一种可重构四足移动机器人的几何约束及其抗倾覆能力
Geometric Constraints and Anti-overturning Capability of a Reconfigurable Quadruped Mobile Robot
- 机械传动 2022年46卷第4期 页码:127-134
- 作者机构:
1.中北大学 机械工程学院, 山西 太原 030051
- 作者简介:
柴超(1995— ),男,内蒙古巴彦淖尔人,硕士研究生;研究方向为机器人学与机构学。
李瑞琴(1964— ),女,山西太原人,博士,教授;研究方向为机器人学与机构学。
- 基金信息:山西省重点研发计划项目(国际合作(201803D421027);201903D421051
DOI:10.16578/j.issn.1004.2539.2022.04.018
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柴超,李瑞琴.一种可重构四足移动机器人的几何约束及其抗倾覆能力[J].机械传动,2022,46(04):127-134.
Chai Chao,Li Ruiqin.Geometric Constraints and Anti-overturning Capability of a Reconfigurable Quadruped Mobile Robot[J].Journal of Mechanical Transmission,2022,46(04):127-134.
柴超,李瑞琴.一种可重构四足移动机器人的几何约束及其抗倾覆能力[J].机械传动,2022,46(04):127-134. DOI: 10.16578/j.issn.1004.2539.2022.04.018.
Chai Chao,Li Ruiqin.Geometric Constraints and Anti-overturning Capability of a Reconfigurable Quadruped Mobile Robot[J].Journal of Mechanical Transmission,2022,46(04):127-134. DOI: 10.16578/j.issn.1004.2539.2022.04.018.
摘要
提出了一种在倾倒后具有自我恢复能力的四足并联移动机器人。该四足机器人的腿部结构由一种可重构空间六杆机构构成,该六杆机构由两个改进型球面五杆机构并联而成,具有两种不同的运动位形。其中,运动位形Ⅰ具有1R2T共3个自由度,满足四足机器人对腿部行走机构的自由度需求;运动位形Ⅱ具有2个自由度且工作空间很大,满足其翻身所需要的工作空间条件。运用螺旋理论对球面五杆机构和可重构六杆机构的两种运动位形进行了几何约束分析,这两种运动位形具有互锁性能。运用D-H法对可重构六杆机构进行了逆运动学分析并得到其工作空间,验证了四足机器人翻身的可实现性。分析了四足机器人在翻身时的步态,得出了其在倾倒后自我恢复时腿部电机转动角度与机器人机身重心的关系。在四足机器人的翻身过程中,其腿部的可重构六杆机构均处于运动位形Ⅱ。在Adams软件中验证了预设翻身步态的正确性与合理性。
Abstract
Aiming at unmanned regions such as mine and space,a quadruped parallel mobile robot with self-recovery ability after overturning is presented. The leg structure of the quadruped robot is composed of a reconfigurable spatial six-bar mechanism,which consists of two improved spherical five-bar mechanisms connected in parallel and has two different motion configurations,the motion configuration I has three degrees of freedom (1R2T),which satisfies the degrees of freedom requirements of the leg walking mechanism for the quadruped robot,and the motion configuration II has two degrees of freedom and a larger workspace,which satisfies the workspace conditions needed for the robot to rolling over. Based on screw theory,the geometric constraints of the spherical five-bar mechanism and the reconfigurable six-bar mechanism are analyzed. These two motion configurations have the interlocking performance. The inverse kinematics of the reconfigurable six-bar mechanism is analyzed using D-H method,and the workspace is obtained. The realizability of the robot rolling over is verified. The rolling over gait of the quadruped robot is analyzed. The relationship between the rotation angles of the leg motors and the center of gravity of the robot body is obtained when the quadruped robot recovers itself after overturning. During the rolling over process of the quadruped robot,the reconfigurable six-bar mechanisms of its legs are all in the motion configuration II. The dynamic model of the quadruped robot is established to verify the correctness and rationality of the preset rolling over gait.
关键词
并联机构球面五杆机构可重构六杆机构四足机器人几何约束翻身步态
Keywords
Parallel mechanismSpherical five-bar mechanismReconfigurable six-bar mechanismQuadruped robotGeometric constraintRolling over gait
references
BAI L,GUAN J,CHEN X H,et al.An optional passive/active transformable wheel-legged mobility concept for search and rescue robots[J].Robotics and Autonomous Systems,2018,107:145-155.
WANG H,WANG H,HUANG J H.Smooth point-to-point trajectory planning for industrial robots with kinematical constraints based on high-order polynomial curve[J].Mechanism and Machine Theory,2019,139:284-293.
