Desa SDVBPD, SDVBND installation manual General Venting

Page 11

GENERAL VENTING

GENERAL VENTING Continued

11

D

E V

B L

C

H

N

N

 

 

 

Fixed

 

V

 

 

 

Closed

 

 

 

 

 

 

F

 

V

Openable

 

 

 

 

 

 

 

 

 

Openable

B

Fixed

Closed

V

B

I

G

B

B

V J X

G

A

M

V

K X

V

G V A

V TERMINATION CAP

X AIR SUPPLY INLET

G

GAS METER

RESTRICTED AREA (TERMINATION PROHIBITED)

A= clearance above grade, veranda, porch, deck, or balcony [*12 inches (30.5mc) minimum]

B= clearance to window or door that may be opened

[12 inches (30.5cm) minimum]

C = clearance to permanently closed window [minimum 12 inches (30.5cm) recommended to prevent condensation on window]

D = vertical clearance to ventilated soffit located above the terminal within a horizontal distance of 24 inches (61cm) from the center-line of the terminal [18 inches (45.7cm) minimum]

E= clearance to unventilated soffit [12 inches (30.5cm) minimum]

F= clearance to outside corner (see below)

G= clearance to inside corner (see below)

H= *not to be installed above a meter/regulator assembly within

36 inches (91.4cm) horizontally from the center-line of the regulator

I= clearance to service regulator vent outlet [*72 inches (182.9cm) minimum]

J= clearance to non-mechanical air supply inlet to building or the combustion air inlet to any other fireplace [*12 inches (30.5cm) minimum]

K= clearance to a mechanical air supply inlet [*72 inches (182.9cm) minimum]

L= clearance above paved side-walk or a paved driveway located on public property [*84 inches (213.3cm) minimum]

M= clearance under veranda, porch, deck [*12 inches (30.5cm) minimum ]

N= clearance above a roof shall extend a minimum of 24 inches (61cm) above the highest point when it passes through the roof surface and any other obstruction within a horizontal distance of 18 inches (45.7cm)

vent shall not terminate directly above a side-walk or paved driveway which is located between two single family dwellings and serves both dwellings*

only permitted if veranda, porch, deck or balconey is fully open on a minimum of 2 sides beneath the floor*

*as specified in CAN/CSA B149 (.1 or .2) Installation Codes (1991) for Canada and U.S.A. Note: Local codes or regulations may require different clearances

Termination Clearances for Buildings with Combustible and Noncombustible Exteriors

Inside Corner

A

 

A = 6" (15.2cm)

 

V

Outside Corner

V

B B = 6" (15.2cm)

Recessed Location

D

C

C

E

V

Balcony with No Side Wall

G

V

G = 12" (30.5cm) minimum clearance

Balcony with Perpendicular Side Wall

H

V

J

Combustible &

Noncombustible

H = 24" (61cm)

J = 20" (50.8cm)

C = Maximum depth of 48" (121.9cm) for recessed location

D = Minimum width for back wall of recessed location - Combustible - 38" (965mm) Noncombustible - 24" (61cm)

E = Clearance from corner in recessed location- Combustible - 6" (15.2cm) Noncombustible - 2" (5.1cm)

Figure 20 - Minimum Clearances for Vent Terminations

For morevisit www..com

112126-01B

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Contents VH series Stove OWNER’S Operation and Installation ManualFor Your Safety For Your Safety What to do if YOU Smell GASSafety Information Table of ContentsWith stove Product IdentificationGlossary of Terms PRE-INSTALLATION Preparation Product FeaturesLocal Codes Stove Body Assembly PRE-INSTALLATION PreparationCast Iron Stove and DIRECT-VENT Burner System Assembly Locating Threaded Holes for Legs and Door Attachment Amity Models Installing DIRECT-VENT Burner System Into Stove BodyRemoving Front Surround Panel Removing Screen OptionalTOP View Installing Optional Blower Accessory Installing the BlowerBlower Wiring Layout Thermostat Blower Shown Installing Rear CoverLocation of Vent Termination General VentingGeneral Venting Installation Planning Venting InstallationInstallation Precautions Installing Vent System in a Chase Installation for Horizontal TerminationVent Opening Requirements Venting with Two 90 Elbows Horizontal Termination ConfigurationsHorizontal Venting Venting with Three 90 ElbowsFlat Ceiling Installation Installation for Vertical TerminationVenting with Two 90 Elbow Cathedral Ceiling InstallationVertical Termination Configurations Venting with Two Elbows Vertical Venting Configuration Using Two 90ElbowsNumber Description High Altitude InstallationParts Lists for Venting Kits and Components Vertical VentingCheck GAS Type Stove and DIRECT-VENT Burner System InstallationInstalling GAS Piping to STOVE/ Burner System Location Installation Items NeededChecking GAS Connections Connecting STOVE/BURNER System to GAS SupplyPressure Testing Gas Supply Piping System 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 EmbersTo Turn OFF GAS To Appliance For Your Safety Read Before LightingOperating Stove with Burner System Lighting InstructionsThermostat Series Models Ghrctb and Cghrctb Manual LightingOptional HAND-HELD Remote Operation ON/OFF Series Models Ghrcb and CghrcbOperating Optional GWMT1 Wall Mounted Thermostat Operating Optional Blower AccessoryPilot Assembly Inspecting BurnersLogs Cleaning and MaintenanceGlass Door Pilot and BurnersObserved Problem Possible Cause Remedy TroubleshootingOrifice Above Gas leak. See Warning statementParts Under Warranty SpecificationsWiring Diagram Replacement PartsModels Sdvbnd Sdvbpd Illustrated Parts BreakdownModels SDVBND, Sdvbpd Parts ListVictor Hearth Stove Body Indicates Color Suffix Designation Oxford Amity Stove BodyDescription QTY Indicates Color Suffix DesignationAccessories Technical ServiceService Hints Owners Registration Form For Com 112126-01B Warranty Information
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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.
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