I feel like I am in a bit of a vacuum now that the long running kickstart shaft machining project is finished, so I will pick up the easy option of tidying the workspace while identifying something to do from amongst the myriad of jobs. The first one that springs to mind is the clutch which has been laying about underneath the bike.
It's in pretty good shape but it had a couple of bits missing that I have replaced over the last few months so today I'm going to strip it and clean it up before reassembling and fitting it back on the bike. I will then rebuild the primary side and put the chain cover back on - I will paint it if it's warm enough.
With a bit of help from the Raleigh owners club I learned how to strip it down - it's all down to ten 1/4" nuts which are uselessly staked in place.
The shock absorber looks very good and I am tempted not to replace the rubbers but disassembly of the clutch centre does not go quite according to plan and I end up with balls and rollers all over the place!
There are 17 rollers and 16 balls here, exactly as per the parts list but I didn't really understand why you would design a bearing with mixed balls and rollers. The combined intellect of the Raleigh & Ariel Owners Clubs taught me that the rollers are there for axial stability, but the balls reduce friction - the idea being that the ball to roller friction is less than the roller to roller friction would be.
A sample roller measures 0.250" diameter by 0.249" long and a sample ball measures 0.249" diameter. I shall replace them all.
Cleaning up the clutch centre reveals this little hole, with a partner on the opposite side. Are these intended to allow oil to be introduced into the bearing? Or are they drains?
A couple of hours with various wire wheels and brake cleaner brings the parts up very nicely for inspection, but there is little damage.
I have a couple of new spring cups from the
Raleigh club and a set of new springs, plus the two new clutch springs screws that I made a few weeks ago. Currently these have standard quarter inch washers but it is noticeable that the originals are very tight on their screws so we will make a couple of replacements on the lathe, from this bit of 3/4" round bar:
I've just parted off a couple of washers to match the length of the original ones. We will chemically black these later.
Next up, it's a bath of thinners, the wire wheel, and a dose of Scotchbrite to bring the plates up. They all have a bit of burring on the tangs so we will have to dress those with a file.
Saying that though, I think it's probably more important to look at the basket than the plates. I'm convinced that burrs like these produce more resistance to free clutch plate movement than the burrs on the plates:
