Abstract: In view of the status of the mixed running of various train types faced by platform doors in urban railways, and the impacts of the wind pressures of the train passing through the stations on the platform door, the key technologies and solutions of smart platform door systems were proposed. Based on the lifting platform door technology, the compatibility of door positions of various types was realized, the intelligent guidance of passenger boarding and alighting was realized by using intelligent waiting guidance technology, and the preventive maintenance and reliable operation of equipment were realized by using intelligent operation and maintenance technology. An incompressible three-dimensional unsteady turbulent model of gas flow in the station sections was constructed, and the flow characteristics in the processes of high-speed passing through the stations were simulated and analyzed. The impacts of wind pressure on the platform door under different passing speeds were solved by numerical simulation, and verified by experiments. The research results show that when the train passing speed reaches 220 km/h, the maximum piston wind pressure is as 1913 Pa at 1.2 m away from the platform edge, which is less than the design allowable pressure of 2050 Pa. The reliability of the platform door systems was proved by simulation and tests.

Key words: urban railway, smart platform door, various type, high-speed wind pressure

摘要： 针对市域铁路站台门面临的多种车型混跑、列车高速过站风压对站台门产生冲击等现状，提出了智慧站台门系统设计的关键技术及方案。基于升降式站台门技术实现了对多种车型车门位置的兼容，应用智能候车引导技术实现了乘客乘降出行的智能指引，通过智慧运维技术实现了设备的预防性维修和可靠性运营。同时，构建了车站区间气体流动的不可压缩三维不定常紊流模型，仿真分析了列车高速过站过程中气流流动特性，通过数值仿真求解了不同过站速度下站台门承受的风压冲击，并结合试验测试对其进行了验证。研究表明，当列车过站速度达到220 km/h时，距离站台边缘1.2 m处最大活塞风压为1913 Pa，小于设计许用压力2050 Pa。仿真分析及试验结果证明了站台门系统设计的安全可靠性。

关键词: 市域铁路, 智慧站台门, 多种车型, 高速风压