USING R-134a REFRIGERANT
Note. Always refer to underhood A/C specification label in engine compartment or A/C compressor label while servicing A/C system. If engine compartment/compressor label specifications differ from specifications in this article, use underhood/compressor label specifications.
REFRIGERANT OIL & REFRIGERANT CAPACITY SPECIFICATIONS
| Application (1) | (2) Oil Ounces | Refrigerant Ounces | |
|---|---|---|---|
| "C" Body | (3) 9.0 | 32.0 | |
| "E" & "K" Bodies | (3) 8.0 | 32.0 | |
| "F" Body | |||
| 3.8L V6 | (3) 8.0 | 26.1 | |
| 5.7L V8 | (3) 8.0 | 32.0 | |
| "G" Body | |||
| With HD6/HT6 Compressor | (3) 8.0 | 32.0 | |
| With V5 Compressor | (3) 9.0 | 32.0 | |
| "H" Body | (3) 8.0 | 32.0 | |
| "J" Body | (3) 9.0 | 24.0 | |
| "L/N" Body | (3) 9.0 | 36.0 | |
| "V" Body | (3) 9.0 | 32.1 | |
| "W" Body | (3) 8.0 | 32.0 | |
| "Y" Body | (3) 8.5 | 32.0 | |
| "Z" Body (Saturn) | (4) 5.0 | 24.0 | |
| (1) Body codes determined by fourth character of VIN code. (2) Total system capacity, unless otherwise noted. (3) Use PAG Oil (Part No. 12345923). (4) Use Saturn PAG oil. | |||
| (1) | Body codes determined by fourth character of VIN code. |
| (2) | Total system capacity, unless otherwise noted. |
| (3) | Use PAG Oil (Part No. 12345923). |
| (4) | Use Saturn PAG oil. |
REFRIGERANT OIL & REFRIGERANT CAPACITY SPECIFICATIONS
HANDLING/SAFETY PRECAUTIONS
- Always work in a well-ventilated, clean area. Refrigerant is colorless and invisible as a gas. Refrigerant is heavier than oxygen and will displace oxygen in a confined area. Avoid breathing refrigerant vapors. Exposure may irritate eyes, nose and throat.
- Always wear eye protection when working around A/C system and refrigerant. The system's high pressure can cause severe injury to eyes and skin if a hose were to burst. If necessary, wear rubber gloves or other protective clothing.
- Refrigerant evaporates quickly when exposed to atmosphere, freezing anything it contacts. If liquid refrigerant contacts eyes or skin (frostbite), DO NOT rub eyes or skin. Immediately flush affected area with cool water for 15 minutes and consult a doctor or hospital.
- Never use R-134a in combination with compressed air for leak testing. Pressurized R-134a in the presence of oxygen (air concentrations greater than 60 percent by volume) may form a combustible mixture. DO NOT introduce compressed air into R-134a containers (full or empty), A/C system components, or service equipment.
- DO NOT expose A/C system components to high temperatures (steam cleaning for example), as excessive heat will cause refrigerant system pressure to increase. Never expose refrigerant directly to open flame. If refrigerant needs to be warmed, place bottom of refrigerant tank in warm water. Water temperature MUST NOT exceed 125°F (52°C). WARNING: When R-134a is exposed to an open flame, drawn into engine, or detected with a Halide (propane) leak tester, a poisonous gas is formed. Keep work areas well ventilated.
- Use care when handling refrigerant containers. DO NOT drop, strike, puncture, or incinerate containers. Use Department Of Transportation (DOT) approved (DOT 4BW or DOT 4BA) refrigerant containers.
- Never overfill refrigerant containers. The safe filling level of a refrigerant container MUST NOT exceed 60% of the container's gross weight rating. Store refrigerant containers at temperatures less than 125°F (52°C).
- R-134a refrigerant is sold and stored in 30- or 50-pound Light Blue containers, while Freon (R-12) is stored in White colored containers.
