HomeMy WebLinkAbout300 CARLSBAD VILLAGE DR; 201A; FPC2020-0017; Permit:J iir l :IFI Si1 Jl
~L_City of
Carlsbad
Fi]e1ieI[m11t
Print Date: 07/27/2022 Permit No: FPC2020-0017
Job Address: 300 CARLSBAD VILLAGE DR, # 201A, CARLSBAD, CA 92008-2992 Status: Closed - Finaled
Permit Type: FIRE-Construction Commercial Work Class: Fixed Extinguishing Syste
Parcel #: 2031740700 Track #: Applied: 01/30/2020
Valuation: $54,044.62 Lot #: Issued: 02/26/2020
Occupancy Group: Project #: Finaled Close Out: 03/18/2020
#of Dwelling Units: Plan #:
Bedrooms: Construction Type: Final Inspection:
Bathrooms: Orig. Plan Check#: INSPECTOR: Salcedo, Felix
Plan Check #:
Project Title:
Description: GONZO RAMEN -WET CHEMICAL FIRE SUPPRESSION (AMEREX KP)
Applicant: FPContractor:
CALIFORNIA STATE FIRE PROTECTION SONLIGHT FIRE INC
STEPHEN BUZZELLI 36140 JANA LN
36140 JANA LN WILDOMAR, CA 92595-8607
WILDOMAR, CA 92595-8607 (800) 282-9229
(800) 282-9229
FEE AMOUNT
FIRE Hood & Duct Extinguishing System Initial Sys $417.00
Total Fees: $417.00 Total Payments To Date: $417.00 Balance Due: $0.00
Fire Department Page 1 of 1
1635 Faraday Avenue, Carlsbad CA 92008-7314 1 760-602-4665 760-602-8561 f I www.carlsbadca.gov
SEE PERMIT
A5160057
5115 CARLSBAD BLVD
J SQUARED CONDOS
FOR CALCS &
PLANS
frc2ô2O oo(
DESIGN, INSTALLATION,
MAINTENANCE & RECHARGE
1k71 0 11 Y I
NO. 20150
r11 14 1 :i
RESTAURANT
FIRE SUPPRESSION SYSTEM
TESTED AND LISTED BY
UNDERWRITERS LABORATORIES
TO UL STANDARD 300
and
UNDERWRITERS LABORATORIES OF CANADA
ULC'ORD 1254.6-1995
AMEREX CORPORATION
Post Office Box 81
Trussville, Alabama 35173-0081
Phone: (205) 655-3271 Fax: (205) 655-5112
e-mail: sales @amerex-fire.com web page: www.amerex-fire.com
No part of this manual may be reproduced or transmitted in any form or by any means electrical or
mechanical, including photocopying or oy any storage and retrieval system without the expressed
permission in writing from Amerex Corporation.
A Factory Trained and Authorized Distributor must perform the installation and service of any Amerex
Restaurant Fire Suppression System in strict accordance with this manual.
Printed in U.S.A. December 2008 MM#20150-12/2008
December 2008
LIMITED WARRANTY
Amerex warrants its Restaurant Fire Suppression Systems to be free from defects in material
and workmanship for a period of three (3) years from the date of purchase. During the warranty
period, any defective part will be repaired or replaced (at Amerex option). This warranty is valid
only if each system is installed, serviced and maintained by an Amerex authorized distributor in
strict accordance with Amerex Manual No. 20150. All work must be performed using genuine
Amerex replacement parts. This Warranty does not cover defects resulting from modification,
alteration, misuse, exposure to corrosive conditions or improper installation or improper
maintenance. Warranties on component items not manufactured by Amerex are provided by
others whose warranty, evaluation and judgment will be final.
ALL IMPLIED WARRANTIES, INCLUDING BUT NOT LIMITED TO, WARRANTIES OF
FITNESS FOR PURPOSE AND MERCHANTABILITY, ARE LIMITED TO THE TIME PERIOD
AS STATED ABOVE. IN NO EVENT SHALL AMEREX CORPORATION BE LIABLE FOR
INCIDENTAL OR CONSEQUENTIAL DAMAGES. Some states do not allow limitations on how
long an implied warranty lasts or the exclusion or limitation of incidental or consequential
damages, so that the above limitations or exclusions may not apply to you.
Amerex Corporation neither assumes nor authorizes any representative or other person to
assume for it any obligation or liability other than as expressly set forth herein. This Warranty
gives you specific legal rights, and you may also have other rights that vary from state to state.
To obtain performance of the obligation of this Warranty, write to Amerex Corporation, P. 0. Box
81, Trussville, Alabama 35173-0081, USA for instructions.
THE NEW MANUAL - WHAT IS NEW?
This NEW Restaurant Systems Manual carries a new part number, 20150, for it
is a combining of the two previous manuals, KP Manual PN 12385 rev. 'A" and ZD
Manual PN 16640. The combining of the two manuals does not eliminate any of the
limitations of system requirements of the original two manuals, but strives to organize
the information into a comprehensive order with additional informative information for
greater clarity and understanding.
Some of the changes you will notice in the new manual are made to reduce cost
of inventory, printing, manufacturing, ordering and returns. The first item you will notice
is the change in nomenclature, KP 375 or ZD 375 Agent Cylinder Assemblies are now
referred to as a Model 375 Agent Cylinder Assemble. Now there is only one part
number per Model of Agent Cylinder Assembly. No longer do you have to order a
different part number for a KP or ZD Agent Cylinder Assembly nor do you have to stock
two cylinders the same size simply because one is for a KP system and one is for a ZD
system.
Closer examination of the new manual will reveal that the original configured
MRM required that you purchase a MRM and an enclosure (painted or stainless steel)
separately. The new MRM II is supplied pre-installed in an enclosure (painted or
stainless steel) ready to mount on the wall. The new MRM II incorporates the use of a
new ratcheting take up for the automatic detection line. The original MRM used a
manual take up method for the cable tensioning and was part number 11977. The
original MRM version is no longer in production, however if a replacement for an
existing unit is needed or if you are ordering a "Cabinet" enclosure (PN 11978) you can
still order part number 11977 as a replacement or to use in the "Cabinet" enclosure.
The part number now supplies a MRM II unit without the enclosure, but with the new
ratcheting take up. It is 100% interchangeable with the original MRM.
The new manual will still contain service and maintenance instructions for the
original style MRM. Anytime you see a heading that says MRM, it is referring to the
original style unit. If the information is good for both style units it will say MRM I MRM II.
The following arrangement, MRM I MRM Ill PRM, indicates that the information is good
for all three units.
Due to the combining of the two manuals the following substitutions should be
used as follows:
KP Manual PN 12385 is superseded by Restaurant Manual PN 20150
ZD Manual PN 16640 is superseded by Restaurant Manual PN 20150
ZD 275 Agent Cyl. Asy. PN 17102 is superseded by Model 275 Agent Cyl. Asy PN 16921
ZD 375 Agent Cyl. Asy. PN 16650 is superseded by Model 375 Agent Cyl. Asy PN 13334
ZD 475 Agent Cyl. Asy. PN 17474 is superseded by Model 475 Agent Cyl. Asy PN 17397
KP/ZD 375 Mounting Bracket PN 16085 is superseded by 375 Mounting Bracket PN 17690
TABLE OF CONTENTS
Section 1 - General Information
ULListing ...............................................................................................1-1
Design...................................................................................................1-1
General Information Zone Defense ................................................1-2
Definition of Terms ............................................................1-3 to 1-6
Revision Record .......................................................................1-7
Section 2— System Components
Kitchen Wet Chemical Agent .................................................................2-1
Agent Cylinder/Assembly Models 275 / 375 / 475 ..................................2-1
Cylinder Mounting Bracket .....................................................................2-2
Distribution Hose (DISCONTINUED)...........................................................2-2
Agent Cylinder/Assembly Model 600 ....................................................2-2
Cylinder Valve Assembly Model 600 ......................................................2-3
Cylinder Mounting Bracket Model 600 ...................................................2-3
Discharge Fitting Kit KP 600 ..................................................................2-3
Pneumatic Actuator ....................................................................2-3
MRM/MRMII ......................................................................................... 2-4
PRM........................................................................................................2-5
DetectionTubing ....................................................................................2-5
Endof Line Fitting...................................................................................2-5
TubingSupport Clip ................................................................................2-5
Low Pressure Indicator ...............................................................2-5
Nitrogen Actuation Cylinder ...................................................................2-6
EnclosureMRM .....................................................................................2-6
Cabinet..................................................................................................2-6
Actuation Hose & Discharge Nozzle .......................................................2-7
Nozzle Swivel Adapter & Nozzle Caps ..................................................2-7
Detector.................................................................................................2-8
TestLinks ..............................................................................................2-8
CornerPulley .........................................................................................2-8
Cable & Eyebolt Support.........................................................................2-8
JOB & Globe Fusible Links ....................................................................2-9
ConduitOffset ........................................................................................2-9
Linear Fusible Link Termination Kit .............................................2-9
Cable Segment - Link to Link ......................................................2-9
ManualPull Station ..............................................................................2-10
Adapters..............................................................................................2-10
Quick Seal Compression Fitting............................................................2-10
Mechanical Gas Valve ..........................................................................2-11
ElectricGas Valve.................................................................................2-11
ManualReset Relay..............................................................................2-11
Mechanical Gas Valve Kit.....................................................................2-12
ASCO Mechanical Gas Valve ...............................................................2-13
Ansul Mechanical Gas Valve ................................................................2-13
SnapAction Switch...............................................................................2-14
VentPlug ..............................................................................................2-14
Horn& Strobe ..........................................................................2-14
Electrical Control Head (ECH) .....................................................2-15
Kitchen Hood Fastener ..............................................................2-16
FlexibleHose ...........................................................................2-17
Section 3— KP Design
Duct Protection Limitations - Single Nozzle ...........................................3-1
Duct Protection Limitations - 2 Nozzle ...................................................3-2
Duct Protection Limitations - 3 Nozzle ...................................................3-3
Transition Limitation......................................................................3-1 & 3-3
Nozzle Location & Aiming (Special for Short Vertical Rise Duct) .....................3-4
Duct Protection Limitation - Multiple Nozzle...........................................3-4
Plenum Protection Limitations ................................................................3-5
KP APPLIANCE PROTECTION
Fryer Protection .............................................................................3-6, 7 &8
Range Burner Protection ....................................................3-9, 10, 11 & 12
WokProtection......................................................................................3-12
Griddle Protection ...................................................................3-13, 14 & 15
Char-broiler Protection..........................................................................3-16
Lava Rock Protection............................................................................3-16
Solid Fuel Appliances ...........................................................................3-17
Upright Broiler Protection......................................................................3-18
Salamander............................................................................3-18
Char-Broiler Protection .............................................................3 -19
Nieco 9025 Chain Char-Broiler ....................................................3-20
Duke EBB Chain Char-Broiler ......................................................3-21
Duke Char-Broiler+ Duke Hood ....................................................3-22
Back Shelf Protection ...........................................3-23, 24, 25, 26 &27
Nozzle Application Chart.......................................................................3-28
Agent Cylinder Selection.......................................................................3-29
Actuation Network Limitations...............................................................3-29
General Piping Requirements...............................................................3-30
Distribution Network - Single Cylinder..................................................3-31
Distribution Network - Twin Cylinder....................................................3-32
KP Distribution Piping ........................................................3-33, 3-33A
Spot Detection Network Limitations (MRM I MRM II) ............................ 3-34
Linear Fusible Link Limitations - Spot Detection ..................................3-35
Linear Fusible Link Detection Network - Lanyard System .................3-36
Fusible Link Selection ..............................................................3-37
PRM Limitations ................. ....................................................3-37
Manual Pull Station Network Limitations ...............................................3-38
Dual MRM Installation for Single Hazard .......................................3-38A
Mechanical Gas Valve Applications......................................................3-39
Electric Gas Valve Applications ............................................................3-40
WiringDiagrams ...................................................................................3-41
Snap Action Switch Applications...........................................................3-42
Section 3— ZD Design
System Design - General.........................................................3-43
Zone of Protection .......................................................3-44, 45 & 46
Distribution Network - Single Cylinder..................................................3-47
Distribution Network - Twin Cylinder....................................................3-48
Zone Defense Piping Limitations ...........................................3-49 & 50
Detection Network Limitations .....................................................3-51
Section 4— System Installation
General...................................................................................................4-1
Installing the Agent Bracket & Assembly Model 275, 375, 475.....4-1 & 4-2
Installing the Agent Bracket & Assembly Model 600...............................4-2
Installing the Pneumatic Actuator............................................................4-3
Installing Cylinder Enclosure ........................................................4-3
Installing the PRM & Detection Tubing .............................................4-4 & 5
Installing Detection Tubing Termination Fitting .................................4-6
Installing the MRM I MRM II .............................................................. 4-7 & 8
Setting the MRM II ......................................................................4-9
Settingthe MRM .....................................................................4-10
Installing the Linear Fusible Link Detection Network ......................... 4-1 1
Installing the Manual Pull Station (MRM or PRM).................................4-12
Recessed Installation of Manual Remote Pull Station...................4-12 & 13
Installing the Actuation Network - Limitations ...............................4-14 & 15
Installing the Distribution Piping Network..............................................4-16
Installing High Temperature Blow-off Cap ....................................4-17
Installing the Mechanical Gas Valve (MRM or PRM) ..............4-17, 18 & 19
Installing the Electrical Gas Valve (MRM or PRM)................................4-20
Installing the Mechanical Gas Valve Kit .........................................4-21
Installing the Snap Action Switch (MRM or PRM).................................4-22
Installing the Electrical Control Head (ECH) ..................................4-23
Installing a Nut & Stub Style Fastener .................................4-24 & 4-25
Installing a Flexible Nozzle Branch Hose .......................................4-26
Section 5— System Testing
Detection Network Testing......................................................................5-1
Manual Pull Station Testing & Mechanical Gas Valve Testing................5-2
Distribution Piping Network Testing ........................................................5-2
Electrical Gas Valve Testing ...................................................................5-3
Electrical Control Head ................................................................5-4
Section 6 - System Maintenance
Maintenance Requirements..........................................................6-1, 2 & 3
Section 7— System Reset & Recharge
Reset Procedures for MRM / MRM II ......................................................7-1
Reset Procedure for PRM ...........................................................7-2
Recharge Procedure Model 275 I 375 /475 Cylinder Asy ...................... 7-3
Recharge Procedure KP 600 ............................................................7-4 & 5
Nitrogen Cylinder Recharge .......................................................... 7-6, 7 & 8
Reset Procedure for the ECH .......................................................7-9
MSDS Sheet Kitchen Wet Chemical Agent
Appendix A
Appendix B
SECTION 1
GENERAL INFORMATION
MANUAL PIN 20150
AMEREX
RESTAURANT
FIRE SUPPRESSION SYSTEM
Tested and Listed by
Underwriters Laboratories, Inc.
to UL Standard 300
EX 4658
Tested and Listed by
Underwriters Laboratories of Canada
to ULC/ORD 1254.6-1995
December 2008
December 2008 Section 1 General Information Page 1 - 1
Amerex Restaurant Fire Suppression System (EX4658)
GENERAL INFORMATION
The Amerex KP I ZD Series Restaurant Wet Chemical Fire Suppression System is designed and has been
tested to provide fire protection for commercial cooking operations covering the hood, ducts, plenum and
appliances. Amerex Restaurant Fire Suppression Systems are a pre-engineered type as defined in NFPA
17A - Standard for Wet Chemical Extinguishing Systems. It is manufactured by the Amerex Corporation,
Trussville, Alabama.
It is essential that all installations of the Amerex KP I ZD Series Systems be performed in compliance with this
manual. Those individuals responsible for the design, installation, operation and maintenance of the
Amerex Restaurant Fire Suppression System must be trained by Amerex and hold a current Amerex
Certificate. All piping limitations, nozzle coverages, detector placements, etc. have been proven and
established through exhaustive testing by Underwriters Laboratories, Inc. Use of components other than
those referenced in this manual, or installations exceeding limitations stated in this manual will void all of the
Amerex KP / ZD Series System listings.
LISTINGS:
The Amerex KP / ZD Series Fire Suppression Systems are a listed pre-engineered fire extinguishing systems.
The KP & ZD systems are listed with Underwriters Laboratories, Inc. - USA per UL 300 fire test specification;
Underwriters Laboratories of Canada, Inc. per ULCIORD 1254.6 - 1995 and Loss Prevention Certification
Board - UK per LPS 1223 rev. B. Testing required for listings under these standards involve live fire tests
under specific conditions involving commercial kitchen hoods, ducts and appliances. Each test fire is allowed
to reach its maximum intensity before agent is discharged. Each test was repeated using both maximum and
minimum piping, variations in agent storage cylinder pressure to simulate maximum and minimum
temperature ratings. Duct fire tests were extinguished with fans off and fans on; dampers open and closed.
Splash tests for various appliances were conducted to assure that discharge of the agent would not cause
excessive splashing of hot grease to provide greater employee safety during commercial cooking operations.
UL Standard 300 introduces a series of tests by specifically addressing the use of high efficiency fryers,
ranges, woks and the unique fire extinguishing challenges that these appliances present.
DESIGN:
The Amerex KP Series Pre-Engineered Fire Suppression Systems consist of mechanical and electrical
components to be installed by an Authorized Factory Trained and Certified Amerex Restaurant Fire
Suppression Systems distributor. The system is composed of an Agent Cylinder/Discharge Valve charged
with Amerex Kitchen Wet Chemical Agent and a Mechanical Release Module (MRM or MRM II) or Pneumatic
Release Module (PRM). The quantity of detectors, fusible links, nozzles, corner pulleys, pulley tees and
manual pull stations will vary depending on kitchen design.
The system operates either automatically if actuated by a detector or manually if actuated by a manual pull
station. Upon system operation, energy sources for the cooking appliances are required to be shut off
immediately. Electrical shutdown devices or suitable gas valves are referenced in this manual. Other
equipment such as audible/visual signaling devices can be added where required.
The Amerex Restaurant Fire Suppression System suppresses fire in commercial cooking equipment by
spraying Amerex Wet Chemical Agent in a pre-determined manner onto cooking appliances and into exhaust
ducts, filters and plenum areas. The primary means of fire suppression is either by saponification of surface
grease or by cooling the surface of oils and hot metal surfaces with fine droplets of agent, reducing the
temperature of the oil and appliance below the auto-ignition point.
Upon system discharge, the exhaust fans should be left on to aid in dispersal of the liquid suppressant that
results in cooling the plenum and duct. Any integral make-up or supply air should be automatically shut off
along with all cooking appliances. Some local Authorities Having Jurisdiction require exhaust fans to be shut
down by the fire suppression system. Check local fire codes, AHJ and Department of Health in the specific
area that the system is being installed for special installation requirements.
The Amerex Restaurant Fire Suppression System agent storage cylinders and cartridge shall not be installed
in environments below 32° F or above 120° F (0° C to 490 C).
June 2011 Section 1 General Information Page 1 - 2
Amerex Restaurant Fire Suppression System (EX 4658)
GENERAL INFORMATION - ZONE DEFENSE SYSTEM
The Amerex ZD Series Pre-Engineered System consists of mechanical and electrical components to be
installed by an Authorized Factory Trained and Certified Amerex Restaurant Fire Suppression Systems
distributor. The system is composed of an Agent Cylinder Assembly charged with Amerex Kitchen Wet
Chemical Agent and a Pneumatic Release Module (PRM) or an MRM, MRM II using a linear link detection
network.
The system operates either automatically, if actuated by a rupture in the pressurized thermal responsive
tubing or by the separation of a thermal link or manually if actuated by a manual pull station. Upon system
operation, energy sources for the cooking appliances are required to be shut-off immediately. Electrical
shutdown devices or suitable gas valves are referenced in this manual. Other equipment such as
audible/visual signaling devices can be added where required.
The Amerex ZD and KP Series Systems use the same components and share the same UL Listings and
limits for the protection of the exhaust duct, plenum and dedicated appliance protection. They do not share
the same piping limitations or installation philosophy. This manual provides the unique limitations which apply
to a Zone Defense Fire Suppression System.
What is the basic difference between a KP and ZD System Philosophy?
The Amerex Zone Defense System was developed for the kitchen that changes out it's cooking appliances
frequently to accommodate the change in menu or cooks. The ZD System provides a detection system and
protection system which allows for the moving and rearranging of appliances without changing the fire
suppression piping or detection device locations. This is accomplished by using a detection network that will
detect a fire no matter where it occurs under the hood and will extinguish cooking appliances located
anywhere under the hood, as long as they are inside the "Zone of Protection". Also the appliances must be
capable of being extinguished from overhead. Appliances such as upright broilers, salamanders, covered
tilting skillets, chain feed pizza ovens, etc. are all appliances that cannot be extinguished from overhead, but
require specific nozzles with specific aiming for the individual appliance. The use of a "back shelf' over
appliances also will block the application of agent from overhead nozzles and therefore requires the use of
"Dedicated Appliance Protection" for an appliance with a back shelf.
The Amerex Kitchen Protection Fire Suppression System differs from the ZD System in the manner in which it
protects appliances and detects a fire under the hood. The KP System uses individual "Dedicated Appliance
Protection" for each appliance under the hood requiring protection. A choice of the fire detection method may
be a standard thermal link network or one of the two linear detection networks. (PRM or Linear Fusible Link).
The KP & ZD Series Systems have their distinct application use in the field of kitchen protection. They both
provide superior protection from the hazards of commercial cooking.
How do I obtain MSDS Sheets?
MSDS sheets may be downloaded for the Amerex Internet Website:
http://www.amerex-firecom/msds/msd/10
MSDS sheets may also be mailed to you by requesting them by phone or mail:
Amerex Corporation
7595 Gadsden Highway
P.O. Box 81
Trussville, AL 35173
Phone: 205/ 655-7602
December 2008 Section 1 General Information Page 1 -3
Amerex Restaurant Fire Suppression System (EX4658)
DEFINITION OF TERMS
ACTUATION NETWORK: Copper tubing, piping, hose, or combination of the three that allows nitrogen to be
supplied from the Mechanical Release Module or Pneumatic Release Module to the Agent Cylinder
Assembly(s).
AGENT CYLINDER I DISCHARGE VALVE: Pressurized vessel with valve assembly containing Amerex Wet
Chemical restaurant fire suppression agent and expellant gas (nitrogen/argon).
AUTHORITY HAVING JURISDICTION (AHJ): The organization, office or individual responsible for
"approving" equipment, an installation or a procedure. The phrase "Authority Having Jurisdiction" is used in
NFPA documents in a broad manner since jurisdiction and approval agencies vary as to their responsibilities.
Where public safety is primary, the "Authority Having Jurisdiction" may be a federal, state, local or other
regional department or individual such as a fire chief, fire marshal, chief of a fire prevention bureau, labor
department, health department, building official, electrical inspector or others having statutory authority. For
insurance purposes, an insurance inspection department, rating bureau or other insurance company
representative may be the "Authority Having Jurisdiction"; at government installations, the Commanding
Officer or departmental official may be the "Authority Having Jurisdiction".
AUXILIARY EQUIPMENT: Listed equipment used in conjunction with the Amerex Restaurant Fire
Suppression System to shut down: power, fuel and make-up air. Auxiliary equipment also operates
dampers, sound alarm signals or initiate fire alarm systems.
"BAG TEST": A means of testing agent distribution piping to guarantee that each nozzle is discharging equal
or proper amounts of agent. Upon completion of a system installation, bags are placed over each nozzle and
the system is fully discharged. These bags are then weighed and compared for proper agent distribution
according to the system design.
BLOW-OFF CAP: A cap (made of rubber or metal with a restraining strap) that covers the nozzle tip to keep
grease from plugging the orifice.
BRANCH DUCT: Ductwork for exhaust from a single hood or hazard to a common duct.
NITROGEN CYLINDER: A small, sealed steel cylinder containing nitrogen (refillable by distributor) used to
actuate the agent cylinder/discharge valve(s).
CABLE: 1/16" diameter stainless steel cable (7 x 7 strand, 480# tensile strength) used to connect detectors,
mechanical gas valves and manual pull stations to the MRM.
COMMON DUCT: Ductwork for exhaust from two or more separate hazards.
CONDUIT OFFSET: A factory formed section of conduit that allows the cable for manual pull stations, gas
valves and detectors to make a smooth transition into the Mechanical Release Module or Pneumatic Release
Module.
COOKING APPLIANCE: Includes but is not limited to ranges, fryers, griddles and charbroilers
CORNER PULLEY: A device used with the detection network, mechanical gas valve and manual pull station
which allows the cable to change direction 90° and still move freely for system operation.
DAMPER: A valve or plate located within a duct or its terminal equipment for controlling the flow of exhaust
gases and air. Damper's may also be present on cooking appliances.
DEDICATED APPLIANCE PROTECTION NOZZLE: A nozzle dedicated to the protection of a cooking
appliance with an enclosed cooking hazard, like an upright broiler, which cannot be protected with "zone of
protection" nozzles. Therefore, must be protected with nozzles explicitly listed for that appliance.
September 2009 Section 1 General Information Page 1 -4
Amerex Restaurant Fire Suppression System (EX 4658)
DETECTOR: (NFPA 96 "Electrical, pneumatic, thermal, mechanical or optical sensing instrument or sub
components of such instruments whose purpose is to cause an automatic action upon the occurrence of
some pre-selected event".): MRM or MRM II: For our purpose this is a thermal-mechanical device consisting
of a detector bracket, detector linkage and fusible link which will automatically actuate the fire extinguishing
system at a predetermined temperature. PRM: A pneumatic tube that will automatically actuate the fire
extinguishing system at a predetermined temperature will be used with the PRM.
DETECTION NETWORK: MRM or MRM II: A continuous cable run through EMT conduit, corner pulleys and
detectors that provide a mechanical input to the mechanical release module in order to actuate the system
automatically. PRM: A continuous run of pressurized thermal responsive tubing that provides a mechanical
input to the pneumatic release module in order to actuate the system automatically.
DETECTOR LINKAGE: The device that supports the fusible link on the cable.
DISTRIBUTION NETWORK: The piping network consisting of supply lines, supply branch lines and nozzle
branch lines that serve as a means to deliver agent from the agent cylinder/discharge valves through the
nozzles.
DUCT: A continuous passageway for the transmission of air and vapors which, in addition to the containment
components themselves, may include duct fittings, plenums and/or other items or air handling equipment.
ELECTRICAL CONTROL HEAD (ECH): A pneumatic assembly which, when connected to the Amerex SR-X
Releasing Control Panel, will open up to ten (10) Agent Cylinder / Discharge Valves via the activation of the
connected Electric Actuator.
FLOW POINT: The term used to describe the flow capacity of each nozzle. This information is used to
determine the number of agent cylinder/discharge valves required for a specific installation.
FUSIBLE LINK: A fixed temperature heat detection device used to restrain the operation of the Mechanical
Release Module until the detectors designed temperature is reached. At its designated temperature, the
fusible link will separate, releasing tension on the cable, causing the system to discharge.
GAS TRIP ASSEMBLY: A pneumatic device mounted in the MRM, MRM II or PRM, which upon system
actuation pulls the cable connected to the mechanical gas valve causing it to close and stop the flow of gas.
GAS VALVE: A mechanical or electrical valve used to shut off the supply of gas to the cooking appliances
when the fire suppression system discharges. Such devices are required by NFPA 96 and are to be listed
with the system components. Gas valves must be manually reset.
GREASE: Rendered animal fat, vegetable shortening, vegetable oils or any combination thereof, which is
used for, or the result of, cooking and preparing food. Grease may be liberated and entrained in exhaust air
or may be visible as a liquid or a solid.
GREASE FILTER: A component of the grease vapor removal system that deflects the air and vapors passing
through it in a manner that causes the grease vapor concentration and/or condensation for the purpose of
collection, leaving the exiting air with a lower amount of combustible vapor.
GREASE TIGHT: constructed and performing in such a manner as not to permit the passage of grease
under normal cooking conditions.
HOOD: A device provided for a cooking appliance(s) to direct and capture grease-laden vapors and exhaust
gases, and constructed within the requirements of NFPA 96.
INPUT: An event monitored by the Mechanical Release Module (MRM or MRM II) or Pneumatic Release
Module, which causes a corresponding output(s). (Example: A detector senses fire [input] and the system
discharges [output] and trips the gas valve [output]).
INSPECTION: A "quick check" to give reasonable assurance that the system has not been tampered with
and is in a charged, operable condition.
December 2008 Section 1 General Information Page 1 -5
Amerex Restaurant Fire Suppression System (EX 4658)
LISTED: Equipment, materials, components and parts included in a list published by an organization
acceptable to the AHJ (Authority Having Jurisdiction) and concerned with product evaluation, which maintains
periodic inspection of production of listed equipment or materials and whose listing states either that the
equipment or material meets appropriate standards or has been tested and found suitable for its use in the
specified manner. The listing may not be considered valid unless so labeled.
MAINTENANCE: A 'thorough check" to give maximum assurance that the extinguishing system will operate
as intended. Design parameters should be closely examined for hazard changes since the last inspection,
parts and components should be closely examined and tested or replaced if necessary.
MAKE-UP AIR: Air that is brought into the hazard from outside of the area, using a dedicated fan, to aid in
the exhaust of grease-laden vapors.
MANUAL PULL STATION: The device that allows the system to be manually discharged either at the hazard
or from a remote location.
MECHANICAL RELEASE MODULE (MRM I MRM II): An assembly that connects and controls the actuation
cartridge, the detectors, the manual pull station(s), the gas valve, the micro-switch(es) and the agent
cylinder/discharge valve(s). It receives inputs and activates appropriate outputs - including agent release,
auxiliary signals and power or gas shut-off.
SNAP ACTION SWITCHES: A set of dry (unpowered) electrical contacts arranged in various configurations
for initiating appropriate output functions such as signal to the building fire alarm, audible/visual remote signal,
electrical power shut-off, electric gas valve shut-off.
NOZZLE: The device used to deliver a specific quantity, flow and discharge pattern of fire suppression agent
to a specific appliance, duct size or plenum size.
NOZZLE BRANCH LINE: All pipe and fittings leading from the supply branch tee to a system nozzle.
OUTPUT: An action that is initiated by the mechanical release module in responding to a pre-determined
input. (Examples: Agent release, power shut-off, remote signal, gas valve closure)
PERIMETER INCHES: The sum of the measurement of each side of a rectangular duct opening. (Example:
Duct opening measuring 18" x 9" would have 54 perimeter inches [18 + 18 + 9 + 9 = 54])
PLENUM: The space defined by the filters and the portion of the hood behind the filters.
PNEUMATIC RELEASE MODULE (PRM): This single hazard control mechanism supervises and controls
one Fire Suppression System. Proven, rugged mechanical components are reliably set into motion with a
simple linear pneumatic detection interface. The control mechanism interfaces with mechanical manual pull
station(s), actuation networks, mechanical gas valves, and offers electrical contacts for shutdown functions.
Refer to the Design and Installation Manual, P/N 16546 for further details.
PRE-ENGINEERED SYSTEM: Those systems having pre-determined flow rates, nozzle pressures and
quantities of agent. These systems have the specific pipe size, maximum and minimum pipe lengths, flexible
hose specifications, number or fittings and number of types of nozzles prescribed by a testing laboratory. The
hazards protected by pre-engineered systems are specifically limited as to type and size by a testing
laboratory based on actual fire tests. Limitations on hazards that can be protected by these systems are
contained in the manufacturer's installation manual, which is referenced as part of the listing.
"PUFF TEST" (or "AIR TEST"): A test to determine that the distribution network piping is clear. The test is
conducted by running nitrogen through the piping and confirming that all nozzles are clear.
PULLEY TEE: A device similar to a corner pulley except there is a change in direction on the cable from two
manual pull stations or two mechanical gas valves. It unites either two gas valves or two manual pull stations
to a single control point.
December 2008 Section 1 General Information Page 1 -6
Amerex Restaurant Fire Suppression System (EX 4658)
SALAMANDER BROILER: See upright broiler
SAPONIFICATION: The reaction of fats and/or oils to alkaline materials, producing soap-like foam. Fire
extinguishing agents based on sodium bicarbonate, potassium bicarbonate, potassium acetate and potassium
carbonate will cause saponification when discharged onto hot grease. Rendered animal fat and oils containing
high percentages of saturated fat saponify better than cooking oils containing low percentages of saturated fat.
SERIES DETECTOR: Any detector located between the Mechanical Release Module (MRM or MRM II) and
the terminal detector.
SUPPLY LINE: That portion of the agent distribution network piping that runs from the agent cylinder
assembly outlet or distributor block to the first tee.
SUPPLY BRANCH LINE: All pipe and fittings leaving the first tee in the system and ending with the last
nozzle in the last nozzle branch line.
TERMINAL DETECTOR: The last detector (or only detector) in the detection network. It is at this point that
the cable for the detection network ends or is terminated.
TEST LINK: This device is used in place of a fusible link in order to easily test the detection network. The test
link is easily cut, simulating a fusible link separating under fire conditions. It is usually located on the terminal
detector and is used solely for test purposes.
UPRIGHT BROILER: A cooking appliance using intense radiant heat and conductive heat with the foot and/or
the radiant heat source not being limited for a horizontal mode. Most of these cooking appliances incorporate
a removable drip tray and may be used specifically for holding or warming foods.
VENT CHECK: A device installed in the actuation network that is used to safely relieve pressure and to
prevent a slow, unwanted build-up of pressure in the actuation network.
ZONE of PROTECTION - A horizontal foot print below and within the perimeter of the hood, in which the
cooking appliances are to be positioned. The discharge nozzles within the "Zone of Protection" are spaced at
pre-determined intervals to provide protection for eligible appliances within the "Zone of Protection" without the
need for re-aiming or repositioning of nozzles. An exception to this practice is for dedicated appliances such
as the upright broiler. Dedicated appliances require appliances specific nozzles protection, which will require
further review after movement of the appliance for possible re-aiming or repositioning of nozzle(s).
October 2013 Section 1 General Information Page 1 —7
Amerex Restaurant Fire Suppression System (EX 4658)
Revision Record
Page Revision Date
2-1 & 2-2 7-30-09
2-6,2-15 9-15-09
1-4 & 1-7 9-15-09
4-23 9-1 5-09
5-3 9-1 5-09
7-9 9-1 5-09
2-14,3-38 4-1-11
6-1to6-3 4-1-11
5-1to5-4 4-1-11
3-38A 4-1-11
1-2 6-1-11
2-2,2-3&4-2 10-1-11
4-24, 4-25 & 2-16 1-1-12
2-17, 3-33, 3-33A & 4-26 3-1-12
TABLE OF CONTENT 3-1-12
2-10 5-1-12
2-2, 3-21A, 4-2 10-30-13
SECTION 2
SYSTEM COMPONENTS
MANUAL P/N 20150
AMEREX
RESTAURANT
FIRE SUPPRESSION SYSTEM
Tested and Listed by
Underwriters Laboratories, Inc.
to UL Standard 300
Effective November 21, 1994
EX 4658
Tested and Listed by
Underwriters Laboratories of Canada
To ULCIORD 1254.6-1995
December 2008
July 2009 Section 2 System Components Page 2 - I
Amerex Restaurant Fire Suppression System (EX 4658)
SYSTEM COMPONENTS
AMEREX KITCHEN WET CHEMICAL AGENT is special formulated
7AMEREX potassium acetate based solution specifically designed for use on cooking KITCHEN grease and cooking oil fires. Amerex Kitchen Wet Chemical Recharge is CHEMICAL
shipped in plastic pails with each pail marked with date and batch code. AGENT
Shipping weight: PIN 16924 2.75 Gal. Pail —30 lbs. (13.6 kg) - CH547
P/N 12866 3.75 Gal. Pail - 42'/2 lbs. (19.277 kg) - CH544
PIN 17450 4.80 Gal. Pail - 51.24 lbs. (23.24 kg) - CH656
P/N 15416 6.14 Gal. Pail —67 lbs. (29.71 kg) - CH664
WARNING: AMEREX WET CHEMICAL AGENT IS A STRONG ALKALINE MIXTURE, SAFETY
GLASSES AND GLOVES SHOULD BE WORN WHENEVER HANDLING THE AGENT. CONTACT WITH
SKIN SHOULD BE AVOIDED. IN CASE OF DISCHARGE, THE SOLUTION SHOULD BE CLEANED UP
PROMPTLY TO AVOID DAMAGE TO APPLIANCES, HOOD AND DUCT, ALL FOOD IN CONTACT WITH
THE AGENT MUST BE DISCARDED. REFER TO THE AGENT'S MATERIAL SAFETY DATA SHEET.
AGENT CYLINDER ASY. CE MARK I EN3 - AGENT CYLINDER ASY.
MODEL 275 - (PIN 16921) MODEL 275 - (PIN 19434)
MODEL 375 - (PIN 13334) MODEL 375 - (PIN 16338)
MODEL 475 - (PIN 17379) MODEL 475 - (PIN 19435)
Model 275 -16921 U.S. METRIC
Height 23 5/8 in 60.0 cm
Diameter 9 in 22.9 cm
Weight Full 55 114 lb 25.06 kg
Capacity 2.75 gal 10.41 L
Model 375 -13334 U.S. METRIC
Height 24-13/16 in 63.02 cm
Diameter 10 in 25.4 cm
Weight Full 64-V2 lb 29.25 kg
Capacity 3.75 gal 14.2 L
Model 475 -17379 U.S. METRIC
Height 29 13/16 in. 75.7 cm
Diameter 10 in 25.4 cm
Weight Full 80 1/4 1b 36.4 kg
Capacity 4.80 gal 18.17L
Amerex 275 / 375 & 475 Agent Cylinder
Assemblies have 2.72 I 3.75 & 4.80 gallon
agent capacity respectively and are
shipped factory filled with Amerex Kitchen
Wet Chemical Agent. The cylinders are
pressurized with dry nitrogen or argon gas
to a pressure of 240 psi (1655 kPa) at 70 OF
(200C). The gas charge is the expellant gas
which discharges the wet chemical agent
through the distributor network.
