公开(公告)号：US07093619B2

公开(公告)日：2006-08-22

申请号：US10496796

申请日：2003-03-24

Applicant: Michihiko Watanabe ,  Yoshihisa Takahashi ,  Kimiyoshi Matsuo ,  Shoichi Honjo ,  Tomoo Mimura ,  Terumitsu Aiba

Inventor： Michihiko Watanabe ,  Yoshihisa Takahashi ,  Kimiyoshi Matsuo ,  Shoichi Honjo ,  Tomoo Mimura ,  Terumitsu Aiba

IPC: F16L59/06

CPC classification number: F16L59/065

Abstract: To provide a thermal insulation piping with no radially projecting part from a periphery thereof, so as to facilitate insertion of the thermal insulation piping into a pipeline or equivalent. In a thermal insulation tube 10 having a vacuum layer between an inner tube 11 and an outer tube 12, an evacuation port 30 for vacuum evacuation is oriented parallel with a longitudinal direction of the thermal insulation piping at an end of the thermal insulation tube 10. This construction can produce the thermal insulation tube 10 with no radially projecting part from a periphery thereof, thus providing improved workability when the thermal insulation piping is contained in the pipeline or equivalent. Further, a flexible pipe(s) 40 is/are preferably connected to the evacuation port(s) 30. This can allow increased positional tolerances in the connection of the evacuation port(s) to a vacuum evacuation device.

Abstract translation: 为了提供从其周边没有径向突出部分的绝热管道，以便于将绝热管道插入管道或等同物。 在内管11和外管12之间具有真空层的绝热管10中，用于真空排气的排气口30与隔热管10的端部处的绝热管道的长度方向平行。 这种结构可以从其周边产生没有径向突出部分的保温管10，从而当管道中包含绝热管道或等效物时，可提供改善的加工性能。 此外，柔性管40优选地连接到排气口30。 这可以允许在抽空端口与真空排气装置的连接中增加的位置公差。

公开(公告)号：US07030314B2

公开(公告)日：2006-04-18

申请号：US10840361

申请日：2004-05-07

Applicant: Yuuichi Ashibe ,  Yoshihisa Takahashi ,  Kimiyoshi Matsuo ,  Shoichi Honjo ,  Tomoo Mimura

Inventor： Yuuichi Ashibe ,  Yoshihisa Takahashi ,  Kimiyoshi Matsuo ,  Shoichi Honjo ,  Tomoo Mimura

IPC: H01B9/06 ,  H01B12/00

CPC classification number: H02G15/34 ,  H01R4/68

Abstract: A termination structure of a cryogenic cable has a cryogenic-cable end portion and a current-lead end portion that are coupled to each other with a flexible conductor. Accordingly, any displacement in three-dimensional directions of the end portions that could occur due to thermal expansion and thermal contraction of the cryogenic cable and the current lead can be absorbed, and a sufficient current capacity can be ensured.

Abstract translation: 低温电缆的终端结构具有用柔性导体彼此耦合的低温电缆端部和电流引线端部。 因此，可以吸收由于低温电缆和电流引线的热膨胀和热收缩而可能发生的端部的三维方向的任何位移，并且可以确保足够的电流容量。

公开(公告)号：US06552260B2

公开(公告)日：2003-04-22

申请号：US09758261

申请日：2001-01-12

Applicant: Jun Fujikami ,  Toru Okazaki ,  Takato Masuda ,  Takeshi Kato ,  Hiroyasu Yumura ,  Yoshihisa Takahashi ,  Kimiyoshi Matsuo ,  Shoichi Honjo ,  Tomoo Mimura

Inventor： Jun Fujikami ,  Toru Okazaki ,  Takato Masuda ,  Takeshi Kato ,  Hiroyasu Yumura ,  Yoshihisa Takahashi ,  Kimiyoshi Matsuo ,  Shoichi Honjo ,  Tomoo Mimura

IPC: H01B1202

CPC classification number: H01B12/00 ,  Y02E40/64 ,  Y10T29/49014

Abstract: A superconducting cable includes a core material, conductor layers formed by means of helically winding superconducting wires around the core material, electrically insulating layers, and magnetic shielding layers formed by means of helically winding superconducting wires around each of the electrically shielding layers. The superconducting wire is wound at the shortest pitch on the outermost conductor layer and is wound at the longest pitch on the outermost magnetic shielding layer.

