161 |
Transformer with superconducting windings |
JP52426097 |
1996-12-10 |
JP2000502840A |
2000-03-07 |
ホーランフェルト,スベン |
(57)【要約】 本発明は、コアリム3の周りに同心的に巻かれた一次および二次超伝導巻線1,2を備えた変圧器であって、それらの巻線の間に二つの巻線の間の絶縁用絶縁材料10を備えた、同心管状空間、すなわち主要通路が設けられた変圧器に関する。 大きい相対的透磁率を有する磁性材料の円筒形スクリーン11,12が主要通路両端の絶縁材料内に同心に導入されている。 |
162 |
Superconducting coil |
JP9138396 |
1996-04-12 |
JPH08298209A |
1996-11-12 |
ANTON DEEMAARUMERUSU; SUBUEN HERUNFUERUTO; FURIIDORITSUHI KEENITSUHI; YAAKOPU RIYUNAA; HOSE MARIA RIBUERA |
PROBLEM TO BE SOLVED: To constitute a superconducting coil by means of a high temperature superconductor and to develop it with only slight constitution height even in the case of a large number of turns. SOLUTION: At least one layer of a coil element formed of the superconductor is provided. The superconductor is surrounded by at least one electrically insulating fiber. In the superconducting coil where the superconductor is buried in an epoxy resin reinforced by electrically insulated fibers or in a plastic, the superconductor is the high temperature superconductor and the coil has two partial coils (N1, N2; H1-H4) having the high temperature superconductors which are mutually and electrically connected. |
163 |
Transformer for electric locomotive and coil device therefor |
JP10826395 |
1995-04-07 |
JPH0883724A |
1996-03-26 |
WARUTAA MIYURAA |
PURPOSE: To enable coil device in a compact structure to be arranged in a narrow required space by a method wherein within multiple coil groups respectively provided with a high voltage coil, a low voltage coil and a leakage suppressor coil, high voltage coils are connected in series. CONSTITUTION: With respect to a superconducting coil device 1, respective drive devices to be fed are provided with a coil group out of coil groups W1-W4. High voltage coils OS1-OS4 respectively provided on these coil groups W1-W4 are annexed spacially and electrically by US1-US4 respectively corresponding to the high-voltage coils OS1-OS4. Furthermore, in order to evenly distribute energy to the superconducting coil device 1, respective coil groups W1-W4 are provided with two leakage suppressor coils S11-S42. Finally, the high-voltage coils OS1-OS4 are connected is series. Through these procedures, the coil device can be structured compactly thereby enabling containment in a narrow required space. |
164 |
Superconducting transformer |
JP27295086 |
1986-11-18 |
JPH071739B2 |
1995-01-11 |
大佐 伊藤; えり子 清水; 育夫 田代; 光喜 諸星 |
|
165 |
Superconducting transformer |
JP27295086 |
1986-11-18 |
JPS63127514A |
1988-05-31 |
TASHIRO IKUO; MOROHOSHI KOKI; ITO DAISUKE; SHIMIZU ERIKO |
PURPOSE: To make the leakage magnetic flux low and make the transfer loss small by making the container body of a cryogenic container also act as an iron core, said container comprising the container body consisting of a magnetic substance and a heat insulating bath provided inside the container body.
CONSTITUTION: A cryogenic container 1 for storing an ultralow-temperature coolant 7 is constituted of a container body 2 composed of a magnetic substance and a heat insulating bath 4 provided inside the container body 2, and primary and secondary superconducting coils 8, 9 and the ultralow-temperature coolant 7 are contained in the heat insulating bath 4, making the container body 2 also act as an iron core. By constructing the container body so that it can be opened and closed, the superconducting coils can be put in and taken out of it, and the heat insulating bath lying between the superconducting coils and the iron core may have a thin wall thickness because it is within the cryogenic container. With this, the leakage magnetic flux through the gap formed between the superconducting coils and the iron core by the heat insulating bath can be supressed small, whereby the transfer loss is reduced.
