News
Characteristics of precision CNC lathes compared to ordinary lathes
2024-02-19 08:26:11

Compared with ordinary lathes, precision CNC lathes have the following significant features:


1. High processing accuracy: Precision CNC lathes are usually equipped with high-precision CNC systems and precision transmission devices, which can achieve higher processing accuracy. This makes the processing of precision parts more accurate and stable.

2. High repeat positioning accuracy: Precision CNC lathes have excellent repeat positioning accuracy and can maintain the same position accuracy in multiple processes, ensuring the consistency and stability of processed parts.

3. Fast processing speed: Precision CNC lathes adopt advanced transmission systems and high-speed spindles, which can achieve faster cutting speeds and feed speeds, and improve processing efficiency.

4. High degree of automation: Precision CNC lathes are equipped with advanced CNC systems, which can realize automated processing, reduce manual intervention, and improve production efficiency and consistency.

5. Wide processing range: Precision CNC lathes can process parts of various materials and complex shapes, with a large processing range and flexibility.

6. Strong programmability: Precision CNC lathes have powerful programming functions, which can realize processing path planning and control of complex parts and flexibly respond to different processing needs.

7. Good equipment stability: Precision CNC lathes adopt high-quality structural design and stable mechanical systems, which have good vibration suppression capabilities and stability, ensuring processing quality and accuracy.

8. Easy fault diagnosis and maintenance: Precision CNC lathes are equipped with advanced fault diagnosis systems and intelligent maintenance functions, which can detect and solve faults in time, reduce downtime and improve equipment utilization.


To sum up, precision CNC lathes have obvious advantages in processing accuracy, repeated positioning accuracy, degree of automation, processing speed and stability, etc., and are suitable for fields with high processing accuracy and quality requirements, such as aerospace, automobile manufacturing, Electronic equipment, etc.

RELATED NEWS