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341 OAK AVE; ; FPR2020-0089; Permit
PERMIT REPORT CL'City of Carlsbad Print Date: 07/15/2021 Permit No: FPR2020-0089 Job Address: 341 OAK AVE, CARLSBAD, CA 92008-2945 Status: Closed - Finaled Permit Type: FIRE-Construction Residential Work Class: Multifamily Fire Sprinkler Parcel #: 2032601801 Track #: Applied: 08/27/2020 Valuation: $0.00 Lot #: Issued: 10/29/2020 Occupancy Group: Project #: Finaled Close Out: 07/15/2021 #of Dwelling Units: Plan U: Bedrooms: Construction Type: Bathrooms: Orig. Plan Check #: Inspector: Plan Check U: Final Inspection: Project Title: Description: VILLAGE WALK -NEW SPRINKLER SYSTEM FOR 8 UNIT ATTACHED CONDO PROJECT FPContractor: SYMONS FIRE PROTECTION INC 12155 PAINE PL POWAY, CA 92064-7154 (619) 588-6364 FEE AMOUNT FIRE NFPA 13 System > 100 heads (includes 1 riser) $858.00 Total Fees: $858.00 Total Payments To Date: $858.00 Balance Due: $0.00 Fire Department Page 1 of 1 1635 Faraday Avenue, Carlsbad CA 92008-7314 I 760-602-4665 1 760-602-8-561 f www.carlsbadca.gov Hydraulic Calculations for Project Name: Drawingi Location: Drawing Name: 19-0115—VILLAGE WALK FIRE SPRINKLER Calculation Date: 9/14/2020 Design Remote Area Number: 3 Remote Area Location: PORCH Occupancy Classification: (AREA 3) Ordinary Group I Density Area of Application: Coverage per Sprinkler: Type of sprinklers calculated No. of sprinklers calculated: No. of nozzles calculated: In-rack Demand: Hose Streams: 0.l5gpm/ft2 1500ft2 (Actual 1511 ft') 130ff2 Pendent 16 0 N/A gpm at Node: N/A 250.00 at Node: 1 Type Allowance at Source (Safety Margin = 13.027 psi) Total Water Required (including Hose Streams where applicable): From Water Supply at Node 1: 569.88 @63.010 Type of System: WET Volume of Dry or PreAction System: N/A Name of Contractor: Address: Phone Number: Name of designer: Authority Having Jurisdiction: Notes: Automatic peaking results Left: 62.831 Right: 63.449 c M.E.P.CAD, Inc. AutoSPRINK 2019 v15.1 .20.0 3 9114/202012:35:36PM Page 1 Hydraulic Graph Job Name: Drawingi N 1.85 Remote Area Number: 3 Date: 9/14/2020 Water Supply I Summary Sheet 90— Node:1 - - 80— Static Pressure 76 500 569.88 76.037 70- 31988 63.010 60— 569.88 with Hose Allowance at Source 750.00 @ 53.100 40 System demand curve 30 - 0 _j rJJJJJ.1J_hhhh11 IItIIIII Itliltil I I 11111 I III III II I I I I I I I I I I I I I I I I I 0950 1900 2850 3800 4750 5700 6650 7600 8550 9500 Flow - gpm ©M.E.P.CAD, Inc. AutoSPRlNK2019v15.1.20.0 9/14/2020 12:35:38PM Paqe2 Hydraulic Graph Job Name: Drawing I N 1.85 Remote Area Number: 3 Date: 9/14/2020 100— - I I B.O.R Summary Sheet 90— 80— -Static Pressure 76.500 569.88 @ 76.037 70- 60--__ 31988 52.579 4750.00 @ 53.100 50 569.88 with Hose Allowance a Source______ a. 30 System demand curve . 20 10-7 11111111 111111111 111111111 11111111 111111111 II II I I 1 I I I I 1I I I I I I 50 1900 2850 3800 4750 5700 6650 7600 8550 9500 Flow - gpm ,© M.E.P.CAD, Inc. AutoSPRINK 2019 v15.1.20.0 9/14/2020 12:35:38PM Page 3 IN ummary Of Outfiowing Devices Job Number: 1 repuu uescllpuuFl. y-rfr\ i) uruinary uroup I i) Actual Flow Minimum Flow K-Factor Pressure Density Coverage Device (gpm) (gpm) (K) (psi) (gpmpft2) (Foot) Sprinkler 300 20.68 19.50 5.6 13.639 N/A N/A Sprinkler 301 20.16 1950 5.6 12.959 N/A N/A Sprinkler 302 19.99 19.50 5.6 12.739 N/A N/A Sprinkler 303 20.11 19.50 5.6 12.900 N/A N/A Sprinkler 304 19.92 19.50 5.6 12.654 N/A N/A Sprinkler 305 19.55 19.50 5.6 12.189 N/A N/A Sprinkler 306 19.67 - 19.50 5.6 12.343 N/A N/A Sprinkler 307 19.92 19.50 5.6 12.653 N/A N/A Sprinkler 308 19.50 19.50 i 5.6 12.125 N/A N/A Sprinkler 309 19.62 19.50 1 5.6 12.278 N/A N/A Sprinkler 310 20.14 19.50 5.6 12.936 N/A N/A Sprinkler 311 19.58 19.50 1 5.6 12.220 N/A N/A Sprinkler 312 19.70 19.50 1 5.6 12.374 N/A N/A Sprinkler 313 20.98 19.50 5.6 14.039 N/A N/A Sprinkler 314 20.11 19.50 5.6 12.897 N/A N/A Sprinkler 315 20.24 - 19.50 5.6 13.057 N/A N/A c> Most Demanding Sprinkler Data , © M.E.P.CAD, Inc. AutoSPRINK 2019 v15.1.20.0 9/14/2020 12:35:40PM Page 4 Job Name: Drawng1 Remote Area Number: 3 Date: 9/14/2020 Supply Analysis Static I Residual Flow Available Total Demand I Required Pressure Node Name I (psi) I (psi) (gpm) (psi) (gpm) I (psi) 1 Water Supply 76.500 53.100 1 4750.00 76:037 569.88 63.010 Node Analysis Node Number Elevation (Foot) Node Type Pressure at Discharge at Notes Node Node (psi) (gpm) 1 -5-6 Supply 63.010 319.88 300 9-0 Sprinkler 13.639 20.68 Density: N/A Coverage: N/A 301 9-0 Sprinkler 12.959 20.16 Density: N/A Coverage: N/A 302 9-0 Sprinkler 12.739 19.99 Density: N/A Coverage: N/A 303 9-0 Sprinkler 12.900 20.11 Density: N/A Coverage: N/A 304 9-0 Sprinkler 12.654 19.92 Density: N/A Coverage: N/A 305 9-0 Sprinkler 12.189 19.55 Density: N/A Coverage: N/A 306 9-0 Sprinkler 12.343 19.67 Density: N/A Coverage: N/A 307 9-0 Sprinkler 12.653 19.92 Density: N/A Coverage: N/A 308 9-0 Sprinkler 12.125 19.50 Density: N/A Coverage: N/A 309 9-0 Sprinkler 12.278 19.62 Density: N/A Coverage: N/A 310 9-0 Sprinkler 12.936 20.14 Density: N/A Coverage: N/A 311 9-0 Sprinkler 12.220 19.58 Density: N/A Coverage: N/A 312 9-0 Sprinkler 12.374 19.70 Density: N/A Coverage: N/A 313 9-0 Sprinkler 14.039 20.98 Density: N/A Coverage: N/A 314 9-0 Sprinkler 12.897 20.11 Density: N/A Coverage: N/A 315 9-0 Sprinkler 13.057 20.24 Density: N/A Coverage: N/A 2 -5-6 62.994 3 -5-6 57.824 1.© M.E.P.CAD, Inc. 'AutoSPRlNK 2019 v15.1.20. 9/14/2020 12:35:42PM Page 5 Job Name: Drawingl Remote Area Number: 3 Date: 9/14/2020 Node Number Elevation (Foot) Node Type Pressure at Node (psi) Discharge at Node (gpm) Notes 4 -5-6 55.901 5 15-0 35.822 6 20-2 34.540 7 30-10 24.939 8 30-10 24.939 9 30-10 24.939 10 30-10 24.939 11 30-10 24.942 12 15-0 35.929 13 9-7 45.203 14 9-7 43.241 15 1-0 52.579 16 9-7 19.230 17 9-7 20.008 18 9-7 22.829 19 25-5 32.212 20 9-7 33.337 21 20-2 32.818 22 9-7 27.548 23 9-7 22.921 24 9-7 22.086 25 9-7 30.928 26 9-7 27.242 &© M.E.P.CAD, Inc. AutoSPRINK 2019 v15.1 .20. 9/14/2020 12:35:42PM Paqe 6 Job Name: Drawing 1 Remote Area Number: 3 Date: 9/14/2020 Node Number Elevation (Foot) Node Type Pressure at Node (psi) Discharge at Node (gpm) Notes 27 20-2 27.064 28 30-10 25.240 30 30-10 25.114 31 30-10 24.941 32 30-10 24.929 33 30-10 24.930 34 30-10 24.930 35 30-10 24.931 36 30-10 24.931 37 25-5 31.706 38 25-5 31.732 39 9-7 14.147 40 9-7 13.431 41 9-7 13.200 42 9-7 13.369 43 9-7 13.110 44 9-7 12.621 45 9-7 12.783 46 9-7 13.109 47 9-7 12.554 48 9-7 12.715 49 9-7 13.407 50 9-7 12.654 ,© M.E.P.CAD, Inc. $AutoSPRINK 2019 v15.1.20. 9/14/2020 12:35:42PM Paqe 7 Job Name: Drawingi Remote Area Number: 3 Date: 9/14/2020 Node Number Elevation (Foot) Node Type Pressure at Discharge at Notes Node Node (psi) (gpm) 51 9-7 12.815 52 9-7 14.567 53 9-7 13.366 54 9-7 13.535 100 32-9 Sprinkler 24.108 Sprinkler Density: Coverage: 101 32-9 Sprinkler 24.108 Sprinkler Density: Coverage: 102 31-8% Sprinkler 24.559 Sprinkler Density: Coverage: 103 32-9 Sprinkler 24.107 Sprinkler Density: Coverage: 104 31-81/2 Sprinkler 24.559 Sprinkler Density: Coverage: 105 32-9 Sprinkler 24.107 Sprinkler Density: Coverage: 106 32-9 Sprinkler 24.106 Sprinkler Density: Coverage: 200 30-4 Sprinkler 7.000 Sprinkler Density: Coverage: 201 30-4 Sprinkler 7.000 Sprinkler Density: Coverage: 202 30-4 Sprinkler 7.000 Sprinkler Density: Coverage: 203 30-4 Sprinkler 7.000 Sprinkler Density: Coverage: 204 30-4 Sprinkler 7.000 Sprinkler Density: Coverage: 205 30-4 Sprinkler 7.000 Sprinkler Density: Coverage: 206 30-4 Sprinkler 7.000 Sprinkler Density: Coverage: 207 30-4 Sprinkler 7.000 Sprinkler Density: Coverage: 1.,© M.E.P.CAD, Inc. OR AutoSPRINK 2019 v15.1 .20. 9/14/2020 12:35:42PM Paqe 8 Job Name: Drawing 1 Remote Area Number: 3 Date: 9/14/2020 Pipe Information Node I Elev I (Foot) K-Factor Flow added this step (q) Nominal ID Fittings & Devices Equiv. Length (Foot) Length (Foot) C Factor Total(Pt) Notes Fitting/Device (Equivalent Length) Fixed Pressure Losses, when applicable, are added directly to (Pf) and shown as 5 Fitting (Foot) Pt Friction Loss Per Unit (psi) Elev(Pe) Node 2 Elev 2 (Foot) Total Flow (Q) Actual ID Total (Foot) Friction(Pf) 308 9-0 5.6 19.50 1 (See Notes) 0-7 120 12.125 Route I Sprinkler, 5111/2 0.104419 -0253 47 9-7 19.50 1.0870 6-6% 0.682 47 9-7 11,14 10-8 120 12.554 0.009367 50 9-7 10.62 1.4160 10-8 0.100 50 9-7 19.58 1% 111 0 120 12.654 Flow (q) from Route 3 0.064714 53 9-7 30.20 1.4160 11-0 0.712 53 9-7 20.11 11/4 (See Notes) 49'0 120 13.366 Flow (q) from Route 10 E(3-5) 0.166363 24 9-7 50.31 1.4160 52-5 8.720 24 97 v/ 10-7 120 22.086 0.078993 23 9-7 50.31 1.6500 10-7 0.835 23 9-7 50.60 11/2 (See Notes) 6'1 120 22.921 Flow (q) from Route 6 1(9-0) 4.320 9-0 0.286307 26 9-7 100.92 1.6500 15-1 26 9-7 11,4 (See Notes) 46 120 27.242 1(9-0) 9-0 0.022701 22 9-7 25.64 1.6500 13-6 0.307 22 9-7 60.30 1% (See Notes) 6-10% 120 27.548 Flow (q) from Route 7 P0(9-0) 91 0 0.212698 25 9-7 85.94 1.6500 15-10% 3.380 25 9-7 21/2 126-21/2 120 30.928 0.019085 20 9-7 85.94 2.7070 126-21/2 2.409 20 9-7 158.66 21/2 (See Notes) 165 120 33.337 Flow (q) from Route 2 3fE(6'-81/2) 20-2 0.132154 -2.348 5 15-0 244.60 2.7070 36-7 4.833 5 15-0 21/2 (See Notes) 1 14'O% 120 35.822 4fE(6'8%) 26-10% 0.123986 2.348 14 9-7 236.31 2.7070 40-11 1 r 5.071 ,©M.E.P.CAD, Inc. AutoSPRINK2O19v15.1.2O.O 3 9/14/2020 12:35:45PM Page 9 Job Name: Drawingi Remote Area Number: 3 Date: 9/14/2020 Pipe Information Node I Elev I (Foot) K-Factor Flow added this step (q) Nominal ID Fittings & Devices Equiv. Length (Foot) Length (Foot) C Factor Total(Pt) Notes Fitting/Device (Equivalent Length) Fixed Pressure Losses, when applicable, are added directly to (P0 and shown as Fitting (Foot) ___________ Pt Friction (psi) Loss Per Unit Elev(Pe) Node 2 Elev 2 (Foot) Total Flow (Q) Actual ID Total (Foot) Friction(Pf) 14 9-7 83.57 21/2 (See Notes) 1-21/2 120 43.241 Flow (q) from Route 17 fE(T-10) 7-10 0.217095 13 9-7 319.88 2.7070 901/2 1.962 13 9-7 3 (See Notes) 7'-3 120 45.203 CV(23'-41/2), f(-0.000), BV(14'-7 B.0.R 37-11% 0.080812 3.721 15 1-0 319.88 3.3160 45-3 3.656 15 1-0 4 (See Notes) 12'0 150 52.579 19-101/2 0.015789 2.818 4 -5-6 319.88 4.2600 E(19'-101/,.)31-101/2 0.503 4 -5-6 4 (See Notes) 50'5 150 55.901 3E(16'-l%) 48-4 0.019484 3 -5-6 319.88 4.0800 98'-9 1.924 3 -5-6 4 (See Notes) 38'-2 140 57.824 2T(33'-5%), BFP(-2.631), LtE( 10-0%), E(16-81/2), GV(3'-4) 97-0 0.018782 2 -5-6 319.88 4.2200 135-21/2 5.170 2 -5-6 12 (See Notes) 45'9% 150 62.994 5, T(69'-7%) 69-7% 0.000136 1 -5-6 319.88 11.3100 115-5 0.016 250.00 63.010 Hose Allowance At Source Total(Pt) Route 1 1 569.88 305 9-0 5.6 19.55 1 (See Notes) 0-7 120 12.189 Route 2 ..... Sprinkler, P0(5-11%) 5-11% 0.104927 -0.253 44 9-7 19.55 1.0870 0.685 44 9-7 8.88 1% 10-0 120 _________ 12.621 Flow (q) from Route 26 0.057861 41 9-7 28.43 1.4160 10-0 0.579 41 9-7 19.99 11/4 (See Notes) 35'6 120 13.200 Flow (q) from Route 9 E(3'-5) 6.030 0.154947 16 9-7 48.41 1.4160 38-11 16 9-7 11/2 10-7 120 19.230 0.073572 17 9-7 48.41 1.6500 10-7 0.778 ,©M.E.P.CAD, Inc. AutoSPRINK 2019 v1 5.1.20.0 3 9/14/2020 12:35:45PM Page 10 Job Name: Drawinqi Remote Area Number: 3 Date: 9/14/2020 Pipe Information Node I Elev 1 (Foot) K-Factor Flow added this step (q) Nominal ID Fittings & Devices Equiv. Length (Foot) Length (Foot) C Factor Total(Pt) Notes Fitting/Device (Equivalent Length) Fixed Pressure Losses, when applicable, are added directly to (Pfl and shown as negative -1- Fitting (Foot) Pf Friction Loss Per Unit (psi) Elev(Pe) Node 2 Elev 2 (Foot) Total Flow (Q) Actual ID Total (Foot) ________________ Friction(Pf) 17 9-7 48.74 10-7 120 20.008 Flow (q) from Route 4 0.266876 18 9-7 97.15 1.6500 10-7 2.821 18 9-7 61.51 1'/2 (See Notes) 6-10% 120 22.829 Flow (q) from Route 8 P0(9-0) 9c 0.661266 20 9-7 158.66 1.6500 15-10% 10.508 33.337 Total(Pt) Route 2 311 91-0 5.6 19.58 1 (See Notes) 0-7 120 12.220 Route 3 ..... Sprinkler, P0(5-11%) 5-11% 0.105175 -0.253 50 9-7 19.58 1.0870 6-6'/2 0.687 12.654 Total(Pt) Route 3 309 91-0 5.6 19.62 1 (See Notes) 0'7 120 12.278 Route 4 ..... Sprinkler, P0(5-11%) 5-11% 0.105634 -0.253 48 9-7 19.62 1.0870 6-6% 0.690 48 9'7 1 10-0 120 12.715 0.006824 45 9-7 8.95 1.4160 10-0 0.068 45 9-7 19.67 1 10-0 120 12.783 Flow (q) from Route 5 0.058612 42 9-7 28.63 1.4160 10-0 0.586 42 9-7 20.11 1'/4 (See Notes) 356 120 13.369 Flow (q) from Route 11 T(6-9'/2) 6-9 % 0.156875 17 9-7 48.74 1.4160 42-4 6.639 20.008 Total(Pt) Route 4 306 9-0 5.6 19.67 1 (See Notes) 0-7 120 12.343 Route 5 ..... Sprinkler, P0(5-11%) 5-11% 0.106150 -0.253 45 9-7 19.67 1.0870 6-6% 0.693 12.783 Total(Pt) Route 5 312 9-0 5.6 19.70 1 (See Notes) 0-7 1 120 12.374 Route 6 ..... Sprinkler, P0(5-111/2) 5-11'/2 0.106396 0.253 51 9-7 19.70 1.0870 6-6% 0.695 © M.E.P.CAD, Inc. AutoSPRINK 2019 v15.1 .20.0 3 9/14/2020 12:35:45PM Page 11 Job Name: Drawinqi Remote Area Number: 3 Date: 9/14/2020 Pipe Information Node I Elev 1 (Foot) K-Factor Flow added this step (q) Nominal ID Fittings & Devices Equiv. Length (Foot) Length (Foot) C Factor Total(Pt) Notes Fitting/Device (Equivalent Length) Fixed Pressure Losses, when applicable, are added directly to (PU and shown as Fitting (Foot) Pf Friction Loss Per Unit (psi) Elev(Pe) Node 2 Elev 2 (Foot) Total Flow (Q) Actual ID 10th (Foot) _________________ Friction(Pf) 51 9-7 1067 11/4 11-0 120 12.815 Flow (q) from Route 25 0.065384 54 9-7 30.37 1.4160 111-0 0.719 54 9-7 20.24 11/4 (See Notes) 490 120 13.535 Flow (q) from Route 14 1(6-9%) 6-91/2 0.168162 23 9-7 50.60 1.4160 55-10 9.387 22.921 Total(Pt) Route 6 307 9-0 5.6 19.92 1 (See Notes) 0-7 120 12.653 Route 7 ..... Sprinkler, P0(5-11%) 5111/2 0.108617 -0253 46 9-7 19.92 1.0870 6-6% 0.709 46 9-7 1v4 10'8 120 13.109 0.027926 49 9-7 19.17 1.4160 10-8 0.298 49 9-7 20.14 1¼ 11,-0 120 13.407 Flow (q) from Route 12 0.105421 52 9-7 39.32 1.4160 11-0 1.160 52 9-7 20.98 11/4 (See Notes) 49'0 120 14.567 Flow (q) from Route 16 T(6'-9%) 6-91/2 0.232563 22 9-7 60.30 1.4160 55-10 12.981 27.548 Total(Pt) Route 7 304 9-0 5.6 19.92 1 (See Notes) 0-7 120 12.654 Route 8 ..... Sprinkler, P0(5-11%) 5-11% 0.108622 -0.253 43 9-7 19.92 1.0870 6-6% 0.709 43 9-7 075 1¼ 10-0 120 13.110 Flow (q) from Route 27 0.032078 40 9-7 20.67 1.4160 10-0 0.321 40 9-7 20.16 11/4 6-4 120 13.431 Flow (q) from Route 13 0.113029 39 9-7 40.83 1.4160 6-4 0.716 39 9-7 20.68 1¼ (See Notes) 29'-2 120 14.147 Flow (q) from Route 15 T(6'-9%) 6-9% 0.241259 18 9-7 61.51 1.4160 36-0 8.682 22.829 Total(Pt) Route 8 © M.E.P.CAD, Inc. 11, AutoSPRINK 2019 v15.1 .20.0 3 9/14/2020 12:35:45PM Page 12 Job Name: Drawinqi Remote Area Number: 3 Date: 9/14/2020 Pipe Information Node I Elev I (Foot) K-Factor Flow added this step (q) Nominal ID Fittings & Devices Equiv. Length (Foot) Length (Foot) C Factor Total(Pt) Notes Fitting/Device (Equivalent Length) Fixed Pressure Losses, when applicable, are added directly to (PU and shown as Fitting (Foot) Pf Friction Loss Per Unit (psi) Elev(Pe) Node 2 Elev 2 (Foot) Total Flow (Q) Actual ID Total (Foot) ________________ Friction(Pf) 302 9-0 5.6 19.99 1 (See Notes) 0'7 120 12.739 Route 9 ..... Sprinkler, P0(5-11%) 5-11% 0.109300 -0.253 41 9-7 19.99 1.0870 6-6% 0.714 13.200 Total(Pt) Route 9 314 9-0 5.6 20.11 i (See Notes) 0-7 120 12.897 Route 10 ..... Sprinkler, P0(5-11%) 5111/2 0.110552 -0.253 53 9-7 20.11 1.0870 6-6% 0.722 13.366 Total(Pt) Route 10 303 9-0 5.6 20.11 1 (See Notes) 0-7 120 12.900 Route 11 ..... Sprinkler, P0(5-11%) 5-11% 0.110575 -0.253 42 9-7 20.11 1.0870 6-6% 0.722 13.369 Total(Pt) Route 11 310 9-0 5.6 20.14 1 (See Notes) 0-7 120 12.936 Route 12 ..... Sprinkler, P0(5-11%) 5-11% 0.110864 -0.253 49 9-7 20.14 1.0870 6-6% 0.724 13.407 Total(Pt) Route 12 301 9-0 5.6 20.16 i (See Notes) 0-7 120 12.959 Route 13 ..... Sprinkler, P0(5-11%) 5-11% I 0.111041 -0.253 40 9-7 20.16 1.0870 6 6h/2 0.725 13.431 Total(Pt) Route 13 315 9-0 5.6 20.24 1 (See Notes) 0-7 1 120 13.057 Route 14 ..... Sprinkler, P0(5-11%) 5111/2 t 0.111823 -0.253 54 9-7 20.24 1.0870 6-6% 0.730 13.535 Total(Pt) Route 14 300 9-0 5.6 20.68 1 (See Notes) 0-7 J 120 13.639 Route 15 ..... Sprinkler, P0(5-11%) 5-11% 0.116426 -0.253 39 9-7 20.68 1.0870 6-6% 0.760 14.147 Total(Pt) Route 15 313 9-0 5.6 20.98 1 (See Notes) 0-7 120 14.039 Route 16 ..... Sprinkler, P0(5-11%) 5-11% 0.119578 -0.253 52 9-7 20.98 1.0870 6-6% 0.781 14.567 Total(Pt) Route 16 ,©M.E.P.CAD, Inc. AutoSPRINK2O19v15,1.2O.O 3 9/14/2020 12:35:45PM Page 13 Job Name: Drawinqi Remote Area Number: 3 Date: 9/14/2020 Pipe Information Node I Elev I (Foot) K-Factor Flow added this step (q) Nominal ID Fittings & Devices Equiv. Length (Foot) Length (Foot) C Factor ___________ Total(Pt) Notes Fitting/Device (Equivalent Length) Fixed Pressure Losses, when applicable, are added directly to (Pf) and shown as 1 a 19pativevI.. 6 Fitting (Foot) Pf Friction Loss Per Unit (psi) Elev(Pe) Node 2 Elev 2 (Foot) Total Flow (Q) Actual ID Total (Foot) Friction(Pt) 5 15-0 1y2 (See Notes) 26-4 150 35.822 Route 17 ..... P0(8-U) E(7'-O), T(8-0) 23-0 0.002175 12 15-0 8.29 1.5980 49-4 0.107 12 15-0 1 (See Notes) 16'11Y2 150 35.929 E(5-0) 5-0 0.013346 -4.516 37 25-5 8.29 1.1010 21-11% 0.293 37 25-5 1 2'-7 150 31.706 0.010138 38 25-5 7.15 1.1010 2-7 0.026 38 25-5 1.14 1 (See Notes) 2011 150 31.732 Flow (q) from Route 18 3E(5-0) 0.480 0.013346 19 25-5 8.29 1.1010 35-11 19 25-5 1Y2 (See Notes) 92/2 150 32.212 E(7-0), C(8'-O) 15-0 0.002175 2.276 6 20-2 8.29 1.5980 24-2% 0.053 6 20-2 75.27 11/2 (See Notes) 11'4 150 34.540 Flow (q) from Route 19 E(7'-O), P0(8-0) 15-0 0.156210 4.588 14 9-7 83.57 1.5980 26-4 4.112 43.241 Total(Pt) Route 17 37 25-5 i (See Notes) 51-0 150 31.706 Route 18 ..... 1(5-0) 2T(5'-O), 2E(5-0) 25-0 0.000342 38 25-5 1.14 1.1010 76-0 0.026 31.732 Total(Pt) Route 18 103 32-9 42 055 1 (See Notes) 2-5 150 24.107 Route 19 ..... Flow (q) from Route 20 T(5-0) 5-0 0.000089 0.831 10 30-10 0.55 1.1010 7-5 0.001 10 30-10 1 (See Notes) 17-0 150 24.939 21(5-0) io-o 0.000089 31 30-10 0.55 1.1010 27-0 0.002 31 30-10 1 (See Notes) 6'1% 150 24.941 T(5-0) 0.001 s'-o 0.000089 11 30-10 0.55 1.1010 11-1% (, © M.E.P.CAD, Inc. AutoSPRINK 2019 05.1.20.0 3 9/14/2020 12:35:45PM Page 14 Job Name: Drawing 1 Remote Area Number: 3 Date: 9/14/2020 Pipe Information Node I Elev 1 (Foot) K-Factor Flow added this step (q) Nominal ID Fittings & Devices Equiv. Length (Foot) Length (Foot) C Factor Total(Pt) Notes Fitting/Device (Equivalent Length) Fixed Pressure Losses, when applicable, are added directly to (PU and shown as Fitting (Foot) Pf Friction Loss Per Unit (psi) Elev(Pe) Node 2 Elev 2 (Foot) Total Flow (Q) Actual ID Total (Foot) __________________ Friction(Pf) 11 30-10 31.65 1% 65 150 24.942 Flow (q) from Route 22 0.026767 30 30-10 32.20 1.5980 6-5 0.172 30 30-10 48h/2 150 25.114 0.026767 28 30-10 32.20 1.5980 481/2 0.126 28 30-10 11/2 (See Notes) 9441 150 25.240 2T(8-0) 16-0 0.026767 4.624 21 20-2 32.20 1.5980 11041/2 2.954 21 20-2 43.07 11/2 (See Notes) 54% 150 32.818 Flow (q) from Route 21 C(8-0) 8-0 0.128751 6 20-2 75.27 1.5980 13-4% 1.722 34.540 Total(Pt) Route 19 106 32-9 4.2 1 5-6 150 24.106 ......Route 20 ..... 0.000089 105 32-9 0.55 1.1010 5-6 0.000 105 32-9 4.2 1 5-6 150 24.107 0.000089 103 32-9 0.55 1.1010 5-6 0.000 24.107 Total(Pt) Route 20 27 20-2 75.27 11/2 125-61/2 150 27.064 Route 21 ..... Flow (q) from Route 28 0.045832 21 20-2 43.07 1.5980 125-6% 5.755 32.818 Total(Pt) Route 21 27 20-2 75.27 1% (See Notes) 63-0 150 27.064 Route 22 ..... Flow (q) from Route 28 2E(7-0), 2T(8-0) 30-0 0.026767 -4.624 32 30-10 32.20 1.5980 93-0 2.489 32 30-10 1% 0-6 150 24.929 0.025924 11 30-10 't 31.65 1.5980 0-6 0.013 24.942 Total(Pt) Route 22 ,©M.E.P.CAD, Inc. AutoSPRINK2O19v15.12O.O 3 9/14/2020 12:35:45PM Page 15 Job Name: Drawinqi Remote Area Number: 3 Date: 9/14/2020 Pipe Information Node I Elev I (Foot) K-Factor Flow added this step (q) Nominal ID Fittings & Devices Equiv. Length (Foot) Length (Foot) C Factor Total(Pt) Notes Fitting/Device (Equivalent Length) Fixed Pressure Losses, when applicable, are added directly to (Pf) and shown as Fitting (Foot) Pf Friction Loss Per Unit (psi) Elev(Pe) Node 2 Elev 2 (Foot) Total Flow (Q) Actual ID Total (Foot) Friction(Pf) 33 30-10 055 1 10-1/2 150 24.930 Route 23 ..... Flow (q) from Route 24 0.000089 34 30-10 0.55 1.1010 1011/2 0.001 34 30-10 1 2-0 150 24.930 0.000089 35 30-10 0.55 1.1010 2-0 0.000 35 30-10 1 8-0 150 24.931 0.000089 36 30-10 0.55 1.1010 8-0 0.001 36 30-10 1 (See Notes) 43'7V2 150 24.931 4E(5'O) 20-0 0.000089 -0.831 106 32-9 0.55 1.1010 63-7% 0.006 24.106 Total(Pt) Route 23 32 30-10 i (See Notes) I 291A 150 24.929 Route 24 ..... 1(5-0) 6-0 0.000089 33 30-10 0.55 1.1010 0.001 24.930 Total(Pt) Route 24 48 9-7 8.95 1% I 10-8 120 12.715 Route 25 ..... Flow (q) from Route 4 0.009443 51 9-7 10.67 1.4160 10-8 0.101 12.815 Total(Pt) Route 25 47 9-7 10.62 11/4 1 10-0 120 12.554 Route 26 ..... Flow (q) from Route 1 0.006717 44 9-7 8.88 1.4160 10-0 0.067 12.621 Total(Pt) Route 26 46 9-7 19.17 11/4 10-0 120 13.109 Route 27 ..... Flow (q) from Route 7 0.000069 43 9-7 0.75 1.4160 10'-O 0.001 13.110 Total(Pt) Route 27 26 9-7 2564 11/2 (See Notes) 19-3 150 27.242 Route 28 ..... Flow (q) from Route 1 E(7'-O), 1(8-0) 15-0 0.128751 -4.588 27 20-2 75.27 1.5980 34-3 4.410 27.064 Total(Pt) Route 28 © M.E.P.CAD, Inc. AutoSPRINK 2019 05.1.20.0 3 9/14/2020 12:35:45PM Page 16 Job Name: Drawingi Remote Area Number: 3 (Equivalent Pipe Lengths of Valves and Fittings (C=120 only) Actual Inside Diameter 4.87 I \ =Factor Schedule 40 Steel Pipe Inside Diameter J Value Value OfC 100 130 140 Multiplying Factor 0.713 1.16 1.33 Date: 9/14/2020 150 1.51 ALV Alarm Valve AngV Angle Valve b Bushing BalV Ball Valve BFP Backfiow Preventer BV Butterfly Valve C Cross Flow Turn 90° cplg Coupling Cr Cross Run CV Check Valve DelV Deluge Valve DPV Dry Pipe Valve E 90° Elbow EE 45° Elbow Eel 111h° Elbow Ee2 22V2° Elbow f Flow Device fd Flex Drop FDC Fire Department Connection fE 90° FireLock(TM) Elbow fEE 45° FireLock(TM) Elbow fig Flange FN Floating Node fT FireLock(TM) Tee g Gauge GIoV Globe Valve GV Gate Valve Ho Hose Hose Hose HV Hose Valve Hyd Hydrant LtE Long Turn Elbow mecT Mechanical Tee Noz Nozzle P1 Pump In P2 Pump Out PIV Post Indicating Valve P0 Pipe Outlet PrV Pressure Relief Valve PRV Pressure Reducing Valve red Reducer/Adapter S Supply sCV Swing Check Valve SFx Seismic Flex Spr Sprinkler St Strainer T Tee Flow Turn 90° Tr Tee Run U Union WirF Wirsbo WMV Water Meter Valve Z Cap ,©M.E.P.CAD, Inc. AutoSPRINK 2019 05.1.20.0 3 9/14/2020 12:35:45PM Page 17 Hydraulic Calculations for Project Name: Drawingi Location: Drawing Name: 19-0115 VILLAGE WALK FIRE SPRINKLER Design Remote Area Number: 2 Remote Area Location: (AREA 2) UNITS Occupancy Classification: (AREA 2) Residential Density 0.1Ogpm/ft2 Area of Application: 900ft2 (Actual 607ft2) Coverage per Sprinkler: 130ft2 Type of sprinklers calculated: Pendent No. of sprinklers calculated: 8 No. of nozzles calculated: 0 In-rack Demand: N/A gpm at Node: N/A Hose Streams: 100.00 at Node: 1 Type: Total Water Required (including Hose Streams where applicable): From Water Supply at Node 1: 247.55 @ 60.358 Type of System: WET Volume of Dry or PreAction System: N/A Calculation Date: 9/14/2020 Allowance at Source (Safety Margin = 16.043 psi) Name of Contractor: Address: Phone Number: Name of designer: Authority Having Jurisdiction: Notes: Automatic peaking results Left: N/A Right: N/A 1AM.E.P.CAD, Inc. AutoSPRlNK 2019 05.1.20.0 2 9/14/202012:34:40PM Page 1 9500 7600 8550 juu 5700 4750 6650 Flow - gpm ©M.E.P.CAD, Inc. IN AutoSPRINK 2019 05.1.20.0 9/14/2020 12:34:42PM Paqe2 cn 5C in Job Name: Drawingi Remote Area Number: 2 100- EI 2C2C 3C 6( 7c 8( 9( Water Supply Summary Sheet Node: 1 - Available Supply— Static Pressure 76.500 47.55 76.401 147.5560.358 - 247.55 with Hose Allowance at Source 750.00 @ 53.100 System demand curve II IIiHII 111111111 II I III 1111111 II I I I I I I I I I I I I I I I I 111111111 111111111 Hydraulic Graph N 1.85 Date: 9/14/2020 0 4C 0 5C Job Name: Drawing I Remote Area Number: 2 100— 20 30 10 7C 6C 8( IIIIlIIII 0 0950 1900 2850 Summary Sheet -Available. Static 47.55 Pressure Supply— 76.401 76.500 - 147.55 247.55 51.069 with Hose Allowance at Source .750.00 53.100 System demand curve jll 11 1111111 111111111 111111 III I 11111! 1111111 I I I I I I I I I I UU 5700 4750 6650 Flow - gpm Hydraulic Graph N 1.85 7600 8550 Date: 9/14/2020 9500 ,© M.E.P.CAD, Inc. '4 AutoSPRINK 2019 05.1.20.0 9114/2020 12:34:42PM Paqe 3 JSummary Of Outfiowing Devices Job Number: 1 - Device Actual Flow (gpm) Minimum Flow (gpm) K-Factor (K) Pressure (psi) I'cepori uescrlptlon: (AK L/AZ) l<eslaentlal (2) I Density Coverage (gpmpft2) (Foot) Sprinkler 200 19.29 17.00 4.9 15.495 N/A N/A Sprinkler 201 20.11 17.00 4.9 16.838 N/A N/A Sprinkler 202 18.66 17.00 4,9 14.497 N/A N/A Sprinkler 203 19.62 * 17.00 4.9 16.025 N/A N/A Sprinkler 204 18.60 17.00 4.9 14.416 N/A N/A c Sprinkler 205 17.00 17.00 4.9 12.037 N/A N/A Sprinkler 206 • 17.14 * 17.00 4.9 12.240 N/A N/A Sprinkler 207 17.13 17.00 4.9 12.223 N/A N/A Most Demanding Sprinkler Data , © M.E.P.CAD, Inc. AutoSPRlNK 2019 05,1,20.0 9/14/2020 12:34:44PM Page 4 Job Name: Drawing 1 Remote Area Number: 2 Date: 9/14/2020 Supply Analysis Static Residual Flow Available Total Demand Required Pressure Node Name (psi) © (psi) (gpm) © (psi) (gpm) (psi) 1 Water Supply 76.500 53.100 1 4750.00 76.401 247.55 60.358 Node Analysis Node Number Elevation (Foot) Node Type Pressure at Discharge at Notes Node Node (psi) (gpm) 48 9-7 44.085 49 9-7 44.162 50 9-7 44.047 51 9-7 44.013 52 9-7 44.094 53 9-7 43.980 54 9-7 43.940 100 32-9 Sprinkler 14.377 Sprinkler Density: Coverage: 101 32-9 Sprinkler 14.377 Sprinkler Density: Coverage: 102 31-8% Sprinkler 14.829 Sprinkler Density: Coverage: 103 32-9 Sprinkler 14.113 Sprinkler Density: Coverage: 104 31-8% Sprinkler 14.829 Sprinkler Density: Coverage: 105 32-9 Sprinkler 13.917 Sprinkler Density: Coverage: 106 32-9 Sprinkler 13.721 Sprinkler Density: Coverage: 300 9-0 Sprinkler 7.000 Sprinkler Density: Coverage: 301 9-0 Sprinkler 7.000 Sprinkler Density: Coverage: 302 9-0 Sprinkler 7.000 Sprinkler Density: Coverage: 303 9-0 Sprinkler 7.000 Sprinkler Density: Coverage: 304 9-0 Sprinkler 7.000 Sprinkler Density: Coverage: &© M.E.P.CAD, Inc. AutoSPRINK 2019 v15.1.20. 9/14/2020 12:34:46PM Paqe 5 Job Name: Drawing 1 Remote Area Number: 2 Date: 9/14/2020 Node Number Elevation (Foot) Node Type Pressure at Discharge at Notes Node Node (psi) (gpm) 305 9-0 Sprinkler 7.000 Sprinkler Density: Coverage: 306 9-0 Sprinkler 7.000 Sprinkler Density: Coverage: 307 9-0 Sprinkler 7.000 Sprinkler Density: Coverage: 308 9-0 Sprinkler 7.000 Sprinkler Density: Coverage: 309 9-0 Sprinkler 7.000 Sprinkler Density: Coverage: 310 9-0 Sprinkler 7.000 Sprinkler Density: Coverage: 311 9-0 Sprinkler 7.000 Sprinkler Density: Coverage: 312 9-0 Sprinkler 7.000 Sprinkler Density: Coverage: 313 9-0 Sprinkler 7.000 Sprinkler Density: Coverage: 314 9-0 Sprinkler 7.000 Sprinkler Density: Coverage: 315 9-0 Sprinkler 7.000 Sprinkler Density: Coverage: 1 -5-6 Supply 60.358 147.55 200 30-4 Sprinkler 15.495 19.29 Density: N/A Coverage: N/A 201 30-4 Sprinkler 16.838 20.11 Density: N/A Coverage: N/A 202 30-4 Sprinkler 14.497 18.66 Density: N/A Coverage: N/A 203 30-4 Sprinkler 16.025 19.62 Density: N/A Coverage: N/A 204 30-4 Sprinkler 14.416 18.60 Density: N/A Coverage: N/A 205 30-4 Sprinkler 12.037 17.00 Density: N/A Coverage: N/A 206 30-4 Sprinkler 12.240 17.14 Density: N/A Coverage: N/A 207 30-4 Sprinkler 12.223 17.13 Density: N/A Coverage: N/A 2 -5-6 60.354 3 -5'-6 54.467 4 -5-6 54.007 E&,© M.E.P.CAD, Inc. 'AutoSPRlNK 2019 v15.1.20. 9/14/2020 12:34:46PM Paqe 6 Job Name: Drawingi Remote Area Number: 2 Date: 9/14/2020 Node Number Elevation (Foot) Node Type Pressure at Node (psi) Discharge at Node (gpm) Notes 5 15-0 43.025 6 20-2 38.385 7 30-10 15.208 8 30-10 15.208 9 30-10 15.208 10 30-10 15.208 11 30-10 18.155 12 15-0 42.799 13 9-7 46.474 14 9-7 46.005 15 1-0 51.069 16 9-7 44.470 17 9-7 44.501 18 9-7 44.616 19 25-5 36.279 20 9-7 44.980 21 20-2 36.252 22 9-7 43.746 23 9-7 43.613 24 9-7 43.682 25 9-7 44.467 26 9-7 43.448 27 20-2 35.684 i&© M.E.P.CAD, Inc. AutoSPRINK 2019 v15.1.20. 9/14/2020 12:34:46PM Paqe 7 Job Name: Drawingi Remote Area Number: 2 Date: 9/14/2020 Node Number Elevation (Foot) Node Type Pressure at Node (psi) Discharge at Node (gpm) Notes 28 30-10 18.339 29 30-10 15.628 30 30-10 18.195 31 30-10 16.170 32 30-10 18.160 33 30-10 14.609 34 30-10 12.443 35 30-10 12.304 36 30-10 12.287 37 25-5 37.381 38 25-5 37.316 39 9-7 44.392 40 9-7 44.353 41 9-7 44.234 42 9-7 44.218 43 9-7 44.291 44 9-7 44.173 45 9-7 44.151 46 9-7 44.228 47 9-7 44.112 L&© M.E.P.CAD, Inc. AutoSPRINK 2019 05.1.20. 9/14/2020 12:34:46PM Pacie 8 Job Name: Drawinqi Remote Area Number: 2 Date: 9/14/2020 Pipe Information Node 1 Elev i (Foot) K-Factor Flow added this step (q) Nominal ID Fittings & Devices Equiv. Length (Foot) Length (Foot) C Factor Total(Pt) Notes Fitting/Device (Equivalent Length) Fixed Pressure Losses, when applicable, are added directly to (PO and shown as n9Ja*i9 .pI.rn Fitting (Foot) Pf Friction Loss Per Unit (psi) Elev(Pe) Node 2 Elev 2 (Foot) Total Flow (Q) Actual ID Total (Foot) Friction(Pf) 205 30-4 4.9 17.00 1 (See Notes) Z-41/2 150 12.037 Route I ..... Sprinkler, E(5'-0), 1(5-0) 10-0 0.050373 -0.217 34 30-10 17.00 1.1010 12 41/2 0.623 34 30-10 20.19 1 10-1% 150 12.443 Flow (q) from Route 2 0.214323 33 30-10 37.19 1.1010 10-1% 2.166 33 30-10 18.66 1 (See Notes) 2-9% 150 14.609 Flow (q) from Route 5 T(5'-O) 0.454726 32 30-10 55.84 1.1010 3.551 32 30-10 19.11 11/2 (See Notes) 63'0 150 18.160 Flow (q) from Route 14 3T(8'-O), 2E(7'-O) 38-0 0.127720 4.624 27 20-2 74.95 1.5980 101-0 12.900 27 20-2 11/2 (See Notes) 19-3 150 35.684 E(7-0), T(8-0) 15-0 0.092718 4.588 26 9-7 63.03 1.5980 34-3 3.176 26 9'7 11/2 4-6 120 43.448 0.066333 22 9-7 45.78 1.6500 4-6 0.298 22 9-7 11/2 (See Notes) 6'101/2 120 43.746 0(9'0) 9-0 0.045330 25 9-7 37.26 1.6500 15-10% 0.720 25 9-7 21/2 126-2% 120 44.467 0.004067 20 9-7 37.26 2.7070 126-21/2 0.513 20 9-7 25.77 21/2 (See Notes) 16'5 120 44.980 Flow (q) from Route 17 3fE(6'-8%) 20-2 0.010756 -2.348 5 15-0 63.03 2.7070 36-7 0.393 5 15-0 13.64 21/2 (See Notes) 14'O% 120 43.025 Flow (q) from Route 9 4fE(6'-8%) 26-10% 0.015453 2.348 14 9-7 76.67 2.7070 40-11 0.632 14 9-7 70.87 21/2 (See Notes) 1'21/2 120 46.005 Flow (q) from Route 4 fE(7'-10) 7-10 0.051874 13 9-7 147.55 2.7070 9-0 1/2 0.469 , ©M.E.P.CAD, Inc. AutoSPRINK 2019 05.1.20.0 2 9/14/2020 12:34:49PM Page 9 Job Name: Drawing 1 Remote Area Number: 2 Date: 9/14/2020 Pipe Information Node I Elev I (Foot) K-Factor Flow added this step (q) Nominal ID Fittings & Devices Equiv. Length (Foot) Length (Foot) C Factor Total(Pt)Pt) Notes Fitting/Device (Equivalent Length) Fixed Pressure Losses, when applicable, are added directly to (Pf) and shown as a Fitting (Foot) Pt Friction Loss Per Unit (psi) Elev(Pe) Node 2 Elev 2 (Foot) Total Flow (Q) Actual ID Total (Foot) ________________ Friction(Pf) 13 9-7 3 (See Notes) 7'3 120 46.474 CV(23'-41/.), f(-0.000), BV(14-7 B.O.R 3T-11Y2 0.019310 3.721 15 1-0 147.55 3.3160 45-3 0.873 15 1-0 4 (See Notes) 12-0 150 51.069 E(19-10%) 19-10% 0.003773 2.818 4 -5-6 147.55 4.2600 31'-101/2 0.120 4 -5-6 4 (See Notes) 50'5 150 54.007 48-4 3E(16-1%) 0.004655 3 -5-6 147.55 4.0800 98-9 0.460 3 -5-6 4 (See Notes) 38'2 140 54.467 2T(33'-51A), BFP(-5.280), LtE( 1001/2), E(16-81/2), GV(3'-4) 97-0 0.004488 2 -5-6 147.55 4.2200 135-2% 5.887 2 -5-6 12 (See Notes) 4591/2 150 60.354 5, T(69'-7%) 69-7% 0.000032 1 -5-6 147.55 11.3100 115-5 0.004 100.00 60.358 Hose Allowance At Source Total(Pt) Route 1 1 247.55 207 30-4 4.9 17.13 1 (See Notes) 0-6 150 12.223 Route 2 ..... Sprinkler, 1(5-0) 0.281 5-0 0.051094 -0.217 36 30-10 17.13 1.1010 5-6 36 30-10 1 8-0 150 12.287 0.002090 35 30-10 3.04 1.1010 8-0 0.017 35 30-10 17.14 1 2-0 150 12.304 Flow (q) from Route 3 0.069217 34 30-10 20.19 1.1010 2-0 0.138 12.443 Total(Pt) Route 2 206 30-4 4.9 17.14 i (See Notes) 0-6 150 12.240 Route 3 ..... Sprinkler, 1(5-0) 5-0 0.051158 -0.217 35 J 30-10 17.14 1.1010 5-6 0.281 12.304 Total(Pt) Route 3 ,.© M.E.P.CAD, Inc. AutoSPRINK 2019 05.1.20.0 2 9/14/2020 12:34:49PM Page 10 Job Name: Drawinqi Remote Area Number: 2 Date: 9/14/2020 Pipe Information Elev i Flow added Fittings & Length C Factor Total(Pt) Notes Node I (Foot) K-Factor this step Nominal ID Devices (Foot) Fitting/Device (Equivalent Fitting (Foot) Pf Friction Elev(Pe) (q) Equiv. Length) Fixed Pressure Losses, Elev 2 Total Flow Loss Per Unit when applicable, are added Total Friction(Pf) Node 2 (Foot) (Q) Actual ID Length (Foot) (psi) directly to (Pf) and shown as (Foot) 204 30-4 4.9 18.60 i (See 14-0 150 14.416 Route ..... Sprinkler, 10-0 -0.217 Notes) 29 30-10 18.60 1.1010 0.059519 2E(5'-O) 24-0 1.429 29 30-10 19.29 i (See 7-21/2 150 15.628 Flow (q) from Route 6 5-0 Notes) 28 30-10 37.89 1.1010 0.221914 1(5-0) 12-2% 2.711 28 30-10 34.70 11/2 (See 9441/2 150 18.339 Flow (q) from Route 7 16-0 4.624 Notes) 21 20-2 72.60 1.5980 0.120407 21(8-0) 110-4% 13.288 21 20-2 11.91 11/2 (See 541/2 150 36.252 Flow (q) from Route 30 8-0 Notes) 6 20-2 84.51 1.5980 0.159493 C(8'-O) 13-4% 2.133 6 20-2 1% (See 11-4 150 38.385 15-0 4.588 Notes) 14 9-7 70.87 1.5980 0.115174 E(7'-O), P0(8-0) 26-4 3.032 46.005 Total(Pt) Route 4 202 30-4 4.9 18.66 i (See J 0-6 150 14.497 Route 5 ..... Sprinkler, r 5'0 -0.217 Notes) 33 30-10 18.66 1.1010 0.059827 1(5-0) I 5-6 0.329 14.609 Total(Pt) Route 5 200 30-4 4.9 19.29 i (See 0-6 150 15.495 Route 6 ..... Sprinkler, 5-0 -0.217 Notes) 29 30-10 19.29 1.1010 0.063627 1(5-0) 5'-6 0.350 15.628 Total(Pt) Route 6 203 30-4 4.9 19.62 1 (See 0-6 150 16.025 Route 7 ..... Sprinkler, 5-0 -0217 Notes) 31 30-10 19.62 1.1010 0.065641 1(5-0) 5-6 0.361 31 30-10 14.09 1 (See 6-1% 150 16.170 Flow (q) from Route 12 5-0 Notes) 11 30-10 33.70 1.1010 0.178673 1(5-0) 11-1% 1.985 11 30-10 1% 6-5 150 18.155 0.006193 30 30-10 14.60 1.5980 6-5 0.040 © M,E.P.CAD, Inc. AutOSPRINK2O19 v15.1.20.0 2 9/14/2020 12:34:49PM Page 11 Job Name: Drawingi Remote Area Number: 2 Date: 9/14/2020 Pipe Information Node I Elev I (Foot) K-Factor Flow added this step (q) Nominal ID Fittings & Devices Equiv. Length (Foot) Length (Foot) C Factor Total(Pt) Notes Fitting/Device (Equivalent Length) Fixed Pressure Losses, w hen applicable, are added directly to (Pt) and shown as Fitting (Foot) Pf Friction Loss Per Unit (psi) Elev(Pe) Node 2 Elev 2 (Foot) Total Flow (Q) Actual ID Total (Foot) ________________ Friction(Pf) 30 30-10 20.11 11/2 4-81/2 1 150 18.195 epative Flow (q) from Route 8 0.030737 28 30-10 34.70 1.5980 4-8% 0.144 18.339 Total(Pt) Route 7 201 304 4.9 20.11 1 (See Notes) 7-10% 150 16.838 Route 8 ..... Sprinkler, 2E(5-0), 1(5-0) 15-0 0.068716 -0.217 30 30-10 20.11 1.1010 22-10% 1.573 18.195 Total(Pt) Route 8 37 25'-5 11.75+1.88 1 (See Notes) 16-111/2 150 37.381 Route 9 ..... Flow (q) from Route 10 and 11 E(5-0), T(5-0) 10-0 0.033503 4.516 12 15-0 13.64 1.1010 26-11% 0.903 12 15-0 11/2 (See Notes) 26-4 150 42.799 E(T-0), P0(8-0) 15-0 0.005460 5 15-0 13.64 1.5980 41-4 0.226 43.025 Total(Pt) Route 9 38 25-5 13.64 1 2-7 150 37.316 Route 10 ..... Flow (q) from Route 16 0.025451 37 25-5 11.75 1.1010 2-7 0.065 37.381 Total(Pt) Route 10 38 25-5 13.64 1 (See Notes) 51-0 150 37.316 Route 11 ..... 1(5-0), Flow (q) from Route 16 2E(5-0), 2T(5-0) 25-0 0.000860 _______________ 37 25-5 1.88 1.1010 76-0 0.065 37.381 Total(Pt) Route 11 103 32-9 4.2 14.09 1 (See Notes) 2-5 150 14.113 Route 12 ..... Flow (q) from Route 13 T(5-0) 5-0 0.035582 0.831 10 30-10 14.09 1.1010 7-5 0.264 10 30-10 1 (See Notes) 17'0 150 15.208 21(5-0) 101-0 0.035582 31 30-10 14.09 1.1010 27-0 0.961 16.170 Total(Pt) Route 12 106 32-9 4.2 1 56 150 13.721 Route 13 ..... 0.035582 105 32-9 14.09 1.1010 5-6 0.196 ,,© M.E.P.CAD, Inc. AutoSPRINK 2019 v15.1.20.0 . 2 9/14/2020 12:34:49PM Page 12 Job Name: Drawinqi Remote Area Number: 2 Date: 9/14/2020 Pipe Information Node 1 Elev 1 (Foot) K-Factor Flow added this step (q) Nominal ID Fittings & Devices Equiv. Length (Foot) Length (Foot) C Factor Total(Pt) Notes Fitting/Device (Equivalent Length) Fixed Pressure Losses, when applicable, are added directly to (Pf) and shown as Fitting (Foot) ___________ P1 Friction Loss Per Unit (psi) Elev(Pe) Node 2 Elev 2 (Foot) Total Flow (Q) Actual ID Total (Foot) ________________ Friction(Pf) 105 32-9 4.2 1 5-6 150 13.917 0.035582 103 32-9 14.09 1.1010 5-6 0.196 14.113 Total(Pt) Route 13 11 30-10 14.60 11/2 0-6 150 18.155 Route 14..... Flow (q) from Route; 0.010188 32 30'-10 19.11 1.5980 1 0-6 0.005 18.160 Total(Pt) Route 14 36 30-10 304 1 (See Notes) 4371 150 12.287 Route 15 ..... Flow (q) from Route 2 4E(5-0) 20-0 0.035582 -0.831 106 32-9 14.09 1.1010 6371/2 2.264 13.721 Total(Pt) Route 15 6 20-2 11/2 (See Notes) 9-2% 150 38.385 Route 16 ..... C(8-0) 2E(7'-O) 22-0 0.005460 -2.276 19 25-5 13.64 1.5980 3121/2 0.170 19 25-5 1 (See Notes) 20-11 150 36.279 2E(5'-O) 10-0 0.033503 38 25-5 13.64 1.1010 30-11 1.036 37.316 Total(Pt) Route 16 18 9-7 17.26 +8.51 11/2 (See Notes) 6'-10V2 120 44.616 Route 17 ..... Flow (q) from Route 18 and 21 P0(90) 9-0 0.022912 20 9-7 25.77 1.6500 15-10% ____________ 0.364 44.980 Total(Pt) Route 17 16 9-7 8.41 11/2 10-7 120 44.470 Route 18 ..... Flow (q) from Route 19 0.002886 17 9-7 8.41 1.6500 10-7 0.031 17 9-7 8.85 10-7 120 44.501 Flow (q) from Route 20 0.010910 18 9-7 17.26 1.6500 10-7 0.115 44.616 Total(Pt) Route 18 41 9-7 841 11/4 (See Notes) 35-6 120 44.234 Route 19 ..... Flow (q) from Route 22 E(3'-5) 0.006078 16 9-7 8.41 1.4160 38-11 0.237 , © M.E.P.CAD, Inc. AutoSPRINK 2019 v15.1.20.0 2 9/14/2020 12:34:49PM Page 13 Job Name: Drawinql Remote Area Number: 2 Date: 9/14/2020 Pipe Information Node I Elev I (Foot) K-Factor Flow added this step (q) Nominal ID Fittings & Devices Equiv. Length (Foot) Length (Foot) C Factor Total(Pt) Notes Fitting/Device (Equivalent Length) Fixed Pressure Losses, when applicable, are added directly to (PQ and shown as Fitting (Foot) Pf Friction Loss Per Unit (psi) Elev(Pe) Node 2 Elev 2 (Foot) Total Flow (Q) Actual ID Total (Foot) ________________ Friction(Pf) 44.470 a ago-tiXte "'ue. Total(Pt) Route 19 48 9-7 8.85 1¼ 10-0 120 44.085 Route 20 ..... Flow (q) from Route 23 0.006675 45 9-7 8.85 1.4160 10-0 0.067 45 9-7 iv4 10,-0 120 44.151 0.006675 42 9-7 8.85 1.4160 10,-U 0.067 42 9-7 1¼ (See Notes) 35'6 120 44.218 1(6 -9%) 6-9% 0.006675 17 9-7 8.85 1.4160 42'-4 0.282 44.501 Total(Pt) Route 20 40 9-7 8.51 1Y4 6'-4 120 44.353 Route 21 ..... Flow (q) from Route 24 0.006220 39 9-7 8.51 1.4160 6'-4 0.039 39 9-7 11/4 (See Notes) 292 120 44.392 T(6'-91/,) 6-9% 0.006220 18 9-7 8.51 1.4160 36-0 0.224 44.616 Total(Pt) Route 21 47 9-7 841 11/4 101-0 120 44.112 Route 22 ..... Flow (q) from Route 25 0.006078 44 9-7 8.41 1.4160 101-0 0.061 44 9-7 1¼ 10,-0 120 44.173 0.006078 41 9-7 8.41 1.4160 10,-U 0.061 44.234 Total(Pt) Route 22 54 9-7 885 1¼ 111-0 120 43.940 Route 23 ..... Flow (q) from Route 27 0.006675 51 9-7 8.85 1.4160 11,-U 0.073 51 9-7 11/4 10-8 120 44.013 0.006675 48 9-7 8.85 1.4160 10-8 0.071 44.085 Total(Pt) Route 23 IM,©M.E.P.CAD, Inc. 3AutoSPRINK2019v15.120.0 2 9/14/2020 12:34:49PM Page 14 Job Name: Drawing 1 Remote Area Number: 2 Date: 9/14/2020 Pipe Information Node I Elev i (Foot) K-Factor Flow added this step (q) Nominal ID Fittings & Devices Equiv. Length (Foot) Length (Foot) C Factor Total(Pt) Notes Fitting/Device (Equivalent Length) Fixed Pressure Losses, when applicable, are added directly to (Pf) and shown as Fitting (Foot) Pt Friction Loss Per Unit (psi) Elev(Pe) Node 2 Elev 2 (Foot) Total Flow (Q) Actual ID Total (Foot) ________________ Friction(Pf) 46 9-7 8.51 ,' 1 1/4 10-0 120 44.228 np.fjs9 "glue. Route 24 ..... Flow (q) from Route 26 0.006220 43 9-7 8.51 1.4160 101-0 0.062 43 9-7 1y4 10-0 120 44.291 0.006220 40 9-7 8.51 1.4160 10,-U 0.062 44.353 Total(Pt) Route 24 53 9-7 841 11/4 111-0 120 43.980 Route 25 ..... Flow (q) from Route 28 0.006078 50 9-7 8.41 1.4160 11-0 0.067 50 9-7 11,'4 10-8 120 44.047 0.006078 47 9-7 8.41 1.4160 10-8 0.065 44.112 Total(Pt) Route 25 52 9-7 851 1¼ 11-0 120 44.094 Route 26 ..... Flow (q) from Route 29 0.006220 49 9-7 8.51 1.4160 11,-U 0.068 49 9-7 10-8 120 44.162 0.006220 46 9-7 8.51 1.4160 10-8 0.066 44.228 Total(Pt) Route 26 23 9-7 1726 1¼ 49-0 120 43.613 Route 27 ..... Flow (q) from Route 31 0.006675 54 9-7 8.85 1.4160 49-0 0.327 43.940 Total(Pt) Route 27 23 9-7 1726 11/2 (See Notes) 10-7 120 43.613 Route 28 ..... T(9'-U), Flow (q) from Route 31 E(4'-6) 1361/2 0.002886 _______________ 24 9-7 8.41 1.6500 ___ 24-1 0.070 24 9-7 1¼ 49'-0 120 43.682 0.006078 53 9-7 8.41 1.4160 49'-U 0.298 43.980 Total(Pt) Route 28 ,, © M.E.P.CAD, Inc. AutoSPRINK 2019 v15.1 .20.0 2 9/14/2020 12:34:49PM Page 15 Job Name: Drawinqi Remote Area Number: 2 Date: 9/14/2020 Pipe Information Node 1 Elev 1 (Foot) K-Factor Flow added this step (q) Nominal ID Fittings & Devices Equiv. Length (Foot) Length (Foot) ___________ C Factor Total(Pt) Notes Fitting/Device (Equivalent Length) Fixed Pressure Losses, when applicable, are added directly to (Pt) and shown as Fitting (Foot) Pf Friction Loss Per Unit (psi) Elev(Pe) Node 2 Elev 2 (Foot) Total Flow (Q) Actual ID Total (Foot) __________________ Friction(Pf) 22 9-7 1 (See Notes) 49'0 120 43.746 n9gatiy "Ifl Route 29 ..... T(6-91%) 691/2 0.006220 52 9-7 8.51 1.4160 55-10 0.347 44.094 Total(Pt) Route 29 27 20-2 11/2 (See Notes) 12561/2 150 35.684 Route 30 ..... 