Tweet
Ok, so I decided to make an auto-traversing coil winder on the cheap. I ripped open an old dot matrix rrinter for a 7.5 deg stepper & it went from there.
Essentially, the main winding motor is an old DC cooling fan. I've hot glued a drill chuck into the centre of it (tricky!). I'm feeding magnet wire onto the main motor via a nylon threaded (helix) rod...the rod is turned to & fro by a stepper motor. The stepper gets steps from the main motor because I mounted magnets on the spinning bit ...as these magnets pass a reed switch on the fan chassis, you get a switched effect to a PIC chip. I then learned how to program PICs. (this is a pretty good route because no matter how fast the main motor spins, the nylon threaded rod stays in synch ..due to it deriving it's pulses from the main motor magnets)
All in all it's costs me about $10 (for the drill chuck, a nylon rod & PIC).
I gave it its first trial run this morning - it works pretty well, except when changing direction! (perhpas there's a market for very very long coils with only one layer?)
What happens at the end of the coil, the nylon rod is reversed by the stepper & starts turning the other way taking the feed wire with it...however the wire feeding onto the main motor has some reluctance to the change of direction..though it eventually yield when the wire has moved so far away at such an angle to force the change. This resulted in an uneven first layer & subsequent layers.
(this isn't mine but it's pretty much the same concept - http://www.youtube.com/watch?v=Q_Cd_5zTt9w )
I'm sure this is a conventional problem that everyone hits with such a device...but what's the solution?!!
(I'll try & get a youtube video up soon to show the problem - remember though it's butt ugly & wont win any Engineering awards (it might just win the "cheapest coil winder ever award" though!)
Essentially, the main winding motor is an old DC cooling fan. I've hot glued a drill chuck into the centre of it (tricky!). I'm feeding magnet wire onto the main motor via a nylon threaded (helix) rod...the rod is turned to & fro by a stepper motor. The stepper gets steps from the main motor because I mounted magnets on the spinning bit ...as these magnets pass a reed switch on the fan chassis, you get a switched effect to a PIC chip. I then learned how to program PICs. (this is a pretty good route because no matter how fast the main motor spins, the nylon threaded rod stays in synch ..due to it deriving it's pulses from the main motor magnets)
All in all it's costs me about $10 (for the drill chuck, a nylon rod & PIC).
I gave it its first trial run this morning - it works pretty well, except when changing direction! (perhpas there's a market for very very long coils with only one layer?)
What happens at the end of the coil, the nylon rod is reversed by the stepper & starts turning the other way taking the feed wire with it...however the wire feeding onto the main motor has some reluctance to the change of direction..though it eventually yield when the wire has moved so far away at such an angle to force the change. This resulted in an uneven first layer & subsequent layers.
(this isn't mine but it's pretty much the same concept - http://www.youtube.com/watch?v=Q_Cd_5zTt9w )
I'm sure this is a conventional problem that everyone hits with such a device...but what's the solution?!!
(I'll try & get a youtube video up soon to show the problem - remember though it's butt ugly & wont win any Engineering awards (it might just win the "cheapest coil winder ever award" though!)
Comment