The core advantage lies in the perfect combination of high speed and high precision. The spindle speed is high and the cutting feed rate is fast, which can efficiently process complex surface parts and greatly shorten the processing cycle. The gantry frame adopts an optimized rib structure, with reasonable mass distribution. Combined with high-strength cast iron material, the heavy cutting capacity index Kc≥8, and the vibration suppression effect is excellent in heavy-load processing. The ram section reaches 500×500mm, with sufficient rigidity, which can withstand large cutting forces and ensure processing stability. It supports 5-axis linkage processing, which can flexibly handle complex spatial surfaces. Combined with the precise control of the CNC system, the processing accuracy can reach the micron level. Optional full closed-loop grating ruler precision feedback system, tool center cooling function, automatic tool change device, etc., to adapt to different processing needs with strong expansibility.
The worktable width covers 2.5-4 meters, which can process large workpieces and molds. The worktable has a strong load-bearing capacity, meeting the processing needs of heavy parts. The maximum spindle speed is ≥12000rpm, with large output torque, compatible with various tool types, and can realize the dual needs of high-speed cutting and precision processing. The strokes of X/Y/Z axes are flexibly configured according to different models, and the maximum stroke can meet the processing range of large molds and structural parts. The feed rate is fast, the rapid traverse speed can reach more than 48m/min, the positioning accuracy is high, and the repeat positioning accuracy is stable. The tool magazine capacity can be optional, supporting a maximum large-capacity ATC tool magazine with short tool change time, reducing auxiliary processing time. The cooling system has high power and good heat dissipation effect, which can effectively control the temperature rise during processing and avoid the impact of thermal deformation on precision.
In the mold manufacturing industry, it is suitable for the cavity processing of large injection molds, stamping molds, and die-casting molds. It can efficiently complete the milling and polishing of complex surfaces, greatly improving mold precision and surface quality. In the aerospace field, it can process large airframe structural parts, wing skins, engine nacelles and other parts. Through 5-axis linkage, it realizes the one-time forming processing of complex structures, reducing assembly errors. In the automotive industry, it is used for the processing of automotive panel molds and large parts, such as frame structural parts and engine blocks, improving production efficiency and product consistency. In addition, it is also widely used in the processing of large and complex parts in rail transit, shipbuilding, engineering machinery and other industries, especially suitable for mass production and customized processing scenarios with high requirements for processing accuracy and efficiency.
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