Estimation method of static height of contact wire by using pantograph contact force

被引:0
|
作者
Usuda, Takayuki [1 ]
Ikeda, Mitsuru [1 ]
机构
[1] Current Collection Laboratory, Railway Dynamics Division, United States
来源
Quarterly Report of RTRI (Railway Technical Research Institute) | 2015年 / 56卷 / 03期
关键词
Wire - Maintenance - Overhead lines - Electric current collection;
D O I
10.2219/rtriqr.56.175
中图分类号
学科分类号
摘要
Prevention of accident occurring at the contact area between overhead contact lines and pantograph requires careful maintenance of overhead contact lines, resulting in high maintenance costs. Current on-board overhead contact line monitoring systems mainly check the dynamic geometry of contact wires. However, their static geometry is also extremely important for efficient maintenance work. This paper therefore presents the development of two methods which estimate static height of contact wires using contact force and pantograph height. This paper describes the new methods in detail and shows some simulation and experimental results.
引用
收藏
页码:175 / 180
相关论文
共 50 条
  • [1] The contact force between pantograph and contact wire - An estimation method using the inversion technique
    Ikeda, Mitsuru
    Quarterly Report of RTRI (Railway Technical Research Institute) (Japan), 2004, 45 (02): : 80 - 85
  • [2] Estimation of wear and strain of contact wire using contact force of pantograph
    Current Collection Laboratory, Railway Dynamics Division
    Q Rep RTRI (Jpn), 2007, 3 (170-175):
  • [3] Fiber optic sensor technology for the contact force measurement pantograph/contact wire
    Noack, Thomas
    eb - Elektrische Bahnen, 2021, 119 (1-2): : 28 - 31
  • [4] Estimation of Dynamic Contact Force Between a Pantograph and Catenary Using the Finite Element Method
    Jung, Sung Pil
    Kim, Young Guk
    Paik, Jin Sung
    Park, Tae Won
    JOURNAL OF COMPUTATIONAL AND NONLINEAR DYNAMICS, 2012, 7 (04):
  • [5] Detection of Contact Wire Irregularities Using a Quadratic Time-Frequency Representation of the Pantograph-Catenary Contact Force
    Wang, Hongrui
    Liu, Zhigang
    Song, Yang
    Lu, Xiaobing
    Han, Zhiwei
    Zhang, Jing
    Wang, Ying
    IEEE TRANSACTIONS ON INSTRUMENTATION AND MEASUREMENT, 2016, 65 (06) : 1385 - 1397
  • [6] Diagnosis method of overhead contact line stress based on contact force of pantograph
    Aboshi, Mitsuo
    Kusumi, Shunichi
    Kuraoka, Takuya
    Nihon Kikai Gakkai Ronbunshu, C Hen/Transactions of the Japan Society of Mechanical Engineers, Part C, 2011, 77 (777): : 1772 - 1780
  • [7] Contact force measuring method on a pantograph by inverse method.
    Berger, Julien
    Clerc, Christian
    Teppe, Stephane
    Bobillot, Adrien
    MECANIQUE & INDUSTRIES, 2009, 10 (05): : 377 - 383
  • [8] Basic characteristics of the contact wire breaking by the arc between the contact wire and the pantograph
    Hayashiya, Hitoshi
    Abe, Yasuhisa
    Mandai, Tsuyoshi
    Hamada, Takahiro
    Nakajima, Hitoshi
    Negishi, Hideo
    IEEJ Transactions on Industry Applications, 2007, 127 (09) : 927 - 934
  • [9] Non-Contact Contact Force Estimation for Pantograph and Catenary System Based on Kalman Filter
    Chen, Hongming
    Zhou, Ning
    Zhang, Weihua
    ADVANCES IN DYNAMICS OF VEHICLES ON ROADS AND TRACKS III, VOL 1, IAVSD 2023, 2025, : 41 - 50
  • [10] A Measurement Design for Pantograph Contact Force
    Zhong, Yuan
    Zhang, Pengfei
    Wu, Jiqin
    PROCEEDINGS OF THE 3RD INTERNATIONAL CONFERENCE ON ELECTRICAL AND INFORMATION TECHNOLOGIES FOR RAIL TRANSPORTATION (EITRT) 2017: ELECTRICAL TRACTION, 2018, 482 : 133 - 143
12345