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3D-printed robotic hand powered by water can play Super Mario Bros

A 3D-printed robotic hand controlled by pressurised water can complete the first level of classic computer game Super Mario Bros in less than 90 seconds
robot hand
This 3D-printed robot hand can play Mario
University of Maryland

A 3D-printed robotic hand controlled by pressurised water can complete the first level of classic computer game Super Mario Bros in less than 90 seconds.

and his team at the University of Maryland 3D-printed the hand in a single operation using a machine that can deposit hard plastic, a rubber-like polymer and a water-soluble “sacrificial” material. This last material enables complicated shapes to be supported during construction before it is rinsed away in water when the printing process is complete.

This range of materials makes it possible to create the rigid skeleton of the device but also what the team calls “fluidic circuits” that are operated by a single source of pressurised water, and that turn carefully calibrated streams of water from a hose into finger movements.

The hand’s three fingers are each triggered by different pressures sent along a single control hose. This means that by carefully controlling the pressure of water pulses sent down the hose, the team could move each of the three fingers and operate a game controller with enough precision to play the game.

The device cost just a few pounds to manufacture and was created using a commercially available 3D printer.

Sochol says: “Normally you’d plug a control line into every one of these fingers to be able to play Nintendo, and the more fingers that you have, the more of these external control inputs that you’re going to need.”

But having so many control inputs is cumbersome, and using just one control input instead makes the system much simpler to build.

Sochol says that soft robotics such as this hand can create devices that are safer for humans to be around than powerful, rigid metal machines. They can also be powered by relatively safe sources of energy like pressurised water or air, and may lead to advances in prosthetic limbs.

Science Advances

Topics: 3d printing / robotics / Robots