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    • 1. 发明申请
    • DEVICE FOR DETERMINING AND/OR MONITORING THE VOLUME OR MASS FLOW RATE OF A MEDIUM IN A PIPE CONDUIT
    • 用于确定和/或监测管道中介质的体积流量或质量流量的装置
    • WO2007104708A3
    • 2007-11-08
    • PCT/EP2007052208
    • 2007-03-09
    • FLOWTEC AGBERBERIG OLIVERBERGER ANDREASOUDOIRE PATRICKWIEST ACHIM
    • BERBERIG OLIVERBERGER ANDREASOUDOIRE PATRICKWIEST ACHIM
    • B06B1/06G01F1/66G01F15/00G01K11/00
    • G01F1/667G01F1/662G10K11/004
    • The invention relates to a device for determining and/or monitoring the volume or mass flow rate of a medium (1) flowing through a pipe conduit (2) in the longitudinal direction (L) of the pipe conduit (2). Said device comprises at least one ultrasound sensor (3), emitting ultrasound measuring signals at an angle of emission/emergence into the pipe conduit (2) or receives them from said pipe conduit (2), and a control/evaluation unit (11) which provides, based on the ultrasound measuring signals, data on the volume and/or mass flow rate of the medium (1) through the pipe conduit (2). The ultrasound sensor (3) has at least one sound-producing element (4), a lead element (5) and a coupling adapter (6). The terminal region of the coupling adapter (6) facing the lead element (5) has a securing mechanism (7) for detachably securing the coupling adapter (6) to the lead element (5). The terminal region of the coupling adapter (6) facing the pipe conduit (2) is configured depending on the pipe conduit (2) in such a manner as to be secured to the pipe conduit (2) in a form fit.
    • 本发明涉及一种设备,用于确定和/或监视介质的体积流量或质量流量(1),具有一个管道(2)在管道(2)流动的纵向轴线(L)的方向,与至少一个超声波传感器(3) ,其在输入/输出角度下将超声波测量信号照射到管道(2)中或从管道(2)接收它们,并且利用控制/评估单元(11)使用超声波测量信号来显示关于体积 和/或通过管线(2),提供在介质(1)的质量流,其中,所述超声波传感器(3)包括至少一个声音产生元件(4),流体(5)和连接适配器(6),其中,所述(龙头本体5 )面向联接适配器(6)的端部具有用于将联接适配器(6)可释放地固定在流动体(5)上的紧固机构(7),并且其中面向Koppe 响应于管道(2)的Ladapter(6)被设计成可靠地固定到管道(2)上。
    • 3. 发明申请
    • DEVICE FOR DETERMINING AND/OR MONITORING A VOLUME FLOW AND/OR A MASS FLOW
    • 用于确定和/或监测体积和/或质量流量的装置
    • WO2006076998A2
    • 2006-07-27
    • PCT/EP2005056858
    • 2005-12-16
    • FLOWTEC AGBERGER ANDREASWIEST ACHIMOUDOIRE PATRICK
    • BERGER ANDREASWIEST ACHIMOUDOIRE PATRICK
    • G01F1/662
    • The invention relates to a device for determining and/or monitoring a volume flow and/or a mass flow of a measuring medium (9) that flows in one direction of flow through a meter tube (1) having a defined inner diameter. Said device comprises a plurality of ultrasound sensors (22) that emit and/or receive ultrasound measuring signals along differently defined measuring paths, and a control/evaluation unit (23) that uses the ultrasound measuring signals to determine the volume flow and/or mass flow of the measuring medium (9) in the conduit / in the meter tube (1) according to a sound propagation method or according to the echo principle. The invention is characterized in that at least two ultrasound sensors (22) emitting and/or receiving ultrasound measuring signals on different measuring paths are positioned in an opening (10) that is disposed in the wall of the meter tube (1).
    • 本发明涉及一种设备,用于确定和/或过监测的体积和/或质量流量的测量的介质(9)的,流过的测量管(1)与一个流动方向的规定的内径,具有多个超声波传感器(22)的,所述 沿着不同的超声波的测量信号所定义的测量路径发射和/或接收,并用的基础上的控制/分析单元(23)的体积和/或在管道中的被测介质(9)的质量流率/在测量管(1) 根据声音传输方法或根据回声原理确定的超声波测量信号。 发出不同的测量路径的超声波测量信号和/或根据设置在本发明的至少(22),其被布置在所述测量管(1)的管壁中形成开口(10)接收具有两个超声波传感器。
    • 4. 发明申请
    • DEVICE FOR DETERMINING AND/OR MONITORING THE VOLUME AND/OR MASS FLOW RATE OF A MEDIUM IN A PIPELINE
    • 用于确定和/或监测管道中介质的体积流量和/或质量流量的装置
    • WO2005038410A2
    • 2005-04-28
    • PCT/EP2004011508
    • 2004-10-13
    • FLOWTEC AGWIEST ACHIMBERGER ANDREASOUDOIRE PATRICK
    • WIEST ACHIMBERGER ANDREASOUDOIRE PATRICK
    • G01F1/66G01F15/00G01F23/296
    • G01F1/662G01F15/00
    • The invention relates to a device for determining and/or monitoring the volume and/or mass flow rate of a medium (3), flowing through a pipeline (2) in a direction of flow (S). Said device comprises at least two ultrasonic sensors (16, 17) which are attached to the outer wall of the pipeline (2) in a defined measuring position and which alternately transmit and receive ultrasonic measuring signals and a control/evaluation unit (22) which determines the volume and/or mass flow rate of said medium (3) in the pipeline (2), based on the difference in propagation time of the ultrasonic measuring signals in the direction of flow (S) and counter to the direction of flow (S). The aim of said invention is to ensure rapid attachment and removal of the ultrasonic flowmeter (1) to and from a pipeline (2). Said aim is achieved, whereby the at least two ultrasonic sensors (16, 17) are attached to a clamp-type clamping unit (4) which is embodied in such a way that said ultrasonic sensors (16, 17) can be mounted on the pipeline (2) by simply clamping on said sensors in the measuring position.
