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Specifications Bernard's Catering 14" x 14" Exhaust 2-D Duct `— Uon system Heat Detection maximum flow pts 10 system using 6 s' hood fire system piped in 318" \ black pipe Chem I PCL -300 11 -H 12-H fuel shut off nozzle height no more 3/4" gas valve than 40" above appliance pull station 10'onpath of egress _ CITY OF TIGARD valve Approved S ..1=. . [ � 3/4" Conditionally Approved.............. [ 1 - - - 12" 2 burner 48" grill top See Lette to: Follow [ j stove top A • hed Permit Nun '- : r"!i , + CX. � Universal Fire Equipment Bernard's Catering Ad• Ea' .� 8049 SW Cirrus Drive 8100 SW Durham Rd. By: dil a% Date: Pa n Beaverton, OR. 97008 Tigard, OR. 97223 (503) 641 .8702 Greg Heath CCB #8623 OFFICE COPY 'w • • master Iopy Chapter 1 — General Information Page 1 -1 • REV. 4 •. CHAPTER GENERAL INFORMATION INTRODUCTION Temperature Limitations The PYRO -CHEM® KITCHEN KNIGHT® II Restaurant Fire The operating temperature range of the PYRO -CHEM Suppression System is of the pre- engineered type as KITCHEN KNIGHT II System is 32° F. (0° C.) minimum to defined by NFPA -17A Standard for Wet Chemical 120° F. (49° C.) maximum. Extinguishing Systems and NFPA -96 Standard for the Installation of Equipment for the Removal of Smoke and UL Listing Grease -Laden Vapors from Commercial Cooking Equipment. The system is designed to provide fire protection for restau- The PYRO -CHEM KITCHEN KNIGHT II Restaurant Fire rant cooking appliances, hoods, and ducts. Installation and Suppression System has been tested to the UL Standard for maintenance of the system must conform to the limitations Fire Extinguishing Systems For Protection of Restaurant detailed in this manual and be performed by an Authorized Cooking Areas. UL300 and Listed by Underwriters PYRO -CHEM KITCHEN KNIGHT II dealer. Laboratories, Inc. The PYRO -CHEM- KITCHEN KNIGHT II System utilizes a wet chemical agent specifically designed to suppress restau- ULC Listing rant:cooking area fires. The system provides automatic actu- ation and can be manually actuated through a remote The PYRO -CHEM KITCHEN KNIGHT II Restaurant Fire mechanical pull station. Upon actuation, the system Suppression System is listed by Underwriters Laboratories discharges a pre - determined amount of agent to the duct, of Canada (ULC). The ULC Listing No. is CEX812. plenum, and cooking appliances. The agent acts to suppress fires in three ways: MEA Approval 1. The chemical chain reaction causing combustion is inter The PYRO-CHEM KITCHEN KNIGHT II Restaurant Fire rupted by both the agent itself and the resulting steam Suppression System has been approved for use by MEA formation. (Material and Equipment Acceptance Division) for New York 2. The agent cools the fire bringing it below auto - ignition City. The MEA Certification No. is 91-99E-Vol. II. temperature. 3. The agent reacts with hot grease forming a soap -like layer (saponification) that helps prevent the escape of combustible vapors, thus preventing re- ignition. The shutdown of all sources of fuel and electric power that produce heat to all equipment protected by the system is required upon system actuation. It is recommended that make up or supply air fans, integral to the exhaust hood(s) being protected, should be shut down upon system actua- tion, Exhaust fan(s) in the ventilation system should remain on during system discharge as they assist the dispersion of chemical through the ventilating system. The system is UL Listed with or without exhaust fan shutdown. The KITCHEN KNIGHT II and the KITCHEN KNIGHT Restaurant Fire Suppression System are compatible as long as separate installation guidelines are followed per each system design manual. Exception: The actuation limitations for the KITCHEN KNIGHT II system may be utilized for the KITCHEN KNIGHT system. Also, control heads, prior to Model No. 3, may be utilized on KITCHEN KNIGHT II systems, provided that the limitations used with those control heads are followed. ULEX 3830 March 1,2006 R .r- , r Chapter 2 - Components Page 2 -1 REV, _4 CHAPTER 11 COMPONENTS CYLINDERS & VALVE o The PYRO -CHEM KITCHEN KNIGHT II System has available 1 four different size. cylinders: Models PCL -160 (P /N 553163), \��;�� p PCL -300 (P /N 551194), PCL -460 (P /N 551193), and PCL -600 0 k,a (P /N 551196).. Cylinder sizes are expressed in terms of extin- 0 / 1' A P guishing agent capacity (i.e., the PCL -300 uses 3.0 gallons p \\1/ o 0 m (11.4 L) of extinguishing agent). The cylinder is manufactured, tested, and meets DOT requirements. Cylinders come pre filled m � ,� /or �� 12 N. with extinguishing agent and are charged with dry nitrogen to a � -: , -- pressure of 225 si @ 70° F 15.5 bar @ 21 °C Cylinder % �� ii Ail - -; :- i and valve assembly dimensions are shown in Figure 2 -1a. / o j / # \� � \ � �� ' ars i ' i j Figure 2 -1 b. Wet Valve Cross Section. l - 008212PC C III WET VALVE REBUILDING - o EQUIPMENT ■ Wet Valve Seal Rebuilding .Kit (P /N 550698) I l ._A14 After system discharge, the valve assembly must be rebuilt to ensure proper future operation. The Wet Valve Seal Rebuild- , _. Max. ing Kit (P /N 550698) should be used. It includes all compo- A B C D Flow Weight Mounting nents necessary to properly rebuild the valve. See Figure Model in. in. in. in. Point lbs. Bracket 2 - 2a. , No. (cm) (cm) . (cm) (cm) Capacity (kg) Used PCL -160 7.00 19.62 25.37 17.31 5 33 MB -15 .4 3 (17.8) (49.8) (64.4) (43.9) (15) 0 ' Ili ' PCL -30A' ' 8.00 25.06 30.81 22.75 10 53 MB -15 (20.3) (63.7) (78.3) (57.8) (24) O PCL -460 10.00 25.06 30.81 22.75 15 83 MB -15 (25.4) 41.56 33.50 33.50 (37.7) O PCL -600 10.00 00 35.81 35.81 41.56 20 108 08 MB -1 (25.4) (91) (105.4) (85.1) (48.9) 0 Figure 2 -1a. Cylinder and Valve Assemblies. 002841PC All cylinders utilize the same wet valve assembly (P /N 0 551175). The wet valve assembly is a pressure sealed poppet type valve designed to provide rapid actuation and Figure 2 -2a. Wet Valve Seal Rebuilding Kit. discharge of agent. See Figure 2 -1b. 002908PC Item Part No. Description Item Part No. Description Item Part Number Description • 1 Valve Body 8 550386 Shrader Valve 1 550705 Conical Spring 2 550705 Conical Spring Ass'y 2 550716 Neck 0 -Ring 3 550707 Piston 9 550714 Valve Cap 0 -Ring 3 550028 Stem 0-Ring 4 550716 Neck 0 -Ring 10 550715 Piston 0 -Ring 4 550715 Piston 0- Ring_ 11 550989 Valve Stem 5 550989 Valve Stem' 5 551236 Pressure Gauge 6 550714 Valve Cap 0- Ring. /*---\\, 6 550028 Stem 0 -Ring 12 551256 Pressure 7 550802 Wet Valve Regulator , Adaptor 13 551261 Seal 14 17851 6- 32x3/8 Screw ULEX`:3830 :- March .1, 20 0 6 .- Chapter 2 - Components Page: -2 -2 REV. 4 Pressure Regulator Assembly CYLINDER BRACKE /---c (P /N 550985) Vertical bracketing of the PCL -160, PCL -300 and PCL -460 is The pressure regulator assembly is available if the complete provided by the Model MB -15 bracket kit- (P/N.550054). Vertical bracketing of the PCL- 600_ regulator requires replacement (i.e., possible thread 'rs provide.-by the Mgdei damage). MB -1 bracket kit (P /N 550053). These kits niust be ordered separately with each cylinder /valve assembly..Cylinder instal- lation instructions are provided irrthe installation section of Pressure Regulator Rebuilding Kit this manual. (P/N 551061) After system discharge, the pressure regulator must be rebuilt to ensure proper future operation. The rebuilding kit (P /N 551061) should be used. It includes all components + and instructions necessary to properly rebuild the regulator. See Figure 2 -2b. A IN VALVE SEAL, PART BODY NO.551261 #6-32 X 3/8 IN. SCREW, PART NO. 17851 -7 INTERNAL O -RING, I PISTON �- PART..N0.402745 0 -RING, I SPRING, PART PART N0. I N0.551176 1 2837 L..— .._..— _J lif V ? i . • + r_. EXTERNAL O -RING, �� -j4 g i)1 l PART NO. 551273 fl .//`j Figure2-3. ---) 006842PC #8 -32 X 3/8 IN. HOLDING SCREW, PART NO.419045 Model No. A B C Figure 2 - 2b. MB -15 15.69 in. 4.0 in. • 3.13 in. 008103PC (39.9 cm) (10.2 cm) . (7:9 cm) . MB -1 20.44 in. • 4.0 in.. _ 2.13 in. Model VT-1- (P/N 550788) (51.9 cm) (1`0.2 cm) (5.4 cm) The Model VT-1 wet valve tool is designed to facilitate the rebuilding of the wet valve assembly. It should be used to EXTINGUISHING. AGENT hold the wet valve piston while unscrewing the cap and stem assembly. See figure 2 -2c. The agent used in PYRO- CHEM-KITCHEN,KNIGHT II Systems is a potassium carbonate based solutionthat is extremely effective for grease - related kitchen fires. This I agent is available - for cylinder recharging in -1.6• Gallon and 3.0 Gallon containers. For MSDS -inforimation, contact PYRO -CHEM at 800- 526 -1079 or 71'5 -732 -3465 or www.pyrochem.com. 1.6 Gallon Shipping Assembly - P/N 553176 - " 4 1114V 3.0 Gallon Shipping Assembly - P/N 5511.88 Figure 2 -2c. Model VT-1 Wet Valve Tool. 002907PC ULEX-3830 ► March 1, 2006 Chapter 2 Components Page 2 -3 REV ;2 CAUTION MODEL ECH3 r- SAC. Precautions must be taken when handling and trans- CONTROL HEAD ferring wet agents as they are caustic in nature. The Model ECH3 electric control head is an electrically Goggles must be worn at all times. If any agent gets operated control head which can be connected to the •PCL into the eyes, they should be flushed with clean water 300/460/600 cylinder valve. This_controi,head will support an for 15 minutes and a physician contacted. If any agent electric thermal detection system,.' a remote:mechanicai;pull contacts the skin, i t should be flushed with cold water station (Model RPS -M), and an electric gas shut-off , valve: It to prevent irritation. The agent is electrically conduc- will not support a fusible link detection :system.A micro elec- tive. Care must be taken to thoroughly clean up any tric switch (Model MS -DPDT) is included. The Model ECH3 agent discharged around electrical appliances before control head is available in both :.120. VAC '(Model ECH3 -120, turning the power on. P/N 551202) and 24 VDC (Model ECH3 -24, P?N 551201). It is equipped with a local manual control hand* '.that allows After system discharge, agent must be cleaned up immedi for mechanical system actuation. Operation of .the local ately with hot, soapy water to prevent corrosion of effected manual control requires removing the pull pin and rotating surfaces. the handle clockwise. The Model_. ECH3 control head can actuate a maximum of five (5) cylinders with the 16 gram CO2 cartridge. See Figure 2 -5. MODEL MCH3 - MECHANICAL CONTROL HEAD (P/N 551200) ° MODEL ECH3: CONTROL -HEAD