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Modelo 3D Compliant Lab Jack por Nokedli no Printables

Descrição

This fully 3D-printed lab jack was developed as a university project with the goal of using a compliant mechanism instead of conventional joints to achieve smooth operation with zero backlash. Despite its flexible TPU parts, it has a maximum payload similar to conventional designs and does not bend under load. Fine-tuned tolerances allow for smooth and precise height adjustments. The top surface has M4-sized mounting holes arranged in squares with side lengths 20, 40 and 60mm for attaching equipment.
 

Specs:

  • Max payload: 20kg (while still adjustable)

  • Min height: 46mm

  • Max height: 104mm

  • Travel: 58mm

  • Plate width: 96mm

  • Plate length: 190mm

  • Mounting options: M4-sized holes with 20, 40, 60mm spacing

  • Total weight: 250-300g (depending on print settings)

  • No supports

 

Parts and Assembly
All parts are available as STL and STEP files, while some parts need to be printed more than once. The file “Lab Jack Assembly.step” contains the whole model and can be used as a reference if opened in a CAD program. Due to the asymmetric thread shape, the thread can only be inserted in one direction, which is indicated by an arrow. The compliant parts need to be attached last, together with the plates.
There is also a separate version of the compliant parts available for printing with PETG. However, it will have limited travel and maximum payload compared to the TPU version.
You only need to print one set of compliant parts — either the TPU or PETG version.
 

Print settings
The 3MF project files are grouped by filament type and contain all the parts needed with custom print settings.

For example, the seam inside the holes was adjusted to allow for smooth rotation of the thread shaft:

For the PETG version of the compliant parts, it's beneficial to print the outer perimeter first, because otherwise the surface can be uneven, which creates stress points when the parts are bent. Also make sure the seam is not at the bending points.

The model includes custom-designed supports where necessary, so no slicer-generated supports are needed:

 

 

Filament
PLA is recommended for the thread and rods for high stiffness, TPU (98A) for the compliant parts and PETG for all other parts.

Printables

Compliant Lab Jack

Publicado em 22 de abr de 2026

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Categoria Tools
Tags
jack tpu lab compliant lift bend compliantmechanism bending labjack
Licença Creative Commons — Attribution — Noncommercial — Share Alike
Arquivos (32)
PETG.3mf 14.4 MB
PLA.3mf 5.9 MB
TPU.3mf 463.7 KB
Base Plate.stl 1.6 MB
Top Plate.stl 2 MB
Compliant TPU.stl 1.2 MB
Compliant PETG.stl 316.4 KB
Thread.stl 5.2 MB
Thread Endcap.stl 379.4 KB
Washer.stl 132 KB
Knob.stl 2.4 MB
Hinge 1.stl 552.8 KB
Hinge 2.stl 676.1 KB
Hinge 3.stl 1.6 MB
Hinge 4.stl 656.5 KB
Rod.stl 99.3 KB
Rod Endcap.stl 264.4 KB
Base Plate.stp 725.4 KB
Top Plate.stp 762.9 KB
Compliant TPU.stp 574.6 KB
Compliant PETG.stp 121.9 KB
Thread.stp 940.3 KB
Thread Endcap.stp 81.7 KB
Washer.stp 17.8 KB
Knob.stp 345.7 KB
Hinge 1.stp 408 KB
Hinge 2.stp 452.3 KB
Hinge 3.stp 624.8 KB
Hinge 4.stp 423.5 KB
Rod.stp 121.2 KB
Rod Endcap.stp 92.9 KB
Lab Jack Assembly.stp 5.5 MB
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