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    • 1. 发明授权
    • Method for ascertaining volume—or mass—flow of a medium
    • 确定介质体积或质量流量的方法
    • US08573026B2
    • 2013-11-05
    • US11918754
    • 2006-04-20
    • Thomas FroehlichMatthias AltendorfTorsten Strunz
    • Thomas FroehlichMatthias AltendorfTorsten Strunz
    • G01P21/00
    • G01F1/667G01F25/0007G01F25/003
    • A method for ascertaining volume- or mass-flow of a medium in a pipeline, or measuring tube, of radius (r) via a sound entrainment method, wherein ultrasonic measuring signals are transmitted and/or received along a plurality of defined sound paths (m). During a calibration phase, successive, different flow profiles (v(r)) of a measured medium are established in the pipeline, or in the measuring tube, and wherein, for each flow profile (v(r)), a defined volume flow, or a defined mass flow, is ascertained, wherein, on the basis of measured values (vx(r1) . . . vx(rm)) ascertained in the separate measuring paths (m), each flow profile (v(r)) established in the pipeline, or in the measuring tube, is described by a characteristic parameter set (a1, . . . , an with nεN) and wherein, for each flow profile (V(r)), on the basis of the defined volume- or mass-flow and on the basis of the measured volume- or mass-flow, a flow-profile-dependent correction factor MF(a1, . . . , an) is calculated, and wherein, subsequently in measurement operation, a volume- or mass-flow ascertained via the parameter set (a1, . . . , an, with nεN) is corrected with the flow-profile-dependent correction factor MF(a1, . . . , an) determined during the calibration phase.
    • 一种用于通过声音夹带方法确定管道或测量管中的介质的体积或质量流量的方法,其中超声测量信号沿着多个限定的声音路径被发送和/或接收( m)。 在校准阶段期间,在管线或测量管中建立测量介质的连续不同流量分布(v(r)),并且其中,对于每个流量分布(v(r)),定义的体积流量 ,或确定的质量流量,其中,基于在单独的测量路径(m)中确定的测量值(vx(r1)... vx(rm)),每个流量分布(v(r)) 在管道中或在测量管中建立的特征参数集(a1,...,an,nepsilonN)描述,并且其中,对于每个流量分布(V(r)),基于所定义的体积 - 或质量流量,并且基于测量的体积流量或质量流量,计算流量分布相关的校正因子MF(a1,...,a),并且其中,随后在测量操作中, - 通过参数集(a1,...,an,与nepsilonN)确定的 - 流量校正因子在CA期间确定的流量分布相关校正因子MF(a1,...,a) 解析阶段
    • 2. 发明申请
    • Method for ascertaining volume -or mass- flow of a medium
    • 确定介质的体积或质量流量的方法
    • US20090211330A1
    • 2009-08-27
    • US11918754
    • 2006-04-20
    • Thomas FroehlichMatthias AltendorfTorsten Strunz
    • Thomas FroehlichMatthias AltendorfTorsten Strunz
    • G01F25/00G01F1/66
    • G01F1/667G01F25/0007G01F25/003
    • A method for ascertaining volume- or mass-flow of a medium in a pipeline, or measuring tube, of radius (r) via a sound entrainment method, wherein ultrasonic measuring signals are transmitted and/or received along a plurality of defined sound paths (m). During a calibration phase, successive, different flow profiles (v(r)) of a measured medium are established in the pipeline, or in the measuring tube, and wherein, for each flow profile (v(r)), a defined volume flow, or a defined mass flow, is ascertained, wherein, on the basis of measured values (v)x(r1) . . . vx(rm)) ascertained in the separate measuring paths (m), each flow profile (v(r)) established in the pipeline, or in the measuring tube, is described by a characteristic parameter set (a1 . . . an with nεN) and wherein, for each flow profile (V(r)), on the basis of the defined volume- or mass-flow and on the basis of the measured volume- or mass-flow, a flow-profile-dependent correction factor MF(a1, . . . , an) is calculated, and wherein, subsequently in measurement operation, a volume- or mass-flow ascertained via the parameter set (a1, . . . , an, with nεN) is corrected with the flow-profile-dependent correction factor MF(a1, . . . , an) determined during the calibration phase.
