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    • 2. 发明申请
    • Container inspection machine
    • 集装箱检验机
    • US20040263839A1
    • 2004-12-30
    • US10610059
    • 2003-06-30
    • Richard D. DiehrHenry F. Raupp
    • G01N021/00
    • B07C5/3422B07C5/3408G01N21/90G01N21/9009G01N2021/8411G01N2021/845G01N2021/8841G01N2201/0626
    • A machine for inspecting a container which is being conveyed along a linear path. The machine has spaced left hand and right hand cabinets in front of the linear path with the space therebetween being space in which an operator can stand to be proximate to the linear path. The machine has left hand and right hand inspection stations which include a left-hand assembly located in front of the linear path and a right hand assembly located in front of the linear path. These assemblies are pivotally mounted about vertical axes so that they can be pivoted from a closed position proximate the liner path to a retracted position away from the linear path. At the retracted position an operator can enter the machine and service the inspection stations.
    • 一种用于检查沿着线性路径传送的容器的机器。 机器在线性路径前面具有间隔开的左手和右手柜,其间的空间是操作者能够靠近线性路径的空间。 机器具有左侧和右侧检查站,其包括位于线性路径前方的左侧组件和位于线性路径前方的右侧组件。 这些组件围绕垂直轴线枢转地安装,使得它们可以从靠近衬套路径的关闭位置枢转到远离线性路径的缩回位置。 在缩回位置,操作员可以进入机器并对检查站进行维修。
    • 5. 发明申请
    • Test device
    • 测试装置
    • US20040253715A1
    • 2004-12-16
    • US10842969
    • 2004-05-06
    • CEDI DIAGNOSTICS B.V.
    • Gerrit Dirk KeizerWilhelmus Joseph G. Schielen
    • G01N021/00
    • B01L3/502B01L3/0217B01L3/50825B01L2200/16B01L2300/042B01L2300/047B01L2300/0663B01L2300/069B01L2400/0478G01N33/54366
    • The invention is in the field of biomedical testing and relates to a device for detecting the presence of chemical and/or biological substances in a sample comprising a reagent compartment (1) which is contained in a cylindrical housing (2), which cylindrical housing (2) comprises at least a first open end; and a sample receiver (8) which is also contained in said cylindrical housing (2); and an operating means (4) capable of moving said reagent compartment (1) and/or said sample receiver (3); and wherein the reagent compartment (1) and the sample receiver (3) can be in at least two positions relative to each other, said positions comprising a first position wherein the sample receiver (3) is not in analyte-exchangeable contact with the reagent compartment (1), and a second position wherein the sample receiver (3) is in analyte-exchangeable contact with the reagent compartment (1).
    • 本发明涉及生物医学测试领域,涉及用于检测样品中存在化学和/或生物物质的装置,该装置包括容纳在圆柱形壳体(2)中的试剂室(1),该圆柱形壳体 2)包括至少第一开口端; 和还包含在所述圆柱形壳体(2)中的样品接收器(8)。 以及能够移动所述试剂室(1)和/或所述样品接收器(3)的操作装置(4)。 并且其中所述试剂隔室(1)和所述样品接收器(3)可以相对于彼此处于至少两个位置,所述位置包括第一位置,其中所述样品接收器(3)不与所述试剂进行可分析物交换接触 隔室(1)和第二位置,其中样品接收器(3)与试剂隔室(1)可分析物交换接触。
    • 8. 发明申请
    • Method and device for evaluating electromagnetic radiation
    • US20040252305A1
    • 2004-12-16
    • US10484543
    • 2004-01-22
    • Ralf Schackel
    • G01N021/00
    • G01J1/4228G01J1/0228G01J1/04G01J1/0407G01N21/67G01N21/85
    • A device which is intended to detect and evaluate electromagnetic radiation from an area (2) consists substantially of two measuring chains, which are combined in constructional units (5null,6null), and of a control and evaluation unit (7), wherein the measuring chains are equipped with diametrically opposed measuring heads, whose aperture angles (10) are equal in dimension. Each measuring head forms a boundary surface for the area (2) to be monitored and is provided with a transmitter and a receiver, wherein the boundary surface is intended for coupling radiation into and out of the area (2) respectively. In order to test the functional reliability of the device, a test signal is emitted in a first test procedure via the transmitter of one measuring chain and is reflected in part on the said boundary surface and issues out in part into the area (2). The reflected portion is coupled in by the receiver of the same measuring chain and is transmitted via a line (8) to the control and evaluation unit (7). The portion transmitted into the area (2) is coupled in via the boundary surface of the receiver of the opposite-lying measuring chain and is transmitted via the line (9) likewise to the control and evaluation unit (7). The comparison of the two signal portions, namely the reflected portion and the portion transmitted over the area (2), with reference signals provides statements relating to the contamination of the boundary surfaces, the state of the area (2) and the smooth function of the measuring chains. Each testing cycle consists of a number of test procedures which corresponds to the number of measuring heads. In contrast to the prior art, it is possible to achieve a substantially higher degree of reliability in the test statement by reason of the fact that the state of the area (2), the contamination of the boundary surfaces and the internal functional sequences of the measuring chains are tested simultaneously.
