Hapy Re-Assembly

I have been waiting to do this post until after Hapy was completely back in one piece, but after many hours and days out there, he is still not quite together. Still, seems like as good a time as any to update, and, like seems to happen so often, this got long, so this is going to get split out. Perhaps he will be in one piece by the time I get the next post done. Anyway, I left off last time after having moved Hapy from the sloped and badly cracked driveway into the shop. That was in early October. With extreme work expectations, I had very little free time, so there he sat until winter break (mid-to-late December).

 

Time to Lean, Time to Clean

engine in, oriented

First, I moved the ATV jack with my wooden cradle under the engine and supported the engine. I started by removing the ratchet-straps I had used to hold the front of the engine to the frame and the axles from dragging on the ground. Then, I removed the rear mount, support tower and cross-bar. Last, I removed the rear tow-hitch / rear bumper assembly.

 

I was on a cleaning adventure, so I cleaned the engine bay and the parts I had just removed with de-greaser. Then, I painted those parts and the underside of the bus's rear end and lower engine bay with Eastwood's rust converter. I felt this set the stage for a less filthy job. Since I failed to clean the engine, however, I was only half right. But, the parts which were painted look really good now and I hope the rust growth is at least slowed, if not stopped, by the application of the rust converter. As they say "rust never sleeps" so it will remain on the inspect-every-time list regardless.

 

Transaxle Together

output flange going on

We start our assembly adventure by just returning the transaxle back to its state before I removed it. Recall that during my efforts to get the transaxle and engine to mate on the cracky driveway, the transaxle awkwardly fell off a small jack and onto the concrete, causing the left (driver in US) side output flange to pop off. This was what put the re-assembly effort into dead stop last Summer. After getting some advice, a new plastic cover and a few packets of grease from a shop around the way, I again did nothing about it for weeks. Work has been all-consuming this year, did I mention that? Anyway, continuing my cleaning frenzy, I cleaned everything (except the engine, it seems): the transaxle, the various parts, the area I was going to work in, my tools... you get the point. The little c-clip that was responsible for holding the flange to the transaxle was a little bent from it's rapid extraction by the driveway. The shop owner suggested that the original clip was higher quality than the EMPI stuff on the market now and encouraged me to flatten/fix that clip. So I did, with a vice and a hammer. With the mating points all clean, and the old little plastic cover gone, re-attaching the output flange, setting the c-clip and then setting the new plastic cover actually took as long to do as it just took to type. I was stunned it was that easy and felt rather stupid for avoiding this for, like, 6 months.

 

While I was there, I also took the shop owners other advice about removing the throw-out bearing, greasing the slide and re-installing the throw-out bearing. While the parts were apart, I hit the teeth on the output shaft with a wire brush, getting all the gunk out of the teeth. With the transaxle now back in one piece, I set it on a big sheet of cardboard and slid it under the bus, from the rear around the left side of the engine and over the rear sway-bar lying on the ground. 

 

I will make an aside about the rear sway-bar here. While it is great for handling, it is awful for getting the engine/transaxle in and out. It really is great for handing, though, especially in windy conditions. Simply disconnecting the frame mounts and letting it hang on the ground, leaving the shock mount ends connected, makes for a tall, virtually uncross-able, speed-bump for your floor jack. In the future, when I (and I suggest any reader who has the rear sway-bar) remove my transaxle again, I will completely remove the rear sway-bar from under the bus, leaving the space completely clear.

 

Tranny Meet Diesel

strapped to rotate

With the transaxle on the ground under the bus, I set to mating it to the engine. Right here is when I wish I'd remembered a few things:

1- while you can still interact with your transaxle, put the little cage on the shifter rod that comes out the front. I didn't and while it still isn't done yet I have already spent an hour trying to get the grub screw to thread in after the transaxle is already installed. Word to the wise: do this beforehand.