The Model MCH3 mechanical control head is a fully mechanical control head which can be connected to the RAJ. K UN HAAm MEW RRE PCL - 300/460/600 cylinder valve. This control head will TO SUMMON ers na support a fusible link detection system, a remote mechanical pull station (Model RPS -M), and a mechanical or electric gas MO P131 MANIR MI" 6110-2142 uu shut -off valve. A micro electric switch (Model MS -SPDT, MS- ° ° �, DPDT, MS -3PDT, or MS -4PDT) can be ordered separately and field installed. It is equipped with a local manual control handle that allows for mechanical system actuation. Figure 2 -5. Electric Control Head. Operation of the local manual control requires removing the 004789PC pull pin and rotating the handle clockwise. The Model MCH3 control head can actuate a maximum of five (5) cylinders MODEL NMCH3 - MECHANICAL with the 16 gram CO2 cartridge. See Figure 2 -4. CONTROL HEAD (PIN 551203) ° 0 The Model NMCH3 Mechanical Control ,Head is a MODEL MCH3 CONTROL HEAD mechanical control head which can be connected "to the PCL- 300/460/600 cylinder valve. This control head will PULL PIN, TURN HANDLE TO RELEASE FIRE support a fusible link detection system, a remote mechanical SUPPRESSION SYSTEM pull station (Model RPS -M), and a mechanical or electric gas shut -off valve. A micro electrical switch (Model MS -SPDT, PYRO{HESI OM STANTON STREET 0 MS -DPDT, MS -3PDT, or MS -4PDT) can be ordered sepa- MARINE WRINETTE. WI 511433513 ° o rately and field installed. There is no local manual actuation for the Model NMCH. The Model ,NMCH3 control head can actuate a maximum of five (5) cylinders with the 16 gram Figure 2 -4. Mechanical Control Head. CO2 cartridge. 004790PC 0 0 MODEL NMCH3 CONTROL HEAD !ET MD PYRO CIeA ONE ATAATOM STREET MARIAETTE, AI 54143-2542 U L �-� o Figure 2 -5.1. Mechanical Control Head: 006843PC ub'E 3530 Mar 200 ` .:,:; Chapter 2 — Components Page 24 REV.3 MODEL EN4t4CU3 ENCLOSURE MODEL MB -P2 CON, H:EA�D (P/N 551208) MOUNTING BRACKET "(P/N 550853) The Model EN -MCU3 Enclosure is used for vertical mount- ing of a single PCL -300 or, PCL -460. The EN -MCU3 also The Model MB -P2 mounting bracket must be used to mount includes a mechanical control unit, eliminating the need for a the Model MCH3, NMCH3, or ECH3 control heads if the Model :MCH3.Control Head. See Figure 2 -6. The PCL-600 control head is not mounted directly on a cylinder valve. See cannot be mounted in an EN -MCU3. Figure 2 -7. ® o O o 28.1251N. (71.4 cm) 0 0 1 4 13.1251N. I 110.6251N 0 ' (33.3 cm) 127.0 cm) (FROND (SIDE) Figure 2 -7. Model MB -P2 - Control. Head Figure 2 -6. Model EN -MCU3 Enclosure. Mounting Bracket, 002845PC 002848PC MODEL EN -S ENCLOSURE PNEUMATIC ACTUATING (P/N 550966) CYLINDERS The Model EN -S Enclosure is used for vertical mounting of a single PCL -300 or PCL -460 when it is used as a secondary Model PAC 10 (P /N: 550.04) agent cylinder in a system. Dimensions are the same as the The Model PAC -10 is a pneumatic actuating cylinder that Model EN -MCU3 enclosure (see Figure 2 -6). The EN -S has can actuate a maximum of ten (10) agent cylinders simulta no control mechanism, and must be used in conjunction with neously. The Model PAC -10 includes a DOT 4BA350 cylinder a Model EN -MCU3 Enclosure or a Model MCH3 /ECH3 pressurized with dry nitrogen to 350 psig © 70° F. (24.1 bar Control Head. The PCL -600 cannot be mounted in an EN -S. ® 21 °C), a brass valve with pressure gauge, and a wall mounting bracket. A Model MCH3, NMCH3, or ECH3 control head must be purchased separately and connected to the PAC -10 to open the valve. See Figure 2 - 8. MODEL MCH3, NMCH3, OR ECH3 CONTROL HEAD (SOW SEPARATELY) 3/4 IN. DISCHARGE PORT 20.25 in. (51.4 cm) 14.50 In. (36.8 cm) 12.25in. (31.1 cm) PAC-10 `-- 4.00 in. (10.2cm) Figure 2 -8. Model PAC -10 Pneumatic Actuating. Cylinder. 002847PC ULEX 3830 ► March 1, 2006 Chapter 2 — Components Page; 2 -5 1#E\L3 .' DETECTION EQUIPMENT Model FLH -1 (P /N 550876) Model FLK -1 (P /N 550131) The Model FLH -1 fusible Zink hanger is an accessory designed to simplify the installation of fusible links in the fusible link line. It can be used with the Model FLK - fusible The Model FLK -1 fusible link kit includes a 10 in. (25.4 cm) link kit (kits must be ordered separately);: The Fusible Link steel bracket, two (2) 1/2 in EMT connectors, two (2) cable Hanger makes it possible to installfusible links without crimps, and two (2) "S" hooks. Fusible links must be ordered cutting and crimping loops in the fuaible link line for each separately. See Figure 2 =9a. link. They are available in packages of 25 (FLH -25) only. See Figure 2 -9b. Model FLK-1A (P/N 550132) The Model FLK -1A fusible link kit includes an 8 in. (20.3 cm) steel bracket, two (2) 1/2 in. EMT connectors, two (2) cable crimps, and two (2) "S" hooks. Fusible links must be ordered separately. LINK DETECTOR BRACKET TERMINAL LINK S-HOOK / l - NN E O T (SNNEOTOR - 1/161N. STAINLESS STEEL CABLE ® s FUSIBLE UNK - SERIES LINK CABLE CHIMP Figure 2 -9a. Model FLK -1 Fusible Link. 002849PC FUSIBLE LINK KIT (SOLD SEPARATELY) a 1 01111111111 111111 1( I FUSIBLE LINK (SOLD SEPARATELY) FLH-1 FUSIBLE LINK HANGER • Figure 2 -9b. Model FLH -1 Fusible Link Hanger. 002850PC U _38:30 • Maroi';L 2O:d6 Chapter 2 – Components Page .2 -6 k; REV..4 Fusible Links The fusible link is designed to separate at a specific temper- 5 IN. LEADS (152 MM) ature, releasing tension from the fusible link line, causing system actuation..See Figure 2 -10. 1/2 -14NPT "°. 0 / _ - HEX ._. /� 1 IN. 4.9 IN. v (125 mm) (1111) re 3.7 1N. (93 mm) Figure 2 -10. ML Style Fusible Link. i ' °°2esiPC H After determining the maximum ambient temperature at the fusible link location, select the correct fusible link according (l6 m (16 mm) to the temperature condition chart below: Figure 2 -11. Thermal Detector. To Be Used Fusible Link Where Temperature ' " MODEL IR.PS4M1: -- REMOTE Model No. Does Not Exceed Part Number MECHANICAL -PULL STATION FL -165 100° F. (38° C.) 550368 FL -212 150° F. (66° C.) 550365 (P /N 551074) FL -280 225° F. (107° C.) 550366 Remote manual control for the.Model MCH3, NMCH3, or 1 FL -360 290° F. (143° C.) 550009 ECH3 control head is provided by the RPS -M remote FL -450. 360° F. (182° C.) 550367 - FL -500 400° F. (204° C.) 56816 mechanical pull station. It is connected to the system control head by stainless steel cable: This .cable is enclosed in 1/2 in. EMT conduit with corner pulleys at each change in Thermal Detectors direction. The remote mechanical pull station shall be located at the point of egress. See Figure 2 -12. Fixed temperature thermal detectors are normally open, mechanical contact closure switches designed to operate at m CD a factory preset temperature. They are available in four INCASEOF preset temperatures which meet NFPA standards and are PIRI UL Listed and FM Approved. After determining the maximum 411 ambient temperature at the thermal detector location, select � the correct thermal detector according to the temperature RIIII 1 . WPM condition chart below: Thermal Detector Maximum Ambient -- STANDARD 4IN. x4IN. ELEC. Model No. Temperature Part Number Q JUNCTION BOX TD -225 155° F. (68° C.) 13976 0 TD -325 255° F. C.) 13975 CO 0 RIDGED BRUSHED TD -450 380° F. (193° C.) 13974 0 ALUMINUM FACE PLATE TD -600 530° F. (277° C.) 13971 0 50 • RED PLASTIC .91 BREAK ROD "D" RING 0 . PULL HANDLE 1/4 IN. RADIUS /-, ON ALL CORNERS Figure 2 -12. Model RPS -M Mechanical Pull Station. 002852PC e.ULEX 3830 ► MBrch'. 1,`2006 ' Chapter 2 - Components Page; 2 -7 REV; :4 (--. GAS SHUT-OFF VALVES Maximum Valve Operating Part Model No. Size Pressure Number GV Mechanical Gas Shut -off Valve EGVSO-75 3/4 in. 50- - (3.5 bar) 550358 A gas shut -off valve is required on all systems used to EGVSO -100 1 in. 25 psi (3.5 bar) 550359 - protect a gas fueled cooking appliance to stop gas flow in EGVSO -125 1 -1/4 in. 25 psi (3.5:bar) 550360 - the event of system actuation. A mechanical gas valve can EGVSO -150 1 -1/2 in. 25 psi (3:5 bar) 550361 be used with the Model MCH3 control head. It is connected EGVSO -200 2 in. 25 psi (3.5 bar) 550362 to the system control head by stainless steel cable. This EGVSO -250 2 -1/2 in. 25 psi (3.5 bar) 550363 cable is enclosed in 1/2 in. EMT conduit with a corner pulley EGVSO -300 3 in. 25:psi. (3.5 bar) 550385 at each change in direction. The valves are rated for natural _ and LP gas (see Figure 2 -13a). Mechanical gas valves are available in the following: sizes: onisomionorio Maximum Mit Valve Operating Part Model No. Size Pressure Number • - . GV -75 3/4 in. 5 psi (.4 bar) 550593 kmi GV -100 1 in. 5 psi (.4 bar) 550594 GV -125 1 -1/4 in. 5 psi (.4 bar) 550595 . GV -150 1 -1/2 in. 5 psi (.4 bar) 550596 GV -200 2 in. 5 psi (.4 bar) 551049 GV -250 2 -1/2 in. 5 psi (.4 bar) 550185 Figure 2 -13b. Electric .Gas Shut-off Valve. GV -300 3 in. 5 psi (.4 bar) 550186 008844PC Note: A UL Listed manual reset -relay is required when using �� an electric gas valve. The PYRO-CHEM KITCHEN. KNIGHT r M II Model SM -120 solenoid monitor. may be used for this 11111 purpose. o Py ro "QUIK- SEAL" ADAPTOR GAs vAwe The "Quik -Seal" adaptor is,a listed mechanical bulkhead fitting that produces a liquid -tight seal around, both distribution piping DIM. "A" ' Ilii and detection conduit which runs through restaurant hoods and G • o ducts. The "Quik-Seal" adaptor accepts threaded pipe or SEE .- -...■ conduit. The adaptor is available for 3/8-in. and 1121n. pipe or CHART ® conduit sizes. When using with EMT conduit, a conduit connec- tor must be installed in each end of the adaptor. The "Quik- s��ai:�� SeaP' Adaptor Shipping Assembly can be ordered :ihsingle or milipmumump package of 24. Shipping Assembly Hole Size. Size Part No. Qty. Required 3/8 in. 550857 1 1 1/8 in. Figure.2 -13a. GV- Series Mechanical Gas Valve. 1/2 in. 550859 1 1 1/8 in. 002853PC 3/8 in. 550858 24 1 1/8 in. EGVSO Electric Gas Shut -off Valve 1/2 in. 550860 24 1 1/8 in. A gas shut -off valve is required on all systems used to . ADAPTOR BODY protect a gas fueled cooking appliance to stop gas flow in __ _ _ —_ - _._ __ GASKET LOCKWASHER the event of system actuation. A UL Listed electric gas valve can be used with either the Model MCH3 or ECH3 control .111111M11111 /Th head. The valves are rated for natural and LP gas. Valves "UT are available in 120 VAC (see Figure 2 -13b). Electric gas valves are available in the following sizes: Figure 2 -13c. ULEX 3330 March:i, 20;06 Chapter 2 – Components Page 2 =8 REV. 4 CORNER PULLEYS TEE PULLEY :(P>N550 =1=66 The Model TP -1 tee pulley is used to connect two mechani- Model SBP -1 (P/N 415670) cal gas valves or two remote mechanical pull.stationsto a single control head. The tee pulley replaces two standard A corner pulley is used whenever a change in stainless steel 90° corner pulleys. See Figure 246. cable direction is required. The Model SBP -1 corner pulley is equipped with a set screw fitting for connection to 1/2 in. EMT conduit. See Figure 2 -14. CAUTION , 1 The Tee Pulley must never be used to connect multi- ® ple fusible link lines to a single control head. O � - .