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    • 2. 发明专利
    • Insulating coating oxide superconducting wire and resin impregnated superconducting coil
    • 绝缘氧化锡超导线和树脂浸渍超导线圈
    • JP2011198469A
    • 2011-10-06
    • JP2010060300
    • 2010-03-17
    • Toshiba Corp株式会社東芝
    • IWAI SADANORITOSAKA TAIZOKOYANAGI KEIMIYAZAKI HIROSHITAZAKI KENJIURATA MASAMIIOKA SHIGERUKURUSU TSUTOMUISHII YUSUKE
    • H01B12/06H01B12/02H01F6/06
    • Y02E40/641Y02E40/642
    • PROBLEM TO BE SOLVED: To provide an insulating coating oxide superconducting wire and a resin impregnated superconducting coil which can prevent deterioration in superconductivity characteristics caused by a peel force that a release agent layer is peeled off by cooling or the like and sufficiently removes heat for preventing burnout even if the resin impregnated superconducting coil generates heat.SOLUTION: The insulating coating oxide superconducting wire 21 is formed as follows. An insulating material layer 2 is formed and coated on the whole peripheral surface of an RE-type oxide superconducting wire material 1 formed of a flat wire, so that the insulating material layer has a substantially equal thickness. A release agent layer 22 is formed on the outer surface of the insulating material layer 2. The release agent layer 22 is formed only on a part of the outer surface of the insulating material layer 2. The insulating coating oxide superconducting wire 21 is wound and formed into a coil, and then, impregnated with a heat-curing synthetic resin 23 so as to form a winding part 25, thereby obtaining a resin impregnated superconducting coil 24.
    • 要解决的问题:提供绝缘涂层氧化物超导线材和树脂浸渍超导线圈,其可以防止由剥离力引起的超导特性的劣化,脱模剂层通过冷却等剥离,并充分除去热量以防止 即使树脂浸渍的超导线圈产生热量,也会烧坏。解决方案:绝缘涂层氧化物超导线21如下形成。 绝缘材料层2形成并涂覆在由扁平线形成的RE型氧化物超导线材1的整个外周表面上,使得绝缘材料层具有基本相等的厚度。 剥离剂层22形成在绝缘材料层2的外表面上。剥离剂层22仅形成在绝缘材料层2的外表面的一部分上。缠绕绝缘涂层氧化物超导线21, 形成线圈,然后用热固化合成树脂23浸渍以形成卷绕部25,从而获得树脂浸渍超导线圈24。
    • 3. 发明专利
    • Superconducting magnet device
    • 超级磁铁设备
    • JP2010283029A
    • 2010-12-16
    • JP2009133285
    • 2009-06-02
    • Toshiba Corp株式会社東芝
    • KOYANAGI KEIONO MICHITAKATOITA TAIZOKURUSU TSUTOMUURATA MASAMI
    • H01F6/00H01F6/06
    • PROBLEM TO BE SOLVED: To provide a low-cost superconducting magnet device with a small thermal load on a cooling system, capable of equally distributing currents to superconducting coils of parallel constitution. SOLUTION: The superconducting magnet device includes a plurality of superconducting coils 1 connected to current paths divided on a low-temperature side of a current lead 3 supplied with a current from a current source 4 to be supplied with electric power in parallel, and a cryogenic container 5 which stores the current lead 3 and superconducting coils 1, the self-inductance of the superconducting coils 1 being ≥10 1 Henry and the connection resistance 2 of the divided current paths being 10 -8 to 10 -6 Ω. COPYRIGHT: (C)2011,JPO&INPIT
    • 要解决的问题:为了在冷却系统上提供具有小热负荷的低成本超导磁体装置,能够将电流均等地分布到并联结构的超导线圈中。 解决方案:超导磁体装置包括多个超导线圈1,该多个超导线圈1连接到电流引线3的低温侧上的电流路径,电流引线3提供有来自电流源4的电流,并且并联供电, 以及存储电流引线3和超导线圈1的低温容器5,超导线圈1的自感为≥10 1亨利,分割电流路径的连接电阻2为10 < SP> -8 至10 -6 Ω。 版权所有(C)2011,JPO&INPIT
    • 6. 发明专利
    • Ion source and operating method thereof
    • 离子源及其操作方法
    • JP2012212517A
    • 2012-11-01
    • JP2011076429
    • 2011-03-30
    • Toshiba Corp株式会社東芝
    • SUMIYA AKIKOHAYASHI KAZUOOSANAI AKIHIROSATO KIYOKAZUYOSHIYUKI KENKURUSU TSUTOMU
    • H01J27/24H01J37/08
    • PROBLEM TO BE SOLVED: To maintain an interior of a vacuum vessel while keeping an inside of an accelerator vacuum in an ion source.SOLUTION: An ion source 1 comprises: a vacuum vessel 2 having a maintenance opening 2b and an ion pick-up port 2a that can be opened or closed; a target moving device 5 for moving a target 21 by a target supporting tool 6; a laser light source 9 for radiating laser light 22 on the target 21; an accelerator 11 having an ion introduction port 11a; a communication pipe 12 connecting the ion pick-up port 2a and the ion introduction port 11a; and a gate valve 13 that can open or close the communication pipe 12. While the maintenance opening 2b is closed, the communication pipe 12 is opened, and also the vacuum vessel 2 and the accelerator 11 are made vacuum, the accelerator 11 introduces ions 23 from the ion introduction port 11a via the communication pipe 12 and accelerates them.
