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    • 1. 发明专利
    • Apparatus for examining microorganism
    • 检测微生物的装置
    • JP2008157829A
    • 2008-07-10
    • JP2006348753
    • 2006-12-26
    • Hitachi Ltd株式会社日立製作所
    • TAKENAKA HIROSHISASAKI YASUHIKOMIYAKE AKIRA
    • G01N35/08C12M1/34G01N33/02G01N37/00
    • G01N21/6428G01N15/1484G01N2015/1486
    • PROBLEM TO BE SOLVED: To stably perform pretreatment of removal of food residues or dyeing of bacteria and measurement of the number of bacteria by the method of fluorescent flow cytometry. SOLUTION: A measuring chip 10 is equipped with a specimen container 151, a reaction vessel 170 for mixing a specimen and dyeing reagent to prepare a mixed solution; a bacteria detection part 18 irradiated with an exciting light; a detection liquid discarding container 163, into which the mixed liquid passed through the bacteria detection part is introduced; a solution flow channel 157 for connecting the specimen container; the reaction vessel and the bacteria detection part and the air passage ports 1631-1633 connected to the specimen container; and the reaction vessel and the bacteria detection part to be connected to a chip connecting pipe. The specimen container, the reaction vessel and the bacteria detection part are changed over to a hermetically-closed state and an open-air open state, and the specimen is moved to the reaction vessel 170, to be moved to the dyeing reagent mixing and stirring and detecting liquid discarding container 163, and bacteria are detected in the bacteria detecting part 18. COPYRIGHT: (C)2008,JPO&INPIT
    • 要解决的问题:通过荧光流式细胞术的方法稳定地进行食品残渣的去除处理或细菌染色和细菌数量的测定。 解决方案:测量芯片10配备有样本容器151,用于混合样品和染色试剂以制备混合溶液的反应容器170; 用激发光照射的细菌检测部18; 引入通过细菌检测部的混合液的检测液体废弃容器163; 用于连接样本容器的溶液流动通道157; 反应容器和细菌检测部以及与检体容器连接的通气口1631〜1633。 反应容器和细菌检测部分连接到芯片连接管。 将样本容器,反应容器和细菌检测部分切换成气密闭合状态和露天打开状态,将样品移动到反应容器170,移动到染色剂混合搅拌 并检测液体废弃容器163,并在细菌检测部分18中检测细菌。版权所有(C)2008,JPO&INPIT
    • 3. 发明专利
    • Distributed inspection apparatus and host inspection apparatus
    • 分布式检查装置和主机检查装置
    • JP2005091117A
    • 2005-04-07
    • JP2003323868
    • 2003-09-17
    • Hitachi Ltd株式会社日立製作所
    • INAMI HISAOSASAKI YASUHIKOKATO SOMIYAKE AKIRA
    • G01N33/50G01N21/27G01N35/00G06F11/00G06F11/273G06F19/18G06Q50/00G06Q50/10G06Q50/22G06F17/60
    • G06F11/2294
    • PROBLEM TO BE SOLVED: To provide an inspection apparatus for realizing an advanced inspection and high-quality disposition by performing inspection by dispersely installed pieces of apparatus and facilities. SOLUTION: A distributed inspection apparatus formed in a network system in which a host inspection apparatus is connected so that the distributed inspection apparatus can be connected comprises an inspection section for inspecting the gene information of a specimen; a transmission section for transmitting inspection result information at the inspection section, and a specimen ID corresponding to the specimen to the host inspection apparatus via the network; a reception section for receiving evaluation information from the host inspection apparatus corresponding to the transmitted inspection result information from the network; and an output section for outputting the received information. COPYRIGHT: (C)2005,JPO&NCIPI
    • 要解决的问题:提供一种通过分散安装的设备和设备进行检查来实现高级检查和高质量处置的检查装置。 解决方案:一种形成在网络系统中的分布式检查装置,其中主机检查装置连接成使得分布式检查装置可以连接,包括用于检查样本的基因信息的检查部分; 用于经由网络将检查结果信息发送到主检查装置的检测结果信息的发送部和与样本对应的检体ID; 接收部,用于从所述网络接收与所发送的检查结果信息对应的来自所述主机检查装置的评价信息; 以及用于输出接收到的信息的输出部分。 版权所有(C)2005,JPO&NCIPI
    • 7. 发明专利
    • CHEMICAL ANALYZER AND CHEMICAL ANALYSIS SYSTEM
    • JP2000266759A
    • 2000-09-29
    • JP7141599
    • 1999-03-17
    • HITACHI LTD
    • MIYAKE AKIRAWATABE SHIGEOKATO SOTERAYAMA TAKAONOMURA YASUSHIMIMAKI HIROSHI
    • G01N35/04G01N35/00G01N35/02G01N35/10
