The URL can be used to link to this page

Home My WebLink About047-230-148* * CHANGE ORDER ** AGENCY: WORKDATE: CHANGE: TENDERED lls s 5's $ 10's $ 20's s 50' $ 100's s PENNY $ NICKLE $ DEVIE $ QUARTER s HALVES $ f, E, J, , 4e-- - �p oyl- ol-(O-� r- f 1-41eW I HYDRONICS: RESIDENTIAL FIRE SPRINKLER HYDRAULICS 2.1 - SUBMITTAL. Page CONTRACTOR: WILLIAM I.-'. SQUYI?ES, JR. FIRE PROTECTION (530) 345-1012 ADDRESS: PO BOX 3176, CHICO, CA 95927-3176 Date: 12-28-2003 File: ZINK-2 JOB : ZINK RESIDENCE, 2 HEADS FLOWING STATIC : 60.0 Psi RESIDUAL 50.0 Psi FLOW 40 Gpm SPRINKLER MANUF RELIABLE MODEL : F1_/RES/49 MIN SPR FLOW 14.0 Gpm MIN SPR PRES : 8.2 Psi NODE ELEVATION K- PRESSURE DISCHARGE NO. FEET FACTOR Psi GPM ------------------------------------------------------------------------------- 1 20.0 4.90 8.4 14.2 2 20.0 4.90 8.6 14.4 3 20.0 10.2 4 20.0 18.0 5 11.0 23.1 6 11.0 28.0 7 1.0 SOURCE 35.9 SPRINKLERS FLOWING AREA PER SPRINKLER TOTAL DESIGN AREA Al, _REQUIRED DENSITY COMPUTED DENSITY TOTAL SPRINKLER FLOW TOTAL DOMESTIC FLOW TOTAL WATER REQUIRED TOTAL SPRINKLER PRESS WATER METER LOSS VALVE FIXED LOSS SUPPLY PRESS AVAILABLE DEMAND PRESS REQUIRED PRESSURE CUSHION 2 256 Sq. Ft. 512 Sq. Ft. .05 Gpm/Sq.Ft. .06 Gpm/Sq.Ft. 28.6 Gpm 0.0 Gpm 28.6 Gpm 35.9 Psi 0.0 Psi @ SOURCE 0.0 Psi @ SOURCE Copyright(1991) 54.6 Psi by 35.9 Psi Hydronics Engineering 18.7 Psi 34119 Fremont Bl, Suite 609 Fremont, Ca., 94555 (415) 487-9160 MAXIMUM VELOCITY 9.5 F/S E G e-, �,, �� f, .0%, �1 v �S' 10- 30' HYDRONICS: RESIDENTIAL FIRE SPRINKLER HYDRAULICS 2.1 - SUBMITTAL. Page 2 CONTRACTOR: WILLIAM F. SQUYRES, JR. FIRE 1--1R0TLC'1'1ON ( 530 ) 345-1 01 2 ADDRESS: PO BOX 3176, CI1ICO, CA 95927-3176 Date: 12-28-2003 File: ZINK-2 JOB : ZINK RESIDENCE, 2 HEADS FLOWING PIPE BEG FLOW K -FACTOR LENGTH C -FACTOR PRESSURE NO. GPM FITTING TYPE FTG FR- LOSS Psi END DIAMETER TOTAL (Psi/Ft) ------------------------------------------------------------------------------ 1 q= 14.2 K= 4.90 L= 6.5 Pt 8.4 Pt 8.4 1 Q= 14.2 F=LB F= 10.0 C= 150 Pe 0.0 Pv -0.4 Vel= 7.4 D= 0.884 TL= 16.5 0.1051 Pf 1.7 Pn 8.0 3 Pt 10.2 ------------------------------------------------------------------------- 2 q= 14.4 K= 4.90 L= 4.0 Pt 8.6 Pt 8.6 2 Q= 14.4 F=LB F= 10.0 C= 150 Pe 0.0 Pv -0.4 Vel= 7.5 D= 0.884 TL= 14.0 0.1077 Pf 1.5 Pn 8.3 3 Pt 10.2 ------------------------------------------------------------------------- 3 q= 0.0 K= 0.00 L= 43.0 Pt 10.2 Pt 10.2 3 Q= 28.6 F=11RL F= 18.0 C= 150 Pe 0.0 Pv -0.6 Vel= 9.5 D= 1.109 TL= 61.0 0.1272 Pf 7.8 Pn 9.6 4 Pt 18.0 - ------------------------------------------------------------------------- 4 q= 0.0 K= 0.00 L= 9.0 Pt 18.0 Pt 18.0 4 Q= 28.6 F=R F= 1.0 C= 150 Pe 3.9 Pv -0.6 Vel= 9.5 D= 1.109 TL= 10.0 0.1272 Pf 1.3 Pn 17.4 5 Pt 23.1 ------------------------------------------------------------------------- 5 q= 0.0 K= 0.00 L= 26.0 Pt 23.1 Pt 23.1 5 Q= 28.6 F=LB F= 12.0 C= 150 Pe 0.0 Pv -0.6 Vel= 9.5 D= 1.109 TL= 38.0 0.1-272 Pf 4.8 Pn 22.5 6 Pt 28.0 ------------------------------------------------------------------------- 6 q= 0.0 K= 0.00 L= 10.0 Pt 28.0 Pt 28.0 6 Q= 28.6 F=4RSL F= 18.0 C= 150 Pe 4.3 Pv -0.6 Vel= 9.5 D= 1.109 TL= 28.0 0.1272 Pf 3.6 Pn 27.4 7 Pt 35.9 ------------------------------------------------------------------------- Meter = 0.0 Valve = 0.0 ------------------------------------------------------------------------- ------------------------------------------------------------------------- 7 Q= 28.6 <<< SOURCE >>> Pt 35.9 E=>45-Elb L=>90-Elb B=>TeeBch