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柔性转子对行波超声波电动机性能的影响 被引量:12

Effect of Flexible Rotor on Performance of Traveling Wave Type Ultrasonic Motor
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摘要 提出旋转型行波超声波电动机中柔性转子的明确定义,指出柔性转子属于做大范围运动的弹性圆板的动力学范畴,得到了柔性转子上任意点的运动描述。利用Lagrange方程,得到柔性转子的刚柔耦合的动力学模型,并将其与基于柔性转子的接触界面模型、定子的半解析动力学模型有机地融合在一起,得到了整个电动机的动力学描述。通过分析实例,表明当把转子作为柔性体来考虑时,定、转子的接触界面变得复杂和不对称.由此解释了试验中发现的适当转子阻尼可以改善电动机性能的现象。进一步分析和阐释了柔性转子通过自身的弹性变形,减少界面上定、转子之间的径向磨损并提高电动机输出效率的机理,得到了试验的验证,为柔性转子的结构设计提供了理论依据。 First the definition of flexible rotor of traveling wave type rotary ultrasonic motor (TRUM) is given. It is pointed out that the flexible rotor can be classified in the range of elastic annular plate with large overall motion. And the kinematical equation of flexible rotor is derived. Then the rigid-flexible coupling dynamic model of flexible rotor is obtained by Lagrange equation. So the complete model of TRUM is derived by the integration of the contact model based on flexible rotor, stator's semi-analytical model and flexible rotor model. The analysis examples show that the complicated contact mechanism with asymmetry occurs at the inter- face between the stator and flexible rotor. The analyses explain how the appropriate damp of rotor can lead to thegood performance of motor. Moreover the proper flexible rotor is proved to improve the motor's output efficiency by decrease of the friction in the radial direction at the interface. Finally the results of simulation are found to be in good agreement with those of experiments, so the proposed model provides the theoretical foundation for the design of the flexible rotor.
作者 陈超 赵淳生
出处 《机械工程学报》 EI CAS CSCD 北大核心 2008年第3期152-159,共8页 Journal of Mechanical Engineering
基金 国家自然科学基金(10604032) 江苏省高科技计划(DG2006005)资助项目。
关键词 柔性转子 波超声波电动机 径向滑动 刚柔耦合 Flexible rotor Traveling wave type rotary ultrasonic motor Sliding in the radial direction Rigid-flexible coupling
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参考文献12

  • 1LIONEL P, PAUL G. Industrial design of a centimetric "TWILA" ultrasonic motor[J]. Sensors and Actuators A: Physical, 2005, 120(1): 211-224.
  • 2赵淳生.对发展我国超声电动机技术的若干建议[c]//全国第三届超声波电动机理论和应用技术研讨会,中国,杭州.杭州:浙江大学,2005:12-14.
  • 3孙凤艳,田秀,曲建俊.基于粘弹性接触模型的行波型超声波电动机特性模拟[J].机械工程学报,2006,42(B05):125-128. 被引量:3
  • 4PONS J L, RODRIGUEZ H, FERNANDEZ J F, et al. Parametrical optimization of ultrasonic motors[J]. Sensors and Actuators A: 2003,107(2): 169-182.
  • 5HYUN-PHILL K, SANGSIG K, JIN-SANG K, et al. Wear and dynamic properties of piezoelectric ultrasonic motor with frictional materials coated stator[J]. Materials Chemistry and Physics, 2005, 90(2-3): 391-395.
  • 6HAGOOD N W, ANDREW J M. Modeling of a piezoelectric rotary ultrasonic motor[J]. IEEE Trans. Ultrason. Ferroelectr. Freq. Control, 1995, 42(2): 210-224.
  • 7HAGEDORN P, SATTEL T, SPEZIARI D, et al. The importance of rotor flexibility in ultrasonic traveling wave motors[J]. Smart Mater. Struc., 1998, 7: 352-368.
  • 8董迎晖,李志荣,赵淳生.杆状弯曲行波超声电机定子和转子的优化设计[J].振动.测试与诊断,2002,22(3):175-178. 被引量:18
  • 9陈超 赵淳生.旋转型行波超声波电动机接触界面的动力特性分析.振动工程学报,2005,18(2):133-137.
  • 10袁子怀 钱杏芳.有控飞行力学与计算机仿真[M].北京:国防工业出版社,2001..

二级参考文献18

  • 1刘长青,赵向东,赵淳生.圆柱体弯曲型行波超声电机的研究[J].振动.测试与诊断,2000,20(z1):149-153. 被引量:1
  • 2赵淳生.超声马达的发展与应用[J].测控技术,1996,15(1):8-10. 被引量:27
  • 3王瑁成.有限单元法[M].北京:清华大学出版社,2003..
  • 4陈超 黄卫清 赵淳生.行波型超声电机理论建模评述[J].振动工程学报,2003,16:29-29.
  • 5Hagood N W, Mcfarland A J. Modeling of a Piezoelectric Rotary Ultrasonic Motor. IEEE Trans. Ultrason Ferroelec Freq. Contr., 1995, 42(2):210~224
  • 6Hagedorn P, Sattel T, Speziari D, et al.The Iimportance of Rotor Flexibility in Ultrasonic Traveling Wave Motors. Smart Mater. Struc,1998, 7:352~368
  • 7Pons L. A Novel Modeling Technique For the Stator of Traveling Wave Ultrasonic Motors. IEEE Trans. Ultrason Ferroelec Freq. Contr., 2003, 50(11):1429~1435
  • 8Hagedorn P, Konrad W, Wallaschek J. Traveling Wave Ultrasonic Motors. Part II: a Numerical Method for the Flexural Vibrations of the Stator.Journal of Sound and Vibration,1993, 168(1):115~122
  • 9KUROSAWA M, UEHA S. Efficiency of ultrasonic motor using traveling wave[J]. Journal of the Acoustical Societyof Japan, 1988,44: 40-46.
  • 10ZHARII O Y. Model of an ultrasonic motor with friction-slip motion conversion[J]. Acoust. Phys, 1993, 39:249-254.

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