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    • 1. 发明专利
    • Magnet magnetizing system and superconducting magnet to be magnetized
    • MAGNET MAGNETIZING系统和超级磁铁被磁化
    • JP2009170565A
    • 2009-07-30
    • JP2008005172
    • 2008-01-15
    • Hitachi Ltd株式会社日立製作所
    • SAHO NORIHIDEISOKAMI HISASHITANAKA HIROYUKI
    • H01F13/00H01F6/00
    • H01F6/04H01F6/006H01F13/003
    • PROBLEM TO BE SOLVED: To provide a magnetizing system for a superconducting bulk magnet that can shorten the length of a bulk superconducting magnet using a magnetizing method in a magnetizing static magnetic field to downsize the bulk superconducting magnet as well as a small-sized bulk superconducting magnet magnetized by this magnetizing system. SOLUTION: A magnetizing magnetic field generating means is made up with a magnetizing superconducting bulk magnet, building another magnetizing bulk superconductor therein, a bulk superconductor to be magnetized before magnetization thereof is inserted within a space of the static magnetic field, which is generated by the magnetizing superconducting bulk magnet magnetized, and after the magnetized bulk superconductor is cooled down to a superconducting temperature or below after insertion by a cooling means, the magnetic field of the magnetizing superconducting bulk magnet is eliminated, thereby magnetizing the bulk superconductor to be magnetized. COPYRIGHT: (C)2009,JPO&INPIT
    • 要解决的问题:为了提供一种用于超导体磁体的磁化系统,其可以使用磁化静磁场中的磁化方法缩短体超导磁体的长度,以减小体超导磁体的尺寸, 由该磁化系统磁化的大尺寸超大体积磁体。 解决方案:磁化磁场产生装置由磁化超导体磁体组成,其中构建另一个磁化体超导体,在其磁化之前被磁化的体超导体被插入到静磁场的空间内 由磁化超导体磁体产生的磁化,并且在通过冷却装置插入之后将磁化体超导体冷却至超导温度或更低温度之后,消除磁化超导体磁体的磁场,从而使体超导体磁化为 磁化。 版权所有(C)2009,JPO&INPIT
    • 2. 发明专利
    • Purification water supply system
    • 净化水供应系统
    • JP2009166902A
    • 2009-07-30
    • JP2009101533
    • 2009-04-20
    • Hitachi Ltd株式会社日立製作所
    • SAHO NORIHIDEINOUE KOTAROISOKAMI HISASHIMIZUMORI TAKASHI
    • B67D9/00B63B13/00C02F1/00
    • PROBLEM TO BE SOLVED: To solve the problem that fishery damage is generated in the culture of fish and shellfish or the like, since ballast water in a ship such as a crude oil tanker, a natural gas transportation ship, an ore carrier or the like is injected into the ship with sea water and fresh water of its water area in the water area in which unloading has been carried out, and the ship moves to a next port in order to load cargos again and discharges contamination such as an oily portion in the ballast water and bacteria and plankton in the loaded ballast water or the like for discharging the ballast water in the ship at a port call water area in order to load cargos, thereby contamination is carried out physically with the oily portion, a red tide is generated by a reason that the bacteria and the plankton of different kinds are propagated extraordinarily and the plankton of shellfish toxicity is bred. SOLUTION: Purification water is supplied as the ballast water to the ship 11 after unloading has been carried out by providing a purification water supply system equipped with a purification plant 2 in the water area 1 and the offshore water area of the port call in which the unloading is carried out or the water area and the offshore water area on the way of a route after the port call. Moreover, the purification water supply system is provided in the water area discharging the ballast water. COPYRIGHT: (C)2009,JPO&INPIT
    • 要解决的问题:为了解决鱼类和贝类等文化中产生渔业损害的问题,由于原油油轮,天然气运输船,矿石载体等船舶的压载水, 在其中进行卸载的水区域中的水域和水域的淡水注入船舶,并且船舶移动到下一个港口以再次装载货物,并且排出诸如 压载水中的油性部分和装载压载水等中的细菌和浮游生物,用于在港口呼叫水域排放船舶中的压载水,以装载货物,从而与油性物质物理地进行污染 红潮是由于不同种类的细菌和浮游生物异常繁殖,引起贝类毒素浮游生物的原因。 解决方案:通过在水区1和港口呼叫的近海水域提供配备有净化设备2的净化水供应系统,在卸载之后,向船舶11提供纯化水作为压载水 在进行港口呼叫之后进行卸货,或者路线上的水域和海域水域。 此外,在排放压载水的水区域中设置净化水供给系统。 版权所有(C)2009,JPO&INPIT
    • 3. 发明专利
    • Magnetic separation and decontamination apparatus and magnetic separation and decontamination method
    • 磁分离和去除装置和磁选分离和去除方法
    • JP2005131479A
    • 2005-05-26
    • JP2003368354
    • 2003-10-29
    • Hitachi Ltd株式会社日立製作所
    • SAHO NORIHIDEISOKAMI HISASHIMIZUMORI TAKASHIMOCHIZUKI AKIRAHARADA SUSUMU
    • B01D33/06B01D24/46B01D33/44B01D33/58B03C1/00B03C1/12C02F11/12
    • PROBLEM TO BE SOLVED: To provide a magnetic separation and decontamination apparatus constituted so as to well separate a magnetic substance with respect to the fluctuations in the surface of the water of a magnetic separation part to stably discharge sludge of high density.
