At the end of the last century, a sheet metal processing technology emerged. Due to the continuous update of technology and process development, the laser pointer cutting process and laser pointer cutting equipment are being familiar and accepted by the majority of sheet metal processors. Due to its high processing efficiency, high precision, good cutting section quality, three-dimensional cutting processing, etc. Many advantages gradually replace traditional sheet metal processing methods.
Three-dimensional laser cutting can realize dynamic 2D and 3D cutting. The machine structure is designed according to ergonomics. Even the processing of the most complex curved surfaces can be completed with simple operation. High precision, can meet the manufacturing precision of aluminum alloy EMU, stainless steel subway and other products. It has high economic efficiency and can replace the trimming die and punching die of the traditional manufacturing process. Its process steps are simple, the manufacturing cycle is short, the cutting speed is fast, the slit width is small, and the processing quality is high. It can greatly reduce costs and shorten the cost of new models. The research and development cycle has good economic value and application prospects.
Compared with two-dimensional laser cutting, the work of three-dimensional laser cutting requires constant adjustment of the posture of the laser cutting head for cutting to ensure that the laser cutting head is always perpendicular to the surface of the workpiece to obtain cutting quality. Since the cutting head of the 3D laser cutting machine is equipped with a capacitive sensor, it can automatically adapt to the shape of the part and always keep a certain distance from the part for cutting. Therefore, only the 2D programming of the 3D laser cutting machine is used when the surface of the part does not change drastically. The system can meet production needs. Application in stainless steel subway manufacturing.
Three-dimensional laser cutting is mainly used in the processing of eyelets and notches in the upper beam of stainless steel subway doors, end door columns, inner ribs, etc., and nesting of blind window ribs. Due to the high design and manufacturing cost of blanking dies, long manufacturing cycle and poor blanking quality, some parts extruded by molds need to use 3D laser for nesting and hole processing. For now, 3D laser cutting technology has been widely used in the corners of our lives and is inseparable from our lives.
The 3D laser cutting machine can work on any surface without manually dropping the positive angle. A laser cutting machine using a U-shaped tube laser head can perform processing required by various processes on three-dimensional processing objects. Using automated robotic motion technology, equipped with a professional high-precision laser head, the laser output power is stable, and the processing area is large. It can accurately cut metal materials of various thicknesses such as sheet metal and stainless steel. It is equipped with a five-inch LCD screen. The offline CNC system makes the operation more convenient.
Three-dimensional laser cutting utilizes the flexible and fast motion performance of industrial robots. According to the size of the workpiece to be cut, the robot can be installed or flipped for teaching programming or offline programming for different products and different trajectories. The six-axis loaded fiber laser cutting head performs three-dimensional cutting of irregular workpieces; the fiber green laser pointer cutting head is equipped with a follow-up device and a light path transmission device. The laser is transmitted to the cutting head by optical fiber, and then the focusing system is used to focus. Plate has developed multiple sets of focusing systems to cut a variety of three-dimensional metal plates in multiple directions to meet customer needs.
Suitable for metal materials such as stainless steel, carbon steel, alloy steel, silicon steel, galvanized steel plate, nickel-titanium alloy, inconel, aluminum, aluminum alloy, titanium alloy, copper, etc. It is widely used in various manufacturing industries such as aerospace, automobile and ship, machinery manufacturing, elevator manufacturing, advertising production, household appliance manufacturing, medical equipment, hardware, decoration, and metal processing services. It is widely used in various manufacturing industries such as aerospace, automobile and ship, machinery manufacturing, elevator manufacturing, advertising production, household appliance manufacturing, medical equipment, hardware, decoration, and metal processing services.