Collaborative robots have the characteristics of high safety, high flexibility, high precision, and plug and play. Programming is simple and intuitive, enabling non-professionals to quickly grasp and use, and has become an important driving force for the rapid development of the industrial robot market. So, what are the main areas of use of cobots?
1. Traditional industrial use.
Many traditionally used programs are fruitful because they are repetitive. Cobots that perform heavy physical labor, such as assembly, loading/unloading, packing, sorting, dispensing, polishing, and polishing. With the increasing use of robots in various planning enterprises, robots are no longer just used by large industrial manufacturers. With today's collaboration skills, many machine builders are finding that the payback period is as short as less than a year. In addition to reducing labor costs and increasing product productivity, these robots are able to support factories to downsize assembly line planning and collaborate directly with operators. Finally, some cobots are able to work in a cluttered human environment without the need for large external sensors and barriers. This allows the plant to be arranged according to the needs of the current working environment. Dismantle the robot or deploy manpower. This enables the flexibility required for many high-mix, low-volume manufacturing equipment.
2. Warehousing and logistics.
Automated guided vehicles (AGVs) have been used in the warehousing and logistics industry for many years, but traditionally, large equipment has been required to support these vehicles. The new navigation skills enable the operation of AGVs in the warehouse or factory without the use of reflectors or symbols. In addition to new navigation skills, a new type of skill has been developed by combining mobile robots and articulated robots. This combination presents an exciting new opportunity to operate robots around equipment and pick and pack products through robots while operating in a human environment.
3. Remote security and monitoring.
Cobots will bring exciting opportunities in the field of remote security and monitoring. The app combines a variety of skills, including mobile robots, sensors, and video surveillance. These robots are exposed to national borders and other large open areas, such as farms, solar farms, warehouses, airport parking lots, or military bases. Cobots do not require external safety barriers. As the number of these robot placements increases, so do the programs that benefit from them. Now, we've seen cobots in industrial setups. Clutter/risk of use. Warehousing and logistics, as well as significant benefits in the areas of security and surveillance.
4. Use messy and risky.
Collaboration. Cluttered sensing robots are not only able to collaborate with operators, but they are also able to support working in the messy and risky use procedures that make it difficult to lay out traditional robots. Operators are exposed to a variety of risks, including chemicals and falls from heights, in procedures such as spraying or removing paint from large ships. Now, the robot can be set up to do the job without having to install a guide rod on board. Tasks that are too cluttered such as trajectories or sensors. Another use program is the Calamity Recovery Robot, which places the robot to perform a task in unfamiliar and steep terrain.
5. Surgical use.
Reduced risk. Shortening the time of surgery and the moment of recovery remains the focus of surgical robots. With improved conventional laparoscopic and arthroscopic viewing skills, surgical robots are able to provide surgeons with greater visibility, agility, accuracy, and comfort to safely operate around OR staff and patients. Today's surgical robots can reduce surgical trauma, improve patient outcomes, and shorten the length of postoperative hospital stay for the prostate. Heart. Gynecological surgery and other surgical patients. Follow the new surgery. With the addition of global demand and the continuous innovation of collaborative skills, the potential for surgical robots is limitless.
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