- Refrigerant R-12 and R-134a must never be mixed, as they and their desiccants and lubricants are not compatible. If the refrigerants are mixed, system cross-contamination or A/C system component failure may occur. Always use separate servicing and refrigerant recovery/recycling equipment.
- Read and follow equipment manufacturer's instructions for all service equipment to be used. The Material Safety Data Sheet (MSDS), provided by refrigerant manufacturer/supplier, contains valuable information regarding the safe handling of refrigerants.
IDENTIFYING R-134a SYSTEMS & COMPONENTS
To prevent refrigerant cross-contamination, use following methods to identify R-134a based systems and components
Fittings & "O" Rings
All R-134a based A/C systems use 1/2" - 16 ACME threaded fittings (identifiable by square threads) and quick-connect service ports. (Scheme 1)
Scheme 1
Underhood A/C Specification Labels
Most R-134a based systems will be identified through the use of underhood labels with R-134a refrigerant clearly printed on labels. (Scheme 2) Most manufacturers will identify refrigerant type with labels affixed to compressor. Before servicing an A/C system, always determine which refrigerant is being used.
Scheme 2
REFRIGERANT OILS
| CAUTION | Use ONLY the specified oil for the appropriate system or A/C compressor. Always check the underhood A/C specification label or A/C compressor label before adding refrigerant oil to A/C compressor/system. |
Refrigerant R-12 based systems use mineral oil, while R-134a systems use synthetic Polyalkylene Glycol (PAG) oils. Using a mineral oil based lubricant with R-134a will result in A/C compressor failure due to lack of proper lubrication. See the REFRIGERANT OIL APPLICATION table for specific refrigerant oil applications.
Note. Synthetic/PAG oil absorbs moisture very rapidly, 2.3-5.6 percent by weight as compared to a mineral oil absorption rate of .005 percent by weight.
| Application | Refrigerant Oil |
|---|---|
| Saturn | Saturn PAG Refrigerant Oil |
| All Other Models | PAG Refrigerant Oil Part No. 12345923) |
REFRIGERANT OIL APPLICATION
SCHRADER-TYPE VALVES
| CAUTION | Although similar in construction and operation to a tire valve, NEVER replace a Schrader-type valve with a tire valve. |
Schrader valve is similar in construction and operation to a tire valve. (Scheme 3) When a test gauge hose is attached (hose has built-in valve core depressor), Schrader stem is pushed inward to the open position and allows system pressure to reach the gauge.
If test hose being used does not have a built-in core depressor, an adapter must be used. Never attach hoses or adapters to a Schrader valve unless it is first connected to manifold gauge set.
Schrader Service Valve (Compressor Location Shown). Scheme 3
SPECIAL VALVE CONNECTORS
On some models, thread size on high-side service valve (3/8" - 24 threads) is different from thread size on low-side service valve (7/16" - 20 threads). Special adapters are required to make this connection. (Scheme 4) These adapters are available in 45-degree and 90-degree angles in addition to straight-fixed and flexible adapters.
Flexible High Side Adapter. Scheme 4
R-134a SERVICE VALVES/PORTS
All vehicles with R-134a refrigerant use quick-disconnect service valves/ports. All R-134a systems use quick-disconnect fittings with sealing caps that thread into inside of service port instead of onto outside of service port.
The high side uses a large service port, and the low side uses a small service port. (Scheme 1) The R-134a service ports have internal metric threads to help prevent the accidental connection of R-12 servicing equipment.
There are 2 types of quick-disconnect service couplings which can be used on R-134a systems. One type of service coupling depresses service port valve when connection is made. The other type connects onto service port but will not depress service port valve until a knob is rotated. (Scheme 5)
Scheme 5
SERVICE VALVE LOCATIONS
For service valve locations, see the SERVICE VALVE LOCATIONS table.
