Scientists at Harvard University in the United States stated that they had built a soft robot that they said could work without communication and power tethers. Four-legged robots can stand up and walk on the ground. Semi Automatic Blow Molding Machine
Machine Feature:
1. It is controlled by imported electrical components, which has the advantages of accurate performance, strong stability and simple operation;
2. It adopts double-question double-toggle mold clamping structure, strong clamping force, stable and reliable action, fast speed and convenient mold installation;
3. There are two methods of operation: manual and fully automatic; safe, reliable and unique valve position design makes the gas path clear at a glance;
4. It has the advantages of low investment, high efficiency, low power consumption, LED lights make the operation very convenient for employees, simple maintenance, and anti-pinch probes to improve the safety performance of the equipment;
5. The use of famous brand pneumatic components and solenoid valves have high sensitivity, fast switching speed, low failure rate, safe and reliable operation, high control accuracy and fast response;
6. The bottle body is free from pollution and the scrap rate of the bottle is low;
Semi Automatic Blow Molding Machine, Jar Blower, Blow Molding Machine TAIZHOU WATON MACHINERY CO LTD , https://www.watonblowing.com
The development team stated that the robot can carry more than 7 pounds is a hugely progressive robot. It can complete rescue missions, such as squeezing into the gaps of collapsed buildings to find victims, sending their own locations and images to rescue workers, and providing the trapped with water and medical potential. Harvard College and project team member Michael Tolley said, "I'm very excited because I think this is a more useful milestone for these types of robots becoming a real world. On the one hand, it seems to be a relatively simple matter, just Cut the control line, but many things must come together to make it a reality."
The soft robot of Harvard University is powered by the bottom, and its top is composed of silicone rubber composite material. The stiff rubber material impregnates the hollow glass beads to make them lighter. Harvard University stated that the research team tested the machine in the snow, flooded it with water, passed the flames, and even if there was a car running, it was a major improvement after every trial.