Desa SBVBN(A), SBVBP(A) Checking GAS Connections, Connecting Fireplace to GAS Supply

Page 13

OWNER’S MANUAL

FIREPLACE

INSTALLATION

Continued

Approved Flexible

Gas Line

3" Minimum

Cap

A.G.A. Design- Certified Manual Shutoff Valve with 1/8" NPT Tap*

Natural - From Gas

Meter (5" W.C. to 10.5"

W.C. Pressure )

LP - From External Regulator (11" W.C. to 14" W.C. Pressure)

Pipe Nipple Tee Joint

CHECKING GAS

CONNECTIONS

WARNING: Test all gas pip- ing and connections for leaks after installing or servicing. Cor- rect all leaks at once.

WARNING: Never use an open flame to check for a leak. Apply commercial leak test solution to all gas joints. Bubbles forming show a leak. Correct all leaks at once.

Pressure Testing Gas Supply Piping System

Sediment Trap/Drip Leg

*The A.G.A. design-certified manual shutoff valve may be supplied with the appliance or you can purchase it from your dealer.

Figure 26 - Gas Connection

Test Pressures In Excess Of 1/2 PSIG (3.5 kPa)

1. Disconnect fireplace and its individual

manual shutoff valve from gas supply

piping system. Pressures in excess of 1/2

CONNECTING FIREPLACE TO GAS SUPPLY

Installation Items Needed

5/16" hex socket wrench or nut-driver

sealant (resistant to propane/LP gas, not provided)

1.Open lower door panel.

2.Route flexible gas line (provided by installer) from manual shutoff valve to fireplace. Route flexible gas supply line through slot in stove bottom and attach to valve.

To Fireplace

Gas Valve

Flare Union

3.Attach a 45° flare union gas connector to flexible gas line from gas supply (see Figure 27). Connect flare union to flex- ible gas line attached to gas regulator of fireplace (see Figure 27).

4.Check all gas connections for leaks. See Checking Gas Connections.

Manual Shutoff Valve

 

psig (3.5 kPa) will damage fireplace gas

 

regulator.

2.

Cap off open end of gas pipe where

 

manual shutoff valve was connected.

3.

Pressurize supply piping system by ei-

 

ther opening propane/LP supply tank

 

valve for propane/LP gas fireplace or

 

opening main gas valve located on or near

 

gas meter for natural gas fireplace, or

 

using compressed air.

4.

Check all joints of gas supply piping

 

system. Apply commercial leak test

 

solution to all gas joints. Bubbles form-

 

ing show a leak. Correct all leaks at

 

once.

5.

Reconnect fireplace and manual shutoff

 

valve to gas supply. Check reconnected

 

fittings for leaks.

Flexible Gas Line from Fireplace Gas Valve

Provided with Fireplace

Flexible Gas Line from Manual Shutoff Valve Provided by Installer

Figure 27 - Attaching Flexible Gas Lines Together

To Gas Supply (Natural)

To External Regulator (Propane/LP)

Continued

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13

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Contents For Your Safety What to do if YOU Smell GAS For Your SafetySBVBNA, Sbvbpa Remote Ready Vent Freestanding Fireplace Safety InformationProduct Identification Product FeaturesLocal Codes OperationLocation and Space Requirements PRE-INSTALLATION PreparationStove Body Assembly Freestanding Fireplace AssemblyUse an adjustable wrench or a 10mm socket Lift off corrugated box enclosing stove body cratingInstalling Fireplace Into Stove Body Installing GA3700/DA3610T Blowers Installing Optional Blower AccessoryInstalling Rear Cover Venting InstallationInstallation Precautions Type B-VENT Installation Listed B-0 or Greater Installation of Listed B-1 VentChecking Vent Capacity Installing Vent System in a ChaseChimneys Relining SystemsHigh Altitude Installation Troubleshooting Venting ProblemsFlue GAS Spillage Causes of Spillage and Corrective ActionInstalling GAS Piping to Fireplace Location Fireplace InstallationInstallation Items Needed Check GAS TypePressure Testing Gas Supply Piping System Connecting Fireplace to GAS SupplyChecking GAS Connections Pressure Testing Fireplace Gas Connections Back View of Thermostat Base Installing Optional Wall Mounted Thermostat GWMT1Installing 9-Volt Battery in Hand- Held Remote Control Unit Installing Remote ReceiverREMOVING/REPLACING Glass Door Installing Log No Installing LOGS, Lava Rock and Glowing EmbersManual Lighting Procedure For Your Safety Read Before LightingOperating Fireplace Lighting InstructionsThermostat Control Operation Optional Remote OperationGhrc Series Operation Ghrct Series OperationPilot Assembly Operating Optional Blower AccessoryInspecting Burners Operating Optional GWMT1 Wall Mounted ThermostatGlass Door Cleaning and MaintenancePilot and Burners LogsAfter pilot lights, keep control knob TroubleshootingPressed in 30 seconds Inlet gas pressure is too low OrificeCompany Pane/LP or natural gas companyTions on Fireplace produces unwanted odorsLow line pressure Pilot is partially cloggedTechnical Service Replacement PartsWiring Diagram Service HintsSbvbna Sbvbpa SpecificationsAccessories Sbvbna Sbvbpa Illustrated Parts BreakdownKEY Part Number Description QTY Parts ListWarranty Information

SBVBN(A), SBVBP(A) specifications

Desa SBVBN(A) and SBVBP(A) are innovative solutions in the realm of wireless communication, designed to enhance connectivity and network efficiency. Each model is tailored for specific applications, making them essential tools in modern telecommunications.

One of the primary features of both the SBVBN(A) and SBVBP(A) models is their support for advanced modulation techniques. These modulations allow for higher data rates and improved spectral efficiency, which are critical for congested environments. By employing technologies such as Orthogonal Frequency-Division Multiplexing (OFDM), these systems can deliver superior performance even in challenging conditions.

In terms of connectivity, SBVBN(A) focuses on boosting signal strength over long distances. This is especially vital in rural areas where traditional infrastructure may be lacking. The system can cover expansive regions with minimal signal degradation, ensuring reliable communication. Meanwhile, SBVBP(A) is optimized for high-density urban settings, capable of handling a large number of simultaneous connections without compromising speed or quality.

The integration of artificial intelligence and machine learning technologies is another standout feature. Both models utilize smart algorithms to analyze network traffic in real-time, enabling dynamic adjustments to optimize performance. This capability is crucial in environments where user demand can fluctuate drastically, allowing for adaptive resource allocation and enhanced user experience.

Power efficiency is also a significant characteristic of Desa SBVBN(A) and SBVBP(A). Equipped with energy-saving technologies, these systems minimize power consumption while maximizing output. This not only reduces operational costs but also aligns with global sustainability goals.

Moreover, the systems are designed with scalability in mind. They can be easily integrated into existing infrastructures, providing a seamless upgrade path for telecommunication providers looking to enhance their services without major overhauls.

Security is a top priority for both products. They incorporate advanced encryption protocols and access controls, ensuring that data transmission remains secure and protecting against potential threats.

In summary, Desa SBVBN(A) and SBVBP(A) represent the future of wireless communication, with their focus on advanced modulation, AI integration, energy efficiency, scalability, and security. These features make them ideal solutions for a variety of applications, ranging from rural connectivity to urban high-density environments, thus playing a significant role in bridging the digital divide and fostering enhanced communication worldwide.
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