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    • 1. 发明申请
    • Sensor Head for Film Measurements
    • 电影测量用传感器头
    • US20110107818A1
    • 2011-05-12
    • US12938831
    • 2010-11-03
    • Stefan KonermannMarkus Stein
    • Stefan KonermannMarkus Stein
    • G01B13/06
    • G01B7/087B29C47/0021B29C47/92B29C2947/92152G01B7/08
    • A sensor head for measurement of a film, includes a guide surface (14) for the film, at least one sensor element (28, 30) integrated in the guide surface for measuring a property of the film, and a generator for generating an air cushion between the guide surface (14) and the film, the generator including a system for supplying a pressure medium, and a guide member (12) that is made of a porous material and forms at least a part of the guide surface (14) and is adapted to distributedly discharge the pressure medium into the air cushion, the guide member (12) having a channel system (16, 18) that divides the guide surface (14) into a plurality of fields (20, 22) that, if not disconnected, are connected only by narrow lands, the channel system being configured for draining the pressure medium from the air cushion.
    • 一种用于测量薄膜的传感器头,包括用于薄膜的导向表面(14),集成在导向表面中的用于测量薄膜性质的至少一个传感器元件(28,30)和用于产生空气的发生器 引导表面(14)和薄膜之间的缓冲垫,发生器包括用于供应压力介质的系统和由多孔材料制成并形成导向表面(14)的至少一部分的引导构件(12) 并且适于将所述压力介质分散地排放到所述气垫中,所述引导构件(12)具有通道系统(16,18),所述通道系统将所述引导表面(14)分成多个场(20,22),如果 没有断开连接,仅由狭窄的连接区连接,该通道系统被配置为从气垫排出压力介质。
    • 3. 发明申请
    • Method for Contactless Capacitive Thickness Measurements
    • 非接触电容厚度测量方法
    • US20100256951A1
    • 2010-10-07
    • US12664975
    • 2008-08-19
    • Stefan KonermannMarkus Stein
    • Stefan KonermannMarkus Stein
    • G01B7/06G01R27/26G06F15/00
    • G01B7/087
    • A method for contactless capacitive thickness measurement of a flat material (10) that is placed in the fringe field (32) of a capacitor (C1, C2), with simultaneous measurement of the width L of an air gap (16) between the flat material and the capacitor plates, in which the capacities gL, kL of two capacitors (C1, C2) are measured whose fringe fields (32) decay at different rates towards the flat material (10), and in that both, the thickness D of the flat material (10) and the width L of the air gap (16) are determined on the basis of the condition that, for each capacitor (C1, C2), the measured capacity gL, kL is equal to the integral of the capacity gradient g′, k′ over the thickness of the flat material (10).
    • 一种放置在电容器(C1,C2)的边缘区域(32)中的扁平材料(10)的非接触电容厚度测量方法,同时测量平坦的空气间隙(16)的宽度L 材料和电容器板,其中测量两个电容器(C1,C2)的电容gL,kL,其边缘场(32)以不同的速率朝向扁平材料(10)衰减,并且在两者中,厚度D 基于对于每个电容器(C1,C2),测量容量gL,kL等于容量的积分的条件来确定气隙(16)的扁平材料(10)和气隙(16)的宽度L 梯度g',k'超过扁平材料(10)的厚度。
    • 4. 发明授权
    • Sensor for the capacitive measurement of film with thicknesses
    • 用于具有厚度的膜的电容测量的传感器
    • US06541986B2
    • 2003-04-01
    • US09931445
    • 2001-08-16
    • Markus SteinStefan Konermann
    • Markus SteinStefan Konermann
    • G01R2726
    • G01B7/087G01D5/2405
    • A sensor for the capacitive measurement of film thicknesses, with a drum (10), which rolls along the film (12) and has at least one measuring capacitor (C1-C4), the plates of which are disposed in the peripheral surface of the drum (10), so that its capacitance is effected by the thickness of the firm, and with a transformer (26), for transmitting the measurement signal from the rotating drum (10) to the stationary part (28), where an oscillator (OSZ1-OSZ4), which is integrated in the drum (10), generates a frequency signal (24), which depends on the capacitance of the measuring capacitor (C1-C4).
    • 一种用于电容测量膜厚度的传感器,具有滚筒(10),其沿着膜(12)滚动并且具有至少一个测量电容器(C1-C4),其板被设置在所述膜的外周表面中 鼓(10),使得其电容由公司的厚度和用于将测量信号从旋转鼓(10)传输到静止部分(28)的变压器(26)实现,其中振荡器 集成在滚筒(10)中的OSZ1-OSZ4)产生取决于测量电容器(C1-C4)的电容的频率信号(24)。
    • 5. 发明授权
    • Method for contactless capacitive thickness measurements
    • 非接触电容厚度测量方法
    • US08315833B2
    • 2012-11-20
    • US12664975
    • 2008-08-19
    • Stefan KonermannMarkus Stein
    • Stefan KonermannMarkus Stein
    • G01B7/02G01B11/02G01B13/02
    • G01B7/087
    • A method for contactless capacitive thickness measurement of a flat material (10) that is placed in the fringe field (32) of a capacitor (C1,C2), with simultaneous measurement of the width L of an air gap (16) between the flat material and the capacitor plates, in which the capacities gL, kL of two capacitors (C1, C2) are measured whose fringe fields (32) decay at different rates towards the flat material (10), and in that both, the thickness D of the flat material (10) and the width L of the air gap (16) are determined on the basis of the condition that, for each capacitor (C1, C2), the measured capacity gL, kL is equal to the integral of the capacity gradient g′, k′ over the thickness of the flat material (10).
