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    • 2. 发明申请
    • METHOD AND MEASURING SYSTEM FOR DETERMINING AND/OR MONITORING FLOW OF A MEASURED MEDIUM IN A MEASURING TUBE
    • 用于测量和测量测量管中的测量介质的流量的方法和测量系统
    • US20110094309A1
    • 2011-04-28
    • US12999693
    • 2009-06-02
    • Andreas BergerFinn Bloch JensenRalf SonderkampAchim Wiest
    • Andreas BergerFinn Bloch JensenRalf SonderkampAchim Wiest
    • G01F1/66
    • G01F1/662G01F1/667G01F1/668G01F25/0007
    • Measuring system and method for determining and/or monitoring flow of a measured medium through a measuring tube with a first ultrasonic sensor and at least a second ultrasonic sensor, wherein the first ultrasonic sensor has at least one electromechanical ultrasonic transducer element and is placeable in a first region of the measuring tube, and wherein the second ultrasonic sensor has at least two electromechanical ultrasonic transducer elements and is placeable in a second region of the measuring tube in such a manner, that the ultrasonic signals transmittable through the measured medium from the first ultrasonic sensor are receivable by the second ultrasonic sensor, and that the ultrasonic signals transmittable through the measured medium from the second ultrasonic sensor are receivable by the first ultrasonic sensor, and with at least one control/evaluation unit, which, on the basis of the ultrasonic-measuring signals, or on the basis of measurement data, which are derived from the ultrasonic measuring signals, ascertains the volume flow and/or the mass flow of the measured medium flowing in the measuring tube by means of a travel-time difference method. During a diagnostic phase, ultrasonic signals are transmitted from the first ultrasonic sensor through the measured medium to the second ultrasonic sensor, and at least one process variable is ascertained and/or derived from the received ultrasonic signals for each electromechanical ultrasonic transducer element of the second ultrasonic sensor, and the electromechanical ultrasonic transducer elements of the second ultrasonic sensor which are to be active in a following measuring phase are selected on the basis of the process variable of the received ultrasonic signals.
    • 用于通过具有第一超声波传感器和至少第二超声波传感器的测量管确定和/或监测测量介质的流量的测量系统和方法,其中所述第一超声波传感器具有至少一个机电超声换能器元件,并且可放置在 并且其中所述第二超声波传感器具有至少两个机电超声换能器元件,并且可以这样的方式放置在所述测量管的第二区域中,使得所述超声波信号可通过所述测量的介质从所述第一超声波 传感器可由第二超声波传感器接收,并且通过测量的介质可从第二超声波传感器传送的超声波信号可由第一超声波传感器接收,并且具有至少一个控制/评估单元,其基于超声波 - 测量信号,或者基于测量数据 超声波测量信号,通过行程时差法确定在测量管中流动的测量介质的体积流量和/或质量流量。 在诊断阶段期间,超声波信号从第一超声波传感器通过所测量的介质传送到第二超声波传感器,并且从第二个超声波传感器的每个机电超声换能器元件确定和/或从接收到的超声波信号中导出至少一个过程变量 超声波传感器和第二超声波传感器的机电超声波换能器元件在接下来的超声波信号的过程变量的基础上选择在随后的测量阶段中有效。
    • 3. 发明授权
    • Coupling element of a sensor of an ultrasonic, flow measuring device
    • 超声波传感器的耦合元件,流量测量装置
    • US08560252B2
    • 2013-10-15
    • US12950085
    • 2010-11-19
    • Andreas BergerFrank WandelerAchim Wiest
    • Andreas BergerFrank WandelerAchim Wiest
    • G01F1/00G01D18/00
    • B06B3/00G01F1/662
    • A coupling element of a sensor of an ultrasonic, flow measuring device, which includes at least three rods having, in each case, a first rod end and a second rod end. The rods, in each case, have, on their respective first ends, first end faces, which, in each case, can be acoustically coupled with the sound-emitting and/or sound-receiving area of an ultrasonic transducer element. The respective first end faces of the rods together form a first coupling surface of the coupling element, and the rods, in each case, have, on their respective second ends, second end faces, which form a second coupling surface of the coupling element, wherein the rods, in each case, have a first rod cross section, which is different in shape and/or size from a respective second rod cross section.
