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    • 11. 发明授权
    • Fill-level measuring device
    • 填充液位测量装置
    • US08752426B2
    • 2014-06-17
    • US13496056
    • 2010-08-17
    • Peter WimbergerAlexander MullerSergej Lopatin
    • Peter WimbergerAlexander MullerSergej Lopatin
    • G01F23/00
    • G01K1/14G01D21/02G01F23/0076G01F23/2967H01L41/04
    • A fill-level measuring device with a membrane, which is placed in such a manner on one of the two end region of a tubular housing that it seals the housing on such end region. An oscillatable unit is placed on the side of the membrane facing away from the housing, with a driver/receiver unit, which is composed of a plurality of piezoelectric elements arranged in a stack. The driver/receiver unit is placed via a pressure screw unit in such a manner in the housing that it oscillates in the direction of the longitudinal axis of the housing between the membrane and the pressure screw unit. The driver/receiver unit excites the oscillatable unit via the membrane to execute oscillations, with a control/evaluation unit, which evaluates amplitude, frequency and/or phase of the oscillations of the oscillatable unit and with a temperature sensor for determining temperature of the medium. The temperature sensor is integrated in a fill-level measuring device element, which is in thermal contact with the medium via the membrane or the housing, wherein the element is so selected that the oscillatable unit oscillates unimpaired by the temperature sensor.
    • 具有膜的填充水平测量装置,其以这样的方式放置在管状壳体的两个端部区域中的一个上,其在该端部区域上密封壳体。 振动单元被放置在膜背面远离壳体的一侧,具有驱动器/接收器单元,其由布置在堆叠中的多个压电元件组成。 驱动器/接收器单元通过压力螺钉单元以这种方式放置在壳体中,使得其在壳体和压力螺钉单元之间的壳体的纵向轴线的方向上振荡。 驱动器/接收器单元通过膜激发可振荡单元以执行振荡,其中控制/评估单元评估振荡单元的振荡的振幅,频率和/或相位以及用于确定介质温度的温度传感器 。 温度传感器集成在通过膜或壳体与介质热接触的填充水平测量装置元件中,其中元件如此选择使得可振荡单元由温度传感器振荡而不受损坏。
    • 12. 发明申请
    • APPARATUS FOR DETERMINING AND/OR MONITORING A PROCESS VARIABLE OF A MEDIUM
    • 用于确定和/或监测中等变量的过程的装置
    • US20130104647A1
    • 2013-05-02
    • US13807396
    • 2011-06-20
    • Sergej LopatinMartin Urban
    • Sergej LopatinMartin Urban
    • G01F23/00
    • G01F23/00G01D3/0365G01F23/2967G01K7/32G01N9/002G01N11/16
    • An apparatus for determining and/or monitoring at least one process variable of a medium in a container which comprises a mechanically oscillatable structure, which has at least one oscillation characteristic dependent on the process variable, an electromechanical transducer having at least one piezoelectric element, which excites the structure, by means of an excitation signal supplied to the transducer, to execute mechanical oscillations, and which converts the resulting oscillations of the structure into a received signal, which corresponds to a superpositioning of the excitation signal and a wanted signal representing the oscillation. A reference element in parallel with the transducer and supplied with the excitation signal, via which a reference signal independent of the oscillation and corresponding to the excitation signal is tapped, and an electronics, which, based on the received signal and the reference signal, extracts the wanted signal, and, based on the wanted signal, determines and/or monitors the process variable, wherein, for automatic measuring of temperature of the transducer, the electronics includes a temperature measuring device, which supplies the transducer and the reference element, in temperature measurement operation, with an auxiliary signal, whose frequency lies outside a frequency range predetermined by a resonant frequency of the oscillatory structure, and, based on the wanted signal extracted in temperature measurement operation, determines a temperature of the transducer.