®. Figure 2 -14. Model SBP -1 Corner Pulley. 000180 Model CBP -1 (P/N 423250) Not �� A corner pulley is used whenever a change in stainless cable direction is required. The Model CBP -1 is a grease -tight 010, corner pulley designed.for areas likely to experience exces- slue deposit build -up. It is equipped with a compression fitting �: I � for connection to 1/2 in. EMT conduit. See Figure 2 -15. Note: The Model CBP -1 is not a liquid tight seal for penetra- oi tion of hoods and /or ducts. Figure 2 -16. Model TP -1 Tee Pulley O 002857PC I WIRE ROPE - -- ow The 1/16 in. diameter stainless steel wire rope must be used with actuators, detectors and gas valve components requir- ® ing a wire rope connection. The stainless steel wire rope is supplied in 50 ft. (15.2 m) lengths with P/N 15821, and 500 'I! ft. (152 m) lengths with P/N 79.653. Refer to the Components List for part numbers on crimps, stop sleeves, and S- hooks. Figure 2 -15. Model CBP -1 Corner Pulley. ° ° °' °' "HOOD SEAL" ADAPTOR ASSEMBLY This adaptor is a mechanical bulkhead fitting that produces a Model WBP -1 (P /N 550982) liquid - tight seal around 1/2 in. EMT conduit when installing the A corner pulley is used whenever a change in stainless detection line through restaurant hoods and duct. The adaptor cable direction is required. The Model WBP -1 is a weather- accepts a high temperature pulley elbow and, when used, proof corner pulley designed for areas likely to be exposed correctly positions the elbow or conduit in with the conduit to moisture. It is equipped with female pipe threads for adaptor hole in the detector bracket. The "Hood. Seal" eliminates connection to 1/2 in. rigid conduit. See Figure 2-15a. the need for multiple elbows when penetrating the top of a hood when installing the detection line. "Hood Seal" Adaptors•are J available in quantities of 6 as Shipping Assembly P/N 423253. ® SEAL NUT ill SEAL Wen / / WASHER ADAPTOR ��" BODY em ®• r GASKET PULLEY 0 Figure 2 -15a. Model WBP -1 Corner Pulley. ELBOW ART O ,44I:I11C 111 I1. - (Th 008104PC OF ASSEMBLY) USE ONLY PULLEY ELBOW, PARTNO.423250 Figure 2 -16a. ULEX 3830 • Ivlarrh 1, 2006 , Chapter 2 — Components Page 2-9 REV: 2 ELECTRICAL SWITCHES See NFPA 72, "National Fire Alarm Code,' Initiating Devices The electrical switches are intended for use with electric gas section, for the correct method of :wiring connection to . the valves,: alarms, contactors, Nights, contractor supplied electric fire alarm panel. power shut -off devices and other electrical devices that are designed to shut -off or turn on when the system is actuated. MODEL SM 1 20/2 $Q4 IV ID ID MONITOR NOTE The Model SM- 120/24 solenoidmonitoris usedin conjunct No electrical connections shall be made inside the tion with the Model ECH3 control 'head to supervise the control head. All electrical wiring shall exit the control actuation and detection circuits. In the event of a problem :in . head through the knock -out on the side of the box. All the circuit, a light on the monitor .goes out. The Model SNt electrical connections must be made in an approved 120 is used with the Model ECH3 -1:20 control. head. The electrical box. Model SM -24 (P /N 550303) is used with the Model ECH3 -24 control head. Two sets of NO /NC dry contacts are provided. Switches are available in kits: One Switch Kit, Part No. The unit mounts directly to a three gang wall outlet box. The 551154; Two Switch Kit, Part No. 5511.55; Three Switch Kit, Model SM-120 (P/N 550302) acts,as a reset relay -when Part No. 551156, and Four Switch Kit, Part No. 551157. used with an electric gas valve: Electric gas valve wiring Mounting hardware and 12 in. wire assemblies are provided instructions are provided in the installation section of-this with each kit. Each switch has a set of single -pole, double- manual. See Figure 2 -18. throw contacts rated: UL/cUL/CSA Rating ENEC Rating %° 250 VAC, 21A Resistive IE4T105p Approved Solenoid "° 4 250 VAC, 2 HP 250V, 21A Resistive l ._. ""`�""°""'"" 125 VAC 1 :HP 8A Motor Load b . e e . ....s_ - COMMON -� ,� (BLACK) (RED) o N.C. to.. I. AIM/ 0--- e . (BROWN) • 0 O Figure 2 -17a. Model MS -SPDT Micro Switch. :• �:. e , 001812 � . 0 0 0' = The Alarm Initiating Switch Kit, Part No. 550077, can be field mounted within the control head. This switch must be used Figure 2 -18. Model SM- 24/120 Solenoid Monitor. to close a supervised circuit to the building main fire alarm 002880PC panel when the control head actuates. This action will signal the fire alarm panel that there was a system actuation in the kitchen area. The switch kit contains all necessary mounting PIPE. AND FITTINGS components along with a mounting instruction sheet. The Pipe and fittings must be furnished by the installer. Schedule switch is rated 50 mA, 28 VDC. 40 stainless steel, chrome plated, or black pipe and fittings must be used. Galvanizedpipe and fittings are not to be used. TOWARD REAR OF SPACER WHEN SPACER AND CONTROL HEAD R SWITCH ARE PROPERLY \ MOUNTED, THIS DIVIDER MUST BE BETWEEN THE \, / N.O. AND N.C. TERMINALS N. \ , /r COM 0. \, .. / N.O. s a ��•+� ��, \��\ N.C. \ \ -\ Figure 2 -17b. Alarm Initiating Switch. 004890 , P. ULE(;83,0 - Ma ch 2eA6 Chapter .3 - System-,Design Page -3 - REV: :4 CHAPTER III SYSTEM DESIGN This chapter will detail the basic information necessary for The nozzle(s) must be installed on the centerline of the duct, proper design of the PYRO -CHEM KITCHEN KNIGHT II with the tip located 0 to 6 in. (15.2 cm) into the opening, and Restaurant Fire Suppression System. However, before aimed directly into the duct opening :SS.ee. Figure 3-1a. attempting any installation, it is necessary to attend a Factory Certification Training Class and become Certified to In installations where a UL listed damper assembly is design the PYRO -CHEM KITCHEN KNIGHT H Restaurant employed, the duct nozzle can be installed beyond the 6 in. Fire Suppression System. The chapter is divided into three (15.2 cm) maximum, to a point just beyond the damper (3) sections: assembly that will not interfere with the damper. Exceeding • Nozzle Coverage and Placement the maximum of 6 in. (15.2 cm) in this way will not voidthe • Piping Limitations UL listing of the system. • Detector Requirements Each of these sections must be completed before attempting any installation. 14IPb NOZZLE COVERAGE AND PLACEMENT OBIN. INTO DUCT This section will provide guidelines for determining nozzle type, positioning, and quantity for duct, plenum, and appli- NOS E ance protection. Duct Protection It is not required that the fan be shut down or the exhaust 112 W duct be dampered for the system to operate properly. } All duct protection is UL listed without limitation of maximum duct length (unlimited length). This includes all varieties of 006172PC ductworks both horizontal and vertical including ducts that .— 1/2 L —. run at angles to the horizontal and ducts with directional bends. . Duct protection requires that a nozzle be positioned to Figure 3 -1a. discharge into the duct. Two nozzles are available for duct protection. The Model IL Nozzle, Part No. 551026, is a one (1) flow nozzle. A single IL nozzle is capable of protecting square or rectangular ducts with a maximum perimeter of 50 in. (127 cm), with the diagonal being a maximum of 18 3/4 in. (47.6 cm). It can also protect a round duct with a maximum diameter of 16 in. (40:6 cm). The Model 2D duct nozzle, Part No. 551038, is a two (2) flow nozzle. A single 2D nozzle is capable of protecting square or rectangular ducts with a maximum perimeter of 100 in. (254 cm), with the diagonal being a maximum of 37 7 3/8 in. (94.9 cm). It can also protect a round duct with a maximum diameter of 31 7/8 in. (81 cm). When two (2) 2D duct nozzles are used to protect a single duct, the cross sectional area of the duct must be divided into two equal symmetrical areas. The nozzle must then be installed on the centerline of the area it protects and aimed directly into the duct opening. - u1Lax:_4830 • Math -'.1 2006 Chapter 2 — Components Page 2-10 REV. 4 STAINLESS STEEL SWIVEL ADAPTOR ;(P /N 4166] ACTUATION HOSE The Swivel adaptor consists of a swivel nut, swwivel.body, The Stainless Steel Actuation Hose is used to connect the actu swivel ball. All are chrome- plated. The swivel adaptor allows ation line compression tees and can also be connected end to the nozzle to be rotated approximately 30° in all directions. end. The hose has the same thread, 7/16 -20, as the fittings. Swivel Adaptors can be ordered as.a single Swivel Adaptor or See Figure 2 -19. Swivel Adaptor Shipping Assembly, ;Part No. 423572, which contains 25 swivel adaptors. See Figure 2 -21. Hose Part No. Length 417582 8 in. (20 cm) 3/8 -1B NPT 31809 16 in. (41 cm) #04--- FEMALE THREAD 32336. 24 in. (61 cm) � 430815 42 in. (107 cm) �® Fitting ® e 4100 Part No. Description 'f! \ \�® 31810 Male Elbow ( 7/16 -20 x 1/4 in. NPT) so° � M A ETHRE ) ROTATION MALE THREAD AD 31811 Male Tee '(7/16 -20 x 7/16 -20 x 1/4 in. NPT) 32338 Male Straight Connector (7/16 -20 x 1/4 in. NPT) Figure 2 -21. Swivel Adaptor. - ,�■ ;►CF O' >.� O • i 'yam �� s �� 000003 N .'_•...�:� � :. se,�:t::� NOZZLE AIMING E D VIDE 7n6 -20 7n6 -20 The Nozzle Aiming Device, Part No. 551265, is required to Figure 2 -19. Stainless Steel Actuation Hose. properly aim each nozzle to the correct aiming point. The 000433 device clamps to the nozzle and emits asmall laser light that reflects on the surface that it is aiming at The nozzle can then NOZZLES be rotated to point at a- predetermined aiming point and then tightened to hold that angle. The aiming device requires an /Th Nozzles have been developed for appliance, plenum, and adaptor, Part No. 550926, to attach it to the nozzle. The adaptor duct applications. All nozzles have a specific flow point value must be ordered separately. and are supplied with metal blow -off caps to prevent clog- � ging. Each nozzle is stamped with the model number. See , Figure 2 -20. Application limitations are provided in the ( �) design section of this manual. \ Part No. Description Flow No. " ADAPTOR (ORDER SEPARATELY) 551029 1H Nozzles, pack of ten (10) 1 A � 551026 1L Nozzles, pack of ten (10) 1 NOZZLE 551028 2H Nozzles, pack of ten (10) 2 AIMING DEVICE 551027 2L Nozzles, pack of ten (10) 2 Figure 2 -22. Nozzle Aiming Device. 