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    • 51. 发明授权
    • Method and measuring system for determining and/or monitoring the flow of a measured medium through a measuring tube
    • 用于确定和/或监测通过测量管的测量介质的流动的方法和测量系统
    • US08757006B2
    • 2014-06-24
    • US13055528
    • 2009-07-07
    • Andreas BergerAchim Wiest
    • Andreas BergerAchim Wiest
    • G01F1/20
    • G01F15/18G01F1/662
    • A measuring system for determining and/or monitoring flow of a measured medium through a measuring tube, wherein the measuring system includes: at least one control/evaluation unit, which, based on ultrasonic measurement signals, or based on measurement data derived from the ultrasonic measurement signals, ascertains volume, and/or mass, flow of the measured medium flowing in the measuring tube; and a sensor housing, which surrounds a first ultrasonic sensor and at least a second ultrasonic sensor. At least the first ultrasonic sensor is seated shiftably in the sensor housing; wherein the measuring system further includes a sensor holder, which is securable on the measuring tube and includes a securement mechanism for the releasable securement of the sensor housing on the sensor holder. The sensor housing forms with the ultrasonic sensors a unit securable on the sensor holder and releasable from the sensor holder.
    • 一种用于通过测量管确定和/或监测测量介质的流量的测量系统,其中所述测量系统包括:至少一个控制/评估单元,其基于超声波测量信号,或基于从超声波测得的测量数据 测量信号,确定在测量管中流动的测量介质的体积和/或质量流量; 以及传感器壳体,其围绕第一超声波传感器和至少第二超声波传感器。 至少第一超声波传感器可移动地安置在传感器壳体中; 其中所述测量系统还包括传感器保持器,所述传感器保持器可固定在所述测量管上并且包括用于将所述传感器壳体可释放地固定在所述传感器保持器上的固定机构。 传感器外壳与超声波传感器形成一个单元,固定在传感器支架上并可从传感器支架释放。
    • 52. 发明申请
    • Ultrasonic, Flow Measuring Device
    • 超声波,流量测量装置
    • US20140144247A1
    • 2014-05-29
    • US14232385
    • 2012-06-06
    • Achim WiestAndreas BergerSascha Gruwald
    • Achim WiestAndreas BergerSascha Gruwald
    • G01F1/66
    • G01F1/66G01F1/662
    • An ultrasonic, flow measuring device, including a measuring tube a transmitter a receiver and at least a first reflection surface. An acoustic signal incident on a first reflection surface and an acoustic signal reflected on the first reflection surface travel, in each case, along a straight subsection of the first signal path. The transmitter, the receiver and the first reflection surface are so oriented with respect to one another and arranged in or on the measuring tube that the acoustic signal on the first signal path from the first transmitter to the first receiver is so reflected on the first reflection surface that the sum of all lengths of all subsections as projected on a measuring tube axis, extending in a first plane parallel to the measuring tube axis, and having a predetermined separation other than zero from the measuring tube axis has a predetermined value different from zero.
    • 一种超声波流量测量装置,包括测量管,发射器,接收器和至少第一反射表面。 入射在第一反射表面上的声信号和在第一反射表面上反射的声信号在每种情况下沿着第一信号路径的直线分段移动。 发射器,接收器和第一反射表面相对于彼此定向并且布置在测量管中或测量管上,使得从第一发射器到第一接收器的第一信号路径上的声信号在第一反射 表示在测量管轴上投影的所有子段的所有长度的总和在与测量管轴平行的第一平面中延伸并且具有与测量管轴不同于零的预定分隔具有不同于零的预定值 。
    • 55. 发明授权
    • Apparatus for ascertaining and/or monitoring volume-or mass-flow of a medium
    • 用于确定和/或监测介质的体积或质量流量的装置
    • US07523677B2
    • 2009-04-28
    • US11647340
    • 2006-12-29
    • Achim WiestAndreas BergerOliver Berberig
    • Achim WiestAndreas BergerOliver Berberig
    • G01F1/66
    • G01F1/662G01F1/663
    • 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 containing at least one sound-producing element and an interfacing shoe and emitting, respectively receiving, ultrasonic measurement signals at an incidence/emergence angle into, respectively out of, the pipeline A first adjusting mechanism is provided, which is so embodied, that the incidence/emergence angle of the ultrasonic sensor is adjustable in predetermined limits. The apparatus further includes a control/evaluation unit, which ascertains the volume- or mass-flow of the medium in the pipeline on the basis of the travel-time difference method, the cross-correlation method or the Doppler method.