    • 一种用于确定和/或监测容器中的介质的至少一个过程变量的装置,其包括具有取决于过程变量的至少一个振荡特性的机械可振荡结构,具有至少一个压电元件的机电换能器, 通过提供给换能器的激励信号来激发结构,以执行机械振荡,并且将结构的振荡转换成接收信号,其对应于激励信号的叠加和表示振荡的有用信号 。 与传感器并联并提供有激励信号的参考元件,通过该参考元件独立于振荡并对应于激励信号的参考信号被抽头,以及基于接收信号和参考信号提取的电子装置 所需信号,并且基于所需信号,确定和/或监视过程变量,其中,为了自动测量换能器的温度,电子器件包括温度测量装置,其将换能器和参考元件供应到 温度测量操作,其辅助信号的频率位于由振荡结构的谐振频率预定的频率范围之外,并且基于在温度测量操作中提取的有用信号来确定换能器的温度。
    • 15. 发明授权
    • Device for determining and/or monitoring at least one physical or chemical process variable of a medium in a container
    • 用于确定和/或监测容器中介质的至少一个物理或化学过程变量的装置
    • US07530268B2
    • 2009-05-12
    • US10554199
    • 2004-04-21
    • Sergej LopatinHelmut Pfeiffer
    • Sergej LopatinHelmut Pfeiffer
    • G01N29/02G01F23/28G01N9/34
    • G01F23/2967G01N2291/02836
    • An apparatus for determining and/or monitoring at least one physical or chemical, process variable of a medium and includes at least one mechanically oscillatable unit and at least one driving/receiving unit. The mechanically oscillatable unit includes a tube and an internal oscillator. The tube is connected to a securement unit with an end turned away from the process and the end of the tube turned toward the process is embodied as a free end. The tube surrounds the internal oscillator and the internal oscillator is secured to the end of the tube turned toward the process with an end turned toward the process. The driving/receiving unit excites the mechanically oscillatable unit to oscillate, respectively it receives the oscillations of the mechanically oscillatable unit. The internal oscillator has at least one groove/neck, which determines at least the oscillation frequency of the mechanically oscillatable unit.
    • 一种用于确定和/或监测介质的至少一个物理或化学过程变量并且包括至少一个机械振荡单元和至少一个驱动/接收单元的装置。 机械振荡单元包括管和内部振荡器。 管连接到固定单元,其端部远离过程,并且朝向该过程的管的端部被实施为自由端。 管围绕内部振荡器,并且内部振荡器固定到管的端部,朝向过程转动,端部转向过程。 驱动/接收单元激发机械振荡单元振荡,分别接收机械振荡单元的振荡。 内部振荡器具有至少一个凹槽/颈部,其至少确定机械振荡单元的振荡频率。
    • 16. 发明授权
    • Measurement transducer of vibration-type
    • 振动型测量传感器
    • US07325461B2
    • 2008-02-05
    • US11634087
    • 2006-12-06
    • Ennio BittoGerhard EckertSergej LopatinChristian MattHelmut PfeifferAlfred RiederMartin Anklin-ImhofMartin Stucki
    • Ennio BittoGerhard EckertSergej LopatinChristian MattHelmut PfeifferAlfred RiederMartin Anklin-ImhofMartin Stucki
    • G01F1/84
    • G01F1/8477G01F1/8409G01F1/8413G01F1/8422G01F1/8427
    • The measurement transducer includes at least two oscillatably held transducer tubes vibrating, at least at times, during operation, of which at least one transducer tube serving to convey at least a volume portion of a medium to be measured, communicates with a pipeline; as well as at least one transducer element for converting electrical energy into mechanical and/or vice versa. The two transducer tubes are mechanically coupled together by means of at least one, inlet-side, coupling element and by means of at least one, outlet-side, coupling element in such a manner that both the inlet-side coupling element, as well as also the outlet-side coupling element, are subjected during operation repeatedly to deformations which correspond to vibrations of at least one of the two transducer tubes for converting electrical energy into mechanical, oscillatory energy and/or vice versa. The transducer element, especially a transducer element formed by means of a piezoelectric, deformation body, and at least one of the coupling elements, are, at least mediately, mechanically coupled together in such a manner that the transducer element executes, at least in part, oscillatory movements, which correspond with the repeated deformations at least of this coupling element.
