| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 61 | 진공함 연성이음장치 | KR1020060019959 | 2006-03-02 | KR1020070090346A | 2007-09-06 | 김창균 |
| A flexible coupler for a vacuum chamber is provided to maintain a constant contact pressure of a spring finger without forming layer by maintaining a tensile force on the spring finger by using a spring and to have small internal resistance in the path of electrical beam. A ring-like first flange(110) is connected to a first vacuum chamber. A ring-like first flange(120) is connected to a second vacuum chamber. A bellows(130) elastically couples the first flange with the second flange. A vacuum state is generated in the bellows. One end of a pipe-like inner tube(140) is coupled with an inner side of the first flange in a length direction. First ends of connecting bars(111), which are elongated in a length direction from the first flange to an interface between the inner tube and the bellows, are fixed on the first flange. A ring-like guide(112) is fixed at second ends of the connecting bars. A ring-like clamp(155) is arranged to move an outer periphery of the inner tube in a length direction along the connecting bar. The clamp is elastically supported to be apart from the guide. One end of a spring finger(150) is fixed on the second flange, while the other end thereof is coupled with a lower end of the clamp. The spring finger is slidingly contacted with a lower portion of the guide and an end portion of the inner tube by the clamp. | ||||||
| 62 | DISPOSITIF DE RACCORDEMENT ENTRE TRONÇONS D'ANNEAU DE SYNCHROTRON | EP17160419.2 | 2017-03-10 | EP3223591A1 | 2017-09-27 | GOIRAND, Loys; BROCHARD, Thierry; PASQUAUD, Joel |
L'invention concerne un dispositif de raccordement électrique entre deux tronçons successifs du conduit annulaire d'un synchrotron, comprenant : des première et deuxième pièces d'extrémité (32) adaptées à être fixées aux tronçons, chacune comportant une portion tubulaire (34) à facettes (40) ; des lames (44) élastiques et électriquement conductrices, dont chacune est en appui sur chacune des deux portions tubulaires, chaque appui étant à coulissement sur une desdites facettes ; et au moins un bras (48) en appui sur chaque lame, chaque bras étant solidaire de l'une des pièces d'extrémité.
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| 63 | Vorrichtung zur Verringerung der Erwärmung einer Vakuumkammer | EP11001598.9 | 2011-02-26 | EP2367404B1 | 2015-11-25 | Rossmanith, Robert, Dr.; Wollmann, Daniel, Dr.; Bernhard, Axel, Dr.; Peiffer, Peter |
| 64 | Atomic sensor physics package having optically transparent panes and external wedges | EP14167394.7 | 2014-05-07 | EP2829925A3 | 2015-04-08 | Schober, Christina Marie; Vescera, James A.; Strabley, Jennifer S. |
One embodiment is directed towards a physics package of an atomic sensor. The physics package includes a plurality of panes of optically transparent material enclosing a vacuum chamber and one or more wedges attached to an external surface of one or more of the panes. The physics package also includes at least one of a light source, photodetector, or mirror attached to the one or more wedges, the light source configured to generate an input light beam for the vacuum chamber, the photodetector configured to detect an output light beam from the vacuum chamber, and the mirror configured to reflect a light beam from the vacuum chamber back into the vacuum chamber, wherein the wedge is configured to orient such a light source, photodetector, or mirror such that a respective light beam corresponding thereto transmits through a corresponding pane at an acute angle with respect to the corresponding pane.
