Views: 0 Author: Site Editor Publish Time: 2025-07-08 Origin: Site
In modern high-precision manufacturing workshops, the CNC turning-milling composite machine, which integrates multiple functions such as turning, milling, drilling, and tapping, is leading a revolution in production efficiency. This equipment combines the advantages of traditional lathes and milling machines, breaking the conventional mode of separate processing. With the core concept of "one-time clamping, complete processing," it redefines the manufacturing process of complex parts.
1. Limitations and Challenges of Traditional Processing
In traditional manufacturing, lathes focus on machining rotational parts, while milling machines handle planar and curved surfaces. Although the division of labor is clear, it results in multiple clamping operations, cumulative errors, wasted time during process switching, and increased costs and quality risks due to logistics between different machines.
2. Technological Breakthrough of Turning-Milling Composite Processing
Modern multi-axis simultaneous turning-milling composite machines integrate X/Z-axis turning, Y-axis milling, and B-axis rotation, combined with power turrets and sub-spindle designs. A single machine can complete comprehensive machining tasks, including end faces, outer cylinders, inner holes, threads, and complex cavities, achieving true multifunctional integration.
· High-precision machining: Leveraging advanced CNC technology and multi-axis simultaneous to achieve superior dimensional accuracy and surface quality.
· Multifunctional integration: Combining turning, milling, drilling, tapping, and other processes to meet the complex part processing needs of various industries.
· High production efficiency: Reducing clamping times and setup duration to significantly improve machining efficiency.
· Cost savings: Decreasing the number of machines and workshop footprint to lower investment and operating costs.
· Environmental friendliness: Efficient machining reduces waste and energy consumption, supporting green manufacturing.
· Support plate: The main load-bearing structure of the CNC machine, ensuring stability.
· Installation box: Moves forward and backward, carrying tools and machining units.
· Square plate and long slide: Enable vertical and rotational movements, supporting multi-angle machining.
· Arc-shaped clamp: Flexibly grips the workpiece to ensure stable positioning.
· Transmission mechanism: Includes handles, lead screws, bevel gears etc., for precise positioning and motion control.
· Mold manufacturing: Suitable for high-precision, multi-process machining of complex molds.
· Aerospace: Meets the demands for high-precision and complex aerospace parts manufacturing.
· Automotive parts: Efficiently completes various automotive component turning and milling composite machining.
· Reduced human error: Avoids errors caused by multiple clamping, improving machining accuracy.
· Improved productivity: Shortens preparation time and increases machine utilization.
· Simplified production management: Integrated multi-process machining reduces equipment management and production scheduling complexity.
· Intelligent machining: Integrates automation control, online measurement, and data analysis to realize smart manufacturing.
· Modular design: Machine structures become modular for easier customization and upgrades.
· Multi-axis simultaneous: More axes enable machining of increasingly complex parts.
CNC turning-milling composite machine tools, with their high precision, multifunctionality, and high efficiency, have become key equipment for machining complex parts in modern manufacturing. OTURN is committed to providing customers with high-performance CNC turning-milling composite machine and customized CNC machining solutions, helping enterprises improve production efficiency and machining quality, and achieve intelligent manufacturing transformation. With rich industry experience and comprehensive service systems, we offer full technical support and after-sales service, empowering manufacturers to move toward a highly efficient, green, and intelligent future.