    • 超声波测量装置的传感器的耦合元件,其包括至少三个杆,每个杆在每种情况下具有第一杆端和第二杆端。 在每种情况下,杆在它们各自的第一端具有在每种情况下可以与超声换能器元件的发声和/或声音接收区域声学耦合的第一端面。 杆的相应的第一端面一起形成联接元件的第一联接表面,并且在每种情况下,杆在它们各自的第二端具有形成联接元件的第二联接表面的第二端面, 其中,在每种情况下,所述杆具有与相应的第二杆横截面不同的形状和/或尺寸的第一杆横截面。
    • 4. 发明申请
    • Coupling element of a sensor of an ultrasonic, flow measuring device
    • 超声波传感器的耦合元件,流量测量装置
    • US20110118995A1
    • 2011-05-19
    • US12950085
    • 2010-11-19
    • Andreas BergerFrank WandelerAchim Wiest
    • Andreas BergerFrank WandelerAchim Wiest
    • G01F1/66
    • B06B3/00G01F1/662
    • A coupling element of a sensor of an ultrasonic, flow measuring device, which includes at least three rods having, in each case, a first rod end and a second rod end. The rods, in each case, have, on their respective first ends, first end faces, which, in each case, can be acoustically coupled with the sound-emitting and/or sound-receiving area of an ultrasonic transducer element. The respective first end faces of the rods together form a first coupling surface of the coupling element, and the rods, in each case, have, on their respective second ends, second end faces, which form a second coupling surface of the coupling element, wherein the rods, in each case, have a first rod cross section, which is different in shape and/or size from a respective second rod cross section.
    • 超声波测量装置的传感器的耦合元件,其包括至少三个杆,每个杆在每种情况下具有第一杆端和第二杆端。 在每种情况下,杆在它们各自的第一端具有在每种情况下可以与超声换能器元件的发声和/或声音接收区域声学耦合的第一端面。 杆的相应的第一端面一起形成联接元件的第一联接表面,并且在每种情况下,杆在它们各自的第二端具有形成联接元件的第二联接表面的第二端面, 其中,在每种情况下,所述杆具有与相应的第二杆横截面不同的形状和/或尺寸的第一杆横截面。
    • 5. 发明申请
    • Device for Determining and/or Monitoring a Volume Flow and/or a Mass Flow
    • 用于确定和/或监测体积流量和/或质量流量的装置
    • US20090095088A1
    • 2009-04-16
    • US11795894
    • 2005-12-16
    • Andreas BergerAchim WiestPatrick Oudoire
    • Andreas BergerAchim WiestPatrick Oudoire
    • G01F1/00
    • G01F1/662
    • An apparatus for ascertaining and/or monitoring volume- and/or mass-flow of a measured medium flowing in a flow direction through a measuring tube of predetermined inner diameter. The apparatus includes a plurality of ultrasonic sensors, which transmit and/or receive ultrasonic measuring signals along different, defined measuring paths, and a control/evaluation unit, which ascertains volume- and/or mass-flow of the measured medium in a pipeline/in the measuring tube on the basis of the ultrasonic measuring signals according to a sound entrainment method or the echo principle. At least two ultrasonic sensors, which transmit and/or receive the ultrasonic measuring signals on different measuring paths, are positioned in an opening located in the wall of the measuring tube.
