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1. 发明专利

JP2008215783A Cryogenic refrigerating machine and cryogenic refrigerating method 审中-公开
标题翻译：低温制冷机和低温制冷方法
公开(公告)号：JP2008215783A
公开(公告)日：2008-09-18
申请号：JP2007058004
申请日：2007-03-08
申请人： Toshiba Aitekku Kk , Toshiba Corp , 東芝アイテック株式会社 , 株式会社東芝
发明人： OTANI YASUMI , OSEMOCHI KOICHI , TAKAHASHI MASAHIKO , ONO MICHITAKA , KURIYAMA TORU , SASAKI TAKASHI , URATA MASAMI , NAKAYAMA SHIGEO
IPC分类号： F25B9/14
CPC分类号： F25B9/10
摘要： PROBLEM TO BE SOLVED: To provide a cryogenic refrigerating machine having a pre-cooling means and capable of enhancing the refrigerating efficiency by setting the expanding pressure to be equal to or lower than the critical pressure of the refrigerant.
SOLUTION: The cryogenic refrigerating machine is a GM refrigerating machine 16 which includes a high-compression compressor 10 for compressing the refrigerant, and a cold storage container 6 filled with a two-stage cold storage material 2a and a one-stage cold storage material 2b with the compressed refrigerant passing therethrough and reciprocating in a cylinder 5. The cryogenic refrigerating machine comprises at least one pre-cooling GM refrigerating machine 20 provided on a side of the cold storage container 6 for performing the pre-cooling, a pressure adjusting means for adjusting the expanding pressure of the refrigerant in the high-pressure compressor 10 to be equal to or lower than the critical pressure of the refrigerant, and a heat exchange means 19 provided on a bottom in a cooling stage 1 of the final stage of the GM refrigerating machine 16, performing the heat exchange with the refrigerant including a liquid generated when the refrigerant is expanded.
COPYRIGHT: (C)2008,JPO&INPIT
摘要翻译：解决的问题：提供一种具有预冷装置的低温制冷机，能够通过将膨胀压力设定在制冷剂的临界压力以下来提高制冷效率。解决方案：低温制冷机是一种GM制冷机16，其包括用于压缩制冷剂的高压缩压缩机10和填充有两级冷藏材料2a和一级冷的冷藏容器6 存储材料2b与压缩的制冷剂通过并在气缸5中往复运动。低温制冷机包括至少一个设在冷藏容器6一侧的预冷GM GM冷冻机20，用于进行预冷却，用于将高压压缩机10中的制冷剂的膨胀压力调节至等于或低于制冷剂的临界压力的调节装置，以及设置在最终级的冷却级1的底部的热交换装置19 与制冷剂膨胀时产生的液体的制冷剂进行热交换。版权所有（C）2008，JPO＆INPIT

2. 发明专利

JP2011141074A Cryogenic refrigerator 有权
标题翻译：低温冷冻机
公开(公告)号：JP2011141074A
公开(公告)日：2011-07-21
申请号：JP2010001518
申请日：2010-01-06
申请人： Toshiba Corp , 株式会社東芝
发明人： OTANI YASUMI , TOSAKA TAIZO , SASAKI TAKASHI
IPC分类号： F25B9/00
摘要： PROBLEM TO BE SOLVED: To provide a cryogenic refrigerator that improves precooling properties by shortening precooling time, simplifying handleability, and preventing the deterioration or the like due to thermal strain, to the utmost extent with a single refrigerator.
SOLUTION: The cryogenic refrigerator supplies a refrigerant the pressure of which is raised by a compressor 18 into a coldhead 11 and expands the refrigerant to generate frigidness, and again transfers the refrigerant that have been expanded in the coldhead 11 to the compressor 18 to raise the pressure of the refrigerant. The cryogenic refrigerator includes: a bypass pipe 27 that connects a high-pressure pipe 20, into which the refrigerant pressurized by the compressor 18 is supplied, with a low-pressure pipe 19, with which the refrigerant introduced from the outside of a compressor unit 17 is provided to the compressor 18; a pressure regulating valve 26 that regulates at least one inner pressure of pipes of the high-pressure pipe 20 and the low-pressure pipe 19, and is provided in the bypass pipe 27; an outlet 38 for taking out the refrigerant in the bypass pipe 27 to the outside of the compressor unit 17; an inlet 37 for introducing the refrigerant from the outside of the compressor unit 17 to the inside of the compressor unit 17.
COPYRIGHT: (C)2011,JPO&INPIT
摘要翻译：要解决的问题：提供一种低温冰箱，通过缩短预冷时间，简化操作性，并且通过单个冰箱在最大程度上防止由于热应变引起的劣化等而提高预冷性能。解决方案：低温冰箱将压缩机18的压力升压到冷头11中并使制冷剂膨胀以产生冷冻，并将已经在冷头11中膨胀的制冷剂传送到压缩机18中的制冷剂以提高制冷剂的压力。低温冷冻机包括：将由供给压缩机18加压的制冷剂的高压管20与压缩机单元的外部导入的制冷剂与低压管19连接的旁通管27， 17设置到压缩机18; 调节高压管20和低压管19的管内部压力的压力调节阀26，设置在旁通管27中; 用于将旁通管27中的制冷剂取出到压缩机单元17的外部的出口38; 用于将制冷剂从压缩机单元17的外部引入压缩机单元17的内部的入口37.版权所有（C）2011，JPO＆INPIT

