Desa A, C, B Cleaning Maintenance, Cleaning Burner Injector Holder and Pilot AIR Inlet Hole, Logs

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CLEANING AND MAINTENANCE

Cleaning Burner Injector Holder and Pilot Air Inlet Hole Logs

23

CLEANING AND

MAINTENANCE

WARNING: Turn off heater and let cool before cleaning.

CAUTION: You must keep control areas, burners, and circulating air passageways of heater clean. In- spect these areas of heater before each use. Have heater inspected yearly by a qualified service person. Heater may need more frequent cleaning due to exces- sive lint from carpeting, pet hair, bedding material, etc.

CLEANING BURNER INJECTOR HOLDER AND PILOT AIR INLET HOLE

The primary air inlet holes allow the proper amount of air to mix with the gas. This provides a clean burning flame. Keep these holes clear of dust, dirt, lint, and pet hair. Clean these air inlet holes prior to each heating season. Blocked air holes will create soot. We recommend that you clean the unit every three months during operation and have heater inspected yearly by a qualified service person.

We also recommend that you keep the burner tube and pilot assembly clean and free of dust and dirt. To clean these parts we recommend using compressed air no greater than 30 PSI. Your local computer store, hardware store, or home center may carry com- pressed air in a can. You can use a vacuum cleaner in the blow position. If using compressed air in a can, please follow the direc- tions on the can. If you don't follow directions on the can, you could damage the pilot assembly.

1.Shut off the unit, including the pilot. Allow the unit to cool for at least thirty minutes.

2.Inspect burner, pilot, and primary air inlet holes on injector holder for dust and dirt (see Figure 38).

3.Blow air through the ports/slots and holes in the burner.

4.Check the injector holder located at the end of the burner tube again. Remove any large particles of dust, dirt, lint, or pet hair with a soft cloth or vacuum cleaner nozzle.

5.Blow air into the primary air holes on the injector holder.

6.In case any large clumps of dust have now been pushed into the burner repeat steps 3 and 4.

Clean the pilot assembly also. A yellow tip on the pilot flame indicates dust and dirt in the pilot assembly. There is a small pilot air inlet hole about two inches from where the pilot flame comes out of the pilot assembly (see Figure 39). With the unit off, lightly blow air through the air inlet hole. You may blow through a drinking straw if compressed air is not available.

Injector Holder

Ports/Slots

Burner

Tube

Primary Air Inlet

Holes

Figure 38 - Injector Holder On Outlet Burner Tube

Pilot Air

Inlet Hole

Pilot Assembly

Pilot Air Inlet Hole

Pilot Air Inlet Hole

Pilot Assembly

Pilot Assembly

Figure 39 - Pilot Inlet Air Hole (Your pilot may vary from pilots shown)

LOGS

If you remove logs for cleaning, refer to Installing Logs, page 14, to properly replace logs.

Replace log(s) if broken or chipped (dime-sized or larger).

For morevisit www..com

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Contents What to do if YOU Smell GAS OWNER’S Operation and Installation ManualSafety Information Table of ContentsOther gases Product IdentificationUnpacking Optional Remote Control AccessoriesProduct Features Local CodesDetermining if You Have a Confined or Unconfined Space Determining FRESH-AIR Flow for Heater LocationConfined and Unconfined Space Ventilation Air From Outdoors Ventilation AIRVentilation Air From Inside Building Check GAS Type InstallationInstallation and Clearances for VENT-FREE Operation Minimum Noncombustible Material Clearances If Not Using MantelDetermining Minimum Mantel Clearance Determining Minimum Mantel Clearance When Using a HoodMantel Clearances Floor ClearancesArea of Various Standard Round Flues Installing Damper Clamp Accessory for Vented OperationInstalling Heater Base Assembly Installation Items NeededAttaching Base to Fireplace Floor Remote-Ready Models Only External Regulator With Vent Pointing Down Connecting to GAS SupplyChecking GAS Connections Pressure Testing gas Supply Piping systemPressure Testing Heater Gas Connections Installing LogsProng Log Rear Burner Grate Lighting Instructions Operating HeaterShutting Off Heater Manual Lighting ProcedureTo Turn OFF GAS to Appliance Thermostat Control OperationVariable Control Operation REMOTE-READY Models For Your Safety Read Before LightingControl Knob and Ignitor Button Location Thermostat Control Operation Optional Remote OperationGhrcta Series Operation Ghrc Series OperationFront Burner Flame Pattern Inspecting BurnersPilot Flame Pattern Logs Cleaning MaintenanceCleaning Burner Injector Holder and Pilot AIR Inlet Hole Observed Problem Possible Cause Remedy TroubleshootingRefer to Air for Combustion and Venti Gas leak. See Warning statement Thermostat-Controlled Models Only Optional Positioning of Thermostat Sensing BulbFor Masonry and FACTORY-BUILT Metal Fireplace Remote-Ready SpecificationsParts Under Warranty Wiring Diagram Replacement PartsService Hints Technical ServiceVariable Manually Controlled Split OAK Models Illustrated Parts BreakdownVariable MANUALLY-CONTROLLED Split OAK Models Parts ListVS30NTB and VS30PTB THERMOSTAT-CONTROLLED Models REMOTE-READY Variable Control Parts List Accessories Owners Registration Form Postage Required 104415 Warranty Information

A, C, B, A, B, C specifications

Desa A, B, C, A, C, B represent a compelling exploration of village characteristics and technologies that contribute to their unique identities and functionalities. Each desa, or village, embodies distinct features that reflect their cultural heritage, technological advancements, and socio-economic activities.

Desa A is characterized by its commitment to sustainable agriculture. The villagers employ traditional farming techniques enhanced by modern technologies, such as precision farming tools and moisture sensors. This approach not only maximizes yield but also ensures environmental protection. The village integrates permaculture principles, harmonizing crops and livestock systems. Additionally, digital platforms are utilized for market access, allowing farmers to sell their produce directly to consumers, thereby enhancing their income and reducing intermediaries.

Desa B showcases a vibrant artisanal economy. With a rich tradition of crafts, this village is known for its handmade textiles and pottery. The artisans use both age-old techniques and contemporary designs, merging tradition with innovation. Technologies like 3D printing are being introduced to create unique molds for pottery, offering greater precision and creativity. Furthermore, Desa B has developed an online marketplace, enabling local artisans to reach global customers and ensure fair trade practices.

Desa C reflects a community-centric approach, emphasizing social cooperation and mutual support. The villagers employ technologies such as community screens for sharing information and organizing events. Solar energy becomes a centerpiece, providing electricity for communal activities and enhancing the village infrastructure. Additionally, Desa C has initiated a digital literacy program, empowering villagers, especially women, with essential tech skills to participate in the digital economy.

The relationship among these desas enhances cultural exchange and resource sharing. For example, Desa A's farmers can supply organic produce to the artisans of Desa B, enriching their craft with natural dyes. Meanwhile, Desa C's commitment to community collaboration creates a supportive environment for innovation and technology adoption.

In summary, Desa A, B, C, A, C, B illustrate the profound impact of integrating traditional practices with modern technologies. Their unique main features not only promote sustainable development but also foster a sense of community and collaborative growth, demonstrating that innovation can harmoniously coexist with cultural heritage. Such a dynamic ensures resilience and adaptability in an ever-evolving world.