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    • 1. 发明授权
    • Liquid-liquid extraction system
    • 液 - 液萃取系统
    • US08252239B2
    • 2012-08-28
    • US12783924
    • 2010-05-20
    • Mami HakariShigenori TogashiYasuhiko Sasaki
    • Mami HakariShigenori TogashiYasuhiko Sasaki
    • B06B1/20B01D11/00B01D17/02
    • B01D11/04B01D11/0265B01D11/0496B01F3/0819B01F11/0283
    • The invention aims to reduce the processing time of liquid-liquid extraction, reduce variations in the amount of extraction of a solute, and improve the extraction efficiency. Provided are a container adapted to contain a continuous phase and a dispersion phase that are mutually immiscible liquids, and a solute dissolved in at least one of the continuous and dispersion phases, a water tank accommodating therein the container and containing water around the container, an emulsification ultrasonic oscillation source disposed outside the water tank, on a plane substantially parallel with the interface between the continuous and dispersion phases, a separation ultrasonic oscillation source disposed outside the water tank, an ultrasonic-oscillation-source driving circuit configured to drive the emulsification ultrasonic oscillation source and the separation ultrasonic oscillation source, and a control unit configured to control the ultrasonic-oscillation-source driving circuit such that it sequentially drives the emulsification ultrasonic oscillation source and the separation ultrasonic oscillation source.
    • 本发明旨在减少液 - 液萃取的处理时间,减少溶质萃取量的变化,提高萃取效率。 提供一种容器,其适于容纳相互不混溶的液体的连续相和分散相,以及溶解在至少一个连续分散相中的溶质,在其中容纳容器并在容器周围容纳水的水箱, 乳化超声波振荡源设置在水箱外部,与基本上平行于连续分散相之间的界面的平面上,设置在水箱外部的分离超声波振荡源,构造成驱动乳化超声波的超声波振荡源驱动电路 振荡源和分离超声波振荡源,以及控制单元,被配置为控制超声波振荡源驱动电路,使得其依次驱动乳化超声波振荡源和分离超声波振荡源。
    • 2. 发明申请
    • LIQUID-LIQUID EXTRACTION SYSTEM
    • 液体萃取系统
    • US20100296976A1
    • 2010-11-25
    • US12783924
    • 2010-05-20
    • Mami HAKARIShigenori TogashiYasuhiko Sasaki
    • Mami HAKARIShigenori TogashiYasuhiko Sasaki
    • B06B1/20B01D11/00B01D17/02
    • B01D11/04B01D11/0265B01D11/0496B01F3/0819B01F11/0283
    • The invention aims to reduce the processing time of liquid-liquid extraction, reduce variations in the amount of extraction of a solute, and improve the extraction efficiency. Provided are a container adapted to contain a continuous phase and a dispersion phase that are mutually immiscible liquids, and a solute dissolved in at least one of the continuous and dispersion phases, a water tank accommodating therein the container and containing water around the container, an emulsification ultrasonic oscillation source disposed outside the water tank, on a plane substantially parallel with the interface between the continuous and dispersion phases, a separation ultrasonic oscillation source disposed outside the water tank, an ultrasonic-oscillation-source driving circuit configured to drive the emulsification ultrasonic oscillation source and the separation ultrasonic oscillation source, and a control unit configured to control the ultrasonic-oscillation-source driving circuit such that it sequentially drives the emulsification ultrasonic oscillation source and the separation ultrasonic oscillation source.
    • 本发明旨在减少液 - 液萃取的处理时间,减少溶质萃取量的变化,提高萃取效率。 提供一种容器,其适于容纳相互不混溶的液体的连续相和分散相,以及溶解在至少一个连续分散相中的溶质,在其中容纳容器并在容器周围容纳水的水箱, 乳化超声波振荡源设置在水箱外部,与基本上平行于连续分散相之间的界面的平面上,设置在水箱外部的分离超声波振荡源,构造成驱动乳化超声波的超声波振荡源驱动电路 振荡源和分离超声波振荡源,以及控制单元,被配置为控制超声波振荡源驱动电路,使得其依次驱动乳化超声波振荡源和分离超声波振荡源。
    • 7. 发明申请
    • MICROORGANISM SEPARATION SYSTEM
    • 微生物分离系统
    • US20080098092A1
    • 2008-04-24
    • US11755944
    • 2007-05-31
    • Tadashi SanoYasuhiko SasakiHajime IkutaKazuichi IsakaTatsuo SuminoShigenori TogashiTetsuro Miyamoto
    • Tadashi SanoYasuhiko SasakiHajime IkutaKazuichi IsakaTatsuo SuminoShigenori TogashiTetsuro Miyamoto
    • G06F15/16C12M1/00
    • C12M47/02C12M47/04
    • A microorganism separation system comprising a sample solution container 34 containing microorganisms, a separator 1, and a receiver 47, designed to separate microorganisms from the sample solution; further comprising a microorganism detection sensor and a plate 49 which has a plurality of receivers 47 connected to each other and an identification indicator, wherein when the microorganism detection sensor judges that a microorganism has passed, supply of the sample solution is stopped, the detected microorganism is discharged together with the sample solution, and then the solution starts to be injected into the receiver; and, the number of times microorganisms are detected during the time period from the start of the injection to the end is recognized as separation quantity; and then as separation information, the separation quantity, number for a receiver 47 into which a microorganism was injected for each identification indicator, signal waveform sent from the microorganism detection sensor at the separation, date and temperature are stored.
    • 一种微生物分离系统,包括含有微生物的样品溶液容器34,分离器1和接收器47,设计用于将微生物与样品溶液分离; 进一步包括微生物检测传感器和板49,其具有彼此连接的多个接收器47和识别指示器,其中当微生物检测传感器判断微生物已经通过时,停止供应样品溶液,检测到的微生物 与样品溶液一起放出,然后溶液开始注入接收器; 并且在从注射开始到结束的时间段期间检测到微生物的次数被识别为分离量; 然后作为分离信息,存储分离量,针对每个识别指示符注入微生物的接收器47的数量,在分离,日期和温度从微生物检测传感器发送的信号波形。