3. 发明专利

JP2009246232A Cooling device, and superconducting device 有权
标题翻译：冷却装置和超导装置
公开(公告)号：JP2009246232A
公开(公告)日：2009-10-22
申请号：JP2008092805
申请日：2008-03-31
申请人： Toshiba Corp , 株式会社東芝
发明人： YAZAWA TAKASHI , TAKAHASHI MASAHIKO , OTANI YASUMI , URATA MASAMI
IPC分类号： H01L39/04
摘要： PROBLEM TO BE SOLVED: To easily reduce a time for initially cooling a coolant from a boiling point condition to a sub-cool condition, and to prevent increase of a thermal load on the coolant. SOLUTION: This cooling device includes: a coolant vessel 12 for storing the coolant 11 therein; a heat insulation vessel 13 surrounding the coolant vessel; an injection pipe 14 for injecting the coolant into the coolant vessel; a discharge pipe 15 for discharging an evaporative gas 23 of the coolant evaporated in the coolant vessel into the atmosphere; and a pressurization pipe 16 used for pressurizing a gas 24 different from the coolant to be supplied into the coolant vessel, and having a supply port 22 positioned above the liquid level S of the coolant in the coolant vessel. COPYRIGHT: (C)2010,JPO&INPIT
摘要翻译：要解决的问题：为了容易地减少初始冷却冷却剂从沸点条件到次冷条件的时间，并且防止冷却剂上的热负荷增加。解决方案：该冷却装置包括：用于将冷却剂11储存在其中的冷却剂容器12; 围绕冷却剂容器的隔热容器13; 用于将冷却剂注入到冷却剂容器中的注入管14; 排出管15，用于将在冷却剂容器中蒸发的冷却剂的蒸发气体23排放到大气中; 以及加压管16，用于对不同于供给冷却剂容器的冷却剂的气体24进行加压，并且具有位于冷却剂容器内的冷却剂的液面S的上方的供给口22。版权所有（C）2010，JPO＆INPIT

4. 发明专利

JP2007273740A Superconducting apparatus 有权
标题翻译：超级设备
公开(公告)号：JP2007273740A
公开(公告)日：2007-10-18
申请号：JP2006097813
申请日：2006-03-31
申请人： Toshiba Corp , 株式会社東芝
发明人： YAZAWA TAKASHI , OTANI YASUMI , URATA MASAMI , KYODO MAKOTO
IPC分类号： H01L39/04 , H01F6/04 , H01F6/06
摘要： PROBLEM TO BE SOLVED: To provide a superconducting apparatus ensuring higher bubble-eliminating function, reducing the thickness of the vessel composition, preventing reduction in insulation resistance and dielectric breakdown, and realizing a compact structure and reduction in weight. SOLUTION: As the bubble eliminating means for eliminating bubbles (a) generated with heat generated, when a superconducting material 11 is converted into a normal conducting material, a vessel formed of a porous material or a vessel, opening in the lower direction arranged at the upper part of a superconducting material within a coolant, is provided within or in the external side of the vessel. COPYRIGHT: (C)2008,JPO&INPIT
摘要翻译：要解决的问题：提供一种确保更高的气泡消除功能的超导装置，减小容器组成的厚度，防止绝缘电阻和绝缘击穿的降低，并且实现紧凑的结构和减轻重量。解决方案：作为用于消除产生的产生的气泡（a）的气泡消除装置，当超导材料11转换成正常导电材料时，由多孔材料或容器形成的容器，沿下方开口布置在冷却剂内的超导材料的上部，设置在容器的外侧或外侧。版权所有（C）2008，JPO＆INPIT

