Overview
In the case of laser-plasma coaxial composite welding technology, the resulting heat source is a plasma arc enveloping a laser, possessing both laser and plasma characteristics. We refer to it as the photo-plasma arc.
Laser welding is at the forefront of current welding technology. Laser welding offers high efficiency, minimal distortion, and a large depth-to-width ratio, allowing for precise control and easy automation. However, there are limitations, such as high assembly requirements for workpieces, high energy consumption, and difficulty in welding high reflectivity materials like aluminum and copper. For high reflectivity materials, a combination of laser and plasma can help recycle some of the lost laser energy back into the process of melting the metal, quickly melting the metal into a normal welding state.
Plasma arc welding is a relatively mature welding technique, with the advantage of being easy to achieve high-quality welds but with the drawback of low efficiency. Laser-plasma coaxial hybrid welding technology, compared to plasma arc welding, has a more concentrated energy, higher arc energy density, more stable arc, and improved resistance to electromagnetic interference and wind. The laser-plasma hybrid welding technology integrates the characteristics of both laser and plasma, offering advantages such as high weld reproducibility, high welding quality, high efficiency, minimal deformation, and fewer defects.
Laser plasma coaxial composite welding heat source
1. Equipment Overview
The Laser Plasma Coaxial Composite Heat Source combines a laser and a plasma power supply into a new type of heat source equipment. The system utilizes a control system to centrally manage the laser, plasma power supply, gas, and cooling water, allowing for diverse control according to different operational requirements. The equipment can communicate with the majority of industrial devices on the market.
2. Main Technical Parameters of the Equipment
The laser-plasma coaxial composite heat source is composed of a laser, plasma power supply, gas control system, arc control system, cooling system, and PLC control system.
3. Key Technical Parameters of Laser Plasma Coaxial Composite Heat Source
Laser Plasma Coaxial Composite Welding Gun
1. Equipment Overview
The Laser Plasma Coaxial Welding Gun combines a laser beam with a plasma arc to create a new type of heat source. During operation, the laser beam passes through the center of the plasma arc into the welding pool, enhancing the interaction between the laser beam and the plasma arc. The gun body and plasma electrode are both equipped with water-cooled structures, enabling long-duration continuous operation. The gun is compact in design, features easy tungsten electrode replacement, and has a low cost of use.
2. Equipment Composition
The welding gun is composed of three main parts: (1) Composite Gun Body (2) Laser Welding Gun (3) Clamp
Welding Gun Connection Diagram
