超声研磨齿轮振动系统的设计及实验

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摘要超声振动研齿法是优于传统研齿法的一种新的精加工技术，它能够提高材料的去除率，产生良好的齿面质量，降低齿轮副的噪声，其振动系统的设计是实现超声研齿工艺的关键技术之一。本文基于波传播理论建立了超声研齿振动系统的理论模型，分析了振动系统中变幅杆和螺旋锥齿轮组合体的动力学特性，通过实例分析得到了振动系统的谐振频率和振幅特性。并利用ANSYS进行模态分析与谐响应分析，最终通过阻抗分析与振动性能测试进行实验验证。研究结果表明：理论谐振频率、有限元分析频率、实验测试频率与设计频率相对比，求解偏差分别为0.05%、0.11%和1.42%，均不超过1.5%，而且在螺旋锥齿轮小端面产生的位移振幅非常近似，是可以满足工程应用需要的。这些研究结果可以为这种新的精加工方法的工业应用打下坚实的基础。

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	朱德荣1 邓效忠2 杨建军3 郭浩杰3 刘林男3 李聚波3

关键词 ：超声研齿, 振动系统, 数学模型, 有限元分析, 频率和振幅测试

Abstract：

Ultrasonic vibration lapping gear is a new fine finishing technology which is superior to the traditional lapping method, which can improve the material removal rate, produces a better tooth surface quality and reduce the noise of gear pair, The design of vibration system is one of the key technologies to realize the ultrasonic lapping process. In this paper, the theoretical model of ultrasonic lapping vibration system is established based on wave propagation theory, the dynamic characteristics of the combination of horn and spiral bevel gears in the vibration system are analyzed., the resonance frequency and amplitude characteristics of the vibration system are obtained by an example analysis. And the modal analysis and harmonic response analysis are carried out by using ANSYS. Finally, the experimental verification is carried out by means of impedance analysis and vibration performance testing. The results show that the theoretical resonant frequency, the finite element analysis frequency, the experimental test frequency and the design frequency are compared respectively, the solution error is 0.05%, 0.11% and 1.42%, no more than 1.5%, and the displacement amplitude of the small end face for the spiral bevel gear is very similar, which can meet the requirement of engineering application. These results can lay a solid foundation for the industrial application of this new kind of fine processing method.

Key words： ultrasonic lapping gear vibration system mathematical model finite element analysis frequency and amplitude test

收稿日期: 2016-10-17 出版日期: 2017-10-15

引用本文:

朱德荣1 邓效忠2 杨建军3 郭浩杰3 刘林男3 李聚波3 . 超声研磨齿轮振动系统的设计及实验[J]. 振动与冲击, 2017, 36(20): 195-202.
ZHU De-rong1 DENG Xiao-zhong2 YANG Jian-jun3 GUO Hao-jie3 LIU Lin-nan3 LI Ju-bo3. Design of Vibration System with Ultrasonic Lapping Gear and Its Experiment. JOURNAL OF VIBRATION AND SHOCK, 2017, 36(20): 195-202.

链接本文:

http://jvs.sjtu.edu.cn/CN/ 或 http://jvs.sjtu.edu.cn/CN/Y2017/V36/I20/195

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