Research on Motion Algorithm for Intelligent Operation of Rock Drill With Eight Degrees of Freedom

2018 IEEE International Conference on Intelligence and Safety for Robotics (ISR) Pub Date : 2018-08-01 DOI:10.1109/IISR.2018.8535962

Yundou Xu, S. Tong, Zhongjin Ju, Zengzhao Wang, Yunfeng Zhao, Jiantao Yao, Yongsheng Zhao

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Abstract

An algorithm for intelligent operation of eight-degree-of-freedom hydraulic rock drill is proposed. With the help of a total station instrument, the position the rock driller was obtained. The D-H method was used to establish the linkage coordinate system of the rock drill manipulator, and the kinematic equations with joint variables being the inputs were obtained. Considering the structural characteristics of the rocker manipulator itself and the actual working conditions, the constrained equations were set, the inverse kinematic analysis was performed, and an intelligent algorithm that gave the analytical expression of each joint variable was obtained. The simulation model of the robotic arm was established by using Adams simulation software, the simulation results were in accordance with the theoretical calculations, which shows correctness of the algorithm. The research results provide a theoretical basis for follow-up drilling trajectory planning and lay a foundation for the intelliaent operation of the rock drill.

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八自由度凿岩机智能作业运动算法研究

提出了一种八自由度液压凿岩机的智能操作算法。在全站仪的帮助下，获得了凿岩机的位置。采用D-H法建立了凿岩机机械手的连杆坐标系，得到了以关节变量为输入的运动学方程。考虑摇臂机械手本身的结构特点和实际工作条件，建立了约束方程，进行了运动学逆分析，得到了给出各关节变量解析表达式的智能算法。利用Adams仿真软件建立了机械臂的仿真模型，仿真结果与理论计算结果吻合，验证了算法的正确性。研究成果为后续钻进轨迹规划提供了理论依据，为凿岩机智能化作业奠定了基础。

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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2018 IEEE International Conference on Intelligence and Safety for Robotics (ISR)

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