Working on the tailgate

Like many FSJ owners, I had tailgate window issues. It would make a lovely popping/grinding noise whenever I put the window up. In order to get it into position, I consistently had to grab the top of the window and pull it up at least halfway while engaging the key in the tailgate. Not fun, of course. I started by dropping the window and the tailgate. I ordered a tailgate channel from BJ's last week so that when I dove in, I'd have the materials I needed.

The first step is to drop the tailgate and remove the carpet and the access panel. Just take out the fourteen screws holding the chrome metal strips in place on the carpet, and then take off the twelve that hold the access panel. Stay organized, however, because these screws are at specific lengths to avoid hitting anything of the internal workings of the tailgate itself. Here's what I found. Notice on the left that the window is not sitting in the black lifter channel. That was a sign of more serious internal problems. Once I disengaged the safety killswitch on the driver's side of the tailgate, I was able to get the window up while the tailgate itself was down. This gave me better access to the window mechanism.
Reaching my arm in on the driver's side, I was able to feel around a bit and discover that the end of the lifter channel was not in the slot that extends the length of the tailgate. That slot is what keeps the channel in place during its up and down movements. It also makes sure that the window itself is in alignment when it slides up into the body and the roof line.
In the pic below, notice the two large gears with the 1 1/4" flatstock steel bars. As the motor rotates the driver's side gear, it moves the flat bars which are attached to the lifter channel via small bolts and a pair of spring-loaded washers.

Here's a shot of the passenger side where the lifter channel meets up with the flat steel bar. The arrow is pointing to the washers that slide in a slot (just above and extended to the right of the arrow itself). That's what it should look like.

Here's the driver's side. Not quite right. Notice the lifter bar is to the left of the slot that the bolt should ride in (see the red arrow). I was able to discern that the top washer had popped off, which in turn made the bolt disengage from the lifter channel slot. After a bit of rearranging of the internals, I was able to get the lifter channel above and to the left of the lifter bar, exposing the bolt that should have been in the slot. (Are you following any of this?) Once I had somewhat clear access to it, I went at it with my sawzall and long blade. The only tricky part was when I had to use my fingers to align the blade with the bolt. Needless to say, I kept my other hand quite clear of the trigger, just in case.

I was able to cut the bolt flush with the steel bar, but the remaining portion of the bolt still refused to dislodge. My only recourse was to drill through the tailgate wall just above the bolt and then drill out the bolt. On my first attempt, I was a little high so I had to drill a second access hole. I'm sure there are more elegant and less invasive solutions, but I wasn't having them. In this pic, as well, you cansee the slot that bolt rides in (to the left of the drill bit).

Digging through some old hardware, I came up with this pile. The brass flared washer is the key. It fits perfectly in the slot and will alow it to slide. The bolt itself is an allan head, which allows me to hold it in place more easily than if I a regular hex head bolt. A few regular washers round out the kit.

Once the bolt and washers were in place, I hit it with the grease gun and almost immediately had better sliding action, but the window still didn't work as I well as I wanted it to. The grinding noise during upward motion remained, so I dropped the tailgate and investigated further. This is what I discovered.

Where I'm pointing here with the screwdriver is the motor gear, which rotates the larger of the main gears, which in turn rotates the smaller one at the top of the pic, lifting the window. The plate on which the motor gear was mounted (below the two main gears) was deflecting to the point that the motor gear itself was not fully engaged with the larger lifter gear. My "what do I have nearby that will fit" solution was simple: two strips of 3/8"x2"x12" plywood wedged between the motor (electrical, so the wood won't hurt it) and the outside wall of the tailgate. This pushed the plate towards the lifter gears by about 3/8". I also took the time to clean out the lifter channel where the window had separated from it, then added some black silicon adhesive to hold it in. After cycling the window up and down a few times to fully seat the window in the channel slot, it was good to go.

I added little green grease, and now I'm done. After buttoning the tailgate back up, I had a fully compliant tailgate window. I think when I'm bored and in the mood for some quick little project, I'll open the tailgate back up and glue the plywood strips together and use some silicon adhesive to hold the plywood to the tailgate wall.

Another run to El Mirage

Here are some videos of the kids behind the wheel at El Mirage OHV. Just click on a name to watch the video from my Photobucket account. They're each one or two minutes long but quite fun and funny. Pay particular attention to the background to get a sense of their turns and speed.

Sophie

Lily, part I

Lily, part II

Nath

New exhaust system

When the engine was getting rebuilt at Hall's, Greg noticed that the catalytic converter wasn't heating up, which means it isn't functioning correctly. (A cat needs to get to at least 600 degrees to really work well in terms of emissions control, though they can run as hot as 1500 degrees without damage.) Unfortunately, excess heat can lead to other interesting side effects. Here's what I found when I peeked into my old converter.

Not exactly an effective set up. I'm kind of amazed that the thing passed emissions with this. How bad does one of these have to be to fail?

