Adding Power of Two Chain Drives Without Slipping

AI Thread Summary
To combine the power of two independent chain drives with different RPMs without slipping, a stable drive system is essential. Gearing can be effective if the speed ratio is constant, while a continuously variable transmission (CVT) may be necessary if it is not. Careful design is required to prevent one motor from overpowering the other, potentially causing instability. A limited slip differential could be beneficial to manage power distribution effectively. John Deere's IVT tractors exemplify this concept, utilizing a combination of hydrostatic and mechanical drives to maintain optimal performance.
strawchiu
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is there any way to add power of two independent chain drives having different rpm , such that slipping doesn't occur and driven shaft move with the added resultant power
 
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strawchiu said:
is there any way to add power of two independent chain drives having different rpm , such that slipping doesn't occur and driven shaft move with the added resultant power

Welcome to the PF.

Is the ratio of the 2 speeds constant? If so, you can use gearing. If not, you could consider a CVT (continuously variable transmission) as part of the coupling...
 
A differential in reverse. I believe there is a word for that but it escapes me. Combiner perhaps?
 
Averagesupernova said:
A differential in reverse. I believe there is a word for that but it escapes me. Combiner perhaps?

How cool. I haven't seen that before...
 
Averagesupernova said:
A differential in reverse.

You need to think this through carefully, otherwise you may end up with one motor driving the other motor backwards instead of driving the load. If this is a problem you would have to add something that works the same as a limited slip differential.

For many types of motor, the power output depends on the RPM, so you will need to make sure the drive system is stable, in the sense that one motor can't speed up and produce more power, and force the other motor to slow down and produce less power.
 
AlephZero said:
You need to think this through carefully, otherwise you may end up with one motor driving the other motor backwards instead of driving the load. If this is a problem you would have to add something that works the same as a limited slip differential.

For many types of motor, the power output depends on the RPM, so you will need to make sure the drive system is stable, in the sense that one motor can't speed up and produce more power, and force the other motor to slow down and produce less power.

John Deere does it in their IVT tractors. Nothing new. That is not to say they aren't loaded with sensors to keep tabs on what is going on. The unit has a hydrostatic drive on one side of the combiner and straight in mechanical on the other side. You set a target speed and the computer sets the engine RPM and the IVT to maintain this speed at maximum economy.
 

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