A/C Sytem Complete Overhaul - What Upgrades are Available?

1200gt

Active Member
Nov 29, 1999
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I got my 86 Gt pulled apart down to the front of the block; even got fenders off and ALL interior torn out except the dash, so now I can access everything. BTW, it only had 45K original miles on it.

I decided to overhaul this A/C completely (everything new) being that the car has been in storage for a loooooong time! Besides that, the system has been empty for as many years of the R12.

I do plan on throwing in another motor down the road, but wanted to get back in the seat with this motor to keep up my enthusiasim. I don't think that will effect anything though. LMK?

WHAT UPGRADES CAN I DO TO THIS A/C OVERHAUL?

* Can I use some stuff from later models for future ease of maintenance?
* Conversion is a must, but whats a good method?
* The lines are the old clip style - I would love to find a way to use the modern couplers style.
* Drier and main line are one piece - don't like that...
* Need to pull the DASH back - this is a bit scary for me as I don't want to pull something apart and forget it during the re-install
* Whatever else I might run into...
 
the stock ac stuff is actually very good but keep in mind there are two systems dealer and factory installed. the biggest difference is the ac compressor and the accumulator with the suction line. also all that is really needed for the r12-> r134 swap is the connectors for the high and low pressure port and the correct oil for the system because ALL lines are built to except both r12 and r134 though i believe r134 has a higher head pressure.
 
Yes 134a has high head pressures, you also will need a fan for the condenser, ie electric fan capable of running when the compressed does through a relay. The factory clutch fan will not cut it in my opinion
 
David, thanks for the reply. I'm at home today so I can jump in quickly....

Two manufactueres meaning one produces preferd qulity stuff over the other? I figured the stock stuff was pretty good.

That Accumulater with Suction line was somthing I was hoping could be swapped-out for maybe a two piece set-up from a later model - I don't even know if anything exist to swap, just feeling out there to see...

I think I need special clip removers to get the old lines apart, is that correct???
 
Yes 134a has high head pressures, you also will need a fan for the condenser, ie electric fan capable of running when the compressed does through a relay. The factory clutch fan will not cut it in my opinion

This is good to know because I happen to have two efans in my storage, but not sure how I would intergrate it into the current A/C setup?
 
This is good to know because I happen to have two efans in my storage, but not sure how I would intergrate it into the current A/C setup?
Using a relay, when the compressed pulls in to run you would just make another set of contacts on the fan relay. They actually make electric fan controls with inputs for an adjustable temp sensor and ac clutch inputs.
http://www.summitracing.com/parts/flx-31149/overview/
Something like this would be everything you need to properly integrate this setup. I'm sure there is a less expensive option but this is the first one I cam across so you can get an idea of what I mean.
You always could wire this up with just relays but you would have to get crafty..
 
Using a relay, when the compressed pulls in to run you would just make another set of contacts on the fan relay. They actually make electric fan controls with inputs for an adjustable temp sensor and ac clutch inputs.
http://www.summitracing.com/parts/flx-31149/overview/
Something like this would be everything you need to properly integrate this setup. I'm sure there is a less expensive option but this is the first one I cam across so you can get an idea of what I mean.
You always could wire this up with just relays but you would have to get crafty..

Thanks for the link. I put it in my favorites for reference.

I think last night I ran accross a setup tha has a dial-in controller that sits atop the radiator, where you can adjust the kick-in base on the thermostat temperature setting. I'll have to research it again.

Would I use that in conjuction with my efan that happens to be an OEM piece from a late model pony? I'm thinking I would use two fans, one in the pull mode on the front side of the condensor???
 
The original R12 lines and hoses were never intended to contain R134. Over time, they tend to leak down. There are a few conversion kits out there. LRS I think, markets one of them.
 
The original R12 lines and hoses were never intended to contain R134. Over time, they tend to leak down. There are a few conversion kits out there. LRS I think, markets one of them.

Thanks for this lead, going there now to take a look.

I'm compiling all of this info. - keep it comin.

I plan to pull the trigger on this fix right away, so I can start re-assembling things.
 