    • 要解决的问题:在离子源中保持加速器真空内部的同时保持真空容器的内部。 解决方案:离子源1包括:真空容器2,其具有可以打开或关闭的维护口2b和离子拾取口2a; 用于通过目标支撑工具6移动目标21的目标移动装置5; 用于在目标21上照射激光22的激光光源9; 具有离子引入口11a的加速器11; 连接离子拾取口2a和离子引入口11a的连通管12; 以及可以打开或关闭连通管12的闸阀13.当维护开口2b关闭时,连通管12打开,真空容器2和加速器11也被制成真空,加速器11引入离子23 从离子导入口11a经由连通配管12进行加速。 版权所有(C)2013,JPO&INPIT
    • 7. 发明专利
    • Laser ion source and method of driving laser ion source
    • 激光源和驱动激光源的方法
    • JP2012174515A
    • 2012-09-10
    • JP2011035898
    • 2011-02-22
    • Toshiba Corp株式会社東芝
    • SUMIYA AKIKOHAYASHI KAZUOOSANAI AKIHIROSATO KIYOKAZUWATANABE IKUOYOSHIYUKI KENKURUSU TSUTOMU
    • H01J27/24H01J37/05H01J37/08H01J37/09H01J37/12H01J37/147H05H7/08
    • PROBLEM TO BE SOLVED: To reduce contamination on a downstream linear accelerator side due to unnecessary ions by suppressing emission of the unnecessary ions.SOLUTION: The laser ion source which generates ions by irradiation with laser light includes a container 10 which is evacuated; an irradiation box 20 which is arranged in the container 10, and houses a target 21 generating multi-charged ions by irradiation with laser light; an ion beam lead-out part 12 which electrostatically leads ions out of the irradiation box 20 and guides them as an ion beam to the outside of the container 10; an electrostatic lens 51 which converges the ion beam led out of the irradiation box 20 with electrostatic force; and an aperture 52 which is provided at a position downstream from the electrostatic lens 51 and passes the ion beam converged at the position.
    • 要解决的问题:通过抑制不需要的离子的发射,减少由于不必要的离子而导致的下游线性加速器侧的污染。 解决方案:通过激光照射产生离子的激光离子源包括抽空的容器10; 布置在容器10中的照射盒20,并容纳通过照射激光产生多电荷离子的靶21; 离子束引出部12,其将离子从照射箱20静电导出并将其作为离子束引导到容器10的外部; 静电透镜51,其使从照射箱20引出的离子束以静电力收敛; 以及孔52,其设置在静电透镜51的下游的位置,并且使在该位置收敛的离子束通过。 版权所有(C)2012,JPO&INPIT
    • 8. 发明专利
    • High-temperature superconductor and high-temperature superconducting coil using the same
    • 高温超导体和高温超导线圈
    • JP2011222346A
    • 2011-11-04
    • JP2010091214
    • 2010-04-12
    • Toshiba Corp株式会社東芝
    • TOSAKA TAIZOMIYAZAKI HIROSHIKOYANAGI KEITAZAKI KENJIURATA MASAMIIOKA SHIGERUISHII YUSUKEKURUSU TSUTOMU
    • H01B12/02H01B12/08H01F6/06
    • Y02E40/641
    • PROBLEM TO BE SOLVED: To provide a high-temperature superconductor featuring an increased freedom of coil design capable of dislocation inside of coil using narrow high-temperature superconducting wire and a high-temperature superconducting coil formed by winding the foregoing around the core.SOLUTION: Tape-like high-temperature superconducting wires 2 comprising a metal substrate layer 4, an electrical insulator interlayer 5, and an oxide superconductive layer 6, those which being laminated in that order, are arranged in parallel to the wide-surface direction with a minute clearance provided in between, and a plurality of the parallelized high-temperature superconducting wires 2 are concatenated in the lengthwise direction at predetermined intervals at connecting sections 10. The parallelized high-temperature superconducting wires 2 have the order in which each layer thereof are laminated is reversed between the two high-temperature superconducting wires 2 and between the corresponding high-temperature superconducting wires 2 adjacent in the lengthwise direction at connecting sections 10. The four high-temperature superconducting wires 2 are electrically connected with each other at connecting sections 10 by two sheets of connecting-use high-temperature superconducting wires 3, the end portions thereof being fixed to the upper and lower surfaces of the high-temperature superconducting wires 2.
