Journal of Electrical Engineering and Automation

In deep mining environments, electromechanical equipment is subjected to the dual threats of shock waves and high-frequency vibrations, making equipment stability and safety critical factors restricting production efficiency. Based on an analysis of geological pressure, blasting impacts, and characteristics of mechanical vibration sources in deep mines, this paper proposes innovative ideas for anti-impact and vibration protection mechanisms for electromechanical equipment. The research focuses on three aspects: structural vibration reduction, material buffering, and intelligent monitoring, and constructs a multi-layered protection system. Its effectiveness is verified through dynamic simulations and on-site tests. The results show that this mechanism can significantly reduce the peak impact stress and vibration transmission rate, improve the operational life of equipment and fault early warning capabilities, providing a feasible technical path and theoretical support for the safe production of deep mines.

Deep mining; Electromechanical equipment; Anti-impact; Vibration protection; Innovation in protection mechanisms