1(8-0) 8-0 0.004253 21 20-2 11.91 1.5980 133-6% 0.568 36.252 Total(Pt) Route 30 26 9-7 45.78 11/2 (See Notes) 6'l 120 43.448 Route 31 ..... Flow (q) from Route 1 1(9-0) 91 0 0.010910 23 9-7 17.26 1.6500 15-1 0.165 43.613 Total(Pt) Route 31 © M.E.P.CAD, Inc. AutoSPRINK 2019 v15.1.20.0 2 9/14/2020 12:34:49PM Page 16 Job Name: Drawing 1 Remote Area Number: 2 Equivalent Pipe Lengths of Valves and Fittings (C120 Only) Actual Inside Diameter 4.87 I = Factor Schedule 40 Steel Pipe Inside Diameter J Value Multiplier Value Of C Multiplying Factor 100 130 140 0.713 1.16 1.33 Date: 9/14/2020 150 1.51 ALV Alarm Valve AngV Angle Valve b Bushing BalV Ball Valve BFP Backflow Preventer BV Butterfly Valve C Cross Flow Turn 90° cplg Coupling Cr Cross Run CV Check Valve DelV Deluge Valve DPV Dry Pipe Valve E 90° Elbow EE 45° Elbow Eel 11W Elbow Ee2 22V2° Elbow f Flow Device fd Flex Drop FDC Fire Department Connection fE 90° FireLock(TM) Elbow fEE 45° FireLock(TM) Elbow fig Flange FN Floating Node fT FireLock(TM) Tee g Gauge GloV Globe Valve GV Gate Valve Ho Hose Hose Hose HV Hose Valve Hyd Hydrant LtE Long Turn Elbow mecT Mechanical Tee Noz Nozzle P1 Pump In P2 Pump Out PIV Post Indicating Valve P0 Pipe Outlet PrV Pressure Relief Valve PRV Pressure Reducing Valve red Reducer/Adapter S Supply sCV Swing Check Valve SFx Seismic Flex Spr Sprinkler St Strainer I Tee Flow Turn 90° Tr Tee Run U Union WirF \Mrsbo WMV Water Meter Valve Z Cap ,©M.E.P.CAD, Inc. AutoSPRINK2019v15.1.20.0 2 9/14/2020 12:34:49PM Page 17 Hydraulic Calculations for Project Name: Drawing 1l Location: Drawing Name: 19-0115—VILLAGE WALK—FIRE SPRINKLER Design Remote Area Number: 1 Remote Area Location: ATTIC Occupancy Classification: (AREA 1) Light Hazard Density 0.1ogpm/ft2 Area of Application: 1500ft2 (Actual 179ft2) Coverage per Sprinkler: 130ft2 Type of sprinklers calculated: Upright No. of sprinklers calculated: 7 No. of nozzles calculated: 0 In-rack Demand: N/Agpm at Node: N/A Hose Streams: 100.00 at Node: 1 Type: Total Water Required (including Hose Streams where applicable): From Water Supply at Node 1: 203.56 @68.265 Type of System: WET Volume of Dry or PreAction System: N/A Calculation Date: 9/14/2020 Allowance at Source (Safety Margin = 8.166 psi) Name of Contractor: Address: Phone Number: Name of designer: Authority Having Jurisdiction: Notes: Automatic peaking results Left: 64.909 Right: N/A M.E.P.CAD, Inc. AutoSPRINK 2019 05.1.20.0 1 9/14/202012:34:1OPM Page 1 I!ISII_;M,] 7600 8550 jo'ju Ioo 4750 6650 Flow - gpm (A,©M.E.P.CAD, Inc. AutoSPRlNK2019v15.1.20.0 9/14/2020 12:34:12PM Page 2 Q. 4C U) 0 5C Job Name: Drawirigi Remote Area Number: 1 100 KS CTI i's 7c 6C [II 8C Water Supply I Summary Sheet Node: I Available Supply— Static Pressure 76.500 03.6.431 103.56 T 68.265- 203.56 with Hose Allowance at - Source 1750.00 @ 53.100 System demand curve J U••IIIIIIIII 111111111 lIIIIIII 111111111 II 111111 111111111 I III II I I I I I Hydraulic Graph N 1.85 Date: 9/14/2020 9500 7600 8550 3500 5700 4750 6650 Flow - gpm ,©M.E.P.CAD, Inc.' AutoSPRlNK2019v15.1.20.0 9/14/2020 12:34:12PM Page 3 cn 0 5C Job Name: Drawing 1 Remote Area Number: 1 100- 30 10 7C 6C SC 9C Summary Sheet —Available Supply— Static Pressure 76.500 03.56 76.431 - 103.56 T 59.1 49 ________ __________ 203.56 with Hose Allowance at Source 750.00 @ 53.100 - Stem demand cue ._511.LLLLLLIIIIIIII IllIltIll IIIIIIII 111111111 liii III 1111111 I liii I I I I I I I Hydraulic Graph N 1.85 Date: 9/14/2020 IRjsummary Of Outfiowing Devices Job Number: 1 Device Actual Flow (gpm) Minimum Flow (gpm) K-Factor I (K) rceport uescrlptlOfl: y\rt/ 1) Llgfli iiazara (1) Pressure : Density Coverage (psi) (gpmpft2) (Foot) ' Sprinkler 100 : 13.00 : 13.00 4.2 9.580 N/A N/A Sprinkler 101 13.00 13.00 4.2 9.588 N/A N/A Sprinkler 102 16.42 14.82 5.6 8.600 N/A p N/A Sprinkler 103 14.70 13.00 4.2 12.258 N/A N/A Sprinkler 104 16.58 14.82 5.6 8.769 N/A N/A Sprinkler 105 14.76 13.00 4.2 12.353 N/A N/A Sprinkler 106 15.08 13.00 4.2 12.892 N/A N/A Most Demanding Sprinkler Data , © M.E.P.CAD, Inc. t AutoSPRINK 2019 05.1.20.0 9/14/2020 12:34:14PM Page 4 Job Name: Drawingi Remote Area Number: 1 Date: 9/14/2020 Supply Analysis Node Name Static (psi) Residual Flow F (psi) (gpm) Available Total Demand (psi) (gpm) Required Pressure (psi) 1 Water Supply 76.500 53.100 1 4750.00 76.431 203.56 68.265 Node Analysis Node Number Elevation (Foot) Node Type Pressure at Node (psi) Discharge at Node (gpm) Notes 1 -5-6 Supply 68.265 103.56 100 32-9 Sprinkler 9.580 13.00 Density: N/A Coverage: N/A 101 32-9 Sprinkler 9.588 13.00 Density: N/A Coverage: N/A 102 31-8% Sprinkler 8.600 16.42 Density: N/A Coverage: N/A 103 32-9 Sprinkler 12.258 14.70 Density: N/A Coverage: N/A 104 3181/2 Sprinkler 8.769 16.58 Density: N/A Coverage: N/A 105 32-9 Sprinkler 12.353 14.76 Density: N/A Coverage: N/A 106 32-9 Sprinkler 12.892 15.08 Density: N/A Coverage: N/A 2 -5-6 68.263 3 -5-6 62.268 4 -5-6 62.029 5 15-0 52.051 6 20-2 48.579 7 30-10 10.724 8 30-10 10.972 9 30-10 9.776 10 30-10 13.130 11 30-10 35.549 12 15-0 51.936 1,,© M.E.P.CAD, Inc. AutoSPRINK 2019 05.1.20. 9/14/2020 12:34:16PM Paqe 5 Job Name: Drawingi Remote Area Number: 1 Date: 9/14/2020 Node Number Elevation (Foot) Node Type Pressure at Node (psi) Discharge at Node (gpm) Notes 13 9-7 54.974 14 9-7 54.730 15 1-0 59.149 16 9-7 53.925 17 9-7 53.941 18 9-7 54.002 19 25-5 46.391 20 9-7 54.193 21 20-2 47.481 22 9-7 53.545 23 9-7 53.475 24 9-7 53.511 25 9'-7 53.923 26 9-7 53.388 27 20-2 47.131 28 30-10 36.219 30 30-10 35.936 31 30-10 29.016 32 30-10 35.552 33 30-10 33.690 34 30-10 31.280 35 30-10 30.803 36 30-10 28.895 ,© M.E.P.CAD, Inc. AutoSPRINK 2019 v15.1.20. 9/14/2020 12:34:16PM Page 6 Job Name: Drawng1 Remote Area Number: 1 Date: 9/14/2020 Node Number Elevation (Foot) Node Type Pressure at Node (psi) Discharge at Node (gpm) Notes 37 25-5 46.956 38 25-5 46.923 39 9-7 53.884 40 9-7 53.864 41 9-7 53.801 42 9-7 53.793 43 9-7 53.831 44 9-7 53.769 45 9-7 53.758 46 9-7 53.798 47 9-7 53.737 48 9-7 53.723 49 9-7 53.763 50 9-7 53.703 51 9-7 53.685 52 9-7 53.727 53 9-7 53.668 54 9-7 53.647 200 30-4 Sprinkler 7.000 Sprinkler Density: Coverage: 201 30-4 Sprinkler 7.000 Sprinkler Density: Coverage: 202 30-4 Sprinkler 7.000 Sprinkler Density: Coverage: 203 30-4 Sprinkler 7.000 Sprinkler Density: Coverage: 204 30-4 Sprinkler 7.000 Sprinkler Density: Coverage: (,© M.E.P.CAD, Inc. AutoSPRlNK 2019 v15.1.20. 9/14/2020 12:34:16PM Paqe 7 Job Name: Drawing I Remote Area Number: 1 Date: 9/14/2020 Node Number Elevation (Foot) Node Type Pressure at Discharge at Notes Node Node (psi) (gpm) 205 30-4 Sprinkler 7.000 Sprinkler Density: Coverage: 206 30-4 Sprinkler 7.000 Sprinkler Density: Coverage: 207 30-4 Sprinkler 7.000 Sprinkler Density: Coverage: 300 9-0 Sprinkler 7.000 Sprinkler Density: Coverage: 301 9-0 Sprinkler 7.000 Sprinkler Density: Coverage: 302 9-0 Sprinkler 7.000 Sprinkler Density: Coverage: 303 9-0 Sprinkler 7.000 Sprinkler Density: Coverage: 304 9-0 Sprinkler 7.000 Sprinkler Density: Coverage: 305 9-0 Sprinkler 7.000 Sprinkler Density: Coverage: 306 9-0 Sprinkler 7.000 Sprinkler Density: Coverage: 307 9-0 Sprinkler 7.000 Sprinkler Density: Coverage: 308 9-0 Sprinkler 7.000 Sprinkler Density: Coverage: 309 9-0 Sprinkler 7.000 Sprinkler Density: Coverage: 310 9-0 Sprinkler 7.000 Sprinkler Density: Coverage: 311 9-0 Sprinkler 7.000 Sprinkler Density: Coverage: 312 9-0 Sprinkler 7.000 Sprinkler Density: Coverage: 313 9-0 Sprinkler 7.000 Sprinkler Density: Coverage: 314 9-0 Sprinkler 7.000 Sprinkler Density: Coverage: ,© M.E.P.CAD, Inc. AutoSPRlNK 2019 v15.1.20. 9/14/2020 12:34:16PM Paqe 8 Job Name: Drawingi Remote Area Number: 1 Date: 9/14/2020 Pipe Information Node 1 Elev 1 (Foot) K-Factor Flow added this step (q) Nominal ID Fittings & Devices Equiv. Length (Foot) Length (Foot) C Factor Total(Pt) Notes Fitting/Device (Equivalent Length) Fixed Pressure Losses, when applicable, are added directly to (PU and shown as Fitting (Foot) Pt Friction Loss Per Unit (psi) Elev(Pe) Node 2 Elev 2 (Foot) Total Flow (Q) Actual ID Total (Foot) __________________ Friction(Pf) 100 32-9 4.2 13.00 1 (See Notes) 6-0 150 9.580 Ifl9 Route I Sprinkler 0.001176 101 32-9 2.23 1.1010 6-0 0.007 101 32-9 4.2 13.00 1 (See Notes) 2'5 150 9.588 Sprinkler, T(5'-O) 5-0 0.041129 0.831 7 30-10 15.24 1.1010 7-5 0.305 7 30-10 10.77 1 2-3 150 10.724 Flow (q) from Route 2 0.110590 8 30-10 26.00 1.1010 2-3 0.249 8 30-10 33.00 1 4-31/2 150 10.972 Flow (q) from Route 3 0.503586 10 30-10 59.01 1.1010 4-3% 2.158 10 30-10 5.15 1 (See Notes) 17-0 150 13.130 Flow (q) from Route 5 21(5-0) 0.587963 31 30-10 64.16 1.1010 27-0 15.886 31 30-10 1 (See Notes) 61% 150 29.016 1(5-0) 6-0 0.587963 11 30-10 64.16 1.1010 11-1% 6.533 11 30-10 11/2 6-5 150 35.549 0.060144 30 30-10 49.88 1.5980 6-5 0.387 30 30-10 11/2 4-8% 150 35.936 0.060144 28 30-10 49.88 1.5980 4-8% 0.283 28 30-10 11/2 (See Notes) 94-41/2 150 36.219 21(8-0) 16-0 0.060144 4.624 21 20-2 49.88 1.5980 11041/2 6.638 21 20-2 9.16 11/2 (See Notes) 150 47.481 Flow (q) from Route 25 C(8-0) 8-0 0.082154 6 20-2 59.04 1.5980 1341/2 1.099 6 20-2 11/2 (See Notes) 11'4 150 48.579 E(7'-O), P0(8-0) 15-0 0.059364 4.588 14 9-7 49.53 1.5980 26-4 1.563 ,,© M.E.P.CAD, Inc. AutoSPRINK 2019 v15.1.20.0 1 9/14/2020 12:34:19PM Page 9 Job Name: Drawinqi Remote Area Number: 1 Date: 9/14/2020 Pipe Information Node I Elev I (Foot) K-Factor Flow added this step (q) Nominal ID Fittings & Devices Equiv. Length (Foot) Length (Foot) C Factor ___________ Total(Pt) Notes Fitting/Device (Equivalent Length) Fixed Pressure Losses, when applicable, are added directly to (PU and shown as n905ti"9 "al Fitting (Foot) Pf Friction (psi) Loss Per Unit Elev(Pe) Node 2 Elev 2 (Foot) Total Flow (Q) Actual ID Total (Foot) Friction(Pf) 14 9-7 54.02 2% (See Notes) 121/z 120 54.730 Flow (q) from Route 6 IE(7'-10) 7-10 0.026947 13 9-7 103.56 2.7070 901/2 0.243 13 9-7 3 (See Notes) '3 120 54.974 CV(23'-4Y2), f(-0.000), BV(14-7 B.O.R 37-11 % 0.010031 3.721 15 1-0 103.56 3.3160 45-3 0.454 15 1-0 4 (See Notes) 12'0 150 59.149 E(19-101/2) 19'- 101/2 0.001960 2.818 4 -5-6 103.56 4.2600 31-bY2 0.062 4 -5-6 4 (See Notes) 50'5 150 62.029 3E(1611/2) 48-4 0.002418 3 -5-6 103.56 4.0800 98-9 0.239 3 -5-6 4 (See Notes) 38'2 140 62.268 21(33-5%), BFP(-5.680), LtE( 10-0%), E(16-81/2), GV(3'-4) 97-0 0.002331 2 -5-6 103.56 4.2200 13521/2 5.995 2 -6-6 12 (See Notes) 45'9% 150 68.263 5, T(69'-71/2) 69-7% 0.000017 1 -5-6 103.56 11.3100 115-5 0.002 100.00 68.265 Hose Allowance At Source Total(Pt) Route 1 1 203.56 100 32-9 4.2 13.00 1 (See Notes) 9-5 150 9.580 Route ..... Sprinkler, E(5'-O) 5-0 0.021648 0.831 7 30-10 10.77 1.1010 14-5 0.312 10.724 Total(Pt) Route 2 102 31-8% 5.6 16.42 1 (See Notes) 1'101/2 150 8.600 Route 3 ..... 2T(5'-O), E(5-0) 15-0 0.047252 0.379 9 30-10 16.42 1.1010 16-10% 0.796 9 30-10 16.58 1 (See Notes) 1'111/2 150 9.776 Flow (q) from Route 4 C(5'-O) s-o 0.171884 8 30-10 33.00 1.1010 6-11% 1.196 10.972 Total(Pt) Route 3 Inc. AutoSPRINK2O19v15.1.20.O 1 9/14/2020 12:34:19PM Page 10 Job Name: Drawinqi Remote Area Number: 1 Date: 9/14/2020 Pipe Information Node I Elev 1 (Foot) K-Factor Flow added this step (q) Nominal ID Fittings & Devices Equiv. Length (Foot) Length (Foot) C Factor Total(Pt) Notes Fitting/Device (Equivalent Length) Fixed Pressure Losses, when applicable, are added directly to (Pt) and shown as "jativ p1n5 Fitting (Foot) Pt Friction Loss Per Unit (psi) Elev(Pe) Node 2 Elev 2 (Foot) Total Flow (0) Actual ID __ ________ Total (Foot) Friction(Pf) 104 31-8% 5.6 16.58 i (See Notes) 3'-01h 150 8.769 Route 4 1(5-0), E(5'-O) 10-0 0.048109 0.379 9 30-10 16.58 1.1010 13-0% 0.628 9.776 Total(Pt) Route 4 103 32'-9 4.2 14.70 1 (See ] Notes) I 2-5 150 12.258 Route 5 Sprinkler, 1(5-0) 5-0 .O05538 0.83 1 10 30-10 5.15 1.1010 7,-s 0.041 13.130 Total(Pt) Route 5 103 32-9 4.2 14.70 i (See Notes) 5-6 150 12.258 6 Sprinkler 0.017335 105 32-9 9.55 1.1010 5'-6 0.096 105 32'-9 4.2 14.76 1 (See Notes) 5'6 150 12.353 .Route Sprinkler 0.097646 106 32-9 24.31 1.1010 5-6 0.539 106 32'-9 4.2 15.08 i (See Notes) 43'7% 150 12.892 Sprinkler, 45 0) 20-0 0.238446 0.831 36 30-10 39.39 1.1010 63-7% 15.172 36 30-10 1 8-0 150 28.895 0.238446 35 30-10 39.39 1.1010 8-0 1.908 35 30-10 1 2-0 150 30.803 0.238446 34 30-10 39.39 1.1010 2-0 0.477 34 30-10 1 10-1% 150 31.280 0.238446 33 30-10 39.39 1.1010 10-1% 2.410 33 30-10 i (See Notes) 2-91/2 150 33.690 1(5-0) 0.238446 32 30-10 39.39 1.1010 7-9% 1.862 32 30-10 14.28 1% (See Notes) 63-0 150 35.552 Flow (q) from Route 10 31(8-0), 2E(7'-O) 38-0 0.068862 4.624 27 20-2 53.67 1.5980 101-0 6.955 ,,© M.E.P.CAD, Inc. AutoSPRINK 2019 v15.1.20,0 1 9114/2020 12:34:19PM Page 11 Job Name: Drawingi Remote Area Number: 1 Date: 9/14/2020 Pipe Information Node I Elev i (Foot) K-Factor Flow added this step (q) Nominal ID Fittings & Devices Equiv. Length (Foot) Length (Foot) ____________ ____________ C Factor Total(pt) Notes Fitting/Device (Equivalent Length) Fixed Pressure Losses, when applicable, are added directly to (PQ and shown as Fitting (Foot) Pf Friction Loss Per Unit (psi) Elev(Pe) Node 2 Elev 2 (Foot) Total Flow (Q) Actual ID Total (Foot) Friction(Pf) 27 20-2 11/2 (See Notes) 19-3 150 47.131 E(7-0), 1(8-0) 15-0 0.048712 4.588 26 9-7 44.51 1.5980 34-3 1.669 26 9-7 11/2 4-6 120 53.388 0.034850 22 9-7 32.33 1.6500 4-6 0.157 22 9-7 1% (See Notes) 6l01/2 120 53.545 P0(9-0) 0.378 9-0 0.023816 25 9-7 26.31 1.6500 15101,4 25 9-7 2% 12621/2 120 53.923 0.002137 20 9-7 26.31 2.7070 126-2% 0.270 20 9-7 18.20 2% (See Notes) 16-5 120 54.193 Flow (q) from Route 12 3fE(6-8%) 20-2 0.005651 -2.348 5 15-0 44.51 2.7070 36-7 0.207 5 15-0 951 21/2 (See Notes) 14'-O% 120 52.051 Flow (q) from Route 7 4fE(6-8%) 26-10% 0.008085 2.348 14 9-7 54.02 2.7070 40-11 0.331 54.730 Total(Pt) Route 6 37 25-5 8.20+1.31 1 (See Notes) 16-111/2 150 46.956 Route 7 ..... Flow (q) from Route 8 and 9 E(5-0), 1(5-0) oo 0.017199 4.516 12 15-0 9.51 1.1010 26-111/2 0.463 12 15-0 11/2 (See Notes) 26-4 150 51.936 E(7-0), P0(8-0) is-o 0.002803 5 15-0 9.51:1 1.5980 41-4 0.116 52.051 Total(Pt) Route 7 38 25-5 9.51 1 2-7 1 150 46.923 Route 8 ..... Flow (q) from Route 11 0.013066 37 25-5 8.20 1.1010 2-7 0.034 46.956 Total(Pt) Route 8 38 25-5 9.51 1 (See Notes) 510 150 46.923 Route 9 ..... 1(5-0), Flow (q) from Route 11 2E(5-O), 2T(5'-O) 25-0 0.000441 37 25-5 1.31 1.1010 76-0 0.034 ,© M.E.P.CAD, Inc. 3 AutoSPRINK 2019 05.1.20.0 1 9/14/2020 12:34:19PM Page 12 Job Name: Drawinql Remote Area Number: 1 Date: 9/14/2020 Pipe Information Node I Elev i (Foot) K-Factor Flow added this step (q) Nominal ID Fittings & Devices Equiv. Length (Foot) Length (Foot) C Factor Total(Pt) Notes Fitting/Device (Equivalent Length) Fixed Pressure Losses, when applicable, are added directly to (Pf) and shown as Fitting (Foot) Pf Friction Loss Per Unit (psi) Elev(Pe) Node 2 Elev 2 (Foot) Total Flow (Q) Actual ID Total (Foot) ________________ Friction(Pf) 46.956 fl90.+iyg s,.I. Total(Pt) Route 9 11 30-10 49.88 0-6 150 35.549 Route 10 ..... Flow (q) from Route 1 0.005945 32 30-10 14.28 1.5980 0-6 0.003 35.552 Total(Pt) Route 10 6 20-2 11/2 (See Notes) 921, 150 48.579 Route 11 ..... C(8-o) 2E(7'-0) 22-0 0.002803 -2.276 19 25-5 9.51 1.5980 31-2 ½ 0.087 19 25-5 1 (See Notes) 20'11 150 46.391 2E(5-0) 10-0 0.017199 38 25-5 9.51 1.1010 30-11 0.532 46.923 Total(Pt) Route 11 18 9-7 12.19+601 11/2 (See Notes) j 1 6-10% 120 54.002 Route 12 ..... Flow (q) from Route 13 and 16 P0(9-0) 1 9-0 0.012038 20 9-7 18.20 1.6500 15-10% 0.191 54.193 Total(Pt) Route 12 16 9-7 594 1½ 10-7 120 53.925 Route 13 ..... Flow (q) from Route 14 0.001516 17 9-7 5.94 1.6500 10-7 0.016 17 9-7 6.25 11/2 10-7 120 53.941 Flow (q) from Route 15 0.005732 18 9-7 12.19 1.6500 10-7 0.061 54.002 Total(Pt) Route 13 41 9-7 594 (See Notes) 35-6 1 120 53.801 Route 14 ..... Flow (q) from Route 17 E(3-5) t 0.003193 16 9-7 5.94 1.4160 38-11 0.124 53.925 Total(Pt) Route 14 48 9-7 625 1% 10-0 120 53.723 Route 15 ..... Flow (q) from Route 18 0.003507 45 9-7 6.25 1.4160 10-0 0.035 45 97 11/4 10-0 120 53.758 0.003507 42 9-7 6.25 1.4160 10-0 0.035 , ©M.E.P.CAD, Inc. AutoSPRlNK2O19v15.1.2O.O 1 9/14/2020 12:34:19PM Page 13 Job Name: Drawing 1 Remote Area Number: 1 Date: 9/14/2020 Pipe Information Node I Elev i (Foot) K-Factor Flow added this step (q) Nominal ID Fittings & Devices Equiv. Length (Foot) Length (Foot) C Factor Total(Pt) Notes Fitting/Device (Equivalent Length) Fixed Pressure Losses, when applicable, are added directly to (P0 and shown as a Fitting (Foot) Pt Friction Loss Per Unit (psi) Elev(Pe) Node 2 Elev 2 (Foot) Total Flow (Q) Actual ID Total (Foot) Friction(Pf) 42 9-7 11/4 (See Notes) 356 120 53.793 "epa"9 "a'ue T(691/2) 691/2 0.003507 17 9-7 6.25 1.4160 42-4 0.148 53.941 Total(Pt) Route 15 40 9-7 601 1V4 6-4 120 53.864 Route 16 ..... Flow (q) from Route 19 0.003268 39 9-7 6.01 1.4160 6-4 0.021 39 9-7 iv. (See Notes) 29'-2 120 53.884 T(6-9'/2) 6-9Y2 0.003268 18 9-7 6.01 1.4160 36-0 0.118 54.002 Total(Pt) Route 16 47 9-7 594 iV 10-0 120 53.737 Route 17 ..... Flow (q) from Route 20 0.003193 44 9-7 5.94 1.4160 10-0 0.032 44 9-7 1v4 101 0 120 53.769 0.003193 41 9-7 5.94 1.4160 10-0 0.032 53.801 Total(Pt) Route 17 54 9-7 6.25 1V4 11-0 120 53.647 Route 18 ..... Flow (q) from Route 22 0.003507 51 9-7 6.25 1.4160 11-0 0.039 51 9-7 1v4 10'8 120 53.685 0.003507 48 9-7 6.25 1.4160 10-8 0.037 53.723 Total(Pt) Route 18 46 9-7 6.01 1% 10-0 120 53.798 Route 19 ..... Flow (q) from Route 21 0.003268 43 9-7 6.01 1.4160 10-0 0.033 43 9-7 1v4 101 0 120 53.831 0.003268 40 9-7 6.01 1.4160 10-0 0.033 53.864 Total(Pt) Route 19 1,,.©M.E.P.CAD, Inc. AutoSPRINK2O19v15.1.2O.O 1 9/14/2020 12:34:19PM Page 14 Job Name: Drawinqi Remote Area Number: 1 Date: 9/14/2020 Pipe Information Node I Elev I (Foot) K-Factor Flow added this step (q) Nominal ID Fittings & Devices Equiv. Length (Foot) Length (Foot) C Factor Total(Pt) Notes Fitting/Device (Equivalent Length) Fixed Pressure Losses, when applicable, are added directly to (Pf) and shown as Fitting (Foot) Pf Friction Loss Per Unit (psi) Elev(Pe) Node 2 Elev 2 (Foot) Total Flow (Q) Actual ID Total (Foot) ________________ Friction(Pf) 53 9-7 5.94 1 / 111-0 120 53.668 9pativ Route 20 ..... Flow (q) from Route 23 0.003193 50 9-7 5.94 1.4160 11-a 0.035 50 9-7 iv4 10-8 120 53.703 0.003193 47 9-7 5.94 1.4160 10-8 0.034 53.737 Total(Pt) Route 20 52 9-7 6.01 1Y4 11-0 120 53.727 Route 21 ..... Flow (q) from Route 24 0.003268 49 9-7 6.01 1.4160 111-0 0.036 49 9-7 10-8 120 53.763 0.003268 46 9-7 6.01 1.4160 10-8 0.035 53.798 Total(Pt) Route 21 23 9-7 12.19 iv4 49-0 120 53.475 Route 22 ..... Flow (q) from Route 26 0.003507 54 9-7 6.25 1.4160 49-0 0.172 53.647 Total(Pt) Route 22 23 9-7 1219 1% (See Notes) 10-7 120 53.475 Route 23 ..... T(9'-O), Flow (q) from Route 26 E(4'-6) 1361/2 0.001516 24 9-7 5.94 1.6500 24-1 ______________ 0.037 24 9-7 iv4 49'0 120 53.511 0.003193 53 9-7 5.94 1.4160 49-0 0.157 53.668 Total(Pt) Route 23 22 9-7 11/4 (See Notes) 49-0 120 53.545 Route 24 ..... T(6'-91,4) 6'-9V2 0.003268 52 9-7 6.01 1.4160 55-10 0.182 53.727 Total(Pt) Route 24 27 20-2 11/2 (See Notes) 12661/2 150 47.131 Route 25 ..... T(8-0) 8-0 0.002615 21 20-2 9.16 1.5980 13361/2 0.349 47.481 Total(Pt) Route 25 ,©M.E.P.CAD, Inc. AutoSPRINK2O19v15.1.20.O 1 9/14/2020 12:34:19PM Page 15 Job Name: Drawing 1 Remote Area Number: 1 Date: 9/14/2020 Pipe Information Elev I Flow added Fittings & Length C Factor Total(Pt) Notes Node I (Foot) K-Factor this step Nominal ID Devices (Foot) ___________ Fitting/Device (Equivalent (q) Equiv. Length) Fixed Pressure Losses, Fitting (Foot) Pf Friction Elev(Pe) Node 2 Elev 2 Total Flow Actual ID Length Loss Per Unit when applicable, are added Total (Foot) (Q) (Foot) (Foot) (psi) Friction(Pf) directly to (Pf) and shown as 26 9-7 32.33 114 (See 6-1 120 53.388 Route 26 ..... Notes) Flow (q) from Route 6 23 9-7 12.19 1.6500 0.005732 1(9-0) 15-1 0.086 53.475 Total(Pt) Route 26 ,©M.E.P.CAD, Inc. /AutoSPRINK2019v15.1.2O.0 1 9/1412020 12:34:19PM Page 16 Job Name: Drawing 1 Remote Area Number: 1 Equivalent Pipe Lengths of Valves and Fittings (C120 only) Actual Inside Diameter 4.87 I = Factor Schedule 40 Steel Pipe Inside Diameter ) Date: 9/14/2020 Value Multiplier Value OfC 100 130 140 150 Multiplying Factor 0.713 1.16 1.33 1.51 ALV Alarm Valve AngV Angle Valve b Bushing BalV Ball Valve BFP Backfiow Preventer BV Butterfly Valve C Cross Flow Turn 900 cplg Coupling Cr Cross Run CV Check Valve DelV Deluge Valve DPV Dry Pipe Valve E 90° Elbow EE 45° Elbow Eel 11Y4° Elbow Ee2 221/,' Elbow f Flow Device fd Flex Drop FDC Fire Department Connection fE 900 FireLock(TM) Elbow fEE 450 FireLock(TM) Elbow fig Flange EN Floating Node fT FireLock(TM) Tee g Gauge GloV Globe Valve GV Gate Valve Ho Hose Hose Hose HV Hose Valve Hyd Hydrant LtE Long Turn Elbow mecT Mechanical Tee Noz Nozzle P1 Pump In P2 Pump Out PIV Post Indicating Valve P0 Pipe Outlet Pry Pressure Relief Valve PRV Pressure Reducing Valve red Reducer/Adapter S Supply sCV Swing Check Valve SFx Seismic Flex Spr Sprinkler St Strainer T Tee Flow Turn 90° Tr Tee Run U Union WirF Wirsbo WMV Water Meter Valve Z Cap ,©M.E.P.CAD, Inc. AutoSPRlNK2019v15.1.2O.O 1 9/14/2020 12:34:19PM Page 17 VILLAGE WALK 341-347 OAK AVE CARLSBAD, CA92008 FIRE SPRINKLER SUBMITTAL PRODUCT DATA ** Materials of equal design, utility, and performance may be substituted for submitted materials so as to avoid delays in the construction schedule and shall be deemed accepted by the Purchaser. 1).- SPRINKLER HEADS. Bulletin 135 May 2019 Rellmabld Features cULus Listed Residential Sprinklers Available in pendent and horizontal sidewall orientations Decorative finishes available, including recessed escutch- eons and conical concealed cover plates Product Description Model F1 Res Series sprinklers are residential sprinklers with a 3 mm glass bulb operating element. A variety of K-Factors as well as recessed and conical concealed options are available as detailed in this Bulletin. The F1 Res Series sprinklers are specially engineered for fast thermal response to meet the requirements of UL 1626. They are intended for installation in accordance with NFPA 13, 13R, and 130. Application The Model FiRes Series sprinklers cULus Listed Residential sprinklers are intended for use in accordance with NFPA 13, NFPA 13R, or NFPA 13D. The Model FiRes residential sprin- klers are cULus Listed for use in residential occupancies and residential portions of any occupancy, where permitted by NFPA 13, NFPA 13R, or NFPA 13D. For NFPA 13R and NFPA 130 applications, the design flow and pressure shall not be less than the minimum flow and pressure specified in the Listed Residential Sprinkler Summary Model F1 Res Series Glass Bulb Residential Sprinklers cULus Listed Design Criteria tables in this Bulletin, For NFPA 13 applications, the design density shall be a minimum of 0.1 gpm/sf (4.1 mm/ mm), but in no case shall the flow and pressure be less than the minimum flow and pressure specified in the Listed Design Criteria tables in this bulletin. Model Fl Res Series sprinklers are listed for use in wet systems only. I Table I Sprinkler Sprinkler Identification Orientation K-Factor gpm/psi112 Thread Size Installation Options Max. Coverage Area Model Number (SIN) (lpm/bar112) NPTorlSO7-1 ftxft(mxm) F1Res3O R3511 Pendent 3.0(43) 1/2 Pendent or Recessed 16 x16 (4.9 x 4.9) Fl Res49 R3516 Pendent 4.9(71) 1/2 Pendent or Recessed 20 x 20(6.1 x 6.1) F1Res58 R3513 Pendent 5.8(84) 1/2 Pendent or Recessed 20 x 20(6.1 x 6.1) Fl Res76 R7618 Pendent 7.6(109) 3/4 Pendent or Recessed 20 x 20 (6.1 x 6.1) F1Res30 CCP R3511 Pendent 3.0(43) 1/2 Conical Concealed or 14 x 14 (4.3 x 4.3) Recessed F1Res49 CCP R3516 Pendent 4.9(71) 1/2 Conical Concealed or 20 x 20(6.1 x 6.1) Recessed F1Res58 CCP R3513 Pendent 5.8(84) 1/2 Conical Concealed or 20 x 20(6.1 x 6.1) Recessed F1Res76 CCP R7618 Pendent 7.6(109) Conical Concealed or 20x20(6.1 x6.1) Recessed F1Res44 HSW R3531 Horizontal Sidewall 4.4(63) 1/2 Recessed 16 x 20(4.9 x 6.1) F1Res44 SWC R3531 Horizontal Sidewall 4.4(63) 1/2 Conical Concealed 16 x 20(4.9 x 6.1) F1Res58 HSW R3533 Horizontal Sidewall 5.8(84) 1/2 Recessed 16 x 20(4.9 x 6.1) F1 Res 58 HSWX RA3533 Horizontal Sidewall 5,8(84) 1/2 Recessed 14 x 26(4.3 x 7.9) www.reliablesprinkler.com Technical Specifications Finishes Style: Pendent and Recessed Pendent (See Table N) Threads: 1/2 NPTor IS07-1R1/2 - --. Nominal K-Factor: 4.9 (71 metric) Temperature Ratings Max. Working Pressure: 175 psi (12 bar) 155°F (68°C) 175°F (79°C) Material Specifications Thermal Sensor: 3 mm glass-bulb Recessed Escutcheons 73 Sprinkler Frame: Brass Alloy Button: Copper Alloy Fl Recessed F2 Recessed FV Recessed* Sealing Assembly: Nickel Alloy with PTFE Load Screw: Bronze Alloy Sprinkler Wrenches Deflector: Bronze Alloy Model W2 Model GFR2 (Recessed) * Model FV escutcheons are not for use in positively pressurized ceiling plenums, Model Fl Res49 Residential Pendent Sprinkler Components and Installation Dimensions 1T1 2-1/4 (57mm) 2-1/4' (57mm) 4(41~ Face of fitting DIA. Face of fitting to finished - 1-15/16 to finished 5/8"(l6mml 1/2"(l3mm) ceiling tDl ceiling 3/8"(9mm) +1- 1/4 (6mm) _ __2-1/4 _______ _____________FUM _-J(57) 1-5/8(41mm) +/- 1-3/4" (44mm) 6mm) "(9mm) L 2-7/8' (72mm) DIA. 1/4' (32mm)2718 (72mm) DlA. 3/8 Dimensions Fl Recessed Escutcheon Installation F2 & FV Recessed Escutcheon Installation Model Fl Res49 Residential Pendent Sprinkler Hydraulic Design Criteria Table C Minimum Flow and Residual Pressure in Wet Pipe Systems(') Maximum Coverage Area(2) ft. x ft. (m x m) Flow gpm (I/mm) Pressure psi (bar) Deflector to Ceiling Distance 12 x 12(3.7 x 3.7) 13(49) 7.0(0.48) 1 t 4 inches (25 to 100 mm) 14 x 14 (4.3 x 4.3) 13 (49) 7.0 (0.48) 16 x 16(4.9 x 4,9) 13(49) 7.0 (0.48) 18 x 18(5.5 x 5.5) 17(64) 12.0(0.83) 20x20(6.1 x6.1) 20(76) 16.7(1.15) 12 x 12(3.7 x 3.7) 15(57) 9.4(0.65) 4 to 8 inches (100 to 200 mm) 14 x 14(4.3 x 4.3) 16(61) 10.7 (0.74) 16 x 16(4.9 x 4.9) 17(64) 12.0 (0.83) 18 x 18(5.5 x 5.5( 19(72) 15.0 (1.03) 20 x 20(6.1 x 6.1) 22(83) 20.2(1.39) Notes: For NFPA 13 installations the flow per sprinkler must be the greater of: (1) the flow listed in the table above or (2) the flow required to achieve a minimum design density 0(0.1 gpm/sq ft over the design area of the sprinkler. For coverage area dimensions less than those listed above, use the minimum required flow for the next larger max. coverage area listed. Bulletin 135 Page 3 of 15 May 2019 Reliablied www.reliablesprinkler.com Finishes Table N Standard Finishes Special Application Finishes Sprinkler'1' Fl, F2. FV, FP'', CCP, SWC (Conical) Sprinkler (I) Fl, F2. FV, FP', CCP, SWC (Conical) Escutcheons Cover Plates Escutcheons Cover Plates (1) Bronze Brass -- Bright Brass Bright Brass Bright Brass Chrome Plated Chrome Plated Chrome Plated Dull Chrome Dull Chrome Dull Chrome While Polyester '2' White Polyester White Paint Black Polyester (1) Black Polyester Black Paint -- -- -- Custom Color Custom Color Custom Color Paint Polyester Polyester -- -- Electroless Nickel -- PTFE 2) -- -- Notes: Paint or any other coating applied over the factory finish will void all approvals and warranties. cULus Listed Corrosion Resistant. The Model FP escutcheon assembly consists of an unfinished galvanized cup with a finished escutcheon ring. Installation Models Fl Res sprinklers are to be installed as shown in this bulletin, Model Fl, F2, FV, and FP recessed escutcheons are the only recessed escutcheons to be used with Model Fl Res sprinklers. Not all Fl Res sprinklers may be used with all recessed escutcheons offered. Confirm listing of escutch- eon type for use with individual sprinklers. Use of any other recessed escutcheon will void all approvals and warranties. For installing Model Fl Res sprinklers, use only the Model W2 sprinkler Wrench; for installing Models Fl Res Recessed Pendent, Sidewall, Conical Concealed Pendent (CCP), and Sidewall Concealed (SWC and SWC-2) sprinklers use only the Model GFR2 sprinkler wrench. Use of wrenches other than those specified may damage these sprinklers. Model GFR2 Installation of Fl Res sprinklers in a wall or ceiling will require a hole diameter of 2-1/4" (57 mm) for Fl or F2 recessed escutcheons; or 2-5/8" (67 mm) for FP recessed escutcheons, CCP, SWC, and SWC-2 cover plates. Install Fl Res HSW sprinklers with a ceiling to deflector dis- tance that complies with the hydraulic design criteria tables in this bulletin. The flow arrow on deflector must point away from near wall and "Top" marking must face the ceiling. A 'leak tight" sprinkler joint can be obtained with the following torque: 1/2" NPT and 1507-1 R1/2: 8-18 ft-lbs (11 -24 N-m) 3/4" NPT and 1S07-1R3/4: 14-20 ft-lbs (19 - 27 N-m) Do not tighten sprinklers over maximum recommended torque. This may cause leakage or impairment of the sprinklers. Do not install any glass bulb sprinklers where the bulb is cracked or there is a loss of liquid from the bulb. Glass bulb sprinklers have orange bulb protectors to mini- mize bulb damage during shipping, handling and installation. Remove this protection at the time the sprinkler system is placed in service. Removal of the protectors before this time may leave the bulb vulnerable to damage. RASCO wrenches are designed to install sprinklers when protectors are in place. Remove protectors by undoing the clasp by hand. Do not use tools to remove the protectors. Maintenance Reliable Model F1 Res Sprinklers should be inspected and the sprinkler system maintained in accordance with NFPA 25, 13, 13D, and 13R, as well as the requirements of any Authorities Having Jurisdiction. Prior to installation, sprinklers should remain in the original cartons and packaging until used. This will minimize the potential for damage to sprinklers that could cause improper operation or non-operation. Do not clean sprinklers with soap and water, ammonia liquid or any other cleaning fluids. Remove dust by gentle vacuum- ing without touching the sprinkler. Replace any sprinkler which has been painted (other than factory applied). Properly installed COP, SWC, and SWC-2 cover plates will have an air gap that is required for proper operation, do not seal the gap or paint the cover plates. Bulletin 135 Page 14 of 15 May 2019 RelIable www.reliablesprinkler.com Replace any sprinkler which has been damaged, where cracks are observed in the glass bulb, or when liquid has been lost from the glass bulb. A stock of spare sprinklers should be maintained to allow quick replacement of damaged or operated sprinklers. Failure to properly maintain sprinklers may result in inadver- tent operation or non-operation during a tire event. Listings & Approvals Listed by Underwriters Laboratories Inc. and UL Certified for Canada (cULus) Guarantee For Reliable Automatic Sprinkler Company guarantee, terms, and conditions, visit www.reliablesprinkler.com. Patents For patents applicable to products contained in this technical bulletin, please visit www.r-s.co Ordering Information Specify the following when ordering: Sprinkler Model (See Table A) Temperature Rating Threads (NPT or 1507-1) Finish (See Table N) Escutcheon or Cover Plate Model Finish (See Table N) Sprinkler Wrench Model W2 (Pendent and HSW) GFR2 (Recessed and Concealed) 0 Bulletin 135 Page 15 of 15 May 2019 WON www.reIiablesprinkler.com Recessed Horizontal Sidewall Horizontal Sidewall Recessed PendentjF1/F2 Concealed Recessed Pendent Pendent/FP XLH Upright XLH Pendent XLH Recessed Pendent F1/F2 Pendent Conventional 1pt$. El Upright Vertical Sidewall Bulletin 014 March 2019 liable Model Fl FR Series Quick Response Glass Bulb Sprinklers Model Fl FR56 Sprinkler Types Standard Spray Upright Standard Spray Pendent Conventional Upright/Pendent Vertical Sidewall Horizontal Sidewall Model Fl FR56 Recessed Sprinkler Types Standard Spray Pendent Horizontal Sidewall Model Fl FR56 Concealed Sprinkler Types Standard Spray Pendent Model 171 171342, Fl FRXLH & Fl FR28 Sprinkler Types Standard Spray Upright Standard Spray Pendent Model Fl FR40 Sprinkler Types Standard Spray Pendent Model Fl FR42, Fl FR40, Fl FRXLH & Fl FR28 Recessed Sprinkler Types Standard Spray Pendent Model Fl FR56LL & Fl FR42LL Low Lead Sprinkler Types Standard Spray Pendent with less than 0.25% Lead Content Listing & Approvals The following organizations provide Listings or Approvals for various Model F1FR series sprinklers. See the Design and Installation table in this Bulletin for information on specific listings and approvals applicable to each sprin- kler. Underwriters Laboratories Inc. and Certified for Canada (cULus) in accordance with ANSI/UL199. FM Approvals (FM) Loss Prevention Certification Board (LPCB) VdS SchadenverhUtung GmbH (VdS) Underwriters Laboratories Inc. and Underwriters Laboratories of Canada Certified for Health Effects to NSF/ANSI Standard 61 Annex G (ULH) EC Certificate: 0786-CPD-40239 (RA1414), 0786- CPD-4025 1 (RA 1425) 0786-CPD-40252 (RA1475) (EC) UL Listing Category Sprinklers, Automatic & Open (VNIV) Quick Response Sprinkler Product Description ,<-- - Reliable Model F1FR series sprinklers are quick-response automatic sprin- klers with a glass bulb thermal element. '- Model F1FR series sprinklers are Stan- dard Spray sprinklers, with the excep- tion of the Model Fl FR56 Conventional XLH Recessed sprinkler which is an Old-style/Conven- Pendent FP tional sprinkler. The Model F1FR Series automatic sprinklers utilize a 3.0 mm frangible glass bulb. These sprinklers have demonstrat- ed response times in laboratory tests which are five to ten times faster than standard response sprinklers. This quick response enables the Model Fl FR Series sprinklers to apply water to a fire faster than standard-response sprinklers of the same temperature rating. The glass bulb consists of an accurately controlled amount of special fluid hermetically sealed inside a precisely man- ufactured glass capsule. This glass bulb is specially con- structed to provide fast thermal response. Reliable Automatic Sprinkler Co., Inc., 103 Fairview Park Drive, Elmsford, New York 10523 At normal temperatures, the glass bulb contains the fluid in both the liquid and vapor phases. The vapor phase can be seen as a small bubble. As heat is applied, the liquid expands, forcing the bubble smaller and smaller as the liq- uid pressure increases. Continued heating forces the liquid to push out against the bulb, causing the glass to shatter, opening the waterway and allowing the deflector to distrib- ute the discharging water. Model Fl FR Series sprinklers provide a wide range of op- tions where quick-response, glass bulb sprinklers are used: Pendent, recessed pendent, upright, horizontal sidewall, and vertical sidewall deflectors K-factors of 2.8 (40 metric), 4.0 (57 metric), 4.2 (60 metric), and 5.6 (80 metric) Flush, recessed, and concealed installations See the Design and Installation Information table in this Bulletin for information on the approvals and availability of specific Model Fl FR series sprinkler configurations. Model F1FR Recessed Pendent and Recessed Horizon- tal Sidewall sprinklers are required to be used with Reliable Model Fl, F2, or FP recessed escutcheons. See the Re- cessed Escutcheon Data table in this Bulletin for listing and approval information with each specific Model F1FR series sprinkler. Model Fl and F2 recessed escutcheons, shown in Fig, 1 and 3, are a friction fit assembly allowing for 3/4-inch (19mm) and 1/2-inch (12.7mm) of adjustment, respectively. Model FP recessed escutcheons, shown in Fig. 2, provide a 1/2-inch (12.7mm) threaded adjustment. Model Fl FR56 Concealed Pendent and Model Fl FR56LL Concealed Pendent sprinklers are required to be used with Model CCP cover plates. A standard profile Model CCP cov- er plate is available that provides up to 1/2-inch (12.7mm) of cover plate adjustment. In addition, a low profile Model CCP cover plate is also available that provides up to 5/16-inch (8.0mm) of cover plate adjustment. See the Design and In- stallation Information and Listed and Approved Temperature Ratings tables in this Bulletin for further information on ap- proved cover plate options. Application Model F1FR Series sprinklers are intended for use in accordance with NFPA 13, FM Property Loss Prevention Data Sheets, and the requirements of the Authority Hav- ing Jurisdiction. Care must be exercised that the k-factor, temperature rating, deflector style, and sprinkler type are in accordance with the requirements of the applicable design and installation standards. In addition, Model F1FR Series sprinklers must be used in accordance with their listings and approvals, as well as the information provided in this Bulletin. Installation Glass bulb sprinklers have orange bulb protectors or pro- tective caps to minimize bulb damage during shipping, han- dling and installation. Reliable sprinkler installation wrench- es are designed to install sprinklers with bulb protectors in place. Remove the bulb protector at the time when the sprin- kler system is placed in service for fire protection. Removal of the bulb protector before this time may leave the bulb vul- nerable to damage. Remove bulb protectors by undoing the clasp by hand. Do not use tools to remove bulb protectors. 2. Model F1FR Series sprinklers must be installed with the Reliable sprinkler installation wrench identified in the Design and Installation Information table in this Bulletin. Any other wrench may damage the sprinkler. A leak tight sprinkler joint can be obtained with a torque of 8 to 18 lb-ft (11 to 24 N-m). Do not tighten sprinklers over the maximum recommended installation torque. Exceeding the maximum recommended installation torque may cause leakage or impairment of the sprinkler. Recessed Sprinklers Model Fl FR Series Recessed sprinklers are to be installed as shown in Fig. 1, Fig. 2, or Fig. 3, as applicable to the spe- cific model being installed. The Recessed Escutcheon Data table in the Bulletin identifies the only recessed escutcheons that are permitted to be used with each Model Fl FR Series Recessed sprinkler. The use of any other recessed escutch- eon will void all approvals and negate all warranties. Concealed Sprinklers Model F1FR Series Concealed Pendent sprinklers are to be installed as shown in Fig. 4 or Fig. 5, as applicable to the selected cover plate. Model F1FR56 Concealed Pendent and Model F1FR56LL Concealed Pendent sprinklers have a factory-installed Model CCP cup. A protective cap is in- stalled at the factory that should remain on the sprinkler until the sprinkler is installed and should then be reinstalled on the sprinkler until the cover plate is installed. The concealed sprinkler assemblies are completed by the installation of a Model CCP push-on/thread-off cover plate assembly. The cover plate and sprinkler cup assemblies are joined using a cover plate skirt with flexible tabs for threaded engage- ment. A choice of two Model CCP cover plate assemblies provides either 1/2-inch (13mm) or 5/8-inch (8mm) of cover adjustment. Do not install Model F1FR Series Concealed Pendent sprinklers in ceilings which have positive pressure in the space above. Model F1FR Series Concealed Pendent sprinklers require a 2-5/8-inch (67mm) diameter hole to be cut in the ceiling. The Model GFR2 wrench is used to engage the sprinkler wrench- ing surfaces and to install the sprinkler in the fitting. Remove the protective cap to install the sprinkler, then reinstall the protective cap until the cover plate is installed. When inserting or remov- ing the wrench from the sprinkler/cup assembly, care should be taken to prevent damage to the sprinkler. Do not wrench any other part of the sprinkler/cup assembly. Installation is com- pleted by removing the protective cap from the sprinkler and pushing the cover plate onto the cup. Final adjustment is made by hand turning the cover plate until the skirt flange makes full contact with the ceiling. Cover plate removal requires turning the cover plate in the counter clockwise direction. After installation, inspect all sprinklers to ensure that there is a gap between the cover plate and ceiling and that the four cup slots are open and free from any air flow impediment to the space above. Concealed cover plate/cup assemblies are listed only for use with specific sprinklers. The use of any concealed cover plate/cup assembly other than the Reliable Model CCP with Model Fl FR56 Concealed Pendent and Model Fl FRS6LL Concealed Pendent sprinklers or the use of the Model CCP Concealed cover plate assembly on any sprinkler with which it is not specifically listed my prevent good fire pro- tection and will void all guarantees, warranties, listings and approvals. Technical Data: Sensitivity: Quick-response Thread Size: 1/2-inch NPT standard; ISO 7-R1/2 optional Maximum Working Pressure: 175 psi (12 bar) - 100% Factory tested hydrostatically to 500 psi (34.5 bar) SIN RA1425, RA1414 & RA1435 cULus listed for 250 psi (17 bar) Design and Installation Information Model Nominal K-factor Nominal Orifice Diameter Deflector/ or / t Orientation Nominal Sprinkler Height _____ Installation Wrench SIN Listings and Approvals Approval Notes US Metric inches mm inches mm F1FR28 2.8 40 3/8 10 Pendent 2.25 57 W2 RA1411 cULus 2 Recessed Pendent 2.25 57 GFR2 RA1411 cULus 2 Upright 2,25 57 W2 RA1421 cULus 1,2 F1FR40 4.0 57 3/8 10 Pendent 2.25 57 W2 RA1418 VdS Recessed Pendent 2.25 57 GFR2 RA1418 VdS F1FR42 4.2 60 7/16 10 Pendent 2.25 57 W2 RA1413 cULus 2 Recessed Pendent 2.25 57 GFR2 RA1413 cULus 2 Upright 2.25 57 W2 RA1423 cULus 1,2 F1FR42LL 4.2 60 7/16 10 Pendent 2.25 57 W2 RA1410 cULus, ULH Recessed Pendent 2.25 57 GFR2 RA1410 cULus, ULH F1FRXLH (F1FR42 with Pintle) 4.2 60 7/16 10 Pendent 2.25 57 W2 RA1413 cULus 2 Recessed Pendent 2.25 57 GFR2 RA1413 cULus 2 Upright 2.25 57 W2 RA1423 cULus 1,2 F1FR56 5.6 80 1/2 15 Pendent 2.25 57 W2 RA1414 cULus, FM, LPcB, vdS, EC 1,2,3,4 Recessed Pendent 2.25 57 GFR2 RA1414 cULus, FM, LPcB, vdS, EC 1,2,3,4 concealed Pendent 2.25 1 57 GFR2 RA1414 cULus,VdS,EC 5,6 Upright 2.25 57 W2 RA1425 cULus, FM, LPcB, VdS, Ec 1,2,3,4 "Conventional 2.25 57 (Pendent or Upright)" W2 RA1475 LPCB, VdS, EC 4 F1FR56LL 5.6 80 1/2 15 Pendent 2.25 57 W2 RA1415 cULus, ULH 1 Recessed Pendent 2.25 57 GFR2 RA1415 cULus, ULH Concealed Pendent 2.25 1 57 GFR2 RA14151 cULus, ULH 6 F1FR56 5.6 80 1/2 15 Horizontal Sidewall 2.63 67 W2 RA1435 cULus, FM 1,2,3,7 Recessed Horizontal 2.63 67 Sidewall GFR2 RA1435 cULus, FM 8 F1FRS6 5.6 80 1/2 15 Vertical Sidewall (Pendent or Upright) 2.25 57 W2 RA1485 cULus, FM, LPCB 1,2,3,9 cULus Listed Corrosion Resistant sprinkler when ordered with available Polyester coating. cULus Listed Corrosion Resistant sprinkler when ordered with available Electroless Nickel PTFE plating. Available with FM approved Polyester coating in black or white. ) Available with LPCB and VdS approved Polyester coating. VdS and EC approvals of the Fl FR56 Concealed Pendent sprinkler are for 155°F (68°C) temperature rated sprinklers only. VdS approved sprin- klers must use Norbulb brand glass bulbs with the 1/2-inch (12.7mm) adjustment Model CCP cover plate only. (6) Model Fl FR56 Concealed Pendent and Model Fl FR56LL Concealed Pendent sprinklers must be used with Reliable Model CCP cover plates, available as either standard depth with 1/2-inch (12.7mm) of adjustment or low profile with 5/16-inch (8.0 mm) of adjustment. cULus Listing of the Fl FR56 Horizontal Sidewall sprinkler is for Light and Ordinary Hazard occupancies only. Minimum to maximum deflector to ceiling distance shall be 4 inches to 12 inches (102mm to 305mm). FM Approval of the F1FR56 Horizontal Sidewall sprinkler is for Light Hazard occupancies only. cULus Listing and FM Approval of the Fl FR56 Recessed Horizontal Sidewall sprinkler is for Light Hazard occupancies only. The F1 FR56 Vertical Sidewall sprinkler is listed and approved for use only in Light Hazard occupancies. LPCB approval of the F1 FR56 Vertical Sidewall sprinkler is for installation in the Pendent position only. 3. Listed and Approved Temperature Ratings Model Deflector/ Orientation Ordinary Temp. Classification 100°F (38°C) Max. Ambient Temp. Intermediate Temp. Classification 150°F (65°C) Max. Ambient Temp. High Temp. Classification 225°F (107°C) Max. Ambient Temp. 135°F (57°C) Temp. Rating 155°F (68°C) i Temp. Rating 175°F (79°C) Temp. Rating I 200°F (93°C) Temp. Rating 286°F (141°C) Temp. Rating Orange Bulb I Red Bulb Yellow Bulb Green Bulb Blue Bulb Pendent cULus F1FR28 Recessed Pendent cULus I Upright cULus F1FR4O Pendent VdS Recessed Pendent VdS I Pendent cULus F1FR42 Recessed Pendent cULus I Upright cULus F1FR42LL Pendent I cULus, ULH I I Recessed Pendent I cULus, ULH Pendent cULus FIFRXLH Recessed Pendent cULus I Upright cULus Pendent cULus, FM, LPCB, VdS, EC Recessed Pendent cULus, FM, LPCB, VdS, EC I F1 FR56 Concealed Pendent* cULus I cULus,VdS,EC I cULus Upright cULus, FM, LPCB, VdS, EC Conventional (Pendent or Upright) LPCB, VdS, EC Pendent I cULus, ULH I FIFR56LL Recessed Pendent cULus, ULH I Concealed Pendent* cULus, ULH Horizontal Sidewall cULus, FM Fl FR56 Recessed Horizontal Sidewall cULus, FM F1FR56 Vertical Sidewall (Pen- dent _or_Upright) cULus, FM, LPCB * Model Fl FR56 Concealed Pendent and Fl FR56LL Concealed Pendent sprinklers must be used with Reliable Model CCP cover plates. For Ordinary Temperature Classification sprinklers use a 135°F (57°C) temperature rated cover plate. For Intermediate Temperature Classification sprinklers use a 165°F (74°C) temperature rated cover plate. Recessed Escutcheon Data Listed and Approved Recessed Escutcheons Model Fl Model F2 Model FP Deflector/ Model Orientation (Fig. 1 & 3) (Fig. 1 & 3) (Fig. 2) SIN 3/4-inch (19mm) 1/2-inch (12.7mm) 1/2-inch (12.7mm) adjustment adjustment adjustment F1FR28 Recessed Pendent cULus cULus cULus RA1411 FIFR40 Recessed Pendent VdS VdS VdS RA1418 FIFR42 Recessed Pendent cULus cULus cULus RA1413 F1FR42LL Recessed Pendent cULus, ULH cULus, ULH cULus, ULH RA1410 F1FR42XLH Recessed Pendent cULus cULus cULus RA1413 FIFR56 Recessed Pendent cULus, LPCB, VdS, cULus, FM, LPCB, cULus, VdS, EC RA1414 EC VdS,EC F1FR56LL Recessed Pendent cULus, ULH cULus, ULH cULus, ULH RA1415 F1FR56 Recessed Horizontal Sidewall cULus cULus, FM cULus RA1435 ri 2 l/e HOLE 0/A. [5 7.2mm] TURN COLLAR UNTIL TIGHT AGAINST SPRINKLER WRENCH BOSS ____\\\\\ Fl ESCUTCHEON_ 1: 3/4 "[19mm] ADJUSTMENT F2 ESCUTCHEON 1/2"[12.7mm] ADJUSTMENT I 15/I6 0/A [49.2mm] L—_—_+_--- r \ 2 5/8" 0/A. [66.7mm] HOLE IN CEILING 2 5/16" 0/A. [58.7mm] CUE CEILING Y "[12. 