The material composition of mechanical exoskeleton is not only advanced materials such as titanium alloy and nano-materials, but also conventional materials such as flexible textile materials. Its technical principle is very complicated, covering more than ten fields such as bionic technology, micro-energy technology and sensor technology. But to put it simply, it is to use micro-energy technology to supply energy and sensor technology to sense the real-time movements of the wearer, so as to realize it for the wearer? Increased kinetic energy? .

1. Why do mechanical exoskeletons require high materials? Mechanical exoskeleton, a scientific and technological product, can be regarded as cutting-edge technology even in contemporary times, so it is certainly difficult to explain the specific materials and technical principles clearly. We can only mine and prospect the deep information according to the limited information given on the open surface and combined with the actual performance test.

In terms of material composition of mechanical exoskeleton, titanium alloy, nano-material, aviation hard aluminum alloy, flexible textile material and so on are disclosed.

It is reasonable that a large proportion of them are high-cost cutting-edge materials. Because the mechanical exoskeleton is to be worn on the body, it must be light and thin, and at the same time it must bear a lot of pressure, so it must have strong toughness. It is impossible for conventional materials to reach such high performance standards.

But we don't know the model of the specific materials, because these are basically patent secrets.

Second, the mechanical exoskeleton? Increased kinetic energy? What is the principle? What is the technical core of mechanical exoskeleton? Increased kinetic energy? , can make a person who originally had only 1 unit strength, put on the exoskeleton, and can do things with the strength of two units, or even go further.

So what is the principle of kinetic energy increase of mechanical exoskeleton?

Earlier, it was speculated that the mechanical exoskeleton should adopt the lever principle, which is not wrong, but not accurate enough, because the lever principle is only a part of the mechanical exoskeleton technology.

The kinetic energy amplification principle of mechanical exoskeleton is formed by the interaction of many cutting-edge technologies. First, we should build such a mechanical exoskeleton structure on the basis of material technology, bionic technology and control technology. Secondly, we should use sensor technology, robot technology, transmission technology and embedded technology to perceive and cooperate with the wearer's real-time movements. Finally, it is necessary to use micro-energy technology and digital circuit technology to provide power for the wearer's actions. Increased kinetic energy? .

Obviously, just listing the names of these technologies is already a long story. If you are interested in further understanding the technical principle of mechanical exoskeleton, you can consult relevant journal articles.