York DGPH077ABTA warranty Return AIR Requirements, AIR Distribution Systems, Closet Installations

Page 4

035-16328-Rev002C(0902).

RETURN AIR REQUIREMENTS

CLOSET INSTALLATIONS

Additional Requirements

Additional requirements for floor and ceiling return system for closet installed sealed combustion heating appliance are given in the next paragraph.

Floor or Ceiling Return Air System

Listed in the next paragraph are the conditions to be met by Manufactured Home Manufacturers to have U.L. acceptance of in-floor or ceiling return air systems of closet installed direct vent forced air heating appliances for Manufactured Homes to be sold in the United States.

1.The return-air opening into the closet, regardless of loca- tion, is to be sized not less than specified on the appli- ance's rating plate.

2.If the return-air opening is located in the floor of the closet (versus the vertical front or side wail), the opening is to be provided with means to prevent its inadvertent closure by a fiat object placad over the opening.

3.The cross-sectional area of the return duct system (when located in the floor or ceiling of the manufactured home) leading into the closet is to be not less than that of the opening specified on the appliance's rating plate.

4.The total free area of openings in the floor or ceiling reg- isters serving the return-air duct system is to be not less than 150% of the size of the opening specified on the appliance's rating plate. At least one such register is to be located where likelihood of its being covered by car- peting, boxes, and other objects is minimized.

5.Materials located in the return duct system have a flame spread classification of 200 or less.

6.Non-combustiblepans having one-inch upturned flanges are located beneath openings in the floor return duct system.

7.Wiring materials located in the return duct system con- form to Article 300-22 (B&C) of the National Electrical Code (NFPA-70).

8.Gas piping is not run in or through the return duct sys- tem.

9.The negative pressure in the closet as determined by test with the air-circulatingfan operating at high heating

speed and the closet door closed is to be not more nega- tive than minus 0.05-inch water column.

10.For floor return systems, the manufactured home manu- facturer or installer shall affix a prominent marking on or near the appliance where it is easily read when the ctoset door is open. The marking shall read:

_WARNING

HAZARD OF ASPHYXIATION, DO NOT COVER OR RESTRICT FLOOR OPENING

AIR DISTRIBUTION SYSTEMS

For proper air distribution, the supply duct system shall be designed so that the static pressure does not exceed the listed static pressure rating on the furnace rating plate.

Three typicaldistdbution systems are illustrated in Figure 2.

Location, size and number of registers should be selected on the basis of best air distribution and floor plan of the home.

The Air Temperature Rise is to be adjusted to obtain a tem- perature dse within the range(s) specified on the furnace rat- ing plate.

A

 

Singletrunk duct _

C

E

 

TransitionDuct withBranches

 

B*

 

Transitionduct

 

Dualtrunk duct with crossoverconnector

 

 

Dualtrunk duct

Crossover

I

_r-.. 3

1.CrossoverDuct must becentereddirectlyunder furnace.

2.Use 12" DiameterRound or insulatedFlex-duct only.

3.TerminateFlex-duct(oppositefurnace) in the centerof the trunk duct.

4.Flex_uct matedalmust be pulledtight-- No Loops or unnecessarydips-- Air Flow may be impeded.

