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弧齿锥齿轮啮合迹方向角的主动设计方法
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作者 刘光磊 陈晓 卫少帅 《航空发动机》 2017年第3期10-13,共4页
为了实现弧齿锥齿轮设计规定的啮合迹方向,以局部综合法为基础,结合轮齿接触分析技术和无约束优化方法,进行弧齿锥齿轮啮合迹方向角的主动设计,给出了1种实现齿面参考点处啮合迹目标方向角的设计方法。通过1对弧齿锥齿轮的实例演示,论... 为了实现弧齿锥齿轮设计规定的啮合迹方向,以局部综合法为基础,结合轮齿接触分析技术和无约束优化方法,进行弧齿锥齿轮啮合迹方向角的主动设计,给出了1种实现齿面参考点处啮合迹目标方向角的设计方法。通过1对弧齿锥齿轮的实例演示,论证了该方法对弧齿锥齿轮啮合迹方向角进行主动设计的可行性。结果表明:局部综合法中的输入啮合迹方向角必须小于旋转轴平面中规定的角度;在调整啮合迹方向角的过程中,传动误差曲线没有发生畸变。 展开更多
关键词 弧齿锥齿轮:啮合迹方向角 轮齿啮合分析 传动误差曲线
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Mesh stiffness calculation of cycloid-pin gear pair with tooth profile modification and eccentricity error 被引量:5
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作者 LI Xuan CHEN Bing-kui +1 位作者 WANG Ya-wen LIM Teik Chin 《Journal of Central South University》 SCIE EI CAS CSCD 2018年第7期1717-1731,共15页
Cycloid speed reducers are widely used in many industrial areas due to the advantages of compact size, high reduction ratio and high stiffness. However, currently, there are not many analytical models for the mesh sti... Cycloid speed reducers are widely used in many industrial areas due to the advantages of compact size, high reduction ratio and high stiffness. However, currently, there are not many analytical models for the mesh stiffness calculation, which is a crucial parameter for the high-fidelity gear dynamic model. This is partially due to the difficulty of backlash determination and the complexity of multi-tooth contact deformation during the meshing process. In this paper, a new method to calculate the mesh stiffness is proposed including the effects of tooth profile modification and eccentricity error. The time-varying mesh parameters and load distribution of cycloid-pin gear pair are determined based on the unloaded tooth contact analysis (TCA) and the nonlinear Hertzian contact theory, allowing accurate calculations of the contact stiffness of single tooth pair and the torsional stiffness of multi-tooth pairs. A detailed parametric study is presented to demonstrate the influences of tooth profile modification, applied torque and eccentricity error on the torsional mesh stiffness, loaded transmission error, Hertzian contact stiffness and load sharing factor. This model can be applied to further study the lost motion and dynamic characteristics of cycloid speed reducer and assist the optimization of its precision, vibration and noise levels. 展开更多
关键词 cycloid speed reducer mesh stiffness tooth contact analysis load distribution MODIFICATION
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