Journal of Mechanical Engineering >

2015 , Vol. 51 >Issue 13: 2 - 12

DOI: https://doi.org/10.3901/JME.2015.13.002

Current Opportunities in the Field of Mechanisms in China

  • LIU Xinjun ,
  • XIE Fugui ,
  • WANG Jinsong
Expand
  • 1.Department of Mechanical Engineering, Tsinghua University;
    2.Beijing Key Lab of Precision/Ultra-precision Manufacturing Equipments and Control, Tsinghua University

Online published: 2015-07-05

Fold

Abstract

For the past two years, robots comeback with a high profile and present huge market prospects; advanced manufacturing equipment especially high-end CNC machine tool is still in urgent demand. However, their development is still not going well due to that basic components and CNC systems rely on imported goods, manufacturing techniques of key functional units are missing, reliability and performance of lead rails and lead screws are not good enough. In particular, swing tool heads and high-performance reducers, which greatly determine the functionality and performance of machine tools and robots, are important barriers for machine tools and robots in China to catch up with the world’s advanced level. Mechanism is a basic discipline of equipment structural design, and mechanism innovation is fundamental to the equipment innovation. Then, mechanism is naturally charged with the responsibility of innovation. Incorporating with the structure, functionality and application of machine tools and robots, the opportunities encountered by mechanism in the current stage of China have been analyzed and discussed. Hopefully, this work can provide references for the effective integration of academic research and industrial demand for advanced manufacturing equipment.

Key words: robot; advanced manufacturing equipment; high-end machine tool; basic components; key functional units

Cite this article

LIU Xinjun , XIE Fugui , WANG Jinsong . Current Opportunities in the Field of Mechanisms in China[J]. Journal of Mechanical Engineering, 2015 , 51(13) : 2 -12 . DOI: 10.3901/JME.2015.13.002

References

 [1]  Starrag. Ecospeed[EB/OL]. [2015-05-16]. http//www. starrag.com/index.php/en/marken-scharmann/ecospeed-en.

 [2]  What is a parallel robot?[EB/OL]. [2015-05-16]. http//www.mecademic.com/What-is-a-parallel-robot.html.

 [3]  黄真,赵永生,赵铁石. 高等空间机构学[M]. 北京:高等教育出版社, 2006.

         HUANG ZhenZHAO YongshengZHAO Tieshi. Advance spatial mechanism[M]. BeijingHigher Education Press2006.

 [4]  于靖军,刘辛军,戴建生,等. 机器人机构学的数学基础[M]. 北京:机械工业出版社,2008.

         YU JingjunLIU XinjunDAI Jianshenget al. Mathematical foundation of robotic mechanism[M]. BeijingChina Machine Press2008.

 [5]  黄真,刘婧芳,曾达幸. 基于约束螺旋理论的机构自由度分析的普遍方法[J]. 中国科学(E辑:技术科学). 2009(1)84-93.

         HUANG ZhenLIU JingfangZENG Daxing. A general mechanism’s freedom analysis method based on constraint screw theory[J]. Science China(ETechnological Sciences)2009(1)84-93.

 [6]  周玉林,刘磊,高峰. 3自由度球面并联机构3-RRR静力全解[J]. 机械工程学报,200844(6)169-176.

         ZHOU YulinLIU LeiGAO Feng. Statics analysis of a 3-DOF spherical parallel mechanism 3-RRR[J]. Chinese Journal of Mechanical Engineering200844(6)169-176.

 [7]  李秦川,孙晓东,陈巧红,等. 2-PRS-PRRU并联机构运动学与奇异分析[J]. 机械工程学报,201147(3)21-27.

         LI QinchuanSUN XiaodongCHEN Qiaohonget al. Kinematics and singularity analysis of a 2-PRS-PRRU parallel mechanism[J]. Journal of Mechanical Engineering201147(3)21-27.