7mmj ADJUSTMENT 1" X 1/2" REDUCER FACE OF FITTING TO FACE OF CEILING DIMENSION Fl ESCUTCHEON AT MAXIMUM RECESS = 1 "[25.4mm] 71TAT AT MINIMUM RECESS = 3/8"[9.5mm] AT MAXIMUM RECESS = 3/4"[l9mmj /7777-71 MINIMUM RECESS = 3/8'[9.5mm] Fl ESCUTCHEON AT MAXIMUM RECESS = 7/8"[22.2mm] AT MINIMUM RECESS = 1-5/8 "[41.3mm] F2 ESCUTCHEON I AT MAXIMUM RECESS = 1-1/8"[28.6mm] AT MINIMUM RECESS = 1-5/8"[41.3mm] 2 27/32 0/4. [72.2mm] Model Fl FR56, Fl FR56LL, Fl FR42, Fl FR40, Fl FR42LL, Fl FRXLH & Fl FR28 Recessed Pendent sprinkler with Model Fl or F2 escutcheon L—_—_—_--4—_------ T I I'- ----------- 1" X 1/2" REDUCER FACE OF FITTING TO FACE OF CEILING DIMENSION AT MAX/MUM RECESS = 1-1/2'T38mm] - AT MINIMUM RECESS = 1 "125.4mm AT MAX/MUM RECESS = 9/16 [14.3mm] AT MINIMUM RECESS = 1 "[25.4mm] 3 1/4" 0/A. [82.6mm] Model Fl FR56, Fl FR56LL, Fl FR42, Fl FR40, Fl FR42LL, Fl FRXLH & Fl FR28 Recessed Pendent sprinkler with Model FP escutcheon 5. E1 Fl ESCUTCHEON 1L4 IT AlA VIA)! IA) ornrcc -fl.....? P11 IVIPI/lIlVIVIVI flCUCO..) - I ..)/ 0 L ,_flt. VtItfIJ AT MINIMUM RECESS = 2- 1/16"[52.4mm] F2 ESCUTCHEON AT MAXIMUM RECESS = 1-5/8"[41.3mm] '-1/8" AT MINIMUM RECESS = 2- 1/16"[52.4mm] [3.2mm] ! (1) 4"-12" 32" DIA. CEILING TO [1O1.6mm-304.8mm] [72. 2mm] DEFLECTOR -I Fl ESCUTCHEON 3/4 "[19mm] ADJUSTMENT F2 ESCUTCHEON 1/2"[12. 7mm] ADJUSTMENT FACE OF F/fliNG TO FACE OF CEILING DIMENSION Fl ESCUTCHEON AT MAXIMUM RECESS = 1 "[25.4mm] AT MINIMUM RECESS = 3/8"[9.5mm] F2 ESCUTCHEON AT MAXIMUM RECESS = 3/4"[l9mm] AT MINIMUM RECESS = 3/8'19. 5mm] 2 1/4" HOLE 0/A. [5 7.2mm] 1" X 1/2" REDUCER I (iI 1 15/16" DIA.4.L4 [49.2mm] Hill 211 TURN COLLAR UNTIL -' TIGHT AGAINST SPRINKLER WRENCH BOSS. RECESSED HSW w/F1 OR F2 ESCUTCHEON (1) FM APPROVED FOR 4" - 6" [10 1.6MM - 152.4MM] CEILING TO DEFLECTOR WITH F2 ONLY. Fig. 3 Model Fl FR56 Recessed Horizontal Sidewall sprinkler with Model Fl or F2 escutcheon 1" x 1/2" REDUCING TEE OR ELBOW TT -EH 2 5/16" CIA - CUP -. TT r 2 5/8" 0/A. H I HOLE IN CEILING / / CEILING 1/2" MAX. I COVER ADJUSTMENT COVER PLATE ASSEMBLY SPRINKLER 1 1/2" MAX. FACE OF FITTING FACE OF CEILING DIMENSION / '" , '- / 15/1611 3 5/16" CIA. CONCEALED, 1/2" ADJUSTMENT 017FG01A Fig.4 Model Fl FR56/F1 FR56LL Concealed Pendent sprinkler with standard depth 1/2-inch (12.7mm) adjustment - Model COP cover plate I" x 1/2" REDUCING TEE OR ELBOW E:ffr 2 5/7 6" 0/A CUP TFF- 5/8" DI,-I. HOLE IN CEILING 1 1/2" MAX. FACE OF FIT-TING TO FACE OF CEILING DIMENSION CEILING -p 5/16" MAX. r COVER ADJUSTMENT COVER PLATE ASSEMBLY SPRINKLER zc_ 3 5/16" DIA. 3/4" CONCEALED, /16" ADJUSTMENT O17FGO2A Hg. 5- Model Fl FR56/F1 FR56LL Concealed Pendent sprinkler with low profile 5/16-inch (8.0mm) adjustment - Model CCP cover plate Maintenance The Model Fl FR Series sprinklers should be inspected and the sprinkler system maintained in accordance with NFPA 25. Do not clean sprinklers with soap and water, ammonia or any other cleaning fluids. Remove dust by using a soft brush or gentle vacuuming. Replace any sprinkler which has been painted (other than factory applied) or damaged in any way. A stock of spare sprinklers should be maintained to allow quick replacement of damaged or operated sprinklers. Finishes (1) Standard Finishes ____________ Sprinkler Escutcheon Cover plate1" Bronze Brass Chrome Chrome Plated Chrome Plated White Polyester Coated 14X5X6) White Painted Special Application Finishes Sprinkler Escutcheon Cover plate111 Electroless Nickel PTFE17 Electroless Nickel PTFE Bright Brass Bright Brass(3) Bright Brass Black Plating Black Plated Black Plated Black Paint Black Paint(2116) Black Paint Off White Off White(2116) Off White Satin Chrome Chrome Dull I Chrome Dull (') Other finishes and colors are available on special order. Consult the factory for details. Custom color painted sprinklers may not retain their UL Corrosion resistance listing. Coverplate custom paint is semi-gloss, unless specified otherwise. (2) cULus Listed only. 131 200°F (93°C) maximum. cULus listed "corrosion resistance" applies to SIN Numbers RA1435 (HSW), RA1485(vsw), RA1425 (Upright), RA1414 (Pendant) and RA1415 (Pendent) in standard black or white. Corrosion resistance in other polyester colors is available upon request. FM Approvals finish as "Polyester coated" applies to SIN Number RA1414, RA1435 and RA1425 in standard black or white. LPCB and VdS Approved finish applies only to RA1425, RA1414, AA1418 (VdS) and RA 1475. cULus listed Corrosion Resistant Material Data Frame: DZR Brass, OM Brass, or Low Lead Brass Deflector: CDA Alloy 220, 260, or 510 Load Screw\Pintle: CDA Alloy 360 or 544 Cup: CDA Alloy 651 or 693 Washer: Nickel Alloy 440 or 360, coated with PTFE Adhesive Tape Bulb: Glass Ordering Information Specify: Sprinkler Model: [Fl FR28][F1 FR40][F1 FR42] [Fl FR42LL][F1 FRXLH][F1 FR56][F1 FR56LL] Sprinkler Deflector/Orientation: [Pendent] [Recessed Pendent] [Upright][Conventional][Horizontal Sidewall] [Recessed Horizontal Sidewall] [Vertical Sidewall] Sprinkler threads: [1/2-inch NPTJ[ISO 7-R1/2] Sprinkler Temperature Rating: [135°F (570C)][155°F (68°C)][175°F (79°C)][200°F (930C)][286°F (141°C)] Sprinkler Finish Escutcheon Model: [F1][F2][FP] Escutcheon Finish (where applicable) Cover plate Model: [standard profile CCP 1/2-inch (12.7mm) adjustment][low profile CCP 5/16-inch (8.0mm) adjustment] Cover plate Temperature Rating: [135°F (57°C) for use with Ordinary Temperature sprinklers][165°F (74°C) for use with Intermediate Temperature sprinklers] Cover plate Finish Note: when Model F1FR Series Recessed sprinklers are ordered, the sprinklers and escutcheons are packaged separately. 7. Reliable ... For Complete Protection Reliable offers a wide selection of sprinkler components. Following are some of the many precision-made Reliable products that guard life and property from fire around the clock. Automatic sprinklers Flush automatic sprinklers Recessed automatic sprinklers Concealed automatic sprinklers Adjustable automatic sprinklers Dry automatic sprinklers Intermediate level sprinklers Open sprinklers Spray nozzles Alarm valves Retarding chambers Dry pipe valves Accelerators for dry pipe valves Mechanical sprinkler alarms Electrical sprinkler alarm switches Water flow detectors Deluge valves Detector check valves Check valves Electrical system Sprinkler emergency cabinets Sprinkler wrenches Sprinkler escutcheons and guards Inspectors test connections Sight drains Ball drips and drum drips Control valve seals Air maintenance devices Air compressors Pressure gauges Identification signs Fire department connection The equipment presented in this bulletin is to be installed in accordance with the latest published Standards of the National Fire Protection Association, Factory Mutual Research Corporation, or other similar organizations and also with the provisions of governmental codes or ordinances whenever applicable, Products manufactured and distributed by Reliable have been protecting life and property for almost 100 years. Manufactured by Reliable Automatic Sprinkler Co., Inc. . Recycled n1aliabi (800) 431-1588 Sales Offices Paper 10 (800) 848-6051 Sales Fax Revision lines indicate updated or new data. (914) 829-2042 Corporate Offices www.reliablesprinkler.com Internet Address EG. Printed in U.S.A. 03 /19 P/N 9999970300 Model RFC76 Bulletin 006 February 2019 Reliable Model RFC Series Residential Sprinklers cULus Listed Flat Cover Plate, Concealed Pendent Sprinkler Features cULus Listed as Residential Sprinklers Push-On cover plate installation Low water flow requirements Product Description Model RFC Series residential sprinklers are flat cover plate, concealed pendent sprinklers intended for installation in accordance with NFPA 13, NFPA 13R, or NFPA 13D, The sprinklers are cULus Listed as Residential Sprinklers in ac- cordance with UL 1626. In addition, Model RFCLL Series sprinklers are cULus Certified for Health Effects to NSF/ANSI standard 61 Annex G (LL) and Australian WaterMark Certified (WMCS). Model RFC30 and RFC43 sprinklers have a 165°F (74°C) temperature rated fusible-link operating element. Model RFC49, Model RFC58, and RFC76 sprinklers are offered with either a 165°F (74°C) or 212°F (100°C) temperature rated fusible-link operating element. Sprinklers with a 165°F (74°C) temperature rating are ordinary temperature classification and are listed for use with a 135°F (57°C) temperature rated cover plate. Sprinklers with a 212°F (100°C) temperature rat- ing are intermediate temperature classification and are listed for use with a 165°F (74°C) temperature rated cover plate. Model RFC Series sprinklers are installed with a Model RFC cover plate. Model RFC cover plates may be installed by ei- ther pushing or threading the cover plate into the sprinkler cup. Model RFC30, RFC30LL, RFC43, RFC43LL, RFC49 and RFC49LL sprinklers allow 1/2" (13 mm) of cover plate adjust- ment. Model RFC58 and RFC76 sprinklers allow 3/4" (19 mm) of cover plate adjustment. Model RFC cover plates are avail- able in a variety of finishes as listed in Table H. Model RFC30 & RFC30LL Model RFC43 & RFC43LL Model RFC49 & RFC49LL Model RFC58 MK4Y2~~7111 (N Model RFC Cover Plate Sprinkler Model Nominal K-Factor gpm/psi1'2 (I/mm/bar1/ 9 Max. Coverage Area ft x ft (m x m) Sprinkler Identification Listings & Approvals Number (SIN) RFC30 3.0(43) 14x 14(4.3x4.3) cULus RA0611 RFC30LL 3.0(43) 14x 14(4.3x4.3) cULus/LL, WMCS RA3211 RFC43 4.3(62) 20 x 20(6.1 x 6.1) cULus RA0612 RFC43LL 4.3(62) 20 x 20(6.1 x 6.1) cULus/LL, WMCS RA3212 RFC49 4.9(71) 20x20(6.1 x6.1) cULus RA0616 RFC49LL 4.9(71) 20 x 20(6.1 x 6.1) cULus/LL, WMCS RA3216 RFC58 5.8(84) 20x20(6.1 x6.1) cULus RA0613 RFC76 7,6 (109) 20 x 20(6.1 x 6.1) cULus RA0618 cULus: cULus Listed to UL1626, Residential Sprinklers for Fire Protection Service, LL: cULus Certified for Health Effects to NSF/ANSI Standard 61 Annex C (Less than 0.25% Lead content). www.reIiablesprinkler.com Bottom View , Technical Specifications Sensitivity Style: Flat Concealed Pendent Fast-response Threads: 1/2" NPT or ISO 7-1 R1/2 Nominal K-Factor: 4.9 (71 metric) Temperature Rating Max. Working Pressure: 175 psi (12 bar) Ordinary: Mm. Spacing: 8 ft. (2.4 m) 165°F (74°C) sprinkler 135°F (57°C) cover plate Material Specifications Intermediate: Thermal Sensor: Nickel Alloy Solder Link 212°F (100°C) sprinkler Sprinkler Body: Brass Alloy 165°F (74°C) cover plate Levers: Bronze Alloy Yoke: Brass Alloy Cover Plate Sealing Assembly: Nickel Alloy with PTFE Model RFC cover plate Load Screw: Bronze Alloy Towers: Copper Alloy Sprinkler Wrench Pins: Stainless Steel Model FC (without wrenchable cap) Deflector: Bronze Alloy Model W3 (with wrenchable cap) Cup: Steel Listings and Approvals Cover Plate Finishes cULus Listed to UL 1626 (See Table H) cULus Certified for Health Effects to NSF/ANSI Standard 61 Annex G (RFC49LL only) Watermark Certified (RFC49LL only) Model RFC49 & RFC49LL Sprinkler Components and Dimensions 2-5/16" (58 mm) Threads Dia. Body Cup Tower 1-3/4" (44 mm) +/- 1/4(6mm) Fusible Link Nominal face of fitting to ceiling Deflector (retracted) ' 3/16(5 mm Pin (extended) -.. u I Deflector (extended) ,.._.-"______ \,j Model RFC Cover Plate - 3-5/16' (84 mm) Dia. -.-- Ceiling Model RFC49 & RFC49LL Sprinkler Hydraulic Design Criteria _r1,_ Minimum Flow and Residual Pressure (I) Max. Coverage Area (2) Ordinary Temperature Intermediate Temperature Flow Pressure Flow Pressure ft. x ft. (m x m) gpm psi gpm psi (I/mm) (bar) (I/mm) (bar) 16x16 13 7.0 13 7,0 (4.9 x 4.9) (49.0) (0.48) (49.0) (0.48) 18x18 17 12.0 17 12.0 (5.5 x 5.5) (64.3) (0.83) (64.3) (0.83) 20x20 20 16.7 21 18.4 (6.1 x6.1) (75.7) (1.15) (79.5) (1.27) Notes: For NFPA 13 installations the flow per sprinkler must be the greater of: (1) the flow listed in Table D above and (2) the flow required to achieve a minimum design density of 0.1 gpm/sq ft over the design area of the sprinkler. For coverage area dimensions less than those listed above, use the minimum required flow for the next larger max. coverage area listed. Bulletin 006 Page 4 of 8 February 2019 Rellabld www.reliablesprinkler.com Cover Plate Finishes1 Standard Finishes Special Application Finishes White Polyester Off White Paint Black Paint Raw Brass Chrome Plated Bright Brass Finished Bronze Black Plated Satin Chrome Stainless Steel Clad(3) Custom Color Paint(2) Notes: Paint or any other coating applied over the factory finish will void all approvals and warranties. Custom color paint is semi-gloss, unless specified otherwise. Stainless steel clad cover plates are Type 316 Stainless Steel on the finished side and C102 Copper Allow on the back side. Cover plates are not listed or approved as corrosion resistant. Stainless steel clad cover plates are not available perforated. Installation Dimensions Recommended Mm. to Mm. to Max. Sprinkler Cover Cover Plate Hole Diameter Cover Plate Max. Face Dropped Deflector Cover Plate Model Plate Diameter in Ceiling Adjustment of Fitting to Distance below Temperature Model inch (mm) inch (mm) inch (mm) Ceiling(1) Ceiling Rating inch (mm) inch (mm) RFC3O, RFC30LL, RFC 3-5/16 2-5/8 1/2 1-1/2 to 2 1/2 to 1 135°F RFC43, (84) (67) (13) (38t051) (13t025) (57°C) RFC43LL 135°F(2) RFC49, RFC 3-5/16 2-5/8 1/2 1-1/2t02 1/2to1 (57°C) RFC49LL (84) (67) (13) (38 to 51) (13t025) or 1650Fi3i (74°C) 135°Ft2 RFC58, RFC 3-5/16 2-5/8 3/4 1-1/2 to 2-1/4 1/4 to 1 (57°C) RFC76 (84) (67) (19) (38 to 57) (6 to 25) or 1650Ft3 (74°C) Notes: Face of fitting to ceiling dimensions are based on a nominal thread make up. Verify dimensions based on fitting and thread sealing method prior to installation. A 1/2' x 1/2" brass nipple extension (Reliable P/N 6999991900) is available where necessary for replacement of existing sprinklers. For use with 165°F (74°C) temperature rated sprinklers where the Maximum Ceiling Temperature does not exceed 100°F (38°C). For use with 212°F (100°C) temperature rated sprinklers with the Maximum Ceiling Temperature does not exceed 150°F (66°C). Installation Model RFC series sprinklers are intended to be installed in ac- cordance with NFPA 13, NFPA 13R, or NFPA 13D, as well as the requirements of applicable authorities having jurisdiction. Mod- el RFC series sprinklers must not be installed in ceilings with positive pressure in the space above, Ensure that the 4 slots in the cup are open and unobstructed following installation. Model RFC series sprinklers are shipped with a protective cap that should remain on the sprinkler until installed. The protective cap should be replaced following installation of the sprinkler and permanently removed only when the cover plate is installed and the sprinkler system is placed in service following construction. Model RFC series sprinklers are installed with the Model FC wrench. The use of any other wrench to installed Model RFC se- ries sprinklers is not permitted and may damage the sprinkler. Temporarily remove the protective cap during installation of the sprinkler. Insert the Model FC wrench over the sprinkler until the wrench engages the body. Do not wrench any other part of the sprinkler/cup assembly. The Model FC wrench is designed to be turned with a standard 1/2" square drive. Tighten the sprin- kler into the fitting after applying a PTFE based thread sealant to the sprinkler's threads. Recommended installation torque is 8 to 18 ft-lbs (11 to 24 N-m) for 1/2" thread sprinklers and 14 to 20 ft-lbs (19 to 27 N-m) for 3/4" thread sprinklers. Bulletin 006 February 2019 Do not exceed the maximum recommended torque. Exceeding the maximum recommended torque may cause leakage or im- pairment of the sprinkler. Use care when inserting or removing the wrench from the sprinkler to avoid damage to the sprinkler. Install the cover plate by hand by pushing the cover plate into the cup and turning the cover in the clockwise direction until it is tight against the ceiling. Application Model RFC series sprinklers are intended for installation where residential sprinklers are permitted or required by NFPA 13, NFPA 13R, and NFPA 13D. The sprinklers are concealed pen- dent residential sprinklers. Model RFC 30, RFC30LL, RFC43, and RFC43LL sprinklers are available in ordinary temperature classification for installation where the Maximum Ceiling Temperature does not exceed 100°F (38°C). Model RFC49, RFC49LL, RFC58, and RFC76 sprinklers are available in either ordinary or intermediate tem- perature classification for installation where the Maximum Ceiling Temperature does not exceed 100°F (38)C) or 150°F (66°C), respectively. Page 7 of 8 www.reliablesprinkler.com Model FC For use with Models RFC30, RFC43, and RFC 49 without wrenchable cap and Models RFC58 and RFC76 Maintenance Model RFC series sprinklers should be inspected and the sprinkler system maintained in accordance with NFPA 25. Do not clean sprinklers with soap and water, ammonia or any other cleaning fluids. Remove dust by gentle vacuuming. Replace any sprinkler cover plate assembly which has been painted (other than factory applied) or damaged in any way. A stock of spare sprinklers should be maintained to allow quick replace- ment of damaged or operated sprinklers. Prior to installation, sprinklers should be maintained in the original cartons and packaging until used to minimize the potential for damage to sprinklers that would cause improper operation or non-oper- ation. Listings and Approvals Listed by Underwriters Laboratories, Inc. and UL Certified for Canada to UL1626, Residential Sprinklers for Fire-protection Service (cULus). Certified by Underwriters Laboratories, Inc. and Underwriters Laboratories of Canada for Health Effects to NSF/ANSI Standard 61 Annex G (LL) (RFC30LL, RFC43LL, and RFC49LL only). Bulletin 006 Page 8 of 8 February 2019 Reliable www.reliablesprinkler.com Model W3 For use with Models RFC30, RFC43, and RFC49 with wrenchable cap Guarantee For the Reliable Automatic Sprinkler Co., Inc. guarantee, terms, and conditions, visit www.reliablesprinkler.com. Patents Model RFC30, RFC30LL, RFC43, RFC43LL, RFC49, RFC49LL, RFC58, and RFC76 sprinklers are covered by U.S. Patent No. 9,248,327 and U.S. Patent No. 7,275,603. Model RFC30, RFC30LL, RFC43 and RFC43LL sprinklers are additionally covered by U.S. Patent No. 8,776,903. Ordering Information Specify the following when ordering. Sprinkler Model (RFC30, RFC30LL, RFC43, RFC43LL, RFC49, RFC49LL, RFC58, RFC76) Temperature Rating Cover Plate Model RFC Temperature Rating Finish (See Table H) Sprinkler Wrench Model FC Model W3 tqca Worldwide Contacts www.tyco-fire.com I Models BB, SD, HIP, and AP Specific Application Sprinklers For Protecting Attics General Description The TYCO Models Back to Back Dual Directional (BB), Single Directional (SD), HIP, and Attic Plus (AP) Specific Appli- cation Attic Sprinklers for Protecting Attics are fire sprinklers for combus- tible and non-combustible sloped attic spaces. While Models BB, SD, and HIP are specific application attic sprinklers, the Model AP is a specific application combustible concealed-space sprin- kler with specific application criteria for use with Models BB, SD, and HIP in attic spaces. Specific Application Attic Sprinklers provide superior fire protection in attic spaces. When compared to Stan- dard Spray Sprinklers, cost savings are achieved by eliminating branchline materials and the associated installa- tion labor. Specific Application Attic Sprinklers for Protecting Attics have undergone the most extensive fire testing ever per- formed for sloped attic spaces. They are UL Listed with their specific appli- cation guidelines for use as special sprinklers as defined by the NATIONAL FIRE PROTECTION ASSOCIATION (NFPA). Specific Application Attic Sprinklers provide an extended coverage spacing alternative to the restricted spacing of Standard Spray Sprinklers. IMPORTANT Refer to Technical Data Sheet TFP2300 for warnings pertaining to regulatory and health information. Always refer to Technical Data Sheet TFP700 for the "INSTALLER WARNING" that provides cautions with respect to handling and instal- lation of sprinkler systems and com- ponents. Improper handling and installation can permanently damage a sprinkler system or its compo- nents and cause the sprinkler to fail to operate in a fire situation or cause it to operate prematurely. Page 1 of 28 The Specific Application Attic Sprin- klers are the first sprinklers to be: Listed for extended coverage in com- bustible construction Full-scale fire tested in both wet and dry system scenarios Full-scale tested for use in wood truss construction Listed for specific roof slopes (Ref. Table A) The Specific Application Attic Sprin- klers provide cost control with the best level of protection by eliminat- ing the need for additional sprinklers and branchline piping. In many cases, an attic can be entirely protected with just one line of piping located below the peak of the roof using Model BB Sprin- klers. If Model SD Sprinklers or Model HIP Sprinklers are needed, one line of either at each area being covered is sufficient. For example, while using Standard Spray Sprinklers, a system in a 60 ft (18,3 m) wide attic with up to a 12:12 roof pitch designed to NFPA 13, could require seven branchlines to cover the main portion of the attic and several additional branchlines to cover the hip areas. With Specific Application Attic Sprinklers, the required coverage can be obtained with just one branchline running below the peak and one down each slope of the hip beam. This would result in approximately 90% less pipe needed for installation. This reduction in the number of branchlines saves the cost of the pipe, fittings, hangers, and associated labor by eliminating up to five branchlines. Another important aspect of the Spe- cific Application Attic Sprinkler technol- ogy, which also allows for cost savings, is the reduction in system volume. This volume reduction may result in reduc- ing the size of a dry pipe valve and air compressor, and possibly allows for quicker water delivery times, eliminat- ing the need for an accelerator. AUGUST 2018 TFP6IO THREAD RELIEF 1/2" (12,7 mm) NOMINAL MAKE-IN WRENCH FRAME FLATS ARMS ELEVATION CROSS SECTION TFPGIO Page 2 of 28 Components: 1 - Frame 4 - Bulb 2 - Button 5 - Compression 3 - Sealing Screw Assembly 6 - Deflector 2-1/4 _______ _ 1-5/8' (57,2 m m) r (41,3 mm) 1-1/8' I 13/16" (28,6 mm) (20,6 mm) FLOW FLOW 6 LL (54,0 mm) IN FIGURE A MODELS BB1, BB2, AND BB3 WITH 8.0 K-FACTOR SPECIFIC APPLICATION ATTIC SPRINKLERS I Components: I I i - Frame 4 - Bulb I 2 - Button 5 - Compression I I 3 - Sealing Screw I Assembly 6 - Deflector F 2-1/4" ________ 1-5/8" __ 3/16" ______ 1-1/8 1 (57,2mm) 41,3mm)H (26mH 6 H(20,6 mm) FLOW \/ 2-1/8" 2 (54,0 mm) 3 THREAD RELIEF mm) 1/2" NPT / 7/16" (11,1 m NOMINAL MAKE-IN WRENCH FRAME CROSS FLATS ARMS SECTION ELEVATION FIGURE C MODELS BB1, BB2, AND BB3 WITH 4.2 K-FACTOR SPECIFIC APPLICATION ATTIC SPRINKLERS Components: 1 - Body 5 - Compression 8 - Deflector 2 - Cap Screw 9 - Rivet 3 - Sealing 6 - Lever 10 - Diffuser Assembly 7 - Deflector 11 - Link 4 - Saddle Frame Assembly 1-9/16" 2-1/4" _______ (39,7 mm) (57,2 mm) 10 11 9 1-1/8" 87 FLOW FLOW 6 FRAME ARMS WRENCH 1/2" 1 2 3 4 7/16" HEX NPT (11,1 mm) NOMINAL CROSS MAKE-IN SECTION ELEVATION FIGURE B MODELS BBI, BB2, AND BB3 WITH 5.6 K-FACTOR SPECIFIC APPLICATION ATTIC SPRINKLERS Components: 1 - Body 5 - Compression 8 - Deflector 2 - Cap Screw 9 - Rivet 3 - Sealing 6 - Lever 10 - Link Assembly 7 - Deflector Assembly 4 - Saddle Frame - 2-1/8" (54,0 mm) 1-5/16" (33,4 mm) FLOW FRAME - ARMS 4 3" '6,2 mm) J,1 mm) WRENCH NOMINAL HEX MAKE-IN ELEVATION FIGURE D MODELS SD1, SD2, AND SD3 WITH 5.6 K-FACTOR SPECIFIC APPLICATION ATTIC SPRINKLERS 10 1/2" NPT CROSS SECTION TFP6IO Page 3 of 28 Components: 1 - Frame 4 - Bulb 2 - Button 5 - Compression 3 - Sealing Screw Assembly 6 - Deflector 2-1/8' _______ 2" (54,0 mm) (50,8 mm) 1-1/16" 1-1/4" (27,0 mm) (31,8 mm) FLOW W3TRH R EA D Lli RELIEF 7/16 (11,11 mm)] 1/2 NPT NOMINAL WRENCH FRAME CROSS FLATS ARMS SECTION ELEVATION FIGURE E MODEL HIP WITH 5.6 K-FACTOR SPECIFIC APPLICATION ATTIC SPRINKLERS Components: 1 - Frame 5 - Compression 2 - Sealing Screw Assembly 6 - Deflector 3 - Button 7 - Ejection 4 - Bulb Spring 1-11/16" 6 (49mm) 5- FRAME NKL( IS (57,2 mm) :=kl fl Li 1 FLATS 1/2 NPT 7/16" (11,1 mm) NOMINAL MAKE-IN CROSS SECTION ELEVATION FIGURE F MODEL AP WITH 4.2 OR 5.6 K-FACTOR SPECIFIC APPLICATION COMBUSTIBLE CONCEALED SPACE SPRINKLERS Another cost reduction is the Listing of BLAZEMASTER CPVC for use in attic spaces to feed the wet system Specific Application Attic Sprinklers for Protect- ing Attics, as well as to feed the wet system sprinklers below the ceiling. Traditionally, BLAZEMASTER CPVC has been used on the lower floors in the joist space above a ceiling that do not require sprinklers. The cost of using CPVC on those floors can now be translated to the upper floor even if sprinklers are required in the attic. There are four models of the Specific Application Attic Sprinklers used for protecting attics: BB, SD, HIP, and AR The Model BB and Model SD Sprinklers have three separate versions used for different roof pitches. The pitches, as applicable, can vary from a minimum of 3:12 to a maximum of 12:12. For more information, refer to Table A. BB Sprinkler (Back to Back Dual Directional) The Model BB Specific Application Attic Sprinkler, as seen in Figure A, B and C, throws a narrow and long pattern. The narrow spacing along the ridge serves two purposes: the response time is reduced by placing the sprinklers no farther than 6 ft (1,8 m) apart, and the spray can be concentrated in the throw direction to obtain a pattern that will cover up to 30 ft (9,1 m) in each direction when measured horizontally. There are three different models that account for different roof slopes: BB1, BB2, and B133. Each model is provided in one of three different orifice sizes: K=4.2, 5.6, or 8.0. SD Sprinkler (Single Directional) The Model SD Specific Application Attic Sprinkler, as seen in Figure D, throws a narrow but long pattern like the Model BB. However, unlike the Model BB, the Model SD only throws in one direction. Model BB Sprinklers are primarily used where shear walls or draft curtains have been installed within an attic space. Model BB Sprinklers are also used when the framing direction is parallel with the outside wall in the hip area. For more information, refer to Figure 13. In this case, the SD Model Sprinkler would be used on one side of the slope and AP Sprinklers or Standard Spray Sprinklers would be used to protect the other side. The Model SD Sprinklers must be installed in a vertical upright orientation and not angled with the slope. Achiev- ing the vertical upright orientation may require the use of a swing joint if the SD Sprinklers are being fed from a line running along and parallel to the roof hip. There are three different models that account for different roof slopes: SD1, SD2, and 5D3. HIP Sprinkler The Model HIP Specific Application Attic Sprinkler, as seen in Figure E, covers the area of the hip in the attic. This is a slightly different concept than the BB Model or SD Model Sprinklers. The HIP Sprinkler is located along the slope running down the hip, and throws a 900 pattern toward the outside eaves. This pattern allows the water to "corner" and control the fire. The HIP does not throw much water directly up or down the hip, but rather it throws most of the pattern out to each side (90°) down the slope of the roof. This sprinkler is typically spaced 6 ft (1,8 m) to 3 ft (0,9 m) on center down the slope. To use the HIP Sprinkler, the framing must be perpendicular to the outside wall (refer to Figure 12) and the maximum throw cannot exceed 28 ft (8,5 m) measured horizontally. The HIP, unlike the BB Model and SD Model, is installed with the deflector parallel with the slope. There is only one model with flows and pressures for two different spacings. TFP6IO Page 4 of 28 AP Sprinkler (Attic Plus) The AP Specific Application Attic Sprin- kler are to be installed in the upright orientation with their deflector parallel to the roof. The Model AP Sprinklers, as seen in Figure F, are intended to be used to provide protection of attic areas outside the scope of applica- tions for the BB, SD, or HIP Sprinklers. The AP Sprinklers must only be used in conjunction with other Specific Appli- cation Attic Sprinklers (BB, SD, and HIP), or as permitted in other sections of this document. The AP Sprinklers will provide a hydraulic advantage over Standard Spray Sprinklers for the pro- tection of attic areas outside the scope of application for the BB Model, SD Model, or HIP Model Sprinklers. The Specific Application Attic Sprin- klers for Protecting Attics described herein must be installed and maintained in compliance with this document, as well as with the applicable standards of NFPA, in addition to the standards of any other authorities having jurisdiction. Failure to do so may impair the perfor- mance of these devices. The owner is responsible for main- taining their fire protection system and devices in proper operating con- dition. Contact the installing contrac- tor or product manufacturer with any questions. Sprinkler Identification Number (SIN) TY4180* 13131 K=8.0 TY4181* 13132 K=8.0 TY4182* 13133 K=8.0 TY3180* B61 K=5.6 TY3181* 13132 K=5.6 TY3182* 13133 K=5.6 TY2180 13131 K=4.2 TY2181 13132 K=4.2 TY2182 13133 K=4.2 TY3183* SD1 K=5.6 TY3184* SD2 K=5.6 TY3185* SD3 K=5.6 TY3187* HIP K=5.6 TY3190 APK=5.6 TY2190 APK=4.2 * The "TV" prefix is a re-designation of the previous "C" prefix. For example, TY4180 is a re-designation for C4180. Technical Data Approvals UL and C-UL Listed These Approvals only apply to the service conditions indicated in the Design Criteria section on Page 6 and the Design Guidelines section on Page 8. Pipe Thread Connection 1/2 inch NPT for K=4.2 and 5.6 3/4 inch NPT for K=8.0 Discharge Coefficient K = 4.2 GPM/psi½ (60,5 LPM/bar½) K = 5.6 GPM/psi½ (80,6 LPM/bar½) K = 8.0 GPM/psi" (115,5 LPM/bar") Temperature Rating Intermediate Temperature as follows: -200°F (93°C) for BB (K4.2 and K8.0), HIP, AP -212°F (100°C) for BB (K5.6), SD Finish Natural Brass Physical Characteristics (Figures A, C and E) Frame ............................Bronze Button .....................Bronze/Copper Sealing Assembly. . Beryllium Nickel w/TEFLON Bulb.....................Glass (3 mm dia.) Link .............................MONEL Compression Screw ..................Brass Deflector ....................Brass/Bronze Physical Characteristics (Figures B and D) Body ..............................Brass Cap ..............................Bronze Sealing Assembly. . Beryllium Nickel w/TEFLON Saddle.............................Brass Link Assembly......................Nickel Compression Screw ..................Brass Deflector ....................Brass/Bronze Lever .....................Bronze Deflector Frame ............................Bronze Diffuser ............................Brass Rivet ..............................Brass Physical Characteristics (Figure F) Frame .............................Brass Button ............................Bronze Sealing Assembly. . Beryllium Nickel w/TEFLON Bulb.....................Glass (3 mm dia.) Compression Screw ..................Brass Deflector ..........................Bronze Operation BB (K=8.0 and 4.2), HIP (K=5.6) and AP (5.6 and 4.2) 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 water to flow. BB (K=5.6) and SD (K=5.6) The fusible link assembly is comprised of two link halves which are joined by a thin layer of solder. When the rated temperature is reached, the solder melts and the two link halves separate, allowing the sprinkler to activate and water to flow. TFP6IO Page 5 of 28 Installation The TYCO Specific Application Attic Sprinklers for Protecting Attics must be installed in accordance with this section. If.)t(g Do not install any bulb-type sprinkler if the bulb is cracked or there is a loss of liquid from the bulb. With the sprin- kler held horizontally, a small air bubble should be present. The diameter of the air bubble is approximately 1/16 inch (1,6 mm) for the 155°F (68°C) and 3/32 inch (2,4 mm) for the 200°F (93°C) tem- perature ratings. A leak-tight 1/2 inch NPT sprinkler joint should be obtained by applying a min- imum-to-maximum torque of 7 to 14 lb-ft (9,5 to 19,0 N.m). Higher levels of torque can distort the sprinkler inlet with consequent leakage or impairment of the sprinkler. To install the Specific Application Attic Sprinklers, complete the following: Step 1. Sprinklers must be oriented correctly as follows: Model BB Sprinklers are to be installed in the upright vertical posi- tion with the flow arrows on the deflector pointing down the two opposing slopes. Model SD Sprinklers are to be installed in the upright vertical posi- tion with the flow direction arrow on the deflector pointing down the slope. The Model HIP Sprinklers are to be installed with the deflector at the top, the sprinkler centerline perpendicular to the ridge of the hip roof, and the flow direction arrows on the deflec- tor pointing down the two oppos- ing slopes. Unlike the Model BB and Model SD, the Model HIP is installed angled so that its deflector is paral- lel with the slope of the hip ridge line. The Model AP Sprinklers are to be installed in the upright position with the deflector parallel to the roof slope. There are no floW arrows on the deflector to consider; however, a good piping practice is to position all the Model AP Sprinklers so that their frame arms are in the same direction. : Lffl WRENCH FLATS 4 ç i ENGAGE SPRINKLER THREAD RELIEF WITH WRENCH JAW FLANGES N. WRENCH USEEND JAW FLANGE MARKED A ONLY FIGURE H W-TYPE 3 SPRINKLER WRENCH FOR USE WITH BB (K=8.0) SPRINKLERS' WRENCH FLATS ENGAGE SPRINKLER THREAD RELIEF WITH WRENCH JAW FLANGES WRENCH USE END JAW FLANGE MARKED . A ONLY FIGURE J W-TYPE 6 SPRINKLER WRENCH For Use with BB (K=4.2) Sprinklers Step 2. With pipe thread sealant applied to the pipe threads, hand- tighten the sprinkler into the sprinkler fitting. Note: With reference to Figure G, do not grasp the sprinkler by the deflector. Step 3. Wrench-tighten the sprin- kler using only the wrenches shown in Figures H through M. Wrenches are only to be applied to the sprin- kler wrench flats or wrench hex, as applicable. *CH ENGAGE SPRINKLER THREAD RELIEF NUSEEND WRENCH FLANGES WRENCH JAW FLANGE MARKED A ONLY FIGURE K W-TYPE 20 SPRINKLER WRENCH For Use with HIP (K=5.6) Sprinklers WRENCH HEX APPLY WRENCH :/q TO WRENCH HEX ONLY ADJUST \ WRENCH JAW TO FIT WRENCH HEX FIGURE L ADJUSTABLE WRENCH For Use with BB (K=5.6) and SD (K=5.6) Sprinklers WRENCH :=A FLATS ENGAGE c- - SPRINKLER %END AD RELIEF WRENCH FLANGES WRENCH U JAW FLANGE M- 7' A ONLY FIGURE M W-TYPE 6 SPRINKLER WRENCH For Use with AP (K=4.2 and 5.6) Sprinklers TFP6IO Page 6 of 28 Design Criteria Area of Use The TYCO Specific Application Attic Sprinklers are designed for use in roof structures and combustible and non-combustible sloped attic spaces, including wood joist/rafters and wood trussed attics with a ceiling below. System Type for BB, SD, HIP, or AP Sprinklers Wet using CPVC pipe Wet or dry using steel pipe Note: Use of the 4.2 K sprinklers in dry pipe systems is permitted by NFPA 13 where piping is corrosion resistant or internally galvanized. Hazard Light Hazard. BB, SD, or HIP Allowable Roof Span (Coverage) and Roof Pitch Refer to Table A for allowable roof spans and roof pitches, and for the associated minimum sprinkler flows and pressures. Figures 1, 2, 11 and 12 illustrate where the roof span is to be measured. Coverage Beyond BB, SD or HIP Allowable Roof Spans Up to 10 ft (3,1 m) of coverage at the eave(s) beyond the allowable roof spans for BB, SD, or HIP Sprinklers may be obtained by using a single row of AP Sprinklers. For more information, refer to Figure 14A, 14B, and 15. BB, SD, HIP, or AP Minimum Distance Between Sprinklers 4 ft (1,2 m) as measured along the branchline for BB and SD. For more information, refer to Figure 3. 3 ft (0,9 m) as measured along the branchline for HIR For more informa- tion, refer to Figure 12. 