United States Stove DR6 warranty To Safely and Properly Install this Heater

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Two common types of clearance reductions systems use sheet metal with a thickness of 28 gauge (galvanized steel, aluminum, copper) or a 3-1/2 inch (4 inch thick nominal) thick masonry wall. Either of these materials must be spaced out 1 inch from the combustible surfaces. With sheet metal, noncombustible spacers are used to maintain the 1 inch air space. With a masonry wall, metal wall ties and furring strips, if needed, are used to anchor the brick to the wall. To avoid excessive heat transmission, the spacers or wall ties should not be placed directly behind the heater or chimney connector. The 1 inch air space provides free air circulation. It is essential that there be openings at the top and bottom of these clearance reducers so cool air can enter at the bottom and warm air exit at the top. It is the “chimney effect” whereby when the air in the space is heated, it rises exiting from the top and being replaced by cooler air at the bottom, that makes these shields effective.

Masonry, or other noncombustible products, attached directly to a combustible surface without an air space offer very little protection and cannot be considered a clearance reduction system unless specific materials have been tested and listed for direct attachment to a combustible surface. The same applies to thin veneer brick and stone coverings. These materials provide adequate protection only when mounted on sheet metal with a 1 inch minimum spacing to the wall.

A variety of prefabricated clearance reduction systems which have been safety tested and listed are available through heater dealers. Always look for a safety listing label on the product when selecting a clearance reduction system through a heater dealer and make sure it is designed for use with solid fuel. The manufacturers of these tested and listed systems provide specific installation instructions that must be followed exactly for a safe installation.

Should you chose to make your own clearance reduction system, contact your local fire department, fire marshal or building code inspector for specific requirements regarding home-constructed clearance reduction systems and safe installation clearances to protected combustible surfaces.

TO SAFELY AND PROPERLY INSTALL THIS HEATER:

1.Install a Listed High Temperature Type HT Factory-built Residential Type and Building Heating Appliance Chimney, build a masonry chimney or adapt an existing chimney to vent the heater. (See the CHIMNEY CONNECTOR AND CHIMNEYS section of this manual for important information).

2.Purchase the 6-inch diameter chimney connector pipes that are required. The pipe should be black or blued steel, 24 gauge minimum. If elbows are needed, use only seamless elbows because seamed elbows can leak smoke. Do not use more that two elbows or the chimney draft will be restricted (See the CHIMNEY CONNECTOR AND CHIMNEYS section of this manual for details). Number 8 sheet metal screws and furnace cement will also be needed to assemble the chimney connector pipes. If the heater is to be installed to a masonry fireplace as shown by figure 4, you should also obtain the fireplace items called for by figure 4.

3.If the heater is to be installed on a combustible floor, purchase a listed noncombustible floor protector as described in this manual and install it in the proper location. The floor protector MUST protect the floor beneath and around the heater and chimney connector as shown by figure 5.

4.Assemble the chimney connector pipe sections to determine if the chimney connector pipe will correctly extend from the heater flue collar to the chimney. Any horizontal section of chimney connector pipe must slope upward at least 1/4” rise to the horizontal foot to maintain adequate draft (See figure 6). Always install the chimney connector pipe with the crimped end toward the heater to prevent creosote from leaking out of the joints (See figure 6). Always use the least number of chimney connector pipe sections possible. Minimum clearance to combustible walls and ceilings as noted by figures 1 through 4 MUST always be maintained if a clearance reduction system is not installed.

5.After it is determined that the assembled chimney connector will properly connect the heater to the chimney, disassemble all sections of the chimney connector in preparation for the final assembly procedures.

6.Place the crimped end of the first chimney connector pipe or elbow into the heater’s flue collar and mark it through each of the holes in the heater’s flue collar.

7.Remove the pipe or elbow from the flue collar and drill 1/8 inch diameter holes at the points marked by step 6.

8.Apply furnace cement to the inside surface of the heater’s flue collar, reinstall the first pipe or elbow and fasten in place with No. 8 sheet metal screws. Apply additional furnace cement to the outside of the chimney connector flue collar joint if an airtight seal was not achieved when the pipe or elbow was installed.

9.Assemble the remaining chimney connector pipes by applying furnace cement to the joints, drilling 1/8 inch diameter holes for and attaching each joint with three No. 8 sheet metal screws. Wipe all excess furnace cement from the pipe joints with rag or paper towel. Allow the applied cement to dry before building the first fire in the heater.

10.Depending on your particular type of installation, connect the heater’s chimney connector to a masonry chimney as shown by figures 7 or 8, or connect the chimney connector to a metal prefabricated chimney as specified by the instructions furnished with the metal prefabricated chimney or connect the chimney connector to a masonry fireplace as shown by figure 4.

DANGER: IF ANY CLEARANCE TO UNPROTECTED WALL OR CEILING IS LESS THAN THOSE SPECIFIED BY FIGURES 1 THROUGH 4 AFTER HEATER INSTALLATION IS COMPLETED, A CLEARANCE REDUCTION SYSTEM MUST BE IN- STALLED BEFORE THE FIRST FIRE IS BUILT IN THE HEATER; OTHERWISE, THE UNPROTECTED WALL OR CEILING COULD CATCH FIRE. REMEMBER, THERE ARE ALSO LIMITS AS TO HOW CLOSE THE HEATER CAN BE INSTALLED TO A COMBUSTIBLE SURFACE PROTECTED BY A CLEARANCE REDUCTION SYSTEM. REREAD “MINIMUM CLEARANCES TO WALLS AND COMBUSTIBLE WALLS AND CEILINGS” PRESENTED EARLIER IN THIS MANUAL.

CAUTION: FOR YOUR SAFETY, CONTACT YOUR LOCAL FIRE DEPARTMENT, FIRE MARSHAL, OR BUILDING CODE INSPECTOR FOR INSPECTION PRIOR TO AND FOLLOWING CLEARANCE REDUCTION SYSTEM AND/OR HEATER INSTALLATION.

CAC

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Contents Model CAC Table of ContentsBuilding Codes and Safety Standards HOW this Heater OperatesSelecting a Location for the Heater 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.