David, thanks for the reply. I'm at home today so I can jump in quickly....

Two manufactueres meaning one produces preferd qulity stuff over the other? I figured the stock stuff was pretty good.

That Accumulater with Suction line was somthing I was hoping could be swapped-out for maybe a two piece set-up from a later model - I don't even know if anything exist to swap, just feeling out there to see...

I think I need special clip removers to get the old lines apart, is that correct???

There are many ac manufacturers that make quality parts such as 4 seasons

what i meant is that there were two option back in the day a kit that the dealer installed (ie dealer installed) and factory installed ac (installed on the assembly line).

there is nothing wrong with the factory or dealer systems as fare as maintenance and serviceability is concerned.

also all of the new ac systems build today will be able to handle r134a with out issues.
 
Thanks David, going to research both my 86 and then maybe a 93 for parts compatibility. I guess the accumulator and suction hose is one piece of most year era stangs. I was looking at a pic of a restobuild on here and noticed a routing difference in theline but still one piece.
 
The stock system can be converted to R134 with only the addition of a new suction line/accumulator.
No external fan for the condenser is needed with R134 conversion. I lived in Orlando Fl for 10 years with factory A/C & a R134 conversion and never had any problems.


R134a Air Conditioner Conversion and recharge instructions


Revised 23-June-2012 to include green R134 compatible O rings used for O ring replacement and R12 charge instructions

Color Legend:
R134 specific items and instructions are in red text
Freeze 12 specific items instructions are in indigo text
Note: R12 is available on eBay. Use the Freeze 12 instructions except use the R12 36 oz refrigerant charge with R12 refrigerant
Items and instructions common to both R134 and Freeze 12 are in black text


Tools and materials you will need:

Gauge set for recharging = $20-$120 – check out the pawn shops for a bargain before you pay retail.
See Harbor Freight Tools for an inexpensive gauge set.

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Vacuum pump – I use an old refrigerator compressor = $20- $40 at used appliance stores, or go to the Dump and get one for free. Be sure to have some R12 compatible oil handy to keep it lubed up properly.
vacuum-pump1-jpg.44395


O ring seal kit = $8.

Replacement accumulator/dryer assembly with hose $55-$75


Alternative refrigerant – Freeze 12 – it will allow you to skip flushing the system and reuse the original accumulator/dryer under certain conditions:
1.) If the A/C system has not been open to air for more than an hour or so.
2.) Or if it hasn’t out of refrigerant for more than 5-7 days and the system is till sealed up with no open or disconnected lines.
If either of the above is not true, you must replace the accumulator/dryer assembly.

Freeze 12 refrigerant: $15-$16 per 12 Oz can on eBay. Get 3 cans, 2 for the initial charge and 1 spare for a top off charge.
Use R12 compatible mineral oil, 6-8 Oz. This may be difficult to find or expensive (~$20 a quart)
Do not use PAG oil in a Freeze 12 system without flushing it first.

Freeze 12 refrigerant charge= 26-28 Oz plus 6-8 Oz R12 mineral oil on an empty system. A recharge may only require 2-4 OZ of R12 mineral oil if you only replaced a line, hose or seals.


A/C systems that have had a compressor failure must be flushed. Failure to do so will result in the floating trash left behind from the compressor failure destroying the replacement compressor.

R134a = $11-$16 a can – takes 2 cans.

R134a PAG or Ester compatible oil = $7-$12 for an 8 oz bottle .

Pump to force cleaning fluid through the system $20-$50 (may use compressed air to do the same thing).

R134a charging adapter = $13 (I cut mine up to use it with the R12 gauge set that I have had for a long time).

Plastic tools to disconnect refrigerant lines - 1/2" & 5/8" = $4 each.

Flushing agent - Discount Auto Parts has some flushing solvent in a 1 gallon plastic bottle - try that first. Or use Mineral spirits = $4-$5 a gallon, tetrachloroethylene =$5-$10 a gallon, takes 2 gallons of either one.

Miscellaneous hoses and fittings to adapt the flushing pump to the system, and the R134a adapter to the R12 gauge set = $15.


