中国机械工程2024,Vol.35Issue(6):1120-1128,9.DOI:10.3969/j.issn.1004-132X.2024.06.018
复合型径向机构在地铁车辆上的适用性研究
Adaptability Analysis of Composite Radial Mechanisms in Metro Vehicles
摘要
Abstract
Setting up radial mechanisms was the main measure to solve the contradiction between serpentine stability and curve passing performance of railway vehicles.However,the conventional le-ver-type forced-guided steering rack operated in a low-equivalent taper state,where the presence of the linkage exacerbated the vehicle's primary-hunting,which in turn led to a decrease in vehicle stabil-ity.Aiming at the above-mentioned defects of the traditional lever-type forced-guided bogie,a com-posite radial mechanism was proposed.This radial mechanism enabled the vehicle to operate in small radius curves with the function of forced guidance,and the vehicle operated in large radius curves or straight lines so that the function of forced guidance was invalidated,thus the shortcomings of the tra-ditional forced-guided bogies were overcome.Based on the working principle of the composite radial mechanisms,the numerical simulation model and control module of the mechanisms were established.Then MATLAB/Simulink was used to jointly simulate the numerical models of the composite radial mechanisms and the dynamics models of the subway vehicles to study the effects on the dynamics per-formance of the vehicle systems.Then the results were verified by bench testing.The results show that the composite hydraulic radial mechanisms ensure the vehicle has good curve passing perform-ance,and greatly improves the stability of the vehicles.关键词
地铁车辆/径向转向架/曲线通过性能/复合型径向机构/蛇行运动稳定性Key words
metro vehicle/radial bogie/curve passing performance/composite radial mechanism/serpentine smoothness分类
交通工程引用本文复制引用
郑阳,代亮成,池茂儒,郭兆团,曾鹏程..复合型径向机构在地铁车辆上的适用性研究[J].中国机械工程,2024,35(6):1120-1128,9.基金项目
国家重点研发计划(2022YFB4301202) (2022YFB4301202)
