IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0131486
(2009-11-19)
|
등록번호 |
US-8755166
(2014-06-17)
|
우선권정보 |
JP-2008-307990 (2008-12-02); JP-2008-307991 (2008-12-02); JP-2008-307992 (2008-12-02); JP-2008-325274 (2008-12-22) |
국제출원번호 |
PCT/JP2009/069624
(2009-11-19)
|
§371/§102 date |
20110526
(20110526)
|
국제공개번호 |
WO2010/064543
(2010-06-10)
|
발명자
/ 주소 |
- Takahashi, Eiichi
- Fukai, Toshimasa
- Tatsumi, Toshinori
- Nishikiori, Yuichi
- Kitakizaki, Kaoru
- Tanimizu, Toru
|
출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
0 인용 특허 :
12 |
초록
▼
A vacuum capacitor includes a fixed electrode, a movable electrode, a movable electrode shaft, a magnetic flux receiving unit, a magnetic flux generating unit and a capacitance control unit. The fixed electrode is formed from a plurality of electrode members in a vacuum casing. The movable electrode
A vacuum capacitor includes a fixed electrode, a movable electrode, a movable electrode shaft, a magnetic flux receiving unit, a magnetic flux generating unit and a capacitance control unit. The fixed electrode is formed from a plurality of electrode members in a vacuum casing. The movable electrode is formed from a plurality of electrode members arranged in gaps formed between the electrode members of the fixed electrode in the vacuum casing. The movable electrode shaft supports the movable electrode. Capacitance appearing between the movable electrode and the fixed electrode is varied by rotation of the movable electrode shaft. The magnetic flux receiving unit rotates the movable electrode shaft in the vacuum casing. The magnetic flux generating unit is located outside the vacuum casing and rotates the magnetic flux receiving unit by magnetic attraction. The capacitance control unit rotates the magnetic flux generating unit.
대표청구항
▼
1. A vacuum capacitor comprising: a fixed electrode that is formed from a plurality of electrode members in a vacuum casing;a movable electrode that is formed from a plurality of electrode members arranged in gaps formed between the electrode members of the fixed electrode in the vacuum casing;a mov
1. A vacuum capacitor comprising: a fixed electrode that is formed from a plurality of electrode members in a vacuum casing;a movable electrode that is formed from a plurality of electrode members arranged in gaps formed between the electrode members of the fixed electrode in the vacuum casing;a movable electrode shaft that supports the movable electrode, capacitance appearing between the movable electrode and the fixed electrode being varied by rotation of the movable electrode shaft;a magnetic flux receiving unit that rotates the movable electrode shaft in the vacuum casing;a magnetic flux generating unit that is located outside the vacuum casing and rotates the magnetic flux receiving unit by magnetic attraction; anda capacitance control unit that rotates the magnetic flux generating unit. 2. The vacuum capacitor as claimed in claim 1, further comprising: a supporting portion that is provided at either one side of the movable electrode shaft and a vacuum casing inner wall facing the movable electrode shaft and supports the other side at one point. 3. The vacuum capacitor as claimed in claim 1, further comprising: a forcing part that is provided at a portion of an inner wall of the vacuum casing which faces one end portion of the movable electrode shaft, and is a partition that covers and seals a penetration hole formed at the portion, and supports the one end portion of the movable electrode shaft while forcing the movable electrode shaft in a direction of the other end portion of the movable electrode shaft. 4. The vacuum capacitor as claimed in claim 3, wherein: the forcing part is a diaphragm. 5. The vacuum capacitor as claimed in claim 3, further comprising: a supporting portion that is formed at a contact portion of either one side of the movable electrode shaft and the forcing part facing the movable electrode shaft and supports the other side at one point. 6. The vacuum capacitor as claimed in claim 1, wherein: either one of the movable electrode shaft and a vacuum chamber inner wall that faces the movable electrode shaft is formed from an insulator at a contact portion between the movable electrode shaft and the vacuum chamber inner wall. 7. The vacuum capacitor as claimed in claim 6, wherein: at least the contact portion of the movable electrode shaft with the vacuum chamber inner wall is formed from the insulator. 8. The vacuum capacitor as claimed in claim 7, wherein: the insulator is made of ceramics whose percentage content of alumina is 92% or more. 9. The vacuum capacitor as claimed in claim 1, wherein: the magnetic flux receiving unit and the magnetic flux generating unit are arranged in a same line direction orthogonal to the movable electrode shaft. 