Amana VR8205 installation instructions High Limit Control

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3.INPUT = GAS HTG VALUE x 3600 SEC. PER CUBIC FOOT (3600 is a conversion factor- 3600 seconds = 1 hour.)

Example: Natural gas with a heating value of 1000 BTU per cubic foot and 34 seconds per cubic foot as deter- mined by Step 2, then:

Input = 1000 x 3600 x 34

= 106,000 BTU per Hour

NOTE: BTU content of the gas can be obtained from the gas supplier.

This measured input must not be greater than the input indicated in Specification Sheet.

4.Relight all other appliances turned off in Step 1. Be sure all pilot burners are operating.

CHECK BURNER FLAMES

Flames should be stable, soft and blue, (dust may cause orange tips but they must not be yellow), extending directly outward from the burners without curling, floating or lifting off.

CHECK TEMPERATURE RISE

Check the temperature rise through the unit by placing thermometers in supply and return air registers as close to the furnace as possible. Be sure the thermometers do not “see” the heat exchangers or false readings could be obtained.

1.All registers must be open, all duct dampers must be in their final (fully or partially open) position, and the unit operated for 15 minutes before taking readings.

2.The temperature rise must be within the range specified on the rating plate or Specification Sheet.

NOTE: Air temperature rise is the temperature difference between supply and return air.

With a properly designed system, the proper amount of temperature rise will normally be obtained when the unit is operated at rated input with the “as shipped” blower speed.

If the correct amount of temperature rise is not obtained, it may be necessary to change the blower speed. A faster blower speed will lower the temperature rise. A slower blower speed will increase the temperature rise.

NOTE: Blower speed must be set to give the correct air temperature rise through the furnace as marked on the rating plate.

CHANGING BLOWER SPEEDS

WARNING

To avoid death or personal injury due to electrical shock, turn off power to the furnace before changing speed taps.

All furnaces ship at high speed for cooling and the speed listed in Specification Sheet for heating. These speeds should be adjusted by the installer to match the job require- ments. See Specification Sheet for details.

Connect the correct motor leads to the COOL, HEAT, and PARK terminals. If heating speed will equal cooling speed, use the jumper wire provided. All unused motor leads that are not connected to “PARK” terminals on the control must be taped to prevent shorts.

Figure 42

High Limit Control

CHECK HIGH LIMIT CONTROL

WARNING

To prevent death, personal injury, property damage or premature failure of heat exchanger, do not adjust the limit control (factory preset).

Check limit control operation after 15 minutes of operation by blocking the return air grille(s).

1.After several minutes the burners must go OFF. Blower will continue to run.

2.Remove air restrictions and burners will relight after a cool down period of a few minutes.

Adjust the thermostat setting below room temperature

1.Burners must go off.

2.Circulating air blower will continue to run for 60, 90, 120 or 180 seconds as set.

IMPORTANT NOTE: This unit must not be used as a construction heater during the finishing phases of construc- tion of a new structure. This type of use may result in premature failure due to extremely low return air tempera- tures and exposure to corrosive or very dirty atmospheres.

TO TURN OFF FURNACE

1.Set the thermostat to lowest setting.

2.Turn off the electrical power supply to the furnace.

3.Honeywell Model VR-8205, or White Rodgers Model 36E36, or Robertshaw Model 7222: Turn the gas

control knob clockwise to the OFF position. The knob should turn easily. Do not use excessive force.

White Rodgers Model 36E22: Push switch to the OFF position.

4.Close manual gas shutoff valve external to the furnace.

5.Replace the door on the unit.