5. 发明专利

JP2007236108A Superconducting current limiting device and power system 有权
标题翻译：超导电流限制器件和电源系统
公开(公告)号：JP2007236108A
公开(公告)日：2007-09-13
申请号：JP2006054804
申请日：2006-03-01
申请人： Toshiba Corp , 株式会社東芝
发明人： YAZAWA TAKASHI , OTANI YASUMI , URATA MASAMI , SUGAWARA RYOICHI
IPC分类号： H02H9/02 , H01F6/06
CPC分类号： Y02E40/69
摘要： PROBLEM TO BE SOLVED: To provide a superconducting current limiting device and a power system capable of effectively inhibiting a voltage sag by generating sufficient resistance even in the event of a small voltage sag in the power system. SOLUTION: This superconducting current limiting device includes: a superconducting current limiter 4 provided with a superconducting element and connected to an interconnecting line for interconnecting two power systems 1, 2; a detector 5 for detecting a voltage drop in the interconnecting line; a control device 6 for receiving a detection signal from the detector 5, and outputting an operation signal when the voltage drop in the tie line is greater than a set value; a resistance generation increasing circuit 8 for increasing the resistance value of the superconducting current limiter 4; and a switch 7 for receiving the operation signal, and operating the resistance generation increasing circuit 8. COPYRIGHT: (C)2007,JPO&INPIT
摘要翻译：要解决的问题：提供一种超导限流装置和能够有效地抑制电压骤降的电力系统，即使在电力系统中的电压骤降小的情况下也产生足够的电阻。该超导电流限制装置包括：超导限流器4，其设置有超导元件并连接到用于互连两个电力系统1,2的互连线; 用于检测互连线中的电压降的检测器5; 控制装置6，用于从检测器5接收检测信号，当连线中的电压降大于设定值时，输出操作信号; 用于增加超导限流器4的电阻值的电阻产生增加电路8; 以及用于接收操作信号的开关7，以及操作电阻产生增加电路8.版权所有（C）2007，JPO＆INPIT

6. 发明专利

JP2004301773A Nmr probe 有权
标题翻译： NMR探针
公开(公告)号：JP2004301773A
公开(公告)日：2004-10-28
申请号：JP2003097327
申请日：2003-03-31
申请人： Institute Of Physical & Chemical Research , Toshiba Corp , 株式会社東芝 , 独立行政法人理化学研究所
发明人： MAEDA HIDEAKI , YOKOYAMA SHIGEYUKI , OTANI YASUMI , TAKAHASHI MASAHIKO , KURIYAMA TORU
IPC分类号： G01R33/32 , F25B9/02
摘要： PROBLEM TO BE SOLVED: To obtain higher NMR sensitivity for an NMR probe, by realizing higher freezing efficiency and stably maintaining the RF coil over a long period.
SOLUTION: The NMR probe is constituted of a GM/JT refrigerator unit 39, a probe head 41 in which an RF coil 27 as a cooled body is contained, and an insulation pipe 40 connecting the two, and a first JT valve 4 of the refrigerator unit 39 is arranged adjacent to a GM refrigerator 18 for pre-cooling in the unit 39. A second JT valve 5 is attached upstream of the RF coil 27 of the probe head 41. The expansion pressure of the first JT valve 4 is set at super-critical pressure or higher, and the coolant is made super-critical pressure helium so that pressure loss in the insulation pipe 40 is reduced and gas/liquid separation in the insulation pipe 40 is prevented. Furthermore, the expansion pressure of the second JT valve 5 is set below the super-critical pressure and helium mist of the gas-liquid mixture is generated so that the latent heat of the mist is utilized, to cool the RF coil 27 as the cooled body, to 4 to 5 Kelvin.
COPYRIGHT: (C)2005,JPO&NCIPI
摘要翻译：解决问题：通过实现更高的冷冻效率和长期稳定地维持RF线圈，为了获得NMR探针的更高的NMR灵敏度。解决方案：NMR探头由GM / JT冰箱单元39，其中容纳有作为冷却体的RF线圈27的探头41和连接两者的绝缘管40和第一JT阀冰箱单元39的4被布置成与用于在单元39中预冷却的GM冷冻机18相邻。第二JT阀5附接在探头41的RF线圈27的上游。第一JT阀的膨胀压力 4设定为超临界压力以上，冷却剂成为超临界压力氦，使得绝缘管40中的压力损失降低，并且防止了绝缘管40中的气/液分离。此外，第二JT阀5的膨胀压力设定在超临界压力以下，产生气液混合物的氦雾，使得利用雾气的潜热，冷却作为冷却的身体，以4至5开尔文。版权所有（C）2005，JPO＆NCIPI

