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可重构单元模块化及其结合面动特性的研究 被引量:2

Research on the Modularity and Dynamical Characteristic of Joint Surface of Reconfigurable Unit
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摘要 通过对可重构制造系统(RMS)关键技术的研究,分析讨论了单元模块化对RMS的重要意义,指出了模块化设计在具体实现过程中存在的问题。给出了可重构制造单元模块的定义以及阐明了最小运动模块的具体划分。为管理、配置模块,给出了模块的组合数学模型,这有助于模块分类、排列以及组合。根据模块组合数学模型,总结出可重构单元模块接口即结合面的特点。运用分形技术,对模块结合面接触刚度的研究,得到了重构后结合面表面粗糙度与分形维数的关系原型以及接触刚度,为研究模块重构后形成的装备的动态特性、精度以及可靠性奠定基础。 By researching the key technologies of the reconfigurable manufacturing system(RMS),we discuss the importance of the modularity for RMS,and find out the existent problem during the realization of the modular design. The definition of the module of the reconfigurable manufacturing unit and the concrete partition of the minimal moving modular are given. The mathematical models for combination of the module are deduced for management and configuration of modules,it helps to sort,arrange and compose the modules.According to these models,the characteristic for the interface of modules in the reconfiguration unit is summed up.Based on the theory of fractal geometry,the contact stiffness of the joint surface is studied and the relationship between the surface roughness and the fractal parameter after reconfiguration of the unit is given,and the contact stiffness as well.All these are the foundation for researching the dynamical characteristic,precision and reliability of the manufacturing tools after reconfiguration.
作者 吴建华 金鹰 姚振强
机构地区 上海交通大学机械与动力工程学院 淮阴工学院
出处 《机械设计与研究》 CSCD 2004年第5期61-64,共4页 Machine Design And Research
基金 江苏省教育厅自然科学研究计划资助项目(03KJB460011)
关键词 可重构制造系统 模块化 结合面接触刚度 分形 表面粗糙度 reconfigurable manufacturing system modularity joint surface contact stiffness fractal geometry surface roughness
分类号 TH166 [机械工程—机械制造及自动化]
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参考文献9

  • 1Mehrabi M G,Ulsoy A G,Koren Y.Reconfigurable Manufacturing Systems: Key to Future Manufacturing[ J ].J.of Intelligent Manufacturing,2000,11 (4): 403- 419.
  • 2Koren Y,Heisel U,Jovane F,Moriwaki T,Pritchow G,Van Brussel H,Ulsoy A G.Reconfignrable Manufacturing Systems[J].CIRP Annals,1999,48(2): 1- 14.
  • 3Koren Y,Ulsoy A G.Vision,Principles and Impact of R econfigurable Manufacturing Systems,Powertrain International,2002:14-21.
  • 4Oldknow K D,Yellowley I.Design,implementation and validation of a system for the dynamic reconfiguration of open architecture machine tool controls[J].International Journal of Machine Tools and Manufacture,2001,41(6) :795~808.
  • 5Lee G H.Reconfigurability Considerations in the Design of Components and Manufacturing Systems[J ].International Journal of Advanced Manufacturing Technology,1997,( 13 ) :376- 386.
  • 6Shen Yongling,Shirinzadeh Bijan.Dynamic analysis of reconfigurable fixture constrcution by a manipulator [ J ].International Journal of Machine Tools and Manufacture,2000,40( 11 ): 1587- 1602.
  • 7Mehrabi M G,Ulsoy G,and Koren Y.Reconfignrable Manufacturing Systems and Their Enabling Technologies.International J.of Manufacturing Technology and Management,2000,1 ( 1 ): 113- 130.
  • 8LanderR G.Reconfigurable Machine Tools[J].Annals of the CIRP,2001,50(1) :269-274.
  • 9A S Yigit and A G Ulsoy.Dynamic stiffness evaluation for reconfigurable machine tools including weakly non-linear joint characteristics[A].Proc.Instn Mech.Engrs[C] .2002,216 Part B: 87-101.

同被引文献20

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二级引证文献5

机械设计与研究
2004年 第5期

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