| Vehicle | High | Low |
|---|---|---|
| "C" Body | (4) | (5) |
| "E" & "K" Bodies | (1) | (3) |
| "F" Body | (1) | (2) |
| "G" Body | (1) | (2) |
| "H" Body | (1) | (2) |
| "J" Body | (1) | (2) |
| "N" Body | (1) | (2) |
| "V" Body | (1) | (2) |
| "W" Body | (1) | (2) |
| "Y" Body | (1) | (2) |
| "Z" Body | (1) | (2) |
| (1) In discharge (high pressure) line, near condenser. (2) In suction (low pressure) line. (3) On accumulator-drier or filter-drier. (4) High side service valve is located between orifice tube and evaporator. (5) Low side service valve is located between orifice tube and condenser. | ||
| (1) | In discharge (high pressure) line, near condenser. |
| (2) | In suction (low pressure) line. |
| (3) | On accumulator-drier or filter-drier. |
| (4) | High side service valve is located between orifice tube and evaporator. |
| (5) | Low side service valve is located between orifice tube and condenser. |
SERVICE VALVE LOCATIONS
SERVICE EQUIPMENT
Because R-134a is not interchangeable with R-12, separate sets of hoses, gauges and recovery/recycling equipment are required to service vehicles. This is necessary to avoid cross-contamination and damaging system.
All equipment used to service systems using R-134a must meet SAE standard J1991. The service hoses on the manifold gauge set must have manual (turn wheel) or automatic back-flow valves at the service port connector ends. This will prevent refrigerant from being released into the atmosphere.
For identification purposes, R-134a service hoses must have a Black stripe along their length and be clearly labeled SAE J2196/134a. The low pressure test hose is Blue with a Black stripe. The high pressure test hose is Red with a Black stripe. The center test hose is Yellow with a Black stripe.
Note. Refrigerant R-12 service hoses will ONLY be labeled SAE J2196.
All R-134a manifold gauge sets can be identified by one or all of the following
- Labeled FOR USE WITH R-134a on set.
- Labeled HFC-134 or R-134a on gauge face.
- Light Blue color on gauge face.
In addition, pressure/temperature scales on R-134a gauge sets are different from R-12 manifold gauge sets.
MANIFOLD GAUGE SET
A manifold gauge set is used to determine system's high-side and low-side pressures, correct refrigerant charge, system diagnosis and operating efficiency. High (discharge) and low (suction) pressures must be compared to determine system operation. Manifold gauge sets for the 2 refrigerant types are basically the same except for fittings at ends of hoses. Fittings are different to ensure connection only to appropriate refrigerant system.
Low-Side Gauge
Low-side gauge, which may have a Blue identifying feature, is used to measure low-side (suction) pressure. Low-side gauge is also called a compound gauge because it can measure pressure and vacuum. Pressure scale ranges from 0 to 150 psi; vacuum scale ranges from 0 to 30 in. Hg.
High-Side Gauge
High-side gauge, which may have a Red identifying feature, is used to measure high-side (discharge) pressure. Gauge scale ranges from 0 to 500 psi.
CONNECTING GAUGE SET
Note. R-134a quick disconnect service couplings are connected in the same sequence as Schrader-type service valves.
- Put on safety goggles, and cover vehicle's fender. Slowly remove protective caps from Schrader valves to check for leaky valves. CAUTION: Ensure hand valves on manifold gauge set and the hose-end shutoff valves are closed before attaching test hoses to Schrader valves.
- Ensure service hoses are equipped with valve core depressor to match Schrader valve. If not, install special adapters for this purpose. If the high-side service hose connector will not fit on high-side Schrader valve, a special adapter must be used. See «SPECIAL VALVE CONNECTORS»(/cadillac/eldorado/x-1992-2002/remont/general-servicing-all-makes/#hvac-system-general-servicing__special-valve-connectors) .
- Ensure both manifold gauge hand valves are closed. Connect low-side service hose to low-side (suction) service valve, and finger tighten connections. Connect high-side service hose to high-side (discharge) service valve, and finger tighten connections.
Note. After test gauges are installed, test hoses must be purged of all air before proceeding with testing.
PURGING TEST HOSES
- Ensure high-side and low-side hoses are properly connected to service valves, and all hose connections are tight. Place a clean shop towel over end of center service hose.
