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公开(公告)号:US07980500B2
公开(公告)日:2011-07-19
申请号:US12066979
申请日:2006-08-25
申请人: Stefan Jenni , Daniel Krieg , Karsten Meissner
发明人: Stefan Jenni , Daniel Krieg , Karsten Meissner
摘要: An apparatus for cutting up biological sample material, including a sample container, a rotary drive device separate from the sample container, and a shaft rotatably arranged in the sample container, wherein the shaft has a laterally projecting cutting device in the region of a working end and has a coupling piece in the region of a coupling end, said coupling piece being accessible from outside and being designed for coupling engagement with a coupling counterpart of the rotary drive device, wherein the shaft (14) is arranged with lateral guidance and in an axially displaceable manner in the sample container (10), the coupling piece (19) and the coupling counterpart (21) are designed for producing coupling engagement which is positive-locking in the direction of rotation (23) and permits an axial displacement, and the cutting device (16) is designed in a propeller shape in such a way that, during rotation of the shaft (14) in the working direction, it exerts a propulsive force on the latter in the direction of the coupling end (18).
摘要翻译: 一种用于切割生物样品的装置,包括样品容器,与样品容器分离的旋转驱动装置和可旋转地布置在样品容器中的轴,其中轴在工作端的区域中具有横向突出的切割装置 并且在联接端的区域中具有联接件,所述联接件可从外部接近并被设计成用于与所述旋转驱动装置的联接对应件联接接合,其中所述轴(14)布置成具有横向引导并且 在样品容器(10)中可轴向移动的方式,联接件(19)和联接器配对件(21)被设计成用于产生沿着旋转方向(23)正向锁定并且允许轴向位移的联接接合,并且 切割装置(16)被设计成螺旋桨形状,使得在轴(14)沿工作方向的旋转期间,其在所述螺旋桨形状上施加推进力 后者在联接端(18)的方向上。
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公开(公告)号:US20070161103A1
公开(公告)日:2007-07-12
申请号:US10597687
申请日:2005-02-18
IPC分类号: C12M1/34
CPC分类号: G01N33/54366 , B26F1/12 , G01N33/521 , G06K19/06009 , G06T7/0012
摘要: A device for the visual analysis of test strips, each having at least one delimited area in which, after contact with a sample to be examined, a visually detectable signal can be generated, with the device having a positioning device including a seat for at least one test strip or at least one test strip unit consisting of a plurality of test strips combined in a defined spatial arrangement, the device further including an image generating device which graphically records at least one of the delimited areas and transmits the recording result to an image analysis device, with the image analysis device qualitatively and/or quantitatively analyzing the visually detectable signals for each test strip.
摘要翻译: 一种用于视觉分析测试条的装置,每个测试条具有至少一个限定区域,其中在与被检查样品接触之后可以产生视觉上可检测的信号,其中所述装置具有定位装置,该定位装置包括用于至少 一个测试条或由限定的空间布置组合的多个测试条组成的至少一个测试条单元,所述设备还包括图形生成设备,图形地记录至少一个定界区域并将记录结果发送到图像 分析装置,其中图像分析装置定性和/或定量地分析每个测试条的视觉可检测信号。
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公开(公告)号:US20080208234A1
公开(公告)日:2008-08-28
申请号:US12066979
申请日:2006-08-25
申请人: Stefan Jenni , Daniel Krieg , Karsten Meissner
发明人: Stefan Jenni , Daniel Krieg , Karsten Meissner
IPC分类号: A61B17/32
摘要: An apparatus for cutting up biological sample material, including a sample container, a rotary drive device separate from the sample container, and a shaft rotatably arranged in the sample container, wherein the shaft has a laterally projecting cutting device in the region of a working end and has a coupling piece in the region of a coupling end, said coupling piece being accessible from outside and being designed for coupling engagement with a coupling counterpart of the rotary drive device, wherein the shaft (14) is arranged with lateral guidance and in an axially displaceable manner in the sample container (10), the coupling piece (19) and the coupling counterpart (21) are designed for producing coupling engagement which is positive-locking in the direction of rotation (23) and permits an axial displacement, and the cutting device (16) is designed in a propeller shape in such a way that, during rotation of the shaft (14) in the working direction, it exerts a propulsive force on the latter in the direction of the coupling end (18).
摘要翻译: 一种用于切割生物样品的装置,包括样品容器,与样品容器分离的旋转驱动装置和可旋转地布置在样品容器中的轴,其中轴在工作端的区域中具有横向突出的切割装置 并且在联接端的区域中具有联接件,所述联接件可从外部接近并被设计成用于与所述旋转驱动装置的联接对应件联接接合,其中所述轴(14)布置成具有横向引导并且 在样品容器(10)中可轴向移动的方式,联接件(19)和联接器配对件(21)被设计成用于产生沿着旋转方向(23)正向锁定并且允许轴向位移的联接接合,并且 切割装置(16)被设计成螺旋桨形状,使得在轴(14)沿工作方向的旋转期间,切割装置(16)施加推进 后者在联接端(18)的方向上的力。
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