    • 一种用于通过声音夹带方法确定管道或测量管中的介质的体积或质量流量的方法,其中超声测量信号沿着多个限定的声音路径被发送和/或接收( m)。 在校准阶段期间,在管线或测量管中建立测量介质的连续不同流量分布(v(r)),并且其中,对于每个流量分布(v(r)),定义的体积流量 ,或确定的质量流量,其中,基于测量值(v)x(r1)。 。 。 在单独的测量路径(m)中确定的vx(rm)),在流水线中或在测量管中建立的每个流量分布(v(r))由特征参数集(a1 ... a与nepsilonN ),并且其中,对于每个流量分布(V(r)),基于所确定的体积或质量流量,并且基于测量的体积或质量流量,流量分布相关的校正因子MF (a1,...,a),并且其中,随后在测量操作中,经由参数集(a1,...,a,与nepsilonN)确定的体积或质量流量被校正, 在校准阶段确定的归一化相关校正因子MF(a1,...,an)。
    • 3. 发明申请
    • APPARATUS AND SYSTEM FOR DETERMINING, OPTIMIZING OR MONITORING AT LEAST ONE PROCESS VARIABLE
    • 用于确定,优化或监控至少一个过程的装置和系统可变
    • US20140032177A1
    • 2014-01-30
    • US14009349
    • 2012-03-15
    • Matthias AltendorfMarc Bret
    • Matthias AltendorfMarc Bret
    • G05B19/042
    • G05B19/0425G05B19/042
    • An apparatus for determining or monitoring at least one process variable which comprises a sensor element, measuring electronics, at least one control/evaluating/calculating unit arranged removed from the measuring unit and/or an in/output unit arranged removed from the measuring unit and the control/evaluating/calculating unit. The control/evaluating/calculating unit and the in/output unit are connected with the measuring unit via a first interface, respectively a second interface, wherein the measuring electronics operates the sensor element and forwards the measurement signals via the interfaces to the control/evaluating/calculating unit as unprocessed, raw, measured values, and wherein the control/evaluating/calculating unit arranged removed from the measuring unit determines, improves and/or monitors the process variable based on the raw, measured values and makes such available via the in/output unit.
    • 一种用于确定或监测至少一个过程变量的装置,包括传感器元件,测量电子器件,从测量单元移除的至少一个控制/评估/计算单元和/或从测量单元排除的输入/输出单元, 控制/评估/计算单元。 控制/评估/计算单元和输入/输出单元经由第一接口分别与测量单元连接,第二接口,其中测量电子器件操作传感器元件,并且经由接口将测量信号转发到控制/评估 /计算单元作为未处理的原始测量值,并且其中从测量单元移除的控制/评估/计算单元基于原始测量值确定,改进和/或监视过程变量,并且通过在 /输出单元。
    • 6. 发明授权
    • Sonic- or ultrasonic flowmeter
    • 声波或超声波流量计
    • US07044001B2
    • 2006-05-16
    • US10809708
    • 2004-03-26
    • Dean SylviaJoe SchafferMatthias AltendorfMike TouzinThomas Fröhlich
    • Dean SylviaJoe SchafferMatthias AltendorfMike TouzinThomas Fröhlich
    • G01F1/84
    • G01F15/14G01F1/662G01F15/18G01F15/185
    • A sonic- or ultrasonic flowmeter, suitable for replacement of differential pressure flowmeters, comprising: a pipe segment, to be connected to a first and a second pipe, each having a diameter, which complies to an industry standard for pipe diameters used in differential pressure flow measurement, having a length (L), which is equal to a standard length for a flow restricting element of a differential pressure flowmeter, having a diameter (D), which is equal to a standard for pipe diameters used in differential pressure flow measurement, comprising a first standard connector located on a first end of the pipe segment, and a second standard connector located on a second end of the pipe segment, a primary flow sensor, comprising at least one sonic- or ultrasonic transducer for transmission and/or reception of sonic- or ultrasonic signals through the pipe segment, mounted on the pipe segment, and a sensor electronic for providing a measurement signal representing a flow of fluid through the pipe segment, based on signals received by the sonic- or ultrasonic transducers.
