The GV1625, a large, twin-column CNC milling machine independently developed by Ningbo Kaibo CNC Machinery Co., Ltd., is designed specifically for the high-precision machining of complex, large parts in the aerospace industry. The machine utilizes a high-rigidity, twin-column steel structure to ensure excellent stability and cutting rigidity during machining, making it particularly suitable for complex workpieces such as fuselage components, layup molds, and composite structures. Kaibo CNC strictly adheres to the ISO9001 quality management system and integrates advanced CNC technology, striving to provide customers with high-performance and durable machine tools. The product supports diverse customization and flexible configuration to meet diverse machining needs. With 26 sales and service centers worldwide and 24/7 technical support, Kaibo CNC effectively guarantees the long-term, stable operation of its equipment. With its precise machining capabilities and high-quality after-sales service, the GV1625 is an ideal choice for improving production efficiency and product quality in the aerospace manufacturing industry.
1. A high-rigidity steel structure with dual columns ensures stability and cutting precision during machining. 2. Adapts to the machining needs of complex large parts, including fuselage components, layup molds, composite materials, and other workpieces. 3. Strictly ISO9001 certified, ensuring stable and reliable quality. 4. Flexible product configuration and customization services meet diverse production requirements. 5. 26 sales and service offices worldwide provide 24/7 technical support. 6. Advanced CNC technology integration improves machining efficiency and product consistency. 7. Superior mechanical performance and durability reduce maintenance costs and extend service life.
Designed specifically for the aerospace industry, this product is suitable for high-precision machining of large, complex aircraft fuselage parts, layup molds, and composite materials. It's ideal for aerospace manufacturers, high-end machining plants, and research institutes, meeting their demands for high rigidity and precision machining of large, complex workpieces. It's also well-suited for machining complex structures in defense equipment, rail transit, and high-end manufacturing.
