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    • 1. 发明申请
    • LINEAR SCANNER WITH ROTATING COUPLING FLUID
    • 带旋转联轴器的线性扫描仪
    • US20130298685A1
    • 2013-11-14
    • US13468059
    • 2012-05-10
    • Stephan FalterKurt Guenter FuchsDieter LingenbergCord Heinrich Asche
    • Stephan FalterKurt Guenter FuchsDieter LingenbergCord Heinrich Asche
    • G01N29/00
    • G01N29/04G01N29/223G01N29/27G01N29/28G01N2291/262G01N2291/2634
    • An inspection arrangement and an associated method for inspecting an elongate object. The arrangement includes a housing providing an interior space. The housing has an entrance and exit that are aligned. The arrangement includes a plurality of ultrasonic sensor arrays disposed to direct ultrasonic sensory pluses. Each sensor array has a plurality of ultrasonic sensors with each ultrasonic sensor positioned to direct a respective ultrasonic sensory pulse in a respective direction. The arrangement includes a fluid delivery device that delivers a coupling fluid into the interior space. The coupling fluid transmits the ultrasonic sensory pluses to the elongate object. The arrangement includes a plurality of redirecting elements associated with the plurality of ultrasonic sensor arrays. Each redirecting element is positioned such that ultrasonic sensory pluses from the respective ultrasonic sensor array proceed through the respective redirecting element and are redirected along a different direction.
    • 用于检查细长物体的检查装置和相关方法。 该装置包括提供内部空间的壳体。 外壳具有对齐的入口和出口。 该装置包括多个超声波传感器阵列,其被设置为引导超声波感觉优点。 每个传感器阵列具有多个超声波传感器,每个超声波传感器定位成在相应的方向上引导相应的超声波感测脉冲。 该装置包括将耦合流体输送到内部空间中的流体输送装置。 耦合流体将超声波传感器传递到细长物体。 该装置包括与多个超声波传感器阵列相关联的多个重定向元件。 每个重定向元件被定位成使得来自相应的超声波传感器阵列的超声波感测信号通过相应的重定向元件进行,并且沿着不同的方向被重定向。
    • 2. 发明授权
    • Linear scanner with rotating coupling fluid
    • 带旋转耦合流体的线性扫描仪
    • US08991258B2
    • 2015-03-31
    • US13468059
    • 2012-05-10
    • Stephan FalterKurt Guenter FuchsDieter LingenbergCord Heinrich Asche
    • Stephan FalterKurt Guenter FuchsDieter LingenbergCord Heinrich Asche
    • G01N29/00G01N29/04G01N29/27G01N29/28G01N29/22
    • G01N29/04G01N29/223G01N29/27G01N29/28G01N2291/262G01N2291/2634
    • An inspection arrangement and an associated method for inspecting an elongate object. The arrangement includes a housing providing an interior space. The housing has an entrance and exit that are aligned. The arrangement includes a plurality of ultrasonic sensor arrays disposed to direct ultrasonic sensory pluses. Each sensor array has a plurality of ultrasonic sensors with each ultrasonic sensor positioned to direct a respective ultrasonic sensory pulse in a respective direction. The arrangement includes a fluid delivery device that delivers a coupling fluid into the interior space. The coupling fluid transmits the ultrasonic sensory pluses to the elongate object. The arrangement includes a plurality of redirecting elements associated with the plurality of ultrasonic sensor arrays. Each redirecting element is positioned such that ultrasonic sensory pluses from the respective ultrasonic sensor array proceed through the respective redirecting element and are redirected along a different direction.
