共查询到18条相似文献,搜索用时 88 毫秒
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设计了一种结构简单、联接方便的模块化机器人关节结构,每个模块具有统一的机械接口和电路接口,实现了接口的通用化,可以根据实际工作需求自由选择关节模块数目进行机器人的结构搭建,实现在不同工况下,满足相应的机器人所需要的自由度。用旋量理论对该模块组合的六自由度机器人进行运动学求解和工作空间分析,充分证明了模块化关节结构设计的可行性与有效性。 相似文献
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基于指数积公式法,建立了与可重构机器人构型无关的正向运动学方程;将机器人整体运动学逆问题分解成若干子问题的组合,并通过对11种标准型子问题和指数积方程分解处理技巧的分析,得出了能快速方便地求解各种构型可重构机器人运动学逆解的通用方法。结合实例说明了上述方法的有效性。 相似文献
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研制了一种新型模块化可重构机器人系统,机器人由许多结构和功能完全相同的模块相互联接组成,通过改变各模块之间的联接状态和相互位置关系,不需任何外界辅助,自动完成重构过程和整体协调运动:设计了模块的分离联接机构和单自由度立方体结构,模块结构兼具阵列式和串联式特点,可方便的实现重构运动和整体协调运动:上位机软件系统可通过交互方式设置各机器人模块的方位,可手工编写或自动产生可重构机器人各模块的运动序列,可对机器人可重构过程和整体构型的协调运动进行规划和仿真,并通过计算机串口对机器人进行实时控制。试验验证了机器人模块的分离/联接和模块协作基本功能和蠕虫构型、四足构型、履带构型三种构型的整体协调运动功能。试验表明:模块结构设计简单合理,控制容易,可以完成重构操作功能和整体协调运动功能。 相似文献
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针对单人无法独立完成的操作任务,需要额外辅助的需求,提出并研制了一种模块化、可重构的外肢体机器人,该机器人由多个结构、功能相同的基本模块单元串联组成。为了实现模块化外肢体机器人的模块连接配置与变形重构能力,分析了基本模块单元的结构、功能需求,根据需求设计了基于舵机驱动的模块单元。每个模块单元由两个楔形子模块共轴相互转动构成,形成一个转动自由度。设计了基于磁铁吸附的机械连接机构,可以实现两个模块间的快速连接与分离;提出了双排金属触点间隔错位连接方法,保证两个模块单元间实现可靠的电气系统连接。划分了双模块串联条件下4种不同的连接方位,得出了外肢体机器人的构型配置种类与串联模块个数关系。面向具有任意模块个数、不同连接方位的外肢体机器人,建立了基于虚拟转轴的模块化外肢体机器人通用正向运动学模型。对基本模块的转动能力、承载能力、快速连接能力以及外肢体机器人在焊接过程中,辅助操作人员夹持导线、递送电话等能力进行了试验,验证了所提出的新型模块化外肢体机器人的辅助能力。 相似文献
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介绍了一种可重构模块化机器人系统,进行了基于指数积法的模块化机器人的运动学研究。采用装配映射矩阵描述模块装配的拓扑结构信息。利用拓扑结构信息和模块坐标系间的齐次变换,获得了各个关节的旋量坐标并自动生成了基于全局指数积法的机器人运动学正解模型。通过对旋量坐标的伴随矩阵变换获得了机器人的空间雅克比矩阵,进而采用速度变换的方法得到了夹爪坐标系相对于空间坐标系的雅克比矩阵。采用Newton-Raphson迭代方法,利用雅克比矩阵的广义逆实现了运动学逆解的求解。并通过仿真实验验证了逆解求解方法的有效性。 相似文献
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This paper presents a method for the design and analysis of reconfigurable parallel robots. The inherent modularity in a parallel robot lends itself as a natural candidate for reconfiguration. By taking the branches as building blocks, many modular parallel robots can be constructed, from which a reconfigurable parallel robot can be realized. Among three types of reconfigurations, namely, geometry morphing, topology morphing, and group morphing, the method presented here is for the last two reconfigurations, thereby advancing the current research that is mainly limited to geometry morphing. It is shown that the module-based method not only provides a systematic way of designing a reconfigurable parallel robot, but also offers a unified modeling for robot analysis. Two examples are provided, one showing the topology morphing and the other showing the group morphing. 相似文献
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For reconfigurable robots, the automatic generation of inverse kinematics is a key problem, because such robots may assume various configurations. In this paper, the screw and product-of-exponentials (POE) formula are used to model the kinematics of reconfigurable robots. The POE formula can be converted to canonical subproblems through decomposition and adjoint transformation. Three classes and 28 types of subproblems containing geometric or algebraic solutions are identified and solved, which can be reused in different configurations. A generalized, decomposable, and reusable approach for close-form inverse kinematics of reconfigurable robots is developed based on POE and subproblems. The effectiveness of this method is shown in an example. 相似文献
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Jie ZHAO Weizhong WANG Yongsheng GAO Hegao CAI 《Frontiers of Mechanical Engineering in China》2008,3(1):91-96
For reconfigurable robots, the automatic generation of inverse kinematics is a key problem, because such robots may assume
various configurations. In this paper, the screw and product-of-exponentials (POE) formula are used to model the kinematics
of reconfigurable robots. The POE formula can be converted to canonical subproblems through decomposition and adjoint transformation.
Three classes and 28 types of subproblems containing geometric or algebraic solutions are identified and solved, which can
be reused in different configurations. A generalized, decomposable, and reusable approach for close-form inverse kinematics
of reconfigurable robots is developed based on POE and subproblems. The effectiveness of this method is shown in an example.
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Translated from Chinese Journal of Mechanical Engineering, 2006, 42(8): 210–214 [译自: 机械工程学报] 相似文献
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Niels Lohse Hitendra Hirani Svetan Ratchev 《International Journal of Flexible Manufacturing Systems》2005,17(4):301-314
Evolvable and Reconfigurable Assembly Systems (RAS) enable enterprises to rapidly respond to changes in today’s increasingly
volatile and dynamic global markets. One of the key success factors for the effective use of RAS is methods and tools that
can rapidly configure and reconfigure assembly systems driven by changing requirements. The focus of this paper is the development
of a suitable equipment model to support the effective design of reconfigurable assembly systems. The work has been motivated
by the need to provide solutions for increasing product customisation and volume changes over the product life-cycle that
directly impact on the final product assembly. The paper proposes a comprehensive equipment ontology to enable effective decision-making
during the design and evaluation of new RAS configurations. The proposed ontology is based on the function-behaviour-structure
paradigm, and is formalised to facilitate its application in distributed web-enabled decision-making environments. The equipment
configuration and reconfiguration approach and prototype decision-making environment are illustrated using system design examples. 相似文献
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PowerCube模块化机器人工作空间计算 总被引:1,自引:0,他引:1
以PowerCube模块化机器人为对象,采用D-H法建立机器人运动学数学模型.在比较现有的机器人工作空间求解方法的基础上,分别利用解析法和数值法绘制和计算出机器人的工作空间.将2个图形进行对比,结果表明2种方法所得的结果是一致的. 相似文献
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