEET Maximum O.D. = 0.876 inches (22.250 mm) Nominal O.D. = 0.8750 inches (22.225 mm) Minimum O.D. = 0.874 inches (22.200 mm) Nominal I.D. = 0.7450 inches (18.923 mm) Nominal Wall Thickness = 0.065 inches (1.651 mm) Flow Area = 0.4359 sq. inches (281.24 sq. mm) Hazen Williams Formula C Factor = 150 FLOW, Q Pressure Loss Head Loss Velocity FLOW, Q Pressure Loss Head Loss Velocity (GPM) (psi/100 ft) (ft/100 ft) (ft./sec.) (cu. cm/sec.) (kPa/100 m) (m/100 m) (m/sec.) 2.00 0.64 1.49 1.47 126 0.14 1.49 0.45 4.00 2.30 5.35 2.94 252 0.52 5.35 0.90 6.00 4.88 11.34 4.42 379 1.10 11.34 1.35 8.00 8.31 19.30 5.89 505 1.88 19.30 1.79 10.00 12.56 29.17 7.36 631 2.84 29.17 2.24 12.00 17.61 40.87 8.83 757 3.98 40.87 2.69 14.00 23.42 54.36 10.30 883 5.30 54.36 3.14 16.00 30.00 69.59 11.78 1009 6.79 69.59 3.59 18.00 37.31 86.54 13.25 1136 8.44 86.54 4.04 20.00 45.35 105.16 14.72 1262 10.26 105.16 4.49 22.00 54.10 125.44 16.19 1388 12.24 125.44 4.94 24.00 63.56 147.34 17.66 1514 14.38 147.34 5.38 26.00 73.72 170.86 19.14 1640 16.68 170.86 5.83 28.00 84.56 195.97 20.61 1766 19.13 195.97 6.28 30.00 96.09 222.65 22.08 1893 21.74 222.65 6.73 U.S. customary units in this document are the standard; the metric units are provided for reference only. The values stated in each system are not exact equivalents. AHEAD OF THE FLOW ™ www.nibco.com Revision 5/14/02 NIBCO INC. WORLD HEADQUARTERS • 1516 MIDDLEBURY ST. • ELKHART, IN 46516-4740 • USA • PH: 1.800.234.0227 TECH SERVICES PH: 1.888.446.4226 • FAX: 1.800.234.0557 • INTERNATIONAL SERVICE PH: +1.574.295.3221 • FAX: +1.574.295.3455 www.nibco.com 63 3/4" TYPE “L” COPPER TUBE — WATER FLOW AND FRICTION LOSS PER 100 FEET Maximum O.D. = 0.876 inches (22.250 mm) Nominal O.D. = 0.8750 inches (22.225 mm) Minimum O.D. = 0.874 inches (22.200 mm) Nominal I.D. = 0.7850 inches (19.939 mm) Nominal Wall Thickness = 0.045 inches (1.143 mm) Flow Area = 0.4840 sq. inches (312.25 sq. mm) Hazen Williams Formula C Factor = 150 FLOW, Q Pressure Loss Head Loss Velocity FLOW, Q Pressure Loss Head Loss Velocity (GPM) (psi/100 ft) (ft/100 ft) (ft./sec.) (cu. cm/sec.) (kPa/100 m) (m/100 m) (m/sec.) 2.00 0.4944 1.1517 1.3258 126.17 0.1118 1.1517 0.4041 4.00 1.7846 4.1519 2.6516 252.35 0.4037 4.1519 0.8082 6.00 3.7815 8.7905 3.9774 378.52 0.8554 8.7905 1.2123 8.00 6.4425 14.9675 5.3032 504.69 1.4573 14.9675 1.6164 10.00 9.7393 22.6169 6.6290 630.87 2.2031 22.6169 2.0205 12.00 13.6513 31.6896 7.9548 757.04 3.0880 31.6896 2.4246 14.00 18.1618 42.1472 9.2806 883.21 4.1083 42.1472 2.8287 16.00 23.2573 53.9578 10.6064 1009.39 5.2610 53.9578 3.2328 18.00 28.9264 67.0944 11.9322 1135.56 6.5434 67.0944 3.6369 20.00 35.1590 81.5338 13.2580 1261.73 7.9532 81.5338 4.0411 22.00 41.9465 97.2555 14.5838 1387.91 9.4886 97.2555 4.4452 24.00 49.2811 114.2412 15.9096 1514.08 11.1477 114.2412 4.8493 26.00 57.1557 132.4747 17.2354 1640.25 12.9290 132.4747 5.2534 28.00 65.5641 151.9408 18.5613 1766.43 14.8311 151.9408 5.6575 30.00 74.5002 172.6261 19.8871 1892.60 16.8525 172.6261 6.0616 3/4" TYPE “M” COPPER TUBE — WATER FLOW AND FRICTION LOSS PER 100 FEET Maximum O.D. = 0.876 inches (22.250 mm) Nominal O.D. = 0.8750 inches (22.225 mm) Minimum O.D. = 0.874 inches (22.200 mm) Nominal I.D. = 0.8110 inches (20.5994 mm) Nominal Wall Thickness = 0.032 inches (0.813 mm) Flow Area = 0.5156 sq. inches (333.27 sq. mm) Hazen Williams Formula C Factor = 150 FLOW, Q Pressure Loss Head Loss Velocity FLOW, Q Pressure Loss Head Loss Velocity (GPM) (psi/100 ft) (ft/100 ft) (ft./sec.) (cu. cm/sec.) (kPa/100 m) (m/100 m) (m/sec.) 2.00 0.42 0.98 1.24 126 0.10 0.98 0.38 4.00 1.52 3.54 2.48 252 0.34 3.54 0.76 6.00 3.23 7.50 3.73 379 0.73 7.50 1.14 8.00 5.50 12.77 4.97 505 1.24 12.77 1.51 10.00 8.31 19.30 6.21 631 1.88 19.30 1.89 12.00 11.65 27.04 7.45 757 2.64 27.04 2.27 14.00 15.50 35.97 8.70 883 3.51 35.97 2.65 16.00 19.85 46.05 9.94 1009 4.49 46.05 3.03 18.00 24.69 57.26 11.18 1136 5.58 57.26 3.41 20.00 30.00 69.58 12.42 1262 6.79 69.58 3.79 22.00 35.80 83.00 13.66 1388 8.10 83.00 4.16 24.00 42.06 97.49 14.91 1514 9.51 97.49 4.54 26.00 48.78 113.05 16.15 1640 11.03 113.05 4.92 28.00 55.95 129.66 17.39 1766 12.66 129.66 5.30 30.00 63.58 147.32 18.63 1893 14.38 147.32 5.68 U.S. customary units in this document are the standard; the metric units are provided for reference only. The values stated in each system are not exact equivalents. AHEAD OF THE FLOW ™ www.nibco.com Revision 5/14/02 NIBCO INC. WORLD HEADQUARTERS • 1516 MIDDLEBURY ST. • ELKHART, IN 46516-4740 • USA • PH: 1.800.234.0227 TECH SERVICES PH: 1.888.446.4226 • FAX: 1.800.234.0557 • INTERNATIONAL SERVICE PH: +1.574.295.3221 • FAX: +1.574.295.3455 www.nibco.com 64 1" TYPE “K” COPPER TUBE — WATER FLOW AND FRICTION LOSS PER 100 FEET Maximum O.D. = 1.1265 inches (28.613 mm) Nominal O.D. = 1.1250 inches (28.575 mm) Minimum O.D. = 1.1235 inches (28.537 mm) Nominal I.D. = 0.9850 inches (25.273 mm) Nominal Wall Thickness = 0.0650 inches (1.651 mm) Flow Area = 0.7776 sq. inches (501.65 sq. mm) Hazen Williams Formula C Factor = 150 FLOW, Q Pressure Loss Head Loss Velocity FLOW, Q Pressure Loss Head Loss Velocity (GPM) (psi/100 ft) (ft/100 ft) (ft./sec.) (cu. cm/sec.) (kPa/100 m) (m/100 m) (m/sec.) 2.50 0.24 0.55 1.03 158 0.05 0.55 0.31 5.00 0.85 1.98 2.06 315 0.19 1.98 0.63 7.50 1.80 4.19 3.09 473 0.41 4.19 0.94 10.00 3.07 7.14 4.13 631 0.70 7.14 1.26 12.50 4.65 10.78 5.16 789 1.05 10.78 1.57 15.00 6.51 15.11 6.19 946 1.47 15.11 1.89 17.50 8.66 20.10 7.22 1104 1.96 20.10 2.20 20.00 11.09 25.73 8.25 1262 2.51 25.73 2.52 22.50 13.80 31.99 9.28 1419 3.12 31.99 2.83 25.00 16.77 38.88 10.32 1577 3.79 38.88 3.14 27.50 20.01 46.37 11.35 1735 4.53 46.37 3.46 30.00 23.51 54.47 12.38 1893 5.32 54.47 3.77 32.50 27.27 63.17 13.41 2050 6.17 63.17 4.09 35.00 31.28 72.45 14.44 2208 7.08 72.45 4.40 37.50 35.54 82.31 15.47 2366 8.04 82.31 4.72 40.00 40.05 92.75 16.50 2523 9.06 92.75 5.03 42.50 44.81 103.76 17.54 2681 10.14 103.76 5.34 45.00 49.81 115.33 18.57 2839 