    • 本发明涉及一种设备,用于确定和/或监视,其包括管道(2)中的流动方向(S)流过的体积和/或介质的质量流(3),包括至少两个超声波传感器(16,17), 在管道的外壁上的限定测量位置(2)附接和交替超声测量信号发送和接收,并且具有控制/评估单元(22)(体积和/或介质的质量流量 3)基于超声测量信号在流动方向(S)上和流动方向(S)上的传播时间差确定的管道(2)中。 为了确保超声波流量计(1)的快速组装或拆卸,以一个管道(2)的至少两个超声波传感器(16,17)是在一个钳状夹紧装置(4)是固定的,其被设计为使得 管道(2)上的超声波传感器(16,17)可以通过简单地夹紧在测量位置来连接
    • 6. 发明申请
    • DEVICE FOR DETERMINING OR MONITORING A MEDIUM VOLUME OR MASS FLOW RATE IN A CONDUIT
    • 通过管道确定或监测介质的体积或质量流量的装置
    • WO2007039394A2
    • 2007-04-12
    • PCT/EP2006066122
    • 2006-09-07
    • FLOWTEC AGBERGER ANDREASBRUMBERG OLIVERWIEST ACHIM
    • BERGER ANDREASBRUMBERG OLIVERWIEST ACHIM
    • G01F1/66
    • G01F1/667
    • The invention relates to a multi-channel flow meter comprising at least one ultrasonic sensor (1up, 2up, 3up; 8) positioned in the first area of a measuring conduit or tube (5), at least two ultrasonic sensors (1dn, 2dn, 3dn) positioned in the second area of the measuring conduit or tube (5) in such a way that ultrasonic measuring signals cross said measuring conduit or tube (5) in the medium (4) discharge direction (S) or oppositely on sonic path (SP) having different lengths (L). A transmission stage (10) simultaneously activates the ultrasonic sensor (8) or the ultrasonic sensors (1up, 2up, 3up; 1dn, 2dn, 3dn) of the first and second areas for transmitting the ultrasonic measuring signals. On the basis of the different sonic path (SP) lengths (L), a receiving stage (11) detects the ultrasonic measuring signals incoming at temporal intervals from the ultrasonic sensors (1dn, 2dn, 3dn; 1up, 2up, 3up) of the first and second areas. An evaluating stage (12) determines the medium (4) volume or mass flow rate in the measuring conduit or tube (5) by means of the propagation time difference of the ultrasonic measuring signals in the discharge direction (S) and in the direction opposite thereto on the individual sonic paths (SP).