10. The vacuum capacitor as claimed in claim 1, wherein: the capacitance control unit has a plurality of magnetic flux generating units, and the plurality of magnetic flux generating units are arranged at regular intervals along a circumferential direction. 11. The vacuum capacitor as claimed in claim 1, wherein: each area of the electrode members is smaller than an area in a cross-section direction of an inside of the vacuum casing, andby the rotation of the movable electrode shaft which is within one revolution, the capacitance is variable within a range from a minimum capacitance value to a maximum capacitance value. 12. A vacuum capacitor comprising: a vacuum casing formed by closing both opening end sides of an insulation tube body by respective seal members;a fixed electrode formed by arranging a plurality of flat electrode members in layers at a certain distance in an axial direction of the vacuum casing in the vacuum casing;a movable electrode formed by arranging a plurality of flat electrode members in layers at a certain distance in the axial direction of the vacuum casing in the vacuum casing, and fixed to a movable electrode shaft that extends in the axial direction of the vacuum casing and is rotatably supported in the vacuum casing, and by rotation of the movable electrode shaft, each electrode member of the movable electrode being inserted into and extracted from a gap between the electrode members of the fixed electrode and alternately overlapping the electrode member of the fixed electrode with each electrode member of the movable electrode in noncontact with the electrode members of the fixed electrode;a magnetic flux receiving unit fixed to the movable electrode shaft in the vacuum casing and receiving magnetic flux from the outside of the vacuum casing through a seal member; anda capacitance control unit having a magnetic flux generating unit that generates the magnetic flux and rotatably supported outside a seal member, andby rotating the capacitance control unit also rotating the magnetic flux receiving unit by magnetic attraction of the magnetic flux, an overlap area of the movable electrode with respect to the fixed electrode being changed, and capacitance being adjustable. 13. The vacuum capacitor as claimed in claim 12, further comprising: a supporting portion provided at either one side of the movable electrode shaft and a vacuum casing inner wall that faces the movable electrode shaft and supporting the other side at one point. 14. The vacuum capacitor as claimed in claim 12, further comprising: a forcing part provided at a portion of an inner wall of the vacuum casing which faces one end portion of the movable electrode shaft, and being a partition that covers and seals a penetration hole formed at the portion, and supporting the one end portion of the movable electrode shaft while forcing the movable electrode shaft in a direction of the other end portion of the movable electrode shaft. 15. The vacuum capacitor as claimed in claim 14, wherein: the forcing part is a diaphragm. 16. The vacuum capacitor as claimed in claim 14, further comprising: a supporting portion that is formed at a contact portion of either one side of the movable electrode shaft and the forcing part facing the movable electrode shaft and supports the other side at one point. 17. The vacuum capacitor as claimed in claim 12, wherein: either one of the movable electrode shaft and a vacuum chamber inner wall that faces the movable electrode shaft is formed from an insulator at a contact portion between the movable electrode shaft and the vacuum chamber inner wall. 18. The vacuum capacitor as claimed in claim 17, wherein: at least the contact portion of the movable electrode shaft with the vacuum chamber inner wall is formed from the insulator. 19. The vacuum capacitor as claimed in claim 18, wherein: the insulator is made of ceramics whose percentage content of alumina is 92% or more. 20. The vacuum capacitor as claimed in claim 12, wherein: the magnetic flux receiving unit and the magnetic flux generating unit are arranged in a same line direction orthogonal to the movable electrode shaft. 21. The vacuum capacitor as claimed in claim 12, wherein: the capacitance control unit has a plurality of magnetic flux generating units, and the plurality of magnetic flux generating units are arranged at regular intervals along a circumferential direction. 22. The vacuum capacitor as claimed in claim 12, wherein: each area of the electrode members is smaller than an area in a cross-section direction of an inside of the vacuum casing, andby the rotation of the movable electrode shaft which is within one revolution, the capacitance is variable within a range from a minimum capacitance value to a maximum capacitance value.
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