Application of Laser Processing Technology in Sheet Metal Processing

The laser cutting technology is more cost-efficient than the traditional processing technology and the laser beams are all in the shape of points, therefore it has great flexibility in two-dimensional plane processing. In the laser cutting machine processing, only the cutting head moves, while the workpiece is stationary. There is no need to set up micro-connections, helping the laser in the cutting process is relatively simple. Its computer CAM system does not require the production of a single part machining process. It is only necessary to optimize the layout results and the cutting route, and then start the laser to process it. However, in the multi-functional machine, it is necessary to set the mold, preset the laser cutting route, and set the connection site, and then the next step can be taken. In comparison, the preparation time of the laser cutting process is greatly reduced compared with the laser cutting machine. In practical use, when the laminating machine is processing, due to the dragging of the workpiece by the clamp and the blanking amount of the mold, the processing dead zone will appear on the raw material. However, when the laser cutting machine for steel cuts the workpiece is stationary, there exist non-processing zones, which improves the utilization of raw materials and effectively reduces the raw material costs consumed by a single process. In recent years, the precision of laser cutting has been gradually improved, which greatly simplifies some processing steps and reduces the processing cost of a single piece. At the same time, due to the rapid increase in the cutting speed of the laser cutting machine, the processing time of the workpiece is greatly reduced, and the individual production efficiency of the operator is also greatly improved.

The accuracy of laser cutting processed products is further improved.

As the speed of laser cutting continues to increase, the range of heat affected by the workpiece's processing heat is gradually reduced, and the amount of thermal deformation that occurs throughout the entire work process is also reduced. At the same time, as the stability of the carbon dioxide laser is gradually improved, it also promotes the smoothness of the laser cutting surface. In addition, the stationary machining of the workpiece greatly reduces vibrations. Due to the continuous improvement of the precision of laser cutting, the agricultural machinery sheet metal parts for laser cutting have gradually changed from the original low-precision parts to high-precision parts. From the actual production point of view, the original composite machine APELIOII357 is usually a relatively thin part of the processing material thickness less than 2mm, the main processing of the textile machine outsourcing container. Now laser cutting machines can process the above-mentioned parts and can process medium-thickness parts with a material thickness of 3 to 4mm or more. Most of these parts are structural parts, transmission parts, and major working parts. The requirements for machining accuracy are relatively high, and some parts are close to the accuracy requirements of the workpiece. Laser-cutting machined parts have the characteristics of small deformation and high surface roughness. At the same time, there are small or even no process burrs and parts of the same size, which play a major role in the control of the dimensional accuracy of agricultural machinery assembly.

If you are interested in any part of this article, welcome to visit our site at GLDMA.COM.