2520 Gantry Machining Center for Heavy-Duty Milling
Product Features
High rigidity structure: FEA-optimized fully supported frame and ultra-wide gantry beam effectively prevent deformation and are suitable for heavy-duty cutting.
Top-grade transmission components: Imported high-quality ball rails and lead screws are adopted to ensure long-term stable geometric and positioning accuracy.
High-performance servo system: It offers outstanding torque and micron-level repeatability accuracy, ensuring efficient and precise processing.
Direct drive spindle: Vibration-free design enables high-precision cutting and achieves excellent surface finish.
High speed and high precision: With fast movement speed and cutting feed rate, it significantly reduces processing time while ensuring high precision.
Product Description
This machining center features a fully supported frame and an ultra-wide gantry beam optimized through FEA (Finite Element Analysis), ensuring extraordinary rigidity and the ability to handle cutting tasks of hard alloy steel with ease. Swiss/Taiwanese imported ball guides and lead screws fundamentally lock in its geometric and positioning accuracy, guaranteeing the long-term stability of the equipment.
The top-level servo drive system offers the best torque and micron-level repeatability accuracy in its class, while the direct drive spindle enables vibration-free operation,
Allowing for mirror-like surface finish. With a rapid movement speed of up to 12 meters per minute and a cutting feed rate ranging from 0 to 10 meters per minute, it can maintain strict tolerance requirements even under high-speed and high-torque loads, significantly reducing the processing cycle.
TECHNICAL PARAMETER
| Project | Unit | XFL-1816 (Z-axis four-line track) | XFL-1816 (two lines and one hard line) | XFL-2520 (two lines and one hard line) | XFL-2520 (Z-axis square slide) |
| X/Y/Z axis travel | mm | 1800/1600/800 | 2500/2200/1000 | ||
| Workbench dimensions | mm | 1800*1300 | 2500*1800 | ||
| Workbench load capacity | kg | 3000 | 6000 | ||
| Workbench T-slot specifications | 7-22*175 | 9-22*180 | |||
| Distance from spindle end face to workbench center | mm | 166-966 | 260-1260 | ||
| gate width | mm | 1660 | 2200 | ||
| Spindle taper specifications, speed | rpm | BT40-¢150-12000 (Direct connection) | BT50-¢190-6000 (belt) | standard configuration: BT50-¢190-6000 (belt) | BT50-¢190-6000 (Direct connection + gear) |
| BT50-¢155-8000 (belt) | Optional: Gearbox | ||||
| spindle motor | kw | 15 | 18.5 | 18.5/22 | 18.5/22 |
| X/Y/Z axis servo power | kw | 4.5/4.5/4.5 | 4.5/4.5/4.5 | 4.5/4.5/4.5 | 4.5/4.5/4.5 |
| X/Y/Z axis rapid displacement | m/min | 16/16/16 | 16/16/12 | 10/10/10 | 10/10/10 |
| Maximum cutting speed | m/min | 10 | 10 | 8 | 8 |
| positioning accuracy | mm | 0.015/0.015/0.008 | 0.015/0.015/0.008 | 0.025/0.025/0.008 | 0.025/0.025/0.008 |
| Repeatability | mm | 0.012/0.012/0.006 | 0.012/0.012/0.006 | 0.02/0.02/0.006 | 0.02/0.02/0.006 |
| X/Y/Z axis rail specifications | XY: 45# roller, Z: 4-line guide 45# roller | XY: 45# roller, Z: rectangular hard rail | Standard configuration: 45/45/rectangular hard rail | Standard configuration: 45/45 square slide block (slide block cross section 460*460) | |
| Optional: 55/55/rectangular hard rail | Optional: 55/55 square slide block (slide block cross section 460*460) | ||||
| X/Y/Z axis screw specifications | XYZ:5010 | XYZ:5010 | 6316/5512/5010 | 6316/5512/5010 | |
| Machine weight (approx.) | kg | 12000 | 12000 | 20000 | 20000 |
| Machine dimensions (L x W x H) (approx.) | mm | 5275*4344*3850 | 5275*4344*3850 | 7600*4500*3900 | 7600*4500*3900 |
| CNC system | MITSUBISHI / FANUC | MITSUBISHI / FANUC | MITSUBISHI / FANUC | MITSUBISHI / FANUC | |
PRODUCT application
This machining center is tailor-made for customers who pursue ultimate precision and high-efficiency production. It is particularly suitable for:
Precision mold manufacturing: Processing high-hardness steels, such as mold steel, to achieve high surface finish and precise cavities.
Aerospace: Processing titanium alloys, high-temperature alloys and other high-strength materials to meet demanding precision and performance requirements.
Medical devices: Producing surgical tools, implants and other items that have extremely high requirements for materials and precision.
Automotive parts: manufacturing high-precision components such as engine assemblies and transmission system parts.
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