    • 一种适用于更换差压流量计的声波或超声流量计,包括:连接到第一和第二管的管段,每个具有直径,其符合用于差压的管道直径的工业标准 具有与差压流量计的流量限制元件的标准长度相等的具有直径(D)的长度(L)的流量测量值,其等于压差流量测量中使用的管道直径的标准 ,包括位于所述管段的第一端上的第一标准连接器和位于所述管段的第二端上的第二标准连接器,主流量传感器,包括至少一个用于传输的声波或超声换能器和/或 通过安装在管段上的管段接收声波或超声波信号,以及传感器电子装置,用于提供表示流体流过的测量信号 管段,基于由声波或超声波换能器接收的信号。
    • 7. 发明授权
    • Method for manufacturing measuring transducers
    • 测量传感器的制造方法
    • US08789424B2
    • 2014-07-29
    • US13139779
    • 2009-11-20
    • Andreas MayrMichael PhilippsMatthias Altendorf
    • Andreas MayrMichael PhilippsMatthias Altendorf
    • G01L9/10G01L9/14
    • G01L19/086G01L9/0075G01L9/125G01L27/005G01L27/007Y10T29/49004
    • A method for manufacturing measuring transducers, especially pressure or pressure difference measuring transducers, in which a high degree of quality, safety and accuracy of measurement is achievable with little logistical and manufacturing effort. The measuring transducer has a memory readable and writable via an associated RFID interface, and at least one sensor for registering a physical, measured variable and for transducing such into an electrical variable, wherein the sensor is equipped with sensor electronics, which serves to condition the electrical variable into an electrical measurement signal dependent on the measured variable, and which is equipped with an RFID transponder, via which the sensor is supplied with energy, and via which measurement signals can be read out wirelessly. The measuring transducers and/or their sensors are subjected to at least one calibration and/or test procedure, in which the sensors are exclusively supplied with energy via their RFID transponders, and their measurement signals are read out via their RFID transponders, and measuring transducer specific and/or sensor specific data derived during the calibration and/or test procedure are stored in the memory via the RFID interface.
    • 一种用于制造测量传感器的方法,特别是压力或压力差测量传感器,其中可以实现高度的质量,安全性和测量精度,而很少的后勤和制造努力。 测量传感器具有通过相关联的RFID接口可读写的存储器,以及至少一个用于记录物理测量变量并用于将其变换成电变量的传感器,其中传感器配备有传感器电子器件,其用于调节 电变量转换为取决于测量变量的电测量信号,并且其配备有RFID应答器,通过该RFID应答器向传感器提供能量,并且经由其可无线地读出测量信号。 测量传感器和/或其传感器经受至少一个校准和/或测试程序,其中传感器经由其RFID应答器专门提供能量,并且其测量信号通过其RFID应答器读出,并且测量换能器 在校准和/或测试过程期间导出的具体和/或传感器特定数据经由RFID接口存储在存储器中。
    • 8. 发明申请
    • Method for Adjusting a Measuring Device
    • 调整测量装置的方法
    • US20120130509A1
    • 2012-05-24
    • US13297553
    • 2011-11-16
    • Matthias AltendorfPeter KlöferDietmar Spanke
    • Matthias AltendorfPeter KlöferDietmar Spanke
    • G05B13/04
    • G01F23/296G01F23/0069G01F23/0076G01F23/284G01F23/2962
    • A method and a system for adjusting a measuring device. The measuring device, determines the physical or chemical process variable based on measurement data; an analytical tool, ascertains the analytical data from the measurement data; a database, in which data sets with analytical data for different process conditions and associated parameter sets for adjusting the measuring device are stored, or in which a plurality of models with associated calculational specifications are stored, which produce the analytical data; and a calculation/control unit, which compares the ascertained analytical data with the stored analytical data, ascertains that data set of the stored analytical data, which has maximum agreement with the ascertained analytical data and adjusts the measuring device corresponding to the associated parameter set.