The machined stainless steel discharge
valve is actuated pneumatically by the
Mechanical Release Module. The valve
assembly has a 1/4 inch NPT (female)
actuation port and a discharge adapter with
threads to accept a flexible discharge hose
or swivel adapter.
ITEM DESCRIPTION
I CAP W/CHECK VALVE
2 CAP NUT
3 0-RINGS (2)
4 PISTON
5 VALVE STEM ASSY
6 SPRING (S. S.)
7 RETAINER NUT
8 COLLAR 0-RING
9 VALVE BODY
10 240 PSI GAUGE
11 DOWNTUBE
10
October 2011 Section 2 System Components Page 2 - 2
Amerex Restaurant Fire Suppression System EX 4658)
375 CYLINDER MOUNTING BRACKET (PIN 16085)
The mounting bracket is used to secure the KP/ZD 375
Agent Cylinder Assembly to the mounting surface and to
connect the discharge valve to the distribution-piping
network. The bracket consists of a formed steel assembly
with vertical and horizontal supports and an integral pipe
thread adapter with 1/2 NPT threads. The pipe thread
adapter may be oriented to any convenient outlet position.
DISTRIBUTION HOSE (PIN 13069)
The distribution hose is used to connect the agent cylinder
assembly to the distributor block (P/N 13105). The supply
line is connected to the distributor block (included with
cylinder mounting bracket).
375 AGENT CYLINDER BRACKET (PIN 17690)
The mounting bracket is used to secure the KP/ZD 375 Agent Cylinder
Assembly to the mounting surface. The bracket assembly comes with a
S.S. belly strap and a swivel adapter for connection of the valve outlet to
the piping network. The bracket is made from formed carbon steel metal
and dry painted red.
MODELS 275 I 375 & 475 CYLINDER
MOUNTING BRACKET(PIN 16920)
The 275 I 375 & 475 Mounting Bracket is used to secure the Models 275/ 375 &
475 Agent Cylinder Assembly to the mounting surface. The Cylinder Mounting
Bracket is made from 1/8" thick formed steel and painted red to resist corrosion.
The assembly comes with a stainless steel belly strap and a Swivel Adapter for
connection to the cylinder valve outlet.
SWIVEL ADAPTER (P/N16901)
The Swivel Adapter connects the distribution piping
19
—
1/2 NPT to the valve outlet.
AGENT CYLINDER ASSEMBLY
MODEL 600 (PIN 15196) CE MARKIEN3 MODEL 600 (PIN 16339)
Amerex MODEL 600 - 6.14 Gallon Capacity - Agent Cylinder
Assembly is shipped factory filled with Amerex Kitchen Wet Chemical
Agent. It is pressurized with dry Nitrogen or argon gas to a pressure of
240 psi (1655 kPa) at 70°F (20°C). The nitrogen charge is the expellant
gas which discharges the KP agent through the distribution network.
Cylinders are shipped from the factory with a shipping plate installed on
the top of the valve to prevent accidental discharge and an anti-recoil
plate on the valve outlet to redirect chemical flow should an accidental
discharge occur. BOTH OF THESE PLATES MUST BE REMOVED
AT INSTALLATION.
KP600 Agent cylinders are DOT 4BW240, tested to 480 psi (3309
kPa) and require a hydrostatic test every twelve (12) years. The
operating temperature of this and other listed components is 32°F to
120°F (0°C to 490C). The machined, forged brass discharge valve is
actuated via a pneumatic actuator. The Mechanical Release Module
supplies the N2 required for actuation of one (1) to six (6) KP600
Agent Cylinder Assemblies.
PIN 15196 U.S.METRIC
Height 27.59 in 70.08 cm
Diameter 12 in 30.5 cm
Weight full 114 lb 51.70 kg
Capacity 6.14 gal 23.2 liter
October 2013 Section 2 System Components Page 2— 3.
Amerex Restaurant Fire Suppression System (EX 4658)
MODEL 600 CYLINDER VALVE ASSEMBLY (PIN 15060)
The Cylinder Valve Assembly is made with a
body which has been electrolysis nickel plated.
stem is made of stainless steel with plated parts
has a 240 psi pressure gauge protected by a p
brass gauge guard. The valve controls agent dis
spring loaded, internal sealing valve stem th
depressed from the top of the valve to in
discharge.
ITEM DESCRIPTION PART NO.
I Gauge-240 PSI 12402
2 Downtube Assembly 15195
3 Spring 10097
4 Valve Stem Assembly 15063
5 Washer - Stainless Steel 10102
6 Screw 10732
7 0-ring 10733
MODEL 600 CYLINDER MOUNTING BRACKET
(PIN 15166 - DISCONTINUED)
(PIN 21583 - DISCONTINUED)
(P/N 23184- NEW)
The mounting bracket is used to secure the
Agent Cylinder Assembly to the mounting
surface. The bracket consists of a steel
mounting base and stainless steel belly
strap. The base is attached to the wall by
appropriate means via three holes down the
spine or any combination using three holes.
A stainless steel worm gear strap is
provided to hold the cylinder against the
back of the bracket.
The discharge fitting kit consists of a brass
fitting with an 0-ring on one end, % NPT
male pipe threads on the other and a
stainless steel retaining flange for locking
the fitting into place. One discharge fitting
kit is required for each KP600 Agent
Cylinder Assembly.
MODEL 600 PNEUMATIC ACTUATOR (P/N 10147)
A pneumatic actuator is required for every KP600 Agent Cylinder
Assembly. The actuator is bolted directly to the top of the agent
cylinder discharge valve. When actuation occurs at the MRM I
MRM II or PRM, the pneumatic pressure from the nitrogen cylinder
enters the actuator through 14 NPT threaded ports on either side.
The actuation pressure forces the piston inside to extend and
depress the valve stem of the discharge valve. The piston extends
through a retainer washer which allows a spring loaded ball plunger
to extend and lock the piston in its extended position. Resetting is
easier than the previous discontinued Actuator P1N15157.
OCHNG BALL
LUNGER
SPRING CAM
December 2008 Section 2 System Components Page 2 —4
Amerex Restaurant Fire Suppression System (EX 4658)
MECHANICAL RELEASE MODULE II (MRM II)
PIN 18000: MRM II with Red-painted Steel Enclosure
P/N 18001: MRM II with Stainless Steel Enclosure
The new MRM II combines the same features and
functionality as the original MRM along with increased
detection capabilities and a far simpler means of
setting the detection cable tension. The MRM II is
available in the above configurations, now pre-
installed in its own enclosure.
The method of setting the detection cable tension on
the MRM II does not require the use of any tools (once
the cable is locked down into the large, knurled wind-
up spool). A large lever to the right of the spool is
used to increase the cable tension. Alignment of the
bottom edge of the lever with markings on a label on
the mounting plate indicates when the proper tension
has been achieved. In addition to being easier to set
up, lowering cable tension to change out detection
links is now also much simpler. The enclosure is 10"
Wide x 5" Deep x 11 %" High.
MECHANICAL RELEASE MODULE II - (P/N 11977)
WITHOUT AN ENCLOSURE
NOTE: This version of the MRM II is a direct replacement for
the old style MRM. It carries the same part number as the
original MRM.
The Mechanical Release Module II is used to actuate the agent
cylinder discharge valve either automatically or manually by
puncturing a nitrogen cylinder.
Automatic release of agent is accomplished when a fusible link
detector separates during a fire condition. This causes a spring-
loaded plunger to perforate the rupture disc and releases nitrogen
through the actuation hose/piping network to the agent cylinder
discharge valve(s).
Manual release of agent is accomplished by pulling on a manual
pull station which is connected to the Mechanical Release Module
II by a cable.
The Mechanical Release Module II is equipped with two snap
action switches, one (P/N 12524) for electrical signaling, power
shutdown and other auxiliary functions and a second (P/N 18312)
alarm initiating snap action switch for connection to a fire alarm
panel. An additional two snap action switches may be added.
Operation of one or two mechanical gas valves may be
accomplished by adding a Gas Trip Assembly (PIN 12740).
The cable for the gas valves, manual pull stations and detection network
may be attached to the MRM 11 from ether of two sides (top or bottom).
Gas Trip Asy - 12740
August 2012 Section 2 System Components Page 2 - 5
Amerex Restaurant Fire Suppression System (EX 4658)
PNEUMATIC RELEASING MODULE - (PRM)
(P/N 16547 - PAINTED RED)
(P/N 16795 - STAINLESS STEEL)
This single hazard control mechanism supervises
and controls a Fire suppression system. Proven,
rugged mechanical components are reliably set into
motion with a simple linear pneumatic detection
interface. The control mechanism interfaces with
mechanical manual pull station(s), actuation
networks; mechanical gas valves, and offers
electrical contacts for shutdown functions. A low
pressure switch is provided for connection to an
alarm panel and/or the optional low pressure
indicator. Supplied with the PRM are an End of
Line Fitting and two sealing balls. H H
Optional Tubing Exit
Dimensions:
15" tall
17" wide
5.02" deep
PRM TUBING SUPPORT CLIP (P/N 16501)
The Tubing Support Clip is used in the pneumatic
detection network to provide a means of support for the
pressurized thermal responsive tubing. A Tubing Clip is
required for every 18" of tubing. A Tubing Clip is also
required within one inch of the End of Line Fitting.
PRM DETECTION TUBING -1/4" DIAMETER
PIN 16557 - 25'
PIN 16551 - 501
PIN 16556— 75'
P/N 16579- 100'
P/N 16552 - 150'
PIN 16554— 300'
Pressurized thermal responsive tubing provides a mechanical
movement via loss of pressurization anywhere along its entire
length that results in system actuation.
.25" DIAMETE
HOI
PRM END OF LINE FITTING (P/N 16506)
The "End of Line Fitting" is installed at the end of the
pneumatic detection network. The sealing ball must be
installed in the tubing at the End of Line Fitting. One
End of Line Fitting and two Sealing Balls are supplied
with each PRM.
ACTUATION COPPER TUBING
(50' COIL - P/N 22278)
%" O.D. x 0.049 wall thickness copper tubing
Use this tubing to connect the MRM or PRM to the
actuation port of the agent cylinder. Fittings used with
tubing are to be brass or steel compression style fittings.
ff
NITROGEN
CYLINDER
Part No. 12856
Diameter 1.998 in 5.07 cm
Length 63/8 in 16.19 cm
Pressure @
70°F
1800 PSI 12411 kPa
Part No. 09956
Diameter 1.998 in 5.07 cm
Length 9.44 in 24 cm
Pressure@
70°F
1800 PSI 12411 kPa
September 2009 Section 2 System Components Page 2 —6
Amerex Restaurant Fire Suppression System (EX 4658)
NITROGEN ACTUATION CYLINDER:
10 in N2 Actuation Cylinder (PIN 12856)
15 in N2 Actuation Cylinder (PIN 09956)
The N2 Actuation Cylinder supplies nitrogen gas pressure to the
Agent Cylinder Discharge Valve through the actuation network for the
purpose of opening the Agent Cylinder.
The 10 in N2 Actuation Cylinder, PIN 12856, is charged to 1800 psig
(12410 KPa) at 70°F (21°C) and contains enough nitrogen to actuate
up to ten total of Models 275 1 375 1 475 Agent Cylinders Assemblies
in any combination OR a total of six Model 600 Agent Cylinders
Assemblies OR a total of six Agent Cylinders when the mix contains
at least one Model 600 Agent Cylinder Assemblies.
The 15 in N2 Actuation Cylinder, P/N 09956, is charged to 1800 psig
(12410 KPa) at 70°F (21°C) and contains enough nitrogen to actuate
up to ten total of Models 275 I 375 I 475 & 600 Agent Cylinders
Assemblies in any combination.
A maximum distance of 100 feet (21.3 meters) to the last control head
is possible when using the specified copper tubing. Pressure is
retained in the N2 Actuation Cylinder by a gold plated rupture disc.
Replacement rupture discs are available, P/N 09958. Only genuine
Amerex rupture discs may be used when recharging Nitrogen Actuation
Cylinders. Proper charge pressure is indicated by a pressure gauge located
on the cylinder's bottom and protected by an impact resistant plastic gauge
guard. The N2 Actuation Cylinder is shipped fully charged from the Amerex
factory with a protective shipping cap installed on the outlet threads. The
cap must be removed at installation but must remain in place at all other
times. (Retain the shipping cap to reuse when recharging the N2 Actuation
Cylinders.) Construction of the N2 Actuation Cylinder is per DOT 3E. The
cylinder is rechargeable by certified Amerex installers and does not require
periodic hydro-testing. The 10 in Nitrogen Actuation Cylinder may be
used in the MRM, MRM II or PRM. The 15 in Nitrogen Actuation Cylinder
may be used only with the ECH.
CABINET (PIN 11978)
Stainless steel cabinets are available for single cylinder systems. The
cabinet will house one model 275 or 375 Agent Cylinder Assembly, the agent
cylinder mounting bracket and a Mechanical Release Module which are
purchased separately.
P/N 11978 U.S. Metric
Width 20 1/2 52.07 cm
Depth 10 %11 27.3 cm
Height 26 %" 66.68 cm
275 1 375 1 475 CYLINDER ENCLOSURE (PIN 16814)
Stainless steel enclosure is available for a single model 275 / 375 / 475 Agent Cylinder
Assembly. The enclosure will house a 275 I 375 I 475 Agent Cylinder Assembly and
does not require the use of a cylinder mounting bracket nor a distributor. The
enclosure includes a swivel adapter for connection of the cylinder to the discharge
piping.
PIN 16814 U.S. Metric
Width 14" 35.6 cm
Depth 11" 27.9 cm
Height 26 1/4' 66.68 cm
DISCHARGE NOZZLES
There are seven (7) types of nozzles listed for
use with the Amerex KP/ZD Fire Suppression
System. Each has a specific flow rate and
discharge pattern. Correct installation,
coverage and limitations of each nozzle are
listed on the "Nozzle Application Chart" in
Section 3, "DESIGN" of this manual.
December 2008 Section 2 System Components Page 2 - 7
Amerex Restaurant Fire Suppression System (EX 4658)
ACTUATION HOSE (PIN 12854) -16" 16
ACTUATION HOSE (P/N 16448) - 32"
APPLIANCE PART NO FLOW 1/4 -NPT
TYPE POIN IfSTH, VARKINGS,
Fryer& 13729
Griddle 13729 2 2 x FG
Appliance& 11982
Plenum 11982 1 1x38
Solid fuel 11983
Char-broiler 11983 1.5 1 x55
Upright Broiler 11984
11984 1hea. .05x71
Range 14178
(4 Burner) 14178 2 2 x R
Duct 16416 1 16416 1 x D
Back Shelf 16853 1/3 16853
Nozzle 1/3xBS
To aid in the installation of systems, an
OPTIONAL actuation hose is available. This 16"
or 32" hose connects the MRM
(Mechanical Release Module), MRM Il or
PRM (Pneumatic Release Module)
actuation port to the top of the Agent
Cylinder Discharge Valve(s).
One Piece Internal Snap
Body & Tip Filter Ring
NOZZLE SWIVEL ADAPTER (PIN 16440)
The swivel adapter (P/N 16440) is an option offered
to aid the installation and aiming of the system
nozzles. The adapter is composed of three parts -
the body, swivel adapter, and retainer nut. All
nozzles may be used with the swivel adapter without
any change in the nozzle's listing.
Swivel Adapter \ Retainer Body Nut
Iff flff
Swivel
Adapter
NOZZLE CAPS
NOZZLE PN 13729
5 RINGS NOZZLE PN 11982
2 RINGS
flor I &_ `-, - -2
NOZZLE PN 11984 NOZZLE PN 14178
4 RINGS I GROOVE
-flo -19
THHH
NOZZLE PN 11983 NOZZLE PN 16416
3 RINGS NO GROOVE & NO RINGS
Nozzle P/N16853
3/8 NPT
Two types of nozzle caps are available for the Amerex
KP/ZD Fire Suppression Systems. The Standard Cap
(P/N 12334) is provided with every nozzle assembly. This
cap can be used in environments not exceeding
temperatures of 350°F (176.6°C). Where exposures to
temperatures exceed 350°F (176.6°C) the High
Temperature Nozzle Cap must be used (P/N 12504).
High Temperature Cap
P/N 12504
Rio
Standard Cap
P/N 12334
December 2008 Section 2 System Components Page 2 - 8
Amerex Restaurant Fire Suppression System (EX 4658)
DETECTOR BRACKET ASSEMBLY (P/N 12508)
Each detector bracket in the Amerex Kitchen Fire
Suppression System is comprised of three parts the
detector bracket, detector linkage and two EMT fittings.
The fusible link is ordered separately. The bracket serves
as support for the linkage and is attached to a rigid
surface. The linkage supports the fusible link and a
continuous cable run under tension. At a predetermined
temperature the fusible link will separate, relieving tension
on the cable and actuating the system.
10"
(25.4 cm)
4EI 0 O~-
Fusible link not included with detector
This manual will refer to series and terminal detectors. There is no difference in part numbers or dimensions
between series and terminal detectors. A terminal detector is the last or only detector in the network and the
cable must be "terminated" there. A series detector is any detector located between the terminal detector
and the mechanical release module in the detection network. C.hIA Terminal Fnrl
13110
TEST LINKS (PIN 12891)
Test links are available for conducting functional tests of the detection
system. This device fits the detector linkage in the same manner as the
fusible link, is normally placed on the terminal detector and can be cut,
simulating a fusible link separating under fire conditions. P/N 12891
13/64" Dia
Mounting
Holes
12309
PIN 12309
j P/N 16444
CORNER PULLEY (P/N 12309)
The Amerex Kitchen Fire Suppression System uses a "high temperature"
corner pulley to change direction of the cable by 900. This corner pulley
may be used in environments with temperatures up to 700°F (371°C).
Mounting holes are provided for anchoring the corner pulley where
allowed by local codes.
CORNER PULLEY (P/N 16444)
The Amerex Kitchen Fire Suppression System also use a "high temperature"
compression corner pulley to change direction of the cable by 90°. (This
compression corner pulley [Brooks Model CP5] allows complete assembly of
conduit and corner pulleys prior to installing the cable).
PULLEY TEE (P/N 12506)
A pulley tee is used to change the direction of two cables by 900. This
device can be used with mechanical gas valves and manual pull stations
but not fusible link detectors. It cannot be used where temperatures
exceed the range of 320 - 120°F (00 - 490C).
CABLE (P/N 12553)
'v7
P/N 12506
4 ~
Cable is used to run from the MRM, MRM II or PRM, through conduit and corner pulleys to detectors,
mechanical gas valves or manual pull stations. It is 1/16 inch diameter, stainless steel (7 x 7 - 480# tensile
strength) - available in 500 foot (152 m) spools (P/N 12553).
EYEBOLT SUPPORT (P/N 17520)
Eyebolt supplied with one Hex. Nut used to lock the eyebolt into finial
position. Eyebolt is used to support bare cable run in plenum of the
hood in a Linear Fusible Link Detection System.
Job Quick Response Link
Load Limit: 1 to 55 lb.
EXPOSURE LIMIT..
Part
No.
Link
Rating
Max. Ambient
Temperature
12326 212°F 100°C 150°F 66°C
12327 280°F 138°C 225°F 107°C
12328 360°F 182°C 300°F 149°C
12329 450°F 232°C 375°F 191°C
Temperature and year of manufacture
are stamped on each link.
December 2008 Section 2 System Components Page 2 - 9
Amerex Restaurant Fire Suppression System (EX 4658)
JOB LINKS
Four temperature ratings of the Job Links are available. They are
constructed of two metal struts held intension by a small, glass bulb that
ruptures at the appropriate temperature rating. The detector bracket
(P/N 12508) will support either the Globe Type 'K' fusible links or the
Job links, and the same detector limitations apply for both types of
detector.
Part No.
Response
Type Link Rating
Max. Ambient
Temperature
16226 Quick 286°F 141°C 225°F 107°C
16227 Quick 360°F 182°C 300°F 149°C
16445 Quick 450°F 232°C 375°F 191°C
16446 Quick 500°F 260°C 425°F 218°C
CX P_ :' _- 010 b U Li
Li OM c) LJE 0 < E'-" 1po
Globe Type "K"
Load Limit: Maximum Load - 50 lbs. (22.68 Kg)
Minimum Load -3 lbs. (1.37 Kg)
CONDUIT OFFSET (PIN 12507)
The conduit offset is used to allow a smooth transition for cable runs
into or out of the MRM, MRM II & PRM without using pulley elbows. It
may be used with the detection network, manual pull stations or
mechanical gas valve actuation network. The use of this device does
not reduce the maximum number of corner pulleys allowed in the
system. THE CONDUIT OFFSET MAY ONLY BE ATTACHED TO
THE ENCLOSURE OF EITHER THE MRM, MRM II OR THE PRM.
FUSIBLE LINKS
Four temperature ratings of fusible links are available.
They are of the electric solder type link which will melt at
a predetermined temperature allowing the two halves of
the link to separate.
FUSIBLE LINK TERMINATION KIT (PN 17515)
The kit consists of four major components, their part
numbers and quantities per kit are provided in the
table. The kit contains the necessary cable segments
and hardware for the beginning and end termination of
the Linear Fusible Link Detection network.
QTY. . DESCRIPTION
I EMT CONDUIT CONNECTOR 1/2"
1 CABLE SEG. - MRM TO lb LINK —30 FEET
I CABLE SEG. - LINK TO TERMINATION
I HANDY BOX - % CONDUIT BOX
MRM TO 15T LINK
24 HLS
/ LINK TO TERMINATION
CABLE SEGMENT - LINK TO LINK 24"! 12" CENTERS
PN17354 - 24" CENTERS
-12" CENTERS PN19155
The Link to Link cable segment PN17354 insures that the LINK TO LINK
links in the linear fusible link detection system are spaced at the maximum 24" centers to center distance.
The Link to Link cable segment PN19155 places links 12" apart center to center. It will assist in locating links
in the hood duct opening when the two ducts are an odd distance apart.
—5k" -
(13.34 cm)
OR
PULL PIN1 THEN PULL HANDLE
LHOOD YSTE 4 WILL DlSChAdE)
LOCK WASHER //GASKET SEAL
NUT ADAPTER BODi
LOCK WASHER ASKET SEAL
NUT
May 2012 Section 2 System Components Page 2 - 10
Amerex Restaurant Fire Suppression System (EX 4658)
MANUAL PULL STATION (PIN 11993)
Every Amerex Kitchen Fire Suppression System must use
at least one Manual Pull Station. This device provides a
means of discharging the system manually. Manual Pull
Stations should be located in a PATH OF EGRESS and
mounted at a height conforming to the local code
requirements. The Manual Pull Station may be recessed
or surface mounted, see "Installation", Section 4, Page 11
for details.
MANUAL PULL STATION ADAPTER KIT (PIN 14193)
(for use with manual pull station PIN 11993)
When recessing the manual pull station the adapter
kit compensates for the additional wall thickness and
provides an oversized cover for the wall opening.
MANUAL PULL STATIONS (OVERSIZED - PIN 14320)
This Manual Pull Station is to be recess mounted. The
oversized cover is large enough to cover sheetrock access
hole for the standard 4" octagonal box and remain
attractive and functional. Manual Pull Stations should be
located in the path of egress and mounted at a height
conforming to the local Authority Having Jurisdiction.
MANUAL PULL STATION (COMBO PACK)
(ENG. — P/N 21481)
(ENG. I FRENCH - PIN 22117)
(ENG. I SPANISH - PIN 22116)
This Manual Pull Station may be either surface or recess
mounted. The oversized cover is large enough to cover the
sheetrock access hole for the standard 4" octagonal box and
remain attractive and functional. Manual Pull Stations should
be located in the path of egress and mounted at a height
conforming to the local code requirements.
rI -
In Cos
Iof F
ire
J
3 5/8'
(965 cm)
Pull Pin
hen Pull Hand
-
I
35/8"
(9.65 cm)
R*,d
"QUICK-SEAL" ADAPTER
(3/8" pipe - PIN 12276 - HOLE SIZE 1118" DIA.)
(1/2" pipe — P/N 14204 — HOLE SIZE 1 1/8" DIA.)
1" pipe - P/N 18252 - HOLE SIZE 1 518" DIA.)
This listed mechanical bulkhead fitting produces a liquid tight
seal around distribution piping where the piping penetrates
hoods or ducts. The "quick-seal" adapter is available in 3/8" and 1/2"
NPT.
"COMPRESSION SEAL" ADAPTER
(3I8" pipe — P/N 12510 - HOLE SIZE I 1/8" DIA.)
(1/2" EMT - PIN 12512 - HOLE SIZE 1 1/8" DIA.)
The compression seal adapter is a "listed mechanical bulkhead" fitting
that produces a liquid tight seal around pipe or conduit when making
penetrations in a hood or duct. Unlike the quick-seal adapter, the
compression seal adapter is not threaded to accept pipe and does not
require conduit or pipe to be cut or threaded. It is available in 3/8" and
1/2" sizes.
HOLE PLUG & SEAL
August 2012 Section 2 System Components Page 2 - 10A
Amerex Restaurant Fire Suppression System (EX 4658)
"QUICK-SEAL" COMPRESSION FITTING
(1/4" TUBING - P/N 16502 - HOLE SIZE 5/8" DIA.)
This listed mechanical bulkhead fitting produces a liquid
tight seal around the detection tubing where the tubing
penetrates the hoods.
"QUICK-SEAL" CORNER PULLEY ADAPTER
(EMT THREAD - P/N 22279 - HOLE SIZE 1 1/8" DIA.)
This listed mechanical bulkhead fitting provides
a close connection to a CP5 corner pulley. The
close coupling of the two assist in alignment of the
conduit run to a detection bracket.
"QUICK-SEAL" HOLE PLUG & SEAL
(P/N 22280 - FOR HOLE SIZES 1 1/8" TO 13/8" DIA.)
This listed mechanical bulkhead fitting is used to
seal unwanted holes in the exhaust hood. Good
looking and effective in preventing the loss of grease
laden vapors into the kitchen.
QUICK-SEAL ADAPTER - P/N 22280
CP5 CORNER PULLEY-P/N 16444
Part Size Manufacturer
12870 %in.
ASCO
12871 1 in.
12872 1 %in.
12873 1 1/2 in.
12874 2in.
12875 2%in.
12876 3m.
December 2008 Section 2 System Components Page 2 - 11
Amerex Restaurant Fire Suppression System (EX 4658)
AMEREX MECHANICAL GAS SHUT-OFF VALVE
All Amerex Kitchen Fire Suppression Systems protecting gas-fired cooking appliances must use a gas shut-
off valve listed for use with the system. The Amerex Mechanical Gas Valves are held open with a latching
device. Upon system discharge a piston in the MRM, MRM II or PRM will pull on a cable connected to the
latch in the gas valve actuation box, releasing the latch and allowing the gas valve spring to close the valve.
These valves are considered to be 'Normally Closed - Held Open". The valve bodies are made of brass and
threaded with female NPT threads on both ends and are UL listed for natural gas and propane in 3/4", 1", 11/4,
1%", and 2" sizes. The Gas Trip Assembly PN12740 is included with all Amerex Gas Valves.
Part No. Size A B Pressure
12790 %in. 105/l6in.
(26.194 cm)
3%in.
(9.525 cm) 10 PSIG 12791 1 in.
(69 kPa)
12792 1% in. Max.
119/16 in.
(29.369 cm)
47/8 in.
(12.383 cm) 12793 1 % in.
12794 2in. 12%in. 6in.
(31.75 cm) (15.24 cm)
ELECTRIC GAS SHUT-OFF VALVES
Electric gas shut-off valves operate on 110 VAC
current which powers a solenoid holding the valve
open against a spring. Upon system discharge
current to the solenoid is interrupted by a micro switch
in the MRM, MRM II or PRM causing the valve to shut.
A loss of electrical power will also cause an electrical
gas valve to close. A Manual Reset Relay must be
used with each electric gas valves. UL listed sizes are
3,4, 1", 1 1/4 11/2, , 3 •
MANUAL RESET RELAY (PIN 12526)
Anytime an electrical gas valve is connected to an Amerex Kitchen Fire
Suppression System, a Manual Reset Relay must be used. After an
electrical gas valve has closed (either because of system discharge or
because of power failure), the gas valve cannot be opened without
manually pressing the reset button on the Manual Reset Relay. This
operation is to guard against a momentary loss of power closing the valve,
extinguishing the pilot lights and allowing gas to escape when power is
restored. The Manual Reset Relay is UL listed and has a pilot lamp to
indicate its status.
DESCRIPTION: MANUAL RESET RELAY
CONTACT CONFIGURATION: DOUBLE POLE, SINGLE THROW
MINIMUM CONTACT RATING: MTR LOAD = 8 AFL, 48 ALR, 120 VAC
RES LOAD = 8A, 120 VAC
PILOT DUTY 120 VA, 120 VAC
December 2008 Section 2 System Components Page 2 - 12
Amerex Restaurant Fire Suppression System (EX 4658)
MECHANICAL GAS VALVE KIT (PIN 13622)
The Amerex Gas Valve Kit provides a means of converting a standard release to close" ASCO gas shut-off
valve to a "pull to close" type gas shut-off valve that has been listed with the system. The gas valve is held
open by a latching device. Upon system discharge a piston in the Mechanical Release Module will pull on a
cable connected to the latch on the gas valve, release the latch and allow the spring in the gas valve to close
the valve. The kit must be used with the ASCO valves listed here to complete the UL listing of the Amerex
Kitchen Fire Suppression system, ASCO valves are purchased separately. See Section 4, Page 17 & 18 for
installation instructions.
NOTE: PIN 13622 ASCO Mechanical Gas Valve Kit is sold separately from the Gas Valve. A gas trip
assembly, P/N 12740, is also required when using any of these valves.
APPLICATIONS
Amerex Part No. ASCO Part No. Size
13772 HV216-585-1 3/4"
13773 HV216-585-2
13774 HV216-585-3 1%"
13775 HV216-585-4 1%"
13776 HV216-585-5
F
This automatic gas
alve is connected to an
AMEREX KP RESTAURANT
FIRE SUPPRESSION SYSTEM.
Do not make any electrical
connections inside this box.
Contact your AUTHORIZED
AMEREX DISTRIBUTOR
for service.
AMEREX CORP.
LABEL P.O. BOX 81
P/N 13628 TRLISSV1LLE, AL 35173
ASCO Gas Shut-Off Valves must
be purchased separately
APPLICATIONS____________
Ansul Part No. Size
Max. Operating
Pressure
55598 3/4"
10 PSI
(69 kPa)
2"
55601 1"
55604 1%11
55607 1W
55610
December 2008 Section 2 System Components Page 2 - 13
Amerex KP Wet Chemical System (EX 4658)
ASCO MECHANICAL GAS VALVES
All Amerex Kitchen Fire Suppression Systems that protect any gas
fired cooking appliance must use a "pull to close" type gas shut-off
valve, which is listed with the system. The valve is held open with a
latching device. Upon system discharge a piston in the gas trip
assembly (sold separately) will pull on a cable connected to the latch
on the gas valve, release the latch and allow the spring in the valve
to close the valve. The ASCO gas shut-off valves approved for use
with Amerex Kitchen Fire Suppression Systems are listed below with
appropriate part numbers. See "Installing a Mechanical Gas Valve"
in the Installation section for instruction on installation.
Note: PIN 12740 Gas Trip Assembly must be purchased separately.
APPLICATIONS
Amerex
Part No. ASCO Part No. Size
13777 JV216-587-2 3/4'
13778 JV216-587-3
13779 JV216-587-4 11/4"
13780 JV216-587-5 1%"
13781 JV216-587-6 *13782 JV216-587-7 21/2"
*13783 JV216-587-8
*Item in stock at Amerex - Trussville, AL
ANSUL MECHANICAL GAS SHUT-OFF VALVES
All Amerex Kitchen Fire Suppression Systems that protect
any gas fired cooking appliance must use a "pull to close"
type gas shut-off valve. The valve is held open with a
latching device. Upon system discharge a piston in the
gas trip assembly will pull on a cable connected to the
latch on the gas valve, release the latch and allow the
spring in the valve to close the valve. Ansul's mechanical
gas shut-off valves are suitable for use with Amerex
Kitchen Fire Suppression Fire Suppression system.
These valves, when used in conjunction with PIN 12740
Gas Trip Assembly, perform the same functions as
Amerex's gas shut-off valves. The part numbers of the
valves acceptable for this use are listed below. They are
intended to be installed using the same installation
instruction as Amerex's gas shut-off valves; see Installing
a Mechanical Gas Valve in the installation section for
instruction on installation.
NOTE: P/N 12740 gas trip assembly must be purchased
separately.
COMMON -
LEADS SOLDERED IN PLACE
April 2011: : Section 2 System Components Page 2 - 14
Amerex Restaurant Fire Suppression System (EX4658)
SNAP ACTION SWITCH (P/N 12524)
Snap Action Switch, designed to be mounted in the MRM / MRM Ill PRM, are used to control various output
functions. These output functions may involve turning off or turning on power. Examples of output functions
are sounding a visual or audible alarm, operate an electrical gas valve, send a signal to an unsupervised
building fire alarm system, shut off supply air fans and energize a relay to shut off electrical appliances. Two
SPDT snap action switches, one PN12524 and one PN 18312, are pre-installed in the MRM, MRM II and
PRM. Up to 2 additional SPDT switches may be added for a total of our configurations - SPDT, DPDT,
3PDT and 4PDT.
SNAP ACTION SWITCH
SINGLE POLE
DOUBLE THROW
P/N 12524
I Red I Common I I
I I I Non Alarm I I Condition I Yellow N.O.
Black N.C.
ALARM-INITIATING SNAP ACTION SWITCH (P/N 18312)
One alarm initiating Snap Action Switch, (P/N 18312), is pre-
installed and is used when the system is required to be
electrically connected to a fire alarm system per NFPA 17 and
NFPA 72 in a supervised, four-wire manner. It is designed to
be mounted in the Mechanical Release Module (MRM I MRM II)
and the Pneumatic Release Module (PRM) only for the purpose
of initiating an alarm in a supervised fire alarm system. All
Snap Action Switch connections are to be made outside the
MRM / MRM II I PRM in an approved junction box. This is a
SPST; 0.25A; 30 VDC; N.O. switch.
VENT PLUG (PIN 10173)
The vent plug is required in the system actuation network to allow a
means of relieving pressure in the actuation piping after a system
discharge, and to prevent a slow build-up of pressure in the actuation
line.
NORMALLY OPEN-
LEADS SOLDERED IN PLACE
120 VAC Horn & Strobe (P/N 21396)
The Horn & Strobe Assembly is provided for use when visual and
sound warnings are required at system actuation. The unit requires
the use of a 4" square (10.16cm sq.) x 2 1/8" (5.5cm) deep back-box
with 1/2 conduit entrance on the top of the box. This device is to be
used with 120 VAC power supply and may be used inside or
outside. Refer to installation and setup instructions supplied with
each unit.
September 2009 Section 2 System Components Page 2 - 15
Amerex Restaurant Fire Suppression System (EX 4658)
ELECTRICAL CONTROL HEAD (ECH) PIN 19352
The ECH is to be used in cases where electrical
detection is desired or required, due to physical hazard
size or other design considerations. This control head
replaces the ERM which has been discontinued. Other
components that are necessary to complete an
installation with the ECH are as follows (but not limited
to):
PIN 19347 Nitrogen Actuation Cylinder
PIN 09956 15 in3 Nitrogen Cylinder
PIN 17014 Electric Actuator
P/N 19340 Releasing Panel, SR-X
P/N 17001 Manual Actuation Button optional)
PIN 17839 Cap Electric Actuator (optional)
An installed ECH has the capability of pneumatically
firing up to ten (10) Amerex Restaurant Agent Cylinder
Assemblies. Manual actuation can be accomplished
with the optional P/N 17001 Manual Actuation Button
installed on top of the P/N 17014 Electric Actuator,
and/or with Amerex Electric Pull Station(s) connected to
the Amerex SR-X Releasing Panel.
See the relevant sections of this manual for design,
installation and servicing requirements. The ECH is
intended for indoor use, only. Two stainless steel band
clamps (not shown) are included with the ECH assembly
for securing the two nitrogen cylinders to their brackets.
The ECH is not supplied with an outer enclosure.
January 2012 Section 2 System Components Page 2 - 16
Amerex Restaurant Fire Suppression System (EX 4658)1
KITCHEN HOOD FASTENER
Amerex is pleased to offer two methods of fastening hardware to the underside of the hood without
having access to the top of the hood. Simply drill a 25/64" Dia. hole and install the listed fastener,
for use with stainless steel hood material 0.027" to 0.165" thick.
RIVET TYPE STUD (PIN 20535)
The rivet type stud is a 1/4
- 20UN - 2A threaded
stud with approximately 3/4" of length. This device
may be used for mounting detector brackets,
conduit fasteners, PRM clips, pipe hangers, etc
Attach devices to the stud using a standard 14
2OUN nut and lock washer. Rivet studs come 10
to a bag.
RIVET TYPE NUT (PIN 20536)
The rivet type nut is tapped 1/4
- 20UN - 2B with
approximately 3/4" of length. This device may be
used for mounting detector brackets, conduit
fasteners, PRM clips, pipe hangers, etc. Attach
devices to the tapped blind rivet using a standard
%-20UN bolt or screw and lock washer. Rivet
nuts come 10 to a bag.
