Superconductor cooling system and superconductor cooling method
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H01L-039/02
H01F-006/02
F28F-027/00
출원번호
US-0509963
(2009-07-27)
등록번호
US-8352002
(2013-01-08)
우선권정보
JP-2008-280366 (2008-10-30)
발명자
/ 주소
Kawashima, Hiroshi
출원인 / 주소
Mitsubishi Heavy Industries, Ltd.
대리인 / 주소
Kanesaka Berner & Partners
인용정보
피인용 횟수 :
1인용 특허 :
2
초록▼
A superconductor cooling system has: a first superconductor; a first cooling conductor used for cooling the first superconductor; a first cooling unit configured to cool the first cooling conductor to a first temperature; and a current lead configured to supply a current to the first superconductor.
A superconductor cooling system has: a first superconductor; a first cooling conductor used for cooling the first superconductor; a first cooling unit configured to cool the first cooling conductor to a first temperature; and a current lead configured to supply a current to the first superconductor. Here, a part of a path of the current is formed of a second superconductor. The superconductor cooling system further has: a second cooling conductor used for cooling the second superconductor; a second cooling unit configured to cool the second cooling conductor to a second temperature; and a first thermal conduction switch connected between the first cooling conductor and the second cooling conductor to ON and OFF heat transfer between the first cooling conductor and the second cooling conductor.
대표청구항▼
1. A superconductor cooling system comprising: a first superconductor;a first cooling conductor used for cooling said first superconductor;a first cooling unit configured to cool said first cooling conductor to a first temperature;a current lead configured to supply a current to said first supercond
1. A superconductor cooling system comprising: a first superconductor;a first cooling conductor used for cooling said first superconductor;a first cooling unit configured to cool said first cooling conductor to a first temperature;a current lead configured to supply a current to said first superconductor, wherein a part of a path of said current is formed of a second superconductor;a second cooling conductor used for cooling said second superconductor;a second cooling unit configured to cool said second cooling conductor to a second temperature; anda first thermal conduction switch connected between said first cooling conductor and said second cooling conductor to ON and OFF heat transfer between said first cooling conductor and said second cooling conductor. 2. The superconductor cooling system according to claim 1, wherein said first thermal conduction switch is turned ON in an initial cooling period before said current is supplied to said first superconductor, andwherein said first thermal conduction switch is turned OFF after said initial cooling period. 3. The superconductor cooling system according to claim 2, further comprising: a first temperature sensor configured to detect a temperature of said first cooling conductor,wherein when said temperature of said first cooling conductor becomes equal to or lower than a predetermined temperature, said first temperature sensor deactivates a first switch signal, and said first thermal conduction switch is turned OFF in response to the deactivation of said first switch signal. 4. The superconductor cooling system according to claim 2, further comprising: a second temperature sensor configured to detect a temperature of said second cooling conductor,wherein when said temperature of said second cooling conductor becomes equal to or lower than a predetermined temperature, said second temperature sensor deactivates a second switch signal, and said first thermal conduction switch is turned OFF in response to the deactivation of said second switch signal. 5. The superconductor cooling system according to claim 2, wherein said first thermal conduction switch is turned ON in a heating period after the supply of said current to said first superconductor is ended. 6. The superconductor cooling system according to claim 1, wherein said second cooling conductor comprises:a current lead connector located on a side of said second superconductor;a cooling unit connector located on a side of said second cooling unit; anda second thermal conduction switch connected between said current lead connector and said cooling unit connector to ON and OFF heat transfer between said current lead connector and said cooling unit connector,wherein said first thermal conduction switch is connected between said first cooling conductor and said cooling unit connector to ON and OFF heat transfer between said first cooling conductor and said cooling unit connector. 7. The superconductor cooling system according to claim 6, wherein said first thermal conduction switch is turned ON and said second thermal conduction switch is turned OFF in an initial cooling period before said current is supplied to said first superconductor, andwherein said first thermal conduction switch is turned OFF and said second thermal conduction switch is turned ON after said initial cooling period. 8. The superconductor cooling system according to claim 7, further comprising: a first temperature sensor configured to detect a temperature of said first cooling conductor,wherein when said temperature of said first cooling conductor becomes equal to or lower than a predetermined temperature, said first temperature sensor deactivates a first switch signal, and said first thermal conduction switch is turned OFF in response to the deactivation of said first switch signal. 9. The superconductor cooling system according to claim 8, further comprising: a second temperature sensor configured to detect a temperature of said cooling unit connector,wherein when said temperature of said cooling unit connector becomes equal to or lower than a predetermined temperature, said second temperature sensor activates a second switch signal, and said second thermal conduction switch is turned ON in response to the activation of said second switch signal. 10. The superconductor cooling system according to claim 7, further comprising: a second temperature sensor configured to detect a temperature of said cooling unit connector,wherein when said temperature of said cooling unit connector becomes equal to or lower than a predetermined temperature, said second temperature sensor activates a second switch signal, said first thermal conduction switch is turned OFF in response to the activation of said second switch signal, and said second thermal conduction switch is turned ON in response to the activation of said second switch signal. 11. The superconductor cooling system according to claim 7, wherein said first thermal conduction switch and said second thermal conduction switch are turned ON in a heating period after the supply of said current to said first superconductor is ended. 12. The superconductor cooling system according to claim 1, wherein said first temperature is lower than said second temperature. 13. A superconductor cooling method in a superconductor cooling system, wherein said superconductor cooling system comprises:a first superconductor;a first cooling conductor used for cooling said first superconductor;a first cooling unit configured to cool said first cooling conductor to a first temperature;a current lead configured to supply a current to said first superconductor, wherein a part of a path of said current is formed of a second superconductor;a second cooling conductor used for cooling said second superconductor; anda second cooling unit configured to cool said second cooling conductor to a second temperature,wherein said superconductor cooling method comprises:performing an initial cooling by connecting between said first cooling conductor and said second cooling conductor to cool said first superconductor, before said current is supplied to said first superconductor; andperforming a late cooling after said initial cooling, by disconnecting said first cooling conductor and said second cooling conductor from each other to cool said first superconductor and said second superconductor to said first temperature and said second temperature, respectively. 14. The superconductor cooling method according to claim 13, wherein said second cooling conductor includes:a current lead connector located on a side of said second superconductor; anda cooling unit connector located on a side of said second cooling unit,wherein said performing said initial cooling comprises:connecting between said first cooling conductor and said cooling unit connector; anddisconnecting said current lead connector and said cooling unit connector from each other,wherein said performing said late cooling comprises:disconnecting said first cooling conductor and said cooling unit connector from each other; andconnecting between said current lead connector and said cooling unit connector. 15. The superconductor cooling method according to claim 13, wherein said first temperature is lower than said second temperature.
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