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SZ002559

Solutions for Curtain Wall Industry

Metal curtain walls, as a type of wall decoration used in large buildings, are increasingly favored in the construction industry due to their excellent strength, versatile processing capabilities, and safety features. Among them, aluminum curtain walls are the most widely used. They are lightweight, effectively reducing the building's load, possess excellent rigidity, and provide high flatness, making them a favorable choice for high-rise buildings.

Industry pain points

Common aluminum sheet cutting processes include CNC shearing machines, punches, and engraving machines. However, these methods have limitations, such as rough edges, and are prone to cracking during bending. Engraving machines cannot handle special shapes like sharp corners and square corners, while punches are inefficient for cutting irregular plates. China's rapid economic development has led to a significant increase in demand for metal curtain walls in projects such as urban construction, airports, high-speed rail stations, and subway stations. Many metal building material processors are upgrading their technology and expanding their operations. To gain a competitive edge, reduce manufacturing lead times, and improve product quality, they are simultaneously considering high-efficiency, high-quality, and automated laser cutting technology during their technological upgrades.

  • Cutting speed
  • Operating speed
  • Acceleration

Solution

CNC fiber laser cutting machine

Laser cutting meets the requirements of medium and small batch production, eliminating the need for molds and facilitating new product development. It offers flexibility in processing, allowing for real-time adjustments in production as needed. Automated nesting and layout processes enhance material utilization. Completing tasks like hole and groove cutting before bending significantly improves production efficiency.

CNC fiber laser cutting machine

Laser cutting meets the requirements of medium and small batch production, eliminating the need for molds and facilitating new product development. It offers flexibility in processing, allowing for real-time adjustments in production as needed. Automated nesting and layout processes enhance material utilization. Completing tasks like hole and groove cutting before bending significantly improves production efficiency.

Aluminum Plate Leveling and Shearing Line

Meets high flatness requirements, with a width of up to 2300mm, and multiple sets of support rollers for electric adjustment.

Aluminum Plate Leveling and Shearing Line

Meets high flatness requirements, with a width of up to 2300mm, and multiple sets of support rollers for electric adjustment.

Laser cutting production line

Achieves irregular cutting, nesting processing, saves materials, and significantly improves production efficiency.

Laser cutting production line

Achieves irregular cutting, nesting processing, saves materials, and significantly improves production efficiency.

High efficiency

Laser cutting is fast and requires no molds. Designs are created on the computer, and whether they are simple or complex, they can be formed in one go, enabling rapid development of new products.

High efficiency

Laser cutting is fast and requires no molds. Designs are created on the computer, and whether they are simple or complex, they can be formed in one go, enabling rapid development of new products.

Easy to maintain

The CO2 laser cutting machine requires maintenance and calibration of its reflector mirrors, and the resonator cavity needs regular maintenance. In contrast, the fiber laser cutting machine requires almost no maintenance.

Easy to maintain

The CO2 laser cutting machine requires maintenance and calibration of its reflector mirrors, and the resonator cavity needs regular maintenance. In contrast, the fiber laser cutting machine requires almost no maintenance.

low consumption of materials

Laser cutting is contactless with the workpiece, eliminating tool wear. When processing different-shaped parts, there's no need to change "tools"; you only need to adjust the laser's output parameters. There is no preheating time required, and no consumables are involved.

low consumption of materials

Laser cutting is contactless with the workpiece, eliminating tool wear. When processing different-shaped parts, there's no need to change "tools"; you only need to adjust the laser's output parameters. There is no preheating time required, and no consumables are involved.