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    • 5. 发明授权
    • Method and device for ultrasonic testing of a component
    • 用于组件超声波测试的方法和装置
    • US08850894B2
    • 2014-10-07
    • US13127393
    • 2009-11-03
    • Walter De OdoricoRoman Koch
    • Walter De OdoricoRoman Koch
    • G01N29/04G01N29/22G01N29/265
    • G01N29/225G01N29/265G01N2291/262
    • A device and a method for ultrasonic testing by means of a local immersion technique of a stringer component section of a flat component are provided. The device includes a test head assembly mounted as moving floatingly by a holding device in the Y-direction longitudinally. The test head assembly includes: a test head that can be connected to an automatically actuated handling device and that can be moved by the handling device along the stringer; a test head holder; and a counter-holder coupled with the test head holder by an actuation element, wherein the actuation element is configured to steer the test head holder and the counter-holder from a closed position to an open position, the test head holder and the counter-holder being mounted floatingly along a guiding rail running in the X-direction transversely to the stringer, and fit, in a force-loaded manner, to each side surface of the stringer.
    • 提供了一种通过平坦部件的桁条部件的局部浸渍技术进行超声波测试的装置和方法。 该装置包括一个安装在Y方向纵向由保持装置浮动移动的测试头组件。 测试头组件包括:测试头,其可连接到自动致动的操作装置,并且可由操纵装置沿着桁条移动; 测试头支架; 以及通过致动元件与测试头保持器耦合的反向支架,其中所述致动元件构造成将所述测试头保持器和所述相对支架从关闭位置转向打开位置,所述测试头保持器和所述反向支架 保持器沿着横向于纵梁的X方向的导轨浮动地安装,并且以加载的方式配合到桁条的每个侧表面。
    • 6. 发明申请
    • METHOD AND DEVICE FOR ULTRASONIC TESTING OF A COMPONENT
    • 用于组件超声波测试的方法和装置
    • US20110259105A1
    • 2011-10-27
    • US13127393
    • 2009-11-03
    • Walter De OdoricoRoman Koch
    • Walter De OdoricoRoman Koch
    • G01N29/04
    • G01N29/225G01N29/265G01N2291/262
    • A device and a method for ultrasonic testing by means of a local immersion technique of a stringer component section of a flat component are provided. The device includes a test head assembly mounted as moving floatingly by a holding device in the Y-direction longitudinally. The test head assembly includes: a test head that can be connected to an automatically actuated handling device and that can be moved by the handling device along the stringer; a test head holder; and a counter-holder coupled with the test head holder by an actuation element, wherein the actuation element is configured to steer the test head holder and the counter-holder from a closed position to an open position, the test head holder and the counter-holder being mounted floatingly along a guiding rail running in the X-direction transversely to the stringer, and fit, in a force-loaded manner, to each side surface of the stringer.
    • 提供了一种通过平坦部件的桁条部件的局部浸渍技术进行超声波测试的装置和方法。 该装置包括一个安装在Y方向纵向由保持装置浮动移动的测试头组件。 测试头组件包括:测试头,其可连接到自动致动的操作装置,并且可由操纵装置沿着桁条移动; 测试头支架; 以及通过致动元件与测试头保持器耦合的反向支架,其中所述致动元件构造成将所述测试头保持器和所述相对支架从关闭位置转向打开位置,所述测试头保持器和所述反向支架 保持器沿着横向于纵梁的X方向的导轨浮动地安装,并且以加载的方式配合到桁条的每个侧表面。
    • 7. 发明授权
    • Ultrasound probe arrangement
    • 超声探头安排
    • US07798003B2
    • 2010-09-21
    • US11914619
    • 2006-05-18
    • Albrecht MaurerMichael StraussWalter De OdoricoWolfgang HaaseRoman Koch
    • Albrecht MaurerMichael StraussWalter De OdoricoWolfgang HaaseRoman Koch
    • G01N29/28
    • G01N29/28G01N2291/044G01N2291/106
    • The invention relates to an ultrasound probe arrangement (14, 16) for coupling ultrasonic signals toward a component (12), which is to be inspected, by using the water open jet method, with a probe (24; 124), which is placed inside a jet nozzle (26; 126) and having a multitude of ultrasonic transmitting and/or receiving elements (25; 125) and at least one liquid inlet (28; 128) as well as at least one liquid outlet (30; 130). In order to improve the flow of water inside the jet nozzle, the invention provides that: one or more preliminary or filter chambers (FK1, FK2, FK3) are situated upstream from a flow space (36, 136); each preliminary or filter chamber (FK1, FK2, FK3) comprises a dividing wall (TW1, TW2, TW3) having flow channels (SK1, SK2, SK3) running perpendicular to the direction of flow; the number of flow channels (SK1, SK2, SK3) in each dividing wall (TW1, TW2, TW3) increases in the direction of flow, and; the diameter of the flow channels (SK1, SK2, SK3) in each dividing wall (TW1, TW2, TW3) decreases in the direction of flow.