LI H K,SHI A J,DAI Z D.A trajectory planning method for sprawling robot inspired by a trotting animal[J].Journal of Mechanical Science and Technology,2017,31(1):327-334.
郝艳玲,李锐明,孙学敏,等.可重构立方体机构的设计与运动模式分析[J].机械工程学报,2020,56(13):120-127.
HAO Yanling,LI Ruiming,SUN Xuemin,et al.Design and motion pattern analysis of reconfigurable cube mechanism[J].Journal of Mechanical Engineering,2020,56(13):120-127.
苗智英,李瑞琴,张启升,等.3-PUU轮腿式移动机器人的步态与稳定性分析[J].机械传动,2018,42(3):90-93.
MIAO Zhiying,LI Ruiqin,ZHANG Qisheng,et al.Gait and stability analysis of 3-PUU wheel-legged mobile robot[J].Journal of Mechanical Transmission,2018,42(3):90-93.
庞国旺,赵耀虹,李瑞琴,等.3-UPS/SP并联机构的逆运动学与可达工作空间分析[J].包装工程,2020,41(17):182-187.
PANG Guowang,ZHAO Yaohong,LI Ruiqin,et al.Inverse kinematics and reachable workspace analysis of 3-UPS/SP parallel mechanism[J].Packaging Engineering,2020,41(17):182-187.
黄田,李曚,吴孟丽,等.可重构PKM模块的选型原则——理论与实践[J].机械工程学报,2005,41(8):36-41.
HUANG Tian,LI Meng,WU Mengli,et al.Criteria for conceptual design of reconfigurable PKM modules-theory and application[J].Journal of Mechanical Engineering,2005,41(8):36-41.
叶伟,方跃法,郭盛,等.基于运动限定机构的可重构并联机构设计[J].机械工程学报,2015,51(13):137-143.
YE Wei,FANG Yuefa,GUO Sheng,et al.Design of reconfiguration parallel mechanisms with discontinuously movable mechanism[J].Journal of Mechanical Engineering,2015,51(13):137-143.
ZHANG K,DAI J S.A kirigami-inspired 8R linkage and its evolved overconstrained 6R linkages with the rotational symmetry of order two[J].Journal of Mechanisms and Robotics,2014,6(2):021007.
姚燕安,张迪,李晔卓,等.多面体网型空间抓捕机构的设计与分析[J].南京航空航天大学学报,2019,51(3):263-271.
YAO Yan'an,ZHANG Di,LI Yezhuo,et al.Design and analysis of polyhedral net space capture mechanism[J].Journal of Nanjing University of Aeronautics and Astronautics,2019,51(3):263-271.
王冰,方跃法.一种可重构并联机构的几何约束和自由度分析[J].机械工程学报,2018,54(7):28-37.
WANG Bing,FANG Yuefa.Geometric constraint and mobility analysis of a reconfigurable parallel mechanism[J].Journal of Mechanical Engineering,2018,54(7):28-37.
周坤,李川,李超,等.面向未知复杂地形的四足机器人运动规划方法[J].机械工程学报,2020,56(2):210-219.
ZHOU Kun,LI Chuan,LI Chao,et al.Motion planning method for quadruped robots walking on unknown rough terrain[J].Journal of Mechanical Engineering,2020,56(2):210-219.
刘晓飞,唐艳华,刘鑫,等.含约束支链的冗余驱动并联机构动力学性能优化[J].农业机械学报,2021,52(5):378-385.
LIU Xiaofei,TANG Yanhua,LIU Xin,et al.Dynamics performance optimization for redundantly actuated parallel manipulator with constraint branch[J].Transactions of the Chinese Society for Agricultural Machinery,2021,52(5):378-385.
桑董辉,陈原,高军,等.由2自由度并联髋关节构成的脊柱式四足步行机器人步态规划和稳定性分析[J].兵工学报,2020,41(6):1188-1200.
SANG Donghui,CHEN Yuan,GAO Jun,et al.Gait planning and stability analysis of a quadruped robot with 2-DOF parallel hip and spine joints[J].Acta Armamentarii,2020,41(6):1188-1200.
田兴华,高峰,陈先宝,等.四足仿生机器人混联腿构型设计及比较[J].机械工程学报,2013,49(6):81-88.
TIAN Xinghua,GAO Feng,CHEN Xianbao,et al.Mechanism design and comparison for quadruped robot with parallel-serial leg[J].Journal of Mechanical Engineering,2013,49(6):81-88.
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