Application of Robot Welding Technology in Large Steel Welding

How is the robotic welding technology applied in large-scale steel welding? Welding robots are widely used by enterprises due to their stable welding quality, high welding accuracy, and efficient production. Large steel welding is increasingly using robots to replace traditional welding, in order to understand the application of welding robots in large steel welding.

Application of Robot Welding Technology in Large Steel Welding

The application of robotic welding technology in large-scale steel welding:

1. Laser tracking welding technology. In the welding process of large steel, the length of the weld seam is often very long, so uneven welding often occurs. Laser tracking welding technology intelligently adjusts according to different welding interfaces, uses different welding data, and stably completes the welding of long welds, ensuring the quality of the weld seam while achieving aesthetics.

2. Friction stir welding technology. The stirring friction welding technology of the robotic arm has a very low welding temperature, which can reduce welding deformation. It can be used for welding large differences of metal materials and dissimilar metals, with high welding adaptability. For welding large steel materials, there will be no generation of smoke, dust, and harmful gases, improving the working environment.

3. Improve safety index. The welding of large steel products faces challenges such as high welding difficulty, low safety, and unstable welding quality. The welding robot, combined with auxiliary equipment, can greatly increase the welding range and can accurately weld difficult welds. Therefore, the welding of large steel liberates manual labor and reduces the threat of welding work to manual labor.

4. High flexibility. Welding robots generally have six degrees of freedom and high flexibility. For welded parts with radians in steel, their role can be reflected. By adjusting the direction and position of each axis, the radian can be quickly adjusted, effectively improving production efficiency.