Structure Design and Simulation Analysis of the Dynamic Inspection Instrument for Middle and Large Worm Gear Pairs

Duan Yuancong; Zheng Yong; Peng Donglin; Xu Shi; Wang Yangyang

doi:10.16578/j.issn.1004.2539.2023.06.017

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Structure Design and Simulation Analysis of the Dynamic Inspection Instrument for Middle and Large Worm Gear Pairs

Test·Analysis | 更新时间：2023-08-14

- Structure Design and Simulation Analysis of the Dynamic Inspection Instrument for Middle and Large Worm Gear Pairs
- Journal of Mechanical Transmission Vol. 47, Issue 6, Pages: 115-120(2023)
- 作者机构：
  
  1.重庆理工大学机械检测技术与装备教育部工程中心，重庆 400054
  2.重庆理工大学时栅传感及先进检测技术重庆市重点实验室，重庆 400054
- 作者简介：
- 基金信息：
- DOI：10.16578/j.issn.1004.2539.2023.06.017
  CLC：
- Published：15 June 2023，
  
  Received：19 April 2022，
  
  Revised：06 May 2022，
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段园聪,郑永,彭东林等.中大型蜗轮副动态检查仪结构设计与仿真分析[J].机械传动,2023,47(06):115-120.

Duan Yuancong,Zheng Yong,Peng Donglin,et al.Structure Design and Simulation Analysis of the Dynamic Inspection Instrument for Middle and Large Worm Gear Pairs[J].Journal of Mechanical Transmission,2023,47(06):115-120.
段园聪,郑永,彭东林等.中大型蜗轮副动态检查仪结构设计与仿真分析[J].机械传动,2023,47(06):115-120. DOI： 10.16578/j.issn.1004.2539.2023.06.017.

Duan Yuancong,Zheng Yong,Peng Donglin,et al.Structure Design and Simulation Analysis of the Dynamic Inspection Instrument for Middle and Large Worm Gear Pairs[J].Journal of Mechanical Transmission,2023,47(06):115-120. DOI： 10.16578/j.issn.1004.2539.2023.06.017.

摘要

为提高蜗轮副传动误差的检测水平，设计了一台适用于中大型蜗轮副传动误差检测的仪器，其具有大尺寸、动态测量、多参数同时测量等优点。阐述了传动误差检测系统的基本构架，以及仪器的总体设计方案；介绍了仪器的工作原理，提出将时栅传感器与仪器相关部件一体化加工的构想，使用SolidWorks进行了关键零部件设计，完成了结构布局和虚拟装配；通过Ansys Workbench对横梁装配体进行有限元分析并进行了结构优化，优化后1阶固有频率提升23.95%，各阶固有频率对应振幅均明显减小。

Abstract

In order to improve the detection level of transmission error of worm gear pairs

an instrument suitable for measuring transmission error of middle and large worm gear pairs is designed. This research describes the basic framework of the transmission error detection system and the overall design of the instrument. The working principle of the instrument is introduced

and the idea of integrating the time-grating sensor and the related parts of the instrument is put forward. SolidWorks is used to design the key parts and complete the structure layout and virtual assembly. Finite element analysis and structural optimization are carried out on the beam assembly by the Ansys Workbench. After optimization

the first-order natural frequency increases by 23.95%

and the corresponding amplitudes of all natural frequencies decrease significantly.

关键词

蜗轮副传动误差时栅传感器SolidWorksAnsysWorkbench

Keywords

Worm gear pairTransmission errorTime-grating sensorSolidWorksAnsys Workbench

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