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基于切齿高阶运动的螺旋锥齿轮齿面修缘方法 被引量:3

Tooth surface relief method of spiral bevel gear based on high-order cutting motion
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摘要 提出了一种利用机床柔性使用常规直刃刀具进行螺旋锥齿轮修缘的方法。根据不同刀具建立了螺旋锥齿轮修缘齿面的求解方程,并以此建立了螺旋锥齿轮啮合分析有限元模型分析对比了不同刀具修形对应修缘齿面的传动性能。根据对比结果选取圆弧刃刀具作为切齿高阶运动齿面修缘的优化目标,在齿面方程引入高阶运动系数并建立了基于高阶切齿运动的修缘齿面逼近优化计算模型,求解获得新的切齿调整参数得到近似修缘齿面。采用有限元分析和滚动检查实验对优化获得的修缘齿面和未修缘齿面进行了传动性能验证,其结果表明:切齿高阶运动逼近的修缘齿面啮合时的1阶振动幅值减小约16.6%,可以有效提高齿轮副的传动性能。 A method of approximate tooth surface relief in use of standard cutting tool was proposed with the advantage of machine flexibility.The tooth surface equation was established according to different types of modified cutting tool,the relived tooth surface was solved and the meshing FEA model was established.According to the gear meshing simula-tion of the FEA method,the transmission performances of different relived tooth surfaces were compared,and the arc-edged cutting tool was chosen as the optimization target according to the result.The higher order cutting motion was introduced,and the optimization model of tooth surface approaching was established according to the optimization target.The transmission performances of optimal tooth surface and unrelieved tooth surface were compared.Results showed that the first-order vibration amplitude decreased approximately16.6% when optimal tooth surface was meshed,and the gear transmission performance was effectively improved.
作者 张卫青 文怿恺 郭晓东 黄刚 ZHANG Weiqing;WEN Yikai;GUO Xiaodong;HUANG Gang(Key Laboratory of Robot and Intelligent Manufacturing Technology,Education Commission of Chongqing,School of Mechanical Engineering,Chongqing University of Technology,Chongqing 400054 ,China;Industrial Equipment Digital Manufacturing and Control Key Laboratory of Jiangsu Province,School of Mechanical and Power Engineering,Nanjing Tech University,Nanjing 211816 ,China)
出处 《航空动力学报》 EI CAS CSCD 北大核心 2019年第1期238-247,共10页 Journal of Aerospace Power
基金 国家自然科学基金(51775073) 江苏省工业装备数字制造及控制技术重点实验室开放课题(DM2015002) 重庆理工大学研究生创新基金(YCX2016108)
关键词 螺旋锥齿轮 齿面修缘 齿面方程 切齿高阶运动 啮合性能 spiral bevel gear tooth surface relief tooth surface equation high-order cutting motion meshing performance
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