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    • 3. 发明授权
    • Method and device for long-range torsional guided-wave inspection of piping with a partial excitation and detection around the pipe circumference
    • 管道围绕管道进行部分激励和检测的远程扭转导波检测方法和装置
    • US07852073B2
    • 2010-12-14
    • US11823113
    • 2007-06-25
    • Hegeon KwunHirotoshi MatsumotoJames F. Crane
    • Hegeon KwunHirotoshi MatsumotoJames F. Crane
    • G01N27/82
    • G01N27/82G01N29/223G01N29/2412G01N2291/0425G01N2291/044G01N2291/2634
    • Sensor assemblies and methods are described that facilitate the use of a long-range torsional guided-wave inspection system for inspecting pipes, tubes, or other longitudinal cylindrical structures, with a partial excitation and detection around the pipe circumference. The sensor assemblies comprise a plate-type magnetostrictive sensor probe positioned beneath a compressible/expandable bladder and an inverted U-shaped frame that retain and position the sensor probe against the external wall of the pipe under inspection. Preferably, a magnetostrictive strip is positioned in direct contact with the pipe wall over which the plate magnetostrictive sensor probe is positioned. The probe is preferably curved to match the curvature of the external surface of the pipe. A pad may be positioned between the probe and the magnetostrictive strip to improve compliance with irregular pipe surfaces. The frame (and therefore the sensor assembly) is held in place by a belt that encircles the pipe and may be tensioned in order to pull the frame against the pipe, and through the compressive force associated with the bladder, direct the magnetostrictive sensor probe against the surface of the pipe or against the magnetostrictive strip positioned on the surface of the pipe. Methods are described for placement of the magnetostrictive strip and the positioning of the magnetostrictive sensor probe.
    • 描述了传感器组件和方法,其便于使用用于检查管道,管或其它纵向圆柱形结构的远程扭转导波检查系统,并且围绕管圆周进行部分激励和检测。 传感器组件包括定位在可压缩/可膨胀气囊下方的板式磁致伸缩传感器探头和倒置的U形框架,其将传感器探针保持并定位在被检查管道的外壁上。 优选地,磁致伸缩条被定位成与板状磁致伸缩传感器探针所在的管壁直接接触。 探针优选地弯曲以匹配管的外表面的曲率。 垫可以位于探针和磁致伸缩条之间,以改善与不规则管表面的顺应性。 框架(因此传感器组件)通过围绕管道的带保持就位,并且可以被张紧以便将框架拉向管道,并且通过与气囊相关联的压缩力将磁致伸缩传感器探针对着 管的表面或位于管的表面上的磁致伸缩条。 描述了用于磁致伸缩带的放置和磁致伸缩传感器探针的定位的方法。
    • 4. 发明授权
    • Method and device for long-range guided-wave inspection of fire side of waterwall tubes in boilers
    • 锅炉水管火灾侧远程导波检测方法及装置
    • US07474092B1
    • 2009-01-06
    • US11778256
    • 2007-07-16
    • Hegeon KwunHirotoshi MatsumotoJames F. Crane
    • Hegeon KwunHirotoshi MatsumotoJames F. Crane
    • G01N27/82G01N27/00G01R33/18
    • G01N29/2412G01N29/043G01N29/226G01N29/265G01N29/28G01N2291/0422G01N2291/044G01N2291/2634G01N2291/2695G01R33/18
    • Methods and devices for inspecting waterwall tubes for the detection of fire side damage over a long length of the tube are described. The system of the invention uses a magnetostrictive strip and a flat coil-type plate magnetostrictive sensor (MsS) that are held in place on the waterwall using a specially designed frame and an electromagnetic circuit. The magnetostrictive strip and plate type MsS are positioned against a tube in the waterwall using an elastomeric pad or a fluid filled bladder to achieve close contact and good mechanical coupling between the magnetostrictive strip and the tube surface. When current activated, the electromagnet holds the entire assembly in place and provides a DC bias magnetic field required for plate magnetostrictive sensor probe operation. Long-range guided-waves are pulsed into the tube and reflected signals are detected within the same sensor structure. The received signal data representative of a long section of the tube under investigation is then analyzed for the presence of anomalies and defects. When data acquisition for a particular tube or tube section is completed the electromagnet is turned off and the entire device is moved to the next tube in the waterwall.