551038 2D Nozzles, pack of ten (10) 2 006520 f RUBBER BLOW -OFF CAPS E -RING The Rubber Blow -Off Cap helps keep. the orifice - of,the:nozzle PM free of grease or other substances that could interfere with 1 STRAINER agent distribution. A retaining strap attaches the blow -off cap to r ►40 the nozzle. Rubber Blow -Off Caps :must ;be ordered as a /� 0 -RING BODY H Shipping Assembly, Part. No. 550016, which contains: 12 blow - , off caps. PYRO QF-.. 2H CAP u R 2° 71 1144 I I 1 )1- Ill Figure 2 -20. Nozzles. t.---N 006171PC * . . Figure 2 -23. ILEX 3 00000e . March 1,, 2006 Chapter 3 System Design Page 3-3 REV 3 r . Transition Ducts – The protection of non - standard ducts c. Multiple risers should be reviewed by the authority having jurisdiction. In cases of multiple rises, each riser is protected as an PYRO -CHEM KITCHEN KNIGHT II recommends that transi- individual duct. See Figure 3-1e. tion ducts be protected as follows: DUCT a. Transition ducts – larger to smaller In cases where the duct/plenum interface opening is larger than the final exhaust duct, measure the perime- ter /diameter of the duct halfway between the largest i -4- DUCT and smallest section (or the average perimeter /diame- r 1 1 r ter). The nozzle is to be located within 0 -6 in. (15.2 cm) of the duct/plenum interface (not at the point where the R °°6176PC measurement was taken), centered under the final \ PLENUM exhaust duct opening. See Figure 3 -1c. Figure 3 -le Electrostatic Precipitator - Duets utilizing electrostatic precipitators must be protected above and below the unit. Standard duct nozzles are used . in this application. See Figure 3 -1f. i . 2D NOZZLE A lik. PERIMETER -► - - - - MEASUREMENT 1/2 WAY INTO _ TRANSITION PRECIPITATOR AL /"'' -) + 006173PC ' \ PLENUM 2D NOZZLE. Figure 3 -1c. 006176PC b. Transition ducts – smaller to larger Figure 3 -1f In cases where the duct/plenum interface opening is smaller than the final exhaust duct, measure the perimeter /diameter of the final exhaust duct. The Plenum Protection nozzle(s) is to be located within 0 -6 in. (15.2 cm) of the The Model 1H nozzle, Part No. 551:029, is .a one (1).flow duct/plenum interface, centered in the opening. See nozzle used for plenum protection: A.single 1H nozzle can Figure 3 -1d. protect a plenum (with single or V -bank filters) 10 ft. (3.1 m) long by 4 ft. (1.2 m) wide. Dividing the length into sections PERIMETER --4 equal to or less than 10 ft. (3.1 m) in length and positioning MEASUREMENT a nozzle at the start of each section can be -done to protect \ / longer plenums. ) + 006174PC C Figure 3 -1d 11 ULEX"383o March. 4:;.2Q06 Chapter 3 – System Design Page 3 -2 REV. :3 Modularizing Ducts When working with Chart 2, one half of the quantity of nozzles determined must be equally positioned in the top half of the DUCT SIZES GREATER THAN 100 IN. (254 cm) PERIMETER area of the duct and the remaining half of the nozzles must be • Ducts over 100 in. perimeter must be modularized using positioned in the bottom half of the duct area. 20 nozzles (Part No 551038) Example: The duct to be protected has a Side "A" of 40 in. • No round duct option available and a Side "B" of 60 in. Referring to the design chart, this duct requires 4 nozzles. One half of 4 = 2. Therefore, 2 • Follow the design chart to determine maximum module nozzles must be equally positioned in each of the two duct size for each 2D nozzle areas: See Figure 3 -1 - b. • When determining number of nozzles required, it is some- SIDE "B' times an advantage to check the chart using the shortest so w.(76 cm) saw: pscm) - side as Side "A" and then recheck it using the longest side as Side A. This comparison may reveal a need for a 20 IN. • I • lesser quantity of nozzles one way versus the other way. (51 cm) When working with Chart 1, the quantity of nozzles deter- SIDE -- — _ _ I _ — — — _ ( 40 IN. mined must be equally divided within the duct area. 201N. • (51 cm) I • CHART NO. 1 1 B I 1 60:IN. _I (52' "cm) 'I A • • • Figure 3 -1b. SIDE "B" 006523 ' '25126 27128'29130 31132 33134 35136 37138 39140 41142 4314445146 47148 49150 51152 53154 55156 57158 59160 61162 63164 65 67168 69170 '71 172 4 5 r 6 8 . ,0 1 r r 1 12 13 r 14 15 _r J 16 17 r 2 SIDE 18 A.. 20 r 25 22 23 r r 24 J 25 I_ 26 27 3 28 23 30 _ I r— J ' r 31 32 33 34 4 r , 36 1 5 c.. -� t — 6 7 CHART NO.2 B A • • • • • • _1 NOTE: NOZZLE QUANTITIES LISTED IN CHART 2 MUST BE EQUALLY DIVIDED INTO EACH OF THE TWO DUCT. MODULES. 37 J 38 _ - - 39 40 2 — 4, 4 42 6 44 45 r 46 J � F 47 ULEX'3830 006522 ► Mar Q006 Chapter -3 - - SysternPesign Page 3. -5 ' REV .4 la. Fryers withoutDrip Board (19 in. ,x 19 1/2 in. nozzle must be located anywhere on the;perimeter of maximum) (48 x 49.5 cm) the hazard area, 13 in. to 24a41. (33 to 61 cm) .above the Two nozzles are available for fryer protection: High prox- cooking surface of the appliance and aimed at the center imity and low proximity. of the cooking area. See Figure 3 -3b. 2H HIGH The Model 2H nozzle, Part No. 551028, is used high 1 PROXIMITY proximity fryer protection. This nozzle is a two (2) flow / NOZZLE , LOCATED nozzle. The nozzle must be located anywhere within the / / 1 ANYWHERE perimeter of the hazard area, 24 in. to 48 in. (61 to 122 / 2H 2 1 � I � 1 PER cm) above the cooking surface of the appliance and aimed / / I �-;1 "›.6.-- Low 48 at the center of the cooking area. See Figure 3 -3a. / / 2 cm) 1` PROXIMITY The Model 2L nozzle is used for low proximity fryer protec- / / 2L 24 IN I 1 1 LOCATED tion. This nozzle is a two (2) flow nozzle. The nozzle must / / (61 cm) I 11111/11/11b1 ANYWHERE be located anywhere on the perimeter. of the hazard / ;� ' , I i /4 � / � D , PER METER area, 13 in. to 24 in. (33 to 61 cm) above the cooking `. (3 m L - - - surface of the appliance and aimed at the center of the 006230PC cooking area. See Figure 3 -3a. FRYERS WITH 2H EDGE OF DRIPB09RDS HIGH c. OF HAZARD 1 PROXIMITY AREA / NOZZLE HAZARD AD 0013178PC / LOCATED / 1 1 ANYWHERE Figure 3 -3b / i 1 WITHIN THE / 2H, 2L 1 1 PERIMETER / � , I �� Low 2. Small Range (336 sg. in, (2168 sq. cm) maximum,:28 in. / , 48" (122 cm) i ' �� ; PROXIMITY (71 cm) longest side maximum). Use this when.nozzleis 1 / 1 i I NOZZLE center located. / / 1 0 I LOCATED / / 2L I q 1 ANYWHERE Two nozzles are available..for small range. protection: _ / / /1 24" •1/1/��q! PERIMETER High proximity and low proximity. // q ,' 13 (61 cm) (---N. The Model 1H nozzle, Part No. 55.1029, is used for high 008228PC proximity small range protection. This Nozzle is a one.(1:) FRYERS WITHOUT flow nozzle. When using high :proximity protections the:. EDGE OF DRIPBOARDS range cannot be under a backshelf;,This noz - must be. OF HAZARD AREA located on the front/back : centerline.of the appliance 40 in. HAZARD to 50 in. (102 to 127 cm)..above:the cooking surface, and AREA 008178PC Figure 3 -3a aimed directly :down withinthe "Nozzle Location Area depending on the size of the: area. See 'Nozzle lb. Fryers with Drip Board Placement" chart below: See - Figure 34a. The maximum single nozzle protection dimensions NOZZLE FLEXIBILITY PLACEMENT CHART : When depend on the dimensions of the fry pot only. using nozzle flexibility, the maximum width that can be protected is 12 in. (31 cm)) For fry pots with maximum dimensions of 18 in. Length — L Width — W Front/Rear (45.7 cm) on the longest side and 324 sq. in. (2090 in. (cm) in. (cm) in." (cm)" sq. cm) max. area, use overall dimensions of 27 3/4 In. 12 (31) 12 (31) 8 (20) (70.5 cm) on the longest side and 500 sq. in. (3226 13 (33) 12 (31) 7 1/2 (19) sq. cm) max. area. 14 (36) 12 (31) 7 (18) For fry pots with maximum dimensions exceeding 18 in. 15 (38) 12 (31) 6 1/2 (17) x 324 sq. in. (2090 sq. cm), but no greater than 19 1/2 16 (41) 12 (31) 6 (15) in. (49.5 cm) on the longest side and 371 sq. in. (2394 17 (43) 12 (31) 5 112 (14) sq. cm) max area, use overall dimensions of 25 3/8 in. 18 (45) 12 (31) 5 (13) (64.5 cm) on the longest side and 495 sq. in. 19 (48) 12 (31) 4 1/2 (1 1) (3194 sq. cm) area. 20 (51) 12 (31) 4 (10) Two nozzles are available for fryer protection: High prox- 21 (53) 12 (31) 3 1/2 (9) imity and low proximity. 22 (56) 12 (31) 3 (8) The Model 2H nozzle, Part No. 551028, is used for high 23 (58) 12 (31) 2 1/2 (6) proximity fryer protection. This nozzle is a two (2) flow 24 (61) 12 (31) 2 (5) ,e---\ nozzle. The nozzle must be located anywhere within the 25 (64) 12 (31) 1 1/2 (4) perimeter of the hazard area, 24 in. to 48 in. (61 to 26 (66) 12 (31) 1 (3) N. 122 cm) above the cooking surface of the appliance and 27 (69) 12 (31) 1/2 (1) aimed at the center of the cooking area. See Figure 3 -3b. 28 (71) 12 (31) 0 (0) `Distance from centerline, either toward front or toward back, of hazard The Model 2L nozzle is used for low proximity fryer area, starting from the reference point. protection. This nozzle is a two (2) flow nozzle. The ULE*40§ �. Chapter 3:— System Design Page 3 -4 REV. 3 On V -bank plenums, the nozzle(s) must be located at the Appliance Protection '� center of the V -bank width, 1/3 of the vertical height of the filters. On single filter bank plenums, the nozzle must be Note: When protectmgappl)ances,whtch: are larger than located 2 in. (5.1 cm) from the back edge of the filter, 1/3 single nozzle coverage, multiple; n can be used. down from the vertical height. For either application, the Larger appliances can be divided into several modules, each nozzle must be located within 6 in. (15.2 cm) of the end of equal to or smaller than single nozzle coverage. Exception: the plenum (or module) and aimed directly down the length of Fryers must not exceed a maximum of 864 sq. in: ' •the plenum. The nozzles may (5574 s p y point in the opposite directions ( q• cm). as long as the entire plenum area is protected, and the 10 ft. For modularizing fryers, refer to "FRYER — MULTIPLE . (3.1 m) limitation is not exceeded. See Figure 3 -2. NOZZLE PROTECTION." Design. Chart Appliance Maximum Cooking Type Hazard 'Area pet :Nozzie e 0' MAX. Fryer Without 19 in. x 19 1/2 in. maximum 1 a � c; e' (3.1 m OO8,faPc Drip Board (48 x 49.5 cm) 10' MAX. (3.1 m Fryer With 18 in. x 27 3/4 in. (45.7 x.70.5 cm) Drip Board maximum; 19 1/2 in. x 25 3/8 in. . 