    • 该测量传感器包括至少两个可振荡地保持的换能器管,至少在操作期间振动,其中至少一个用于输送要测量的介质的体积部分的换能器管与管道连通; 以及用于将电能转换成机械和/或反之亦然的至少一个换能器元件。 两个换能器管通过至少一个入口侧联接元件并且借助于至少一个出口侧联接元件以这样的方式机械耦合在一起,使得入口侧耦合元件以及 以及出口侧联接元件也在重复操作时经受对应于两个换能器管中的至少一个的振动的变形,用于将电能转换成机械振荡能量和/或反之亦然。 传感器元件,特别是通过压电变形体和至少一个耦合元件形成的换能器元件至少中介地以这样的方式机械耦合在一起,使得换能器元件至少部分地执行 ,振荡运动,其至少与该耦合元件的重复变形相对应。
    • 18. 发明授权
    • Apparatus for establishing and/or monitoring a predetermined filling
level in a container
    • 用于建立和/或监测容器中的预定填充水平的装置
    • US5969621A
    • 1999-10-19
    • US59160
    • 1998-04-13
    • Igor GetmanSergej Lopatin
    • Igor GetmanSergej Lopatin
    • B06B1/02B06B1/06G01F23/296G08B21/00
    • B06B1/0622B06B1/0692G01F23/2967B06B2201/74
    • An apparatus for establishing and/or monitoring a pre-determined filling level in a container is provided, in which the reception signal (E) corresponds to the desired measurement signal and in which a fixed phase difference (.DELTA..phi..sub.R), which is independent of the oscillation quality of the apparatus, exists between the transmission signal and the reception signal (E) at the resonant frequency (f.sub.r) of the mechanical oscillatory structure (1). The apparatus comprises a mechanical oscillatory structure (1) and a piezoelectric element (2), which has at least three regions, a first region (I) having a transmission electrode (21), a second region (II) having a first reception electrode (22) and a third region (III) having a second reception electrode (23), the two reception electrodes (22, 23) having an identical form and being arranged symmetrically with respect to one another and to the transmission electrode (21), and in the first and in the second region (I, II), the piezoelectric element (2) having a polarization which is in the opposite direction to a polarization of the third region (III). The reception signal (E) is equal to the difference between a first signal (E.sub.1), which is present at the first reception electrode (22), and a second signal (E.sub.2), which is present at the second reception electrode (23).
    • 提供了一种用于在容器中建立和/或监视预定填充水平的装置,其中接收信号(E)对应于期望的测量信号,其中固定相位差(DELTA phi R)是独立的 在机械振荡结构(1)的谐振频率(fr)处存在传输信号和接收信号(E)之间的装置的振荡质量。 该装置包括具有至少三个区域的机械振荡结构(1)和压电元件(2),具有透射电极(21)的第一区域(I),具有第一接收电极 (22)和具有第二接收电极(23)的第三区域(III),所述两个接收电极(22,23)具有相同的形状并且相对于彼此对称地布置到所述发送电极(21), 并且在第一和第二区域(I,II)中,压电元件(2)具有与第三区域(III)的极化方向相反的偏振。 接收信号(E)等于存在于第一接收电极(22)的第一信号(E1)与存在于第二接收电极(23)的第二信号(E2)之间的差, 。
    • 20. 发明授权
    • Method and apparatus for manufacturing a measuring device for determining and/or monitoring a process variable and measuring device
    • 用于制造用于确定和/或监视过程变量和测量装置的测量装置的方法和装置
    • US07934414B2
    • 2011-05-03
    • US10583096
    • 2004-12-14
    • Sergej LopatinBurkhard Lutterbeck
    • Sergej LopatinBurkhard Lutterbeck
    • G01D18/00G01B17/00
    • G01F23/296G01F23/2961G01F23/2968G01N2291/02836
    • A method for manufacturing a measuring device for determining and/or monitoring a process variable of a medium in a container. The measuring device includes: A mechanically oscillatable unit, which is securable via a securement to a sensor housing and/or to the container; and a driver/receiver unit, which excites the mechanically oscillatable unit to oscillate, or receives the oscillations of the mechanically oscillatable unit. The mechanically oscillatable unit is excited to oscillate, and the reaction forces and/or reaction moments are detected, which act on the securement due to the oscillations of the mechanically oscillatable unit, that a report is issued, when the reaction forces and/or reaction moments exceed predeterminable limit values, and that, in the case of a report, the mechanically oscillatable unit is adjusted as regards its oscillation properties.
    • 一种用于制造用于确定和/或监视容器中的介质的过程变量的测量装置的方法。 测量装置包括:机械振荡单元,其可通过固定件固定到传感器壳体和/或容器; 以及驱动器/接收器单元,其激励机械振荡单元振荡或接收机械可振荡单元的振荡。 机械振荡单元被激发以振荡,并且当反作用力和/或反作用力时,检测由于机械振荡单元的振荡而作用在固定上的反作用力和/或反作用力矩 力矩超过可预定的极限值,并且在报告的情况下,关于其振动特性调整机械振荡单元。