Design of a Parallel Haptic Device with Gravity Compensation by using its System Weight

Sung-moon Hur, Jaeyoung Park, Jaeheung Park, Yonghwan Oh
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引用次数: 1

Abstract

This paper proposes a 6 degree of freedom (DoF) manipulator for haptic application. The proposed haptic device, named GHap, is designed based on the four-bar-linkage mechanism for linear motion with the ring-type gimbal mechanism. To improve the force display ability, the device is designed to compensate the gravity force of the manipulator by its own weight. The conceptual mechanical design is compared by placing the third joint, which controls the four-bar mechanism, in two different configurations. The forward kinematics and the jacobian of GHap are presented. Finally, the gravity compensation method and open-loop force display performance of the proposed haptic device are validated by an experiment with the GHap prototype.
利用系统重量进行重力补偿的并联触觉装置设计
提出了一种六自由度的触觉机械臂。所提出的触觉装置名为GHap,是基于四杆连杆机构和环形框架机构进行直线运动设计的。为了提高机械手的受力显示能力,设计了以机械手自重补偿机械手重力的装置。通过将控制四杆机构的第三个关节置于两种不同的配置中,对概念机械设计进行了比较。给出了GHap的正运动学和雅可比矩阵。最后,通过GHap样机的实验验证了该触觉装置的重力补偿方法和开环力显示性能。
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