机构地区:[1]上海大学机电工程与自动化学院,上海201900 [2]宁波慈兴轴承有限公司,宁波315301
出 处:《农业工程学报》2019年第3期60-66,共7页Transactions of the Chinese Society of Agricultural Engineering
基 金:国家"863"计划(2015AA043005);宁波市科技攻关项目(2014B1006);宁波市科技创新团队项目(2015B11012)
摘 要:谐波减速器内部柔性轴承是机器人关节的重要传动部件,因在工作中会产生较大的预变形而与普通轴承不同,导致传统轴承理论不适用,所以建立新的研究方法对其各项性能进行分析非常必要。该文通过建立柔性轴承的理论计算模型,求解计算柔性轴承工作时内部应力与变形特征,具体步骤包括:1)建立变形协调方程,并通过莫尔积分定理求解方程,得到变形过程中柔性轴承外圈的弯曲力矩;2)根据薄壁圆环理论,求得外圈的变形特征与内圈弯曲力矩;3)建立三弯矩方程,计算外载荷作用下柔性轴承外圈所承受的最大弯曲力矩。最后,建立柔性轴承有限元仿真模型对比验证理论模型,两者最大误差为7%,其中理论求解时间为5~8 min,有限元计算需4~5 h,通过理论模型可以快速求得柔性轴承内部变性特征与受力情况。计算结果表明,对于CSF-25-80型柔性轴承,外圈厚度设计在1.3~1.6 mm,宽度设计在9 mm左右,都可以有效改善外圈的应力状况。该研究可为对柔性轴承的设计和优化提供理论参考。Agricultural robots are an important part of the modern agriculture,and its function execution is mainly accomplished by robotic arm.Flexible bearing of the harmonic driver is a key part of the joint of the robots'arm.At present,there is little research on the design of flexible bearings.Different from most rolling bearings which are used as supporting components in ordinary,the flexible bearings are used as transmission components.A non-circular cam which is called wave generator is assembled into the inner ring of the bearing before working and causes a greatly pre-deformation of the flexible bearing.Previous theories of rolling bearing will not applicable because of this deformation.Meanwhile,a pair of radial force in the opposite direction is applied to both ends of the long axis of deformation of the flexible bearing in the transmission process.Therefore,more complicated shape state and bending stresses are generated.Those unusual working conditions will lead the flexible bearing more prone to damage than ordinary bearing.Although FEA simulation can get relatively accurate results,it usually takes several hours to solve finite element model,and the calculation process is difficult to converge.Therefore,it is necessary to establish a new calculation method to obtain the performance of flexible bearings.In this paper,the stress and deformation characteristics of the inner and outer rings of the flexible bearing were solved separately by the following methods:1)First,the outer ring was equivalent to a statically indeterminate structure.The deformation coordination equation of the outer ring was established according to the equivalent model and solved by Mohr's integral theory.Overall bending moment of the outer ring of the flexible bearing formed by deformation was obtained.2)Combined the theory of thin-walled ring with the bending moment equation which was obtained above,the radial and circumferential deformation characteristics of the outer ring of the flexible bearing were obtained.3)According to the theory
分 类 号:TH133.33[机械工程—机械制造及自动化] TH113
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