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    • 21. 发明授权
    • Diagnostic processing station
    • 诊断处理站
    • US5384094A
    • 1995-01-24
    • US49753
    • 1993-04-19
    • Gottlieb Schacher
    • Gottlieb Schacher
    • G01N21/64G01N35/02G01N35/04G01N37/00
    • G01N35/04G01N21/6445G01N35/025G01N2035/0465G01N2035/0484Y10T436/11Y10T436/113332Y10T436/114165
    • A processing station for making a fluorescence polarization measurement on a sample in a cell under examination in an apparatus for chemical and biochemical analysis, the analytical apparatus containing a conveyor for conveying cells. In order to make fluorescence polarization measurements outside the conveyor, the processing station is separated from, but is apt to mechanically communicate with, the conveyor and contains a measuring device means for making fluorescence polarization measurements on a sample in a cell, and an automatically controlled change-over and positioning device for removing individual cells from the conveyor, transferring a removed cell to the measuring position in the measuring device, and returning the cell to its original position on the conveyor after the measurement.
    • 一种用于在化学和生物化学分析装置中的检查中的细胞中的样品进行荧光偏振测量的处理站,所述分析装置包含用于输送细胞的输送器。 为了在输送机之外进行荧光偏振测量,处理站与输送机分离,但易于与输送机机械连通,并且包含用于对单元中的样品进行荧光偏振测量的测量装置装置,以及自动控制 转换和定位装置,用于从输送机移除单个电池,将去除的电池转移到测量装置中的测量位置,并且在测量之后将电池返回到其在输送机上的原始位置。
    • 24. 发明授权
    • Test sample carrier transport apparatus
    • 测试样本运输工具
    • US3552536A
    • 1971-01-05
    • US3552536D
    • 1969-04-15
    • GILFORD INSTR LABOR INC
    • EMARY ROBERT J
    • G01N1/18G01N35/04A47F3/08B23Q5/22B65G19/02
    • G01N1/18G01N35/04G01N2035/0415G01N2035/0484
    • A table is arranged for transporting a plurality of test sample carriers in a manner to bring each sample into proper position at a testing station, stop a sufficient time to make the test and then move on to the next sample, repeating this until all samples have been tested. The samples are mounted on carriers which slide on the table. The table is rectangular so that each carrier is required to move in a generally rectangular path. Means are provided for supporting two columns arranged horizontally, each column consisting of a plurality of carriers. There is an endless flexible sprocket chain below the carrier-supporting table which has pins projecting above the table to engage suitable notches formed in the base of each carrier on the opposite long edges thereof. By suitable guide wheels, the flexible sprocket chain follows a path in which there are two inward excursions ending in dwell points, one for each column. The location of the pins and the geometry of the chain path are such that the lateral movement of the columns of carriers is stopped while the endwise movement of the front carrier of each column is effected, and this being done without stopping the continuous movement of the chain. In this way, the front carrier of each column may be translated endwise to leave a space for the next carrier to occupy, but without interference. The lateral movement and endwise movement of the carriers of one column are respectively opposite in direction to those of the other column. Suitable programming means activated by teeth or pins on the carriers stops the entire operation of the drive mechanism each time a sample reaches the testing station and starts the mechanism after the testing has been done.