7. 发明专利

JP2015052426A 冷凍機有权
标题翻译：冷冻机
公开(公告)号：JP2015052426A
公开(公告)日：2015-03-19
申请号：JP2013185607
申请日：2013-09-06
申请人：株式会社東芝 , Toshiba Corp
发明人： OGAWA TAKANARI , OTANI YASUMI , FUJII HIDENORI
IPC分类号： F25B9/14
摘要：【課題】実施形態は、冷凍機全体のエネルギー損失を小さくすることができ、運転効率の向上が図れる冷凍機を提供することである。【解決手段】蓄冷器を介して一端側に高温側の圧縮部、他端側に低温側の膨張部が配設されるスターリングサイクルの冷凍機である。シリンダ7a内に配設され、作動媒体を駆動する圧縮膨張兼用ピストン7bの一面側を圧縮器7c、その裏面側を膨張器7dとして機能させる圧縮膨張兼用部7を前記圧縮部5と前記膨張部6との間に配設させた。【選択図】図2
摘要翻译：要解决的问题：提供一种能够降低整个冷冻机的能量损失并且提高运行效率的冷冻机。解决方案：冷冻机是一端的斯特林循环，其高温侧压缩部分设置在另一侧，低温侧膨胀部分经由冷冻器设置。压缩/膨胀组合部分7，其中布置在气缸7a中以致动操作介质的压缩/膨胀组合活塞7b的一个表面侧用作压缩机7c，并且其后表面侧用作膨胀器7d，压缩机部件5和膨胀部件6。

8. 发明专利

JP2011201712A Method for producing oriented oxide film, oriented oxide film, and oxide superconductor 审中-公开
标题翻译：用于生产定向氧化膜，方位氧化膜和氧化物超导体的方法
公开(公告)号：JP2011201712A
公开(公告)日：2011-10-13
申请号：JP2010068933
申请日：2010-03-24
申请人： Toshiba Corp , 株式会社東芝
发明人： ARAKI TAKESHI , KURUSU TSUTOMU , TAZAKI KENJI , SHIMADA KAZUTO , OTANI YASUMI , HAYASHI MARIKO
IPC分类号： C01G3/00 , C01G1/00 , H01B12/06 , H01B13/00
CPC分类号： Y02E40/642
摘要： PROBLEM TO BE SOLVED: To provide an oriented oxide film that is formed on an optional substrate and excellently oriented from the substrate to the thickness direction by a region within 1,750 nm.SOLUTION: There is provided a method for producing oriented oxide film, wherein a thin film of an oxide precursor containing fluorine is formed on a substrate, the substrate is placed in a heating furnace, and heat treatment is performed while applying a magnetic field under gas atmosphere containing humidified oxygen.
摘要翻译：要解决的问题：提供一种定向氧化膜，其形成在任选的基板上，并且从基板到厚度方向优选地在1750nm以内的区域。解决方案：提供了一种制备取向氧化膜的方法，其中在基板上形成含有氟的氧化物前体的薄膜，将基板放置在加热炉中，在含有加湿氧气的气氛下施加磁场的同时进行热处理。

