Desa SDVBPD, SDVBND Installing Rear Cover, Blower Wiring Layout Thermostat Blower Shown

Page 9

CAST IRON STOVE AND DIRECT-VENT BURNER SYSTEM ASSEMBLY

Installing Optional Blower Accessory (Cont.)

Installing Rear Cover

9

CAST IRON STOVE AND DIRECT-VENT BURNER SYSTEM ASSEMBLY

Continued

7.Place the green ground wire between the bottom hole on the blower assembly and the hex screw and tighten (see Figure 18).

8.Connect the blue wire on the blower assembly to one side of the thermal switch (see Figure 18).

9.Connect the black wire to the other side of the thermal switch (see Figure 18).

10.Connect the white wire to the other terminal on the blower mo- tor assembly (see Figure 18). Make sure the thermal switch has been properly installed to fit against back of fireplace insert af- ter the rear cover assembly has been reinstalled.

11.Make sure all wire connections to terminals on blower motor and thermal switch are securely attached and that the screw retaining the green ground wire is tight.

12.Check to make sure that the power cord is completely clear of the blower wheel and that there are no foreign objects in blower wheel.

13.Peel off the backing paper and stick the supplied wiring dia- gram decal on the inside of rear cover as shown (see Figure 18).

WARNING: Never touch the blower wheel while in operation.

14.Reattach bottom cover to rear cover with 8 screws (see Figure 16, page 8). Make sure that you don’t pinch any wires during reassembly. Route power cord through plastic bushing in bot- tom of rear cover.

WARNING: Failure to position the parts in accor- dance with supplied diagrams or failure to use only parts specifically approved with this heater may result in damage or personal injury.

INSTALLING REAR COVER

1.Place rear cover behind stove body. Rear cover will rest on the bottom ledge of the stove body.

2.Using hex screws provided, attach rear cover to back of stove body. See Figure 19. IMPORTANT: This rear cover must be securely in place before venting pipes are installed.

3.Open lower door panel. The valve is attached to the underside of the burner system assembly.

4.Connect or reconnect gas supply, see Connecting Stove/Burner System to Gas Supply on page 21.

WARNING: A qualified installer or service per-

Speed

Control

Black

Wire

Thermal

Switch

Blue Wire

Power Cord (Route Through

Plastic Bushing in Bottom

Cover When Assembled)

Wiring

Diagram

Decal

White

Wire

son must connect fireplace to gas supply. Follow all local codes.

Hex Screws

Rear Cover (Shown with

Screw

Green Ground Wire

Blower

Power

Cord

Optional Blower)

Figure 18 - Blower Wiring Layout (Thermostat Blower Shown)

Figure 19 - Installing Rear Cover (Shown with Optional Blower

Accessory)

