Simulation of Meshing of Herringbone Double Circular-Arc Helical Gears using Multibody Dynamic Analysis Software

This paper aims to complete the simulation of meshing of a pair of herringbone double circular-arc helical gears by using the multibody dynamic analysis software, SolidWorks motion. Three types of edge modifications, including no edge modification, chamfered edge modification, and rounded edge modif...

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Bibliographic Details
Published in:Journal of physics. Conference series 2022-06, Vol.2287 (1), p.12023
Main Authors: Lee, C K, Hsieh, C L, Ruan, J C, Wang, C Y
Format: Article
Language:English
Subjects:
Angular velocity
Assembly
Chamfering
Contact angle
Helical gears
Meshing
Physics
Simulation
Software
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Summary:This paper aims to complete the simulation of meshing of a pair of herringbone double circular-arc helical gears by using the multibody dynamic analysis software, SolidWorks motion. Three types of edge modifications, including no edge modification, chamfered edge modification, and rounded edge modification, are applied respectively to the pair of gears. The output angular velocities and contact regions corresponding with the three types of edge modifications are analyzed. Moreover, whether the center distance assembly error affects the output angular velocity and contact regions are analyzed. The results obtained by the simulation of meshing show that rounded edge modification is better than chamfered edge modification, and chamfered edge modification is better than no edge modification. The center distance assembly error has no effect on the output angular velocity and has little effect on the contact regions. Therefore, double circular-arc helical gears are not sensitive to center distance assembly errors.
ISSN:1742-6588
1742-6596
DOI:10.1088/1742-6596/2287/1/012023