    • 用于确定和/或监测在管道的纵向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包含至少一个声音产生元件和接口靴的超声波传感器,并分别以分别在管道外部的入射/出射角度接收超声测量信号。提供第一调节机构, 如此体现,超声波传感器的入射/出射角度可在预定限度内调节。 该装置还包括控制/评估单元,该控制/评估单元基于旅行时间差分法,互相关方法或多普勒方法来确定管道中的介质的体积或质量流量。
    • 56. 发明授权
    • Apparatus for determining and/or monitoring volume- and/or mass-flow of a medium in a pipeline
    • 用于确定和/或监测管道中介质的体积和/或质量流量的装置
    • US07373839B2
    • 2008-05-20
    • US10576280
    • 2004-10-13
    • Achim WiestAndreas BergerPatrick Oudoire
    • Achim WiestAndreas BergerPatrick Oudoire
    • G01F1/32
    • G01F1/662G01F15/00
    • An apparatus for determining and/or monitoring volume- and/or mass-flow of a medium flowing through a pipeline in a stream direction. At least two ultrasonic sensors are included, which are secured in a defined measuring positional relationship on the outer wall of the pipeline and alternately emit and receive ultrasonic measuring signal. A control/evaluation unit, which determines volume- and/or mass-flow of the medium in the pipeline on the basis of the travel time difference of ultrasonic measuring signals in the stream direction and opposite to the stream direction is also provided. For assuring rapid mounting and demounting of the ultrasonic flow measuring device on a pipeline, the at least two ultrasonic sensors are secured on a pliers-like clamping unit, which is embodied in a manner such that the ultrasonic sensors are brought into a measuring positional relationship by simple clamping onto the pipeline.
    • 一种用于确定和/或监测在流动方向上流过管道的介质的体积和/或质量流量的装置。 包括至少两个超声波传感器,它们以规定的测量位置关系固定在管道的外壁上,交替地发射和接收超声波测量信号。 还提供了一种控制/评估单元,其基于流方向上和与​​流方向相反的超声波测量信号的行进时间差来确定管道中的介质的体积和/或质量流量。 为了确保在管道上快速安装和拆卸超声波流量测量装置,将至少两个超声波传感器固定在钳子状的夹紧单元上,该夹紧单元以使得超声波传感器处于测量位置关系 通过简单的夹紧到管道上。
    • 57. 发明申请
    • Device For Determining And/Or Monitoring Volume And/Or Mass Flow Of A Medium
    • 用于确定和/或监测介质的体积和/或质量流量的装置
    • US20080060448A1
    • 2008-03-13
    • US11666659
    • 2005-10-25
    • Achim WiestAndreas Berger
    • Achim WiestAndreas Berger
    • G01F1/66
    • G01P5/24G01F1/662
    • A device for determining and/or monitoring volume and/or mass flow rate of a medium that flows in a direction of flow through a pipeline/measuring tube of inner diameter. The device comprises at least two ultrasonic transducers that emit and/or receive ultrasonic measuring signals along defined sonic paths and a control/evaluation device which determines the volume flow rate and/or the mass flow rate of the medium to be measured inside said pipeline/measuring tube based on the ultrasonic measuring signals according to the travel-time difference principle. In order to provide a multichannel ultrasonic flowmeter, at least one reflector element is placed in the interior of the pipeline/measuring tube. The reflector element has a defined distance from the inner surface of the pipeline/measuring tube and is placed within the sonic path of the ultrasound measuring signals running through the pipeline/measuring tube.
    • 一种用于确定和/或监测在流过内径的管道/测量管的流动方向上流动的介质的体积和/或质量流率的装置。 该装置包括至少两个超声波换能器,其沿着限定的声波路径发射和/或接收超声波测量信号;以及控制/评估装置,其确定所述管道内的待测介质的体积流量和/或质量流量, 测量管根据超声波测量信号根据行程时差原理。 为了提供多通道超声波流量计,至少一个反射器元件被放置在管道/测量管的内部。 反射器元件具有与管道/测量管的内表面的限定距离,并且被放置在超过通过管道/测量管的超声波测量信号的声波路径内。