United States Stove DR6 warranty Cac

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There are five allowable ways that a chimney connector can be connected to a masonry chimney by passing through a combustible wall. NFPA Standard 211 allows the following wall pass-through systems.

1.Use a minimum 3-1/2" thick brick masonry wall framed into the combustible wall. A fireclay liner (ASTM C315 or equivlent) having a 5/8" minimum wall thickness must be used and it must be at least 12" away from any material that could catch fire. The inside diameter of the fireclay liner shall be sized for the proper snug fit of a 6" diameter chimney con nector pipe. The fireclay liner shall run from the outer surface of the brick wall to, but not beyond, the inner surface of the chimney flue and shall be firmly cemented in place. See Part A of Figure 7.

2.Use a solid insulated listed factory-built chimney length having an inside diameter of 6" and having 1" or more of solid insulation. There must be at least a 9" air space between the outer wall of the chimney length and any combustible materials. The inner end of the chimney length shall be flush with the inside of the masonry chimney flue shall be sealed to the flue and to the brick masonry penetration with nonwater-soluble refractory cement. Sheet steel supports which are at least 24 gauge(0.024") in thickness shall be securely fastened to wall surfaces on all sides. Fasteners between supports and the chimney length shall not penetrate the chimney liner. See Part B of Figure 7.

3.Use a 10" diameter ventilated thimble made of at least 24 gauge(0.024") steel having two 1" air channels. The ventilated thimble must be separated from combustible materials by a minimum of 6" glass fiber insulation. The opening in the combustible wall shall be covered and the thimble supported with sheet steel supports which are at least 24 gauge (0.024") in thickness. The sheet steel supports shall be securely fastened to wall surfaces on all sides and shall be sized to fit and hold the chimney section. Fasteners used to secure chimney sections shall not penetrate chimney flue liner. See Part C of Figure 7.

4.Use an 8" inside diameter solid insulated listed factory-built chimney length which has 1" or more of solid insulation. The minimum length of this chimney section shall be 12" and will serve as a pass-through for the 6" diameter chimney connector. There must be at least a 12" air space between the outer wall of the chimney section and any combustible materials. The chimney section shall be concentric with and spaced 1" away from the chimney connector by means of sheet steel support plates on both ends of the chimney section. The opening in the combustible wall shall be covered and the chimney section supported on both sides with sheet steel supports which are at least 24 gauge (0.024") in thickness. The sheet steel supports shall be securely fastened to wall surfaces on all sides and shall be sized to fit and hold the chimney section. Fasteners used to secure chimney sections shall not penetrate chimney flue liner. See Part C of Figure 7.

5.A listed factory-built wall pass-through system may be purchased and installed according to the instructions packaged with it to provide a safe method of passing the chimney connector through a combustible wall for connection to a masonry chimney.

Additional requirements pertaining to Figure 5 and the above wall pass-through systems:

1.Insulation material used as part of wall pass-through system shall be of noncombustible material and shall have a thermal conductivity of 1.0 Btu • in./ft.² • °F (4.88 kg • cal/hr • m² • °C) or less

2.All clearances and thicknesses are minimums: larger clearances and thickness are acceptable.

3.A chimney thimble, as shown for 3" and 4" above (Parts C and D respectively of Figure 7) shall be for types "3" and "4" connections to facilitate removal of the chimney connector for cleaning. The chimney thimble shall be of ASTM C315 fireclay with 5/8" minimum wall thickness , or material or equivalent durability. The inside diameter of the thimble shall be sized for the proper snug fit of a 6" diameter chimney connector pipe. The thimble shall be installed without damage to the chimney flue. The thimble shall extend through the chimney wall to, but not beyond, the inner surface of the chimney flue and shall be permanently cemented in place with high temperature cement.

4.A chimney connector to a masonry chimney, except for 2" above (Part B of Figure 7), shall extend through the wall pass-through system to the inner face of the chimney flue, but not beyond. It does not have to be fastened in place so long as it cannot accidently be pulled out of the chimney or shoved into the chimney flue. If fasteners are used to secure the chimney connector to a masonry chimney, the fasteners shall not penetrate the chimney flue liner.

5.Any material used to close up any opening for the connector shall be noncombustible.

