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    • 3. 发明申请
    • FLUID SEPARATION DEVICES, SYSTEMS AND METHODS
    • 流体分离装置,系统和方法
    • WO0236266A3
    • 2004-06-24
    • PCT/US0146953
    • 2001-11-02
    • GAMBRO INC
    • FELT THOMAS JHLAVINKA DENNIS J
    • A61M1/02A61M1/36A61M1/38B04B5/04B04B7/08B04B9/08
    • B04B5/0442A61M1/0231A61M1/3693A61M1/3696A61M1/38B04B5/0428B04B7/08B04B9/08B04B2005/045B04B2005/0464B04B2009/143
    • A centrifugal separation device (10) for use in a fluid separation system to centrifugally separate a composite fluid into the composite components thereof. This centrifugal separation device includes a centrifugal rotor housing (30) and a rotor (40) which is disposed in a freely rotatable disposition within the housing, the rotor having a fluid receiving area (42) and several fluid flow channels defined therein. A composite fluid to be separated is delivered to the fluid receiving area from which it travels through a radial fluid transport channel (44) to a circumferential fluid separation channel (46) where it is subjected to substantial centrifugal forces which separate the composite fluid into components which each then travel to distinct first and second separated fluid outlet channels (52, 54). The separated fluids then exit from these outlet channels and are then moved from the separation device to a collection bag for storage or may then be returned to the donor. The first and second fluid outlet channels also have respective first and second lengths which are related to each other so as to provide a substantial hydraulic pressure balance for the respective separated fluids flowing therethrough. Such a pressure balance controls the interface of the separated fluid components within the circumferential separation channel. The preferred relationship of the respective first and second lengths of said first and second separated fluid outlet channels to each other which provides the hydraulic balance is rho¿3
    • 一种用于流体分离系统以将复合流体离心分离成其复合部件的离心分离装置(10)。 该离心分离装置包括离心转子壳体(30)和转子(40),转子(40)以可自由旋转的方式设置在壳体内,转子具有限定在其中的流体接收区域(42)和若干流体流动通道。 要分离的复合流体被输送到流体接收区域,从其流过径向流体输送通道(44)到达周向流体分离通道(46),在该流体分配通道(46)处经受基本的离心力,其将复合流体分离成部件 其然后各自行进到不同的第一和第二分离的流体出口通道(52,54)。 分离的流体然后从这些出口通道离开,然后从分离装置移动到用于储存的收集袋中,然后可以返回给供体。 第一和第二流体出口通道还具有彼此相关的相应的第一和第二长度,以便为流过其中的各个分离的流体提供实质的液压平衡。 这种压力平衡控制在圆周分离通道内的分离的流体组分的界面。 所述第一和第二分离的流体出口通道的相应的第一和第二长度彼此的优选关系彼此提供水力平衡。 =rho¿3?gh?3? 其中第一出口通道的第一长度为h 3,第二出口通道的第二长度为h 3,其中,g是重力加速度值, 表示第一出口通道中流体的密度, 表示第二出口通道中流体的密度。 这里使用的优选的离心驱动马达产生旋转磁场,其与设置在转子中的磁反应性材料共同作用,以使转子与旋转磁场一起旋转。 因此,无孔,无密封的连续流离心机在这里是有用的。
    • 4. 发明申请
    • PROCESS FOR OPERATING A BLOOD CENTRIFUGATION UNIT, AND CENTRIFUGATION UNIT FOR CARRYING OUT THE PROCESS
    • 一种用于操作血液离心分离,离心和执行该方法
    • WO1998018403A1
    • 1998-05-07
    • PCT/EP1997005865
    • 1997-10-24
    • GEIGLE, Peter
    • A61F02/02
    • B04B5/0442A61B2090/0815B04B2005/0464
    • A process is disclosed for operating a centrifugation unit with a centrifugation container, in particular a centrifugation bowl, for separating the components of a liquid, in particular blood, containing components with different specific weights. The centrifugation container has a separation chamber, a liquid inlet into the separation chamber and an outlet for discharging the separated component from the separation chamber. The inlet and the outlet extend through a revolving passage at the upper end of the container. The inlet is in communication with an inlet duct which opens in a defined area of the container into the separation chamber. A pumping device is provided for filling and/or emptying the centrifugation container. The liquid to be centrifuged is supplied through the inlet. After a desired amount is separated, the flow direction between inlet and outlet is reversed while the centrifugation container continues to rotate at its full working speed, so that at least one of the separated components is discharged from the separation chamber through the inlet duct and the inlet. The flow direction is then reversed again, so that liquid to be separated is again supplied through the inlet. While the separated component is discharged, a compensating liquid is supplied through the outlet in communication with the separation chamber. Also disclosed is a corresponding centrifugation unit.
