ALLBEST F-Series 1500W 3000W 6000W 12000W 20000W Ground-rail Plate Fiber Laser Cutting Machine Ultra-large format fiber laser cutting machine is a high-performance industrial laser system designed for cutting large and thick metal sheets with exceptional precision. Featuring a ground rail structure, its gantry moves along rails anchored to the floor, ensuring superior stability, accuracy, and vibration resistance even during heavy-duty operation. The modular worktable design allows for extended cutting lengths—often exceeding 12 meters—making it suitable for processing oversized materials.
1.Exceptional Stability: Utilizing a robust floor-mounted track and gantry structure, it boasts strong load-bearing capacity and high dynamic precision, ensuring consistently excellent cutting quality even under long-term high-speed operation.
2.Powerful Processing Capacity: Effortlessly handles medium-thick plates. Combined with a high-power laser, it can efficiently and effectively cut carbon steel, stainless steel, aluminum alloys, and other metal materials.
3.High Cost-Effectiveness: Mature technology and classic structure provide powerful processing capabilities while offering relatively competitive purchase and maintenance costs.
4.Wide Adaptability: Flexible modular design allows for customization of large-format (e.g., integrated tube sheet) or integration with automated loading and unloading units to meet diverse production needs.
5.Easy Maintenance: A robust main structure and easily accessible core components make daily maintenance and upkeep simple and straightforward.
Flexible Power Matching for Optimal Cost-Per-Part: With options from 6kW to 12kW and beyond, it allows precise power selection based on material thickness and cycle time requirements. This achieves the optimal balance between energy consumption and throughput, directly optimizing your cost-per-part.
Superior Dynamics to Boost Capacity Bottlenecks: The high-rigidity structure coupled with high-torque servo drives ensures smooth operation at high accelerations. This minimizes non-cutting time and guarantees consistent contour accuracy during continuous processing of thick plates or complex designs, directly increasing overall workshop capacity.
Process-Optimized for Stainless Steel & Alloys: Integrated with an advanced cutting parameter database and specially optimized gas control, the machine effectively manages the heat-affected zone. It delivers oxidation-free, bright cuts on stainless steel and aluminum, minimizing secondary operations like polishing.
High Automation Readiness for Uninterrupted Production: Designed for seamless integration with automatic loading/unloading, centralized fume extraction, and material storage systems, enabling hours of continuous, even unattended operation. This significantly reduces reliance on skilled operators and is a key step towards lights-out manufacturing.
| Mode | AT-6025R | AT-12025R |
| Working Area | 6000*2500mm | 12000*2500mm |
| Repeat Repositioning Accuracy | ±0.05mm | |
| Accuracy of Positioning | ±0.05mm | |
| X,Y Max linkage Speed | 145m/min | |
| Laser Power | 6000W /12000W/20000W/30000W | |
| Laser Source | MAX / Raycus / IPG/JPT/BWT/RECI | |
| Maximum acceleration | 0.8G | |
| Upgrade | Tube cutting / Exchange platform /Enclosed protection | |
Easily handles oversized and thick metal sheets. Widely used in heavy machinery, construction structures, and shipbuilding industries. Improves material utilization, accelerates large-part processing, and supports high-efficiency, large-scale production.
Modular design enables flexible combinations and scalable expansion to meet diverse production line needs. Quick setup and easy upgrades for enhanced productivity.
Safety protection curtains are installed at both the front and rear of the beam. If an object is detected within the safety range of the beam, an emergency stop is immediately triggered to ensure the safety of both personnel and equipment.
Real-time monitoring of the distance between the cutting head and the workpiece or table, and automatically adjusts the height or stops the machine before a possible collision to protect the cutting head and the workpiece from damage.
After scanning the edges of the sheet through the laser sensor, the system algorithm locates the geometric center of the sheet or workpiece, ensuring that the cutting path and material position are precisely matched, thus improving cutting accuracy and material utilization.
It functions as a precise “light knife” that can cut metal sheets automatically according to computer-designed patterns. This technology is used to manufacture machine casings, metal advertising letters, kitchen utensils, and more.
Fiber lasers are mainly used for cutting metals due to their high speed and low electricity costs. CO2 lasers can cut both metals and non-metals, such as acrylic and wood, but are less efficient when cutting metals.
The thickness of the material you are cutting determines the power needed for effective cutting. Generally, higher power levels allow for cutting thicker materials more quickly.
