欠驱动永磁仿生五指机械手的设计与分析OA
Design and analysis of underactuated permanent magnet bionic five-fingered hand
为了降低控制系统的设计难度以及实现对物体的柔性抓握,提出一种腱绳牵引控制的新型欠驱动柔性永磁仿生五指机械手.首先,对新型机械手永磁关节的结构与工作原理进行介绍;其次,将永磁关节进行串联设计,构造出仿生手指,并对永磁关节的磁路进行仿真计算,求解其磁力线分布和磁复位力矩值;然后,以永磁仿生食指为例,对其抓握运动空间进行分析;最后,对欠驱动柔性永磁仿生五指机械手进行总体设计,并分析了抓握不同外形物体时的姿态.研究表明,该永磁关节为一种变刚度柔性关节,通过腱绳牵引控制仿生手指的各个永磁关节顺次发生弯曲、转动,可以模拟人类手指的抓握动作.该仿生五指机械手共15个永磁关节和1个关节模组,共有16个关节自由度,但仅需要6个驱动件进行控制,具有高欠驱动性,可实现以较少数目的驱动件控制较多数目的关节自由度,大大降低了控制难度.该研究为永磁传动技术在仿生机械手领域的应用提供了新思路,具有一定的工程应用价值.
In order to reduce the difficulty of control system and achieve flexible grasping of objects,a new type of underactuated flexible permanent magnet bionic five-fingered hand mainly driven by tendon rope traction was proposed.First,the structure and working principle of the permanent magnet joint were introduced.Second,the permanent magnet joints were designed in series to construct the bionic index fingers.The magnetic circuits of the permanent magnet joints were simulated and calculated,and the distribution of magnetic field lines and magnetic reset torque values of the permanent magnet joint were solved.Then,taking the permanent magnet bionic index finger as an example,the grasping motion space of the bionic index finger was analyzed.Finally,the overall design of the underactuated flexible permanent magnet bionic five-fingered hand was carried out and the postures of grasping objects of different shapes were analyzed.This study shows that the permanent magnet joint is a variable stiffness flexible joint.By using tendon rope traction to control the sequential bending and rotation of each permanent magnet joint of bionic finger,the grasping action of human fingers can be simulated.The bionic five-fingered hand has 15 permanent magnet joints and 1 joint module,so there are a total of 16 degrees of freedom.However,there are only 6 driving components for control,which has a high underactuation.It is possible to achieve the control of a large number of joint degrees with a relatively small number of drivers,this will greatly reduce the difficulty of control.This research provides a new idea for the application of permanent magnet drive technology in the field of bionic manipulators and has certain engineering application value.
牟红刚;翟欢乐;田庆敏;沈春根;武鲁宁
江苏航空职业技术学院,镇江 212134江苏航空职业技术学院,镇江 212134江苏航空职业技术学院,镇江 212134江苏大学,镇江 212013江苏航空职业技术学院,镇江 212134
机械制造
欠驱动永磁关节磁复位力矩变刚度仿生五指机械手
underactuationpermanent magnet jointmagnetic reset torquevariable stiffnessbionic five-fingered hand
《现代制造工程》 2026 (4)
52-60,102,10
2024年江苏省高职院校教师访学研修项目(2024TDFX009)2022年江苏省高职院校教师专业带头人高端研修项目(2022GRFX017)
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