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As a new type of industrial robot, collaborative robots remove obstacles to human-machine collaboration and allow robots to completely get rid of the constraints of guardrails or cages. Its pioneering product performance and wide range The application fields have opened a new era for the development of industrial robots.
Collaborative robots have the characteristics of high safety, high flexibility and high precision, as well as plug-and-play, simple and intuitive programming, and simple operation, allowing non-professionals to quickly master and use them. Therefore, they are also It has become an important driving force for the rapid development of the industrial robot market. So what are the main applications of collaborative robots?
Many traditional applications have benefited greatly from collaborative robots that can perform repetitive tasks and complete heavy manual labor, such as: assembly, loading/unloading, packaging, sorting, Dispensing, sanding and polishing applications. With robot adoption increasing among businesses of all sizes, robots are no longer just for large industrial manufacturers.
Collaborative robots will bring an exciting opportunity in the field of remote security and monitoring. This application combines a variety of different technologies, including mobile robotics, sensing and video surveillance. Collaborative robots do not require external safety barriers, and as the number of such robots continues to be deployed, the number of applications that benefit from them is growing. Today we are seeing clear benefits from collaborative robots in industrial settings, complex/hazardous applications, warehousing and logistics, and security and surveillance.
Collaborative, complex-sensing robots can not only collaborate beside the operator, but also support complex and dangerous applications where traditional robots are difficult to deploy. Working in hazardous applications. In applications such as spraying or removing paint from large ships, operators are often exposed to a variety of hazards, including chemicals and falls from heights. Now, robots can be deployed to do this job without the overly complex task of installing guide rods, rails or sensors on the ship. Another application is disaster recovery robots, where robots are deployed to perform tasks in unfamiliar and difficult terrain.
Reducing risks, shortening operation time and recovery time are still the focus of surgical robots. By improving routine laparoscopy and arthroscopy techniques, surgical robots can provide surgeons with greater visibility, agility, accuracy and comfort while working safely alongside operating room personnel and on patients.
Today’s surgical robots can reduce surgical trauma, improve patient outcomes and shorten postoperative hospital stays for patients undergoing prostate, cardiac, gynecological and other procedures. As new surgical procedures are developed, global demand increases, and collaboration technology continues to innovate, the potential for surgical robotics is limitless.
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