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Modelo 3D Schmidt Coupling por Dagaz no Thingiverse

Descrição

The Schmidt Coupling

This 3D Printed Engineering Project was inspired by the work of Richard Schmidt, who in February 1967 was granted a patent for this style of coupling. This coupling, called the Schmidt Offset Coupling, is characterised by its ability to transmit constant angular velocity during dynamic radial output shaft displacements. The Schmidt Offset Coupling has no variation in input and output shaft velocities during operation, even when the output shaft is operating at its maximum radial displacement.

The Schmidt Offset Coupling is a compact, robust solution for high torque and low speed transmission. Some of its limitations, however, include having higher mass moment inertias and being costlier to manufacture. When the input and output shafts are collinear during operation, furthermore, the coupling vibrates due to its centre of mass being offset from its axis of rotation.

For further insight, please follow the link below:

https://www.thomasnet.com/articles/hardware/all-about-schmidt-couplings-attributes-and-specifications/

Thingiverse

Schmidt Coupling

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Tags
coupling engineeringproject mechanical schmidt schmidt coupling
Licença Creative Commons - Attribution
Arquivos (42)
Schmidt_Coupling_-_Link_Retaining_Pin-8.STL 37.8 KB
Schmidt_Coupling_-_Link_Retaining_Pin-7.STL 37.8 KB
Schmidt_Coupling_-_Spindle_Axle-1.STL 24.7 KB
Schmidt_Coupling_-_Link-7.STL 85 KB
Schmidt_Coupling_-_Position_Indicator-2.STL 1.1 KB
Schmidt_Coupling_-_Link_Retaining_Pin-4.STL 37.8 KB
Schmidt_Coupling_-_Link-6.STL 85 KB
Schmidt_Coupling_-_Input_Shaft-1.STL 146 KB
Schmidt_Coupling_-_Link-10.STL 85 KB
Schmidt_Coupling_-_Link_Retaining_Pin-5.STL 37.8 KB
Schmidt_Coupling_-_Lapped_Retaining_Pin-2.STL 43.8 KB
Schmidt_Coupling_-_Spindle_Axle-2.STL 24.7 KB
Schmidt_Coupling_-_Inner_Tri-Strut-4.STL 135.2 KB
Schmidt_Coupling_-_Link_Retaining_Pin-3.STL 37.8 KB
Schmidt_Coupling_-_Link-3.STL 85 KB
Schmidt_Coupling_-_Link-1.STL 85 KB
Schmidt_Coupling_-_Stand-2.STL 56.9 KB
Schmidt_Coupling_-_Link-8.STL 85 KB
Schmidt_Coupling_-_Lapped_Retaining_Pin-6.STL 43.8 KB
Schmidt_Coupling_-_Inner_Tri-Strut-1.STL 135.2 KB
Schmidt_Coupling_-_Link-5.STL 85 KB
Schmidt_Coupling_-_Inner_Tri-Strut-2.STL 135.2 KB
Schmidt_Coupling_-_Link-2.STL 85 KB
Schmidt_Coupling_-_Output_Shaft-1.STL 123.8 KB
Schmidt_Coupling_-_Input_Shaft_Spacer-1.STL 61 KB
Schmidt_Coupling_-_Crank_Arm-1.STL 63.6 KB
Schmidt_Coupling_-_Inner_Tri-Strut-3.STL 135.2 KB
Schmidt_Coupling_-_Crank_Arm-2.STL 63.6 KB
Schmidt_Coupling_-_Lapped_Retaining_Pin-1.STL 43.8 KB
Schmidt_Coupling_-_Lapped_Retaining_Pin-3.STL 43.8 KB
Schmidt_Coupling_-_Link-9.STL 85 KB
Schmidt_Coupling_-_Lapped_Retaining_Pin-5.STL 43.8 KB
Schmidt_Coupling_-_Lapped_Retaining_Pin-4.STL 43.8 KB
Schmidt_Coupling_-_Link_Retaining_Pin-6.STL 37.8 KB
Schmidt_Coupling_-_Link-11.STL 85 KB
Schmidt_Coupling_-_Link-4.STL 85 KB
Schmidt_Coupling_-_Position_Indicator-1.STL 1.1 KB
Schmidt_Coupling_-_Link-12.STL 85 KB
Schmidt_Coupling_-_Spindle-1.STL 45.8 KB
Schmidt_Coupling_-_Stand-1.STL 56.9 KB
Schmidt_Coupling_-_Stand_Foot-1.STL 4.2 KB
Schmidt_Coupling_-_Spindle-2.STL 45.8 KB
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