Application of laser cutting machines in the construction machinery industry

Laser cutting machines are widely used in the construction machinery manufacturing industry, covering the production of heavy equipment such as excavators, loaders, road rollers, and cranes. In the manufacturing processes of these machines, laser cutting machines play an irreplaceable role, providing strong support for the technological upgrading and capacity expansion of the construction machinery industry.

Metal sheet cutting
Laser cutting machines can efficiently and precisely process various metal sheets, such as steel and aluminum plates, for the fabrication of structural and covering components in engineering machinery. Their superior cutting precision ensures dimensional accuracy and surface quality of the parts, further enhancing the overall performance of the equipment.

Pipe cutting
Pipes are frequently used in construction machinery, such as hydraulic pipes and drive shafts. Laser cutting technology can easily handle the processing of pipes with complex shapes, significantly improving production efficiency and reducing costs.

Machining of complex-shaped parts
Laser cutting machines can process various complex contours, including straight lines, curves, and polygons, to meet the diverse processing needs of engineering machinery parts.

Mass production
Construction machinery manufacturing often requires a large supply of parts. Laser cutting offers advantages such as high speed and high automation, effectively supporting mass production and increasing capacity.

Structural component manufacturing
Structural components of engineering machinery (such as frames and booms) have extremely high requirements for welding quality. Beveling laser cutting machines can precisely cut the required bevel shape, ensuring welding strength and stability, and improving the overall durability of the machine.

Hydraulic system parts
Hydraulic hoses, connectors, and other components require highly sealed and strong connections. Beveling laser machining can meet these high-precision requirements and improve the overall reliability of the hydraulic system.

Transmission component machining
Transmission components such as gears and shafts require high stability and strength, and their critical connection points typically require beveling. Beveling laser cutting can precisely complete the machining, improving transmission efficiency and processing accuracy.

Many construction machinery manufacturers have successfully implemented laser cutting equipment. By introducing planar laser cutting machines and beveling laser technology, companies can:

• Significantly improve production efficiency
• Improve welding quality
• Reduce material waste and energy consumption
• Accelerate production line automation

For example, after a leading construction machinery company introduced the Bentech laser beveling machine, it significantly improved the processing efficiency and quality of welded joints of structural components and successfully automated multiple processes.

• Flat laser cutting machine
• Laser pipe cutting machine
• Laser welding machine
• 3D five-axis laser cutting equipment
• Automated production line integration solution