11.27 115.33 5.66 47.50 55.06 127.47 19.60 2997 12.46 127.47 5.97 50.00 60.55 140.15 20.63 3154 13.70 140.15 6.29 52.50 66.27 153.39 21.66 3312 14.99 153.39 6.60 55.00 72.24 167.18 22.69 3470 16.34 167.18 6.92 1" TYPE “L” COPPER TUBE — WATER FLOW AND FRICTION LOSS PER 100 FEET Maximum O.D. = 1.1265 inches (28.613 mm) Nominal O.D. = 1.1250 inches (28.575 mm) Minimum O.D. = 1.1235 inches (28.537 mm) Nominal I.D. = 1.0250 inches (26.035 mm) Nominal Wall Thickness = 0.0500 inches (1.270 mm) Flow Area = 0.8252 sq. inches (532.36 sq. mm) Hazen Williams Formula C Factor = 150 FLOW, Q Pressure Loss Head Loss Velocity FLOW, Q Pressure Loss Head Loss Velocity (GPM) (psi/100 ft) (ft/100 ft) (ft./sec.) (cu. cm/sec.) (kPa/100 m) (m/100 m) (m/sec.) 2.50 0.20 0.48 0.97 158 0.05 0.48 0.30 5.00 0.74 1.71 1.94 315 0.17 1.71 0.59 7.50 1.56 3.63 2.92 473 0.35 3.63 0.89 10.00 2.66 6.18 3.89 631 0.60 6.18 1.19 12.50 4.02 9.33 4.86 789 0.91 9.33 1.48 15.00 5.64 13.08 5.83 946 1.27 13.08 1.78 17.50 7.50 17.39 6.80 1104 1.70 17.39 2.07 20.00 9.60 22.27 7.78 1262 2.17 22.27 2.37 22.50 11.94 27.69 8.75 1419 2.70 27.69 2.67 25.00 14.52 33.65 9.72 1577 3.28 33.65 2.96 27.50 17.32 40.13 10.69 1735 3.92 40.13 3.26 30.00 20.35 47.14 11.66 1893 4.60 47.14 3.56 32.50 23.60 54.67 12.64 2050 5.34 54.67 3.85 35.00 27.07 62.70 13.61 2208 6.12 62.70 4.15 37.50 30.76 71.24 14.58 2366 6.96 71.24 4.44 40.00 34.66 80.27 15.55 2523 7.84 80.27 4.74 42.50 38.78 89.80 16.52 2681 8.77 89.80 5.04 45.00 43.11 99.81 17.50 2839 9.75 99.81 5.33 47.50 47.65 110.31 18.47 2997 10.78 110.31 5.63 50.00 52.40 121.29 19.44 3154 11.85 121.29 5.93 52.50 57.36 132.75 20.41 3312 12.97 132.75 6.22 55.00 62.52 144.68 21.38 3470 14.14 144.68 6.52 U.S. customary units in this document are the standard; the metric units are provided for reference only. The values stated in each system are not exact equivalents. AHEAD OF THE FLOW ™ www.nibco.com Revision 5/14/02 NIBCO INC. WORLD HEADQUARTERS • 1516 MIDDLEBURY ST. • ELKHART, IN 46516-4740 • USA • PH: 1.800.234.0227 TECH SERVICES PH: 1.888.446.4226 • FAX: 1.800.234.0557 • INTERNATIONAL SERVICE PH: +1.574.295.3221 • FAX: +1.574.295.3455 www.nibco.com 65 1" TYPE “M” COPPER TUBE — WATER FLOW AND FRICTION LOSS PER 100 FEET Maximum O.D. = 1.1265 inches (28.613 mm) Nominal O.D. = 1.1250 inches (28.575 mm) Minimum O.D. = 1.1235 inches (28.537 mm) Nominal I.D. = 1.0558 inches (26.797 mm) Nominal Wall Thickness = 0.0350 inches (0.889 mm) Flow Area = 0.8742 sq. inches (563.98 sq. mm) Hazen Williams Formula C Factor = 150 FLOW, Q Pressure Loss Head Loss Velocity FLOW, Q Pressure Loss Head Loss Velocity (GPM) (psi/100 ft) (ft/100 ft) (ft./sec.) (cu. cm/sec.) (kPa/100 m) (m/100 m) (m/sec.) 2.50 0.18 0.41 0.92 158 0.04 0.41 0.28 5.00 0.64 1.49 1.84 315 0.14 1.49 0.56 7.50 1.36 3.15 2.75 473 0.31 3.15 0.84 10.00 2.31 5.37 3.67 631 0.52 5.37 1.12 12.50 3.49 8.11 4.59 789 0.79 8.11 1.40 15.00 4.90 11.36 5.51 946 1.11 11.36 1.68 17.50 6.52 15.11 6.42 1104 1.47 15.11 1.96 20.00 8.34 19.35 7.34 1262 1.89 19.35 2.24 22.50 10.38 24.06 8.26 1419 2.35 24.06 2.52 25.00 12.61 29.24 9.18 1577 2.85 29.24 2.80 27.50 15.05 34.88 10.09 1735 3.40 34.88 3.08 30.00 17.68 40.97 11.01 1893 4.00 40.97 3.36 32.50 20.51 47.51 11.93 2050 4.64 47.51 3.64 35.00 23.52 54.49 12.85 2208 5.32 54.49 3.92 37.50 26.73 61.91 13.76 2366 6.05 61.91 4.19 40.00 30.12 69.76 14.68 2523 6.81 69.76 4.47 42.50 33.70 78.04 15.60 2681 7.62 78.04 4.75 45.00 37.47 86.74 16.52 2839 8.47 86.74 5.03 47.50 41.41 95.87 17.43 2997 9.37 95.87 5.31 50.00 45.54 105.41 18.35 3154 10.30 105.41 5.59 52.50 49.84 115.37 19.27 3312 11.28 115.37 5.87 55.00 54.33 125.74 20.19 3470 12.29 125.74 6.15 1 1/4" TYPE “K” COPPER TUBE — WATER FLOW AND FRICTION LOSS PER 100 FEET Maximum O.D. = 1.3765 inches (34.963 mm) Nominal O.D. = 1.3750 inches (34.925 mm) Minimum O.D. = 1.3735 inches (34.887 mm) Nominal I.D. = 1.2450 inches (31.623 mm) Nominal Wall Thickness = 0.0650 inches (1.651 mm) Flow Area = 1.2174 sq. inches (785.41 sq. mm) Hazen Williams Formula C Factor = 150 FLOW, Q Pressure Loss Head Loss Velocity FLOW, Q Pressure Loss Head Loss Velocity (GPM) (psi/100 ft) (ft/100 ft) (ft./sec.) (cu. cm/sec.) (kPa/100 m) (m/100 m) (m/sec.) 5.00 0.29 0.67 1.32 315 0.06 0.67 0.40 10.00 1.03 2.40 2.64 631 0.23 2.40 0.80 15.00 2.19 5.08 3.95 946 0.49 5.08 1.20 20.00 3.73 8.65 5.27 1262 0.84 8.65 1.61 25.00 5.64 13.06 6.59 1577 1.27 13.06 2.01 30.00 7.90 18.30 7.91 1893 1.79 18.30 2.41 35.00 10.51 24.34 9.22 2208 2.38 24.34 2.81 40.00 13.46 31.17 10.54 2523 3.04 31.17 3.21 45.00 16.74 38.75 11.86 2839 3.79 38.75 3.61 50.00 20.35 47.09 13.18 3154 4.60 47.09 4.02 55.00 24.27 56.18 14.49 3470 5.49 56.18 4.42 60.00 28.52 65.99 15.81 3785 6.45 65.99 4.82 65.00 33.07 76.52 17.13 4101 7.48 76.52 5.22 70.00 37.94 87.76 18.45 4416 8.58 87.76 5.62 75.00 43.11 99.71 19.77 4732 9.75 99.71 6.02 80.00 48.58 112.35 21.08 5047 10.99 112.35 6.43 U.S. customary units in this document are the standard; the metric units are provided for reference only. The values stated in each system are not exact equivalents. AHEAD OF THE FLOW ™ www.nibco.com Revision 5/14/02 NIBCO INC. WORLD HEADQUARTERS • 1516 MIDDLEBURY ST. • ELKHART, IN 46516-4740 • USA • PH: 1.800.234.0227 TECH SERVICES PH: 1.888.446.4226 • FAX: 1.800.234.0557 • INTERNATIONAL SERVICE PH: +1.574.295.3221 • FAX: +1.574.295.3455 www.nibco.com 66 1 1/4" TYPE “L” COPPER TUBE — WATER FLOW AND FRICTION LOSS PER 100 FEET Maximum O.D. = 1.3765 inches (34.963 mm) Nominal O.D. = 1.375 inches (34.925 mm) Minimum O.D. = 1.3735 inches (34.887 mm) Nominal I.D. = 1.265 inches (32.131 mm) Nominal Wall Thickness = 0.0550 inches (1.397 mm) Flow Area = 1.2568 sq. inches (810.85 sq. mm) Hazen Williams Formula C Factor = 150 FLOW, Q Pressure Loss Head Loss Velocity FLOW, Q Pressure Loss Head Loss Velocity (GPM) (psi/100 ft) (ft/100 ft) (ft./sec.) (cu. cm/sec.) (kPa/100 m) (m/100 m) (m/sec.) 5.00 0.26 0.62 1.28 315 0.06 0.62 0.39 10.00 0.96 2.22 2.55 631 