- Purge high-side test hose by opening hand valve on high-side gauge for 3-5 seconds. This allows system's refrigerant to force air through test hoses and out of center service hose into the shop towel. Immediately close high-side gauge hand valve.
- Purge low-side test hose in the same manner using hand valve of low-side gauge. Close hand valve after 3-5 seconds. Purging of test hoses is now complete, and system is ready for testing.
Note. If manifold gauge set is to be used in conjunction with refrigerant recovery/recycling equipment, use instructions provided with the recovery/recycling equipment to properly purge test hoses.
STABILIZING A/C SYSTEM
- Once manifold gauge set is attached to system and test hoses have been purged, system is ready for testing. Place all test hoses, gauge set and other equipment away from all moving parts of engine.
- Start engine, and turn A/C controls to maximum cooling position (full cold or MAX A/C). Set blower fan on high speed. Open doors and/or windows. Operate system for 5-10 minutes. System should now be stabilized and ready for test readings.
PRESSURE-TEMPERATURE RELATIONSHIP
A refrigerant, when confined in an enclosed space, increases in pressure as the temperature increases. Conversely, if the temperature is lowered, the pressure also decreases.
Depending on temperature, a corresponding pressure will exist in such an enclosed space. For example, at 70°F (21.1°C) a gauge will indicate about 71.0 psi (5.0 kg/cm 2 ). The R-134a PRESSURE-TEMPERATURE RELATIONSHIP table shows this relationship.
| Temperature °F (°C) | (1) psi (kg/cm 2 ) |
|---|---|
| 20 (-6.7) | 18 (1.3) |
| 30 (-1.1) | 26 (1.8) |
| 40 (4.4) | 35 (2.5) |
| 45 (7.2) | 40 (2.8) |
| 50 (10.0) | 45 (3.2) |
| 55 (12.8) | 51 (3.6) |
| 60 (15.6) | 57 (4.0) |
| 65 (18.3) | 64 (4.5) |
| 70 (21.1) | 71 (5.0) |
| 75 (23.9) | 79 (5.6) |
| 80 (26.7) | 87 (6.1) |
| 85 (29.4) | 95 (6.7) |
| 90 (32.2) | 104 (7.3) |
| 95 (35.0) | 114 (8.0) |
| 100 (37.8) | 124 (8.7) |
| 110 (43.3) | 147 (10.3) |
| 120 (48.9) | 171 (12.0) |
| 130 (54.4) | 199 (14.0) |
| 140 (60.0) | 229 (16.1) |
| 150 (65.6) | 263 (18.5) |
| 160 (71.1) | 300 (21.1) |
| (1) Pressure readings are provided as a general guideline and may not represent actual readings. | |
| (1) | Pressure readings are provided as a general guideline and may not represent actual readings. |
R-134a PRESSURE-TEMPERATURE RELATIONSHIP
PRESSURE GAUGE READINGS
The pressure gauge readings used represent an expansion valve type system using a Nippondenso 10-cylinder compressor. (Scheme 6)-14. Gauge indications will vary depending on system configuration and compressor application.
Temperature and humidity, as well as other factors, affect pressure gauge readings. Compared to R-12 systems, pressure readings on R-134a systems are generally lower for low-side pressure and higher for high-side pressure. Pressure gauge readings should be used only as a guide.
Normally Functioning R-134a A/C System. Scheme 6
Some Moisture In R-134a System. Scheme 7
Low R-134a Charge. Scheme 8
Poor R-134a Refrigerant Circulation. Scheme 9
No R-134a Refrigerant Circulation. Scheme 10
Insufficient Cooling Of Condenser Or R-134a Refrigerant Overcharge. Scheme 11
Air In R-134a System. Scheme 12
Expansion Valve Improperly Mounted Or Heat Sensing Tube Defective (Opening Too Wide). Scheme 13
Compressor Malfunction. Scheme 14
Removal
- Locate orifice tube. See «ORIFICE TUBE LOCATION & REMOVER/INSTALLER APPLICATION»(/cadillac/eldorado/x-1992-2002/remont/general-servicing-all-makes/#hvac-system-general-servicing) table. Discharge A/C system, using approved recovery/recycling equipment. Disconnect liquid line at evaporator inlet.
