Carrier 40QA024-060 specifications Fan Coil Unit Clearances

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Fig. 4 — Fan Coil Unit Clearances

5.Run refrigerant piping as directly as possible and avoid any unnecessary turns or bends.

6.Condensate piping can be directed through the inside wall to an approved drain or straight outside.

NOTE: The piping hole for condensate line must slope at a minimum pitch of 1/4 in. per foot to ensure proper drainage. If proper pitch cannot be achieved, install accessory condensate pump at this time.

Step 3 — Mount Unit — Refer to Fig. 4 for clearances and dimensions. Use mounting template included inside box to locate mounting bolt holes, piping holes, electrical connec- tions, and accessory outdoor-air intake, if used.

Select proper type of hardware from the guidelines below. See Fig. 5.

Solid structure in ceiling must be used due to the weight of the unit.

WOODEN STRUCTURE — Install hanging bolts on a square wooden piece placed over beams.

NEWLY BUILT CONCRETE SLAB — Install hanging bolts with inserts, embedded bolts, etc.

METAL STRUCTURE — Install hanging bolts utilizing an existing angle or by installing a new support angle.

PREVIOUSLY BUILT CONCRETE SLAB — Install hang- ing bolts with expansion anchor.

TO MOUNT UNIT:

1.Remove mounting bracket and reinstall the 2 hex-head bolts (factory-supplied) into each side of indoor unit as shown in Fig. 6. Allow approximately 3/8-in. space between bolt head and unit.

Fig. 5 — Fan Coil Unit Mounting Methods

(Hardware is Field-Supplied)

2.Determine installation position, paying particular attention to piping lengths, wiring connections, clear- ances, etc. See Fig. 3 for connection locations, Fig. 4 for clearances, and Fig. 7 and 8 for bolt locations.

3.Open knockout if right-side piping connections are required (Fig. 9), by removing the pre-slit portion in the rear of the right side panel with a saw or cutter knife.

4.Mount hanging brackets on ceiling (Fig. 10) for either concealed or exposed bolt hanging position.

5.Lift the unit into place, and fit the hex-head bolts on sides of indoor unit into mounting slots of mounting brackets (Fig. 11). Ensure unit is mounted with a slight tilt to the right rear side for properly drainage.

6.Tighten indoor unit hex-head bolts securely.

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Contents Contents InstallationSystem Type Indoor Section Number Outdoor Section Number System MatchesApplication Range CoolingComplete Pre-Installation Checks Physical Data, Under Ceiling Cooling Only UnitsPhysical Data, Under Ceiling Heat Pump Units Unit SizeSize Weight lbUnit Ft-inFan Coil Unit Clearances Installing Hex-Head Mounting Bolts Fan Coil Unit Piston and Charge Combinations Heat Pump Systems Connect Condensate Drain LinePiston and Charge Combinations Cooling Only Systems Piston and Charge Combinations Heat and Cool SystemsMounting Hanging Brackets Electrical Data Component Location Typical Ceiling-Suspended System Line Power Connections Equip GND ASMASR TranThermostats AccuRater Bypass Type Metering Device Components Cooling System Wiring Diagram Heat Pump Wiring Diagram Adjusting Airflow START-UPAir Filters Fig Cleaning and MaintenanceCleaning and Maintenance Schedule Task Monthly Quarterly Yearly Indoor UnitBefore Calling for Service Save the cost of a service Clean Outdoor Coil Outdoor UnitService Fresh AIR Installation OptionTroubleshooting Problem Cause Typical SolutionService Training Call for Free CatalogSTART-UP Checklist Preliminary Information II. PRE-START-UPIII. Piping START-UP Checklist IV. START-UP

40QA024-060 specifications

The Carrier 40QA024-060 represents a significant advancement in the field of air conditioning and heat pump systems, designed to provide efficient climate control for both residential and commercial applications. This package unit integrates cutting-edge technologies to enhance performance, reliability, and ease of use, making it an ideal choice for a variety of settings.

One of the standout features of the 40QA024-060 is its energy efficiency. The unit is equipped with a high-efficiency compressor that is designed to minimize power consumption while still delivering optimal cooling and heating performance. This translates into lower energy bills and a reduced environmental footprint, aligning with the growing demand for sustainability in HVAC systems.

Another important characteristic of the Carrier 40QA024-060 is its compact design. The unit is engineered for space-saving installations, making it suitable for locations where space is at a premium. Its durable construction ensures longevity and reliability in various weather conditions, providing peace of mind for users.

The 40QA024-060 utilizes advanced refrigerant technologies, including the use of R-410A refrigerant, which is known for its superior cooling capabilities and lower ozone depletion potential compared to older refrigerants. This aligns with modern environmental standards and contributes to the goal of eco-friendly operation.

In terms of operation, the unit features a microprocessor-based control system that allows for precise temperature management. Users can easily set their desired indoor climate settings, and the system will automatically adjust operational parameters to maintain those conditions efficiently.

Flexibility is also a key advantage of the Carrier 40QA024-060. The unit offers various configurations and can be integrated with existing ductwork, making it adaptable to different residential or commercial layouts. Additionally, the option for variable-speed blower technology enhances comfort by providing consistent airflow and reducing temperature fluctuations.

The Carrier 40QA024-060 is also designed with serviceability in mind. Access panels and maintenance features make it easy for technicians to perform routine inspections or repairs, reducing downtime and ensuring optimal performance over the unit's lifespan.

In conclusion, the Carrier 40QA024-060 combines energy efficiency, advanced technology, and robust design to meet the demands of climate control in diverse environments. Its features make it a reliable choice for both residential and commercial applications, contributing to enhanced comfort and operational efficiency.