Tuesday, July 23, 2024

MGB - Side Draft Carb fun

Today, I return to the little British car: our 1978 MGB, Oliver. Oliver has sat unused for too long. I had been having considerable and increasing trouble just getting him to start and run. So, earlier this year, I removed his carburetor for dis-assembly, cleaning and re-assembly. I did the removal and tear down what feels like months ago, and just completed the re-assembly. So, while this post may feel like a couple of consecutive weeks of fun, it's really a little from March, a little from June and a little from last weekend.

Removal and Tear Down
re-assembled
As is the case with most things on a small car, removing parts requires some flexibility not needed for larger cars of this vintage. Still, removing a carb is not complicated, but I encourage you to take pictures. If your life is anything like mine, you may intend to be back to this in a few days, but days can become months really fast. Anyway, remove the air cleaner. Remove the fuel line (pinch it off first and then plug it). Disconnect the throttle and choke cables. Then remove the carb from the intake. With the side-draft weber (DCOE) and this SK Racing/OER carb, it is held to the intake with 4 nuts threaded onto studs emerging from the intake. The DCOE and SKRacing carbs use the same intake, by the way. Once removed, I stuffed rags into the intake to prevent critters from climbing into my engine, closed the hood and re-covered him. I took the carb over to a bench in the back of the little garage attached to the farmhouse.

At the work table, I started with the most obvious things and worked my way inward. First, the inspection cover and top half of the carb was separated from the main body. I removed every slotted bolt and whatever lay beneath, taking pictures as I went. Last from the top were the air correction jets and then I removed the set screws that held the venturi to the main body. The main body was effectively disassembled, so I shifted to the top half, removing the float, the fuel inlet bits and the choke bits. Last, I pulled the little cover or plate that faces the intake when installed. I am sure someone who does this often would have done it faster, but I needed to chronicle it so I could re-assemble later.

Carb Cleaning
remove from car day
I started like most folks probably do: shooting the carb with rattle can carb cleaner and gently scrubbing it with a toothbrush. I focused mostly on the exterior with the brush and let the carb cleaner do it's magic on the little holes without brushing. Satisfied that I got the worst of it, I pulled out a razor blade and removed all of the gasket bits and rubber seals. Then, put together a ultrasonic cleaner soaking tank with solution designed for carbs. I had read online that some folks will use Simple Green or other things, but I figured the correct solution was far less expensive than a replacement carb in the event those advisers were wrong.

The cleaners, well, the one that I got, but from what I read, many of them have a setting to warm up the solution while doing the ultrasonic. From what I read, there was some level of concern about how well they actually maintain temperature and that sometimes they can run the solution too hot. Since the solution is concentrated (read: need to add water), I decided to use boiling water and when poured into a room temperature solution, the overall temperature would be sufficient. I ran the carb body and all of it's pieces in the ultrasonic cleaner for multiple 20 minute cycles. Once I was satisfied that the carb was as clean as it was going to be, I moved it and the parts into a bucket and rinsed them with water. I then set everything out in the sun to dry.

Rebuild Kit
great kit
Unlike a Weber DCOE, the SK Racing/OER carb is not exactly common in the US. It is not generally sold here; it is much more popular in Japan. So, finding a rebuild kit for an obscure, foreign and old (time is relative) car part was time consuming on it's own. I was able to find a single supplier of a kit, a person in Japan with a storefront on eBay (Bprojects Japan). While I have a healthy skepticism of eBay sellers, deals and parts, I really had no other choice. The kit I received was incredibly well set. It included the major gaskets, replacement air correction jets and springs, new crush seals for the pump jets, a pair of ball bearings for the "pump non-return", a pair of copper crush seals for the fuel inlet and a big collection of rubber o-rings. It really had everything except a manifest indicating what part number each bit was for and the gasket for the jet inspection cover was missing. At this point I realized that I took pictures of the disassembly, but failed to take pictures of the rubber seals as I cut them off.

Re-Assembly
view from firewall
With my laptop open to the SK Racing carb manual, and my phone open to both the pictures I took and a blurry exploded view drawing of the carb, I started putting it back together. I started with the last picture I took and worked by way backwards through them. The only step I took that I had to undo and do again was the placement of the gasket between the top half and the main body. I had assembled the float, but the gasket needs to set above the float, which had I thought about that for a second, it would have been obvious. The float did not fit in the opening in the gasket, nor does it ever need to along its travel path. Also confusing was where the pair of ball bearings and small rectangular rods went. Process of elimination worked well here, choosing to do other things until it was apparent what hole those dropped into.

I used liquid gasket-maker for the jet inspection cover. That stuff makes a dark sticky mess. The instructions on the bottle say to let it dry "for a few minutes" before putting the 2 pieces together which need a gasket in between. I let that sit for well past the recommended few minutes and it was still very wet.. and even after letting it sit in the sun the stuff didn't dry very much. So, I did everything else install-wise and add the inspection cover dead last.