FIGURE 2 : Air Distribution Systems

4

Unitary Products Group

Image 4
Contents For Installation Manufactured Mobile Homes Sealed Combustion Downflow GAS FurnaceModels DGAA, DGAH, DGPA, and Dgph Furnace START-UP Check ListFurnace Specifications Electrical SpecificationsInstallation Standards High Altitude InstallationGeneral Information CodecomplianceCloset Installations Return AIR RequirementsAIR Distribution Systems Transition ductDoor Below the top of the furnace casing7900-7771/C * White Existing Furnace Replacement NEW Home InstallationInstallation in Snow Regions Roof Jack4000-6101/A 4000-61211A4900-7141/C 4000-6141/A 4000-6151/ARoof Jack With Removable Crowns Unitary Products Group Duct Connectors Duct Connector DimensionsRear Wall Enclosure Ceiling CUT-OUT Supply DuctInstallation of Screw Abachmentduct Connector Installation of TAB Attachment Duct ConnectorsUnitary Products Group Locator BracketInstallation of the Furnace Tened to the furnaceElectrical Wiring Connect Power Supply WiresConnect Thermostat Wires Ceiling RingsNot Factoryinstalled Wall ThermostatWiring Diagrams Manual Reset WHT Limit Switci RED AMP Fuse Auto ResetLimitswitch NEU WHT SwitchBLEND-AIR Limit Control BOX Switch If Equipped BLU WHT Auto Reset Limit Switch SystemORG Blower Relay GRY LineAJC Condensing Unit Contactor NEU WHT Switch FAN SwitchAuto Reset Limit Switch Pressure Blower ORG Motor Combustion Relay GRYIncoming Power Must be Polarized Observe Color Coding Ca L oInstallation and Checking of GAS Line Pilot AdjustmentGAS Piping Observing Burner OperationFinal Procedure Install Furnace Doors Furnace and AIR ConditionerFinish and Trim Base DuctNatural GAS High Altitude Deration ChartPropane GAS Repair Parts List DGAA, Dgah DGPA, DgphDGAA,DGAH Control BOX DetailDgaa Description DGAA056BDTA DGAA070BDTA DGAA077BDTA DGAA09OBDTAItemdescription DgahDGAH056BBSA DGAH077BBSA Dgpa Description DGPA086ABTA DGPA070ABTA DGPA077ABTA DGPA090ABTADescription DGPH056ABTA DGPH070ABTA DGPH077ABT DgphDGPH090ABTA Accessory Parts List Description Dgaa Dgah Dgpa Dgph ModelSupersedes

DGPA056ABTA, DGAAO77BDTA, DGAHO77BBSA, DGPA070ABTA, DGPA090ABTA specifications

York DGPA070ABTA, DGAA056BDTA, DGPA090ABTA, DGPA077ABTA, and DGPH077ABTA are part of York’s latest series of air conditioning and heat pump units, designed to meet the evolving demands of residential and commercial applications. These models combine efficiency with advanced technology to provide optimal climate control throughout the year.

The DGPA070ABTA stands out for its impressive cooling capacity, making it suitable for medium-sized spaces. Equipped with a high seasonal energy efficiency ratio (SEER), it maximizes cooling performance while minimizing energy consumption. This model is integrated with advanced inverter technology, allowing for variable speed operation. This means that the compressor can adjust its speed based on the cooling or heating demand, ensuring consistent temperatures and reduced energy waste.

The DGAA056BDTA model is tailored for users seeking a balance between performance and efficiency. This air conditioner features a dual-stage compressor that enables it to operate at reduced capacity during milder conditions, resulting in lower energy costs. Its compact design is ideal for installations where space is limited, and it offers a whisper-quiet operation, making it particularly attractive for residential settings.

Next is the DGPA090ABTA, which boasts one of the highest capacities in this range, making it capable of cooling larger areas effectively. It employs a state-of-the-art refrigerant that not only improves efficiency but also reduces environmental impact. This model's smart grid compatibility allows for easier integration with home automation systems, enabling users to monitor and control their cooling systems remotely.

The DGPA077ABTA serves as a versatile option for both residential and commercial users. This model features a robust build designed for durability and longevity. With its advanced filtration system, it ensures cleaner air circulation, enhancing indoor air quality. It also has programmable settings, allowing users to define schedules that align with their lifestyle.

Finally, the DGPH077ABTA model is a high-efficiency heat pump, providing both heating and cooling capabilities. This dual functionality makes it an attractive choice for regions with variable climates. The heat pump operates efficiently even in low temperatures, ensuring comfort no matter the season.

In summary, the York DGPA070ABTA, DGAA056BDTA, DGPA090ABTA, DGPA077ABTA, and DGPH077ABTA units encapsulate the brand’s commitment to innovation, efficiency, and user-centric design. These models utilize advanced technologies to ensure dependable performance, enhancing indoor comfort while being mindful of energy consumption and environmental impacts.