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    • 1. 发明授权
    • Balance with scale on top
    • 平衡与规模在上面
    • US5771986A
    • 1998-06-30
    • US503484
    • 1995-07-18
    • Heinz-Gerhard KohnJorg Peter MartensMichael LaubsteinCarsten TischerWinfried GrafEduard Bierich
    • Heinz-Gerhard KohnJorg Peter MartensMichael LaubsteinCarsten TischerWinfried GrafEduard Bierich
    • G01G21/24
    • G01G21/244
    • A toploaded balance in accordance with the principle of the electromagnetic compensation of force with a divided upper guide rod (3, 3') and a divided lower guide rod (4, 4') which together as a parallel guide connect a load receiver (2) to a system carrier (1) fixed to the housing, which system carrier (1), load receiver (2) and guide rods (3, 3', 4, 4') form a one-piece base, with a translation lever (5) rotatably mounted by two flexible articulations (7) on the system carrier (1), with a coupling element (12) connected by flexible articulations on the one hand to the load receiver (2) and on the other hand to the short lever arm of the translation lever (5), with a magnet build, as viewed from above, into the free space between the parts of the guide rods (3, 3', 4, 4') and their extensions on the system-carrier side and with a coil fastened on the longer lever arm of the translation lever (5) and extending into the air gap of the magnet, the translation lever (5), the two flexible articulations (7) for mounting the translation lever (5) and the coupling element (12) with its flexible articulations (13, 14) are also a one-piece component of the base. In this manner errors by screwing the flexible articulations (7) and warping and non-reproducible return forces from other screw connections can be avoided.
    • 根据电磁补偿的原理,通过分开的上引导杆(3,3')和分开的下引导杆(4,4')的主体平衡,它们作为平行引导件一起连接负载接收器(2) )固定到固定到壳体的系统载体(1),该系统载体(1),载荷接收器(2)和导杆(3,3',4,4')形成一体式底座,其具有平移杆 (5)通过两个柔性关节(7)可旋转地安装在所述系统载体(1)上,其中一个联接元件(12)通过柔性铰接连接到所述负载接收器(2),另一方面由所述短接头 平移杆(5)的杠杆臂,具有从上方观察的磁体构造到导杆(3,3',4,4')的部分之间的自由空间及其在系统载体上的延伸部 并且具有紧固在所述平移杆(5)的较长杆臂上并延伸到所述磁体的气隙中的线圈,所述平移杆(5),所述两个柔性 用于将平移杆(5)和联接元件(12)与其柔性铰接件(13,14)一起安装的铰接件(7)也是基座的一体式部件。 以这种方式,可以避免通过旋拧柔性关节(7)和来自其它螺钉连接的翘曲和不可再现的返回力的错误。
    • 3. 发明申请
    • METHOD FOR TESTING THE INTEGRITY OF A HYDROPHOBIC POROUS DIAPHRAGM FILTER
    • 用于测试疏水性多孔透膜过滤器的完整性的方法
    • US20140298893A1
    • 2014-10-09
    • US14240645
    • 2012-06-26
    • Michael LaubsteinJuergen Van Den BoogaardDirk Leiser
    • Michael LaubsteinJuergen Van Den BoogaardDirk Leiser
    • G01N15/08
    • G01N15/0826B01D65/102
    • A method for testing integrity of a hydrophobic, porous diaphragm filter (42) includes arranging the filter (42) in a non-wetted state in a test housing (30) so that the filter (42) divides an upstream housing region (30a) from a downstream housing region (30b), completely filling the upstream housing region (30a) with a test liquid that does not wet the hydrophobic diaphragm filter (42), incompletely filling a reservoir (12) that is connected to a liquid feed line (16) of the test housing (30), charging the reservoir (12) with compressed air at a constant pressure below the intrusion pressure of the filter, and determining a substance flow at the reservoir (12). The substance flow to be determined is a mass flow out of the reservoir (12) determined as a decrease in the overall weight of the reservoir (12).
    • 一种用于测试疏水性多孔膜过滤器(42)的完整性的方法包括将过滤器(42)以非润湿状态布置在测试壳体(30)中,使得过滤器(42)将上游壳体区域(30a) 从下游壳体区域(30b)中,用不会使疏水膜过滤器(42)不润湿的测试液体完全填充上游壳体区域(30a),不完全地填充连接到液体供给管线的储存器(12) 16),其中压缩空气在低于过滤器的入侵压力的恒定压力下对储存器(12)进行充电,并且确定储存器(12)处的物质流。 要确定的物质流量是由储存器(12)排出的质量流量,其确定为储存器(12)的总重量的减小。