The reporter learned from Hefei University of Technology on the 10th that researchers at the school successfully developed a new type of flexible smart driver that can not only simulate human hand movements of the "finger" but also realize the "jump + roll" movement. This flexible "robot" jump height up to 5 times its own height. The research results recently published in the international academic journals "Advanced Functional Materials". The flexible smart driver can directly transfer the external energy such as light, electricity, heat and humidity into the mechanical deformation of the device itself, without going through the cumbersome energy conversion device, thus attracting a great interest of scientists. According to reports, at present, this study has achieved a variety of deformations including bending and twisting. Its application research has also been extended to bionics such as bionic robots and crawling robots. However, the research of flexible structure with simple structure, rapid large deformation, multi-stimulus response and the ability to simulate complex biological motion such as flight and jump still faces challenges. Hefei University of Technology research team and the Chinese Academy of Sciences, Suzhou Institute of Nanotechnology and nano bionic researchers work together to design and manufacture of a curly shape of the drive, from tubular to straight shape after the rapid deformation, restored to the original curly shape. Researchers through the shape design of the driver overlap at both ends to simulate the "finger" in the thumb and middle finger contact with each other, so as to build a light-driven jump "robot", its jump height can reach 5 times its own height, and With the air rolling action. The author of this achievement communication and researcher Hu Ying from Hefei University of Technology Institute of Industry and Equipment Technology introduced that by changing the direction of incident light, the robot could also produce periodic swaying motion similar to tumbler. Hu Ying said that traditional jumping robots need to accumulate, store and quickly release energy to realize jumping motion through a series of structural designs such as springs and gears, and to realize the jumping through the simulation of the daily behavior of "bouncing fingers" with flexible bionic intelligent driving material devices Exercise provides a whole new way. Beer Tin Cans,Beer Iron Box,Beer Tin Box,Beer Tinplate Box Dongguan Tielangtou Hardware Products Co., Ltd , https://www.tinboxtlt.com
January 24, 2024