    • 描述了用于检测水壁管用于检测长管长度上的火侧损伤的方法和装置。 本发明的系统采用使用专门设计的框架和电磁电路将水平保持在水壁上的磁致伸缩带和扁平线圈型磁致伸缩传感器(MsS)。 磁致伸缩条和板型MsS使用弹性垫或流体填充的气囊来抵靠水壁中的管定位,以实现磁致伸缩带与管表面之间的紧密接触和良好的机械耦合。 当电流激活时,电磁铁将整个组件保持就位,并提供板式磁致伸缩传感器探头操作所需的直流偏置磁场。 将长程导波脉冲入管内,并在同一传感器结构内检测反射信号。 然后分析表示正在研究的管的长截面的接收信号数据是否存在异常和缺陷。 当特定管或管段的数据采集完成时,电磁铁被关闭,并且整个装置移动到水壁中的下一个管。
    • 7. 发明申请
    • Method and device for long-range torsional guided-wave inspection of piping with a partial excitation and detection around the pipe circumference
    • 管道围绕管道进行部分激励和检测的远程扭转导波检测方法和装置
    • US20080315872A1
    • 2008-12-25
    • US11823113
    • 2007-06-25
    • Hegeon KwunHirotoshi MatsumotoJames F. Crane
    • Hegeon KwunHirotoshi MatsumotoJames F. Crane
    • G01N27/82
    • G01N27/82G01N29/223G01N29/2412G01N2291/0425G01N2291/044G01N2291/2634
    • Sensor assemblies and methods are described that facilitate the use of a long-range torsional guided-wave inspection system for inspecting pipes, tubes, or other longitudinal cylindrical structures, with a partial excitation and detection around the pipe circumference. The sensor assemblies comprise a plate-type magnetostrictive sensor probe positioned beneath a compressible/expandable bladder and an inverted U-shaped frame that retain and position the sensor probe against the external wall of the pipe under inspection. Preferably, a magnetostrictive strip is positioned in direct contact with the pipe wall over which the plate magnetostrictive sensor probe is positioned. The probe is preferably curved to match the curvature of the external surface of the pipe. A pad may be positioned between the probe and the magnetostrictive strip to improve compliance with irregular pipe surfaces. The frame (and therefore the sensor assembly) is held in place by a belt that encircles the pipe and may be tensioned in order to pull the frame against the pipe, and through the compressive force associated with the bladder, direct the magnetostrictive sensor probe against the surface of the pipe or against the magnetostrictive strip positioned on the surface of the pipe. Methods are described for placement of the magnetostrictive strip and the positioning of the magnetostrictive sensor probe.
    • 描述了传感器组件和方法,其便于使用用于检查管道,管或其它纵向圆柱形结构的远程扭转导波检查系统,并且围绕管圆周进行部分激励和检测。 传感器组件包括定位在可压缩/可膨胀气囊下方的板式磁致伸缩传感器探头和倒置的U形框架,其将传感器探针保持并定位在被检查管道的外壁上。 优选地,磁致伸缩条被定位成与板状磁致伸缩传感器探针所在的管壁直接接触。 探针优选地弯曲以匹配管的外表面的曲率。 垫可以位于探针和磁致伸缩条之间,以改善与不规则管表面的顺应性。 框架(因此传感器组件)通过围绕管道的带保持就位,并且可以被张紧以便将框架拉向管道,并且通过与气囊相关联的压缩力将磁致伸缩传感器探针对着 管的表面或位于管的表面上的磁致伸缩条。 描述了用于磁致伸缩带的放置和磁致伸缩传感器探针的定位的方法。
    • 8. 发明授权
    • Method and system for torsional wave inspection of heat exchanger tubes
    • 换热器管扭转波检测方法及系统
    • US07019520B2
    • 2006-03-28
    • US10711747
    • 2004-10-01
    • Hegeon KwunJames F. CraneSang-Young Kim
    • Hegeon KwunJames F. CraneSang-Young Kim
    • G01N27/82G01M15/00G01M13/00
    • G01N27/82
    • The invention provides an improved method and device for inspecting heat exchanger tubes from within the tube inside diameter that overcomes the shortcomings of the prior art. It adapts a guided-wave probe approach that makes use of a torsional wave mode instead of a longitudinal wave node disclosed in the prior art. The torsional wave mode has many advantages over the longitudinal wave mode for detecting defects. When energized by suitable instrumentation, the probe is caused to generate a torsional mode signal that is transmitted to the heat exchanger tube from the waveguide tube. When reflected signals from defects in the heat exchanger tube walls are returned to the inspection opening end of the heat exchanger tube, the reflected defect signals are transmitted to the probe waveguide tube for amplification, detection and characterization of the reflected signal.