10 FT. (3.1 m) (49.5 x .64.5 cm) maximum MAXIMUM 10 FT. (3.1 m) Small Range Maximum area of 336 sq. in. (2168 sq. cm) MAXIMUM with the longest side to be a maximum of 10 FT (3.1 m) 28 in. (71 cm) MAXIMUM :::: 24 in. diameter x 6 in. deep (61 x 15.2 cm) maximum 1. Large Wok 30 in. diameter x.8 ; in. deep le/N. (76.2 x 20.3 cm) maximum Small Maximum area of. 1080 sq. in. (6868 sq .cm) Griddle with the longest side to be -a maximum of / , 4 * \ 00208 36 -in (91.4,cm) Large Maximum area of 1440 sq: in. (g2J0aq cm) INCORRECT Griddle with the longest side •to be a:ma s °of 48 in. (122 cm) Gas Radiant Maximum area of 624 sq. in: (4025:$ sq: cm) w Char - Broiler with the longest side to be a maximum of �-- v2 w 26 in. (66 cm) —1 1 Gas Radiant Maximum area. of 864 sq. in. (5574 sq. cm) • Char - Broiler with the longest side to be a maximum of 36 in. (91.4 cm) 1 1/3 H T H Lava Rock Maximum area of 624 sq. in. (4025.8 sq..cm) Char - Broiler with the longest side to be a maximum of 26 in. (66 cm) Natural Maximum areaof 480 sq. in. V BANK Charcoal (3096.8 sq. cm) with The longest side to Broiler be a maximum 1/3 H of 2-t1 in. (61 cm) i Mesquite Maximum area of 480 sq. in. ? -#-___,-.-... -nivii. Char - Broiler (3096.8 sq. cm) with the longest to be a- maximum of 24 in. (61. cm) H Upright/ Maximum area of 1064 sq. in. Salamander ,------, (6865 sq. cm) with the longest side 00817,PC Broiler to be a maximum of 36 in. .(91cm) SINGLE BANK Chain Broiler Maximum area of 1026 sq. in. (6619 sq. cm) Figure 3.2 UIIEX 3830 with the longest side to:be a maximum of March .1, 2006 38 in. (97 cm) Chapter 3;— SystemDesign Page :3 =7 REV: 3 7 3. Larger Burner Range (784 sq. in. (5085 sq. cm) maxi- Range Range mum, 28 in. (71 cm) longest side maximum) Length - L Width.: — Radius - R One nozzle is available for large range protection: High in. (cm) in. (cm) in. (cm) 18 (46) 27 69 proximity. ( ) 3 5/8 (9) 18 (46) 28 (71) 3 1/8 (8) The Model 2L nozzle, Part No. 551027, is used for high 19 (48) 18 (46) 6 3/4 (17) proximity large range protection. This nozzle is a two (2) 19 (48) 19 (48) 6 3/8 (16) flow nozzle. When using high proximity protection, the 19 (48) 20 (51) 6 (15) range cannot be under a backshelf. This nozzle must be 19 (48) 21 (53) 5 5/8 (14) located 34 in. to 48 in. (86 to 122 cm) above the cooking 19 (48) 22 (56) 5 1/4 (13) surface, and aimed directly down within the mounting area, 19 (48) 23 (58) 4 7/8 (12) based on the hazard size, as described in the Nozzle 19 (48) 24 (61) 4 1/2 (11) Positioning Chart. See Figure 3 -5. 19 (48) 25 (64) 4 1/8 (10) R 19 (48) 26 (66) 3 3/4 (9) 19 (48) 27 (69) 31/4 (8) , ;� 19 (48) 28 (71) 2 7/8 (7) 20 (51) 18 (46) 6 3/8 `(16) \ �1 20 (51) 19 (48) 6 (15) fir' 20 (51) 20 (51) 5 5/8, (14) ii 2L \' 20 (51) 21 (53) 51/4 (13) „ \,� �,� 20 (51) 22 (56) 4 7/8 (12) / %/ l'' 20 (51) 23 (58) 4 1/2 ` (11) 20 (51) 24 (61) 4 1 /8 (10) pp 20 (51) 25 (64) 3 3/4 (9) as w. 20 (51) 26 (66) 3 3/8 (8) 4 % > (as as iN om) (122 cm) 20 (51) 27 (69) 3 (7) '+ ‘4,t 20 (51) 28 (71) 2 5/8 (6) �-� \ 21 (53) 18 (46) 6 (15) < '..4 ''>' 21 (53) 19 (48) 5 5/8. (14) 21 (53) 20 (51) 51/4 (13) L Y w 21 (53) 21 (53) 5 (12) 21 (53) 22 2 (56) 4 5/8 (11) 21 (53) 23 (58) 41/4 (10) 006411 Figure 3 -5. 21 (53) 24 (61) 3 7/8 . (10) 21 (53) 25 (64) 31/2 (9) Example: A four burner range has a hazard size of 20 in. 21 (53) 26 (66). 3 1/8- (8) (51 cm) in length and 27 in. (69 cm) in width. Follow down 21 (53) 27 (69) 2 3/8 (7) the Range Length column in the Nozzle Positioning Chart 21 (53) 28 (71) 2 1/4 ,:(6) until you come to 20 in. (51 cm). Continue down this 22 (56) 18 (46) 5 5/8 (14) column until the correct width appears in the width column. 22 (56) 19 (48) 5 1/4 (13) When the width of 27 in. (69 cm) is arrived at, read across 22 (56) 20 (51) 4 7/8. (12) to the radius column to determine the size of radius 22 (56) 21 (53) 4 5/8 (11) allowed, for positioning of the nozzle, from the hazard area 22 (56) 22 (56). 4 1/4 (10) centerline. In this example, the correct radius is 3 in. (8 cm). 22 (56) 23 (58) 3 7/8 (10) The nozzle can be aimed straight down anywhere within a 22 (56) 24 (61) 3 1/2 (9) 3 in. (8 cm) radius of the hazard area centerline. 22 (56) 25 (64) 3 1/8 (8) 22 (56) 26 (66) 2 3/4 : (7) Nozzle Positioning Chart 22 (56) 27 (69) 2 3/8 , (6) Range Range 22 (56) 28 (71) 2 (5) Length - L Width — W Radius — R 23 (58)' 18 (46)' 5 1/4 (13) In. (cm) in. (cm) in. (cm) 23 (58) 19 (48) 4 7/8 (12) 18 (46) 18 (46) 71/8 (18) 23 (58) 20 (51) 41/2 (11) 18 (46) 19 (48) 6 3/4 (17) 23 (58) 21 (53) 4 1/4 (10) 18 (46) 20 (51) 6 3/8 (16) 23 (58) 22 (56) 3 7/8. (10) 18 (46) 21 (53) 6 (15) 23 (58) 23 (58) ' 31/2. (9) 18 (46) 22 (56) 5 5/8 (14) 23 (58) 24 °(61) 3 1/8 (8) �� 18 (46) 23 (58) 5 1/4 (13) 23 (58) 25 (64) 2 7/8 (7) 18 (46) 24 (61) 4 3/4 (12) 23 (58) 26 (66) 2 1/2 (6) 18 (46) 25 (64) 4 3/8 (11) 23 (58) 27 (69) 2 1/8 (5) 18 (46) 26 (66) 4 (10) 23 (58) 28 (71) 15/8 (4) ULEx:3830 ' March `102006 ` Chapter: : 3' - System Design Page-3 -6 REV4 2a. High - Proximity Backshelf;P -, When using-the "" 2L nozzle for range protection with-high-proximity backshelf, the maximum leng_ th of burner being protected "must not ,H 50 IN exceed 28 in (71 cm) and the maximum area of the burners (127 cm) must not exceed 336 sq. in. (21 sq. cm). The backshelf must be a minimum of 18 in. (451 cm) =above the top of the ao w. range and may overhang the burner by a nazimum :of'11 in. iH (102 cm) (28 cm). 28 NOTE: Although most shelves exceed 11. in. (/ cm in over - REFERENCE� g l ) . POINT NOZZLE all depth, make sure the shelf does not exceed 11 in. (28 cm) AREA overhang of the burner. I.../' ,,,,,..p# Nozzle must be located on:the front edge of.the front;:burner 121N. 28 1N. (71 cm) and aimed at a point 10 in. (25 cm) forward from ..the: back (31 cm) MAXIMUM edge of the back burner on the front -to -rear. centerline: MAXIMUM LENGTH (L) WIDTH (W) Nozzle must be mounted 24.to.35_in..(:61 -.89 cr ):above. -the HIGH hazard surface. See Figure 3 -5a. PROXIMITY 006100PC s SHELF CAN OVERHANG BURNER(S) Figure 3 -4a. A MAXIMUM OF 11 IN. (28 cm) The Model 11 nozzle, Part No. 551066, is used for low prox- imity small range protection. This nozzle is a one (1) flow nozzle. The range can be equipped either with or without \ \\ a backshelf. Either type requires the same nozzle require- 18 IN. ments. The nozzle must be located 22 in. (56 cm) from either ` (45.7 cm) end of the hazard area centered from left to right. It must be \ MIN. 7'--■ 13 in. to 24 in. (33 to 61 cm) above cooking surface, and MAX. ca IN. 24 -351N. (71 cm) / aimed at:a point one half the distance of whatever the height (61 -89 cm) � dimension of the nozzle is. When determining nozzle and aim x ' 111 1 point locations, both measurements are to be taken from the ko �- same end of the hazard area. Example: The nozzle is 10 mounted 20 in. (51 cm) above the cooking surface. The aim FROM (B cm) FOM BA IN. CC K point from the edge of the hazard would then be 10 in. (25 - BURNER FRONT TO cm) which is one half the. nozzle mounting height dimension. - '/ CENTERLINE EAR ooeet6 See Figure 3 -4b. Note: Nozzles must be placed at or below the shelf, within the nozzle hei ht Ilmltations. HIGH PROXIMITY BACK SHELF_PROTECTION WITH,THE2(. NOZZLE. g AREA OF PROTECTION O NOZZLEi`'MAX: LENGTH OF'BURNER GRATES-28 IN. (71 cm) AND'MAX: AREA OF BURNER.GRATES :NOT EDGE OF TO EXCEED 336 SQ. IN. (2168 8q. cm) HAZARD AREA (FRONT OR BACK) 1 Figure 350. _ 221N. \ I / (56 cm) �( 1L — X ' 22 1N. t , (56 cm) 1 24 IN. cm) ) \ I / (61 cm) — X — i� 131N.(H) / t \ - (33 cm) 1 i/2 Fl "1 /2 O H �'I HAZARD 008181PC SURFACE Figure 3 -4b. EX;3830 .1t to h1; 4006 • Chapter 3 - ,System Design Page -9 REV:3 /*--- 5. Large Wok (Greater than 24 in. to 30 in. (61 to 76 cm) z EDGE OF HAZARD AREA diameter x 8 in. (20 cm) depth maximum) NOZZLE (ANY - ilk , Two nozzles are available for large wok protection: High CORNER) X311 N. proximity and low proximity. \ ; 1 - - -1c The 2H nozzle, Part No. 551028, is used for high proxim- 12 IN. c (31 cm) AIM POINT ity wok protection. This nozzle is a two (2) flow nozzle. The nozzle must be located anywhere on.theperimeter 1H of the appliance, 24 in. to 48 in. (61 to 122 cm) above the top edge.of the wok and aimed at the center of the , . wok. See Figure 3-7. 1 % The 2L nozzle, Part No. 551027, is used for low proxim- 1H, 1L ity. wok protection. This nozzle is .a two (2) flow nozzle. , The nozzle must-be located anywhere on the perimeter 48 IN. of the appliance, 13 in. to 24 in. (33 to 61 cm) above the (122. 1L \ v ‘ top edge of the wok and aimed at the center of the wok. 24 IN. - 1 -- , , ', HAZARD ' See ) Figure 3 -7. (61 cm SURFACE I 2 ' �1 / 1 2H (25 5 cm cm) \ ,\\ /t / 1 i L i I 12 IN (31 cm) I ' I Figure 348. / 2H, 2L 6a. Small Griddle (1080 sq. in. (6968 sq. cm) x 36 in. ae IN. (91 cm) longest side maximum). Alternate Protection / 1 (122 cm) Two nozzles are available for small griddle, alternate �-, 2L protection: High proximity and low proximity. 1 ' 1 1 (24c) T he 2H nozzle, Part No. 551028, is used for high proxim- ,' ,' I 1 ity griddle protection. This nozzle is a two (2) flow I( 33 m) nozzle. The nozzle must be located 0 to 6 in, (0 to i ,,,' 1 15 cm) from short side of the hazard surface, 24 in, to 48 in. (61 to 122 cm) above the coolf(PPg surface, of the NOZZLE LOCATED appliance and aimed at the center q)� th hazard area. " ON PERIMETER PP � e � 006183PC 30 IN. (76 cm) DIAMETER See Figure 3 -8a. MAXIMUM The 2L nozzle, Part No. 551027, is used for low proxim- Figure 3 -7. ity griddle protection. This nozzle is a two (2) flow nozzle. The nozzle must be located 0 to 6 in. (0'to 6. Small Griddle (1080 sq. in. (6968 sq. cm) x 36 in. 15 cm) from the short side of the hazard surface, 13 in. (91 cm) longest side maximum) to 24 in. (33 to 61 cm) above the cooking surface of the Two nozzles are available for small griddle protection: appliance and aimed at:th.e center of the hazard area. High proximity and low proximity. See Figure 3-8a. 2H 1( The 1H nozzle, Part No. 551029, is used for high proxim- ity griddle protection. This nozzle is a one (1) flow • ∎\ nozzle. The nozzle must be located above any corner of the hazard surface, 24 in. to 48 in. (61 to 122 cm) ■ \ above the cooking surface of the appliance and aimed at N\ a point 12 in. (31 cm) over and 12 in. (31 cm) in from the EDGE RD AREA 48 N. 2H, 2L 1 \ corner below the nozzle. See Figure 3 -8. (122 cm) �; \, The 1L nozzle, Part No. 551026, is used for low proxim- 6 I" `� 6 IN I 2L \ ; \ ity griddle protection. This nozzle is a one (1) flow 24 IN. \ \ nozzle. The nozzle must be located above any corner NOZZLE (81 cm) 13 } IN \ � � \ � � �\ of the hazard surface, 10 in. to 24 in. (25 to 61 cm) Ink LOCATION 1 (33 cm) \;1 1, above the cooking surface of the appliance and aimed at 1/2 ZONE + f � a point 12 in. (31 cm) over and 12 in. (31 cm) in from the L corner below the nozzle. See Figure 3 -8. Figure 3 -8a. 1/2 L -pi ULEX38$ . March:=1, : 2p06 Chapter 3 — System Design Page 3 -8 REV. 3 Range Range 4. Small Wok (24 in. (61 cm) diameter .x 6:in. (15 cm) Length - L Width —W Radius — R depth maximum) in. (cm) in. (cm) in. (cm) Two nozzles are available for small wok protection: High 24 (61) 18 (46) 4 3/4 (12) proximity and low proximity. 