Johnson Controls 13 SEER - GCGD installation manual Liquid Line FILTER-DRIER, Piping Connections

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1031452-UIM-B-0513

LIQUID LINE FILTER-DRIER

The air conditioning unit’s copper spun filter/dryer is located on the liq- uid line.

NOTICE

Replacements for the liquid line drier must be exactly the same as marked on the original factory drier. See Source 1 for O.E.M. replace- ment driers.

Failure to do so or using a substitute drier or a granular type may result in damage to the equipment.

Filter-Drier

Apply with Models

Source 1 Part No.

 

13 SEER

 

 

S1-02922156000

1.5 to 3 Tons

 

 

S1-02922157000

3.5 to 5 Tons

 

 

PIPING CONNECTIONS

The outdoor condensing unit must be connected to the indoor evapora- tor coil using field supplied refrigerant grade (ACR) copper tubing that is internally clean and dry. Units should be installed only with the tubing sizes for approved system combinations as specified in tabular data sheet. The charge given is applicable for total tubing lengths up to 15 feet. See Application Data Part Number 247077 for installing tubing of longer lengths and elevation differences.

NOTICE

Using a larger than specified line size could result in oil return prob- lems. Using too small a line will result in loss of capacity and other problems caused by insufficient refrigerant flow. Slope horizontal vapor lines at least 1" every 20 feet toward the outdoor unit to facili- tate proper oil return.

PRECAUTIONS DURING LINE INSTALLATION

1.Install the lines with as few bends as possible. Care must be taken not to damage the couplings or kink the tubing. Use clean hard drawn copper tubing where no appreciable amount of bending around obstruction is necessary. If soft copper must be used, care must be taken to avoid sharp bends which may cause a restriction.

2.The lines should be installed so that they will not obstruct service access to the coil, air handling system, or filter.

3.Care must also be taken to isolate the refrigerant lines to minimize noise transmission from the equipment to the structure.

4.The vapor line must be insulated with a minimum of 1/2" foam rub- ber insulation (Armaflex or equivalent). Liquid lines that will be exposed to direct sunlight, high temperatures, or excessive humid- ity must also be insulated.

5.Tape and suspend the refrigerant lines as shown. DO NOT allow tube metal-to-metal contact. See Figure 2.

6.Use PVC piping as a conduit for all underground installations as shown in Figure 3. Buried lines should be kept as short as possible to minimize the build up of liquid refrigerant in the vapor line during long periods of shutdown

7.Pack fiberglass insulation and a sealing material such as perma- gum around refrigerant lines where they penetrate a wall to reduce vibration and to retain some flexibility.

8.For systems with total line length exceeding 50 feet, see APPLI- CATION DATA and worksheet "General Piping Recommendations and Refrigerant Line Length" for vapor and liquid line sizing, cali- bration of liquid line pressure loss or gain, determination of vapor line velocity, elevation limitations, orifice connections, system charging, traps, etc.

Sheet Metal Hanger

Liquid

Line

Incorrect

Tape

Correct

Insulated Vapor Line

FIGURE 2: Installation of Vapor Line

TO INDOOR COIL

 

TO OUTDOOR UNIT

Liquid Line

Insulated

 

 

Cap

 

Vapor Line

 

 

PVC

 

 

Conduit

 

 

FIGURE 3: Underground Installation

PRECAUTIONS DURING BRAZING OF LINES

All outdoor unit and evaporator coil connections are copper-to-copper and should be brazed with a phosphorous-copper alloy material such as Silfos-5 or equivalent. DO NOT use soft solder. The outdoor units have reusable service valves on both the liquid and vapor connections. Units are shipped from factory with a nitrogen holding charge. Refer to Tabular Data Sheet for refrigerant charge quantities. Reusable service valves are provided to evacuate and charge per this instruction.

Serious service problems can be avoided by taking adequate precau- tions to assure an internally clean and dry system.