Abstract translation: 超导电缆包括芯材料，通过螺旋缠绕芯材周围的超导线形成的导体层，电绝缘层和通过围绕每个电屏蔽层螺旋缠绕超导线形成的磁屏蔽层。 超导线以最短的间距缠绕在最外面的导体层上，并以最长的间距缠绕在最外面的磁屏蔽层上。

公开(公告)号：US07002116B2

公开(公告)日：2006-02-21

申请号：US10852163

申请日：2004-05-25

Applicant: Michihiko Watanabe ,  Yoshihisa Takahashi ,  Terumitsu Aiba ,  Kimiyoshi Matsuo ,  Shoichi Honjo ,  Tomoo Mimura

Inventor： Michihiko Watanabe ,  Yoshihisa Takahashi ,  Terumitsu Aiba ,  Kimiyoshi Matsuo ,  Shoichi Honjo ,  Tomoo Mimura

IPC: H05B3/42 ,  F16L59/065

CPC classification number: H05B3/42 ,  F16L59/065 ,  H05B3/58

Abstract: A baking method for heating an object (an inner pipe, an outer pipe) having a vacuum layer formed therein to remove gas molecules occluded in the object, wherein the object itself is made to be a heat production element for heating. By making the baking object a heat production element, the object can be heated directly and the heating can be energy-efficient. Moreover, additional heating means such as a heater or gas is unnecessary, which enables simplification of a configuration of a baking device. Therefore, a baking method is obtained which enables energy-efficient heating and, in particular, uniform heating of a long or large object.

Abstract translation: 一种用于加热其中形成有真空层的物体（内管，外管）的烘烤方法，以除去被吸收在物体中的气体分子，其中物体本身被制成用于加热的发热元件。 通过使烘烤对象成为制热元件，可以直接加热物体，并且加热可以是节能的。 此外，不需要附加的加热装置，例如加热器或气体，这使得能够简化烘烤装置的构造。 因此，可以获得能够实现节能加热，特别是长或大物体的均匀加热的烘烤方法。

公开(公告)号：US20050217878A1

公开(公告)日：2005-10-06

申请号：US11014135

申请日：2004-12-17

Applicant: Yuuichi Ashibe ,  Takato Masuda ,  Yoshihisa Takahashi ,  Kimiyoshi Matsuo ,  Shoichi Honjo ,  Tomoo Mimura

Inventor： Yuuichi Ashibe ,  Takato Masuda ,  Yoshihisa Takahashi ,  Kimiyoshi Matsuo ,  Shoichi Honjo ,  Tomoo Mimura

IPC: H01B12/02 ,  H01R4/68 ,  H02G15/115 ,  H02G15/34 ,  H01B12/00

CPC classification number: H02G15/34 ,  H01R4/68 ,  Y02E40/648 ,  Y10S505/925

Abstract: A multiphase superconducting cable connection structure includes a connection box accommodating three conductor connects connecting a superconductor of a cable core of each phase extracted from a pair of 3-phase superconducting cables, a solid insulation member fixed to an outer circumference of each conductor connect, and a metal flange fixing the solid insulation member to the connection box. By fixing the metal flange to the connection box (a refrigerant vessel), the conductor connect can be positioned and the conductor connector's movement caused as the cable core thermally contracts can be reduced. The structure can help to position the conductor connect in the connection box and reliably hold it at a prescribed position.

