Abstract
In the realm of metal cutting, fiber laser cutting machines have become indispensable, rapidly replacing traditional metalworking methods. With the surge in metal processing orders due to economic growth, optimizing the efficiency of fiber laser equipment is crucial to meet delivery deadlines. This article explores three critical functionalities that significantly enhance laser cutting efficiency.
Introduction
Fiber laser cutting machine has become a vital tool in the metal cutting industry, offering a significant advantage over traditional metalworking methods. As the demand for metal processing grows, so does the workload of these machines. To ensure timely order fulfillment, improving the efficiency of laser cutting operations is essential.
1.Automatic Focusing Function
1.1 Importance of Focus Adjustment
Adjusting the laser beam’s focus point on the workpiece’s cross-section is key to precision cutting.
1.2 How Automatic Focusing Works
Before entering the focusing lens, a variable curvature mirror is installed, changing the divergence angle of the reflected beam and, consequently, the focal point.
1.3 Advantages over Manual Focusing
Earlier laser cutters relied on manual focus adjustment. The automatic focusing function saves considerable time, thereby increasing cutting efficiency.
2.Jumping Function (Frog Jump):
2.1 A Revolutionary Technique
The ‘frog jump’ is a representative technological breakthrough in the history of laser cutting machines, now standard in high-quality machines.
2.2 Efficiency Gains
This function significantly reduces the time for the cutting head to ascend and descend. The rapid movement of the laser cutting head translates to higher cutting efficiency.
3.Automatic Edge-Finding Function
3.1 Enhancing Precision and Reducing Waste
This function senses the inclination angle and origin point of the material to be processed, automatically adjusting the cutting program for optimal positioning and angle.
3.2 Impact on Efficiency
With the automatic edge-finding feature, the time-consuming task of manually adjusting heavy workpieces is significantly reduced, enhancing overall productivity.
Recommended Machine Model: Bevel Laser Cutting Machine
1.Sophisticated Cutting Components
Incorporates imported bevel cutting components and high-precision servo control units, with a zero-backlash harmonic gear reducer for the swinging axis.
2.Dual-Axis Swinging
The cutting head can swing over ±50°, accommodating any angle for bevel cutting.
3.Lightweight yet Sturdy Arm
The swinging arm is made from high-strength aluminum alloy, ensuring lightness and rigidity, which contributes to the flexibility of the swinging axis during cutting.
4.Versatile Bevel Styles
Capable of processing various bevel styles, including V-type and Y-type.
5.User-Friendly Programming Software
Specialized software for layout and programming of bevel cuts, ensuring ease of operation.
Conclusion
In the fast-paced world of metal fabrication, leveraging the latest advancements in laser cutting technology is key to staying competitive. By adopting features like automatic focusing, frog jump, and automatic edge-finding, manufacturers can significantly enhance their laser cutting efficiency, meeting increased demand while maintaining quality and precision. The recommended bevel laser cutting machine exemplifies these advancements, offering a sophisticated solution for modern metalworking needs.