This glove is made of conductive yarn, which contains 80% polyester and 20% stainless steel. There is no doubt that this design enables easy manipulation of electronic components. In fact, this is indeed the case. The designer of this glove, Yen Chen Chang, a student at the Royal College of Art, originally developed it with the hope that it could control musical instrument keyboards and guitars. What’s even more amazing is that this glove can also be controlled on a touch screen without button design.
In addition, R&D designer Yen Chen Chang also introduced another glove that can control the juicer. The harder you clench your fist here, the higher the juice output rate of the juicer. At the same time, a small electric fan can be controlled by friction, and a light can be controlled by pulling.
After seeing this, I believe everyone will want to ask how this works? It’s actually very simple. The resistivity of stainless steel components changes when a user rubs, pulls or performs other actions while wearing gloves. These fluctuations are transmitted to the device through the circuit board, thereby controlling the juicer, electric fan and light bulb.
In addition to the current products, designer Chang also said that his products can enter sportswear companies in the future and can produce knitted shoes similar to gloves.
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