The second pic shows the problem caused by the rounded taper on the end of the main shaft. The rod shaft is non-parallel to the main shaft by about .010 over its length.
Cheers all,
It looks to me like the rod pin is bent?
Probably optical illusion/camera lens optics. All five samples look the same on this shaft.
Is it pressed into the brass flywheel? You can check this with a square.
It IS pressed. ..And checked with a square. It is square. I still have an original main shaft to check against. And, the rod shaft(s) remains parallel on that one.
The screw holding the flywheel to the main-shaft won't provide much holding power: you should replace it with a proper cupped end set-screw, and grind a flat on the main-shaft wider than the cup. (Without the flat, the set-screw will raise a burr, making removal difficult, plus it acts a bit like a key.)
If I were making one from scratch, I certainly agree with you about the set screw and choose another. But, it is hard to argue with 20 years of trouble free function with the existing screw. Makes me kinda lack incentive to change it.
Really, there is not much pressure on that rod shaft or crank. The "pistons" use a leather rub seal in the cylinder, and have very light springs in the check valves. The unit develops 4-10 PSI from the two cylinders, and can deliver air to about 20 aquarium air outlets. It's just that they run 24/7, 365 days a year. And, I'm getting forgetful/inattentive about the 3 month oiling schedule. Further, i found out the hard way that the Bronze bearings should have had mineral oil. All the brochure said was to use 20Wt oil, which I did. 3 in 1 20Wt oil, which I latter found out is paraffin based rather than mineral (costs less for manufacturer). Paraffin dries out and turns "waxy" plugging up all the pores in the bronze. The unit relies on oil flowing through the porous bronze to keep the rod wet with a surface film. It has oil reservoirs/wick holding oil on the outside of the bronze bearings. Once the paraffin turns to wax, the oil flow from outside to inside through the bearing stops, and you have to re-oil the shaft at least every month or less instead of every 3. If you don't then you get a rod shaft that looks like pics below. This happened during my Hospital stay a few years ago. To the pumps credit, it still kept all the fish alive. But, the rattle was intolerable in a living space. Anyway, mineral oil doesn't dry out and clog the pores of oilite bearings, as I found out too late.
The dream is that the roller bearings will make the service interval a yearly endeavor, and increase the pump's endurance, as my personal endurance wanes over the next few years.
Cheers,