    • 用于检查细长物体的检查装置和相关方法。 该装置包括提供内部空间的壳体。 外壳具有对齐的入口和出口。 该装置包括多个超声波传感器阵列,其被设置为引导超声波感觉优点。 每个传感器阵列具有多个超声波传感器,每个超声波传感器定位成在相应的方向上引导相应的超声波感测脉冲。 该装置包括将耦合流体输送到内部空间中的流体输送装置。 耦合流体将超声波传感器传递到细长物体。 该装置包括与多个超声波传感器阵列相关联的多个重定向元件。 每个重定向元件被定位成使得来自相应的超声波传感器阵列的超声波感测信号通过相应的重定向元件进行,并且沿着不同的方向被重定向。
    • 3. 发明申请
    • ULTRASOUND TEST DEVICE WITH CLUSTER HOUSING
    • 超声波测试装置与集群住房
    • US20110120225A1
    • 2011-05-26
    • US12674484
    • 2008-05-30
    • Damian MeinertStephan FalterDieter LingenbergReinhard PrauseRainer Vierhaus
    • Damian MeinertStephan FalterDieter LingenbergReinhard PrauseRainer Vierhaus
    • G01N29/00
    • G01N29/28G01N29/26G01N2291/2634
    • The invention relates to an ultrasound inspection device for the inspection of tubular workpieces, where the ultrasound inspection device can be coupled to the workpiece by means of a fluid medium, the workpiece and the ultrasound inspection device can be moved relative to each other, a transducer unit substantially disposed in a cluster housing is provided, where the cluster housing includes a wear sole which is adapted to the respective diameter of the workpiece and which can be placed on an outer lateral surface of the workpiece and is configured such that a chamber forms between the workpiece and the transducer unit, at least one fluid inlet channel, which, with a fluid inlet opening, opens into the chamber, at least one fluid outlet channel for venting and draining the chamber, which opens into the chamber where the mouth of the fluid outlet channel and the fluid outlet channel are configured and disposed such that a filling process of the chamber and of the fluid outlet channel can be carried out starting on the outer lateral surface of the workpiece, and then in a rising manner.
    • 本发明涉及一种用于检查管状工件的超声波检查装置,其中超声检查装置可通过流体介质与工件联接,工件和超声波检查装置可相对于彼此移动,换能器 提供了基本上设置在群集壳体中的单元,其中簇壳体包括适合于工件的相应直径并且可以放置在工件的外侧表面上的耐磨鞋底,并且构造成使得室 工件和换能器单元,至少一个流体入口通道,其具有通向腔室的流体入口开口,至少一个流体出口通道,用于排放和排出腔室,该腔室通向腔室, 流体出口通道和流体出口通道被配置和布置成使得腔室和流体出口通道c的填充过程 从工件的外侧表面开始,然后以升高的方式进行。
    • 4. 发明授权
    • Ultrasound test device with cluster housing
    • 带集群外壳的超声波检测装置
    • US08443674B2
    • 2013-05-21
    • US12674484
    • 2008-05-30
    • Damian MeinertStephan FalterDieter LingenbergReinhard PrauseRainer Vierhaus
    • Damian MeinertStephan FalterDieter LingenbergReinhard PrauseRainer Vierhaus
    • G01N29/00
    • G01N29/28G01N29/26G01N2291/2634
    • The invention relates to an ultrasound inspection device for the inspection of tubular workpieces, where the ultrasound inspection device can be coupled to the workpiece by means of a fluid medium, the workpiece and the ultrasound inspection device can be moved relative to each other, a transducer unit substantially disposed in a cluster housing is provided, where the cluster housing includes a wear sole which is adapted to the respective diameter of the workpiece and which can be placed on an outer lateral surface of the workpiece and is configured such that a chamber forms between the workpiece and the transducer unit, at least one fluid inlet channel, which, with a fluid inlet opening, opens into the chamber, at least one fluid outlet channel for venting and draining the chamber, which opens into the chamber where the mouth of the fluid outlet channel and the fluid outlet channel are configured and disposed such that a filling process of the chamber and of the fluid outlet channel can be carried out starting on the outer lateral surface of the workpiece, and then in a rising manner.
