Researchers at Saarland University together with associates in Bologna and Naples have developed a robotic hand that can accomplish both tasks with ease and yet including the actuators is scarcely larger than a human arm. (Aticle from Physorg).
It may be difficult to imagine, but pouring juice into a plastic cup can be a great challenge to a robot. While one hand holds the glass bottle firmly, the other one must gently grasp the cup. Researchers at Saarland University together with associates in Bologna and Naples have developed a robotic hand that can accomplish both tasks with ease and yet including the actuators is scarcely larger than a human arm. This was made possible by a novel string actuator, making use of small electric motors to twist strings. The robotic hand is thus powerful yet delicate and could one day be deployed as a helper around the house or in catastrophic scenarios.
“We wanted to impart our robotic hand with a broad spectrum of human traits. Its artificial muscles should be able to deliver enormous forces by simple and compact means”, explains Chris May, scientist at Saarland University’s Laboratory of Actuation Technology. The robotic hand was recently presented during a meeting at the Forschungszentrum Informatik in Karlsruhe. It is an example of some of the new steps taken in robotic research within the scope of the European project DEXMART. Over the past four years international scientists developed various concepts, especially focused on increasing the versatility with which two-arm robots can be implemented.
“When robots help around the house or should save people from a burning building, they need to have hands which can grasp with strength but at the same time gently”, explains Hartmut Janocha, Professor of Process Automation at Saarland University. The challenge lies in trying to make the necessary technology fit within the robotic arm such that it does not differ significantly from a human arm in terms of size and form. “We came up with a simple, yet extremely effective idea: using strings that are twisted by small, high-speed motors, we are able to exert high tensile forces within a compact space”, explains mechatronic researcher May. The sensorised and controlled robotic hand is able to touch diverse objects, to grasp and lift them and place them gently in a new position. Chris May demonstrated this in Karlsruhe with a delicate Easter egg and a heavy glass bottle.
Extremely strong polymer strings enable the Saarbrücken researchers to lift a five kilogram load by 30 mm within a split second, making use of a small electric motor and a 20 cm long string. “Each robotic finger, which like a human finger is comprised of three segments, can be controlled precisely by means of the individual tendons”, describes Chris May the novel miniature actuator. The mini electric motors run at high speed and a small torque on the order of five Newton-millimeters. “The capability of the robotic hand is so near to that of humans that the vision of robots as personal assistants in the household, in the operating room as well as in industrial settings is becoming ever more realistic. We presume that the combination of small electric motors with twisted string is interesting for other applications as well”, the researcher reckons.
Provided by Saarland University
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