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    • 1. 发明公开
    • Stacker for microplates
    • StapelvorrichtungfürMikroplatten
    • EP1975626A1
    • 2008-10-01
    • EP07105217.9
    • 2007-03-29
    • F. Hoffmann-La Roche AG
    • Fattinger, ChristophZumstein, ThomasHochstrasser, Remo AntonVoegelin, Dieter
    • G01N35/02G01N35/00
    • G01N35/028G01N35/0099G01N2035/0425
    • A stacker (1) for storing a plurality of microplates each having a top surface side and a bottom surface side opposed to the top surface side, comprises a housing and a removal gate (13) for removing a microplate of the plurality of microplates out of the housing. The stacker (1) is arranged to accommodate the plurality of microplates inside the housing such that the top surface side of one microplate of the plurality of microplates abuts on the bottom surface side of an adjacent microplate of the plurality of microplates and such that the housing adjoins to the plurality of microplates. Using such a stacker 1, the plurality of microplates can be arranged and stored in a compact manner wherein the single microplates of the plurality of microplates can still selectively and efficiently be accessed. Further, due to the controlled access to the plurality of microplates being arranged inside the housing of the described stacker 1 via the removal gate 13, icing of the microplates can be minimized when the stacker is cooled for long term storage of samples arranged inside the microplates.
    • 一种用于存储多个微板的堆叠器(1),每个微板具有与顶表面侧相对的顶表面侧和底表面侧,包括壳体和移除栅极(13),用于将多个微孔板的微孔板从 住房。 堆叠器(1)被布置成在壳体内容纳多个微孔板,使得多个微孔板中的一个微孔板的顶表面侧邻接在多个微孔板的相邻微孔板的底表面侧上, 邻接多个微孔板。 使用这样的堆叠器1,可以以紧凑的方式布置和存储多个微板,其中多个微孔板的单个微孔板仍然可以选择性地和有效地被访问。 此外,由于经由去除浇口13被布置在所述堆垛机1的壳体内部被控制地接近多个微孔板,当堆垛机被冷却以长期储存设置在微孔板内的样品时,微板的结冰可以最小化 。
    • 3. 发明公开
    • Convection barrier
    • 对流障碍
    • EP2154455A1
    • 2010-02-17
    • EP08161793.8
    • 2008-08-05
    • F. Hoffmann-La Roche AG
    • Zumstein, ThomasFattinger, ChristofVoegelin, Dieter
    • F25D23/02A01N1/02F25D11/04F25D13/02F25D25/04
    • F25D23/025F25D11/04F25D13/02F25D25/04
    • A convection barrier (2) for a freezer (1) comprises a plurality of individual flaps (20) arranged one above the other in a manner such as to be capable of forming a closed curtain of individual flaps (20), with each individual flap (20) extending over a predetermined width corresponding at least to the width of the interior of the freezer and being pivotable (5) between a closed position and an open position so as to allow access to the interior of the freezer when the flap (20) is in the open position, and
      actuation means (24,240) attached to the individual flaps (20) for allowing an actuator (40.400) to engage the actuation means (24,240) of an individual flap (20) so as to pivot (5) the said flap (20) between the closed position and the open position.
