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Modelo 3D Compact 44:1 Harmonic Drive por Luke no Printables

Descrição

44:1 compact harmonic drive

I wanted to build a Harmonic Drive gearbox that was as small as possible and had the highest possible gear ratio, and that's what came out of it. Another goal was to design a flexspline that works almost stress-free. Here, the Flexspline was loosely inserted into a toothing that is connected to the housing with no play and torsion-proof.
The circular spline (output shaft) is held stable in ball bearings, so it does not deform under load. Last but not least, the direction of rotation is the same as that of the motor.

BOM:

 

Printsettings:

  • Flexspline: 0.25mm nozzle, layerheight 0.12mm, PETG
  • Flexspline_Outer_Ring: 0.25mm nozzle, layerheight 0.12mm
  • Circular_Output: 0.25mm nozzle, layerheight 0.12mm
  • all other parts: you can use a 0.4mm nozzle and a strong material like ABS

 

!!! Important !!!

These are precision parts with very tight tolerances, so the printer has to be set very well.
In order to ensure dimensional accuracy, you must first calibrate your printer best possible. Flow, pressure advance (klipper) linear advance (marlin) and including the shrink factor of the filament, because that makes the difference between success and failure.

To calibrate your shrinkfactor, use this: [https://www.printables.com/de/model/308591-shrinkfactor-calibation](https://www.printables.com/de/model/308591-shrinkfactor-calibation)

 

A disadvantage is that the output shaft is not stable in the Z-axis, you can pull it out. If you want to use this drive, you still have to plan for a bearing for the shaft. To facilitate centering, there are 2 centering aids on the front panel.

 

Alterntive wavegenerator for more torque

2023-05-06

At higher loads, the flexspline deforms in the free spaces, which has a negative effect on the mechanics. To solve this problem, the Flexspline must be supported and guided at many points, resulting in a precisely defined ellipse with no degrees of freedom. This achieves maximum power transmission.
The new wavegenerator is now also guided along the entire motor shaft, which enables more precision and torque.
The M4 nut in the middle is used to pull the wave generator off the motor shaft again. To do this, simply screw in an M4 screw.
The 12 small bearings are attached with 12 M3x10 screws. You have to drill the threads into the wave generator with a tap beforehand. Place a shim under each of these ball bearings.

New parts:

  • ElipticBearings_WaveGenerator.stl
  • ElipticBearings_WaveGenerator_Cap.stl

BOM:

 

This project is still under development

Printables

Compact 44:1 Harmonic Drive

Publicado em 1 de mar de 2024

75
Curtidas
324
Downloads
Categoria Engineering
Tags
gears wave drive strain gearbox steppermotor nema17 harmonic harmonicdrive strainwavegear flexspline wavegenerator circularspline
Licença Creative Commons — Attribution — Noncommercial — Share Alike
Arquivos (11)
Bottom_Housing.stl 1.6 MB
Flexspline.stl 21.5 MB
FlexSpline_Outer_Ring.stl 4.9 MB
Circular_Output.stl 6.2 MB
Circular_Output_Demo.stl 5.6 MB
WaveGenerator_Mid.stl 523.3 KB
WaveGenerator_Top.stl 813.1 KB
Bearing_Spacer.stl 199.1 KB
ElipticBearings_WaveGenerator_Cap.stl 524.2 KB
ElipticBearings_WaveGenerator_Bottom.stl 12.3 MB
HarmonicDrive_Nema17_44-1_pankake.step 22.6 MB
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