Research on Standardized Maintenance Technology and Quality Control of Flameproof Motors and Electromagnetic Starters

Zhifeng Wu

doi:10.6919/ICJE.202602_12(2).0012

Authors

Zhifeng Wu

DOI:

https://doi.org/10.6919/ICJE.202602_12(2).0012

Keywords:

Flameproof Motor; Electromagnetic Starter; Standardized Maintenance; Quality Control; Lean Management; Explosion-proof Performance.

Abstract

Flameproof motors and electromagnetic starters are core electrical equipment in industrial production, especially in special operating scenarios such as underground coal mines. Their operational reliability is directly related to production efficiency and operational safety. Currently, equipment maintenance faces challenges including inconsistent technical standards, inadequate quality control systems, and insufficient intelligent monitoring methods, which are prone to inducing equipment failures and even safety accidents. Based on relevant national and industry standards, combined with advanced concepts such as lean management and intelligent monitoring, this paper systematically sorts out the standardized maintenance technical requirements for motors and electromagnetic starters, and constructs a full-process quality control system covering pre-maintenance, in-maintenance, and post-maintenance stages. By integrating technical means such as equipment full-life cycle management and intelligent monitoring and early warning, this study provides more comprehensive theoretical and practical support for improving equipment maintenance quality and ensuring stable equipment operation.

Downloads

Download data is not yet available.

References

[1] Yang J D. Research on Vector Control System of Permanent Magnet Synchronous Motor for Belt Conveyor[D]. Datong University of Shanxi, 2024. DOI:10.48978/d.cnki.gckha.2024.000052.

[2] Xia B D, Sun J X. Automatic Power Cutoff and Locking Device for Feeder Switch When Opening the Cover of Flameproof Vacuum Electromagnetic Starter for Coal Mines[J]. Smart Mine, 2023, 4(09):54-60.

[3] Zhang G X. Fault Inspection and Analysis of Electrical Equipment for Mining Machinery[J]. Mechanical Management and Development, 2024, 39(12):78-79+95. DOI:10.16525/j.cnki.cn14-1134/th.2024.12.026.

[4] Zhang Q, Liu J K. Fault Inspection and Analysis of Electrical Equipment for Mining Machinery[J]. China Plant Engineering, 2024, (02):164-166.

[5] Geng L H. Research on Strengthening Electrical Safety Management and Measures in Metal and Non-metal Mines[J]. Metallurgical Management, 2023, (22):31-34.

[6] State Administration for Market Regulation, Standardization Administration of the People's Republic of China. Explosive Atmospheres - Part 1: Equipment - General Requirements: GB/T 3836-2021 [S]. Beijing: China Standards Press, 2021.

[7] Ministry of Emergency Management of the People's Republic of China, National Mine Safety Administration. Coal Mine Safety Regulations - 2025[M]. Beijing: Emergency Management Press, 2025.

[8] Sun X, Liu L C. Fault Response Modeling and Optimization of Mine Electrical Equipment[J]. Journal of Mudanjiang Normal University (Natural Science Edition), 2024, (02):24-26. DOI:10.13815/j.cnki.jmtc(ns).2024.02.012.

[9] General Administration of Quality Supervision, Inspection and Quarantine of the People's Republic of China, Standardization Administration of the People's Republic of China. Test Methods for Three-Phase Asynchronous Motors: GB/T 1032-2004 [S]. Beijing: China Standards Press, 2004.

[10] Coal Industry Standard. General Technical Conditions for Electrical Equipment Used in Underground Coal Mines: MT/T 551-1996 [S]. Beijing: China Coal Industry Press, 1996.

[11] State Administration for Market Regulation, Standardization Administration of the People's Republic of China. Explosive Atmospheres - Part 2: Equipment Protected by Flameproof Enclosures "d": GB 3836.2-2010 [S]. Beijing: China Standards Press, 2010.