7 ft (2,1 m) between AP Sprinklers. BB, SD, HIP, or AP Maximum Distance Between Sprinklers 6 ft (1,8 m) on center along the branch- line for BB, SD, and HIP. For more infor- mation, refer to Figure 3 and 12. For AP, the maximum spacing is 10 ft (3,1 m) perpendicular to slope and 12 ft (3,6 m) parallel to slope. When there is more than one row of AP Sprin- klers, the sprinklers must be staggered as seen in Figure 20-B-3. BB, SD, HIP, or AP Minimum Distance to AP Sprinklers or Standard Spray Sprinklers As measured along the peak/ridge direction, 6 ft (1,8 m) from BB, SD, and HIP to Standard Spray Sprinklers. For more information, refer to Figure 4. As measured along the peak/ridge direction, 7 ft (2,1 m) from AP to Stan- dard Spray Sprinklers. For more infor- mation, refer to Figure 4. In the slope direction, 26 ft (7,9 m) from BB or HIP Sprinklers to AP Sprinklers or Standard Spray Sprinklers. For more information, refer to Figure 6. BB, SD, or HIP Deflector Installation Position Below Peak/Ridge or Deck For roof pitches of 4:12 (33%) to 12:12 (100%), 22 in. (558,8 mm) maximum and 16 in. (406,4 mm) minimum. For more information, refer to Figure 2 and 5. For roof pitches of 3:12 (25%) up to 4:12 (33%), (only 4.21K Model BB), 12 in. (304,8 mm) maximum below the peak and a minimum of 1 in. (25,4 mm) below the bottom of the top chord or solid wood rafter. AP Deflector Position and Roof Pitch 1 to 3 in. (25,4 to 75,6 mm) below the bottom of the top chord or bottom of solid wood rafter, where the roof pitch is 3:12 to 12:12 and the top chord or solid wood rafter is a nominal 12 in. (600 mm) or less. BB or SD Deflector Installation Position Above Scissor Truss 18 in. (457,2 mm) minimum. For more information, refer to Figure 5. BB, SD, or HIP Minimum Distance Away from Trusses Attic Sprinklers must be installed 6 in. (152,4 mm) away from the face of trusses. For more information, refer to Figure 7. SD Distance from Shear Wall or Draft Curtain 4 to 6 in. (101,6 to 152,4 mm) from face, and a minimum of 8 in. (203,2 mm) above the bottom of the draft curtain. For more information, refer to Figure 2. Draft Curtains Draft curtains installed to permit the installation of Attic Sprinklers shall be constructed so as to not allow heat to escape through or above the draft curtain. The draft curtain may be con- structed of 1/2 in (12,7 mm) plywood. BB or HIP Maximum Distance from the Center Line of the Ridge 6 in. (152,4 mm) with the deflector located 16 to 22 in. (406,4 mm to 558,8 mm) from the peak. For more informa- tion, refer to Figure 8. Use of UL Listed BLAZEMASTER CPVC Piping with Specific Application Attic Sprinklers for Protecting Attics (Wet Systems Only) BLAZEMASTER CPVC piping may be used in a combustible concealed attic space requiring sprinklers when installed in accordance with the follow- ing guidelines: Note: Where the use of non-com- bustible insulation is specified, verify with the insulation manufacturer as to the non-combustibility of the insula- tion. The non-combustible insulation (fiberglass) may be faced or unfaced. Where faced, the facing need not be non-combustible. The insulation is to have a flame spread index of not more than 25. Verify chemical compatibility of the insulation with BLAZEMASTER CPVC by consulting www.lubrizol.com. BLAZEMASTER CPVC may be used to feed the wet system ceiling sprin- klers on the floor below. There must be 6 in. (152,4 mm) of non-combus- tible insulation covering the horizon- tal or vertical pipe extending 12 in. (304,8 mm) on each side away from the centerline of the pipe. Refer to Figures 9A, 9B, and 90. The area above the pipe must be protected by BB, SD, HIP, or AP Sprinklers. For more information, refer to Figure 9A. If the pipe is located inside the ceil- ing joist, the joist channel must be covered or filled with 6 in. (152,4 mm) of non-combustible insulation on top of the pipe and the area above must be protected by BB, SD, HIP, or AP Sprinklers. For more information, refer to Figure 9B. Insulation is for fire protection purposes. It is not freeze protection. BLAZEMASTER CPVC must be installed in accordance with the BLAZEMASTER installation guide instructions. With reference to Figure 19, BLAZE- MASTER CPVC may be used exposed to feed wet system BB, SD, or HIP Sprinklers where: Risers are vertical and protected by BB, SD, or HIP Sprinklers locat- ed at a maximum lateral distance of 12 in. (304,8 mm) from the riser centerline. BB, SD, or HIP Sprinklers are di- rectly mounted on the branchline. BB, SD, or HIP Sprinklers are on arm-overs and located at a max- imum lateral distance of 6 in. (152,4 mm) from the branchline centerline. BB, SD, or HIP Sprinklers are on vertical sprigs attached to the branchline. TFP6IO Page 7 of 28 MODEL K SIN ALLOWABLE ROOF SPAN, Feet (m) MINIMUM FLOW, GPM (1PM) MINIMUM PRESSURE, psi (bar) PITCH, Rise Over Run (/o) DRY PIPE SYSTEM MAXIMUM WATER DELIVERY TIME, Seconds 13131 j 8.0 j TY4180 :560 (18,3) 38(144) 22.6 (1,5) 4:12 (33) to less than 7:12 (58) (c) 13132 8.0 TY4181 ~60 (18,3) 38 (144) 22.6 (1,5) 7:12 (58) to less than 10:12 (83) (C) 13133 8.0 1Y4182 !~60 (18,3) 40(152) 25.0(1,7) 10:12 (83) to 12:12 (100) (C) 13131 5.6 TY3180 >40(12,2) to !~60 (18,3) 38 (144) 46.0 (3,2) 4:12 (33) to less than 7:12 (58) (C) BB2 5.6 TY3181 >40 (12,2) to 60 (18,3) 38 (144) 46.0 (3,2) 7:12 (58) to less than 10:12 (83) (C) 6133 5.6 TY3182 >40 (12,2) to 60 (18,3) 38 (144) 46.0 (3,2) 10:12 (83) to 12:12 (100) (c) 13131 5.6 TY3180 !~40 (12,2) 25(95) 20.0 (1,4) 4:12 (33) to less than 7:12 (58) (c) 13132 5.6 TY3181 1540 (12,2) 25 (95) 20.0 (1,4) 7:12 (58) to less than 10:12 (83) (c) 13133 5.6 TY3182 !g40 (12,2) 25(95) 20.0 (1,4) 10:12 (83)to 12:12 (100) (c) 13131 4.2 TY2180 !~20 (6,1) 13 (49) 9.6 (0,7) 3:12 (25) to less than 7:12 (58) 45 (d) 13132 4.2 TY2181 520 (6,1) 13 (49) 9.6 (0,7) 7:12 (58) to less than 10:12 (83) 45 (d) B133 4.2 TY2182 1520 (6,1) 13 (49) 9.6 (0,7) 10:12 (83) to 12:12 (100) 45 (d) SD1 5.6 TY3183 >30 (9,1) to !~40 (12,2) 35 (132) 39.0 (2,7) 4:12 (33) to less than 7:12 (58) (c) SD2 5.6 TY3184 >30 (9,1) to !~40 (12,2) 35 (132) 39.0 (2,7) 7:12 (58) to less than 10:12 (83) (c) SD3 5.6 TY3185 >30 (9,1) to !~40 (12,2) 35 (132) 39.0 (2,7) 10:12 (83) to 12:12 (100) (c) SD1 5.6 1Y3183 >10 (3,0) to !~30 (9,1) 25 (95) 20.0(1,4) 4:12 (33) to less than 7:12 (58) (c) SD2 5.6 1Y3184 >10 (3,0) to !~30 (9,1) 25(95) 20.0(1,4) 7:12 (58) to less than 10:12 (83) (c) SD3 5.6 TY3185 >10 (3,0) to !~30 (9,1) 25(95) 20.0(1,4) 10:12 (83) to 12:12 (100) (c) SD1 5.6 TY3183 !00(3,0) 19(72) 11.5 (0,8) 4:12 (33)to less than 7:12 (58) (c) SD2 5.6 1Y3184 !00 (3,0) 19 (72) 11.5 (0,8) 7:12 (58) to less than 10:12 (83) (c) SD3 5.6 TY3185 !00 (3,0) 19 (72) 11.5 (0,8) 10:12 (83) to 12:12 (100) (c) HIP 5.6 TY3187 >20 (6,1) to !g28 (8,5) 34 (129) 36.9 (2,5) 4:12 (33) to 12:12 (100) (c) HIP 5.6 1Y3187 :520 (6,1) 25 (95) 20.0 (1,4) 4:12 (33) to 12:12 (100) (c) AP 5.6 - TY3190 10'31' 12 (3,15) ' ' ) -See note e, Minimum 7 psi (0,48 bar) Minimum 0.10 gpm/ft2 (4,1 mm/mm.) Design Density 3:12 (25) to 12:12 (100) 60(d) AP 4.2 TY2190 3:12 (25) to 12:12 (100) 60 (d) NOTES The BE and SD roof span is measured horizontally (not along the slope) as shown in Figure 1 and Figure 2. The HIP root span is measured horizontally as shown in Figure 2. Refer to NFPA 13. Maximum water delivery time for all system sizes. The AP roof span is measured along the slope. Maximum 10 ft (3, m) perpendicular to slope by maximum 12 ft (3,6 m) parallel to slope. TABLE A ALLOWABLE ROOF SPAN, FLOW, PRESSURE, AND PITCH FOR SPECIFIC APPLICATION SPRINKLERS FOR PROTECTING ATTICS TFP6IO Page 8 of 28 BB, SD, or HIP Sprinklers are on arm-over or angled sprigs, and lo- cated at a maximum lateral dis- tance of 6 in. (152,4 mm) from the branchline centerline. A minimum lateral distance of 18 in. (450 mm) is maintained be- tween the CPVC pipe and a heat producing device such as heat pumps, fan motors, and heat lamps. BLAZEMASTER CPVC may be used exposed to provide wet system, ver- tical or angled, sprigs to AP Sprin- klers (refer to Figures 17A and 17B) where: The exposed portion of an angled sprig is a maximum length of 3 ft (0,9 m), the sprig is supported ad- jacent to the AP Sprinkler, and ver- tical restraint is provided using the CPVC hanger support for horizon- tal pipe runs. Vertical sprigs have a maximum exposed length of 10 ft (3,05 m), the AP Sprinkler is located at a maximum lateral distance of 12 in. (3304,8 mm) from the sprig center- line, and the sprig is supported at the swing joint to the AP Sprinkler. A minimum 6 in. (152,4 mm) deep of non-combustible insulation ex- tending 12 in. (304,8 mm) on each side away from the centerline of the CPVC branchline feeding the AP sprigs (refer to Figure 17A). If the CPVC branchline is located in- side the ceiling joist, the joist chan- nel must be covered or filled with a minimum of 6 in. (152,4 mm) deep of noncombustible insulation on top of the branchline feeding the AP sprigs (refer to Figure 17B). In- sulation is for fire protection pur- poses. It is not freeze protection. Additional depth of non-combusti- ble insulation may be added to re- duce the exposed length of the AP sprigs. A minimum lateral distance of 18 in. (450 mm) is maintained be- tween the CPVC pipe and a heat producing device such as heat pumps, fan motors, and heat lamps. Mismatched Slopes Refer to Figure 10. Obstructions For BB, SD, and HIP, refer to Figure 16. For AP Sprinklers, refer to Figure 18. BB, SD, HIP, and AP Sprinklers may be installed directly on maximum 2-1/2 inch NPS (DN65) branch lines without the need for sprigs. See NFPA 13 for requirements when installed on pipe greater than 2-1/2 inch NPS (DN65). Hydraulic Requirements Refer to Figure 20. Determine the Correct Flow and Pressure For BB, SD, or HIP Sprinklers, deter- mine the roof span (measured horizon- tally) and the slope of the roof, and then refer to Table A. There is no interpola- tion of the flow and pressure shown. Round all cases to the next higher spacing. For example, a 45 ft (13,7 m) span with the B131 (K=8.0) would be calculated at the 60 feet (18,3 m) span. For the AP Sprinklers, the minimum design pressure is 7 psi, and the minimum design density is 0.10 gpm/ft2 (4,1 mm/mm). The NFPA 13, 20 psi (1,4 bar) minimum operating pressure for Standard Spray Sprinkler spacings parallel to the ridge that are above 8 ft (2,4 m) does not apply to the AP. Coverage Area Coverage area for the BB Sprinklers is determined by twice the distance of the furthest throw measured along the slope multiplied by the distance along the branchline. The maximum distance along branchline is 6 ft (1,8 m) regardless of the length of the throw. Note: The distance along the branch- line may have to be reduced to less than the maximum of 6 ft (1,8 m) to remain under 400 ft2 (37,2 m2) maximum depending on the slope and the span. In no case can the span exceed 60 ft (18,3 m) without additional Standard Spray Sprinklers. Coverage area for the SD (Single Directional) Sprinklers is the distance along the branchline multiplied by the distance of the throw down the slope. Regardless of the throw, the maximum distance along the branch- line is 6 ft (1,8 m), the maximum throw measured horizontally is 40 ft (12,2 m), and the maximum coverage per sprinkler is 400 ft2 (37,2 m2). Coverage area for the HIP Sprinklers is the distance down the larger slope multiplied by two, and multiplied by the distance between the sprinklers as measured along the slope of the hip. Coverage area for the AP (Attic Plus) Sprinklers is the distance along the branchline multiplied by the distance between the branchlines. The max- imum spacing is 10 ft (3,1 m) per- pendicular to the slope and 12 ft (3,6 m) parallel to slope, and as mea- sured on the slope. When there is more than one row of AP Sprinklers, the sprinklers must be staggered per Figure 20-B-3. The maximum spac- ing per sprinkler is 120 ft2 (11,1 m2). Design Guidelines To design a project with the TYCO Spe- cific Application Attic Sprinklers, use these steps as a guideline: Determine if single, dual directional or hip sprinkler is needed. Determine the roof slope is between 3:12 to 12:12. If more than one slope is being used on a project, select the correct sprinkler for each area. Follow the guidelines for each type of sprinkler. Calculate the sprinkler system in accordance with the appropriate flow and pressure information provided in Table A, as well as Figure 20. There is no interpolation of the flows and pressures shown on the chart. For BB Sprinklers (Back to Back Dual Directional) Verify the framing direction is per- pendicular to the outside wall (refer to Figure 12). If not, cover that area with AP Sprinklers or Standard Spray Sprinklers (refer Figure 13). Determine the throw needed. For more information, see the spac- ing requirements in Table A. If over 20 ft (6,1 m) and up to 60 ft (18,3 m) is required, use the 8.0 K-factor, BB Sprinklers to reduce the pressure required. If pressure is not a concern, use the 5.6 K-factor, BB Sprinklers to minimize over discharge. If less than 20 ft (6,1 m) is required, use the 4.2 K-factor, Back to Back Dual Directional to minimize pressure and flow requirements. Determine the distance along the slope. If the distance is not equal, use the longer side. Multiply the lon- ger side by two to determine the spacing down the slope. Four hun- dred divided by this value will deter- mine the maximum spacing along the ridge. The maximum distance is 6 ft (1,8 m). For example, a 12:12 slope at the maximum span of 60 ft (18,3 m) will produce a slope length of approximately 42.5 ft (13,0 m). That number multiplied by two pro- duces an 85 ft (25,9 m) throw. A 400 ft2 maximum divided by an 85 ft (25,9 m) throw only allows a 4 ft 8 in. (1,4 m) spacing along the ridge. Using the maximum spacing, space the sprinklers along the ridge. Avoid obstructions as shown in Fig- ure 16. If necessary, add Model AP Sprinklers or Standard Spray Sprin- klers to maintain coverage around obstructions. TFP6IO Page 9 of 28 For SD Sprinklers (Single Directional) Determine the throw needed As the 400 ft2 (37,2 m2) is not a factor with the SD Sprinklers, the maximum spacing is 6 ft (1,8 m) and the mini- mum is 4 ft (1,2 m). For more infor- mation, refer to Figures 2 and 11. The reason 400 ft2 is not an issue with the single directional is because, at its maximum spacing, 6 ft (1,8 m) on center / covering 40 ft (12,2 m) flat / a 12:12 slope / and the throw being 56.5 ft (17,2 m), the 400 ft2 (37,2 m2) maximum would not be exceeded. Avoid obstructions as shown in Fig- ure 16. If necessary, add Model AP Sprinklers or Standard Spray Sprin- klers to maintain coverage around obstructions. For HIP Sprinklers Verify framing direction is perpendic- ular to outside wall (refer to Figure 12). If not, cover that area with AP Sprinklers or Standard Spray Sprin- klers (refer to Figure 13). From the intersection of the top of the hip and the ridge, the maximum distance down the slope of the hip is 3 ft (0,9 m). Start the layout with the first sprinkler as close to that point as possible, but no further, while staying 6 in. (152,4 mm) away from the face of the trusses. Remember the slope of the hip is not equal to the slope of the roof from the ridge to the out- side wall. Continue to space sprin- klers down the hip at a maximum of 6 ft (1,8 m) on center as measured along the slope of the hip. When the bottom of the hip is encountered, the last sprinkler must be within 7-1/2 ft (2,3 m) of the outside wall as mea- sured flat (plan view). If this pipe is "cut to fit", remember to account for the different slopes of the hip and the roof, as well as distances measured along the slope verses horizontal in plan view must be accounted for. Avoid obstructions as shown in Fig- ure 16. If necessary, add Model AP Sprinklers or Standard Spray Sprin- klers to maintain coverage around obstructions. Care and Maintenance The TYCO Specific Application Attic Sprinklers for Protecting Attics must be maintained and serviced in accor- dance 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 protec- tion system from the proper authorities and notify all personnel who may be affected by this action. 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 NFPA, such as NFPA25. In addition to the standards of any other authori- ties having jurisdiction. Contact the installing contractor or product manu- facturer with any questions. Automatic sprinkler systems should be inspected, tested, and maintained by a qualified Inspection Service in accor- dance with local requirements and/or national code. Sprinklers that 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 sprinklers must be replaced. Over-heated solder type sprinklers must be replaced. Bulb-type sprin- klers that have been exposed to cor- rosive products of combustion, but have not operated, should be replaced if they cannot be completely cleaned by wiping the sprinkler with a cloth or by brushing it with a soft bristle brush. Care must be exercised to avoid damage to the sprinklers before, during, and after installation. Sprin- klers damaged by dropping, striking, wrench twist/slippage, or the like, must be replaced. Also, replace any sprinkler that has a cracked bulb or that has lost liquid from its bulb. For more informa- tion, refer to the Installation Section. Limited Warranty For warranty terms and conditions, visit www.tyco-fire.com. Ordering Procedure Contact your local distributor for avail- ability. When placing an order, indicate the full product name and Part Number (P/N). Sprinkler Assemblies with NPT Thread Connections Specify: Model (specify), K-factor (specify), SIN (specify), Specific Appli- cation Attic Sprinkler, P/N (specify): 13131 (K=8.0), TY4180 ...................... 51-623-1 -200 13132 (K=8.0), 1Y4181 ......................51-621-1-200 13133 (K=8.0), TY4182 ...................... 51-622-1 -200 13131 (K=5.6), 1Y3180 ......................50-601-1-212 13132 (K=5.6), TY3181 ......................50-602-1-212 13133 (K=5.6), 1Y3182 ...................... 50-603-1 -212 8131 (K=4.2), TY2180 ......................50-620-1-200 13132 (K=4.2), 1Y2181 ......................50-621-1-200 13133 (K=4.2), TY2182 ......................50-622-1-200 SDI (K=5.6), TY3183 ......................50-611-1-212 SD2 (K=5.6), TY3184 ......................50-612-1-212 SD3 (K=5.6), 1Y3185 ......................50-613-1-212 HIP (K=5.6), 1Y3187 ...................... 51-620-1 -200 AP (K=5.6), TY3190 ...................... 50-625-1 -200 AP (K=4.2), TY2190 ...................... 50-624-1 -200 Sprinkler Wrench Specify: W-Type 3 Sprinkler Wrench, P/N 56-895-1-001 Specify: W-Type 20 Sprinkler Wrench, P/N 56-000-1-106 Specify: W-Type 6 Sprinkler Wrench, P/N 56-000-6-387 TFP6IO Page 10 of 28 ROOF SPAN (COVERAGE) -i SEE FIG. 11 BACK TO BACK STANDARD SPRINKLER TRUSS SCISSOR 12 TRUSS FIGURE 1 6-0" (1,83 m) MAXIMUM 4-0" (1,22 m) MINIMUM II II II II \ II BBorSDATflC II II II SPRINKLERS II RIDGE II II II II II H H BRANCH H II II II LINE II II II II II II TRUSS - I II II CEILING FIGURE 3 22" (558,8 mm) MAX. BB, SD or HIP ATTIC 16' (406,4 mm) MIN. SPRINKLER -or- FOR A ROOF PITCH LESS THAN 4:12 (33%), / TRUSS 18" MIN. f STANDARD (457,2 mm) 2" (304,8 mm) MAXIMUM BELOW PEAK AND 1" (25,4 mm) MINIMUM / BELOW BOTTOM OF TOP CHORD OR RAFTER SCISSOR _ TRUSS FIGURE 5 6" (152,4 mm) II MINIMUM II BB, SID orHIP II II SPRINKLER Ii RIDGE II II BRANCH II II II II LINE II II I I II II TRUSS - I II CEILING II II II II II II II II / II II II II / ii FIGURE 7 6" (152,4 mm) MAX ROOF SPAN 4" (101,6 mm) MIN. H H (COVERAGE) . FROM WALL DECK AP or STANDARD SPRAY SPRINKLER SINGLE DIRECTIONAL SPRINKLERS SEE FIG 22" (558,8 mm) MAX.11 16" (406,4 mm) MIN. BOTTOM OF SHEATHING DRAFT 8" MI CURTAIN FULL WALL TO DECK TO DECK (203,2 mm FIGURE 2 7-0" (2,1 m) MIN. FOR AP SPRINKLERS I-. 6-0" (1,8 m) MINIMUM FOR I STANDARD SPRAY SPRINKLERS I II 711 AP or STANDARD II ATTIC II I SPRAY SPRINKLER SPRINKLER II RIDGE ii I H BRANCH H H II I II LINE II II II TRUSS - CEILING II H FIGURE 4 BE, SD or HIP ATTIC SPRINKLER 26-0" (7,92 m) AP or MINIMUM STANDARD SPRAY SPRINKLERS FIGURE 6 6" (152,4 mm) MAXIMUM BB or HIP ATTIC SPRINKLER 22" (558,8 mm) MAX. 16" (406,4 mm) MIN. BOTTOM OF SHEATHING FIGURE 8 TFP6IO Page 11 of 28 ATTIC 2" MIN. 12" MIN. F0(3'48 mm) ' (304,8 mm) SPRINKLER PROTECTED SPACE FYXYXYXY/kYXYXYXY 6" MIN. (152,4 mm) CEILING / / NON-COMBUSTIBLE JOIST / INSULATION FOR FIRE / PROTECTION OF CPVC CPVC PIPE CEILING PIPE, NOT FREEZE & FITTINGS SPRINKLER PROTECTION FIGURE 9A NON-COMBUSTIBLE INSULATION ATTIC FOR FIRE PROTECTION OF CPVC PIPE, SPRINKLER NOT FREEZE PROTECTION PROTECTED OPTION A / OPTION B SPACE MIN. Iv \I (1524 mm) I JOIST \ CPVC PIPE CEILING & FITTINGS SPRINKLER CEILING FIGURE 9B NON-COMBUSTIBLE INSULATION ATTIC FOR FIRE PROTECTION OF CPVC PIPE, SPRINKLER NOT FREEZE PROTECTION PROTECTED SPACE VERTICAL RISE V (152,4 mm) CEILING JOIST CEILING CPVC PIPE ELEVATION & FITTINGS CHANGE CEILING FIGURE 9C FIGURE 9 NON-COMBUSTIBLE INSULATION FOR THE PROTECTION OF CPVC PIPE SINGLE DIRECTIONAL SPRINKLERS AS APPROPRIATE FOR RESPECTIVE SLOPE DRAFT CURTAIN 8" MIN. (SHOWN) (203,2 mm) OR FULL WALL I TOROOFDECK —> II'\ A WHEN ANGLE "A" DOES BNI NOT EQUAL ANGLE "B" FIGURE 10 PERMITTED USE OF ATTIC SPRINKLERS FOR MISMATCHED SLOPES AP or STANDARD SPRAY SPRINKLER COVERAGE ON SLOPE BE, SD or HIP COVERAGE ON HORIZONTAL CEILING ROOF JOIST JOIST OR TOP CHORD AP or STANDARD SPRAY SPRINKLER COVERAGE ON SLOPE BB, SD or HIP COVERAGE ON HORIZONTAL 2" (50 mm) VENT PERMITTED TOP OF MAXIMUM INSULATION NON-COMBUSTIBLE ROOF JOIST INSULATION ORTOPCHORD FIGURE 11 COVERAGE STARTING POINT AT EAVE 6-0(1 8m)MAX.-.H - -H H-- 6'-0" (1,8 m) MAX. STANDARD SPRAY SPRINKLERS INSTALLED I PER NFPA 13 IN HIP SLOPE , BACK AREA WHEN TRUSSES I TO BACK ARE FRAMED PARALLEL TO OUTSIDE WALL I I I SPRINKLERS I I I I& I I I TRUSSES IN HIP SLOPE AREA PARALLEL TO OUTSIDE WALL HIP I i i , ,--,,- I I ROOF I.IIi SLOPE -_] I I I OUTSIDE WALL I I I RIDGE LINE SINGLE -----j DIRECTIONAL I 3'-0" (0,9 m) SPRINKLERS I 'T --- MAX. ON / HIP SLOPE HIP RIDGES 3'-0"(0,9m) MAX. ON CPVC PIPE MAY BE USED IN SHADED AREA ONLY HIP SLOPE I FOR CEILING PROTECTION BELOW (SEE PAGE 6) MAXIMUM 40-0" (12,2 m) HORIZONTAL ROOF SPAN (COVERAGE) TFP6IO Page 12 of 28 F— 7-6" (2,3 m) MAX. HORIZONTAL 1111111 II II I I I liii HIP SPRINKLERS -- I I I I I I I I I I I BACK PROTECT AREA ON ---- I I I I I I I I TO BACK FIGURE 12 BOTH SIDES OF - - - I I I I I I I SPRINKLERS /IROOF HIP ROOF INSTALLATION HIPRIDGE - ------ WITH RAFTERS FRAMED RAFTERS IN HIP SLOPE - - - -PERPENDICULAR TO AREA PERPENDICULAR ----HIP--- SLOPE -I I I I I OUTSIDE WALL TO OUTSIDE WALL ". I I SLOPE I (SHOWN WITH HIP ___________ SPRINKLERS PROTECTING OUTSIDE -N N - - - I MAXIMUM WALL -- AREAS TO HIP SLOPE) 28-0' (8,5 m) HORIZONTAL HIP HIP SLOPE AND ADJACENT - - - -t I iRIDGE LINE RIDGES II! I 6-0" (1,8 m) MAX. ,,> 3-0" (0,9 m) SEE FIG. 11 3-0" (0,9 m) MIN. MAX. ON ON HIP SLOPE HIP SLOPE FIGURE 13A HIP ROOF INSTALLATION WITH TRUSSES FRAMED PARALLEL TO OUTSIDE WALL (SHOWN WITH STANDARD SPRAY OR AP SPRINKLERS IN HIP SLOPE) WHERE AN AREA (SHOWN NON-SHADED) IS PROTECTED WITH AP SPRINKLERS, CPVC MAY BE USED FOR CEILING PROTECTION BELOW (SEE PAGE 6) FIGURE 13B HIP ROOF INSTALLATION WITH TRUSSES FRAMED PARALLEL TO OUTSIDE WALL (SHOWN WITH STANDARD SPRAY OR AP SPRINKLERS IN HIP SLOPE AND ADJACENT AREAS TO HIP SLOPE) STANDARD SPRAY SPRINKLERS INSTALLED PER NFPA 13 IN HIP SLOPE AREA WHEN TRUSSES ARE FRAMED PARALLEL TO OUTSIDE WALL TRUSSES IN HIP SLOPE AREA PARALLEL TO OUTSIDE WALL OUTSIDE WALL WHERE AN AREA (SHOWN NON-SHADED) IS PROTECTED WITH AP SPRINKLERS, CPVC MAY BE USED FOR CEILING PROTECTION BELOW (SEE PAGE 6) HIP RIDGES I I I b6'0"(18m)MAX. BACK I "NI I TO BACK I I I \ I• SPRINKLERS I I I I / 1 I HIP I I ISLOpEl I - ROOF ' \SLOPE I I I • I,"I I 1-5 I I I/I I I RIDGE LINE I I I/Is I I/I I III ((I I I CPVC PIPE MAY BE USED IN SHADED AREA ONLY FOR CEILING PROTECTION BELOW (SEE PAGE 6) TFP6IO Page 13 of 28 Attic Spaces Greater Than 60 ft (18,3m) up to 80 ft (24,4m) Wide, (refer to Figures 14 and 15). Only 8.0 K, BB Sprinklers in conjunction with AP Sprinklers or Standard Spray Sprinklers can be used to protect attics up to 80 ft (24,4 m) wide. NOTES: Attics over 80 ft (24,4 m) wide must use Standard Spray Sprinklers throughout because Attic Sprinklers have not been tested in this scenario. For single ridge construction (refer to Figure 14A and 1413), use 8.0K, BB Sprinklers to protect the center portion. AP Sprinklers (refer to Figure 14A) or Standard Spray Sprinklers (refer to Figure 1413) are then used to protect up to 10 ft (3,1 m) of width at the eaves beyond the maximum allowable 60 ft (18,3 m) span of the 8.0K, BB Sprinklers. For hip roof construction (refer to Figure 15), use 8.0K, BB Sprinklers in the center portion and HIP Sprinklers can be located down the entire hip. AP Sprinklers or Standard Spray Sprinklers are then used to protect up to 10 ft (3,1 m) of width at the eaves beyond the maximum allowable 60 ft (18,3 m) span of the 8.0K, BB Sprinklers, and the maximum allowable horizontal coverage of the HIP Sprinklers. ISEE FIG. 11 -ISEE FIG. 11 SD SPAN (TABLE A) BB SPAN I (TABLE A) AP 10-0 MAX. SPRINKLERS 10-0 MAX. (3,05 m) BE ATTIC SPACED (3,05 m) SPRINKLER (1,83m) SPRINKLER 7-0(1,8 m) AP SPRINKLER 60" TO COVERAGE (1,83 m) S SD ATTIC PRINKLER COVERAGE cI: (1,83 m) SPRINKLERS TO ON CENTER FIGURE 14A FIGURE 14B 101-01, HIP BACK L SPRINKLERS TO BACK SPRINKLERS HIP RIDGES -..J. • • • 10-0 I (3,0 m) AP SPRINKLERS . . RIDGE AT THE EAVES LINE H -' /f PERIMETER . - / ROOF PROTECTION AREA SIB SPAN - .• (TABLE A) .101 10 101-01, (3,0 m) CPVC PIPE MAY BE USED IN SHADED 7-0" to 10-0" AREA FOR CEILING (2,1 m to 3,0 m) PROTECTION BELOW ON CENTER FOR (SEE PAGE 6) AP SPRINKLERS FIGURE 15 TFP6IO Page 14 of 28 BB ATTIC SPRINKLER 3-1/2 MIN. AIR SPACE 36" MIN. (914,4 mm) NO ___________ 1 (88 ADDITIONAL 6" M. SPRINKLER (152,4 mm) REQUIRED BB ATTIC ANY SPRINKLER DISTANCE GREATER THAN 6" zz (152,4 mm) I ADDITIONAL AP OR STANDARD SPRAY SPRINKLER REQUIRED (LOCATE PER FIGURE I/ 14AOR146) s. FIGURE 16A FIGURE 16B There can be a maximum of a 6 in. (152,4 mm) high Horizontal Obstruction as long as it is 36 in. (914,4 mm), measured vertically, below the Attic Sprinkler. If the obstruction is closer or larger, there must be a sprinkler on the other side of the obstruction. Refer to Figures 16A and 16B. This criteria does not limit the top chord of the trusses or the depth of the raf-ter, but does limit the obstructions that run across the trusses or rafters. BB ATTIC SPRINKLER NO 6" (152,4 mm) /N 36" (914,4 mm) MINIMUM /2k' MINIMUM ADDITIONAL SPRINKLER \\ REQUIRED \MAXIMUM \\ FIGURE 16C LESS THAN BB ATTIC 6" (152,4 mm) SPRINKLER ADDITIONAL AP OR STANDARD SPRAY SPRINKLER(S) REQUIRED (LOCATE PER FIGURE / 14AOR14B) GREATER THAN 4-0" (1,2 m) FIGURE 16D If the Horizontal Obstruction is below the sprinkler, there must be 6 in. (152,4 mm) clearance over the top of the obstruction, and the obstruction must be 4 ft (1,2 m) or less in width to allow water to pass both over and under the obstruction. The clearance is measured perpendicu- lar to and from the bottom of the rafter. If there is not 6 in. must be located on the other side of the obstruc- tion. If the obstruction is greater than 4 ft (1,2 m) in width, a sprinkler must be added below the obstruction. Refer to Figures 160 and 16D, where the maximum spacing for AP Sprinklers is 12 ft (3,7 m) and Standard Spray Sprin- klers is 15 ft (4,6 m). Dimension A Distance B Additional Maximum Horizontal Dimension of Obstruction Minimum Horizontal Distance to Obstruction Sprinkler Required Beyond Obstruction All Vertical Obstructions <6" (152,4 mm) YES 1/2-1" (12,7 mm-25,4 mm) 6" (152,4 mm) NO 1-4" (25,4 mm-101,6 mm) 12" (304,8 mm) NO 4"-8" (101,4 mm-203,2 mm) 24" (609,6 mm) NO 8-10" (203,2 mm-254,0 mm) 5-0" (1,52 m) NO 10-20" (254,0 mm-508,0 mm) 10-0" (3,05 m) NO 20-30" (508,0 mm-762,0 mm) 15-0" (4,57 m) NO 30-40" (762,0 mm-1016,0 mm) 20-0" (6,10 m) NO 40-48" (1016,0 mm-1219,2 mm) 25-0" (7,62 m) NO >48" (1219,2 mm) Any Distance YES DIMENSION A PER TABLE DIMENSION B ADDITIONAL AP PXTABLE OR STANDARD SPRAY SPRINKLER REQUIRED (LOCATE PER FIGURE 14AOR14B) FIGURE 16E For Vertical Obstructions, the maximum dimension of the obstruction is its width and the horizontal distance away from the obstruction is measured horizontally. 36" (914,4 mm) MINIMUM FIGURE 16 (1 0F2) OBSTRUCTIONS TO WATER DISTRIBUTION - BB, SD AND HIP 8011DM STIFFENERS PLANE OF STIFFENERS TFP6IO Page 15 of 28 FIGURE 16F AREA OUTSIDE OF MECHANICAL SPACE OR SIMILAR COMPARTMENTAL SPACE When a BB Sprinkler is 36 in. (914,4 mm) or greater above the space, and 36 in. (914,4 mm) or greater clearance above the space is present, additional sprinklers are not needed. When a BB Sprinkler is 36 in. (914,4 mm) or greater above the space, and a 12 to 36 in. (304,8 to 914,4 mm) clear- ance above the space is present, Intermediate Level Stan- dard Sprinklers are to be installed to protect the obstructed area. Otherwise; the area beyond the mechanical space is to be protected as shown by installing Standard Spray Sprinklers as necessary or by constructing a shear wall and installing SD Sprinklers. Note: In all cases, the mechanical space or similar compartmented space is to be sprinklered per its respective hazard rating and sep- arated from the light hazard attic space by construction that has a fire resistance rating based on the water supply duration required for the hazard rating within the mechanical space or similar com- partmented space. BB ATTIC SPRINKLER 36" (914,4 mm) OR GREATER NO ADDITIONAL OR GREATER 36" (914,4 mm) SPRINKLERS REQUIRED '1Z//ZyA STANDARD - MECHANIC SPRAY SPRINKLER I SPACE FIGURE 16G PIGGYBACK TRUSSES When a BB Sprinkler can be installed below or between stiffeners and maintain the 16 to 22 in. (404,4 to 558,8 mm) distance to the peak, as well as the "V' and "H" clearance to the stiffeners, additional sprinklers are not required. When the stiffeners are located a minimum of 12 in. (304,8 mm) below the BB Sprinkler, the stiffeners are 7-1/2 in. (190,5 mm) maximum in width, the openings are 12 in. (304,8 mm) minimum, and there is 70% minimum open area, additional sprinklers are not required. Otherwise, additional sprinklers are required as shown. V H EEl BB2 BB3 0" 0" 0" 0" V>0" V+15" V+10" V+8" TOP OF BB ATTIC DEFLECTOR SPRINKLER 4" (101,6 mm)TO BB ATTIC 70% MINIMUM SPRINKLER OPEN AREA 152 12" (304,8 mm) TO 36"(914,4mm) STIFFENERS 12" MIN. 36' (914,4 mm) OR GREATER 3-1/2" MIN. INTERMEDIATE / (88,9 mm AIR SPACE (304,8 mm) ) LEVEL STANDARD SPRAY SPRINKLER SPRINKLER STANDARD I MECHANICAL (101,6 Nf j 12" MIN. 4" mm) TO 7-1/2" MAX._ SPRAY SPRINKLER SPACE 6" (152,4 mm) T' (190,5 mm) (304,8 mm) BB ATTIC BB ATTIC LESS THAN SPRINKLER STANDARD SPRINKLER OR 70% OPEN AREA, SPRAY SPRINKLER STANDARD SPRAY OPENINGS LESS THAN LESS THAN -"' SPRINKLER 12" (304,8 mm) WIDE, 12(304 OR STIFFENERS GREATER THAN LEVEL 7-1/2" (190,5 mm) INTERMEDIATE ,:/$// WIDE STANDARD SPRINKLER (304,8 mm) MECHANICAL SPACE PROTECT WITH ADD SHEAR WALL AND STANDARD SPRAY PROTECT WITH SINGLE SPRINKLERS DIRECTIONAL SPRINKLERS SINGLE INSTALL SINGLE DIRECTIONAL DRAFT CURTAIN DIRECTIONAL SPRINKLER OR FULL WALL SPRINKLER FIGURE 16 (2 0F2) OBSTRUCTIONS TO WATER DISTRIBUTION - BB, SD, AND HIP (Obstructions to Water Distribution for Attic Sprinklers Differ from Standard Sprinklers as Shown) TFP6IO Page 16 of 28 3-0" MAX. AP _ (0,9 m) SPRINKLER AP SPRIG 6" MIN. JOIST 152,4 mm) 12" MIN. / 12" MIN. (304,8 mm) (304,8 mm) NON-COMBUSTIBLE INSULATION FOR FIRE PROTECTION OF CPVC CEILING PIPE, NOT FREEZE PROTECTION OPTION A - AP SPRINKLER AP SPRIG 10-0" MAX. I (3,0 m) J 6" MIN. i-JOIST I - (152,4 mm) 12" MIN. 12" MIN. (304,8 mm) (304,8 mm) NON-COMBUSTIBLE INSULATION FOR FIRE PROTECTION OF CPVC CEILING PIPE, NOT FREEZE PROTECTION OPTION B FIGURE 17A EXPOSED CPVC WITH AP SPRINKLERS AND BRANCHLINE OVER JOISTS 3-0" MAX. _ (0,9m) SPRINKLER - SPRINKLER _ ç°- AP SPRIG 10,-0" MAX. (3,0 m) J-. AP SPRIG SPRINKLERS FIGURE 17B EXPOSED CPVC WITH AP WITHIN JOISTS 6" MIN. / NON-COMBUSTIBLE (152,4 mm) / INSULATION FOR FIRE / PROTECTION OF CPVC / PIPE, NOT FREEZE CEILING PROTECTION OPTION A 6" MIN. / NON-COMBUSTIBLE (152,4 mm) / INSULATION FOR FIRE / PROTECTION OF CPVC / PIPE, NOT FREEZE CEILING PROTECTION OPTION B OBSTRUCTION OBSTRUCTION AP A SPRINKLER L SPRINKLER A > 3C or 30 D A!~24(6O9,6mm) D (Use dimension C or D, whichever is greater) ELEVATION VIEW PLAN VIEW Horizontal Minimum Distance Vertical Distance (A) Below Deflector (B) 3 (4152,4 mm) (76,2 mm) >6't09' 4 (>152,4 mm to 228,6 mm) (101,6 mm) >9'to12 6 (>228,6 mm to 304,8 mm) (88,9 mm) >12" to 15' 8' (>304,8 mm to 381,0 mm) (203,2 mm) >15" to 18" 9-1/2" (>38120 mm to 457,2 mm) (241,3 mm) >18" to 24" 12-1/2" (>457,2 mm to 609,6 mm) (317,5 mm) >24" to 30" 15-1/2" (>609,6 mm to 762,0 mm) (393,7 mm) >30' 18" (>762,0 mm) (457,2 mm) FIGURE 18 OBSTRUCTIONS TO WATER DISTRIBUTION FOR MODEL AP SPRINKLERS B AP SPRINKLER OBSTRUCTION TFP6IO Page 17 of 28 A= 6" (150 mm) MAX. B = 12 (300 mm) MAX. P LE ANG SPRIG B ARMOVER SPRIG ARMOVER ANCHLINE BRANCHLINE L SPRIG IRECT MOUNT SER VERTICAL RISER FIGURE 19 HYDRAULIC CALCULATIONS Attic sprinklers must be calculated in conformance with these guidelines. In all cases, the design area shall include the most hydraulically demanding sprinklers. More than one set of calculations may be required to prove different situations. For individual areas requiring more than four AP Sprinklers, the maximum area of attic protected by AP Sprinklers is limited to 3000 ft2 (279 m2) in any single area. Areas must be separated by a minimum of 15 ft (4,6 m) by an area protected by BB, SD,or HIP Sprinklers, in order to be considered separate areas. The hydraulic calculations have been divided into three parts as follows: FIGURE 20-A: "Attics Protected Entirely By BB, SD, and HIP Attic Sprinklers". 20-A-1 (Page 18) BB Sprinklers 20-A-2 (Page 18) BB and HIP Sprinklers 20-A-3 (Page 19) BB and SD Sprinklers 20-A-4 (Page 19) SD Sprinklers 20-A-5 (Page 19) SD and HIP Sprinklers 20-A-6 (Page 19) HIP Sprinklers FIGURE 20-B: "Attics Protected With A Mixture Of BB. SD, and HIP Attic Sprinklers And AP Sprinklers". 20-13-1 (Page 20) SD Sprinklers and AP Sprinklers At The Ridge 20-B-2 (Page 20) BB Sprinklers and AP Sprinklers At The Eaves or Beyond An Obstruction 20-B-3 (Page 21) BB Sprinklers and AP Sprinklers At The Hip 20-B-4 (Page 21) BB Sprinklers, SD Sprinklers, HIP Sprinklers, and AP Sprinklers At The Hip 20-B-5 (Page 22) BB, SD, or HIP Sprinklers and AP Sprinklers in a Dormer, at a Cross, or at an Ell 20-B-6 (Page 22) BB,SD, or HIP Sprinklers and AP Sprinklers Separated By Compartmentalization FIGURE 20-C: "Attics Protected With A Mixture Of BB. SD, and HIP Attic Sprinklers And Standard Spray Sprinklers". 20-C-1 (Page 23) SD Sprinklers and Standard Spray Sprinklers At The Ridge 20-C-2 (Page 23) BB Sprinklers and Standard Spray Sprinklers At The Eaves or Beyond An Obstruction 20-C-3 (Page 24) BB Sprinklers and Standard Spray Sprinklers At The Hip 20-C-4 (Page 25) BB Sprinklers, SD Sprinklers, HIP Sprinklers, and Standard Spray Sprinklers At The Hip 20-C-5 (Page 26) BB, SD, or HIP Sprinklers and Standard Spray Sprinklers in a Dormer, at a Cross, or at an Ell 20-C-6 (Page 26) BB, SD, or HIP Sprinklers and Standard Sprinklers Separated By Compartmentalization a BAMODEL BB MODEL SD MODEL AP BACK TO BACK SINGLE DIRECTIONAL MODEL HIP OR STANDARD SPRAY FIGURE 20 HYDRAULIC CALCULATIONS DRY SYSTEM SHOWN DRY SYSTEM SHOWN TFP6IO Page 18 of 28 FIGURE 20-A-1. BB SPRINKLERS Wet Systems: Calculate the most demanding five sprinklers. Dry Systems: Calculate the most demanding seven sprinklers. See the adjacent figure. DRY SYSTEM SHOWN - >. --._, • -•-•--4- _I I FIGURE 20-A-2. BB AND HIP SPRINKLERS Wet Systems: Calculate the most demanding five sprinklers. Dry Systems: Calculate the most demanding seven sprinklers. Then calculate the most demanding contiguous nine sprinklers with a maximum of seven to be BB Sprin- klers. See the adjacent figures. Use the most demanding calculation. 1 1 - RIDGE £ I & I I I I £ I I I T I I T I \T WALL OR DRAFT CURTAIN AT RIDGE DRY SYSTEM SHOWN I WET SYSTEM SHOWN TFP6IO Page 19 of 28 FIGURE 20-A-3. BB AND SD SPRINKLERS Wet Systems: Calculate the most demanding five BB Sprinklers plus two SD Sprinklers. Dry Systems: Calculate the most demanding seven BB Sprinklers plus up to two SD Sprinklers. See the adjacent figure. DRY SYSTEM SHOWN FIGURE 20-A-4. SD SPRIN- KLERS Wet Systems: Calculate the most demanding five SD Sprinklers. Dry Systems: Calculate the most demanding nine SD Sprinklers. See the adjacent figure. RIDGE I I I I I I I I I I & T T T T T T T I I I \T WALL OR DRAFT CURTAIN AT RIDGE DRY SYSTEM SHOWN FIGURE 20-A-5. SD AND HIP SPRINKLERS Wet Systems: Calculate the most demanding five sprinklers. Dry Systems: Calculate the most demanding nine sprinklers with a maximum of seven to be SD Sprinklers. See the adjacent figure. FIGURE 20-A-6. HIP SPRIN- KLERS Wet Systems: Calculate the most demanding five sprinklers. See the adjacent figure. Dry Systems: Calculate the most demanding nine sprinklers. L)IY IbM zJt1UVVN -. 0 • —f--• - • — DRY SYSTEM SHOWN TFP6IO Page 20 of 28 FIGURE 20-B-1. SD SPRINKLERS AND AP SPRINKLERS AT THE RIDGE Wet Systems: Calculate the most demanding five sprinklers of one type. Use the most demanding calculation. Dry Systems: Calculate the most demanding nine SD Sprinklers, and then calculate the most demanding seven AP Sprinklers. Use the most demanding calcula- tion. See the adjacent figure. FIGURE 20-B-2. BB OR SD SPRINKLERS AND AP SPRIN- KLERS AT THE EAVES OR BE- YOND AN OBSTRUCTION Wet Systems: Calculate the most demanding five BB or SD Sprinklers plus up to two most demanding AP Sprinklers. Dry Systems: Calculate the most demanding seven BB or SD Sprinklers plus up to two most demanding AP Sprinklers. See the adjacent figures. I I I I I I I I II I I RIDGE T T T T T T 77 VT T T\T WALLS OR DRAFT CURTAINS DRY SYSTEM SHOWN L : I I IL I DRY SYSTEM SHOWN AREA AREA AREA —.1 WITH AP I WITH BB I WITH AP I-- SPRINKLERS SPRINKLERS SPRINKLERS STAGGERED N . . . . A SPACING WHEN MORE THAN ONE ROW I\ /. . , •I \10 MINIMUM -. SEPARATION 15'-0" (4,6 m) WALL OR DRAFT N CURTAIN - - N40 HLE N • .-...-- .-_. I N DRY SYSTEM SHOWN AREA AREA AREA 3 WITH AP WITH BB & SD WITH AP SPRINKLERS SPRINKLERS SPRINKLERS 15 -0" (4,6 m) TFP6IO Page 21 of 28 FIGURE 20-B-3. BB SPRINKLERS AND AP SPRIN- KLERS AT THE HIP Where the total number of AP Sprinklers at the hip is greater than four: Wet Systems: Calculate the most demanding five BB Sprinklers plus the two most demanding AP Sprinklers. Then calculate the most demanding area up to 1500 ft2 (137 m2) having AP Sprin- klers, for example, Area 2 in the adjacent upper figure. Use the most demanding calculation. Dry Systems: Calculate the most demanding seven BB Sprinklers plus the two most demanding AP Sprinklers. Then calculate the most demanding area up to 1950 ft2 (181 m2) having AP Sprin- klers, for example, Area 2 in the adjacent upper figure. Use the most demanding calculation. FIGURE 20-B-4. BB SPRINKLERS, SD SPRINKLERS, HIP SPRIN- KLERS, AND AP SPRINKLERS AT THE HIP Where the total number of AP Sprinklers at the hip is four or less: Wet Systems: Calculate the most de- manding five BB, SD, or HIP Sprin- klers plus up to two most demanding AP Sprinklers. Dry Systems: Calculate the most demanding nine BB, SD, or HIP Sprinklers plus up to two most demanding AP Sprinklers (Of the nine BB, SD, or HIP Sprinklers, calculate up to a maximum of seven BB Sprinklers, see adjacent upper figure). Where the total number of AP Sprinklers at the hip is greater than four: Wet Systems: Calculate up to the most demanding five BB, SD, or HIP Sprinklers plus the two most demanding AP Sprinklers. Then calculate the most demanding area up to 1500 ft2 (137 m2) having AP Sprinklers, for example, Area 2. Use the most demanding calculation. Dry Systems: Calculate up to the most demanding nine BB, SD, or HIP Sprinklers, plus the two most demanding AP Sprinklers, and then calculate the most demanding area up to 1950 ft2 (181 m2) having AP Sprinklers, for example, Area 2. Use the most demanding calculation. FIGURE 20-B-5. BB, SD, OR HIP SPRINKLERS AND AP SPRIN- KLERS IN A DORMER, AT A CROSS, AT HIP, OR AT AN ELL Where the quantity of AP Sprinklers in each dormer, cross, or ell is four or less (see the adjacent figure) and all of the dormers, crosses and ells meet the maximum four AP Sprinkler crite- ria, calculate the BB, SD, or HIP Sprin- kler demand as described in Part A-i through A-6 or Part B-i through B-4, plus up to two of the most demanding AP Sprinklers in the dormer, cross, or ell that is adjacent to the BB, SD, or HIP Sprinklers that are being included in the demand calculation. Where the quantity of AP Sprinklers in any dormer, cross, or ell is greater than four, refer to Figure B- 3. SF (4 AP NKLERS R LESS) .\ RIDGE .1 WALL / /•• DORMER BUILT ON TOP OF ROOF OR RIDGE SHEATHING ,,••••••• . TFP6IO Page 22 of 28 FIGURE 20-B-6. BB,SD, OR HIP SPRINKLERS AND AP SPRIN- KLERS SEPARATED BY COMPARTMENTALIZATION Wet Systems: Calculate the BB, SD, or HIP Sprinkler demand as described in Part A-i through A-6 or Part B-i through B-4. Then calculate the most demanding area up to 1500 ft2 (137 m2) having AP Sprin- klers. Use the most demanding calculation. See the adjacent figure. Dry Systems: Calculate the BB, SD, or HIP Sprinkler demand as described in Part A-i through A-6 or Part B-i through B-4. Then calculate the most demanding area up to 1950 ft2 (181 m2) having AP Sprin- klers. Use the most demanding calculation. See the adjacent figure. FIRST CALCULATION .\ •\\ E /'G -•-•- . •/ AS / /1 5 DRY SYSTEM SHOWN SECOND CALCULATION DRY SYSTEM SHOWN NOTE: Dry Pipe = 1500 SQ. FT. (NFPA Light Hazard) x 1.3 x 1.3 = 2535 SQ. FT. S S I I 5/ •+- •// /5 V.. TFP6IO Page 23 of 28 FIGURE 20-C-I. SD SPRINKLERS AND STANDARD SPRAY SPRIN- KLERS AT THE RIDGE Wet Systems: Calculate the most demanding five sprinklers of one type. Use the most demanding calculation. Dry Systems: Calculate the most demanding nine SD Sprinklers. Then calculate the most demanding seven Standard Spray Sprinklers. Use the most demanding calculation. See the adjacent figures. FIGURE 20-C-2. BB SPRINKLERS AND STANDARD SPRAY SPRIN- KLERS BEYOND AN OBSTRUCTION Wet Systems: Calculate the most demanding five BB Sprinklers plus up to two most demanding Standard Spray Sprinklers. Dry Systems: Calculate the most demanding seven BB Sprinklers plus up to two most demanding Standard Spray Sprinklers. See the adjacent figures. I I I I 1 1 1 1 11 & & I RIDGE k-.--- -•_-_ • . . .