A Cool Trick for Working On AC Systems

Last week was Mechanic Week for me. I knew I was going to put a new clutch in my wife’s little car, but I was also provided the surprise opportunity to replace the locked up AC compressor on Red Truck. With about 200k miles, I am kind of proud that it made it this long.

Everything is really easy to get to and the truck has high mileage, so I decided to do it right: new compressor, flush everything, new dryer, new orifice tube, pull vacuum for an hour, etc. With everything out in the open, I figured I might as well. I was able to replace the compressor and dryer in about 30 minutes. Then I got the orifice tube.

If you are not familiar with AC systems, the orifice tube is a small nozzle that allows the freon to expand from liquid to gas. Cooled gaseous freon subsequently goes through a heat exchanger to cool the car. The orifice tube is a small 1-piece device that simply slides into the high side freon tube before the evaporator. The orifice tube has an integral tang at the top for easy removal. Pull on the integral tang, and the whole device slides out of the freon tube. It would make sense to place that tang near the opening of said freon tube. Ford thought otherwise (shown to the right).

It turns out that needle nose pliers can be modified to reach the tang of the orifice tube. Modified needle nose pliers are very good for un-integral-ing the integral tang from the 1-piece orifice tube, leaving nothing to grab. Luckily, Al Gore loaned me his internet so that I could find a solution.

This seems to be a fairly common problem. I found that the “old guys” get a long wood screw, wrap tape around it as a guide, screw it into the top of the orifice tube, and yank on it with unmodified pliers and all of their might. Despite Ford’s best efforts, I had it out in minutes. Does this mean I am now an “old guy”?

While I am talking about Ford A/C systems, I would like to complain about something else they did. Some engineer somewhere decided to use a rubber ball instead of a shrader valve on their high side service ports. It might have saved a penny at some point, but I’ve never met one that didn’t leak. I’ve also met very few high side couplings that will reliably press the rubber ball enough to get a consistent reading. Why, Ford? Why?

Pulling all of this together, I wish someone would take Ford’s high side service port design and shove it up the engineer’s orifice tube. Also, try using a wood screw and some tape to remove your orifice tube if you (or it) are in a bind.

 

Needless to say, the gallant steed is all back together and on the road. Hopefully the AC system in Red Truck will keep together for another 200k miles.