2- that shifter rod goes OVER the rear main frame tube. I don't know what it's real name is, but you need to put that rod over the tube before you try to put the transaxle into place. I forgot, mated the engine:transaxle and then had to do it again because I could not get the engine far enough back to get the shift rod over the tube. Total facepalm. Lost hours facepalm.

 

I am going to draft on this moment and drop a placeholder for consideration: Cutting in a removable rear valence like the earlier bus's had. I know the engineers made the fixed, permanent valence for structural integrity. Any other 1972 and later bus might still require it. For that matter, this bus may still require it. My bus, my risk ; I encourage others to not follow this advice without giving it some serious thought and even then, ask friends. My bus has 2 additional side-to-side heavy bars bolted into the side frames: one for the rear engine mount and one for the rear tow hitch. Both of these are heavy steel bars bolted in separately from each other. I submit that if I cut the rear to have a removable valence, I would suffer no structural loss. So, I think the next time I need to remove the engine, I will give this serious thought. How I do it so it doesn't look trash will be the fun part.

 

Anyway, once I got the shift rod over the tube, I set the transaxle on the "race" jack I got from our dearly departed brother-in-law, Travis (and named it accordingly). With the transaxle easily balancing on the Travis I was able to get the output shaft of the transaxle to align with the clutch. It is noteworthy that I did not use the "small" jack the transaxle fell off of this time; the big pad on the Travis is way more stable. I got the 2 to mate and threaded in 4 bolts to snug them together: 2 on the very bottom, one just above the clutch throw-out arm and one which threads through the starter mount.

 

Central Mounting

With the engine and transaxle as one large and heavy assembly, I needed to get it aligned with the 2 central mount holes: the 2 which pass through the ears on the top rear of the transaxle. I believe this mount handles the lion's share of the weight. The left side aligned fairly easily (20 minutes of wrestling) but it took a couple of hours of fighting the right side. I could not remember having such a hard time reaching and seeing. With a shrug, I went to put things away and noticed that I could not lower the overhead engine lid I'd cut in all those years ago. It was bopping on the intake. I realized that the engine and transaxle were clocked for an upright install, not a "stock" orientation (same tilt as native install in a Jetta or NewBeetle) as I had before. I had mated the engine and transaxle wrong. I called it a day, and took a long shower.

 

For Clock's Sake

nearly buttoned below

I have some of my best (and sometimes worst) ideas in the shower. I figured that I could put a ratchet strap around the front of the engine, hooking the ends on the frame like I had it when I moved the bus, and use the webbing as a cradle for rotating the engine, re-clocking it against the transaxle. Suspending the weight of the engine on some webbing was not going to be enough so I put in the rear engine mount cross bar and tower. Then, I connected the engine mount to the engine, letting the body-side of the mount float free. As an extra precaution, I moved the ATV jack and cradle under the engine and raised it so it was just below the engine. Then, I put the ratchet strap in place and cranked it down as snug as I could. Feeling a little anxious, I removed the 4 bolts and nothing moved nor settled at all. So, feeling bold, I grabbed the engine by the alternator mount with my right hand and the turbo with my left and slowly rotated the engine anti-clockwise. I was able to key off of the bottom bolt on the left side, switching from on my back with the bolt in hand to on my feet and shifting the engine and back again. Ultimately, I found that using a small screwdriver to help fine-tune the bolt location was most effective, but once I had that one bolt, the upper left and starter-bolts went in easily. I was unable to seat the lower right bolt and I will have to go through my notes to see how many bolts I've used before to see if I'm chasing something a false memory of 4 bolts.

 

Once the bolts were through, I removed the ratchet strap, wrenched down the engine mount on the engine side and then connected it to the tower. I am going to stop here, mostly because this is as far as I've gotten. By next time, I will have solved the grub-screw in the shift linkage and have the rest of Hapy put together. I hope I will even be able to tell a tale of a test run.

 

Thanks, as always, for following along. I know my posts have become few and far between. We had some staffing changes at my employer late in 2024 and that meant lots more work for me ever since. I do not anticipate that significantly changing, so my attitude about it needs to. Working on it.