城市轨道交通动车组受电弓上框架结构设计方案优化
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摘要
针对城市轨道交通弓网系统目前存在的问题和障碍,利用简化方法分析了受电弓的整体结构、运动轨迹,以及受电弓的几何运动关系。针对上框架结构,采用有限元分析法对其结构进行了优化计算,经比选提出了较优上框架结构方案。
Targeting at problems and obstacles existing in the pantograph upper frame structure of urban rail transit, a simplified method is used to analyze the overall structure, the trajectory of pantograph and its geometry relations. In view of the upper frame structure, the finite element analysis method is used for the optimizing calculation of the structure. Through a comparison of different schemes, the optimum upper frame structure is selected.
Targeting at problems and obstacles existing in the pantograph upper frame structure of urban rail transit, a simplified method is used to analyze the overall structure, the trajectory of pantograph and its geometry relations. In view of the upper frame structure, the finite element analysis method is used for the optimizing calculation of the structure. Through a comparison of different schemes, the optimum upper frame structure is selected.
引文
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[2] POMBO J,AMBROSIO J,PEREIRA M,et al.Influence of the aerodynamic force on the pantograph-catenary system for high speed trains[J].Vehicle System Dynamics,2009(11):1327.
[3] 李瑞平,周宁,张卫华,等.受电弓气动抬升力计算方法与分析[J].铁道学报,2012(8):26.
[4] 马果垒,张卫华,梅桂明.高速受电弓整体结构特性分析[J].机械强度,2010(1):158.
[5] 刘永红,何友全,肖建.高速铁路受电弓概况[J].电力自动化设备,2002(11) :16.
[6] 李敏,李丰良,马俊.高速受电弓的力学模型及运动微分方程[J].铁道科学与工程学报,2005(3):83.
[7] 李丰良,李敏,唐建湘.受电弓的建模与参数测试[J].中南大学学报,2006(1):194.
[8] 周宁,张卫华.基于直接积分法的弓网耦合系统动态性能仿真分析[J].中国铁道科学,2008(6):71.
[9] 李丰良,唐松花.受电弓的力学分析示例[J].铁道学报,2000(5):21.
[10] 张卫华,黄标,梅桂明.基于虚拟样机技术的高速弓网系统研究[J].铁道学报,2005(4):30.
[11] 丁长权,陈喜红,陶功安,等.基于VB的铁道车辆几何曲线通过参数化计算[J].电力机车与城轨车辆,2012(1):33.