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    • 15. 发明授权
    • Automatic analyzer
    • 自动分析仪
    • US07955557B2
    • 2011-06-07
    • US10681212
    • 2003-10-09
    • Shigenori WatariHajime KatouKatsuhiro KambaraHiroyasu UchidaTakeshi Shibuya
    • Shigenori WatariHajime KatouKatsuhiro KambaraHiroyasu UchidaTakeshi Shibuya
    • G01N15/06B06B1/00
    • G01N35/025B01F11/0283G01N2035/00554Y10T436/11
    • Multiple piezoelectric elements 35 are arranged in a row along the top of liquid level in the reaction vessel 11. An ultrasonic reflecting material 38 is installed on the bottom of the portion of the heat insulating bath 12 where heat insulating medium 13 is stored. A lateral ultrasonic wave 9b is generated on the lower side is generated by actuation of the piezoelectric element 35. Wave 9b is reflected by the ultrasonic reflecting material 38. As a lower ultrasonic wave 8 advances along the wall surface of the reaction vessel, it collides with the specimen liquid level, thereby causing a portion of the liquid level closer to the piezoelectric element 35 to be raised. When the lateral ultrasonic wave 9a is applied to this portion, it reaches the inclined portion of the raised liquid level of the specimen. Swirling flow by agitation 36 is produced by the acoustic radiation pressure of the ultrasonic wave. The specimen and reagent are mixed and agitated by this swirling flow.
    • 多个压电元件35沿着反应容器11中的液面顶部排列成一排。超声波反射材料38安装在隔热介质13的储存部分的绝热槽12的底部。 通过致动压电元件35产生下侧产生横向超声波9b。波形9b被超声波反射材料38反射。随着下部超声波8沿着反应容器的壁表面前进,它碰撞 与试样液位一致,从而使液面的一部分更靠近压电元件35升高。 当横向超声波9a被施加到该部分时,其到达样本的升高的液面的倾斜部分。 通过搅拌36产生的流动通过超声波的声辐射压力产生。 样品和试剂通过这种旋流混合和搅拌。
    • 18. 发明授权
    • Automatic analyzer
    • 自动分析仪
    • US07771656B2
    • 2010-08-10
    • US10466839
    • 2001-01-23
    • Takeshi ShibuyaHiroyasu UchidaKatsuhiro Kambara
    • Takeshi ShibuyaHiroyasu UchidaKatsuhiro Kambara
    • G01N21/00G01N31/00G01N15/06
    • G01N35/109G01N35/025G01N35/1002G01N2035/0443G01N2035/0455
    • A reagent dispensing mechanism (15), first and second dispensing-mechanism transfer means (26, 27), and a second reagent vessel (reagent cassette) carrying-in/out mechanism (24), which are constructed by employing an XY-mechanism, are arranged so as to travel above a reagent table (25) to carry in/out a reagent cassette (22). As compared with the case where the reagent cassette carrying-in/out mechanism (24) is installed radially of the reagent table (25), the area of an automatic analyzer in the horizontal direction can be reduced and a reagent vessel (16) can be moved to a predetermined position in a shorter time by combining the rotation of the reagent table (25) with the movement of the XY-mechanism. Further, as compared the case of dispensing reagents from reagent vessels in a matrix pattern by using the reagent dispensing/transferring mechanism, the travel distance of the transferring mechanism can be shortened and so can be the travel time. Thus, an analyzer adaptable as a machine of high processing capability with a shorter cycle time can be constructed.
    • 一种试剂分配机构(15),第一和第二分配机构转移装置(26,27)和第二试剂容器(试剂盒)进/出机构(24),它们通过采用XY机构 被布置成在试剂台(25)的上方行进以携带/取出试剂盒(22)。 与在试剂台(25)的径向安装有试剂盒搬入机构(24)的情况相比,自动分析装置的水平方向的面积减少,试剂容器(16)能够 通过组合试剂台(25)的旋转与XY机构的运动,在更短的时间内将其移动到预定位置。 此外,与通过使用试剂分配/转移机构以矩阵图案分配试剂的情况相比,可以缩短传送机构的移动距离,从而可以缩短行进时间。 因此,可以构建适合作为具有较短循环时间的高处理能力的机器的分析器。