The application of industrial robots in the forging industry.

Release time:

2023-02-17

Currently, automation and intelligent production are the only ways for the industry's development. Forging, as part of the traditional labor-intensive industry, must have the demand for automation applications in the current industrial development process. This promotes technology, combining traditional manual forging techniques with modern robotics to achieve automated forging production.

Currently, the only way for the development of the industry is through automated and intelligent production. Forging, as part of the traditional labor-intensive industry, must have applications for automation in the current industrial development process to promote technology. The traditional manual forging techniques combined with modern robotics have achieved automated forging production. In today's engineering machinery industry, forging industrial robots are typically used for spot welding, arc welding, painting, assembly, and other tasks on the production line. They not only ensure stable product quality and improve labor productivity but also enhance the working conditions and intensity for workers. With continuous technological research, robots will perform even better. High temperatures, significant dirt, unit weight, irritating materials, and narrow spaces pose challenges in daily work. Robots can mimic forging production, feeding manually, and operating in high-temperature environments more quickly and safely, completing very dangerous and repetitive tasks. Thus, the establishment of robots has emerged.

The application of forging industrial robots first involves blocking links, which usually have special material systems that can determine whether the adhesive material has a discharge mechanism or interception. The robot's recovery device, blocking, and steering establish a scale for washing machines to remove oxide scale. Then, by establishing automation, the cleaning robot will remove the scale from the forged workpieces, with positioning and precise location of the workpieces during the picking process by the robot for forging. Error-proofing measures are largely implemented at this link, with various sensors detecting feeding positions, determining patterns, and ensuring no foreign objects in the molds. The robot will transport pre-forged materials to the designated location, during which the robot can spray graphite without needing to customize other auxiliary equipment for graphite injection, thus affecting efficiency.

After the robot positions the workpiece for transfer, it enters the precision forging mold. At this time, there are five protection systems in place to ensure the safety of the robot and the personnel, as well as safety error-proofing.

After removing the final forging material, the robot, along with the graphite spraying robot, will place the workpiece into the punching mold. The system automatically integrates control for punching and trimming, using an automatic adjustment system to eliminate flash and collect the production process.