Design and implementation of an active rectangular aerostatic thrust bearing stage with electromagnetic actuators 被引量：2

Design and implementation of an active rectangular aerostatic thrust bearing stage with electromagnetic actuators

导出

摘要 The design and implementation of an active rectangular aerostatic thrust bearing stage with electro-magnetic actuators are presented. The stage is fundamentally precise and simple since the out-of-plane degree-of-freedoms (DOF) of a thrust air bearing are closed-loop controlled by electromagnetic actua-tors. The design is one-moving-part with mechanical symmetry, and a commercially available air bear-ing is rigidly attached to the table. The actuators are four independent coils mounted to the guiding surface of the table with iron cores, which are directly machined on the table. A bench level prototype system is developed and out-of-plane axes decoupled models of the system are derived. A control al-gorithm synthesized by arbitrarily placing closed-loop poles according to the model with air bearing dynamics neglected is implemented by C programming language running on the DOS platform. The stage is capable of vertical direction precision micro-positioning and guiding 3-DOF plane motions without limiting the working range of plane motions. Positioning accuracy of the stage no longer de-pends upon design and manufacturing of an air bearing, while passive preload of the stage for a flat film aerostatic thrust bearing is eliminated. The design and implementation of an active rectangular aerostatic thrust bearing stage with electromagnetic actuators are presented. The stage is fundamentally precise and simple since the out-of-plane degree-of-freedoms （DOF） of a thrust air bearing are closed-loop controlled by electromagnetic actuators. The design is one-moving-part with mechanical symmetry, and a commercially available air bearing is rigidly attached to the table. The actuators are four independent coils mounted to the guiding surface of the table with iron cores, which are directly machined on the table. A bench level prototype system is developed and out-of-plane axes decoupled models of the system are derived. A control algorithm synthesized by arbitrarily placing closed-loop poles according to the model with air bearing dynamics neglected is implemented by C programming language running on the DOS platform. The stage is capable of vertical direction precision micro-positioning and guiding 3-DOF plane motions without limiting the working range of plane motions. Positioning accuracy of the stage no longer depends upon design and manufacturing of an air bearing, while passive preload of the stage for a flat film aerostatic thrust bearing is eliminated.

作者 MAO JunHong LI LiChuan

机构地区 School of Mechanical Engineering School of Electrical Engineedng

出处《Chinese Science Bulletin》 SCIE EI CAS 2009年第5期858-864,共7页

基金 Supported by the National Natural Science Foundation of China (Grant No. 50475083)

关键词轴承能动控制电磁激励空气静力学 precision stage, aerostatic bearing, electromagnetic actuators, active control

分类号 TH133 [机械工程—机械制造及自动化]

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参考文献1

1李黎川,丁玉成,卢秉恒.超精密磁悬浮工作台及其解耦控制[J].机械工程学报,2004,40(9):84-88. 被引量：32

二级参考文献8

1Mao J, Tachikawa H, Shimokohbe A. Precision positioning of a DC-motor-driven aerostatic slide system. Precision Engineering, 2003, 27(1):32～41
2Zhang B, Zhu Z. Developing a linear piezomotor with nanometer resolution and high stiffness. IEEE/ASME Trans. Mechatronics, 1997, 2(1):22～29
3Kim W, Trumper D L. Six-degree-of-freedom planar positioner with linear magnetic bearing/motors. In:allaire P E ed. Proc. 6th Int. Symp. on Magnetic Bearings, 6th Int. Symp. on Magnetic Bearings, Massachusetts USA, 1998, Lancaster USA:Technomic Publishing Company, 1998:641～649
4Molenaar A, Zaaijer E H, van Beek H F. A novel low dissipation long stroke planar magnetic suspension and propulsion stage. In:Allaire P E ed. Proc. 6th Int. Symp. on Magnetic Bearings, 6th Int. Symp. on Magnetic Bearings, Massachusetts USA, 1998, Lancaster USA:Technomic Publishing Company, 1998:650～659
5Li L. Compensation of rotor imbalance for precision rotation of a planar magnetic bearing rotor. Precision Engineering, 2003, 27(2):140～150
6Schweitzer G, Traxler A, Bleuler A. Active Magnetic Bearings. Zurich Switzerland. Verlag der Fachvereine ETH-Zurich, 1994
7Li L. Linearizing magnetic bearing actuators by constant current sum, constant voltage sum, and constant Flux sum. IEEE Trans. Magnetics, 1999, 35(1):528～535
8Li L, Shinshi T, Shimokohbe A. Asymptotically exact linearizations for active magnetic bearing actuators in voltage control configuration. IEEE Trans. Control Systems Technology, 2003, 11(2):1～11

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1雷勇,陈本永,杨元兆,张丽琼,王俊茹,冯平.纳米级微动工作台的研究现状及发展趋势[J].浙江理工大学学报（自然科学版）,2006,23(1):72-75. 被引量：7
2陈本永,陈艇,张丽琼,张贵珍.磁悬浮式微动工作台驱动方案的设计与实现[J].传感技术学报,2007,20(1):213-216. 被引量：2
3欧阳华,李群明,段吉安,万梁.两级磁悬浮工作平台的动力学建模及模态分析[J].自动化与仪表,2007,22(2):1-5. 被引量：2
4李群明,万梁,段吉安,欧阳华.磁悬浮平台系统的机电耦合动力学模型及稳定性分析[J].光学精密工程,2007,15(4):535-542. 被引量：15
5郭亮,陈本永.精密磁悬浮工作平台的力特性分析[J].中国电机工程学报,2008,28(21):118-122. 被引量：20
6毛军红,李黎川.电磁驱动器与矩形静压空气止推轴承混合支承工作台的设计与实现[J].科学通报,2008,53(18):2251-2256. 被引量：2
7段吉安,齐斌,廖平.新型磁悬浮运动平台力学分析与控制[J].控制工程,2009,16(2):151-153. 被引量：6
8姜伟光,杨涛,陈军,陈本永.电磁悬浮式微驱动器的同步跟随驱动设计[J].浙江理工大学学报（自然科学版）,2009,26(4):534-537. 被引量：1
9李小平,李志科,陈学东,段正澄.纳米精度运动台电机伺服参数校准方法研究[J].中国电机工程学报,2009,29(21):87-92. 被引量：7
10胡汉辉,谭青.磁悬浮平台的解耦模糊PID控制[J].中南大学学报（自然科学版）,2009,40(4):963-968. 被引量：8