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Contents Installation Instructions Table of ContentsTo The Installer To The OwnerSafety and Unit Location Additional Safety ConsiderationsII. General Information III. Air RequirementsPage Louvers and Grilles Specially Engineered InstallationsIV. Category I Venting Vertical Venting Upflow Rotated Induced Draft Blower Counterflow Rotated Induced Draft BlowerTypical Multiple Flue Clay Tile Chimney Blower AssemblyMasonry Chimneys Check 1 Proper Chimney Termination Checklist SummaryTermination 10 Feet Or Less From Ridge Wall or Parapet Check 5 Liner Condition Check 4 Debris in CleanoutTermination More Than 10 Feet From Ridge Wall or Parapet Check 3 Chimney Crown ConditionFIX 1 Liner Termination Check 7 Complete the InstallationCheck 6 Dilution AIR FIX 2 -CHANGE Venting ArrangementsVI. Gas Piping GAS PipingGas Inlet Through Furnace Right Side Upflow InstallationsGeneral Furnace Layout Gas Inlet Through Furnace Bottom Side UpflowCounterflow Installations Gas Inlet Through Right Side CounterflowChecking GAS Piping Propane Gas Installation TypPropane GAS Piping Charts Tanks and Piping Propane GAS UnitsJunction Box Left Side VIl. Electrical WiringTypical Field Wiring VAC Control Circuit Junction BoxTerminals Heating Fan Off AdjustmentsLow Voltage AIR Circulation Blower FAN TimingVIlI. Circulating Air and Filters Line Voltage Connection for AccessoriesHeat Anticipator Setting Control ModuleBottom Return Filter Sizes Return Air Plenum InstallationUpflow/Horizontal Furnaces Furnace Mounted Filter RackLight Signal Operation Number Integrated Ignition Control Diagnostic Signal ChartTiming Chart for Normal Cooling Operation Refer to AbnormalCounterflow Furnaces Start-Up, Adjustments, and ChecksIX. Sequence of Operation Integrated Ignition Control Rollout Protection Device Right To Left InstallationLeft To Right Installation Auxiliary Limit Control Figure Auxiliary Limit ControlBurner BOX Abnormal Operation Integrated Ignition ControlRobertshaw Model Gas ValvesHoneywell Model VR-8205 White Rodgers Model 36E36 Operating InstructionsWhite Rodgers Model 36E22 Measuring Inlet Gas Pressure Alternate MethodHigh Limit Control AIR Filter XI. MaintenanceFilter Removal AIR Filter Upflow FurnacesFurnace mounted Filter Rack Counterflow Burners Cleaning of Burners Qualified Servicer onlyBurner Flame General Information

VR8205 specifications

The Amana VR8205 is a robust and innovative gas valve designed for use in a variety of heating applications, particularly in residential and commercial HVAC systems. This versatile valve offers a combination of advanced technologies and user-friendly features, making it a popular choice among HVAC professionals and system installers alike.

One of the key features of the Amana VR8205 is its two-stage operation, allowing for precise control of gas flow. The dual-stage design enables the valve to modulate the gas supply based on the heating demand, which enhances system efficiency and promotes better temperature regulation. This feature not only contributes to energy savings but also helps maintain a comfortable indoor environment.

Additionally, the VR8205 is equipped with a strong, durable body construction that ensures reliability and longevity. Designed to withstand harsh operating conditions, the valveā€™s materials are resistant to corrosion and wear, making it suitable for various applications. The robust design of the Amana VR8205 minimizes the likelihood of leaks or failures, providing peace of mind to both installers and end-users.

The valve operates on low voltage, typically requiring 24 volts, which makes it energy-efficient and compatible with most modern thermostatic control systems. This low-voltage operation also simplifies installation, as it reduces the complexity and requirements for the electrical setup.

Another noteworthy characteristic of the Amana VR8205 is its integrated safety features. It includes a combination of automatic and manual shut-off mechanisms, providing an added layer of safety in case of malfunctions. This ensures that the gas supply can be quickly halted in emergency situations, protecting both people and property.

Moreover, the Amana VR8205 is designed for easy maintenance, featuring simple access points for servicing and troubleshooting. This ease of maintenance is crucial for HVAC professionals, as it allows for quick adjustments and repairs, ultimately reducing downtime.

Lastly, the Amana VR8205 has a reputation for adaptability, being compatible with various heating appliances, including furnaces, boilers, and water heaters. Its versatility makes it an excellent solution for a wide range of heating applications, ensuring optimal performance across different systems.

In summary, the Amana VR8205 gas valve is characterized by its two-stage operation, durable construction, low-voltage functionality, integrated safety mechanisms, and ease of maintenance. These features combine to offer a reliable, efficient, and flexible solution for modern heating needs.
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