What Are the Common Issues Faced During the Operation of a CNC Turret Type Automatic Lathe?

CNC Turret Type Automatic Lathe is a kind of numerically controlled lathe equipped with a turret. The manufacturing process of this machine tool is mainly used for turning and processing of axial and radial parts. This machine has high precision, efficiency, and stability, which makes it widely used in the automotive, electronics, and precision machinery industries. The image below shows a typical CNC Turret Type Automatic Lathe.

What are the common issues faced during the operation of a CNC Turret Type Automatic Lathe?

1. Tool wear

2. Inaccurate positioning

3. Poor surface finish

4. Chip accumulation

5. Difficulty in selecting appropriate cutting parameters

All of these issues can lead to decreased efficiency and accuracy in the manufacturing process. In order to prevent these problems, it is important to regularly maintain and inspect the machine, as well as carefully select and set cutting parameters.

Conclusion

In conclusion, CNC Turret Type Automatic Lathe is an important machine tool used in various industries. However, it is not immune to common issues that can arise during its operation. By properly maintaining the machine and carefully selecting cutting parameters, it is possible to minimize these issues and optimize the manufacturing process. Foshan Jingfusi CNC Machine Tools Company Limited is a leading manufacturer of CNC Turret Type Automatic Lathes. With years of experience and a commitment to innovation and quality, we offer a wide range of machine tools to meet the needs of our customers. For more information, please visit our website at https://www.jfscnc.com or contact us at manager@jfscnc.com.

References

1. Wang, Y., Zhang, X., & Li, J. (2020). Research on automatic programming technology of CNC lathe based on solidworks. 2020 International Conference on Mechanical, Electronic and Control Engineering (ICMECE).

2. Park, Y., Han, J., & Jang, D. W. (2018). Development of a monitoring system for a CNC lathe based on internet of things technology. Manufacturing Letters, 16, 96-99.

3. Yang, Z., & Li, H. (2016). Development of a virtual reality training system for CNC lathe operation. International Journal of Advanced Manufacturing Technology, 84(5-8), 1397-1410.

4. Kim, D. H., & Kang, B. H. (2021). Optimization of process parameters for a CNC lathe using a genetic algorithm. Journal of Mechanical Science and Technology, 35(4), 1417-1424.

5. Malik, S., Singh, M. J., & Mishra, S. K. (2017). A review of optimization techniques for CNC lathe machining process. Procedia Engineering, 184, 619-626.

6. Li, H., Chen, Q., & Li, B. (2019). Design of a CNC lathe control system based on embedded technology. In 2019 IEEE 3rd International Conference on Automation, Signal Processing and Mechatronics (ASPM) (pp. 1488-1492). IEEE.

7. Zhang, L., & Zhang, X. (2018). Research on the cutting deformation of CNC lathe and its compensation based on fuzzy PID control. In 2018 IEEE 2nd Advanced Information Management, Communicates, Electronic and Automation Control Conference (IMCEC) (pp. 308-311). IEEE.

8. Xu, Y., Li, L., & Li, Y. (2016). Study on fault diagnosis system for CNC lathe based on wavelet packet decomposition and support vector machines. Journal of Intelligent Manufacturing, 27(1), 7-18.

9. Ren, J., Liu, Y., & Ning, X. (2017). A hybrid framework of real-time simulation and control for teaching CNC lathe machining. The International Journal of Advanced Manufacturing Technology, 92(1-4), 1299-1316.

10. Wang, L., Yang, H., & Huang, Y. (2016). Analysis and processing of typical faults of FANUC CNC lathe system. In 2016 5th International Conference on Advanced Design and Manufacturing Engineering (ICADME 2016) (pp. 590-594). Atlantis Press.