INSTALLED
RIVET INSTALLATION TOOL SET
(PIN 20552) INSTALLED
The Rivet Installation Tool Set Comes
complete with mandrel and nosepiece for
installing both studs and nuts. Instructions
on set up and use of the tool are contained
in the box with each tool.
MANDREL NOSEPIECE
(FOR INSTALLATION OF RIVET NUT)
MANDREL NOSEPIECE
(FOR INSTALLATION OF RIVET STUD)
March 2012 Section 2., System Components Page 2 - 17
Amerex Restaurant Fire Suppression System (EX 4658)
FLEXIBLE HOSE - HAZARD AREA (PN20473)
This hose is designed to be used when a flexible movement of the nozzle branch line is desired.
Such as when an appliance needs to be moved for cleaning and the nozzle protecting the
appliance is fixed to the appliance. Hose length is 48" end to end and is supplied with ½" NPT
ends. The flex hose is limited to use on the appliance branch line only and cannot be used on
supply line or supply branch line.
The flexible hose is to be connected to the Nozzle Branch line in a manner to prevent kinking or
collapsing of the hose. It is to be used to provide for movement of the appliance without the
appliance protection being disconnected from the fire suppression system.
The flex hose has a minimum bend radius of 7". The piping limitations for Nozzle Branches do not
change when flexible hose is used in the line. However, the flex hose takes the place of 4 feet of
pipe.
A maximum of three flex hoses may be used on an agent cylinder piping network.
An appliance locating device is to be used to insure that the appliance is placed back in proper
alignment after being moved for cleaning.
NO RESTRAINT CABLE IS REQUIRED
SECTION 3
DESIGN
MANUAL PIN 20150
AMEREX
RESTAURANT
FIRE SUPPRESSION SYSTEM
Tested and Listed by
Underwriters Laboratories, Inc.
to UL Standard 300
EX 4658
Tested and Listed by
Underwriters Laboratories of Canada
To ULCIORD 1254.6-1995
December 2008
December 2008 Section 3 Design Page 3 - 1
Amerex Restaurant Fire Suppression System (EX 4658)
DUCT PROTECTION
NOTE: An Amerex KP & ZD Kitchen Fire Suppression System have the same listed
criteria for the protection of the Duct and Plenum.
DUCT PROTECTION LIMITATIONS
SINGLE NOZZLE (PIN 16416)
The Amerex Duct Nozzle (P/N 16416) is listed to protect restaurant cooking ducts of unlimited length up to 50
perimeter inches (127 cm) or 16 diameter inches (40.6 cm) using one nozzle. The nozzle has one flow point
and must be centered within the duct, placed 2 - 8 inches (5.08 - 20.32 cm) into the duct opening and aimed
at the center of the cross section of the duct.
NOTE: In no case shall the diagonal
dimension of the duct exceed 18.8 inches
without additional duct nozzles.
OF VERTICAL DUCT
24"or LESS -
OF HORIZONTAL DUCT
/ AIM POINT
Vertical I Horizontal Transition
with a rise of 24" or less.
Special Note: For ducts with short vertical/horizor
transitions reference the diagram above with resp
to nozzle aim.
TRANSITION LIMITATIONS - SINGLE
NOZZLE (PIN 16416)
A transition is a section found on some exhaust systems between the hood and the duct. One Amerex duct
nozzle (P/N 16416) will protect a transition at the point where the transition is 50 perimeter inches (127 cm) or
less or a diameter of 16 inches (40.6 cm) or less. The nozzle has one flow point and must be placed in the
center of the opening at the point where the perimeter inches are 50 (127 cm) or less or where the diameter
inches are 16 (40.6 cm) or less and aimed at the center of the cross section on the duct. Additional duct
protection is not required when using this method.
December 2008 Section 3 Design Page 3 - 2
Amerex Restaurant Fire Suppression System (EX 4658)
DUCT PROTECTION LIMITATIONS -
TWO NOZZLES (2 x P/N 16416)
Two Amerex Duct Nozzles (P/N 16416) will protect ducts witl
of 51 inches to 84 inches (129.5 - 208.3 cm) or a maximum di
inches (66 cm). To correctly position the nozzles in a rectangulE
the duct along its longest side into four equal distances. A
should be divided along a centerline into four equal distances
should be placed at one quarter of the duct's width (or diamet
nozzles on the centerline, paced 2-8 inches (5.08 - 20.3 cm)
opening and aimed at the center of the modular cross
section of the duct. Each nozzle has one flow point.
NOTE: In no case can the diagonal dimension of
each module exceed 18.8 inches (46 cm).
—tx;/
L ~-
17"
DUCT PROTECTION PROTECTION LIMITATIONS - MULTIPLE NOZZLES (P/N 16416)
Protecting ducts larger than 84 perimeter inches (208.3 cm) utilizing the single flow point nozzle (P/N 16416).
Divided the perimeter by 42 (104 cm) and round up to the next whole number. Divide the duct cross section
into the same number of equally sized modules. Check the modules to insure they are equal to or less than
50 perimeter inches and have a diagonal equal to or less than 18.8 inches. If they meet the criteria then
place a duct nozzle in the center of each module, 2"-8" into the hood/duct opening.
DUCT PROTECTION LIMITATIONS 100 IN. PERIMETER
TWO - 11/2 FLOW POINT NOZZLES (P/N 11983)
The Amerex Solid Fuel Appliance/Duct Nozzle (P/N 11983) is listed
to protect a restaurant cooking exhaust duct of unlimited length,
unlimited changes in direction and up to 100 perimeter inches (254
cm) or 32 inch diameter (81.2 cm) using two nozzles. The nozzles
total three flow points and to properly position the nozzles, a
rectangular duct should be divided along its longest side into four
equal distances. A circular duct should be divided along its center 1/4
line into four equal distances. The nozzles are to be placed at one
quarter and three quarters position of the duct width (or diameter) /2
with both nozzles on the center line, placed 2 - 8
inches (5.08 - 20.3 cm) into the duct opening and
aimed straight up in a vertically run duct.
NOTE: In no case can the diagonal dimension of
the duct exceed 37.2 inches (94.4 cm)
without adding additional duct nozzles.
NOTE: The use of one Duct Nozzle P/N 11983 is
permitted for duct 50 perimeter inches or
less in the same manner as Duct Nozzle
16416.
>3
2" MP
December 2008 Section 3 Design Page 3 - 3
Amerex Restaurant Fire Suppression System (EX 4658)
DUCT PROTECTION LIMITATIONS 150 IN. PERIMETER
THREE 11/2 FLOW POINT NOZZLES (3 x P/N 11983)
The Amerex Solid Fuel Appliance/Duct
Nozzle (P/N 11983) is listed to protect
restaurant cooking exhaust ducts of
unlimited length, unlimited changes in
direction and up to 150 perimeter inches
(381 cm) or 48 diameter inches (122 cm)
using three nozzles. The nozzles total four
and one-half flow points and to properly
position the nozzles, a rectangular duct
should be divided along its longest side into
six equal distances. A circular duct should
be divided along its center line into six equal
distances. The nozzles are to be placed at
one sixth, one half and five sixths positions
of the duct width (or diameter) on the center
line, placed 2-8 inches (5.08 - 20.3 cm) into
the duct opening and aimed straight up for
vertically run duct.
NOTE: In no case can the diagonal dimension
55.9 inches (142 cm) without addin
nozzles.
TRANSITION LIMITATIONS - TWO NOZZLES (P/N 11983)
A transition is a section of some exhaust systems between the hood and the duct. Two Amerex solid fuel
appliance/duct nozzles (P/N 11983) will protect a transition at the point where the transition is 100 perimeter
inches (254 cm) or less or a diameter of 32 inches (94.4 cm) or less. The nozzles total three flow points and
to properly position the nozzles, a rectangular duct should be divided along its longest side into four equal
distances. A circular duct should be divided along its center line into four equal distances. The nozzles are to
be placed at one quarter and three quarters position of the duct width (or diameter) with both nozzles on the
center line, placed 2 - 8 inches (5.08 - 20.3 cm) into the duct opening and aimed straight up in a vertically run
duct. Additional duct protection is not required when using this method.
NOTE: In no case can the diagonal dimension of the duct exceed 37.2 inches (94.4 cm)
without adding additional duct nozzles.
(REFER TO PAGE 3-1 FOR PICTORIAL REPRESENTATION)
2A + 213 = PERIMETER
OR
(A+ B)2= PERIMETER
diagonal
'.2 inche
ct nozzl
dimension
December 2008 Section 3 Design Page 3 —4
Amerex Restaurant Fire Suppression System (EX 4658)
NOZZLE LOCATION AND AIMING FOR SHORT VERTICAL! HORIZONTALLY
TRANSITION RUN DUCTS PROTECTED BY DUCT NOZZLE 11983
The nozzles are to be located on the centerline of the vertically run duct, 2-8 inches (5.08-20.3cm) into the
hood/duct opening. The aiming point is to be a point 3 (7.6cm) inches above the base of the horizontally run
duct and in the same vertical plane of the
nozzle. See illustration.
OF VERTICAL DUCT
AIM POINT
OF HORIZONTAL DUCT
HOOD
Vertical / Horizontal Transition
with a rise of 24" or less.
DUCT PROTECTION - MODULAR APPLICATION OF MULTPLE NOZZLES LISTING
(P/N 11983)
Protecting ducts larger than the perimeter listed for a multiple nozzle coverage is a simple process. The
following example shows how the listing for duct protecting a duct with a perimeter of 100 inches using two
nozzles PN 11983 is applied to a duct with a perimeter larger than 100" but less than 166". We must first
divide the cross sectional area of the duct into modules with a perimeter equal to or less than 100". Check
the modules to insure they have a diagonal equal to or less than 37.2 inches. If all criteria is met, space the
duct nozzles in each module in compliance with the multiple nozzle coverage listing and 2"-8" into the
hood/duct opening.
December 2008 Section 3 Design Page 3-5
Amerex Restaurant Fire Suppression System (EX 4658)
PLENUM PROTECTION
NOTE: An Amerex KP & ZD Kitchen Fire Suppression System have the same listed
criteria for the protection of the Duct and Plenum.
PLENUM PROTECTION LIMITATIONS -
SINGLE FLOW POINT NOZZLE (P/N 11982)
The Amerex Appliance, Plenum Nozzle (P/N 11982) is capable of protecting plenums up to 10 feet (3.048m)
long with either a single inclined filter bank or a "V' bank filter arrangement. The filter height cannot exceed
24 inches (60.96 cm). Each plenum nozzle uses one flow point. The nozzle must be positioned 4 inches
(10.16) maximum from the end wall of the hood, aimed horizontally and positioned down 1/3 the vertical filter
height from the top of the filter. The width of a "V' bank filter arrangement is limited to a maximum of 48" (122
cm).
PLENUM PROTECTION - MULTIPLE NOZZLES
Plenums exceeding 10 feet (3.048 m) in length may be
protected by using multiple plenum nozzles. Each nozzle must
be protecting an area of no more than 10 feet in length.
Nozzles may be positioned facing each other or facing the
same direction as long as the entire plenum area is being
covered. Nozzles may not face in opposite directions from a
common tee.
December 2008 Section 3 KP Design Page 3-6
Amerex Restaurant Fire Suppression System (EX 4658)
KP APPLIANCE PROTECTION
NOTE: The Amerex ZD Kitchen Fire Suppression System utilizes the same listed
KP appliance protection criteria for "Dedicated Appliance Protection".
FRYER PROTECTION (FULL VAT)
TWO FLOW POINT NOZZLE (P/N 13729)
MAXIMUM AREA: 191/2 in. (50 cm) x 25-3/8 in. (65 cm) including drainboard interface area
191/2 in. (50 cm) x 19 in. (48 cm) not including drainboard interface area
The Amerex Fryer Nozzle (P/N 13729) uses two flow points and will protect a
full vat fryer. If the fryer does not include a drainboard, the maximum fryer
dimensions for single nozzle coverage are 19" x 19%" (48 x 50 cm) and the
maximum protected area is 2.53 ft2 (2350 cm2). If the fryer does contain a
drainboard the maximum fryer dimensions for single nozzle coverage is 25-
3/8" x 191/2" (65 x 48 cm) and the maximum protected area is 3.44 ft2
(3195 cm2). However, the maximum hazard area must not exceed 19' x 19
%" (48 x 50 cm). The nozzle must be located along or anywhere within the
protected area. Nozzle heights must bewithin 36t048 inches (91.44
- 121.92 cm) above the appliance surface and aimed to the center of the
hazard area of the appliance.
Note: Maximum & minimum heights must be
measured vertically from the tip of
nozzle to the top of the appliance.
Locate nozzle within shaded area •
I '.'94n 0,11 .. (above the protected area)
c I - - AIM POINT
(CENTER OF HAZARD AREA)
- — — -.. -
— — —
LFm
eFULLVATFRYER
4
WITHOUT DRAINBOARD
FULL VAT FRYER
WITH DRAINBOARD
LOW PROXIMITY APPLICATION
FRYER PROTECTION (FULL VAT)
TWO (2) SINGLE FLOW POINT NOZZLE (P/N 11982)
MAXIMUM AREA: 191/2 in. (50 cm) X 25 3/8 in. (65 cm) (including drainboard interface area)
191/2 in. (50 cm) x 19 in. (48 cm) (not including drainboard interface area)
A pair of Amerex single flow point nozzles (P/N 11982)
will protect a full vat fryer. The nozzles must be used in
pairs located on the perimeter of the appliance, %" back
from the inside edge of the appliance and within a zone
extending 6" in both directions of the center of the
hazard. The nozzles are to be located 1800 apart
(directly across from one another). They are to be aimed
at a point 3" below the top of the appliance and directly
below the opposing nozzle. If the fryer does not include
a drainboard, the maximum fryer dimensions are 191/2" x
19" (50 x 48 cm) and the maximum protected area is
2.53 ft2 (2530 cm2). If the fryer does contain a
drainboard, the maximum fryer dimensions are 25 3/8" x
19 %" (65 x 50 cm) and the maximum protected area is
3.44 ft2 (3195 cm2). However, the maximum hazard area
must not exceed 19 %" x 19" (50 x 48 cm). The nozzle's
height must be within 171/2" to 36" (45 - 92 cm) above the
appliance surface.
- NOZZLE 180 APART
36"
01 17%
V
V
6 9'3
AIMING POINT
FULL VAT FRYER
WITH DRAINBOARD
19
25-318"
MAX.
December 2008 Section 3 KP Design Page 3— 7
Amerex Restaurant Fire Suppression System (EX 4658)
FRYER PROTECTION (FULL VAT W/ 1" DRIP BOARD)
ONE - TWO FLOW POINT NOZZLE (P/N 13729)
MAXIMUM AREA: 624 sq. in. (4025.8 sq. cm) of FRY POT
The Amerex Nozzle (P/N 13729) is two flow points and will protect a full vat fryer having an area of 624 sq. in.
and a longest side of 26 inches without a drip board. The nozzle must be located anywhere over the
protected area and aimed at the center of the hazard. Nozzle heights must be within 36 to 50
inches (91.4 - 127 cm) above the appliance surface.
The example below illustrates how the fryer listing above can being applied to a Tilting Skillet / Brazing Pan.
\IIVIIl'4.) I L)IIN I - L,LIN ILl\ Ill I IflLrI\L.J
FIGURE 1 FIGURE 2
Figure 1 is an illustration of a large tilting skillet measuring 26" x 48" and the tilting skillet has no drip
board. We calculate the cooking area of the tilting skillet by multiplying the width X length and the
result is 1248 sq. in. We now divide the area by the listed area of 624 and the resultant is 2.
Therefore, two nozzles are required to protect this appliance. (If the resultant had been greater than 2,
we would have rounded up to 3.
Figure 2 shows how the hazard was divided into two equal modules 26" x 24" and each module has
an area of 624 sq. in. Therefore, the use of two nozzles P/N 13729 will protect this hazard. When
protecting a tilting skillet with a cover or lid the nozzles must be placed to the front edge of the
appliance and aimed to the center of the module.
The same process is to be used to apply this listing to a large fryer except the fryer must fall within the
required maximum fryer size of six square feet.
December 2008 Section 3 KP Design Page 3 -8
Amerex Restaurant Fire Suppression System (EX4658)
FRYER PROTECTION (SPLIT VAT)
TWO FLOW POINT NOZZLE (P/N 13729)
MAXIMUM AREA: 14 in. (35.5 cm) X 21 in. (53.5 cm) (including drainboard interface area)
14 in. (35.5 cm) x 15 in. (38.1 cm) (not including drainboard interface area)
The Amerex fryer nozzle (P/N 13729) uses two flow points and will
protect a split vat fryer. If the fryer does not include a drainboard, the
maximum fryer dimensions for single nozzle coverage are 15" x 14"
(38.1 x 35.5 cm) and the maximum protected area is 1.46 _ft2 (1356
cm 2). If the fryer does contain a drainboard, the maximum fryer
dimensions for single nozzle coverages are 21" x 14" (53.5 x 35.6 cm)
and the maximum protected area is 2.0422 (1897 cm2). However, the
maximum hazard area must not exceed 15" x 14" (38.1 x 35.5 cm).
The nozzle must be located within the protected area on a line
perpendicular to the longest side of the fryer passing through the
center of the hazard area. Nozzle heights must be within 40 to 50
inches (101.6— 127 cm) above the appliance surface and aimed to the
center of the hazard area of the appliance. SPLIT VAT FRYER
WITH DRAINBOARD
Locate nozzle within shaded area
(Shove the protected area)
AIM POINT
(CENTER OF HAZARD AREA)
5O 4O
SPLrrVATFRvER I
WITHOUT DRAINBOARD
NOTE: Maximum and minimum heights
must be measured vertically from the tip
of nozzle to the top of the appliance.
SPLIT VAT FRYER
WITH DRAINBOARD
FRYERS EXCEEDING SINGLE NOZZLE PROTECTION:
Multiple Amerex fryer nozzles (P/N 13729) may be used to
protect single vat fryers with maximum protected areas
exceeding single vat coverages up to a maximum protected
area of 6 ft.2. The fryer must be divided into modules for
single nozzle coverages and the nozzle located and aimed for
each module as indicated for single nozzle coverages. For
modules that do not include drainboards, the maximum
module dimensions for single nozzle coverages is 19 h/21 x
19' (50 x 48 cm) and the maximum protected area is 2.53 ft2
(2350 cm2). If the module does contain a drainboard, the
maximum module dimensions for single nozzle coverage is
25 3/8" x 19 1/2 (65 x 50 cm) and a maximum protected area
is 3.44 ft2 (3195 cm2). However, the maximum frying area of
a module must not exceed 19 1/2 x 19" (50 x 48 cm).
AIM POINTS
December 2008 Section 3 KP Design Page 3 - 9
Amerex Restaurant Fire Suppression System (EX 4658)
SINGLE BURNER RANGE PROTECTION
ONE - /2 FLOW POINT NOZZLE (P/N 11984)
The Amerex half (%) flow point nozzle (P/N 11984) will protect a singlE
burner with a surface area of 18" x 18" (46 x 46 cm). The nozzles mus
be located on the perimeter of the burner and 20 to 24" (51 - 61 cm
above the burners surface. The nozzle is aimed at a point 7" above thE
center of the burner.
SINGLE BURNER RANGE PROTECTION - OVERHEAD
ONE - 1/2 FLOW POINT NOZZLE (P/N 11984)
The Amerex half (%) flow point nozzle (PIN 11984) will protect a
single burner with a surface area of 18" x 18" (46 x 46 cm). The
nozzles must be located directly above the center of the burner
and 24 to 42" (61 - 107 cm) above the burners surface. The
nozzle is aimed at the center of the burner.
TWO BURNER RANGE PROTECTION -
SINGLE FLOW POINT NOZZLE (P/N 11982)
The Amerex appliance, plenum nozzle (PIN 11982) has
one flow point and will protect a range surface area of
14" x 28" (36 x 71 cm). The center to center distance
between burners must not exceed 14" (36 cm). The
nozzle must be located 44 - 48" (112 - 122 cm) above
the range surface and centered between the two
burners. The range surface area is measured from the
outside of the burner to the outside of the burner.
NOTE: Maximum and minimum heights
must be measured from the tip of nozzle
to the surface of the appliance.
42"
24"
December 2008 Section 3 KP Design Page 3 - 10
Amerex Restaurant Fire Suppression System (EX 4658)
RANGE PROTECTION
SINGLE FLOW POINT NOZZLE (P/N 11982)
The Amerex appliance plenum nozzle (P/N 11982) has
one flow point and will protect a range surface area of
12" x 24" (31 x 61 cm). The center to center distance
between burners must not exceed 12" (31 cm). The
nozzle must be located 36 - 50" (91 - 127 cm) above the
range surface and centered between the two burners.
The range surface area is measured from the outside of 50 IV
the burner to the outside of the burner.
Note: Maximum & minimum heights
must be measured from the tip of nozzle to
the surface of the appliance.
RANGE PROTECTION
MULTIPLE NOZZLES (P/N 11982)
For ranges that have a surface area exceeding the
capabilities of a single appliance nozzle, multiple
nozzles must be used provided that the surface area
of the range is divided into equally sized modules.
Each module must be equal to or less than 12" x 24"
(31 x 61 cm).
Note: Maximum & minimum heights n
measured from the tip of nozzle to the surface of
the appliance.
35" -
I TOP VIE/
24"
T
20" M
PLAN VIEW
December 2008 Section 3 KP Design Page 3 - 11
Amerex Restaurant Fire Suppression System (EX 4658)
RANGE PROTECTION
TWO - HALF FLOW POINT NOZZLE (P/N 11984)
The Amerex appliance nozzle (P/N 11984) has one-half flow point value and when used as a pair as illustrated
below will protect a range surface area of 12" x 36" (31 x 92 cm). The nozzle must be located 20 - 30" (50.8 -
76.2 cm) above the range surface, on the burner centerline, 2 inches (5 cm) outboard of the burner and aimed
at the center of the hazard area. The nozzles are to be at the same height and on opposite sides of the range
hazard area.
-
-
- - - 20"30"
PLAN \/IEL'
Note: Maximum & minimum heights
must be measured from the tip of nozzle to
the surface of the appliance.
RANGE PLUS BACK-SHELF PROTECTION
OVERHEAD APPLIANCE NOZZLE (P/N 11982)
The Amerex appliance nozzle (P/N 11982) has a one flow
point value and will protect a range burner area of 12" x 24"
(31 X 61 cm) from an overhead position. The back shelf
must be at least 20" high (51 cm) and must not cover more
than 11" (28 cm) of the back burners. The nozzle must be
located 40- 47" (102- 119 cm) above the range surface, on
the burner centerline, 4-6 inches (10 - 15 cm) forward of the
center of the two burners and aimed at the center of the
hazard area.
Note: Maximum & minimum heights
must be measured from the tip of nozzle to
the surface of the appliance.
Max. Size
Fin.
\bc/
nmx
Aim Point
'I max
S
December 2008 Section 3 KP Design Page 3-12 I
Amerex Restaurant Fire Suppression System (EX 4658) I S
FOUR (4) BURNER RANGE PROTECTION
TWO (2) FLOW POINT NOZZLE (PIN 14178)
S The Amerex 4 burner range nozzle (PIN 14178) has two (2) flow
points and will protect a range surface area of 24" x 24" (61 x 61 cm). AX
The center to center distance between burners must not exceed 12
inches. The nozzle must be located 18 - 50" (46 - 127 cm) above
the range surface and centered between the burners. The nozzle is
aimed straight down at the center of the appliance.
-
NOTE: Maximum and minimum heights cD
must be measured from the tip of S nozzle to the surface of the appliance.
RANGE PROTECTION -
MULTIPLE NOZZLES (PIN 14178)
For ranges that have a surface area exceeding the
capabilities of a single nozzle, multiple nozzles must be
used provided that the surface area of the range is
divided into equally sized modules. Each module must
be equal to or less than 24" x 24" (61 x 61 cm).
NOTE: When using this nozzle to protect a two
(2) burner range the aiming point is where an
8.50" radius from the center of each burner
crosses one another
-o 04
WOK PROTECTION -
SINGLE FLOW POINT NOZZLE (PIN 11982)
The Amerex appliance plenum nozzle (PIN 11982)
has one flow point and will protect a wok with
dimensions between a minimum diameter of 14" (36
cm) and a maximum diameter of 24" (61 cm)
inclusive. The wok must have a height dimension
between a minimum of 4" (10 cm) and a maximum of
7" (18 cm) inclusive. The nozzle must be centered
over the center of the wok and located at a height
between 40 (102 cm) and 50" (127 cm) from the
bottom of the inside of the wok and aimed at the
center of the wok.
11 square centered
on griddle center
Nozzle Location
Note: Maximum & minimum heights
must be measured from the tip of
nozzle to the surface of the appliance.
Point of Intersection
AIM POINT for nozzle
protecting this module
Perimeter of Griddle
dules
11" Square Centered Perimeter of Griddle on Griddle
Nozzle Location
GRIDDLE PROTECTION -
MULTIPLE SINGLE FLOW POINT NOZZLES (PIN 11982)
of Intersection
UM POINT
December 2008 Section 3 KP Design Page 3 - 13
Amerex Restaurant Fire Suppression System (EX 4658)
GRIDDLE PROTECTION -
SINGLE FLOW POINT NOZZLE (P/N 11982)
The Amerex griddle nozzle (PIN 11982) has one flow
point and will protect a griddle surface of 36 inches
wide (91 cm) x 30 inches deep (76 cm). The nozzle
must be located along the perimeter of the appliance
and within a vertical height range from 30" to 48" (76
- 122. cm) above the surface of the appliance. The
aiming point for the nozzle is the "point of
intersection" of a straight line from the nozzle location
to the center of the appliance, with an 11" (28 cm)
square, generated about the center point of the
griddle.
'maL
mm.
ivare
wed on
to center
Note: Maximum & minimum heights
must be measured from the tip of nozzle
to the surface of the appliance.
Multiple Amerex griddle nozzles (P/N 11982 -
one flow point) may be used to protect a griddle
surface area greater than 30 inches (76 cm) X 36
inches (91 cm). The griddle must be divided into
modules for single nozzle coverage and the
nozzles located and aimed for each module as
indicated for single nozzle coverage.
48"
\'
!'io-
I 11" square centered
on griddle center
Li LI
30 max. • . 43 max.
mm.
36 max.
max. i?Squaro.
Centered on
Griddle Module
11" square centered
on griddle center
December 2008 Section 3 KP Design Page 3 - 14
Amerex Restaurant Fire Suppression System (EX 4658)
GRIDDLE PROTECTION - OVERHEAD
TWO FLOW POINT NOZZLE (P/N 13729)
12.cd>'12.
The Amerex fryer and griddle nozzle (PIN 13729) has two
flow points and will protect a griddle surface of 42 inches
wide (107 cm) X 30 inches deep (76 cm). The nozzle
must be located within 6 inches (15 cm) of either side of
the appliance centerline, placed 38 inches (97 cm) to 50
inches (127 cm) above the cooking surface and aimed
straight down.
Note: Maximum & minimum heights
F F must be measured from the tip of
nozzle to the surface of the appliance.
I!! 50"
381.
I I
12" square centered
on griddle center
30'
GRIDDLE PROTECTION - OVERHEAD
MULTIPLE TWO FLOW POINT NOZZLES (P/N 13729)
Griddles exceeding 30 inches (76 cm) X 42 inches
(107 cm) may be protected using multiple two flow
point nozzles by dividing the surface area into equal
modules. Each module requires one nozzle and
cannot exceed an area larger than 42 inches length
(107 cm) X 30 inches deep (76 cm).
12" square centered
on griddle center
Note: Maximum & minimum heights
must be measured from the tip of
nozzle to the surface of the appliance.
Nnfp maximum R. minimum
of Intersection
%IM POINT
heights must be measured
from the tip of nozzle to the
surface of the appliance. \\J//
Perimeter of Griddle 11" Square Centered
on Griddle
11" square centered
on griddle's center
quare centered on
ule center
of Intersection
tJM POINT
Nozzle Location
-
I $i— 24" max.
'I
mi ' % I
'i-.---: 15" mm.
% I
'Square
tritered on
iddle Center
Note: Maximum & minimum
heights must be measured from
the tip of nozzle to the surface
of the appliance.
December 2008 Section 3 KP Design Page 3 —15
Amerex Restaurant Fire Suppression System (EX 4658)
GRIDDLE PROTECTION - LARGE
TWO (2) FLOW POINT NOZZLE (P/N 14178)
The Amerex Range Nozzle (PIN: 14178) has two (2)
flow points and will protect a griddle surface of 48
inches wide (122 cm) x 30 inches deep (76 cm). The
nozzle must be located along the perimeter of the
appliance and within a vertical height range from 24"
(61 cm) to 50" (127 cm) above the surface of the
appliance. The aiming point for the nozzle is the
"Point of Intersection" of a straight line from the
nozzle location to the center of the appliance, where
the line crosses the outer edge of an 11 inch square
(28 cm sq.), centered over the center point of the
ririr1rlI
4..,. IW
50"max.
aX 24lmIn
Centered on
Griddle Center
Nozzle Location
GRIDDLE PROTECTION - LOW PROXIMITY
TWO (2) FLOW POINT NOZZLE (P/N 14178)
The Amerex Range Nozzle (PIN: 14178) has two (2) flow points and
will protect a griddle surface of 48 inches wide (122 cm) x 30 inches
deep (76 cm). The nozzle must be located at any one of the four
corners of the appliance and within a vertical height range from 15
(38 cm) to 24" (61 cm) above the surface of the appliance. The
aiming point for the nozzle is the "Point of Intersection" of a
straight line from the nozzle location to the center of the appliance,
where the line crosses the outer edge of an 11 inch square (28 cm
sq.), centered over the center point of the griddle.
11" Square Centered Perimeter of Griddle
on Griddle
December 2008 :. Section 3 KP Design Page 3 - 16
Amerex Restaurant Fire Suppression System (EX 4658)
S
GAS RADIANT CHARBROILER PROTECTION
SINGLE FLOW POINT NOZZLE (P/N 11982)
One Amerex plenum nozzle (PIN 11982)
will protect a gas radiant charbroiler with a
cooking surface measuring 24 inches X 24
inches (61 x 61cm) maximum. The nozzle
uses one flow point. It must be located 18
to 48 inches (46 - 122 cm) above the
cooking surface and anywhere along or
within the perimeter aimed towards the 24'
center.
ELECTRIC RADIANT CHARBROILER
PROTECTION SINGLE FLOW POINT
NOZZLE (P/N 11982)
Note: Electric charbroilers with a non-grated
surface or a solid ribbed surface may be
protected using the same limitations as a
griddle.
Electric charbroilers with an open grate may
be protected with one Amerex appliance,
plenum nozzle (P/N 11982) provided that the
area is no larger than 24 inches X 24 inches
(61 x 61 cm). The nozzle uses one flow point
and must be located within 18 - 48 inches
(46 - 122 cm) above the grate surface,
anywhere along or within the perimeter of the
protected area, aimed towards the center.
LAVA ROCK (CERAMIC/SYNTHETIC) CHARBROILER
SINGLE FLOW POINT NOZZLE (P/N 11983)
A single Amerex solid fuel appliance plenum
nozzle (P/N 11983) will protect a lava rock
charbroiler with a maximum cooking surface
of 24 inches wide (61 cm) by 24 inches deep
(61 cm). The appliance nozzle uses 1 1/2 flow
point and for this application must be located
between 18 to 44 inches (46 to 122 cm)
above the cooking surface anywhere along
or within the perimeter of the appliance
aimed toward the center.
S
W .
/1
4"•
S
Ian
S rt S S
H H
S
S
S
0
I /
\/ 48
_ _
d
NOW: M. & Mlm heights niM be measwed from the tp at nozzie 5 to the top of the cooldng
surface
S
S
S
S
24" S
K.. i
I r I.
I I I 5 I I
S
S
S
S
S
6"
Ma)
Solid Fuel - Charcoal
6"
M
Solid Fuel - Mesquite Chips & Chunks
AA11
11' -+
Max.
Solid Fuel - Mesquite Logs
December 2008 Section 3 KP Design Page 3 - 17
Amerex Restaurant Fire Suppression System (EX 4658)
SOLID FUEL APPLIANCES
NATURAL AND MESQUITE CHARCOALCHARBROILER
ONE AND ONE HALF (11/2) FLOW POINT NOZZLE
(P/N 11983)
One Amerex solid fuel appliance nozzle (PIN 11983) will
protect a charcoal charbroilers with a cooking surface
measuring 281/2 inches x 24 inches (72 cm x 61 cm)
maximum. The nozzle uses one and one half flow points.
It must be located 16 to 42 inches (41 cm - 107 cm) above
the cooking surface and anywhere along or within the
perimeter aimed at the center. The fuel depth is limited to 6
inches (15 cm) maximum.
MESQUITE CHIPS & CHUNKS CHARBROILER
ONE AND ONE HALF (11/2) FLOW POINT NOZZLE
(P/N 11983)
A single Amerex solid fuel appliance nozzle (PIN 11983) will
protect a mesquite charbroilers with a maximum cooking
surface of 28% inches X 24 inches (72 cm X 61 cm). The
nozzle uses one and one half (1%) flow points and for this
application must be located between 16 to 48 inches (41 cm
to 122 cm) above the cooking surface anywhere along or
within the perimeter of the appliance aimed at the center of
the appliance. The fuel depth is limited to 6 inches (15 cm)
maximum.
MESQUITE LOG CHARBROILER
ONE AND ONE HALF (11/2) FLOW POINT NOZZLE
(P/N 11983)
A single Amerex solid fuel appliance nozzle (PIN 11983) will
protect a mesquite log charbroilers with a maximum cooking
surface of 28% inches X 24 inches (72 cm X 61 cm). The nozzle
uses one and one half (11/2) flow points and for this application
must be located between 19 to 44 inches (48 cm to 112 cm)
above the cooking surface anywhere along or within the
perimeter of the appliance aimed at the center of the appliance.
Solid fuel is limited to three (3) layers of logs or 11 inch (28 cm)
maximum stacked height.
December 2008 Section 3 KP Design Page 3 - 18
Amerex Restaurant Fire Suppression System (EX 4658)
UPRIGHT BROILER PROTECTION
TWO HALF FLOW POINT NOZZLES (PIN 11984)
Two Amerex upright broiler nozzles are required for this application. Each upright broiler nozzle (PIN 11984)
equals a 1/2 flow point. These nozzles must always be used in pairs equaling one flow point and will
protect an internal broiler chamber measuring 30 1/2 X 28 Y2" (77 x 72 cm). The nozzles must be positioned
at the front opening of the broiler with the top nozzle located above the grate, aimed toward the opposite rear
corner and the lower nozzle located the grate and aimed toward the center of the drip pan.
UPRIGHT BROILER
'ARMING
HAMBER
ER CHAME
DRIP PAI
FRONT VIEW
SIDE VIEW
NOTE: PROTECTION FOR SALAMANDERS AND CHEESE
MELTERS UP TO 38" (96.5cm) IN LENGTH SHOULD BE
ACCOMPLISHED USING A SINGLE FLOW APPLIANCE
NOZZLE P/N 11982 LOCATED IN THE MIDDLE OF THE
OPENING AND AIMED AT THE REAR OPPOSITE CORNER.
OPTIONAL : PROTECTION MAY ALSO BE
ACCOMPLISHED BY USING TWO HALF FLOW POINT
NOZZLES P/N 11984, BOTH NOZZLES LOCATED ON THE
SAME SIDE OF THE SALAMANDER, POSITIONED IN THE
MIDDLE OF THE UPPER AND LOWER OPENING, AIMED
TO THE REAR OPPOSITE CORNER.
TOP VIEW
N . ..... . ..
OPPOSITE CORNER OF THE
BROILING AREA.
December 2008 Section 3 KP Design Page 3 - 19
Amerex Restaurant Fire Suppression System (EX 4658)
CLOSED TOP CHAIN BROILER
SINGLE FLOW POINT NOZZLE (P/N 11982)
EXTERNAL
The Amerex appliance/plenum nozzle (P/N1 1982) has one flow DRIP PAN
point and will protect a closed top chain broiler with a cooking area
of 24 1/2' x 31" (62 X 79 cm). The nozzle is to be located on the
side opposite the external drip pan (when present), positioned in
the middle of the inlet opening and aimed at the opposite rear
corner.
NOZZLE LOCATED IN THE
CENTER OF THE IN-LET
OPENING
* ~ FRONT VIEW
FRONT VIEV
LNOZZLE LOCATED 2" BEHIND
THE EDGE OF THE OPENING
AIMED TO THE CENTER OF THE
OPENING - la" x 10" MINIMUM OPENING
12-36' NOZZLE
L_\\
HEIGHTABOVE
APPLIANCE
N
OPEN TOP
CHAIN BROILER
EXTERNAL
DRIP PAN
CLOSED TOP
CHAIN BROILER
OPEN TOP CHAIN BROILER
TWO FLOW POINT NOZZLE (P/N 13729)
Note: Maximum & minimum
heights must be measured from
the tip of nozzle to the surface of
the appliance.
EXTERNAL
DRIP PAN
TOP VIEW
The Amerex fryer nozzle (P/N 13729) has two flow
points and will protect an open top chain broiler with a
cooking area of 241/2" x 31" (62 x 79 cm). The minimum
opening is lOx 10" (25.4 x 25.4 cm) and the nozzle is
to be positioned 2" behind the edge of the opening, at a
height of 12" —36" (30.5 - 91 cm) above the appliance
and aimed at the center of the opening.