Abstract translation: 多相超导电缆连接结构包括连接盒，该连接盒容纳连接从一对三相超导体电缆提取的每相的电缆芯的超导体的三导体连接，固定到每个导体连接的外周的固体绝缘构件，以及 将固体绝缘构件固定到接线盒的金属法兰。 通过将金属法兰固定到连接箱（制冷剂容器）上，可以定位导体连接，并且可以减少导线连接器随着电缆芯热收缩而引起的移动。 该结构可以帮助将导体连接在接线盒中，并可靠地将其固定在规定位置。

公开(公告)号：US06888060B2

公开(公告)日：2005-05-03

申请号：US10257570

申请日：2002-02-13

Applicant: Yuuichi Ashibe ,  Masayuki Hirose ,  Kouhei Furukawa ,  Yoshihisa Takahashi ,  Kimiyoshi Matsuo ,  Shoichi Honjo ,  Tomoo Mimura ,  Terumitsu Aiba

Inventor： Yuuichi Ashibe ,  Masayuki Hirose ,  Kouhei Furukawa ,  Yoshihisa Takahashi ,  Kimiyoshi Matsuo ,  Shoichi Honjo ,  Tomoo Mimura ,  Terumitsu Aiba

IPC: H02G15/22 ,  H02G15/34 ,  H01B7/34

CPC classification number: H02G15/34

Abstract: A terminal structure of cryogenic equipment for leading a terminal of cryogenic equipment 100 from a very low temperature portion to a room temperature portion through a bushing, having a feature in that a connecting/heat-insulating portion 300 adiabatically connected with the aforementioned very low temperature portion 200 and the aforementioned room temperature portion 400 is provided along the outer circumference of the aforementioned bushing 30 between the aforementioned very low temperature portion 200 and the aforementioned room temperature portion 400.

Abstract translation: 一种低温设备的终端结构，用于通过衬套将低温设备100的终端从极低温部分引导到室温部分，其特征在于，与上述非常低的温度绝热连接的连接/绝热部分300 部分200和上述室温部分400沿着上述极低温部分200和上述室温部分400之间的上述衬套30的外周设置。

公开(公告)号：US06718618B2

公开(公告)日：2004-04-13

申请号：US10045027

申请日：2002-01-15

Applicant: Masayuki Hirose ,  Takato Masuda ,  Takeshi Kato ,  Yoshihisa Takahashi ,  Kimiyoshi Matsuo ,  Shoichi Honjo ,  Tomoo Mimura ,  Terumitsu Aiba

Inventor： Masayuki Hirose ,  Takato Masuda ,  Takeshi Kato ,  Yoshihisa Takahashi ,  Kimiyoshi Matsuo ,  Shoichi Honjo ,  Tomoo Mimura ,  Terumitsu Aiba

IPC: H01L3924

CPC classification number: H01B12/02 ,  H01B13/02 ,  Y02E40/641 ,  Y10T29/49014

Abstract: A superconducting cable is manufactured by providing spacers 12 in a plurality of cores 2 at the time of stranding of the cores 2, and removing the spacers 12 before the stranded cores 2 are housed in a thermally insulated pipe and housing the cores into the thermally insulated pipe while the strands are held in a slacked state. By means of temporal interposition of the spacers, there is easily manufactured three cores having sufficient slack to manage thermal contraction which occurs when the cores are cooled in the thermally insulated pipe.

Abstract translation: 超导电缆通过在芯2的绞合时在多个芯2中提供间隔件12而制造，并且在绞合芯2容纳在绝热管中之前去除间隔件12，并将芯容纳在隔热 而股线处于松弛状态。 通过间隔件的时间插入，可以容易地制造出具有足够松弛的三个芯，以管理当在绝热管中冷却芯时发生的热收缩。

公开(公告)号：US07439448B2

公开(公告)日：2008-10-21

申请号：US10840334

申请日：2004-05-07

Applicant: Takato Masuda ,  Hiroyasu Yumura ,  Yoshihisa Takahashi ,  Kimiyoshi Matsuo ,  Shoichi Honjo ,  Tomoo Mimura

Inventor： Takato Masuda ,  Hiroyasu Yumura ,  Yoshihisa Takahashi ,  Kimiyoshi Matsuo ,  Shoichi Honjo ,  Tomoo Mimura

IPC: H01B12/00

CPC classification number: H01R9/032 ,  H01R4/68 ,  H02G15/34 ,  Y02E40/648

Abstract: A phase split structure of a superconducting cable includes three cable cores each having a shield layer provided around a superconductor, a splitter box housing the three cable cores extending from an assembly portion where the three cable cores are assembled into the cable, in a state in which the cable cores are spaced apart from each other, and an electrically-conductive connecting portion connecting respective shield layers of the cable cores to each other within the splitter box. In this way, occurrence of a large magnetic field outside the cable cores can effectively be reduced.