    • 本发明涉及一种具有多个测量通道的超声流量计。 在管道(5)或测量管(5)的第一区域中布置至少一个超声波传感器(1up,2up,3up,8); 至少两个超声波传感器(1DN,2DN,3DN)被布置在管道的第二区域(5)或以这样的方式测量管道(5),使得所述超声波测量信号的管道(5)或所述测量管(5)中或 与介质(4)在不同长度(L)通过的声音路径(SP)上的流动方向(S)相反。 一种发送级(10)激励所述超声波传感器(8)和所述超声波传感器(1UP,2UP,3up; 1DN,2DN,3DN)第一或第二区域的同时用于超声测量信号的传输。 由于声音路径(SP)的不同长度(L)检测接收级(11)的超声波传感器;第二或第一区域的时间偏移进入的超声波测量信号(1DN,2DN,3DN 1UP,2UP,3up)。 通过在流动方向(S)的超声波测量信号的传播时间差所确定的评价阶段(12)和抵靠流动方向(S)上的单独的声音路径(SP)在管道中的介质(4)的体积和/或质量流量(5 )或测量管(5)中。
    • 8. 发明申请
    • METHOD FOR MONITORING AN ULTRASOUND FLOWMETER SYSTEM AND/OR PROCESS
    • 用于超声波流量计的系统和/或过程监测的方法
    • WO2007033911A3
    • 2007-06-14
    • PCT/EP2006066115
    • 2006-09-07
    • FLOWTEC AGBERGER ANDREASBUSSINGER KLAUSFROEHLICH THOMAS
    • BERGER ANDREASBUSSINGER KLAUSFROEHLICH THOMAS
    • G01F1/66
    • G01F1/667
    • The invention relates to a method for monitoring the system and/or process of an ultrasound flowmeter (6) provided with a plurality of measuring channels (4a, 4b, 4c, 4d) consisting in flowing a medium (7) though a conduit (2) in the direction of a longitudinal axis of the conduit (2) or a measuring tube, in injecting ultrasound measuring signals into said conduit (2) or the measuring tube or extracted therefrom in such a way that they circulate in the medium (7) along different sound paths, in detecting said ultrasound measuring signals in the individual measuring channels after the flow thereof through the conduit (2) or the measuring tube, in determining at least one real quantity (IG1, IG2, IG3, IG4) describing the ultrasound measuring signal of each measuring channel (4a; 4b; 4c; 4d), respectively, in comparing said real quantity (IG1, IG2, IG3, IG4) with a required quantity (SG1, SG2, SG3, SG4) recorded under conditions of a specific system or process and in transmitting a message in the case of a difference between the determined real quantity (IG1, IG2, IG3, IG4) and recorded required quantity (IG1, IG2, IG3, IG4).
    • 本发明涉及一种用于在超声波流量计(6)与多个测量通道(图4a,4b,4c,4d的)的系统和/或过程监视的方法,其特征在于,管(2)和在介质(7)的测量管 沿管道的纵向轴线穿过(2)或测量管,其中,所述超声波测量信号,从而在管道中切换到测量管(2)或分别从管道(2)和所述测量管被耦合使得它们 通过介质(7)根据差分工会声音路径(SP1,SP4),其中,通过所述管道通过后的超声波测量信号(2),或通过在各个测量通道(图4a,4b,4c,4d的)检测测量管 是,在每种情况下每一个测量信道的超声波测量信号中的至少一个(图4a; 4b中;图4c; 4d中),其描述实际值(IG1,IG2,IG3,IG4)被确定,其中,所述实际值(IG1,IG2,IG3, IG4)与给定的系统或工艺条件 cherten额定变量(SG1,SG2,SG3,SG4)进行比较,并且其中在所述检测出的实际值之间的偏差的情况下(IG1,IG2,IG3,IG4)和所存储的标称尺寸(SG1,SG2,SG3,SG4)输出的消息 是。
    • 10. 发明申请
    • DEVICE FOR POSITIONING A CLAMP-ON FLOWMETER ON A CONTAINER
    • 用于在容器上定位夹紧式流量计的装置
    • WO2004055484A3
    • 2004-11-11
    • PCT/EP0313838
    • 2003-12-06
    • FLOWTEC AGBERGER ANDREASBUSSINGER KLAUSBRUMBERG OLIVERFLEURY AURELEFROEHLICH THOMASSTOCKER HARALDSTRUNZ TORSTENWIEST ARMIN
    • BERGER ANDREASBUSSINGER KLAUSBRUMBERG OLIVERFLEURY AURELEFROEHLICH THOMASSTOCKER HARALDSTRUNZ TORSTENWIEST ARMIN
    • G01F1/66G01F25/00
    • G01F1/66G01F1/667G01F25/0007
    • The invention relates to a device for positioning a clamp-on flowmeter (1) on a container (7) through which a medium (9) flows. Said device comprises at least two ultrasound transducers (2; 3) which emit measuring signals into the container (7) and/or receive measuring signals from the container (7), a positioning unit (11) for the variable positioning of the ultrasound transducers (2, 3) on the container (7), a regulating/evaluation unit (8) which calculates a characteristic nominal quantity (Tsoll) of the measuring signals from pre-determined process and/or system quantities, and determines, on the basis of a comparison of the calculated nominal quantity (Tsoll) with the corresponding measured actual quantity (Tist), whether the ultrasound transducers (2, 3) are positioned in an optimum manner or whether the position of the ultrasound transducers (2, 3) is to be modified, and a display unit (12) which shows the operating staff any necessary position modification and/or the direction in which the position modification is to take place.
    • 本发明涉及一种用于Postionierung的装置的夹装式流量计(1)到容器(7),其通过由介质(9)流动,具有至少两个超声波换能器(2; 3),所述测量信号(在容器 7)发射和/或从(7)接收到所述容器中,用定位单元(11),用于(2超声波换能器的可变定位,3)在容器(7),具有一个控制/评估单元(8) 从预定处理和/或系统参数(TSET)的特性的设定点值的计算所测得的信号,并基于所计算的设定点值(TSET)的到各个测得的实际值(轻触)的比较,以确定是否所述超声波转换器(2, 3)最佳位置,或者如果该超声换能器(2的位置,3)被改变,以及(与显示单元12),以操作人员的位置的所需的改变和/或在其中一个Positionsänder方向 必须报告。