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Threadless ball screw bench test for position deviation.
by jspark
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I made the test bench in order to test the threadless ball screw system for position deviation.
The test bench was designed for 6.2T MDF laser cutting.
Please check out the video on Youtube http://youtu.be/NA_9GeFxV0o.
The testing starts from 5:47 on video.
The threadless ball screw carriage starts from X0.0 point, and after some moving, it returns to X0.0 that it checked out by dial-gauge.
The maximum carriage speed was F24000 -> 400 mm/sec.
In a short testing, the threadless ball screw shows big deviation.
I think I have to try to find the reducing conditions of the deviation.
--- Jan 4. 2015 ---
Please checkout following link..
zero-max.com/rohlix-linear-actuators-c-24-l-en.html
they say as follows..
"Positioning Accuracy -- The Roh’lix is a friction drive device and as a result, will show an accumulated error that is, in general, up to 0.002 inches per shaft revolution. Where greater accuracy is required, linear encoders can be used to indicate
The test bench was designed for 6.2T MDF laser cutting.
Please check out the video on Youtube http://youtu.be/NA_9GeFxV0o.
The testing starts from 5:47 on video.
The threadless ball screw carriage starts from X0.0 point, and after some moving, it returns to X0.0 that it checked out by dial-gauge.
The maximum carriage speed was F24000 -> 400 mm/sec.
In a short testing, the threadless ball screw shows big deviation.
I think I have to try to find the reducing conditions of the deviation.
--- Jan 4. 2015 ---
Please checkout following link..
zero-max.com/rohlix-linear-actuators-c-24-l-en.html
they say as follows..
"Positioning Accuracy -- The Roh’lix is a friction drive device and as a result, will show an accumulated error that is, in general, up to 0.002 inches per shaft revolution. Where greater accuracy is required, linear encoders can be used to indicate
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