R134 Refrigerant charge is 26-28 Oz plus 6-8 Oz of PAG 100 oil.

R134 Conversion Instructions:
I did a R134a conversion on my 89GT, and used all stock parts. You will need to replace the dryer/receiver (about $75 if you get the one with the hose made as part of the unit), and should replace all of the rubber "O" ring seals as well. You will need to drain all of the oil out of the compressor and replace it with new R134a compatible oil.

R134 instructions (skip this if you use Freeze 12)
Keep in mind that to fulfill the requirements of the EPA, you are required by law to recover any refrigerant that still remains in the system. How (or wither or not) you accomplish this is up to you. Connect the charging gauge hoses to the service ports on the A/C (red gauge = high pressure, blue gauge = low pressure) and open the valves on the gauges to dump the remaining refrigerant (if any) into your "freon recovery system", whatever it may be. Disconnect the charging gauges since you are finished with them until you are ready to fill the system with R134a. Next comes the nasty part – in order to get all the old oil out of the system, you will need to flush it with special flushing solvent, or mineral spirits (ok) or tetrachloroethylene (better, but may be hard to get). If you leave the old oil in place it will congeal and reduce the heat transfer in the condenser and evaporator (read that it won’t cool good) and possibly damage the compressor.

Disconnect the compressor and remove it from its mount to flush it with cleaning solvent. Pour about a cup of solvent into the suction port and turn the compressor center hub about 10 turns while shaking the compressor to move the solvent around inside the compressor sump. Drain the flushing solvent out and continue to turn the center hub by hand to force out any remaining solvent. Then fill it with oil: add about 6-8 oz of the new oil to the compressor large suction fitting. Turn the compressor center hub about 20 turns as you turn the compressor face up and face down to distribute the new oil inside the compressor. Catch and replace any oil that comes out of the compressor.

Connect the pump (I had an electric sump pump I bought for $20) to the hose from the high-pressure side of the compressor. Alternately, you could use compressed air to force the cleaning fluid through the system. I didn’t like to do this since compressed air has lots of moisture in it, which is death to A/C systems. Pump the cleaning fluid through the system and let it come out the hose that was attached to the old dryer/receiver. I used 2 gallons of mineral spirits and pumped it all through the condenser and evaporator. The expansion valve is located near the firewall in the high-pressure line of the evaporator, and may cause the cleaning fluid to trickle through the lines at a very slow pace. You may want to pump cleaning fluid through the evaporator and condenser separately to speed up the process.


Both R134, Freeze 12 & R12
Next comes the changing of all the old "O" rings so that the chances for leaks is minimized. The new R134 compatible O rings are green colored, so be sure that the replacement O rings are green. Use the plastic connector tools to separate the lines, place the extended collar part of the tool so that it faces the large part of the connector and push inwards: this expands the spring so that you can pull the tube apart. You may need a helper to push on the tool while you pull on the tubes to separate them. Install the new "O" rings: be sure to coat them with new oil when you put them in. Install the new dryer/receiver, refrigerant service port adapter on the compressor, add about more 4oz of oil to high pressure line and tighten up all the lines. Close the hood, start the engine, let everything get warm under the hood, but don’t add the refrigerant or turn the A/C on. Connect the charging gauge hoses to the service ports on the A/C (red gauge = high pressure, blue gauge = low pressure) and open both valves, then connect the center hose to the vacuum pump. The purpose of this exercise is to heat up the system so that when you vacuum it all down (yes, you will need a vacuum pump- mine is an old refrigerator compressor), that all the air, vapor and moisture from the cleaning fluid vaporizes and is removed from the system. Vacuum it down for about 30 minutes, this should give you about 28" of vacuum or more inside the A/C system. I have a vacuum gauge "T" connected into the vacuum pump line so that I can accurately watch the vacuuming process. This is a good time to take a soda and sandwich break since it doesn’t go faster if you watch it.

the R134a service fittings on the system: the red goes on the high side and the blue on the low side. This will help others identify that a R134a conversion has been done on the system.