    • 一种放置在电容器(C1,C2)的边缘区域(32)中的扁平材料(10)的非接触电容厚度测量方法,同时测量平坦的空气间隙(16)的宽度L 材料和电容器板,其中测量两个电容器(C1,C2)的电容gL,kL,其边缘场(32)以不同的速率朝向扁平材料(10)衰减,并且在两者中,厚度D 基于对于每个电容器(C1,C2),测量容量gL,kL等于容量的积分的条件来确定气隙(16)的扁平材料(10)和气隙(16)的宽度L 梯度g',k'超过扁平材料(10)的厚度。
    • 6. 发明申请
    • Apparatus for Metering and Mixing Pourable Material Components
    • 用于计量和混合可浇注材料部件的设备
    • US20100220546A1
    • 2010-09-02
    • US12680560
    • 2008-10-16
    • Stefan Konermann
    • Stefan Konermann
    • B01F15/04
    • G01G13/024B01F5/24B01F15/0201B01F15/0234B01F15/0445G01G19/32
    • Apparatus for dosed mixing of pourable material components, includes a mixing container, two weighing containers, each of the weighing containers including a closable discharge opening for discharging the weighing container into the mixing container; and a weighing device for weighing the content of the weighing container, and several storage containers for respective material components, each storage container including a feeding device for feeding material from the storage container to an assigned weighing container, wherein and the mixing container is arranged below the weighing containers such that the weighing containers are simultaneously dischargeable through the discharge openings into the mixing container.
    • 用于可倾倒材料部件的剂量混合的装置包括混合容器,两个称重容器,每个称重容器包括用于将称重容器排放到混合容器中的可关闭的排放口; 以及用于称量称重容器的内容物的称重装置和用于各个材料部件的几个储存容器,每个储存容器包括用于将材料从储存容器供给到指定的称重容器的进料装置,其中混合容器布置在下面 称重容器使得称重容器可以通过排放口同时排放到混合容器中。
    • 8. 发明授权
    • Apparatus for metering and mixing pourable material components
    • 用于计量和混合可倾倒材料部件的装置
    • US08562204B2
    • 2013-10-22
    • US12680560
    • 2008-10-16
    • Stefan Konermann
    • Stefan Konermann
    • B01F15/02
    • G01G13/024B01F5/24B01F15/0201B01F15/0234B01F15/0445G01G19/32
    • Apparatus for dosed mixing of pourable material components, includes a mixing container, two weighing containers, each of the weighing containers including a closable discharge opening for discharging the weighing container into the mixing container; and a weighing device for weighing the content of the weighing container, and several storage containers for respective material components, each storage container including a feeding device for feeding material from the storage container to an assigned weighing container, and the mixing container is arranged below the weighing containers such that the weighing containers are simultaneously dischargeable through the discharge openings into the mixing container.
    • 用于可倾倒材料部件的剂量混合的装置包括混合容器,两个称重容器,每个称重容器包括用于将称重容器排放到混合容器中的可关闭的排放口; 以及用于称量称重容器的内容物的称重装置和用于各个材料部件的几个储存容器,每个储存容器包括用于将材料从储存容器供给到指定的称重容器的进料装置,并且混合容器布置在 称重容器,使得称重容器可以通过排放口同时排放到混合容器中。
    • 9. 发明授权
    • Sensor head for film measurements
    • 用于胶片测量的传感头
    • US08561455B2
    • 2013-10-22
    • US12938831
    • 2010-11-03
    • Stefan KonermannMarkus Stein
    • Stefan KonermannMarkus Stein
    • G01B13/06
    • G01B7/087B29C47/0021B29C47/92B29C2947/92152G01B7/08
    • A sensor head for measurement of a film, includes a guide surface (14) for the film, at least one sensor element (28, 30) integrated in the guide surface for measuring a property of the film, and a generator for generating an air cushion between the guide surface (14) and the film, the generator including a system for supplying a pressure medium, and a guide member (12) that is made of a porous material and forms at least a part of the guide surface (14) and is adapted to distributedly discharge the pressure medium into the air cushion, the guide member (12) having a channel system (16, 18) that divides the guide surface (14) into a plurality of fields (20, 22) that, if not disconnected, are connected only by narrow lands, the channel system being configured for draining the pressure medium from the air cushion.
    • 一种用于测量薄膜的传感器头,包括用于薄膜的导向表面(14),集成在导向表面中的用于测量薄膜性质的至少一个传感器元件(28,30)和用于产生空气的发生器 引导表面(14)和薄膜之间的缓冲垫,发生器包括用于供应压力介质的系统和由多孔材料制成并形成导向表面(14)的至少一部分的引导构件(12) 并且适于将所述压力介质分散地排放到所述气垫中,所述引导构件(12)具有通道系统(16,18),所述通道系统将所述引导表面(14)分成多个场(20,22),如果 没有断开连接,仅由狭窄的连接区连接,该通道系统被配置为从气垫排出压力介质。