攀爬蛇形机器人爬树的静态机理研究

On the Tree-Climbing Static Mechanism of a Snake Robot Climbing Trees

  • 摘要: 为了研发一种新型的、在垂直外攀爬方面有较大优势的攀爬蛇形机器人,提出一种具有万向节功能的P-R(pitch-roll)模块,该模块结构简单、便于控制.相对于采用传统的平行连接和正交连接的机器人,基于该模块的蛇形机器人能够更为轻松和灵活地附着于攀爬对象外壁.对基于P-R模块的攀爬蛇形机器人爬树的基本姿态进行静态平衡机理分析,得到相关参数的函数关系,为攀爬蛇形机器人样机的研制和攀爬对象的选择提供了理论依据.最后通过实验验证了P-R结构的有效性及相关分析的合理性.

     

    Abstract: In order to develop a new climbing snake robot(CSR) that has rather great advantages on vertical outer climbing,this paper presents a P-R(pitch-roll)module,and with a simple structure and the function of universal joint,the module is easier to control.Compared with the traditional connection ways such as parallel connection and orthogonal connection,a snake robot based on this module can adhere to the outer surface of the climbed object more easily and flexibly.Static balance mechanism of the basic poses is analyzed for the P-R-module-based CSR when it climbs a tree,and functional realationship of the related parameters is gained,providing a theoretical evidence for developing CSR prototypes and choosing climbed objects.Finally,effectiveness of the P-R module and rationality of the related analysis are validated with CSR prototype experiments

     

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