24 (61) 19 (48) 41/2 (11) 24 (61) 20 (51) 4 1/8 (10) The 1H nozzle, Part No. 551029, is used for high. proxim- 24 (61) 21 (53) 3 7/8 (10) ity wok protection. This nozzle is atone (1) flow nozzle. 24 (61) 22 (56) 3 1/2 (9) The nozzle must be located : -anywhere; on- the =perimeter 24 (61) 23 (58) 3 1/8 (8) of the appliance, 24 in. to 48,in. (61 to 122 cm) above 24 (61) 24 (61) 2 7/8 (7) the top edge of the wok and at the:.center of the 24 (61) 25 (64) 2 1/2 (6) wok. See Figure 3 -6. 24 (61) 26 (66) 2 1/8 (5) The 1L nozzle, Part. No. 551026, is used for low_proxim- 24 (61) 27 (69) 1 3/4 (4) 24 (61) 28 (71) 1 3/8 (3) ity wok protection. This nozzle is a .('1) flow; nozzle. The nozzle must be located anywhere on the 25 (64) 18 (46) 4 3/8 (11) of the appliance, 13 in. to 24 in. (33 to 61 cm) above the 25 (64) 19 (48) 4 1/8 (10) top edge of the wok and aimed.at the center of the wok. 25 (64) . 20 (51) 3 3/4 (10) 25 (64) 21 (53) 3 1/2 (9) See Figure 3 -6. 25 (64) 22 (56) 31/8 (8) I1H 25 (64) 23 (58) 2 7/8 (7) 25 (64) 24 (61) 2 1/2 (6) / 25 (64) 25 (64) 21/8 (5) iI 25 (64) 26 (66) 1 3/4 (4) 25 (64) 27 (69) 13/8 (3) 25 (64) 28 (71) 1 (2) ; I 26 (66) 18 (46) 4 (10) I ( 1H ' 'IL 26 (66) 19 (48) 3 3/4 (10) ' ' 26 (66) 20 (51) 3 3/8 (9) / / I (22 m) / 26 (66) 21 (53) 3 1/8 (8) / '� Ih, -IL /-----\ 26 (66) 22 (56) 2 3/4 (7) / ,!� , I" 1 24 IN. 26 (66) 23 ( (58) 2 1/2 / 1 I 26 (66) 24 (61 cm) 26 (61) 2 1 /8 (5) / ,' ,' 13 IN. (66) 25 (64) 1 3/4 (4) 14 / ,' I (33 cm) 26 (66) 26 (66) 13/8 (3) 1 " 26 (66) 27 (69) 1 (2) NOZZLE LOCATED 26 (66) 28 (71) 3/4 (2) ON PERIMETER 0061 UPC I 27 (69) 18 (46) 3 5/8 (9) 24 N. (61 cm) 27 (69) 19 (48) 3 1/4 (8) DIAMETER MAXIMUM 27 (69) 20 (51) 3 (8) Figure 3 -6. 27 (69) 21 (53) 2 3/4 (7) 27 (69) 22 (56) 2 3/8 (6) 27 (69) 23 (58 21/8 (5) 27 (69) 24 (61) 1 3/4 (4) 27 (69) 25 (64) 1 3/8 (3) 27 (69) 26 (66) 1 (2) 27 (69) 27 (69) 3/4 (2) 27 (69) 28 (71) 3/8 (1) 28 (71) 18 (46) 3 1/8 (8) 28 (71) 19 (48) 2 7/8 (7) 28 (71) 20 (51) 2 5/8 (7) 28 (71) 21 (53) 2 1/4 (6) 28 (71) 22 (56) 2 (5) - . 28 (71) 23 (58) 1 5/8 (4) 28 (71) 24 (61) 1 3/8 (3) 28 (71) 25 •(64) 1 (2) 28 (71) 26 (66) 3/4 (2) . 28 (71) 27 (69) 3/8 (1) 28 (71) 28 (71) 0 (0) ^. U(P 3830 7 bl`at1CYj:'1;2006 • Chapter 3.-- System Resign Page 3 -11 REV ..3 1"-- 9. Radiant Char-Broiler (864 sq. in. (2195 sq. cm) x 36 in. The 2L nozzle, Part No. 55 1= 027, is used low proxim (91 cm) longest side maximum) ity lava rock char- broiler protection. This nozzle is a two Two nozzles are available for radiant char broiler protec- (2) flow nozzle. The nozzle.must be located: anywhere tion: High proximity and low proximity. on the perimeter of the hazard surface, 15 in. to.24 in. (38 to 61 cm) above the cooking surface of the appli- The "2H. nozzle, Part No. 551028, is used for high proximity ance and aimed at the center of the broiler surface. See ic radiant char - broiler protection. This nozzle is a two (2) flow Figure 3 -12. nozzle. The nozzle must be located above any corner of 2L NOZZLE LOCATED ANYWHERE- WITWINTHE PERIMETER the hazard surface, 36 in. to 48 in. (91 to 122 cm) above 2L FOR HIGH PROXIMITY the cooking surface of the appliance and aimed at the '1 2L NOZZLE LOCATED ANYWHERE. op' THE PERIMETER : . FOR LOW center of the broiler surface. See Figure 3-11a. 2L PROXIMITY �� PROTECTION EDGE OF 35 IN. HAZARD AREA 2H NOZZLE (ANY ` (69 cm) 2L \ CORNER) I 24 IN. �\ „� (61 cm) • \ O ; \ 48 IN • \\� ` ` \ \ \ ` . 1 1 1 (38 • cm) ` ` �\� " (122 cm) `\ \ \ —* — LAVA 'ROCK 008187PC 1 36 IN. , \ 1 CHAR - BROILER EDGE OF (91 cm) \' HAZARD AREA i Figure 3-12. q HIGH PROXIMITY 006185PC RADIANT BROILER 11. Natural Class "A" Charcoal (480.sq. in. Figure 3 -11a. (3097 sq. cm) x 24 in..(61 cm) longest .side maximum) Note: Class "A" (natural) charbroilers, are distinguished The 2L nozzle, Part No. 551027, is used for low proximity by the use of charcoal, mesquite "chips, chunks, and /or radiant char - broiler protection. This nozzle is a two (2) flow logs that are used for cooking. nozzle. The nozzle must be located anywhere on the Two nozzles are available for natural charcoal char - 1 .-----. perimeter of the hazard surface, 13 in. to 36 in. (33 to 91 cm) above the cooking surface of the appliance and aimed at the broiler protection. High proximity and low proximity. The center of the broiler surface. See Figure 3-11b. maximum depth of fuel (charcoal) must not exceed 6" in. (15 cm). NOZZLE LOCATED ANYWHERE ALONG The 1 "H nozzle, Part No. 551029, is used for high proxim- 2L OF HAZARD ity natural charcoal char - broiler protection. This nozzle is l ' '' AREA a one (1) flow nozzle. The nozzle must be located 2L % I anywhere within the perimeter of the hazard area, 361N. k \ — +— c. 24 in. to 35 in. (61 to 89 cm) above the cooking surface (91 cm) 131N. `\�� I of the appliance and aimed at the center of the broiler (33 cm) ` I surface. See, Figure 3 -13. t r 1 The 1L nozzle, Part No. 551026, is used for low proxim- q. LOW PROXIMITY \ 006186PC ity natural charcoal char- broiler protection. This nozzle is RADIANT BROILER HAZARD AREA a one (1) flow nozzle. The nozzle must be located Figure 3 - 11b. anywhere on the perimeter of the hazard surface, 15 in. to 24 in. (38 to 61 cm) above the cooking surface 10. Lava Rock Char - Broiler (624 sq. in. (4026 sq. cm) x of the appliance and aimed at the center of the broiler 26 in. (66 cm) longest side maximum) surface. See Figure 3 -13. 1H NOZZLE LOCATED ANYWHERE WITHIN THE Note: Synthetic rock charbroilers are distinguished by 1H PERIMETER FOR HIGH PROXIMITY PROTECTION the use of lava, pumice, or synthetic rocks that are used L 1L NOZZLE LOCATED ANYWHERE ON THE PERIMETER for cooking. 1 IL, 1" �, \ , PROXIMITY One nozzle is available for lava rock char - broiler protec- 35 IN. \ PROTECTION tion. The 2L nozzle, Part No. 551027, is used for both (89 cm) 1L �\ high proximity and low proximity. 24 w. 0 -+ - . 1 (61 cm) ` , ` \\ 1 The 2L nozzle, Part No. 551027, is used for high proximity 1 1 18 Cm (38 cm) � mI lava rock char - broiler protection. This nozzle is a two (2) � flow. nozzle. The nozzle must be located anywhere within FUEL DEPTH MUST NOT R T NATURAL-CHARCOAL \ 006187PC EXCEED 6 IN. (15 cm) CHAR?BROILER EDGE OF the perimeter of the hazard area, 24 in. to 35 in. (61 to HAZARD AREA 89 cm) above the cooking surface of the appliance and Figure 3-13. aimed at the center of the broiler surface. See Figure 3 -12. ui4sx.3t330 March 1,;20L36:;' Chapter 3 — System Design Page 3 -10 REV: 3 7. Large Griddle (1440 sq. in. (9290 sq. cm) x 48 in. 8. Radiant Char-Broiler (624 sq. in:. {4026 sq. -crn) x,2.6_in: (122 cm) longest side maximum) (66 cm) longest side maximum) Two nozzles are available for large griddle protection: Note:. Radiant charbroilers :are :the =use High proximity and low proximity. of heated metal strips (radiants) are::used•for:covk- The 2H nozzle, Part No. 551028, is used for high proxim- Ing. ity griddle protection. This nozzle is a two (2) flow Two nozzles are available :for radiant=char-broilerprotec- nozzle. The nozzle must be located above any corner tion. High proximity and:low- 'proximity. : of the hazard surface, 24 in. to 48 in. (61 to 122 cm) The 1H nozzle, Part No. 551029, is used for high proximity above the cooking surface of the appliance and aimed at radiant char - broiler protection. This nozle_is a one1 -flow a point 12 in. (31 cm) over and 12 in. (31 cm) in from the nozzle. The nozzle must be located : anywhere Within corner below the nozzle. See Figure 3 -9. perimeter of the .hazard area, 24 in. to 48 in. (33. to 61 cm) The 2L nozzle, Part No. 551027, is used for low proxim- above the cooking surface _ofthe applianceand:aimed.at ity griddle protection. This nozzle is a two (2) flow the center of the broiler surface::.See:Figure: nozzle. The nozzle must be located above any corner The 1L nozzle, Part No . 551026, is used for low of the hazard surface, 10 in to 24 in (25 cm to 61 cm) ity radiant char - broiler protection. This nozzle Is a one a (1) flow nozzle. The nozzle must be located above the cooking surface of the appliance and aimed at anywhere a point 12 in. (31 cm) over and 12 in. (31 cm) in from the corner below the nozzle. See Figure 3 -9. on the perimeter of the hazard surface, 13 in. to 24 in. (33 to 61 cm) above the cooking surface of the appli- EDGE OF ance and aimed at the center of the broiler surface. See HAZARD AREA NOZZLE (ANY --►I r / Figure 3 -10. CORNER) `. 1 12 IN. 1H NOZZLE LOCATED ANYWHERE WITHIN THE PERIMETER ` i (31 cm) FOR HIGH PROXIMITY PROTECTION \ ` I/ 1 k 1L NOZZLE LOCATED ANYWHERE ON THE PERIMETER 12 IN. 1 FOR LOW (31 cm) AIM POINT I 1H, 1L \ PROXIMITY 48 IN. ` `� PROTECTION 2H (122 cm) 1L \ � ‘ \\, 24 IN (61 cm) `, \\, 13 IN. \ \p 2 (33 cm) ,� 2H, 2L \ 1 48 IN. 1 RADIANT 006187PC BROILER . EDGE OF (122 cm) f \ 1 HAZARD AREA 2L ` 1 ` � Figure .3 -10. 241N. , \ HAZARD (61 cm) ` SURFACE 1 `, / (25 5 cm ) `\‘‘ /�/ � . 12 IN. 31 CIA 008784PC Figure 3 -9. U1isE3830 ►:Ivial'Oh .7 ;.2006 Chapter 3- : System Design Pag013 REV::3 /P.