- Remove orifice tube, and disconnect liquid line at evaporator and/or condenser. Remove orifice tube using needle-nose pliers or orifice tube remover.
- If difficulty is encountered during removal of a plugged or restricted orifice tube, remove as much residue as possible. Using a heat gun, carefully heat inlet pipe. If inlet pipe has small dimples, apply heat 1/4" from dimples. Be careful not to overheat pipe. NOTE: If system has a pressure switch near orifice tube location, remove switch before heating inlet pipe to avoid damaging switch.
- While heat is being applied, install orifice tube extractor. Use a turning motion along with a push or pull motion to loosen and remove orifice tube.
Note. On some models, it may be necessary to use Dual "O" Ring Joint Separator (J-38042) to hold refrigerant line nut while loosening or tightening fitting.
Installation
- To install orifice tube, coat inside of inlet pipe with refrigerant oil. Lubricate new orifice tube and "O" ring with refrigerant oil and insert them into inlet pipe.
- Install orifice tube with shorter screen end first (toward evaporator). To complete installation, reverse removal procedure. Evacuate, charge and test system for proper operation.
| Application | Orifice Tube Location | Orifice Tube Remover/Installer |
|---|---|---|
| "C" Body | (1) | J-26549-D |
| "E" & "K" Bodies | Evaporator | J-26549-D |
| "G" Body | (2) | J-26549-E |
| "H" Body | Condenser | J-26549-E |
| "J" Body | Condenser | J-26549-89 |
| "W" Body | Evaporator | J-26549-E |
| (1) In condenser-to-evaporator core refrigerant lines, near support clamp or high-side service valve. (2) Inside evaporator inlet refrigerant line where it connects to the condenser outlet. | ||
| (1) | In condenser-to-evaporator core refrigerant lines, near support clamp or high-side service valve. |
| (2) | Inside evaporator inlet refrigerant line where it connects to the condenser outlet. |
ORIFICE TUBE LOCATION & REMOVER/INSTALLER APPLICATION
REFRIGERANT RECOVERY/RECYCLING
Refrigerant recovery/recycling equipment is used to remove refrigerant from vehicle's A/C system without polluting atmosphere. To remove and recycle refrigerant, ALWAYS follow instructions provided with the refrigerant recovery/recycling equipment being used.
The removed refrigerant is filtered, dried and stored in a tank within the recovery/recycling equipment until it is ready to be pumped back into the vehicle's A/C system.
| CAUTION | Separate sets of hoses, gauges and refrigerant recovery/recycling equipment MUST be used for R-12 and R-134a systems. DO NOT mix R-12 and R-134a refrigerants, as their refrigerant oils and desiccants are NOT compatible. |
- Ensure A/C Refrigerant Recovery, Recycling And Recharging (ACR4) System (J-39500) is not plugged into wall socket. Close both valves on manifold gauge set. Connect manifold gauge set to high-side (Red hose) and low-side (Blue hose) to A/C system fitting using quick disconnect couplers. See «SERVICE VALVE LOCATIONS»(/cadillac/eldorado/x-1992-2002/remont/general-servicing-all-makes/#hvac-system-general-servicing__service-valve-locations) under SYSTEM SERVICE VALVES. Open coupler valves and check high-side and low-side gauges. If there is no pressure in the system, the system is empty. NOTE: If A/C system is empty, do not continue recovery operation. Air will be drawn into recovery tank and contaminate recovered refrigerant.
- Open both high-side and low-side valves on control panel of ACR4 system. Open both Red and Blue valves on recovery tank. Slowly open oil drain valve and allow any oil in oil separator to drain into catch bottle. Empty catch bottle.