    • 本发明涉及一种用于操作一个离心单元,其用于从具有不同特定的含重液体组分中分离的部件,特别是血液,包括:离心分离机,特别是Zentrifugierglocke,所述离心机的分离室,用于将液体是一个入口 具有用于从分离室中的分离的组分,其中所述入口和所述出口通过旋转传输引入件在容器的上端和引导的分离室和一个出口,其中所述入口是连通的入口通道,其在限定于所述容器的区域 分离室打开时,以及激励装置,用于填充和/或离心,将被离心经由入口被供给的液体,其中,与进一步分离所需的量之后,续的排空 inuierlichen旋转为全速离心容器中,入口和出口之间流动的方向是相反的,从而使分离的组分中的至少一个经由所述供应通道从分离腔室,在此之后的流动方向再次反转入口排出,从而使再次经由入口 被提供给separiende液体,其中通过与分离室连通的分离的组分的排放流补偿液体供给。 此外,相应的离心单元中指定。
    • 5. 发明申请
    • 원심 분리기용 바울 및 그를 포함한 원심 분리기
    • 用于离心和离心的包装盒
    • WO2015030443A1
    • 2015-03-05
    • PCT/KR2014/007879
    • 2014-08-25
    • 주식회사 아이쎌김주태한현희박연아
    • 김주태한현희박연아김해권박세아주환수김용수
    • B04B7/08B04B5/00
    • B04B7/08B04B5/0442B04B2005/0464
    • 본 발명은 원심 분리기용 바울 및 그를 포함한 원심 분리기에 관한 것으로, 보다 상세하게는, 원심력을 이용하여 조직내 물질을 분리하는 원심 분리기용 바울에 사용되는 원심 분리기용 바울로서, 소정의 조직이 수용되는 수용부를 가지며 회전력의 인가에 따라 회전되는 용기; 상기 수용부 내에 배치되고 상기 수용부를 직경 방향 내공간과 외공간으로 구분하되 상기 용기의 바닥면과 소정 거리 이격되어 상기 조직이 상기 내공간과 상기 외공간 사이로 이동할 수 있는 간극이 형성된 격벽; 및 상기 내공간에 배치되며 조직의 출입이 이루어지는 관부; 를 포함하며, 상기 용기의 바닥면 중심부에는 상기 조직이 적치되는 함몰부가 형성되며, 상기 격벽에는 상기 간극을 통해 이동하는 조직의 분할이 이루어지도록 하는 복수의 절단부가 구비되고, 상기 복수의 절단부는 상기 격벽의 둘레방향을 따라 소정의 간격을 갖고 이격되게 배치되는 원심 분리기용 바울 및 그를 포함한 원심 분리기에 관한 것이다.
    • 本发明涉及一种用于离心机的碗和离心机,更具体地说,涉及用于离心机的碗和包括该离心机的离心机,以及用于离心机的碗,其用于离心机的碗 通过使用离心力分离组织内的材料,包括:具有容纳部分的容器,容纳部分具有容纳在其中的预定组织,并随着施加旋转力而旋转; 分隔壁,其布置在容纳部分的内部并且将容纳部分分隔成内径和直径方向的外部空间,其中间隙与容器的底表面以预定距离间隔开,使得组织能够 在内部空间和外部空间之间移动; 以及布置在所述内部空间中以便能够进入所述组织的管部,其中在所述容器的底面的中心形成有存储有所述组织的凹部,所述分隔壁设置有多个切割 用于分割移动通过间隙的组织的部分,并且多个切割部分在分隔壁的圆周方向上以预定间隔隔开。
    • 9. 发明申请
    • SORTING CENTRIFUGING SYSTEM
    • SORTIERZENTRIFUGATIONSSYSTEM
    • WO1998008611A1
    • 1998-03-05
    • PCT/EP1997004539
    • 1997-08-21
    • KOMANNS, AribertKOMANNS, Anke
    • B04B05/04
    • B04B11/06B04B5/0442B04B9/08B04B2005/0464
    • The invention concerns a method and device for separating the components of mixtures or suspensions in the centrifugal acceleration field of a centrifuge, flow-through centrifuge or ultra-centrifuge. During centrifugation, mixtures or suspensions are continuously or discontinuously fed into a centrifuge rotor system (5, 6, 12, 13) pre-filled with a fluid medium, and excess fluid and/or separated components are continuously discharged. The inflow of the mixtures or suspensions and the discharge of the separated components occur spatially separately in the region of the central axis of rotation, either via sliding sealing systems (4) or by means of processes which do not involve sliding seals. To that end, the flow direction of the incoming mixtures or suspensions is guided to a peripheral fixed point of the rotating centrifuge rotor system. Under the effect of centrifugal force, directed sedimentation of the components to be separated occurs in the fluid medium. At the same time, the components settled out in the fluid medium. At the same time, the components settled out in a directed manner are deflected in a circular manner via a deflection device in the centrifuge rotor system, which deflection device can move in a circular manner. In a final step, the separated components are deflected into the collection container in the region of the peripheral circumference of the centrifuge rotor system.
    • 在Zentrifugalbeschleunigungsfeld离心机流离心机或超离心分离混合物或悬浮液的部件的方法和装置。 混合物或悬浮液离心期间在连续或不连续引入预填充有液体介质离心机转子系统(5,6,12,13),并且还为上清液和/或分离的组分,而不是一个连续的排斥反应。 混合物或悬浮液,并在空间上分离的分离的组分的排出的流入通过gleitdichtungsfreie方法要么Gleitdichtungssysteme(4)或发生在旋转的中心轴的区域中。 在此,流入的混合物或悬浮液的流动方向被引导到旋转的离心转子系统的周边固定点。 在离心力的作用在液体介质中发生时将被分离的成分的定向沉降。 同时,被寻址的沉降成分的圆形偏转发生在在离心转子系统圆可动偏转器和在最后步骤中,将分离的组分被引导到在所述离心机转子系统的外围圆周的区域内的收集容器。