For morevisit www..com

112126-01B

Image 9
Contents For Your Safety OWNER’S Operation and Installation ManualFor Your Safety What to do if YOU Smell GAS VH series StoveSafety Information Table of ContentsWith stove Product IdentificationPRE-INSTALLATION Preparation Product Features Local CodesGlossary of Terms PRE-INSTALLATION Preparation Cast Iron Stove and DIRECT-VENT Burner System AssemblyStove Body Assembly Locating Threaded Holes for Legs and Door Attachment Removing Front Surround Panel Installing DIRECT-VENT Burner System Into Stove BodyRemoving Screen Optional Amity ModelsTOP View Installing Optional Blower Accessory Installing the BlowerBlower Wiring Layout Thermostat Blower Shown Installing Rear CoverLocation of Vent Termination General VentingGeneral Venting Venting Installation Installation PrecautionsInstallation Planning Installing Vent System in a Chase Installation for Horizontal TerminationVent Opening Requirements Horizontal Venting Horizontal Termination ConfigurationsVenting with Three 90 Elbows Venting with Two 90 ElbowsFlat Ceiling Installation Installation for Vertical TerminationCathedral Ceiling Installation Vertical Termination ConfigurationsVenting with Two 90 Elbow Venting with Two Elbows Vertical Venting Configuration Using Two 90ElbowsParts Lists for Venting Kits and Components High Altitude InstallationVertical Venting Number DescriptionInstalling GAS Piping to STOVE/ Burner System Location Stove and DIRECT-VENT Burner System InstallationInstallation Items Needed Check GAS TypeConnecting STOVE/BURNER System to GAS Supply Pressure Testing Gas Supply Piping SystemChecking GAS Connections Pressure Testing Burner System Gas Connections Installing Optional Wall Mount Switch GWMS2Installing Remote Receiver and 9-volt Alkaline Battery Installing Optional Wall Mounted Thermostat GWMT1REMOVING/REPLACING Glass Door Installing Remote ReceiverInstalling Log No Installing Log No Installing LOGS, Lava Rock and Glowing EmbersOperating Stove with Burner System For Your Safety Read Before LightingLighting Instructions To Turn OFF GAS To ApplianceOptional HAND-HELD Remote Operation Manual LightingON/OFF Series Models Ghrcb and Cghrcb Thermostat Series Models Ghrctb and CghrctbPilot Assembly Operating Optional Blower AccessoryInspecting Burners Operating Optional GWMT1 Wall Mounted ThermostatGlass Door Cleaning and MaintenancePilot and Burners LogsObserved Problem Possible Cause Remedy TroubleshootingOrifice Above Gas leak. See Warning statementWiring Diagram SpecificationsReplacement Parts Parts Under WarrantyModels Sdvbnd Sdvbpd Illustrated Parts BreakdownModels SDVBND, Sdvbpd Parts ListVictor Hearth Stove Body Indicates Color Suffix Designation Oxford Amity Stove BodyDescription QTY Indicates Color Suffix DesignationTechnical Service Service HintsAccessories Owners Registration Form For Com 112126-01B Warranty Information
Related manuals
Manual 42 pages 850 b

SDVBPD, SDVBND specifications

Desa SDVBPD and SDVBND are pioneering advancements in the domain of digital communication, designed to optimize services, enhance user engagement, and streamline processes in various sectors, including education, healthcare, and local governance. These systems have emerged as essential tools for efficient information dissemination and resource management.

One of the main features of Desa SDVBPD is its focus on decentralized communication. By utilizing local infrastructure, this system empowers communities to share information effectively and enhance interactions among residents. It enables local authorities to communicate directly with citizens, ensuring that pertinent information reaches the intended audience promptly. This feature is especially vital in emergency situations, where timely updates can significantly impact community safety and preparedness.

Similarly, SDVBND offers a robust platform for managing digital transactions and records. Its integration of blockchain technology ensures that all data processed is secure, immutable, and transparent. This characteristic is particularly beneficial for local government operations, as it minimizes the risk of fraud and enhances accountability in public service delivery. By leveraging this technology, Desa SDVBND can facilitate smooth and fast transactions between citizens and government entities, thereby transforming the way public services are accessed.

Another remarkable aspect of both systems is their accessibility. Designed with user-friendly interfaces, these platforms cater to individuals of varying technological proficiencies. Mobile compatibility allows users to engage with the systems from smartphones and tablets, making it easier to stay informed and involved. Furthermore, the platforms are multilingual, ensuring that communication is inclusive, reaching diverse populations within communities.

Interoperability stands out as a significant characteristic of Desa SDVBPD and SDVBND. Both systems are designed to seamlessly integrate with existing infrastructure and technologies, such as cloud computing and artificial intelligence. This adaptability enhances their functionality, enabling real-time data analysis and improved decision-making.

In conclusion, Desa SDVBPD and SDVBND represent a significant leap forward in community engagement and service delivery. By leveraging decentralized communication, blockchain technology, accessibility, and interoperability, these systems not only improve operational efficiency but also foster a sense of community empowerment. As they continue to evolve, they hold great promise for enabling smarter, more connected communities that can thrive in an increasingly digital world.