基于啮合变异的Hy-Vo齿形链变位系数新算法
New Algorithm of Tooth Profile Shift Coefficient of Hy-Vo Silent Chain based on Meshing Variation
- 机械传动 2020年44卷第1期 页码:150-155
- 作者机构:
1.山西工程职业学院 汽车与轨道交通工程系, 山西 太原 030009
2.吉林大学 机械与航空航天工程学院, 吉林 长春 130022
- 作者简介:
安立持(1990— ),男,山西代县人,硕士研究生,助教,主要研究方向为齿形链多元变异啮合机理及设计。
程亚兵(1979— ),女,河南襄城人,博士,教授,博士生导师,主要研究方向为数字化设计、多体动力学技术、发动机正时系统设计分析、变速箱链传动系统设计分析。
- 基金信息:国家自然科学基金(51775222┫山西工程职业技术学院重点项目┣yzd—201803)
DOI:10.16578/j.issn.1004.2539.2020.01.025
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安立持,程亚兵,高旺等.基于啮合变异的Hy-Vo齿形链变位系数新算法[J].机械传动,2020,44(01):150-155.
An Lichi,Cheng Yabing,Gao Wang,et al.New Algorithm of Tooth Profile Shift Coefficient of Hy-Vo Silent Chain based on Meshing Variation[J].Journal of Mechanical Transmission,2020,44(01):150-155.
安立持,程亚兵,高旺等.基于啮合变异的Hy-Vo齿形链变位系数新算法[J].机械传动,2020,44(01):150-155. DOI: 10.16578/j.issn.1004.2539.2020.01.025.
An Lichi,Cheng Yabing,Gao Wang,et al.New Algorithm of Tooth Profile Shift Coefficient of Hy-Vo Silent Chain based on Meshing Variation[J].Journal of Mechanical Transmission,2020,44(01):150-155. DOI: 10.16578/j.issn.1004.2539.2020.01.025.
摘要
基于精准的数学建模,分别构建了Hy-Vo齿形链链板-链轮啮合模型以及滚刀-链轮啮合模型,通过构造辅助链板,提出了一种基于啮合变异的Hy-Vo齿形链渐开线链轮变位系数的新算法。基于实例,计算了不同算法下的变位系数。基于链轮的范成法模拟加工技术,得到了不同算法下的实际加工链轮。通过测量不同半径下的齿宽,分析了不同算法下的实际齿形与设计齿形的齿形偏差。基于多体动力学仿真,分析了基于不同变位系数算法下的Hy-Vo齿形链传动系统的啮合特性。结果证明,这种Hy-Vo齿形链变位系数新算法可以有效降低Hy-Vo齿形链传动系统实际性能与理想性能之间的误差,不仅计算结果更加精准,并且适用于任何滚刀齿形角与链轮压力角变异组合。
Abstract
Based on the accurate mathematical model, the meshing model of Hy-Vo silent chain with the plate-sprocket subsystem and hob-sprocket subsystem is established. Through building the auxiliary chain plate, a new algorithm to calculate the profile shift coefficient of involute sprocket based on meshing variation for Hy-Vo silent chain transmission system is proposed. Combined with a specific example, the profile shift coefficients are calculated by the new algorithm and the classical algorithm. Based on the virtual machining technology, the actual machining sprocket under different algorithms is obtained. Through measuring the tooth widths under different radius, the tooth profile deviations of actual sprocket are contrastingly analyzed. Based on the multi-body dynamics simulation, the meshing characteristic of the Hy-Vo silent chain transmission systems under different algorithms are analyzed. The results show that the new algorithm could effectively decrease the system performance deviation between the ideal condition and the actual condition. In addition, the new algorithm could not only the calculation results are more accurate, but also applicable to any variation combination of hub tooth angle and sprocket pressure angle.
关键词
啮合变异Hy-Vo齿形链变位系数多体动力学仿真模拟加工
Keywords
Meshing variationHy-Vo silent chainProfile shift coefficientMulti-body dynamics simulationVirtual machining
references
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