wangp1283
Automotive
- Oct 19, 2004
- 56
If a linear movement of a rack is 3mm. And this rack is connected to a
rack and pinion system, which is connected to a gear train with a gear
ratio of 1:60.
At the other end of this gear train is also a rack.
So basically, a linear movement (input) will theoretically cause a
linear movement (output) that's 1/60 of the input.
So in this case, the output rack will move 3mm/60 = 0.05mm. In theory.
But can this be expected in real life? If the system is under load and
it's unidirectional (with no backlash), how accurate can it be?
Does the result depend on any variables such as teeth size, teeth
machining accuracy, number of meshes...
Thanks.
rack and pinion system, which is connected to a gear train with a gear
ratio of 1:60.
At the other end of this gear train is also a rack.
So basically, a linear movement (input) will theoretically cause a
linear movement (output) that's 1/60 of the input.
So in this case, the output rack will move 3mm/60 = 0.05mm. In theory.
But can this be expected in real life? If the system is under load and
it's unidirectional (with no backlash), how accurate can it be?
Does the result depend on any variables such as teeth size, teeth
machining accuracy, number of meshes...
Thanks.