    • 本发明涉及一种用于检查管状工件的超声波检查装置,其中超声检查装置可通过流体介质与工件联接,工件和超声波检查装置可相对于彼此移动,换能器 提供了基本上设置在群集壳体中的单元,其中簇壳体包括适合于工件的相应直径并且可以放置在工件的外侧表面上的耐磨鞋底,并且构造成使得室 工件和换能器单元,至少一个流体入口通道,其具有通向腔室的流体入口开口,至少一个流体出口通道,用于排放和排出腔室,该腔室通向腔室, 流体出口通道和流体出口通道被构造和布置成使得腔室和流体出口通道c的填充过程 从工件的外侧表面开始,然后以升高的方式进行。
    • 5. 发明申请
    • METHOD AND DEVICE FOR THE NON-DESTRUCTIVE ULTRASONIC TESTING OF A TEST PIECE WITH FLAT SURFACES AT AN ANGLE TO EACH OTHER
    • 用于其他任何角度的平面表面的测试片的非破坏性超声波测试的方法和装置
    • US20110138919A1
    • 2011-06-16
    • US12993245
    • 2009-05-28
    • Stephan FalterDieter LingenbergGerald RosemeyerCord Asche
    • Stephan FalterDieter LingenbergGerald RosemeyerCord Asche
    • G01N29/07
    • G01N29/043G01N29/07G01N29/221G01N29/225G01N29/262G01N2291/044G01N2291/051G01N2291/055G01N2291/105G01N2291/106G01N2291/2626G01N2291/2638G01N2291/2675
    • The invention relates to a method for the non-destructive ultrasonic testing of a test piece (3) with flat surfaces (5) at an angle to each other by means of several selectively activatable ultrasonic transducers (2, 2′, 2″), whereby the method comprises several test cycles, with which certain (2,2″) of the several ultrasonic transducers (2, 2′,2″) are selected and activated, in order to emit at least one ultrasonic pulse (7, 7″) to the test piece, and with which the ultrasonic pulse reflected in the test piece (3) is received by the selected and/or, if necessary, other ultrasonic transducers (2, 2′, 2″). The method according to the present invention is characterized in that in the respective test cycle, the determined ultrasonic transducers (2, 2″) are so selected and activated, that the main propagation direction (6, 6″) of the ultrasonic pulse (7, 7″) produced by the selected and activated ultrasonic transducers (2, 2″) is perpendicular to at least one of the angled surfaces (5) of the test piece (3). The invention also relates to an associated device and ultilization.
    • 本发明涉及一种用于通过几个可选择性激活的超声换能器(2,2',2“)彼此成角度的具有平坦表面(5)的测试片(3)的非破坏性超声波测试方法, 由此该方法包括多个测试循环,通过该测试循环,几个超声波换能器(2,2',2“)中的某些(2,2”)被选择和激活,以便发射至少一个超声波脉冲(7,7“ ),并且通过所选择的和/或如果需要,其它超声换能器(2,2',2“)接收测试片(3)中反射的超声波脉冲。 根据本发明的方法的特征在于,在相应的测试周期中,所选择的和确定的超声波换能器(2,2“)被激活,超声波脉冲的主传播方向(6,6”) ,7“)由所选择和激活的超声波换能器(2,2”)产生的垂直于所述测试片(3)的所述成角度表面(5)中的至少一个。 本发明还涉及一种相关联的装置和利用。
    • 8. 发明申请
    • NON-DESTRUCTIVE ULTRASOUND INSPECTION WITH COUPLING CHECK
    • 非破坏性超声检查与联接检查
    • US20110126628A1
    • 2011-06-02
    • US12964190
    • 2010-12-09
    • York OberdorferStephan FalterUlrich SemmierOlaf Schroeder
    • York OberdorferStephan FalterUlrich SemmierOlaf Schroeder
    • G01N29/28
    • G01N29/262
    • A method for non-destructive ultrasonic testing of a test piece includes a plurality of testing cycles, each of said cycles comprising a transmitting of at least one ultrasonic impulse into the test piece by a plurality of ultrasonic transducers and a receiving of the at least one ultrasonic impulse passing through the test piece by the ultrasonic transducer or optionally by other ultrasonic transducers. The plurality of ultrasonic transducers are phase-controllable and form at least one phase array. The method comprises at least one first testing cycle in which the phase-controllable ultrasonic transducers of the at least one phase array are controlled during transmitting such that the rear wall echo of the test piece is detected by said phase array during receipt. The method comprises at least one second testing cycle in which the phase-controllable ultrasonic transducer of the same phase array are controlled during transmitting.
    • 用于测试件的非破坏性超声波测试的方法包括多个测试周期,每个所述周期包括通过多个超声换能器将至少一个超声波脉冲传输到测试片中,并且接收至少一个 超声波冲击通过超声换能器或任选地由其他超声换能器穿过测试片。 多个超声波换能器是可相位控制的并且形成至少一个相位阵列。 该方法包括至少一个第一测试周期,其中在传输期间控制至少一个相位阵列的相位可控超声波换能器,使得在接收期间由所述相位阵列检测到测试片的后壁回波。 该方法包括至少一个第二测试周期,其中在发射期间控制相同相位阵列的相位可控超声换能器。