Modification and Practice on Location Arrangement of Coal Electrode Type Coal Pile Sensor
Available Online:
April 02, 2023
Published Date:
July 24, 2013
Abstract
According to the special performances of a long distance between the coal electrode type coal pile sensor and the controller of the mine belt conveyor, T he laid control cable mode could have an unstable communication, a voltage attenuation and other problems due to the overlong cable According to the working principl e of the coal electrode type coal pile sensor, relying on the geotectonic loop with the conductor features, the coal electrode type coal pile sensor could be applied to rea lize the protection of the coal pile.When the sensor set in a coal pile with a distance of 1 700 m, a long distance application of the coal pile sensor could be conducted.A long distance coal pile protection of the belt conveyor was well realized with the application of the plan in Jining No.3 Mine.
Related Articles
[1] WU Peng, ZHOU Guoxiao, LIU Shiwei, JIANG Fei, LIANG Tianqi, LI Yong. Detailed classification of coal structure based on micro resistivity imaging logging [J]. COAL SCIENCE AND TECHNOLOGY, 2024, 52(S1): 137-144. DOI: 10.12438/cst.2023-1679
[2] LIU Shiqi, GAO Deyi, SANG Shuxun, WANG He. Characteristics of apparent resistivity of coals with different particle sizes [J]. COAL SCIENCE AND TECHNOLOGY, 2022, 50(12): 162-169. DOI: 10.13199/j.cnki.cst.2021-0340
[3] LIU Zhimin, LI Bing, PAN Yue, WU Miao. Research on focusing and deflection effect of detection with DC focusingmultipoint current sources in tunnel [J]. COAL SCIENCE AND TECHNOLOGY, 2021, 49(11): 174-179.
[4] GUO Yuehui, LEI Dongji, ZHANG Yugui, ZHOU Meng, LI Jian. Experimental study on dispersion characteristics of complex resistivity of hydraulic fracturing coal [J]. COAL SCIENCE AND TECHNOLOGY, 2021, 49(5): 198-202.
[5] LI Mingxing, CHENG Jianyuan. Study on mine transient electromagnetic data processing methodbased on standard deviation standardization [J]. COAL SCIENCE AND TECHNOLOGY, 2019, (5).
[6] CHEN Peng, CHEN Xuexi, LIU Yongjie, YANG Tao. Gas pressure affected to coal resistivity law and mechanism [J]. COAL SCIENCE AND TECHNOLOGY, 2018, (7).
[7] Guo Xiaojie Huan Xuan Gong Weidong Zhang Yugui, . Study on coal complex resistivity anisotropy and characteristics of frequency response [J]. COAL SCIENCE AND TECHNOLOGY, 2017, (4).
[8] Study on Electric Resistivity Method Applied to Dynamically Monitor and Measure Failure Deformation Law of Seam Floor [J]. COAL SCIENCE AND TECHNOLOGY, 2013, (1).
[9] Application of COMSOL Multiphysics to Pilot Detection Positive Evolution of Mine Resistivity [J]. COAL SCIENCE AND TECHNOLOGY, 2011, (11).
Cited by Periodical cited type(9)
1.
游磊,李一文,张海峰,杨筱彧,罗明华. 基于多通道图像处理的斜巷绞车运输闭锁系统. 煤矿安全. 2025(05): 236-244 .
2.
郑毅. 矿用无轨设备列车滑靴式平板车的研制. 煤矿机械. 2024(02): 63-65 .
3.
朱天龙. 大倾角综采自移列车组设计与应用研究. 矿山机械. 2024(04): 54-58 .
4.
黄莹,张定堂,杨文明,庞永刚. 煤矿多功能综采保障列车组的研究与探索. 矿山机械. 2024(07): 6-11 .
5.
贾海. 矿用电控液压移动列车组的分析与应用研究. 山东煤炭科技. 2023(03): 131-132+135 .
6.
谢学斌. 大坡度自移设备列车关键结构受力分析. 煤矿机械. 2023(05): 72-74 .
7.
李勇,闫飞,闫殿华,王琦. 迈步自移锚固牵引装置的研制. 凿岩机械气动工具. 2023(02): 59-62 .
8.
黄莹,罗开成,张幸福,杨文明,李春鹏. 运输巷智能无轨自移列车系统的研发和应用. 煤炭工程. 2022(01): 176-180 .
9.
张幸福,罗开成,杨文明,李宗杰,梁涛,黄莹. 矿用智能自移设备列车控制系统设计. 煤矿机械. 2022(06): 14-16 .
Other cited types(1)
DownLoad: