New Robot Utilizes Bernoulli Principle and Supersonic Air Jets for Reliable Surface Adhesion

2023-04-08 06:46:14 By : Ms. Ada Chen
Robot Uses Bernoulli Principle & Supersonic Air Jets To Stick To Any Surface [Video]

Have you ever imagined a robot that can stick to any surface like a spider? Well, a smart material manufacturer has made it possible with the help of the Bernoulli principle and supersonic air jets. This robot can stick to any surface, regardless of its orientation.
Robot Uses Bernoulli Principle & Supersonic Air Jets To Stick To Any Surface [Video]     | CrazyEngineers


The Bernoulli principle is a fundamental concept in fluid dynamics. It states that as the speed of fluid in any region increases, its pressure decreases. This principle is the underlying force behind the lift generated by airplane wings.

The same principle has been used to create a revolutionary robot that can cling to any surface. The robot uses supersonic air jets to create an area of low pressure underneath it. This low-pressure zone sucks the robot towards the surface, effectively sticking it to the surface.

The robot's design is inspired by gecko feet, which use intermolecular forces to stick to surfaces. The robot's feet contain thousands of tiny hairs, which create an intricate network of adhesion points that allows it to stick to any surface. The robot can move along any surface with ease, thanks to its flexible design.

One of the most interesting features of this robot is that it can stick to surfaces while holding heavy objects. This makes it an excellent tool for industrial and manufacturing purposes, where heavy objects need to be moved around.

The robot's success can be attributed to the air jet mill principle, which is used to create the supersonic air jets. An air jet mill is a device that uses high-speed jets of air or steam to break down the materials into small particles. This principle has been used to create the supersonic air jets that are used by the robot to stick to surfaces.

Overall, this robot is a game-changer in the field of robotics. Its ability to stick to any surface provides endless possibilities for industrial and manufacturing applications. The robot's design is a perfect example of how principles from fluid dynamics can be applied to create groundbreaking technology. As the technology evolves, we can expect to see more innovative robots with unique abilities.