序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
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121 | VERFAHREN ZUR FERTIGUNG EINES HALBZEUGS FÜR EINEN SUPRALEITERDRAHT | EP18151152.8 | 2018-01-11 | EP3352235A1 | 2018-07-25 | Abächerli, Vital; Schlenga, Klaus; Sailer, Bernd; Thöner, Manfred; Wanior, Matheus |
Ein Verfahren zur Fertigung eines Halbzeugs (50; 51) für einen |
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122 | Anordnung mit mindestens einem supraleitfähigen Kabel | EP12305959.4 | 2012-08-03 | EP2693584B1 | 2017-11-22 | Stemmle, Mark, Dr.; Schippl, Klaus; Di Palma, Michele; Lange, Stephan |
123 | SUPERCONDUCTION STABILIZER MATERIAL, SUPERCONDUCTING WIRE, AND SUPERCONDUCTING COIL | EP15877046.1 | 2015-12-24 | EP3243917A1 | 2017-11-15 | FUKUOKA Kosei; ITO Yuki; MAKI Kazunari |
The present invention is a superconducting stabilization material used for a superconducting wire, which is formed of a copper material which contains: one or more types of additive elements selected from Ca, La, and Ce in a total of 3 ppm by mass to 400 ppm by mass; and a balance being Cu and inevitable impurities and in which a total concentration of the inevitable impurities excluding O, H, C, N, and S which are gas components is 5 ppm by mass to 100 ppm by mass. |
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124 | Anordnung mit mindestens einem supraleitfähigen Kabel | EP12305959.4 | 2012-08-03 | EP2693584A1 | 2014-02-05 | Stemmle, Mark, Dr.; Schippl, Klaus; Di Palma, Michele; Lange, Stephan |
Es wird eine Anordnung mit mindestens einem supraleitfähigen Kabel und einem dasselbe umgebenden Kryostat (KR) angegeben, der mindestens ein thermisch isoliertes Rohr aufweist, welches das supraleitfähige Kabel und einen Hohlraum zum Durchleiten eines Kühlmittels umschließt. Das supraleitfähige Kabel und der Kryostat (KR) sind im Montagezustand an ihren beiden Enden fest mit feststehenden Teilen einer Übertragungsstrecke für elektrische Energie verbunden. An den mit den feststehenden Teilen verbundenen Enden des Kryostats (KR) sind mit Abstand zueinander zwei Faltenbälge (6,7) in denselben eingebaut, zwischen denen ein zum Kryostat gehörendes, thermisch isoliertes und gebogen verlaufendes Rohrstück (8) angebracht ist. |
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125 | SUPERCONDUCTING CABLE AND SUPERCONDUCTING CABLE LINE | EP02802359.6 | 2002-10-10 | EP1441366B1 | 2013-04-03 | OHMATSU, K., Osaka Works of Sumitomo Elec. Ind Ltd |
126 | VERSTELLBARE STUTZISOLATOR FUR EINE HOCHSPANNUNGSFERNUBERTRAGUNGSLEITUNG | EP10720881.1 | 2010-05-03 | EP2449640A1 | 2012-05-09 | SEIFERT, Jens |
The invention relates to a long-distance line (1) for high voltage, having an outer jacket pipe (2) extending in a longitudinal direction (5), having an inner conductor (3) led in the interior of the jacket pipe (2) in parallel to the longitudinal direction (5), and having a number of mounting insulators (10), by means of which the inner conductor (3) is held on the jacket pipe (2) at a distance therefrom transverse to the longitudinal direction (5), and a correspondingly embodied mounting insulator (10). The mounting insulators (10) serve for adjusting the distance between the inner conductor (3) and the jacket pipe (2). The long-distance transmission line (1) is particularly air insulated in design. The mounting insulators (10) allow simple assembly and installation of the inner conductor (3). | ||||||
127 | ELECTRICAL POWER TRANSMISSION SYSTEM USING SUPERCONDUCTORS | EP99965571.5 | 1999-12-22 | EP1151442A1 | 2001-11-07 | NASSI, Marco; LADIE', Pierluigi |
In general terms, the present invention relates to an electrical power transmission system using superconductors which is compatible with conventional transmission systems. In a first aspect, the present invention relates to a method for installing in an electrical power transmission system a connection using a coaxial superconducting cable, comprising the following steps: determining the reactance of a conventional cable suitable for the said connection; installing the coaxial superconducting cable; increasing the reactance of the coaxial superconducting cable, in such a way that the reactance of the superconducting cable is substantially equal to the reactance of the conventional cable. In particular, the step of increasing the reactance of the coaxial superconducting cable comprises the step of connecting in series with the coaxial superconducting cable an inductive element, preferably made from a superconducting material. | ||||||
128 | SUPERCONDUCTION STABILIZER MATERIAL, SUPERCONDUCTING WIRE, AND SUPERCONDUCTING COIL | EP15877046 | 2015-12-24 | EP3243917A4 | 2018-05-23 | FUKUOKA KOSEI; ITO YUKI; MAKI KAZUNARI |