COPYRIGHT: (C)1988,JPO&Japio |
166 |
Charger for superconducting coil |
JP31601886 |
1986-12-26 |
JPS62159405A |
1987-07-15 |
SABRIE JEAN-LOUIS |
|
167 |
Superconductive magnet device |
JP2533785 |
1985-02-14 |
JPS60189207A |
1985-09-26 |
KORUTO HENRITSUHI DEUSUTOMAN |
|
168 |
JPS596495B2 - |
JP3756980 |
1980-03-26 |
JPS596495B2 |
1984-02-13 |
KURASHIGE MASAYASU; MITSUNE SUSUMU |
|
169 |
Electric induction unit |
JP5955480 |
1980-05-07 |
JPS55151317A |
1980-11-25 |
UORUTAA JIEEMUSU KAA JIYUNIA |
|
170 |
JPS4934399B1 - |
JP10622470 |
1970-12-02 |
JPS4934399B1 |
1974-09-13 |
|
|
171 |
JPS4843123A - |
JP9809972 |
1972-10-02 |
JPS4843123A |
1973-06-22 |
|
An electrical connecting device, which is immersible remote controlled and able to transmit also remote control or telemetry signals. A primary coil (15) connected to the primary circuit is arranged upon a support or rod (1) in order to be displaceable, together with the magnetic core component integral with it, relatively to the secondary coil (16) with its magnetic core portion, all this in such a fashion as to create inductive coupling for the transmission of alternating (three-phase) electrical power, and to enable said two parts to be arbitrarily interpenetrated and parted from one another, in a single operation and whatever the orientation. |
172 |
초전도 전력기기용 압력 발생 장치 및 방법 |
KR1020160121622 |
2016-09-22 |
KR1020180032417A |
2018-03-30 |
한영희; 박병준; 양성은; 김혜림 |
본발명은초전도전력기기용압력발생장치및 방법에관한것으로써보다상세하게는, 초전도전력기기에서액체질소를가압하기위하여별도로구성되는가압시스템을압력용기의내부에구성한초전도전력기기용압력발생장치및 방법에관한발명이다. |
173 |
초전도 한류기용 퀀치 감지 시스템 |
KR1020110082849 |
2011-08-19 |
KR1020120018725A |
2012-03-05 |
돔메르크,로베르트 |
PURPOSE: A quench sensing system for a superconductive fault current limiter is provided to control an operation by blocking a current when the current exceeds a preset value. CONSTITUTION: A current measuring circuit(10,20) is connected to a differential protection relay(13). A superconductive fault current limiter(1) generates a current in proportion to a voltage. The current of the current measuring circuit is compared with a preset current value and is supplied to the differential protection relay. The differential protection relay operates a trigger device of a circuit breaker(2) when the current exceeds the current value. |
174 |
밀도 특성을 가진 초전도 소자들 |
KR1020077019282 |
2006-02-23 |
KR1020070106735A |
2007-11-05 |
셀바마닉캄,벤캇; 헤이즐턴,드루,더블류.; 큐이아오,윤페이 |
A superconductive article is disclosed, having a substrate a buffer layer overlying the substrate, and a superconductive layer overlying the buffer layer. According to embodiments, the article may have low density characteristics, associated with the article as a whole and/or individual layers of the article. The article may be embodied in the form of long length conductors, coiled long length conductors, and machines incorporating such coils, for example. |
175 |
극저온 압축기 격납 장치 및 방법 |
KR1020067009639 |
2004-10-20 |
KR1020060106836A |
2006-10-12 |
플레바,에드워드,에프. |
A low-leakage enclosure for cryogenic compressor apparatus includes climate control equipment and guide fixtures to direct ultra-cold coolant lines to a superconducting utility power transformer. The self-contained system maintains the reequired number of high performance coolant compressor/chillers within a narrow temperature range to ensure reliable operation in an unprotected outdoor environment. The enclosure advances the technology of superconducting power systems closer to find deployable status. |
176 |
초전도 선재 전위 방법 |
KR1020040077188 |
2004-09-24 |
KR1020060028145A |
2006-03-29 |
송희석; 허우행; 박정호; 최경달; 김우석; 김성훈 |
본 발명은 초전도 선재로 권선을 이루며, 전위가 가능토록 개선시킨 초전도 선재 전위 방법 및 그를 이용한 초전도 변압기를 개시한다.
본 발명의 초전도 선재 전위 방법은, 복수의 병렬 초전도 선재를 권선하는 최소한 둘 이상의 디스크 간에 권선 시작 위치를 달리하여 조립하고, 상기 디스크 사이의 도체 연결이 서로 다른 초전도 선재 간에 도체 연결을 이룸으로써 상기 디스크 외부에서 전위를 형성시킨다. 그리고, 상기 디스크를 복수 개 조립함에 있어서 전체 권선 수를 동일하게 유지하면서 전위를 형성하도록 일부 조립되는 쌍을 회전시켜 조립함이 바람직하다.
따라서, 본 발명은 초전도 선재의 꺽음이나 용접없이 이루어질 수 있으므로 초전도체의 특성을 유지하면서 전위를 형성할 수 있는 이점이 있다. |
177 |
TRANSFORMATOR MIT SUPRALEITENDEN WICKLUNGEN |
EP16733962.1 |
2016-07-01 |
EP3292554A1 |
2018-03-14 |
ARNDT, Tabea; GRUNDMANN, Jörn; SCHACHERER, Christian |
The invention relates to a transformer comprising at least a first transformation unit having a primary winding and a secondary winding. Each of the two windings has at least one high-temperature superconducting conductor. Each of the two windings is wound around a first annular base structure, which is common to both windings, in several turns, in such a way that both windings extend over a jointly wrapped, predominant part of the circumferential extent of the annular base structure. |
178 |
A CRYOSTAT FOR SUPERCONDUCTING DEVICES |
EP14871046 |
2014-12-18 |
EP3080823A4 |
2017-10-18 |
STAINES MICHAEL PHILIP; GLASSON NEIL DAVID |
A cryostat for a superconducting device comprises a tank insulated with a non-vacuum material which may be a foam insulation material, and one or more cavities extending through the tank, through HTS coils for example which are vacuum insulated by for example concentric glass sleeves, through which cores, external to the cryostat, associated with the coils pass. |
179 |
SUPERCONDUCTING FAULT CURRENT LIMITER |
EP03753142 |
2003-10-21 |
EP1556905A4 |
2012-05-02 |
DARMANN FRANCIS ANTHONY; BEALES TIMOTHY PAUL |
|
180 |
Anordnung zur Strombegrenzung mit einem supraleitenden Transformator |
EP00109310.3 |
2000-04-29 |
EP1050892B1 |
2008-04-02 |
Zueger, Harry; Bonmann, Dietrich; Paul, Willi |
|