If the chimney connector does not have to pass through a combustible wall to get to a masonry chimney, connect the chimney connector to the masonry chimney as shown in figure 8. The fireclay liner shown by figure 8 should be sized for the proper snug fit of a 6” diameter chimney connector pipe. The fireclay liner should be firmly cemented in place as shown. As previously stated, any metal prefabricated chimney this heater is connected to must be a listed Hi-Temp Type HT Factory Built Residential Type and Building Heating Appliance Chimney.

When a metal prefabricated chimney is used, the manufacturer’s installation instructions must be followed precisely. You must also purchase (from the same manufacturer) and install the ceiling support packageor wall pass through and “T” section package, firestops (when needed), insulation shield, roof flashing, chimney cap, etc. Maintain the proper clearance to the structure as recommended by the manufacturer. This clearance is usually a minimum of 2 inches, although it may vary by manufacturer or for certain components.

A listed chimney cap should be installed to prevent entrance of rain and help elimnate down drafts. An unapproved chimney cap, protector or spark arrester can become clogged when leaves or other matter. This blocks the chimney and causes smoke, and the dangerous carbon monoxide in smoke, to spill back into your home where it can kill you.

CAC

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Contents Model CAC Table of ContentsSelecting a Location for the Heater Building Codes and Safety StandardsHOW this Heater Operates Side Section View Plan Section View Floor Protection CAC Oughly Informed Part C Minimum Clearance to Combustible Walls and Ceilings Heater InspectionTo Safely and Properly Install this Heater Heater Operation Information To Build a FireOpening and Closing Fuel Feed Door Firetending Heater Maintenance Minimum Fire AdjustmentCoal Facts Disposal of AshesChimney Connector PIPE-CORROSION Inspection Venting System Chimney Connector and ChimneyTroubleshooting Venting SYSTEM-KEY to Good Heater PerformanceWhat to do if the Heater Burns TOO Rapidly or Overheats Chimney Height RequirementsFinal Checklist of DO’S and DON’TS Barometric Draft Regulator See for Repair PartsCAC KEY QTY CAC Part Name See for Illustration of Parts

DR6 specifications

The United States Stove DR6 is a prominent addition to the world of heating appliances, known for its blend of functionality, efficiency, and design. This wood-burning stove is an ideal choice for those seeking an effective and eco-friendly heating solution for their home.

One of the standout features of the DR6 is its robust construction, featuring a heavy-duty steel body that is built to withstand the rigors of daily use. The stove is designed to provide durability and longevity, ensuring years of reliable performance. The large firebox is capable of accommodating logs up to 18 inches long, providing ample space for a sustained burn, which translates to more heat for extended periods.

The heating efficiency of the DR6 is noteworthy, boasting an impressive 78% efficiency rating. This is achieved through advanced combustion technologies that maximize heat output while minimizing smoke and emissions. The secondary combustion system is particularly beneficial, as it ensures that burning gases are ignited before being released into the atmosphere, leading to cleaner combustion and reduced environmental impact.

Another key characteristic of the DR6 is its user-friendly operation. The stove features a convenient air control system, allowing users to easily adjust the airflow for optimal burn rates. This flexibility ensures that users can tailor the heating experience according to their specific needs, whether they require a quick burst of heat or a slower, more consistent burn.

The aesthetic appeal of the DR6 is also worth noting. With a sleek design and classic cast iron door, it fits seamlessly into various interior styles, from rustic cabins to modern homes. The large viewing window provides a cozy ambiance, allowing users to enjoy the flickering flames while maintaining a comfortable temperature.

Safety features have not been overlooked with the DR6. It includes a built-in safety feature that prevents overheating, and the legs are designed to allow for proper clearance from combustible materials. Additionally, the stove meets the stringent safety and emissions standards set by regulatory bodies, making it a responsible choice for homeowners.

In summary, the United States Stove DR6 combines efficiency, safety, and aesthetic appeal, making it a top contender in the wood-burning stove market. Its robust features, advanced technologies, and attention to design create a dependable heating solution that enhances any living space while being eco-conscious. For those in search of a reliable and stylish heating option, the DR6 is undoubtedly worthy of consideration.