      SOLUTION: This magnetic separation and decontamination apparatus is constituted so as to include a rotary filter body having a cylindrical filter net to filter sludge and the magnetic substance from a fluid to be treated containing the magnetic substance, the cylindrical sludge recovering rotary body opposed to the rotary filter body in close vicinity thereto in a horizontal direction and receiving sludge and the magnetic substance on its surface accompanied by rotation to feed the same, a magnetic rotary body having an axis in the sludge recovering rotary body, composed of a rotary body and a plurality of the magnets attached to the circumference of the rotary body, arranged near the inner peripheral surface of the sludge recovering rotary body on the side at least positioned on the rotary filter body and magnetically attracting the magnetic substance filtered by the rotary filter body to the surface of the sludge recovering rotary body to transfer the same to the surface of the sludge recovering rotary body and a scraper for scraping off the sludge and magnetic substance transferred to the surface of the sludge recovering rotary body.
      COPYRIGHT: (C)2005,JPO&NCIPI
    • 要解决的问题:提供一种磁分离和去污设备,其构造成相对于磁性分离部件的水面的波动良好地分离磁性物质,以稳定地排出高密度的污泥。 解决方案:该磁分离和去污设备构成为包括具有圆柱形过滤网的旋转过滤器主体,用于过滤污泥和来自含有磁性物质的待处理流体的磁性物质,圆柱形污泥回收旋转体 在水平方向上与旋转过滤器体相邻,并且在其表面上附着污泥和磁性物质进行旋转以供给旋转过滤器本体,在污泥回收旋转体中具有轴线的磁性旋转体由旋转体 主体和附接到旋转体的圆周的多个磁体,其布置在至少位于旋转过滤器主体一侧的污泥回收旋转体的内周面附近,并且磁吸引由旋转过滤器过滤的磁性物质 身体到污泥的表面回收旋转体,将其转移到sl的表面 回转回转体和刮刀将污泥和磁性物质转移到污泥回收回转体表面。 版权所有(C)2005,JPO&NCIPI
    • 5. 发明专利
    • Storage device and electronic device equipped with storage device
    • 存储设备和配备有存储设备的电子设备
    • JP2004127467A
    • 2004-04-22
    • JP2002293841
    • 2002-10-07
    • Hitachi LtdHitachi-Lg Data Storage Inc株式会社日立エルジーデータストレージ株式会社日立製作所
    • NAKANISHI MASATOOHASHI SHIGEOISOKAMI HISASHIKATO MORIKAZUNISHIJIMA NORIYONISHIDA IKUO
    • G11B33/14H05K7/20
    • PROBLEM TO BE SOLVED: To increase air flow for cooling a pickup and an electronic component and isolate the pickup and the electronic component from outside.
      SOLUTION: The device is constituted with a box type case 1, a partitioning board 7 for dividing an interior of this case 1 for a disc chamber, in which a plate-shaped disc is housed, and a machine chamber for housing the electronic component, a rotation axis 15 for holding the disc free to rotate with the axis and a pickup 17. The device is configured so that the partitioning board 7 has a concave groove 33 extending from the rotation axis 15 toward an outer ward of the case and concaved to the side of the machine chamber, the pickup 17 is arranged inside this concave groove 33 free to move along an extending direction of the concave groove 33, a moving range for the pickup 17 is regulated within a midsection of the extending direction of the concave groove 33, and an interspace is arranged between the bottom surface of the concave groove 33 and the surface for the pickup facing this bottom surface. This enables the air flow inside a memory device circulate around the pickup 17.
