Dynamic simulation analysis of spur gear space driven system with large inertia load

• Main Authors: Chao Li, Jianfeng Ma, Xuehao Yin, Hongbin Yang
• Format: Article
• Language: English
• Published: JVE International 2020-02-01
• Series: Journal of Vibroengineering
• Subjects: spur gear; backlash; adams; dynamic response; large inertia load
• Online Access: https://www.jvejournals.com/article/20644

The wide application of large inertia loads in space drive mechanisms is relatively rare in theoretical research. An 8-degree-of-freedom nonlinear dynamic model is established for the time-varying and nonlinear perturbation problems of a large inertia load space drive mechanism. The model is a two-stage spur gear model in which the effects of backlash and time-varying stiffness are considered. The 3D model was imported into ADAMS, and the nonlinear dynamic response of the system was studied by motion simulation. This paper sets up a large inertia experimental device to collect and process data. Comparing experimental results with Adams results, the correctness of the numerical model was verified, and the reasons for the differences between the two were explained. A comparative analysis of the load response under different inertia was performed to illustrate the importance of studying large inertia loads. The simulation results show that the output shaft has a great influence on the dynamic response. Changing the material of the gear can improve the transmission precision of the gear system. The analysis results in this paper enrich the research on the dynamic response of gear system, and provide a theoretical basis for the subsequent design of large inertia load gear system and improve vibration and noise during operation.