-. I S T T I I I I I I I I I T\T WALLS OR DRAFT CURTAINS DRY SYSTEM SHOWN F_ RIDGE 4-4 -•---• -+--• f 0 0 0 DRY SYSTEM SHOWN FIGURE 20-C-3. BB SPRINKLERS AND STANDARD SPRAY SPRIN- KLERS AT THE HIP Where the total number of standard spray sprinklers at the hip is greater than four: Wet Systems: Calculate the most demanding five BB Sprinklers plus up to two most demanding Standard Spray Sprinklers. Then calculate the most demanding remote design area, including all sprinkler types, as per NFPA 13. That is, area reduction for quick response and 30% increase for sloped ceilings. Use the most demanding calculation. Dry Systems: Calculate the most demanding seven BB Sprinklers plus up to two most demanding Stand Spray Sprinklers. Then calculate the most demanding design area, including all sprinkler types, as per NFPA 13. That is, 30% increase for sloped ceilings and 30% increase for dry systems. Include all sprinkler types within this area. See the adjacent figure. Use the most demanding calculation. WALL OR DRAFT CURTAIN DRY SYSTEM SHOWN FIRST CALCULATION DRY SYSTEM SHOWN SECOND CALCULATION '1 '1 • \... p •/T A F1 DRY SYSTEM SHOWN NOTE: Dry Pipe = 1500 SQ. FT. (NFPA Light Hazard) x 1.3 x 1.3 = 2535 SQ. FT. TFP6IO Page 24 of 28 FIGURE 20-C-4. BB SPRINKLERS, SD SPRINKLERS, HIP SPRIN- KLERS, AND STANDARD SPRAY SPRINKLERS AT THE HIP Where the total number of Standard Spray Sprinklers at the hip is four or less: Wet Systems: Calculate the most demanding five BB, SD, or HIP Sprin- klers plus up to two most demanding Standard Spray Sprinklers. Dry Systems: Calculate the most demanding nine BB, SD, or HIP Sprin- klers plus up to two most demand- ing Standard Spray Sprinklers . Of the nine BB,SD, or HIP Sprinklers, calcu- late up to a maximum of seven BB Sprinklers. See the adjacent upper figure. Where the total number of standard spray sprinklers at the hip is greater than four: Wet Systems: Calculate the most demanding five BB, SD, or HIP Sprin- klers plus up to two most demand- ing Standard Spray Sprinklers. Then calculate the most demanding remote design area, including all sprinklers types, as per NFPA 13. That is, area reduction for quick response and 30% increase for sloped ceilings. Use the most demanding calculation. Dry Systems: Calculate the most demanding nine BB, SD, or HIP Sprin- klers plus up to two most demand- ing Standard Spray Sprinklers. Of the nine BB,SD, or HIP Sprinklers, cal- culate up to a maximum of seven BB Sprinklers. See the adjacent upper fig- ure. Then calculate the most demand- ing design area, including all sprinkler types, as per NFPA 13. That is, 30% increase for sloped ceilings and 30% increase for dry systems. Include all sprinkler types within this area. See the adjacent figure. TFP6IO Page 25 of 28 FIGURE 20-C-5. BB, SD, OR HIP SPRINKLERS AND STANDARD SPRAY SPRINKLERS IN A DOR- MER, AT CROSS, AT HIP, OR AT AN ELL Where the quantity of standard spray sprinklers in each dormer, cross, or ell is four or less (see the adjacent figure) and all of the dormers, crosses and ells meet the maximum four standard sprin- kler criteria, calculate the Attic Sprin- kler demand as described in Part A-i through A-6 or Part B-i through B-4, plus up to two of the most demanding standard spray sprinklers in the dormer, cross, or ell that is adjacent to the Attic Sprinklers that are being included in the demand calculation. Where the quantity of standard spray sprinklers in any dormer, cross, or ell is greater than four, refer to Figure C-3. STANDARD SPRAY SPRINKLERS (4 OR LESS) STANDARD SPRAY SPRINKLERS - (4 OR LESS) STANDARD SPRAY SPRINKLERS (4 OR LESS) STANDARD SPRAY SPRINKLERS (4 OR LESS) FIGURE 20-C-6. BB, SD, OR HIP SPRINKLERS AND STANDARD SPRINKLERS SEPARATED BY COMPARTMENTALIZATION Calculate the Attic Sprinkler demand as described in Part A-i through A-6 or Part C-i through C-4, and then calcu- late the Standard Spray Sprinklers per NFPA 13. Use the most demanding cal- culation. See the adjacent figure. N.. .\ .\ RIDGE •1 ./ // WALL DORMER BUILT ON TOP OF ROOF OR SHEATHING RIDGE TFP6IO Page 26 of 28 MODEL AP SPRINKLERS WET PIPE SYSTEM (Refer to Figure 20-13-3) Calculation 1: Calculate the most demanding five BB Sprinklers plus the two most demand- ing AP Sprinklers. Calculation 2: Calculate the most demanding area up to 1500 ft2 having AP Sprinklers. In this case the design area will be 800 ft2 (40 ft x 20 ft) Use the most demanding calculation to prove the adequacy of the water supply. Where AP Sprinklers are utilized, CPVC pipe may be used to supply the AP Sprinklers, as well as the ceiling sprin- klers below the AP Sprinklers. For more information, see Page 6. STANDARD SPRAY SPRINKLERS WET PIPE SYSTEM (Ref. Figure 20-C-3) Calculation 1: Calculate the most demanding five BB Sprinklers plus the two most demand- ing Standard Spray Sprinklers. Calculation 2: Calculate the most demanding remote design area, including all sprinklers types, per NFPA 13 (i.e., area reduction for quick response and 30% increase for sloped ceilings). In this case the theoretical design area is 1463 ft2 (1500 ft2 x 075* x 1.3). The actual design area, however, will need to be 1520 ft2 to pick up the entire coverage area of the last BB Sprinkler. Use the most demanding calculation to prove the adequacy of the water supply. Where Standard Sprinklers are utilized, CPVC pipe CANNOT be used to supply the Standard Spray Sprinklers or the ceiling sprinklers below the Standard Spray Sprinklers. * A 25% reduction for 20 ft ceiling. _(5,1 100 (25,4 m) (5rn) 60 (15,2 m) (5,1 M) (10,2 Calculation 1 100' (25,4 m) I 60'(15,2 m) (511 M) L.::___ (10 I ,2 m)-- I ' • I I • I I • Calculation 2 Ll V 12 100'(25,4 m) (5rn) 60'(15,2 m) - (5,1 M) L >2. (10,2 m) • • 1' ' ' ' • • • • Calculation 1 I'. 100'(25,4 m) - H (5rn) 60'(15,2 m) (5,1 M) (10 -- Calculation 2 FIGURE 21 EXAMPLE FOR A WET PIPE SYSTEM HYDRAULIC DESIGN AREA COMPARISON OF MODEL AP SPRINKLERS VERSES STANDARD SPRAY SPRINKLERS WHERE MODEL AP OR STANDARD SPRAY SPRINKLERS ARE USED IN HIP AREAS OUTSIDE THE SCOPE OF APPLICATION FOR MODEL BB BACK-TO-BACK SPRINKLERS TFP6IO Page 27 of 28 MODEL AP SPRINKLERS DRY PIPE SYSTEM (Ref. Figure 20-B-3) Calculation 1: Calculate the most demanding seven BB Sprinklers plus the two most demanding AP Sprinklers. Calculation 2: Calculate the most demanding area up to 1950 ft2 having AP Sprinklers. In this case the design area will be 800 ft2 (40 ft x 20 ft) Use the most demanding calculation to prove the adequacy of the water supply. STANDARD SPRAY SPRINKLERS DRY PIPE SYSTEM (Ref. Figure 20-C-3) Calculation 1: Calculate the most demanding seven BB Sprinklers plus the two most demanding Standard Spray Sprinklers. Calculation 2: Calculate the most demanding remote design area, including all sprinklers types, as per NFPA 13. That is, 30% increase for sloped ceilings and 30% increase for dry systems. In this case the theoretical design area will be 2535 ft2 (1500 ft2 x 1.3 x 1.3). The actual design area, however, will need to be 2720 ft2 to pick up the entire coverage area of the last BB Sprinkler. Use the most demanding calculation to prove the adequacy of the water supply. 100 (25,4 m) (5,1 M) 60 (15,2 m) (5,1 M) (10,2 m) Calculation 1 I 100' (25,4 m) - ± (5rn) * 60' (15,11 ,2 m) - (5rn) •. 40, (10,2 m) :1. I I I I I I I I I I Calculation 2 = 12 100 (25,4 m) (5rn) - 60 (15,2 m) - (5,1 M) (10,m) Calculation N 100(25,4m) ___.j 20 60'(15,2 m ______ 20' (5,1 m) (5,1 in) (10,2m) /> ' * • • Calculation 2 LL_ N FIGURE 22 EXAMPLE FOR A DRY PIPE SYSTEM HYDRAULIC DESIGN AREA COMPARISON OF MODEL AP SPRINKLERS VERSES STANDARD SPRAY SPRINKLERS WHERE MODEL AP OR STANDARD SPRAY SPRINKLERS ARE USED IN HIP AREAS OUTSIDE THE SCOPE OF APPLICATION FOR MODEL BB BACK-TO-BACK SPRINKLERS TFP6IO Page 28 of 28 1400 Pennbrook Parkway, Lansdale, PA 19446 1 Telephone +1-215-362-0700 ji ?' 02018 Johnson Controls. All rights reserved. All specifications and other information Shown Were Current as of document revision date and are Subject to change without notice. Johnson 'I (' NATIONAL FIRE PROTECTION ASSOCIATION and NFPA are registered trod emorkont hoticnol Fire Protection Association; Controls TEFLON lee ,eglelo,od l,odornarh Of DuPontl ELAZEMASTER Isa registered nf tradourk of The Lubriavl Cvrpvnotien 2). PIPE tqCU /Fire & Building I Products Technical Services: Tel: (800) 381-9312 / Fax: (800) 791-5500 0 r'apid response HOME FIRE SPRINKLER SYSTEM BlazeMaster CPVC Fire Sprinkler Pipe & Fittings Submittal Sheet General Description Tyco Fire & Building Products (TFBP) BlazeMaster CPVC Pipe and Fittings are designed exclusively for use in wet pipe automatic fire sprinkler systems. They are made from a specially devel- oped thermoplastic compound com- posed of post chlorinated polyvinyl chloride (CPVC) resin and state of the art additives. TFBP BlazeMaster CPVC products are easier to install than traditional steel pipe systems, and at the same time, provide superior heat resistance and strength as com- pared to traditional CPVC and PVC piping materials used in the plumbing trade. Various adapters are available to connect CPVC pipe to metallic pip- ing. All female pipe thread adapters have brass inserts for durability. Grooved adapters connect directly to grooved end valves and metallic pipe, with flexible grooved end couplings. WARNING Tyco Fire & Building Products (TFBP) BlazeMaster CPVC Pipe and Fittings described herein must be installed and maintained in compliance with this document, as well as with the applica- ble 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 de- vices. 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 Sizes 3/4" to 3" Maximum Working Pressure 175 psi Approvals UL, FM, CUL, NSF, Dade County, LPCB, MEA, and the City of Los Ange- les. (Refer to IH-1900, Rev. 0, Janu- ary 2005 "Installation Instruction & Technical Handbook" for exact list- ing/approval information.) Manufacture Source U.S.A. Material Pipe: ASTM F442, SDR 13.5 Fittings: ASTM F438 (Sch. 40) and ASTM F439 (Sch. 80), ASTM F1970 Color Orange BlazeMaster is a registered trademark of Noveon IP Holding Corp. Page 1 of 6 JANUARY, 2006 TFPI9I5 Page 2 of 6 TFPI9I5 NOMINAL AVERAGE AVERAGE WEIGHT FILL WATER ED WEIGHT FT OF PIPE WEIGHT PER LIFT SIZE O.D. I.D. lbs/ft. lbs/ft PER LIFT lbs. 3/4" 1.050' 0.874' 0.18 0.44 7875 1339 1.315' 1.101' 0.26 0.67 5040 1320 1-1/4" 1.660 1.394" 0.42 1.08 2835 1191 1-1/2" 1.900" 1.598" 0.54 1.41 2205 1213 2.375" 2.003" 0.84 2.20 1260 1084 2-1/2" 2.875' 2.423" 1.26 3.26 1215 1531 3.500" 2.952" 1.87 1 4.83 1 720 1 1344 FIGURE 1— PIPE DIMENSIONS Installation Tyco Fire and Building Products (TFBP) BlazeMaster CPVC Pipe and Fittings are to be installed in accord- ance with IH-1900, Rev. 0, January 2005 "Installation Instruction & Techni- cal Handbook". Care and Maintenance 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- stalling contractor or product manufac- 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 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 affected 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 those responsible for moni- toring proprietary and/or central sta- tion alarms. TFPI9I5 Page 3 of 6 FITTING PART NOMINAL SIZE NOMINAL TAKE-OUT SCHD WEIGHT TYPE NUMBER (TIO) (lb.) TEE 80000 3/4" 5/8" 40 0.11 1/0 80001 1" 11/16" 40 0.19 80002 1-1/4" 7/8 40 0.26 ________________ 80003 1-1/2 1-1/16" 80 0.51 _______ 80004 2 1-3/8" 80 0.90 1 80005 2-1/2" 1-9/16" 80 1.59 1/0 T/0 80006 3" 1-13/16 80 2.41 XxYxZ X Y Z 3/4 x 3/4" x 1" 3/4" 3/4" 5/8 80132 40 0.14 80133 1x3/4x3/4" 9/16" 9/16" 3/4" 40 0.14 80134 1" x 3/4" x 1 3/4" 11/16" 3/4" 40 0.17 80260 1" x 1" x 3/4" 5/8 5/8 13/16" 40 0.16 80135 1-1/4" x 1" x 3/4" 5/8' 5/8" 15/16" 40 0.21 80136 1-1/4" x 1" xl" 3/4" 3/4' 15/16" 40 0.22 80137 1-1/4" x 1' x 1-1/4" 15/16" 15/16" 7/8" 40 0.26 REDUCING TEE 80261 1-1/4" x 1-1/4" x 3/4" 5/8" 5/8" 7/8" 40 0.23 z 80262 1-1/4" x 1-1/4" x 1" 3/4" 3/4" 7/8" 40 0.26 Page 4of6 TFPI9I5 FITTING TYPE PART NUMBER NOMINAL SIZE NOMINAL TAKE-OUT (T!O) SCHD. WEIGHT (lb.) 45" ELBOW 80050 3/4" 3/8 40 0.08 80051 3/8 40 0.11 80052 1-1/4 3/4" 40 0.20 80053 1-1/2 1/2" 80 0.31 80054 3/4" 80 0.56 T/O 80055 2-1/2" 13/16" 80 0.89 80056 1" 80 1.19 80075 3/4" 1/8 40 0.07 COUPLING & 80076 1/8 40 0.11 REDUCING COUPLING 80077 1-1/4" 3/16 40 0.12 1-1/2" 3/16 80 0.25 m 80078 80079 ponan 3/16" un" 80 or 0.38 1' 11 TFPI9IS Page 5 of 6 FITTING PART NOMINAL SIZE NOMINAL TAKE-OUT SCHD WEIGHT TYPE NUMBER (I/O) (lb.) SPRINKLER HEAD ADAPTER 80175E 3/4 x 1/2 NPT 7/16" 80 0.20 80176E 1" x 1/2 NPT 7/16" 80 0.22 [:;T 80175WL 3/4' x 1/2 NPT 7/16 40 0.16 80179 1" x 3/4" NPT 13/16" 40 0.43 SPRINKLER HEAD ADAPTER 80175W 3/4" x 1/2' NPT 1/2' 40 0.19 q; 80176W lx 1/2 NPT 1/2 40 0.18 SPRINKLER HEAD ADAPTER (SPIGOT) 80177L 3/4' x 1/2 NPT 1/2" 40 0.16 80178 1" x 1/2" NPT 9/16" 40 0.20 ~;T/O 80180 1' x 3/4" NPT 7/8 40 0.40 FEMALE ADAPTER _r 80142 3/4" x 3/4" NPT 13/16" 40 0.41 Page 6of6 TFPI9I5 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 have been subject to misuse, 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 for it, any other obligation in connection with the sale of products or parts of prod- ucts. TFBP shall not be responsible for sprinkler system design errors 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, 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. of any and all other warranties, ex- press or implied, including warranties of merchantability and fitness for a par- ticular purpose. This limited warranty sets forth the ex- clusive remedy for claims based on failure of or defect in products, materi- als or components, whether the claim is made in contract, tort, strict liability or any other legal theory. This warranty will apply to the full ex- tent permitted by law. The invalidity, in whole or part, of any portion of this warranty will not affect the remainder. TYCO FIRE & BUILDING PRODUCTS, 451 North Cannon Avenue, Lansdale, Pennsylvania 19446 FM Approved and Fully Listed Sprinkler Pipe Wheatland's Mega-Flow steel fire sprinkler pipe is FM Approved for roll-grooved, plain-end and welded joints for wet systems; and UL, C-UL and FM Listed for use with roll-grooved, plain- end couplings and welded joints for wet, dry preaction and deluge systems. Mega-Thread is FM Approved for use in wet systems and is UL, C-UL and FM Listed for wet, dry and preaction sprinkler systems. Approvals and Specifications Both products meet or exceed these standards: ASTM A795, Type E, Grade A NFPA 13 and NFPA 14 Mega-Thread is approved for standard hanger spacing Manufacturing Protocols Mega-Flow and Mega-Thread are subjected to the toughest possible testing protocols to ensure the highest quality and long-lasting performance. Finishes and Coatings Mega-Flow black steel fire sprinkler pipe receives a proprietary mill coating to ensure a clean, corrosion-resistant surface that outlasts standard lacquer coatings. This coating allows the pipe to be easily painted without special preparation. Mega-Thread is hot-dip galvanized to meet FM requirements for dry systems and is safer to weld than many zinc-coated, light-wall threadable products. Product Marking Each length of Wheatland fire sprinkler pipe is continuously stenciled to show the manufacturer, type of pipe, grade, size and length. Barcoding is acceptable as a supplementary identification method. MEGA-FLOW SPECIFICATIONS NIPS NOM OD NOM ID UL CRR MEGA-FLOW Mega-Flow Schedule Schedule Mega-Flow Schedule Nominal Pcs./Lift 10 40 11/4 1,660 1.530 1.442 1.380 1.80 1.00 1.108 61 11/2 1.900 1.740 1.682 1.610 2.64 1,00 1.556 61 2 2.375 2.215 2.157 2.067 2.14 1.00 1.961 37 21/2 2.875 2.707 2.635 2.469 1.43 1.00 2.504 30 3 3.500 3.316 3.260 3.068 1.34 1.00 3.349 19 4 4.500 4.316 4.260 4.026 1.00 1.00 4.331 19 6 6.625 6.395 6.357 6.065 .75 1.00 8.000 10 Calculated using Standard UL CRR formula, UL Fire Protection Directory, Category VIZY. The CRR is a ratio value used to measure the ability of a pipe to withstand corrosion. Threaded Schedule 40 steel pipe is used as the benchmark (value of 7.0). MEGA-THREAD SPECIFICATIONS NIPS NOM OD NOM ID UL CRR* MEGA-THREAD Mega-Thread Schedule Mega-Thread Schedule L.W.T. Pipe Nominal Pcs./Lift 1 1.315 1.087 1.049 1,00 1.00 .61 1.462 70 1% 1.660 1,416 1.380 1.00 1.00 .39 1.989 51 1½ 1.900 1.650 1.610 1.00 1.00 .31 2.370 44 2 2.375 2.117 2.067 1.00 1.00 .25 3.094 30 Calculated using Standard UL CRR formula, UL Fire Protection Directory, Category VIZY. The CRR is a ratio value used to measure the ability of a pipe to withstand corrosion. Threaded Schedule 40 steel pipe is used as the benchmark (value of 7.0). @ C& <.. PROJECT: CONTRACTOR: DATE: ENGINEER: SPECIFICATION REFERENCE: SYSTEM TYPE: LOCATIONS: COMMENTS: LII MEGA-FLOW-BLACK LI MEGA-THREAD-HOT-DIP GALVANIZED Wheatland Tube JMC STEEL GROUP 3).- FITTINGS. Victaulic® FireLockTM Fittings \,ttauIicr 10.03 1.0 PRODUCT DESCRIPTION Available Sizes 11/4 - 870N32 - DN200 Maximum Working Pressure Pressure ratings for Victaulic FireLockTM Fittings conform to the ratings of Victaulic FireLock EZTM Style 009N couplings (refer to publication 10.64 for more information). Application FireLockTM fittings are designed for use exclusively with Victaulic couplings that have been Listed or Approved for Fire Protection Services. Use of other couplings or flange adapters may result in bolt pad interference. Connects pipe, provides change in direction and adapts sizes or components Pipe Materials Carbon steel 2.0 CERTIFICATION/LISTINGS UM z:S::; [ipç (E® EN 10311 Regulation (EU) No. 305/2011 3.0 SPECIFICATIONS - MATERIAL Fitting: Ductile iron conforming to ASTM A536, Grade 65-45-12. Fitting Coating: Orange enamel. Red enamel in Europe, Middle East, Africa, and India. Optional: Hot dipped galvanized. ALWAYS REFER TO ANY NOTIFICATIONS AT THE END OF THIS DOCUMENT REGARDING PRODUCT INSTALLATION, MAINTENANCE OR SUPPORT. System No. Location J [Spec Section Paragraph Submitted By Date Approved Date vulorn 10.03 1539 Rev N Updated 09/2017 0 2017 Victaulic Company. All rights reserved. victaulic.com 4.0 DIMENSIONS k-CtoE to E a Cto" ~- 0 C 'b to E No. 001 No. 003 No. 002 No. 006 No. 001 No. 003 No. 002 No. 006 90° Elbow 450 Elbow Straight Tee Cap Approximate Approximate Approximate Approximate Actual Nominal Outside Weight Weight Weight Weight Size Diameter C to E Each C to E Each C to E Each I Each inches inches inches lb inches lb inches lb inches lb DN mm mm kg mm kg mm kg mm kg 11/4 1.660 - - - - - .- 0.82 0.3 - DN32 42.4 - - - - - - - - 21 0.82 0.1 1½ 1.900 - - - - 0.4 DN40 48.3 - - - - - - 21 0.2 2 2.375 2.75 . 1.7 2.00 1.8 2.75 2.4 0.88 0.6 DN50 - 60.3 70 1 0.8 I 51 0.8 70 1.1 22 0.3 21/2 2.875 3.00 3.1 2.25 2.2 3.00 3.6 0.88 1.0 73.0 76 1.4 57 1.0 76 1.6 22 0.5 3.30 3.8 3.000 3.00 2.25 2.4 3.00 DN65 76.1 76 1 1.5 57 1.1 76 - 1 1.7 - - 3 3.500 3.38 4.0 2.50 3.1 3.38 5.3 0.88 1.2 DN80 88.9 -86 1.8 64 1.4 -.86 2.4 22 0.5 4.250 4.00 i 5.7 3.00 1 5.1 4.00 7.5 - 108.0 102 2.6 76 . 2.3 102 3.4 -- 1 - - - 4 4.500 4.00 6.7 3.00 5.6 4.00 1 1.00 2.4 DN1 00 114.3 -- 102 - 3.0 _ 76 2.5 102 - f39 L 25 1.1 - - 1.00 5 5.563 4.88 12.6 3.25 i 8.3 4.88 15.7 4.1 141.3 124 5.7 - 83 3.8 124 7.1 25 1 -1.9 5.500 4.88 12.4 3.25 8.2 4.88 15.4 DN125 139.7 124 5.6 82.6 3.7 124 6.9 - - 6.250 5.50 12.6 1 3.50 9.2 5.50 17.9 - 158.8 - _____________ 140 5.7 89 4.2 140 8.0 - 6 6.625 5.50 18.3 3.50 11.7 5.50 22.7 1.00 5.9 DN1SO _4 168.3 140 8.3 - 89 5.3 -140 10.3 - 25 - 2.7 I 6.500 5.43 17.6 3.50 1 11.4 5.50 1 22.0 165.1 140 7.9 89 5.2 - 140 9.9 - - - 8 8.625 6.81 25.5 4.25 20.4 6.94 38.7 1.13 12.7 DN200 _219.1 173 11.6 108 9.3 176 17.6 29 5.8 8.515 6.81 23.1 1 - - 6.94 33.6 - - - -1 216.3 -. - 173 1 10.5 - - 176 -- . _....J 10.03 1539 Rev N Updated 09/2017 © 2017 Victaulic Company. All rights reserved. victaulic.com victaulic.com 5.0 PERFORMANCE Flow Data Size Frictional Resistance Equivalent of Straight Pipe' No. 002 Actual Elbows Straight Tee Nominal Outside No. 001 No. 003 Size Diameter 900 Elbow 450 Elbow Branch Run inches inches feet feet feet feet DN mm meters meters meters meters 1'/4 1.660 0N32 42.4 1½ 1.900 - - - - DN40 - 48.3 - - 1.8 - - 8.5 - - - 2 2.375 3.5 3.5 DN50 - 60.3 - 1.1 21/2 2.875 4.3 -- 0.5 2.2 2.6 10.8 1.1 4.3 73.0 1.3 0.7 3.3 1.3 2.3 11.0 4.5 3.000 4.5 DN65 76.1 1.4 0.7 - 3.4 - 1.4 - 3 3.500 J 5.0 2.6 13.0 5.0 DN80 88.9 1.5 0.8 4.0 1.5 4.250 6.4 3.2 15.3 6.4 108.0 2.0 0.9 4.7 2.0 4.500 6.8 3.4 16.0 6.8 DN100 114.3 2.1 1.0 4.9 2.1 4.2 5 5.563 8.5 1 21.0 8.5 141.3 - 2.6 I 1.3 6.4 2.6 5.500 8.3 1 4.1 20.6 8.3 DN125 139.7 2.5 1.3 6.3 2.5 - 6.250 9.4 4.9 1 25.0 9.6 158.8 2.9 1.5 7.6 1 2.9 - 5.0 25.0 10.0 6 6.625 10.0 DN150 168.3 3.0 1.5 - 7.6 -3.0 6.500 - 9.8 4.9 24.5 9.8 165.1 3.0 1.5 7.5 3.0 8 1 8.625 13.0 5.0 33.0 13.0 DN200 219.1 _4 4.0 1.5 10.1 4.0 -J - 8.515 I 13.0 33.0 13.0 216.3 4.0 - 10.1 - 4.0 I The flow data listed is based upon the pressure drop of Schedule 40 pipe. 10.03 1539 Rev N Updated 09/2017 © 2017 Victaulic Company. All rights reserved. victaulic.com . iCtUkd victaulic.com 6.0 NOTIFICATIONS General Notes NOTE: When assembling FireLock EZTM couplings onto end caps, take additional care to make certain the end cap is fully seated against the gasket end stop. For FireLock EZTM Style 009N/009H couplings, use FireLockTM No. 006 end caps containing the "EZ" marking on the inside face or No. 60 end caps containing the QV EZ" marking on the inside face. Non-Victaulic end cap products shall not be used with Style 009/009V/009H/009N couplings. 7.0 REFERENCE MATERIALS 1064: Victaulic® FireLpckTM Rigid coupling Style 009N 10.02: Victaulic® FireLockTM Rigid Coupling Style 005H with Vic-PlusTM Gasket System 29.01: Victaulic® Terms and Conditions of Sale User Responsibility for Product Selection and Suitability Each user bears final responsibility for waking a determination auto the suitability of Vicfaulic products for a particular end-use application, in accordance with industry standards and protect specifications, and the applicable building codes and related regulations as well as Victaulic performance, maintenance, safety, and warning instructiono. Nothing in this or any other document, nor any verbal recommendation, advice, or opinion from any Victaulic employee, shall be deemed to alter, nary, supersede, or waive any provision of Victaulic Company's standard conditions of sale, installation guide, or this disclaimer. Intellectual Property Rights No statement contained herein concerning a possible or suggested use of any material, product, service, or design is intended, or should be constructed, to grant any license under any patent or other intellectual property right of Victaulic or any of its subsidiaries or affiliates covering such use or design, or as recommendation for the use of such material, product, service, or design in the infringement of any patent or other intellectual properly right. The terms "Patented" or "Patent Pending" refer to design or utility patents or patent applications for articles and/or methods of use in the United States and/or other countries. Note This product shall be manufactured by Victaulic or to Victaulic specifications. All products to be installed in accordance with current Victaulic installation/assembly instructions. Victaulic reserves the right to change product specifications, designs and standard equipment without notice and without incurring obligations. Installation Reference should always be made to the Victaulic installation handbook or installation instructions of the product you are installing. Handbooks are included with each shipment of Victaulic products, providing complete installation and assembly data, and are available in PDF format on our website at www.victaulic.com. Warranty Refer to the Warranty section of the current Price List or contact Victaulic for details. Trademarks Victaulic and all other Victaulic marks are the trademarks or registered trademarks of Victaulic Company, and/sr its affiliated entities, in the U.S. and/or other countries, 10.03 1539 Rev N Updated 09/2017 © 2017 Victaulic Company. All rights reserved. victaulic.com ' iCtLJIid ARGCO's line of Ductile Iron Threaded Fittings conform to, comply with the following standards: ASTM A536 Grade 65-45-12 ASME B 16.3 Ductile Iron Threaded Fittings Class 150 ANSI/ASME B1 .20.1 Pipe Threads, General Purpose (inch) NPT DUCTILE IRON THREADED FITTINGS CATALOG ARGCO SALES: toll free: 800-854-1015 argco.com international: 760-727-1644 1 fax: 800-924-5922 email: info@argco.com DUCTILE IRON THREADED FITTINGS - (J [:Nobce DL F&irqp ham hiiIe shoWl ihm [:DLTlIEIbicamIL. dL Wed idFàiykI tat UFSMW pe. Iin9 can cam 1 0 appmmW 1 fi 50lç Di. IASTh A536 grade -'á- hi pe I.ph àth ny I-.L..ij.- Di Rj 17-Obnemkmimimii In ANSI fflt3 Cbm 11 Thnsdis. ame .dd tE Iuji6.d tme hmm biiK lid tii PF1 pAIL no now Ii low bai D.I. w owemEbw DliLo OewEhm 1 X1!T ID90RD504 1.26 L36 0.44 I X 3W 15 137 1.45 lL 1 i4 X VT 1D0R0704 1.34 1-53 0.04 11/I X3W 1Th5 1.45 IAM IL?? 1 1!4X v 1DORD706 1.58 1.67 075 I IT x r is IJ55 iso ILP2 I liT X 114 1D0R0B07 1.82 1.88 1.08 TXII2 109MUM4 1.48 1.88 liE TX39' 1D0FW905 1.58 197 1.24 7X11 iagOR29DS 1.73 7i lAO 7 Xl 114 1090RL1907 1.90 2.10 1.ö2 2 X I lIT 109MMM 2M 2.Ib liE Dmu- qrvun~ DI Redmbg CoiIir Dan Di 45 Deged ELu 11 1DCP0506 1.50 0.8 I 1W 1]CJfl7 1.75 I.7 110 10CP608 1.94 1.86 21 1 OCROM 225 2.45 1D4560686 1.12 1.12 0.46 1 1W iD457W I-M 1.0 0.73 I lIT 1045B0E86 lA3 1.43 0.2 T 1D45qfl IJSB lim 1.MI PAGE c ARGCO DUCTILE IRON THREADED FITTINGS -03 IM4 ,~JWMUKSM :Mm I X10 IDBUSDSO4 0.75 0.25 1.42 OUT 0.22 1X314 IMLGM Elm aM I (MiT 11.17 I 1/4 X r IDBUS9700 0.80 0.28 1.76 OUT 1.28 I 112X r iiu n.s ai 2.110 orr 0.44 I 117 X 1 1W IDBUSDBOT 0.83 0.31 2.00 OUT 0.30 rxr 1E0l ELM all LSS tJ 0.88 2'X1 1W IDBUS090T 0.BB 0.34 2.48 OUT 0.72 2'X I i2 IMLOM ELM 1134 2.48 DIII 11.81 1A [_ Z 1M606 150 1.50 0.98 1w lDW)T 1.15 1_75 1.50 I 117 IDXO808 1.04 1.94 1.90 2 1DX5000 225 225 2.116 11I4X1 1DX07116 1.58 1.67 1.27 IIITXV 1D08 1.55 1.01 1.45 TX 1 IDX0906 1.73 2.02 2.10 arn •1 'ci I i.iJ •it.i; Vf .ulTnI B1 L 1" 101(06 116 0.32 1 1W 11)1017 Im 0.43 1117 IDKO8 1.33 060 7 11)101) 1.45 0.91 ci*ian DL raa -r um P . - I.. MJZ x 1'x It2,101060604 125 1.25 1.36 0.64 V x r 3M IMMMM LV 1. IAS 1133 1 x ItT x V 101065806 1.50 1.36 1511 0.71 Ii3Wii IIJ1(L 150 1.45 1.50 1135 V x V x 1 1W 101060607 167 1.57 1.58 0.95 I'z I'Zi lar lurakm i.U0 1.50 us 115 I IW x V x VT 10TE170684 1.34 1.25 153 0.82 i irr lUnMM 1.45 is, t I 1(4x I x V 1OT070606 1.56 1.50 1.67 1.00 1 1W iV x I 14 1IMQ7 1.75 lig 135 1. 1114'x rx I 117 1010711608 1.85 1.85 182 I 42 1 1W x 1 1W x 117 lul uuuI 1.34 1.34 Im flJ5 I 114x I 1?4 x 314 101070705 1.45 1.45 1.62 0.02 I 1W1 1Wx1 luuinu'1 1.55 1.58 117 11.85 1 1W x 114'x V 101070708 1.85 1.85 182 1.45 I 1W1 1WxT lurffmm 2.11 2.10 1.60 125 I VT x V x VT 101080604 1.41 1.34 1.66 0.95 1117x134 iunmmm 1.52 13 135 L14 I 117 x1 x 1• 1011)80606 1.55 1.50 1.66 1.17 I 1171x I W 1U160L(J7 IJ32 117 1.60 1.31 I 1/7 x Ix 1 1/7 101080608 1.94 180 1.94 1.45 I 112 xl 1i4i 117 11716011751 111 1.34 1.56 1J5 11/Tx I 114x 314 101080785 1.52 1.45 1.75 1.15 I liT z 1 1W xV lurmffm 1.55 1.55 1.60 1 lilT x I 1WxT 101080709 2.16 2.10 2.02 1.90 I 112 x 1117 x 117 1171606004 141 141 hO 1.15 lllTxl 11T 3f4 101035805 1.52 1.52 1.75 1.24 I 117 I 117 x V larmmm I 1 iso 1.60 IM 1 iiTx 1137x1 10T080807 182 1.82 1.68 1.48 I 117 ii 117 x 2 1171606060 2.16 2.16 2 1.88 Tx VxT 101090609 2.25 2112 2.25 2.15 2i I 1WxT 1I7T60U 2m 2.10 7.60 2_So Tx 1 1/7 x VT 1011)90804 149 1.41 1.58 1.50 TEl lwz3w Ufflamm 1.50 117 117 L82 Tx 1 VT x V 101095885 1.73 1.55 2.02 1.64 Txl llTx 11W 1171606007 1.50 117 2.10 1.80 Txl 1?Tx1 1/7 101090808 2.02 1.94 2.15 2.90 TxllQxT ID (60 2.60 2.16 7.60 TxTx 117 101090994 1.49 1.49 1.85 1.60 2'x7i3W Ic"90M 1.50 1.50 11? 1.88 TxTxV 101090906 1.73 1.73 2.02 1.85 Ti TEl 1W 1171606007 110 110 2.10 2.01 7 * Tx 1117 101095953 2.02 2.02 2.16 2.18 7I2rE2 117 1171606016 250 2.60 2.60 3.01 2 VT * Tx 3W 101100905 1.74 1.60 2.32 2.28 PAGE 4 1:trI..] [;] NFPA® ONFSA The Voice of the Fire Sprinkler Industry LAFSA American Fire Sprinkler Association ARGCO.com For more products, pricing, technical data, SDS, log onto: www.argco.com ARGCO SALES: toll free: 800-854-1015 international: 760-727-1644 1 fax: 800-924-5922 email: info@argco.com 4).-VALVES. Brass Trim Expansion Tank, Valves ~1 OWL F P P r Adjustable Pressure Relief Valve Used in "grid" type and residential sprinkler systems or when pressure relief is required. Adjustable from 75 to 175 PSI*. NParto. '1lFllh.ii Bo x Qty. 06-835-00 % Adjustable PRV - 10 (*System pressure gauge must be used for proper installation and adjustment. Valve is NOT preset.) Angle Globe Valve, Brass UL/ULc Listed 300psi FPPI Angle Globe Valves are specifically designed for use in fire sprinkler systems. Typical use is in a "trim" or "drain" application. Each valve is UL/ULc Listed to 300 PSI. Part No. Box Qty. 06-820-00 Angle Valve 1/2" 8 06-822-00 Angle Valve 3/4" 5 06-824-00 Angle Valve 1" 5 06-826-00 Angle Valve 11/4" 4 06-828-00 Angle Valve 1'/" 4 06-830-00 Angle Valve 2' 2 Ball Valves, Forged Brass, UL/ULc/FM Listed and Approved FPPI Full Port Ball Valves are manufactured of forged brass. Designed for use as a TRIM or DRAIN valve. FNPTxFNPT ULIULc/FM IPart INo. P1IMIi.ii 06-838-00 Ball Valve ¼" 600 PSI 10 06-840-00 Ball Valve 1/2" 600 PSI 10 06-842-00 Ball Valve 3/4 600 PSI 10 06-844-00 Ball Valve 1" 600 PSI 6 06-845-00 Ball Valve 11/4" 600 PSI 6 06-846-00 Ball Valve 1½" 600 PSI 4 06-848-00 Ball Valve 2" 300 PSI 2 17 Brass Trim Valves Globe Valves, with soft seats, Bronze UL/ULc 300psi FPPI Globe Valves are specifically designed for use in fire sprinkler systems. Typical use is in a 'rim" or drain" application. Each valve is UL/ULc Listed to 300 PSI. IPart No. . 06-798-00 Globe Valve 1%" 10 06-800-00 Globe Valve ½" 10 06-802-00 Globe Valve 3%" 10 06-804-00 Globe Valve 1" 5 06-806-00 Globe Valve 11%" 5 06-808-00 Globe Valve 1½' 2 06-810-00 Globe Valve 2 10 Swing Check Valves with soft seats, Bronze (Full Floating Clapper) FPPI small pipe diameter check valves are made from bronze and feature a full floating clapper assembly with soft seat. Clapper design assures proper clapper seating during valve cycle. Part No. 'IFllE.], Box Qt 06-860-00 Swing Check Valve ½" 10 06-862-00 Swing Check Valve 3%" 10 06-864-00 Swing Check Valve 1" 8 06-866-00 Swing Check Valve 11%" 8 06-868-00 Swing Check Valve 11/2 " 4 06-870-00 Swing Check Valve 2" 3 Check Valve with Orifice for Pump Systems Check valve with a full-floating clapper and /32" orifice. Typically used in pump systems. Provides adequate drop in the sensing line without allowing unnecessary pump starts due to major pressure fluctuations in the ½" line. Part No. I1F11[.1i Boxl•1I1 06-860-50 Check Valve 1/2" with /32" orifice 10 Three-way Gauge Valve, Brass UL/ULc Listed 300p5i FPPI Three-way Valves are manufactured from high quality brass alloy and are ULJULc Listed. Rated to 300PSI. Part No. '1l1[s1, 06-600-00 3-Way Gauge Valve, Brass, UL/ULc 10 18 Bulletin 619 July 2019 Model FCA Floor Control Assembly For Use in NFPA 13 and NFPA 13R Systems cULus Listed Features Compact design Grooved component connections for universal application Horizontal and vertical (flow up) installation Product Description The Reliable Model FCA Floor Control Assembly is designed for use as a floor or zone control assembly in NFPA 13 or 13R applications. The product can also be used as a conventional wet system (shotgun) riser. Grooved connections on each com- ponent allow components to be rotated independently, provid- ing maximum flexibility in the field. The assembly includes a butterfly control valve with integral tamper switch, a water flow detector, and a riser check valve with a pressure gauge and a Model TD Test & Drain valve. Multiple orifices and pressure relief options are available for the Model FCA Floor Control As- sembly. Model FCA Valve Model FCA Technical Data Size Takeout (Length) Pressure Rating Weight 2" (50mm) 19-3/4 (502mm) 300 psi (20,7 bar) 26 lbs (11.8 kg) 2-1/2" (65mm) 21-1/4" (5402mm) 250 psi (17,2 bar) 40 lbs (18.1 kg) 3(80mm) 21-3/4" (552mm) 250 psi (17,2 bar) 46.5 lbs (21.1 kg) 4(100mm) 23-1/2" (597mm) 250 psi (17,2 bar) 62 lbs (28.1 kg) Model FCA Equivalent Length of Schedule 10 Pipe Size C=120 (50mm) 16.6 2-1/2" (65mm) 14.0 (80mm) 16.3 (100mm) 20.1 www.reliablesprinkler.com Model FCA Dimensions (Refer to Table D) _—r Model FCA Dimensions (Refer to Figure 1) Size A B C D E F G 6-3/4 3" 15-3/4 19-3/4" 13-1/2" 21-1/2" (50mm) (171 mm) (76mm) (127mm) (400mm) (502mm) (343mm) (546mm) 9-1/4" 3-1/4" 5-1/4" 15-1/2" 21-1/4" 14-1/2" 24-1/2" 2-1/2" (65mm) (235mm) (83mm) (133mm) (140mm) (540mm) (368mm) (622mm) 9-1/2" 3-1/2" 5-1/2" 16-3/4" 21-3/4" 14-1/2" 24-1/2" (76mm) (241 mm) (89mm) (140mm) (425mm) (552mm) (368mm) (622mm) 10-1/2" 4-1/4" 7" 20" 23-1/2" 14-1/2" 26-1/2" (100mm) (267mm) (108mm) (178mm) (508mm) (597mm) (368mm) (673mm) Bulletin 619 Page 2 of 3 July 2019 Reulabig www.reliablesprinkler.com Installation The Reliable Model FCA Floor Control Assembly shall be installed in accordance with NFPA 13, NFPA13R, and the requirements of any authorities having jurisdiction. Failure to follow installation instructions and/or revisions to the arrange- ment of the devices may void the warranty and/or listing of the product. Prior to installation, verify compatibility of the Model FCA materials with the water supply and the environ- ment where the valve will be installed. The Model FCA must be installed in a location where the temperature is maintained at a minimum of 40°F (40C). Heat tracing of wet system valve assemblies is prohibited by NFPA 13. Connect the inlet of the device to the water supply and the outlet of the device to the fire protection system. Ensure proper direction of flow using the diagrams contained in this bulletin and on the device. Drain should be piped to a location that will avoid damage to property and injury to personnel. Maintenance The owner is responsible for maintaining the fire protection system in proper operating condition. Any system main- tenance or testing that involves placing a control valve or detection/control system out of service may eliminate the fire protection that is provided by the fire protection system. Notify any required authorities having jurisdiction and implement appropriate precautions prior to proceeding. When required, the Reliable Model FCA Floor Control Assem- bly and associated equipment shall periodically be given a thorough inspection and test. NFPA 25, "Inspection, Testing and Maintenance of Water Based Fire Protection Systems," provides minimum maintenance requirements. Replace any components found to be corroded, damaged, or worn. Increase the frequency of inspections when the valve is ex- posed to corrosive conditions or chemicals that could impact the valve materials, Guarantee For Reliable Automatic Sprinkler, Co., Inc. guarantee, terms, and conditions, visit www.reliablesprinkler.com, Ordering Information Specify: Reliable Model FCA Floor Control Valve Assembly Size: [2", 2-1/2", 3" or 4"1 Water Flow Switch: [System Sensor (standard)] [Potter (optional)] Orifice Size (K Factor) for Test and Drain Valve: [4.2 (60), 5.6 (80), 8.0 (115), or 11.2(160) for 2" FCA] [5.6 (80), 8.0 (115), 11.2 (160), or 16.8 (240) for 2-1/2", 3", and 4" FCA] Pressure Relief Valve Kit for Test and Drain Valve: [175, 185, 210, 260, or 310 psi for 2" FCA] [175, 185, 210, or 260 psi for 2-1/2", 3", and 4" FCA] FCA Floor Control Assembly Ordering Information Part Number 6BWWOOXYYZ F F_ I I L I Riser Check & Manifold Size0t w_w Watertlow Detector Options X Drain Valve OptionsW Y_Y Pressure Relief Valve Options(2) z 20 = 2" S = System Sensor Flow Detector (Default) 01 = 1" RASCO T&D Valve (K2.8) 1 = 175psi 25 = 2-1/2" P = Potter Flow Detector 02 = 1" RASCO T&D Valve (K4.2) 2 = 185p5i 30 = 3" 03 = 1" RASCO T&D Valve (K5.6) 3 = 210psi 40 = 4" 04 = 1-1/4" RASCO T&D Valve (K4.2) 4 = 260psi 05 = 1-1/4" RASCO T&D Valve (K5.6) 5 = 310psi 06 = 1-1/4" RASCO T&D Valve (K8.0) 07 = 1-1/4" RASCO T&D Valve (K11.2) 08 = 2" RASCO T&D Valve (K5.6) 09 = 2" RASCO T&D Valve (K8.0) 10 = 2" RASCO T&D Valve (Ki 1.2) 11 = 2" RASCO T&D Valve (K16.8) Note: 2" FCA has a 1" drain outlet, 2-1/2" and 3" FCA have a 1-1/4" drain outlet, and 4" FCA has a 2" drain outlet. (2): Pressure Relief Valve option #5 is not available for sizes 2-1/2", 3", and 4" FCA. Bulletin 619 Page 3 of 3 July 2019 ReIiabI www.reliablesprinkler.com 5).- HANGERS. CPVC Pipe Structure Fasteners x2 Fig. 184 ØC x2 Fig. 184 (Formerly Afcon Fig. 515) Double Offset Hanger and Restrainer Size Range: 3/4" through 1" Material: Carbon Steel Finish: Pre-Galvanized per ASTM A653 Service: Hanger and surge restraint for horizontal CPVC piping when installed on the side of the supporting structure. Listed with hardware provided on structural wood beams and composite wood beams (1" minimum). For wood structures with less than 1" thickness, wood blocks may be placed on the backside of the wood structure. #14 x 1" fastener provided must be fully engaged in the wood block. May be installed with concrete, steel, and other structural members with fasteners which comply with the requirements of NFPA 13. Approvals: cULus Listed Installation: Slide CPVC pipe through the double offset hanger and restrainer. Secure the hanger to the supporting structure with the screws provided or with listed fasteners. Features: Beveled edge design helps protect the CPVC pipe from any rough surface and eliminates pipe abrasion. Easily attaches to wood structure with #14 x 1" hex washer head self-threading screw supplied with product. No pre-drilling required. Bottom of pipe is offset] 1/2" from the structure. Eliminates wooden spacer blocks Ordering: Specify CPVC pipe size, figure number and description. FIG. 184: DIMENSIONS (IN) • WEIGHT (LBS) UK Pipe Size B øC H Max. Hanger Spacing (FT.) Approx. Weight/100 3/4 1½ 11/2 31/8 51/8 51/2 17 1 1½ 1½ 1/4 31/8 51/8 6 17 I 72 www.anvilint1.com I, Co C.) I— One Hole Pipe Strap C us - LISTED ,J. CO H = 9 Fig. 185 (Formerly Afcon Fig. 513) Size Range: 3/4" through 2 Finish: Zinc Plated Steel (Hot-Dip Galvanized optional) Service: Hanger for CPVC pipe in the horizontal position on the side of structural wood beams and Steel 20 Ga. (mm) with hanger tab in the upward position only (Fig. A). It can also be used as a guide to limit movement of vertical CPVC pipe with the tab in the horizontal position. Approvals: UL and ULC Listed. Installation: Place hanger over pipe. Secure hanger to mounting surface with screws provided. Steel applications require one (1) #14 x 1" hex washer head self-drilling TEK screw. Not Supplied. Part Number STD-0090. Features: Beveled edge design helps protect the CPVC pipe from any rough surface. Easily attaches to wood structure with #10 xl" hex washer head self threading screw supplied with product. No pre-drilling required. Ordering: Specify CPVC pipe size, figure number and description. Fig. A FIG. 185: DIMENSIONS (IN) . WEIGHT (LBS) cPvc Pipe Size A B oc E F Max. Hanger Spacing (FT.) Approx. Weight/100 (Ibs) '14 17A6 21/2 1/4 11/8 1114 51/2 8 1 1% 2/8 ¼ 11/8 1½ 6 9 1½ 11 '/16 3 ¼ 11/8 1/8 61/2 10 11/2 17/S 3½6 1/4 11/8 2¼ 7 12 2 2 3/8 1/4 11/8 2% 8 14 r i 4i!I www.anvilintLcom 73 • US LISTED Fig. A Fig. 186 (Formerly Afcon Fig. 510) Two Hole Pipe Strap Size Range: 3/4' through 3" Finish: Pre-Galvanized Carbon Steel per ASTM A653 Service: Hanger for CPVC, steel, & copper pipe in the horizontal position on the bottom and side of structural wood beams, composite beams and Steel 20 Ga. (mm.) (Fig. A, C respectively). Can be used as a restrainer when installed on top of structural wood beams (Fig. B), for limiting pipe movement due to thrust loads during sprinkler system start-up. It can also be used as a guide to limit movement for pipe in the vertical position. When used on composite wood beams, web thickness must be /8' or greater. Approvals: cULus Listed Installation: Snap hanger over pipe. Secure hanger to mounting surface with screws provided. Do not make adjustments to hanger mounting flanges that result in clamping the pipe to the mounting surface. Pipe must be allowed to move freely through hanger. Steel applications require two (2) #14 x 1" hex washer head self-drilling TEK screws. Not Supplied. Part Number STD-0090. Features: Beveled edge design helps protect the CPVC pipe from any rough surface. Easily attaches to wood structure with #10 xl" hex washer head self threading screw supplied with product. No pre-drilling required. Retaining dimples hold the strap onto the pipe for ease of installation. (Not shown) Ordering: Specify pipe size, figure number, and description. Fig. B Fig. C FIG. 186: DIMENSIONS (IN) • WEIGHT (LBS) Pipe Size A B ØC E F Approx. Weight/i 00 (Ibs) '/4 1 213A6 1/4 11/8 1½ 5 1 11/4 31/4 1112 6 11/4 1V16 3/8 1A6 7 11/2 19A6 3/8 21/8 8 2 111716 45A6 29A6 9 21/2 2¼ 53/4 13A6 2¼ 14 3 2% 65A6 31/2 17 74 www.anvi1int1.com I 1 I— C.) Is CO o E 0 . C-) Fig. 187 (Formerly Afcon Fig. 511) TWO Hole 900 Side Mount Strap h! Size Range: 3/4" through 2' Finish: Zinc Plated Steel (Hot-Dip Galvanized optional) Service: Hanger for CPVC pipe in the horizontal position on the bottom of structural wood beams and Steel 20 Ga. (mm.) (Fig. A). Can be used as a restrainer, only in Steel 20 Ga. (mm) (Fig. B). During installation, adjust hanger mounting flanges such that pipe contacts both mounting surface and hanger, minimizing vertical pipe movement. Approvals: UL and ULC Listed. Installation: Snap hanger over pipe. Secure hanger to mounting surface with screws provided. Do not anchor tightly to mounting surface. Pipe must be allowed to move freely through hanger. Steel applications require two (2) #14 x 1' hex washer head self-drilling TEK s Not Supplied. Part Number STD-0090. Features: Beveled edge design helps protect the CPVC pipe from any rough surface. Easily attaches to wood structure with #10 x 1" hex washer head self threading screw supplied with product. No pre-drilling required. Ordering: Specify CPVC pipe size, figure number and description. 