 [8]  程世利,吴洪涛,王超群,等. 平面平台型Stewart并联机构的奇异性分析[J]. 机械工程学报,201147(9)1-7.

         CHENG ShiliWU HongtaoWANG Chaoqunet al. Singularity analysis of a planar Stewart platform[J]. Journal of Mechanical Engineering201147(9)1-7.

 [9]  周玉林,高峰. 3-RRR 3自由度球面并联机构静刚度分析[J]. 机械工程学报,200945(4)25-32.

         ZHOU YulinGAO Feng. Stiffness analysis of a 3-RRR 3-DOF spherical parallel mechanism[J]. Journal of Mechanical Engineering200945(4)25-32.

[10]  邹慧君,高峰. 现代机构学进展[M]. 北京:高等教育出版社,2007.

         ZOU HuijunGAO Feng. Advances in modern mechanism[M]. BeijingHigher Education Press2007.

[11]  李瑞琴,郭为忠. 现代机构学理论与应用研究进展[M]. 北京:高等教育出版社,2014.

         LI RuiqinGUO Weizhong. Advances in the theory and Application of modern mechanism[M]. BeijingHigher Education Press2014.

[12]  黄真,刘婧芳,李艳文. 论机构自由度[M]. 北京:科学出版社,2011.

         HUANG ZhenLIU JingfangLI Yanwen. On the mechanism mobility[M]. BeijingScience Press2011.

[13]  Blanding D L. Exact constraintMachine design using kinematic processing[M]. New YorkASME Press1999.

[14]  Liu X JChen XNahon M. Motion/force constrainability analysis of lower-mobility parallel manipulators[J]. Journal of Mechanisms and Robotics- Transactions of the ASME201460310063.

[15]  杨廷力,金琼,刘安心,等. 基于单开链单元的三平移并联机器人机构型综合及其分类[J]. 机械工程学报. 200238(8)31-36.

         YANG TingliJIN QiongLIU Anxinet al. Type synthesis and classification of planar parallel robot with three translations based on single-open-loop unit[J]. Chinese Journal of Mechanical Engineering200238(8)31-36.

[16]  于靖军,李守忠,裴旭,等. 一种刚柔统一的并联机构构型综合方法[J]. 中国科学E:技术科学,2011(6)760-773.

         YU JingjunLI ShouzhongPEI Xuet al. A unified approach to type synthesis of both rigid and flexure parallel mechanisms[J]. Science China(ETechnological Sciences)2011(6)760-773.

[17]  于靖军,裴旭,宗光华. 机械装置的图谱化创新设计[M]. 北京:科学出版社,2014.

         YU JingjunPEI XuZONG Guanghua. Graphically innovative design of mechanical device[M]. BeijingScience Press2014.

[18]  Kong X WGosselin C. Type synthesis of parallel mechanisms[M]. New YorkSpringer2007.

[19]  高峰,杨加伦,葛巧德. 并联机器人型综合的G(F)集理论[M]. 北京:科学出版社,2010.

         GAO FengYANG JialunGE Qiaode. The G(F) set theory for the type synthesis of parallel robots[M]. BeijingScience Press2010.

[20]  Merlet J P. Jacobianmanipulabilitycondition numberand accuracy of parallel robots[J]. Journal of Mechanical Design2006128(1)199-206.

[21]  Wang J SWu CLiu X J. Performance evaluation of parallel manipulatorsMotion/force transmissibility and its index[J]. Mechanism and Machine Theory201045(10)1462-1476.

[22]  Liu X JWang J S. A new methodology for optimal kinematic design of parallel mechanisms[J]. Mechanism and Machine Theory200742(9)1210-1224.

[23]Liu X JWang J SKim J. Determination of the link lengths for a spatial 3-DOF parallel manipulator[J]. Journal of Mechanical Design2006128(2)365-373.

[24]  Pham P. Design of hybrid-kinematic mechanisms for machine tools[D]. SwitzerlandLausanne2009.