    • 本发明涉及一种超声波探头装置(14,16),用于通过使用水开放喷射法将超声波信号耦合到待检查的部件(12),探针(24; 124)被放置 在喷射喷嘴(26; 126)内并且具有多个超声波发射和/或接收元件(25; 125)和至少一个液体入口(28; 128)以及至少一个液体出口(30; 130) 。 为了改善射流喷嘴内的水流,本发明提供:一个或多个初级或过滤室(FK1,FK2,FK3)位于流动空间(36,136)的上游。 每个初级或过滤室(FK1,FK2,FK3)包括具有垂直于流动方向延伸的流动通道(SK1,SK2,SK3)的分隔壁(TW1,TW2,TW3) 每个分隔壁(TW1,TW2,TW3)中的流路数(SK1,SK2,SK3)在流动方向上增加; 每个分隔壁(TW1,TW2,TW3)中的流路(SK1,SK2,SK3)的直径在流动方向上减小。
    • 8. 发明申请
    • Ultrasound Probe Arrangement
    • 超声探头布置
    • US20090126496A1
    • 2009-05-21
    • US11914619
    • 2006-05-18
    • Albrecht MaurerMichael StraussWalter De OdoricoWolfgang HaaseRoman Koch
    • Albrecht MaurerMichael StraussWalter De OdoricoWolfgang HaaseRoman Koch
    • G01N29/28
    • G01N29/28G01N2291/044G01N2291/106
    • The invention relates to an ultrasound probe arrangement (14, 16) for coupling ultrasonic signals toward a component (12), which is to be inspected, by using the water open jet method, with a probe (24; 124), which is placed inside a jet nozzle (26; 126) and having a multitude of ultrasonic transmitting and/or receiving elements (25; 125) and at least one liquid inlet (28; 128) as well as at least one liquid outlet (30; 130). In order to improve the flow of water inside the jet nozzle, the invention provides that: one or more preliminary or filter chambers (FK1, FK2, FK3) are situated upstream from a flow space (36, 136); each preliminary or filter chamber (FK1, FK2, FK3) comprises a dividing wall (TW1, TW2, TW3) having flow channels (SK1, SK2, SK3) running perpendicular to the direction of flow; the number of flow channels (SK1, SK2, SK3) in each dividing wall (TW1, TW2, TW3) increases in the direction of flow, and; the diameter of the flow channels (SK1, SK2, SK3) in each dividing wall (TW1, TW2, TW3) decreases in the direction of flow.
    • 本发明涉及一种超声波探头装置(14,16),用于通过使用水开放喷射法将超声波信号耦合到待检查的部件(12),探针(24; 124)被放置 在喷射喷嘴(26; 126)内并且具有多个超声波发射和/或接收元件(25; 125)和至少一个液体入口(28; 128)以及至少一个液体出口(30; 130) 。 为了改善射流喷嘴内的水流,本发明提供:一个或多个初级或过滤室(FK1,FK2,FK3)位于流动空间(36,136)的上游。 每个初级或过滤室(FK1,FK2,FK3)包括具有垂直于流动方向延伸的流动通道(SK1,SK2,SK3)的分隔壁(TW1,TW2,TW3) 每个分隔壁(TW1,TW2,TW3)中的流路数(SK1,SK2,SK3)在流动方向上增加; 每个分隔壁(TW1,TW2,TW3)中的流路(SK1,SK2,SK3)的直径在流动方向上减小。