Accessibility and Trajectory Planning of Cutter Changing Robot Arm for Large-Diameter Slurry Shield

IF 0.6 4区工程技术 Q4 MECHANICS

Mechanika Pub Date : 2023-06-17 DOI:10.5755/j02.mech.30386

Mei Yang, G. Zeng, Yong Ren, Lai-kuang Lin, Wei Ke, Yifan Liu

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引用次数: 0

Abstract

Aiming at solving the problems of huge cost, long cycle and high risky during manual cutter changing process for shield machine, a cutter changing robot was designed to adapt to its narrow and complex space, the workspace and motion path of cutter changing robot arm were studied. Firstly, by analyzing the internal space and cutter layout characteristic, the configuration of the robot arm was proposed, and the dimension of each rod was designed using multi-objective optimization method. The kinematic model of the robot arm was established by using the D-H model method to analyze its reachable working space. While the inverse kinematic model of the robot arm was solved by the Newton-Raphson iterative method to complete the trajectory planning of the arm for all cutter locations, where the relationship between the target position and the joint variables was established. The motion stability of the robot was verified by virtual simulation and test. The results show that the working space of the designed robot arm meets the cutter changing requirements that all the cutter position can be reached. Moreover, the power output of the drive is smooth, which can transport the cutter weighing up to 250kg.

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大直径泥水盾构换刀机械臂的可达性及轨迹规划

针对盾构机手动换刀过程中成本高、周期长、风险大的问题，设计了一种适应其狭小复杂空间的换刀机器人，研究了换刀机器人手臂的工作空间和运动路径。首先，通过分析机器人内部空间和刀具布局特点，提出了机器人手臂的结构，并采用多目标优化方法设计了每个连杆的尺寸。利用D-H模型方法建立了机器人手臂的运动学模型，分析了其可达工作空间。而机械臂的逆运动学模型则通过Newton-Raphson迭代方法求解，以完成机械臂在所有刀具位置的轨迹规划，其中建立了目标位置与关节变量之间的关系。通过虚拟仿真和试验验证了机器人的运动稳定性。结果表明，所设计的机器人手臂的工作空间满足了换刀要求，即可以达到所有刀具位置。此外，驱动装置的动力输出平稳，可输送重达250公斤的刀具。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Mechanika 物理-力学

CiteScore

1.30

自引率

0.00%

发文量

审稿时长

3 months

期刊介绍： The journal is publishing scientific papers dealing with the following problems: Mechanics of Solid Bodies; Mechanics of Fluids and Gases; Dynamics of Mechanical Systems; Design and Optimization of Mechanical Systems; Mechanical Technologies.

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