Key Technologies of Safety Performance of Explosion-proof Heavy-duty Electric Driven Shovel Truck

ZHOU Dehua

Safety in Coal Mines > 2020 > 51(8): 154-157.

ZHOU Dehua. Key Technologies of Safety Performance of Explosion-proof Heavy-duty Electric Driven Shovel Truck[J]. Safety in Coal Mines, 2020, 51(8): 154-157.

Citation:

ZHOU Dehua. Key Technologies of Safety Performance of Explosion-proof Heavy-duty Electric Driven Shovel Truck[J]. Safety in Coal Mines, 2020, 51(8): 154-157.

Citation:

ZHOU Dehua. Key Technologies of Safety Performance of Explosion-proof Heavy-duty Electric Driven Shovel Truck[J]. Safety in Coal Mines, 2020, 51(8): 154-157.

Key Technologies of Safety Performance of Explosion-proof Heavy-duty Electric Driven Shovel Truck

ZHOU Dehua

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Published Date: August 19, 2020

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Abstract

Abstract

This paper introduces the system architecture of explosion-proof heavy-duty electric driven shovel truck, and discusses the key technologies of safety performance of explosion-proof heavy-duty electric driven shovel truck in safety braking, automatic fire extinguishing, personnel collision prevention and leakage protection in detail. The above technologies are used in the design of a heavy-duty electric driven shovel truck, which can realize the safe and reliable operation of the vehicle through the actual industrial verification.

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References

[1]	王步康,金江,袁晓明.矿用电动无轨运输车辆发展现状与关键技术[J].煤炭科学技术2015,43(1):74-76.
[2]	郝明锐.防爆锂离子蓄电池无轨车辆节能控制技术研究[J].煤炭工程,2019,51(5):16-19.
[3]	武瑞兵.防爆电驱动无轨胶轮车永磁电机回馈制动研究[J].工矿自动化,2015,41(6):44-48.
[4]	李强,雷建国,陶华堂.回馈能量可控型再生控制策略研究[J].电气传动,2017,47(1):13-17.
[5]	张雷,于良耀,宋键,等.电动汽车再生制动与液压制动防抱协调控制[J].清华大学学报,2016,56(2):152-159.
[6]	包建军.煤矿井下装备接近探测方法研究[J].工矿自动化,2017,43(1):1-4.
[7]	何景强.矿用防爆无轨胶轮车火灾预防对策及自动灭火系统[J].煤矿安全,2019,50(4):191-194.
[8]	徐晓明.煤矿井下胶带输送机火灾事故分析及预防对策[J].煤矿安全,2010,41(9):132-134.
[9]	赵利.一种矿井IT系统漏电保护电路[J].煤矿安全,2019,50(10):122-124.
[10]	赵建文,李科,随晓娜,等.矿井电网漏电保护新方法[J].工矿自动化,2016(2):47-50.

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[2]	GUO Yan. Failure mechanism and fracture development law of heterogeneous brittle rock[J]. Safety in Coal Mines, 2022, 53(5): 67-72，80.
[3]	Evolution characteristics of cracks and strain energy during progressive failure of coal and rock masses around the hole[J]. Safety in Coal Mines, 2022, 53(3): 16-23.
[4]	WANG Huifeng, SONG Libing. Study on Deformation and Failure Laws of Surrounding Rock in Layered Rock Roadway by Discrete Element Method[J]. Safety in Coal Mines, 2020, 51(12): 56-62.
[5]	HE Tao, WANG Li. Research on Damage Evolution Laws of Rock-coal-rock Combination Based on Particle Discrete Element Model[J]. Safety in Coal Mines, 2018, 49(7): 205-208.
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[9]	WANG Luyu, ZANG Chuanwei, WANG Zeqin, CHEN jie. A Critical Depth Calculation Model and Instability Mechanism Analysis for Roadway[J]. Safety in Coal Mines, 2015, 46(5): 220-222,226.
[10]	GU Shuancheng, WANG Enbo, SHI Xiangdong. Spandrel Failure Mechanism Analysis of Arched Roadway in Layered Rock Mass[J]. Safety in Coal Mines, 2014, 45(11): 172-175,179.

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