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I hadn't been by in a long time, but yesterday, I did some catchup reading here.
It struck me that a good winding spindle would be a medium-frame stepper motor with 200 or more steps per rotation. The motor itself should produce a good mechanical spindle to mount the necessary winding head on. If this is done well, the motor itself is the whole mechanics of the rotating spindle for single-sided winders. Constructing a tailstock would take a bit more effort.
If you needed gearing up/down, or wanted to introduce some damping to keep step-jitter out of the wind, you could use a DC motor with a double shaft and put a timing belt gear on the back shaft, use the front shaft for mounting the winding head, and then run the stepper on the timing belt. That should dampen steps a lot. The DC motor is only a mechanical spindle, it's not powered; just a convenient way to mount the spindle.
I would put a toothed disk on the back shaft as a counter and for CNC a position encoder.
Driving the traverse is not an issue for hand-guiders, of course. But if you want a machine controlled traverse, you could gen one up from a second stepper driving a 1/4-20 leadscrew inside a guide tube. The guide tube is slit and the actual traverse carrier is mounted to the side of the leadscrew nut and protrudes out of the guide tube. A square-section guide tube works, as does a delrin nut. The guide tube can be embellished with optical interruptors for limit switches.
These two assemblies can then be independently bolted down to a mounting plate. Being steppers, they are already ripe for driving them with a $100 used laptop computer running some of the cheap CNC ware to drive steppers.
I liked this approach because it did away with all of the machining to make a winder. The motors themselves provide the spindle support for the winding head and the traverse. Making the guide tube and traverse is the most complicated thing and this can be done with ordinary garage tools.
It's also possible to drive the stepper motors from a 555 oscillator and hard-logic stepper encoders so you could put a resistor in a footpedal for spindle speed and use a joystick for traverse position.
This seems like a simple way to get a winder up and running, and have the mechanism ready to go to computer control.
I had some ideas about controlling the rotational speed of the spindle to speed up and slow down the spindle as a first order approximation to keeping constant wire speed - and hence tension - so that the necessary compliance on a tensioner was smaller. That needs more work.
It struck me that a good winding spindle would be a medium-frame stepper motor with 200 or more steps per rotation. The motor itself should produce a good mechanical spindle to mount the necessary winding head on. If this is done well, the motor itself is the whole mechanics of the rotating spindle for single-sided winders. Constructing a tailstock would take a bit more effort.
If you needed gearing up/down, or wanted to introduce some damping to keep step-jitter out of the wind, you could use a DC motor with a double shaft and put a timing belt gear on the back shaft, use the front shaft for mounting the winding head, and then run the stepper on the timing belt. That should dampen steps a lot. The DC motor is only a mechanical spindle, it's not powered; just a convenient way to mount the spindle.
I would put a toothed disk on the back shaft as a counter and for CNC a position encoder.
Driving the traverse is not an issue for hand-guiders, of course. But if you want a machine controlled traverse, you could gen one up from a second stepper driving a 1/4-20 leadscrew inside a guide tube. The guide tube is slit and the actual traverse carrier is mounted to the side of the leadscrew nut and protrudes out of the guide tube. A square-section guide tube works, as does a delrin nut. The guide tube can be embellished with optical interruptors for limit switches.
These two assemblies can then be independently bolted down to a mounting plate. Being steppers, they are already ripe for driving them with a $100 used laptop computer running some of the cheap CNC ware to drive steppers.
I liked this approach because it did away with all of the machining to make a winder. The motors themselves provide the spindle support for the winding head and the traverse. Making the guide tube and traverse is the most complicated thing and this can be done with ordinary garage tools.
It's also possible to drive the stepper motors from a 555 oscillator and hard-logic stepper encoders so you could put a resistor in a footpedal for spindle speed and use a joystick for traverse position.
This seems like a simple way to get a winder up and running, and have the mechanism ready to go to computer control.
I had some ideas about controlling the rotational speed of the spindle to speed up and slow down the spindle as a first order approximation to keeping constant wire speed - and hence tension - so that the necessary compliance on a tensioner was smaller. That needs more work.
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