    • 要解决的问题:提供一种高温超导体,其特征在于使用窄的高温超导线和通过将芯线缠绕在芯上而形成的高温超导线圈,能够在线圈内部位错的线圈设计的自由度增加 。

      解决方案:包括金属基底层4,电绝缘体中间层5和氧化物超导层6的带状高温超导线2,按照该顺序层叠的那些, 表面方向间隔设置有微小间隙,并且多个平行化的高温超导线材2在连接部分10处以预定的间隔在长度方向上连接。平行化的高温超导线材2具有这样的顺序: 在两个高温超导线材2之间以及在连接部分10的长度方向相邻的相应的高温超导线材2之间层压层叠。四个高温超导线材彼此电连接在一起 通过两片连接用高温超导连接部分10 电线3,其端部固定在高温超导线2的上表面和下表面上。版权所有(C)2012,JPO&INPIT

    • 9. 发明专利
    • Superconducting wire, and superconducting coil using the same
    • 超级电线和超导线圈
    • JP2011113933A
    • 2011-06-09
    • JP2009272041
    • 2009-11-30
    • Toshiba Corp株式会社東芝
    • MAEMA NOBORUTOSAKA TAIZOMIYAZAKI HIROSHIKOYANAGI KEIIWAI SADANORITAZAKI KENJIISHII YUSUKEKURUSU TSUTOMUIOKA SHIGERUURATA MASAMI
    • H01B12/06H01F6/06
    • Y02E40/642
    • PROBLEM TO BE SOLVED: To provide a superconducting wire capable of reinforcing a layer constituting a superconducting member from stress generated in the superconducting member by manufacture and operation of a coil, and capable of reducing longitudinal stress generated in the superconducting member by a reinforcing means. SOLUTION: The superconducting wire 1 includes: a superconducting member 2 composed by forming an oxide superconducting layer 7 on a substrate 5 having flexibility through an intermediate layer 6 and forming a protective layer 8 on the oxide superconducting layer 7; a reinforcing plate 3 brought into slide contact with a surface of the superconducting member 2 on the side formed with the oxide superconducting layer 7 for reinforcing a layer constituting the superconducting member 2; and an insulation tape 4 surrounding and constraining the superconducting member 2 and the reinforcing plate 3 mutually slidably in the longitudinal direction. COPYRIGHT: (C)2011,JPO&INPIT
    • 要解决的问题:提供一种能够通过线圈的制造和操作在超导构件中产生的应力来增强构成超导构件的层的超导线,并且能够通过线圈减小在超导构件中产生的纵​​向应力 加强手段。 超导线1包括:超导部件2,其通过在基板5上形成氧化物超导层7而形成,该基板5具有通过中间层6的柔性并在氧化物超导层7上形成保护层8; 加强板3与形成有氧化物超导层7的一侧与超导构件2的表面滑动接触,用于加强构成超导构件2的层; 以及围绕并限制超导构件2和加强板3在纵向方向上相互可滑动的绝缘带4。 版权所有(C)2011,JPO&INPIT
    • 10. 发明专利
    • Superconductive magnet device
    • 超级磁铁器件
    • JP2009130081A
    • 2009-06-11
    • JP2007302604
    • 2007-11-22
    • Toshiba Aitekku KkToshiba Corp東芝アイテック株式会社株式会社東芝
    • NAGAMOTO YOSHIFUMIKURUSU TSUTOMUOGUCHI YOSHIHIROSASAKI TAKASHIMINEMOTO YUJI
    • H01F6/00C30B15/22H01F6/04H01F6/06H01L39/04
    • PROBLEM TO BE SOLVED: To reduce a vacuum space in the inside of a cryostat so that a normal temperature workspace can be expanded in its outside, and heat infiltrating into the cryostat by radiation can be reduced. SOLUTION: In this superconductive magnet device 10 having a very low temperature structure 16 containing a plurality of superconductive coils 15, a radiation shield 17 which covers the very low temperature structure, and a cryostat 18 which stores these very low temperature structure and radiation shield, the cryostat is equipped with an outer cylinder 20, an inner cylinder 21, and a top plate 22 which connects the upper parts of these outer cylinder and inner cylinder, at least one of the outer cylinder 20 and the inner cylinder 21, the outer cylinder 20 for example, is molded, and the respective lower parts of these outer cylinder and inner cylinder are directly and airtightly bonded. COPYRIGHT: (C)2009,JPO&INPIT
    • 要解决的问题:为了减少低温恒温器内部的真空空间,从而可以在其外部扩大常温工作空间,并且可以减少通过辐射渗透到低温恒温器中的热量。 解决方案:在具有包含多个超导线圈15的非常低的温度结构16的超导磁体装置10中,覆盖非常低的温度结构的辐射屏蔽17和存储这些非常低的温度结构的低温恒温器18和 低温恒温器配备有外筒20,内筒21和连接这些外筒的上部和内筒的至少一个外筒20和内筒21的顶板22, 例如,外筒20被模制,并且这些外筒和内筒的各个下部直接和气密地接合。 版权所有(C)2009,JPO&INPIT