0.22 2.22 0.78 15.00 2.02 4.70 3.83 946 0.46 4.70 1.17 20.00 3.45 8.00 5.11 1262 0.78 8.00 1.56 25.00 5.22 12.09 6.38 1577 1.18 12.09 1.95 30.00 7.31 16.94 7.66 1893 1.65 16.94 2.33 35.00 9.73 22.53 8.93 2208 2.20 22.53 2.72 40.00 12.45 28.84 10.21 2523 2.82 28.84 3.11 45.00 15.49 35.86 11.49 2839 3.50 35.86 3.50 50.00 18.83 43.58 12.76 3154 4.26 43.58 3.89 55.00 22.46 51.98 14.04 3470 5.08 51.98 4.28 60.00 26.39 61.06 15.32 3785 5.97 61.06 4.67 65.00 30.61 70.81 16.59 4101 6.92 70.81 5.06 70.00 35.11 81.21 17.87 4416 7.94 81.21 5.45 75.00 39.89 92.27 19.15 4732 9.02 92.27 5.84 80.00 44.96 103.97 20.42 5047 10.17 103.97 6.22 1 1/4" TYPE “M” COPPER TUBE — WATER FLOW AND FRICTION LOSS PER 100 FEET Maximum O.D. = 1.3765 inches (34.963 mm) Nominal O.D. = 1.3750 inches (34.925 mm) Minimum O.D. = 1.3735 inches (34.887 mm) Nominal I.D. = 1.2910 inches (32.7914 mm) Nominal Wall Thickness = 0.0420 inches (1.067 mm) Flow Area = 1.3090 sq. inches (844.52 sq. mm) Hazen Williams Formula C Factor = 150 FLOW, Q Pressure Loss Head Loss Velocity FLOW, Q Pressure Loss Head Loss Velocity (GPM) (psi/100 ft) (ft/100 ft) (ft./sec.) (cu. cm/sec.) (kPa/100 m) (m/100 m) (m/sec.) 5.00 0.24 0.56 1.23 315 0.05 0.56 0.37 10.00 0.87 2.01 2.45 631 0.20 2.01 0.75 15.00 1.83 4.26 3.68 946 0.41 4.26 1.12 20.00 3.12 7.25 4.90 1262 0.71 7.25 1.49 25.00 4.72 10.95 6.13 1577 1.07 10.95 1.87 30.00 6.62 15.34 7.35 1893 1.50 15.34 2.24 35.00 8.81 20.40 8.58 2208 1.99 20.40 2.61 40.00 11.28 26.12 9.80 2523 2.55 26.12 2.99 45.00 14.03 32.48 11.03 2839 3.17 32.48 3.36 50.00 17.05 39.47 12.25 3154 3.86 39.47 3.74 55.00 20.34 47.08 13.48 3470 4.60 47.08 4.11 60.00 23.90 55.31 14.71 3785 5.41 55.31 4.48 65.00 27.72 64.14 15.93 4101 6.27 64.14 4.86 70.00 31.80 73.56 17.16 4416 7.19 73.56 5.23 75.00 36.13 83.57 18.38 4732 8.17 83.57 5.60 80.00 40.72 94.17 19.61 5047 9.21 94.17 5.98 U.S. customary units in this document are the standard; the metric units are provided for reference only. The values stated in each system are not exact equivalents. AHEAD OF THE FLOW ™ www.nibco.com Revision 5/14/02 NIBCO INC. WORLD HEADQUARTERS • 1516 MIDDLEBURY ST. • ELKHART, IN 46516-4740 • USA • PH: 1.800.234.0227 TECH SERVICES PH: 1.888.446.4226 • FAX: 1.800.234.0557 • INTERNATIONAL SERVICE PH: +1.574.295.3221 • FAX: +1.574.295.3455 www.nibco.com 67 1 1/2" TYPE “K” COPPER TUBE — WATER FLOW AND FRICTION LOSS PER 100 FEET Maximum O.D. = 1.6270 inches (41.326 mm) Nominal O.D. = 1.6250 inches (41.275 mm) Minimum O.D. = 1.6230 inches (41.224 mm) Nominal I.D. = 1.4810 inches (38.227 mm) Nominal Wall Thickness = 0.0720 inches (1.829 mm) Flow Area = 1.7227 sq. inches (1111.39 sq. mm) Hazen Williams Formula C Factor = 150 FLOW, Q Pressure Loss Head Loss Velocity FLOW, Q Pressure Loss Head Loss Velocity (GPM) (psi/100 ft) (ft/100 ft) (ft./sec.) (cu. cm/sec.) (kPa/100 m) (m/100 m) (m/sec.) 5.00 0.12 0.29 0.93 315 0.03 0.29 0.28 10.00 0.44 1.03 1.86 631 0.10 1.03 0.57 15.00 0.94 2.18 2.79 946 0.21 2.18 0.85 20.00 1.60 3.72 3.72 1262 0.36 3.72 1.14 25.00 2.42 5.61 4.66 1577 0.55 5.61 1.42 30.00 3.39 7.87 5.59 1893 0.77 7.87 1.70 35.00 4.52 10.46 6.52 2208 1.02 10.46 1.99 40.00 5.78 13.39 7.45 2523 1.31 13.39 2.27 45.00 7.19 16.65 8.38 2839 1.63 16.65 2.55 50.00 8.74 20.24 9.31 3154 1.98 20.24 2.84 55.00 10.43 24.14 10.24 3470 2.36 24.14 3.12 60.00 12.26 28.36 11.17 3785 2.77 28.36 3.41 65.00 14.21 32.88 12.11 4101 3.22 32.88 3.69 70.00 16.30 37.72 13.04 4416 3.69 37.72 3.97 75.00 18.53 42.85 13.97 4732 4.19 42.85 4.26 80.00 20.88 48.28 14.90 5047 4.72 48.28 4.54 85.00 23.36 54.01 15.83 5362 5.28 54.01 4.83 90.00 25.97 60.04 16.76 5678 5.87 60.04 5.11 95.00 28.70 66.35 17.69 5993 6.49 66.35 5.39 100.00 31.56 72.96 18.62 6309 7.14 72.96 5.68 105.00 34.55 79.85 19.56 6624 7.82 79.85 5.96 110.00 37.66 87.03 20.49 6940 8.52 87.03 6.24 115.00 40.89 94.49 21.42 7255 9.25 94.49 6.53 1 1/2" TYPE “L” COPPER TUBE — WATER FLOW AND FRICTION LOSS PER 100 FEET Maximum O.D. = 1.6270 inches (41.326 mm) Nominal O.D. = 1.6250 inches (41.275 mm) Minimum O.D. = 1.6230 inches (41.224 mm) Nominal I.D. = 1.5050 inches (37.6174 mm) Nominal Wall Thickness = 0.0600 inches (1.524 mm) Flow Area = 1.7789 sq. inches (1147.71 sq. mm) Hazen Williams Formula C Factor = 150 FLOW, Q Pressure Loss Head Loss Velocity FLOW, Q Pressure Loss Head Loss Velocity (GPM) (psi/100 ft) (ft/100 ft) (ft./sec.) (cu. cm/sec.) (kPa/100 m) (m/100 m) (m/sec.) 5.00 0.11 0.26 0.90 315 0.03 0.26 0.27 10.00 0.41 0.95 1.80 631 0.09 0.95 0.55 15.00 0.87 2.02 2.71 946 0.20 2.02 0.82 20.00 1.48 3.44 3.61 1262 0.34 3.44 1.10 25.00 2.24 5.19 4.51 1577 0.51 5.19 1.37 30.00 3.14 7.27 5.41 1893 0.71 7.27 1.65 35.00 4.18 9.67 6.31 2208 0.94 9.67 1.92 40.00 5.35 12.39 7.21 2523 1.21 12.39 2.20 45.00 6.65 15.40 8.12 2839 1.50 15.40 2.47 50.00 8.09 18.72 9.02 3154 1.83 18.72 2.75 55.00 9.65 22.32 9.92 3470 2.18 22.32 3.02 60.00 11.33 26.22 10.82 3785 2.56 26.22 3.30 65.00 13.14 30.41 11.72 4101 2.97 30.41 3.57 70.00 15.08 34.88 12.62 4416 3.41 34.88 3.85 75.00 17.13 39.63 13.53 4732 3.88 39.63 4.12 80.00 19.31 44.65 14.43 5047 4.37 44.65 4.40 85.00 21.60 49.95 15.33 5362 4.89 49.95 4.67 90.00 24.01 55.52 16.23 5678 5.43 55.52 4.95 95.00 26.54 61.36 17.13 5993 6.00 61.36 5.22 100.00 29.19 67.47 18.03 6309 6.60 67.47 5.50 105.00 31.95 73.84 18.94 6624 7.23 73.84 5.77 110.00 34.82 80.48 19.84 6940 7.88 80.48 6.05 115.00 37.81 87.38 20.74 7255 8.55 87.38 6.32 U.S. customary units in this document are the standard; the metric units are provided for reference only. The values stated in each system are not exact equivalents. AHEAD OF THE FLOW ™ www.nibco.com Revision 5/14/02 NIBCO INC. WORLD HEADQUARTERS • 1516 MIDDLEBURY ST. • ELKHART, IN 46516-4740 • USA • PH: 1.800.234.0227 TECH SERVICES PH: 1.888.446.4226 • FAX: 1.800.234.0557 • INTERNATIONAL SERVICE PH: +1.574.295.3221 • FAX: +1.574.295.3455 www.nibco.com 68 1 1/2" TYPE “M” COPPER TUBE — WATER FLOW AND FRICTION LOSS PER 100 FEET Maximum O.D. = 1.6270 