CNC lathe with inclined bed is a kind of automatic machine tool with high precision and high efficiency. Its working principle is based on the combination of CNC technology and traditional lathe processing principle. It controls the movement of the workpiece on three coordinate axes through a numerical control system to achieve accurate machining process. During the machining process, the workpiece is clamped on the bed with the spindle center line at an oblique Angle, while the tool is cut quickly and accurately through the turret. It is also equipped with multi-station tool tower or power tool tower, so it has a wide range of process performance, which can process linear cylinder, oblique cylinder, arc and various complex workpieces such as threads, slots, and worms, and has various compensation functions of linear interpolation and arc interpolation. In the mass production of complex parts, the inclined bed CNC lathe has played a good economic effect.

The main application range of inclined bed CNC lathes:

1, aerospace field: can process a variety of high-precision aerospace parts, such as engine blades, turbine disks, shafts and so on. These components require high precision and surface quality to meet these demanding machining requirements.

2, automobile manufacturing industry: In the automobile manufacturing process, used to process a variety of shaft, disk parts, such as crankshaft, camshaft, gear and so on. These parts are key components of a car's engine and drivetrain, and are critical to a car's performance and reliability.

3, mold manufacturing industry: It is also widely used in mold manufacturing. It can process high-precision mold cavities and cores for the production of various plastic products, metal products and so on. The precision and surface quality of the mold directly affect the quality and production efficiency of the product, so it plays an important role in the mold manufacturing.

4, precision machinery industry: suitable for processing a variety of precision machinery parts, such as optical instrument parts, precision measuring instrument parts, etc. These parts have high requirements for precision and surface quality, and can meet these needs to ensure the machining accuracy and stability of the parts.

5, medical equipment manufacturing: In the manufacturing of medical equipment, used to process a variety of precision medical parts, such as surgical instruments, medical device enclosures, etc. These parts have high requirements for precision and surface quality to ensure the performance and safety of medical devices.

6, electronic communication industry: It can also be used to process precision parts in the electronic communication industry, such as connectors, connectors, etc. These parts also require high precision and surface quality to meet these machining needs.