-------------
December 2008 Section 3 KP Design Page 3 - 20
Amerex Restaurant Fire Suppression System (EX 4658)
NIECO MODEL 9025 - BURGER KING CHAIN BROILER
TWO - SINGLE FLOW POINT NOZZLE (P/N 11982)
The Nieco Chain Broiler Model 9025 is a unique appliance and when fitted with two catalysts it requires the
use of two Amerex nozzles (P1N11982) to protect each half of the appliance. Total appliance protection
therefore, requires the use of a total of four Amerex nozzles (P/N 11982). This unique appliance is actually
two chain broilers put together to accommodate the cooking of two different products at the same time. This
appliance can be fitted with two catalysts (18" x 24" overall) one for each cooking side.
The protection of the appliance is accomplished by using two nozzles P/N 11982 positioned two inches
outside of the catalyst perimeter aimed at the center point of the catalyst. The nozzles are to be located on
opposite ends of the catalyst, 1800 apart and are to be 13" to 36" above the top surface of the catalyst. This
configuration is repeated for both cooking sides of the appliance. If no catalyst is used the same protection is
required for the unit.
P
/1 /1
Note: Maximum & minimum heights
must be measured from the tip of nozzle
to the top surface of the catalyst or
appliance (if no catalyst is used).
TOP VIEW
NOZZLE LOCATED 2" BEHIND
THE EDGE OF THE CATALYST
AIMED TO THE CENTER OF THE
CATALYST - 18' x 24"
/ \ I
13"-36"NOZZLE HEIGHT ABOVE
CATALYST A \J
/
\\ //
FRONT VIEW
IND'AJ VULU
CHAIN BROILER
December 2008 Section 3 KP Design Page 3 - 21
Amerex Restaurant Fire Suppression System (EX 4658)
DUKE MODEL - BURGER KING CHAIN BROILER
TWO - TWO FLOW POINT NOZZLE (P/N 13729)
The Duke Chain Broiler is a unique appliance and is fitted with a catalyst that requires the use of two Amerex
nozzles (P/N13729). This unique appliance operates at an extremely high temperature in order to cook large
quantities of frozen burgers in a short span of time.
The protection of the appliance is accomplished by dividing the catalyst area into two equal modules and
positioned one nozzle PIN 13729 on the perimeter of each module, aimed at the center of the module. The
nozzles are to be located anywhere on the module perimeter 15" to 30" (38.1cm - 76.2cm) above the top
surface of the appliance. If no catalyst is used the same protection is required. The addition of a damper on
top of the catalyst does not change the protection required for the unit.
Note: Maximum & minimum heights
must be measured from the tip of nozzle
to the top surface of the catalyst or
appliance (if no catalyst is used).
o o 0 0 0 0 0 0 0 00
0 0 0 0 0 0 0 0 0 00 0 0 0 0 0 0 0 0 0 00
00 00
00 / 00
0 0 0 0 0 O 00 0 0/0 0 0 0 0 0 0\0O
0 0' 0 0 0 0 0 0 0 '00
AIM POINT - CENTER OF MODULE
RRflNIT \/IF\A/ TOP VIFW
October 2013 Section 3 KP Design Page 3— 21A
Amerex Restaurant Fire Suppression System (EX 4658)
DUKE MODEL - BURGER KING CHAIN BROILER
TWO - ONE FLOW POINT NOZZLE (P/N 11982)
The Duke Chain Broiler is a unique appliance and is fitted with a catalyst that requires a flue guard
to direct the exhaust gases. Protection is accomplished with the use of two Amerex nozzles
(P/Ni 1982). This unique appliance operates at an extremely high temperature in order to cook
large quantities of frozen burgers in a short span of time.
The protection of the appliance is accomplished by dividing the catalyst area into two equal
modules and positioned one nozzle PIN 11982 2.5"inboard of the edge of the appliance & aimed at
the center of the module. The nozzles are to be located as illustrated below. If no catalyst is used
the same protection is required. (The addition of a damper on top of the catalyst changes the
protection required for appliance to that illustrated on Page 3-21.)
Note: Nozzle heights must be measured
from the tip of nozzle to the top surface
of the catalyst or appliance (if no catalyst
is used).
o o 0 0 0 0 0 0 0 00
0 0 0 0 0 0 0 0 0 00
0 0 0 0 0 E 0 0 0 00
T- 0 0 0' joo
0 0 0 0 d 0 0 0 0
0 0 0 C 0 0 0 0 CC
0 0 0 0 0 Olt" 0 00
AIM POINT - CENTER OF MODULE
14"
-- 2.5"
FRONT VIEW TOP VIEW
December 2008 Section 3 KIP Design Page 3 - 22
Amerex Restaurant Fire Suppression System (EX 4658)
DUKE CHAIN BROILER & DUKE HOOD EXHAUST HOOD
TWO - TWO FLOW POINT NOZZLE (P/N 13729)
The Duke Chain Broiler and Hood combination is a special design just for the Duke product. The hood and
broiler are each fitted with a catalyst to decrease the emission of grease laden vapors into the exhaust duct
system. The hood comes pre-piped for the installation of the fire suppression nozzles. This unique appliance
operates at an extremely high temperature in order to cook large quantities of frozen burgers in a short span
of time.
The protection of this unit is accomplished by using two (2) Nozzles P/N 13729 installed in the piping provided
so that it will spray agent into the catalyst as illustrated. A third nozzle P/N 16416 is installed for duct
protection of the 8" diameter exhaust duct.
If no catalyst is used the same protection is required. The addition of a damper on top of the broiler catalyst
does not change the protection required for the unit. Due to the extreme heat of the appliance close
inspection of the nozzles is to be performed at each six month service interval. Nozzle replacement is
required at the signs of any nozzle deterioration.
CONNECTION TO FIRE_ DUCT NOZZLE PN16416
SUPPRESSION SYSTEM
DUKE CHAIN
BROILER HOOD
PRE-PIPED HOOD
CATALYST
(2) NOZZLES PN13729
N N N N
N I N DAMPER I N
CATALYST
December 2008 Section 3 KP Design Page 3 —23
Amerex Restaurant Fire Suppression System (EX 4658)
Back shelf— What to do?
The use of a back-shelf presents a problem to the designer of a kitchen fire suppression system for it is
an impediment to the delivery of the wet chemical to the potential fire hazard. The same is true for
salamanders that are mounted over an appliance requiring protection. A shelf or salamander that
extends over the appliance not only prevents proper delivery of wet chemical but also is a fire hazard. All
too often, these shelves become storage places for items such as paper plates, doggie bags, or
flammable food preparation liquids. The overhead application of the wet chemical from an Amerex
Restaurant Fire Suppression System would be of help in extinguishing a fire occurring in items placed on
a back-shelf, but that is not the intended hazard for which the system was designed. The shelf or
salamander prevents agent, from an overhead nozzle, from reaching the actual cause of fire in the
appliance.
Amerex has developed the only real world solution to this problem. When a shelf is installed over a
range or a griddle, a small manifold of three special nozzles provides fire suppression protection. The
BSM (back-shelf manifold) is designed to function as supplemental agent application for the area under
the back-shelf. It replaces the agent lost because of the shelf. It provides an area of protection 15" deep
and 42" wide when used over a range.
The back-shelf or salamander can extend 1" beyond the centerline of the appliance with the manifold
nozzle tips located 14" to 19" above the appliance. The first nozzle must be placed 1/2" outside the edge
of the hazard and on the centerline of the hazard area covered by the shelf.
45°TYP
1" MAX.
BEYOND CENTER
OF APPLIANCE
" FROM EDGE OF
COOKING APPLIANCE
CENTERLINE OF
HAZARD COVERED
BY BACKSHELF
SIX BURNER RANGE - FRONT VIEW RANGE - RIGHT SIDE VIEW
December 2008 Section 3 KP Design : Page 3 —24
Amerex Restaurant Fire Suppression System (EX 4658)
BSM: Back Shelf Manifold Asy. - (PIN 17461 with nozzles)
The BSM (P/N 17461) is comprised of three Amerex nozzles, positioned on a 450 angle and
spaced 12" apart. All nozzles are in the same plane of alignment and at the same height. This is
accomplished by the use of the Amerex manufactured manifold. The manifold is constructed from a
custom aluminum extrusion which is machined to the precise requirements needed to maintain
proper alignment of the nozzles. Connection to the nozzle branch piping may be made from either
end of the assembly. The opposite end of the assembly is to be plugged with a 3/8" pipe plug. The
manifold should appear as illustrated.
I ]I\LL I / ) I L'JVV I JIIN I N'JLLLL.)
The BSM is to be used as an assembly of three nozzles and will carry a flow point value of one (1).
It is designed to extinguish fires located under the back shelf when they occur on the back three
burners of a six-burner range (15" x 42") or the back portion of a griddle. It never takes the place of
the overhead nozzle, but simply provides additional agent to extinguish any and all fires beneath
the back shelf or salamander.
The same limitations apply to salamanders that are applied to back shelves.
When the BSM is used to protect a griddle positioned under a back shelf, the manifold is installed
on the centerline of the portion of the griddle covered by the back shelf or salamander. The
maximum amount of back shelf coverage allowed for griddles is 16". The location of the overhead
nozzle is always to be to the front edge of the griddle. See required nozzle and aiming
requirements on the next pages for details on griddle protection.
The following pages are examples of manifold placement under several conditions of back shelf
use. The following schematics represent the only nozzle combinations permitted with a BSM.
Note: When using the BSM assembly for range protection only the Range Nozzle (14178) is
permitted in the overhead protection position as indicated on the schematics.
NOZZLE TIP
TO EDGE OF
GRIDDLE
30"X42" GRIDDLE
15-20" SHELF HEIGHT
FRONT VIEW
December 2008 Section 3 KP Design Page 3 —25
Amerex Restaurant Fire Suppression System (EX 4658)
a
BACKSHELF MANIFOLD IS LOCATED
ON THE CENTER OF THE HAZARD AT
A NOZZLE TIP HEIGHT OF 14-19".
BACKSHELF
REAR EDGE
16"j to MAX
BACKSHELF/
S
FRONT EDGE
OZZ N 14178 MUST BE
NT
30"X 48" GRIDDLEF
ONTHE EDGE OF THE
AT A HEIGHT O
THE POINT WHERE A STRAIGHT LINE
TOP VIEW FROM THE NOZZLE TO THE CENTER OF THE GRIDDLE 5 CROSSES AN ELEVEN INCH SQUARE PLACED ABOUT
THE CENTER.
BACKSHELF MANIFOLD IS LOCATED
ON THE CENTER OF THE HAZARD AT
A NOZZLE TIP HEIGHT OF 14-19. BACKSHELF
REAR EDGE
16"
MAX
8
- 7" -
FRO
BACKSHELF CENTERP( FRONT EDGE
30"X42" GRIDDLE
NOZZLE P/N 16416 MUST BE LOCATED
ON THE FRONT EDGE OF THE GRIDDLE
AT A HEIGHT OF 24"- 43"
TOP VIEW
I43
7
24"
ABOVE FRONT EDGE
OF GRIDDLE
IANIFOLD NOZZLE TIP
4-19" ABOVE HAZARD]
BACKSHELF
AIM POINT
w
NOZZLE P/N 14178 MUST
24"- 48" BE LOCATED ON THE FRONT
ABOVE FRONT EDGE EDGE OF THE GRIDDLE
OF GRIDDLE
NOZZLE TIP
TO EDGE OF
ir •
GRIDDLE
o .
30"X48 GRIDDLE S
FRONT VIEW :
The schematic above shows the protection method on two different size griddles (30"x42" & 30"x48") that
are positioned under a back-shelf. Note that the shelf extends 1" beyond the center of the griddle (16")
and covers the entire width of the griddle, all which are within the parameters of the listing. Also,
recognize that the centerlines of the manifolds are congruent with the centerline of the hazard covered by
the back-shelf. Each manifold must be located on the centerline of the hazard area it is to protect.
The P/N 16416 nozzle plus a BSM (back-shelf manifold) will protect griddles up to 30"x42" maximum, with
a back-shelf that covers no more than 16" of griddle. Total flow point value is 2 flow points. The
overhead nozzle must be located on the front edge of the griddle aimed at a point 7" back from the center
of the hazard area on a straight line from the nozzle to the center of the hazard.
The P/N14178 nozzle plus a BSM (back-shelf manifold) will protect griddles up to 30"x48" maximum, with
a back-shelf that covers no more than 16" of griddle. Total flow point value is 3 flow points. The
overhead nozzle must be located on the front edge of the griddle aimed at a point where a straight line
from the nozzle to the center of the griddle crosses an 11" square placed over the center of the griddle.
S
MANIFOLD NOZZLE TIP
14-19" ABOVE HAZARD
BACKSHELF
December 2008 Section 3 KP Design Page 3 - 26
Amerex Restaurant Fire Suppression System (EX 4658)
The schematic below shows the protection of a six-burner range (28"x42") that is positioned under a
back-shelf. Note that the shelf extends 1' beyond the center of the range and covers 15" of the
burners, all which are within the parameters of the listing. The manifold must be located on the
centerline of the hazard area it is to protect. A P1N14178 nozzle is used for the protection of a group
of four burners in the typical overhead position. The arrangement below places the second nozzle in
the most optimum position for protection of a six-burner range.
REAR EDGE OF
BACKSHELF
Oil 1101011 NJ" F64, 5110, -f F - -BACKSHELF MANIFOLD LOCATED
ON THE CENTERLINE OF THE HAZARD
COVERED BY THE SHELF
FRONT EDGE OF
BACKSHELF
NOZZLE P/N P/N 14178 MUST BE LOCATED
OVER THE CENTER OF FOUR BURNERS
AT A HEIGHT OF 22 - 42'.
I11YAIYA!
6 BURNER RANGE
14" X 14" BURNERS
P/N14178 NOZZLE HEIGHT TO BE
22" - 42" ABOVE THE RANGE
BACKSHELF
11. NOZZLE TIP
TO EDGE OF
BURNER
MANIFOLD NOZZLE TIP
14-19" ABOVE HAZARD
15-20" SHELF HEIGHT
6 BURNER RANGE
FRONT VIEW
December 2008 Section 3 KP Design Page 3 - 27
Amerex Restaurant Fire Suppression System (EX 4658)
The schematic below shows the protection of a griddle (30"x42") & a six-burner range (12" burners)
that are positioned under a back-shelf. Note that the back-shelf extends 1" beyond the center of the
range and covers 16" of the griddle, all which are within the parameters of the listing. Also,
recognize that the centerlines of the two manifolds are not congruent. Each manifold must be
located on the centerline of the hazard area it is to protect.
/- END OF HOOD
OUTLINE OF BACKSHELF
BACKSHELF MANIFOLD W/NOZZLES
END OF HOOD
& SHELF
LOCATED ON THE CENTERLINE OF
THE HAZARD COVERED BY THE SHELF
-
FRYER NOZ
P/Ni 3729
7' FROM
CENTERPOIN
30" X42" GRID
FRYER
BURNER RANGE
14" X 14" BURNERS NOZZLE P/N 16416 MUST BE LOCATED
NOZZLE P/N 14178 MUST BE LOCATED N THE FRONT EDGE OF THE GRIDDLE O
AT A HEIGHT OF 24 - 43" OVER THE CENTER OF FOUR BURNERS
AT A HEIGHT OF 22"- 42'.
TOP VIEW
HOOD
FRYER NOZZLE RANGE NOZZLE GRIDDLE NOZZLE
P/N13729 P/N14i78 P/N 16416
22-42" o OVER CENTER OF
BURNER GROUP
MANIFOLD NOZZLE TIP tr—
BACKSHELF F14'-19' ABOVE HAZARD
24"-43"
FRONT EDGE
IF GRIDDLE
' NOZZLE TIP
TO EDGE OF
BURNER
FRYER 6 BURNER RANGE
FRONT VIEW
' NOZZLE TIP
TO EDGE OF
GRIDDLE
U
30"X42" GRIDDLE
15-20" SHELF
HEIGHT
Appliance
Nozzle PIN Flow
Points Width Length Mm.
Height
Max.
Height
Deep Fat Fryer — without Drip Board 13729 2 19 1/2 in. 19 in. 36 in. 48 in.
Deep Fat Fryer — with Drip Board 13729 2 19% in. 253/8 in. 36 in. 48 in.
Deep Fat Fryer - without Drip Board 13729 2 26 24 36 in. 50 in.
Deep Fat Fryer—with 1" Drip Board 13729 2 26 25 36 in. 50 in.
Deep Fat Fryer — with Drip Pan Low Proximity 2-11982 2 19% in. 253/8 in. 17 1/2 in. 36 in.
Range - Single Burner 11984 % 18 in. 18 in. 20 in. 42 in.
Range — Two Burner (14" Burner) 11982 1 14 in. 28 in. 44 in. 48 in.
Range — Two Burner (12" Burner) 11982 1 12 in. 24 in. 36 in. 50 in.
Range- Two Burners w/Back Shelf (12" Burner) 11982 1 12 in. 24 in. 40 in. 47 in.
Low Back-Shelf/Salamander— BS Manifold 17461 1 14 in. 42 in. 14 in. 19 in.
Range - Three Burners (Special Aiming) 2-11984 1 12 in. 36 in. 20 in. 30 in.
Range -Four Burners (12" Burner) _14178 2 24 in. 24 in. 18 in. 50 in.
Wok 11982 1 14-24 dia. 4-7 depth 40 in. 50 in.
Griddle 11982 1 30 in. 36 in. 30 in. 48 in..
Griddle - Overhead Protection 13729 2 30 in. 42 in. 38 in. 50 in.
Griddle 14178 2 30 in. 48 in. 15 in. 50 in.
Upright Broiler 2-11984 1 30 1/2 in. 28 1/2 in. - -
Charbroiler (Lava Rock) 11983 11/ 24 in. 24 in. 18 in. 44 in.
Charbroiler (Gas Radiant & Electric Radiant) 11982 1 24 in. 24 in. 18 in. 48 in.
Chain Broiler - Closed Top 11982 1 - 241/2 in. 31 in. - -
Chain Broiler - Open Top 13729 2 241/2 in. 31 in. 12 in. 36 in.
Chain Broiler— Nieco Model 9025 /Catalyst (2) 4-11982 4 18 in. 24 in. 13 in. 36 in.
Chain Broiler - Duke (with I without Catalyst or Damper) 2-13729 4 - - 15 in. 30 in.
Natural & Mesquite Charcoal Charbroiler 11983 1 % 24 in. 28 1/2 in. 16 in. 42 in.
Mesquite Chips & Chunks Charbroiler 11983 1 % 24 in. 28 1/2 in. 16 in. 48 in.
Mesquite Log Charbroiler 11983 1 % 24 in. 28 1/2 in. 19 in. 44 in.
Plenum Nozzle P/N Flow
Points Width Length
10 ft. Single BankN-Bank 11982 1 4 ft.
Duct Nozzle P/N Flow
Points
Max.
Perimeter Diameter Length Max.
Diagonal
Rectangular 16416 1 50 in. - Unlimited 18.8 in.
Circular 16416 1 - 16 in. Unlimited -
Rectangular 2-16416 2 51 to 82 Unlimited 18.8 in.
Circular 2-16416 2 26 in. Unlimited -
Rectangular 2-11983 3 100 in. - Unlimited 37.2 in.
Circular 2-11983 3 - 32 in. Unlimited -
Rectangular 3-11983 4% 150 in. - Unlimited 55.9 in.
Circular 3-11983 41/
- 48 in. Unlimited -
Protection is not limited to the items listed on this chart. Modulizing larger appliances are an acceptable practice.
See your Amerex KP Manual for additional information.
CD C) CD
3
07 CD.
N)
00
............................................ AMEREX KP RESTAURANT SYSTEM NOZZLE APPLICATION CHART
Pipe -
1,4' NPT schedule 40 made of stainless steel,
galvanized, chrome plated or black iron pipe:
Maximum length - 22.2 feet (6.77m)
Maximum tees - 9
Maximum elbows - 9 (note: 2 - 450 elbows = 900)
Note: Different methods of constructing the actuation network may
be mixed provided that the shortest limitations are followed,
Example: A mix of 1/4" copper tubing and 1/4" high pressure hose
requires that the hose limitations be followed (no more than 54 feet
[16.46m]) for the complete network. A mix of 1,4 high pressure hose
and 1/4" pipe requires that the pipe limitations be followed (no more
than 22.2 feet [6.77m]) for the complete work.
Nitrogen Cylinder 10 Cu. in.,
Maximum Total Length for: Feet Meters
/4 Copper tubing Y4" 100 30.48
1/4 ID Hose 54 16.46
1/41 Schedule 40 Pipe 22.2 6.77
December 2008 Section 3 KP Design Page 3 —29
Amerex Restaurant Fire Suppression System (EX 4658)
V
AGENT QUANTITY AND CYLINDER SELECTION:
After reviewing the hazards and determining the number and type of nozzles that will be required, the quantity
of agent and the number and type of cylinders must be selected. Adding the number of flow points that are
needed for the system will determine the agent quantity and cylinder options.
ONE 2.75 GALLON CYLINDER (PIN 16921) WILL SUPPLY SUFFICIENT AGENT FOR UP TO
AND INCLUDING 8 FLOW POINTS.
ONE 3.75 GALLON CYLINDER (PIN 13334) WILL SUPPLY SUFFICIENT AGENT FOR UP TO
AND INCLUDING 11 FLOW POINTS.
ONE 4.75 GALLON CYLINDER (PIN 17379) WILL SUPPLY SUFFICIENT AGENT FOR UP TO
AND INCLUDING 14 FLOW POINTS.
Cylinders may be used together for multiple cylinder systems with one MRM, MRM II or PRM. A
MAXIMUM OF 10 KP 275/375/475 AGENT CYLINDERS MAY BE USED PER MECHANICAL RELEASE
MODULE OR PNEUMATIC RELEASE MODULE.
ONE 6.14 GALLON CYLINDER (PIN 15196) WILL SUPPLY SUFFICIENT AGENT FOR UP TO
AND INCLUDING 18 FLOW POINTS.
A MAXIMUM OF 6 KP 600 AGENT CYLINDERS MAY BE USED PER MRM, MRM II or PRM. ANY
COMBINATION OF CYLINDERS INVOLVING THE KP600 CYLINDER IS LIMITED TO A TOTAL OF 6
CYLINDERS PER MRM, MRM II or PRM.
:
ACTUATION NETWORK LIMITATIONS - MRM, MRM II OR PRM
The actuation network for the Amerex Restaurant Fire Suppression System consists of factory supplied hose;
installer supplied copper tubing or pipe that connects the MRM, MRM II or PRM to each cylinder discharge
valve. A single MRM, MRM II or PRM is capable of actuating up to ten (10) 2.75 / 3.75 / 4.75 gallon agent • cylinder discharge valves or six (6) 6.14 gallon agent cylinder discharge valves by discharging a single 10 in
nitrogen cylinder (P/N 12856) through the actuation network. If the network is a combination of any of the
2.75, 3.75 and or 4.75 with a 6.14 gallon cylinder, then maximum number of cylinders is six (6).
Note: A vent plug (P/N 10173) must be placed in an accessible location anywhere in
the actuation line to aid in releasing pressure after the system has discharged.
See the RECHARGE Section 7.
15 LIMITATIONS (SINGLE OR MULTIPLE CYL SYSTEMS) Vent Plug PIN 10173
Copper tubing - 1/4" 0. D. refrigeration type with a minimum wall thickness of .049 inches. Use with brass or
steel compression style fittings (with brass or steel sleeves or ferrules). Maximum length (including all fittings)
100 feet (30.48 m)
High Pressure Hose - 1/4" I.D. wire braid hose that is factory supplied. Maximum length (including all fittings)
54 feet (16.46 m) or a maximum number of 40 hose assemblies P/N 12854, 20 hose assemblies P/N 16448,
or any combination that does not exceed a total of 54 feet (16.56 m)
Possible location for Mechanical Release Module
Vent Plug P/N 10173 (whO in cyl)
S
I
Mechanical Release Module
(whO In cyl) I
S
VAgent
to 75I475
maximum
0 I Cylinders - maximum
S
I
P1 RNII IA 1\P771 P
MANUAL
ACTUATOR
KP375 CYLIND
PNEUMATIC RE
MODULE
01 OMI IM l\IA77I P
MANUAL
ACTUATOR
KP375 CYLND
PNEUMATIC R
MODULE
December 2008 Section 3 KP Design Page 3 —30
Amerex Restaurant Fire Suppression System (EX 4658)
PLENUM NOZZLE
DUCT NOZZLE
A Supply Line is the
distribution piping that
runs from the distributor
outlet or discharge fitting
to the first splitting tee.
LINEAR DETECTOR
TUBING
MRM OR
____APPLIANCE NOZZLES PRM
MANUAL I
ACTUATOR —E
KP375 CYLINDER ASY
PNEUMATIC RELEASE
MODULE
GAS VALVE
A Supply Branch Line
(including the last nozzle
branch) is the distribution
piping that runs from the
first tee at the hood to the
last nozzle in the system
including all fittings used to
exit the supply branch line.
A Nozzle Branch Line is
the distribution piping that
runs from the supply
branch tee splitting to the
nozzles including all
fittings used to exit the
supply branch line.
GENERAL PIPING REQUIREMENTS:
All pipe used for the distribution network must be schedule 40 (black, chrome or
stainless steel) pipe.
Piping limitations are expressed in linear length of pipe. Linear piping is the actual
length of straight pipe used throughout the system.
WARNING: GALVANIZED PIPE IS NOT ALLOWED
Maximum flow point per cylinder: Model 275 = 8 flow points
Model 375 = 11 flow points
Model 475 = 14 flow points
Model 600 = 18 flow points
Twin 375 = 22 flow points
NOTE: THESE ARE EXAMPLES ONLY - OTHER CONFIGURATIONS CAN BE DESIGNED
ru
10 Feet
L
Supply Branch
Plenui
Fryer Griddle Range
December 2008 Section 3 KP Design Page 3 —31
Amerex Restaurant Fire Suppression System (EX 4658)
TYPICAL KP DISTRIBUTION NETWORK FOR SINGLE 375 CYLINDER SYSTEM
Duct
Cylinder Outlet
Du
4 Feet ,,-r_j
ct
Supply
I
4.
4 Feet Max.
10 Feet Max.
- Duct Supply Branch
Nozzle ~~L7
V Fryer
Plenum Nozzle
Branch
Griddle
(Overhead)
Range
11 Cylinder Outlet
SPLIT PIPING SYSTEM
NOTE: The schematics above do not represent the only configurations possible - they are
informational only.
December 2008 Section 3 KP Design Page 3 - 32
Amerex Restaurant Fire Suppression System (EX 4658)
TYPICAL KP DISTRIBUTION NETWORK FOR TWIN 375 CYLINDER SYSTEM
4 Feet Max. 1/20 Supply Line
!L
Plenum
10 Feet Max.
Cylinder
Outlet
4 Feet
Max.
Duct
1/o Supply Branch
Duct
Nozzle
Branch
'L411P Gas Radiant
Plenum
II
Fryer Griddle Range
Nozzle
I;I
Wok
Nozzles
le Branch
STRAIGHT PIPING SYSTEM
Duct Duct
Supply Branch Nozzle
4 Feet Max. Branch
IF Supply Line
Wok
Fryer Fryer
/814
lO Feet Max. Pl
enum
CYLINDER
Griddle /8' Nozzle
Range Branch
OUTLET 4. 4,
4 Feet Gas Radiant Charbroiler
Max.
SPLIT PIPING SYSTEM
NOTE: The schematics above do not represent the only configurations possible - they are
informational only.
March 2012 Section 3 KP Design Page 3 - 33
Amerex Restaurant Fire Suppression System (EX 4658)
DISTRIBUTION PIPING LIMITS for KP FIRE SUPPRESSION SYSTEM ONLY
DESIGN LIMITS FOR ALL CYLINDER SIZES
When designing a KP System to protect a kitchen containing a Fryer, Wok or Range, the following
MINIMUM TOTAL SYSTEM PIPING must be used in accordance with the chart below:
SUPPLY LINE LIMITATIONS:
All pipe and fittings running from the distributor block or the discharge fitting to the first tee.
CYLINDER
FLOW POINTS
MAXIMUM
PIPE SIZE FEET
LINEAR
OF PIPE
MAX. QTY.
TEES
MAX. QTY.
ELBOWS
MAX. QTY.
BUSHINGS
YI; •
'.1.
!l. I
.1iIsI; fr
NOTE: 1. Use 3/8" supply line only when all piping is to be 3/8" pipe.
2. The supply line has a maximum vertical rise above the distributor of 10 feet.
SUPPLY BRANCH LINE (including last nozzle branch) LIMITATIONS:
All pipe and fittings leaving the first splitting tee in the system and ending with the last nozzle in the last
branch line. While the last nozzle branch is included in the piping limitations for the supply branch line, the
limitation (pipe size and maximum length) for nozzle branch lines apply to this portion of the supply branch
line.
CYLINDER MAX. FEET OF MAX. MAX. MAX. QT Y, '-
QTY.
POINTS PIPE SIZE
275 - 8 3/8 20 25 7 8
375-11 3/80R1/2 27 30 10 8
475 -14 3/8 27 30 12 8
600-18 AS NOTED 35' OF 3/8" OR 1/2" 50'3/8" PIPE ONLY 14 8
Two-375-22 AS 40' of 1/2 45 of 1/2 18 8
NOTEED (*3Q of 3/8") (*30'of 3/8")
NOTE: t In a single 375 Gallon Straiaht Pine Svstem 5' of nine may he trqnqfPrrPr1 from the siinnlv line
to the supply branch line.
- -.
* 2. The use of 3/8" pipe with two manifold KP375s is only permitted when the SUPPLY LINE
length is equal to or less than 20'.
NOZZLE BRANCH LINE LIMITATIONS:
All pipe and fittings leading from the supply branch tee to a system nozzle.
CYLINDER
FLOW POINTS PIPE SIZE
TOTAL LINEAR
FEET OF PIPE
MAX. QTY.
TEES
MAX. QTY.
ELBOWS
MAX. QTY.
BUSHINGS
• p
yI. 1i
IsI,E; 1;
1: 1:
See page 3-33A for General System Limitation.
March 2012 Section 3 KP Design Page 3 7 33A
Amerex Restaurant Fire Suppression System (EX 4658)
GENERAL SYSTEM LIMITATIONS:
No 1/2' pipe nozzle branches less than 12" in length are allowed.
There is a maximum of (4) flow points on all nozzle branch lines.
The types of nozzles on a nozzle branch line may be mixed.
In the case of a system piping network having all single flow point nozzles, there shall be no nozzle
branch line less than 12" in length.
Example: A piping network for a Model 275 Agent Cylinder has 8 single flow point nozzles. Therefore
each nozzle branch line must be at least 12" long.
The cylinder discharge fitting, hose and distribution block are not included in the piping calculations.
If a flex distribution hose is used on a nozzle branch line, then 48" of piping shall be subtracted from the
overall nozzle branch piping limitations.
Any fitting(s) associated with the installation of a flex distribution hose shall be counted against the
overall nozzle branch piping limitations.
No mixing of pipe sizes within a piping category (supply line, supply branch line, nozzle branch line) is
allowed. (i.e. one nozzle branch line is %" pipe - all nozzle branches are to be 1/2" pipe.
1/2" pipe for nozzle branches is allowed only in an (11) flow point system.
The maximum allowable vertical rise of pipe above the supply branch line for any duct nozzle branch is
4 feet (122 cm).
P/N 12508 DETECTOR BRACKET
ASSEMBLY MAXIMUM QUANTITY AS
SPECIFIED.
P/N 12859 TERMINAL LINK CLAMP
INSTALL IN CONDUIT CONNECTOR
OF LAST DETECTOR BRACKET
ASSEMBLY.
December 2008 Section 3 KP Design Page 3 - 34
Amerex Restaurant Fire Suppression System (EX 4658)
SPOT DETECTION NETWORK LIMITATIONS: MRM & MRM II
Optimum fire suppression system performance relies on proper detection network design. This section
discusses the type of detectors used, their selection, and placement and design limitations.
The Amerex Restaurant Fire Suppression System MRM & MRM II uses a continuous cable, corner pulleys,
detector bracket, detector linkage, fusible links, conduit offset, terminal link connector and a temperature-
measuring device.
The quantity of detectors to be used in a system will depend on the number of ducts, number of appliances and
the location of the appliances under the hood.
DETERMINING SPOT DETECTOR LOCATION AND NUMBER OF DETECTORS
In order to detect a fire in the duct, a detector is required to be placed within the duct opening or up to 12 inches
into the duct. If it is mounted into the duct, the bracket shall not shield the fusible link from the hot vapors
moving through the duct.
TYPICAL SINGLE I I CYLINDER SYSTEM
Every appliance under the hood that is being
protected by the suppression system must
have a detector placed over it and
positioned within the path of exhaust vapors.
WARNING: DO NOT LOCATE DETECTORS
DIRECTLY IN THE PATH OF GAS APPLIANCE
EXHAUST FLUE GASES. DOING SO COULD
RESULT IN UNNECESSARY DISCHARGE OF
THE SYSTEM.
SIID
GENERAL LIMITATIONS OF DETECTION NETWORK:
Maximum of 30 corner pulleys. (either style)
Maximum of 30 detectors (any combination of temperature settings).
Maximum of 200 feet of cable on the detection network.
No pulley tees are allowed.
Remote manual pulls are not allowed on the detection network.
Maximum of 1 conduit offset (must be located at mechanical release module when chosen).
ATTACH DETECTION NETWORK
TO ANY ONE OF THREE SIDES.
12 O'CLOCK /
POSITION / / CONDUIT OFFSET
3 O'CLOCK
POSITION
6 O'CLOCK CABLE LENGTH AND CORNER
POSITION PULLEY MAXIMUMS AS
SPECIFIED
December 2008 Section 3 KP Design Page 3 - 35
Amerex Restaurant Fire Suppression System (EX 4658)
LINEAR FUSIBLE LINK DETECTION NETWORK OF SPOT DETECTORS
The standard spot detection system may be installed in a manner that will yield linear detection for the entire
length of the hood without concern for where the appliance is located under the hood.
Why would I use this method over the lanyard linear fusible link system?
You want linear detection for the full length of hood but the limit of twenty links is not enough for the
length of hood being protected.
You are protecting two hood and they are back to back, the lanyard system must be installed in a
straight line.
You have two hoods that are end to end but one of the hoods only has one appliance requiring
protection. The lanyard system is used for total linear detection of the entire hood. This version of
detection allows you to use total linear hood detection on one hood and spot detection on the
second hood.
This is accomplished by installing the link brackets so that there is a link no more than 24" from each end of the
hood and no more than 24" between each successive link center. You must locate one link in the hood I duct
opening.
The limitations on the amount of cable and links that can be used in the system are the same as that for the
standard spot detection system.
Limitations: Maximum of 30 corner pulleys. (Either style)
Maximum of 30 detectors (any combination of temperature settings)
Maximum of 200 feet of cable in the detection network.
No Tee Pulleys are allowed
Remote manual pulls are not allowed on the detection network.
Maximum of 1 conduit offset (must be located at the Mechanical Release Module)
EXHAUST
DUCT
HOOD
MAX. 24" MAX. _/J 24" MAX.-.-24" MAX.
ZONE LINK MUST BE IN THE
HOOD / DUCT OPENING
December 2008 Section 3 KP Design Page 3 - 36
Amerex Restaurant Fire Suppression System (EX 4658)
LINEAR FUSIBLE LINK DETECTION NETWORK - LANYARD SYSTEM
LINK TO LINK
CABLE SEGMENT
24" MAX. DIST. 24" MAX. DIST. LINK TO MRM FROM END OF HOOD LINK TO LINK CABLE SEGME
FROM END OF HOODLL.
DUCT
M rz PLENUM
__
0 \
ERMINAL CABLE -1 / 11 TERMINAL CABLE 24" MAX. DIST. SEGMENT REQUIRED ON EA CH SIDE FROM END OF HOOD OF THE DUCT TERMINAL CONNECTOR
I & EMT FITTING
HANDY CONDUIT BOX
2118"X4" HOOD
The Linear Fusible Link Detection System provides complete hood fire detection by placing thermal
links at maximum 24" intervals the entire length of the hood. Installing the links in this manner allows
the appliances to be placed anywhere under the hood without having to locate links directly over each
appliance.
A unique system of cable segments, pre-fabricated, has been developed to make the installation of
this system simple and easy. It eliminates the use of conduit, link holders and mounting brackets
under the hood in the plenum area.
The limitations of the Linear Fusible Link Detection System are as follows:
Maximum of 20 detection links and (19) Link to Link Cable Segments.
Maximum of 30 feet of cable used in the Link to MRM Cable Segment.
Maximum of 20 corner pulleys. (either style)
Maximum unsupported detection cable length is 8'-0".
Refer to Fusible Link Selection section, page 3-24 of this manual for proper selection process.
The higher setting links are to be used when higher temperatures are encountered with
appliances such as char-broilers.
The Linear Fusible Link Detection System is for use in single hood applications, or where
multiple hoods are connected "end to end" only. It cannot be used for "back to back" hood
arrangements or multiple hoods that are mounted in separate locations and are part of a
single Restaurant Fire Suppression System.
Decémbér 2008 Section KP Design Page 37
Amerex Restaurant Fire Suppression System (EX 4658)
FUSIBLE LINK SELECTION
To assure that the appropriate temperature is selected, the temperature sensing device must be used at each
detector location while the cooking line and exhaust fan is operating. Temperatures found at each detector
should be recorded and placed with other documentation in the job file for future reference. Selection of fusible
links should be made according to the temperature measured:
Globe Type "K' Standard Response
Temperature Measured Link Rated Temp., Part No.
70° to 150°F(21°t065°c) 212°F (100°C) 12326
151° to 225°F (66° to 107°C) 280°F (138°C) 12327
226° to 300°F (21° to 65°c) 360°F (182°C) 12328
301° to 375°F (21° to 65°c) 450°F (232°C) 12329
376° (192°C) & above consult factory Consult factory
Job Quick Response Links
Temperature Measured Link Rated Temperature
Job Link
Part Number
700 to 150F (210 to 650c) 200°F (93°C) Quick Response 16225
151° to 225°F (660 to 107°C) 286°F (141°c) Quick Response 16226
2260 to 300°F (1080 to 149°C) 360°F (182°C) Quick Response 16227
DETECTION NETWORK LIMITATIONS: PRM
Select a suitable location for the pneumatic release module (PRM) that has access for installation, service,
recharge and where both the nitrogen actuation cylinder pressure gauge and the system status indicator can be
viewed. The PRM has provisions for a single, continuous section of detection tubing. "No Splicing" and "No
Tees" are allowed. There shall be only two tubing terminations - one at the accumulator cylinder inside the
PRM and the other at the opposite end of the tubing, with the use of an End of Line fitting (P/N 16506). Install
in areas where the Maximum Sustained Ambient Temperature does not exceed 176°F (80°C) and the
Maximum Intermittent Safe Exposure Temperature is 375°F (190.50C).
0ptional Tubing Exit
\o o oj
TI--
Dimensions:
15" tcH
17" wide
5.02" deep
SEE SECTION 4 "INSTALLATION" FOR ROUTING INFORMATION ON DETECTOR TUBING PAGE 4-5
December 2008, Section 3 KP Design Page .3 - 38
Amerex Restaurant Fire Suppression System (EX 4658)
MANUAL PULL STATION NETWORK LIMITATIONS
Every Amerex Restaurant Fire Suppression System installation must have at least one manual pull station. The
manual pull station network consists of cable, corner pulleys, pulley tee, manual pull station(s) and optional
conduit offset.
GENERAL LIMITATIONS OF MANUAL PULL STATION NETWORK
Maximum of 20 corner pulleys per manual pull station
Maximum of 130 feet of cable per manual pull station
Maximum of 1 pulley tee per network (counts as one corner pulley for each manual pull station)
Maximum of I conduit offset per network (must be attached to the MRM and before tee pulley when chosen)
NOTE: Manual pull stations should be installed no higher than 48 inches from the floor and must be
along a path of egress. Consult the local Authority Having Jurisdiction (AHJ) for the final
approval for manual pull station quantity, locations and mounting height and other
considerations prior to finalizing manual pull station mounting details.
ATTACH MANUAL PULL STATION
NETWORK TO ANY ONE OF THREE SIDES.
12 O'CLOCK /
POSITION /
/CONDUIT OFFSET - - -
/ (OPTIONAL) ff
MRM
or-
MRM
II p
or _-
PRM 3 O'CLOCK
POSITION
6 O'CLOCK
POSITION
DENOTES "SINGLE PATH" FOR CABLE LENGTH
& PULLEY QUANTITY CALCULATION. _
\ I
P
MRM
or
MRM II
or
PRM PULLEY
SINGLE STATION
NETWORK
DUAL STATION
NETWORK
NOTE: The manual pull station(s) are the only MANUAL means of activating the Amerex
Restaurant Fire Suppression System.
April 2011 Section 3 Design Page 3 - 38A
Amerex Restaurant Fire Suppression System (EX 4658)
Dual MRM Installations Protecting a Single Hazard:
Certain circumstances may require additional link line capability, detectors, or manual pull stations to protect a
single hazard. Examples would include multiple hoods in close proximity to one another (or interconnected). It
is possible to install two MRM's to protect such hazards as a single hazard zone.
DETECTION
NETWORK
DETECTION
NETWORK
Ul
PULL
MRM STATION
#2
NETWORK
PULL
STATION
NETWORK
COPPER
TUBING
CHECK
VALVES
F -----------1
MRM ACTUATION NETWORK
Note: Ensure that the arrows on the PN 10262 Check Valves are pointed into the Tee, as shown above. Use
only two Check Valves, oriented at the Tee, as shown. The purpose of the Check Valves is to prevent
one MRM from back-pressurizing the MRM that does not trip.
Limitations:
Adhere to the MRM actuation limitations as given on pages 3-29, 3-34 thru 3-36 & 3-39. The maximum
length of tubing from the MRM to the last Agent Cylinder is determined as the direct single path from each
MRM through the Tee.
Detection Networks are to remain independent from MRM #1 to MRM #2, and must adhere to previously
stated limitations.
Manual Pull Networks are to remain independent from MRM #1 to MRM #2, and must adhere to previously
stated limitations.
There is no Mechanical Gas Valve function with this installation option. Gas Valve closure is to be
accomplished via a Manual Reset Relay and an Electric Gas Shut-off Valve
Any electrical function must be wired in either series (Normally-Closed function) or in parallel (Normally-
Open function) through a micro-switch in each MRM. This will ensure that the firing of either MRM will
facilitate the required function.
A clearly visible sign or placard must be placed securely adjacent to each of the two MRMs with the wording
similar to the following:
"This Releasing Control Head is One of Two Units. Both Units Must be Serviced
Together, in Conjunction with the Fire Suppression System".
Warning: All Electrical Field Wiring should be performed by a Licensed Electrician per NFPA 70.
CONDUIT OFFSET
(OPTIONAL)
MRM SINGLE GAS
or VALVE
MRM 11 NETWORK
or
PRM
DENOTES ,,c.I.IrI r
CABLE LE
QUANTIT
AS
RK
December 2008 Section 3 KP Design Page 3 - 39
Amerex Restaurant Fire Suppression System (EX 4658)
MECHANICAL GAS VALVE APPLICATIONS
The MRM, MRM II or PRIM closes the mechanical gas valve immediately upon system discharge. A pneumatic
and mechanical action in the gas trip assembly pulls on a cable attached to the mechanical gas valve,
unlatching the valve and allowing an internal spring within the gas valve body to provide the closing force.
Connection of the cable from the gas valve to the MRM, MRM II or PRM under tension maintains the gas valve
in an open position.
MECHANICAL GAS VALVE
A mechanical gas valve trip assembly must be used
with any mechanical gas valve. The gas valve trip
assembly (PIN 12740) is included with all Amerex
manufactured gas valves but must be ordered
separately for use with gas valves listed in this AMEREX PART NO, 12740
manual supplied by other manufacturers.
See Section 3 "System Components" for all mechanical gas valves that are suitable
for use with the Amerex Restaurant Fire Suppression System. The use of any other
mechanical gas valves will avoid the UL listing for the system installation. All of the
listed valves have female NPT threads. The location of the gas valve should be
accessible and approved by the local Authority Having Jurisdiction. A contractor
licensed and qualified for such work should perform installation of the mechanical gas
valve into the gas line.
MECHANICAL GAS VALVE ACTUATION NETWORK LIMITATIONS
The mechanical gas valve actuation network consists of cable, corner pulleys, pulley tee, gas valve and conduit
offset.
GENERAL LIMITATIONS OF MECHANICAL VALVE NETWORK
Maximum of 20 corner pulleys per mechanical gas valve of any listed type in KP Manual
Maximum of 130 feet (39.6m) of cable per mechanical gas valve of any listed type in KP Manual
Maximum of I pulley tee per network (counts as one corner pulley for each mechanical gas valve)
Maximum of I conduit offset per network (must be located at the releasing module and before the tee pulley
when used)
December 2008 Section 3 KP Design Page 3 - 40
Amerex Restaurant Fire Suppression System (EX 4658)
ELECTRICAL GAS VALVE APPLICATIONS
110 VAC electrical gas valves may be used in place of the mechanical gas valves. The electric shut-off valve
used with the Amerex Restaurant Fire Suppression System must be UL listed for use with natural gas or
propane, be held open by energizing an electric solenoid and be wired through a snap action switch and
manual release relay. A qualified electrician must do any field wiring and connections involving the shut-down
of electrical cooking equipment or an electric gas valve.
PIN Size Manufacturer
12870 3/4"
Asco
12871
12872 1%"
12873 1W'
12874
12875 2 Y2"
12876
ELECTRIC GAS VALVE OPERATION
Power to the electric gas valve is run through the normally closed contact on a micro-switch located in the
Pneumatic Release Module (PRM) or Mechanical Release Module (MRM & MRM II) to the Manual Reset Relay
and from the Manual Reset Relay to the electric gas valve. In a normal (non fire) condition, current is allowed to
flow to the solenoid on the electric gas valve, holding the valve open. In a fire condition, when the release
module actuates the suppression system, the micro-switch contacts will transfer, opening the normally closed
contacts in the manual reset relay, interrupting current to the gas valve and cause it to close.
Resetting the MRM, MRM II or PRM and transferring the contacts back to a normal (normally closed) position
will not cause the electrical gas valve to open. The manual reset relay must be reset before current will flow to
the valve and cause it to open. A loss in electrical power, even temporary or momentary, will require someone
to manually reset the relay before the electrical gas valve will open again.
NOTE: SEE WIRING SCHEMATIC ON THE NEXT PAGE - A WIRING SCHEMATIC IS PACKED WITH
EACH MANUAL RESET RELAY.
December 2008 Section 3 KP Design Page 3-41
Amerex Restaurant Fire Suppression System (EX 4658)
WIRING DIAGRAM FOR THE MANUAL RESET RELAY
SNAP ACTION SWITCH N.O. CONTACT - BLACK WIRE
y FIRE SYSTEM SNAP ACTION
A A SWITCH RED WIRE
0 4 /\
S S•S •\( •• • 5,
NOTE: DO NOT USE YELLOW WIRE ON SNAP ACTION SWITCH INSTALLATION. YELLOW
WITE IS TO BE USED ONLY FOR EXTRANEOUS ALARM, LIGHT CIRCUITS, ETC.
December 2008 Section 3 KP Design Page 3 —42
Amerex Restaurant Fire Suppression System (EX 4658)
SNAP ACTION SWITCH APPLICATIONS
One Snap Action Switches, PIN 12524 is pre-installed in the Mechanical Release Module (MRM / MRM II) or
Pneumatic Release Module (PRM). Up to a total of four snap action switches may be installed.
Part No. Contacts Rating
12524
SPDT
Single Pole
Double Throw
21 Amps 125, 250 or 277 VAC
I HP 125, 250 or 277 VAC
2 HP 250, 277 VAC
I Red I Common I I I I Non Alarm I
I Condition Yellow N.O.
Black N.C.
Snap Action Switches may be used to perform a variety of output functions such as sounding an auxiliary
audible or visual alarm signaling device, sending a signal to an unsupervised building fire alarm system (a
requirement per NFPA 96 if the building is equipped with a fire alarm system), shutting down electric cooking
appliances, or disrupting power to an electrical gas valve.
WARNING: POWER TO COOKING APPLIANCES SHOULD NEVER BE RUN THROUGH THE SNAP
ACTION SWITCH, THE SWITCH SHOULD BE USED TO OPERATE A SEPARATE, CONTRACTOR
SUPPLIED, ELECTRICAL CONTACTOR OR MAGNETIC SWITCH OF SUFFICIENT RATING TO HANDLE
THE POWER REQUIREMENTS OF THE ASSOCIATED COOKING APPLIANCES. A LICENSED
ELECTRICIAN SHOULD PERFORM ALL ELECTRICAL FIELD WIRING.
WARNING: ELECTRICAL CONNECTIONS SHALL NOT BE MADE INSIDE THE MRM I MRM II OR PRM
ENCLOSURE. ROUTE THE LEADS FROM THE SNAP ACTION SWITCH THROUGH THE APPROPRIATE
KNOCK-OUT TO AN ATTACHED, LISTED ELECTRICAL JUNCTION BOX (DISTRIBUTOR SUPPLIED).
One alarm signaling Snap Action Switch, PIN 18312, is pre-installed in the MRM / MRM Ill PRM and is to be
used when the system is required to be electrically connected to a fire alarm system per NFPA 17 and NFPA 72
in a supervised, four-wire manner. It is designed to be mounted in the Mechanical Release Module (MRM I
MRM II) and the Pneumatic Release Module (PRM) only for the purpose of initiating an alarm in a fire alarm
system. All Snap Action Switch connections are to be made outside the MRM I MRM II I PRM in an approved
junction box.
NORMALLY OPEN.
LEADS SOLDERED IN PLACE
COMMON.
LEADS SOLDERED IN PLACE
Part No. Contacts Rating
18312 SPST 0.25A, 30 VDC
December 2008 Section 3 ZD Design Page 3 - 43
Amerex Restaurant Fire Suppression System (EX 4658)
ZONE DEFENSE DESIGN
THOSE INDIVIDUALS RESPONSIBLE FOR THE DESIGN & INSTALLATION OF THE AMEREX
"ZONE DEFENSE" RESTAURANT FIRE SUPPRESSION SYSTEM MUST BE TRAINED BY
AMEREX AND HOLD A CURRENT AMEREX CERTIFICATE OF TRAINING.
SYSTEM DESIGN
It is essential that any pre-engineered restaurant fire suppression system be properly designed, sized and
installed. This section covers the design aspects unique to the Amerex "Zone Defense" Restaurant Fire
Suppression System. The sketch below shows a typical Zone Defense System installed.
P1 PNII RA Nlfl771 P
MANUAL
ACTUATOR
ZONE C
CYLNDE
PNEUMATIC RI
MODULE
EXHAUST DUCT PROTECTION
The criteria for duct protection in a ZD System are the same as that for the KP System found in the
first half of this section.
PLENUM PROTECTION
The criteria for plenum protection in a ZD System are the same as that for the KP System found in
first half of this section.
DEDICATED APPLIANCE PROTECTION
When a ZD System includes protection for an appliance which cannot be protected by the ZD
Nozzles creating the "zone of defense", that appliance is to be protected using Dedicated Appliance
Protection. The Dedicated Appliance Protection is found in the preceding portion of this section.
December 2008 Section 3 ZD Design Page 3-44
Amerex Restaurant Fire Suppression System (EX 4658)
ZONE DEFENSE APPLIANCE PROTECTION
ZONE OF PROTECTION
NFPA 96- 10.1.1: "Cooking equipment that produces grease-laden vapors and that might be a
source of ignition of grease in the hood, grease removal device, or duct shall be protected by fire-
extinguishing equipment."
The Amerex "Zone Defense" Fire Suppression System has been approved and tested in compliance with
the requirements of NFPA 96 - "Standard for Ventilation Control & Fire Protection of Commercial Cooking
Operations, NFPA 17A - "Standard for Wet Chemical Extinguishing System" and UL-300 - "Fire Testing of
Fire Extinguishing Systems for Protection of Restaurant Cooking Areas". The Amerex "Zone Defense"
System provides two types of appliance protection; "Zone of Protection" and "Dedicated Appliance
Protection." The following is a list of eligible cooking appliances and their maximum cooking hazard size
that may be protected with the "zone of protection" nozzle coverage.
Maximum Cooking Hazard
34 in. deep x (5.6 Sq. Ft. total)
34 in. deep x Unlimited Length
26 in. Diameter x 7 in. Deep
14 in. Diameter x 4 in. Deep
30 in. deep x Unlimited Length
24 in. deep x Unlimited Length
24 in. deep x Unlimited Length
28.5 in. deep x Unlimited Length
(6 in. Maximum Fuel Depth)
28.5 in. deep x Unlimited Length
(6 in. Maximum Fuel Depth)
28.5 in. deep x Unlimited Length
(11 in. Maximum Fuel Depth)
Appliance Type
Fryer
Range
Wok - maximum
Wok - minimum
Griddle
Lava Rock Char-broiler
Gas or Electric Radiant Char-broiler
Mesquite Charcoal (Solid Fuel) Char-broiler
Mesquite Chips & Chunks Char-broiler
Mesquite Logs Char-broiler
ZONE OF PROTECTION - DEFINED
The "Zone of Protection" is a rectangular area 34" deep X the length of the hood in which an eligible
cooking appliance can be placed and be protection. The appliance may be moved to any location within the
"Zone of Protection" and be protected without any nozzles being moved or re-aimed.
The "Zone of Protection" is created by the use of overlapping spray from multiple nozzles creating an area
that is soaked by wet chemical agent. This is accomplished by placing Amerex ZD nozzles, part number
14178, in a straight line from one end of the hood to the opposite end. The nozzles are to be a maximum of
20 inches (50.8cm) apart on center and must start and end at a point no greater than 6 inches (15.2cm)
from the end of the hood. The nozzles are to be located 46 to 51 inches above the top surface of the
appliances and aimed straight down. The resulting "Zone of Protection" is a rectangular area 34" (86.4cm)
deep x length of hood with its front and rear edges 17" (43.2cm) from the centerline of the nozzles.
LENGTH OF HOOD
'1'
HOOD DEPTH
34" DEPTH
f PROTECTION CENTERLINE OF
ZD NOZZLES
ZD Nozzles
PN14178 (2xR)
46 51"
TOP OF APPLIAN
1iIU1UA I IZL) ArrLIAiNLt.
NOZZLE PROTECTION
6" MAX
IT'
6"- 51"
APPLIANCE
December 2008 Section 3 ZD Design Page 3 —45
Amerex Restaurant Fire Suppression System (EX 4658)
ZONE OF PROTECTION - CON'T.
The "Zone of Protection" requires that the nozzles be placed at 46 to 51 inches above the top surface of the
appliance, all ZD nozzles are to be placed at the same elevation and the nozzles are to be aimed straight
down. No additional aiming is required because the eligible appliances are protected no matter where they
are located within the "Zone of Protection". Therefore, the spray is not to be impeded in any manner.
When an appliance such as an upright broiler or salamander is part of the cooking appliance lineup, a
dedicated appliance nozzle must be used to protect it. The ZD nozzles cannot protect cooking appliances with
an enclosed cooking area such as an upright broiler or salamander. No ZD nozzles are required above the
upright broiler protected by a dedicated nozzle, however the ZD nozzle located to the right and left of
the appliance must be no more than 6 inches from the edge of the appliance. The illustration below
reflects the situation described above. The location of the upright broiler is now fixed and the appliance must
remain in this location.
Dedicated appliance protection of salamanders, cheese melters, chain broiler or a range with a back-shelf is
always in addition to the zone defense nozzles located overhead.
A Supply Line is the
distribution piping that runs
from the distributor outlet or
discharge fitting to the first
splitting tee.
P1 PMI IkA 1I0771 P
MANUAL
ACTUATOR
ZONE C
CYLI NDI
PNEUMATIC R:
MODULE
RI ENI P.4 N0771 F A Supply Branch Line (including
the last nozzle branch) is the
distribution piping that runs from the
first splitting tee at the hood to the
last nozzle in the system including all
fittings used to exit the supply branch
line.
MANUAL
ACTUATOR
ZONE
CYLINDE
PNEUMATIC RI
MODULE
P1 FNII PA 1Ifl77I P
A Nozzle Branch Line is the
distribution piping that runs from the
supply branch tee or elbow to the
nozzles including all fittings used to
exit the supply branch line.
MANUAL
ACTUATOR
ZONE C
CYLINDE
GENERAL PIPING REQUIREMENTS: PNEUMATIC RI
MODULE
December 2008 Section 3 ZD Design Page 3 —46
Amerex Restaurant Fire Suppression System (EX 4658)
All pipe used for the distribution network must be schedule 40 (black, chrome or
stainless steel) pipe. Stainless steel tubing for dedicated appliance protection
branches is permitted in accordance with limitations on page 3-16.
Piping limitations are expressed in linear length of pipe. Linear piping is the actual
length of straight pipe used throughout the system.
WARNING: GALVANIZED PIPE IS NOT ALLOWED
Maximum flow point per cylinder: 275 = 8 flow points
375 = 11 flow points
475 = 14 flow points
Twin 375 = 22 flow points
I NOTE: THESE ARE EXAMPLES ONLY - OTHER CONFIGURATIONS CAN BE DESIGNED I
S
S
December 2008 Section 3 ZD Design Page 3 - 47 I
Amerex Restaurant Fire Suppression System (EX 4658)1 S
S TYPICAL DISTRIBUTION NETWORK FOR ZD SINGLE 375 CYLINDER SYSTEM
Duct
IIII
Supply Branch 4 Feet Su 'ply I riç
A.
_____ S Plenum 47 4
5Fe Zone Defense Nozzles
I Frvr I I(rirHIJ IRnn
1 etMax.
Dedicated Nozzle Branch
El
S
Distributor
STRAIGHT PIPING SYSTEM S
S
immo-0- Duct
S
S
Duct
I
S
SUPPlY Branch
4 Feet Max.
Nozzle Branch S
_t
Plenum
5 Feet Max.
____
1 1
1'
-
1
S
Supply Line Zone Defense Nozzles 5
IFryers I Range lIGriddlel — 5
I S
- Li Distributor S
S
S
SPLIT PIPING SYSTEM 5
S NOTE: The schematics above do not represent the only configurations possible - they are informational only.
S
S
December 2008 Section 3 ZD Design Page 3 - 48
Amerex Restaurant Fire Suppression System (EX 4658)
TYPICAL DISTRIBUTION NETWORK FOR TWIN ZD CYLINDER SYSTEM
Duct
4 Feet Max. Supply Line
5 Feet Max.
Distributors
Man ifolded
Feet Max.
.-J Supply Branch
I
I i,rI
Nozzle Branch
Plenum Plenum
Zone Defense Nozzles Zone Defense Nozzles
I Fryer II Gddle II Range I Icas Radian I Wok I Wok I Wok I
Dedicated
Nozzle Branch -
Salamander
STRAIGHT PIPING SYSTEM
Duct Duct
Supply Branch
4 Feet Max.
Nozzle Branch 17 Supply Line Ll~;lenurn
num
5 Feet Max.
Zone Defense Nozzles
Ranae I Griddle IGas Charbroi)erl
1 Distributors
Man folded
4 Feet
Max.
SPLIT PIPING SYSTEM
NOTE: The schematics above do not represent the only configurations possible - they are
informational only.
December 2008 Section 3 ZDDesign Page 3 - 49
Amerex Restaurant Fire Suppression System (EX 4658)
ZD DISTRIBUTION PIPING DESIGN LIMITS
FOR SINGLE CYLINDER OR TWIN CYLINDER MANIFOLDED SYSTEMS
When designing a "Zone Defense" system to protect a kitchen containing a Fryer, Wok or Range, the
following MINIMUM TOTAL SYSTEM PIPING must be used in accordance with the chart below:
SUPPLY LINE LIMITATIONS:
All pipe and fittings running from the distributor block or the discharge fitting to the first splitting tee.
(includes first tee'
CYLINDER MAXIMUM LINEAR MAX. QTY. MAX. QTY. MAX. QTY.
FLOW POINTS PIPE SIZE FEET OF PIPE TEES ELBOWS BUSHINGS
to
ci: to
NOTE: 1. The supply line has a maximum vertical rise above the distributor of 5 feet.
SUPPLY BRANCH LINE (including last nozzle branch) LIMITATIONS:
All pipe and fittings leaving the first/splitting tee in the system and ending with the last nozzle in the last
branch line. While the last nozzle branch is included in the piping limitations for the supply branch line, the
limitation (pipe size and maximum length) for nozzle branch lines apply to this portion of the supply branch
line.
CYLINDER PIPE MAX. FEET OF MAX. MAX. QTY. MAX. QTY.
FLOW
POINTS
SIZE PIPE STRAIGHT
OR SPLIT
QTY.
TEES
ELBOWS REDUCING
BUSHINGS
NOZZLE BRANCH LINE LIMITATIONS:
All pipe and fittings leading from the supply branch tee to a system nozzle.
275=8
375=11
475=14 38
3-375=22
32 5 10
22 4 12
32 10 15
32 6 22
TOTAL FLOOD NOZZLE BRANCH MAX. 3 0 6 2
DUCT NOZZLE BRANCH MAX. 6 2 4 3
DEDICATED NOZZLE BRANCH LINE 7 1 6 2
NOTE: 1. The Duct Nozzle Branch has a maximum vertical rise above the supply branch line of 4 feet
December 2008 Section 3 ZD Design Page .3) - 50
Amerex Restaurant Fire Suppression System (EX 4658)
STAINLESS STEEL TUBING NOZZLE BRANCH LIMITATIONS:
All tubing and fittings leading from the supply branch tee to a dedicated appliance nozzle. One S.S. tubing
nozzle branch is allowed per cylinder. Example: If two cylinders are manifold together, then the use of two
S.S. tubing nozzle branches is permitted within that system.
NOTE: 1. The tubing is to be 3/8" O.D. x 0.335" I.D. x 0.02 Thk. Wall annealed Stainless Steel Type 304.
The use of steel or stainless steel Bite-Seal compression fittings is required for use with
S.S. tubing.
No tube bending allowed.
GENERAL SYSTEM LIMITATIONS:
Nozzle types may not be mixed on any nozzle branch line.
The discharge fitting, distributor and distribution hose are not to be included in any calculations.
Duct nozzle has a maximum vertical rise above the supply branch line of 4-0".
Maximum cylinder centerline to cylinder centerline distance for manifold cylinders is to be 4 feet.
The supply line has a maximum vertical rise above the distributor of 5 feet.
December 2008 :Section 3 ZD Design Page 3:-51
Amerex Restaurant Fire Suppression System (EX 4658)
DETECTION NETWORK LIMITATIONS:
PRM DETECTION
Optimum fire suppression system performance relies on proper detection network design. This section
discusses the location, design and installation limitations.
The Amerex Zone Defense Fire Suppression System may use one of two detection methods. The first is a
PRM that uses a continuous piece of pressurized thermal sensitive tubing to provide the ultimate in
dependable fire detection. No cable, No corner pulleys, No detector bracket, No link holders, No fusible
links, No conduit offset, or terminal link connector to install. Simply run the pressurized thermal sensitive
tubing through the plenum of the hood and across the center of the hood duct opening. Fasten the tubing
securely every 18 inches (45.7cm) and you have provided protection the entire length of the hood. No matter
where the appliance is located under the hood, it is being watched by the PRM (Pneumatic Release Module).
In order to detect a fire in the duct, the tubing is required to be placed across the center of the hood I duct
opening or three sides of the hood duct opening. See page 4-5 of the manual for tubing routing and see PRM
Design & Installation Manual Part No. 16546, dated, March 2006, for installation instructions.
WARNING: DO NOT LOCATE TUBING DIRECTLY IN THE PATH OF GAS APPLIANCE EXHAUST FLUE GASES
DOING SO COULD RESULT IN AN UNNECESSARY DISCHARGE OF THE SYSTEM.
P! NH ftA NIfl771
MANUAL
ACTUATOR
ZONE
C YLI ND
PNEUMATIC RI
MODULE
MRM & LINEAR FUSIBLE LINK DETECTION
The second detection method is the use of a MRM or MRM II in conjunction with the Linear Fusible Link
Detection network. Due to the arrangement of the fusible links in the hood it is considered to cover the full
length of the hood, no matter where the fire may occur. This system is explained in Section 3, page 3-35 & 3-
36 of this manual.
SYSTEM INSTALLATION, TESTING, MAINTENANCE & RECHARGE
The installation of all components are outlined in Section 4, system testing is outlined in Section 5, system
maintenance is outlined in Section 6 and reset I recharge are outlined in Section 7 of this manual.
SECTION 4
SYSTEM INSTALLATION
MANUAL PIN 20150
AMEREX
RESTAURANT
FIRE SUPPRESSION SYSTEM
Tested and Listed by
Underwriters Laboratories, Inc.
to UL Standard 300
EX 4658
Tested and Listed by
Underwriters Laboratories of Canada
to ULIORD 1254.6-1995
December 2008
May 2013 Section 4 Installation Page 4— 1
Amerex Restaurant Fire Suppression System (EX 4658)
SYSTEM INSTALLATION
GENERAL:
Before starting the installation of a system, a complete analysis of the hazards, a system design
and drawing of the proposed system layout shall be accomplished. The design, drawings and bill
of materials shall be compared with conditions found at the jobsite and discrepancies noted
before proceeding. Always contact the local AHJ (Authority Having Jurisdiction) for fire codes
and Health Inspectors for special requirements in the specific area that the system is being
installed.
Material such as pipe, fittings, EMT conduit, fasteners, mounting and securing hardware for pipe
and conduit are not supplied by Amerex with the KP system. These items are chosen and
supplied by the installer.
All components must be installed in an environment that does not exceed the systems
temperature range listing of 32°F - 120°F (0°C - 49°C). All Agent Cylinder Models are to be
installed in the vertical up-right position.
All system components - release module, cylinder assembly, mounting brackets, detectors,
fusible links, pneumatic detection tubing, agent, nozzles, manual pull stations, gas shut off
devices, corner pulleys, pulley tee, nitrogen cylinders, etc. - must be UL listed for use with the
Amerex Restaurant Fire Suppression System. Use of components that are not listed for use in
this system will void the warranty and may affect system performance.
INSTALLING THE 375 AGENT CYLINDER BRACKET
(P/N 16085)
Choose an appropriate location for the agent cylinder assembly where the
pressure gauge can be read, the cylinder safely accessed for recharge and
service, is acceptable to the AHJ and has a sufficient structure to accept the
weight. Using the bracket as a template, mark the top two holes for mounting,
secure the bracket loosely with appropriate fasteners, adjust for level and plumb,
mark the remaining holes and fasten securely. The bracket is equipped with a
distributor to receive both the hose from the cylinder discharge outlet and the
discharge piping. The distribution network piping can be installed without the
agent cylinder assembly in the bracket. A minimum of three holes shall be used
to mount the bracket in any situation. The two slotted holes and a hole in the
center of the vertical strap shall be used.
INSTALLING THE NEW 375 AGENT CYLINDER BRACKET
(P/N 17690)
Choose an appropriate location for the agent cylinder assembly where the pressure
gauge can be easily read and the cylinder safely accessed for recharge and service. The
location should be acceptable to the AHJ and have sufficient structure to accept the
weight of the agent cylinder. Using the bracket as a template, mark the top two holes for
mounting, secure the bracket loosely with appropriate fasteners, adjust for level and
plumb, mark the remaining holes and fasten securely. The distribution network piping is
attached to the cylinder valve outlet via a swivel fitting. A minimum of three holes shall
be used to mount the bracket in any situation. The two slotted holes and a hole in the
center of the vertical strap shall be used.
INSTALLING THE 275/3751475 AGENT CYLINDER BRACKET
(P/N 16920)
Choose an appropriate location for the agent cylinder assembly where the
pressure gauge can be read, the cylinder safely accessed for recharge and
service, is acceptable to the AHJ and has a sufficient structure to accept the
weight. Using the bracket as a template, mark the top hole, secure the bracket
loosely with appropriate fasteners, adjust for level and plumb, mark the
remainina holes and fasten securely.
0-Ring
P/N 10140
December 2008 Section 4 Installation Page 4 - 2
Amerex Restaurant Fire Suppression System (EX 4658)
INSTALLING THE 375 AGENT CYLINDER ASSEMBLY (PIN 13334) TO
PIN 16085 OR P/N 17690 BRACKET ASY.
Insert the cylinder onto the hanger to rest on the bottom support. Buckle up belly strap and tighten to aid in
support. Insure proper fit of bracket to cylinder loop. Attach distribution piping to valve outlet via swivel
adapter.
INSTALLING THE 275/375/475 AGENT CYLINDER ASSEMBLY (PIN 13334, 16921, or 17379) TO
PIN 16920 BRACKET ASY.
Place the cylinder so that it rest on the bottom support of the bracket. Install stainless steel belly strap and
tighten against the cylinder to aid in support. Attach distribution piping to swivel fitting and then tighten
swivel to cylinder valve outlet.
INSTALLING THE MODEL 600 AGENT CYLINDER BRACKET
(P/N 15166 - DISCONTINUED)
(PIN 21583 - DISCONTINUED)
(PIN 23184— NEW)
Choose an appropriate location for the Agent Cylinder valve assembly
where the pressure gauge can be read, the cylinder can be safely
assessed for recharge and service, is acceptable to the AHJ and has
sufficient structure to accept the weight. Using the bracket as a template,
mark the mounting holes. Use at least three holes for mounting, secure the
bracket loosely with appropriate fasteners, adjust for level and plumb and
fasten securely. The bracket is supplied with a stainless steel strap to hold
the cylinder against the back of the bracket. A minimum of three holes,
should be used to mount the bracket in any situation.
INSTALLING THE MODEL 600 DISCHARGE FITTING KIT
(PIN 10199)
The discharge fitting kit consists of a brass fitting with an 0-ring on one end
and 3/4 NPT male threads on the other, and a stainless steel flange for locking
the fitting in place. The discharge fitting should be inserted into the outlet of
the agent cylinder outlet carefully, to insure that the 0-ring is not damaged -
the 0-ring forms the seal between the cylinder and the discharge piping. The
stainless steel flange is then bolted in place to secure the fitting to the valve
outlet.
INSTALLING THE MODEL 600 AGENT CYLINDER
(PIN 15196)— DISCONTINUED CONFIGURATION
The KP600 agent cylinder assembly is fitted with an attachment
bracket that is a component welded to the cylinder assembly. The
attachment bracket is used to attach the cylinder assembly to the
cylinder mounting bracket. The cylinder attachment bracket fits easily
into the upper slotted portion of the mounting bracket. Once inserted
into the slot, it is locked in place by two notched areas in the
attachment bracket. This will prevent cylinder movement from side to
side. Once this is accomplished, the installers hands are free to
attach the stainless steel strap to secure the cylinder against the
bracket.
NOTE: BOTH THE SHIPPING PLATE AND THE ANTI-RECOIL
PLATE MUST BE REMOVED AT THE TIME OF
INSTALLATION.
I December 2008 Section 4 Installation Page 4 - 3 I
Amerex Restaurant Fire Suppression System (EX 4658)
INSTALLING THE MODEL 600 PNEUMATIC ACTUATOR
(P1N10147)
A pneumatic actuator is required for every KP600 agent
cylinder assembly. The actuator is bolted directly to the top of
the agent cylinder discharge valve. When actuation occurs at
the MRM or PRM, the pneumatic pressure from the nitrogen
cylinder enters the actuator through 1/4 NPT threaded ports on
either side. The actuation pressure forces the piston inside to
extend and depress the valve stem of the discharge valve.
The piston extends through a retainer plate and the ball
plunger locks the piston in its extended position.
OCKING BALL
LUNGER
NOTE: WHEN INSTALLING ONLY ONE CYLINDER, THE ACTUATION LINE WOULD
COME IN ON ONE SIDE OF THE ACTUATOR AND THE OTHER SIDE WOULD BE
PLUGGED USING A 1/4" NPT BRASS PIPE PLUG. IF YOU ARE INSTALLING MORE THAN
ONE CYLINDER THE SECOND PORT IS USED TO TRANSFER PRESSURE TO THE NEXT
CYLINDER AND SO ON, UNTIL YOU REACH THE LAST CYLINDER AND THE
OUTLET!TRANSFER PORT IS PLUGGED.
INSTALLING THE AGENT CYLINDER ENCLOSURE
(PIN 16814) STAINLESS STEEL
The Cylinder enclosure (P/N 16814) is designed to contain one Amerex 275 / 375 01475 agent cylinder
(P/N 16921, 13334 or 17379). The enclosure has been designed and tested to support the weight of the
cylinder resting on the bottom of the enclosure. NO MOUNTING BRACKET REQUIRED. A swivel fitting,
p/n 16901, is provided for attaching the piping network to the discharge outlet of the agent cylinder valve.
Use an appropriate reducing bushing if 3/8" supply line pipe is used. Install as follows:
1) Locate and anchor the enclosure with appropriate fasteners using a minimum of four of the six
available mounting holes, see hole spacing below.
MOUNTING HOLE LAYOUT:
DIAMETER HOLES - SIX, TOTAL
OflI ONLY FOUR OF THE SIX MOUNTING
jOINTS ARE REQUIRED,
SWIVEL DISCHARGE FITTING
(3 NPTF BY Ya NPSM SWIVEL)
0
Place the cylinder inside the enclosure; attach the swivel discharge fitting to the discharge 0
piping network and attach to the valve outlet last. CAUTION: Keep the anti-recoil cap (PIN
13219) on the cylinder discharge port at all times except when attached to the discharge LJj
piping.
Push the four black"U-nuts" onto the enclosure flange and align them over the cover
mounting holes. The cover is oriented properly when the pressure gauge view port is "up".
Install the two tamper seals through the cover and enclosure holes (upper left I lower right corner).
I December 2008 Section 4 Installation Page 4— 4 I
Amerex Restaurant Fire Suppression System (EX 4658) I
INSTALLING THE PNEUMATIC RELEASE MODULE (PRM):
Select a suitable location for the pneumatic release module (PRM) that has access for installation, service,
recharge and where both the nitrogen actuation cylinder pressure gauge and the system status indicator can
be viewed. The PRM must be fastened to a surface that has sufficient structure to support the loads
anticipated. Knockouts are provided on three sides of the enclosure and each cable run may enter the
enclosure from any of the three sides (top, bottom or right).
Using the enclosure as a template, mark the top two holes for mounting and anchor the enclosure loosely,
adjust to level and mark bottom holes, anchor loosely using appropriate fasteners.
All installation wiring shall adhere to NFPA 70 (NEC) and all State and Local codes. Terminations of the snap
action switch are to be made outside the PRM Enclosure in an appropriate electrical junction box. Do not
install nitrogen actuation cylinder at this time or system may accidentally actuate.