inches (41.326 mm) Nominal O.D. = 1.6250 inches (41.275 mm) Minimum O.D. = 1.6230 inches (41.224 mm) Nominal I.D. = 1.5270 inches (38.7858 mm) Nominal Wall Thickness = 0.0490 inches (1.2446 mm) Flow Area = 1.8313 sq. inches (1181.50 sq. mm) Hazen Williams Formula C Factor = 150 FLOW, Q Pressure Loss Head Loss Velocity FLOW, Q Pressure Loss Head Loss Velocity (GPM) (psi/100 ft) (ft/100 ft) (ft./sec.) (cu. cm/sec.) (kPa/100 m) (m/100 m) (m/sec.) 5.00 0.11 0.25 0.88 315 0.02 0.25 0.27 10.00 0.38 0.89 1.75 631 0.09 0.89 0.53 15.00 0.81 1.88 2.63 946 0.18 1.88 0.80 20.00 1.38 3.20 3.50 1262 0.31 3.20 1.07 25.00 2.09 4.84 4.38 1577 0.47 4.84 1.33 30.00 2.93 6.78 5.26 1893 0.66 6.78 1.60 35.00 3.89 9.02 6.13 2208 0.88 9.02 1.87 40.00 4.98 11.54 7.01 2523 1.13 11.54 2.14 45.00 6.20 14.35 7.88 2839 1.40 14.35 2.40 50.00 7.53 17.44 8.76 3154 1.70 17.44 2.67 55.00 8.99 20.80 9.64 3470 2.03 20.80 2.94 60.00 10.56 24.44 10.51 3785 2.39 24.44 3.20 65.00 12.25 28.34 11.39 4101 2.77 28.34 3.47 70.00 14.05 32.50 12.26 4416 3.18 32.50 3.74 75.00 15.96 36.92 13.14 4732 3.61 36.92 4.00 80.00 17.99 41.61 14.02 5047 4.07 41.61 4.27 85.00 20.13 46.55 14.89 5362 4.55 46.55 4.54 90.00 22.38 51.74 15.77 5678 5.06 51.74 4.81 95.00 24.73 57.18 16.64 5993 5.59 57.18 5.07 100.00 27.20 62.87 17.52 6309 6.15 62.87 5.34 105.00 29.77 68.81 18.40 6624 6.73 68.81 5.61 110.00 32.45 74.99 19.27 6940 7.34 74.99 5.87 115.00 35.23 81.42 20.15 7255 7.97 81.42 6.14 2" TYPE “K” COPPER TUBE — WATER FLOW AND FRICTION LOSS PER 100 FEET Maximum O.D. = 2.1270 inches (54.026 mm) Nominal O.D. = 2.1250 inches (53.975 mm) Minimum O.D. = 2.1230 inches (53.924 mm) Nominal I.D. = 1.9590 inches (49.7586 mm) Nominal Wall Thickness = 0.0830 inches (2.1082 mm) Flow Area = 3.0141 sq. inches (1944.58 sq. mm) Hazen Williams Formula C Factor = 150 FLOW, Q Pressure Loss Head Loss Velocity FLOW, Q Pressure Loss Head Loss Velocity (GPM) (psi/100 ft) (ft/100 ft) (ft./sec.) (cu. cm/sec.) (kPa/100 m) (m/100 m) (m/sec.) 10 0.11 0.26 1.06 631 0.03 0.26 0.32 20 0.41 0.95 2.13 1262 0.09 0.95 0.65 30 0.87 2.02 3.19 1893 0.20 2.02 0.97 40 1.48 3.43 4.26 2523 0.34 3.43 1.30 50 2.24 5.19 5.32 3154 0.51 5.19 1.62 60 3.14 7.27 6.39 3785 0.71 7.27 1.95 70 4.18 9.67 7.45 4416 0.95 9.67 2.27 80 5.35 12.38 8.52 5047 1.21 12.38 2.60 90 6.66 15.39 9.58 5678 1.51 15.39 2.92 100 8.09 18.71 10.64 6309 1.83 18.71 3.24 110 9.66 22.32 11.71 6940 2.18 22.32 3.57 120 11.34 26.21 12.77 7570 2.57 26.21 3.89 130 13.16 30.40 13.84 8201 2.98 30.40 4.22 140 15.09 34.86 14.90 8832 3.41 34.86 4.54 150 17.15 39.61 15.97 9463 3.88 39.61 4.87 160 19.33 44.63 17.03 10094 4.37 44.63 5.19 170 21.62 49.93 18.10 10725 4.89 49.93 5.52 180 24.04 55.50 19.16 11356 5.44 55.50 5.84 190 26.57 61.34 20.22 11986 6.01 61.34 6.16 200 29.22 67.44 21.29 12617 6.61 67.44 6.49 U.S. customary units in this document are the standard; the metric units are provided for reference only. The values stated in each system are not exact equivalents. AHEAD OF THE FLOW ™ www.nibco.com Revision 5/14/02 NIBCO INC. WORLD HEADQUARTERS • 1516 MIDDLEBURY ST. • ELKHART, IN 46516-4740 • USA • PH: 1.800.234.0227 TECH SERVICES PH: 1.888.446.4226 • FAX: 1.800.234.0557 • INTERNATIONAL SERVICE PH: +1.574.295.3221 • FAX: +1.574.295.3455 www.nibco.com 69 2" TYPE “L” COPPER TUBE — WATER FLOW AND FRICTION LOSS PER 100 FEET Maximum O.D. = 2.1270 inches (54.026 mm) Nominal O.D. = 2.1250 inches (53.975 mm) Minimum O.D. = 2.1230 inches (53.924 mm) Nominal I.D. = 1.9850 inches (50.419 mm) Nominal Wall Thickness = 0.0700 inches (1.778 mm) Flow Area = 3.0946 sq. inches (1996.54 sq. mm) Hazen Williams Formula C Factor = 150 FLOW, Q Pressure Loss Head Loss Velocity FLOW, Q Pressure Loss Head Loss Velocity (GPM) (psi/100 ft) (ft/100 ft) (ft./sec.) (cu. cm/sec.) (kPa/100 m) (m/100 m) (m/sec.) 10 0.11 0.25 1.04 631 0.02 0.25 0.32 20 0.39 0.89 2.07 1262 0.09 0.89 0.63 30 0.82 1.89 3.11 1893 0.18 1.89 0.95 40 1.39 3.22 4.15 2523 0.31 3.22 1.26 50 2.10 4.87 5.18 3154 0.48 4.87 1.58 60 2.95 6.82 6.22 3785 0.67 6.82 1.90 70 3.92 9.07 7.26 4416 0.89 9.07 2.21 80 5.02 11.61 8.29 5047 1.14 11.61 2.53 90 6.24 14.44 9.33 5678 1.41 14.44 2.84 100 7.59 17.55 10.37 6309 1.72 17.55 3.16 110 9.06 20.93 11.40 6940 2.05 20.93 3.48 120 10.64 24.58 12.44 7570 2.41 24.58 3.79 130 12.34 28.51 13.48 8201 2.79 28.51 4.11 140 14.15 32.70 14.51 8832 3.20 32.70 4.42 150 16.08 37.15 15.55 9463 3.64 37.15 4.74 160 18.13 41.86 16.59 10094 4.10 41.86 5.06 170 20.28 46.83 17.62 10725 4.59 46.83 5.37 180 22.54 52.05 18.66 11356 5.10 52.05 5.69 190 24.92 57.53 19.70 11986 5.64 57.53 6.00 200 27.40 63.25 20.73 12617 6.20 63.25 6.32 2" TYPE “M” COPPER TUBE — WATER FLOW AND FRICTION LOSS PER 100 FEET Maximum O.D. = 2.1270 inches (54.026 mm) Nominal O.D. = 2.1250 inches (53.975 mm) Minimum O.D. = 2.1230 inches (53.924 mm) Nominal I.D. = 2.0090 inches (51.0286 mm) Nominal Wall Thickness = 0.0580 inches (1.4732 mm) Flow Area = 3.1699 sq. inches (2045.11 sq. mm) Hazen Williams Formula C Factor = 150 FLOW, Q Pressure Loss Head Loss Velocity FLOW, Q Pressure Loss Head Loss Velocity (GPM) (psi/100 ft) (ft/100 ft) (ft./sec.) (cu. cm/sec.) (kPa/100 m) (m/100 m) (m/sec.) 10 0.10 0.23 1.01 631 0.02 0.23 0.31 20 0.36 0.84 2.02 1262 0.08 0.84 0.62 30 0.77 1.78 3.04 1893 0.17 1.78 0.93 40 1.31 3.04 4.05 2523 0.30 3.04 1.23 50 1.98 4.59 5.06 3154 0.45 4.59 1.54 60 2.78 6.43 6.07 3785 0.63 6.43 1.85 70 3.70 8.55 7.08 4416 0.84 8.55 2.16 80 4.74 10.95 8.10 5047 1.07 10.95 2.47 90 5.89 13.62 9.11 5678 1.33 13.62 2.78 100 7.16 16.55 10.12 6309 1.62 16.55 3.08 110 8.54 19.74 11.13 6940 1.93 19.74 3.39 120 10.03 23.19 12.15 7570 2.27 23.19 3.70 130 11.64 26.89 13.16 8201 2.63 26.89 4.01 140 13.35 30.84 14.17 8832 3.02 30.84 4.32 150 15.17 35.04 15.18 9463 3.43 35.04 4.63 160 17.10 39.48 16.19 10094 3.87 39.48 4.94 170 19.13 44.17 17.21 10725 4.33 44.17 5.24 180 21.26 49.09 18.22 11356 4.81 49.09 5.55 190 23.50 54.26 19.23 11986 5.32 54.26 5.86 200 25.84 59.66 20.24 12617 