Hello - I am designing a shaft coupling that needs to be able to handle 2200 Nm under normal operating conditions, but I would like it to break at around 3500 Nm. This device will have a long life, but it will only be operated up to 1000 cycles total so I'm not expecting fatigue to play a big factor.
The shaft is about 50mm in diameter, with the coupling extending out beyond that.
Ideally I would drive a pin through one side of the outer cylinder, into a hole drilled through the shaft, and out through another hole in the outer cylinder. I have a few concerns about this though:
Is it reasonable that I could assume that I could tolerance this so that the pin is in double shear? This would allow me to use a smaller pin, and distribute the load more evenly.
I am confident in my ability to multiply Sy by .577 to figure out the shear strength, but I've read different suggestions about putting a notch in the pin. Should this be radiused so as not to create a stress concentration? Would going from a 10mm pin to a 9mm notch be enough to guarantee breaking at the right point?
Finally, I have learned from reading other forums that I should use hardened bushings for the contacts within both parts. Because these are concentric cylinders, any flat bushing that I put in will not sit face to face with the other bushing. Do I need to consider bending stresses in the pin because of this? If the bushings are reasonably close together are they negligible?
Thank you!
The shaft is about 50mm in diameter, with the coupling extending out beyond that.
Ideally I would drive a pin through one side of the outer cylinder, into a hole drilled through the shaft, and out through another hole in the outer cylinder. I have a few concerns about this though:
Is it reasonable that I could assume that I could tolerance this so that the pin is in double shear? This would allow me to use a smaller pin, and distribute the load more evenly.
I am confident in my ability to multiply Sy by .577 to figure out the shear strength, but I've read different suggestions about putting a notch in the pin. Should this be radiused so as not to create a stress concentration? Would going from a 10mm pin to a 9mm notch be enough to guarantee breaking at the right point?
Finally, I have learned from reading other forums that I should use hardened bushings for the contacts within both parts. Because these are concentric cylinders, any flat bushing that I put in will not sit face to face with the other bushing. Do I need to consider bending stresses in the pin because of this? If the bushings are reasonably close together are they negligible?
Thank you!