      COPYRIGHT: (C)2004,JPO
    • 要解决的问题:为了增加用于冷却拾取器和电子部件的空气流并将拾取器和电子部件与外部隔离。 解决方案:该装置由盒式壳体1构成,分隔板7用于分隔容纳盘形盘的盘室的这种壳体1的内部,以及用于容纳 电子部件,用于保持盘自由旋转的旋转轴15和拾取器17.该装置构造成使得分隔板7具有从旋转轴线15向壳体的外部区域延伸的凹槽33 并且凹部到机器侧的一侧,拾取器17布置在该凹槽33内部,沿着凹槽33的延伸方向自由移动,拾取器17的移动范围被调节在 凹槽33和间隙布置在凹槽33的底表面和面对该底表面的拾取器的表面之间。 这使得记忆装置内的空气流在拾音器17周围循环。版权所有(C)2004,JPO
    • 6. 发明专利
    • Refrigerator integrated type low temperature container
    • 冰箱集成型低温集装箱
    • JP2009174804A
    • 2009-08-06
    • JP2008015018
    • 2008-01-25
    • Hitachi Ltd株式会社日立製作所
    • SAHO NORIHIDEISOKAMI HISASHITANAKA HIROYUKI
    • F25B9/14F25B21/02H01L39/04
    • F25B9/14F25B21/02F25B25/00F25B2500/13F25D19/006
    • PROBLEM TO BE SOLVED: To improve efficiency of a refrigerator by cooling a temperature to a room temperature or less in a heat radiation face of a compressing part of the refrigerator used in a refrigerator integrated type low temperature container capable of cooling a cooling reception object to a very low temperature, and to retain a cooling temperature by the refrigerator to a low temperature in an outer surface of the refrigerator integrated type low temperature container capable of cooling the cooling reception object to a very low temperature by controlling an inlet temperature of a working medium of the refrigerator to a temperature lower than the room temperature without causing dew condensation, and reducing a heat intrusion amount intruding into the refrigerator from a room temperature part.
      SOLUTION: The refrigerator integrated type low temperature container includes the refrigerator having a first heat absorption part and a second heat radiation part, a vacuum container for insulating heat by arranging the cooling reception object to be cooled and retained at the very low temperature in an interior via the first heat absorption part of the refrigerator, and an auxiliary cooling means having a second heat absorption part for cooling the first heat radiation part and a second heat radiation part. The first heat radiation part and the second heat absorption part are provided in an interior of the vacuum container, and one part of a heat radiation means including the second heat radiation part is exposed to an exterior.
      COPYRIGHT: (C)2009,JPO&INPIT
    • 解决的问题:为了提高冷藏库的冷却效率,通过将冷却了室内温度的室内温度降低到能够冷却冷却的冰箱一体型低温容器的冰箱的压缩部的散热面 接收物体到非常低的温度,并且通过控制入口温度,能够通过冰箱将冷却温度保持在低温的低温容器中,该低温容器能够将冷却接收物体冷却至非常低的温度 的冷冻机的工作介质,其温度低于室温而不会产生结露,并且减少从室温部侵入冰箱的热侵入量。 解决方案:冰箱一体式低温容器包括具有第一吸热部和第二散热部的冰箱,通过将待冷却的冷却受热体配置在非常低的温度下进行绝热的真空容器 在通过冷藏库的第一吸热部分的内部,以及具有用于冷却第一散热部分和第二散热部分的第二吸热部分的辅助冷却装置。 第一热辐射部分和第二吸热部分设置在真空容器的内部,并且包括第二散热部分的一部分散热装置暴露于外部。 版权所有(C)2009,JPO&INPIT
    • 8. 发明专利
    • Cryogenic cooling device
    • 低温冷却装置
    • JP2007078310A
    • 2007-03-29
    • JP2005269947
    • 2005-09-16
    • Hitachi Ltd株式会社日立製作所
    • SAHO NORIHIDEISOKAMI HISASHIWATANABE HIROYUKITAKASAKI TATSUROTANAKA HIROYUKI
    • F25B9/00H01F6/04H01L39/04
