Attention: TDR Forum Junkies 
I may have discovered why these headlight switches have a tendency to melt.
Troooper stopped me on I81 on my way home: no taillights. Whilst it wasn't a stormy night, it was dark and raining a little. No ticket; he let me get off the next exit (¼ mile away) to do something to get lights working in back. Stopped at a gas station with nice lights. Explored the problem. Discovered I had no running lights at all, but the fuse was OK. Pulled the switch and found one spade a little overheated. Couldn't fix that there, so I pulled the brake light switch and drove home with the brake lights on. Much safer for me and everyone else on the road. The running lights did work a week or so ago.
Got home, pulled the switch again and brought it inside. Got the DMM out and, after a while, found there was no connection between B+ and the parking light spade (the slightly overheated one). But there was a connection to the 'post' from the internal contact. I looked closer and saw that that 'rivet' (as it were) was defective. Got my soldering iron, solder and flux out and soldered it. And viola! A good, solid, reliable connection. Reinstalled the switch and the running/parking lights work again.
In short, I suspect many of these switches had manufacturing defects from the factory. The poor connections result in built-up resistance. Resistance results in heat. Enough heat and time, and the plastic melts. I guess I was lucky that it took almost 25 years to fail. Now you inquiring minds know one reason the switches failed.
Now I have to figure out how to fix the plastic on the dash at the top mounting screw; it broke. Hmmm. Maybe some string trimmer line and my old wood-burning iron and weld the plastic back together. That might work. If it does, I might even frankenstein the dash top which disintegrated a few years ago when I replaced the A/C evaporator.
Troooper stopped me on I81 on my way home: no taillights. Whilst it wasn't a stormy night, it was dark and raining a little. No ticket; he let me get off the next exit (¼ mile away) to do something to get lights working in back. Stopped at a gas station with nice lights. Explored the problem. Discovered I had no running lights at all, but the fuse was OK. Pulled the switch and found one spade a little overheated. Couldn't fix that there, so I pulled the brake light switch and drove home with the brake lights on. Much safer for me and everyone else on the road. The running lights did work a week or so ago.
Got home, pulled the switch again and brought it inside. Got the DMM out and, after a while, found there was no connection between B+ and the parking light spade (the slightly overheated one). But there was a connection to the 'post' from the internal contact. I looked closer and saw that that 'rivet' (as it were) was defective. Got my soldering iron, solder and flux out and soldered it. And viola! A good, solid, reliable connection. Reinstalled the switch and the running/parking lights work again.
In short, I suspect many of these switches had manufacturing defects from the factory. The poor connections result in built-up resistance. Resistance results in heat. Enough heat and time, and the plastic melts. I guess I was lucky that it took almost 25 years to fail. Now you inquiring minds know one reason the switches failed.
Now I have to figure out how to fix the plastic on the dash at the top mounting screw; it broke. Hmmm. Maybe some string trimmer line and my old wood-burning iron and weld the plastic back together. That might work. If it does, I might even frankenstein the dash top which disintegrated a few years ago when I replaced the A/C evaporator.
)