Dry nitrogen should always be supplied through the tubing while it is being brazed, because the temperature required is high enough to cause oxidation of the copper unless an inert atmosphere is provided. The flow of dry nitrogen should continue until the joint has cooled. Always use a pressure regulator and safety valve to insure that only low pressure dry nitrogen is introduced into the tubing. Only a small flow is necessary to displace air and prevent oxidation.

PRECAUTIONS DURING BRAZING SERVICE VALVE

Precautions should be taken to prevent heat damage to service valve by wrapping a wet rag around it as shown in Figure 4. Also, protect all painted surfaces, insulation, and plastic base during brazing. After braz- ing, cool joint with wet rag.

This is not a backseating valve. The service access port has a valve core. Opening or closing valve does not close service access port.

If the valve stem is backed out past the chamfered retaining wall, the O-ring can be damaged causing leakage or system pressure could force the valve stem out of the valve body possibly causing personal injury.

Valve can be opened by removing the plunger cap and fully inserting a hex wrench into the stem and backing out counter-clockwise until valve stem just touches the chamfered retaining wall.

Johnson Controls Unitary Products

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Contents List of Tables Section II SafetyList of Sections List of FiguresSection III Unit Installation Liquid Line FILTER-DRIER Precautions During Line InstallationPrecautions During Brazing of Lines Precautions During Brazing Service ValveTions During Brazing Service Valve Section IV Orifice InstallationSection V TXV Installations Section VI EvacuationSection VII System Charge Subcooling Charging Method TXV Indoor Field Connections Power WiringSection Viii Electrical Connections Superheat Charging Method Piston IndoorField Connections Control Wiring PSC Single Stage AIR Handler AIR Conditioner AC 1AThermostat ID ModelsPSC Single Stage AIR AIR Handler Conditioner AC 1BPSC Single Stage AIR Furnace AIR Conditioner AC 5AAC 5B Single Stage PSC FurnaceSingle Stage AIR Conditioner Section IX Instructing the Owner MaintenanceSection X Wiring Diagram UIM-B-0513 Air Conditioning and Heating Start-Up Sheet Section XI Start UP SheetCool Adjust

13 SEER - GCGD specifications

Johnson Controls has long been recognized as a leader in the HVAC industry, and their 13 SEER - GCGD model encapsulates the company's commitment to energy efficiency, innovation, and user comfort. The GCGD, designed for residential applications, offers a balanced combination of performance and value, making it an excellent choice for homeowners looking to enhance their indoor environment.

One of the standout features of the 13 SEER - GCGD is its Seasonal Energy Efficiency Ratio (SEER) rating of 13, which categorizes it as an energy-efficient cooling system. This rating translates to substantial energy savings when compared to older, less efficient units, allowing users to reduce both their environmental impact and utility bills. Moreover, this unit is designed to perform efficiently in a variety of weather conditions, ensuring reliable cooling throughout the peak summer months.

At the heart of the GCGD is its advanced scroll compressor, known for its quiet operation and durability. This technology minimizes noise disturbances while efficiently compressing the refrigerant to optimize cooling performance. Additionally, the unit incorporates a compact design, allowing for easier installation in tight spaces, making it suitable for various residential settings.

Another significant characteristic of the GCGD is its use of high-quality components, including a robust cabinet construction designed to withstand the elements. This ensures long-term reliability and protection against outdoor conditions, thus extending the lifespan of the unit. The use of corrosion-resistant materials further enhances durability, reducing maintenance needs and costs over time.

The GCGD also features user-friendly controls, which enable homeowners to easily set their desired temperature and operating mode. Optional smart thermostats can be integrated, providing advanced control and energy management solutions that cater to modern lifestyle requirements. This compatibility with smart technology aligns with the growing trend towards home automation, allowing homeowners to manage their comfort efficiently.

In summary, Johnson Controls' 13 SEER - GCGD model offers an appealing solution for those in search of an energy-efficient and reliable air conditioning system. With its optimal SEER rating, advanced compressor technology, robust construction, and user-friendly design, the GCGD stands out as a practical choice for households looking to enhance their cooling capability while being mindful of energy consumption. This model not only promises comfort but also contributes positively to a sustainable future.