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| 65 | Vorrichtung zur Verringerung der Erwärmung einer Vakuumkammer | EP11001598.9 | 2011-02-26 | EP2367404A3 | 2014-02-26 | Rossmanith, Robert, Dr.; Wollmann, Daniel, Dr.; Bernhard, Axel, Dr.; Peiffer, Peter |
Die Erfindung betrifft eine Vorrichtung zur Verringerung der Erwärmung einer Vakuumkammer, die zur Aufnahme eines geladenen Teilchenstrahls 1, auf den ein von einem supraleitenden Magneten 2 ausgehendes Magnetfeld auftrifft, vorgesehen ist, umfassend eine Vielzahl von supraleitenden Streifen 3, 3',..., die zwischen dem geladenen Teilchenstrahl 1 und dem supraleitenden Magneten 2 angeordnet ist. Die Erfindung betrifft weiterhin eine Vakuumkammer, die mit einer derartigen Vorrichtung ausgestattet ist. Die erfindungsgemäße Vorrichtung ermöglicht die Verringerung der Erwärmung einer Vakuumkammer durch die weitgehende Vermeidung der Ausbildung von Spiegelströmen in der Wand der Vakuumkammer bzw. der Oberfläche des Magneten, wobei das Magnetfeld jedoch weitgehend ungehindert durch die Vielzahl der supraleitenden Streifen hindurchgeht, und eignet sich daher vor allem für den Einsatz in Vakuumkammern in Beschleunigern. |
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| 66 | ISOTOPE PRODUCTION SYSTEM AND CYCLOTRON HAVING A MAGNET YOKE WITH A PUMP ACCEPTANCE CAVITY | EP10719447.4 | 2010-04-16 | EP2428103A1 | 2012-03-14 | NORLING, Janas; ERIKSSON, Tomas |
| A cyclotron that includes a magnet assembly to produce a magnetic field to direct charged particles along a desired path. The cyclotron also includes a magnet yoke that has a yoke body that surrounds an acceleration chamber. The magnet assembly is located in the yoke body. The yoke body forms a pump acceptance (PA) cavity that is fluidicly coupled to the acceleration chamber. The cyclotron also includes a vacuum pump that is configured to introduce a vacuum into the acceleration chamber. The vacuum pump is positioned in the PA cavity. | ||||||
| 67 | Vorrichtung zur Verringerung der Erwärmung einer Vakuumkammer | EP11001598.9 | 2011-02-26 | EP2367404A2 | 2011-09-21 | Rossmanith, Robert, Dr.; Wollmann, Daniel, Dr.; Bernhard, Axel, Dr.; Peiffer, Peter |
Die Erfindung betrifft eine Vorrichtung zur Verringerung der Erwärmung einer Vakuumkammer, die zur Aufnahme eines geladenen Teilchenstrahls 1, auf den ein von einem supraleitenden Magneten 2 ausgehendes Magnetfeld auftrifft, vorgesehen ist, umfassend eine Vielzahl von supraleitenden Streifen 3, 3',..., die zwischen dem geladenen Teilchenstrahl 1 und dem supraleitenden Magneten 2 angeordnet ist. Die Erfindung betrifft weiterhin eine Vakuumkammer, die mit einer derartigen Vorrichtung ausgestattet ist. Die erfindungsgemäße Vorrichtung ermöglicht die Verringerung der Erwärmung einer Vakuumkammer durch die weitgehende Vermeidung der Ausbildung von Spiegelströmen in der Wand der Vakuumkammer bzw. der Oberfläche des Magneten, wobei das Magnetfeld jedoch weitgehend ungehindert durch die Vielzahl der supraleitenden Streifen hindurchgeht, und eignet sich daher vor allem für den Einsatz in Vakuumkammern in Beschleunigern. |