    • 一种用于调节测量装置的方法和系统。 测量装置根据测量数据确定物理或化学过程变量; 一个分析工具,从测量数据中确定分析数据; 数据库,其中存储具有用于不同过程条件的分析数据和用于调整测量装置的相关参数组的数据集,或者存储具有相关联的计算规范的多个模型,其产生分析数据; 以及计算/控制单元,其将确定的分析数据与存储的分析数据进行比较,确定与所确定的分析数据最大一致的所存储的分析数据的数据集,并且调整与相关联的参数集相对应的测量装置。
    • 9. 发明申请
    • METHOD FOR MANUFACTURING MEASURING TRANSDUCERS
    • 制造测量传感器的方法
    • US20110247424A1
    • 2011-10-13
    • US13139779
    • 2009-11-20
    • Andreas MayrMichael PhilippsMatthias Altendorf
    • Andreas MayrMichael PhilippsMatthias Altendorf
    • G01L9/14G01R31/28
    • G01L19/086G01L9/0075G01L9/125G01L27/005G01L27/007Y10T29/49004
    • A method for manufacturing measuring transducers, especially pressure or pressure difference measuring transducers, in which a high degree of quality, safety and accuracy of measurement is achievable with little logistical and manufacturing effort. The measuring transducer has a memory readable and writable via an associated RFID interface, and at least one sensor for registering a physical, measured variable and for transducing such into an electrical variable, wherein the sensor is equipped with sensor electronics, which serves to condition the electrical variable into an electrical measurement signal dependent on the measured variable, and which is equipped with an RFID transponder, via which the sensor is supplied with energy, and via which measurement signals can be read out wirelessly. The measuring transducers and/or their sensors are subjected to at least one calibration and/or test procedure, in which the sensors are exclusively supplied with energy via their RFID transponders, and their measurement signals are read out via their RFID transponders, and measuring transducer specific and/or sensor specific data derived during the calibration and/or test procedure are stored in the memory via the RFID interface.
    • 一种用于制造测量传感器的方法,特别是压力或压力差测量传感器,其中可以实现高度的质量,安全性和测量精度,而很少的后勤和制造努力。 测量传感器具有通过相关联的RFID接口可读写的存储器,以及至少一个用于记录物理测量变量并用于将其变换成电变量的传感器,其中传感器配备有传感器电子器件,其用于调节 电变量转换为取决于测量变量的电测量信号,并且其配备有RFID应答器,通过该RFID应答器向传感器提供能量,并且经由其可无线地读出测量信号。 测量传感器和/或其传感器经受至少一个校准和/或测试程序,其中传感器经由其RFID应答器专门提供能量,并且其测量信号通过其RFID应答器读出,并且测量换能器 在校准和/或测试过程期间导出的具体和/或传感器特定数据经由RFID接口存储在存储器中。
    • 10. 发明申请
    • Sonic- or ultrasonic flowmeter
    • 声波或超声波流量计
    • US20050210999A1
    • 2005-09-29
    • US10809708
    • 2004-03-26
    • Dean SylviaJoe SchafferMatthias AltendorfMike TouzinThomas Frohlich
    • Dean SylviaJoe SchafferMatthias AltendorfMike TouzinThomas Frohlich
    • G01F1/66G01F15/14G01F15/18
    • G01F15/14G01F1/662G01F15/18G01F15/185
    • A sonic- or ultrasonic flowmeter, suitable for replacement of differential pressure flowmeters, comprising: a pipe segment, to be connected to a first and a second pipe, each having a diameter, which complies to an industry standard for pipe diameters used in differential pressure flow measurement, having a length (L), which is equal to a standard length for a flow restricting element of a differential pressure flowmeter, having a diameter (D), which is equal to a standard for pipe diameters used in differential pressure flow measurement, comprising a first standard connector located on a first end of the pipe segment, and a second standard connector located on a second end of the pipe segment, a primary flow sensor, comprising at least one sonic- or ultrasonic transducer for transmission and/or reception of sonic- or ultrasonic signals through the pipe segment, mounted on the pipe segment, and a sensor electronic for providing a measurement signal representing a flow of fluid through the pipe segment, based on signals received by the sonic- or ultrasonic transducers.
    • 一种适用于更换差压流量计的声波或超声流量计,包括:连接到第一和第二管的管段,每个具有直径,其符合用于差压的管道直径的工业标准 具有与差压流量计的流量限制元件的标准长度相等的具有直径(D)的长度(L)的流量测量值,其等于压差流量测量中使用的管道直径的标准 ,包括位于所述管段的第一端上的第一标准连接器和位于所述管段的第二端上的第二标准连接器,主流量传感器,包括至少一个用于传输的声波或超声换能器和/或 通过安装在管段上的管段接收声波或超声波信号,以及传感器电子装置,用于提供表示流体流过的测量信号 管段,基于由声波或超声波换能器接收的信号。