The present invention is a superconducting stabilization material used for a superconducting wire, which is formed of a copper material which contains: one or more types of additive elements selected from Ca, La, and Ce in a total of 3 ppm by mass to 400 ppm by mass; and a balance being Cu and inevitable impurities and in which a total concentration of the inevitable impurities excluding O, H, C, N, and S which are gas components is 5 ppm by mass to 100 ppm by mass. | ||||||
129 | METHOD FOR MANUFACTURING CONNECTION STRUCTURE | EP17192557.1 | 2014-05-28 | EP3285341A1 | 2018-02-21 | FUJITA, Shinji |
A wire splicing device includes: a holding base which is provided with a wire accommodation groove having a width, the wire accommodation groove being configured to accommodate a plurality of wires; a pressing plate which is positioned above the holding base; a heating body which is positioned above the pressing plate and includes a heating member; a first driver which drives the holding base and the pressing plate toward or away from one another; and a second driver which drives the holding base and the heating body toward or away from one another, in which the pressing plate which is driven toward the holding base by the first driver presses together the plurality of wires accommodated in the wire accommodation groove with solder interposed therebetween, and the heating body which is driven toward the holding base by the second driver presses together and heats, via the pressing plate, the plurality of wires accommodated in the wire accommodation groove with solder therebetween. |
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130 | Halbzeugdraht für einen Nb3Sn-Supraleiterdraht | EP13187048.7 | 2013-10-02 | EP2717340A2 | 2014-04-09 | Schlenga, Klaus |
Ein Halbzeugdraht (1) für einen Nb3Sn-Supraleiterdraht (45), |
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131 | ELECTRICAL POWER TRANSMISSION SYSTEM USING SUPERCONDUCTORS | EP99965571.5 | 1999-12-22 | EP1151442B1 | 2011-10-05 | NASSI, Marco; LADIE', Pierluigi |
In general terms, the present invention relates to an electrical power transmission system using superconductors which is compatible with conventional transmission systems. In a first aspect, the present invention relates to a method for installing in an electrical power transmission system a connection using a coaxial superconducting cable, comprising the following steps: determining the reactance of a conventional cable suitable for the said connection; installing the coaxial superconducting cable; increasing the reactance of the coaxial superconducting cable, in such a way that the reactance of the superconducting cable is substantially equal to the reactance of the conventional cable. In particular, the step of increasing the reactance of the coaxial superconducting cable comprises the step of connecting in series with the coaxial superconducting cable an inductive element, preferably made from a superconducting material. | ||||||
132 | SUPERCONDUCTING CABLE AND SUPERCONDUCTING CABLE LINE | EP02802359 | 2002-10-10 | EP1441366A4 | 2006-12-20 | OHMATSU K |
A superconducting cable comprises a first conductor layer constituted of a superconducting wire and an insulation layer formed outside the first conductor layer. The first conductor layer is a superconducting cable that is an aggregate of superconducting wires deposited in film on a metal substrate from a Re-based superconducting layer and restricts current by generating a resistance when the current of the first conductor layer exceeds a critical current and suppresses damage of the superconducting cable. A superconducting cable line consisting of a base section and a current restricting section comprising this superconducting cable enables current attenuation when a current larger than the rated current of the base section flows. | ||||||
133 | SUPERCONDUCTING CABLE AND SUPERCONDUCTING CABLE LINE | EP02802359.6 | 2002-10-10 | EP1441366A1 | 2004-07-28 | OHMATSU, K., Osaka Works of Sumitomo Elec. Ind Ltd |
A superconducting cable includes a first conductor layer formed of superconducting wires, and an insulating layer formed at the outer periphery of the first conductor layer. The first conductor layer is an assembly of a plurality of superconducting wires obtained by forming an RE based superconductor layer on a metal substrate. The current is limited by an electrical resistance generated when the current of the first conductor layer exceeds the critical current, thereby preventing the superconducting cable from being damaged. A superconducting cable line is formed of a base and a current limiter, which is formed by using the above-described superconducting cable. Accordingly, when a current exceeding the rated current of the base flows, it can be damped. |