While I had the carb in hand, I decided to add a heat shield to the underside. The header that I installed has a thermo-barrier powder coating on it, but I know from having the hood open after driving it that a ton of heat is still getting into the engine bay. I suspect the source is the header (or the radiator), and the best thing I could do for the carb is to help prevent heat from getting to it. So, I got a DCOE carb heat shield from Pierce Manifolds. The mounting bolt pattern is designed for a Weber DCOE, but the SK Racing/OER is exactly the same in this area. The venturi maintenance holes line up, the cut-outs for the intakes, etc. it all just lines up. The heat shield is heavier and thicker than I expected, but I expect it will do exactly what it is intended to do: block and route-away heat rising from the exhaust.

Install
re-install day
As easy as the carb was to remove, installs always take longer. This bugger was no different. First, the carb mates to the intake with these thin (maybe 6mm thick?) plastic isolator bits between the carb and intake. On each side of the isolator resides a rubber O-ring that is set inside a groove. So, you are managing a carb, 2 isolators and 4 O-rings at one time. That required some dexterity.

I discovered that the heat shield has a small tab on the intake side that would hit the center header pipe. Recall, the MGB has a Siamese head, so the middle 2 cylinders share an exhaust. The PO had a home made exhaust manifold with a center pipe effectively pointed straight down. The header has a more typical curve. So, the heat shield came off and I adjusted that tab to point angled upwards so it did not hit the header pipe, but actually will shield the top-most end of it. Then, I realized that I could not address the lower mounting studs with heat shield installed so I removed it again, re-installing after the carb was nutted down into the intake.

From there, the install was about what you would expect, complete with a dropped bolt under the car. I had to reverse the spring-return arm on the carb as well as flip the fuel inlet. Still, it was relatively smooth, hooking up the fuel line, control cables and air filter.

No Test Fire
By this time, I had sweated my way through most of a summer afternoon and cleaned liquid gasket maker off my hands more times than I'd like to count. As much as I wanted to enjoy the sound of the engine running, I chose instead to take the limited win: Oliver was in one piece. Boo and I went to the county fair instead of test-firing Oliver's engine. Now, Oliver is covered back up, again waiting for me to have a few hours to test fire his engine and fiddle with settings. I sincerely hope the tear down / deep cleaning was what he needed. I'll post an update when I have one.

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That's it for today. Thanks, as always, for following along-

Tuesday, July 16, 2024

Door Cards

Today I will be picking up where I left off regarding the doors. As I described in my last post, the front doors now open, close and lock like a real car. No slamming, not funny jiggling of the handle, etc. Just open, close and lock. Well, the passenger door lock is different from the driver, but I'll swap that out once I find all my parts. Anyway, since I had to remove the cards to fix the doors, I thought I would take the opportunity to improve them.

Door Cards As-Was
foamed card installed
With operational doors, I got to thinking about how to get the door cards to hold to their respective doors. The Arizona gentleman who ran the business creating and selling these ABS door cards was looking to sell off the business a couple of years ago, so I imagine that has happened by now. He had a mixture of molly-based fasteners delivered with the cards. Either the fastener was a screw that dug into the molly which was pushed through the card into the original mounting hole or it was a push-to-hold plastic bit. Regardless, the molly's did not hold in all of the original mounting holes on my bus (YMMV). This could have been poor implementation on my part, something particular about Hapy or just less-than-ideal engineering on the fasteners. It doesn't really matter; for Hapy, they did not work. When combined with the slamming doors, the door cards would rattle and Hapy had a very junky vibe. Now that the doors no longer need to slam shut, improving the cards adherence to the doors will help un-jalopy Hapy that little bit more.

Door Cards, Mounting Upgrade
broken M4 riv-nut bit
To remedy the floppy door cards, I tried a more permanent solution: Riv-nuts and bolts. The plan: into each original mounting hole in the door, I attach a riv-nut (it's a nut that is applied with a rivet gun, basically), and then send a bolt through a washer and then the card, into the riv-nut. Such a simple plan, and while a little time-consuming, it was easy to do. Of course, I found that not all of the original holes were the same size. To fix, I used some as large as an M6 or as small as an M4. I think this is why the supplied molly-based fasteners did not work as well: the M6-sized holes were simply too big for the molly and they fell out. As shown in the picture here, too much pressure with the riveting tool and you can break it. Once I had all of the riv-nuts set, I shifted to the cards themselves.