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| 68 | DISPOSITIF DE POMPAGE PAR GETTER NON EVAPORABLE ET PROCEDE DE MISE EN OEUVRE DE CE GETTER | EP97929213.0 | 1997-06-18 | EP0906635A1 | 1999-04-07 | BENVENUTI, Cristoforo |
| The invention discloses a pumping device by non-vaporisable getter to create a very high vacuum in a chamber defined by a metal wall capable of releasing gas at its surface, characterised in that it comprises a thin layer of non-vaporisable getter coated on at least almost the whole metal wall surface defining the chamber. | ||||||
| 69 | Ceramics-type vacuum vessel and a method of manufacturing thereof | EP92114778.1 | 1992-08-27 | EP0529665B1 | 1996-03-06 | Abe, Totsuya, c/o Naka Res. Lab. of JAPAN ATOMIC; Murakami, Yoshio, c/o Naka Res.Lab.of JAPAN ATOMIC; Takeuchi, Hisao, c/o Itami Works of Sumitomo; Yamakawa, Akira, c/o Itami Works of Sumitomo; Miyake, Masaya, c/o Itami Works of Sumitomo |
| 70 | Ceramics-type vacuum vessel and a method of manufacturing thereof | EP92114778.1 | 1992-08-27 | EP0529665A3 | 1993-06-16 | Abe, Totsuya, c/o Naka Res. Lab. of JAPAN ATOMIC; Murakami, Yoshio, c/o Naka Res.Lab.of JAPAN ATOMIC; Takeuchi, Hisao, c/o Itami Works of Sumitomo; Yamakawa, Akira, c/o Itami Works of Sumitomo; Miyake, Masaya, c/o Itami Works of Sumitomo |
A vacuum vessel is provided in which the main portion of a wall including an annular wall portion (1) and a plate-wall portion (2) is formed of ceramics such as silicon nitride. Because the generation of gas such as hydrogen is reduced from the wall of the ceramics vessel, extremely high vacuum can be generated in the interior of the vacuum vessel. Also, because the wall of the vacuum vessel has a high permeability with respect to a magnetic field and an electric field, the vacuum vessel can he applied to a particle accelerator as a vessel that can control in high precision charged particles therein with an electromagnetic field. |
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| 71 | Ceramics-type vacuum vessel and a method of manufacturing thereof | EP92114778.1 | 1992-08-27 | EP0529665A2 | 1993-03-03 | Abe, Totsuya, c/o Naka Res. Lab. of JAPAN ATOMIC; Murakami, Yoshio, c/o Naka Res.Lab.of JAPAN ATOMIC; Takeuchi, Hisao, c/o Itami Works of Sumitomo; Yamakawa, Akira, c/o Itami Works of Sumitomo; Miyake, Masaya, c/o Itami Works of Sumitomo |
A vacuum vessel is provided in which the main portion of a wall including an annular wall portion (1) and a plate-wall portion (2) is formed of ceramics such as silicon nitride. Because the generation of gas such as hydrogen is reduced from the wall of the ceramics vessel, extremely high vacuum can be generated in the interior of the vacuum vessel. Also, because the wall of the vacuum vessel has a high permeability with respect to a magnetic field and an electric field, the vacuum vessel can he applied to a particle accelerator as a vessel that can control in high precision charged particles therein with an electromagnetic field. |
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| 72 | Accelerator vacuum pipe | EP90308916.7 | 1990-08-14 | EP0426277A3 | 1991-12-04 | Kazunori, Ikegami, c/o Mitsubishi Denki K.K. |
