Cobot Applications in Industries
In recent years, automation has grown in popularity in various industries. Most industries are on the cutting edge of an automated technology. Manufacturing businesses, for example, have altered the way operations were once performed following the adoption of the Cobot. With the introduction of autonomous systems, human engagement and involvement have substantially decreased. As a result, work is completed more quickly and precisely. You can find more details if you visit UniversalRobots.
Though automation transforms the nature of work, it has provided industries with massive profits. The collaborative robot is one of the most utilized forms of automation devices. Robots can function 24 hours a day, seven days a week, in almost any environment. This helps organizations increase productivity. Furthermore, manufacturing robots now have the cognitive skills to make decisions independently. Manufacturing collaborative robots can become more versatile as the underlying technologies improve, allowing them to take on more creative jobs.
It is predicted that in 2023, there will be a deficit of 290,000 welding professionals. As a result, most businesses are turning to collaborative robots to get long-term benefits. 29% of welding applications and tasks are best suited for robots. Although having a robotic system is expensive, businesses can reap benefits that outweigh the cost. Computer vision systems improve the sensing capabilities of collaborative robots. With this capability, robots can detect potentially hazardous conditions and alert workers.
In production industries, employees must put together different items to form whole goods. Even the tiniest error in these processes can result in massive losses for the organization, destroying the bottom line and company image. What if, instead of workers executing product assembly, they delegated the duty to collaborative robots? Workers will be spared from doing assembly chores as collaborative robots gain popularity. Collaborative robots can meet the business needs of manufacturers with the proper assistance from personnel. Collaborative robots can detect when a person enters the workspace using vision-enabled sensors and image processing. When these robots arrive, they can slow down the work pace and continue to operate at high speed when the workers leave.
Manufactured goods should be of high quality to provide high levels of client satisfaction. As a result, workers must do quality checks on all units without losing attention. There’s a potential that imperfections or cracks on products may go unnoticed by the naked eye.
Collaborative robots, on the other hand, complete this task with 100% success. Before the packing process begins, the robots can readily identify even the tiniest flaws and notify the appropriate personnel. As a result of collaborating robots, businesses will see better goods and shorter cycle times.
Food Processing Industry
Cake decoration is about creating elegant designs to entice customers. Applying a robotic alternative that customizes designs according to consumer tastes and preferences can significantly enhance customer satisfaction. Due to its flexibility and adaptability features, Cobots are best positioned to perform these tasks.
Artisan food manufacturers are sometimes concerned that incorporating robots into their processes may reduce their products’ “hand-made” quality. However, some companies demonstrate how robots can be made to appear human-like. A delta robot spreads the tomato sauce, and an ABB manipulator tends to the pre-baking ovens at pizzerias. While their technology is far from being automated, some pizza companies aim to automate their pizza processing in the near future.
Cutting and slicing
It’s simple to automate some cutting and slicing procedures. Even domestic food processors, for example, may slice vegetables into consistent shapes. This form of simple automation does not necessitate the use of Cobots.
The food sector has relied on human labor for more sophisticated cutting and slicing, but Cobot is beginning to grow into the business. For instance, fish cutting entails detecting and eliminating unwanted parts of the fish and slicing fillets into desired shapes and sizes.
Cobot in butcheries
Automating activities in butchery is quite a difficult task. Each animal carcass is unique. Each cut needs to be tailored to a trained butcher’s required shape and size. Some butchering procedures are easier than others to automate. High-volume chicken leg deboning, for example, is a well-established aspect of the meat processing business.
Butchering has traditionally been a challenging task to automate. Beef producers are consistently searching for methods to include robots in their operations. Parts of the process are highly hazardous to humans. Rib cutting, for example, necessitates several hours of operation with a high-speed circular saw. Using Cobot manipulators and numerous visual sensors, companies can automate this action. The application enhances product consistency and safety.
Although adoption has been delayed in the past, the healthcare industry appears to be one of the primary areas of concentration in the coming years.
The most discussed application in this project is generally robot-assisted surgery. Collaborative robots are well-suited to a range of jobs. A good example is laboratory automation. These tasks are better done with a Cobot due to their lower chance of contamination.
Fruit and vegetable pick and place is one of the quickest robotic applications. Cobots can accomplish these tasks accurately with a lot of precision.
Collaborative robots created an automatic grape-picking method. A precise vision system is built into the robotic arm with an integrated AGV. A built-in automated vision system aids with grape identification. The Cobot then selects fruits and sets them in the box.
One of the projections for the electronics industry in 2023 is that there will be high demand for micro-manufacturing. Cobots are better positioned to fill this gap because they can be easily programmed to accomplish flexible tasks. Operators may change programs with the push of a button and even utilize vision sensors to learn how to detect whole new products quickly.
Cobots are meant to function in robot-human contexts, meaning that they interact with human operators and allow the operator’s work to be improved by the machine’s capabilities. Collaborative robots can be programmed by non-experts and are chosen for quick installation since they are easier to program than traditional industrial robots. In this regard, most industries find Cobots highly adaptable for their day-to-day activities.