Configuration analysis of a chain-type reconfigurable modular robot inspired by normal alkane

Abstract

Normal alkane is an unbranched alkane whose structural formula is H-CH2-CH2-…-CH2-…-CH2-H, which can be regarded as a reconfigurable chain-type structure composed of -CH2- modules. Inspired by normal alkane, a normal-alkane-like re-configurable modular robot (NAR) is proposed. The module consists of two differential gear trains mounted orthogonally. Each differential gear train contains two input degrees of freedom and two output degrees of freedom. Due to the genderless interface design, multiple modules can be assembled into chain-type configuration. With the genderless interfaces and flexible degrees of freedom, NAR can be reconfigured into different dimensions of spatial configuration. The bond matrix is used to describe the configuration, which represents the bond attitude of the adjacent connected modules. In addition, full interconnected geometric feature (FIGF) algorithm is proposed for non-isomorphic configuration enumeration and judgment. The configurations with three modules are simulated and the results verify the feasibility of the algorithm. Finally, a prototype with three modules is fabricated and the configuration motion sequence is demonstrated.