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一种旋转型机器人柔性关节设计与分析 被引量:14

Design and Analysis of a Rotary-type Robot Flexible Joint
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摘要 通过对人类膝关节柔性产生机理研究,仿照动物关节肌肉-肌腱组织设计出一种适用于电机驱动的旋转型柔性关节。通过研究对比旋转型SEA(series elastic actuator)与直线型SEA机构特点,提出一种由8个压缩弹簧协同组成的柔性输出机构,并建立柔性输出机构刚度模型,确立了弹性元件参数与柔性关节等效刚度的数学关系。在此基础上,对柔性关节整体进行紧凑化设计,电机、减速器、柔性输出机构集中安装于关节部位,使柔性关节模块化、通用性强。通过对该柔性关节软件仿真及关节样机测试,验证了关节抗冲击能力和柔性输出能力可以满足柔性关节型机器人对柔性关节的应用需求。 According to the researches of the mechanism of flexibility of human knee joint,the animal musculo-tendinous tissue was modeled to design a suitable motor-driven rotary-type robot flexible joint.Then,comparative mechanism characteristics of the rotary type and linear type SEA(series elastic actuator)were analyzed,a flexible output mechanism with eight interaction compression spring was proposed as the core of the compliant joint,and based on this structure the relationship among joint structure parameters and output stiffness was calculated.To achieve the joint modularity,versatile,lighter and more compact,motor,reducer and flexible output mechanism centrally were installed in joints.Software simulation and tests on a prototype joint show that this joint has impact property and flexible output capacity and may be applied to various robots with respect to its structure design and functions.
机构地区 河北工业大学
出处 《中国机械工程》 EI CAS CSCD 北大核心 2016年第18期2494-2500,共7页 China Mechanical Engineering
基金 国家自然科学基金资助项目(61503119)
关键词 机器人 柔性关节 紧凑设计 串联弹性驱动器 robot flexible joint compact design series elastic actuator
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参考文献19

  • 1Wolf S, Hirzinger G.A New Variable Stiffness Design: Matching Requirements of the Next Robot Generation [C]//IEEE International Conference on Robotics and Automation. New York: IEEE,2008 : 1741-1746.
  • 2Kong K,Bae J,Tomizuka M.A Compact Rotary Se- ries Elastic Actuator for Human Assistive Systems [C]//IEEE/ASME Transactions on Mechatronics. Kaohsiung, 2012 : 288-297.
  • 3Knox B T,Schmiedeler J P.A Unidirectional Series- elastic Actuator Design Using a Spiral Torsion Spring[J]. Journal of Mechanical Design, 2009, 131 (12) :125001.
  • 4Lens T, Kunz J,Stryk O V. Dynamic Modeling of the 4-DoF BioRob Series Elastic Robot Arm for Simulation and ControI[C]//SIMPAR 2010. Darm- stadt, 2010:411-412.
  • 5尹鹏,李满天,郭伟,王鹏飞,孙立宁.面向足式机器人的新型可调刚度柔性关节的设计及性能测试[J].机器人,2014,36(3):322-329. 被引量:11
  • 6Jafari A, Tsagarakis N G, Vanderborght B, et al. A Novel Actua-tor with Adjustable Stiffness (AwAS) [C]//IEEE/RSJ International Conference on Intelli- gent Robots and Systems.Piscataway, USA : IEEE, 2010:4201-4206.
  • 7陈兵,骆敏舟,孙少明,王美玲,王琨.基于仿生原理的节能减振类人机器人膝关节的设计[J].机器人,2014,36(2):218-223. 被引量:9
  • 8Alexander R M. The Maximum Forces Exerted by Animals [J]. Journal of Experimental Biology, 1985, 115(1) :231-238.
  • 9Kubo K, Kawakami Y, Fukunaga T. Influence of Elastic Properties of Tendon Structures on Jump Performance in Humans [J]. Journal of Applied Physiology, 1985, 87(6) :2090-6.
  • 10Wilson A M, Watson J C, Lichtwark G A. Biome- chanies: A Catapult Action for Rapid Limb Pro- traetion[J].Nature, 2003, 421(6918) :35-36.

二级参考文献99

  • 1罗武庭.DJ—2可变矩形电子束曝光机的DMA驱动程序[J].LSI制造与测试,1989,10(4):20-26. 被引量:373
  • 2Herzog W. What is the series elastic component in skeletal mus- cle[J]. Journal of Applied Biomechanics, 1997, 13(4): 443-448.
  • 3Kubo K, Kawakami Y, Fukunaga T. Influence of elastic prop- erties of tendon structures on jump performance in humans[J]. Journal of Applied Physiology, 1999, 87(6): 2090-2096.
  • 4Wilson A M, Watson J C, Lichtwark G A. Biomechanics: A catapult action for rapid limb protraction[J]. Nature, 2003, 421(6918): 35-36.
  • 5Roberts T J. The integrated function of muscles and tendons during locomotion[J]. Comparative Biology and Physiology A, 2002, 133(4): 1087-1099.
  • 6Roberts T J, Marsh R L, Weyand P G, et al. Muscular force in running turkeys: The economy of minimizing work[J]. Science, 1997, 275(5303): 1113-1115.
  • 7Hof A L, Geelen B A, Vandenberg J. Calf muscle moment, work and efficiency in level walking: Role of series elasticity[J]. Jour- nal of Biomechanics, 1983, 16(7): 523-537.
  • 8Alexander R M. Elastic mechanisms in animal movement[M]. Cambridge, UK: Cambridge University Press, 1988: 37-41.
  • 9Raibert M H. Legged robots that balance[M]. Massachusetts, MA, USA: MIT Press, 1986.
  • 10Buehler M, Koditschek D E. Analysis of a simplified hopping robot[C]//IEEE International Conference on Robotics and Au- tomation. Piscataway, NJ, USA: IEEE, 1988: 817-819.

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