- Plug ACR4 into wall socket and turn MAIN POWER switch to ON position. Start engine. Turn A/C on for about 2 minutes to stabilize system. Turn ignition off. Connect a battery charger to vehicle battery. Turn ignition to RUN position. Turn blower motor to HIGH, which will increase refrigerant recovery rate.
- Press RECOVER button on ACR4 keypad to begin refrigerant recovery. Before recovery begins ACR4 will clear itself of refrigerant. CL-L will be displayed and after 30-180 seconds, recovery will begin. Keep blower motor in HIGH until automatic recovery process is complete.
- When ACR4 clearing is complete, recovery will begin. RECOVER mode of AUTOMATIC cycle will be indicated along with weight of refrigerant recovered. ACR4 compressor will shut off when initial recovery has occurred, at approximately 17 in. Hg. vacuum. When initial recovery process is completed, CPL and then OIL/OZ (OIL/GMS) will be alternately displayed. NOTE: OIL/OZ (OIL/GMS) will be displayed as a reminder to check oil separator catch bottle for oil removed from system. It is important to replace any oil removed with the same amount of NEW oil.
- Wait 5 minutes. Check ACR4 control panel low side gauge. If A/C system has maintained a vacuum, recovery is complete. If low side gauge pressure is greater than zero, system contains more refrigerant. If low side pressure is greater than zero, press HOLD/CONT button on control panel to recover additional refrigerant. Repeat this procedure until system maintains vacuum for at least 2 minutes.
Note. If FULL is displayed during recovery process, and ACR4 shuts off, the tank is full. Replace tank with an empty one or lower amount of refrigerant in tank by charging another vehicle.
FLUSHING A/C SYSTEM
Note. A/C system flushing or filtering should be performed to remove contaminates resulting from a compressor failure.
- Manufacturer does not recommend flushing A/C system. If system is contaminated, discharge system and install a liquid line filter between condenser and evaporator.
- Filter may be an integral part of the line, or line may need to be cut and filter installed (non-integral type). Filters may or may not contain orifice. (Scheme 15)
- Filter with orifice is installed on low pressure side of orifice tube. Remove original orifice tube if installing filter with orifice. Filter without orifice must be installed on high pressure side of orifice tube.
- To install liquid line filter, discharge A/C system using approved recovery/recycling equipment. Remove liquid line. Using a tubing cutter, cut section from liquid line to allow installation of liquid line filter. Clean all burrs, and smooth surfaces.
- Install nut over line. Install ferrule on line with small end toward nut. DO NOT install "O" ring at this time.
- Push line into fitting until it bottoms on filter assembly. Tighten nuts on each joint to 11 ft. lbs. (15 N.m). Disassemble joint assembly.
- Lubricate new "O" rings with refrigerant oil and install them on lines. Install filter assembly. Ensure arrow on filter indicates proper flow of refrigerant. Tighten nuts to 11 ft. lbs. (15 N.m). Evacuate and charge system. Check system for leaks.
Scheme 15
EVACUATING A/C SYSTEM
- To ensure ACR4 tank contains sufficient refrigerant to charge system, press RESET and ENTER buttons at the same time to enter diagnostic mode. When in diagnostic mode, press "7" button. If less than 8 lbs. (3.6 kg) is displayed add new refrigerant to tank.
- Connect high-side and low-side hoses to vehicle A/C system and open both high-side (Red) and low-side (Blue) valves on ACR4 control panel. Open both Red and Blue valves on tank.
- ARC4 will begin an automatic programmed evacuation time. If a longer evacuation time is desired, enter longer time and press ENTER button. Display will begin to blink, indicating data input. Press VACUUM button to activate vacuum pump. Time display will count down from 15 minutes to zero, indicating operating time remaining. RECYCLE will display 5 seconds after pump activates and will continue until process is complete. NOTE: A pressure release sound may be heard as non-condensable gases, such as air, are automatically vented from tank during recycling process. MOISTURE INDICATOR must be Green during recycling process, verifying refrigerant moisture content is within specification. Yellow indicates a wet condition, requiring ACR4 filter/drier cartridge replacement.