    • 本发明提供一种改进的方法和装置,用于从管内径检测热交换器管,克服了现有技术的缺点。 它适应了使用扭转波模式而不是现有技术中公开的纵波节点的导波探测方法。 扭转波模式比用于检测缺陷的纵波模式具有许多优点。 当通过适当的仪器通电时,使探头产生从波导管传递到热交换器管的扭转模式信号。 当来自热交换器管壁中的缺陷的反射信号返回到热交换器管的检查开口端时,反射的缺陷信号被传输到探针波导管,用于放大,检测和表征反射信号。
    • 9. 发明申请
    • METHOD AND DEVICE FOR LONG-RANGE GUIDED-WAVE INSPECTION OF FIRE SIDE OF WATERWALL TUBES IN BOILERS
    • 锅炉中水龙头消防线长波导检测方法及装置
    • US20090021253A1
    • 2009-01-22
    • US11778256
    • 2007-07-16
    • Hegeon KWUNHirotoshi MatsumotoJames F. Crane
    • Hegeon KWUNHirotoshi MatsumotoJames F. Crane
    • G01N27/83
    • G01N29/2412G01N29/043G01N29/226G01N29/265G01N29/28G01N2291/0422G01N2291/044G01N2291/2634G01N2291/2695G01R33/18
    • Methods and devices for inspecting waterwall tubes for the detection of fire side damage over a long length of the tube are described. The system of the invention uses a magnetostrictive strip and a flat coil-type plate magnetostrictive sensor (MsS) that are held in place on the waterwall using a specially designed frame and an electromagnetic circuit. The magnetostrictive strip and plate type MsS are positioned against a tube in the waterwall using an elastomeric pad or a fluid filled bladder to achieve close contact and good mechanical coupling between the magnetostrictive strip and the tube surface. When current activated, the electromagnet holds the entire assembly in place and provides a DC bias magnetic field required for plate magnetostrictive sensor probe operation. Long-range guided-waves are pulsed into the tube and reflected signals are detected within the same sensor structure. The received signal data representative of a long section of the tube under investigation is then analyzed for the presence of anomalies and defects. When data acquisition for a particular tube or tube section is completed the electromagnet is turned off and the entire device is moved to the next tube in the waterwall.
    • 描述了用于检测水壁管用于检测长管长度上的火侧损伤的方法和装置。 本发明的系统采用使用专门设计的框架和电磁电路将水平保持在水壁上的磁致伸缩带和扁平线圈型磁致伸缩传感器(MsS)。 磁致伸缩条和板型MsS使用弹性垫或流体填充的气囊来抵靠水壁中的管定位,以实现磁致伸缩带与管表面之间的紧密接触和良好的机械耦合。 当电流激活时,电磁铁将整个组件保持就位,并提供板式磁致伸缩传感器探头操作所需的直流偏置磁场。 将长程导波脉冲入管内,并在同一传感器结构内检测反射信号。 然后分析表示正在研究的管的长截面的接收信号数据是否存在异常和缺陷。 当特定管或管段的数据采集完成时,电磁铁被关闭,并且整个装置移动到水壁中的下一个管。