- 14. Chain Broiler (internal chamber 1026 sq. in. 15. Tilt Skinet/Braising an (6619 sq. cm) x 38 in. (97 cm) longest side maximum) Protection for tilt skillet or braising pans is to be based One nozzle is available for chain broiler protection. upon the coverage limitations. provided for:` deep fat fryer The 1L nozzle, Part No. 551026, is used for broiler protection. Coverage limitations are based on fryer sizes protection. This nozzle is a one (1) flow nozzle. The including drip boards. Exception: Tilt skillets and braising nozzle must be located 1 to 3 in. (3 to 8 cm) above the pans may exceed the maximum of 6sq ft (.6 sq. m) surface of at the front edge of the appliance, total when modularizing Tiltskiliets and braising pans.. and pointed at the opposite diagonal corner. The nozzle generally utilize a hingedcover Fryer pro'tecti'on nozzles`. must be aimed parallel to the chain surface. See Figure are to be placed toward the front of the appliance to 3 -16. minimize the potential for thetilt skillet_orbraising;pan cover to interfere with the nozzle disch arge. See , 'Figure: 3-17. Ill% MUST UST NOT INTERFERE FERE 0 1L NOZZLE AIMED WITH NOZZLE AT OPPOSITE DISCHARGE t 9 . � 1 1 DLAGONAL CORNER II ` / (fi ) S, A . .," , 2 O 141410 0000„ -_ ® 4 FT. ^ l Alk (1:2 m) \ �a� �l THE NOZZLE IS TO BE PLACE .T THE FRONT OF THE. APPLIANCE TO MINIMIZE THE POTENT FO R 1 HE''SKILLET OR'BRAISING`FAN:COVER TO INTERFERE WITH THE NOZZLE DISCHARGE. 1-3 IN. i / (3 -8 cm) COVER MUST NOT INTERFERE y < "/ FOR, MINIMUM / WITH EDGE. OF i I AND MAXIMUM DISCHARGE ,/' NOZZLE. - - PATTERN / / HEIGHTSREFER TO FRYER / NOZZLE ' 0061 BOPC . ' � PARAMETERS — . _ i Figure 3 -16. i ' 00007, FRYER NOZZLE USED FOR TILT SKILLET OR BRAISING. PAN PROTECTION MUST BE POSITIONED NEAR THE FRONT EDGE OF THE PAN AND AIMED AT THE FRONT TO BACK CENTERLINE OF THE PAN. THE DISCHARGE FROM THE NOZZLE(S) MUST COMPLETELY CLEAR THE PAN COVER WITH AN UNOBSTRUCTED VIEW TO THE BACK OF THE PAN. Figure 3 -17. i'M ' March '1; 20 Chapter 3 — System Design Page 3 -12 • REV3 12. - Mesquite Char - Broiler (480 sq. in. x (3097 sq. cm) 13. Upright/Salamander-Broiler (internal:chamber1o64.sq. 24 in (61,cm) >longest side maximum) in. x 36 in. (6865 sq. cm x 91 .cm) :Iongest..side maximum) Two nozzles are available for mesquite char- broiler One nozzle is available for upright/salamander-broiler protection. High proximity and low proximity. The maxi- protection. mum depth of fuel (wood) must not exceed 6 in. (15 cm). The 1L nozzle, Part No. 551026 „is used for broiler The 1H nozzle, Part No. 551029, is used for high proxim- protection. This nozzle is a one (1) flow - nozzle. The ity mesquite char - broiler protection. This nozzle is a one nozzle must be located above • the.grate,.at.the -front (1) flow nozzle. The nozzle must be located anywhere edge of the appliance, outside. the .broiling.chamber,.and within the perimeter of the hazard area 24 in: to 35 in pointed at the back opposite: corner of the broiler:cham- (61 to 89 cm) above'the cooking surface of the appli- ber. The nozzle must be. aimed .paraiel to the. broiler.. ance and aimed at the center of the broiler surface. See grate surface. See Figure 3 - 15. Figure 3 -14. The 1L nozzle, Part No. 551026, is used for low proxim- ,` ity mesquite charcoal char - broiler protection. This nozzle is a one (1) flow nozzle. The nozzle must be located � anywhere on the perimeter of the hazard surface, I 15 in. to 24 in. (38 to 61 cm) above the cooking surface of the appliance and aimed at the center of the broiler surface. See Figure 3 -14. 1L NOZZLE AIMED SALAMANDER BROILER 1H NOZZLE LOCATED ANYWHERE WITHIN THE PERIMETER AT BACK OPPOSITE 1H FOR HIGH PROXIMITY PROTECTION CORNER 11 1L NOZZLE LOCATED ANYWHERE ON THE PERIMETER IL, 1H \\ FOR LOW �} PROXIMITY PROTECTION 35 IN. (89 cm) 1L 1 1 241N. r. (61 cm) BROILER :. 15 IN. \� �i1' . CHAMBER (38 cm) �y .® r r H 1L NOZZLE AIMED FUEL DEPTH MUST NOT MESQUITE 006187PC AT BACK OPPOSITE EXCEED 6 IN. (15 cm) CHAR BROILER EDGE OF CORNER HAZARD AREA Figure 3 -14. UPRIGHT BROILER • • • 006189PC Figure 3 -15. • • ARXXi3830 1 =:2006 • ..•. Chapter 3 -:S rste.m Design Pag *`3 -:15 REV. 3 • General.Piping Requirements 1. Split piping and straight piping are both allowed ► on a PCL -160, PCL -300 and PCL -460 system. SUPPLY PIPE 2. PCL -600 systems must use split piping only, with MUST ENTER BULL no nozzle located before the split, and .with a SIDE OF TEE maximum of 14 flow points per side. 1/2 in. mini- SpLiT:P!PING4(REQUIRED ON :PCIAS I!SYSTEMSj mum piping must be used up to the first split. 3. Maximum volume for 1/4 in. pipe between a : nozzle and the preceding tee is 410 mis. 4. Maximum flow numbers for 1/4 in. pipe is 6. 5. Maximum number of elbows between a nozzle and the preceding tee is 5. 6. Maximum of 25 elbows are allowed in the total STRAIGHT PIPING piping system. 7. Maximum difference in elevation between the tank outlet and any nozzle, or the tank outlet and the highest or lowest horizontal pipe run, is 10 ft. 008191PC (3.1 m). .. 8. No traps are allowed in the piping network. Figure 3 -18. 9. Pipe lengths are measured from center to center of fittings. Design. Steps 10. The internal equivalent length volume of fittings �.� does not have to be considered as part of the total Step No. 1 Determine number of flow points required based pipe volume. on duct size, plenum size and type, and size of 11. When utilizing different size pipe in the system, all appliances. the largest size must start first and the addi- Step No 2 Determine size and :quantity:of.tanks required :. tional pipe must decrease as it approaches the Refer to the chart In; "General' Piping nozzle. Requirements to determine the maximum 12. Elbow(s) or swivel adaptors located at the nozzles amount of flow numbers allowed =perr each tank do not have to be counted in the 25 elbow maxi- size. mum requirement. Step No. 3 Layout nozzles, piping diagram, and tank Ioca- 13. Reducing bushings are allowed when reducing to tion. Determine pipe lengths as accurate as a smaller pipe size. possible.. Make certain: maximum number of elbows is not exceeded NotetTanks cannot be 14. Additional piping requirements when protecting a manifolded . togetherr Each - tank <:must• have a range, wok, or a fryer: separate - .piping, - network: • PCL -160 — Minimum of 239 ml and one (1) flow Step g No: 4 A dd all the lengths of each number required in total system. Of that mini- pipe'run and Chart. If m ► um, 180 ml must be utilized at or before the ply by the mls./ft. Ilsted:rn the Volame.Chart: f m ugs, w or fryer. the sum falls within the acceptabierange noted in general Piping Requirements, that pipe size • PCL -300 - Minimum of 300 ml and four (4) flow O is acceptable. If the calculated- vol.ume.isaoo. _ numbers required in total system. Of that mini- large, recalculate the: volume usingthe nil per mum, 239 ml and two (2) flow numbers must be foot of a smaller pipe size.: Pipe. sizes can be utilized at or before the range, wok, or fryer. mixed but Rule No 11 of the General Piping • PCL -460 — Minimum of 660 ml and ten (10) flow Requirements must be followed.. numbers required in total system. Of that mini- Step No. 5 Check to make certain minimum volumes, maxi- mum, 180 ml and two (2) flow numbers must be mum volumes and maximum volume allowed utilized at or before the range, wok, or fryer. between first nozzle and last nozzle is not • PCL -600 — Minimum of 960 ml and fourteen (14) exceeded (Tank Chart). Check each rule in flow numbers required in total system. Of that "General Piping Requirement" to make certain minimum, 120 ml and 2 flow numbers must be none have been exceeded. If.any requirement is exceeded, change to a different pipe size and recalculate. ULEX: 3830 Marctl 1; :2II416 Chapter 3 — System Design Page 3 -14 EEV 4` Fryer - Multiple Nozzle Protection PIPING LIMITATIONS Fryers exceeding the coverage of a single nozzle can be Once the nozzle placement and quantity of tanks has been divided into modules. Each module must not exceed the determined, it is necessary to determine the piping configu- maximum area allowed for a single nozzle. However, when rations between the tank and the nozzles. This section utilizing multiple nozzle protection, the longest side allowed contains the guidelines and limitations for designing _the for a fryer. with drip board can be used regardless of distribution piping so that the wet chemical - agent will whether the .fryer has.a.drip board or not discharge from: the nozzles at, a proper flow rate: These tations must also be referred to:when selecting_ he. mounting The maximum size fryer that can be modularized is location for the tanks. 864 sq. in. (5574 sq. cm). The maximum pipe lengths are based on internal pipe Design requirements for multiple nozzle fryers are broken volume. Each size tank is allowed a minimum and maximum down as follows: total volume of piping, calculated in milliliters; There is no need to distinguish between what portion of the 1. If the fryer includes any dripboard areas, measure both piping is supply line and what portion is branch line. Only the the internal length (front to back) and width of the frypot total volume of the complete piping network has to be portion. Then measure the internal length and width of considered. the overall hazard area including any dripboard areas. Determine the area of both the frypot and the area of Volume Chart the overall vat by multiplying corresponding length and width dimensions. 1/4 in. pipe = 20.5 mls./ft. 3/8 in. pipe = 37.5 mls./ft. 2. Divide the frypot or overall vat into modules, each of which can be protected by a single nozzle, based on the 1/2 in. pipe = 59.8 mls./ft. maximum dimension and area coverage of the nozzle as 3/4 in. pipe = 105.0 misfit. specified in "Design Chart." • If the module considered does not include any portion of the dripboard; use only the maximum frypot area Tank Chart and maximum dimension listed in the "Design Chart." -Maxi • If the module .. considered includes any dripboard Volume Allowed areas, use both the maximum frypot area and dimen- Maximum $etWeen first sion - listed in the "Design Chart ", and the maximum Maximum Pipe Nozzle and overall.area and dimension listed in the "Design Tank Flow Volume .Last. Nozzle Chart." Size Numbers (milliliters) ( millilters) 1.6 Gallon 5 1500 600 3. None of the maximum dimensions may be exceeded. If PCL -160 either the maximum frypot or the overall sizes are , exceeded, the area divided into modules will need to be 3.0 Gallon 10 1910 1125 redefined with the possibility of an additional nozzle. PCL -300 4.6 Gallon 14 3400 3000 PCL -460 4.6 Gallon 15 2600 2000 PCL -460 6.0 Gallon 19 4215 1688 PCL -600 per side 6.0 Gallon 20 3465 1313 PCL -600 per side Minimum Pipe Volumes for a Fryer, Range, and Wok Cylinder Size Entire System At or before appliance PCL 160 239 ml -1 Flow Pt 180 mI _ - Flowpt PCL 300 300 ml -.4 Flow Pts _ 239 ml - 2. Flow:Pts PCL 46Q 660 mi - 10 Flow Pts 180 -mI - 2 Flow Pts' PCL 600 960 ml - 14 Flow Pts 120 ml - 2 Flow Pts 1.1 ,EX-3830 1• arch - 2006 • �. , Chapter:3 – .System:Design Page-3,17 REV2 >r\ Step ,No. 4 Total all pipe lengths. Refer to the Volume Refer to Volume .Chart. The.:pipe sze -chosen is Chart. Chose a given pipe size and multiply the 3/8 inch. The volurne per foot of _3/8 in. . :pipe is ml per foot by the total length of all the pipe. If 37:5 mI. Multiply 37.5:by the: total pipe length of the sum falls within the acceptable range noted 47.5 ft. in Tank Chart, that pipe size is acceptable. If the calculated volume is too large, recalculate the 37.5 ml x 47.5 ft. ='1781 ml total volume volume using the ml per foot of a smaller pipe The maximum—volume—allowed fora PCL -300 is size. See. Figure 3 -21. 