Cone-hole docking mechanism for a modular reconfigurable mobile robot and its characteristic analysis

IF 1.9 4区计算机科学 Q3 ENGINEERING, INDUSTRIAL

Industrial Robot-The International Journal of Robotics Research and Application Pub Date : 2023-03-15 DOI:10.1108/ir-11-2022-0295

Shufeng Tang, Renjie Huang, Guoqing Zhao, Guoqing Wang

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引用次数: 0

Abstract

Purpose The purpose of this paper is that the modular mobile robots reformed the multimachine joint mode to achieve obstacle-crossing, climbing and other multifunctional inspection in unstructured environment under the connection of the cone–hole docking mechanism. Design/methodology/approach An arc-shaped docking cone head with a posture-maintaining spring and two arc-shaped connecting rods that formed a ring round hole were designed to achieve large tolerance docking. Before active locking, the coordination between structures was used to achieve passive locking, which mitigated the docking impact of modular robots in unstructured environment. Using the locking ring composed of the two arc-shaped connecting rods, open-loop and closed-loop motion characteristics were obtained through the mutual motion of the connecting rod and the sliding block to achieve active locking, which not only ensured high precision docking, but also achieved super docking stability. Findings The cone–hole docking mechanism had the docking tolerance performance of position deviation of 6mm and pitch deviation of 8° to achieve docking of six degrees of freedom (6-DOF), which had a load capacity of 230 N to achieve super docking stability. Under the connection of the cone–hole docking mechanism, the modular mobile robots reformed the multimachine joint mode to achieve obstacle-crossing, climbing and other multifunctional inspection in unstructured environment. Originality/value Based on mechanical analysis of universal models, a cone–hole docking mechanism combining active and passive functions, six-dimensional constraints could be implemented, was proposed in this paper. The characteristics of the posture-maintaining spring in the cone docking head and the compression spring at the two ends of two arc-shaped connecting rods were used to achieve docking with large tolerance. Passive locking and active locking modules were designed, mitigating impact load and the locking did not require power to maintain, which not only ensured high precision docking, but also achieved super docking stability.

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模块化可重构移动机器人锥孔对接机构及其特性分析

本文的目的是将模块化移动机器人改造为多机联合方式，在锥孔对接机构的连接下，实现非结构化环境下的越障、攀爬等多功能检测。为实现大公差对接，设计了带姿态保持弹簧的圆弧形对接锥头和形成环形圆孔的两根圆弧形连杆。在主动锁定之前，利用结构间的协调实现被动锁定，减轻了模块化机器人在非结构化环境下的对接影响。利用两圆弧连杆组成的锁紧环，通过连杆与滑块的相互运动获得开环和闭环运动特性，实现主动锁紧，既保证了对接精度，又实现了超强的对接稳定性。结果:锥孔对接机构具有位置偏差为6mm、俯仰偏差为8°的对接容差性能，可实现6自由度对接，承载能力为230 N，具有超强的对接稳定性。在锥孔对接机构的连接下，模块化移动机器人改造了多机关节模式，实现了非结构化环境下的越障、攀爬等多功能检测。在对通用模型进行力学分析的基础上，提出了一种结合主动和被动功能、六维约束的锥孔对接机构。利用锥形对接头的保姿弹簧和两圆弧连杆两端的压缩弹簧的特点，实现了大公差对接。设计了被动锁定和主动锁定模块，减轻了冲击载荷，且锁定不需要电力维护，既保证了对接精度，又实现了超强的对接稳定性。

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

Industrial Robot-The International Journal of Robotics Research and Application 工程技术-工程：工业

CiteScore

4.50

自引率

16.70%

发文量

审稿时长

5.7 months

期刊介绍： Industrial Robot publishes peer reviewed research articles, technology reviews and specially commissioned case studies. Each issue includes high quality content covering all aspects of robotic technology, and reflecting the most interesting and strategically important research and development activities from around the world. The journal’s policy of not publishing work that has only been tested in simulation means that only the very best and most practical research articles are included. This ensures that the material that is published has real relevance and value for commercial manufacturing and research organizations. Industrial Robot''s coverage includes, but is not restricted to: Automatic assembly Flexible manufacturing Programming optimisation Simulation and offline programming Service robots Autonomous robots Swarm intelligence Humanoid robots Prosthetics and exoskeletons Machine intelligence Military robots Underwater and aerial robots Cooperative robots Flexible grippers and tactile sensing Robot vision Teleoperation Mobile robots Search and rescue robots Robot welding Collision avoidance Robotic machining Surgical robots Call for Papers 2020 AI for Autonomous Unmanned Systems Agricultural Robot Brain-Computer Interfaces for Human-Robot Interaction Cooperative Robots Robots for Environmental Monitoring Rehabilitation Robots Wearable Robotics/Exoskeletons.