机电集成超环面传动系统内共振研究

郝秀红 许立忠

振动与冲击 ›› 2009, Vol. 28 ›› Issue (3) : 46-50.

PDF(1687 KB)
PDF(1687 KB)
振动与冲击 ›› 2009, Vol. 28 ›› Issue (3) : 46-50.
论文

机电集成超环面传动系统内共振研究

  • 郝秀红 许立忠
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Internal resonance study of electromechanical integrating toroidal drive system

  • Hao Xiuhong Xu Lizhong
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文章历史 +

摘要

机电集成超环面传动系统为集机、电和控制于一体的新型广义复合机电耦合系统,工作中非线性电磁啮合力可能导致明显的内共振现象, 影响系统的正常运行。本文考虑系统中行星轮与蜗杆、定子间电磁啮合非线性,建立了系统强非线性运动微分方程组, 针对不存在与存在内共振两种情形,用多尺度法求出了系统时域响应的一次近似解析解,作出了系统振幅随时间的变化曲线和系统时域响应曲线;针对不存在与存在内共振两种情形,研究了系统各部件动态位移随时间的变化规律。研究结果表明:内共振使得系统能量在系统内不同零件间交互传递,导致各零件振动振幅增大,影响系统动态性能,设计时应该避免内共振的产生。

Abstract

Electromechanical integrating toroidal drive is a new-style generalized composite transmission, in which drive, power and control are integrated. Nonlinear electromagnetic meshing force can lead to obvious internal resonance during operation and cause drive system to run unusually. In this paper, for the nonlinear electromagnetic mesh forces between planets, worm and stator, strongly nonlinear dynamic differential equations of toroidal drive are presented. Based on two different situations of internal resonance and non-internal resonance, the first order approximate analytic solutions of time responses are obtained by multiscale method. Time responses of vibration amplitudes and displacements of the drive system are obtained. Meanwhile, changes of time responses of the different components for the drive system under the two situations of the internal resonance and non-internal resonance are investigated. The results show that the internal resonance makes energy alternately transfer between different components. It leads to increase of amplitudes and affects dynamic performance of drive system, so it should be removed during design.

关键词

机电集成 / 超环面传动 / 强非线性 / 内共振 / 多尺度法

Key words

electromechanical integration / toroidal drive / strongly nonlinearity / internal resonance / multiscale method

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导出引用
郝秀红 许立忠. 机电集成超环面传动系统内共振研究[J]. 振动与冲击, 2009, 28(3): 46-50
Hao Xiuhong Xu Lizhong. Internal resonance study of electromechanical integrating toroidal drive system[J]. Journal of Vibration and Shock, 2009, 28(3): 46-50

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