    • 用于冷冻机(1)的对流屏障(2)包括多个单独的翼片(20),所述多个单独的翼片以能够形成单个翼片(20)的闭合帘幕的方式一个在另一个之上地布置, (20)延伸超过预定宽度,所述预定宽度至少对应于所述冷冻机的内部的宽度并且可在关闭位置和打开位置之间枢转(5),从而当所述翼片(20)能够进入所述冷冻机的内部时 )处于打开位置,并且致动装置(24,240)附接到单独的翼片(20),以允许致动器(40.400)接合单个翼片(20)的致动装置(24,240)以枢转(5) 所述翼片(20)在关闭位置和打开位置之间。
    • 4. 发明公开
    • Robotic Store
    • Roboterspeicher
    • EP2420812A2
    • 2012-02-22
    • EP09171692.8
    • 2009-09-29
    • F. Hoffmann-La Roche AG
    • Fattinger, ChristofHochstrasser, Remo AntonVoegelin, DieterZumstein, Thomas
    • G01N1/28G01N35/02
    • G01N35/028G01N35/0099G01N2035/00435G01N2035/0425
    • In a robotic store (1) for storing microplates carrying a plurality of sample tubes, the robotic store (1) comprises a freezer room (10) having a plurality of freezing units (100) and a first robot (16) being capable of removing a microplate from and moving a microplate into a said freezing unit (100). The first robot (16) is further capable of transferring the microplate to a processing station (111), wherein the microplates are stored in the freezing units (100) such that a plurality of microplates are arranged one above the other in a microplate recipient (103). The robotic store (1) comprises at least one processing room (11, 13) and means (15) for thermally separating the processing room (11, 13) from the freezer room (10). Each processing room (11, 13) comprises a processing station (111) having at least one tube transfer module (115) as well as a second robot (112) for moving the microplates between the microplate recipients (103) and said at least one tube transfer module (115). The first robot (16) is designed such that it is only capable of removing a said microplate recipient (103) from and moving it into a said freezing unit (100) as well as of transferring it from a said freezing unit (100) to a processing station (111) or vice versa.
    • 在用于存放携带多个样品管的微板的机器人商店(1)中,机器人商店(1)包括具有多个冷冻装置(100)和第一机器人(16)的冷冻室, 微板从微板移动到所述冷冻单元(100)中。 第一机器人(16)还能够将微板转移到处理站(111),其中微孔板被存储在冷冻单元(100)中,使得多个微孔板在微孔板接收器 103)。 机器人商店(1)包括至少一个处理室(11,13)和用于将处理室(11,13)与冷冻室(10)热分离的装置(15)。 每个处理室(11,13)包括具有至少一个管传送模块(115)的处理站(111)以及用于在微孔板接收器(103)和所述至少一个 管转移模块(115)。 第一机器人(16)被设计成使得其仅能够移除所述微板接收器(103)并将其移动到所述冷冻单元(100)中并将其从所述冷冻单元(100)传送到 处理站(111),反之亦然。
    • 5. 发明公开
    • Convection barrier
    • Konvektionssperre
    • EP2154456A1
    • 2010-02-17
    • EP09167047.1
    • 2009-08-03
    • F. Hoffmann-La Roche AG
    • Zumstein, ThomasFattinger, ChristofVoegelin, Dieter
    • F25D23/02A01N1/02F25D11/04F25D13/02F25D25/04
    • F25D23/025F25D11/04F25D13/02F25D25/04
    • A convection barrier (2) for a freezer (1) comprises a plurality of individual flaps (20) arranged one above the other in a manner such as to be capable of forming a closed curtain of individual flaps (20), with each individual flap (20) extending over a predetermined width corresponding at least to the width of the interior of the freezer and being pivotable (5) between a closed position and an open position so as to allow access to the interior of the freezer when the flap (20) is in the open position, and
      actuation means (24,240) attached to the individual flaps (20) for allowing an actuator (40.400) to engage the actuation means (24,240) of an individual flap (20) so as to pivot (5) the said flap (20) between the closed position and the open position.