    • 用于确定和/或监测沿流动方向流过预定内径的测量管的测量介质的体积和/或质量流量的装置。 该设备包括多个超声波传感器,其传送和/或接收沿着不同的定义的测量路径的超声波测量信号,以及控制/评估单元,其确定测量的介质在管道中的体积和/或质量流量, 在测量管中基于超声波测量信号,根据声音夹带方法或回波原理。 在不同测量路径上传输和/或接收超声波测量信号的至少两个超声波传感器位于测量管壁中的开口中。
    • 8. 发明授权
    • Ultrasonic mass flow rate monitoring device with ultrasonic sensor transmitting/receiving signals along defined sound paths of different lengths
    • 超声波质量流量监测装置,超声波传感器沿着不同长度的定义声道发送/接收信号
    • US08104359B2
    • 2012-01-31
    • US12083215
    • 2006-09-07
    • Achim WiestAndreas BergerOliver Brumberg
    • Achim WiestAndreas BergerOliver Brumberg
    • G01F1/66
    • G01F1/667
    • An ultrasonic, flow measuring device having a plurality of measuring channels. At least one ultrasonic sensor is situated in a first region of a pipeline, or measuring tube; at least two ultrasonic sensors are situated in a second region of the pipeline (5), or measuring tube, in such a manner that the ultrasonic measuring signals travel through the pipeline, or measuring tube, in, or opposite to, a stream direction of the medium, on sound paths of different lengths. A transmitting stage simultaneously excites the ultrasonic sensor, or the ultrasonic sensors, of the first or second region for transmitting the ultrasonic measuring signals. Due to the different lengths of the sound paths, the receiving stage detects the ultrasonic measuring signals incoming to the ultrasonic sensors of the second or first region at separate times. The evaluating stage ascertains, on the basis of travel-time difference of the ultrasonic measuring signals on the individual sound paths, in, and opposite to, the stream direction, volume- and/or mass-flow of the medium in the pipeline, or measuring tube.
    • 一种具有多个测量通道的超声波流量测量装置。 至少一个超声波传感器位于管道的第一区域或测量管中; 至少两个超声波传感器位于管道(5)的第二区域或测量管中,使得超声波测量信号通过管道或测量管行进或流过管道 介质,在不同长度的声音路径上。 发射台同时激发用于发射超声波测量信号的第一或第二区域的超声波传感器或超声波传感器。 由于声道的长度不同,接收台在分开的时间检测超声波测量信号进入第二或第一区域的超声波传感器。 评估阶段基于各个声道上的超声波测量信号的行进时间差,确定管道中的介质的流方向,体积和/或质量流量,或相反的方向,或者 测量管。
    • 9. 发明授权
    • Flow monitoring apparatus having an ultrasonic sensor with a coupling adapter having securing mechanism
    • 具有超声波传感器的流量监测装置,其具有具有固定机构的联接适配器
    • US08047081B2
    • 2011-11-01
    • US12224546
    • 2007-03-09
    • Oliver BerberigAndreas BergerPatrick OudoireAchim Wiest
    • Oliver BerberigAndreas BergerPatrick OudoireAchim Wiest
    • G01F1/66G01R33/20
    • G01F1/667G01F1/662G10K11/004
    • An apparatus for ascertaining, and/or monitoring, volume-or mass-flow of a medium flowing through a pipeline in the direction of the longitudinal axis of the pipeline. The apparatus includes: at least one ultrasonic sensor, which radiates/receives ultrasonic measuring signals at an angle of incidence/emergence into/out-of the pipeline; and a control/evaluation unit which provides, based on the ultrasonic measuring signals, information concerning volume- and/or mass-flow of the medium through the pipeline. The ultrasonic sensor includes at least one sound-producing element, a coupling shoe and a coupling adapter. The end region of the coupling adapter facing the coupling shoe has a securement mechanism for releasable securement of the coupling adapter to the coupling shoe. The end region of the coupling adapter facing the pipeline is embodied as a function of the pipeline in such a manner that it is form-fittingly securable to the pipeline.
    • 一种用于确定和/或监测在管道的纵向轴线方向上流过管道的介质的体积或质量流量的装置。 该装置包括:至少一个超声波传感器,其以入射/出射的角度辐射/接收超声波测量信号进/出管道; 以及控制/评估单元,其基于超声波测量信号提供关于通过管道的介质的体积和/或质量流量的信息。 超声波传感器包括至少一个声音产生元件,耦合靴和耦合适配器。 联接适配器面向联接靴的端部区域具有用于将联接适配器可释放地固定到联接器鞋的固定机构。 面向管道的联接适配器的端部区域以这样的方式被实现为管道的功能,使得其与管道形状适合地固定。