How to maintain an ACSR conductor jointing compressor machine?

Acsr Conductor Jointing Compressor Machine is an essential equipment used in the electrical industry for maintaining and repairing ACSR conductors. It is used to compress and joint ACSR conductors for effective transmission of power. This machine is designed to withstand the rigorous demands of the electrical industry and ensure reliable connections between conductors. Here is a detailed guide on how to maintain an ACSR conductor jointing compressor machine.

What are the common issues faced in ACSR conductor jointing compressor machine?

ACSR conductor jointing compressor machine can face several issues due to prolonged usage and harsh environmental conditions.

How to maintain the ACSR conductor jointing compressor machine?

Maintaining an ACSR conductor jointing compressor machine is crucial to ensure its long-lasting performance. Here are a few steps to maintain the machine:

What are the safety measures to be taken while operating the ACSR conductor jointing compressor machine?

The ACSR conductor jointing compressor machine should be operated with safety precautions to avoid any potential hazards. Here are some safety measures to be taken while working with the machine:

Conclusion

An ACSR conductor jointing compressor machine is an essential equipment in the electrical industry, and its proper maintenance is essential for its long-lasting performance. By following the above steps and safety measures, you can ensure that your ACSR conductor jointing compressor machine works efficiently.

At Ningbo Lingkai Electric Power Equipment Co., Ltd., we are committed to providing high-quality ACSR conductor jointing compressor machines. Our machines are designed and manufactured to meet the rigorous demands of the electrical industry, ensuring reliable and long-lasting connections between conductors. Contact us at nbtransmission@163.com to learn more about our products and services.

References

Wei-Qiang Liu, Xiaojun Liu, and Guojun Zhou. (2013). Temperature Rise and Classical Breakdown for ACSR Conductor Subjected to AC Voltage.

Sunil Suthar, Anjali Gupta, and Sudhir Yadav. (2019). An Investigation of Mechanical, Electrical and Thermal Properties of ACSR Conductor with LLDPE Insulation for High Voltage Transmission Line Applications.

Chen, Y. et al. (2013). Study on the Corrosion of the High-Voltage Transmission ACSR Conductor in Coastal Areas of China.

Md Abu Sayid Mia, Md. Ariful Islam, Md. Rezwan Islam. (2020). Experimental performance analysis of ACSR conductor with nano-alumina added in damper windings of an induction generator.

L. Liu, X. Li, K. Shao, and X. Zhang. (2017). A New Inspection Method for the Shortening of the ACSR Conductor in Transmission Line.

S Raharjo et al. (2020). Study on the corrosion behavior of ACSR conductor on the east coast of Indonesia.

M. Senthil Kumar and A. Senthil Kumar. (2020). Prediction of fatigue life of ACSR conductors based on the crack growth behaviour.

Yanfei Han et al. (2021). Effects of uniform icing on icing thickness and aerodynamic characteristics of ACSR conductors.

Marko Bosnjak et al. (2011). Icing Analysis of an ACSR Conductor.

Yuliy Hidayat et al. (2019). Failure Analysis of ACSR Conductor due to Self-Loosening at Tension Fitting.

Jin-Hu Lv et al. (2010). Study on damping capacity of ACSR conductor with steel-wire layer by impact hammer tests.