摘 要:因为铁路牵引供电系统分相区地面磁性设备分布在铁路沿线,点多线长,磁性传感器测量基本靠人工现场实地测量,数据分析也靠人工记录分析,劳动强度大,工作效率低,安全性不高。本项目的研发首先可以将原来人工检测方式转变为车载检测方式,大幅度减轻维修人员的劳动强度,提高维修工作的效率;其次,通过对检测数据进行多种形式的分析和展示,可以全方位地了解分相区地面磁性设备的工作状况,为分相区地面磁性设备的检修提供科学依据。
关键词:分相区;地面磁性设备;车载检测;霍尔元件;数据视图
DOI:10.19850/j.cnki.2096-4706.2022.24.045
中图分类号:TP212 文献标识码:A 文章编号:2096-4706(2022)24-0170-05
Development and Research on Detection System of Ground Magnetic Equipment in Railway Phase Separation Area
ZHOU Xudong, LIANG Xiao
(Xinjiang Railway Vocational and Technical College, Urumqi 830011, China)
Abstract: Because the ground magnetic equipment in the phase separation area of the railway traction power supply system is distributed along the railway, with many points and long lines, the magnetic sensor measurement basically relies on manual on-site measurement, and the data analysis also relies on manual recording and analysis, which has high labor intensity, low work efficiency and low safety. The research and development of this project can firstly transform the original manual detection mode into on-board detection mode, greatly reduce the labor intensity of maintenance personnel and improve the efficiency of maintenance work. Secondly, through the analysis and display of the test data in various forms, it can comprehensively understand the working condition of the ground magnetic equipment in the phase separation area, and provide a scientific basis for the maintenance of the ground magnetic equipment in the phase separation area.
Keywords: phase separation area; ground magnetic equipment; on board detection; Hall element; data view
参考文献:
[1] 王学水,许言午 . 多路磁感应强度测量仪的设计 [J]. 电子技术,2016,45(6):70-73.
[2] 王建亮,张彦军,徐江燕,等 . 一种 A3144E 霍尔传感器高精度磁场测量方法 [C]//“两化”教学模式在应用型大学人才培养中的探究和实践专题论文集 .[ 出版者不祥 ],2021:152-156.
[3] 肖慧明 .Python 技术在数据可视化中的研究综述 [J]. 电子测试,2021(13):87-89.
[4] 雪原 . 智能三维磁场测量仪的研究 [D]. 南京:南京理工大学,2012.
[5] 唐贵杰 . 永磁体空间磁场测量系统的研究 [D]. 哈尔滨:哈尔滨工业大学,2008.
[6] 陈棣湘,潘孟春,罗飞路,等 . 基于霍尔传感器的高准确度磁场测量方法 [J]. 传感器技术,2004(2):59-61.
作者简介:周旭东(1968.01—),男,汉族,重庆云阳人,副教授,本科,研究方向:电气自动控制;梁潇(1987.07—),男,汉族,四川隆昌人,讲师,本科,研究方向:电气自动化控制。