Optional Tubing Exit
1O?2"
IAI
D men s on
15" toll
17" wide
502" deep
Tubing Repl acement
Date Labe
INSTALLATION DATE:
INSTALLER:
TUBING REPLACEMENT DATES:
INSTALLATION OF DETECTION NETWORK - PRM
The PRM has provisions for a single, continuous section of detection tubing. No splicing or "tee's" allowed.
There shall be only two tubing terminations: one at the accumulator cylinder inside the PRM, and the other at
the opposite end of the tubing, with the use of an End of Line Fitting (p/n 16506).
The Amerex part numbers for tubing lengths are:
PIN Length I PIN Length
16557 25' I 16579 100'
300'R7ADIUS
16551 50' I 16552 150'
16556 75' I 16554
Tubing may be cut down to the required length with the use of Cutting Tool PIN 16860, or be coiled up and
secured with wire ties outside the hazard area. Cuts must be square and clean. The minimum bend radius is
6 inches (15.2cm). Do not crimp or crush the tubing in the course of handling or installation. A Tubing Clip
(PN 16501) is to be use to secure the tubing every 18" (45.7cm). A Tubing Clip is also required within one
inch of the End of Line Fitting. The tubing can exit the enclosure either through the 5/8" hole at the upper right
hand corner of the enclosure (where a strain relief fitting is installed at factory), or it can exit through the 5/8"
hole at the top right of the enclosure. If it is desired to route it through the top, switch the strain relief fitting
with the snap-in plug.
December 2008 Section 4: Installation Page 4— 5
Amerex Restaurant Fire Suppression System (EX 4658)
P/N 16501 TUBE CLIP P/N 16506 END OF P/N 16502 QUICKSEAL
I INF FITTINC FITTING 1/4"
.25' DIAMETE
HO j1I?
The PN16502 Quick-seal Compression Fitting is required for kitchen hood and other penetrations requiring a
UL-listed sealing device.
Warning: When tightening the nut on the PN 16502 Compression Fitting, use a MAXIMUM
of 1/2 turn past hand tight. Wrenching the nut past 1/2 turn can begin to collapse the
detection tubing.
TUBING SPACING & ROUTING - PRM
The detection tubing is to be run at the top of the plenum, behind the filters from one end of the plenum to the
opposite end to ensure total detection coverage. Ensure that the tubing is routed in such a way as not to
interfere with any moving parts or access openings. Tubing must not be obscured by structural or support
structures, and should be fully exposed to any rising hot gasses from the cooking media, to ensure rapid
detection response. Terminate the tubing within 6" (15.2cm) of the end of the plenum. Refer to page 4-7 for
proper end of line installation. The tubing is never to be routed in the path of hot flue gases from a gas fired
appliance for this can result in a unwanted discharge. Never locate the tubing where the daily removal of the
filters will result in scraping or damaging the tubing surface for this too will result in an unwanted discharge.
Additionally, the detection tubing is to cross over the hood I duct opening in compliance with NFPA - 17A.
When the opening width exceeds the 18" (45.7cm) maximum mounting clip spacing, the tubing is to be
installed along at least three of the four sides of the hood I duct opening. See figure below:
Top View Top View
Duct Opening
Duct Opening
Fitting Plenum Duickseal Fitting Plenum
wcksea 8' Max. 8' Max.
Plenum I Plenum
Width - ________
Greater Than
Width
Opening Width
PRM
Opening Width
Less Than 18"
PRM Tubing Routing at Top of Plenum \ Tubing Routing at Top of Plenum
ounting Clips Spaced at 18" ounting Clips Spaced at 18"
SECURING THE TUBING - PRM
The tubing must be secured at a distance not to exceed 18" with PN16501 Tubing Clip. A Tubing Clip is also
required within one inch of the End of Line Fitting. Since the tubing snaps into the clip, it is recommended
that the clips be installed first, then the tubing. Ensure that the tubing is routed in such a way as not to
interfere with any moving parts or access openings. Tubing must not be obscured by structural or support
structures, and should be fully exposed to any rising hot gasses, to ensure rapid detection response. Never
take up slack by pulling the tubing through a series of clips, this action could damage the tubing and shorten
its useful life.
December 2008 Section 4 Installation,Page 4,— 6
Amerex Restaurant Fire Suppression System (EX 4658)
TUBING TERMINATION - PRM
Care must be taken when terminating the start and end of the tubing to ensure leak proof connections. Below
are the instructions for termination:
Remove knurled nut from plated tube fitting and slide over end of tubing. The end of the tubing must be
cut square and clean. DO NOT use pliers or wire cutters for cutting the tube. These tools will collapse the
end of the tubing and could create a leak point. The use of a sharp utility knife is suggested, while rolling the
tubing on a flat surface. Do not use any sealants on the connection.
Firmly push the end of the tube down over the end of the fitting. It may require working the tubing around
until it goes on (see following figure). It is important that the end of the tubing be inserted ALL the way over
the tip of the fitting. Hold the tubing in place firmly in one hand while tightening the nut with the other. Use a
12mm wrench (or adjustable) to tighten the nut. Resistance will be felt when the nut bottoms out. Do not over
tighten. The procedure is the same for both the accumulator cylinder fitting and the End of Line Fitting. It
may be helpful to place the End of Line Fitting in a small vise while terminating the tubing to it.
LL
1
NO CAR
Once the system is pressurized and put into service (see below), both connections should be thoroughly
leak checked with leak check fluid or soapy water.
Record the date of tubing installation on the tubing replacement label and affix the label to the detection
accumulator cylinder.
P/N'12853
P/N 13393
[
U.S. Metric
Width 10 in. 25.4 cm
Depth 5 in. 12.7 cm
Height 11 3/4 in. 51.5 cm
Special Note:
When the MRM plate is installed in the
"optional" P/N 11978 S/S Cabinet remove
(unscrew) the factory installed "Status
Indicator" from the MRM and install the
extended (longer) "Status Indicator"
packaged with the Stainless Steel Cabinet
December 2008 Section 4 Installation Page 4 - 7
Amerex Restaurant Fire Suppression System (EX 4658)
INSTALLING THE MECHANICAL RELEASE MODULE (MRM):
Select a suitable location for the mechanical release module that has access for installation, service, recharge
and where both the nitrogen actuation cylinder pressure gauge and the system status indicator can be
viewed. The MRM must be fastened to a surface that has sufficient structure to support the loads anticipated.
Knockouts are provided on three sides of the two available enclosures (painted or stainless steel) and each
cable run may enter the enclosure from any of the three sides (top, bottom or right).
Using the enclosure as a template, mark the top two holes for mounting and anchor the enclosure loosely,
adjust to level and mark bottom holes, anchor loosely using appropriate fasteners.
11+
Once the enclosure is loosely attached to the mounting surface the MRM plate can be installed into the
enclosure stand offs using the four machine screws provided with the MRM. Do not install nitrogen
actuation cylinder at this time or system may accidentally actuate. After the MRM plate is installed
tighten fasteners anchoring the MRM enclosure to the wall.
December 2008 Section 4 Installation Page 4 - 8
Amerex Restaurant Fire Suppression System (EX 4658)
INSTALLING THE DETECTION NETWORK - MRM or MRM II
Refer to the system design section for Detector Network limitations. There is only one type of detector
bracket and linkage used with this system. There are, however, two names for detectors in the network -
series and terminal. The terminal detector is the detector located at the end of the cable run, furthest away
from the MRM or MRM II. A series detector is any detector located in between the MRM or MRM II and the
terminal detector in the network.
Starting at one of the corresponding knock-out found on one of the two available sides (top or bottom) of the
MRM or MRM II. Install %" EMT conduit running from the MRM or MRM II to each detector location, using a
corner pulley at every change in direction. Each detector must be securely fastened to a rigid surface,
located over each protected appliance and in the hood / duct opening. Refer to the Design section for
limitations and cautions regarding detector placement.
To install the cable, start at the terminal detector, affix
the Cable with a terminal clamp (P/N 12859 provided
with the MRM & MRM II) leaving a minimum of 6
inches between the end of the cable and the terminal
clamp. From the terminal detector, continue to feed the
cable through each corner pulley, detector and length
of EMT conduit back to the MRM.
Position link holder and link
in center (or slightly off center
away from MRM) in bracket
Terminal Clamp
(P/N 12859)
INSTALLING THE DETECTION NETWORK - MRM II
Setting Detection Cable Tension, New MRM II (PIN 18000 and 18001):
Refer to the following images in this section for properly setting the detection cable tension:
To set the tension on the cable, first make sure that the tension bar in the MRM II is in the "down" position
and that the spring is relaxed. Lower the top hook of the blue spring into the bottom of the tension bar slot.
Warning: Do NOT attempt to set the tension bar in the "up" position (spring stretched) without
having a fusible link line installed and secured or the MRM will fire. Take additional caution; DO NOT
install the Nitrogen Actuation Cylinder at this time.
Feed the cable end into the small hole in the side of the ratchet pulley. The end of the cable must be
cleanly cut. Push the cable into the hole until the end is visible at the head of the central hex-bolt. Securely
tighten the Allen-head set screw onto the cable. Aside from the use of the cocking tool, no further tools
should be used to set the mechanism. (The cable may be routed from either the bottom or the top of the MRM
II; the ratchet pulley will always turn counter-clockwise to remove cable slack. - See illustration on Page 4-9A)
Spool up the excess cable slack by'frning the ratchet pulley counter-clockwise by hand. Continue to hold
the ratchet pulley while proceeding to the next step.
While maintaining the position of the ratchet pulley with your left hand, press down on the engagement
pawl and the linkage bar with your index and middle fingers of your right hand in order to begin the final
tensioning process. You will feel and hear the pawl click several times as tension is taken up.
Inspect your progress by pulling the upper hook of the blue spring into the top notch of the tension bar;
then raise the tension bar. Refer to the illustrations on the following page for proper setting. Repeat steps 1-
5 until the bottom of the linkage bar is essentially horizontal, and is aligned within the gray "pie" zone of the
indicator label (see Figure B). Lower tension bar until system is ready to test.
To test the Detection Network, refer to Chapter 5, "Testing and Commissioning".
FIGURE
A) ,
December 2008 Section 4 Installation Page 4 - 9
Amerex Restaurant Fire Suppression System (EX 4658)
0
a @ @
L7;~p
tEH
7
r DETECTION CABLE
o SPRING TENSION BAR
-ENGAGEMENT
PAWL (PRESS HERE)
- LINKAGE
BAR (PRESS HERE)
TENSION SET
INDICATOR
LABEL
CABLE SET
SCREW
- RATCHET
PULLEY
FIGURE
B)
Not enough cable tension.
Lower spring tension bar. The lever and
pawl must be pulled downward while the
ratchet pulley is prevented from rotating.
Approximately 2-4 more clicks are required
from this position; then raise spring
tension bar and re-examine results.
Caution: The MRM may inadvertantly
cause system discharge if left in this
position.
Proper Cable Tension. Correct
Detection Cable tension is obtained when
the bottom edge of the linkage bar is
aligned within the gray "pie" region of the
L indicator label, with the spring tension bar N@ in the "up" position. Stand directly in front
/ of the MRM while viewing. The lower edge
of the linkage bar will essentially be
horizontal.
FIGURE
C) -
Too Much Cable Tension.
Lower spring tension bar and unhook the
blue spring from the tension bar, releasing
all tension. Repeat the process until
Figure B is achieved. Caution: damage
to the MRM can result from careless
over-tensioning of the assembly.
December 2008 Section 4 Installation Page 4 - 10
Amerex Restaurant Fire Suppression System (EX 4658)
INSTALLING THE DETECTION NETWORK - MRM
To install the detector linkage, place a weighted object on the cable at the MRM, allowing a minimum of 3
inches of extra cable length for every detector in the network. Starting at the terminal detector, place the
linkage upside-down on the cable, run the cable over the rivet and through each of the four tabs as shown
above, insert the appropriate fusible link (see the design section for proper selection of fusible links) and turn
upright. Repeat these steps for each detector.
Each link and link holder, once assembled and placed on the
cable, should be positioned in the bracket on center or slightly
off center away from the MRM.
To set the tension on the cable, first make sure that the
tension bar in the MRM is in the "down" position and that
the spring is relaxed.
WARNING: DO NOT ATTEMPT TO SET THE TENSION
BAR IN THE UP POSITION (SPRING
STRETCHED) WITHOUT HAVING A
FUSIBLE LINK LINE INSTALLED AND
SECURED OR THE MRM WILL FIRE.
WARNING: CONDUIT MUST BE SECURED WITH
APPROPRIATE ANCHORS AT DISTANCES
NOT TO EXCEED 3 FEET. FAILURE TO
SECURE CONDUIT PROPERLY MAY
CAUSE SYSTEM FAILURE.
Link Plate Connector
P/N 12732
Attach the cable to the link plate connector, do not clamp tightly
(slack must be taken up in a later step). Insert the connector
into the slot on the link plate that corresponds with the direction
of pull on the cable. The link plate is marked with clock
positions (6:00 and 12:00).
Note: Early models also had a 3:00 and 9:00 position
which CANNOT be used.
Insert the connector at 12:00 if the cable enters the MRM
at the TOP or 6:00 if it enters at the BOTTOM.
NOTE: Any excess cable must be secured out of the
way of any parts in the MRM. We suggest taping it to
the link line cable.
Slip the set-up/lock-out tool (P/N 12738) over the manual
pull cam housing until it rests against the outside edge of
the collapsible linkage. (See adjacent illustration) Draw
tension on to the cable through the connector until the link
plate is drawn against the set-up tool, then tighten the set
screw on the connector.
Remove the set-up tool and raise the tension bar to test
cable run. Lower tension bar until system is ready to test.
To test the detection network, refer to the testing and
commissioning section.
December 2008 x Section 4 Installation Page 4 - 11
Amerex Restaurant Fire Suppression System (EX 4658)
INSTALLING THE LINEAR FUSIBLE LINK DETECTION NETWORK - MRM, MRM II
Refer to the system design section for Linear Fusible Link Detection Network limitations. This network uses no
detector brackets and is limited to use in hoods 42' long or less. The terminal connector is located at the end of
the cable run. The fusible links and factory fabricated cable segments are supported every eight feet maximum
by the use of support eyebolts PN17520. Eyebolts must also be located on each side of the hood-duct opening to
support the cable crossing the opening.
Starting at any of two sides (top or bottom) of the MRM or MRM II at the corresponding knock-out, install 1/2 EMT
conduit running from the MRM, MRM II to the hood, a maximum distance of thirty feet. This run of conduit may
also incorporate the use of a maximum of twenty corner pulleys at every change in direction and conduit must be
firmly secured every 36 inches. This portion of the network uses Cable Segment PN17356 (Part of Purchased
Kit 17515) which consists of one link hook and thirty feet of stainless steel cable. No field fabrication of any
Cable Segments is allowed.
The first fusible link must be located within 24 inches of the end of the hood. Each fusible link from this point on
must be on maximum 24" centers, which is accomplished by the use of Cable Segment PN17354 which consist of
two link hooks and stainless steel cable the proper length for the maximum 24" spacing. No field fabrication of
any Cable Segments is allowed.
The last fusible link in the line must be within 24" of the end of the hood and is terminated by the use of cable
segment PN17355 (Part of Purchased Kit 17515) which consist of one link hook and 24" of stainless steel cable.
No field fabrication of any Cable Segments is allowed. The end of the cable segment is terminated at a conduit
handy box by the use of the terminal clamp PN12859 (provided with the MRM & MRM II). Refer to the Design
section for limitations and cautions regarding fusible link placements. The network is to be run in the plenum in a
manner that will place a fusible link in the "hood-duct" opening. All cable and links in the plenum are to be in a
straight line and supported by eye bolts a maximum of every eight feet. Support eye bolts are to be located in the
middle of cable segment runs to allow for the required cable movement.
NOTE: WHEN POSITIONING THE LINKS IN THE PLENUM SO THAT A LINK IS IN THE HOOD-DUCT
OPENING IT MAY BE NECESSARY TO LOCATE THE END LINKS AT LESS THAN THE MAXIMUM 24" FROM
THE END OF THE HOOD.
To install the linear fusible link network, first measure the distance from the far end of the hood to the middle of
the hood/duct opening in inches. Divide this distance by 24 and you will know the number of "Links to Link"
Segments (PN17354) required to run from the end of the hood to the middle of the hood/duct opening. You will
also require one "Link to Termination" Segment PN17355 (Part of Purchased Kit 17515).
Next measure from the center of the "hood/duct opening to the opposite end of the hood and repeat the process
above to determine the balance of "Link to Link" Segments (PN17354) required. You will also require one "MRM
to 1st Link" Segment PN17356 (Part of Purchased Kit 17515).
Tension adjustment for the linear fusible link network is to be performed in the same manner described for the
standard detection network on page 4-9 and 4-10 of this manual.
December 2008 Section 4 Installation Page 4 - 12
Amerex Restaurant Fire Suppression System (EX 4658)
INSTALLING THE MANUAL PULL STATION(S) -
MRM, MRM II OR PRM
To install the manual pull station(s) first confirm that the
set-up/lock-out tool is in place, that the tension bar is
down and that an actuation nitrogen cylinder is not
installed. Failure to confirm these conditions could
result in the discharge of the system.
Refer to the design section for manual pull station
limitations and suggested locations. The local AHJ
should have the final approval for manual pull station
location and mounting heights.
The MRM, MRM II or PRM allows the cable for the
manual pull station(s) to enter from any of the two sides
(TOP or BOTTOM). Once a location for the pull station
has been established, %" EMT conduit is run from the
module (using whichever exit side is most convenient)
through corner pulleys to the pull station. The manual
pull station may be mounted to the wall in any orientation
necessary for surface mounting. The conduit and pulley
elbows must be mounted and securely anchored and
then the cable can be fed from the manual pull station
back to the MRM, MRM II or PRM.
_____________ (0377 S/S _______ __-- _ __
—5
(13.34 cm)
PULL PIN
THEN
PULL HANDLE
`Vi DD YSTE
(LL n1SCHAR}
P/N 11993
(4.45
cii)
0
PIN 14320
RECESSED INSTALLATION OF MANUAL REMOTE PULL STATION MRM OR PRM
When installing the Manual Pull Station in a recess configuration, utilize the adapter kit (PIN 14193). The Manual
Pull Station Adapter Kit includes an oversized cover plate to cover the hole cut in the sheetrock and/or tile wall. A
pull handle extension collar to compensate for the thickness of the wall and two longer attachment screws for the
cover plate are also enclosed.
Using the Manual Pull Station Adapter Kit (P/N 14193)
Drill 5/32" diameter mounting holes as shown in Figure 1. Holes are
located in the side of the box that will be mounted to the stud. Holes may be
enlarged to accommodate the mounting screws.
Mount box to the wall stud so that the front edge of the box is flush with
the front edge of the stud. Attach the box to the stud with two suitable
screws.
Complete the installation by running 1/2 conduit with the corner pulleys
back to the MRM, MRM II or PRM.
Install the "adapter" provided to compensate for the wall thickness.
Orient the adapter so that the securing screw falls directly over the pull pin
hole of the Manual Pull Station. Tighten the set screw firmly in place.
Run the cable from the remote manual pull to the MRM, MRM II or PRM.
Install the cover plate on the remote manual pull using the two longer
screws provided.
Install the pull handle by attaching the cable to the pull handle end -
secure cable with the setscrew.
Insert the handle and secure with the pull pin.
Complete the installation at the MRM, MRM II or PRM as outlined in the
preceding pages.
WALL
ETRGCK WALL
STUD
December 2008 Section 4 Installation Page 4 - 13
Amerex Restaurant Fire Suppression System (EX 4658)
The cable attaches to the manual pull at the handle by using
set screws. At the MRM, MRM II or PRM the cable attaches to
a cable clamp that is inserted into the fastener on the end of
the manual pull cam. Excess cable must be secured out of the
way of any parts in the module. We suggest taping it to the
manual pull cable.
NOTE: The manual pull cam requires a travel distance of 3,4"
to actuate the system. It is not necessary to leave excess
slack in the cable when installing the manual pull station. Any
splices used in the cable must be located at least 12 inches
from the pulley tee or any pulley. The connector in the
pulley tee should be located as far toward the MRM, MRM
II or PRM as possible.
TO PULL
STATION #1 TO PULL
STATION #2
TO MRM, MRM II OR PRM
OUTLET ACTUATIC
PORT
December 2008 Section 4 Installation Page 4— 14
Amerex Restaurant Fire Suppression System (EX 4658)
INSTALLING THE ACTUATION NETWORK
Refer to the Design section for limitations of the Actuation Network. Piping for the actuation network can be %"
black, chrome plated, galvanized schedule 40 pipe, copper tubing or hose. The network originates at the pipe
outlet of the MRM, MRM II or PRM and continues to the top of each cylinder and valve assembly. The protective
plug on each cylinder valve and the MRM, MRM II or PRM must be removed. All pipe used for the actuation
network must be reamed and blown clear, mounted to a sufficient structure, adjusted for level and plumb and
fastened in an appropriate manner. Pipe must be fitted tight (three turns past hand tight recommended). All
threaded connections in the actuation network must be sealed with Teflon tape (applied to male threads
only). Starting with the third thread from the pipe opening, wrap the Teflon tape clockwise around the
threads moving away from the pipe opening. Make certain that tape does not extend past the end of the
pipe - it could dislodge and possibly block the actuation network.
CAUTION: Do not over tighten the pipe or pipe fittings into the pipe threads on the MRM. Over
tightening can cause the MRM to malfunction.
A single MRM, MRM II or PRM will actuate a maximum of ten (10) agent cylinders. The ten cylinder may
be any combination of 275, or 375, or 475 Agent Cylinders. When a 600 is included in the mix of agent
cylinders the total maximum allowable agent cylinders is lowered to six (6). Outlined below are the
maximum amounts of pipe, hose or tubing allowed in the actuation network. When a network consists of
more than one of the media listed, the total allowable footage is equal to the smallest of the two media
limits.
EXAMPLE: An actuation system made up of black pipe and hose would limit the total footage of pipe
plus hose to 22.2 feet.
ACTUATION NETWORK OUTLET ACTUATION INLET FOR
Models 275, 375 & 475 AGENT CYLINDER
IMI PT A(!TI IATIflM
ACTUATION INLET FOR 600 AGENT CYLINDER
Note: A vent plug (P/N 10173) must
TRANSFE be used and placed in an accessible PORTTC location anywhere in the actuation ADDITIONA
network to aid in relieving pressure CYLINDE
after system discharge, and to keep (PLUGWH
pressure from building slowly in the NOT NEED
- network. 1/4 NPT
See RECHARGE Section 7.
INLET
ACTUATION
PORT
P/N 10147
Mechanical Release Module
. --
December 2008 Section 4 Installation Page 4 - 15
Amerex Restaurant Fire Suppression System (EX 4658)
LIMITATIONS (SINGLE OR MULTIPLE AGENT CYLINDER ACTUATION NETWORK)
Nitrogen Cylinder 10 cu. in.
Maximum Total Length for: Feet Meters
/4 copper Tubing 100 30.48
%" ID Hose 54 16.45
1% Schedule 40 Pipe 22.2 6.77
Copper Tubing - 1/4 O.D. Refrigeration Type (minimum
wall thickness of .049 inch). Use with brass or steel
compression style fittings (with brass or steel sleeves or
ferrules) or SAE 450 flared tube fittings. Maximum length
(including all fittings) - 100 Feet (30.48 m)
High Pressure Hose - 1/4 I.D. wire braid hose that is
factory supplied in 16" and 32" lengths.
Maximum length (including all fittings) -
54 feet (16.46 m) or a maximum of 40 hose assemblies
PIN 12854 or a maximum of 20 hose assemblies PIN
16448.
Pipe - 1/4 NPT Schedule 40 made of stainless steel,
chrome plated pipe or black iron pipe.
Maximum length - 22.2 feet (6.77 m)
Maximum tees - 9
Maximum elbows - 9
NOTE: 2 —45° elbows = I - 900 elbow
NOTE: Different methods of constructing the actuation
network may be mixed provided that the shortest
limitations are followed,
Example: A mix of 1/4"copper tubing and ¼" high
pressure hose requires that the hose
limitations be followed (no more than 54 feet
[16.46m]) for the complete network. A mix
of Y4" high pressure hose and '/4" pipe
requires that the pipe limitations be followed
(no more than 22.2 feet [6.77m]) for the
complete work.
SINGLE
SYSTEM
December 2008 Section 4 Installation Page 4 - 16
Amerex Restaurant Fire Suppression System (EX 4658)
INSTALLING THE DISTRIBUTION PIPING NETWORK:
GENERAL
For distribution piping network limitations please refer to the design section.
ONLY SCHEDULE 40, BLACK, CHROME PLATED OR STAINLESS STEEL PIPE CAN BE
USED FOR THE DISTRIBUTION NETWORK. GALVANIZED PIPE IS NOT ALLOWED.
ALL PIPES MUST BE REAMED AND BLOWN CLEAR. DIRT AND/OR CUTTING OIL MUST
BE REMOVED FROM THE INSIDE OF ALL PIPE AND FITTINGS BEFORE ASSEMBLY.
All piping must be securely bracketed to a rigid surface using appropriate hangers and/or clamps.
All distribution network pipe and fittings are to be assembled tight (3 turns past hand tight is recommended).
THE USE OF TEFLON TAPE IS NOT RECOMMENDED. JOINT SEALANT OR PIPE COMPOUND MAY NOT
BE USED UNDER ANY CIRCUMSTANCES. THE USE OF TEFLON TAPE IS TO COMPLY WITH THE
MANUFACTURERS RECOMMENDATIONS.
When using Teflon tape it is to be applied to male threads only. Start
installing tape with the third thread from the end of the pipe opening, wrap
the Teflon tape clockwise around the threads moving away from the pipe
opening. Make certain that tape does not extend past the end of the pipe
because it could dislodge and travel to the nozzle filter and block the
agent discharge. NOTE: Blow out distribution piping system several
times to insure that no loose pieces of Teflon tape exist inside piping
network.
TEFLON TAPE APPLIED BELOW
FIRST THREE THREADS
The Amerex Restaurant Fire Suppression System does not require balanced piping. All distribution network
piping shall be run in as direct a manner as possible throughout the hazard. The distribution network piping, once
installed, shall be compared with the design drawing or sketch, any changes or deviations shall be noted for
use in preparing an "as-built" drawing or sketch for the permanent job file.
Piping installation shall start at the cylinder bracket and continue through the hazard with tees installed at the
beginning of each branch line location. Branch lines shall then be installed taking care to assure that each nozzle
is located properly and that no design limitations have been exceeded. NOZZLE LOCATION AND
ORIENTATION ARE CRITICAL TO ACHIEVING PROPER SYSTEM PERFORMANCE.
eAr.
VALVE
December 2008 Section 4 Installation Page 4— 17
Amerex Restaurant Fire Suppression System (EX 4658)
TO INSTALL HIGH TEMPERATURE BLOW OFF CAPS:
Standard Nozzle: Remove standard blow off cap - thread the loop of the high temp. cap onto the
base of the male threads on the nozzle. Install 0-ring on nozzle tip, place cap on
nozzle tip.
Swivel Adapter: Remove standard blow off cap - thread the loop of the high temp. cap onto the
supply pipe before installing the nozzle body. Install 0-ring on nozzle tip, place the
cap on nozzle tip.
INSTALLING A MECHANICAL GAS VALVE MRM, MRM II OR PRM:
Refer to the design section for limitations regarding mechanical gas valve installations.
WARNING: CONFIRM THAT THE GAS IS SHUT OFF AT THE SOURCE OF SUPPLY BEFORE
ATTEMPTING TO INSTALL THE MECHANICAL GAS VALVE. A QUALIFIED, LICENSED
CONTRACTOR SHOULD PERFORM INSTALLATION OF THE GAS VALVE INTO THE GAS
LINE.
The mechanical gas valve shall be located where it can be accessed for resetting, maintenance, service and
where the status indicator may be viewed. The listed temperature range for the mechanical gas valves is 32°F -
120°F (0°C - 49°C).
Before beginning installation of the mechanical gas valve, associated
cable, conduit and fittings, confirm that:
The MRM/PRM has the set-up/lock-out tool installed.
The tension bar is in the "down" (relaxed) position.
The nitrogen actuation cylinder has not been installed.
Remove the protective plug from the MRM / MRM II or PRM and
install the gas valve trip assembly (P/N 12740). The gas valve trip
assembly must be purchased separately for use with ASCO and
Ansul gas valves
Improper installation of the Red Vinyl Cap
may cause failure of the gas valve to close.
AMEREX P/N 12740
wrench to gas
hex flat only Install the gas valve into the gas line. If any strainers are to be
used they shall be placed upstream of the gas valve. Confirm that
the valve is installed with the correct gas flow direction as
indicated by the arrow on the gas valve body. Wrenches must be
placed on the valve at the point closest to the connection being
tightened and a "hold" must be placed on the valve when fitting
pipe downstream of the valve body.
DO NOT USE THE GAS VALVE AS A LEVER FOR
TIGHTENING PIPE.
If pipe joint compound is used, it must be applied sparingly to the
back male threads. Pipe joint compound entering the gas valve
and collecting on the valve seat will cause the valve to fail.
Test the gas valve and connections for leaks using a soapy
solution.
COCKED
I POSITION
ASCO Gas Valve With Amerex Actuator Kit
December 2008 Section 4 Installation Page 4 - 18
Amerex Restaurant Fire Suppression System (EX 4658)
Install necessary %" EMT conduit, cable, tee pulley (if required) To Gas Valve To Gas Valve and corner pulleys, connecting the MRM, MRM II or PRM to the #2 ~t- (00 (@. ~-- #1
mechanical gas valve. Confirm that limitations as shown in the o of]
design section have not been exceeded. SET
Note: The cable for the mechanical gas valve may enter POSITION
the MRM, MRM II or PRM enclosure from two sides I. (top or bottom). To MRM, MRM II or PRM
AT THE MECHANICAL GAS VALVE
Connect the cable to the latching lever in the gas valve actuator housing by threading it around the pin in
the latch (Amerex actuator) or through the hole in the latch (all others). Secure it with a loop and crimp.
Thread cal
around pin,
and crimp.
FIRED POSITION COCKED POSITION
AMEREX "Pull to
Release" Gas Valve
Fall
VL
Lift stem,
engage
latch.
NOTE: When using an Ansul Gas Valve make
certain that the loop is large enough so that the
crimp is inside of the conduit when the valve is
cocked.
2. Lift the gas valve stem up and slide the latch into
the engaged position.
FIRED COCKED
POSITION PosmoN
ASCO "Pull to Release" Gas Valve Actuator
NOTE:
AMEREX MECHANICAL GAS VALVES SIZES 3/4 &
MAYBE INSTALLED VERTICALLY OR
HORIZONTALLY - ALL OTHER SIZES MUST BE
INSTALLED HORIZONTALLY.
ION (ED
lION
FOR ALL OTHER MECHANICAL AND ELECTRICAL
ANSUL "Pull to release" Gas Valve GAS VALVES CONTACT THE MANUFACTURER FOR
Actuator INSTALLATION ORIENTATION.
December 2008 Section 4 Installation Page 4 19
Amerex Restaurant Fire Suppression System (EX 4658)
AT THE MRM I MRM Ill PRM
Confirm that the cable is moving freely in the corner pulleys and
the valve is in the cocked position.
Thread the activation cable through the cable connector
(provided with the gas valve trip assembly).
Install the red vinyl cap above the swaged ball fitting of the gas
valve trip assembly by threading the swaged ball fitting through
the small 1/4' diameter hole in the rear of the vinyl cap.
Join the swaged ball fitting of the gas valve trip assembly to the
cable connector. Once attached, push the red vinyl cap over the
end of the cable connector as illustrated.
WARNING: IMPROPER INSTALLATION OF THE RED VINYL CAP
MAY CAUSE FAILURE OF THE GAS VALVE TO CLOSE.
IA
R.
ATTACH CABLE CONNECTOR TO THE
SWAGED BALL FITTINC
Draw the slack out of the cable. Make certain that the piston component of the gas valve
trip assembly is pulled forward to its fully extended position.
When all of the slack is drawn out of the cable, secure it with the set screws.
Test the valve by pulling on the cable inside the MRM /MRM II / PRM until tension is relieved.
Confirm that the gas valve has closed.
Secure all excess cable so that it is out of the way of any parts in the MRM I MRM II / PRM. We
suggest taping it to the gas valve cable.
TO TEST THE OPERATION OF THE GAS VALVE:
1. a Disconnect and plug the actuation hose or piping
Insert an Amerex P/N 12856 nitrogen cylinder or adapter fitting tool P/N 10895 and outside regulated
source of nitrogen into the MRM or PRM
Pull on the manual pull station
Confirm that the gas valve has closed
WARNING: ACTUATION NETWORK IS UNDER PRESSURE - PROCEED WITH CAUTION
2. Relieve pressure in actuation network by using the vent check. After all pressure is blown off,
slowly remove the nitrogen cylinder or turn off regulated N2 supply.
3. Reset the MRM or PRM
4. Reset all accessory items.
5. Install a fully charged nitrogen cylinder.
6. Securely connect actuation hose or piping. Do not over tighten pipe or pipe fittings into the MRM
or PRM pipe threads. Over tightening could cause the MRM or PRM to malfunction.
7. Reset the Mechanical Gas Valve.
8. Remove all set-up tools from the MRM or PRM.
9. Replace and seal the enclosure cover on the MRM or PRM.
10. Replace and seal the cover on the mechanical gas valve.
WARNING: THE MECHANICAL GAS VALVE AND ASSOCIATED COMPONENTS SHOULD BE TESTED
AND EXERCISED EVERY TIME THAT SYSTEM MAINTENANCE IS PERFORMED.
MAINTENANCE SHOULD BE PERFORMED AT INTERVALS NOT EXCEEDING SIX MONTHS.
FAILURE TO TEST THE MECHANICAL GAS VALVE AND RELATED COMPONENTS COULD
RESULT IN A TOTAL SYSTEM FAILURE DURING A FIRE INCIDENT.
December 2008 Section 4 Installation Page 4 - 20
Amerex Restaurant Fire Suppression System (EX 4658)
INSTALLING AN ELECTRICAL GAS VALVE MRM, MRM II OR PRM
WARNING: CONFIRM THAT THE GAS HAS BEEN SHUT OFF AT THE SOURCE OF SUPPLY AND THAT
THE ELECTRICAL POWER HAS BEEN TURNED OFF BEFORE ATTEMPTING TO INSTALL
THE ELECTRIC GAS VALVE IN THE GAS LINE OR DO ANY WORK ON ELECTRICAL
WIRING. A QUALIFIED, LICENSED CONTRACTOR SHOULD PERFORM INSTALLATION OF
THE VALVE INTO THE GAS LINE. ALL ELECTRICAL INSTALLATION SHOULD BE
PERFORMED BY A QUALIFIED ELECTRICIAN ACCORDING TO THE INSTRUCTIONS
PROVIDED BY THE GAS VALVE MANUFACTURER. ALL WIRES SHOULD BE CLEARLY
TAGGED, THE SCHEMATIC NOTED FOR FUTURE REFERENCE IN THE PERMANENT JOB
FILE AND ALL DISCONNECTED WIRES MUST BE TAPED OR HAVE WIRE NUTS
INSTALLED. MOVE THE TENSION BAR TO THE
"DOWN (RELAXED) POSITION
Before beginning the installation of an electric gas valve:
Confirm that the gas has been shut off at the supply.
The tension bar in the MRM, MRM II or PRM is in the
"down" (relaxed) position.
The set up/lock out tool has been installed and that
the nitrogen actuation cylinder is not in place.
Install the gas valve into the gas line. If any strainers
are to be used, they shall be placed upstream of the
gas valve. Confirm that the valve is installed with the
correct gas flow direction as indicated by the arrow on
the gas valve body. Wrenches must be placed on the
valve at the point closest to the connection being
tightened and a "hold" must be placed on the valve
when fitting pipe downstream of the valve body. DO
NOT USE THE GAS VALVE AS A LEVER FOR
TIGHTENING PIPE. If pipe joint compound is used it
must be applied sparingly to the back male threads.
Pipe joint compound entering the gas valve could
cause the valve to fail.
Test the gas valve and connections for leaks using a
soapy solution.
Install necessary EMT conduit for connecting the
MRM / MRM II or PRM to an electrical gas shut-oft
valve.
See Section 3 for wiring schematic.
For installation of the snap action switch see section labeled "Snap Action Switch Installation". The electric gas
valve has specific limitations regarding its orientation on the gas line - please refer to the manufacturer's
instructions. Confirm that the valve is installed in the proper direction of flow according to the arrow on the valve
body and that wrenches are used in the proper manner.
Apply wrench to gas
valve hex flat only
CONDUIT CONNECTOR
HOLDER
TER PIN PLACEMENT
1" TO 2" VALVES
TOTTER PIN PLACEMENT
0R 3/4" VALVES
JAM NUT &
WASHER
FIGURE 1
December 2008 Section 4 Installation Page 4 - 21
Amerex Restaurant Fire Suppression System (EX 4658)
INSTALLING A MECHANICAL GAS VALVE KIT MRM, MRM II OR PRM
The gas shut off valve to be converted to a 'pull to close" type
should be located where it can be easily accessed for
resetting, maintenance and service.
This kit is designed to allow certain specified gas shut-off
valves to be interconnected to an Amerex Restaurant
System. It is not intended for repair of damage or
inoperable gas shut-off valves or to be used with
restaurant systems other than an Amerex restaurant
system.
Insure that the MRM I MRM II / PRM have been locked
out properly, refer to the Installation Section.
WARNING: VERIFY THAT THE MAIN GAS SUPPLY
HAS BEEN SHUT OFF PRIOR TO INSTALLING THE
GAS SHUT OFF VALVE. GAS VALVE
INSTALLATION SHOULD BE PERFORMED BY A
QUALIFIED, LICENSED CONTRACTOR.