同被引文献10

1路志刚,宫玉彬,魏彦玉,王文祥.Study of the double rectangular waveguide grating slow-wave structure[J].Chinese Physics B,2006,15(11):2661-2668. 被引量：5
2HOLMES M,TRUMPER D. Magnetic/fluid-bearing stage for atomic-scale motion control (the angstrom stage) [J]. Precision Engineering, 1996,18( 1 ) : 38-49.
3KIM W J, TRUMPER D L. High-precision magnetic levitation stage for photolithography [J]. Precision Engineering, 1998,22 (2) :66-77.
4KIM W J, VERMA S, SHAKIR H. Design and precision construction of novel magnetic levitation-based multi-axis nanoscale positioning systems [J]. Precision Engineering, 2007,31 (4) : 337-350.
5HOLMES M, KOCKEN R, TRUMPER D. The long- range scanning stage a novel platform for scanned- probe microscopy [J]. Precision Engineering, 2000,24 (3) : 191-209.
6GAO W, DEJIMA S, YANAI H,et al. A surface motor-driven planar motion stage integrated with an XYθz surface encoder for precision positioning [J]. Precision Engineering, 2004,28(3) : 329-337.
7LIU FuPing,WANG AnLing,CHEN Qiang,LI RuiZhong,CHEN HuiGuo,YANG ChangChun.The research progress on lateral shift of reflected electromagnetic wave at the interface of two conductive media[J].Chinese Science Bulletin,2008,53(7):961-968. 被引量：15
8ZHANG Hui FAN BaoChun CHEN ZhiHua DONG Gang ZHOU BenMou.Open-loop and optimal control of cylinder wake via electromagnetic fields[J].Chinese Science Bulletin,2008,53(19):2946-2952. 被引量：9
9HE Qicai & HUANG Yaoxiong1. Department of Physics, Sun Yat-sen University of Medical Sciences, Guangzhou 510089, China,2. Institute of Biomedical Engineering, Ji’nan University, Guangzhou 510632, China Correspondence should be addressed to Huang Yaoxiong.Reflection of plane electromagnetic waves from the surface of a perfect conductor moving in an arbitrary direction[J].Chinese Science Bulletin,2000,45(17):1564-1569. 被引量：2
10李黎川,丁玉成,卢秉恒.超精密磁悬浮工作台的一种低功耗磁悬浮设计[J].微细加工技术,2003(4):45-50. 被引量：4

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2XIA Dan DONG TianLin.Reflection and transmission of electromagnetic slow-waves by a uniformly moving dielectric slab[J].Chinese Science Bulletin,2010,55(34):3875-3879.

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1纪源.磁悬浮技术原理及其应用[J].数字通信世界,2017(8):43-44.
2赵航,朱德兰,梁志超,葛茂生,刘泉明,张帷涵,柳昌新.利用水位调节光伏板倾角的追日装置设计与试验[J].农业工程学报,2022,38(6):221-229. 被引量：1

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2陈星,苑士华,陈凯,任勇.考虑电磁激励的车用永磁同步电机转子扭振特性[J].东北大学学报（自然科学版）,2016,37(7):1008-1012. 被引量：7
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4汤亮,钱坤,龚发云,喻幸福.基于ANSYS的电磁激励弹簧加压制动器热-应力耦合分析[J].煤矿开采,2014,19(B11):92-97.
5陈述平,程凡强,朱云鹏,王振宇,吴冰清.一种折叠越障式电磁激励炮的设计[J].机械与电子,2012,30(3):21-24.
6方源,章桐,于蓬,郭荣.电动车动力总成内部激励的研究分析[J].振动．测试与诊断,2014,34(3):496-502. 被引量：13
7刘诚,付宜利.The design and implementation of virtual hand grasp behavior process in virtual assembly[J].Journal of Harbin Institute of Technology(New Series),2010,17(4):527-530. 被引量：1
8Cheng Fu’an,Dong Ming ,Li Guitao,Wang Shuren (Tianjin University).CYLINDRICAL WORM MACHINED BY THE CONE GRINDING WHEEL WITH TWO DEGREE－OF－FREEDOM AND MESHING THEORY OF ITS DRIVE①[J].Chinese Journal of Mechanical Engineering,1996,9(4):318-324.
9ZENG Daxing HOU Yulei LU Wenjuan HUANG Zhen.Comparative Analysis of Characteristics of the Coupled and Decoupled Parallel Mechanisms[J].Chinese Journal of Mechanical Engineering,2010,23(4):468-476. 被引量：18
10郭然,陈德勇,王军波.一种基于MEMS技术的新型谐振式微流量传感器[J].仪表技术与传感器,2009(12):1-3. 被引量：1

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2009年第5期

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