Why this instead of 4 motor hbot or 4 motor corexy? Less mass to move around and probably hit even greater speeds, especially since u r using nema 23. Any problems with belt stripping?
Heya. I love your cartesian design and setup. A lot of inspiration for me! Now, one qestion: why two motors for "X" axis? It seems like they´re not needed at all, but.... Is it weight distribution reasons?
maybe, but there is an other, and way better, setup configuration that exist that diminish the weight of the X carriage(extruder) and the Y carriage carriage(extruder strut). For an exemple, the simple usage of a bowden extruder significantly lower the weigh, so the inertia, as well as the necessity of using 2x nema23 stepper motor. This setup is obviously strong, there is no doubt on that !! But it is also very heavy and it's a huge draw back when we consider the vibration caused by inertia. To compensate that, be built a heavy and strong structure and used big and heavy motor to move that heavy structure... it's a no end loop !! Building strong and light is the way to go. COREXY has built a 1 motor per axis setup which is lightweight and strong and fast.
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Why this instead of 4 motor hbot or 4 motor corexy? Less mass to move around and probably hit even greater speeds, especially since u r using nema 23. Any problems with belt stripping?
Heya. I love your cartesian design and setup. A lot of inspiration for me! Now, one qestion: why two motors for "X" axis? It seems like they´re not needed at all, but.... Is it weight distribution reasons?
maybe, but there is an other, and way better, setup configuration that exist that diminish the weight of the X carriage(extruder) and the Y carriage carriage(extruder strut). For an exemple, the simple usage of a bowden extruder significantly lower the weigh, so the inertia, as well as the necessity of using 2x nema23 stepper motor.
This setup is obviously strong, there is no doubt on that !! But it is also very heavy and it's a huge draw back when we consider the vibration caused by inertia. To compensate that, be built a heavy and strong structure and used big and heavy motor to move that heavy structure... it's a no end loop !!
Building strong and light is the way to go. COREXY has built a 1 motor per axis setup which is lightweight and strong and fast.
Thats pretty damn quick! Step rate exceed mcu capabilities on the 6th test?
Unfortunately, the 32bit board could not deliver anymore.
SKR 1.1
@@Hey_Tech_ You could use a 64-bit board with Klipper
Где он печатает? А так и моего скорость держит 500)