空间臂补偿机构轴承预紧力与系统刚度的关系分析

王. W. Zhi, 郭万存 Guo Wan-cun
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引用次数: 2

摘要

空间望远镜在轨道上跟踪目标时,由于空间中的各种因素,望远镜视轴与目标之间会发生移动和旋转(即指向偏差和振荡)。为了补偿上述误差,设计了臂补偿机构来补偿视轴与目标之间的误差。由于臂补偿机构的尺寸和重量受到严格限制,且望远镜体积庞大,重量超过3 000 kg,这种配置导致系统刚度较低。为了满足控制系统对机械刚度更高的要求,分析了系统配置确定后通过对轴承施加预紧力提高系统刚度的可行性。研究了轴承预紧力、轴承刚度和系统刚度之间的关系,得到了轴承预紧力与系统固有频率的关系曲线。分析证明,在确定系统结构的前提下,对轴承施加适当的预紧力可以提高系统刚度,也是确定轴承最佳预紧力的有效方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Analysis on the relationship between bearing preload of spatial arm compensation mechanism and system stiffness
When the spatial telescope tracks the target on the orbit,move and rotation will occurr between the visual axis of the telescope and target( namely pointing deviation and oscillation) due to all kinds of factors in space. In order to compensate above errors,the arm compensation mechanism is designed to compensate the errors between the visual axis and the target. Because the size and weight of the arm compensation mechanism are restricted severely,and the size of the telescope is huge and its weight is more than 3 000 kg,this configuration results in lower stiffness of the system. In order to satisfy higher machinery stiffness required by the control system,the feasibility is analyzed to improve system stiffness through forcing preload on bearing after the system configuration is confirmed. This paper studies on the relationship among bearing preload,bearing stiffness and system stiffness,and the relationship curve between bearing preload and system natural frequency is obtained. The analysis proves that forcing an appropriate preload to bearing can improve system stiffness on the condition that the system configuration is confirmed,and it is also an effective method to confirm the optimumbearing preload.
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