Saturday, June 16, 2012

Under cover and on the case

Having got compression again with spark plugs back in the engine, and the back brake in working order, I could torque up the gearbox sprocket again and move on to replacing the refurbished engine covers. The sprocket had been very loose on the gearbox output shaft when I'd dismantled it so I wanted to be doubly sure it was firmly secured. Doubly sure means properly torqued up and the lock washer fully hammered down.   
One foot on the rear brake pedal,
the engine in first gear and rotated
up against compression, a lot of force
can be applied to the sprocket nut.

Drifting down a tab on the lock washer.
Things are starting to come together now to the point that a lot of the work I've done on other components is slotting into place. It made sense to refit the starter motor because access is just that bit better before the other engine covers are in place. The rear of the starter is blocked by a large water pipe that connects the rear of the cylinder block to the water pump.  

The starter engages with a gear train beneath an inspection cover behind the cylinders. On this very early 1200, there is a steel condenser mesh in a small compartment next to the gear train. A small link pipe connects the engine breather from the clutch cover to this condenser compartment, and another link pipe then connects from the condenser to the air box. Later models use a single pipe to connect the clutch cover breather to the air box. 


Slightly out of step to the way I did it but the clutch cover went on with a bit of fiddling. I wiped over the clutch basket with a WD40 and kitchen towel first - it has been open for about 18 months and had picked up quite a bit of dust and dirt. It was only tricky because of the bend in the little breather link pipe. I'd put a braided cover on it which may have made it less flexible than normal. 





 Meanwhile, back on the drive side, I'd got sprocket cover, alternator, water pump and crank end cover all ready to replace. Again, the internal surfaces of the engine all benefitted from the kitchen towel and WD40 trick. The difference under the crank cover is easy to see.


 Before the sprocket cover goes on, it's easier to reinstall the clutch pushrod. It's a very long steel bar that passes through a small seal just in front of the drive sprocket, and then into a housing in the sprocket cover for the clutch slave cylinder.

The sprocket cover also hold the dipstick. The dipstick protrudes into a small box cast into the sprocket cover which then runs full of engine oil when in service. The threads on this early dipstick are much finer than the ones on my 1994 Daytona 900. I prefer these early fine ones - I've crossed the coarse threads on my Daytona's dipstick twice. Very irritating.

The gear change shaft extends through this little box so is fully lubricated. There is a needle roller bearing in the sprocket cover so that runs in oil too. It could be one of the reasons that the gear change has such a positive and, with good oil at least, slick action. I protected the oil seal in the sprocket cover by wrapping the splines on the gear change shaft in electrical insulation tape before tapping the cover over it. The bad side of it is that it is only possible to check or change the gearbox sprocket with an oil change. I can live with that for the benefit of having the gear change shaft needle roller fully lubricated. Each to their oe



The sprocket cover is retained by five bolts plus another two very long bolts that also retain the clutch slave cylinder. I've been working on the clutch hydraulics today. They appear to have been depending on orange sludge rather than hydraulic fluid :-(


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