Biomimetic flexible robot arm design and kinematic analysis of a novel flexible robot arm

2016 Moratuwa Engineering Research Conference (MERCon) Pub Date : 2016-04-05 DOI:10.1109/MERCON.2016.7480172

K. P. Deashapriya, P. Sampath, W. Wijekoon, N. Jayaweera, A. Kulasekera

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引用次数: 6

Abstract

Conventional robot manipulators have singularities in their workspaces and constrained spatial movements. Flexible and soft robots provide a unique solution to overcome this limitation. Flexible robot arms have biologically inspired characteristics as flexible limbs and redundant degrees of freedom. From these special characteristics, flexible manipulators are able to develop abilities such as bend, stretch and adjusting stiffness to traverse a complex maze. Many researchers are working to improve capabilities of flexible arms by improving the number of degrees of freedoms and their methodologies. The proposed flexible robot arm is composed of multiple sections and each section contains three similar segments and a base segment. These segments act as the backbone of the basic structure and each section can be controlled by changing the length of three control wires. These control wires pass through each segment and are held in place by springs. This design provides each segment with 2 DOF. The proposed system single section can be bent 90° with respective to its centre axis. Kinematics of the flexible robot is derived with respect to the base segment.

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仿生柔性机械臂设计及一种新型柔性机械臂的运动学分析

传统的机械臂在其工作空间中存在奇异性和受限的空间运动。柔性和软机器人为克服这一限制提供了独特的解决方案。柔性机械臂具有柔性肢体和冗余自由度等生物学特性。基于这些特殊的特性，柔性机械臂能够发展出弯曲、伸展和调整刚度等能力来穿越复杂的迷宫。许多研究人员正在努力通过改进自由度的数量和方法来提高柔性臂的能力。所提出的柔性机械臂由多个部分组成，每个部分包含三个相似的部分和一个基段。这些部分作为基本结构的骨干，每个部分都可以通过改变三根控制线的长度来控制。这些控制导线穿过每个节段，并由弹簧固定在适当的位置。该设计为每个部分提供2自由度。所提出的系统单段可相对于其中心轴弯曲90°。推导了柔性机器人相对于基段的运动学方程。

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2016 Moratuwa Engineering Research Conference (MERCon)

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