The invention discloses a debugging method and system for an ultra-high-speed low-vacuum pipeline maglev traffic operation control system. The method comprises the following steps: establishing a central operation control system digital twinborn body, a partition operation control system digital twinborn body, a suspension propulsion system digital twinborn body, a positioning speed measurement system digital twinborn body, a cabin-mounted system digital twinborn body, a vacuum pump system digital twinborn body and a re-pressing valve system digital twinborn body; a gate valve system digital twinning body and an escape maintenance door system digital twinning body; the digital twinners of the air pump system digital twinners, the gate valve system digital twinners, the re-pressing valve system digital twinners and the escape and maintenance door system digital twinners are connected with the partition operation and control system digital twinners through IO hard wiring, and the other digital twinners conduct data interaction through the red Ethernet and the blue Ethernet. And dual-network redundancy switching is realized. Therefore, the problems that in the prior art, an operation control system is difficult to accurately and effectively carry out function debugging, the debugging time period is long, and the efficiency is low are solved.
本发明公开一种超高速低真空管道磁浮交通运控系统的调试方法及系统。其中,该方法包括:建立中央运控系统数字孪生体、分区运控系统数字孪生体、悬浮推进系统数字孪生体、定位测速系统数字孪生体、舱载系统数字孪生体、真空泵系统数字孪生体、复压阀系统数字孪生体、闸板阀系统数字孪生体和逃生维修门系统数字孪生体;空泵系统数字孪生体、闸板阀系统数字孪生体、复压阀系统数字孪生体以及逃生维修门系统数字孪生体的数字孪生体与分区运控系统数字孪生体之间通过IO硬接线连接,其余数字孪生体之间均通过红、蓝以太网进行数据交互,实现双网冗余切换。由此,解决了现有技术中运控系统难以准确、有效地进行功能调试,调试时间周期长,效率低的问题。
Debugging method and system for ultra-high-speed low-vacuum pipeline magnetic levitation traffic operation control system
超高速低真空管道磁浮交通运控系统的调试方法及系统
02.07.2024
Patent
Elektronische Ressource
Chinesisch
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