0O -oE Fig. A Fig. B FIG. 187: DIMENSIONS (IN) • WEIGHT (LBS) cPvc Pipe Size A B ØC E F Max. Hanger Spacing (FT.) Approx. Weight/100 (Ibs) 3/4 1 11/2 ¼ 1¼ 21/4 51/2 5 1 1 1/8 11/2 1/4 11/8 213A6 6 6 11/4 15A6 1% ¼ 11/8 3/4 61/2 7 1½ 11/2 11/8 ¼ 11/8 3½ 7 8 2 1/4 2 1/4 11/8 3/8 8 9 i11ii www.anvilint1.com 75 01 Fig. 188 1\wo Hole Standoff Strap Size Range: 3/4" through 2" Finish: Zinc Plated Steel (Hot-Dip Galvanized optional) Service: Hanger for CPVC pipe in the horizontal position on the bottom of structural wood beams and steel 20ga. mm . (Fig. B). It can also be used as a guide to limit movement for a pipe in the horizontal/vertical position on the side of structural wood beams, composite wood beams and steel 20ga. mm . (Fig. Approvals: UL and ULC Listed. Installation: Snap hanger over pipe. Position hanger back around pipe but allow for pipe movement. Secure hanger to mounting surface with screws provided. Recheck to insure that the pipe is allowed to move freely through hanger. Steel applications require two (2) #14 x 1" hex washer head self-drilling TEK Not Supplied. Part Number STD-0090. Features: Beveled edge design helps protect the CPVC pipe from any rough surface. Easily attaches to wood structure with #10 xl" hex washer head self threading screw supplied with product. No pre-drilling required. Eliminates wooden spacer blocks. Ordering: Specify CPVC pipe size, figure number and description. Note: If UL listed restraint is required, use Anvil Fig. 188R (Formerly Afcon Fig. 514) on page 77. Fig. A Fig. B FIG. 188: DIMENSIONS (IN) • WEIGHT (LBS) cPvc Pipe Size A B ØC E F Max. Hanger Spacing (FT.) Approx. Weight/100 (Ibs) 3/4 15A6 3% 1/4 11/8 23/4 51/2 5 1 11/8 3% ¼ 11/8 3 6 6 11/4 1½ 3'/1 6 1 ¼ 1 11/8 3/16 1 61/2 1 7 11/2 1/8 4% 1 1/4 11/8 39A6 7 8 2 2 41/2 1 % 11/8 41/8 8 9 76 www.anvilintl.com I, Fig. 188R (Formerly Afcon Fig. 514) iWo Hole Standoff and Restrainer Size Range: 3/4" through 2' Material: Carbon Steel Finish: Pre-Galvanized per ASTM A653 Service: Hanger and surge restraint for horizontal CPVC, steel, and copper piping when installed on the top, bottom, and side of the supporting structure. Guide for vertical CPVC, steel, and copper piping when installed on the side of the supporting structure. Horizontal and vertical seismic restraint per NFPA 13-2016 requirements. May be installed with concrete, steel structural members, and other structural members with fasteners which comply with the requirements of NFPA 13. Approvals: cULus Listed Patents: No. 6,648,278 Installation: Snap hanger over pipe. If needed, squeeze strap back around pipe. CPVC pipe must be allowed to slide freely through the Fig. 188R. Secure hanger to mounting surface with screws provided or with listed fasteners. Features: Beveled edge design helps protect the CPVC pipe from any rough surface and eliminates pipe abrasion. Easily attaches to wood structure with #10 x 1" hex washer head self-threading screw supplied with product. No pre-drilling required. Bottom of pipe is offset 11/2" from the structure. Eliminates wooden spacer blocks. Ordering: Specify CPVC pipe size, figure number and description. Hanger & Restrainer CD L us NflC LISTED co 0 C-) Installation - Backing Nut Hanger = 1 - at top fastener Restraint = 2 - on each fastener Per NFPA-13D and NFPA-13R a Hange Restra amer Aj 7 41I www.anvi1int1.com 7 Fig. 188R (Formerly Afcon Fig. 514) Two Hole Standoff and Restrainer (cont.) C:: L 4ØC Hanger and Restrainer FIG. DIMENSIONS • WEIGHT (IRS) _188R:_ _(IN) CPvC Pipe Size A B oC D E F G Max. Hanger Spacing (FT.) Approx. Weight/100 (Ibs) '14 23/4 3½ '/4 2 1 2/8 1½ 51/2 11 1 213A6 31/2 1/4 23A6 1 2'5A6 11/2 6 12 11/4 2'3A6 31/2 1/4 2½6 1 31/4 11/2 61/2 13 1½ 1 35/s 1 41/4 ¼ 1 27A6 1 1 1 31/2 1½ 7 14 2 1 311/16 1 4/8 1/4 2"A6 1 1 1 4 11/2 8 16 FIG. 188R: LISTED FASTENERS Pipe Wood and Composite Beams Steel (18ga. Minimum) CPVC Screw Supplied or #10 x 1 TEK Screw #14 x 1 TEK Screw or ¼ x 1 TEK Screw Steel & Copper #14 x 1 TEK Screw or ¼ x 11/2 Lag Screw #14 x 1 TEK Screw or ¼ x 1" TEK Screw 78 www.anvilint1.com I T1 'AL dfFCOfl. SEISMIC BRACES Fig. AF03 5 (Formerly Afcon Fig. 035) Model K Brace Clamp Size Range: Carbon Steel Service Pipe: 1" through 12' DN25 through DN200 CPVC Steel Service Pipe: 1" through 3" Brace Pipe: 1" through 2" and DN25 through DN50 Material: Carbon Steel Strap and Ductile Iron Cast Hoop Ends Finish: Plain or D Electro-Galvanized per ASTM B633 Service: Designed to rigidly brace piping systems subjected to lateral seismic loads. Approvals: cULus Listed (UL 203a) and FM Approved (FM 1950-10 & FM 1950- 13). Complies with the hanging and bracing requirements listed in NFPA 13. Features: Unique design provides solutions for carbon steel and CPVC pipe. Beveled edge design helps protect the CPVC pipe from any rough surface and eliminates pipe abrasion. Large installation hole in the cast hoop ends allows the brace pipe to pass through easily without interference. USM APPROVED Visual indication of proper assembly when the head of the set screw bottoms out on the cast hoop ends. Installation Instructions: Place the Model K Brace Clamp over the service pipe to be braced and slide the Sch. 40 brace pipe through the cast hoop ends. The end of the brace pipe must extend at least 1" past the cast hoop ends. Note: The brace pipe may be installed above or below the service pipe. Ensure brace pipe is set to the desired installation brace angle. Torque the set screws alternately and equally until the head of the set screw bottoms out on the cast hoop ends. For riser/4-way brace installations, two Model K Brace Clamps must be installed within 6" of each other. For CPVC installation, ensure the legs of the Model K Brace Clamp strap are parallel to each other and perpendicular to the brace pipe prior to installation. Fire Protection applications shall also be installed per the requirements of NFPA 13 and local codes. Patents: No. 7,516,922, No. 7,523,895 Ordering: Specify service pipe size, brace pipe size, figure number, finish and description. Notes: Anvil Internationala brand bracing components are designed to be compatible ONLY with other Anvil International® brand bracing components, resulting in a Listed seismic bracing assembly. updated UL listing information may be viewed at www.ul.com and updated FM approval information may be viewed at www.approvalguide.com. Disclaimer: Anvil International (Anvil') does not provide any warranties and specifically disclaims any liability whatsoever with respect to Anvil bracing products and components that are used in combination with products, parts or systems not manufactured or sold by Anvil. In no event shall Anvil be liable for any incidental, direct, consequential, special or indirect damages or lost profits where non-Anvil bracing components have been, or are used. SeisBrace® Seismic Fire Protection Design Tool may be accessed at www.seisbrace.com PROJECT lINFORMATION APPROVAL STAMP II Project: []Approved Address: []Approved as noted Contractor: J Not approved Engineer: Remarks: Submittal Date: Notes 1: Notes 2: PH-3.19 V -411 511 -1211 I4.FC0,17. SEISMIC BRACES Fig. AF03 5 (Formerly Afcon Fig. 035) Model K Brace Clamp (cont.) 1' Mm. Set Screw Installation FIG. AF035: DIMENSIONS (IN) • WEIGHT_(LBS) Service Pipe Size 1 "/DN25 Brace Pipe Weight 11/4"/DN32 Brace Pipe Weight 11/2"/DN40 Brace Pipe Weight 2"/DN50 Brace Pipe Weight 1 (0N25) 1.60 1.80 2.00 2.28 11/4(DN32) 1.68 1.88 2.08 2.36 11/2(DN40) 1.64 1.84 2.04 2.32 2 (DN50) 1.88 2.08 2.28 2.56 21/2 1.90 2.10 2.30 2.58 0N65 2.00 2.20 2.40 2.68 3 (DN80) 2.10 2.30 2.50 2.78 4 (DN100) 2.20 2.40 2.60 2.88 5 (DN125) 3.40 3.60 3.80 4.08 DN150 3.80 4.00 4.20 4.48 6 3.90 4.10 4.30 4.58 DN200 4.70 4.90 5.10 5.38 8 4.80 5.00 5.20 5.48 10 5.60 5.80 6.00 6.28 12 - 6.36 6.56 6.84 FIG. AF035 cULus MAX SEISMIC LATERAL LOADS: DIMENSIONS (IN) • LOADS (LBS) Service Brace Max Seismic Brace Load Pipe Size Pipe Size Specialty* Schedule 10 Schedule 40 1-4 (DN25 - DN1 00) 1 - 2 (0N25 - DN50) 2765 2765 2765 5 -10 (DN1 25 - DN200) - 12 11/4 2 3740 3740 NPS Brace Pipe Dimensions per ASTM A53 Sch. 40, ASTM Al 06 Sch. 40, or equivalent. NPS Service Pipe Dimensions per ASTM A53, ASTM Al 06 or equivalent. ON Service Pipe Dimensions per KS 03507/3537 or equivalent listed with Sch. 10 loads. ON Service Pipe Dimensions per KS D 3562 Sch. 40 or Equivalent listed with Sch. 40 loads. ON Brace Pipe Dimensions per KS 0 3562 Sch. 40 or equivalent. * Specialty pipes are commonly referred to as Sch. 7 and Flow Pipe. Please visit the UL listing on the UL website for a complete list of listed specialty pipes. PH-3.19 00. SEISMIC BRACES Fig. AF035 (Formerly Afcon Fig. 035) Model K Brace Clamp (cont.) FIG. AF035 FM MAX SEISMIC LATERAL ASD LOADS***: DIMENSIONS (IN) • LOADS (LBS) • ANGLES (DEGREES) Service Brace Pipe Max Seismic Brace Load at Brace Pipe AngIe** 30-44 45-59 60-74 75-90 Pipe Size Pipe Size Schedule 1 - 11/2 (DN25 - 0N40) 1-2 LW* _ Sch. 40 1680 2380 2920 3250 2-3 (DN50-DN80) LW* _ Sch. 40 1800 2550 3120 3490 (DN25 - DN50) 4 LW* _ Sch. 40 (DN1 00) 1370 1930 2370 2640 5-8 Sch. 10 — Sch. 40 (DN125 - DN200) 730 1040 1270 1420 NPS Brace Pipe Dimensions per ASIM A53 Sch. 40, ASIM Al 06 Sch. 40, or equivalent. NPS Service Pipe Dimensions per ASIM A53, ASIM Al 06 or equivalent. DN Service Pipe Dimensions per EN 10220, GB/I 8163, or equivalent listed with LW loads. ON Service Pipe Dimensions per GB/I 3091, GB/I 3092, EN1 0255M, EN1 0255H, KS D 3507/3537, or equivalent listed with Sch. 10 loads. DN Service Pipe Dimensions per JIS G3452, KS 0 3562 Sch. 40 or equivalent listed with Sch. 40 Loads. ON Brace Pipe Dimensions per GB/I 3091, EN1 0255H, AS 53454 Sch. 40, KS 03562 Sch. 40, or equivalent. * Load Rating for LW above refers to FM Approved Lightwall pipe, commonly referred to as Sch. 7 and Flow Pipe. See FM Approval Guide for approved Lightwall pipe. ** Brace Pipe Angles are determined from vertical. The allowable FM approved capacity of brace subassemblies are listed in Allowable Stress Design (ASD). For Load Resistance Factor Design (LRFD) capacities, the above values will need to be mulitplied by 1.5. PH-3.19 4COfl. SEISMIC BRACES Fig. AF075 (Formerly Afcon Fig. 075) Sway Brace Swivel Attachment Size Range: Brace Pipe: 1" through 2" Sch. 40, DN25 through DN50 Anchor Size: 1/2" Material: Ductile Iron Cast Hoop End with Carbon Steel Baseplate and Hardware Finish: E] Plain or 0 Electro-Ga Ivan ized per ASTM B633 Service: A seismic swivel attachment designed to connect brace pipe to the building structure or to a seismic structural attachment. The Sway Brace Swivel Attachment rigidly braces piping systems subjected to horizontal seismic loads. Approvals: cULus Listed (UL 203a) and FM Approved (FM 1950-10 & FM 1950-13). Complies with the hanging and bracing requirements listed in NFPA 13. Features: Large installation hole in the cast hoop end allows the brace pipe to pass through easily without interference. Field adjustable design requires no threading of the brace pipe The set screw design provides a visual indication that the desired torque value has been achieved Installation Instructions: Insert anchor through the mounting hole and into the structure or seismic structural attachment. For connection to Fig. AF085, AF086, AF087, and AF779 seismic structural attachments, the bolt and nuts shall be installed wrench tight (typically finger tight plus /4 to 1/2 turns). For connection to concrete, wood, timber, steel, and other structures, install fasteners per the fastener manufacturer's installation instructions. Insert Sch. 40 brace pipe into the cast hoop end. The brace pipe should extend a minimum of 0.50" past the back of the cast hoop end. Torque set screw until the head bottoms out on the cast hoop end. Check the cross bolt and nut and ensure the nut is wrench tight. Fire Protection applications shall also be installed per the requirements of NFPA 13 and local codes. Ordering: Specify brace pipe, figure number, finish and description. Notes: Anvil International®brand bracing components are designed to be compatible ONLY with other Anvil International®brand bracing components, resulting in a Listed seismic bracing assembly. Updated UL listing information may be viewed at www.ul.com and updated FM approval information may be viewed at www.approvalguide.com. Disclaimer: Anvil International ("Anvil") does not provide any warranties and specifically disclaims any liability whatsoever with respect to Anvil bradng products and components that are used in combination with products, parts or systems not manufactured or sold by Anvil. In no event shall Anvil be liable for any incidental, direct, consequential, special or indirect damages or lost profits where non-Anvil bracing components have been, or are used. SeisBrace® Seismic Fire Protection Design Tool may be accessed at www.seisbrace.com PROJECT INFORMATION APPROVAL STAMP Project: Approved Address: IIApproved as noted Contractor: E] Not approved Engineer: Remarks: Submittal Date: Notes 1: Notes 2: PH-3.19 Fastener Hole Set Screw Set Screw Installation 4.'FCOfl. SEISMIC BRACES Fig. AF075 (Formerly Afcon Fig. 075) Sway Brace Swivel Attachment (cont.) FIG. AF075: DIMENSIONS (IN) . WEIGHT (LBS) Brace Size Fastener Size A B C D E I W Weight 1(0N25) 1/2 1.00 1.83 1.25 1.38 15A6 25A6 21/8 1.70 11A(DN25) 1.80 F/2(DN4O) 1.90 2 (DN50) 2.04 FIG. AF075 cULus MAX SEISMIC HORIZONTAL LOADS: DIMENSIONS (IN) • LOADS (LBS) Brace Pipe Size Fastener Max Seismic I Max Service Size I Brace Load I Pipe Size 1-2 (DN25 - DN50) I 1/2 I 2015 8 NPS Brace Pipe Dimensions per ASTM A53 Sch 40, ASIM A106 Sch. 40, or equivalent. ON Brace Pipe Dimensions per KS D 3562 Sch. 40 or equivalent. FIG. AF075 FM MAX SEISMIC HORIZONTAL ASD LOADS**: DIMENSIONS (IN) • LOADS (LBS) Brace Fastener Max Seismic Brace Load at Brace Pipe Angle* Pipe Size Size 30-44 45-59 60-74 75-90 1-2 (DN25 - DN5O) 1 /2 1410 2000 2450 2740 NPS Brace Pipe Dimensions per ASTM A53 Sch 40, ASIM A106 Sch. 40, or equivalent. ON Brace Pipe Dimensions per GB/I 3091, EN10255H, JIS G3454 Sch 40, KS D 3562 Sch. 40, or equivalent. * Brace Pipe Angles are determined from vertical. **The allowable FM approved capacity of brace subassemblies are listed in Allowable Stress Design (ASD). For Load Resistance Factor Design (LRFD) capacities, the above values will need to be multiplied by 1.5. FIG. AF075 HORIZONTAL PRYING FACTORS (Pr) PER NFPA: ANGLES (DEG) Brace Orientation* A B C D E F C H I Brace Angle** 30-44 45-59 60-90 30-44 45-59 60-90 30-44 45-59 60-90 Prying Factor (Pr) 3.724 2.150 1.375 2.150 2.150 2.250 2.750 1.945 1.588 * Brace Orientation per NFPA 13-2016 Figure 9.3.5.12.1. ** Brace Pipe Angles are determined from vertical. PH-3.19 JCOn. SEISMIC BRACES Fig. AF077 (Formerly Afcon Fig. 077) Size Range: Brace Pipe: 1" through 11/2 Sch. 40; Anchor Size: 1/2" Material: Carbon Steel Finish: Plain or El Electro-Galvanized per ASTM B633 Service: A seismic swivel attachment designed to connect brace pipe to the building structure or to a seismic structural attachment. The Sway Brace Swivel Attachment rigidly braces piping systems subjected to horizontal seismic loads. Approvals: cULus Listed (UL 203a) and FM Approved (FM 1950-10 & FM 1950-13). Complies with the hanging and bracing requirements listed in NFPA 13. Features: Field adjustable design requires no threading of the brace pipe The set screw design provides a visual indication that the desired torque value has been achieved. Installation Instructions: Sway Brace Swivel Attachment c@ us LISTED APPROVED Insert anchor though the mounting hole and into the structure or seismic structural attachment. For connection to Fig. AF085, AF086, AF087, and AF779 seismic structural attachments, the bolt and nuts shall be installed wrench tight (typically finger tight plus 1/4 to 1/2 turns). For connection to concrete, wood, timber, steel, and other structures, install fasteners per the fastener manufacturer's installation instructions. Insert Sch. 40 brace pipe into the bracket end. The brace pipe should extend a minimum of 0.50" past the back of the bracket. Torque set screw until the head bottoms out on the bracket. Check the cross bolt and nut and ensure the nut is wrench tight. Fire Protection applications shall also be installed per the requirements of NFPA 13 and local codes. Ordering: Specify brace pipe size, figure number, finish, and description. Notes: Anvil International® brand bracing components are designed to be compatible ONLY with other Anvil International® brand bracing components, resulting in a Listed seismic bracing assembly. Updated UL listing information may be viewed at www.ul.com and updated FM approval information may be viewed at www.approvalguide.com. Disclaimer: Anvil International ("Anvil") does not provide any warranties and specifically disclaims any liability whatsoever with respect to Anvil bracing products and components that are used in combination with products, parts or systems not manufactured or sold by Anvil. In no event shall Anvil be liable for any incidental, direct, consequential, special or indirect damages or lost profits where non-Anvil bracing components have been, or are used. SeisBrace® Seismic Fire Protection Design Tool may be accessed at www.seisbrace.com IPROJECT INFORMATI ON Project: APPROVAL STAMP l []Approved Address: [JApproved as noted Contractor: J Not approved Engineer: Remarks: Submittal Date: Notes 1: Notes 2: PH-1.18 FIG. AF077 cULus MAX SEISMIC HORIZONTAL LOADS: DIMENSIONS (IN) • LOADS (LBS) Brace Pipe Size Fastener Max Seismic Max Service Size Brace Load I Pipe Size 1 - 11/4 1/2 1000 4 FIG. AF077 FM MAX SEISMIC HORIZONTAL ASD LOADS**: DIMENSIONS (IN). LOADS (LBS) Brace Pipe Size Fastener Size Max Seismic Brace Load at Brace Pipe Angle* 30-44 1 45-59 1 60-74 75-90 1 - 11/4 1/2 430 1 620 1 760 840 * Brace Pipe Angles are determined from vertical. **The allowable FM approved capacity of brace subassemblies are listed in Allowable Stress Design (ASD). For Load Resistance Factor Design (LRFD) capacities, the above values will need to be multiplied by 1.5. AI4FC0I7. SEISMIC BRACES Fig. AF077 (Formerly Afcon Fig. 077) Sway Brace Swivel Attachment (cont.) W~ is 1 10" 'Ale mlil Set Screw-' "—Fastener Hole FIG. AF077: DIMENSIONS (IN) • WEIGHT (LBS) Fastener Size Brace Size A B I c I D E I i W I Weight 1/2 1 1.00 1.83 1.25 1.38 11/8 23A6 21/a 1.12 11/4 2'/16 1.28 FIG. AF077 HORIZONTAL PRYING FACTORS (Pr) PER NFPA: ANGLES (DEG) Brace Orientation* A B C D E F G H I Brace Angle** 30-44 45-59 60-90 30-44 45-59 60-90 30-44 45-59 60-90 Prying Factor (Pr) 3.724 2.150 1.375 2.150 2.150 2.250 2.750 1.945 1.588 * Brace Orientation per NFPA 13-2016 Figure 9.3.5.12.1. ** Brace Pipe Angles are determined from vertical. PH-1.1 8 Threaded Accessories B3205 - Threaded Rod (right-hand threads - both ends) B32051 - Threaded Rod (right & left hand threads) Size Range: /8"-16 thru I8"-9 rod Material: Steel Function: Recommended for use as a hanger support in hanger assemblies. Rod is threaded on both ends with right hand threads of the length shown. Also available with left and right hand threads - specify Fig. B3205L when ordering. Maximum Temperature: 750°F 1399°C) Finish: Plain or Electro-Galvanized, Contact customer service for alternative finishes and materials. Order By: Figure number, rod size, length and finish Specify Length TL ~o L rea ize hd 0000 Standard Design Load Thread Size Thread Length TI 650°F (343°C) 750°F (399°C) Part No. A in. (mm) Lbs. (kN) Lbs. (kN) B3205-3/8 X •1 /8"-16 21/2" (63.5) 730 13.25) 572 (2.54) B3205-'/2x 1 h/2"13 21/2" (63.5) 1350 (6.00) 1057 (4.70) B3205-5/8 x L /811-11 21/2" (63.5) 2160 (9.61) 1692 (7.52) B3205-3/4 x 1 /4"-10 3" (76.2) 3230 (14.37) 2530 (11.25) B3205-1/8 x 1 /8"-9 31/2" (88.9) 4480 (19.93) 3508 (15.60) For larger sizes consult full line pipe hanger catalog ATR - All Threaded Rod - 120" (3.05m) Lengths TOLCO Fig. 99 - All Threaded Rod Cut To Length Size Range: 114"..20 thru /8"-9 rod in 120" lengths or cut to length Material: Steel Maximum Temperature: 750°F (399°C) Finish: Plain or Electro-Galvanized. Contact customer service for alternative finishes and materials. Approvals: Included in our Seismic Engineering Guidelines approved by the State of California Office of Statewide Health Planning and Development (OSHPD). For additional load, spacing and placement information relating to OSHPD projects, please refer to our Seismic Engineering Guidelines, OPM-0052-13. Order By: Figure number, rod size, length and finish OPM Part No. - Size x Length Threads Recommended Load Approx. Wt./100Ft. AIR ) Fig. 99 Per Inch Lbs. (kN) Lbs. (kg) AIR '/" x 120 I 991/4" x length 20 240 (1.07) 12 (5.44) AIR /8° x 120 99-/8" x length 16 730 (3.24) 29 (13.15) AIR 1/2" x 120 99-1/2" x length 13 1350 (6.00) 53 (24.04) AIR /8" x 120 995/8" x length 11 2160 (9.60) 89 (40.37) AIR 3/4" x 120 993/4" x length 10 3230 (14.37) 123 (55.79) AIR hg" x 120 99_7/8" x length 9 4480 (19.93) 170 (77.11) For larger sizes consult full line pipe hanger catalog. All dimensions in charts and on drawings are in inches. Dimensions shown in parentheses are in millimeters unless otherwise specified. Eaton 96 B-Line series Fire Protection Solutions Fig. 200 - "Trimline" Adjustable Band Hanger Fig. 200R (Import) - "Trimline" Adjustable Band Hanger w/Retainer Ring C®US LISTED Size Range - 1/2 thru 8' pipe Material - Carbon Steel, Mu. Galvanized to G90 specifications Function - For fire sprinkler and other general piping purposes. Knurled swivel nut design permits hanger adjustment after installation. Features - (1/2 thru 2") Flared edges ease installation for all pipe types and protect CPVC plastic pipe from abrasion. Captured design keeps adjusting nut from separating with hanger. Hanger is eas- ily installed around pipe. (21/2' thru 8") Spring tension on nut holds it securely in hanger before installation. Adjusting nut is easily removed. Approvals - Underwriters' Laboratories listed (1/2" thru 8') in the USA (UL) and Canada (cUL) for steel and CPVC plastic pipe and Factory Mutual Engineering Approved (3/4" thru 8"). Conforms to Federal Specifications WW-H-171E, Type 10 and Manufacturers Standardization Society SP-69, Type 10. Maximum Temperature - 650°F Finish - Mil. Galvanized. Stainless Steel materials will be supplied with (2) hex nuts in place of a knurl nub. Order By - Figure number and pipe size Note - Figure 200R (import) with retainer ring and non-captured knurl nut. Dimensions • Weights Pipe Rod Size Max. Rec. Approx. Size Inch Metric A B Load Lbs. WtJ100 1/2 3/8 8mm or 10mm 31/8 2/8 400 11 3/4 3/8 8mm 0r10mm 31/8 21h 400 11 1 3/8 8mm or 10mm 33/8 2/8 400 12 1114 3/8 8mm or 10mm 33/4 2/8 400 13 1112 3/8 8mm or 10mm 3 /8 2/8 400 14 2 3/8 8mm or 10mm 41/2 3 400 15 21/2 3/8 10mm 5 /8 41/8 600 27 3 3/8 10mm 5/8 4 600 29 31/2 3/8 10mm 7/8 51/4 600 34 4 3/8 10mm 73/8 5 1000 35 5 1/2 12mm 91/8 61/4 1250 66 6 1/2 12mm 101/8 6Y4 1250 73 8 1/2 12mm 131/8 83/4 1250 136 OFFICE/MANUFACTURING FACILITY • 1375 SAMPSON AVE. • CORONA, CA 92879 • PH: 951.737.5599 • FAX: 951.737.0330 CUSTOMER SERVICE • 800.786.5236 www.tolco.com 1\E.1Tl.EHI COOPER B-LINE 1375 Sampson Ave • Corona, CA 92879 • 800.786.5266 • FAX: 951.737.0330 B-Line Fig. 75- Swivel Attachment c® vs LISTED Size Range - 3/8" Rod Attachment Material - Carbon Steel Function - There are three recommended applications for this product. Fig. 75 may be used as a branch line restraint for structural attachment to anchor bolt, beam clamp, etc. It may be used in a pitched or sloped roof application, to meet requirements of NFPA 13 (2010) 9.1.2.6. It may be used as an upper attachment with short hanger rod to omit seismic bracing. Approvals - Underwriters' Laboratories Listed in the USA (UL) and Canada (cUL) to support up to 4" pipe. Meets requirements of Uniform Building Code (UBC) 1997 Table 0, Section 3.13. Finish - Electro-Galvanized Order By —Figure number Patent #7,887,248 I N........ uTCHEUr CLE May be used as a structural attachment May be used as an upper attachment with short May be used with a pitched roof application, to component of a branch line restraint hanger rod to omit seismic bracing. meet requirements of NFPA 13(2010) Sec 9.1.2.5. Component of State of Fig. 1001 - Sway Brace Attachment California OSHPD Approved Seismic Restraints System Size Range - Pipe size to be braced: 21/2" thru 8" IPS.* Pipe size used for bracing: 1" and 11/4 Schedule 40 IPS. Material - Carbon Steel Function - For bracing pipe against sway and seismic disturbance. The pipe attachment component of a sway brace system: The Fig. 1001 is used in conjunction with a TOLCO 900 Series fitting and joined together with bracing pipe per NFPA 13, forming a complete sway brace assembly. Features - Can be used to brace schedules 7 through 40 IPS. Field adjustable, making critical pre-engineering of bracing pipe length unneces- sary. Unique design requires no threading of bracing pipe. Can be used as a component of a four-way riser brace. Comes assembled and ready for installation. Fig. 1001 has built-in visual verification of correct installation. See installation note below. Installation Note - Position Fig. 1001 over the pipe to be braced and tighten two hex head cone point set bolts until heads bottom out. A mini- mum of 1" pipe extension is recommended. Brace pipe can be installed on top or bottom of pipe to be braced. Approvals - Underwriters Laboratories Listed in the USA (UL) and c®us <> LISTED APPROVED Canada (cUL). Approved by Factory Mutual Engineering (FM).lncluded in Maximum Design Load our Seismic Restraints Catalog approved by the State of California Office of 2-1/2" -6" Allied DynaFlow (Sch. 7) - 1600 lbs. Statewide Health Planning and Development (OSHPD). For additional load, 2-1/2" -6" Sch. 10 &40 -2015 lbs. spacing and placement information relating to OSHPD projects, please refer 8" Sch. 10 & 40 - 2765 lbs. to the TOLCO Seismic Restraint Systems Guidelines. Finish - Plain FM Approved Design Loads* Note - Available in Electro-Galvanized and HDG finish. 2½" - 2400 lbs. Order By - Indicate pipe size to be braced followed by pipe size used for 3 - 4" - 2500 lbs. bracing, figure number and finish. - - 1500 lbs. Important Note - The Fig. 1001 is precision manufactured to perform its function as a critical component of a complete bracing assembly. To ensure performance, the UL Listing requires that the Fig. 1001 must be used only with other TOLCO bracing products. COOPER B-LINE 1375 Sampson Ave • Corona, CA 92879 • 800.786.5266 • FAX: 951.737.0330 et Bolt icluded ts Mounting Hardware Is Not Included Seismic Bracing TOLCO Fig. 909 - No-Thread Swivel Sway Brace Attachment (UL Listed) Size Range: 1(25mm) bracing pipe. For brace pipe sizes larger than OPIVI C@ us V (25mm), use Fig. 980. Available with holes for 5,", or 3/4" fastener LISTED attachment. Material: Steel, hardened cone point set bolt Function: The structural component of a sway and seismic bracing system Features: This product's design incorporates a concentric attachment opening which is critical to the performance of structural seismic connections NFPA 13 indicates clearly that fastener table load values are based only on concentric loading. No threading of the bracing pipe is required. Open design allows for easy inspection of pipe engagement. Application Note: Fig. 909 is used in conjunction with the Fig. 1000, Fig. 1001, Fig. 4A or Fig. 4L or other approved TOLCO attachment to pipe, and joined together with bracing pipe. Sway brace assemblies are intended to be installed in accordance with NFPA 13. The required type, number and size of fasteners used for the structure attachment fitting shall be in accordance with NFPA 13. Approvals: Underwriters Laboratories Listed in the USA (UL) and Canada (cUL). Included in our Seismic Engineering Guidelines approved by the State of California Office of Statewide Health Planning and Development (OSHPD). For additional load, spacing and placement information relating to OSHPD projects, please refer to our Seismic Engineering Guidelines, OPM-0052-13. Installation Instructions: Fig. 909 is the structural or transitional attachment component of a longitudinal or lateral sway brace assembly. It is intended to be combined with the "bracing pipe" and TOLCO "braced pipe" attachment, Fig. 1000, 1001, 2002, 3000, 4A, 4LA or other approved TOLCO attachment to pipe to form a complete bracing assembly. NFPA 13 guidelines should be followed. To Install: Place the Fig. 909 onto the bracing pipe. Tighten the set bolt until the head bottoms out on surface. Attachment can pivot for adjustment to proper brace angle. Finish: Plain or Electro-Galvanized. Contact customer service for alternative finishes and materials. Order By: Figure number, fastener attachment size and finish Part Mounting Hole Brace Max. Design Approx. Number D Pipe Size B Load W000 in. (mm) in. (mm) in. (mm) lbs. (kN) lbs. (kg) 909_1/2 * 17/32" (13.5) 1" 1251 1 /8" 141.31 2015 (8.96) 91 (41.3) 909-/8 11/16" (17.5) 1" 1251 1/8" (41.3) 2015 (8.96) 90 (40.8) 9139.3/4 13/16" (20.6) 1" (25) 1/8" 141.31 2015 (8.96) 89 140.41 Standard size Important! - For load information when using Fig. 909 with pre-installed or post-installed concrete anchors in compliance with NFPA 13 (2016) or ASCE 7-10, including prying factors, see page 106. Eaton's B-Line series seismic bracing components are designed to be compatible only with other B-Line series bracing components, resulting in a listed seismic bracing assembly. Eaton B-Line Division warranty for seismic bracing components will be the warranty provided in Eaton B-Line Division standard terms and conditions of sale made available by Eaton, except that, in addition to the other exclusions from Eaton B-Line Division warranty, Eaton makes no warranty relating to B-Line series seismic bracing components that are combined with products not provided by Eaton. All dimensions in charts and on drawings are in inches. Dimensions shown in parentheses are in millimeters unless otherwise specified. Eaton 62 B-Line series Fire Protection Solutions B-Line Fig. 4L Longitudinal "In-Line" Sway Brace Attachment Size Range - 2" through 8" IPS. Material - Carbon Steel Function - For bracing pipe against sway and seismic disturbance Approvals - Underwriter's Laboratories Listed in the USA (UL) and Canada (cUL) 2" - 8". Approved by Factory Mutual Engineering (FM), 21/2" - 8" pipe. Installation Instructions - The Fig. 4L is the "braced pipe" attachment component of a longitudinal sway brace assembly. It is intended to be combined with the "bracing pipe" and TOLCO structural attachment component to form a complete bracing assembly. NFPA 13 and/or OSHPD guidelines should be followed. To Install - Place the Fig. 4L over the pipe to be braced and tighten bolts. Then engage "bracing pipe" into jaw opening and tighten set bolt until hex head snaps off. Jaw attachment can pivot for adjustment to proper brace angle. Finish - Plain Note - Available in Electro-Galvanized and HDG finish. Order By - Figure number, pipe size and finish. c®us LISTED APPROVED 4-Way Riser Brace (Plan View) Dimensions • Weights Longitudinal Brace Sizes Max. Rec. Load *Max Rec. Approx. A C D Bolt Size Lbs. (CULUS) Load Lbs. (FM) Wt./100 2 5/8 2Y16 2Y6 1/2 2015 - 247 2½ 67A6 21/2 2 3/4 1/2 2015 3000 253 3 7 23/4 3'/16 1/2 2015 1550 268 4 81/2 3/8 3W16 1/2 2015 1550 348 5 9/' 3/ 4/s 1/2 2015 1450 380 6 11½ 5 51/o 1/2 2015 1450 640 8 13 1/4 55/s 5 5/8 1/2 2015 1450 728 * Load shown is allowable with brace installed, between 30° - 90°. No reduction of load based on brace angle is required. FM approved when used with 1", 1114", 11/2" or 2" Sch. 40 brace pipe Cooper B-Line, Inc.'s ('Cooper B-Line") seismic bracing components are designed to be compatible only with other Cooper B-Line bracing components, resulting in a listed seismic bracing assembly. Cooper B-Line's warranty for seismic bracing components will be the warranty provided in Cooper B-Line's standard terms and conditions of sale made available by Cooper B-Line, except that, in addition to the other exclusions from Cooper B-Line's warranty, Cooper B-Line makes no warranty relating to Cooper B-Line's seismic bracing components that are combined with products not provided by Cooper B-Line. COOPER B-LINE 1375 Sampson Ave • Corona, CA 92879 • 800.786.5266 • FAX: 951.737.0330 Fig. 25 - Surge Restrainer Size Range - One size fits 3/4 thru 2 pipe. Material - Pre-Galvanized Steel Function - Designed to be used in conjunction with TOLCO® Band Hangers to restrict the upward movement of piping as it occurs during sprinkler head activation or earthquake type activity. The surge restrainer is easily and efficient- ly installed by snapping into a locking position on the band hanger. This product is intended to satisfy the requirements as indicated in the National Fire Protection Association NFPA 13, 2010 edition, 9.2.3.4.4.1 and 9.2.3.4.4.4 Can be used to restrain either steel pipe or CPVC plastic Pipe. Approvals - Underwriters' Laboratories Listed galy when used with TOLCO band hangers Fig. 2, 2NFPA and 200, in the USA (UL) and Canada (cUL). Finish - Pre-Galvanized Order By - Figure number and TOLCO band hanger, size from 3/4 thru 2. Patent #5,344,108 C®US LISTED ( I. --- :— OFFICE/MANUFACTURING FACILITY • 1375 SAMPSON AVE. • CORONA, CA 92879 • PH. 951 737 5599 • FM: 9517370330 CUSTOMER SERVICE • 800 786.5266 A www.tolco.com 6).- SIGNS. Accessories Fire Sprinkler Accessories Sprinkler Identification Signs SPRINKLERS THROUGHOUT BUI LDI NO AUTOMATIC SPR1K31 ER NUT-OFF VALVE LOCATED FT1 OPPOSITE THIS HN 12 FPPI's Sprinkler Identification Signs are manufactured of aluminum, painted white then printed with fade resistant' red ink. Each sign is drilled for easy installation and is plastic coated to prevent scratching of finish during shipment and final installation. Designed in accordance with NFPA requirements. 'Part 1No. 02-002-00 Blank Sign w/border 6" x 2" 100 02-006-00 Air Control 6" x 2" 100 02-010-00 Air Line 6" x 2" 100 02-014-00 Alarm Line 6" x 2" 100 02-018-00 Alarm Test 6" x 2" 100 02-022-00 Anti-Freeze System 6" x 2" 100 02-023-00 Anti-Freeze System 5" x 7" 100 02-024-00 Auto Sprinkler Shut-Off 12" x 10" 100 02-026-00 Auxiliary Drain 6" x 2" 100 02-034-00 Control Valve 6" x 2" 100 02-036-00 Control Valve x 6" 100 02-037-00 Control Valve x 7" 100 02-038-00 Control Valve 9" x 7" 100 02-042-00 Drain x 2" 100 02-046-00 Drain Valve 6" x 2" 100 02-049-00 Drum Drip 6" x 2" 100 02-050-00 Dry Standpipe 6" x 2" 100 02-051-00 Fire Dept. Connection 6" x 2" 100 02-052-00 FDC w/ Arrow Label 12"x 10" 100 30 02-053-00 Excess Pressure Pump 6" x 2" 100 02-054-00 Entire System 6" x 2" 100 02-055-00 Fire Alarm Bell 9" x 7" 100 02-056-00 Fire Alarm Bell Round 100 02-057-00 911 Fire Alarm Bell 7" Round 100 02-058-00 F.S. Valve Do Not Close 6" x 2" 100 02-060-00 Fire Sprinkler Riser Inside 6" x 2" 100 02-062-00 From City Main 6" x 2" 100 30 02-064-00 General Information 9" x 7" 100 02-066-00 In This Building 6" x 2" 100 02-070-00 In This Section 6" x 2" 100 02-074-00 Inspectors Test 6" x 2" 100 02-077-00 Hydraulic System x 7" 100 02-081-00 Hydraulic System 81/2" x 11" 100 02-083-00 Low Point x 2" 100 02-082-00 Main Control 6" x 2" 100 02-086-00 Main Drain 6" x 2" 100 02-091-00 Multi-use System, Warning 5" x 7" 100 3 FIRE SPRINKLER RISER INSDF. F P P Description Manufactured from .020" white coated aluminum. All sign types are screen printed with a fade resistant red ink. Each sign is shipped with a clear protective plastic coating which can be re- moved at time of installation. Each sign type meets or exceeds NFPA1 3 requirements. All signs (except 7" round) are drilled in four corners to allow for easy installation. All signs (except 7" round) may be installed with sign chain or with any fastener that is suitable for the material that the sign is being attached. The 7" round bell signs are center drilled to allow for installation directly to the bell gong assembly. Type "A" 9" x 7" Control valve signs are drilled with the same four hole pattern as Type "B" 6" x 2" signs to allow for attachment of Type "B" to Type "A". Installation Specifications Installation of aluminum signs is accomplished by several methods. The most common installation procedure is to use #16 Single Jack chain to hang the Material: .020" aluminum with sign on the area being identified. Since all of the above mentioned signs are removable plastic coating predrilled at all four corners, the last link of the chain can be opened and hooked through the top holes on the signs and hung on the appropriate valve or piping. The signs may also be fastened to a flat surface with fasteners appropriate to x 6" the base material. (The 9" x 7" Fire Alarm Bell sign must be drilled with a 3/8" hole x 7" if it is to be attached directly to the bell gong.) 12"x10" 8.5" x 11" 7" Round See current catalog for a full listing of all available signs. 3198 LIONSHEAD AVE CARLSBAD, CA 92010 TEL + 1760 599-1168 +1800344-1822 FAX + 1 800 344-3775 © 2012 Fire Protection Products, Inc. MIT IT 11 9 i{1] 7).- FIRESTOP. SECTION A-A System No. C-AJ-1175 March 05, 2007 F Rating-2 Hr T Rating-0 Hr W Rating - Class I (See Item 4) SECTION A-A Floor or Wall Assembly -Min 2-1/2 in. (64 mm) thick lightweight or normal weight (100-150 pcf or 1600-2400 kg/rn3) concrete. When Configuration A is used or when Configuration B is used in conjunction with the steel sleeve (Item IA), floor may be constructed of any nun 6 in. (152 mm) thick UL Classified hollow core Precast Concrete Units* . Wall may also be constructed of any UL Classified Concrete Blocks*. Max diam of circular through opening is 10 in. (254 mm). See Concrete Blocks (CAZT) and Precast Concrete Units (CFTV) categories in the Fire Resistance Directory for names of manufacturers. IA. Steel Sleeve - (Optional) - Noni 10 in. diam (or smaller) Schedule 10 (or heavier) steel pipe sleeve cast into concrete floor or wall. Sleeve to be flush with or project max 2 in. from top surface of floor or from both surfaces of wall. As an alternate, nom 10 in. (254 mm) diam (or smaller) sleeve fabricated from nom 0.019 in. (0.48 mm) thick galv steel cast or grouted into floor or wall assembly flush with floor or wall surfaces. 2. Through Penetrants - One metallic pipe, conduit or tubing to be installed either concentrically or eccentrically within the firestop system. Max annular space between pipe, conduit or tubing and edge of through opening not to exceed 1-3/8 in. (35 mm). Min annular space between pipe or conduit and edge of through opening is in. (point contact). Pipe, conduit or tubing to be rigidly supported on both sides of floor or wall assembly. The following types and sizes of metallic pipes, conduits or tubing may be used: Steel Pipe - Nom 8 in. (203 mm) diam (or smaller) Schedule 10 (or heavier) steel pipe. Conduit - Nom 6 in. (152 mm) diam (or smaller) rigid steel conduit. Conduit-- Nom 4 in. (102 mm) diam (or smaller) steel electrical metallic tubing. Iron Pipe - Nom 4 in. (102 mm) diam (or smaller) cast or ductile iron pipe. Copper Tubing - Nom 6 in. (152 miii) dianu (or smaller) Type L (or heavier) copper tube. Copper Pipe - Nom 6 in. (152 mm) dianu (or smaller) Regular (or heavier) copper pipe. Firestop Configuration A 3. Packing Material - Min liii. (25 mm) thickness of tightly-packed mineral wool batt material used as a permanent form. Packing material to be recessed from top or bottom surface of floor or from either surface of solid concrete wall as required to accommodate the required thickness of caulk fill material (Item 4). When wall is constructed of concrete block, packing material is to be installed on both sides of wall assembly. When precast hollow core floor is used, packing material must be installed on bottom surface of floor. 4. FiIl,Void or Cavity Materials* - Caulk or Sealant —Applied to fill the annular space to a miii depth of 1/2 in. (13 mm) flush with the top or bottom surface of the floor or either surface of the solid concrete wall. A nun 1/4 in. (6 mm) diam bead of caulk shall be applied to the floor or wall surface where the pipe, conduit or EMT is installed in point contact with the edge of the through opening. When wall is constructed of concrete block, caulk to be installed symmetrically on both sides of wall assembly. When precast hollow core floor is used, caulk fill material must be installed on bottom surface of floor. 3M COMPANY - CP 25WB+ or FB-3000 WT. (Note: W Rating applies only when FB-3000 WT is used flush with the top surface of floor.) Firestop Configuration B Packing Material - Polyethylene backer rod or nom I in. (25 mm) thickness of tightly-packed mineral wool batt insulation firmly packed into opening as a permanent form. Packing material to be recessed min 1/2 in. (13 mnu) from top surface of floor or from both surfaces of wall as required to accommodate the required thickness of caulk fill material (Item 4). Fill, Void or Cavity Materials* - Caulk or Sealant - Applied to fill the annular space to a min depth of 1/2 in. (13 mm) flush with the top surface of the floor or both surfaces of the wall. A mm 1/4 in. (6 mm) diam bead of caulk shall be applied to the floor or wall surface where the pipe, conduit or EMT is installed in point contact with the edge of the through opening. 3M COMPANY - CP 25WB+ or FB-3000 WT. (Note: W Rating applies only when FB-3000 WT is used.) *Bearing the UL Classification Mark This material was extracted and drawn by 3M Fire Protection Products from the 2007 edition of the UI. Fire Resistance Directory. c®os 31V1 Fire Protection Products Product Support .me: 1-800-328-1687 www.3m.com/firestop CAJ 11 75 • 1 of 1 Choose option 4 for FAX ON DEMAND 3: System No. C-AJ-2228 November 20, 2009 F Ratings —2 and 3 Hr (See Item 3) T Ratings - 0,2 and 3 Hr (See Item 2 and 3) W Rating — Class I (See Item 4) SECTION A-A N) 0 0 0 Cl) CD —' CD CA ('1 —' CD —'- CD Floor or Wall Assembly -Min 4-1/2 in. (I 14 mm) thick reinforced lightweight or normal weight (100-150 pcf or 1600-2400 kg/m3) concrete. Wall may also be constructed of any UL Classified Concrete Blocks*. Diam of opening shall be liii. (25 mm) larger than nom pipe diam. See Concrete Block (CAZT) category in the Fire Resistance Directory for names of manufacturers. 