Desa CGMFN, CGMFP Optional Wireless hand-held Remote Control Accessories, Installing Receiver

Page 16

INSTALLATION

Continued

Pressure Testing Fireplace Gas

Connections

1. Open equipment shutoff valve (see Figure 16, page 15).

2. Open main gas valve located on or near gas meter for natural gas or open propane/LP supply tank valve.

3. Make sure control knob of fireplace is in the OFF position.

4. Check all joints from equipment shutoff valve to gas regulator (Manual-Controlled Models) or to gas control valve (Remote-Ready Mod- els) (see Figures 17 or 18, page 15). Apply noncorrosive leak detection fluid to all joints. Bubbles forming show a leak.

5. Correct all leaks at once.

6. Light fireplace (see Operating Fireplace, page

18). Check all other internal joints for leaks.

Receiver

9-Volt

BatteryTerminal

Wires Battery Clip

Figure 20 - Attaching Battery to Receiver

Red Wire to TH

Terminal on Control

Valve

7. Turn off fireplace (see To Turn Off Gas to Appli- ance, page 20 for Manual-Controlled Models or page 21 for Remote-Ready Models).

OPTIONAL Wireless hand-held REMOTE CONTROL Accessories

Remote Receiver

White Wire to TPTH Terminal on Control Valve

Remote-Ready Models Only

(HRC100 & HRC200 Series)

Installing Receiver

1.Disconnect jumper wire from control valve (see Figure 19).

2.Locate battery clip mounted on back of re- ceiver (see Figure 20).

3.Slide 9-volt battery (not included) through clip.

4.Attach terminal wires to battery (see Figure 20).

5.Connect wires from remote receiver to control valve as shown in Figure 21.

6.Install remote receiver unit onto remote bracket using screws provided (see Figure 21).

Control

Valve

Jumper

Wire

Figure 19 - Disconnecting Wires From

Control Valve

Figure 21 - Installing Remote Receiver

Installing 9-Volt Battery in Hand-Held

Remote Control Unit

1. Remove battery cover on back of remote control unit.

2. Attach terminal wires to the battery (not included). Place battery into the battery housing.

3.Replace battery cover onto remote control unit.

Battery Cover

Remote Control Unit

 

Terminal

Wires

Battery

Housing

9-Volt Battery

Figure 22 - Installing Battery in Hand-

Held Remote Control Unit

16

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119315-01A

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Contents OWNER’S Operation and Installation Manual Shown with Optional Cabinet Mantel/Hearth Base AccessoryTable of Contents Safety Information Local Codes UnpackingProduct Features Optional Remote Control AccessoriesAssembly Product IdentificationAir for Combustion Ventilation Providing Adequate VentilationAIR for Combustion Ventilation Determining FRESH-AIR Flow for Fireplace LocationConfined and Unconfined Space Determining if You Have a Confined or Unconfined SpaceVentilation Air From Inside Building Ventilation AIRVentilation Air From Outdoors Installation Items InstallationCheck GAS Type Installation Built-In Fireplace InstallationFireplace Clearances Fireplace pilot and burner must be at least 18 above floorMantel Clearances for Built-In Installation If you have not assembled firebox, follow instructions onRoute flexible gas line through access hole in hearth base Placing Hearth Base Against WallConnecting to GAS Supply Propane/LP Supply Tank External RegulatorConnecting Fireplace to Gas Supply Installation Items NeededPropane/LP NaturalTest Pressures Equal To or Less Than Psig 3.5 kPa Checking GAS ConnectionsCorrect all leaks at once Optional Wireless hand-held Remote Control Accessories Pressure Testing Fireplace Gas ConnectionsInstalling Receiver Installing 9-Volt Battery in Hand-Held Remote Control UnitSee Figure As pictured in FigureMust not be lengthened Air conditioning ductsOptional Wall Switch GWMS2 Remote-Ready Models Only Installing LOG SET and ScreenFor Your Safety Read Before Lighting Operating FireplaceOperating Fireplace Lighting InstructionsManual Lighting Procedure To Turn OFF GAS To ApplianceRemote-ready Models Shutting Off FireplaceOptional Hand-Held Remote OperationManual Mode Auto Thermostatic ModeOn/Off Series Model HRC100 and HRC101 Thermostat Series Model HRC200 and HRC201Switch Optional Inspecting BurnersPilot Flame Pattern Burner Flame PatternCleaning Maintenance Burner Injector Holder Pilot Air Inlet HoleIf burner flame pattern is incorrect, as shown in Figure Blow air into the primary air holes on the injector holderTroubleshooting Observed Problem Possible Cause RemedyLOG Set CabinetTroubleshooting Delayed ignition of burner Noise when burner is litObserve minimum installa White powder residue forming When heated, vapors fromGas leak. See Warning Specifications Wiring DiagramReplacement Parts Service HintsIllustrated Parts Breakdown MANUAL-controlled models Cgmfn and CgmfpParts List 101629-02Illustrated Parts Breakdown REMOTE-READY Models Accessories WALL-MOUNT ON/OFF SwitchReceiver and HAND-HELD Remote Control KIT HRC100 and HRC101 Equipment Shutoff Valve GA5010119315-01A Not a UPC

VGMRN, VGMRP, CGMFN, CGMFP specifications

Desa CGMFP, VGMRN, VGMRP, and CGMFN represent a series of cutting-edge developments designed to optimize various aspects of modern technology and infrastructure. These entities focus on enhancing efficiency, sustainability, and overall performance within their respective domains.

Desa CGMFP, or the Comprehensive Green Manufacturing Facility Program, is dedicated to promoting sustainable manufacturing practices. Its primary features involve the integration of green technologies that minimize waste and energy consumption. The program emphasizes the use of renewable energy sources, such as solar and wind, to power manufacturing operations. This initiative not only reduces the carbon footprint of production processes but also helps organizations meet regulatory standards for environmental protection.

VGMRN, which stands for Variable Grid Management and Resource Network, is a sophisticated system designed to enhance the efficiency of energy distribution. It utilizes advanced algorithms and machine learning to manage energy loads dynamically across the grid. One of the standout characteristics of VGMRN is its ability to forecast energy demand patterns, allowing for proactive adjustments to energy supply. This results in minimized downtime and optimized usage of resources, making it an essential component of smart grid solutions.

VGMRP, or Variable Grid Management and Resource Planning, complements the work of VGMRN by focusing on the strategic planning of resource allocation within energy networks. Its core features include predictive analytics and scenario modeling, which empower utilities to simulate various energy distribution scenarios and make informed decisions. This technological approach not only aids in efficient resource use but also supports resilience against fluctuations in energy supply and demand.

Lastly, CGMFN, the Comprehensive Green Manufacturing Framework Network, provides a robust platform for collaboration across industries engaged in green manufacturing. This network facilitates the sharing of best practices, research advancements, and innovative solutions. Key characteristics of CGMFN include a strong emphasis on interdisciplinary cooperation and the promotion of circular economy principles, which encourage the utilization of recycled materials and waste reduction strategies.

Together, these initiatives encapsulate a forward-thinking approach to manufacturing and energy management. They leverage technology and strategic planning to enhance productivity while ensuring that environmental sustainability remains at the forefront of operations. As industries continue to evolve, Desa CGMFP, VGMRN, VGMRP, and CGMFN will play pivotal roles in shaping a greener, more efficient future.