    • 用于冷冻器(1)的对流屏障(2)包括多个单独的翼片(20),所述多个单独的翼片(20)以能够形成各个翼片(20)的闭合帘幕的方式彼此上下排列,每个单独的翼片 (20),其延伸超过对应于至少所述冷冻室内部的宽度的预定宽度,并且在关闭位置和打开位置之间可枢转(5),以便当所述挡板(20) )处于打开位置,并且致动装置(24,240)附接到各个翼片(20),用于允许致动器(40.400)接合单个翼片(20)的致动装置(24,240)以枢转(5) 所述挡板(20)在关闭位置和打开位置之间。
    • 7. 发明公开
    • Stacker for microplates
    • Stapelvorrichtung
    • EP1975627A3
    • 2015-12-16
    • EP08153322.6
    • 2008-03-26
    • F. Hoffmann-La Roche AG
    • Fattinger, ChristophZumstein, ThomasHochstrasser, Remo AntonVoegelin, Dieter
    • G01N35/02G01N35/00
    • G01N35/028G01N35/0099G01N2035/0425
    • A stacker (1) for storing a plurality of microplates each having a top surface side and a bottom surface side opposed to the top surface side, comprises a housing and a removal gate (13) for removing a microplate of the plurality of microplates out of the housing. The stacker (1) is arranged to accommodate the plurality of microplates inside the housing such that the top surface side of one microplate of the plurality of microplates abuts on the bottom surface side of an adjacent microplate of the plurality of microplates and such that the housing adjoins to the plurality of microplates. Using such a stacker 1, the plurality of microplates can be arranged and stored in a compact manner wherein the single microplates of the plurality of microplates can still selectively and efficiently be accessed. Further, due to the controlled access to the plurality of microplates being arranged inside the housing of the described stacker 1 via the removal gate 13, icing of the microplates can be minimized when the stacker is cooled for long term storage of samples arranged inside the microplates.
    • 一种用于存储多个微板的堆叠器(1),每个微板具有与顶表面侧相对的顶表面侧和底表面侧,包括壳体和移除栅极(13),用于将多个微孔板的微孔板从 住房。 堆叠器(1)被布置成在壳体内容纳多个微孔板,使得多个微孔板中的一个微孔板的顶表面侧邻接在多个微孔板的相邻微孔板的底表面侧上, 邻接多个微孔板。 使用这样的堆叠器1,可以以紧凑的方式布置和存储多个微板,其中多个微孔板的单个微孔板仍然可以选择性地和有效地被访问。 此外,由于经由去除浇口13被布置在所述堆垛机1的壳体内部被控制地接近多个微孔板,当堆垛机被冷却以长期储存设置在微孔板内的样品时,微板的结冰可以最小化 。
    • 9. 发明公开
    • Linear cuvette array without positioning means
    • 比色皿的集成线性阵列,试管和系统的二维阵列与试管的两个或更多个二维阵列
    • EP1792656A1
    • 2007-06-06
    • EP06124369.7
    • 2006-11-20
    • F. HOFFMANN-LA ROCHE AGWeidmann Plastics Technology AG
    • Kansy, ManfredZumstein, Thomas
    • B01L3/00
    • B01L3/50255B01L3/50855B01L2200/025B01L2200/028B01L2300/0829
    • The present invention relates to an integrally built, linear array of cuvettes made of a plastic material, every cuvette of the array having the same shape and dimensions, and neighboring cuvettes being connected to each other by a single web, each cuvette of said array has a symmetry axis (Y-Y), the symmetry axis (Y-Y) of every cuvette forming part of said array (21) of cuvettes lies in a plane (A-A) which extends along the length of said cuvette array, said array of cuvettes being characterized in that a) the cuvettes have an open lower end (33), b) at least two cuvettes (22) have means (31, 32) for removably connecting said cuvettes (22) to said cuvette holder, and c) each cuvette is connected by a single web to its neighboring cuvette, said single web is flexible and curved and successive single webs maybe on either one of opposite sides of the plane (A-A).
    • 本发明涉及一体地内置,由塑料材料制成的比色皿的线性阵列中,具有相同的形状和尺寸,与邻接试管阵列的每个比色杯是由一单个网相互连接,所述阵列的每个试管具有 试管的每个比色皿以形成所述阵列(21)的一部分的对称轴(YY),该对称轴(YY)位于哪一个沿所述试管阵列的长度延伸的平面(AA),比色杯的所述阵列的特征在 做了)的比色皿中有一个开放的下端(33),b)中的至少两个的比色皿(22)具有用于所述比色皿(22)可移除地连接到所述试管保持器装置(31,32),和c)每一个试管被连接 由单个web到其相邻的反应杯,所述单网络是柔性的,弯曲的和连续的单个幅材上也许无论是平面(AA)的相对侧中的一个。