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基础激励下磁悬浮转子-隔振器系统振动抑制研究 被引量:5

A study on vibration control of active magnetic rotor-isolator system under base excitation
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摘要 磁悬浮轴承对基础激励抑制能力有限,当基础激励导致转子振动大于其悬浮间隙时,磁悬浮轴承系统转定子间会产生碰摩损伤以致设备损坏。针对上述问题,提出了结合隔振器和磁悬浮轴承主动控制器的基础激励抑振方法。在建立基础激励下磁悬浮转子模型的基础上,进一步考虑隔振器、基础、磁悬浮轴承定子相互耦合作用,以广义力形式将三者耦合关系转移到磁悬浮转子系统方程的刚度、阻尼矩阵中,建立了磁悬浮转子-隔振器耦合系统机电一体化模型。根据耦合模型分析不同简谐激励下隔振器设计参数变化对转子振幅的影响,并基于转子振幅变化规律,以隔振器最大变形、最大加速度、转定子间隙为设计目标,推导出合适的隔振器刚度范围。结合隔振器-高刚度主动控制器的耦合抑振作用,从理论和试验分析了耦合系统对基础激励的抑振效果。结果表明,与没有隔振器作用的磁悬浮转子系统相比,采用隔振器-高刚度控制器耦合控制可将转子最大振幅从0.052 mm降低到0.011 mm以内,转子整体振幅小于保护间隙(0.125 mm)的10%。 Active magnetic bearing(AMB)has limited ability to suppress the base excitation.When the vibration of arotor caused by the base excitation is greater than its suspension gap,the rubbing damage between the rotor and the stator of the magnetic bearing system will occur,resulting in equipment damage.In view of the above problems,a base excitation vibration suppression method combining the isolator and the active controller of a magnetic bearing was proposed.On the basis of establishing the magnetic bearing rotor model under the base excitation,further considering the mutual coupling effect of vibration isolator,base and magnetic suspension bearing stator,the coupling relationship of the three was transferred to the stiffness and damping matrix of the magnetic rotor system equation in the form of generalized force,and the electromechanical integration model of the magnetic suspension rotor-vibration isolator coupling system was established.According to the coupling model,the influence of vibration isolator design parameters on rotor amplitude under different harmonic excitations was analyzed.Based on the variation of rotor amplitude,the maximum deformation,maximum acceleration,and rotor stator clearance of vibration isolator were taken as the design objectives,and the appropriate stiffness range of vibration isolator was derived.Combined with the coupling vibration suppression effect of an isolator-high stiffness active controller,the vibration suppression effect of the coupling system on the base excitation was analyzed theoretically and experimentally.Results show that compared with the magnetic suspension rotor system without the isolator,the maximum amplitude of the rotor can be reduced from 0.052 mm to 0.011 mm by using isolator-high stiffness controller coupling control,and the overall amplitude of the rotor is less than 10%of the protection gap(0.125 mm).
作者 张一博 周瑾 沈权 张越 金超武 ZHANG Yibo;ZHOU Jin;SHEN Quan;ZHANG Yue;JIN Chaowu(College of Mechanical&Electrical Engineering,Nanjing University of Aeronautics and Astronautics,Nanjing 210016,China)
机构地区 南京航空航天大学机电学院
出处 《振动与冲击》 EI CSCD 北大核心 2023年第12期152-163,共12页 Journal of Vibration and Shock
基金 国家自然科学基金(52075239) 国防重大项目培育基金(NP2022411)。
关键词 磁悬浮轴承 转子动力学 基础激励 隔振器 振动控制 active magnetic bearing rotor dynamics base excitation isolator vibration control
分类号 TH-39 [机械工程] TH133 [机械工程—机械制造及自动化]
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参考文献5

二级参考文献38

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振动与冲击
2023年 第12期

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