My new Magnaflow cat from BJ's is a great replacement for the original one. It's CARB legal, which is a requirement here in California. I know this thing is old and sucks gas, but I still want to have a clean running rig.

Since a converter change was necessary, I decided to go whole hog. Earlier this year, I'd noticed just how truly lousy the welds were at the joints of the exhaust system, including the AIR return tube from the cat back to the exhaust manifolds. Here's the 3"-to-2 1/2" neckdown transition from the Y-pipe to the cat. Ugly. I have a more elegant, or at least less messy, solution that I put into practice today on the other side of the cat, which I'll get to later. This one stays for now, however, because I will be having Hall's put on a pair of Doug Thorley headers with a 3" Y-pipe, which means this junk will be going bye-bye then.

Here's my muffler, which I've come to understand is not stock/OEM. This one is quite long (~30") and looks to be a no-name brand. For better or worse, from the cat back this thing was one big welded chunk, so I had to remove it first.

First I popped it off the cat. Luckily, it wasn't welded up, just a normal exhaust clamp. Before I went to work on the door lock fix this morning, I hit the nuts with penetrating lube to soften the rust up a bit. It worked well.
Then I had to get it off the hanger clamps at the back end. Here's my son, Nath, helping me get the job done. He's a lot of fun, of course, and he knows his way around tools enough to get me the sockets or wrenches I need. When I'm stuck under the Jeep, he's the best helper there is. (Note, as well, the kinks in the exhaust pipe and the broken weld tabs out by the exhaust tip--this thing was never a quality product.)

Because it's one chunk and I didn't feel like going to town on it with my Sawzall, I worked it forward, rotating the tailpipe over the rear axle and then pulling it out under the driver's side door. Easy. The cat also was simple to remove, again just an exhaust clamp holding it in place.

Then it was time to get with the installation. Unfortunately, the neckdown transition pieces I ordered from Amazon.com were 3" inside diameter rather than outside diameter. That meant they wouldn't slip inside the muffler and catalytic converter tubes as I had hoped. Instead, they were the exact same dimensions as those tubes so I needed to get some 3" o.d. and 2 1/2" o.d. exhaust pipe to get the job done. I went to O'Reilly's with Nath but had no luck. The counter guy there steered me to Redlands Muffler & Brake. My plan was to buy some pipe. The owner of the shop was just hanging out when I came in. He and one of his employees dug through their cutoffs and pulled out two pieces of the right diameter. When I asked how much, he said free. It's nice to meet people like this. He didn't need the scraps he gave me, and he didn't need to charge me either. A good man. My neckdown transition is the middle one in the pic below. On its flanks are the scrap pipes he gave me.
First thing I had to do was cut them to the right size, so I laid out the kit I bought from BJ's Off-Road side by side with the old muffler (sorry, no pics) to get a sense of the length difference, which was about eight inches, the length of my pipe adapter. With my dremel, I cleaned up the edges of the scrap pipe and then popped them into the adapter before cutting them down. Here's what I had at that point.
Once I knew the length I needed, I scribed a line, put the pipe in my woodworking vice (only one I got, for now), and then went at it with my Sawzall. Here's what I produced. I cleaned the edges of the cutoffs again with my dremel. I have the parts to build a second one to replace that welded up junk mentioned earlier. When I deliver the rig to Hall's for the headers, I'll drop that off, as well. Hopefully it won't make the system as a whole too long. If so, they'll have to fab something up.
Once I could put the system together, I threw on the cat and tightened down the exhaust clamp finger tight so that I could move it around as needed. Then I slipped on my new adapter pipe and the muffler. The weight of the muffler was causing everything to hang down way too far below the frame rail, so I used my jack to get it back up into position. With the custom bent exhaust pipe from BJ's that is designed to get over my rear axle, I jacked everything up until the muffler was level and I had good clearance at the back end.
I was able to reuse my existing hangers, which was nice. This one I'd put on about a year and a half ago because the old system knocked against the track bar extension bracket (in pic at left). I think I'll go back under there soon and lop off the inch or so of bolt sticking out to the right of the bracket housing on the axle, just for the extra clearance.
3" pipe meets for 4" chromed exhaust tip. Again, I was able to reuse the hanger that worked with the old system. I just had to rotate it a bit since this pipe goes a few inches farther back than the old one.
Here's my 3"-to-2 1/2" adapter in action. I could pay to have this all welded up, but I like the flexibility of the clamps for now, especially with the Thorley headers going on soon. There might be some fitment/length issues that will need to be accounted for when all is said and done. That band clamp works quite well, and the other two clamps are positioned perpendicular to each other so that the nuts are easier to loosen or tighten.
The entire thing, tucked up snug. It sounds great. Not terribly loud, but a nice, deep rumble. I'm sure it's going to be great. And with the headers on, I might even get a bit more power and efficiency out of the engine. One can hope...