[25]  Son SKim TSarma S Eet al. A hybrid 5-axis CNC milling machine[J]. Precision EngineeringJournal of the International Societies for Precision Engineering and Nanotechnology200933(4)430-446.

[26]  Kanaan DWenger PChablat D. Kinematic analysis of a serial-parallel machine toolThe VERNE machine[J]. Mechanism and Machine Theory200944(2)487-498.

[27]  王玉蓉,邱漠河. 国产机器人技术及其在啤酒包装中的应用[J]. 市场论坛,2012(2)40-44.

         WANG YurongQIU Mohe. The application of the domestic robotic technology in beer packaging lines[J]. Market Forum2012(2)40-44.

[28]  梅江平. Diamond高速并联机械手[J]. 天津科技,2007123-25.

         MEI Jiangping. Diamond high-speed parallel robot[J]. Tianjin Science&Technology2007123-25.

[29]  Mitsubishi SCARA robots-RH Series[EB/OL]. [2015-05-16]. http//www.meau.com/eprise/main/sites/public/Products/ Robots/Robot_Videos/default.

[30]  Clavel R. Device for displacing and positioning an element in spaceSwitzerlandWO1987003528[P]. 1987-06-18.

[31]  Pierrot FReynaud CFournier A. Deltaa simple and efficient parallel robot[J]. Robotica19908(2)105-109.

[32]  ABB. IRB 360 FlexPicker[EB/OL]. [2015-05-16]. http//new.abb.com/products/robotics/industrial-robots/irb-360.

[33]  Fanuc. M-1iA series robots[EB/OL]. [2015-05-16]. http//robot.fanucamerica.com/products/robots/product.aspx.

[34]  Pierrot FNabat VCOMPANY Oet al. Optimal design of a 4-DOF parallel manipulatorFrom academia to industry[J]. IEEE Transactions on Robotics200925(2)213-224.

[35]  Pierrot F. High-speed parallel robot with four degrees of freedomFranceWO2006087399A1[P]. 2006-08-24.

[36]  An articulated traveling plate[EB/OL]. [2015-05-16]. http//www.adept.com/products/robots/parallel/quattro-s650h/downloads.

[37]  Adept Quattro s650H[EB/OL]. [2015-05-16]. http//www.adept.com/products/robots/parallel/quattro-s650h/general.

[38]  黄田,赵学满,王攀峰,等. 杆轮组合式三平一转并联机构:中国,CN102152306A[P]. 2011-08-17.

         HUANG TianZHAO XuemanWANG Panfenget al. Rod-wheel combined parallel mechanism with three translations and a rotationChinaCN102152306A[P]. 2011-08-17.

[39]  黄田,汪满新,刘松涛,等. 一种具有三维平动一维转动的并联机构:中国,CN201907121U[P]. 2011-07-27.

         HUANG TianWANG ManxinLIU Songtaoet al. A parallel mechanism with three translations and one rotationChinaCN201907121U[P]. 2011-07-27.

[40]  黄田,梅江平,王辉,等. 一种可实现高速运动的三维平动一维转动并联机构:中国,CN101863024A[P]. 2010-10-20.

         HUANG TianMEI JiangpingWANG Huiet al. A high speed parallel mechanism with three translations and one rotationChinaCN101863024A[P]. 2010-10-20.

[41]  Metrom[EB/OL]. [2015-05-16]. http//www.metrom- mobil.com/.

[42]  Metrom[EB/OL]. [2015-05-16]. PM1400. http//www. multistation.com/METROM.

[43]  Bonev I. Delta robots are so yesterday — Here come the four-armed parallel robots[EB/OL]. [2015-05-16]. http//coro.etsmtl.ca/blog/?p=263#more-263.

Options
Outlines

/

  Copyright © Journal of Mechanical Engineering, All Rights Reserved.
Powered by Beijing Magtech Co. Ltd,.