Modular Assembly of Soft Machines via Multidirectional Reclosable Fasteners

Modular soft robots have strong adaptability and versatility in various application contexts. However, the introduction of connection mechanisms will always either reduce the structural compliance or need extra actuation appendages, resulting in the complexity of the structure and system of the robot. To address these issues, herein, a compliant and passive connection strategy is demonstrated, which is accomplished utilizing the reclosable fasteners (RFs), and other varieties including hook-and-loop fasteners, as the connection mechanisms to the soft modules for the rapid assembly of various soft machines. The module is a pneumatic soft actuator with both ends designed with a multifaceted structure to attach the RFs in different orientations, resulting in various assembling patterns, including linear connection, orthogonal connection, and oblique connection. Moreover, an alignment mechanism is also designed to improve the alignment precision between two assembled modules. The versatility of the RF enables soft modules capable of assembling not only between identical modules but also with diverse additional accessories for various application scenarios. Different functional assemblies are demonstrated including soft grippers, soft walking robots, and shape-morphing electrical devices. This approach to the connection mechanisms provides routes to new modular soft robots and devices.

Automated summary

This paper demonstrates a compliant and passive connection strategy using reclosable fasteners as the connection mechanisms for the rapid assembly of various soft machines. Different assembling patterns and improved alignment precision are achieved through the design of multifaceted structures and alignment mechanisms. This approach provides routes to new modular soft robots and devices, with high adaptability and versatility for various application scenarios.