Swapped door locks

This morning I switched out the door locks from the driver's side and the passenger's side. The driver's side was in poor shape with the little parts where the key enters the mechanism moving around, so I pulled the retaining clips on both doors (in the far right pic), popped out the lock mechanisms, and traded them. The passenger side, since it isn't used much, was in quite good condition. While each was out, I put a little black silicon around the bezel to seal it up since the original plastic seals were shot. It was an easy fix.

Transmission pan leak and fix, round two

Didn't work with a cork gasket. I think the pan in the passenger rear corner is warped. I tried it again, draining and saving the freshly installed fluids. I added a rubber gasket plus some special Permatex RTV for transmissions. (NEVER use normal RTV on a transmission gasket because it will be dissolved by additives in the transmission oil.)

Still didn't work. I'll pull it again and hammer on the pan to try to true it up. We'll see.

For what it's worth, I'm not frustrated much by this. With the drain plug in place, it's much easier to repeatedly drop the pan as I try to get the leak fixed. I'm gettin' real good at it.

Transmission pan leak and fix

My transmission pan has been leaking way too much from the passenger side, especially since it's been sitting. Hall's offered to fix it, but I wanted to take care of it both to save the labor cost and to install a drain hole. Without a drain hole, here's how I normally have to get the oil out of the pan.

Not pretty. It just dumps out, and I hope the drain bucket catches it all. To affect change, I drilled a 1/2" hole with my nifty new drill press set to 600RPMs (slow and steady for drilling metal). It wasn't quite the right fit, so I widened it a bit. The way the drain hole adapter works is fairly simple. It's a large threaded bolt that goes through the drilled hole into the pan. A nut holds it in place, with a teflon washer on the outside for sealing. The inside of the large bolt is threaded as well, and a smaller bolt goes into that. Here's where I decided to put the hole:

This is a shot of it from the outside. Note the teflon washer. I located the hole in the front driver's side corner because I felt that area had the most clearance away from the transmission internals.

With the smaller bolt plug in place. In the upper right of the pic, note the front drive shaft.

It was a fun little project. I'd had the drain plug adapter for about a year in a box, so it was nice to finally be able to put it on.

Ran out of gas yesterday!

No pics in this one, just shame.

Background: the fuel gauge is shorting out on me (I think), so it always shows full. I'd only driven 80 miles since the last fill-up (Feb. '09), but I'd idled it quite a bit when working on the radiator and electric fan, so I must've burned through a good chunk of the tank.

Anyway...

Driving to work Thursday morning, left early to give the Jeep an easy go of it, never going above sixty. Halfway there, and it starts to stutter, fades, and then dies. My first thought is pure shock because the wiring harness and the engine rebuild were supposed to cure this kind of random engine death. But thanks to my clear fuel filter up near the carb, I was able to figure out that no fuel was flowing. Just needs some gas, so I'll ring up my wife and have her bring me some.

Of course, no cell phone.

And since I usually carry a few gallons of spare gas, the jug is sitting in the back, empty.

The Perfect Storm.

I'm evenly spaced between two freeway exits, and I cannot see nor remember where the nearest station is. So I wait.

Ten minutes later (roughly 8:15), as my karma turns, a truck for the Riverside County Transportation Commission's Freeway Service Patrol pulls up, gives me a gallon for free (no AAA required), squirts some starter fluid in the carb as I start it up, and then bids me on my way with a handshake.

I filled up at the next exit and made it to my class on time.

My Jeep rocks, the engine rolls, and I'm an occasional idiot.

Picked up the Jeep today!

I finally got to drive it home today, followed by the family in the Honda. It cruises quite nicely at 60ish, running about 2300 RPMs. The gas gauge is permanently pegged to F, so I'll have to get at that soon. Honestly, I couldn't help but smile as I was driving home. But since it now runs a bit quieter, every time I let my foot off the gas and the engine RPMs dropped, I had a momentary flash of anxiety that it was dying again. I was wrong every time, but this new, quieter and more reliable engine will take some getting used to.

I'll be driving it to work everyday for the next few weeks to get some miles on it and check the reliability of not so much the rebuilt engine but the wiring upgrades I've performed lately. All in all, I expect good things.

Here's the parts list breakdown, totalling $915.27:

• Fel Pro KS20001 Gasket Kit #FS8266PT4
• Fal Pro Valley Pan Gasket #96001
• Sealed Power Cam Kit #KC646
• Sealed Power Piston Kit #W362NP
• Sealed Power Rod Bearings #3310CPA
• Sealed Power Lifters #HT2011
• Sealed Power Main Bearing #5037M
• Sealed Power Ring Set #301K
• Sealed Power Brass Freeze Plugs #381-2170
• Sealed Power #UK 17412 Hard
• Stant Thermostat #13008
• Oil Filter #61626
• 7 Quarts of Oil
• 1 Gallon Coolant

3 Year/Unlimited Miles Warranty