基于变形机制的管道机器人的设计与分析

IF 1.8 4区 工程技术 Q3 ENGINEERING, MECHANICAL
Jianfeng He, Xiaoli Jia, Bo Xu, Shutong Huang, Lu Liu, Jingting Dai, Hengxiang Liu
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引用次数: 0

摘要

针对现有管道机器人在穿越三通和四通交接管道时遇到的通过性和适应性有限的难题,本文设计了一种基于变形原理的管道机器人。该机器人设计了数量可变的连杆,构成了其系统结构的核心。通过这种创新方法,它可以通过改变自身的结构配置,在不同类型的管道中实现移动。我们采用德纳维特-哈腾伯格(D-H)方法和螺杆理论进行运动学分析,根据机器人的位置和姿态提供正向运动学表达式,并提供反向运动学的几何解决方案。在 MATLAB 和 ADAMS 软件中进行的仿真表明,机器人的姿势变化是一致的,验证了其设计和能力。在直径为 500 毫米的管道中进行的原型实验进一步证实了机器人结构设计的合理性,以及通过改变姿态在三通和四通交接管道中穿行的能力。结果表明,这种管道机器人能有效地穿过直管、垂直三通和水平四通交界管道,为高效地通过复杂的管道交界处提供了可行的解决方案。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Design and analysis of a pipe robot based on metamorphic mechanism
Addressing the challenges of limited passability and adaptability encountered by existing pipe robots in navigating through tee and four-way junction pipes, This article designs a pipe robot based on the principle of metamorphism. This robot is designed with a variable number of linkages, constituting the core of its system structure. Through this innovative approach, it achieves movement in diverse types of pipelines by altering its own structural configuration. Kinematic analysis is conducted using both the Denavit-Hartenberg (D-H) method and screw theory, providing expressions for the forward kinematics in terms of the robot’s positional and attitudinal states, as well as geometric solutions for the inverse kinematics. Simulations conducted in MATLAB and ADAMS software demonstrate consistent postural changes of the robot, validating its design and capabilities. Prototype experiments in a 500 mm diameter pipeline further confirm the robot’s structural design rationality and its ability to navigate through tee and four-way junction pipes by altering its posture. The results indicate that this pipe robot effectively navigates through straight, vertical tee, and horizontal four-way junction pipes, offering a viable solution for efficiently maneuvering through complex pipeline junctions.
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来源期刊
CiteScore
3.80
自引率
10.00%
发文量
625
审稿时长
4.3 months
期刊介绍: The Journal of Mechanical Engineering Science advances the understanding of both the fundamentals of engineering science and its application to the solution of challenges and problems in engineering.
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