An Overview of Flexible Jointed Robots

Q3 Engineering
Hongbo Liu, Yuheng Li, Xiaodong Yang, Xianli Liu
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引用次数: 0

Abstract

Background: Since the first industrial robots were created in the middle of the last century, robotics has shown strong growth prospects. Robotics has developed rapidly over time and is being used in more and more areas. Because of the need to minimize impact forces during robot movement, traditional rigid robots are no longer sufficient, flexible joints are more adaptable to the environment due to their adjustable stiffness and have higher application value in humancomputer interaction. Therefore, flexible jointed robots have become one of the research hotspots in recent years. Objective: Through a detailed analysis of the existing hardware and software control technologies of flexible joint robots, referring to papers and recent patents on flexible jointed robots, we aim to find ways to reduce the impact of flexible joint deformation of flexible joint robots and improve the overall force and position control accuracy of flexible joint robots. Methods: To categorize the hardware and software technologies of flexible jointed robots, to briefly explain the directions of the technologies categorized and to study them, to summarize the advantages and disadvantages of each type of technology respectively, and to outlook the future development trend. Results: Through the study and analysis of the various parts of the flexible joint robot, it can be seen that joint flexibility is mainly achieved through the drive motor and flexible components to achieve flexibility and then through the fusion control technology to control the deformation of the joint. Differences in structural materials affect the mechanical properties of robot motion. The detection and feedback accuracy of the sensor also has a significant impact on the control accuracy. Conclusion: The use of new motor technology, flexible component technology, material technology, and sensor technology, combined with improvements in software fusion control technology can reduce the impact of joint deformation, improve the control accuracy of joint flexibility, and achieve high-precision force-level control capability of flexible joint robots.
柔性关节机器人综述
背景:自上世纪中叶第一台工业机器人问世以来,机器人技术呈现出强劲的增长前景。随着时间的推移,机器人技术发展迅速,并在越来越多的领域得到应用。由于机器人在运动过程中需要最大限度地减小冲击力,传统的刚性机器人已不能满足要求,柔性关节由于其刚度可调,对环境的适应性更强,在人机交互中具有更高的应用价值。因此,柔性关节机器人成为近年来的研究热点之一。目的:通过对柔性关节机器人现有软硬件控制技术的详细分析,参考柔性关节机器人相关论文和近期专利,寻找降低柔性关节机器人柔性关节变形影响的方法,提高柔性关节机器人整体受力和位置控制精度。方法:对柔性关节机器人的硬件和软件技术进行分类,简要说明所分类技术的发展方向和研究方向,分别总结各类技术的优缺点,并展望未来的发展趋势。结果:通过对柔性关节机器人各部件的研究和分析可以看出,关节的柔性主要是通过驱动电机和柔性部件实现柔性,然后通过融合控制技术控制关节的变形来实现的。结构材料的不同会影响机器人运动的力学性能。传感器的检测和反馈精度对控制精度也有重要影响。结论:利用新型电机技术、柔性构件技术、材料技术、传感器技术,结合软件融合控制技术的改进,可以减少关节变形的影响,提高关节柔性的控制精度,实现柔性关节机器人高精度力级控制能力。
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
Recent Patents on Engineering
Recent Patents on Engineering Engineering-Engineering (all)
CiteScore
1.40
自引率
0.00%
发文量
100
期刊介绍: Recent Patents on Engineering publishes review articles by experts on recent patents in the major fields of engineering. A selection of important and recent patents on engineering is also included in the journal. The journal is essential reading for all researchers involved in engineering sciences.
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