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134 | Superconducting cable and method of analyzing the same | EP01400094.7 | 2001-01-12 | EP1117104A3 | 2002-11-27 | Jun, Fujikami c/o Sumitomo Elec. Ind., Ltd.; Toru, Okazaki c/o Sumitomo Elec. Ind., Ltd.; Takato, Masuda c/o Sumitomo Elec. Ind., Ltd.; Takeshi, Kato, c/o Sumitomo Elec. Ind., Ltd.; Hiroyasu, Yumura, c/o Sumitomo Elec. Ind., Ltd.; Yoshihisa, Takahashi, c/o Tokyo Elec. Power Co.; Kimiyoshi, Matsuo, c/o Tokyo Elec. Power Co.; Shoichi, Honjo, c/o Tokyo Elec. Power Co.; Tomoo, Mimura, c/o Tokyo Elec. Power Co. |
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. |
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135 | Superconducting cable and method of analyzing the same | EP01400094.7 | 2001-01-12 | EP1117104A2 | 2001-07-18 | Jun, Fujikami c/o Sumitomo Elec. Ind., Ltd.; Toru, Okazaki c/o Sumitomo Elec. Ind., Ltd.; Takato, Masuda c/o Sumitomo Elec. Ind., Ltd.; Takeshi, Kato, c/o Sumitomo Elec. Ind., Ltd.; Hiroyasu, Yumura, c/o Sumitomo Elec. Ind., Ltd.; Yoshihisa, Takahashi, c/o Tokyo Elec. Power Co.; Kimiyoshi, Matsuo, c/o Tokyo Elec. Power Co.; Shoichi, Honjo, c/o Tokyo Elec. Power Co.; Tomoo, Mimura, c/o Tokyo Elec. Power Co. |
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. |
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136 | OXIDE SUPERCONDUCTING BULK MAGNET | EP16740265 | 2016-01-21 | EP3249663A4 | 2018-07-18 | MORITA MITSURU |
An oxide superconducting bulk magnet able to prevent breakage of a superconducting bulk member and able to give a sufficient amount of total magnetic flux at a superconducting bulk member surface even under high magnetic field strength conditions, comprising an oxide superconducting bulk laminate formed from sheet-shaped oxide superconducting bulk members and high strength reinforcing members arranged between the stacked oxide superconducting bulk members, the outer circumference of the oxide superconducting bulk laminate being provided with an outer circumference reinforcing member. | ||||||
137 | SUPERCONDUCTING WIRE AND SUPERCONDUCTING COIL | EP15877032 | 2015-12-22 | EP3243916A4 | 2018-05-30 | FUKUOKA KOSEI; ITO YUKI; MAKI KAZUNARI |
The present invention is a superconducting wire including: a wire formed of a superconducting material; and a superconducting stabilization material disposed in contact with the wire, in which the superconducting stabilization material is formed of a copper material which contains: one or more types of additive elements selected from Ca, Sr, Ba, and rare earth elements in a total of 3 ppm by mass to 400 ppm by mass; a balance being Cu and inevitable impurities, and in which a total concentration of the inevitable impurities excluding O, H, C, N, and S which are gas components is 5 ppm by mass to 100 ppm by mass. | ||||||
138 | SUPERCONDUCTING WIRE AND SUPERCONDUCTING COIL | EP15877032.1 | 2015-12-22 | EP3243916A1 | 2017-11-15 | FUKUOKA Kosei; ITO Yuki; MAKI Kazunari |
The present invention is a superconducting wire including: a wire formed of a superconducting material; and a superconducting stabilization material disposed in contact with the wire, in which the superconducting stabilization material is formed of a copper material which contains: one or more types of additive elements selected from Ca, Sr, Ba, and rare earth elements in a total of 3 ppm by mass to 400 ppm by mass; a balance being Cu and inevitable impurities, and in which a total concentration of the inevitable impurities excluding O, H, C, N, and S which are gas components is 5 ppm by mass to 100 ppm by mass. |
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139 | SUPERCONDUCTING POWER TRANSMISSION SYSTEM | EP11823682 | 2011-09-05 | EP2615614A4 | 2017-09-13 | YAMAGUCHI SATAROU; WATANABE HIROFUMI |
140 | WIRE ROD CONNECTION DEVICE, WIRE ROD CONNECTION METHOD, AND METHOD FOR MANUFACTURING CONNECTION STRUCTURE | EP14804200 | 2014-05-28 | EP3007287A4 | 2017-08-09 | FUJITA SHINJI |
A wire splicing device includes: a holding base which is provided with a wire accommodation groove having a width, the wire accommodation groove being configured to accommodate a plurality of wires; a pressing plate which is positioned above the holding base; a heating body which is positioned above the pressing plate and includes a heating member; a first driver which drives the holding base and the pressing plate toward or away from one another; and a second driver which drives the holding base and the heating body toward or away from one another, in which the pressing plate which is driven toward the holding base by the first driver presses together the plurality of wires accommodated in the wire accommodation groove with solder interposed therebetween, and the heating body which is driven toward the holding base by the second driver presses together and heats, via the pressing plate, the plurality of wires accommodated in the wire accommodation groove with solder therebetween. |