The panel gets a periodic load which tends to move it up & down and hence the connecting rod drives the eccentric lobe. Which in result rotation of the shaft. That's all..
Oh yeah.. Sorry for the error in the terminology.. I need to run the crankshaft.. And i need to design the connecting rod and eccentric lobe and get the dimension of the shaft. Is there a analytical design procedure that you could help me out with.
it is a moving part with respect to the crankshaft.. I'm yet to model the whole assembly. but i did draw you the particular part. hope you can make out something out of it
Guys does anyone know the design procedure for an eccentric lobe and a crankshaft. Crank is subjected to maximum load 350 kg periodically. As load is applied the crank rotates the eccentric for about 50 degrees and runs the shaft connected to the eccentric runner. Its urgent. Can anyone help out.
its is a reciprocating 1. I'm using springs to provide a recoil to the panel. apart from the enrgy absorbed by the spring i need the it provide me the spin. I'm using gear trains to maximize the speed. but its totally depended on the displacement of the panel due to the load and the spin...
Can anyone suggest me a mechanism which can provide me a good rpm when I'm converting a translatory motion into rotary one. I've crankshaft in ma mind. The load is of about 250 kgs and its loaded on a panel and I need to convert that linear downward motion into rotary and with a good rpm. And...