5.85 59.66 6.17 U.S. customary units in this document are the standard; the metric units are provided for reference only. The values stated in each system are not exact equivalents. AHEAD OF THE FLOW ™ www.nibco.com Revision 5/14/02 NIBCO INC. WORLD HEADQUARTERS • 1516 MIDDLEBURY ST. • ELKHART, IN 46516-4740 • USA • PH: 1.800.234.0227 TECH SERVICES PH: 1.888.446.4226 • FAX: 1.800.234.0557 • INTERNATIONAL SERVICE PH: +1.574.295.3221 • FAX: +1.574.295.3455 www.nibco.com 84 Copper Water Tube continued COPPER TUBE – TYPES, STANDARDS, APPLICATIONS, TEMPERS AND LENGTHS Commercially Available Lengths Tube Type Color Code Standard Application Nominal or Standard Sizes Drawn Annealed Type K Green ASTM B 88 Domestic Water Service Distribution Straight Lengths:1/4-inch to 8-inch 20 ft. (6.1m) 20 ft. (6.1m) Fire Protection 10-inch 18 ft. (5.5m) 18 ft. (5.5m) Solar 12-inch 12 ft. (3.7m) 12 ft. (3.7m) Fuel/Fuel Oil Coils: 1/4-inch to 1-inch – 60 ft. (18.3m) HVAC – 100 ft. (30.5m) Snow Melting 1 1/4-inch & 11/2-inch – 60 ft. (18.3m) 2-inch – 40 ft. (12.2m) – 45 ft. (13.7m) Type L Blue ASTM B 88 Domestic Water Service Distribution Straight Lengths: 1/4-inch to 10-inch 20 ft. (6.1m) 20 ft. (6.1m) Fire Protection 12-inch 18 ft. (5.5m) 18 ft. (5.5m) Solar Fuel/Fuel Oil Natural Gas Coils: 1/4-inch to 1-inch – 60 ft. (18.3m) Liquified Petroleum (LP) Gas – 100 ft. (30.5m) HVAC 1 1/4-inch & 11/2-inch – 60 ft. (18.3m) Snow Melting 2-inch – 40 ft. (12.2m) – 45 ft. (13.7m) Type M Red ASTM B 88 Domestic Water Service Distribution Straight Lengths: 1/4-inch to 12-inch 20 ft. (6.1m) N/A Fire Protection Solar Fuel/Fuel Oil HVAC Snow Melting DWV Yellow ASTM B 306 Drain Straight Lengths: 1 1/4-inch to 8-inch 20 ft. (6.1m) N/A Waste Vent HVAC Solar ACR Blue ASTM B 280 Air Conditioning Straight Lengths: 1/4-inch to 41/8-inch 20 ft. (6.1m) 20 ft. (6.1m) 1 Refrigeration Natural Gas Coils: 1/8-inch to 15/8-inch – 50 ft. (15.3m) 1 Liquified Petroleum (LP) Gas OXY Type K ASTM B 819 Medical Gas Straight Lengths: 1/4-inch to 8-inch 20 ft. (6.1m) N/A MED Green OXY/MED OXY/ACR Type L ACR/MED Blue Type G Yellow ASTM B 837 Natural Gas Straight Lengths: 3/8-inch to 11/8-inch 12 ft. (3.7m) 12 ft. (3.7m) 1 Liquified Petroleum (LP) Gas 20 ft. (6.1m) 20 ft. (6.1m) 1 Coils:3/8-inch to 7/8-inch – 60 ft. (18.3m) 1 – 100 ft. (30.5m) 1 1Available as special order only. U.S. customary units in this document are the standard; the metric units are provided for reference only. The values stated in each system are not exact equivalents. Main Office/Manufacturing Facility •1375 Sampson Ave. •Corona, CA 92879 •Ph: 909.737.5599 •Fax: 909.737.0330 Customer Service •800.786.5266 www.tolco.com 38 wwwwww..ttoollccoo..ccoomm Revision 5/24/2001 ™ ®a brand of Size Range — 3/4" thru 2" CPVC pipe Material — Carbon Steel, Pre-Galvanized Function — Designed to support a CPVC pipe away from the corner of a beam. This position allows for easy installation of drops or risers without adding additional wood blocks. Approvals — Underwriters’ Laboratories Listed in the USA (UL)and Canada (cUL)for use as a combination hanger and restrainer. Finish — Pre-Galvanized Note — Approved UL Listed fastener into wood is furnished with the product. A fastener into light gauge metal may be ordered separately. Minimum acceptable #10 x 1" hardened self threading screw with 5/16" hex washer head. Order By — Fig. 22C application is composed of two standard Fig. 22 models — order two singles for each hanger and restrainer application required. Fig. 22C - Combination Hanger & Restrainer Application OFFICE/MANUFACTURING FACILITY • 1375 SAMPSON AVE. • CORONA, CA 92879 • PH: 951.737.5599 • FAX: 951.737.0330 CUSTOMER SERVICE • 800.786.5266 www.tolco.com 23 www.tolco.com Fig. 28M - Offset Hanger and Restrainer for CPVC Plastic Pipe and IPS Pipe Size Range — 3/4" thru 1-1/4" pipe Material — Carbon Steel, Electro-Galvanized Function — Designed to be used as a hanger and restrainer for CPVC piping where the “stand-off” design will ease installation by eliminating the need for wood blocking Features — • Flared edge design protects CPVC pipe from any rough or abrasive surfaces • Unique snap-on design holds pipe firmly in place and allows retrofit type of installation • The “Stand-Off” design eliminates the need for wood block extension • Can be installed on horizontal or vertical piping regardless of mounting surface orientation • Attaches easily to wood structure with two hex head self-threading screws furnished with product • Installs easily using rechargeable electrical driver with 5/16” extension socket eliminating impact tool damage to pipe • Attaches easily to steel, minimum 18 gauge with (2) 1/4” x 1” tek type self drilling tapping screws • cULus Listed as a hanger and a restrainer for fire sprinkler piping Approvals — Underwriters’ Laboratory Listed in the USA (UL) and Canada (cUL) to support automatic fire sprinkler systems. May be installed into wood using fas- teners screws. Meets and exceeds the requirements of NFPA 13, 13R and 13D. Fig. 28M satisfies the UL vertical restraint requirements where needed. Order By — Figure number and pipe size A C B RESTRAINT PATENT PENDING RESTRAINT Dimensions • Weights Max. Spacing Pipe required per Approx Size A B C NFPA 13 for Wt./100 CPVC plastic pipe 3/4 2 3/16 3-1/2 5’-6” 9 1 2-1/8 3/16 3-1/2 6’-0” 12 1-1/4 2-5/16 3/16 3-1/2 6’-6” 13 Fig. 28M Revision 6/9/2008 NIBCO INC. WORLD HEADQUARTERS • 1516 MIDDLEBURY ST. • ELKHART, IN 46516-4740 • USA • PH: 1.800.234.0227 TECH SERVICES PH: 1.888.446.4226 • FAX: 1.800.234.0557 • INTERNATIONAL OFFICE PH: +1.574.295.3221 • FAX: +1.574.295.3455 www.nibco.com 15 AHEAD OF THE FLOW ™ www.nibco.com Revised 08/01/03 NIBCO check valves may be installed in both horizontal and vertical lines with upward flow or in any intermediate position. WARNING - Valve must be installed downstream of receiver tank if used in line with reciprocating air compressor. Do Not Use as a Footvalve. Warning – Do Not Use For Reciprocating Air Compressor Service. 