wiseone

Powered Yarn Spinner

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wiseone
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Powered Yarn Spinner 3d model
wiseone
wiseone
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Image 8 of 20
Powered Yarn Spinner 3d model
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Powered Yarn Spinner 3d model
Powered Yarn Spinner 3d model
Powered Yarn Spinner 3d model
Powered Yarn Spinner 3d model
Powered Yarn Spinner 3d model
Powered Yarn Spinner 3d model
Powered Yarn Spinner 3d model
Powered Yarn Spinner 3d model
Powered Yarn Spinner 3d model
Powered Yarn Spinner 3d model
Powered Yarn Spinner 3d model
Powered Yarn Spinner 3d model
Powered Yarn Spinner 3d model
Powered Yarn Spinner 3d model
Powered Yarn Spinner 3d model
Powered Yarn Spinner 3d model
Powered Yarn Spinner 3d model
Powered Yarn Spinner 3d model
Powered Yarn Spinner 3d model
Powered Yarn Spinner 3d model

This project is for those that have a need to spin yarn into a tightly meshed ball so that the yarn can be neatly stored or used. There are inexpensive manual yarn winders for this spinning purpose. These winders typically have a handle for the user to rotate to spin the yarn and cost typically US$20-30. Powered winders are also available, but at a much higher price of US$300-600.

My project creates an electrically powered yarn winder. The electric winder sources some parts from a manual winder, adds an electric motor, all combined with custom designed 3D printed parts and power by USB-C.

I welcome those wishing to reproduce my yarn spinner as I built it. I do warn, this project is for an experienced builder. The following skills will be required:

  • Ability to cut steel
  • Ability to source like components.
  • Ability to 3D print my designed parts.
  • Ability to solder electrical wires.

Parts List:

  • Yarn spinner (for parts)
  • 3D printed parts.
  • RS445-ST/18140/DV DC motor with 14 pins fitted gear.
  • MT3608 DC-DC inverter module.
  • 5mm 40mm bolt, washers and 2 nuts.
  • 6mm 20mm bolt, washers and 2 nuts.
  • Toggle switch SPST
  • USB-C panel mount socket.
  • Potentiometer 20KOhm, panel mount.
  • Resistor 10 Ohm, 0.25W
  • 5V LED indicator
  • 6mm knob
  • Electrical wire, typically 22awg.

To get sufficient torque from the electric motor, gears are used. The two motor drive gears provide a ratio of about 3:1, transforming surplus speed into extra torque.

The DC motor I used is a salvaged RS445-ST/18140/DV motor with a metal gear with 14 teeth. Ø=34mm x 52mm and weighs about 90g. These motors can be purchased new or used for around US$10. eg. https://www.ebay.com/itm/295128355202

The electric motor is a nominal 12V DC. I control the motor speed by starting with 5V from a USB source and via a buck inverter (MT3608), vary the voltage from 5 to around 12V. The motor typical is running at 3-4W of power, hence a simple 5W USB plug pack can comfortably power the unit.

My print is made with eSUN PLA+ 1.75mm red filament, with 0.2mm layer height and 15% infill on a Bambu X1 Carbon printer. See 3MF for brim advice. Supports are not required, but can improve the finish of some parts.

I hope you can find this print useful, too.

Remember to leave me some feedback or even a tip to keep me enthused to make more of these drawings.

For more of my models, see my main uploads site: https://makerworld.com/en/u/3687936443


14 Likes17 DownloadsMarch 5, 2024


14 Likes17 DownloadsMarch 5, 2024