Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Elevated half-tube intelligent five-rail high-temperature superconducting maglev train system
According to an elevated half-tube intelligent five-rail high-temperature superconducting maglev train system, a plurality of magnetic circuits of four electromagnetic rails of an elevated half-tube intelligent five-rail subsystem are linearly arranged and connected with a plurality of single coils in series in the same direction, and the four electromagnetic rails generate a continuous and uniform magnetic field in the rail direction; pinning magnetic fluxes generated by high-temperature superconducting blocks in 12 monitoring type intelligent Dewar are correspondingly arranged on the four electromagnetic rails in the half tubes respectively, the four electromagnetic rails are surrounded, and the acting force of automatic suspension, automatic stabilization and automatic guiding of the maglev train is enhanced; a plurality of section converters supply power under the control of a photoelectric proximity switch and a wireless remote control receiving module, the electromagnetic field intensity of the electromagnetic rails and the middle electromagnetic rail in the four sections can be controlled, the electromagnetic field can be turned off, and the four electromagnetic rails and the middle electromagnetic rail outside the sections are all in a power-off state; the electromagnetic rails in the interval generate a moving magnetic field to drive a linear direct-current permanent magnet motor rotor; and a linear alternating current generator rotor synchronously induces alternating current output.
一种高架半管智能五轨高温超导磁悬浮列车系统,高架半管智能五轨子系统的4个电磁轨道的多个磁路直线排布和多个单线圈同向串联连接,4个电磁轨道产生沿轨道方向连续均匀的磁场;12个监控式智能杜瓦内部的高温超导块材产生的钉扎磁通分别对应在半管内的4个电磁轨道上,将4个电磁轨道包围,加强了磁悬浮列车的自动悬浮、自动稳定和自动导向的作用力;多个区间变流器在光电接近开关和无线遥控接收模块的控制下供电,4个区间内的电磁轨道和中电磁轨道的电磁场强度可控制,电磁场可关断,区间外的4个电磁轨道和中电磁轨道均处于断电状态;区间中电磁轨道产生移动磁场驱动直线直流永磁电机动子;直线交流发电机动子同步感应交流电输出。
Elevated half-tube intelligent five-rail high-temperature superconducting maglev train system
According to an elevated half-tube intelligent five-rail high-temperature superconducting maglev train system, a plurality of magnetic circuits of four electromagnetic rails of an elevated half-tube intelligent five-rail subsystem are linearly arranged and connected with a plurality of single coils in series in the same direction, and the four electromagnetic rails generate a continuous and uniform magnetic field in the rail direction; pinning magnetic fluxes generated by high-temperature superconducting blocks in 12 monitoring type intelligent Dewar are correspondingly arranged on the four electromagnetic rails in the half tubes respectively, the four electromagnetic rails are surrounded, and the acting force of automatic suspension, automatic stabilization and automatic guiding of the maglev train is enhanced; a plurality of section converters supply power under the control of a photoelectric proximity switch and a wireless remote control receiving module, the electromagnetic field intensity of the electromagnetic rails and the middle electromagnetic rail in the four sections can be controlled, the electromagnetic field can be turned off, and the four electromagnetic rails and the middle electromagnetic rail outside the sections are all in a power-off state; the electromagnetic rails in the interval generate a moving magnetic field to drive a linear direct-current permanent magnet motor rotor; and a linear alternating current generator rotor synchronously induces alternating current output.
一种高架半管智能五轨高温超导磁悬浮列车系统,高架半管智能五轨子系统的4个电磁轨道的多个磁路直线排布和多个单线圈同向串联连接,4个电磁轨道产生沿轨道方向连续均匀的磁场;12个监控式智能杜瓦内部的高温超导块材产生的钉扎磁通分别对应在半管内的4个电磁轨道上,将4个电磁轨道包围,加强了磁悬浮列车的自动悬浮、自动稳定和自动导向的作用力;多个区间变流器在光电接近开关和无线遥控接收模块的控制下供电,4个区间内的电磁轨道和中电磁轨道的电磁场强度可控制,电磁场可关断,区间外的4个电磁轨道和中电磁轨道均处于断电状态;区间中电磁轨道产生移动磁场驱动直线直流永磁电机动子;直线交流发电机动子同步感应交流电输出。
Elevated half-tube intelligent five-rail high-temperature superconducting maglev train system
高架半管智能五轨高温超导磁悬浮列车系统
ZHU MUSONG (Autor:in)
24.12.2021
Patent
Elektronische Ressource
Chinesisch
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