An accelerator vacuum pipe for a charged-particle acceleration and storage system having a vacuum zone defined therein is provided with a layer of getter material which can capture residual or generated gas molecules-in the pipe-member. The layer of getter material is disposed over the entire inner wall of the vacuum pipe in at least a deflection zone where the charged-particles are deflected. |
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| 73 | 게터 장착형 진공용기 | KR1020120149713 | 2012-12-20 | KR101384692B1 | 2014-04-14 | 박종도; 하태균; 홍만수 |
| Disclosed is a getter-mounted vacuum vessel capable of improving vacuum efficiency and supporting a getter with a simple structure. The getter-mounted vacuum vessel according to the present invention includes a body with a hollow part and a getter receiving unit which is integrated with the body, connected to the hollow part, and receives the getter so that it comes into contact with the inner wall of the body. Heat is transmitted to the body by a heating element in contact with the body. The getter is heated by the heat conducted to the body. | ||||||
| 74 | 이동형 전자 가속장치 | KR2020090011189 | 2009-08-27 | KR2020110002186U | 2011-03-07 | 김성면; 강원구; 김진규; 한범수; 박흥규; 국승한; 김유리 |
| 본 고안은 컨테이너(20)의 천정에 개폐구멍(21a)이 뚫려지고, 슬라이딩뚜껑(21b)이 천정레일(21c)을 따라 슬라이딩되면서 개폐구멍(21a)을 개폐시킬 수 있도록 하여, 방사선 차폐룸(30) 위에 고전압 발생기(50)를 위치시키면서 조립하거나 분해하는 작업을 매우 편리하게 할 수 있으며, 고압용기(51)의 돌출편(51c) 및 컨테이너(20)에 고정되어 수평방향으로 배치된 빔(70)을 따라 캡레일(71)을 고정시키고, 캡롤러(72)에 고정된 이동판(73)에 캡(52)의 얹힘판(52b)이 올려지도록 함과 동시에 스크류(62)로서 수직구멍(52c) 및 수직나사홈(74)에 체결하여, 캡(52)을 캡레일(71)을 따라 밀거나 끌 수 있도록 함으로써 고압용기(51)와 캡(52) 상호간의 조립 및 분해를 더욱 편리하게 할 수 있는 이동형 전자 가속장치용 고전압 발생기 및 컨테이너 개폐 구조에 관한 것이다. 트레일러, 메인 트레일러, 서브 트레일러, 컨테이너, 메인 컨테이너, 서브 컨테이너, 고전압 발생기, 빔 출사기, 반응조, 고압용기, 캡, 빔, 캡레일, 캡롤러, 이동판 | ||||||
| 75 | 이온빔 다중실험장치 | KR1020060014482 | 2006-02-15 | KR1020070082125A | 2007-08-21 | 이민용; 채종서; 허민구; 홍봉환; 김유석; 장홍석; 양태건; 김정환; 홍성석; 안동현; 정인수; 황원택; 강준선 |
| A multi-experimental apparatus using an ion beam is provided to perform various tests rapidly by switching between an ion beam test under vacuum state and an ion beam test in atmospheric state through a mechanical device. A multi-experimental apparatus using an ion beam includes an ion beam tube(110) to allow the ion beam to pass through, a vacuum chamber(120) connected to an end of the ion beam via an entrance(121) and maintaining a vacuum state, and an external sample mounting unit(150) to project the ion beam discharged from the vacuum chamber(120) to a sample(131) and installed outside the vacuum chamber(120) to mount an external sample(151). The ion beam tube(110) includes a passage(111) to allow the ion beam to pass through, an aluminum film(112), and a collimator(113). The vacuum chamber(120) includes a vacuum forming space(125), the entrance(121) to allow the ion beam passed through the ion beam tube(110) to enter the vacuum forming space(125), and a discharge unit(122) positioned on a traveling path of the ion beam to discharge the entered ion beam. | ||||||
| 76 | 진공 가속기 빔라인의 각가변장치 | KR2019960056044 | 1996-12-24 | KR2019980042938U | 1998-09-25 | 류근걸; 김동수; 강성건; 이성호 |
