Design and Application of Online Monitoring System for Catenary Compensation Device

Guangdong LIU; Mingli WU; Min WEI; Zhijie JIAO

doi:10.13890/j.issn.1000-128x.2021.03.022

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Design and Application of Online Monitoring System for Catenary Compensation Device

Detection Technology | 更新时间：2021-12-09

- Design and Application of Online Monitoring System for Catenary Compensation Device
- Electric Drive for Locomotives Issue 3, Pages: 146-151(2021)
- 作者机构：
  
  1.北京交通大学　电气工程学院，北京　100044
- 作者简介：
- 基金信息：
- DOI：10.13890/j.issn.1000-128x.2021.03.022
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Guangdong LIU, Mingli WU, Min WEI, et al. Design and Application of Online Monitoring System for Catenary Compensation Device. [J]. Electric Drive for Locomotives (3):146-151(2021)
DOI：

Guangdong LIU, Mingli WU, Min WEI, et al. Design and Application of Online Monitoring System for Catenary Compensation Device. [J]. Electric Drive for Locomotives (3):146-151(2021) DOI： 10.13890/j.issn.1000-128x.2021.03.022.

摘要

针对接触网监测方式的不足，研制了一套接触网补偿装置在线监测系统，实现了对接触网补偿装置,b,值信息的“采集—传输—存储—显示—分析”等功能。该系统通过硬件监测终端采集数据，经GPRS进行远距离无线通信；开发web网站，接收数据信息，并进行数据分析，得到“,b,值-温度”拟合公式，预测未来时间段的,b,值变化；根据,b,值异常波动情况，判断接触网存在的接触悬挂故障类型。经测试验证，该系统测量精度高，稳定性强。

Abstract

In order to make up for the lack of detection methods for catenary in China, a set of on-line monitoring system for catenary compensation devices was designed, realizing the functions of collecting, transmitting, storing, displaying and analyzing the ,b,-value of the catenary compensation device. The data information was collected by the hardware detection terminal and wirelessly transmitted via GPRS. With website development, the data information was received and analyzed in real time to get the ,b,-value and temperature fitting formula, and then predicted the change of ,b,-value over the future time period. According to the ,b,-value fluctuation,the contact suspension fault existing in the catenary was judged. With the testing and verification, the system has high measurement accuracy and strong stability.

关键词

接触网在线监测无线传输网站开发数据分析

Keywords

catenaryon-line monitoringwireless transmissionwebsite developmentdata analysis

references

曹建猷. 电气化铁道供电系统[M]. 北京: 中国铁道出版社, 1983.

CAO Jianyou. Power supply system for electrified railway[M]. Beijing: China Railway Publishing House, 1983.

钱清泉, 高仕斌, 何正友, 等. 中国高速铁路牵引供电关键技术[J]. 中国工程科学, 2015, 17(4): 9-20.

QIAN Qingquan, GAO Shibin, HE Zhengyou, et al. Study of China high-speed railway traction power supply key technology[J]. Engineering Science, 2015, 17(4): 9-20.

何华武. 高速铁路运行安全检测监测与监控技术[J]. 中国铁路, 2013(3): 1-7.

HE Huawu. High speed railway operation safety monitoring and monitoring technology[J]. Chinese Railways, 2013(3): 1-7.

TORROJA Y, GARCIA S, APARICIO J L, et al. An artificial vision system used for the measurement of the overhead wire in railway applications[C]//IEEE. Proceedings of IECON '93 - 19th Annual Conference of IEEE Industrial Electronics. Maui: IEEE, 1993, 3: 1997-2002. DOI: 10.1109/IECON.1993.339381http://doi.org/10.1109/IECON.1993.339381.

韩博怀. 接触网检测技术[J]. 中国铁道科学, 1994, 15(3): 27-40.

HAN Bohuai. Catenary detection technology[J]. China Railway Science, 1994, 15(3): 27-40.

XU Z, GAO G, YANG Z F, et al. An online monitoring device for pantograph catenary arc temperature detect based on atomic emission spectroscopy[C]//IEEE. 2018 IEEE International Conference on High Voltage Engineering and Application. Athens: IEEE, 2018: 1-4. DOI: 10.1109/ICHVE.2018.8641866http://doi.org/10.1109/ICHVE.2018.8641866.

曹兵, 邢西沙, 迮继亮. 高速铁路接触网检测技术的探讨及应用[J]. 科技视界, 2015(4): 402.

CAO Bing, XING Xisha, ZE Jiliang. Discussion and application of the catenary detection technology of high speed railway[J]. Science and Technology Vision, 2015(4): 402.

YU Jie, WU Mingli. Development of a detection system for the catenary vibration monitoring[C]//IEEE. 2011 International Conference of Information Technology,Computer Engineering and Management Sciences. Nanjing: IEEE, 2011, 1: 76-79. DOI: 10.1109/ICM.2011.155http://doi.org/10.1109/ICM.2011.155.

王文聪, 赵国栋, 张彩霞, 等. 青藏铁路高铁接触网检测车[J]. 机车电传动, 2019(2): 133-138.

WANG Wencong, ZHAO Guodong, ZHANG Caixia, et al. Inspection vehicle for high-speed railway catenary system(OCS) in Qinghai-Tibet railway[J]. Electric Drive for Locomotives, 2019(2): 133-138.

黄艺单. 接触网几何参数的非接触检测系统研究[D]. 成都: 西南交通大学, 2006.

HUANG Yidan. Research of catenary's geometry parameters non-contact inspection system[D]. Chengdu: Southwest Jiaotong University, 2006.

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