Noise Abatement Revisit
setting riv-nut
While I had the door cards out of the bus for repairs, I applied a thin noise-absorbing closed-cell foam to the 3 cards. This material was among the things I got a few years ago when I did the sound deadening effort, and it's application to the door cards was part of that plan. At the time, the research I did (See Hapy Noises - Part 2) indicated that multiple attack vectors would bring the best result: Constrained Layered Dampener, an open cell sound deadener like Jute Thermal and then Mass Loaded Vinyl. These all really address reducing the impact of external (and mechanical) noises transferring into the cabin. Any noises or sound that make it into the cabin which are not absorbed by the seats are prone to bouncing around. I placed some larger acoustic panels (these) under the upper bunk, in the slot where the original sunroof used to go. I believe they are helping absorb some ambient sound. I also covered the ceiling with Mega Zorbe to address the sound reflection and ambient sound absorption. In the picture on the right, here, you can see the MegaZorbe applied to the inside of the outer door skin. 

Based on the tests I did at the end of the effort, the only real gains as-measured were in the "around town" (under 40mph) zone. Decibels at idle or on the highway appeared about the same. In practice, however, using a less complex "measure" like how loud we have to run the stereo to hear it on the highway, it is definitely quieter. An even less precise indicator is how loud we need to speak to each other to have a conversation: barely louder than we talk at home, which is quiet (no yelling house) where we used to have to almost yell without the stereo on. So, I am setting aside the scientific evidence and embracing the anecdotal: this implementation of the sound abatement absolutely and significantly improved our road tripping experience. I may take more readings because the numbers I took before continue to bother me.

Door Cards, Reflective Sound Absorption Added
applying the foam
So, with all that context, I decided to press forward on my original plan to apply the thin foam sheets to the hard plastic cards. I started with the cards along the sleeping deck, running from the rear hatch forward along both sides under the windows to the rear of the rock-n-roll bed (1 foot tall by about 4 feet long). I started here for 2 reasons: it was very easy and the plastic cards were jarring-cold when bare skin pressed against them while sleeping. The foam definitely improved that.

For the slider and front doors, I simply traced the door shape on the peel-off paper side of the peel-n-stick foam and cut along the line with scissors. I aligned the cut along the card and peel-stuck them down, working from one corner, down along one side and then across. I will be applying carpet later, but felt that the foam might help reduce the reflected sound while also providing a cushion under the carpet.

With the foam applied to the cards, I considered the game of "which bolt fits" for each mounting point. I could have just started trying bolts, but that felt like an exercise in frustration. So, instead, I grabbed some painters tape and marked to the outside of each hole (where the card would not cover) which bolt size to use. I set the front door cards in place using the door pull to hold the card in the right spot. Then, I simply sent bolts through a black vinyl washer and then the card into the door. Once mounted, I removed the tape. Easy-peasy. If you do this, I suggest that you do the corners first, and only threaded enough to hold. Then, skip around the card, and have all of them like that before you start tightening. Then, again, start with the corners and pay close attention to the bottom edge near the vent. These ABS cards fit perfectly, but the one hole near the bottom align the trailing edge of the door did not line up for me and I had to skip it. YMMV, of course.

slider door foamed
The door card kit included panels for the wall under the driver-side jealous window and for the partitions behind the front seats. I have yet to do those cards, but I am holding off on doing those until I am ready to fast-follow with carpet. The foam is not as scratch-resilient as the hard plastic, and those cards take the brunt of the abuse when camping or music gear is loaded, unloaded and in-motion. So, I will apply the foam and the carpet at the same time. All of that will happen at some point in the future. As it is right now, there is that little bit less noise reflection happening and when bare skin touches the side of the sleeping area, it no longer triggers a shuddering wake up. We are taking the win.

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That's it for today. Thanks, as always, for following along-

Tuesday, July 9, 2024

The Doors

Yeah.. not the band, but I really like Ray Manzarak's keyboard. It has been a very busy year, and I have not been playing with cars much until very recently. Zed, the 1979 Datsun 280ZX remains covered and completely unchanged since we moved into the farmhouse. Oliver, the 1978 MGB, on the other hand, has received some of my focus. I'll start there, and then get after the original topic. 

MGB Carb Dis-Assembled
carb tear down
I arrived at the conclusion that a participating reason for Oliver running so badly (and getting worse) could be that the carb was a little gunky when I bought him, and he has gotten little use, making it worse. So, I removed the carb, took it apart and ran it thru a sonic dip / cleaner. I ordered a comprehensive rebuilding kit from Japan, and will re-assemble the carb with those bits and gaskets. I hope this will resolve his issues so we can drive him around this summer.

Door-Slamma-Slamma
Over the course of the last few years, all 3 of the regularly used doors (driver, passenger and slider) on Hapy, the 1972 VW Bus, have become harder to open and/or close. Each had their own unique issues. Starting with the slider, it suddenly refused to close outside a venue after unloading gear for a show. It would slide as far as about an inch from being actually closed and then bang on something. I couldn't tell if it was the front edge or the trailing edge, but did not have time to really resolve. I forced it closed by pushing with steady pressure against it straight towards the bus (not pushing towards the front). Fortunately, it opened and shut with similar assistance until I fixed it.

foaming doors
The driver-side door would not close consistently. I would have to bang-bang-bang it shut until it finally latched. The lock was another issue; once locked, it would not easily become unlocked, especially if anyone touched the door handle when the door was locked. This condition only worsened to the point where the lock started to fail entirely and banging the door was not holding the door shut well enough. I had the door fly open while taking a right turn and the swinging door almost hit another car.

Of the 3 doors, the passenger door was the easiest to solve, but it was the last. That door would not shut easily because the seal in the front lower corner was tweaked. This put pressure on the door handle, which also was hard to depress, so opening the door took a firm grip. The inner door cards were not holding in-place as well as they had when I installed them, so I decided to tackle the door operation and the cards as one effort.

Slider Door Adjustment
None of these issues were stuck-on-the-side-of-the-road level, but they were all annoying and reducing the joy. I started with the slider since I had to have that door open consistently for gigs. I first considered the leading edge latch mechanism. I shot Kroil into the latch, but discovered very quickly that the leading edge latch was not the issue. After shooting Kroil into and around the trailing latch, I concluded that this also was not the issue. Still, this lubrication was long overdue. I could tell that the upper hard-bar, that applies the trailing latch was misaligned (too loose). I tightened it and that seemed to resolve the closing issue, allowing the door to close consistently. Opening the door was still inconsistent. I started looking at the lower sheathed-wire that opens the trailing latch. That sheathed-wire is similar to a bike handbrake cable with an adjustment collar near the leading edge latch. This wire was dangly-loose so I tightened it until it was taught and adjusted from there until the door would easily open from working the handle.

Driver Door Fix
'74-'79 left front door latch
Repairing the driver door operation was next most important. Once the door lock was un-unlockable from the outside, the only way into the bus was through the rear hatch. So, if the bus was loaded with gear, it was an army crawl over stuff and under the headbanger to get to the front door or even the slider. Following the instructions in the Bentley manual to remove the door latch mechanism (remove outer handle, disconnect activation bar, remove inner handle, remove lower bolt in window guide, remove bolts holding latch, wiggle free), I spent a few minutes orienting to it and figuring out how it works. Since it was not working correctly, it was not easy to determine neither what was preventing it from working correctly nor how it was supposed to work. The image to the right, here, is for a later bay bus (the early bay latch does look a little different, especially in the area of greatest interest), but it should work well enough to illustrate. For orientation purposes, the side facing away in the image faces rearward when installed in the door so what we can see are the inner guts usually hidden inside the door. Consider the part furthest to the left; that is the lock/latch mechanism which connects to the activation bar. There are 2 circled springs: one larger spiral facing up (marked 1) and a smaller one partially hidden by a tab (marked 2). On the early Bay, spring #1 is not a spiral, it looks more like a "C", but on Hapy that spring was missing. Spring #2, however, was there, and it was kinda mangled.

I attempted to un-mangle spring #2, and instead it launched from the latch into my yard. Distressed, I cleaned the latch with brake cleaner while trying to arrive at a solution. Once clean, I shot the moving parts with Kroil and worked the latch. I started to come to the conclusion that without those 2 springs, the latch and lock actually worked much better. In fact, they worked great. Curious, I re-installed the latch by literally reversing the steps. I found positioning the latch inside the door and then getting the window guide in place were the challenges. I lowered the window and started testing the latch: open, close, open close, lock, try the latch, unlock, etc. It worked like any other car door latch. I can close the door with very little effort, and it stays latched. I can lock it, it stays locked and will unlock by pulling the lock tab inside the or from the key on the outside. Attempting to open the door when locked no longer fouls the lock. I mean, I can try the handle and then immediately unlock it. Even unlocking it no longer requires moving the key like I was locking it first (which I had to do even if no one tried the handle).

Passenger Door Fix
This was the easiest fix of the 3. The Passenger door resisted closing and the handle needed Herculean grip. I repeated what I did on the driver side first: remove the latch, clean and Kroil it. Then, I re-installed. This resolved the Herculean grip issue. The door resistance stemmed from the door seal not being correctly place in the forward lower corner of the door. It was hanging on the inside edge of the door. I still intend to paint Hapy this summer, so I applied a little carpenter glue on the seal rather than the super-strong black seal adhesive. I held it in place by hand until it seemed to hold and then shut the door to really hold it in place while the glue dried. This totally fixed the close resistance.

I started on the door cards, but didn't complete that. I will post about the door card improvement once they are back in Hapy.

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That's it for today. There have been many adventures and experiments over the last few months. I'll get to posting them as time makes itself available. Thanks, as always, for following along-