摘要
针对桥上无缝道岔,运用有限单元法,建立了钢轨-岔枕-桥梁弹簧-阻尼空间振动模型。运用弹性系统动力学总势能不变值原理及形成矩阵的"对号入座"法则建立了列车-道岔-桥梁空间振动方程组。以温福客运专线田螺大桥为例,拟定桥上铺设了由两组38号道岔组成的单渡线。计算了"中华之星"电动车组,按一动四拖的编组方式,以140km/h的速度侧向通过时,列车-道岔-桥梁空间振动的动力响应。分析了侧向过岔时,列车运行速度、轨下横向刚度、枕下横向均布刚度、桥墩高度对列车-道岔-桥梁系统振动的影响。结果表明:桥梁导致钢轨和岔枕的位移增幅较大,车体振动加速度有所增加,道岔振动加速度、轮轨力变化很小;系统横向振动响应随列车速度增大、轨下横向刚度减小、枕下横向均布刚度减小、桥墩高度增大而增加。
Aiming at vibration analysis of seamless turnout on bridge,the rail-turnout-tie-bridge spring-damping vibration model was built by using finite element method.The spatial vibration equation sets of the system were derived by using the principle of invariant total potential energy in elastic system dynamics and the 'set-in-right-position' rule for formulating matrixes.Taking Tian-luo major bridge in Wenzhou-Fuzhou railway line for passengers as an example,the scheme of a crossover combined with two No.38 turnouts on the bridge was drawn up.The spatial dynamic responses of the system were analyzed when 'China Star' high speed train with 1 locomotive and 4 passenger cars at the speed of 140km/h is running through turnout branch.The influences of train velocity,the lateral stiffness under rail,the lateral uniform stiffness under tie and the height of pier on the vibration of train-turnout-bridge system were analyzed.The results show that bridge vibration leads the displacement of rail and turnout increase,the dynamic responses of train increase only a little,and it has little effect on the acceleration of turnout and the wheel/rail force.The system responses increase with the increase of train velocity,the decrease of lateral stiffness under rail,the decrease of lateral uniform stiffness under tie,and the increase of pier height.
出处
《振动与冲击》
EI
CSCD
北大核心
2009年第2期40-44,50,共6页
Journal of Vibration and Shock
基金
铁道部科技开发计划项目(2004G05-A)
关键词
桥上无缝道岔
列车
侧向过岔
振动
seamless turnout on bridge
train
running through turnout branch
vibration