9. 发明专利

JP2009103412A Regeneration type refrigerator 有权
标题翻译：再生式制冷机
公开(公告)号：JP2009103412A
公开(公告)日：2009-05-14
申请号：JP2007278086
申请日：2007-10-25
申请人： Toshiba Corp , 株式会社東芝
发明人： OTANI YASUMI , KURIYAMA TORU
IPC分类号： F25B9/00 , F28D20/00
CPC分类号： Y02E60/142
摘要： PROBLEM TO BE SOLVED: To provide a regeneration type refrigerator having a high refrigeration capacity by using a spherical regeneration material and improving a filling factor of the regeneration material filled in a cold accumulator. SOLUTION: The regeneration type refrigerator 10 is provided with a first cold accumulator 30 and a second cold accumulator 40. Small grain size group regeneration materials 43a and large grain size group regeneration materials 43b formed of the same materials are filled in a space in the second cold accumulator 40, a ratio of the average grain size of the large grain size group regeneration material 43b to the average grain size of the small grain size group regeneration material 43a is five or smaller, and porosity in the space filled with the small grain size group regeneration materials 43a and the large grain size group regeneration materials 43b is 30% or lower. COPYRIGHT: (C)2009,JPO&INPIT
摘要翻译：解决的问题：通过使用球形再生材料并提高填充在蓄冷器中的再生材料的填充率来提供具有高制冷能力的再生型制冷机。解决方案：再生式冰箱10设置有第一冷库30和第二蓄冷器40.由相同材料形成的小粒径组再生材料43a和大粒径组再生材料43b填充在空间在第二蓄冷器40中，大粒径群再生材料43b的平均粒径与小粒径群再生材料43a的平均粒径的比例为5以下，填充有小粒径组再生材料43a和大粒径组再生材料43b为30％以下。版权所有（C）2009，JPO＆INPIT

10. 发明专利

JP2008224062A Cold storage type refrigerator, condenser, and cold storage type refrigerating method 有权
标题翻译：冷藏式冷冻机，冷凝器和冷藏式制冷方法
公开(公告)号：JP2008224062A
公开(公告)日：2008-09-25
申请号：JP2007059200
申请日：2007-03-08
申请人： Toshiba Corp , 株式会社東芝
发明人： OTANI YASUMI , TAKAHASHI MASAHIKO , ONO MICHITAKA , KURIYAMA TORU , OGUCHI YOSHIHIRO , NOMURA SHIYUNJI
IPC分类号： F25B9/00 , F25B9/14
CPC分类号： F25D19/006
摘要： PROBLEM TO BE SOLVED: To solve the problem that conventional technology for suppressing temperature vibration due to a refrigerating cycle cannot take advantage of a minimum value for a temperature under the temperature vibration.
SOLUTION: On a first cooling stage 6 at the lower end of a cold bed 2, a condenser 14 is arranged in connection therewith, which consists of a refrigerant condensing part 11 formed of a heat conductor, a cylinder 2 formed of a heat insulating material, and a refrigerant evaporating part 13 formed of a heat conductor. Into an air sealing chamber 14 in the condenser 15, pressure refrigerant is filled whose boiling point falls in the amplitude range of the temperature vibration of the first cooling stage 6 due to the cold head 2. At a low temperature under the temperature vibration of the first cooling stage 6, the refrigerant is liquefied by the refrigerant condensing part 11 and falls down to the refrigerant evaporating part 13 to cool a second cooling stage 7. At a high temperature under the refrigerating cycle, the refrigerant is not liquefied and the first cooling stage 6 is thermally separated from the second cooling stage 7.
COPYRIGHT: (C)2008,JPO&INPIT
摘要翻译：解决的问题为了解决用于抑制由于制冷循环引起的温度振动的现有技术不能利用温度振动下的温度的最小值的问题。解决方案：在冷床2的下端处的第一冷却台6上，冷凝器14与冷却器14相连接地设置，冷凝器14包括由导热体形成的制冷剂冷凝部分11，隔热材料和由导热体形成的制冷剂蒸发部13。在冷凝器15中的空气密封室14中，由于冷头2而使沸点落在第一冷却台6的温度振动的振幅范围内的加压制冷剂被填充。在温度低的温度下，第一冷却级6，制冷剂被制冷剂冷凝部11液化并落下到制冷剂蒸发部13以冷却第二冷却级7.在制冷循环的高温下，制冷剂不液化，第一冷却阶段6与第二冷却阶段7热分离。版权所有（C）2008，JPO＆INPIT

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