Typical low pressure side R134 coupling
35-16363S.jpg


Typical high pressure side R134 coupling
s35-16361s.jpg



Charging instructions for both R134, Freeze 12 & R12:
Remove the electrical connector from the dryer/receiver and jumper the two connections inside the wiring harness side of the connector together: this allows the compressor to engage in spite of low pressure/no gas in the system. Close both charging gauge valves, and then disconnect the center hose of the charging gauges from the vacuum pump and connect it to the refrigerant can tapper. Put the refrigerant can in the can tapper and screw it down with the can tapper valve closed, then open the valve. Loosen the hose at the center connection of the charging gauge set until the refrigerant squirts out: this purges the line of air and moisture. The refrigerant is added through the low pressure side of the system, so open the low pressure gauge valve to add the refrigerant. Start the car and take note of the idle speed, then set the idle speed up to about 1200-1500 rpm, and turn the A/C on inside and set the fan speed on high. Watch for the pressure on the low side to drop off as you are filling, and the refrigerant can will get warm and stay warm. This tells you the current can is empty and needs to be changed for a fresh one. Before you disconnect the can, be sure to close the valve on the refrigerant can tapper.

Watch the high side pressure on the charging gages and regulate the adding of gas to keep the high side pressure under 350 psi. You will probably need a fan in front of the car to keep the readings below 350 psi. I had to put the refrigerant can in hot water while I was charging the system with it, or else the can got so cold that it quit flowing. Use caution when you do this so that you don’t get water in the charging adapter when you change the cans. When you have added the 2 cans of gas, the high side will read about 250-300 psi and low side about 28-38 psi. Turn the idle speed back to where it was, turn the A/C off, disconnect the charging gauges, and re-install all the caps on the service ports. Remove the jumper from the low pressure switch harness and plug it back on the switch connectors.

R134 only
Then put the R134a Service Sticker on, secure all the loose wiring on the system and you are done.

The typical sticker looks like this, yours may be different.

40-81359.jpg


I hope it cools good, mine doesn’t get quite as cold as it used to driving around town.

The above technical note is for informational purposes only, and the end user is responsible for any damages or injury. The end user bears all responsibility for proper recovery/disposal of any R12 refrigerant.
I have an EPA 609 MVAC certification. And yes, you can shortcut the process, but there are negative factors if you do. Sooner or later, something will cease to function like it should. Shoddy work is a time bomb ticking away, waiting to explode.
 
You said it doesn't cool as good as it used to, an electric fan would help. The two different refrigerants evaporate at different temperatures and the electric fan will provide the extra air needed to cool the refrigerant in the condenser.
 
You said it doesn't cool as good as it used to, an electric fan would help. The two different refrigerants evaporate at different temperatures and the electric fan will provide the extra air needed to cool the refrigerant in the condenser.

While I agree with the principle, it falls into the same category as using a 94-95 Mustang condenser. The question arises: is it really worth the extra expense and effort? Once you get moving above 15 MPH, it seems to work as good as it ever did.
 
Why convert? The price of R-134a has been climbing and rumors of a phase out, and licensing requirement to buy any (same as R-12) why not just stick to R-12?

Price of R-134a is up to almost $20. I've been snagging R-12 off ebay for $25/can. The license was easy to get and cost me $20 and to be honest, of the dozen or so cans i've purchased off Ebay...only one person has asked to see it. It's a few more bucks i know, but using the native gas should yield better results.
 
Why convert? The price of R-134a has been climbing and rumors of a phase out, and licensing requirement to buy any (same as R-12) why not just stick to R-12?

Price of R-134a is up to almost $20. I've been snagging R-12 off ebay for $25/can. The license was easy to get and cost me $20 and to be honest, of the dozen or so cans i've purchased off Ebay...only one person has asked to see it. It's a few more bucks i know, but using the native gas should yield better results.

$20 a can for r134a is waaaaaaaaaay too much. I pay about $8 a can and if I buy a case, I can get it cheaper than that. I'll tell you why I converted. Hardly anyone carries R12 anymore. 30lbs of 134a = $100 while 30lbs of R12= $500+