R=>TeeRun C=>CauPlg S=>SwgChlc G=>GatVly HYDRONICS : FIRE SPRINKLER HYDRAULIC GRAPH PSI 100 + 90 + 80 + 70 + 60 X Static X X X 50 + X Resid 40 + * Spr Sys 30 + 20 + 10 + * Elev Loss 0 -------------------- +--------+--------+---------+----------+------------+ 0 200 300 400 500 600 '700 800 900 1000 1.85 FLOW -(GPM) f JOB ZINK RESIDENCE, 2 HEADS FLOWING}t X - Water Supply Curve Water Demand -C rve Static 60.0 Psi Avail Press 54.6 Psi @ 28.6 Gpm Residual 50.0 Psi Req'd Press 35.9 Psi @ 28.6 Gpm 111ME111111ml Cautmion Read Carefully! Installation Instructions & Technical Data (Details in bulletins 035 & 135) • Model F1 Res 49 Pendent . Model F1 Res 49 Recessed Pendent / F1 (F1 escutcheon, adjustment) F1 Res 49 Pendent F 1 Hes 49 Fiecessed Pendent / F i • Model F1 Res 49 Recessed Pendent / FP (FP push-on/thread-off escutcheon) . Model F1 Res 49 CCP Pendent F 1 Res 49 Recessed Pendent/FP F1 Res 49 CCP Pendent • Model F1 Res 40 HSW • Model F1 RES 40 Recessed HSW/F2 (F2 escutcheon, adjustment) F1 Res 40 HSW F 1 Res 40 Recessed I-iSW/F2_ Model F1 Res • 1626 r • Technical Data Sprinkler Tern I p. Max. Ambient Sprinkler K Thread Size Rating Max. pressure Temp. Factor Length inch IF 'C'F Ic (mm) /z" NPI 155 (R'/) 175 68 175 psi 79 (12 bar) 100 38 4.9 2.2.5 150 66 (57) Max Sprinkler Spacing Flow Sprinkler Pressure Identification Max Sprinkler Flow Spacing (Lpm) gpm (Lpm) psi (bar) Number (SIN) ft (m) °F C ( ) Number (SIN) 12 x12 (3.6x3.6) 13(d9) 7.0 (0.48) 14 x 14 (4.3x4.3) 13 (49) 7.0 (0.48) 16 x 16 (4.9x49) 13 (49) 7.0 (0.48) 83516 18 x 18 (5.5x5.5) 17 (64.3) 12.0 (0.83) 20x20(6.1x6.1) 20(75.7) 16.6(1.14) Technical Data Sprinkler CCP Assembly Temp. Max. Max• Ambient Sprinkler K Length Thread Tem Size Rating Rating Pressure Temp. Factor inch Sprinkler Max. Sprinkler (mm) °F °C °F °C IF °C Ambient K Length %✓' NP 1,), 68 135 57 (1-3 v") 175 psi IW '38 (12 bar) 150 66 225 4.9 (57) Max Sprinkler Flow Spacing (Lpm) Pressure psi (bar) Sprinkler Ideniitication gpm ft (m) °F C ( ) Number (SIN) 12 x12 (3.6x3.6) _ 13 (49) 7.0(0.48) 100 38 4.0 2_.45 150 66 -_ __ _ (62) .-- ---- 14 x 14 (4.3x43) 1,3(49) 7.0 (0.48) Flow Pressure 16 x 16 (4.9x 19) 14 (1-3) 8.2 (0.56) 13516 18 x 18 (5.5x5.5) 18 (68.1) 13 5 (0 93) 12 x 12 (3.6x3.6 155 (68) 175 20x20(6.1x61) 20(75.7) 166.(l 1.4)__- The Reliable Automatic Sprinkler Co., Inc., 525 North MacQuesten Parkway, Mount Vernon, `New_York 10552 CA -131 Rev. B lllililiimmlll Technical Data Sprinkler Max. Sprinkler Thread Temp- Max. Ambient K Length Size Rating Pressure Temp. Factor Inch °F°C °F C ( ) /z" NPT (R%) 155 68 175 psi 175 79 (12 bar) 100 38 4.0 2_.45 150 66 -_ __ _ (62) .-- ---- Max Sprinkler Sprinkler Temp. Flow Pressure Ceiling to- Sprinkler Deflector Identification Spacing Ratingpm ft (m) °F ("C� si (Lpm) (bar) Inch (mm) Number (SIN) 12 x 12 (3.6x3.6 155 (68) 175 (79) 13 (49 0) 10 6 (0.73 14 x 14 (4 3x4.3) 155 (68) 175 (79) 16 (60.5) 16,0(1.10) 16 x IG (4.9x4 9) 155 (68) 17 (G4.3) 18.1 (1.24) 16x 16 (4.9x4.9) 175 (79) 18(68.1) 20.2(l.39) 6 (101-152)4 4-6 16 x 18 (4,9x`3.5) 155 (68) 175 (79) 20(75,7) 25.0(172) 83538 18 x 18 (5.5x5.5) 155 (68) 175 (79) » (8 3 3) 3 Y(1. 2, 08) 16 x 20 4.9x6 a 15568 175 19 2 8J 0 33 1 i 28 . 