- After vacuum pump has been running for about 3 minutes (12 minutes run time remaining), press HOLD/CONT button to stop vacuum pump. If vacuum pressure is zero, there is a system leak. Repair leak and begin evacuation procedure again. If vacuum pressure is 27-30 in. Hg., close low-side and high-side valves and watch vacuum pressure for a possible leak. If vacuum is not maintained, find and replace A/C system leak.
- If vacuum pressure is maintained at 27-30 in. Hg., open high-side and low-side valve and press HOLD/CONT button to restart vacuum pump. When vacuum sequence is completed, CPL will be displayed indicating evacuation is complete.
Note. Every 10 hours of operation vacuum pump oil must be changed. If OIL warning light flashes during operation, press CONT button and change oil before next operation.
CHARGING A/C SYSTEM
Note. Ensure LB/KG switch on the back of the ACR4 unit is set for desired refrigerant measurement unit (pounds or kilograms). Operate switch with main power off.
- Ensure engine is off. With ACR4 connected (from evacuation procedure), close low-side valve on ACR4 control panel. Open high-side valve on ACR4 control panel. Press CHG button and enter amount of refrigerant charge specified. When entering amount of refrigerant, ensure correct unit of weight is used. See «REFRIGERANT OIL & REFRIGERANT CAPACITY SPECIFICATIONS»(/cadillac/eldorado/x-1992-2002/remont/general-servicing-all-makes/#hvac-system-general-servicing) for system capacities.
- After entering specified amount of refrigerant, press ENTER button. Display will blink indicating charge amount is in ACR4 memory. Press CHG button to begin charging process. ACR4 will display AUTOMATIC and show amount of refrigerant programmed for charging. Display will count down to zero until CPL is displayed indicating process is completed. If charging process is successful, go to next step. If charging process stops before system charge is complete, go to step 5).
- Close ACR4 high-side valve on control panel (both valves should be closed). Start engine, turn A/C system on and run until high-side and low-side gauges stabilize. Ensure high-side and low-side pressures are within specification. Ensure evaporator outlet temperatures are within specifications.
- With A/C running, close high-side coupler valve and disconnect high-side hose from vehicle. Open both high-side and low-side valves on ACR4 control panel. Refrigerant from both hoses will be drawn into A/C system through low-side hose. Close low-side coupler valve and disconnect from vehicle. Ensure proper A/C system operation.
- Charging process will stop before system charge is complete. If refrigerant tank pressure and A/C system pressure are about the same, ACR4 will emit an audible signal and display amount of refrigerant remaining to be transferred. If this occurs, go to next step. If charging process will not complete and CHECK REFRIGERANT is displayed, there is not enough refrigerant to complete process. If this occurs, go to step 7).
- Close high-side valve and open low-side valve. With engine running, start A/C system and press HOLD/CONT button. Reminder of refrigerant should go into A/C system. When charging process is complete, go to step 3).
- Press HOLD/CONT button to interrupt cycle. Press RESET button to reset ACR4. Recover refrigerant that has been charged into system. Fill refrigerant tank, evacuate and charge A/C system. See «EVACUATING A/C SYSTEM»(/cadillac/eldorado/x-1992-2002/remont/general-servicing-all-makes/#hvac-system-general-servicing__evacuating-ac-system) and CHARGING A/C SYSTEM. Perform leak test procedure. See «LEAK TESTING»(/cadillac/eldorado/x-1992-2002/remont/general-servicing-all-makes/#hvac-system-general-servicing) .
Bubble Solution Detector
This is a solution applied externally at suspected leak points. Leaking refrigerant will cause the detector to form bubbles and foam. A soap and water solution also works well.
Dye Solution
This is a colored solution that may be introduced into the A/C system. The dye will show up and color components at leak points. Some manufacturers offer refrigerant containing a Red dye. This dye-containing refrigerant is installed by normal charging procedures. Other dye solutions are visible with a Black light only.
