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    • 1. 发明授权
    • Superconductive switching path for heavy current
    • 超级电流切换路径
    • US3768053A
    • 1973-10-23
    • US3768053D
    • 1972-07-31
    • SIEMENS AG
    • MASSAR E
    • H01L39/20H01F7/22
    • H01L39/20Y10S505/882
    • A switching path for heavy current includes at least one superconductive winding traversible by a current and switchable from superconductive to electrically normally conductive condition through its intrinsic magnetic field, and magnetic shield means of superconducting material disposed in the vicinity of the winding and positioned in a manner that when the shield means are in superconductive condition, the magnetic lines of force produced by the winding during the passage of current therethrough are forced into a longer path (s1) than without the shield means so that the magnetic field within the winding is smaller than the lowest critical field intensity at any point of the winding, and so that when the current in the winding reaches a predetermined intensity (IO) the shielding effect of the shield means disappears at least partially due to the increased magnetic field whereby the magnetic lines of force are shortened and the magnetic field increases within the winding to a magnitude above the highest critical magnetic field intensity at any point of the winding passed by the current of predetermined intensity, the winding and the magnetic shield means being immersed in a coolant and being coolable thereby to superconductive temperature, the winding being embedded in heat insulating material of relatively high disruptive strength so as to avoid direct contact of the winding with the coolant, the insulating material having a thickness at least on a side thereof facing the coolant which affords recooling of the winding to superconductive condition subsequent to actuation of the switching path.
    • 用于大电流的切换路径包括至少一个可由电流穿过的超导绕组,并且可通过其本征磁场从超导电导电到正常导通状态,以及设置在绕组附近并以这种方式定位的超导材料的磁屏蔽装置 当屏蔽装置处于超导状态时,在通过电流通过期间由绕组产生的磁力线被迫进入比没有屏蔽装置的更长的路径(s1),使得绕组内的磁场小于 在绕组的任何点处的最小临界磁场强度,并且使得当绕组中的电流达到预定强度(IO)时,屏蔽装置的屏蔽效应至少部分地由于增加的磁场而消失,由此磁线 力被缩短并且磁场在绕组内增加到一个幅度 e以上的任何一点的临界磁场强度高于预定强度电流的绕组,绕组和磁屏蔽装置浸在冷却液中并可冷却至超导温度,绕组嵌入绝热材料 具有相对高的破坏强度,以避免绕组与冷却剂的直接接触,该绝缘材料至少在其面向冷却剂的一侧上具有厚度,其在切换路径的致动之后使绕组的冷却恢复到超导状态。
    • 3. 发明授权
    • Dynamic-magnetic suspension system for a conveyance bound to a guide structure
    • 用于导向结构的传动的动态悬挂系统
    • US3804023A
    • 1974-04-16
    • US24838572
    • 1972-04-28
    • SIEMENS AG
    • MASSAR EBOGNER G
    • B60L13/10B61B13/08H01F7/00
    • B60L13/10B60L2200/26B61B13/08
    • A dynamic-magnetic suspension system for a conveyance bound to a guide structure is disclosed. The system includes a superconductive excitation winding disposed on the conveyance for generating a magnetic field. A plurality of conductor loops are disposed in the guide structure to interact with the magnetic field for suspending and guiding the conveyance with respect to the guide structure. The conductor loops are arranged as a multiphase winding extending in the direction of motion of the conveyance. The excitation winding induces a substantially sinusoidal voltage in the conductor loops which travels at the speed and in the direction of motion of the conveyance.
    • 公开了一种用于与引导结构相结合的输送的动态磁悬浮系统。 该系统包括设置在输送机上用于产生磁场的超导激励绕组。 多个导体环设置在引导结构中以与磁场相互作用,用于相对于引导结构悬挂和引导输送。 导体环布置成沿输送的运动方向延伸的多相绕组。 激励绕组在导体环中感应出基本上正弦的电压,其以传送的运动速度和速度方向传播。