12x 12 (3.6x3.6) 155 (68) 175 (79) N (49 14x 1 1 (4 :)x4 3) 155 (68) 115 (79) 17 (64 3) y (2x1)3 16x16 (4.9x 4.9) 155 (68) 175 (79) r�,118 20 (75 The Reliable Automatic Sprinkler Co., Inc., 525 North MacQuesten Parkway, Mount Vernon, `New_York 10552 CA -131 Rev. B lllililiimmlll The solvent cemented connection in thermoplastic pipe and fittings is the last vital link in a plastic pipe installation.. It can mean the success or failure of the system as a whole. Accordingly, it requires the same professional care and attention that are giver' to other components of the system. There are many solvent cementing techniques published covering step by step procedures on just how to make solvent cemented joints. However, we feel that if the basic principles involved are explained, known and understood, a better understanding would be gained, as to what techniques are necessary to suit particular applications, temperature conditions, and variations in size and fits of pipe and fittings. Be aware at all times of good safety practices. Solvent cements for pipe and fittings are flammable, so there should be no smoking nor other sources of heat or flame in working or storage areas. Be sure to work only in a well ventilated space and avoid unnecessary skin contact with all solvents. More detailed safety information is available from F-larvel or IPS (Weld -On) Corporation. The joining surfaces must be softened and made semifluid. Sufficient cement must be applied to fill the gap between pipe and fitting. Assembly of pipe and fittings must be made while the surfaces are still wet and fluid. Joint strength develops as the cement dries. In the tight part of the joint the surfaces will tend to fuse together, in the loose part the cement will bond to both surfaces. 'hese areas must be softened and penetrated When using the ONE STEP cementing process, penetration and softening can be achieved by the cement itself (read ONE STEP cementing procedures carefully,- refer arefully;refer to installation instructions). For certain sizes, under certain conditions, it may be desirable to use the IWO STEP process which utilizes a primer to ensure adequate softening. For example, when working in cold weather with large diameter pipe, more time and additional applications may be required. Cement coatings of sufficient thickness More than sufficient cement to fill the loose part of the joint must be applied. Besides filling the gap, adequate cement layers will penetrate the surfaces and also remain wet until the joint is assembled. Prove this yourself. Apply on the top surface of a piece of pipe two separate layers gf cement. First flow on a hegy, 1yer„ of cement, then alongssi le it a in3 brushed out layer. Tests h1e -y rs every 15 seconds or so by asgen�le tap with your finger. You will note that the thin layer become�;Qgc and then dries quickly (probably ; within 15 seconds) The heavy layer will remain wet much longer. Now check for penetration a few minutes after applying these layers. Scrape them with a knife. The thin layer will have achieved little or no penetration. -The heavy one, much more penetration. Surfaces must be assembled while they are wet and soft if the cement coatings on the pipe and fittings are wet and fluid when assembly takes place, they will tend to flow together and become one layer. Also, if the cement is wet the surfaces beneath them will still be soft, and these softened surfaces in the tight part of the joint will tend to fuse together. As the solvent dissipates, the cement layer and the softened surfaces will harden with a corresponding increase in joint strength. A good joint will take the required working pressure long before the joint is fully dry and final strength is obtained. In the tight (fused) part of the