250 lb WWP Bronze Ring Check®Valves Fire Protection Valve •Inline Lift Type • Rubber Discs • Spring Actuated 250 PSI/17.2 Bar Non-Shock Cold Working Pressureu CONFORMS TO MSS SP-80 T-480 Threaded T-480 NPT x NPT DIMENSIONS—WEIGHTS—QUANTITIES Dimensions Size A B C T-480 Master In. mm. In. mm. In. mm. In. mm. In. mm. In. Ctn. Qty. ³⁄₈10 2.00 51 1.38 35 1.44 37 0.41 0.19 100 ¹⁄₂15 2.06 52 1.38 35 1.19 30 0.36 0.16 100 ³⁄₄20 2.25 57 1.63 41 1.31 33 0.48 0.22 100 1 25 2.63 67 2.00 51 1.50 38 0.77 0.35 50 1¹⁄₄32 2.94 75 2.38 60 1.69 43 1.14 0.51 30 1¹⁄₂40 3.31 84 2.75 70 2.00 51 1.63 0.74 30 2 50 3.69 94 3.38 86 2.31 59 2.27 1.03 10 Ordering: The T-480 has standard Buna-N Discs. Also available with TFE (Y) Discs; specify T-480-Y. ³⁄₈" thru 2" require ¹⁄₂pound pressure to open. MATERIAL LIST PART SPECIFICATION 1. Body Bronze ASTM B 584 Alloy C84400 2. Stem Stainless Steel ASTM A 582 Alloy C30300 3. Spring 316 Stainless Steel 4. Disc Holder Stainless Steel Type 301 5. Disc Water, Oil or Gas (Buna-N) 6. Seat Screw Stainless Steel ASTM A 276 Alloy S43000 7. Body End Bronze ASTM B 584 Alloy C84400 Dezincification Resistant FIRE DEPT. INLET CONN. FLUSH TYPE 6341-6345 SERIES SINGLE INLET An inlet connection with 250 G.P.M. minimum inlet capacity to supplement the fire protection water supply. Provides unobstructed water supply. Flush round design enhances appearance and provides unobstructed passage. STANDARD EQUIPMENT:Cast Brass round plate with double female adapter; plug and chain; branding as selected. SPECIFY THREAD AND BRANDING. BRANDING:"Standpipe", "Auto Spkr." FINISH:Cast Brass OPTIONAL FINISH:PB-Polished Brass PC-Polished Chrome RESIDENTIAL FIRE DEPT. CONNECTION An inlet connection to supplement the water supply to a residential sprinkler system. STANDARD EQUIPMENT:1 1/2" cast brass round plate assembly with integral pin lug swivel inlet. Hose thread inlet swivel, 1 1/2" NPT female outlet on back of plate. Cast brass plug and brass chain. Overall outside Diameter 4 3/8". SPECIFY THREAD AND BRANDING. U/L LISTED. BRANDING:"Auto Spkr." FINISH:Cast Brass OPTIONAL FINISH:PB-Polished Brass PC-Polished Chrome Figure No. 6341 Figure No. 6342 Figure No. 6345 Page 6-12 Round Plate Figure No. Size 6341 21/2X21/2 6342 3X21/2 6343 3X3 ___________________________________________________ Identification Signs For Sprinkler Systems and Devices NFPA 13 Signing Requirements Technical Services: Tel: (800) 381-9312 / Fax: (800) 791-5500 Page of 4 AUGUST, 2007 TFP65 WARNINGSThe Identification Signs described herein must be installed and main-tained in compliance with this docu-ment, as well as with the applicable standards of the National Fire Pro-tection Association, in addition to the standards of any other authorities hav-ing jurisdiction. Failure to do so may impair the performance of these devices. The owner is responsible for maintain-ing their fire protection system and de-vices in proper operating condition. The installing contractor or sprinkler manufacturer should be contacted with any questions. Technical Data Material & Finish 18 gauge aluminum with mylar facing. Installation The Identification Signs are provid-ed with 1⁄8 Inch (3,2 mm) diameter or larger holes (or slots) in the corners for easy attachment using standard hard-ware chain, wire, plastic lock ties, or light gauge metal strap (not included). General Description Identification Signs (Ref. Figure 1) are designed to provide information to the end user about the sprinkler system and its components. They are avail-able with a variety of wording combi-nations to meet the signing require-ments of NFPA 13. The five basic types of Identification Signs are as follows: Type A- Control Valve Sign Type B- Multi-Purpose Text Signs (See Below) Type D- Fire Alarm Sign Type E- Hydraulic Calculation Sign Type B- Identification Signs are avail-able with the following text options: AIR CONTROL AIR LINE ALARM TEST ANTIFREEZE SYSTEM AUXILIARY DRAIN CONTROL VALVE DRAIN DRAIN VALVE INSPECTORS TEST MAIN CONTROL MAIN DRAIN Care and Maintenance The following inspection procedure must be performed as indicated, in ad-dition to any specific requirements of the NFPA, and any impairments must be immediately corrected. The owner is responsible for the in-spection, testing, and maintenance of their fire protection system and devic-es in compliance with this document, as well as with the applicable stan-dards of the National Fire Protection Association (e.g., NFPA 25), in addition to the standards of any authority hav-ing jurisdiction. The installing contrac-tor or product manufacturer should be contacted relative to any questions. It is recommended that automatic sprin-kler systems be inspected, tested, and maintained by a qualified Inspection Service in accordance with local re-quirements and/or national codes. After placing a fire protection system in service, notify the proper authorities and advise those responsible for mon-itoring proprietary and/or central sta-tion alarms. INSPECTION PROCEDURE Annual visual inspections are recom-mended to ensure that Identification Signs are properly located. Width x Height Inches (mm) Type A 9 x 7 (229 x 178) Type B 6 x 2 (152 x 51) Type C 7¾ x 1¼(197 x 32) Type D 9 x 7 (229 x 178) Type E 5 x 7 (127 x 178) Page 2 of 4 TFP65 SIGN- type B, AvAIlABle WIth the FolloWING text optIoNS “AIR CONTROL” . . . . . . . . . . . . . . . . . . . . . . . . .P/N 2328 “AIR LINE” . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .P/N 2302 “ALARM TEST” . . . . . . . . . . . . . . . . . . . . . . . .P/N 2304A “ANTIFREEZE SYSTEM” . . . . . . . . . . . . . . . . . .P/N 2306 “AUXILIARY DRAIN”. . . . . . . . . . . . . . . . . . . . . .P/N 2307 “CONTROL VALVE” . . . . . . . . . . . . . . . . . . . . . .P/N 2310 “DRAIN” . