Experimental and Numerical Study of Collision Attitude Auxiliary Protection Strategy for Subway Vehicles
Author:
Xu Ping,
Yang Liting,
Guo Weinian,
Yang ChengxingORCID,
Che Quanwei,
Xu Tuo
Abstract
An auxiliary protection device (rail holding mechanism) was proposed to control the collision attitude of subway vehicles. The dynamics model of head-on collision of subway vehicles was established and verified by the full-scale collision test of the real car; then the force element structure of the rail holding mechanism was equated; finally, the vertical lift and the pitch angle of the three characteristic sections of car body and the wheelsets were used as the evaluation indicators to study the effects of the three design parameters: the gap distance (x1), the linear stage distance (Δ x2) and the stiffness of linear stage (k1). The results show that the linear stage distance has little influence on the collision attitude of the car body, while the x1 and k1 had a greater influence on the collision attitude of the car body. The reasonable reduction of the gap distance x1 and increase the k1 can effectively reduce the vertical lift of the wheelsets and alleviate the nodding phenomenon of the train, and reduce the derailment and jumping phenomenon during the train collision.
Funder
Changsha Municipal Natural Science Foundation
the Hunan Provincial Natural Science Foundation of China
the National Key Research and Development Program of China
the Scientific Research Foundation for Young Scholars of Central South University
Leading talents of science and technology of Hunan Province
Subject
Electrical and Electronic Engineering,Industrial and Manufacturing Engineering,Control and Optimization,Mechanical Engineering,Computer Science (miscellaneous),Control and Systems Engineering
Reference48 articles.
1. Railroad passenger car collision analysis and modifications for improved crashworthiness;Aruk;Int. J. Crashworthiness,2011
2. The development of rail vehicle crashworthiness;Sutton;Proc. Inst. Mech. Eng. F-J. Rail Rapid Transit,2002
3. (2014). Safety Standard for Structural Requirements for Heavy Rail Transit Vehicles.
4. (2020). Railway Applications Crashworthiness Requirements for Railway Vehicle Bodies (Standard No. EN 15227: 2020). British Standard Published.
5. Li, Y. (2022, June 04). China Youth Daily. Available online: http://news.cyol.com/gb/articles/2022-06/04/content_zXzgwCYZo.html.