    • PROBLEM TO BE SOLVED: To realize a cryogenic cooling device reducing a penetration amount of heat from a radiation shield or the like to a superconductive magnet, and capable of intensifying a magnetic field of the superconductive magnet while miniaturizing it. SOLUTION: A helium tank cooling system (5-11, or the like) cooling a liquid helium tank 4 interior arranged with the superconductive magnet 1, and a shield cooling system (17, 28, 32, 19, 21, 31, 52, or the like) cooling first and second shield plates 15 and 16 are provided individually, contact between the heat shield plates 15 and 16 and the helium tank cooling system is avoided by an insertion hole 38, and heat penetration to the superconductive magnet 1 is sufficiently suppressed. As a result, a temperature of the superconductive magnet 1 can be lowered about 1.2K for example in comparison with a conventional one, and a superconductive current value can be raised several dozen percents. Accordingly, when providing a current value the same as in conventional technology, a winding length of the superconductive magnet can be shortened by several dozen percents, and the superconductive magnet can be reduced in size and weight. COPYRIGHT: (C)2007,JPO&INPIT
    • 要解决的问题:实现将辐射屏蔽等的热量穿透量减少到超导磁体的低温冷却装置,并且能够在使超导磁体小型化的同时增强超导磁体的磁场。 解决方案:冷却具有超导磁体1的液氦罐4内部的氦罐冷却系统(5-11等)和屏蔽冷却系统(17,28,32,21,21,31 ,52等)冷却第一和第二屏蔽板15和16分别设置,隔热板15和16与氦罐冷却系统之间的接触通过插入孔38避免,并且热量渗透到超导磁体 1被充分抑制。 结果,与现有技术相比,超导磁体1的温度例如可以降低约1.2K,超导电流值可以提高几十个百分点。 因此,当提供与传统技术相同的电流值时,超导磁体的绕组长度可以缩短几十个百分点,并且可以减小超导磁体的尺寸和重量。 版权所有(C)2007,JPO&INPIT
    • 9. 发明专利
    • Filtration purification system
    • 过滤净化系统
    • JP2005111390A
    • 2005-04-28
    • JP2003350200
    • 2003-10-09
    • Hitachi Ltd株式会社日立製作所
    • SAHO NORIHIDEISOKAMI HISASHIMIZUMORI TAKASHIKOMATSU SHIGESABUROHARADA SUSUMU
    • B01D37/04B01D36/00B03C1/00B03C1/10B03C1/12
    • PROBLEM TO BE SOLVED: To provide a filtration purification system capable of sufficiently separating a substance to be separated relative to leakage of the substance to be separated by failure of a filter in separation by filtration of the substance to be separated by the filter in a filtration separation purification system aiming at water purification, solid/liquid separation, or the like.
      SOLUTION: Treated water filtered by a filtration separator (hereinafter referred to a former stage filtration separator) is again filtered by a latter stage filtration separation and clogging of the filter of the latter stage filtration separation is monitored. Thereby, the substance to be separated leaked from the former stage filtration separator is detected and an alarm is transmitted, thereby it can be captured by the former stage filtration separator. During this, the substance to be separated is separated and removed by the latter stage filtration separator. Thereby, a problem of the leakage of the substance to be separated into purified water discharged from the latter stage filtration separator can be solved.
      COPYRIGHT: (C)2005,JPO&NCIPI
    • 要解决的问题:提供一种过滤净化系统,其能够通过过滤由被过滤器分离的物质而使分离过程中的过滤器失效而相对于被分离物质的泄漏充分分离 在用于水净化,固/液分离等的过滤分离净化系统中。 解决方案:通过过滤分离器过滤的处理水(以下称为前一级过滤分离器)再次通过后期过滤分离过滤,并监测后期过滤分离过滤器的堵塞。 因此,检测到从前一级过滤分离器泄漏的待分离物质,并且发出报警,从而可以由前一级过滤分离器捕获。 在此期间,待分离的物质被后段过滤分离器分离除去。 因此,可以解决从后级过滤分离器排出的待分离物质泄漏的净化水的问题。 版权所有(C)2005,JPO&NCIPI