HEFEI — Inspired by the agility of elephant trunks and octopus tentacles, a team of scientists from a Chinese university has developed a highly dexterous spiral soft robot arm comparable to the human hand in multiple grabbing tasks.
Demonstration videos have showcased the tentacle-like robotic arm's impressive capabilities — effortlessly grasping delicate objects like eggs, strawberries and USB cables, securely catching a fast tennis ball, and swiftly paddling a ping-pong ball with precision.
The researchers, led by Nikolaos Freris from the University of Science and Technology of China, employed reverse engineering techniques to simulate the logarithmic spiral-shaped flexible structures found in nature.
The bio-inspired robotic system SpiRobs has demonstrated sophisticated gripping maneuvers through a series of movements, including reeling, extending, winding and grasping, with a near-95 percent success rate, according to a study published in the journal Device.
Actuated by two or three cables, the spiral gripper, with a 15-degree conical angle, can grasp objects with a diameter of more than two orders of magnitude and support loads up to 260 times its weight, according to the study.
The team used 3D printing with affordable materials like polyurethane, resin and paper to produce prototypes at various scales from centimeters to meters thus boosting their commercial potential.
In a field test, a drone-equipped robotic arm adeptly seized and hoisted a water bucket, showcasing the potential for future use in the low-altitude economy sector.
Xinhua
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