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .P/N 2311 “DRAIN VALVE” . . . . . . . . . . . . . . . . . . . . . . . . .P/N 2327 “INSPECTORS TEST” . . . . . . . . . . . . . . . . . . . .P/N 2313 “MAIN CONTROL” . . . . . . . . . . . . . . . . . . . . . . .P/N 2319 “MAIN DRAIN” . . . . . . . . . . . . . . . . . . . . . . . . . .P/N 2320 SIGN- type e, p/N 2317 SIGN- type D RectANGulAR 6-1/2” x 8-1/2”, p/N 2316 oR RouND 7-1/4” DIAmeteR, p/N 2329 SIGN- type A, p/N 2300A FIGuRe 1 IDeNtIFIcAtIoN SIGNS TFP65 Page of 4 Limited Warranty Products manufactured by Tyco Fire & Building Products (TFBP) are war-ranted solely to the original Buyer for ten (10) years against defects in mate-rial and workmanship when paid for and properly installed and maintained under normal use and service. This warranty will expire ten (10) years from date of shipment by TFBP. No warran-ty is given for products or components manufactured by companies not af-filiated by ownership with TFBP or for products and components which have been subject to misuse, improper in-stallation, corrosion, or which have not been installed, maintained, modified or repaired in accordance with applicable Standards of the National Fire Protec-tion Association, and/or the standards of any other Authorities Having Juris-diction. Materials found by TFBP to be defective shall be either repaired or re-placed, at TFBP’s sole option. TFBP neither assumes, nor authorizes any person to assume for it, any other ob-ligation in connection with the sale of products or parts of products. TFBP shall not be responsible for sprinkler system design errors or inaccurate or incomplete information supplied by Buyer or Buyer’s representatives. In no event shall TFBP be liable, in contract, tort, strict liability or under any other legal theory, for incidental, indirect, special or consequential dam-ages, including but not limited to labor charges, regardless of whether TFBP was informed about the possibility of such damages, and in no event shall TFBP’s liability exceed an amount equal to the sales price. The foregoing warranty is made in lieu of any and all other warranties, ex-press or implied, including warranties of merchantability and fitness for a particular purpose. This limited warranty sets forth the ex-clusive remedy for claims based on failure of or defect in products, materi-als or components, whether the claim is made in contract, tort, strict liability or any other legal theory. This warranty will apply to the full ex-tent permitted by law. The invalidity, in whole or part, of any portion of this warranty will not affect the remainder. Ordering Procedure Orders must include the description and Part Number (P/N). Contact your local distributor for availability. Hardware for hanging is not sup-plied with the Sign. It must be ordered separately. Identification Signs, (Types A, C, D, or E)Specify: Type (A, C, D, or E) Identification Sign, P/N (specify). Identification Signs(Type B)Specify: Type B Identification Sign in-scribed (specify, e.g. “AIR CONTROL”), P/N (specify). Type A . . . . . . . . . . . . . . . . . . . . . . . . . .P/N 2300A Type D (Round) . . . . . . . . . . . . . . . . . . . .P/N 2329 Type D (Rectangle) . . . . . . . . . . . . . . . . .P/N 2316 Type E . . . . . . . . . . . . . . . . . . . . . . . . . . .P/N 2317 Type B “AIR CONTROL” . . . . . . . . . . . . . . . . . . .P/N 2328 “AIR LINE” . . . . . . . . . . . . . . . . . . . . . . . .P/N 2302 “ALARM TEST” . . . . . . . . . . . . . . . . . . .P/N 2304A “ANTIFREEZE SYSTEM” . . . . . . . . . . . .P/N 2306 “AUXILIARY DRAIN”. . . . . . . . . . . . . . . . P/N 2307 “CONTROL VALVE” . . . . . . . . . . . . . . . .P/N 2310 “DRAIN” . . . . . . . . . . . . . . . . . . . . . . . . .P/N 2311 “DRAIN VALVE” . . . . . . . . . . . . . . . . . . .P/N 2327 “INSPECTORS TEST” . . . . . . . . . . . . . .P/N 2313 “MAIN CONTROL” . . . . . . . . . . . . . . . . .P/N 2319 “MAIN DRAIN” . . . . . . . . . . . . . . . . . . . .P/N 2320 Page 4 of 4 TFP65 TYCO FIRE & BUILDING PRODUCTS, 451 North Cannon Avenue, Lansdale Pennsylvania 19446 Sprinkler Cabinets3, 6, & 12 Sprinklers, 1/2 or 3/4 Inch NPT 6 ESFR Sprinklers, 3/4 or 1 Inch NPT Page of 4 AUGUST, 2007 TFP785 Technical Services: Tel: (800) 381-9312 / Fax: (800) 791-5500 General Description Tyco® Sprinkler Cabinets are con-structed of metal enclosures with hinged covers designed to provide on-site storage of an emergency supply of sprinklers and a sprinkler wrench. NFPA 13 requires a representative number of each type of sprinkler used in a sprinkler system to be stored in a cabinet on-site to allow for immediate removal and replacement of sprinklers that may have operated or become damaged. Sprinkler Cabinets are manufactured of heavy gauge steel with knock-outs to accommodate NPT threaded sprin-klers and are painted an attractive red enamel. WARNINGSThe Sprinkler Cabinets described here-in must be installed and maintained in compliance with this document, as well as with the applicable standards of the National Fire Protection Asso-ciation, in addition to the standards of any other authorities having jurisdic-tion. Failure to do so may impair the performance of these devices. The owner is responsible for maintain-ing their fire protection system and de-vices in proper operating condition. The installing contractor or sprinkler manufacturer should be contacted with any questions. Technical Data Material Carbon Steel Weights 3 Sprinkler Cabinet . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1.5 Lbs. (0,68 kg) 6 Sprinkler Cabinet . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .2.3 Lbs. (1,04 kg) 12 Sprinkler Cabinet . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .4.0 Lbs. (1,81 kg) 6 ESFR Sprinkler Cabinet . . . . . . . . . . . . . . . . . . . . . . . . . .3.3 Lbs. (1,36 kg) Page 2 of 4 TFP785 5-1/4"R(133,4 mm) DOOR SWING MINIMUM CLEARANCE 6"(150 mm) 2-9/16"(65,1 mm) HOLES ACCOMMODATE (127,0 mm)(25,4 mm) SCREWS 3/16"(5 mm)HOLES FOR 2"1-3/16"(50,8 mm) 1"5" (30,2 mm) (127,0 mm)5" (184,2 mm)7-1/4"1-1/4"(31,8 mm) REMOVE KNOCKOUTS 3/4"NPT SPRINKLERS TO ACCOMMODATE 1/2"NPT SPRINKLERS 1-3/4"(44,5 mm) (98,4 mm)3-1/4"2-5/8"(66,7 mm) 1-1/8"(28,6 mm) 1"(25,4 mm) STRAP HANGER SLOTS FORSPRINKLERSHELF WRENCHSHELF 1-5/16"(33,3 mm) HINGES DOOR NOT SHOWN AND HINGES 1-3/4"(44,5 mm) (152,4 mm)3-1/4"(98,4 mm) 10-13/16"(274,6 mm) 6" 14-1/16"(357,2 mm) (30,2 mm) (127,0 mm)1"(25,4 mm) 5" 1-5/8" 1-3/16" (41,3 mm) (31,8 mm)1-1/4" TO ACCOMMODATE 3/4"NPT SPRINKLERS REMOVE KNOCKOUTS 1/2"NPT SPRINKLERS (33,3 mm)1-5/16" HOLES ACCOMMODATE MINIMUM 6"(150 mm) CLEARANCE (65,1 mm)2-9/16" DOOR SWING (133,4 mm)5-1/4"R (50,8 mm)2" SHELF WRENCHHOLESFOR 3/16"(5 mm) SCREWS SPRINKLER SLOTS FOR STRAP HANGER 1"(25,4 mm)SHELF HINGES DOOR NOT SHOWN AND HINGES FIGuRe 1 3 SpRINkleR CAbINet FIGuRe 2 6 SpRINkleR CAbINet TFP785 Page of 4 (127,0 mm) HOLES ACCOMMODATE 1-3/4"(25,4 mm) SCREWS 3/16"(5 mm)HOLES FOR (44,5 mm) 1"(25,4 mm) STRAP HANGER SLOTS FORSPRINKLER SHELF WRENCH SHELF 1-1/2" (98,4 mm) 3-1/4"6"2"1-3/16"(152,4 mm)(50,8 mm) 1"5" (30,2 mm) (274,6 mm)10-13/16" (357,2 mm) 14-1/16" (41,3 mm)1-5/8" 1-1/8"(28,6 mm) (38,1 mm) REMOVE KNOCKOUTS 3/4"NPT SPRINKLERS TO ACCOMMODATE 1/2"NPT SPRINKLERS 5-1/4"R 4-1/8"MINIMUM CLEARANCE (104,8 mm) 6"(150 mm) DOOR SWING (133,4 mm) 1-1/2"(38,1 mm)HINGES DOOR NOT SHOWN AND HINGES (357,2 mm) 14-1/16" (274,6 mm)10-13/16" (157,2 mm)6-3/16" MINIMUM 7"(180 mm) (152,4 mm)6" (39,7 mm) 1-9/16" 2"(50,8 mm) 1-5/8"(41,3 mm) (96,8 mm)3-13/16" (60,3 mm)2-3/8" CLEARANCE DOOR SWING (163,5 mm)6-7/16"R 1-3/16"(30,2 mm) (25,4 mm)1" 3/4"NPT SPRINKLERSHOLESACCOMMODATETOACCOMMODATE REMOVE KNOCKOUTS 1"NPT SPRINKLERS 3-1/8"(79,4 mm) DOOR AND HINGES SLOTS FOR STRAP HANGER 1"(25,4 mm)3/16"(5 mm)HOLES FOR SCREWS SHELF WRENCH SHELF SPRINKLER HINGES (39,7 mm)1-9/16" NOT SHOWN FIGuRe 3 12 SpRINkleR CAbINet FIGuRe 4 6 eSFR SpRINkleR CAbINet Page 4 of 4 TFP785 TYCO FIRE & BUILDING PRODUCTS, 451 North Cannon Avenue, Lansdale Pennsylvania 19446 Installation Sprinkler Cabinets are designed with two 3/16 Inch (4,7 mm) diameter holes for wall mounting or direct attachment to the system riser with a strap-type hanger. The Sprinkler Cabinet should be installed at or near the system con-trol valve and must be stocked with an adequate supply of spare sprinklers and a sprinkler wrench. The stock of spare sprinklers should include sprinklers of each type and temperature rating as are installed in the sprinkler system, in the following quantities: Sprinklers In System Spare Sprinklers Required Under 300 6 300-1000 12 Over 1000 24 The 3, 6, and 12 Sprinkler Cabinets are designed to accept both 1/2 & 3/4 Inch NPT threaded sprinklers, where-as the 6 ESFR Sprinkler Cabinets are designed to accept both 3/4 & 1 Inch NPT threaded sprinklers. As neces-sary, insert a screwdriver blade from the front top of the shelf and under the near bottom part of the knockout an-nular ring. Press the screwdriver han-dle down to remove the knockout ring. Care and Maintenance The Sprinkler Cabinet, wrench, and stock of spare sprinklers should be in-spected at least quarterly. The follow-ing items should be checked: • The Sprinkler Cabinet should be readily accessible, and not exposed to a corrosive atmosphere or tem-peratures in excess of 100°F (38°C). • The stock of spare sprinklers should include an adequate number of each type and temperature rating. • The stock of sprinklers must be in good condition. • A sprinkler wrench of the appropriate type must be included in the Sprin-kler Cabinet. Limited Warranty Products manufactured by Tyco Fire & Building Products (TFBP) are war-ranted solely to the original Buyer for ten (10) years against defects in mate-rial and workmanship when paid for and properly installed and maintained under normal use and service. This warranty will expire ten (10) years from date of shipment by TFBP. No warran-ty is given for products or components manufactured by companies not af-filiated by ownership with TFBP or for products and components which have been subject to misuse, improper in-stallation, corrosion, or which have not been installed, maintained, modified or repaired in accordance with applicable Standards of the National Fire Protec-tion Association, and/or the standards of any other Authorities Having Juris-diction. Materials found by TFBP to be defective shall be either repaired or re-placed, at TFBP’s sole option. TFBP neither assumes, nor authorizes any person to assume for it, any other ob-ligation in connection with the sale of products or parts of products. TFBP shall not be responsible for sprinkler system design errors or inaccurate or incomplete information supplied by Buyer or Buyer’s representatives. In no event shall TFBP be liable, in contract, tort, strict liability or under any other legal theory, for incidental, indirect, special or consequential dam-ages, including but not limited to labor charges, regardless of whether TFBP was informed about the possibility of such damages, and in no event shall TFBP’s liability exceed an amount equal to the sales price. The foregoing warranty is made in lieu of any and all other warranties, ex-press or implied, including warranties of merchantability and fitness for a particular purpose. This limited warranty sets forth the ex-clusive remedy for claims based on failure of or defect in products, materi-als or components, whether the claim is made in contract, tort, strict liability or any other legal theory. This warranty will apply to the full ex-tent permitted by law. The invalidity, in whole or part, of any portion of this warranty will not affect the remainder. Ordering Procedure When placing an order, indicate the full product name. Contact your local dis-tributor for availability. Sprinkler Cabinet:Specify: (Description), P/N (specify). 3 Sprinkler Cabinet. . . . . . . . . . . . . . . . . P/N 1177 6 Sprinkler Cabinet. . . . . . . . . . . . . . . . . P/N 111912 Sprinkler Cabinet . . . . . . . . . . . . . . . .P/N 1124 6 ESFR Sprinkler Cabinet . . . . . . . . . . . P/N 1111