Abstract translation: 超导电缆的相分离结构包括三个电缆芯，每个电缆芯具有设置在超导体周围的屏蔽层，分离箱包含从组装部分延伸的三个电缆芯，三个电缆芯组装在电缆中，处于 其中电缆芯彼此间隔开，以及导电连接部分，其将电缆芯的相应屏蔽层在分配箱内彼此连接。 以这种方式，可以有效地减少电缆芯外部的大磁场的发生。

公开(公告)号：US07211723B2

公开(公告)日：2007-05-01

申请号：US10480260

申请日：2002-06-21

Applicant: Masayuki Hirose ,  Hiroyasu Yumura ,  Takeshi Kato ,  Yoshihisa Takahashi ,  Kimiyoshi Matsuo ,  Shoichi Honjo ,  Tomoo Mimura

Inventor： Masayuki Hirose ,  Hiroyasu Yumura ,  Takeshi Kato ,  Yoshihisa Takahashi ,  Kimiyoshi Matsuo ,  Shoichi Honjo ,  Tomoo Mimura

IPC: H01B12/00

CPC classification number: H02G1/14 ,  H02G15/34 ,  Y02E40/648

Abstract: A phase separation jig (100) for a superconducting cable includes: a cable holder (10) maintaining each core (80) of a multi-core superconducting cable (2) in a predetermined tolerable bending manner; and a coupler (20, 30) holding the cable holder (10) for each core (80) at a predetermined spacing with each other. Each core (80) is spaced apart from each other and maintained in a tolerable bending manner by the holder (10). Accordingly, a phase separation structure can be obtained which can regulate deformation of the cable and prevent abnormal deformation even for a superconducting cable.

Abstract translation: 用于超导电缆的相分离夹具（100）包括：电缆保持器（10），其以预定的可容忍的弯曲方式保持多芯超导电缆（2）的每个芯体（80）; 以及以预定间隔彼此保持用于每个芯（80）的电缆保持器（10）的联接器（20,30）。 每个芯（80）彼此间隔开并由保持器（10）以可容许的弯曲方式保持。 因此，可以获得能够调节电缆的变形并防止甚至对于超导电缆的异常变形的相分离结构。

公开(公告)号：US07067739B2

公开(公告)日：2006-06-27

申请号：US10840232

申请日：2004-05-07

Applicant: Yuuichi Ashibe ,  Takato Masuda ,  Yoshihisa Takahashi ,  Kimiyoshi Matsuo ,  Shoichi Honjo ,  Tomoo Mimura

Inventor： Yuuichi Ashibe ,  Takato Masuda ,  Yoshihisa Takahashi ,  Kimiyoshi Matsuo ,  Shoichi Honjo ,  Tomoo Mimura

IPC: H01R4/00

CPC classification number: H02G15/34 ,  H01R4/68 ,  Y02E40/648

Abstract: A joint structure of a superconducting cable having improved connection strength and preventing break of a superconducting layer is provided. A central conductor of an insulating spacer and a superconducting cable are connected via a conductor connecting member having a sleeve-shaped end. Specifically, the central conductor of the insulating spacer and the conductor connecting member are connected by multi-contact connection.

Abstract translation: 提供了具有改善的连接强度并防止超导层破裂的超导电缆的接合结构。 绝缘隔离物和超导电缆的中心导体经由具有套筒形端部的导体连接构件连接。 具体地，绝缘间隔物的中心导体和导体连接构件通过多触点连接连接。