2. Steel Sleeve - (Optional) - Nom 4 in. (102 mm) diam (or smaller) Schedule 10 (or heavier) steel sleeve cast or grouted into floor or wall assenibly. T Rating is Hr when sleeve is used. Through Penetrants - One nonmetallic pipe or conduit to be installed within opening. The annular space between pipe or conduit and periphery of opening or sleeve and the T Ratings for the pipes when no sleeve is used are dependent on the type of pipe and nom pipe sizes as shown in the table below. Pipe or conduit to be rigidly supported on both sides of the floor or wall assembly. The following types and sizes of nonmetallic pipes may be used: Polyvinyl Chloride (PVC) Pipe - Nom 3 in. (76 mm) diani (or smaller) Schedule 40 solid core or cellular core PVC pipe for use in closed (process or supply) or vented (drain, waste or vent) piping systems. Rigid Nonmetallic Conduit++— Nom 3 in. (76 miii) diam (or smaller) Schedule 40 PVC conduit installed in accordance with Article 347 of the National Electrical Code (NFPA No. 70). Chlorinated Polyvinyl Chloride (CPVC) Pipe - Nom 3 in. (76 miii) diam (or smaller) SDR 13.5 CPVC pipe for use in closed (process or supply) piping systems. Acrylonitrile Butadiene Styrene (ABS) Pipe - Noni 3 in. (76 mm) diam (or smaller) Schedule 40 solid core or cellular ABS pipe for use in closed (process or supply) or vented (drain, waste or vent) piping systems. Fire Retardant Polypropylene (FRPP) Pipe - Nom 3m. (76 mm) diam (or smaller) Schedule 40 FRPP pipe for use in closed (process or supply) or vented (drain, waste or vent) piping systems. Pipe Type Nom Pipe Diam, In. (mm) Annular Space In. (mm) F Rating Hr T Rating Hr Min Max A,B,C 2(51) 1/8(3.2) 1/2(13) 3 2 A,B,C 3(76) 1/4(6) 1/4(6) 2 0 D 2(51) 1/8(3.2) 1/2(13) 3 3 D 3(76) 1/4(6) 1/4(6) 2 2 E 2(51) 1/8(3.2) 1/2(13) 2 0 E 3(76) 1/4(6) 1/4(6) 2 0 3M Fire Protection Products www.3m.com/firestop C-AJ-2228 • 1 of 2 Product Support line 1-800-328-1687 System No. C-AJ-2228 continued Firestop System —The firestop system shall consist of the following: Fill, Void or Cavity Materials* —Wrap Strip -Nom 1/8 in. (3.2 mm) thick intumescent material supplied in 2 in. (51 mm) wide strips. Wrap strip tightly wrapped around nonmetallic pipe with continuous layers and secured with two 1/4 in. (6 mm) wide bands of filament tape placed 1/2 in. (13 mm) from bottom and top of wrap strip. The layers of wrap strip and its position within the opening are dependent on the pipe size. For nom 2 in. (51 mm) diam (or smaller) pipes, one layer is required, recessed within the opening 2-1/4 in. (57 mm) from the bottom surface of the floor orboth surfaces of the wall. For nom 2-1/2 and 3 in. (64 and 76 mm) diam pipes, two layers are required, recessed within the opening 1- 1/2 in. (38 mm) from the bottom surface of the floor or both surfaces of the wall. 3M COMPANY—Ultra GS Fill, Void or Cavity Materials* - Caulk or Sealant (Optional, Not Shown) - Mm 1/4 in. (6 mm) thickness of caulk or sealant applied within annular space, flush with top of floor. 3M COMPANY— CP 25 WB+ caulk, FB-3000 WT Sealant, FB- 1000 NS sealant, IC I SWB+ caulk or FireDani 150+ caulk. (Note: W Rating applies only when FB-3000 WT or FB- 1000 NS is used. CP 25WB+ and FireDam 150+ not suitable for use with CPVC pipes.) *Bearing the UL Classification Marking ++Bearing the UL Listing Mark Reprinted from the Online Certifications Directory with permission from Underwriters Laboratories Inc. Copyright © 2011 Underwriters Laboratories Inc.® 3M Fire Protection Products Product Support Line www.3m.com/firestop CAJ2228 • 2 of 2 1-800-328-1687 High-performance firestop sealant that also helps minimize sound transfer Product Color: • Red Firestop tested up to 4 hours in accordance with ASTM E 814 (UL 1479)& CAN/ULC S115 Fire Resistance tested for static construction joint systems in accordance with ASTM E 1966 (UL 2079) Re-enterable / repairable Meets UL 1479 aging requirements Helps minimize sound transfer* Applied with conventional caulking equipment (excellent caulk rate) Extensive listed systems Sag-resistant Halogen-free Excellent adhesion Paintable Water clean up FIRE BARRIER SMOKE SEAL I I I(JpiIIc I = iLi Ib04 I I Meets Optional I I otecticii SOUND BARRIER l54I U0 L Irnsrcmraieiil waiamenly I ALL, VOID OR CAVITY MATERIAL FOR USE IN THROUGH-PENETRATION FIRESTOP SYSTEMS SEE UL ARE RESISTANCE DIRECTORY 90G9 3M TM Fire Barrier Sealant CP 25WB+ Product Data Sheet 1 . Product Description 3M' Fire Barrier Sealant CP 25WB+ is a high-perfor- mance, ready-to-use, gun-grade, latex-based, intumescent sealant that dries to form a monolithic fire- stop seal that also acts as a barrier to airborne sound transmission. 3M Fire Barrier Sealant CP 25WB+ helps control the spread of fire, smoke and noxious gasses before, during and after exposure to a fire when installed in accordance with a listed through penetration or fire-resistive joint assembly system. 3M" Fire Barrier Sealant CP 25 WB+ firestops blank openings and penetrations passing through fire-rated floor, floor/ceiling or wall assemblies and other fire-rated interior building construction. The unique intumescent property of this material allows 3M' Fire Barrier Sealant CP 25WB+ to expand and help maintain a firestop penetration seal for up to 4 hours as penetrants are exposed to fire. 3M` Fire Barrier Sealant CP 25WB+ exhibits excellent adhesion to a full range of construction substrates and penetrants. No mixing is required. Product Features LISTED ALL, VOID OR CAVITY MATERIALS BOGS Meets the intent ofLEEDg 110C regulations—helps reduce the quantity of indoor air contaminants that may be odorous, irritating and harmful to the comfort and well-being oft/ic installers and occupants. 250 g L I 'OC contents (less H2O and exempt solvents,). *Muinni:es noise transfer—STC-Rating of 54 when tested in STC 54-rated ira/I assembly 2. Applications High-performance 3M"' Fire Barrier Sealant CP 25WB+ is ideal for sealing single or multiple through penetrations in fire-rated construction. 3M" Fire Barrier Sealant CP 25WB+ is typi- cally used in mechanical, electrical and plumbing applications to firestop openings created by the following penetrations in fire-rated floors, floor/ceilings or walls: metallic pipe, plastic pipe (excluding CPVC), conduit, power and communication cable, cable trays, busways, combos, insulated pipe and HVAC duct penetrations. 3M"' Fire Barrier Sealant CP 25WB+ is also used to firestop blank openings and static construction joints. APPROVED SUBJECT TO THE CONDITIONS OF APPROVAL ASA WALLS FLOOR PENETRATION FIRESTOP WHEN INSTALLED AS DESCRIBED IN THE CURRENT EDITION OF THE FMRC APPROVAL GUIDE LISTED USTED C*1s Intertek Intertek FIRESTOP SYSTEMS FIRESTOP SYSTEMS S SEE INTERTEK DIRECTORY SEE INTERTEK DIRECTORY 3. Specifications 3M' Fire Barrier Sealant CP shall be a one component, ready-to-use, gun-grade, latex-based. intumescent firestop sealant capable of expanding a minimum of') times its dried volume when exposed to temperatures above I000°F (538°C). The material shall be thixotropic and shall be applicable to overhead, vertical and horizontal firestops. The sealant shall be listed by independent test agencies such as UL, Intertek or FM. 3M"' Fire Barrier Sealant CP 25WB+ shall be tested to and pass the criteria of ASTM E 814 (UL 1479) Standard Test Method for Fire Tests of Penetration Firestop Systems. ASTM E 1966 (UL 2079) Standard Test Method for Fire Resistive Joint Systems and CAN/ULC S115 Standard Method of Fire Tests of Firestop Systems. 3M" Fire Barrier Sealant CP 25WB+ meets the requirements of the IBC, lRC, IFC. IPC, IMC, NFPA 5000. NEC (NFPA 70) and NFPA 10]. Typically Specified Division Division 7 Section 07 84 00 — Firestopping Related Sections Section 0784 16 —Annular Space Protection Section 07 84 43 — Fire-Resistant Joint Sealants Section 0786 00— Smoke Seals Section 07 87 00 — Smoke Containment Barriers Section 07 27 00 — Air Barriers Section 21 0000— Fire Suppression Section 22 00 00 — Plumbing Section 26 00 00 — Electrical For technical support relating to 3M Fire Protection Products and Systems, call: 1-800-328-1687 For more information on 3M Fire Protection Products, visit: www.3m.com/firestop 4. Physical Properties Color: Red Application Temperature Range: 400 to 122°F (40 to 50°C) (ASTM C 1299) Service Temperature Range: -200 to 180°F (-280 to 82°C) STC (ASTM E 90 and ASTM E 413): 54 when tested in STC 54-rated wall assembly Surface Burning (ASTM E 84): Flame Spread 0 Smoke Development 0 Hardness (ASTM D 2240 Shore A): 45 Tensile Strength: 85 psi (0.59 MPa) Volume Shrinkage (ASTM C 1241): 28% VOC Less H20 and Exempt Solvents: <I gIL Dry: Under typical conditions of 75°F (23°C) and 50% R.H., sealant becomes tack-free in about ten minutes and dry-to-touch in 30 to 60 minutes. Full dry depends upon ambient conditions and volume of sealant. Typical dry rate is approximately 1/8 inch (3 mm) per day. Unit Volume: 10.1 Ii, oz tube (298.7 niL., 18.2 in), 20 fl. oz. sausage (591.5 mL, 36.1 in1), 27 fl. oz tube (798.5 niL, 48.7 in. 3), 2 gal. pail (7.57 L, 462 in), 5 gal. pail (18.9 L, 1155 in1) Packaging, Storage, Shelf Life Packaging Product packaged in cartridge or pail is enclosed in HDPE plastic containers, sausage is packaged in aluminum foil wrap Storage 3M' Fire Barrier Sealant CP 25WB+ should be stored indoors in dry conditions between 40°F and 90°F (4°C and 32°C) in the original unopened package. Avoid repeated freeze / thaw exposures of the 3M' Fire Barrier Sealant CP 25WB+ prior to installation. Shelf Life 3M' Fire Barrier Sealant CP 25WB+ shelf life is 12 months in original unopened containers from date of packaging when stored above 68°F (2°C). Lot numbering (e.g. 8183A5): First digit = Last digit of year manufactured, Second to fourth digit = Julian Date, Letters = Random to distinguish between lot numbers Installation Techniques Consul! a 3M Authorized Fire Protection Products Distributor / Dealer or Sales Represent alive for Applicable UL, Intertek or other third-party drawings and systein details. Preparatory Work The surface of the opening and any penetrating items should be cleaned to allow for the proper adhesion of the 3M'S Fire Barrier Sealant CP 25WB+. Ensure that the surface of the substrates are not wet and are frost free. Sealant can be installed with a standard caulking gun, pneumatic pumping equipment or it can be easily applied with a putty knife or trowel. Installation Details Install the applicable depth of backing material, if required, as detailed within the applicable UL, Intertek, FM or other third-party listed system. Cut the end of the 3M' Fire Barrier Sealant CP 25WB+ tube spout to achieve the desired bead width when applying. Install the applicable depth of3M" Fire Barrier Sealant CP 25WB+ into the opening flush with the surface of the substrate, or as detailed within the applicable listed system, at the depth for the assembly and rating that is required. Tool within 5 minutes. Clean all tools immediately after use with water. Limitations Do not apply 3M' Fire Barrier Sealant CP 25WB+ when surrounding temperature is less than 40°F (4°C) and in conditions where seals maybe exposed to rain or water spray within 18 hours of application. Do not apply 3M'' Fire Barrier Sealant CP 25WB+ to building materials that bleed oil, plasticizers or solvent (e.g. impregnated wood, oil-based sealants. or green or partially vulcanized rubber). Do not apply 3M' Fire Barrier Sealant CP 25WB+ to wet or frost-coated surfaces or to areas that are continuously damp or immersed in water. NOTICE: This product is not acceptable for use with chlorinated polyvinylchloride (CPVC) pipes. Maintenance No maintenance should be required when installed in accordance with the applicable UL, Intertek, FM or other third- party listed system. Once installed, if any section of the 3M' Fire Barrier Sealant CP 25WB+ is damaged, the following procedure will apply: remove and reinstall the damaged section in accordance with the applicable listed system, with a minimum 1/2 in. (12.7 mm) overlap onto the adjacent material. Availability 3M'' Fire Barrier Sealant CP 25WB+ is available from 3M Authorized Fire Protection Products Distributors and Dealers. 3M' Fire Barrier Sealant CP 25WB+ is available in 10.1 fl. oz. cartridges (12/case), 20.0 fl. oz. sausages (10/case), 27.0 fl. oz. cartridg- es (6/case), 2 gallon pails (I/case) and 5 gallon pails (I/case). For additional technical and purchasing information regarding this and other 3M Fire Protection Products, please call: 1-800-328-1687 or visit www.3ni.com/firestop. Safe Handling Information Consult products Material Safety Data Sheet (MSDS) prior to handling and disposal. Important Notice to User: Technical Information: The technical information, recommendations and other statements contained in this document are based upon tests or experi- ence that 3M believes are reliable, but the accuracy or completeness of such information is not guaranteed. Product Use: Many factors beyond 3M's control and uniquely within user's knowledge and control can affect the use and performance of a 3M product in a particular application. Given the variety of factors that can affect the use and performance of a 3M product, user is solely responsible for evaluating WA the 3M product and determining whether it is fit for a particular purpose and suitable for user's method of application. Warranty and Limited Remedy: 3M warrants that each 3M Fire Protection Product will be free from defects in material and manufacture for 90 days Building and Commercial from the date of purchase from 3M's authorized distributor. 3M MAKES NO OTHER EXPRESS OR IMPLIED WARRANTIES, INCLUDING ANY IMPLIED Services WARRANTY OF MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE. If a 3M product does not conform to this warranty, the sole and Division 3M Center, Building 223-2N-21 exclusive remedy is, at 3M's option, replacement of the 3M product or refund of the purchase price. St. Paul, MN 55144-1000 USA Limitation of Liability: Except where prohibited by law, 3M will not be liable for any loss or damage arising from the 3M product, whether direct, 1-800-328-1687 indirect, special, incidental or consequential, regardless of the legal theory asserted. www.3M.com/firestop Please Recycle. Printed in USA. © 3M 2010. All Rights Reserved. 3M is trademark of 3M Company. All other Literature Order Info: 98-0400-5012-6 trademarks are the property of their respective owners. FIRE BARRIER SMOKE SEAL lil 3M TM Fire Barrier Sealant IC 15WB+ TO3 I I Meets Optional I Product Data Sheet I LRequrements SOUND BARRIER 1. Product Description 3M" Fire Barrier Sealant IC 15WB+ is a cost-effective, one-part, I 541 In StC 54-rated I gun-grade, latex-based, intumescent firestop sealant that dries to form a monolithic firestop seal that also acts I eotm • as a barrier to airborne sound transmission. 3M" Fire Barrier Sealant IC 15WB+ firestops through penetrations passing through fire-rated floor, floor/ceiling or wall assemblies, as well as other fire-rated interior building partitions and assemblies (e.g. static construction joints or blank openings). In addition, the unique intumescent property of this material allows 3M' Fire Barrier Sealant IC 15WB+ to expand and help maintain a firestop penetration seal for up to 3 hours as penetrants are exposed to fire. 3M" Fire Barrier Sealant IC 15WB+ bonds to most construction substrates, including: gypsum wallboard, concrete, metals, wood, plastic (incl uding FILL, VOID, OR CAVITY FOR USE IN JOINT SYSTEMS, CPVC) and cable jacketing. No mixing is required. THROUGH-PENETRATION F1RESTOP SYSTEMS AND PERIMETER CONTAINMENT SYSTEMS SEE UL ARE RESISTANCE DIRECTORY 9009 FBg' Product Features LISTED Firestop tested up to 3 hours in SYSTEM COMPATIBLE • Sag-resistant accordance with ASTM E 814 • Halogen-free c'S1 Ius _ (UL 1479), ASTM E 1966 (UL 2079) & CAN/ULC-S 115 • Excellent adhesion LISTED Intertek CPVC compatible : Re-enterable/repairable FILL VOID OR CAVITY FIRESTOP SYSTEMS Excellent caulk rate MATERIALS SEE INTERTEIS DIRECTORY -e - _j—j • Expanded fire protection systems 9009 • Paintable Helps minimize sound transfer- • Water clean up Cost-effective firestop sealant Complies trip/I the UI/en! of LEED® NC-EQ CII'di! 4. /for Lenl'-Enumllg Materials: Adhesives and Sealants, available in tube, pail or sausage. contains <250 gIL VOC contents (less H2O and ehlrlllpi solvents per SAQMD Rule 1/68). Product Color: Yellow. Minittiizes hoist? tlUhhsfer—STC-Ratillç' of 54 when rested in STC 54-rated teal! assembly. Applications 3M" Fire Barrier Sealant IC 15WB+ is a general-purpose intumescent firestop ideal for sealing single or multiple through penetrations in fire-rated construction. 3M" Fire Barrier Sealant IC 15WB+ is typically used in mechanical, electrical and plumbing applications to firestop openings created by the following penetrations in fire-rated floors, floor/ceilings or walls: metallic pipe, plastic pipe, conduit, power and communication cable, cable trays, busways, combos, insulated pipe and HVAC duct penetrations. 3M" Fire Barrier Sealant IC 15WB+ is also used to firestop blank openings and static construction joints. Specifications 3M" Fire Barrier Sealant IC 15WB+ Typically Specified MasterFormat (2004) shall be a one component, ready-to-use, gun-grade, latex-based, intumescent Section 07 84 00 — Firestopping firestop sealant capable of expanding a minimum of 3 times at 1000°F. The Related Sections Section 07 27 00 — Air Barriers material shall be thixotropic and be applicable to overhead, vertical and Section 0784 16— Annular Space Protection horizontal firestops. The sealant shall be listed by independent test agencies Section 07 84 43 — Fire-Resistanl Joint Sealants Section 07 8600—Smoke Seals such as UL, ULC, Intertek or FM. 3M" Fire Barrier Sealant IC 15WB+ shall Section 07 87 00— Smoke Containment Barriers be tested to and pass the criteria of ASTM E 814 (UL 1479) Standard Test Section 0792 13—ElastomericJoint Sealants Method for Fire Tests of Penetration Firestop Systems, ASTM E 1966 (UL Section 0792 19— Acoustical Joint Sealants Section 21 0000—Fire Suppression 2079) Standard Test Method for Fire Resistive Joint Systems and CAN/ Section 220000—Plumbing ULC-S 115 Standard Method of Fire Tests of Firestop Systems. 3M" Fire Section 23 00 00 — Heating. Venlilating. and Air Conditioning (HVAC) Barrier Sealant IC 15WB+ meets the requirements of the IBC, IRC, NBCC, Section 26 00 00 — Electrical IFC, IPC, IMC, NFPA 5000, NEC (NFPA 70) and NFPA 101. Asilkm 1111111110 For technical support relating to 3M Fire Protection Products and Systems, call: 1-800-328-1687 For more information on 3M Fire Protection Products, visit: www.3m.com/firestop 4. Performance & Typical Physical Properties Color: Yellow Hardness (ASTM D 2240 Shore A): 70 Application Temperature Range: 400 to 122°F (40 to 50°C) Tensile Strength: 85 psi (0.59 MPa) (ASTM C 1299) Volume Shrinkage (ASTM C 124!): 28% Service Temperature Range: -200 to 180°F (-280 to 82°C) VOC Less H20 and Exempt Solvents: <250 g/L STC Acoustic Barrier: (ASTM E 90 and ASTM E 413) 54 when tested in STC 54 rated wall assembly Dry: Under typical conditions of 75°F (23°C) and 50% RH., sealant Surface Burning (ASTM E 84): Flame Spread 5, Smoke Development 50 becomes tack-free in about ten minutes and dry-to-touch in 30 to 60 minutes. Full dry depends upon ambient conditions and volume of sealant. Typical dry rate is approximately 1/8 inch (3 mm) per day. Unit Volume: 10.1 Ii. oz tube (298.7 ml, 18.2 in. 2011. oz. sausage (591.5 ml, 36.1 in. 3) 27 II. oz tube (798.5 ml. 48.7 in. 4.5 gal. pail (17.03 L. 1039.5 in) Packaging, Storage, Shelf Life Packaging Product packaged in cartridge or pail is enclosed in HDPE plastic containers, sausage is packaged in aluminum foil wrap. Storage 3M" Fire Barrier Sealant IC I SWB+ should be stored indoors in dry conditions between 40°F and 90°F (4°C and 32°C) in the original unopened package. Avoid repeated freeze / thaw exposures of the 3M' Fire Barrier Sealant IC I 5WB+ prior to installation. Shelf Life 3M" Fire Barrier Sealant IC I 5WB+ shelf life is 12 months in original unopened containers from date of packaging when stored above 68°F (2°C). Lot numbering (e.g. 8183AS): First digit = Last digit of year manufactured, Second to fourth digit = Julian Date, Letters = Random to distinguish between lot numbers Installation Techniques Consult a 3M Authorized Fire Protection Products Distributor / Dealer or Sales Representative for applicable UL, cUL, ULC, Intertek, FM or other third-parry drawings and system details. Preparatory Work The surface of the opening and any penetrating items should be cleaned to allow for the proper adhesion of the 3M" Fire Barrier Sealant IC ISWB+. Ensure that the surface of the substrates are not wet and are frost free. Sealant can be installed with a standard caulking gun, pneumatic pumping equipment or it can be easily applied with a putty knife or trowel. Installation Details Install the applicable depth of backing material, if required, as detailed within the applicable UL, cUL, ULC, Intertek, FM or other third-party listed system. Cut the end of the 3M" Fire Barrier Sealant IC I SWB+ tube spout to achieve the desired bead width when applying. Install the applicable depth of 3M" Fire Barrier Sealant IC I SWB+ into the opening flush with the surface of the substrate, or as detailed within the applicable listed system, at the depth for the assembly and rating that is required. Tool within 5 minutes. Clean all tools immediately after use with water. Limitations Do not apply 3M' Fire Barrier Sealant IC I5WB+ when surrounding temperature is than less 40°F (4°C) and in conditions where seals may be exposed to rain or water spray within 18 hours of application. Do not apply 3M" Fire Barrier Sealant IC 15WB+ to building materials that bleed oil, plasticizers or solvent (e.g. impregnated wood, oil-based sealants, or green or partially vulcanized rubber). Do not apply 3M" Fire Barrier Sealant IC I SWB+ to wet or frost-coated surfaces or to areas that are continuously damp or immersed in water. Maintenance No maintenance is expected to be required when installed in accordance with the applicable UL, cUL, ULC, Intertek, FM or other third-party listed system. Once installed, if any section of the 3M Fire Barrier Sealant IC I SWB+ is damaged, the following procedure will apply: remove and reinstall the damaged section in accordance with the applicable listed system, with a minimum 1/2 in. (12.7 mm) overlap onto the adjacent material. Availability 3M" Fire Barrier Sealant IC 15WB+ is available from 3M Authorized Fire Protection Products Distributors and Dealers. 3M" Fire Barrier Sealant IC 15WB+ is available in 10.1 fl. oz. cartridges (3M ID 98-0400-5509-I, 12/case), 20.0 11. oz. sausages (3M ID 98-0400-5512-5, 10/case), and 4.5 gallon pails (3M ID 98-0400-5510-9, I/case). For additional technical and purchasing information regarding this and other 3M Fire Protection Products, please call: 1-800-328-1687 or visit www.3111.com/firestop. Safe Handling Information Consult country-of-use Material Safety Data Sheet (MSDS) prior to handling and disposal Important Notice to User: Technical Information: The technical information, recommendations and other statements contained in this document are based upon tests or experience that 3M believes are reliable, but the accuracy or completeness of such information IS not guaranteed. Product Use: Many factors beyond 310's control and uniquely within user's knowledge and control can affect the use and performance of a 3M product in a particular application. Given the variety of factors that can affect the use and performance of a 3M product, user is solely responsible for evaluating the 3M product and determining whether it is lit for a particular purpose and suitable for users method of application. Warranty and Limited Remedy: 3M warrants that each 3M Fire Protection Product will be free from detects in material and manufacture for 90 days from the date of purchase from 3M's authorized distributor. 3M MAKES NO OTHER EXPRESS OR IMPLIED WARRANTIES, INCLUDING ANY IMPLIED WARRANTY OF MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE. It a 3M product does not conform to this Building UI Ifl9 an Commercial warranty, the sole and exclusive remedy is, at 310's option, replacement of the 3M product or refund of the purchase price. Limitation of Liability: Except where prohibited by law, 3M will not be liable for any loss or damage arising from the 3M product, whether Services Division direct, indirect, special, incidental or consequential, regardless of the legal theory asserted. 3M Center, Building 223-2N-21 St. Paul, MN 55144-1000 USA Please Recycle. Printed in USA. 1-800-328-1687 © 3M 2012. All rights reserved. 3M is a trademark of 3M. Used under license in Canada. All www.3M.com/firestop 98-0400-5077-9 REV B other trademarks are the property of their respective owners. —I :- 0 C CD —ti CD CD -I- 1 0 -4- 0 (I) System No. W-L-1296 February 14,2008 F Ratings — I and Hr (See Item I) T Ratings —0and 1/4 Hr (See Item 1) SECTION A-A I. Wall Assembly - The I or 2 hr fire rated gypsum board/stud wall assembly shall be constructed of the materials and in the manner described in the individual U300, U400 or V400 Series Wall and Partition Design in the UL Fire Resistance Directory and shall include the following construction features: Studs - Wall framing may consist of either wood studs or steel channel studs. Wood studs to consist of nom 2 by 4 in. (51 by 102 mm) lumber spaced 16 in. (406 mm) OC. Steel studs to be mill 3-1/2 in. (89 mm) wide spaced max 24 in. (6 10 mm) OC. Gypsum Board* - The gypsum board type, thickness, number of layers, fastener type and sheet orientation shall be as specified in the individual U300, U400 or V400 Series Design in the UL Fire Resistance Directory. Max diam of opening is 10-5/8 in. (270 mill). C. Steel Sleeve - (Optional, Not Shown) - Cylindrical sleeve fabricated from rnin 0.019 in. thick (0.48 mm) galv sheet steel and having a mill 2 in. (51 mm) lap along the longitudinal seam. Length of steel sleeve to be equal to thickness of wall. Sleeve installed by coiling the sheet steel to a diam smaller than the through opening, inserting the coil through the openings and releasing the coil to let it uncoil CD against the circular cutouts in the gypsum wallboard layers. 2. CD The hourly F Rating of the firestop system is equal to the hourly fire rating of the wall assembly in which it is installed. The hourly Rating is and 1/4 Hr for 1 and 2 Hr rated assemblies, respectively. 2. Through Penetrants - One metallic pipe, conduit, tubing or flexible metal pipe installed concentrically or eccentrically within opening. Annular space between penetrant and periphery of opening to be mill 0 in. (0 mm point contact) to max 2 in. (SI mm). Penetrant to be rigidly supported on both sides of wall. The following types and sizes of Penetrants may be used: Steel Pipe - Nom 8 in. (203 mm) diam (or smaller) Schedule 5 (or heavier) steel pipe. Iron Pipe - Nom 8 in. (203 mm) diam (or smaller) cast or ductile iron pipe. Conduit - Nom 4 in. (102 mm) dram (or smaller) steel electrical metallic tubing (EMT) or nom 6 in. (152 mm) rigid steel conduit. Copper Tubing - Nom 4 in. (102 mm) diam (or smaller) Type L (or heavier) copper tubing. Copper Pipe - Nom 4 in. (102 mm) diam (or smaller) Regular (or heavier) copper pipe. Through Penetrating Product* - Flexible Metal Piping—The following types of steel flexible metal gas piping may be used: I. Noni 2 in. (SI mill) diam (or smaller) steel flexible metal gas piping. Plastic covering on piping may or may not be removed on both sides of floor or wall assembly. 3 OMEGA FLEX INC Nom I in. (25 mm) diam (or smaller) steel flexible metal gas piping. Plastic covering on piping may or may not be removed on both sides of floor or wall assembly. GASTITE, DIV OFTITEFLEX Nom I in. (25 mm) diam (or smaller) steel flexible metal gas piping. Plastic covering on piping may or may not be removed on both sides of floor or wall assembly. WARD MFG INC 3. Fill, Void or Cavity Material* - Caulk or Sealant- Min 5/8 in. (16 tutu) thickness ofcaulk applied within annulus, flush with both surfaces of wall. Mill 1/4 in. (6 mm) diam bead of caulk applied to gypsum board/penetrant interface at point contact location on both sides J 3M COMPANY - IC I SWB+, CP 25WB+ caulk or FB-3000 WT sealant *Bearing the UL Classification Mark This material was extracted and drown by 3M Fire Protection Products from the 2008 edition of the UL Fire Resistance Directory. c®us 3M Fire Protection Products Product Support Lint: 1800-328-1687 122 www.3m.com/firestop WL 1 296 9 1 of 1 Choose option 4 for FAX ON DEMAND System No. W-L-1450 April 07, 2009 F Ratings — I and 2 Hr (See lteni I) T Rating —0 Hr SECTION A-A I. Wall Assembly - The I or 2 hr fire rated gypsum board/stud wall assembly shall be constructed of the materials and in the manner described in the individual U300, lJ400 or V400 Series Wall and Partition Design in the UL Fire Resistance Directory and shall include the following construction features: Studs - Wall framing may consist of either wood studs or steel channel studs. Wood studs to consist of nom 2 by 4 in. (51 by 102 mm) lumber spaced 16 in. (406 mm) OC. Steel studs to be miii 3-5/8 in. (92 mm) wide and spaced max 24 in. (610 mm) OC. Gypsum Board* -The gypsum board type, thickness, number of layers, fastener type and sheet orientation shall be as specified in the individual U300, U400 or V400 Series Design in the UL Fire Resistance Directory. Max diam of opening is 12-3/4 in. (324 mm). The hourly F Rating of the firestop system is equal to the hourly fire rating of the wall assembly in which it is installed. 2. Through-Penetrant- One metallic pipe, conduit or tubing installed within the firestop system. The through penetrant to be installed with continuous point contact. Pipe, conduit or tubing to be rigidly supported on both sides of wall assembly. The following types and sizes of metallic pipes, conduits or tubing may be used: Steel Pipe - Nom 12 in. (305 mm) (diam (or smaller) Schedule 10 (or heavier) steel pipe. Iron Pipe - Nom 12 in. (305 mm) diam (or smaller) service weight (or heavier) cast iron soil pipe or Class 50 (or heavier) ductile iron pressure pipe. Conduit - Noni 6 in. (152 mm) diam (or smaller) galv steel conduit or nom 4 in. (102 mm) diam (or smaller) steel electrical metallic tubing. Copper Tubing - Nom 6 in. (152 mm) diam (or smaller) Type L (or heavier) copper tubing. Copper Pipe - Nom 6 in. (152 min) diam (or smaller) Regular (or heavier) copper pipe. 3. Fill, Void or Cavity Material* - Caulk - Bead of fill material lapping ruin I in. (25 mm) onto gypsum board and mm 1/2 in. (13 mm) onto penetrant around outer circumference of through penetrant on both surfaces of wall assembly. 3M COMPANY 3M FIRE PROTECTION PRODUCTS - CP 25 WB+ Caulk, IC I SWB+ Caulk, FB-3000 WT Sealant *Bearing the UL Classification Mark This material was extracted and drawn by 3M fire Protection Products from the 2009 edition of the UL fire Resistance Directory. c®us 31W1 Fire Protection Products Product Support Line www.3m.com/firestop WL 1450 • 1 of 1 1-800-328-1687 I,) 0) ci) (I, 0 0 0 E 0 0 VA System No. W-L-2264 November 20, 2009 F Ratings-I and Hr (See Item I) T Ratings -0, land 2 Hr (See Item 2) SECTION A-A I. Wall Assembly -The I and 2 hr fire rated gypsum board/stud wall assemblies shall be constructed of the materials and in the manner specified in the individual U300, U400 or V400 Series Wall and Partition Designs in the UL Fire Resistance Directory and shall include the following construction features: Studs - Wall framing may consist of either wood studs or steel channel studs. Wood studs to consist of nom 2 by 4 in. (51 by 102 mm) lumber spaced 16 in. (406 mm) OC. Steel studs to be min 3-1/2 in. (89 mm) wide and spaced max 24 in. (610 mm) OC. Gypsum Board* -Thickness, type, number of layers and fasteners as required in the individual Wall and Partition Design. Diani of opening shalt be I in. (25 mm) larger than nom pipe diam. The hourly F Rating of the firestop system is equal to the hourly fire rating of the wall assembly in which it is installed. 2. Through Penetrants - One nonmetallic pipe or conduit to be installed either concentrically or eccentrically within the firestop system. The annular space between the pipe or conduit and periphery of opening shall be min of 0 in. (0 mm, point contact) to max 5/8 in. (16mm). Pipe or conduit to be rigidly supported on both sides of wall assembly. The following types and sizes of nonmetallic pipes or conduits may be used: Polyvinyl Chloride (PVC) Pipe - Nom 2 in. (51 mm) diam (or smaller). Schedule 40 solid core or cellular core PVC pipe for use in closed (processor supply) or vented (drain, waste or vent) piping systems. Chlorinated Polyvinyl Chloride (CPVC) Pipe - Noni 2 in. (51 mm) diam (or smaller) SDR 13.5 CPVC pipe for use in closed (process or supply) piping systems. Rigid Nonmetallic Conduit+ - Nom 2 in. (51 mm) diam (or smaller). Schedule 40 PVC conduit installed in accordance with the National Electrical Code (NFPA No. 70). Acrylonitrile Butadiene Styrene (ABS) Pipe - Noni 2 in. (51 mm) diam (or smaller). Schedule 40 solid core or cellular core ABS pipe for use in closed (process or supply) or vented (drain, waste or vent) piping systems. The hourly T Rating of the firestop system is Hr when pipes are used in vented (drain, waste or vent) piping systems. The hourly T Rating of the firestop system is equal to the hourly fire rating of the wall assembly in which it is installed when pipes are used in closed (process or supply) piping systems. 3. Fill, Void or Cavity Materials* - Caulk or Sealant - Min thickness of 5/8 in. (16 mm) of caulked applied within annulus between pipe or conduit and periphery of the opening, flush with both surfaces of wall assembly. At the point contact location between pipe or conduit and gypsum board, a nun 1/2 in. (13 mm) diam bead Of Caulk or putty shall be applied at the pipe or conduit/gypsum board interface on both surfaces of wall assembly. 3M COMPANY - FireDani 150+, CP 25WB+, IC I 5WB+ caulk or FB-3000 WT sealant. (Note: CP 25WB+ and FireDam 150+ not suitable for use with CPVC pipes.) *Bearing the UL Classification Mark Reprinted from the Online Certifications Directory with permission from Underwriters Laboratories Inc. Copyright © 2011 Underwriters Laboratories Inc.® 3M Fire Protection Products Product Support line www.3m.com/firestop W12264 • 1 of 1 1-800-328-1687 U, 0 C3 ti) C a) C- 0) 0 C- F- (1) ci) I— a) (I) 0 0 0 (N 8).- SAFETY DATA SHEETS. 3M FIRE BARRIER CP 25WB+ & IC 15WB+ I MATERIAL SAFETY DATA SHEET 3M Brand Fire Barrier CP-25WB+ 04/01/10 Material Safety Data Sheet Copyright, 2010, 3M Company. All rights reserved. Copying and/or downloading of this information for the purpose of properly utilizing 3M products is allowed provided that: (1) the information is copied in full with no changes unless prior written agreement is obtained from 3M, and (2) neither the copy nor the original is resold or otherwise distributed with the intention of earning a profit thereon. I SECTION 1: PRODUCT AND COMPANY IDENTIFICATION PRODUCT NAME: 3M Brand Fire Barrier CP-25WB+ MANUFACTURER: 3M DIVISION: Building & Commercial Services Division ADDRESS: 3M Center St. Paul, MN 55144-1000 I EMERGENCY PHONE: 1-800-364-3577 or (651) 737-6501 (24 hours) I Issue Date: 04/01/10 Supercedes Date: 02/26/10 Document Group: 09-5451-1 Product Use: Intended Use: Fire Protection Specific Use: Used as Firestop in buildings. SECTION 2: INGREDIENTS 1 Ingredient C.A.S. No. % by Wt ZINC BORATE 2335 138265-88-0 15 - 40 Polymer Trade Secret 10 - 30 Water 7732-18-5 10- 30 Sodium Silicate 1344-09-8 10- 30 Ethylhexyldiphenyl Phosphate 1241-94-7 3 - 7 Iron Oxide 1309-37-I 1 - 5 Polyethylene Glycol 25322-68-3 1 - 5 OXIDE GLASS CHEMICALS 65997-17-3 I - 3 I SECTION 3: HAZARDS IDENTIFICATION 3.1 EMERGENCY OVERVIEW Specific Physical Form: Paste Odor, Color, Grade: Red with negligible odor General Physical Form: Solid Page 1 of 8 I MATERIAL SAFETY DATA SHEET 3M Brand Fire Barrier CP-25VB+ 04/01/10 I Immediate health, physical, and environmental hazards: 3.2 POTENTIAL HEALTH EFFECTS Eye Contact: Moderate Eye Irritation: Signs/symptoms may include redness, swelling, pain, tearing, and blurred or hazy vision. Skin Contact: Moderate Skin Irritation: Signs/symptoms may include localized redness, swelling, itching, and dryness. Inhalation: Respiratory Tract Irritation: Signs/symptoms may include cough, sneezing, nasal discharge, headache, hoarseness, and nose and throat pain. Ingestion: Gastrointestinal Irritation: Signs/symptoms may include abdominal pain, stomach upset, nausea, vomiting and diarrhea. May be harmful if swallowed. May be absorbed following ingestion and cause target organ effects. Target Organ Effects: Prolonged or repeated exposure may cause: Kidney/Bladder Effects: Signs/symptoms may include changes in urine production, abdominal or lower back pain, increased protein in urine, increased blood urea nitrogen (BUN), blood in urine, and painful urination. I SECTION 4: FIRST AID MEASURES I 4.1 FIRST AID PROCEDURES The following first aid recommendations are based on an assumption that appropriate personal and industrial hygiene practices are followed. Eye Contact: Flush eyes with large amounts of water. If signs/symptoms persist, get medical attention. Skin Contact: Remove contaminated clothing and shoes. Immediately flush skin with large amounts of water. Get medical attention. Wash contaminated clothing and clean shoes before reuse. Inhalation: Remove person to fresh air. If signs/symptoms develop, get medical attention. If Swallowed: Do not induce vomiting unless instructed to do so by medical personnel. Give victim two glasses of water. Never Page 2 of 8 I MATERIAL SAFETY DATA SHEET 3M Brand Fire Barrier CP-25WB+ 04/01/10 I give anything by mouth to an unconscious person. Get medical attention. I SECTION 5: FIRE FIGHTING MEASURES I 5.1 FLAMMABLE PROPERTIES Autoignition temperature Not Applicable Flash Point Not Applicable Flammable Limits - LEL Not Applicable Flammable Limits - UEL Not Applicable OSHA Flammability Classification: Not Applicable 5.2 EXTINGUISHING MEDIA Non-combustible. Choose material suitable for surrounding fire. 5.3 PROTECTION OF FIRE FIGHTERS Special Fire Fighting Procedures: Wear full protective equipment (Bunker Gear) and a self-contained breathing apparatus (SCBA). Unusual Fire and Explosion Hazards: Not applicable. Note: See STABILITY AND REACTIVITY (SECTION 10) for hazardous combustion and thermal decomposition information. I SECTION 6: ACCIDENTAL RELEASE MEASURES I Accidental Release Measures: Evacuate unprotected and untrained personnel from hazard area. The spill should be cleaned up by qualified personnel. Ventilate the area with fresh air. For large spill, or spills in confined spaces, provide mechanical ventilation to disperse or exhaust vapors, in accordance with good industrial hygiene practice. Warning! A motor could be an ignition source and could cause flammable gases or vapors in the spill area to burn or explode. Place in a closed container approved for transportation by appropriate authorities. Dispose of collected material as soon as possible. Observe precautions from other sections. Call 3M- HELPS line (1-800-364-3577) for more information on handling and managing the spill. Collect as much of the spilled material as possible. Clean up residue. In the event of a release of this material, the user should determine if the release qualifies as reportable according to local, state, and federal regulations. I SECTION 7: HANDLING AND STORAGE 7.1 HANDLING For industrial or professional use only. Avoid eye contact with dust or airborne particles. Do not eat, drink or smoke when using this product. Wash exposed areas thoroughly with soap and water. 7.2 STORAGE Store away from areas where product may come into contact with food or pharmaceuticals. Store in a cool, dry place. Page 3 of 8 I MATERIAL SAFETY DATA SHEET 3M Brand Fire Barrier CP-25WB+ 04/01/10 I I SECTION 8: EXPOSURE CONTROLS/PERSONAL PROTECTION I 8.1 ENGINEERING CONTROLS Use in a well-ventilated area. 8.2 PERSONAL PROTECTIVE EQUIPMENT (PPE) 8.2.1 Eye/Face Protection Avoid eye contact. The following eye protection(s) are recommended: Indirect Vented Goggles 8.2.2 Skin Protection Avoid skin contact. Select and use gloves and/or protective clothing to prevent skin contact based on the results of an exposure assessment. Consult with your glove and/or protective clothing manufacturer for selection of appropriate compatible materials. Gloves made from the following material(s) are recommended: Butyl Rubber Neoprene 8.2.3 Respiratory Protection Under normal use conditions, airborne exposures are not expected to be significant enough to require respiratory protection. 8.2.4 Prevention of Swallowing Do not eat, drink or smoke when using this product. Wash exposed areas thoroughly with soap and water. 8.3 EXPOSURE GUIDELINES Ingredient Authority Type Limit Additional Information Iron Oxide ACGIH TWA, respirable 5 mg/m3 fraction Iron Oxide OSHA TWA, as fume 10 mg/m3 OXIDE GLASS CHEMICALS 3M TWA, as dust 10 mg/m3 Polyethylene Glycol AIHA TWA, as particulate 10 mg/m3 SOURCE OF EXPOSURE LIMIT DATA: ACGIH: American Conference of Governmental Industrial Hygienists CM RG: Chemical Manufacturer Recommended Guideline OSHA: Occupational Safety and Health Administration AIHA: American Industrial Hygiene Association Workplace Environmental Exposure Level (WEEL) I SECTION 9: PHYSICAL AND CHEMICAL PROPERTIES I Specific Physical Form: Odor, Color, Grade: General Physical Form: Autoignition temperature Flash Point Flammable Limits - LEL Flammable Limits - UEL Paste Red with negligible odor Solid Not Applicable Not Applicable Not Applicable Not Applicable Page 4 of I MATERIAL SAFETY DATA SHEET 3M Brand Fire Barrier CP-25WB+ 04/01/10 I Specific Gravity Melting point Solubility in Water Volatile Organic Compounds \'OC Less 1120 & Exempt Solvents 1.35 [Ref Sid: WATER= I] No Data Available Complete <1 %weight <1 gIl I SECTION 10: STABILITY AND REACTIVITY I Stability: Stable. Materials and Conditions to Avoid: 10.1 Conditions to avoid None known 10.2 Materials to avoid None known Hazardous Polymerization: Hazardous polymerization will not occur. Hazardous Decomposition or By-Products Substance Condition Carbon monoxide Not Specified Carbon dioxide Not Specified Oxides of Phosphorus Not Specified I SECTION 11: TOXICOLOGICAL INFORMATION I Please contact the address listed on the first page of the MSDS for Toxicological Information on this material and/or its components. I SECTION 12: ECOLOGICAL INFORMATION I ECOTOXICOLOGICAL INFORMATION Not determined. CHEMICAL FATE INFORMATION Page 5 of 8 I MATERIAL SAFETY DATA SHEET 3M Brand Fire Barrier CP-2511'B+ 04/01/10 I Not determined. I SECTION 13: DISPOSAL CONSIDERATIONS I Waste Disposal Method: For quantities <100 lbs. (50kg): dispose of waste product in a sanitary landfill. As a disposal alternative, dispose of waste product in a facility permitted to accept chemical waste. EPA Hazardous Waste Number (RCRA): Not regulated Since regulations vary, consult applicable regulations or authorities before disposal. I I SECTION 14:TRANSPORT INFORMATION ID Number(s): 42-0016-4710-8, 42-0016-4715-7, 42-0016-4716-5, 98-0400-5380-7, 98-0400-5381-5, 98-0400-5382-3, 98-0400-5383-1, 98-0400- 5406-0, 98-0400-5456-5, 98-0400-5463-1, 98-0400-5610-7 Please contact the emergency numbers listed on the first page of the MSDS for Transportation Information for this material. I SECTION 15: REGULATORY INFORMATION I US FEDERAL REGULATIONS Contact 3M for more information. 