    • PROBLEM TO BE SOLVED: To optionally set a reagent complying with an analysis item by providing an introducing unit for injecting a sample liquid, a branch flow passage dividing the sample liquid, a plurality of holding carriers holding the sample liquid and mixing it with a reagent into reaction, and a detection unit. SOLUTION: Using an injector 41, blood 4 containing hemocytes is fed to the inside from an introduction part 11 in an analysis cassette 1. In this process, a serum constituent enters the flow passage in the inside prior to a hemocyte constituent by means of a filter 12. The blood constituent is pressurized in 10 fine flow passages 13 by means of a pressure from the injector 41 and a capillary force and passes through a flow passage 141 in a slide type continuous flow valve 14 so as to fill up to a first micropore 131. When an input for a start is given from a signal processing unit 25, a bottle 23 is selected from a group of reagent bottles according to a previously set measurement item order, and a reaction cell 16 in the cassette 1 is moved below the selected bottle 23 by means of a linear driving unit 21. Subsequently, according to a control signal from a controller 26, a reagent weight measuring discharging pump 22 arranged below the bottle 23 is actuated so as to eject a predetermined amount of reagents 3 aimed at a test paper 15 piece in the reaction cell 16.
    • 8. 发明专利
    • MICROPUMP AND ITS MANUFACTURE
    • JP2000249074A
    • 2000-09-12
    • JP4700399
    • 1999-02-24
    • HITACHI LTD
    • MORIOKA TOMONARIMIYAKE AKIRAKOIDE AKIRASASAKI YASUHIKO
    • F04B43/02
    • PROBLEM TO BE SOLVED: To provide a micropump to facilitate positioning of joining of a piezoelectric element with a diaphragm, improve unevenness in the discharge characteristics of a micropump, improve workability, and also improve a yield. SOLUTION: This micropump comprises a diaphragm base plate 2 having a diaphragm 1; a valve base plate 3; and a valve base plate 4. A suction valve 5 is formed at the valve base plate 3 and a discharge valve 6 at the valve base plate 4. An island-form protrusion part 9 smaller than an electrode plate 8 formed at a piezoelectric element 7 is formed on the diaphragm 1 of the diaphragm base plate 2. By situating the island-form protrusion part 9 smaller than the piezoelectric element electrode plate 8 at the joint of the piezoelectric element 7, unevenness in a displacement amount of the diaphragm 1 is reduced even when displacement in a joint position between the piezoelectric element 7 and the island-form protrusion part 9 occurs, and unevenness in the discharge characteristics of the pump is reduced.
    • 10. 发明专利
    • WATER QUALITY CONTROL SYSTEM AND WATER QUALITY MONITOR
    • JP2000061447A
    • 2000-02-29
    • JP609599
    • 1999-01-13
    • HITACHI LTD
    • MORI SADAOENOKI HIDEOMIYAKE AKIRAKANAMARU MASATOSHIFUKUNAGA MASAOISHIHARA TAMIOYAMADA KATSUTOSHITERAYAMA TAKAOSAITO KOJI
    • C02F1/00G01N33/18
    • PROBLEM TO BE SOLVED: To realize lower cost, a reduced quantity of waste fluid, storage of harmful waste fluid, and water examination by a reagent by providing both the supplier side water conduit pipe the consumer side water conduit each with plural water quality monitors, transmitting the measured results of the water quality monitors to a central control center, and subjecting a state of water quality of the whole water supply system to overall control. SOLUTION: Raw water of rivers, lakes and marshes, wells, and the like is purified to water quality good for drinking by a water purification facility 1 and is sent to a water supply facility 2. And the raw water is passed through a water supplier side end pipeline 6 and a consumer side pipeline 7 from the water supply facility 2 via a main pipeline 4 and a water supply system pipeline 5 and reaches consumers. Here, supplier side water quality monitors 8a each are provided on the main pipeline 4, the water supply system pipeline 5, the supplier side end pipeline 6, and the like. On the other hand, consumer side water quality monitors 8b each are fitted to the consumer side pipeline 7 and in the vicinity of a reservoir 10 of an apartment house 9 or a water meter of a single house 11. And output of the water quality monitors 8a, 8b is sent to a central control center 3 to subject it to data processing and to control operating conditions of the facilities 1, 2 so that water quality is made proper.