joint, strength will develop more quickly than in the looser (bonded) part of the joint. Information about the development of bond strength of ,solvent cemented joints is available. F V QUALITY Line VSR- aF VANE TYPE WATERFLOW FOR SMALL PIPE SWITCH WITH RETARD Potter Electric Signal Company Potter Electric Signal & Mig. LTD 2081 Craig Rd.,/P.O. Box 28480 Don Leslie Street Mills, Ontario, Canada M3B2M3 St. Louts, Mo. 63146 Don (416)441-1833 (314)878-4321 / (800)325-3936 UL & ULC LISTED STK. NO. 1113000 U.S. PAT. NO. 3921989, CANADIAN PAT. NO. 1009680 OTHER PATENTS PENDING. The Model VSR-SF is a vano typo waterflow switch for use on wet sprinkler systems that use 1", 1 1/4", or 11/2" piho size. The unit may also be used as a sectional waterflow detector on large systems. The unit contains two single pole double throw snap action switches and an adjustable pneumatic retard. The switches are actuated when a flow of 10 gallons per minute or more occurs downstream of the device. rhe flow condi- tion must exist for a period of time necessary to overcorr►e the selected retard period. INSTALLATION: These devices may be mounted in a horizontal or vertical pipe. On horizontal pipe they should be installed on the top side of the pipe where they will be ac- cessible. The units should not be installed within 6" of a valve, drain or fitting which changes the direction of 1110 waterflow. -i-beunit has a 1" NP -1 -bushing forthreading into a non corrosive "TEE,,. See figure 2 for proper "TEE" size, type and installation. Service Prossure: Up to 250 PSI Mlnlmum Flow Rate for Alarm: 10 GPM Maximum Surge: 18 FPS Enclosure: Cast Alurnlnurn, red enarnal finish. Cover held In place with tamper resistant screws. contact Ratings: Two sets of S.P.D.T. (Form C) 10 Arnp. @ 125/250 V. AC 2 Amp. @ o -30V. DC Conduit Entrances: Two openings for 1/2" conduit. Usage: Listed Plastic, Copper and Schedule 40 Iron Pipe. Fits pipe sizes - 1", 1 'A", & 1 '/2" Nolo: 6 paddlos are furnlsliod with each unit, one for oath pipe size of Ihreadod or sweat TEE, one for CI'VC, and one for polyhutylono. Environmontal Llmitatlor+s: 40'F/120'F F Caution: -this device Is not Intended for applications In explosive environments. Service Use: NFPA-13 Automatic Sprinkler NEPA 13D One or Two Farnlly Dwelling Residential Occupancy up to 4 Stories 1 R NFPA-7 Central Station NFPA-7 Local NFPA-72B Auxiliary NFPA-720 Remote Station NFPA-72D Proprietary Optional: Covor Tamper Switch , order Stk. No. 0090016 Kit for Outdoor Use: Order Slk. No. 1940036 Screw the device into the "TEE" filling as shown in Fig. 2. Caro must be taken to property orient the device for the direction of waterflow. The vane must riot rub the inside of the "TEE" or bind in any way. The stern should move freely when operated by hand. The device can also be used in copper or plastic pipe installations with the proper adapters so that tale specified "IEE" filling may be installed on the pipe run. TESTING: Chocl< the operation of the unit by opening the "Inspection Tosl Valve" at the end of the sprinkler line or the drain and test connection, if an Inspectors rest Valve is not provided. it there are no provisions for testing the operation of the 9 44• flow detection devi/cq- on the system, application oft e VSR SF is h.qt ,f9corrimPr) ed or advisable CAUTION: There are 8 paddles furnished with each unit. These paddles halve,rj sed,lelter�ing Thhat $Y►ows the pipe size and type of "TEE" that they are to b0 used with. The proper paddle IDuil be used: Ie scre�nt at iialpaddle holds must be securely tightened.l�r.tU REV D ®ULLETIN 002 PAGE 1 OF 2 PRINTED IN USA 4 BELLS POTTER PBA -AC & PBD -DG a , 1 � I'I •n:v:,,::u:.ypn,, y>SS.