Skin-like robot can convey objects

November 29, 2019 //By Julien Happich
Stretchable robot
Combining simple elastomeric electroactuators and electroadhesives, researchers at the Bristol Robotics Laboratory have designed a fully stretchable and rollable skin-like robot that crawl and convey small objects across a surface.

In a paper titled “All-Soft Skin-Like Structures for Robotic Locomotion and Transportation” published in the journal of Soft Robotics, the researchers led by Professor of Robotics Jonathan Rossiter developed what they describe as ElectroSkin robots, consisting of dielectric elastomer actuators (DEAs) and soft electroadhesives (EAs) in a fully compliant multilayer composite skin-like structure.


Schematic diagram of the ElectroSkin design showing
regions powered for electroadhesion and actuation.

The dielectric elastomer actuators were simply made of deformable dielectric membranes sandwiched between two compliant electrodes (made of conductive silicone), in effect, forming soft and variable parallel capacitors that can be deformed under the application of an electric field due to Maxwell pressure.

The soft-stretchable electroadhesives consist of compliant planar electrodes embedded in a soft dielectric, they behave like variable coplanar capacitors which produce controllable adhesion (as electrostiction) under a voltage. Applying an electric field between the electrodes causes polarization in any object in direct contact and induces electrostatic attraction forces.

The paper describes how through a careful timing of electroactivation, the actuation of the DEA pairs and the adhesion and release cycles of the EA pairs can be sequenced into a grip-move-release-relax cycle that will incrementally move the soft robot skin across a surface or alternatively, acting as a thin conveyor belt, move an object across its surface. More simply explained, moving in a fashion similar to soft organisms like snails and slugs, the soft robot crawls across the surface by alternately contracting its artificial muscles and gripping the surface using electrical charges.


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