2. Visually inspect the gas shut-off valve stem for
cleanliness and damage. Replace the gas shut-off
valve if the stem appears damaged or if it will not
operate properly.
Install the conduit connector as shown in figure 1
Install the outlet box (P/N 13626) using the jam nut
(PIN 13625) and the washer (PIN 13624).
Install the cotter pin (P/N 08292) through the gas shut-
off valve stem and hole that corresponds to the size of
the valve (refer to figures 1). Bend the tabs of the
cotter pin over to secure it in place. Be sure that the
tabs do not interfere with the operation of the holder.
Install the necessary 1/2' EMT conduit, corner pulleys
(P/N 12309 or 16444), tee pulleys (P/N 12506) and
cable (P/N 12553) to connect the shut off valve to the
MRM. For gas shut off valve cable limitations and
installation instructions see the Design and Installation
sections.
Insert one end of the cable through the crimp, through
the hole in the rear of the holder then back through the
crimp and compress the crimp to secure it in place.
To install, set and test the piston assembly at the other
end of the cable, refer to the Installation and Testing
and Commissioning sections under "Installing a
Mechanical Gas Valve".
After testing the actuation of the gas shut off valve,
insure that all components of the system are reset.
Place the cover on the outlet box and secure it in
place.
December 2008 Section 4 Installation Page 4 - 22
Amerex Restaurant Fire Suppression System (EX 4658)
SNAP ACTION SWITCH INSTALLATION MRM, MRM II or PRM
Two SPDT switches are pre-installed in the MRM, MRM II or
PRM. Before beginning the installation of any additional snap
action switch, confirm that the tension bar is in the "down"
(relaxed) position, that the set-up/lock-out tool is in place and
that the nitrogen actuation cylinder has not been installed. The
SPDT switch is mounted with two screws that attach to the
plate on the module (screws are provided with the MRM). An
additional two SPDT switches may be mounted above and on
top of the original set for a total of four switches. A self
adhesive wire tie is provided with the module to assure a neat
and orderly installation.
Auxiliary connection can now be made to perform required output functions.
Part No. contacts Rating
SPDT 21 Amps 125, 250 or 277 VAC
12524 Single Pole I HP 125, 250 or 277 VAC
Double-Throw 2 HP 250, 277 VAC C ~(, - - ~w-_ "
SNAP ACTION SWITCH
PIN 12524
CAUTION: ELECTRICAL CONNECTIONS SHALL NOT BE MADE IN THE MRM, MRM II OR PRM
ENCLOSURE. ROUTE THE LEADS FROM THE SNAP ACTION SWITCH THROUGH THE
APPROPRIATE KNOCKOUT TO AN ATTACHED, LISTED ELECTRICAL JUNCTION BOX
(DISTRIBUTOR SUPPLIED).
CAUTION: POWER TO COOKING APPLIANCES SHOULD NEVER BE RUN THROUGH THE SNAP
ACTION SWITCH. THE SWITCH SHOULD BE USED TO OPERATE A SEPARATE,
CONTRACTOR SUPPLIED, ELECTRICAL CONTACTOR OR MAGNETIC SWITCH OF
SUFFICIENT RATING TO HANDLE THE POWER REQUIREMENTS OF THE ASSOCIATED
COOKING APPLIANCES. A LICENSED ELECTRICIAN SHOULD PERFORM ALL
ELECTRICAL FIELD WIRING.
POWER SOURCE AAMUM PrcrT pn AY
IN5!ALLLh-PUUVlUCU JUNCIIUN BOXES
S
S
S
September 2009 : Section 4 Installation Page 4 - 23
Amerex Restaurant Fire Suppression System (EX 4658)
INSTALLING THE ELECTRIC CONTROL HEAD (ECH):
Select a suitable location for the Electric Control Head that allows access for installation, service, recharge and
where both pressure gauges of the Nitrogen Actuation Cylinder and the 15 in N2 Actuation Cylinder can be
viewed. The ECH must be fastened to a surface which has sufficient structure to support the loads anticipated.
Using the backplate as a template, mark the top two holes for mounting and anchor the module loosely, adjust to
level and mark bottom holes, anchor securely using appropriate fasteners. Do not install the Nitrogen
Cylinders at this time. The ECH requires the following components for completion of the control equipment:
P/N 19347 Actuation Cylinder, P/N 09956 15 in Nitrogen Actuation Cylinder, and the P/N 17014 Electric Actuator.
The Electric Actuators of the ECH, and all other electrical components, must be connected to the Amerex-
supplied Releasing Control Panel, P/N 19340, Model designation: SR-X.
p/n 17014
Electric
Actuator 9.5
(Not Included)
8.5
2.8, ref.
Vent Check
(Do Not
Remove)
11
9.75
Pressure
Outlet
1/4NPT
ECH
p/n 19347
Nitrogen Actuation
Cylinder, ECH
(Not Included)
4.09 Ref.
p/n 09956
Nitrogen Actuation
Cylinder, ECH
(Not Included)
INSTALLING THE ACTUATION NETWORK
Refer to the Design Section 3, Page 3-29 for limitations of the Actuation Network. The network originates at the
pipe outlet of the MRM / PRM I ECH and continues to each Agent Cylinder Valve assembly. The protective plug
at the port on the MRM / ERM / ECH must be removed. All threaded connections in the Actuation Network must
be sealed with Teflon tape per page 4-16.
January 2012 Section 4 Installation Page 4 -24
Amer ex Restaurant Fire Suppression System (EX 4658)
Installation of Nut Style Rivet
Install using AA480 DOUBLE ACTION LEVER TOOL
Instruction Sheet for AK, AL, AH, AO, SeriesTM and RN Series® Product supplied with each tool.
Please refer to Amerex Restaurant Fire Suppression Manual to obtain proper thread adaptation kit part
numbers and size/tool capabilities.
Tool Set-Up Instructions
Installing thread adaptation kit:
Remove tool nose housing (C) from tool. Loosen mandrel lock nut (F) one rotation from tool.
Thread mandrel (D) fully onto threaded shaft (E) and tighten mandrel lock nut (F) against mandrel
(D) with wrenches included.
Replace tool nose housing (C) onto tool and tighten.
Turn knurled lockdown ring (B) forward to front of nose piece (A).
Thread nose piece (A) into tool nose housing (C) approximately two full rotations.
Adjust stroke of tool.
The AA480 Tool will need to be adjusted to provide the proper stroke to install the AL product.
To calculate the stroke requirement use the following formula and chart.
(MG-MT) + PF = Stroke Setting
MG = Max grip of the AVK Product. Refer to AVK Engineering Catalog for the appropriate grip
specifications.
MT =The thickness of the material you will install the product into.
PF = The pull-up factor. This is the amount by which the overall length of the AVK product is shortened
during installation into a parent material of maximum grip thickness. They are as follows.
Thread: 1/4 201Jt4
Size Series: 1/4, M6 .065 .090 .080 .095
Note: Each horizontal mark on the Gauge (G) equals one millimeter or .040" of stroke. Each 1/2 turn of
the knob (I) equals .8 millimeter or .032" of stroke.
Set tool stroke using stroke adjustment knob
(1). Confirm stroke setting on stroke indicator gauge (G). Make sure the detent (H) is extended
into the lobe on the adjustment knob (1).
Open tool handle fully and turn nose piece (A) into tool so that the length of exposed mandrel (D) is
equal to the overall length of the product being installed.
Tighten the knurled lock down ring (B) against the tool nose housing (C).
Tool Operation:
1 . Open tool handles.
Thread product fully onto tool mandrel (D).
Place exposed product into the hole in your parent material. Drill hole 25/64 Dia.
Squeeze tool handles together fully.
Spin removal knob (J) counter-clockwise removing mandrel/tool from installed product.
Measure the AVK product's installed length dimension. Make minor stroke adjustments
if necessary. One full rotation of the stroke adjustment knob (H) equals 1 .6mm or .064". 1/2 rotation
equals .8mm or .032". Be sure the detent (H) is extended into the lobe on the adjustment knob (1).
Perform steps 8 and 9 of the Tool Set-Up Instructions if necessary.
January 2012 Section 4 Installation Page 4 —25
Amerex Restaurant Fire Suppression System (EX 4658)
Installation of Stud Style Rivet
Installation using AA480 DOUBLE ACTION LEVER TOOL
Instruction Sheet for AS Series TM Studs supplied with each tool.
Please refer to Amerex Restaurant Fire Suppression Manual to obtain proper thread adaptation kit part
numbers and size/tool capabilities.
Tool Set-Up Instructions
Installing thread adaptation kit:
Remove tool nose housing (C) from tool. Loosen mandrel Jock nut (F) one rotation from tool.
Thread stud mandrel (D) fully onto threaded shaft (E) and tighten mandrel Jock nut (F) against stud
mandrel (D).
Replace tool nose housing (C) onto tool and tighten.
Turn knurled lockdown ring (B) forward to front of nose piece (A).
Thread nose piece (A) into tool nose housing (C) approximately two full rotations.
Adjust stroke of tool. The AA480 Tool will need to be adjusted to provide the proper stroke to install
the Stud Style Rivet.
To calculate the stroke requirement use the following formula and chart.
(MG-MT) + PF = Stroke Setting
MG Max grip of the AVK Product, refer to AVK Engineering Catalog for the appropriate grip
specifications.
MT The thickness of the material you will install the product into.
PF The pull-up factor. This is the amount by which the overall length of the product is shortened
during
installation into a parent material of maximum grip thickness.
They are as follows.
Thread AS Series
Size Product: 1/4, M6 .065
Note: Each horizontal mark on the Gauge (G) equals one millimeter or .040" of stroke. Each 1/2 turn of
the knob (I) equals .B millimeter or .032" of stroke.
Open tool handle fully and set stroke of tool using stroke adjustment knob (I). Make sure the detent
(H) is extended into the lobe on the adjustment knob
(1). Confirm stroke setting on stroke indicator gauge (G).
Turn nose piece (A) into tool nose housing (C) so that the AS Series" stud can be threaded a
minimum of four full rotations into the stud mandrel.
Tighten the knurled lockdown ring (B) against the tool nose housing (C).
Tool Operation:
Open tool handles.
Thread AS Series" stud fully onto tool nose (A).
Place exposed tail of stud into the hole in your parent material. Drill hole 25/64 Dia.
Squeeze tool handles together fully.
Spin removal knob (J) counter clockwise removing tool from installed stud.
Measure the AVK Stud's installed length dimension (IL dimension in catalog) make minor stroke
adjustments if necessary. One full rotation of the stroke adjustment knob (H) equals 1.6mm or .064". 1/2
rotation equals .8mm or .032". Be sure that the detent (H) is extended into the lobe on the adjustment
knob {1).
Perform steps 8 and 9 of the Tool Set-Up Instructions if necessary.
March 2012 Section 4 Installation Page 4 —26
Amerex Restaurant Fire Suppression System (EX 4658)
FLEXIBLE NOZZLE BRANCH HOSE (PN20473)
This hose is designed to be used when a flexible movement of the nozzle branch line is desired. Such as when an
appliance needs to be moved for cleaning and the nozzle protecting the appliance is fixed to the appliance. Hose
length is 48" end to end and is supplied with 1/2' NPT ends. THE FLEX HOSE IS LIMITED TO USE ON THE
NOZZLE BRANCH LINE ONLY AND CANNOT BE USED ON SUPPLY LINE OR SUPPLY BRANCH LINE.
When installing the flexible hose the use of an elbow on the stationary piping at the appliance is helpful in
reducing stress on the hose when the appliance is in its cooking position. The nozzle branch drop should be
located in a manner that will provide the maximum movement of the appliance without causing the flexible hose to
kink or collapse. In some installation this may be directly over the fixed piping and in other installations it may be
out board of the fixed nozzle.
Never locate the flexible hose where it is exposed directly to hot exhaust gases. Example: Over the top of an
open top char-broiler. The flex hose is never to be installed behind an obstruction or wall.
Only one flex hose is to be used on an individual nozzle branch line. A maximum of three hoses may be used on
an agent cylinder piping network. The minimum bend radius of the flex hose is 7" (17.8 cm).
The castered appliance must be furnished with an appliance locating device. This will assure the appliance is
returned to the required position after being moved for cleaning.
When attaching the flexible hose to a 3/8" pipe drop, a 1/2 coupling with a reducing busing may be used to
transition from the pipe to the hose.
When a system discharge occurs the hose is to be cleaned and drained of any agent remaining in loops.
NOTE: The illustration above does not represent the only configuration possible - it is for
information only.
SECTION 5
SYSTEM
TESTING & COMMISSIONING
MANUAL PIN 20150
AMEREX
RESTAURANT
FIRE SUPPRESSION SYSTEM
Tested and Listed by
Underwriters Laboratories, Inc.
to UL Standard 300
EX 4658
Tested and Listed by
Underwriters Laboratories of Canada
to ULIORD 1254.6-1995
December 2008
April 2011 Section 5 Testing & Commissioning Page 5 - 1
Amerex Restaurant Fire Suppression System (EX 4658)
TESTING & COMMISSIONING
Testing and commissioning shall be performed by a trained and certified Amerex restaurant distributor in
accordance with NFPA 96, NFPA 17A and local code requirements.
Once the Amerex Restaurant Fire Suppression System has been completely installed, two sets of tests must
be conducted prior to placing the system in service. The detection network, using any fusible link style or the
pneumatic tubing, must be tested for functionality along with the manual pull station(s), gas valve(s) and other
interlocks. Once this is accomplished and confirmed the action network must be tested using a nitrogen
actuation cartridge. Recharging of the nitrogen cartridge can be accomplished by following the instructions on
Page 7-6 and 7-7.
TESTING THE DETECTION NETWORK - MRM or MRM II
The terminal detector must have a test link (P/N 12891) installed in place of the fusible link. With the
nitrogen actuation cartridge removed from the release module; the release mechanism cocked; the tension
bar in the 'up" (tension) position and the set-up/lock-out tool removed; cut the test link with a pair of dikes or
similar device. The MRM must actuate at this time.
If the MRM did actuate, follow the reset instructions, place the proper fusible link on the terminal detector
and continue with the system test.
If the MRM did not actuate, check to see if:
the detectors are installed properly,
that the cable is not binding at any point in the conduit or corner pulley(s),
that the cable is connected to the link plate properly,
that the tension bar is in the "up" position and that the set-up/lock-out tool is not in place
that the conduit is rigidly fastened in place
that the proper tension exists on the link line
Once these items have been investigated and resolved, RETEST.
TESTING THE DETECTION NETWORK - PRM
When first placing the system into service, following system actuation, or at the six month servicing interval,
the detection network shall be tested prior to conducting an actuation network test:
Insure removal of the Nitrogen Actuation Cylinder.
2. Slowly release the detection pressure until the panel actuates by performing either of the
following:
a Depress the Schrader valve on the detection accumulator cylinder. Replace Schrader
cap following actuation and re-pressurization.
b Slowly loosen the knurled nut on the end and check for leaks of line fitting. Re-tighten
the nut following actuation and thoroughly leak check the entire PRM assembly and
tubing following re-pressurization.
If the PRM did actuate, follow reset instructions and continue with the system test.
If the PRN1 did not actuate, check to see if:
that the PRM was properly cocked
that the "End of Line Fitting" did properly vent the pressure from the accumulator
that the accumulator pressure reading dropped to zero
that the set-up/lock-out tool is not in place
that the slide plate and puncture pin are free to function
that the trip plunger is free to move without resistance
Once these items have been investigated and resolved, RETEST.
April 2011 Section 5 Testing and Commissioning Page 5 - 2
Amerex Restaurant Fire Suppression System (EX 4658)
TESTING THE MANUAL PULL STATION - MRM, MRM II OR PRM
After the detection network has been tested and before inserting the nitrogen actuation cylinder the
manual pull station(s) must be tested. We recommend having an employee of the restaurant remove the pull
pin on each manual pull station, grab the handle and pull away from the mounting surface. Confirm that each
manual station did not require a pull force in excess of 40 lbs. and that the handle did not require pulling a
distance of more than 14 inches. The MRM, MRM II or PRM must actuate at this time.
If the MRM or PRM did actuate, for each station, replace the pull pin, attach a tamper seal and follow the
reset instructions.
If the MRM or PRM did not actuate:
the pull station is installed properly,
the cable is not binding anywhere in the conduit, corner pulley(s) or pulley tee,
the cable is connected properly to the manual pull cam in the MRM or PRM,
the set-up/lock-out tool is not in place.
The MRM is properly set and cocked.
Once these items have been investigated and resolved, RETEST.
TESTING THE MECHANICAL GAS VALVE - MRM, MRM II OR PRM
With the gas on and appliances working, pull on the cable leading to the gas valve where it connects to the
piston plug/gas trip assembly in the MRM or PRM. A 1/2 inch cable movement will be sufficient to close the
gas valve. The gas valve(s) must release at this time.
If the gas valve(s) do release, follow the reset instructions and continue with the test.
If the gas valve(s) do not release, check to see if:
it has been installed properly,
it is fitted tightly into the gas line,
the cable is not binding in the conduit or in a corner pulley(s),
it has been connected to the release module properly and that the cable has been secured properly
to the gas valve trip mechanism. Insure that the red vinyl cap is properly installed.
Once these items have been investigated and resolved, reset.
TESTING THE ACTUATION NETWORK AND MECHANICAL GAS VALVE WITH A NITROGEN
ACTUATION CYLINDER
After performing the mechanical gas valve test above, then you MUST test the actuation network and gas
valve together using a NITROGEN ACTUATION CYLINDER. Before inserting the NITROGEN ACTUATION
CYLINDER insure that all fittings on the actuation line are tight and secure. This test can be done in
conjunction with the 'puff or air test" or alone.
If testing with a "Puff' test:
Confirm that all components of the system are properly installed and the test cylinders are connected and
charged with compressed air or nitrogen - no fire suppression agent. Either the pull station is pulled or a test
link is cut to actuate the system. All system functions should occur at this time. Confirm that the gas valve
closed, the actuation line was tight and secure, the agent cylinders valves opened and the pipe and nozzles
are clear.
If there is no need to perform a "Puff' test:
You can simply connect a valve assembly removed from a cylinder or pneumatic actuator disconnected from
the cylinder to the actuation line. Pull the pull station or cut a test link to actuate the system and confirm total
system functioning. Insure that the discharge valve is being opened, the actuation line has no leaks, and gas
valve(s) closed properly.
April 2011 Section 5 Testing and Commissioning Page 5 - 3
Amerex Restaurant Fire Suppression System (EX 4658)
TESTING THE DISTRIBUTION PIPING NETWORK
The Amerex Restaurant Fire Suppression System is a wet chemical suppression system using pre-
engineered piping limitations that do not require balancing. As long as the design limitations for the
distribution piping network as stated in the design section have NOT been exceeded, there should be no
concern regarding proper distribution of agent at each discharge nozzle. "Bag Tests" or discharge tests are
not considered necessary.
"PUFF" TEST
To confirm that the distribution network piping is clear and intact, a "Puff Test" or "Air Test" may be performed.
This test may be performed as an individual test or as part of a functional test.
When performing a "Puff Test" as part of a functional test, all other components of the system are installed,
including the nitrogen actuation cylinder and an agent cylinder assembly charged with compressed air or
nitrogen only to 100 psi (689.48 kPa) - no fire suppression agent.
Either a manual pull station is activated or a test link is cut and all system functions, including auxiliary outputs
and discharge of air or nitrogen through the distribution piping, should occur at this time. All functions are
confirmed and documented and the system is recharged and reset.
To perform the "Puff Test" as an individual test:
Replace agent cylinder(s) with test cylinder(s) and actuate the system.
Confirm that each nozzle is clear and continue testing.
TESTING THE ELECTRICAL GAS VALVE - MRM, MRM II or PRM
With the gas valve and the appliances working follow the procedure for testing the manual pull station. When
the manual pull station(s) is activated and the MRM/PRM actuates, the snap action switch(es) must transfer
contacts cutting off current to the electric gas valve. The Manual Reset Relay shall show an "off' condition. If
this does not happen, turn the power to the relay and electric gas valve off and check all electrical
connections RETEST.
TESTING COMPLETED
After all testing has been completed, follow reset instructions and put the system on line, including the
nitrogen actuation cylinder and all tamper seals. The testing procedures and results should be documented in
written form with copies left for the owner/manager, Local AHJ (if required) and a copy put into the
permanent job file. Amerex P/N 13023 "Commissioning Checklist" or similar form shall be used.
A short instruction period on the operation of the system and procedures to use during a fire incident
shall be given to the owner or owner's agent and appropriate employees. A copy of Amerex PIN
12386 "Owner's Manual" must be given to the owner along with a Material Safety Data Sheet on the
Amerex Kitchen Wet Chemical Agent. Review the "Owner's Manual" with the owner or owners agent.
Any discrepancies found between the finished installation and the design sketches or drawings should be
noted and an "as-built" drawing prepared for the permanent job file.
September 2009 Section 5 Testing and Commissioning Page 5-4
Amerex Restaurant Fire Suppression System (EX 4658)
TESTING THE ELECTRICAL GAS VALVE - MRM, MRM II or PRM
With the gas valve and the appliances working follow the procedure for testing the manual pull station. When
the manual pull station is activated and the MRM, MRM II or PRM fires, the snap action switch(s) must
transfer contacts cutting off current to the electric gas valve. The Manual Reset Relay shall show an "off'
condition. If this does not happen, turn the power to the relay and electric gas valve off and check all
electrical connections, retest.
TESTING COMPLETED
After all testing has been completed, follow reset instructions and put the system on line, including the
nitrogen actuation cylinder and all tamper seals. The testing procedures and results should be documented in
written form with copies left for the owner/manager, Local AHJ (if required) and a copy put into the
permanent job file. Amerex P/N 13023 "Commissioning Checklist" or similar form shall be used.
A short instruction period on the operation of the system and procedures to use during a fire incident
shall be given to the owner or owner's agent and appropriate employees. A copy of Amerex P/N
12386 "Owner's Manual" must be given to the owner along with a Material Safety Data Sheet on the
Amerex Kitchen Wet Chemical Agent. Review the "Owner's Manual" with the owner or owners agent.
Any discrepancies found between the finished installation and the design sketches or drawings should be
noted and an "as-built" drawing prepared for the permanent job file.
ELECTRIC CONTROL HEAD (ECH) SYSTEMS
With the PIN 17014 Electric Actuator removed from the ECH assembly, successively apply heat, from a heat
gun, to each thermostat. Each time, the pin at the base of the Electric Actuator should extend with an audible
'click'. Use the back of a writing pen (or similar) to manually push the pin back up into the Electric Actuator
after firing. Reset the Amerex SR-X Releasing Panel upon completion of testing. Inspect the status of the
two ECH actuating pins as shown below prior to installing nitrogen cylinders.
Actuator Pin
Slide Freely
Bras
that Puncture
ully Retracted
Installing
n Cylinder
TESTING THE MANUAL PULL STATION OF THE ELECTRIC CONTROL HEAD (ECH) SYSTEM
After the Detection Network has been tested and BEFORE RE-INSTALLING THE ELECTRIC ACTUATOR
AND NITROGEN ACTUATION CYLINDERS, the Manual Pull Station must be tested: Pull the FIRE handle
on the Manual Electric Pull Station. The pin of the Electric Actuator must extend at this time with an audible
'click'. Use the back of a writing pen (or similar object) to manually push the pin back up into the Electric
Actuator after firing. Reset the Amerex SR-X Releasing Panel upon completion of testing. Re-install the
Electric Actuator onto the ECH. Warning: Failure to reset the Electric Actuator prior to re-installation will
result in system actuation.
SECTION 6
SYSTEM MAINTENANCE
MANUAL PIN 20150
AMEREX
RESTAURANT
FIRE SUPPRESSION SYSTEM
Tested and Listed by
Underwriters Laboratories, Inc.
to UL Standard 300
EX 4658
Tested and Listed by
Underwriters Laboratories of Canada
to ULIORD 1254.6-1995
December 2008
April 2011 Section 6 Maintenance,,Page 6`m'-'-,l
Amerex Restaurant Fire Suppression System (EX 4658)
MAINTENANCE
THE AMEREX RESTAURANT FIRE SUPPRESSION SYSTEM MUST BE PROPERLY MAINTAINED AT
INTERVALS NOT EXCEEDING SIX (6) MONTHS IN ORDER TO ASSURE PROPER OPERATION.
MAINTENANCE SHALL BE PERFORMED BY AN AMEREX RESTAURANT FIRE SUPPRESSION
SYSTEMS TRAINED AND CERTIFIED DISTRIBUTOR IN ACCORDANCE WITH NFPA 96, NFPA 17A AND
LOCAL CODE REQUIREMENTS.
A complete functional test of the system as described in the "Testing and Commissioning" section of this
manual shall be performed at every maintenance interval along with the following:
Prior to performing any maintenance, remove the cover of the MRM or PRM, install the set-up/lock-
out tool and remove the nitrogen actuation cylinder.
Compare the number, type and location of each appliance with the "as-built" drawings or the previous
system service. Note any changes in writing to the owner or the owner's agent and put a copy of the
notification in the permanent job file. CHANGES IN THE COOKING LINE WILL HAVE A MAJOR
EFFECT ON THE SYSTEM DESIGN AND PERFORMANCE. If appliances have been added or
changed the system may have to be redesigned.
Note the condition of the hood and duct, including grease build up and code violations (both local
codes and NFPA 96 and NFPA 17A). Notify the owner or owner's agent of any problems or
code violations - in writing with a copy to be placed in the permanent job file.
Check the entire distribution network piping, nozzles and caps to verify that they have not been
altered or damaged. Perform "puff test" or "air test" in accordance with "Testing and Commissioning"
instructions using a NITROGEN ACTUATION CARTRIDGE.
CAUTION: SOME HOOD AND DUCT CLEANING PROCEDURES MAY DAMAGE THE
DETECTION NETWORK OR LEAVE DETECTORS IN A CONDITION WHERE
THEY MAY NOT OPERATE. AMEREX RECOMMENDS THAT THE SYSTEM BE
SERVICED AFTER EACH CLEANING BY AN AUTHORIZED AMEREX
RESTAURANT SYSTEMS DISTRIBUTOR.
Amerex requires that all fusible links be replaced in intervals not to exceed 6 months. Links
that do not need replacing must be thoroughly cleaned before being put back into service. Any
fusible link found to be damaged, painted or having excessive grease must be replaced regardless of
age. The links that are removed shall be destroyed. Any link exposed to excessive heat or flame
shall be removed from service and destroyed.
A system using the PRM requires that the tubing be replaced at intervals not to exceed (3) years.
Record the installation date and the date of replacement on the tubing replacement label on the
Detection Accumulator Cylinder. The entire length of tubing must be replaced, either at the three
year interval or following a fire incident. If grease or coating build-up is excessive, a more frequent
replacement interval will be required. At a minimum, excessive build-up is defined as when material
completely encircles the tube at any point along its length. Cleaning the tube is acceptable, provided
that no abrasives are used, and that the text on the outside of the tubing is still legible when
completed. Use only a soft cloth with mild detergents and warm water. If the tubing appears
brittle or charred REPLACE it. "When in Doubt. Take it OUT". Corrective action should be
taken to re-evaluate the environment where the tubing is installed, or a more frequent tubing
inspection and/or replacement interval must be used. The End of Line Fitting Assembly (P/N
16506) must be replaced when the tubing is replaced. Do not attempt to re-use the Fitting or the
Sealing Ball. Thoroughly leak check the tubing terminations following re-installation and re-
pressurization.
April 2011 Section 6 Maintenance Page 6 - 2
Ameréx Restaurant Fire Suppression System (EX 4658)
7. The Pneumatic Release Module (PRM) 0-ring (P/N 17692) on the brass actuation piston must be
replaced every six months.
Materials required: 1 1/8" open-end wrench, 5/32" Allen wrench, clean, lint-free shop towels,
0-ring (P/N 17692), and Visilox lubricant (available as p/n 06247 in a 5 oz. tube).
Remove the cover of the PRM and make sure the nitrogen actuation cylinder is removed.
Remove the screw anchoring the spring to the brass block with a 5/32" Allen wrench. The
silver lever should now swing down away from the brass block.
Unscrew the cap off of the Schrader valve and bleed the pressure off of the accumulator
cylinder. Confirm that the pressure gauge reads zero.
With the 1 1/8" open-end wrench, loosen and remove the brass hex nut that retains the piston
spring and piton inside the brass block. A shop towel may be required to grip the end of the
brass piston for extraction from the block. Take care to use only your hands to remove the
piston. VERY IMPORTANT: DO NOT use pliers or tools to remove the piston from the
bore or the 0-ring from the piston groove. Scratches will cause system leaks and
unwanted system discharges.
With a clean shop towel, wipe out all the old grease from the inside the cylindrical bore at the
deepest point inside the brass block. Using the Visilox V-711 lubricant, thoroughly and
completely wipe the internal bore in a circular motion with a clean finger. Make sure that
you reach all the way to the rear of the bore with the lubricant.
Clean off the old grease from the piston 0-ring. Using a dry shop towel, pinch' the 0-ring until
it can be slipped over the end of the piston by hand. DO NOT use a sharp instrument to
remove or cut the old 0-ring off of the piston - scratches on the brass will create a leak point.
Clean the groove of the piston prior to installing the new 0-ring. Liberally lubricate the 0-ring
on the piston with Visilox before inserting into the brass block.
VERY IMPORTANT - Lubricate both the 0-ring and the internal bore! Use NO TOOLS to
remove the old 0-ring.
After inserting the new piston all the way into the bore, slide the spring over the end and re-
tighten the brass hex retaining nut until resistance is felt. Do not over-tighten, as spring
tension will present the nut from backing out.
Temporarily pressurize accumulator through the Schrader valve with approximately 40-50
psi. Re-attach the screw which retains the lever spring to the corner of the brass block.
Tighten securely. Latch the tip of the actuation lever under the exposed tip of the piston.
Apply the lube totally around the perimeter of the exposed brass piston tip of the trip
mechanism. Work the piston in and out several times to distribute the lube. Additionally,
place some lube on the tip of the spring-loaded lever where it contacts the underside of the
piston tip.
Re-pressurize to 70 psi and leak check all fittings. Perform a full function test of the PRM at
this time, as well as the remainder of the six month maintenance.
8. Use the digital thermometer to record the temperatures found at each detector location (with
appliances running) and compare with those temperatures found at the same location during the last
system maintenance. Insufficient air movement, excessive grease build up and appliance changes
can cause temperatures to elevate even to the point of system discharge without a fire occurring.
INCREASING THE TEMPERATURE SETTING OF THE FUSIBLE LINK IS NOT AN ACCEPTABLE
SOLUTION TO THIS PROBLEM.
9. The agent cylinder assembly and nitrogen actuation cylinder must be checked for proper pressure
(within the green pie OPERABLE RANGE on pressure gauges).
10. The agent cylinder and all hose assemblies must be hydrostatically tested at a minimum of every 12
years.
a Agent Cylinder - test to 480 psi (3309 kPa)
b Actuation Hose (if used) - test to 3500 psi (24131 kPa)
c Distribution Hose - Test to 480 psi (3309 kPa)
If the agent cylinder or hose assemblies have been subjected to physical damage, excessive heat or
corrosion they should be hydrostatically tested or replaced regardless of their age.
April 2011 Section 6 Maintenance Page 6 - 3
Amerex Restaurant Suppression System (EX 4658)
11. Replace nitrogen actuation cylinder, REMOVE SET UP/LOCK OUT TOOL, replace the MRM cover
and install new tamper seals.
12.After performing a complete functional test of the system the owner or owner's agent shall receive
some documentation on the maintenance performed (with a copy to be placed in the permanent job
file) and instruction on how the system and related hand portable fire extinguishers work, including
procedures for incidents.
13. Note date of service on Inspection/Maintenance tag to attach to the system.
SECTION 7
SYSTEM RESET & RECHARGE
MANUAL PIN 20150
AMEREX
RESTAURANT
FIRE SUPPRESSION SYSTEM
Tested and Listed by
Underwriters Laboratories, Inc.
to UL Standard 300
EX 4658
Tested and Listed by
Underwriters Laboratories of Canada
to ULIORD 1254.6-1995
December 2008
Set-up/lock-out Tool
Installed
December 2008 Section 7 Reset and Recharge Page 7 - 1
Amerex Restaurant Fire Suppression System (EX 4658)
RESET AND RECHARGE
MOVE TENSION BAR
RESET PROCEDURES - MRM & MRM II
Each time the MRM is fired the following procedures must
be performed to accomplish reset:
Remove cover of the MRM I MRM II and move the
tension bar to the "down" (relaxed) position. Move
the upper end of the blue spring into the lower end T of the spring slot.
Cock the MRM by simultaneously pushing in on
the lock spring and turning the "Cocking Tool"
counterclockwise. The mechanical pull piston
must be pushed in all the way.
Insert the set-up/lock-out tool after cocking.
If a nitrogen actuation cylinder was expelled, relieve
pressure from the actuation network by either
loosening a fitting or depressing the ball in the vent
check. Remove the nitrogen actuation cylinder.
Confirm that all detectors are assembled and fusible
links are properly installed.
Leave the set-up/lock-out tool in place and verify
that the cable for the detection network is properly
attached to the link plate.
NOTE: Refer to page 4-8 for MRM II
Detection Cable Adjustment.
Confirm that the manual stations have pull pins
inserted and tamper seals installed.
8. Check to see that the manual pull cam in the MRM
is pushed in all the way and the cable to the pull
station is properly attached.
GAS TRIP ASSEMBLY
(PULLED OUT)
ANUAL PULL
USHED IN)
December 2008 Section 7 Reset and Recharge Page 7 - 2
Amerex Restaurant Fire Suppression System (EX 4658)
MECHANICAL GAS VALVES - DO ALL EXCEPT STEP 12
ELECTRICAL GAS VALVES - SKIP STEPS 9 THROUGH 11
15. Confirm that the swaged ball fitting of the gas valve trip assembly is pulled all the way out and that the
cable connected to the gas valve is properly attached using the cable connector and secured by the red
vinyl cap.
9. To reset the mechanical gas valve, disconnect the cable for the mechanical gas valve where it attaches to
the connector on the piston plug/gas trip assembly.
10. Go to the mechanical gas valve location, remove the cover, lift the valve stem and latch it open, reattach
the cable in the MRM / MRM II to the piston plug/gas trip assembly. Replace the cover.
11. To reset an electrical gas valve, the microswitches will transfer the contacts back to normal position when
the MRM / MRM II is cocked. The manual reset relay must be reset in order to open the electrical gas
valve.
12. To reset other auxiliary electrical functions, the same procedure as used for the electrical gas valve must
be followed.
13. Any alarm signals that are connected to a building fire alarm system can be cleared after cocking the MRM
/ MRM II and resetting the building fire alarm panel.
14. After all input and output functions have been restored or reset, insert a fully charged nitrogen actuation
cylinder, REMOVE THE SET-UP/LOCK-OUT TOOL, replace the MRM / MRM II cover and install two new
WARNING: IS THE SET-UP/LOCK-OUT TOOL IN YOUR POCKET OR IN YOUR TOOL BOX?
THE SYSTEM WILL NOT FIRE IF IT IS STILL INSTALLED IN THE MRM!
RESET PROCEDURES - PRM
Each time the PRM is fired the following procedures must be performed to accomplish reset:
Pressurize the Accumulator Cylinder to approximately 35 PSI (241 kPa)with compressed air through the
Schrader Valve. The Trip Plunger should extend.
Rotate the Spring Loaded Lever clockwise ("1" in Figure A), until its tip is latched under the Trip Plunger.
Resume pressurization of the Accumulator Cylinder to 70 PSI at 70°F (483 kPa at 210C). Leak check
the fittings at both ends of the tubing. Re-make tubing terminations, if necessary.
Using the Amerex Cocking Tool, p/n 13341 in conjunction with a 3/8" drive socket wrench and extension,
re-cock the Collapsible Column ("2" in Figure A). This is accomplished by simultaneously pushing in on
the Lock Spring while turning the Cocking Tool counterclockwise. The mechanism should now appear
as depicted in Figure B.
Replace the Nitrogen Actuation Cylinder (p/n 12856).
COLLAPSIBLE COLUMN
C)
/ TIP OF LEVER LOCKS FULLY
SPRING LOADED LEVER iiiii UNDERNEATH TRIP PLUNGER
FIGURE 'A' FIGURE 'B'
December 2008 Section 7 Reset and Recharge Page 7 - 3
Amerex Restaurant Fire Suppression System (EX 4658)
RECHARGE PROCEDURES (275, 375 & 475 CYLINDER)
WARNING:
BEFORE ATTEMPTING ANY RECHARGE PROCEDURES, FIRST CONFIRM THE REASON FOR
THE DISCHARGE AND CORRECT ANY CONDITIONS THAT CAUSED THE SYSTEM TO
DISCHARGE. THE AMEREX KP RESTAURANT FIRE SUPPRESSION SYSTEM MUST BE
RECHARGED IMMEDIATELY AFTER ANY DISCHARGE REGARDLESS OF THE CAUSE FOR
DISCHARGE. IF RECHARGE CANNOT BE ACCOMPLISHED IMMEDIATELY - DO NOT LEAVE
THE SYSTEM INCAPACITATED FOR ANY REASON WITHOUT GIVING WRITTEN
NOTIFICATION TO THE OWNER, OWNER'S AGENT, LOCAL AHJ AND DOCUMENTING THE
INCIDENT IN THE PERMANENT JOB FILE. ANY SYSTEM COMPONENTS SUBJECTED TO
FIRE OR OVERHEATING CONDITIONS MUST BE REPLACED, INCLUDING BUT NOT LIMITED
TO CYLINDERS, BRACKETS, DETECTORS, NOZZLES, PIPING, CONDUIT CABLE.