311/312 Hazard Categories: Fire Hazard - No Pressure Hazard - No Reactivity Hazard - No Immediate Hazard - Yes Delayed Hazard - No Section 313 Toxic Chemicals subject to the reporting requirements of that section and 40 CFR part 372 (EPCRA): Ingredient C.A.S. No % by Wt ZINC BORATE 2335 (ZINC COMPOUNDS) 138265-88-0 15 - 40 STATE REGULATIONS Contact 3M for more information. CHEMICAL INVENTORIES The components of this product are in compliance with the chemical notification requirements of TSCA. Contact 3M for more information. Page 6 of 8 I MATERIAL SAFETY DATA SHEET 3M Brand Fire Barrier CP-25W'B+ 04/01/10 I INTERNATIONAL REGULATIONS Contact 3M for more information. WHMIS: Hazardous This MSDS has been prepared to meet the U.S. OSHA Hazard Communication Standard, 29 CFR 1910.1200. I SECTION 16: OTHER INFORMATION I NFPA Hazard Classification Health: 2 Flammability: I Reactivity: 0 Special Hazards: None National Fire Protection Association (NFPA) hazard ratings are designed for use by emergency response personnel to address the hazards that are presented by short-term, acute exposure to a material under conditions of fire, spill, or similar emergencies. Hazard ratings are primarily based on the inherent physical and toxic properties of the material but also include the toxic properties of combustion or decomposition products that are known to be generated in significant quantities. 1-IMIS Hazard Classification Health: 2 Flammability: I Reactivity: 0 Protection: X - See PPE section. Hazardous Material Identification System (l-IMlS(r)) hazard ratings are designed to inform employees of chemical hazards in the workplace. These ratings are based on the inherent properties of the material under expected conditions of normal use and are not intended for use in emergency situations. HMlS(r) ratings are to be used with a fully implemented HMJS(r) program. HMlS(r) is a registered mark of the National Paint and Coatings Association (NPCA). Reason for Reissue: Reissued to make corrections in tables. Revision Changes: Section 8: Eye/face protection information was modified. Section 8: Skin protection - recommended gloves information was modified. Section 14: ID Number(s) Template I was modified. Section 2: Ingredient table was modified. Section 10: Materials to avoid physical property was modified. Section 10: Conditions to avoid physical property was modified. DISCLAIMER: The information in this Material Safety Data Sheet (MSDS) is believed to be correct as of the date issued. 3M MAKES NO WARRANTIES, EXPRESSED OR IMPLIED, INCLUDING, BUT NOT LIMITED TO, ANY IMPLIED WARRANTY OF MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE OR COURSE OF PERFORMANCE OR USAGE OF TRADE. User is responsible for determining whether the 3M product is fit for a particular purpose and suitable for user's method of use or application. Given the variety of factors that can affect the use and application of a 3M product, some of which are uniquely within the user's knowledge and control, it is essential that the user evaluate the 3M product to determine whether it is fit for a particular purpose and suitable for user's method of use or application. 3M provides information in electronic form as a service to its customers. Due to the remote possibility that electronic transfer may Page 7 of 8 I MATERIAL SAFETY DATA SHEET 3M Brand Fire Barrier CP-25WB+ 04/01/10 have resulted in errors, omissions or alterations in this information, 3M makes no representations as to its completeness or accuracy. In addition, information obtained from a database may not be as current as the information in the MSDS available directly from 3M. 3M MSDSs are available at www.3M.com Page 8 of 8 I MATERIAL SAFETY DATA SHEET 3M FireBarrier(TM) Sealant IC 15 WB+ 09/16/11 Material Safety Data Sheet Copyright, 2011, 3M Company All rights reserved. Copying and/or downloading of this information for the purpose of properly utilizing 3M products is allowed provided that: (1)the information is copied in full with no changes unless prior written agreement is obtained from 3M, and (2) neither the copy nor the original is resold or otherwise distributed with the intention of earning a profit thereon. I SECTION 1: PRODUCT AND COMPANY IDENTIFICATION PRODUCT NAME: 3M FireBarrier(TM) Sealant IC 15 WB+ MANUFACTURER: 3M DIVISION: Building & Commercial Services Division ADDRESS: 3M Center, St. Paul, MN 55 144-1000 I EMERGENCY PHONE: 1-800-364-3577 or (651) 737-6501 (24 hours) I Issue Date: 09/16/I1 Supercedes Date: 12/02/10 Document Group: 19-9776-6 Product Use: Specific Use: Fire Barrier Sealant Intended Use: Sealant SECTION 2: INGREDIENTS Ingredient C.A.S. No. % by Wt Calcium Carbonate 1317-65-3 30 - 60 Polymer Trade Secret 10- 30 Water 7732-18-5 10- 30 Sodium Silicate 1344-09-8 3 - 7 ZINC BORATE 2335 138265-88-0 3 - 7 Fiberglass 65997-17-3 0.5- 1.5 Sodium Nonyiphenyl Polyethoxy Ether Sulfate 9014-90-8 0.1 - 1.0 Polyoxyethylene Monooctylphenyl Ether 9036-19-5 0.1 - 1.0 Quartz Silica 14808-60-7 <0.5 SECTION 3: HAZARDS IDENTIFICATION 3.1 EMERGENCY OVERVIEW Specific Physical Form: Paste Odor, Color, Grade: Light yellow viscous paste with a mild odor General Physical Form: Solid I MATERIAL SAFETY DATA SHEET 3M FireBarrier(TM) Sealant IC 15 WB+ 09/16/I1 I Immediate health, physical, and environmental hazards: Contains a chemical or chemicals which can cause cancer. 3.2 POTENTIAL HEALTH EFFECTS Eye Contact: Moderate Eye Irritation: Signs/symptoms may include redness, swelling, pain, tearing, and blurred or hazy vision. Skin Contact: Moderate Skin Irritation: Signs/symptoms may include localized redness, swelling, itching, and dryness. Inhalation: Respiratory Tract Irritation: Signs/symptoms may include cough, sneezing, nasal discharge, headache, hoarseness, and nose and throat pain. Ingestion: Gastrointestinal Irritation: Signs/symptoms may include abdominal pain, stomach upset, nausea, vomiting and diarrhea. Carcinogenicity: Contains a chemical or chemicals which can cause cancer. This product contains quartz silica. Lung cancer and silicosis have been associated with exposure to quartz silica. No user exposure to quartz silica from this product is anticipated during normal intended use. Warnings are provided to comply with US federal and state regulations. Ineredient C.A.S. No. Class Description Regulation Quartz Silica 14808-60-7 Grp. I: Carcinogenic to International Agency for Research on Cancer humans I SECTION 4: FIRST AID MEASURES 4.1 FIRST AID PROCEDURES The following first aid recommendations are based on an assumption that appropriate personal and industrial hygiene practices are followed. Eye Contact: Immediately flush eyes with large amounts of water for at least 15 minutes. Get immediate medical attention. Skin Contact: Remove contaminated clothing and shoes. Immediately flush skin with large amounts of water. Get medical attention. Wash contaminated clothing and clean shoes before reuse. Inhalation: Remove person to fresh air. If signs/symptoms develop, get medical attention. If Swallowed: Do not induce vomiting unless instructed to do so by medical personnel. Give victim two glasses of water. Never give anything by mouth to an unconscious person. Get medical attention. SECTION 5: FIRE FIGHTING MEASURES 5.1 FLAMMABLE PROPERTIES Autoignition temperature No Data Available Flash Point Not Applicable Flammable Limits(LEL) Not Applicable Flammable Limits(UEL) Not Applicable OSHA Flammability Classification: Not Applicable I MATERIAL SAFETY DATA SHEET 3M FireBarrier(TM) Sealant IC 15 WB+ 09/16/I1 5.2 EXTINGUISHING MEDIA Non-combustible. Choose material suitable for surrounding fire. 5.3 PROTECTION OF FIRE FIGHTERS Special Fire Fighting Procedures: Wear full protective equipment (Bunker Gear) and a self-contained breathing apparatus (SCBA). Unusual Fire and Explosion Hazards: No unusual fire or explosion hazards are anticipated. Note: See STABILITY AND REACTIVITY (SECTION 10) for hazardous combustion and thermal decomposition information. SECTION 6: ACCIDENTAL RELEASE MEASURES 6.1. Personal precautions, protective equipment and emergency procedures Evacuate unprotected and untrained personnel from hazard area. The spill should be cleaned up by qualified personnel. Ventilate the area with fresh air. 6.2. Environmental precautions Place in a closed container approved for transportation by appropriate authorities. Dispose of collected material as soon as possible. Clean-up methods Observe precautions from other sections. Call 3M- HELPS line (1-800-364-3577) for more information on handling and managing the spill. Collect as much of the spilled material as possible. Clean up residue. In the event of a release of this material, the user should determine if the release qualifies as reportable according to local, state, and federal regulations. SECTION 7: HANDLING AND STORAGE 7.1 HANDLING Do not eat, drink or smoke when using this product. Wash exposed areas thoroughly with soap and water. For industrial or professional use only. Avoid eye contact with dust or airborne particles. Avoid skin contact. 7.2 STORAGE Store under normal warehouse conditions. SECTION 8: EXPOSURE CONTROLS/PERSONAL PROTECTION 8.1 ENGINEERING CONTROLS Use in a well-ventilated area. 8.2 PERSONAL PROTECTIVE EQUIPMENT (PPE) 8.2.1 Eye/Face Protection Avoid eye contact. The following eye protection(s) are recommended: Safety Glasses with side shields Indirect Vented Goggles MATERIAL SAFETY DATA SHEET 3M FireBarrier(TM) Sealant IC 15 WB+ 09/16/1I 7 8.2.2 Skin Protection Avoid skin contact. Select and use gloves and/or protective clothing to prevent skin contact based on the results of an exposure assessment. Consult with your glove and/or protective clothing manufacturer for selection of appropriate compatible materials. Gloves made from the following material(s) are recommended: Butyl Rubber Nitrile Rubber 8.2.3 Respiratory Protection Under normal use conditions, airborne exposures are not expected to be significant enough to require respiratory protection. 8.2.4 Prevention of Swallowing Do not eat, drink or smoke when using this product. Wash exposed areas thoroughly with soap and water. 8.3 EXPOSURE GUIDELINES Ingredient Authority [j Limit Additional Information Calcium Carbonate OSHA TWA, respirable 5 mg/m3 fraction Calcium Carbonate OSHA TWA, as total dust 15 rng/m3 Fiberglass Manufacturer TWA, as dust 10 mg/m3 determined POLYETHYLENE GLYCOLS AIHA TWA, as particulate 10 mg/m3 Quartz Silica ACGIH TWA, respirable 0.025 mg/ni3 fraction Quartz Silica OSHA TWA concentration, 0.1 mg/n13 respirable Quartz Silica OSHA TWA concentration, 0.3 mg/m3 as total dust SOURCE OF EXPOSURE LIMIT DATA: ACGIH: American Conference of Governmental Industrial Hygienists CMRG: Chemical Manufacturer Recommended Guideline OSHA: Occupational Safety and Health Administration AlHA: American Industrial Hygiene Association Workplace Environmental Exposure Level (WEEL) SECTION 9: PHYSICAL AND CHEMICAL PROPERTIES Specific Physical Form: Odor, Color, Grade: General Physical Form: Autoignition temperature Flash Point Flammable Limits(LEL) Flammable Limits(UEL) Boiling Point Paste Light yellow viscous paste with a mild odor Solid No Data Available Not Applicable Not Applicable Not Applicable Not Applicable I MATERIAL SAFETY DATA SHEET 3M FireBarrier(TM) Sealant IC 15 VB+ 09/16/I1 Specific Gravity 1.4 [Ref Sid: WATER=]] Melting point No Data Available Solubility in Water Moderate Volatile Organic Compounds <2g/I VOC Less 1120 & Exempt Solvents <2 gIl SECTION 10: STABILITY AND REACTIVITY Stability: Stable. Materials and Conditions to Avoid: 10.1 Conditions to avoid None known 10.2 Materials to avoid None known Hazardous Polymerization: Hazardous polymerization will not occur. Hazardous Decomposition or By-Products Substance Condition Carbon monoxide Not Specified Carbon dioxide Not Specified SECTION 11: TOXICOLOGICAL INFORMATION Please contact the address listed on the first page of the MSDS for Toxicological Information on this material and/or its components. [SECTION 12: ECOLOGICAL INFORMATION ECOTOXICOLOGICAL INFORMATION Not determined. CHEMICAL FATE INFORMATION Not determined. SECTION 13: DISPOSAL CONSIDERATIONS Waste Disposal Method: For quantities <100 lbs. (50kg): dispose of waste product in a sanitary landfill. For larger quantities: Dispose of waste product in a facility permitted to accept chemical waste. EPA Hazardous Waste Number (RCRA): Not regulated MATERIAL SAFETY DATA SHEET 3M FireBarrier(TM) Sealant IC 15 WB+ 09/16/I1 Since regulations vary, consult applicable regulations or authorities before disposal. I I SECTION 14:TRANSPORT INFORMATION ID Number(s): 42-0016-4768-6, 42-0016-4769-4, 42-0016-4770-2, 98-0400-5509-1, 98-0400-5510-9, 98-0400-5511-7, 98-0400-5512-5 I For Transport Information, please visit http://3M.com/Transportinfo or call 1-800-364-3577 or 651-737-6501. I SECTION 15: REGULATORY INFORMATION US FEDERAL REGULATIONS Contact 3M for more information. Section 313 Toxic Chemicals subject to the reporting requirements of that section and 40 CFR part 372 (EPCRA): ingredient C.A.S. No % by Wt ZINC BORATE 2335 (ZINC COMPOUNDS) 138265-88-0 3 - 7 STATE REGULATIONS Contact 3M for more information. CHEMICAL INVENTORIES The components of this product are in compliance with the chemical notification requirements of TSCA. All applicable chemical ingredients in this material are listed on the European Inventory of Existing Chemical Substances (EINECS), or are exempt polymers whose monomers are listed on EINECS. Contact 3M for more information. INTERNATIONAL REGULATIONS Contact 3M for more information. This MSDS has been prepared to meet the U.S. OSHA Hazard Communication Standard, 29 CFR 1910.1200. I SECTION 16: OTHER INFORMATION NF'PA Hazard Classification llealth: 2 Flammability: 0 Reactivity: 0 Special Hazards: None National Fire Protection Association (NFPA) hazard ratings are designed for use by emergency response personnel to address the hazards that are presented by short-term, acute exposure to a material under conditions of fire. spill, or similar emergencies. Hazard ratings are primarily based on the inherent physical and toxic properties of the material but also include the toxic properties of combustion or decomposition products that are known to be generated in significant quantities. Revision Changes: Section I: Product use information was modified. Section 16: Disclaimer (second paragraph) was modified. Section 10: Hazardous decomposition or by-products table was modified. Section 15: Inventories information was modified. Section 9: Boiling point information was modified. Section 5: Flammable limits (UE) information was modified. Section 5: Flammable limits (LEL) information was modified. MATERIAL SAFETY DATA SHEET 3M FireBarrier(TM) Sealant IC 15 WB+ 09/16/I1 771 Section 5: Autoignition temperature information was modified. Section 5: Flash point information was modified. Section 9: Property description for optional properties was modified. Section 9: Specific gravity information was modified. Section 9: Melting point information was modified. Section 9: Solubility in water text was modified. Section 9: Flash point information was modified. Section 9: Flammable limits (LEL) information was modified. Section 9: Flammable limits (UEL) information was modified. Section 9: Autoignition temperature information was modified. Section 2: Ingredient table was modified. Section 15: EPCRA 313 information was modified. Section 8: Exposure guidelines ingredient information was modified. Section 3: Carcinogenicity table was modified. Section 6: 6.2. Environmental precautions heading was modified. Section 6: 6.1. Personal precautions, protective equipment and emergency procedures heading was modified. Section 16: Web address was added. Section 1: Address was added. Copyright was added. Company logo was added. Telephone header was added. Company Telephone was added. Section 1: Emergency phone information was added. Section 1: Emergency phone information was deleted. Company Logo was deleted. Copyright was deleted. Section 16: Web address heading was deleted. Section I: Address line I was deleted. Section I: Address line 2 was deleted. DISCLAIMER: The information in this Material Safety Data Sheet (MSDS) is believed to be correct as of the date issued. 3M MAKES NO WARRANTIES, EXPRESSED OR IMPLIED, INCLUDING, BUT NOT LIMITED TO, ANY IMPLIED WARRANTY OF MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE OR COURSE OF PERFORMANCE OR USAGE OF TRADE. User is responsible for determining whether the 3M product is fit for a particular purpose and suitable for user's method of use or application. Given the variety of factors that can affect the use and application of 3M product, some of which are uniquely within the user's knowledge and control, it is essential that the user evaluate the 3M product to determine whether it is fit for a particular purpose and suitable for user's method of use or application. 3M provides information in electronic form as a service to its customers. Due to the remote possibility that electronic transfer may have resulted in errors, omissions or alterations in this information, 3M makes no representations as to its completeness or accuracy. In addition, information obtained from a database may not be as current as the information in the MSDS available directly from 3M 3M USA MSDSs are available at www.3M.com THREADFIT THREAD CUTTING OIL r Description ThreadFit® Thread Cutting Oil for Sprinkler Pipe is an excellent heavy duty, dark colored cutting oil for all types of ferrous metal. It's special combination of anti-wear and anti-weld additives provides all the necessary lubricity and cooling modern pipe threading operations require. This balanced combination of additives will help improve die life and thread quality over other cutting oils and is Chlorine free. Features Heavy Duty Cutting Oil Excellent Tool Life Chlorine Free All types of ferrous metal or pipe Improved Surface Finish Installation ThreadFit® can be used in automatic and hand held applicators. Fill oil reservoir according to equipment manufacturers specifications. Mixing of different types of threading oils is not recommended. DO NOT ALTER THE CONSISTENCY OF THIS PRODUCT. Use as is directly from the container. Change oil regularly for optimum performance. Contains petroleum oil. Avoid breathing mists or vapors. Avoid eye contact and prolonged or repeated contact with skin. Wear safety glasses or goggles. Use good personal hygeine. Dispose of used oil in accordance with all local, State and Federal ordinances and regulations. Consult Material Safety Data Sheets for additional safety and handling information. DO NOT MIX WITH OTHER THREAD CUTTING OILS OR CONTAMINANTS. Specifications Appearance: Dark brown liquid. Packaging: 1 gl. (6/case) 5 gl. Pail 55-gl drum 275-gl tote CAUTION: Skin contact: wash thoroughly with soap and water. Eye contact: flush eyes with water for at least 15 minutes and seek medical attention. Ingestion: consult a physician immediately. Inhalation: move affected person(s) to fresh air and seek medical attention. See MSDS for first aid instructions. Spill or Leak: Soak up with an oil absorbent compound. Follow all state, local, Federal regulations for disposal. Don't pollute. Conserve our resources-Please recycle this container. 3198 LIONSHEAD AVE CARLSBAD, CA 92010 TEL +1 760 599-1168 +1800344-1822 FAX + 1 800 344-3775 I Nu © 2012 Fire Protection Products, Inc. FPPI, ThreadFit5 are registered trademarks of Fire Protection Products, Inc. LA MADE IN I U.S.A. =TT IT giji] See Material Safety Data Sheet for additional safety and disposal information at www.fppi.com This product is registered with CHEMTREC, a 24-hour emergency hot/me. They may be reached at 1 800 424-9300. Fire Protection Products, Inc. 3198 Lionshead Avenue Carlsbad, CA 92010 F P p I Phone: (760) 599-1168 rm; pncra i. Fax: (800) 344-3775 MATERIAL SAFETY DATA SHEET Last Updated: 03/20/2012 ttii 'i - I i1FY JII ThreadFit© Cutting Oil Manufacturer Information Emergency Contact Fire Protection Products, Inc. CHEMTREC 3198 Lionshead Avenue 1300 Wilson Boulevard Carlsbad, CA 92010 Arlington, VA 22209-2380 Phone: (760) 599-1168 Phone: (800)424-9300 Fax: (800) 344-3775 International: +1 (703) 527-3887 CAS Registry Number Mixture Chemical Family Petroleum Hydrocarbon Product Type Cutting Oil Preparation/Revision Date 03/20/2012 Component Name CAS Number OSHA PEL ACGIH TLV % (Optional) Heavy Paraffinic Hydrotreated Distillate 64742-54-7 5 mg/m3 5 mg/m3 87-93 Sulfurized Decene 72162-15-3 Not Not 7-13 Established Established tht!Ji) 3 YY4 1l1I\ 1ii Contains petroleum oil. Principal Hazard(s) Avoid prolonged or repeated skin contact. Avoid breathing mists or vapors. ,, Oral DO NOT INDUCE VOMITING. Seek immediate medical attention. Flush eye(s) with water for at least 15 minutes or until irritation subsides. Seek medical attention E Eye if eye irritation develops or persists. Wash with soap and water. Immediately remove contaminated clothing. Get medical attention if irritation develops. Launder contaminated clothing before re-use. If product is injected into or under the skin, or into any part of the body, regardless of the appearance of the wound or its Skin size, the individual should be evaluated immediately by a physician as a surgical emergency. Even though initial symptoms from high pressure injection may be minimal or absent, early surgical treatment within the first few hours may significantly reduce the ultimate extent of injury. Vapor pressure is very low. Vapor inhalation under ambient conditions is normally not a problem. Vapor pressure under ambient conditions is normally not a problem. If adverse effects Inhalation are observed, remove exposed person to fresh air. If breathing is labored, administer oxygen. If breathing has stopped, apply artificial respiration. If overexposed to oil mist, remove from further exposure until excessive oil mist subsides. 1i) - 1;I JIiI Flash Point 390 °F COC Typical Upper Flammable Limit Not Determined Lower Flammable Limit Not Determined Extinguishing Media Carbon Dioxide, dry chemical, water spray (fog) and foam. Note: water, water fog and foam may cause frothing and spattering. Special Firefighting Procedures Wear self-contained breathing apparatus. Avoid breathing fumes and vapors. Use water spray (fog) to cool containers exposed to high heat or open flames. Empty containers contain residue and/or vapors. DO NOT WELD, CUT, PRESSURIZE, BRAZE, SOLDER, DRILL, GRIND or EXPOSE SUCH CONTAINERS TO Unusual Fire and Explosion Hazards HEAT, SPARKS, FLAME, STATIC ELECTRICITY OR OTHER SUCH SOURCES OF IGNITION. Keep empty containers closed and dispose of in an environmentally safe manner and in accordance with all government regulations. Auto Ignition Temperature Not Determined Health: 1 NFPA Flammability: 1 Instability: 0 Evacuate all non-essential personal. Personal Protective Equipment must be worn (See Personal Precautions Personal Protection Section for PPE recommendations). Environmental Precautions Remove sources of ignition. Ventilate spill area. Prevent entry into sewers and waterways. Methods for Containment Prevent entry into sewers and waterways. Use of absorbent pads or inert absorbent materials should be considered. Methods for Clean Up Pick up free liquid for recycle and/or disposal. Residual liquid can be absorbed on inert material. 7 Keep away from potential sources of ignition. Avoid breathing vapors if present. Keep Handling containers closed when not in use. Wash thoroughly after handling. Make sure proper warning labels are affixed in accordance with 29 CFR 1910.1200. Use good personal hygiene around product. Do not smoke or eat around product. Do not store near potential sources of ignition. Store in a well ventilated area.Store in Storage a dry area. Do not store around food or eating areas. tk1, 3 Engineering Controls Additional ventilation or exhaust may be required to maintain air concentrations below recommended exposure limits. Eye/Face Protection: Safety glasses recommended. Use splash goggles or face shield when eye contact may occur. Skin Protection: Use chemical resistant gloves, if needed, to avoid prolonged or Personal Protection repeated skin contact. Wear a chemical resistant apron or other impervious clothing, if needed, to avoid contaminating regular clothing, which could result in prolonged or repeated skin contact. Respiratory Protection: Use NIOSH/MSHA approved disposable dust/mist mask if the recommended exposure limit is exceeded. General Measures Use material in well ventilated areas only. -) - AiJ! I Ii11Ci t*iJ Physical State: Liquid Vapor Density (Air =1): Greater than 5 Appearance, Color, Odor: Dark amber colored liquid with a characteristic petroleum odor Evaporation Rate: Not Determined Specific Gravity: 0.8735 Pour Point: 0 °F Viscosity: Approximately 36 cSt @ 40 °C Boiling Point: IBP approximately 500 °F Odor Threshold: Not Determined % Volatile: Less than 1% Water Solubility: Not Soluble pH: Not Applicable Vapor Pressure: Not Determined Decomposition Temperature: Not Determined Addition Properties: None special IILi 1iAI i Stability Material is normally stable at room temperature and pressure. See the Handling and Storage Section for further details. Incompatibility Strong oxidizing agents. Conditions to Avoid High heat and open flames. Polymerization Will not occur. Hazardous Decomposition Fumes, smoke, carbon monoxide, sulfur oxides, aldehydes and other decomposition products, in the case of incomplete combustion. iIt - LMc7 RIii\ IJ Oral Toxicity Not Determined Dermal Toxicity Not Determined Inhalation Toxicity Not Determined Chronic Toxicity Not Determined Respiratory Irritation If material is misted or vapors are generated from heating, exposure may cause irritation of mucous membranes and the upper respiratory tract. Carcinogenicity The components of this product have not been found to be a carcinogen under either NTP, IARC Monographs or current OSHA regulations. Other Under conditions which may generate mists, observe the OSHA PELof 5 mg/m' Qtq1 Ecotoxicity Available ecotoxicity data indicates that adverse effects to aquatic organisms are not expected from this product. Degradability This product is not considered bio-degradable under current definitions. Mobility When released into the environment, adsorption to sediment and soil will be the predominant behavior. R 1L.t__JJ1I1 \ 1PJ I Waste Disposal Method Product is suitable for processing by an approved recycling facility or can be disposed of at an appropriate government waste disposal facility. Use of these methods is subject to user compliance with applicable laws and regulations and consideration of product characteristics at the time of disposal. The unused product is not specifically listed by the EPA as a hazardous waste, nor is it formulated to contain materials which are listed as hazardous waste. After use, it is the responsibility of the user to determine the products status for disposal. US DOT Shipping Name Not regulated by DOT Hazard Class Not applicable DOT Identification Number Not Applicable DOT Shipping Label Not regulated by DOT Canadian Transportation of Dangerous Goods: Not regulated Marine Pollutants Not regulated by IMO USA TSCA Inventory All components of this product are listed on the TSCA inventory. Sec. 302/304: No RQ for product or any constituent greater that 1.0% or 0.01 % (carcinogen). Sec. 311/312: No RQ for product or any constituent greater than 1.0% or 0.01% SARA Title III (carcinogen). Sec. 313: This product contains no chemicals subject to the supplier notification requirements of SARA 313 toxic release program. CERCLA RQ: No chemicals in this product are subject to the reporting requirements of CERCLA. California Prop 65 This product does not contain chemical regulated under California Proposition 65. Canada WHMIS Classification Not controlled under WHMIS (for workplace exposures) New Substance Notification Not controlled Regulations NPRI Substances None 1:1ItJi)i3 1JII Additional Information When used for its intended purposes, this product is not classified as hazardous in accordance with OSHA 29 CFR 1910.1200. Prepared By Revised Date 03/20/2012 Although the information and recommendations set forth herein are presented in good faith and believed to be correct as of the date hereof, Fire Protection Products, Inc. makes no representations as to the completeness or accuracy thereof. Fire Disclaimer Protection Products, Inc. makes no warranty whatsoever, expressed or implied, of merchantability or fitness for the particular purpose since the conditions of use are beyond our control. Fire Protection Products, Inc. assumes no responsibility for injury to recipient or to third persons for any damage to any property and recipient. HAZARDOUS MATERIALS IDENTIFICATION SYSTEM (HMIS) Health = 1 Fire = 1 Reactivity = 0 PP = B Rating: 0 = Minimal 1 = Slight 2 = Moderate 3 = Serious 4 = Extreme PIPEFIT THREAD SEALING PASTE r r Description Pipefit® Thread Sealing Paste with PTFE is a premium non-hardening PTFE filled pipe thread sealing paste designed specifically for the fire sprinkler industry. Pipefit is suitable for use on all threadable materials commonly used in fire sprinkler systems, including CPVC. Pipefit's unique pipe blend of materials provides superior thread sealing qualities over other similarly priced sealants. The particulate PTFE also helps prevent leaks by accumulating in the voids of damaged or defective threads of the pipe or fittings. Additionally, the lubricating qualities of the PTFE and other materials in the sealing paste improve thread seating during pipe and fitting assembly. Pipefit® also adheres well to hot oily pipe present in 'high speed' fabrication operations. Design Criteria/Data Recommended Use Water Air Refrigerants Natural Gas Mild caustics Steam Kerosene LP Gases Acids Gasoline Diesel Fuel Ammonia Use for threaded connections on steel, aluminum, brass, PVC, CPVC and ABS. Operating temperature ranges -50 f to 500 f. FBC; SYSTEM COMPATIBLE *FBC System Compatible indicates this product has been tested by Lubrizol Advanced Materials and is monitored on an on going basis to assure chemical compatibility with FlowGuard Gold®, BlazeMaster, and Corzan® pipe and fittings. 3198 LIONSHEAD AVE CARLSBAD, CA 92010 TEL + 1760 599-1168 +1800344-1822 FAX + 1 800 344-3775 Installation Make sure that the threads are free from burs and other debris. Apply Pipefit® liberally to the male pipe threads. Make sure that the thread sealant is brushed into the "root" of the threads. Do not wipe off excess material until fitting has been "made on" to the pipe thread. The threading action of the fitting to the pipe will allow the proper amount of sealant to remain in the connection. Wipe off excess sealant. Pipefit® will not dry out under normal conditions. Never use dope and tape together. Keep covered when not in use to avoid contamination. Some settling of the product may occur. Occasional stirring may be necessary. Two year shelf life. Disclaimer DO NOT ALTER THE CONSISTENCY OF THIS PRODUCT. Use as is directly from the container. Keep away from your mouth and eyes. If eye contact occurs, flush with water for 5 minutes. If discomfort persists get medical attention. Specifications Appearance: Dense, paste-like consistency, off white in color. Packaging: 16 oz. brush in cap 32 oz. 32 oz. BIC 1 gl. 5 gl. 55 gl. CAUTION: See MSDS for first aid instructions. Wash hands thoroughly after each use. See Material Safety Data Sheet for additional safety and disposal information at www.fppi.com U- © 2012 Fire Protection Products, Inc. FPPI, LubeFit are registered trademarks of Fire Protection Products, Inc. FBC, BIazeMaste,, FlowGuard Gold and Corzan® are registered trademarks of Noveon IP Holdings Corp. MADE IN U.S.A. 3198 Lionshead Avenue Fire Protection Products, Inc. Carlsbad, CA 92010 F P P I Ic Phone: (760) 599-1168 Fill ptriciei plci(r5 im Fax: (800) 344-3775 MATERIAL SAFETY DATA SHEET Last Updated: 03/12/2012 )1Uc J1?iJ 1J rPf rJc] PipeFit® PipeFit Pint BIC Pipe Fit Qt. Flat top PipeFit Qt. BIC PipeFit gal PipeFit 5 gal PipeFit 55 gal Manufacturer Information Fire Protection Products, Inc. 3198 Lionshead Avenue Carlsbad, CA 92010 Phone: (760) 599-1168 Fax: (800) 344-3775 Emergency Contact CHEMTREC 1300 Wilson Boulevard Arlington, VA 22209-2380 Phone: (800)424-9300 International: +1 (703) 527-3887 CAS Registry Number Not applicable Chemical Family Mixture Product Type Pipe thread sealant Preparation/Revision Date 2012/03/21 Component Name CAS Number OSHA PEL ACGIH liv % (Optional) Light Naphthenic hydrotreated distillates 64742-53-6 Not listed Not listed 15-20 Ethanol 64-17-5 1000 ppm 1000 ppm 0.1-0.2 PTFE 9002-84-0 Not listed Not listed 3 - 7 flijJ - Exposure to hazardous substances is not expected when handling this product for its intended use. Principal Hazard(s) Extreme heating (>300°C) or during a fire may generate dense smoke, irritating and toxic fumes. IgJ:i) J 1J) If irritation or discomfort occurs, obtain medical advice immediately. Oral Do not allow victim to rub eye(s). Let the eye(s) water naturally for a few minutes. Have victim look right and left, and then up and down. If particle/dust does not dislodge, flush with lukewarm, gently flowing Eye water for 5 minutes or until particle/dust is removed, while holding the eyelid(s) open. If irritation persists, obtain medical attention. DO NOT attempt to manually remove anything stuck to eye(s). Quickly and gently, blot or brush away excess paste. Wash gently and thoroughly with lukewarm, gently Skin flowing water and non-abrasive soap for 5 minutes. If irritation develops, obtain medical advice. If symptoms are experienced remove source of contamination or move victim to fresh air and obtain Inhalation medical advice. L!11i.) 4J lMJi 150°C (300°F) (toc) Flash Point Upper Flammable Limit Not applicable Lower Flammable Limit Not applicable Use water spray, dry chemical, carbon dioxide, or an appropriate foam. Use water Extinguishing Media spray to cool fire-exposed containers. Self-contained breathing apparatus and protective clothing should be worn. Remove Special Firefighting Procedures all unprotected personnel. During a fire, products of combustion may include Hydrogen fluoride, Perfluoro- carbon olefins and oxides of carbon. Unusual Fire and Explosion Hazards Irritating and harmful fumes are released when PTFE is heated above 300'C. The decomposition products and the resulting health effects are temperature-dependent. Auto Ignition Temperature Not applicable C I U Health:0 NFPA Flammability: 0 Instability: 0 LI1 il 1JI. Spilled product may pose a slipping hazard. Personal Precautions Prevent the product from entering sewers or waterways. Environmental Precautions Not applicable Methods for Containment Pick up spilled product and collect for re-use or proper disposal. Dispose of any Methods for Clean Up contaminated, unusable product as described in Section 13 of this SDS. Avoid contact with eyes and skin; do not breathe fumes. Do not use near sources of extreme heat. Keep out of reach of children. Handling Wash thoroughly with detergent and water after handling, before eating, drinking, smoking or using the toilet. Store in a cool, dry area, away from heat, flames and ignition sources. Storage r if Not required for normal use. If product is overheated, provide adequate ventilation to Engineering Controls keep fume concentrations below any applicable exposure limits. Consult local authorities for acceptable exposure limits. Eye/Face Protection: No special requirements. Skin Protection: Wear appropriate gloves when needed to prevent skin contact. Personal Protection Respiratory Protection: Not required for normal use. Do not ingest. Avoid contact with eyes and skin; do not breathe fumes. Keep out of reach General Measures of children. Wash hands after handling. Physical State: Paste Vapor Density (Air =10): Not available Appearance, Color, Odor: White-cream colored paste; Evaporation Weight: Not available mild odor. Specific Gravity: 1.48 Melting Point: Not available Viscosity: Not available Boiling Point: 177°C (350°F) Odor Threshold: Not available % Volatile: 0% w/w Water Solubility: Insoluble in water. pH: Not applicable Vapor Pressure: Not applicable Decomposition Temperature: Not available Addition Properties: Not available 'OtiiTiJ JI,lttcTThv Stable at normal room temperature. Stability Incompatible with strong oxidizing agents. strong acids, strong alkalis, aromatic solvents, Incompatibility chlorinated solvents. Avoid extreme heat and open flames. Conditions to Avoid Hazardous polymerization will not occur. Polymerization Hydrogen Fluoride, Perfluoro- carbon olefins, oxides of carbon. Hazardous Decomposition Acute toxicity data is not available for the mixture. Oral Toxicity Light Naphthenic hydrotreated distillates LD50 dermal >2 000 mg/kg (rabbit) Ethanol LD50 Oral 1 501 mg/kg (rat) Light Naphthenic hydrotreated distillates LD50 Dermal >5 000 mg/kg (rat) Dermal Toxicity Product contains a substance which may cause an allergic skin reaction in sensitive individuals. There are no test data available for the product. Light Naphthenic hydrotreated distillates LC50 Inhalation >2.18 mg/L (rat) Inhalation Toxicity Ethanol LC50 Inhalation 124.7 mg/L (rat) Light Naphthenic hydrotreated distillates, has less than 3% DMSO extract as measured by IP Chronic Toxicity 346. This product is not required to be labeled according to the European Directive 67/548/EEC. Not available Respiratory Irritation Information not available for the mixture. PTFE and Light Naphthenic hydrotreated distillates are listed in IARC Group 3, Not classifiable as to its carcinogenicity in humans. Carcinogenicity Light Naphthenic hydrotreated distillates, has less than 3% DMSO extract as measured by IP 346. This product is not required to be labeled according to the European Directive 67/548/EEC. Not available Other - Ecotoxicity is expected to be low due to the product's insolubility in water. Ecotoxicity Not readily biodegradable. Degradability Insoluble in water. Mobility Do NOT discard into any sewers, on the ground or into any body of water. Store material for disposal as indicated in Section 7 Handling and Storage. The conditions of use, storage and disposal of this product are beyond our control and may Waste Disposal Method be beyond our knowledge. For this and other reasons, the supplier does not assume responsibility and expressly disclaim liability for loss, damage or expense arising out of or in any way connected with the handling, storage, use or disposal of this product. Not regulated as a hazardous material. US DOT Shipping Name Not applicable Hazard Class Not applicable DOT Identification Number Not applicable DOT Shipping Label Canadian Transportation of Not regulated as a dangerous good for transport. Dangerous Goods: Not applicable Marine Pollutants LJL - çJJ 7 Il'Jijr,.\ [ji' USA All substances are listed on the TSCA 8(b) inventory. TSCA Inventory Sec. 302/304: Not applicable Sec. 311/312: Not applicable SARA Title Ill Sec. 313: Not applicable CERCLA RQ: Not applicable Not applicable California Prop 65 Canada Not controlled WHMIS Classification This product has been classified in accordance with the hazard criteria of the Controlled (for workplace exposures) Products Regulations and the MSDS contains all the information required by the Controlled Products Regulations. New Substance Notification All component substances are listed on Canada's Domestic Substances List (DSL). Regulations Not applicable NPRI Substances 1*li1i) cf,t JIJd 1c1 Not applicable Additional Information Fire Protection Products, Inc. Prepared By 3198 Lionshead Avenue Carlsbad, CA 92010 Phone: (760) 599-1168 March 21, 2012 Revised Date Although the information and recommendations set forth herein are presented in good faith and believed to be correct as of the date hereof, Fire Protection Products, Inc. makes no representations as to the completeness or accuracy thereof. Fire Protection Disclaimer Products, Inc. makes no warranty whatsoever, expressed or implied, of merchantability or fitness for the particular purpose since the conditions of use are beyond our control. Fire Protection Products, Inc. assumes no responsibility for injury to recipient or to third persons for any damage to any property and recipient. HAZARDOUS MATERIALS IDENTIFICATION SYSTEM (HMIS) Health = Fire = Reactivity = PP = Rating: 0 = Minimal 1 = Slight 2 = Moderate 3 = Serious 4 = Extreme