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考虑电机内部因素影响的轧机主传动 系统机电耦合振动特性研究

张瑞成 卓丛林

张瑞成, 卓丛林. 考虑电机内部因素影响的轧机主传动 系统机电耦合振动特性研究[J]. 机械科学与技术, 2017, 36(2): 184-189. doi: 10.13433/j.cnki.1003-8728.2017.0204
引用本文: 张瑞成, 卓丛林. 考虑电机内部因素影响的轧机主传动 系统机电耦合振动特性研究[J]. 机械科学与技术, 2017, 36(2): 184-189. doi: 10.13433/j.cnki.1003-8728.2017.0204
Zhang Ruicheng, Zhuo Conglin. Study on Electromechanical Coupling Vibration Characteristics of Main Drive System of Rolling Mill Considering Motor Impact[J]. Mechanical Science and Technology for Aerospace Engineering, 2017, 36(2): 184-189. doi: 10.13433/j.cnki.1003-8728.2017.0204
Citation: Zhang Ruicheng, Zhuo Conglin. Study on Electromechanical Coupling Vibration Characteristics of Main Drive System of Rolling Mill Considering Motor Impact[J]. Mechanical Science and Technology for Aerospace Engineering, 2017, 36(2): 184-189. doi: 10.13433/j.cnki.1003-8728.2017.0204

考虑电机内部因素影响的轧机主传动 系统机电耦合振动特性研究

doi: 10.13433/j.cnki.1003-8728.2017.0204
基金项目: 

河北省自然科学基金项目(F2014209192)、河北联合大学杰出青年基金项目(JP201301)及河北省教育厅重点项目(ZD20131011)资助

详细信息
    作者简介:

    张瑞成(1975-),教授,博士,研究方向为轧机机电振动控制、非线性系统动态特性分析与控制,rchzhang@126.com

Study on Electromechanical Coupling Vibration Characteristics of Main Drive System of Rolling Mill Considering Motor Impact

  • 摘要: 针对轧机主传动系统振动研究往往忽略电机自身因素影响这一问题,考虑三相异步交流电机中漏磁系数、定子时间常数、转子时间常数和空气摩擦系数等电机内部参数,并融入电机内部转子空气摩擦这一非线性因素,建立了交流电机-轧机主传动系统机电耦合数学模型。利用数值方法分析了漏磁系数、定子时间常数、转子时间常数、空气摩擦系数对于轧机主传动系统振幅与调节时间的影响。
  • [1] 杨旭,李江韵,童朝南.冷轧机传动系统振动测试与控制策略[J].振动、测试与诊断,2013,33(1):99-105 Yang X, Li J Y, Tong C N. Cold rolling mill drive system vibration test and control strategy[J]. Journal of Vibration, Measurement & Diagnosis, 2013,33(1):99-105 (in Chinese)
    [2] 侯东晓,朱月,刘浩然,等.基于动态轧制力的冷轧机非线性振动特性研究[J].中机械工程学报,2013,49(14):45-50 Hou D X, Zhu Y, Liu H R, et al. Research on nonlinear vibration characteristics of cold rolling mill based on dynamic rolling force[J]. Journal of Mechanical Engineering, 2013,49(14):45-50 (in Chinese)
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    [8] 张瑞成,王佩佩.基于谐波干扰的轧机主传动机电耦合系统参激振动机理研究[J].现代制造工程,2013,(10):102-107 Zhang R C, Wang P P. Study on parametrically excited vibration in the rolling mill electromechanical coupling system based on harmonic disturbance[J]. Modern Manufacturing Engineering, 2013,(10):102-107 (in Chinese)
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    [10] 李晓仑.永磁交流伺服精密传动系统机电耦合精度分析[D].重庆:重庆大学,2013 Li X L. Electromechanical coupling accuracy analysis of PMSM and precision transmission system[D]. Chongqing:Chongqing University, 2013 (in Chinese)
    [11] 刘彬,刘爽,张业宽,等.基于非线性反馈的轧机主传动机电耦联扭转系统的分岔控制[J].机械工程学报,2010,46(8):160-166 Liu B, Liu S, Zhang Y K, et al. Bifurcation control for electromechanical coupling vibration in rolling mill drive system based on nonlinear feedback[J]. Journal of Mechanical Engineering, 2010,46(8):160-166 (in Chinese)
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    [13] 张义方,闫晓强,凌启辉.负载谐波诱发轧机主传动机电耦合扭振仿真研究[J]工程力学,2015,32(1):213-217,225 Zhang Y F, Yan X Q, Ling Q H. Simulation research of electromechanical coupling torsional vibration for mill main drive system induced by load harmonics[J] Engineering Mechanics, 2015,32(1):213-217,225 (in Chinese)
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    [15] 邢军强,王凤翔,张殿海,等.高速永磁电机转子空气摩擦损耗研究[J].中国电机工程学报,2010,30(27):14-19 Xing J Q, Wang F X, Zhang D H, et al. Research on rotor air friction loss of high-speed permanent magnet machines[J]. Proceedings of the CSEE, 2010,30(27):14-19 (in Chinese)
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出版历程
  • 收稿日期:  2015-04-15
  • 刊出日期:  2017-02-05

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