Scientists on the Max-Planck-Institute for Clever Techniques (MPI-IS) have developed hexagon-shaped robotic parts, known as modules, that may be snapped collectively LEGO-style into high-speed robots that may be rearranged for various capabilities. The workforce of researchers from the Robotic Supplies Division at MPI-IS, led by Christoph Keplinger, built-in synthetic muscle tissues into hexagonal exoskeletons which are embedded with magnets, permitting for fast mechanical and electrical connections. The workforce’s work, “Hexagonal electrohydraulic modules for quickly reconfigurable high-speed robots” can be revealed in Science Robotics on September 18, 2024.
Six light-weight inflexible plates comprised of glass fiber function the exoskeleton of every HEXEL module. The internal joints of the hexagons are pushed by hydraulically amplified self-healing electrostatic (HASEL) synthetic muscle tissues. Making use of a excessive voltage to the module causes the muscle to activate, rotating the joints of the hexagon and altering its form from lengthy and slim to broad and flat.
“Combining gentle and inflexible parts on this manner allows excessive strokes and excessive speeds. By connecting a number of modules, we will create new robotic geometries and repurpose them for altering wants,” says Ellen Rumley, a visiting researcher from the College of Colorado Boulder. She and Zachary Yoder, who’re each Ph.D. college students working within the Robotic Supplies Division, are co-first authors of the publication.
In a video, the workforce exhibits the various behaviors that may be created with HEXEL modules. A gaggle of modules crawls by a slim hole, whereas a single module actuates so quick that it could leap into the air. A number of modules are related into bigger constructions that produce totally different motions relying on how the modules are hooked up. As an illustration, the workforce mixed a number of modules right into a robotic which quickly rolls.
“Generally, it makes lots of sense to develop robots with reconfigurable capabilities. It is a sustainable design choice — as an alternative of shopping for 5 totally different robots for 5 totally different functions, we will construct many alternative robots by utilizing the identical parts. Robots comprised of reconfigurable modules might be rearranged on demand to supply extra versatility than specialised programs, which might be helpful in resource-limited environments”, Yoder concludes.