HI , Need help calibration of my Reprap Prusa i3 DIY 3d Printer kit, 1.75mm model 802m , good kit, The problems i have is using cal tests 10mm cube ok but larger tests eg. test 140mm sq and 90mm circle.
Am i doing this right, to set cal in mm for x - 140mm reqd/ 139.5mm actual = 1.0035842 x 140 = new value is 140.50179
my setting in firmwere is currently 100.0000 for x do i add or subtract this new value 0.50179 /
y - 140mm reqd/ 139.6mm actual = 1.0028653 x 140 = new value is 140.40115
z - 30mm reqd/ 29.8mm actual = 1.0067114 x 30 = new value is 30.201342
firmwere setting 400.0000
plus my circles are out x=69.4 and y=69.6 how do i keep them uniform, values ok if rest firmwere is x and y set at 100.0000.
Hi, Reprapper here: You’re calibrating steps/mm, right? If so, don’t use the archaic method of printing a piece, measuring the dimensions, and calculating the difference. Instead (for the XYZ axes specifically, not for E) do some math and calculate the exact number for steps/mm, then calibrate your E so that with the new steps/mm for XYZ the parts come out with the proper dimensions. If you don’t want to do math you can use the Prusa Calculator here: RepRap Calculator - Original Prusa 3D Printers 1 The most common Prusa i3 setup I see is 20t GT2 belts for the X and Y axes, M5 threaded rods for the Z axis, and 1.8 degree steppers and 1/16 microstepping for all axes. If that’s what you have, I can go ahead and tell you your steps/mm for {x, y, z} should be {80, 80, 4000}. Hope this helped, -Karl
The belts and leadscrew accuracy should be close enough ( unless you have really crappy hardware ) to be within tolerances. The real issues as others have mentioned in the thread:
1) steps per mm for each axis based on hardware. Use the prusa calculator thats why he provides it!
2) tightness of the belts ( and anything else - there should be little to no play/wiggle ) and leadscrew / nut
3) esteps
I switched my X/Z chassis on my printer recently. The accuracy is just as tight was with the previous setup. All I had to change in the firmware/config was to account for tooth count of the new x config. The only pain point I had was getting the z min endstop positioned properly with the new setup - I kinda hate mechanical endstops for fine adjustment but the end result is worth it
Other factors which can contribute to this are many. I have found the most common one with something like this - bearings and linear rail are not in parity. EG the diameter of the linear rods is crap or you have crap bearings. Look for score marks on the linear rails - if you see them you have a problem! ( Other problems: stepper current, over-heating of the driver and/or stepper, crap steppers - I’m sure there are others )
