Ir para conteúdo
3DFinder
Entrar

Você está no 3DFinder

Buscamos em Thingiverse, MakerWorld e Printables ao mesmo tempo para te dar o melhor de cada uma.

Buscar mais como este
Modelo 3D Auto-winding drum for weight-driven clock por dimock no Thingiverse

Descrição

This is a weight drum for a mechanical clock, incorporating an automatic winding system using a stepper motor and Ardunio. It allows a clock to be fully weight-driven and continue to run even while the weight is being wound by a motor.

The weight cord is wound around the outer drum, with torque transferred to the inner drum via a freewheel. The inner drum is geared to a separate escapement mechanism to power the clock. The motor sits inside the inner drum and engages a gear on the outer drum. During winding, the motor turns the outer drum relative to the inner drum, with torque now transferred to the inner drum via the motor instead of the freewheel. An external potentiometer measures the position of the outer drum to determine when to start and stop winding.

I used it to drive A26's triaxial tourbillon (https://www.thingiverse.com/thing:2761730), connected to my planetary clock (https://www.thingiverse.com/thing:4055592). Fair warning, the motor's maximum power is roughly equal to the power required to drive the tourbillon/clock system, meaning the motor stalls quite a bit and sometimes can't make forward progress. I'd like to change it to a NEMA 14 or larger in the future (should be enough room).

Components used:

Basic assembly info (I recommend reviewing the Tinkercad model before proceeding):

  1. Make electrical connections between Arduino, driver board, and slip ring (see below).
  2. File all bearing races to remove any burrs.
  3. Attach drivegear to motor.
  4. Attach motor and freewheel to innerdrum with M3 screws. Do not tighten.
  5. Attach slip ring flange to innerdrumrearspokes with M3 screws. Use the side where the spokes are flush with the inner ring.
  6. Insert innerdrumrearspokes into framerear. Align the bearing insertion holes (on the side opposite the slip ring) and insert 6mm pellets. Ensure that the assembly turns freely.
  7. Attach Arduino and driver board to innerdrum with hot glue. Use the larger diameter half of the slip wing (the one attached to the flange).
  8. Insert innerdrumrearspokes assembly into innerdrum. If the fit is too loose, add a few dabs of hot glue.
  9. Insert 6 pellets into the cutouts on freewheel. They should stay in place if the freewheel is oriented vertically, otherwise you can wrap them with a piece of paper before attaching the outer drum.
  10. Attach outerdrumgear to outerdrum using the alignment pegs. Glue in place.
  11. Slide outerdrum over innerdrum. Ensure that the freewheel functions properly. As viewed from the front side, the outer drum should engage the inner drum when spinning clockwise and should spin freely in the other direction.
  12. Align the bearing insertion holes between innerdrum and outerdrum, and insert 6mm pellets. Ensure that the assembly turns freely.
  13. Insert pellets between outerdrum and freewheel (middle race on freewheel).
  14. Adjust the position of the motor to achieve a proper mesh between drivegear and outerdrum. Tighten motor screws.
  15. Insert freewheel into framefront and insert pellets.
  16. Attach framebot using M3 screws. Do not tighten.
  17. Attach pot to framebot and add positiongear. Secure with M2 setscrew.
  18. Rotate framebot to get a proper mesh between positiongear and outerdrumgear. Tighten framebot screws.
  19. Attach framerear to mounting surface and escapement mechanism.
  20. Complete connections between potentiometer, slip ring, and power (5V).

Arduino info:

Tinkercad: https://www.tinkercad.com/things/gsawV8K9iF8-freewheel-drum https://www.tinkercad.com/things/1DgcbQbeJzv-freewheel-drum-assembly

Freewheel design by Corona688: https://www.thingiverse.com/thing:207389

Thingiverse

Auto-winding drum for weight-driven clock

56
Curtidas
0
Downloads
58
Coleções
Tags
clock Mechanical Clock
Licença Creative Commons - Attribution
Arquivos (15)
freewheel.stl 539.4 KB
framebot.stl 33.5 KB
drivegear.stl 26.3 KB
innerdrumfrontspokes.stl 103.6 KB
innerdrumrearspokes.stl 248.8 KB
outerdrumspokes.stl 289.6 KB
framefront.stl 255.1 KB
framerear.stl 274.6 KB
outerdrum.stl 356.8 KB
innerdrum.stl 361.3 KB
positiongear.stl 61 KB
outerdrumgear.stl 157.5 KB
freewheel.stl 534.7 KB
outerdrumspokes.stl 333.1 KB
positiongear.stl 59.7 KB
Ver no Thingiverse (abre em nova aba)

Gostou deste modelo? Crie uma conta grátis para salvar seus favoritos e voltar a eles depois.

Criar conta