�4SFiJu}S?.S':itl.::hS:fiftliK7.•:::f•"':»:::::�I.J.•..:..:...�nS....:....^..e'e'v.:.::::!.::,iF`::Sl UL Listed, FM Approved Sizes Available: 6" (150mm), 8" (200mm) and 10" (250mm) Voltages Available: 24VAC 120VAC 12VDC (10.2 to 15.6) Polarized 24VDC (20.4 to 31.2) Polarized Service Use: Fire Alarm General Signaling Burglar Alarm Environment: Indoor or outdoor use (See Note 1) -40° to 150°F (-40° to 66°C) (Outdoor use requires weatherproof backbox.) Termination: 4 No. 18 AWG stranded wires 6" BELL SHOWN Finish: Red powder coating (Optional: Model BBK-1 weatherproof backbox These vibrating type bells are designed for use as fire, burglar or general signaling devices. They have low power con- sumption and high decibel ratings. The unit mounts on a standard 4" (101 rnm) square electrical box for indoor use or on a model BBK-1 weatherproof backbox for outdoor applications. Weatherproof backbox model BBK-1, Stock No. 1500001. ALL DC BELLS ARE POLARIZED AND HAVE BUILT-IN TRANSIENT PROTECTION: SIZE INCHES (mm) VOLTAGE MODEL NO. STOCK NO. CURRENTEAF (MAX) MINIMUM dS AT 10 FT. (3m) (1) 6 (150) 12VDC PBD'126 1706012 .12A 76 8 (200) 12VDC PBD128 1708012 .12A 76 1710012 .12A 92 76 24VDC 1706024 .06A 87 76 a(((2512VDCEPL3D2410 24VDC 1706024 ,06A 91 79 24VDC 1710024 .06A 94. 79 6 (150) 24VAC PBA246 1806024 .17A 91 J6 8 (200) 24VAC PBA248 1808024 .17A 94 76 10 (250) 24VAC PBA2410 1810024 .17A 94 76 6(150) 120VAC PBA 1206 1806120 .05A 92 82 8 (200) 120VAC PBA 1208 1608120 .05A 99 82 10 (250) 120VAC PUA12010 1810120 .05A 99 85 Notes: 1. Minimum dB ratings are calculated from integrated sound pressure measurements made at Underwriters Laboratories as specified in UL Standard 464. UL temperature range is -30° to 1�0'R,: 4%to 66°C). 2. Typical dB ratings are calculated from measurements made with a;�_,O` ", onal pond level meter and are indicative of output levels in an actual installation. Potter Electric Signal Company • 2081 Craig Road, St. Louis, MO, 63146-4161 • Phone: PRINTED IN USA �' ; >,1 i I MKT. 98850001 -REV P MFG. 95400776 - 3/99 .pottersignal.com PAGE 1 OF 2 I� INCORPORATED 36 CORONA. CA • (009) 737-5599 .Y .7 UR, , i4.,. .t ..,.. YI.M..W�Y'. i.. ^'. 4.',� e . r. .. ♦�t.�.... .t ..,.. FIG. 23 HANGER FOR C.P.V.C. PLASTIC PIPE DOUBLE FASTZ:NER STRAP TYPE Size Range - 3/4" thru 2" C.P.V.C. pipe. Material- Carbon Steel with galvanized finish G-90 govt. spec. Function - The Fig. 23 and Fig. 24 are intended to perform as a hanger/restrainer to support only C.P.V.C. piping used in automatic fire sprinkler systems. Fig. 23 and Fig. 24 can be installed on the top or on the bottom of a beam. The Fig. 23 can also be installed on the side of a beam. The Fig. 23 and Fig. 24 can also function as a restraitrer to prevent. the upward movement of the sprinkler head during activation. Approvals - Underwriters' Laboratories listed to support fire sprinlder piping. Meets and exceeds the requirements of N.F.P.A. 13, 13R, and 13D. Features - The Fig. 23 and Fig. 24 incorporate features which protect the pipe and ease installation. The flared edge design C. P. V. C. PIPE SIZE p 3�/4 1 1�4 aC' ^a^'sntn 'i'1,'r,'. 