Trane GETB manual Hinged Acoustical Door, Return Air hinged Acoustical Door

Page 8

Dimensions

Hinged Acoustical Door

Return Air (hinged)

Acoustical Door

3 1/2” ±3/8”

The hinged acoustical door is recessed into the wall so that the door is flush with the surface of the wall.

The opening through the wall for the door assembly must be centered with the return-air opening of the unit cabinet. For full installing instructions of the return-air acoustical door, see page 12.

A

B

SHEET ROCK

OPENING

 

2“ X 4” STUD

SHEETROCK

1 1/4” +1/2”/-0”

 

 

1“ X 1” CLOSED

RETURN AIR OPENING

CELL INSULATION

 

FLANGE ON CABINET

 

RETURN AIR DOORFLANGE

CABINET

RETURN AIR OPENING

1“ X 1” CLOSED

CELL INSULATION

FLANGE ON CABINET

 

A

Unit Size

A

B

 

 

 

09

19 1/4”

44 1/8”

 

 

2“ X 4”

012

(489)

(1121)

SHEETROCK

 

 

 

STUD

015

23 1/4”

45 1/4”

 

 

 

018

(591)

(1149)

 

 

 

024

27 1/8”

54 5/8”

 

Note:

 

 

Finished wall and framing should not

036

(689)

(1387)

 

 

touch the unit cabinetry.

 

 

 

 

 

 

 

 

 

 

 

CABINET

 

3 1/2” ±3/8”

 

 

 

 

SHEETROCK

 

 

 

 

 

RETURN AIR

 

 

 

 

 

DOOR FRAME

 

2 X 4 STUD

 

 

 

 

 

 

 

 

1“ X 1” CLOSED

 

RETURN-AIR OPENING

 

 

 

FLANGE ON CABINET

 

 

CELL INSULATION

 

 

 

 

 

 

 

 

 

 

 

B

 

 

1“ X 1” CLOSED

 

RETURN-AIR OPENING

 

 

CELL INSULATION

 

FLANGE ON CABINET

 

 

RETURN AIR

 

 

 

 

 

DOOR FRAME

 

2 1/4“

5“

 

 

 

 

 

 

 

 

4 5/8“

 

 

SHEETROCK

 

 

 

 

 

 

 

 

 

FLOOR

 

CABINET

 

 

 

1 1/2” X 2 3/8”

3 1/2” ±3/8”

 

 

 

 

 

 

 

 

 

SIDE VIEW

1 1/4” +1/2”/-0”

TOP VIEW

8

WSHP-SVN08B-EN

Image 8
Contents Installation Owner Diagnostics Later Design SequenceResponsible Refrigerant Practices Contents Microbial Growth Pre-installation ChecklistFiberglass Wool General Information Dimensions/Weights/ Clearance Unit weightsDimensions GETHinged Acoustical Door Return Air hinged Acoustical DoorLow Voltage Wiring AC & DC Requirements InstallationGeneral Installation Checks Improper Unit Lift Field Installed Power Wiring Control Power TransformerDrywall Installation Units utilizing Hinged Acoustic Door AssemblyMock-up of stud placement Surface, Top View. FigureChassis Installation Supply Air DuctworkSupply air opening size Supply Grille installationCleaning and Flushing Water Loop Using Antifreeze Antifreeze requirements based on volumeLow Voltage Wiring Six 6 Pin Connector/HarnessDeluxe controller diagnostic LEDs 24V AC conductorsBlower Motor Speed Retrofit Lead changeElectrical Requirements GET036 LowIs unit serviceable? See clearance specifications on Pre-Start ChecklistPre-Start-up Checklist Sequence Operation Live Electrical ComponentsOperating Pressures Table OP-1 Operating PressuresOperating Pressure Water Volume Start-up Checklist and LogWater Pressure Drop Water pressure drops WPD in feet of headStart-up Checklist Log Job Name Model Number Date Serial NumberMaintenance Preventive MaintenanceHazardous Voltage Hazardous ChemicalsWarranty Information Warranty Information Standard WarrantyTroubleshooting Hazardous Service ProceduresGeneral Operation Operation with a Conventional ThermostatTroubleshooting Checklist Unit short cyclesUnit Wiring Retrofit Diagram 208/230V-50/60 Hz-1PHUnit Wiring Deluxe Diagram Unit Wiring ZN510 Diagram 230V-50/60 Hz-1PHTrane

GETB specifications

The Trane GETB, known for its exceptional efficiency and reliability, stands as a leader in the commercial HVAC industry. Designed to meet the demands of varying environments, the GETB system is particularly beneficial for buildings requiring constant heating and cooling performance.

One of the standout features of the GETB is its use of the Trane Tracer SC+ building management system. This intelligent control platform allows facility managers to efficiently monitor and manage HVAC settings remotely, optimizing comfort and energy consumption. The integration of smart technology significantly reduces operational costs by promoting energy-saving strategies tailored to specific building requirements.

A notable technology incorporated in the Trane GETB system is the use of advanced variable-speed compressors. These compressors adjust their output based on the needs of the building, providing precise temperature control and minimizing energy wastage. With this technology, the GETB can achieve high efficiencies across various load conditions, which is particularly advantageous during periods of fluctuating occupancy.

Another important characteristic of the GETB is its robust design tailored for durability and longevity. Constructed with high-quality materials and components, the system is engineered to withstand the rigors of continuous operation in industrial environments. This resilience ensures minimal disruptions and maintenance needs, allowing for a seamless integration into any facility.

Additionally, the GETB offers extensive options for zoning and temperature control. With its zoning capabilities, different areas of a building can be maintained at separate temperature settings, enhancing comfort for occupants while contributing to energy conservation. The ability to customize the system to suit specific building layouts makes the GETB a versatile choice for a variety of applications.

Furthermore, the GETB is designed with environmental sustainability in mind. By using refrigerants with lower global warming potential, Trane has focused on reducing the ecological footprint of its products. This commitment to sustainability does not only comply with regulatory standards but also supports building owners looking to achieve green certifications.

In summary, the Trane GETB combines advanced technologies, robust design, and energy-efficient features to provide a dependable HVAC solution for commercial spaces. With its smart controls, variable-speed compressors, and emphasis on sustainability, it represents an ideal choice for those seeking reliable heating and cooling in a dynamic and eco-conscious manner.