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一种被动力反馈阻尼器及其模型研究 被引量:2

Research on a Passive Force Feedback Damper and Its Model
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摘要 根据力觉反馈的需要,设计了一种基于磁流变液的阻尼器,并建立了模型。介绍了磁流变液阻尼器的设计方法,该阻尼器由上、下盖组成密闭的壳体,转子通过轴设置于壳体内,壳体内充满磁流变液,在磁场作用下磁流变液屈服应力产生变化,转子相对于壳体转动时阻尼力连续快速变化,分析了阻尼器阻尼力构成及其可控性,运用较为简化的方法建立了阻尼器的逆动态模型,利用研制的阻尼器原型设计了实验系统并进行了挤压柔顺性物体和碰撞刚体力反馈实验,实验中阻尼器能够实现大范围的力觉反馈,因此表明设计方法有效、模型正确。 A magnetorheological fluid based damper has been designed and the model has been set up for force feedback. The design method of the damper is introduced. The sealed shell of the damper is composed of an upside cap and an underside cap. A rotor is located in the shell by an axle,with the magnetorheological fluid being filled in the shell. When the yield stress of magnetorheological fluid applied by a magnetic field changes,the damping force of the rotor rotating relative to shell changes rapidly and continuously. The compositions of the damping force and their controllability are analyzed,and a simplified inverse dynamics model is developed. An experimental system is set up using the damper prototype, on which force feedback experiments of squeezing a compliance object and colliding a rigid body are done. A large scope of force feedback is implemented and so validity of the design and the model of the damper are verified.
作者 戴金桥 俞阿龙 王爱民 徐宝国
机构地区 淮阴师范学院物理与电子电气工程学院 东南大学仪器科学与工程学院
出处 《传感技术学报》 CAS CSCD 北大核心 2014年第4期484-489,共6页 Chinese Journal of Sensors and Actuators
基金 国家自然科学基金资助项目(61104206) 江苏省科技支撑项目(BE2012740) 淮安市科技支撑计划项目(HASZ2013006)
关键词 阻尼器 力反馈 磁流变液 简化逆动力学模型 damper force feedback magnetorheological fluids simplified inverse dynamics model
分类号 TP242.6 [自动化与计算机技术—检测技术与自动化装置] TB381 [一般工业技术—材料科学与工程]
  • 相关文献

参考文献15

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二级参考文献25

  • 1祝钦,宋爱国,李建清.实时触觉再现接口的设计与实现[J].传感技术学报,2005,18(4):814-817. 被引量:5
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共引文献19

同被引文献25

  • 1吴涓,宋爱国,李建清.一种基于物理意义的快速力反馈形变模型及实时力觉响应算法[J].传感技术学报,2005,18(1):90-94. 被引量:9
  • 2宋爱国,Dan Morris,J. Edward Colgate,李建清.遥操作和虚拟操作的实时柔性触觉再现装置研究[J].仪器仪表学报,2006,27(2):141-144. 被引量:13
  • 3郭微,钱德猛.汽车用膜式空气弹簧的非线性有限元分析[J].客车技术与研究,2006,28(3):14-16. 被引量:11
  • 4Yoshihiro K, Megumi N, Tomohiro K, et al. Interaction Model between Elastic Objects for Haptic Feedback Considering Collisions of Soft Tissue [ J ] .Computer Methods and Programs in Biomedicine, 2005,80(3) :216-224.
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  • 6Mavroidis C, Pfeiffer C, Celestino J, et al. Controlled Compliance Haptic Interface Using Electro-Rheological Fluids [ C ]// Proceedings of the 2000 SPIE Conference on Electro-Active Polymer Actuators and Devices. Newport Beach, CA, 2000: 300- 310.
  • 7Bicchi A, Raugi M, Rizzo R,et al.Analysis and Design of an Elec- tromagnetic System for the Characterization of Magneto-Rheological Fluids for Haptic Interfaces [ J ]. IEEE Transactions on Magnetics, 2005,41(5) :1876-1879.
  • 8Yuan K,Zhu H B.A New Kind of Force-Reflecting Device and Its Control [ C ]//Proceedings of IEEE Conference on Intelligent Robots and System.Lausanne, Switzerland,2002 : 2920- 2924.
  • 9Sun Z S, Bao G, Yang Q J, et al.Design of a Novel Force Feedback Dataglove Based on Pneumatic Artificial Muscles [ C ]// Proceedings of the IEEE International Conference on Mechatronicsand Automation, 2006, Luoyang, China, 2006 : 968- 972.
  • 10Arne S, Pietro V, Keith H, et al.A Novel Haptic Platform for Real Time Bilateral Biomanipulation with a MEMS Sensor for Triaxial Force Feedback [ J ] .Sensors and Actuators A, 2008,142 : 19- 27.

引证文献2

二级引证文献3

传感技术学报
2014年 第4期

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