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    • 53. 发明授权
    • Compact retractable cryogenic leads
    • 紧凑型可伸缩低温引线
    • US4635450A
    • 1987-01-13
    • US826049
    • 1986-02-04
    • Evangelos T. Laskaris
    • Evangelos T. Laskaris
    • F17C13/00H01F6/06F25B19/00
    • H01F6/065Y10S505/892
    • Retractable cryogenic leads for superconducting magnets are provide for making low resistance contacts at liquid helium temperature reliably in the presence of heavy frost. A tube defining a bayonet socket on one end extends through a vertical stack cover of a cryostat insert to engage and disengage a vertical terminal rod having a transverse pin. A copper rod is slidably mounted inside the tube and is vertically displaced relative to the tube by a nut rotatably mounted on the other end of the tube and threadingly engaged with the copper rod. The end of the copper rod can be forced against the top of the vertical terminal rod at high pressure after the bayonet socket engages the pin of the vertical terminal rod.
    • 提供用于超导磁体的伸缩低温引线用于在存在严重的结霜的情况下可靠地在液氦温度下制造低电阻接触。 在一端限定卡口式插座的管道延伸穿过低温恒温器插入件的垂直堆叠盖以接合和分离具有横向销的垂直端子杆。 铜杆可滑动地安装在管内并且通过可旋转地安装在管的另一端并与铜杆螺纹接合的螺母相对于管垂直移位。 在卡口插座接合垂直端子杆的销之后,铜杆的端部可以在高压下被迫靠在垂直端子杆的顶部。
    • 55. 发明授权
    • Persistent current switch for high energy superconductive solenoids
    • 用于高能超导螺线管的持续电流开关
    • US4586017A
    • 1986-04-29
    • US530925
    • 1983-09-12
    • Evangelos T. LaskarisDonald W. Jones
    • Evangelos T. LaskarisDonald W. Jones
    • H01L39/20H01L43/00
    • H01L39/20Y10S505/882
    • Electrical switches used in conjunction with high energy superconductive windings must be able to quickly absorb large amounts of electrical energy since switching of the superconducting current is accomplished by means of transition to the resistive state in the switch portion of the superconducting current loop. Furthermore, to minimize the heat generated during the transition to the resistive state, the switch itself should exhibit a relatively high resistance while at the same time exhibiting a low external magnetic field. The switch should also exhibit minimal stray magnetic fields, especially in those applications requiring field uniformity. These objectives are achieved in a persistent current switch which includes a length of superconductive material disposed in a compact, thermally insulated volume which also includes a mechanism for heating at least a portion of the superconductive conductor in the switch in order to return it to its resistive state. Furthermore, there is included a mass of thermally conductive material within the volume which is in thermal contact with at least a substantial portion of the superconductive conductor to mitigate the effects of hot spots occuring within the switch.
    • 与高能超导绕组结合使用的电开关必须能够快速吸收大量的电能,因为通过在超导电流回路的开关部分中转变为电阻状态来实现超导电流的切换。 此外,为了最小化在向电阻状态转变期间产生的热量,开关本身应呈现相对较高的电阻,同时呈现低的外部磁场。 开关还应该具有最小的杂散磁场,特别是在需要场均匀性的应用中。 这些目的是在持续电流开关中实现的,其包括设置在紧凑的隔热体积中的一段超导材料,其还包括用于加热开关中的超导导体的至少一部分以将其返回到其电阻 州。 此外,在体积内包括大量导热材料,其与至少大部分超导导体热接触以减轻开关内发生的热点的影响。
    • 59. 发明授权
    • Superconducting magnet having a shock-resistant support structure
    • 具有抗冲击支撑结构的超导磁体
    • US5446433A
    • 1995-08-29
    • US309700
    • 1994-09-21
    • Evangelos T. LaskarisConstantinos MinasRobert A. Ackermann
    • Evangelos T. LaskarisConstantinos MinasRobert A. Ackermann
    • F17C13/00F25D19/00G01R33/38G01R33/3815H01F6/04H01F7/22
    • H01F6/04G01R33/3815F25D19/006G01R33/3802Y10S505/898
    • A superconductive magnet having a superconductive coil located within a thermal shield located within a vacuum enclosure. A cryocooler coldhead's first stage is in solid-conductive thermal contact with the thermal shield, and its second stage is in solid-conductive thermal contact with the superconductive coil. A magnet re-entrant support assembly includes an outer support cylinder located between the vacuum enclosure and the thermal shield and includes an inner support cylinder located between the thermal shield and the superconductive coil. The outer support cylinder's first end is rigidly connected to the vacuum enclosure, and its second end is rigidly connected to the thermal shield. The inner support cylinder's first terminus is rigidly connected to the thermal shield near the outer support cylinder's second end, and its second terminus is located longitudinally between the outer support cylinder's first and second ends and is rigidly connected to the superconductive coil.
    • 一种超导磁体,其具有位于真空外壳内的热屏蔽内的超导线圈。 冷冻机冷头的第一阶段是与热屏蔽件进行导电热接触,其第二阶段与超导线圈进行固体导电热接触。 磁体入口支撑组件包括位于真空外壳和热屏蔽之间的外部支撑筒,并且包括位于热屏蔽和超导线圈之间的内部支撑圆柱体。 外部支撑筒的第一端刚性连接到真空外壳,其第二端刚性连接到热屏蔽。 内支撑筒的第一端在外支撑筒的第二端附近刚性地连接到热屏蔽,并且其第二端位于外支撑筒的第一和第二端之间的纵向位置,并且刚性地连接到超导线圈。
    • 60. 发明授权
    • Quench-protected, refrigerated superconducting magnet
    • 淬火保护的冷冻超导磁体
    • US5410286A
    • 1995-04-25
    • US201964
    • 1994-02-25
    • Kenneth G. HerdEvangelos T. Laskaris
    • Kenneth G. HerdEvangelos T. Laskaris
    • F17C13/00F25D29/00G01R33/3815H01F6/04H01F1/00F25B19/00
    • H01F6/04F25D29/001G01R33/3815
    • A superconducting magnet including a superconducting coil assembly having a magnet cartridge, a cryocooler coldhead having a cold stage in thermal contact with the magnet cartridge, and a thermal buffer assembly. The thermal buffer assembly includes an inlet tube and an outlet tube each having an end connected to a helium pressure container which is placed in thermal contact with the magnet cartridge. A first gas pressure regulator on the inlet tube supplies helium gas and a second gas pressure regulator on the outlet tube vents helium gas so as to maintain a generally constant pressure for the helium gas within the helium pressure container. The high specific heat per unit volume of the pressurized gaseous helium acts as a thermal buffer to extend the time the magnet can operate superconductively without the cryocooler before quenching, such as during an electric power outage.
    • 一种超导磁体,包括具有磁体盒的超导线圈组件,具有与磁体盒热接触的冷阶段的冷却器冷头以及热缓冲组件。 热缓冲器组件包括入口管和出口管,每个入口管和出口管的端部连接到与磁体盒热接触的氦压力容器。 入口管上的第一气体压力调节器供应氦气,出口管上的第二气体压力调节器排出氦气,以保持氦压力容器内氦气的大致恒定的压力。 加压气态氦的每单位体积的高比热作为热缓冲器,以延长磁体在淬火之前超导的时间,而不需要冷却器,例如在停电期间。