航空学报 > 2018, Vol. 39 Issue (1): 421370-421370   doi: 10.7527/S1000-6893.2017.421370

欠驱动指爪机构的被动弹性元件参数优化设计

楚中毅, 赖咪, 燕少博   

  1. 北京航空航天大学 仪器科学与光电工程学院, 北京 100083
  • 收稿日期:2017-04-27 修回日期:2017-08-02 出版日期:2018-01-15 发布日期:2018-01-15
  • 通讯作者: 楚中毅,E-mail:chuzy@buaa.edu.cn E-mail:chuzy@buaa.edu.cn
  • 基金资助:
    国家自然科学基金(51375034,61327809)

Optimization design of passive elastic element parameter for underactuated gripper

CHU Zhongyi, LAI Mi, YAN Shaobo   

  1. School of Instrument Science and Opto-electronics Engineering, Beihang University, Beijing 100083, China
  • Received:2017-04-27 Revised:2017-08-02 Online:2018-01-15 Published:2018-01-15
  • Supported by:
    National Natural Science Foundation of China (51375034, 61327809)

摘要: 欠驱动指爪机构具有抓取不同目标物的自适应性,可满足操作任务的多样化需求。其欠驱动特性使得被动弹性元件的参数对抓取性能的稳定性和自适应能力有很大影响。若弹簧刚度选择过小,欠驱动指爪的稳定性会降低;若弹簧刚度选择过大,指爪的自适应能力会下降。因此,本文基于抓取状态平面法,对欠驱动指爪的被动弹性元件参数进行优化设计。首先,在欠驱动指爪静力学分析的基础上,建立弹簧刚度与驱动力的平衡方程。然后,通过对不同抓取模式拓扑转换的定量分析,获得欠驱动指爪与目标物之间不同的接触状态;同时为了保证稳定抓取,考虑了不同抓取模式下指爪弹性元件刚度与驱动力矩的参数匹配关系。在此基础上,基于抓取状态平面法建立被动弹性元件刚度与机构稳定区域关系的解析表达,并基于稳定区域面积最大化的思想,进行弹簧刚度的最优设计。最后,基于不同的抓取状态模型对弹簧刚度进行了优化设计,为后续欠驱动指爪机构设计和控制应用奠定理论和技术基础。

关键词: 欠驱动指爪, 弹性元件, 参数优化, 抓取模式, 抓取状态平面

Abstract: The underactuated gripper is adaptive to different objects, and is expected to satisfy diverse operation tasks. Its underactuated characteristic determines that the design of passive elastic elements has a great impact on stability and adaptability of the gripper. If the spring becomes compliant, stability of the underactuated gripper will be reduced. On the other hand, if the spring becomes too stiff, adaptability of the gripper will decrease. This paper proposes a metric to design the spring stiffness for the underactuated gripper based on the grasp-state plane method. The equation for the equilibrium between spring stiffness and the driving force is established based on statics analysis. Through the transition between various grasp types, the different contact states between the underactuated finger and the object are obtained, and the matching relationship between the spring stiffness and the driving torque is considered to ensure the stable grab of different grasp types. A stable region is defined based on the grasp-state plane method, and spring stiffness is chosen by maximizing the area of the stable region. Several grasp models are given to demonstrate the effectiveness of the proposed method, providing foundation for the design and control of the underactuated gripper in future study.

Key words: underactuated gripper, elastic element, parameter optimization, grasp type, grasp-state plane

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