When climbing vertical or inclined surfaces, insects utilize claws, tibial spines, and tarsal pads to create attachment forces. These devices allow them to climb on a variety of substrates, including those that are smooth, soft, or porous. Recent advances in materials may make long-lasting dry adhesives and arrays of sharp hooks feasible attachment mechanisms for small robots. Mini-WhegsTM are a series of robots that use rotating wheel-legs driven by a single motor for locomotion. By testing specially designed wheel-legs with office tape, pairs of spines, and Velcro®, this work demonstrates the feasibility of applying novel adhesives and frictional materials passively on simple rotating legs. The resulting robot climbs vertical fabric surfaces with Velcro®, crosses ceilings with Scotch® tape, and climbs steep concrete inclines with sharp spines and provides a test-platform for future adhesive materials such as dry adhesive tape.
Fig. 1. Six-legged Screenbot walking on wire mesh.Abstract-Insights from biology have helped reduce the weight and increase the climbing ability of mobile robots. This paper presents Screenbot, see Fig. 1, a new 126 gram biologically-inspired robot that scales wire mesh substrates using spines. Like insects, it walks with an alternating tripod gait and maintains tension in opposing legs to keep the feet attached to the substrate. A single motor drives all six legs. Mechanisms were designed and tested to move the spines into and out of contact with the screen. After the spine engages the substrate, springs along the leg are compressed. The opposing lateral spring forces constitute a distributed inward grip that is similar to forces measured on climbing insects and geckos. The distributed inward gripping (DIG) holds the robot on the screen, allowing it to climb vertically, walk inverted on a screen ceiling and cling passively in these orientations.
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