| 본고안은전자가속기에서발생하는 X-선을이용하기위하여저장링에서사용지점까지유도이용하기위한빔라인의개선된설계에관한것이다. 본고안은대기중을통하여진행하는 X-선의각을변경시키는기존기술의단점을보완하여진공을그대로유지하면서 X-선의진행각을변경시킬수 있도록하는것에주안점을둔 것으로, 이를위해본 고안은진공챔버(5)를그 각도변화가가능하게고니오미터(1)상에결합설치하고, 상기진공챔버(5) 양단에는고진공을유지하면서이 진공챔버(5)의각도변화를수용할수 있는벨로즈(4)를설치하며, 진공챔버(5)내에는이 챔버내를통과하는 X-선에대하여진행각도변화를줄 수있는초격자박막재료로된 모노크로미터(3) 및이 모노크로미터(3)로부터의열을방열시키기위한구리냉각블럭(2)을설치하여서된 진공가속기빔라인의각가변환장치를제공한다. | ||||||
| 77 | 닥트 보강 수단 | KR1020140089550 | 2014-07-16 | KR1020160009282A | 2016-01-26 | 이춘성 |
| 본발명은닥트보강수단에관한것으로, 닥트의강도를보강하기위한닥트보강수단에있어서, 상기닥트(100) 외주면에돌출부(10)와평면링(20)이결합되는것으로, 따라서본발명은닥트외주연에결합되는평면링에의해닥트의강도가커지고외력에대한저항력이증가되어수명이오래가고튼튼하다는현저한효과가있다. | ||||||
| 78 | 사이클로트론 및 동위원소 생산 시스템 | KR1020117026270 | 2010-04-16 | KR101196602B1 | 2012-11-02 | 놀링요나스; 에릭슨토마스 |
| 사이클로트론은, 자기장을 생성하여 대전 입자를 희망 경로를 따라 인도하는 자석 조립체를 포함한다. 사이클로트론은 또한 가속 챔버를 둘러싸는 요크 본체를 구비하는 자석 요크를 포함한다. 자석 조립체는 요크 본체 내에 위치된다. 요크 본체는 가속 챔버에 유체 연통된 펌프 수용(PA) 공동을 형성한다. 사이클로트론은 또한 가속 챔버 내에 진공을 도입하도록 구성된 진공 펌프를 포함한다. 진공 펌프는 PA 공동 내에 위치된다.
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| 79 | Plasma generation apparatus and generation method of the same | KR20100113220 | 2010-11-15 | KR101148082B1 | 2012-05-24 | YOU SHIN JAE; KIM JUNG HYUNG; KIM DAE WOONG; SEONG DAE JIN; SHIN YONG HYEON |
| PURPOSE: An apparatus for generating plasma and a method thereof are provided to supply a small vacuum chamber using atmospheric pressure plasma by using metal tunneling of an electronic beam. CONSTITUTION: An apparatus for generating plasma includes a vacuum container(110) and an electron emission unit(120) generating electronics inside the vacuum container. The apparatus for generating plasma includes an acceleration part(130) accelerating an emitted electronics in the electron emission unit inside the vacuum container and a metal foil(140) tunneling accelerated electronics. The electronics tunneling the metal foil forms plasma outside the vacuum container. The vacuum container is able to be formed into metal or a dielectric. | ||||||
| 80 | 실리콘 카바이드 나노분말 합성장치 | KR1020080029196 | 2008-03-28 | KR1020090103530A | 2009-10-01 | 이재휘; 김명찬; 김성훈; 유인근; 조승연 |
| PURPOSE: An apparatus for synthesizing silicon carbide nanopowder is provided to fast-cool the surface of the nanoparticles during the synthesizing process of silicon carbide nanopowder with the help of a cooling gas supplier in order to prevent the generation of high-temperature surface heat. CONSTITUTION: An apparatus(10) for synthesizing silicon carbide nanopowder comprises a synthesizing vessel(100), plasma torch(300), precursor gas supplier(400), a pair of cooling gas suppliers(500), carbon electrode(600), and vacuum pump(200). The synthesizing vessel has an opened space inside. The plasma torch generates the plasma within the synthesizing vessel. The precursor gas supplier supplies a liquid silicone-carbide compound carried by a carrier gas into the synthesizing vessel. The cooling gas suppliers supply the cooling gas from the both ends of the precursor gas supplier at constant angle to the center line of the synthesizing vessel. The carbon electrode is used as a plasma electrode. The vacuum pump discharges the silicon carbide nanopowder as well as other materials as a form of exhaust gas. | ||||||