1910 ml, therefore, 3 /8.in..pipe is acceptable for Add section A -B = 0' -6" + 5' + 14' + 2' + 0' -6" = this system. 22' (.2 + 1.5 + 4.3 + .6 + .2 = 6.8 m) Add section B -C = 1' -6" (.5 m) Add section C -D = 1' (.3 m) Add section .D -E = 2' (.6 m) 3 / / - 3 � C n^ I L V - Add section E -F = 0' -6" (.2 m /-' �� Add section F -L = 3' + 2' + 2" = 7' (2.1 m) _ Add section B -G = 0' -6" (.2 m) Add section C -H = 2' + 2' = 4' (.6 + .6 = 1.2 m) Add section D -I = 2' + 2' = 4' (.6 + .6 = 1.2 m) Add section E -J = 0' -6" + 0' -6" = 1' (.3 m) Add section F -K = 2' + 2' = 4' (.6 + .6 = 1.2 m) Total length of all pipe = 47' -6" (14.5 m) J 6" 9' 2 . " B p z z 2 C \ '' �s ° 4110, 2 , E z, 6° 2 . 400 14' 2 2 5 A 0 0 s ° 006193PC ! Figure 3 -21. UL4EX Mardi •1'1,2606 Chapter 3 — System Design Page 3-16 REV. 3 Example Step No. 3 Make an accurate sketch of the cooking lineup The cooking area that requires protection consists of a single and the hood. Sketch in the tanklocation all The (142 cm the piping required for the. total system. Make 56 in. ( ) perimeter exhaust duct, a 10 ft. (3.1 m) long "V" bank plenum, (2) 18 in. (46 cm) wide x 24 in. (61 cm) certain all pipe lengths and number. of elbows fryers, a 30 in. (76 cm) x 36 in. (91 cm) wide griddle, and a are as accurate as possible. Check the "General 24 in. (61 cm) diameter wok. See Figure 3 -19. Piping Requirements" to determine that the mini mum and maximum requirements are met. See Figure 3-20. 10 FT. (3.1 m) 6 " 141N. C 2 (36 cm) 14 IN. 6 " (36 cm) (2) 18 IN. (46 cm) X 24 IN. 2 2, 2 (61 cm) FRYERS " -6" 1. (1) 30 1N. (61 cm) X 36 IN. 2 2 (91 cm) GRIDDLE 14 ` 2 2 2' (1) 24 IN. (81 cm) DIAMETER , WOK �� 6 o o 0 0 0 I6" o 0 0 006193PC 006192PC Figure 3 -20. Figure 3 -19. ,-----, Step No. 1 Determine number of flow points required. • 56 in. (142.cm) perimeter duct requires one, two flow nozzle • 10 ft. (3.1 m) "V" bank hood requires one, one flow nozzle • 18 in. x 24 in. (46 x 61 cm) fryer requires one, two flow nozzle • 18 in. x 24 in. (46 x 61 cm) fryer requires one, two flow nozzle • 30 in. x 36. in. (76 x 91 cm) griddle requires one, one ;flow nozzle • 24 in. (61 cm) diameter wok requires one, one flow nozzle TOTAL FLOW NUMBERS — 9 Step No 2 Determine size and quantity of tanks required. Referring to the chart in "General Piping Requirements," a PCL -300 and a PCL -460 can supply 101lows, therefore, a PCL -300 can be utilized. ULE, 3830 I. fi Chapter .3 - $ystem- Design Page 3 REV: 2 DETECTOR. PLACEMENT Detectors are required over cooking appliances and in th q 9 pp the duct(s) of protected ventilation hoods. Detectors shall be located in the plenum area of the ventilation hood. Exhaust Duct(s). Each exhaust duct must have at least one (1) detector installed in the duct entrance, located in the air stream of the All !� cooking vapors at a maximum of 12 feet (3.7 m) into the 1 duct. See Figure 3 -23. Figure 3 -23a. = 000268.. Cooking Appliance(s). Each cooking appliance with a continuous cooking surface 12 Fr. (3.7 m) not exceeding 48 in. 48 in. (122 x 122 cm) shall be MAXIMUM g n. x ( ) protected by one (1) detector. Cooking appliances with a continuous cooking surface exceeding 48 in. x 48 in. (122 x 122 cm) shall be protected by one (1) detector per 48.in. x 48 in. (122 x 122 cm) cooking area.. Detectors used for cook- ' ing appliances must be located above the protected appli- /'� ance toward the exhaust duct side of the appliance. The detector should be located in the air stream of, the appliance _ to enhance system response time. Figure 3 -23. If a cooking appliance is located under a duct opening where 006884PC a detector has been mounted, it is not necessary to utilize an additional detector provided the duct detector is not more NOTICE than 12 in. (31 cm) into the duct opening. If two (2).appli- When gas appliances are used and the flue gases from ances are located under a duct opening where a detector the burner are exhausted into the duct, the detector must has been mounted, it is not necessary to utilize an additional be kept out of the air stream of these exhaust gases. detector provided the duct detector is not more than 12 in. These gases can be very hot and could actuate the (31 cm) into the duct opening. See Figure 3 -24. system unnecessarily. _ Duct openings that are long and narrow or large enough to require multiple duct nozzles may require additional detectors. L tl V J G J O O O Electrostatic Precipitator. If an electrostatic precipitator is located at or near the base of the exhaust duct, it is necessary to locate a detector below the precipitator, at the base -of the duct, and also locate one in the duct, just above the precipitator. See Figure 3 -23a. When installing the detector bracket and system conduit, make APPLIANCE APPLIANCE APPLIANCE APPLIANCE certain they do not interfere with the operation of the COVERED COVERED COVERED COVERED BY BY BY BY precipitator. DETECTOR DETECTOR DETECTOR DETECTOR B C Figure 3-24. Proper. Detector Placement. 002943PC ULEX: 3egi March 1;,280.6 . +. '• Chapter 3 — System Design Page 3 -18 REV.2 Step. No. 5 Check to make certain minimum volumes and 10. The internal equivalent-length volumelif / Th maximum volume allowed between first nozzle fittings ; does not have to be > considered •andlast nozzle,are not exceeded (Tank Chart). as -part of the;total pipe - volume: Check each rule in "General Piping Requirements" (Example system OK) to make certain none have been exceeded. If any 11. When utilizing different size :pipe in the requirement is exceeded, change to a different ... - pipe size and recalculate. See Figure 3 -22. total system, t he - largest. size must start first and the additional `pipe must Refer to Tank Chart decrease'as it approaches the nozzle. Minimum Pipe Volume for PCL -300 is 300 (Example system N /A) ' milliliters protecting a fryer, wok, or range 12. Elbow(s) or swivel adaptors located at (Example system pipe volume is 1781 milliliters, the nozzles do not to be counted in therefore OK) the -25 elbow maximum- requirement. Maximum Pipe Volume for PCL -300 is 1910 (Example. system OK) milliliters (Example system pipe volume is 13. Additional pipi requirements when 1781 milliliters, therefore OK) protecting a r a wok,.;or.a:- P 9 `� ; Y Maximum Volume Allowed Between First • PCL-300 - Minimum.ef .300 ':ml and four Nozzle and Last Nozzle for PCL -300 is 1125 milliliters (Example system, the amount of 3/8 (4) .flow.numtiersregoirefi`in: total in piping between G and L, is 25.5 feet. 25.5 system. Of that .minimum ml and feet x 37.5 mis. /ft. = 956.3 ml, therefore, OK) two (2) flow . numbars, . must_ be utilized at or before the range, wok, or fryer. Refer to General Piping Requirements (Example system has '17;8 and 1 flow numbers, therefore, OK. The exam - 1. Split piping and straight piping are both pie system has 1050 ml and 3 flows allowed on PCL -300 and PCL -460 including the fryer, therefore, OK) • systems. (Example system OK) • PCL -460 — Minimum of 660 ml and ten 2. PCL -600 systems must use split piping (10) flow numbers required in total only, with no nozzle located before the system. Of that. minimum, 180 ml and �--. split, and with a maximum of 14 flow two (2) flow numbers must be utilized at points per side. 1/2 in. minimum piping or before the range, wok, or fryer. must be used up to the first split. (Example system N /A) • PCL -600 — Minimum of 960 ml and four - 3. Maximum volume for 1/4 in. pipe teen (14) flow numbers required in total between a nozzle and the precedingtee system. Of that minimum, 120 ml and 2 is 410 mis. (Example system N /A) flow numbers must be utilized at or before the range, wok, or fryer. 4. Maximum flow numbers for 1/4 In. pipe is 6. (Example system N /A) 5. Maximum number of elbows between a GEN. PIPING RULE NO. 1, 6, 9 nozzle and the preceding tee is 5. ' GEN: PIPING (Example system has a maximum number TANK CHART �' / RULE N0.5 of 2, therefore, OK) MINIMUNVMAXIMUM I " PIPE VOLUME TANK CHART 6. Maximum of 25 elbows are allowed in MAx.voL the total piping system. (Example system PIPING lit BE MAX. A AND has 11 elbows, therefore, OK) RULE j \ LAST NOZZLE C NO. 10 TANK CHART 7. Maximum difference in elevation between MAX. CH \■/ GEN. P the tank outlet and any nozzle or the tank GEN. BETWEEN FIRST RULE N O. 12 Outlet and the highest Or lowest horizontal PIPING -1.- AND LAST NOZZL �� o pipe run, is 10 ft. (3.1 m) (Example system NO. 7 �\ ° • GEN. PIPING o has 5' -6" (1.7 m), therefore, OK) RULE NO. 6 ° 8. No traps are allowed in the piping network. (Example system has no traps, GEN. PIPING 008193P0 therefore, OK) RULE N0.13 • Vi 9. Pipe lengths are measured from center to Figure 3 -22. center of fittings. (Example system pipe lengths were measured from center to center of fittings, therefore, OK) .ULEX 3830 • Maroh-1, 2006 ' 7 Y . Page l of 1 Clayborn, Michelle From: Universal Fire [ universaifireequipment @hotmail.com] Sent: Friday, April 09, 2010 8:30 AM To: Clayborn, Michelle Subject: Izzy's Pizza Bar -fire suppression system piping Hi Michelle, The fire suppression system will be using approximately 26' of 3/8" black pipe for the distribution supply line. volume chart is 3/8" pipe = 37.5 mis. /ft. (milliliters) 26' x 37.5 mis. = 975 mis. The fire system will be using approximately 975 mis. out of a maximum of 1910 mis. allowed on _a PCL -300 system cylinder. Please let me know if you have any more questions. Thanks, Greg The New Busy think 9 to 5 is a cute idea. Combine multiple calendars with Hotmail. Get busy. CITY OF VANCOUVER l� 1 APR 0 9 MO FOR CONSTRUCTION DEVELOPMENT REVIEW MR' VI REVIEWED 4/9/2010