2 REVISED 3/94 EM 1111101111 FIG. 24 HANGER FOR C.P.V.C. PLASTIC PIPE DOUBLE FASTENER STRAP TYPE — SIDE MOUNT -M(----- A --- )► protects the C.P.V.C. pipe from any rough surface. The Fig. 23 design incorporates snap retainers allowing easier and faster installation. The Fig. 23 and Fig. 24 are easily attached to the building struc- ture using the two hex head self threading screws* furnished with the product. It is recommended that rechargeable electric drills fitted with a hex socket attachment be used as installation tools. No impact tools (such as a hammer) or impact fasteners (such as drive screws or nails) are allowed. Darnage has been known to result from Installations using Impact type tools. No pre drilling of a pilot hole in wood is required. Order By - Figure number and C. P.V.C. pipe size. Patents Fending *-l-lardened hex head self threading screw is f urnished with the product and is the minimum fastener size acceptable. C FIG. `l3 PIG. 24 P1G 23 I I( 24 FIG 23 3-1/8 2-5/16 1-9/16 _1 5/3L._jJ 3/16 ------------ MAX _._MAX.HANGER FASTENER APPROX. SPACING r=..I I X Inll WEIGIIT FIG 24E%_`t'EJloo 3 .._ ---- Fh _r— 9 4 3/16 3 2-3/32 1-1/2 1-3/16 1-3/16 6-1/2 m.t l/32 4-7/8 3-11/16 2_7/16 127/32 1-3/16 l-3/16 _-_8----_.. O/A Z:) I . A) AN KS (---fiAt-NIAN 7 D J I. U A Q2;-,'.QVW A I!!; v W p.j vvOlIkillo vvt. Lhs. G-11)"wily WIdO x x ;;hull 2 (.),A,,W 1, —N, E, L U1 120 .1 G 2- 2 X, 303 '120 vv o s 1 2. 3,1. 1 bOx" !1.Q vv (1,19 (i({,'-) 10,10 12- x I') 900 Golllhi.) 900 Mini owl Vol I nmi i Ail Vol lli,:,l f)l ily. 'OEM' 11 1. Fire sprinkler installation and supply system shall comply with NFPA 13D-1999 Edition. 2. Where stored water is used as the sole source of supply, a tank float switch must be set to maintain 10 times the minimum quantity of water determined by the listing and calculations. (7 times for exception to section 2.1). Tank float switch must be set to maintain,,�gallons minimum useable water storage in tank. 3. Provide adequate protection against freezing for system components outside or in the unconditioned space. 4. The fire sprinkler system shall be tested for leakage at normal operating pressure. 5. Provide 1 extra sprinkler of each type used and a wrench. 11, 6. Residential sprinkler heads must be at least 8 feet apart. 7. The owner is responsible for the condition of a sprinkler system and shall keep the system in normal operating condition. 8. Sprinklers shall not be painted with the exception of those painted with factory - applied coatings. 9. See plans and specifications for other requirements. 10. Minimum of "= gpm required atATj, si. all i ll��I�IIJI��l�lll� ��' 19 !n\ 11W Q E 1 L - 24 X X PIR&AM ON NO. IMM CLLARPRIl d A z 0 M C n Ln u P60 a w 00 o � V � U C/1 lr Qi Date Scale Drawn Job /f Sheat Of Sheets NOTES: 1. System to be installed per N.F.P.A 131), manufacturers specifications, and local A.H.J. 2. All piping to be "Listed" CPVC or equiv. 3. Pipe hangers to be "Tolco" or equiv. 4. Freeze protection, water supply, carpentry and electrical by others. 5. Riser to be installed in "stud bay" within indicated wall. 6. Exact pipe run lengths and head locations subject to field verification. 7. Heads to be Reliable FI/RES/49, K=4.9. Flows based on an 161X16' grid pattern. (see attached calcs.) 8. All pipes to be I inch diameter unless otherwise noted. 9. Minimum flow of 40 GPM at 40 PSI required * BOIL 21 X 36 PFWdM ON NO. 10M CLEARPFW(r* RUN WPHLI �UVPLY R i 5 F )I f) Y, L ( 1V T� � �v F 00 K �1 FA IZ6 I G. �- 6 D h/ D F, r.. � ) b/1" h P L ;1-1 ; BUTTE COUNTY' BWAUNG UIVISJOIq APPROVED I ffm Date Scale asp jf`C' Drawn Job Sheet Of Sheets I