模块化可重构外肢体机器人
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TH89

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国家重点研发计划(2018YFB1305400,2017YFB1302301)、国家自然科学基金联合基金(U1713201)、国家自然科学基金(61673137,91648201)项目资助


Modular and reconfigurable supernumerary robotic limbs
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    摘要:

    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。

    Abstract:

    Aiming at the requirement that the operation tasks that cannot be completed by one person alone need additional assistance, the modular and reconfigurable supernumerary robotic limb is proposed and developed, which is composed of several basic modules connected in series with the same structure and function. In order to realize the module connection configuration and the shape reconfiguration capacities of the modular supernumerary robotic limb, the structure and function requirements of basic module units are analyzed. According to the requirements, the module unit based on steering engine driving is designed. Each unit is composed of two wedge-shaped sub-modules rotating coaxially with each other to form a rotational degree of freedom. The mechanical connection mechanism based on magnetic attraction is designed, which can realize the quick connection and separation of two modules. Furthermore, the connection method using double row metal contacts with interlacing disalignment is proposed to ensure the reliable electrical system connection of two module units. Four different connection orientations of two modules connected in series are clarified. The relationship between the configuration types of the supernumerary robotic limb and the number of modules is obtained. Facing to the supernumerary robotic limb with arbitrary number of modules and different connection orientations, the general forward kinematic model of the modular supernumerary robotic limb based on virtual axis is established. Experiments were carried out aiming at the rotation, carrying and fast connection capacities of basic modules, as well as the abilities of assisting the operator to carry wire and deliver telephone of supernumerary robotic limb in welding process, which verifies the assistant ability of the proposed new modular supernumerary robotic limb.

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赵思恺,李长乐,张宗伟,赵 杰,朱延河.模块化可重构外肢体机器人[J].仪器仪表学报,2021,(4):218-227

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  • 在线发布日期: 2023-06-28
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