Electronic Detector
This instrument will draw in any leaking refrigerant through a test probe, and then sound an alarm or create a flashing light if refrigerant is found. It is the most sensitive of the leak detectors used. (Scheme 16)
Electronic Leak Detector. Scheme 16
PREPARATION FOR LEAK TESTING
Connect manifold gauge set to air conditioning system. Ensure low-side and high-side gauge set valves are closed. Check system pressure. It should be at least 50 psi (3.5 kg/cm 2 ). If low, add just enough refrigerant to bring system to 50 psi (3.5 kg/cm 2 ).
Ensure all joints, connections, and fittings are free of oil dirt and other contaminants. Using a refrigerant leak detector, check all refrigerant line connections for leaks. Check condenser and compressor seal area.
Refrigerants are heavier than air. Always check for leaks at bottom of refrigerant lines and components. Refrigerant oil will leak with refrigerant. Visually check all connections and compressor clutch area for oil stains. If compressor shaft seal is leaking, a fresh oil streak will normally be seen on underside of hood, above compressor clutch.
Always perform leak testing after A/C service. Move refrigerant leak detector slowly to check for leaks, as leaks will not be detected if leak testing is performed too quickly.
BUBBLE DETECTOR LEAK TESTING PROCEDURE
This leak detection method is recommended when it is impossible or difficult to determine the exact location of the leak using other methods. Although commercial bubble detectors are more effective, household soap solutions may be used.
Using the dauber that comes with the commercial soap solution, apply the solution to all joints, connections, fittings or controls where a leak might be suspected. If high-suds household solutions are used, apply them with a small brush. Wherever bubbles form, leaks are present and must be repaired. check the entire system as there may be more than one leak.
ELECTRONIC LEAK TESTING PROCEDURE
Note. Some electronic leak detectors will function on only R-12 systems or on only R-134a systems, and some will function on both R-12 and R-134a systems. Familiarize yourself with the tester being used and know what type of system you are leak testing.
Electronic leak detectors should be used in well ventilated areas. Avoid using them around explosive gases. Always follow manufacturer's instructions for the specific tester being used. If none are available, proceed as follows
- Turn all controls and the sensitivity knob to the OFF position or zero setting. Plug the leak detector into an approved source of voltage if not battery operated. Turn the switch ON, and allow the unit to warm up for approximately 5 minutes.
- Check operation of tester by positioning the probe in a reference source where refrigerant is known to be present in small amounts. Adjust controls and sensitivity knob until detector reacts properly. Move probe away from refrigerant source and the reaction should stop. If it continues, adjust the sensitivity knob to a lower setting.
- When tester reacts properly, leak test air conditioning system by moving probe under all components, fittings and connections. Keep the probe moving. DO NOT hold it in constant contact with refrigerant. When leaks are found, repair them as necessary. Keep in mind that there may be more than one leak.
DYE SOLUTION LEAK TESTING PROCEDURES
| CAUTION | Dye-charged refrigerant cans are available to be used as internal leak detectors. The use of this type of solution may void some manufacturer's warranties. Be sure to check with the A/C system manufacturer concerning the use of dye-charged leak detectors. Dyes which work in R-12 systems will not work in R-134a systems. |
The following procedure is for introducing a dye solution, not dye-charged refrigerant, into the air conditioning system.
- Connect manifold gauge set to air conditioning system in a normal manner. Remove center hose from manifold gauge set, and replace it with a short piece (6" long) of 1/4" tubing using two 1/4" flare nuts. Connect a container of dye solution to the tubing.
- Connect one end of the gauge set's center hose to the dye solution. Connect a container of refrigerant to the other end of the hose. Operate the engine at idle speed. Set the air conditioning system for maximum cooling. Slowly open the low-side hand valve to allow the dye solution to enter the system.
- Charge the system to at least 50% capacity. Operate the system for 15 minutes, and then shut off both the air conditioning system and the engine. Check all connections for signs of the colored dye solution. Check the vehicle again 24 hours later. If leaks are found, repair as necessary.