CNC lathe has the following functional characteristics:

1. Multi-axis control: CNC lathes have multi-axis control capabilities, and can simultaneously control the movement of multiple axes such as the spindle, feed axis, and tool holder axis, and realize complex processing operations and switching of various cutting methods.
2. Automatic processing: CNC lathes can realize automatic processing. By pre-writing processing programs and inputting them into the CNC system, the processing process can be automatically executed, human operations and intervention can be reduced, and processing efficiency and consistency can be improved.
3. High-precision machining: The CNC lathe is equipped with a precision servo system and a high-precision measuring device, which can realize high-precision machining and positioning, and meet the processing tasks that require high precision of the workpiece.
4. Various processing functions: CNC lathes can perform a series of processing functions such as turning, boring, drilling, tapping, etc., which are suitable for processing requirements of different workpieces.
5. Flexible and programmable: The processing program of the CNC lathe can be programmed and modified according to the requirements of the workpiece to achieve flexible processing technology and processing paths to meet the needs of customized production.
6. Efficient production: CNC lathes have functions such as high-speed cutting and quick tool change, which can improve processing efficiency and production capacity, and meet the needs of mass production and large-scale production.
7. Digital management and monitoring: CNC lathes are equipped with a CNC system, which can realize digital management and monitoring of the processing process, including processing parameter settings, processing status monitoring, fault diagnosis and other functions, and improve the intelligent level of production management.

In general, CNC lathes have the characteristics of high precision, high efficiency, flexibility and automation, and can meet the precise processing requirements of various complex workpieces. They are widely used in machinery manufacturing, automobiles, aerospace and other fields.