pic: Belt Drive Chassis Take 2

[Jared Russell]

With a toothed belt (or chain), I see problems arising when there are multiple, non-continuous contact patches with the pulley (like with the center wheel in the configuration shown).

For the sake of argument, say the top part of the belt is fully engaged with the teeth at the top of the center pulley. Clearly, you also want the other contact patch to be fully engaged with the teeth of the center pulley. Let's say your pully has 40 teeth, and 10 of them are engaged with the top of the belt. Then there are 10 unengaged teeth (the gap between where the belts contact the pulley), then 10 teeth engaged with the bottom of the belt. In this configuration, there must be an integer number of teeth in the belt between where it leaves the top of the center pulley and returns to the bottom (since there is an integer number of teeth on the pulley between the same two points*).

How do you ensure this? You either design for the exact right belt length, or you add adjustment to your system. You already have a tensioner, but, depending on belt pitch, you may need more than one dimension of adjustment in order to find both a belt length and belt tension that work. Failing that, I could see (best case) uneven loading of the belt and (worst case) belts skipping out of their pulleys.

I hope that all made sense.

* There could of course be, say, 9.5 teeth between contact patches, in which case the requirement generalizes to X.5 teeth in the belt, etc.