Relieve all pressure in the actuation line by depressing the ball check in
the vent check or loosening a fitting.
WARNING: ENSURE THAT ALL PRESSURE HAS BEEN RELIEVED
FROM CYLINDER BEFORE PROCEEDING.
Vent trapped actuation pressure in discharge valve by depressing the
stem of the Schrader valve located in the top of the valve cap of the
discharge valve.
Slowly remove agent cylinder assembly from the mounting bracket.
Remove discharge valve from the agent cylinder assembly, clean and
examine all valve parts thoroughly and apply Amerex P/N 06247 Visilox
lubricant to the collar 0-ring.
Empty the agent cylinder of all remaining agent. Inspect the interior of
the cylinder for residue (clean if necessary). Inspect cylinder threads for
evidence of damage.
Fill the cylinder with proper charge of Amerex Kitchen Wet Chemical
Agent:
Use Amerex P/N 16924 —2.72 Gallon Recharge for 275 Agent Cyl.
Use Amerex P/N 12866 - 3.75 Gallon Recharge for 375 Agent Cyl.
Use Amerex PIN 17450 - 4.80 Gallon Recharge for 475 Agent Cyl.
RUBBER GLOVES AND SAFETY GLASSES SHALL BE WORN WHENEVER
HANDLING AMEREX KP EXTINGUISHING AGENT. AVOID SKIN CONTACT.
FLUSH WITH WATER FOR 15 MINUTES IF CONTACT OCCURS. DO NOT
INGEST. IF AGENT IS INGESTED, DILUTE WITH MILK OR WATER AND
CONTACT A PHYSICIAN IMMEDIATELY. CONSULT THE MATERIAL SAFETY
DATA SHEET.
Inspect valve and stem assembly for deterioration or wear. Replace
required. Install valve assembly and downtube into the cylinder.
Attach the recharge adapter (P/N 09492) to the valve discharge port.
Attach the "T" handle recharge adapter (P/N 12855) to the top of the
discharge valve.
P/N 12855
/N 09492
December 2008 Section 7 Reset and Recharge Page 7 —4
Amerex Restaurant Fire Suppression System (EX 4658)
RECHARGE PROCEDURES (Model 600 CYLINDER)
WARNING:
BEFORE ATTEMPTING ANY RECHARGE PROCEDURES, FIRST CONFIRM THE REASON FOR THE
DISCHARGE AND CORRECT ANY CONDITIONS THAT CAUSED THE SYSTEM TO DISCHARGE. THE
AMEREX KP RESTAURANT FIRE SUPPRESSION SYSTEM MUST BE RECHARGED IMMEDIATELY AFTER
ANY DISCHARGE REGARDLESS OF THE CAUSE FOR DISCHARGE. IF RECHARGE CANNOT BE
ACCOMPLISHED IMMEDIATELY DO NOT LEAVE THE SYSTEM INCAPACITATED FOR ANY REASON
WITHOUT GIVING WRITTEN NOTIFICATION TO THE OWNER, OWNER'S AGENT, LOCAL AHJ AND
DOCUMENTING THE INCIDENT IN THE PERMANENT JOB FILE. ANY SYSTEM COMPONENTS
SUBJECTED TO FIRE OR OVERHEATING CONDITIONS MUST BE REPLACED, INCLUDING BUT NOT
LIMITED TO CYLINDERS, BRACKETS, DETECTORS, NOZZLES, PIPING, CONDUIT CABLE.
Relieve all pressure in the actuation line by depressing the ball check
in the vent check or loosening a fitting.
WARNING: ENSURE THAT ALL PRESSURE HAS BEEN
RELIEVED FROM CYLINDER BEFORE PROCEEDING.
Slowly remove pneumatic actuator assembly from the agent cylinder
valve assembly.
Remove discharge valve from the agent cylinder, clean and examine
all valve parts thoroughly and apply Amerex P/N 06247 Visilox
lubricant to the collar 0-ring. Replace worn or suspect parts.
Replace valve stem 0-rings.
Empty the agent cylinder of all remaining agent. Inspect the interior
of the cylinder for residue (clean if necessary). Inspect cylinder
threads for evidence of damage.
Fill the cylinder with proper charge of Amerex Kitchen Wet Chemical
Agent. Use Amerex P/N 15416-6.14 Gal. Recharge (model 664).
WARNING:
RUBBER GLOVES AND SAFETY GLASSES SHALL BE WORN WHENEVER HANDLING AMEREX
KP EXTINGUISHING AGENT. AVOID SKIN CONTACT. FLUSH WITH WATER FOR 15 MINUTES
IF CONTACT OCCURS. DO NOT INGEST. IF AGENT IS INGESTED DILUTE WITH MILK OR
WATER AND CONTACT A PHYSICIAN IMMEDIATELY. CONSULT THE MATERIAL SAFETY
DATA SHEET.
Install valve assembly and downtube into the cylinder.
Attach the recharge adapter (P/N 10136) to the valve discharge port.
Attach the "T" handle recharge adapter (P/N 10134) to the top of the discharge valve.
Connect the recharge adapter to a regulated source of nitrogen, set at 240 +25 psi (1655 kPa) and
pressurize the cylinder using the "1" handle adapter to depress the valve stem. When the agent cylinder
is pressurized to 240 psi @70°F (1655 kPa @21°C), agitate the cylinder for a period of one minute and
check the pressure gauge, add more nitrogen if necessary. Confirm proper pressurization by using a
calibrated gauge at the low pressure side of the regulator.
Remove the recharge adapter and "T" handle adapter.
a) 275 / 375 I 475 Agent Cylinder - attach the actuation port connection
b) 600 - install pneumatic actuator.
December 2008 Section 7 Reset and Recharge Page 7 -5
Amerex Restaurant Fire Suppression System (EX 4658)
Note: Reset Pneumatic Actuator PIN 15157 before installation. - DISCONTINUED
Remove the large retaining ring from the bottom of the Control Head (Figure 1).
With a 5/32" Allen wrench (or smaller) inserted through the cross-drilled hole in the tapered piston, pull the piston
assembly out of the control head body (Figure 1).
The thin circular disk and the small spiral retaining ring (replacement p/n 14037) must be removed from the piston
assembly. To do this, with the Allen wrench, unscrew the small tapered piston from the large brass piece (Figure
2). Do not use a vise, as this could damage the part.
Once the small tapered piston is removed, simply slip the thin circular disk and the small spiral retaining ring off
the back end (Figure 2).
Re-assemble the Control Head, as shown in Figure 3. First, tighten the small tapered piston back onto the large
brass piece. Make sure that it bottoms onto the brass part, and is hand-tight with the Allen wrench. The piston
assembly is to be pushed all the way into the control head body.
Hold the thick circular disk with the groove facing up (Figure 3). Drop the small spiral retaining ring into the groove.
The thin circular disk is to be placed over the thick circular disk, and the three components are to be inserted over
the piston assembly (by holding the control head body inverted, as shown, it is easier to insert the parts) (Figure 3).
With all of the components in place, and the small spiral retaining ring visible and loosely held between the two
plates, reinstall the large retaining ring to hold the assembly together (Figure 3)
Figure 1 Figure 2 Figure 3
I
Control Head
Body
Piston
Assembly
NEW 10147
Tapered Thin Disk Piston
SpaiRetng
Ring (p/n 14037) A) DEPRESS
PLUNGER
STEM
- - Thick Disk
(Groove Face Up) B) DEPRESS PLUNGER STEM
TO RESET PISTON
Large Retaining Ring
OLD STYLE PNEUMATIC ACTUATIOR PN 15157
Note: Reset Pneumatic Actuator PIN 10147 before installation.
Unbolt the Pneumatic Control Head from the Agent Cylinder Discharge Valve.
The piston of the control head will be locked in the "fired" position, and it must be reset.
To reset the control head, use a small flat tool to depress the small plunger ball on the side of the
extended brass piston while simultaneously pushing the piston back into the head.
Do not attempt to unscrew the small plunger from the brass piston.
V. The piston should be pushed back into the fully retracted position while depressing the plunger ball.
See the following image:
December 2008 Section 7 Reset and Recharge Page 7 —6
Amerex Restaurant Fire Suppression System (EX 4658)
Check the valve outlet, top chamber and collar for leaks using a leak detection fluid (soapy water).
Bubbles may take sever minutes to appear. Blow dry and clean all surfaces and orifices following leak
detection.
If the agent cylinder assembly is not going to be placed into the bracket immediately or is going to be
transported, make sure that the anti-recoil and safety plates are in place and required labeling and
securement is used.
Follow all reset procedures and conduct a full functional test of the system.
If the discharge was caused by a fire incident, replace ALL of the fusible links in the detection network.
Remove all nozzles from the distribution piping network and clean thoroughly with warm soapy water,
making sure that each nozzle is returned to its proper location. Replace any nozzles that appear to be
damaged.
Flush the distribution piping network with water and blow clean using a regulated source of nitrogen
connected to the distributor network test adapter. Set regulator for 150 PSI (10.342 bar). Secure the
nitrogen cylinder when performing this test to prevent damage occurring to the cylinder, valve or
regulator.
Install a full charged nitrogen actuation cylinder. See below.
After all functional testing, reset procedures, nozzle and blow off caps are replaced (if high temperature
caps are used - replace nozzle tip 0-rings if necessary), connect the actuation piping to the port(s) on
top of the valve(s), install all new tamper seals and record all procedures in the permanent job file.
NITROGEN CYLINDER RECHARGE:
If you prefer to shop or field recharge Amerex nitrogen cylinders, either one of the two cylinder
restraining devices pictured on Page 7 - 7 are recommended.
WARNING: NITROGEN ACTUATION CYLINDERS OPERATE AT EXTREMELY HIGH (1800 PSI)
PRESSURES. HANDLE WITH CAUTION. PERFORM ALL RECHARGING WITH CYLINDERS
RESTRAINED BY AN AMEREX APPROVED SUITABLE SAFETY SECURING DEVICE.
Remove nitrogen cylinder from MRM or PRM. Install shipping cap on N2 cylinder.
CAUTION: UNSCREW THE NITROGEN CYLINDER SLOWLY TO ALLOW ANY RESIDUAL
PRESSURE TO ESCAPE.
Clean the cylinder exterior to remove dire, grease and foreign material. Check to make sure that the
nameplate is in place and fully legible. Inspect cylinder for corrosion, abrasion or dents. If integrity of
the cylinder has been compromised, make sure all pressure has been relieved and destroy.
NOTE: When cleaning N2 cylinders, avoid use of solvents. Solvents could seriously damage the
gauge face, the gauge guard or the nameplate.
Remove old rupture disc assembly:
Remove shipping cap and install cylinder in a P/N 10270 or 13430 N2 Cylinder Recharge
Adapter.
Hold cylinder in place using a 1-1/8 inch wrench on the hex portion of the N2 cylinder fitting.
Loosen the rupture disc fitting by turning the Recharge Adapter Wrench 1/4 turn.
If cylinder contains an unruptured disc, allow residual pressure to escape.
Unscrew cylinder from recharge adapter.
Unscrew old rupture disc assembly and DISCARD.
WARNING: NEVER REUSE A RUPTURE DISC, EVEN IF IT IS UNDAMAGED - DESTROY & DISCARD =
December 2008 Section 7 Reset and Recharge Page 7 - 7
Amerex Restaurant Fire Suppression System (EX 4658)
4. Inspect sealing seat on rupture disc fitting. Discard N2 cylinder if the seat is damaged.
5. Install new rupture disc assembly (replace only with Amerex P/N 09958 rupture disc assembly - use of
substitute parts will void the manufacturer's warranty).
Wipe sealing seat on N2 cylinder rupture disc fitting and copper gasket on new rupture disc with
a clean damp cloth.
Apply one drop of light machine oil to copper gasket on new safety disc and spread across entire
gasket.
Screw disc assembly into fitting hand tight.
6. Pressurize the N2 cylinder
a. Install cylinder in PIN 10270 N2 Cylinder Recharge Adapter.
b. Tighten cylinder by hand 1 to 11/2 turns past contact with the sealing gasket.
c. Hold cylinder in place using a 1-1/8 inch wrench on the hex portion of the N2 cylinder fitting.
d. Loosen the rupture disc 1/8 turn.
e. Connect a REGULATED nitrogen supply to the N2 cylinder recharge adapter.
NOTE: High pressure regulators are available from Getz Manufacturing, 1525 SW Adams
Street, Peoria, IL 61602-1709. Phone (309) 674-1723 Fax: (800) 473-6088
f. Slowly pressurize the N2 cylinder to 1800 psi at 70°F.
NOTE: The nitrogen may experience a significant temperature rise as it compresses into the cylinder. The
temperature rise must be compensated for by pressurizing to the valve corresponding to 1800 psi at the higher
temperature. The best method to properly pressurize is to attach a commercially available magnetic base
thermometer to the side of the N2 cylinder. Pressurize and hold the cylinder at 1800 psi. (Make sure that there
are no leaks in the nitrogen supply plumbing.) Let the apparatus sit undisturbed for 2 minutes minimum to allow
the temperature to stabilize. Read the temperature on the thermometer. Refer to Temperature/Pressure chart
on Page 7-8. Locate the temperature on the "Cylinder Temperature" (horizontal) axis of the graph. Draw a line
vertically upward from that temperature until it crosses the "Nominal Pressure" line. Draw a second line
horizontally from the point of intersection to the "Charge Pressure" (vertical) axis of the graph. Increase the
pressure from the regulated nitrogen supply to match the valve read from the "Charge Pressure" axis of graph.
Use only DRY nitrogen for pressurizing with a dew point of —70°F (-57°C) or lower.
g. When the proper pressure is reached:
Tighten the rupture disc by applying a torque wrench to the recharge adapter and tighten
(clockwise) to 40 foot pounds.
Shut off nitrogen supply.
Bleed and disconnect the supply hose.
Remove nitrogen cylinder from the recharge adapter.
h. Check for leaks using leak detect fluid (soapy water) to the rupture disc, the threads on the
rupture disc fitting where it joins the cylinder and the pressure gauge threads. Bubbles may take
several minutes to appear. Blow dry fluid from all surfaces and inside of the rupture disc
following leak detect. Install shipping cap.
P/N 10270
Nitrogen Cylinder Recharge Adapter P/N 13430
Nitrogen Cylinder Recharge Adapter with
Restraining Bracket (Vehicle or shop
installation- either wall or bench)
December 2008 Section .7 Reset and Recharge Page? -8
Amerex Restaurant Fire Suppression. System (EX 4658)
N2 CYLINDER CHARGE PRESSURE
AS A FUNCTION OF
CYLINDER TEMPERATURE
(to obtain 1800 psig at 707)
2000
1950
1900
at 1886
Li
U) U) Li
°- 1850 Li C.,
C-)
Li
1800
1750
1700
A
V
-r
r
A
A -r
V
., ~ M-z-
FIGURE 9.1
September 2009 Section 7 Reset and Recharge Page 7 - 9
Amerex Restaurant Fire Suppression System (EX 4658)
RESET PROCEDURES (ECH)
Each time the ECH is fired, the nitrogen cylinders must be removed and re-pressurized. The electric actuator
(P/N 17014) must be manually reset by pushing up the small pin until an audible click is heard. A blunt
instrument, such as the back of a writing pen, may be used to reset the pin. When the nitrogen cartridges are
removed, ensure that the smaller, sliding pin on the left of the assembly does not become dislodged. It must
also remain free-sliding in the brass block. The puncture pin on the right side of the assembly must be fully
retracted prior to re-installing the 15 in nitrogen cylinder.
Actuator Pin Should
Slide Freely Inside
Brass Head
that Puncture
ully Retracted
) Installing
n Cylinder
MSDA SHEET
KITCHEN WET CHEMICAL AGENT
FOR
AMEREX RESTAURANT
FIRE SUPPRESSION SYSTEM
Tested and Listed by
Underwriters Laboratories, Inc.
to UL Standard 300
EX 4658
Tested and Listed by
Underwriters Laboratories of Canada
to UL/0111) 1254.6-1995
December 2008
MATERIAL SAFETY DATA SHEET
Section 1. Chemical product and company identification
Product Name:
Manufacturer:
Internet Address:
Address:
Telephone:
Emergency Contacts:
Revised:
KP SYSTEM WET CHEMICAL AGENT
(CH547, CH656, CH664 and CH 544)
AMEREX CORPORATION
www amerey-firp. em
7595 Gadsden Highway
P.O. Box 81
Trussville, AL 35173-0081
(205) 655-3271
Chemtrec 1(800) 424-9300 or
(703) 527-3887
March, 2006
Section 2. Hazard identification and emergency overview
Emergency overview: Reddish colored liquid.
Adverse health effects and symptoms: Mildly irritating to the eyes, skin, and
respiratory system. Symptoms may include coughing, shortness of breath, and eye
and skin irritation. Ingestion, although unlikely, may cause gastrointestinal
disturbance.
Exposure guidelines:
Ingredients OSHA PEL ACGIH TLV DFG MAK *
Water NR** NR NR
Potassium acetate NR NR NR
Potassium citrate NR NR NR
Proprietary organic phosphate esters
Example Phosphoric acid tributyl ester
NR
5 mg/m3
NR
22 mg/m3
NR
NR
Pink Diament NR NR NR
Page 1 of 7 Pages
KP SYSTEMS AGENT
I I *German regulatory limits ** NR = Not Regulated
Hazard symbols: WHMIS (Canadian workplace hazardous materials identification
system)
D213 - Product may irritate skin or mucous membranes
Section 3. Composition/information on ingredients
Name/Compound Weight % CAS #
Water <50 7732-18-5
Potassium acetate <50 127-98-2
Potassium citrate <5 866-84-2
Organic phosphate esters <5 68130-47-2
Example: Phosphoric acid tributyl 126-23-8
ester
3520-42-1
Pink pigment, mono azo dyes <1 4478-76-6
6844-74-2
Section 4. First Aid Measures
Eye Exposure: Irrigate eyes at eye wash station for 15 minutes and repeat until pain
free. Seek medical attention if irritation develops or persists, or if vision changes
occur.
Skin Exposure: In case of contact, wash with plenty of soap and water. Seek medical
attention if irritation develops or persists.
Page 2of7 Pages
KP SYSTEMS AGENT
Inhalation: If respiratory irritation or distress occurs remove victim to fresh air. Seek
medical attention if irritation develops or persists.
Ingestion: If victim is conscious and alert, give 2-3 glasses of water to drink and on the
advice of medical personnel induce vomiting. Seek immediate medical attention. Do
not leave victim unattended. To prevent aspiration of swallowed product, lay victim on
side with head lower than waist. If vomiting occurs and the victim is conscious, give
water to further dilute the chemical.
Medical conditions possibly aggravated by exposure: Skin contact may aggravate
existing skin disease. Chronic overexposure may affect blood cholinesterase levels
and the central nervous system.
Section 5. Fire fighting measures
Extinguishing media: non combustible and non flammable - product is an
extinguishing agent
Unusual fire/explosion hazards: in a fire this material may decompose, releasing
oxides of phosphorus, carbon, and acetic acid (see Section 10).
Insensitive to mechanical impact or static discharge.
HMIS hazard ranking: health 1, flammability 0, reactivity 0, personal protective
equipment: eye protection, gloves and appropriate skin protection (see Section 8)
Section 6. Accidental release measures
Large spills (one drum or more) should be addressed by hazardous materials
technicians following a site-specific emergency response plan and trained in the
appropriate use of PPE. Clean up released material using sorbent socks for
containment, followed by sorbent material inside containment. If deemed necessary,
wear full face APR or PAPR with organic vapor cartridges (Section 8). Bag and drum
for disposal. If product is used and/or contaminated, for example if mixed with kitchen
grease, use PPE and containment appropriate to the nature of the mixture. Handle
and dispose of as a hazardous waste unless testing indicates otherwise.
Decontaminate with detergent and water.
Page 3 of 7 Pages
KP SYSTEMS AGENT
Section 7. Handling and storage
Avoid skin, eye, or respiratory exposure. Use appropriate PPE when handling or
maintaining equipment, and wash thoroughly after handling (see Section 8). Keep
product in original container or extinguisher. Contents may be under pressure -
inspect for extinguisher rust periodically to insure container integrity. Do not mix with
other extinguishing agents.
Section 8. Exposure controls/ personal protection
During the application of this product against fires, exhaust gases and the products of
incomplete combustion (PlCs) are the principal respiratory hazards. In the
manufacture of extinguishers, automated systems and point source ventilation controls
sufficiently minimize respiratory exposure. Employers and employees must use their
collective judgment in determining occupational settings where the use of a respirator
is prudent. The need for respiratory protection is not likely for short-term use in well
ventilated areas.
Respiratory protection: use air-purifying respirator (APR) or powered air-purifying
respirator (PAPR) with organic vapor cartridges/canisters for short term exposure, and
supplied air/SC BA for high concentration or prolonged exposure.
Eye protection: wear chemical goggles.
Skin protection: use nitrile, latex, or similar gloves and coveralls. Good personal
hygiene practices essential, such as avoiding food, tobacco products, or other hand-to-
mouth contact when handling. Wash thoroughly after handling.
Section 9. Physical and chemical properties
Appearance: reddish colored liquid
Specific gravity: 1.3
Solubility: soluble in water
Non —flammable
Flash point: none
Vapor pressure: < 10 mm Hg at room temperature
pH: approximately 8.5
Page 4 of 7 Pages
KP SYSTEMS AGENT
Boiling point: 3000 F
No explosive or oxidizing properties
Section 10. Stability and reactivity
Stability: stable
Incompatibles: strong acids, strong oxidizers such as sodium hypochlorite (bleach),
aluminum, polyurethane, and any wet, reactive material.
Decomposition products: heat of fire may release carbon dioxide, phosphorus oxide,
and acetic acid.
Possibility of hazardous reactions: none
Section 11. Toxicological information
Acute toxicity: Potassium acetate LD50 oral rat: 3250 mg/kg body weight
Phosphoric acid tributyl ester LD50 oral rat: >1400 mg/kg body weight
Target organs in man: respiratory system, eyes, skin. This product is
a mild irritant to epithelial tissue, and may aggravate dermatitis.
Ingestion may cause gastrointestinal injury. No information was
found indicating the product causes sensitization.
Chronic toxicity: This product's ingredients are not considered as "probable" or
"suspected" carcinogens by OSHA, IARC, or ACGIH.
Reproductive
toxicity: This product's ingredients are not known to have reproductive or
teratogenic effects.
Section 12. Ecological information
Ecotoxicity: weak environmental toxin, specific negative effects unknown.
Persistence/
Degradability: moderate biodegradation in soil, rapid photolytic degradation in air
Page 5 of 7 Pages
KP SYSTEMS AGENT
Bioaccummulation: extent unknown
Mobility in soil: water soluble, slow to evaporate, may reach groundwater
Section 13. Disposal considerations
This product is not a RCRA characteristically hazardous or listed hazardous waste.
Dispose of according to state or local laws, which may be more restrictive than federal
laws or regulations. Used product may be altered or contaminated, creating different
disposal considerations.
Section 14. Transportation information
This product is not a hazardous material under U.S. Department of Transportation
(DOT) 49 CFR 172, and is not regulated by the DOT.
Section 15. Regulatory information
International Inventory Status
Some ingredients are on the following inventories
Country(ies) Agency Status
United States of America TSCA Yes
Canada DSL Yes
Europe EINECS/ELINCS Yes
Australia AICS Yes
Japan MITI Yes
South Korea KECL Yes
European Risk and Safety phrases:
EU Classification: Xi. Irritant
R Phrases: 36 Irritating to eyes.
S Phrases: 26 In case of contact with eyes, rinse immediately with
plenty of water and seek medical advice.
36 Wear suitable protective clothing.
Page 6 of 7 Pages
KP SYSTEMS AGENT
U.S. federal regulatory information:
None of the chemicals in this product are under SARA reporting requirements or have
SARA threshold planning quantities (TPQs) or CERCLA reportable quantities (RQs).
State regulatory information:
Chemicals in this product are not covered under specific State regulations, as denoted
below:
Alaska - Designated Toxic and Hazardous Substances: None
California - Permissible Exposure Limits for Chemical Contaminants: None
Florida - Substance List: None
Illinois - Toxic Substance List: None
Kansas - Section 302/303 List: None
Massachusetts - Substance List: None
Minnesota - List of Hazardous Substances: None
Missouri - Employer Information/Toxic Substance List: None
New Jersey - Right to Know Hazardous Substance List: None
North Dakota - List of Hazardous Chemicals, Reportable Quantities: None
Pennsylvania - Hazardous Substance List: None
Rhode Island - Hazardous Substance List: None
Texas - Hazardous Substance List: No
West Virginia - Hazardous Substance List: None
Wisconsin - Toxic and Hazardous Substances: None
California Proposition 65: No component is listed on the California Proposition 65 lists.
Section 16. Other information
This MSDS conforms to requirements under U.S., U.K., Canadian, Australian, and EU
regulations or standards, and conforms to the proposed 2003 ANSI Z400.1 format.
The information herein is given in good faith but no warranty, expressed or implied, is
made.
The information herein is given in good faith but no warranty, expressed or implied, is
made. Updated by Lindsay R. Hill, CIH.
Page 7 of 7 Pages
KP SYSTEMS AGENT
APPENDIX A
MANUAL PIN: 20150
AMEREX
RESTAURANT
FIRE SUPPRESSION SYSTEM
Tested and Listed By
The Loss Prevention Certification Board
LOSS PREVENTION
CERTIFICATION BOARD
Appruved toTPS 1223
LPCB Ref. No. 407a/(}1
December 2008
SEPTEMBER 9, 1999
Appendix A Special Application Guidelines
The information contained in this Section is exclusively for use in the
protection of risks for which a Loss Prevention Certification Board System
Approval Label is required.
Appendix Al:
The installation of a Deep Fat Fryer Nozzle PN13729 at a height lower than its
listed minimum is only permitted if provisions are made to accommodate the resultant
splashing of grease. This need may occur due to the low height of the hood provided
over the appliance. In the event of such a situation precautions must be taken to prevent
the splashing of the hot grease onto persons or flammable material located adjacent to the
appliance. Any opening that would allow this to happen must be closed off by the
installation of a guard of sufficient size to prevent the splashing. The required guard
height above the appliance is limited to the size of the opening or 18" whichever is less.
A guard higher than 18" is permitted but not required. This provision will then allow the
nozzles to be located at a height less than the listed minimum. The lowest nozzle height
is limited to 16" above the liquid level of the grease.
Extinguishment at this lower height is enhanced due to the increase of agent being
applied directly to the burning grease and none being allowed to spray outside the
appliance. A high degree of fire safety is achieved and public safety is preserved;
Appendix A2:
The term "Commercial" is used interchangeably with "Industrial" as it applies to
cooking appliances. Both refer to the preparation of food for sale, with the primary
difference being the quantity of food cooked and to whom the consumer is. None of
those considerations are of any importance when it comes to fire suppression and safety.
AMEREX KP Restaurant Fire Suppression System
'K' AMEREX CORPORATION *** Design, Installation, Maintenance & Recharge Manual *** Part No. 12385
APPENDIX B
MANUAL PIN: 20150
RESTAURANT
FIRE SUPPRESSION SYSTEM
Certified to meet SOLAS 74 by DNV
Compliance Tested to ISO-15371
December 2008
MAY 10, 2004
\ifrd'L - p_
Appendix B Special Application Guidelines
The information contained in this Section is exclusive to the fire
extinguishing system for the protection of galley deep fat fryers, located on
board ships requiring DNV certification of a SOLAS 74 approved system
tested in compliance with ISO - 15371 Fire Test Specification.
Appendix BI:
The installation of a Deep Fat Fryer Nozzle PN13729 at a height 36"- 48" located
anywhere over the appliance and aimed at the center of the hazard will protect a Full Vat
Deep Fat Fryer with a cooking area equal to the listing found on page 3-6 of the Amerex
- "Design, Installation, Maintenance & Recharge Manual", Part no. 12385 Rev. A.
Appendix B2:
The installation of a Deep Fat Fryer Nozzle PN1 3729 at a height 36"- 48" located
anywhere over the appliance and aimed at the center of the hazard will protect a Split Vat
Deep Fat Fryer with two cooking areas equal to 18" x 1 8"each. Refer to the drawing
below for the optima positioning of the nozzles.
36-48"
(91.4-122 cm)
18 (45.7 cm)
-(45.7 cm)
Distribution piping is to be stainless steel tubing. The following equivalent sizes
are to be used in place of the standard pipe sizes:
3/8"pipe = 10mm minimum S.S. tubing with mm. wall of 1.0mm
Y2" pipe = 16 mm minimum S.S. tubing with mm. wall of 1.0mm
All other piping limitations, appliances, ducts and plenum coverage are contained within
the body of the Amerex "Design, Installation, Maintenance & Recharge Manual", Part
no. 12385 Rev. A. Compliance with these limitations is required to provide a compliant
fire extinguishment system.
DET N ORSKE VV ERITAS
EC TYPE-EXAMINATION CERTIFICATE
Application of: Council Directive 96/98/EC of 20 December 1996 on Marine Equipment as amended by directive 2008/67/EC,
issued as Forskrift om Skipsutstyr' by the Norwegian Maritime Directorate. This certificate is issued by Det Norske Veritas
under the authority of the Government of the Kingdom of Norway.
CERTIFICATE NO. MED-B-5506
This is to certify that the
Deep fat cooking equipment fire extinguishing systems components (automatic or manual type)
with type designation(s)
Amerex KR Fire Suppression System KP 375
Manufacturer
Amérex Corporation
Trussville, United Stites
is found to comply with the requirements in the following Regulations/Standards:
Annex A.1, item No. A.113.43 and Annex B, Module B in the Directive. SOLAS 74 as amended, Regulation 11-2/1, II-
2/10 & X/3 and 2000 HSCCode 7
Further details of the equipment and conditions fdr certification are given overleaf.
Hevik, 2009-09-02
for Det Norske Veritas AS
Notice: The certificate is subject to terms and conditions overleaf. Any significant changes in design or construction of the product, or amendments to the nSao Directive or Standards referenced above may render this certificate invalid. The product liability rests with the manufacturer or his representative in
Q accordance with council Directive 96I98IEc, as amended.
The Mark of Conformity may only be affixed to the product and a Declaration of Conformity may only be issued when the productionIproduct assessment
module referred to in the council directive, is fully complied with.
DET NORSKE VF.RITAS AS, Veritasveien 1,NO-1 322 Nøvik, Norway, Tel.: +4767 579900, Fax: +4767 57 99 11, Org.No. N0945 748 931 MVA www.dnv.com
Notified Body No.: 0575
DNV local office:
DNV New Orleans
This certificate is valid until
2014-09-02
Rolf Emilse
Surveyor
C)
Certificate No.: MED-B-5506
'9 I Item No.: A.113.43
' L t Job Id.: 344.1-000671-3
The following documents are to be approved and filed by the Flag State Administration:
- System arrangement plans including location and specification of cylinders, nozzles, sections valves, release stations and
control arrangement.
- Shut down of function defined by SOLAS Ch. 11-2, Reg.10, 6.4.2 - 6.4.5.
- Manual containing operating and maintenance in
Installation testing:
Pressure testing of pipe system to at least 1.5 times maximum working pressure. Testing according to maker's manual.
Periodical testing:
Periodical control and inspection is to be in accordance with makers manual.
Each system is to be supplied with its manual for installation, use and maintenance.
Type Examination documentation
Amerex design, installation, maintenance and recharge manual No. 12385 Rev. A. dated October 2003 and Appendix B dated
May 2004.
Component drawings as mentioned above.
Fire Performance Test Reports: No. PE 100016, Serial Nos 9609 and 9610 dated 7 June 2004 from DIFT, Denmark
Tested according to ISO 15371.
Marking of product
The spray nozzle is to be marked with type designation whereas control unit is to be marked with name of manufacturer and
type designation and Mark of Conformity (see below)
Mark of Conformity
The manufacturer is allowed to affix the Mark of Conformity according to Article 11 in the Council Directive 96/98/EC on Marine
Equipment and shall issue a Declaration of Conformity, only when the module D or E or F of Annex B in the same directive is
fully complied with.
Module D: The quality system for production and testing shall be approved by the Notified Body.
Module E: The quality system for inspection and testing shall be approved by the Notified Body.
Module F: Compliance of the products to type as described in this EC Type-Examination Certificate must be verified by
the Notified Body who also shall issue a of Certificate Conformity.
DEr NORSKE VERITAS AS, Veritasveien I NO-1 322 Høvik, Norway, Tel.: +4767 57 9900, Fax: +47 67 57 99 11, Org.No. NO 945 748 931 MVA www.dnv.com ,r,,, RMr
Certificate No.: MED-B-5506
Item No.: A.1/3.43
Job Id.: 344.1-000671-3
Product description
"Amerex KP Fire Suppression System KP 375"
fire extinguishing system consists of spray nozzles, piping, section valves (as applicable), cylinders and a mechanical release
module. The system is a pressure vessel system.
The deep - fat cooking protection system should be designed according to new SOLAS Ch. 11-2, Reg. 10, 6.4.1 -.5. This
certificate addresses only item Reg. 10, 6.4.1. Compliance with the shut down function has to be verified in each case.
Applications/Limitations
The system shall be installed accordina to the below soecification:
Spray nozztè,.cylindeEs, piping, extinguishing àgeñt étC' .• •. ..• •.. . .•.
Part Drawing No. , Description
Nozzle FR GR 2xFG W/Cap KP 13729 Rev. A
CO-GT5 (Data Sheet)
Material Spray nozzle: Brass, body to be chrome plated.
Cylinder KP375 with valve 16338 Rev. J, 13325 Rev. R
12284 Rev. X (valve)
Nitrogen Cylinder 12586 Rev. C
Mechanical release module 11977 Rev. B'/C'
Piping diameter dimensions Mm. 10 mm. Only stainless steel to be used (to avoid
clogging). Galvanized pipe is not allowed
Extinguishing agent
Type: Premixed agent
KP Agent Model 544 Recharge
Mixture of potassium acetate and water
Definition: a vat is the heating unit containing the oil.
The system is designed to cover two different hazards: single vat and split vat. The wet chemical extinguisher agent supply is
pressurized gas based. The system is assembled by cylinder, piping and spray nozzles according to the below tables.
Alternative..1: Single vat Deep Fat Fryer. . ' . ,, . . . •• . . _________
A spray nozzle 13729 is to be installed according to the installation manual, one nozzle is to be located over each
Deep Fat Fryer, a maximum of five 13279 nozzles per each KP 375 Cylinder system.
Vertical distance from vats: Mm. 914 mm
Max. 1220 mm
Max. size of vat
Drip board
460 x 460 x 310 mm
460 x 100 x 70 mm
Drawings, assembly Amerex manual 12385 rev. A
Operation pressure (cylinders): 15 bar
Alternative 2 Spilt VätDeep.Fat Frye!: : :,: :'. '. •. •: •.: •. .
A spray nozzle 13729 is to be installed according to the installation manual, one nozzle is to be located over each
Deep Fat Fryer, a maximum of five 13279 nozzles per each KP 375 Cylinder system
Vertical distance from vats: Mm. 914 mm
Max. 1220 mm
Max. size of each vat 460 x 460 x 310 mm
Drip board 460 x 100 x70 mm
Distance between vats Max. 56 mm.
Drawings, assembly Amerex manual 12385 rev. A
Operation pressure (cylinders): 15 bar
For both systems
- For MED approval the cylinders and valve have to be approved according to the Pressure Equipment Directive 97/23/EG
minimum model + Cl.
- System components, such as pipes, pipe connections are to be certifjq riscted in accordance with DNV Rules or
equivalent standards acceptable to the Flag State.
- Welding of pipes to be in accordance with DNV Rules.
DET NORSKE VELtrrAs AS, veritasveien 1, NO-1322 Hovik, Norway, Tel.: +4767579900, Fax: +47 67 57 99 11, Org.No. NO 945 748 931 MVA www.dnv.com
-
Cert. No.: MED-D-659
Case No.: EC-FP-61/344.1-
000671
File No.: A.1/3.43
APPENDIX, REV. NO. 1
QS - Certificate of Assessment - EC, Certificate No. MED-D-659
Product designation
}
EC Type-Examination Expiry date DNV QS Assessment
Cert. No. Report dated
Amerex KP Fire MED-B-5506 2014-09-02 2008-04-16
Suppression System KP
375
The manufacturer complies with the Council Directive 96/98/EC on Marine Equipment and
is allowed to affix the Mark of Conformity followed by the DNV identification number
0575 and the two last digits of the number of the year in which the product is produced.
Example: 0 0575/09
The manufacturer shall issue a Declaration of Conformity for each product with reference
to the EC Type—Examination Certificate and this QS Certificate of Assessment - EC.
Place and date
HØvik, 09 -09-02
1)i A
Rolf Emilsen
Surveyor
I
DET NORSKE VERITAS AS VER TASVEEr'4 1, 1322 HØVIK, NORWAY TEL: (+47) 67 57 9900 FAX: (+47)67 5799 11 W
08/30/2019 11:28
PsGkage Copy
Fire Protection Documents
Version i
(Customer)
110111111111111111111111110111011111111
5298407
Project
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646461
Deferred Suppression 635435
PM: McGoyne, Nenet 446-5374
Review Cycle
Cycle 2
-
Issuance
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THE CITY OF SAN DIEGO
Development Services Department
1222 First Avenue, San Diego, CA 92101-4154