    • 9. 发明申请
    • Fiber-optic dissolution systems devices, and methods
    • 光纤溶解系统装置及方法
    • US20040247489A1
    • 2004-12-09
    • US10838907
    • 2004-05-03
    • C.J. Anthony FernandoJames E. SwonHenry Z. Hofer
    • G01N021/00
    • G01N21/8507G01N13/00G01N21/253G01N33/15G01N2013/006G01N2021/8521G01N2021/8528Y10T436/117497Y10T436/2575
    • A dissolution system provides remote flow cells integrated into a manifold device. The manifold device communicates with liquid input and output lines associated with each flow cell, as well as fiber-optic input and output lines associated with each flow cell. Liquid samples are respectively drawn from dissolution vessels, optically-related measurements are taken, and the samples are thereafter returned their respective vessels. The manifold device can be adapted to receive probe-type instruments that incorporate the fiber-optics, wherein each probe-type instrument is associated with each flow cell. Alternatively, each corresponding pair of fiber-optic input and output lines are disposed in opposing, optically-aligned relation and probe-type instruments are not used. The gap between the ends of the opposing fiber-optic lines provides a light path across the corresponding flow cell. Calibration procedures using blank and/or standard media are performed using the same flow cells, with provisions made for bypassing the vessels in which the samples to be analyzed are held.
    • 溶解系统提供集成在歧管装置中的远程流动池。 歧管装置与与每个流动池相关联的液体输入和输出线路以及与每个流动池相关联的光纤输入和输出线路通信。 液体样品分别从溶解容器中抽出,进行光学相关测量,然后将样品返回其各自的容器。 歧管装置可以适于接纳包含光纤的探针型仪器,其中每个探针型仪器与每个流动池相关联。 或者,每个对应的一对光纤输入和输出线以相对的光学对准关系设置,并且不使用探针型仪器。 相对的光纤线路的端部之间的间隙提供穿过相应的流动池的光路。 使用空白和/或标准介质的校准程序使用相同的流动池进行,其中为绕过待分析样品的容器进行旁路。
    • 10. 发明申请
    • Systems for inspection of patterned or unpatterned wafers and other specimen
    • 用于检查图案或未图案化晶片和其他样品的系统
    • US20040246476A1
    • 2004-12-09
    • US10456203
    • 2003-06-06
    • Christopher F. BevisMike KirkMehdi Vaez-Iravani
    • G01N021/00
    • G01N21/956G01N21/474G01N21/94G01N21/9501
    • Systems for inspection of patterned and unpatterned wafers are provided. One system includes an illumination system configured to illuminate the specimen. The system also includes a collector configured to collect light scattered from the specimen. In addition, the system includes a segmented detector configured to separately detect different portions of the light such that azimuthal and polar angular information about the different portions of light is preserved. The detector may also be configured to produce signals representative of the different portions of the light. The system may also include a processor configured to detect defects on the specimen from the signals. In another embodiment, the system may include a stage that is configured to rotate and translate the specimen. In one such embodiment, the system may also include an illumination system configured to scan the specimen in a wide scan path during rotation and translation of the specimen.
    • 提供了用于图案化和未图案化晶片检查的系统。 一个系统包括被配置为照亮样本的照明系统。 该系统还包括收集器,用于收集从样品散射的光。 此外,该系统包括分段检测器,其被配置为分别检测光的不同部分,使得保持关于光的不同部分的方位角和极坐标信息。 检测器还可以被配置为产生表示光的不同部分的信号。 该系统还可以包括处理器,其配置成从信号中检测样本上的缺陷。 在另一个实施例中,系统可以包括被配置为旋转和平移样本的台。 在一个这样的实施例中,系统还可以包括配置成在样本的旋转和平移期间以宽扫描路径扫描样本的照明系统。