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    • 1. 发明申请
    • ULTRASONIC TESTING APPARATUS FOR PIPE OR TUBE END PORTION
    • 用于管道或管道端部的超声波测试装置
    • US20120067129A1
    • 2012-03-22
    • US13239511
    • 2011-09-22
    • Kenji FujiwaraHiroshi KubotaTomoyuki ObataMasaki Yamano
    • Kenji FujiwaraHiroshi KubotaTomoyuki ObataMasaki Yamano
    • G01N29/04
    • G01N29/28G01N29/225G01N29/275G01N2291/052G01N2291/056G01N2291/103G01N2291/2634
    • An ultrasonic testing apparatus for a pipe end portion, which enables accurate ultrasonic testing, comprises an ultrasonic probe disposed under the pipe end portion. The probe 1 transmits ultrasonic waves to the pipe end portion and receives the ultrasonic waves therefrom. A probe holder houses the probe which is disposed under the pipe end portion to face the pipe end portion and follows the pipe rotation. The probe holder comprises a coupling medium reserver part that surrounds a space between the probe and the pipe end portion to contain a coupling medium therein and comprises a coupling medium reserver part body into which the coupling medium is supplied. An annular bellows part, which communicates with the reserver part body, can expand and contract vertically and an annular spacer, which is attached to the upper side of the bellows part and an upper surface thereof has a flat horizontal surface.
    • 一种用于管端部的超声波测试装置,其能够进行精确的超声波测试,包括设置在管端部下方的超声波探头。 探针1将超声波发送到管端部并从其接收超声波。 探针架容纳设置在管端部下面以与管端部相对并且跟随管旋转的探针。 探头支架包括耦合介质储存器部分,其围绕探针和管端部分之间的空间,以在其中容纳耦合介质,并且包括联接介质保留部分主体,耦合介质被供应到耦合介质保留部分主体中。 与储存部件主体连通的环状波纹管部分可以垂直地膨胀和收缩,并且附接到波纹管部分的上侧的环形间隔件及其上表面具有平坦的水平表面。
    • 3. 发明授权
    • Ultrasonic testing apparatus for pipe or tube end portion
    • 用于管或管端部的超声波检测装置
    • US08667847B2
    • 2014-03-11
    • US13239511
    • 2011-09-22
    • Kenji FujiwaraHiroshi KubotaTomoyuki ObataMasaki Yamano
    • Kenji FujiwaraHiroshi KubotaTomoyuki ObataMasaki Yamano
    • G01N29/04
    • G01N29/28G01N29/225G01N29/275G01N2291/052G01N2291/056G01N2291/103G01N2291/2634
    • An ultrasonic testing apparatus for a pipe end portion, which enables accurate ultrasonic testing, comprises an ultrasonic probe disposed under the pipe end portion. The probe 1 transmits ultrasonic waves to the pipe end portion and receives the ultrasonic waves therefrom. A probe holder houses the probe which is disposed under the pipe end portion to face the pipe end portion and follows the pipe rotation. The probe holder comprises a coupling medium reserver part that surrounds a space between the probe and the pipe end portion to contain a coupling medium therein and comprises a coupling medium reserver part body into which the coupling medium is supplied. An annular bellows part, which communicates with the reserver part body, can expand and contract vertically and an annular spacer, which is attached to the upper side of the bellows part and an upper surface thereof has a flat horizontal surface.
    • 一种用于管端部的超声波测试装置,其能够进行精确的超声波测试,包括设置在管端部下方的超声波探头。 探针1将超声波发送到管端部并从其接收超声波。 探针架容纳设置在管端部下面以与管端部相对并且跟随管旋转的探针。 探头支架包括耦合介质储存器部分,其围绕探针和管端部分之间的空间,以在其中容纳耦合介质,并且包括耦合介质储存器部件主体,耦合介质被供应到耦合介质保留部分主体中。 与储存部件主体连通的环状波纹管部分可以垂直地膨胀和收缩,并且附接到波纹管部分的上侧的环形间隔件及其上表面具有平坦的水平表面。
    • 5. 发明申请
    • ULTRASONIC TESTING METHOD AND APPARATUS
    • 超声波测试方法和设备
    • US20110283798A1
    • 2011-11-24
    • US13129859
    • 2009-11-18
    • Masaki YamanoMasami IkedaKenji FujiwaraHiroshi Kubota
    • Masaki YamanoMasami IkedaKenji FujiwaraHiroshi Kubota
    • G01N29/00
    • G01N29/043G01N29/262G01N2291/106G01N2291/2634
    • An ultrasonic testing apparatus 100 comprises an ultrasonic probe 1 including n (n≧2) number of transducers arranged along a predetermined direction, disposed so as to face a test object P, and a transmission/reception control device 2 for selecting m (n>m≧1) number of transducers from among the n number of transducers, transmitting ultrasonic waves from the selected m number of transducers toward the test object, receiving the ultrasonic waves therefrom, and switched m number of transducers to b selected successively. If an angle that the arrangement direction of the transducers makes with the surface of the test object which ultrasonic waves enter is θ, and the effective beam width of each selected m number of transducers with respect to a target flaw is W1, the transmission/reception control device switches m number of transducers to be selected successively by a switching pitch length P satisfying the formula: P≦W1·cosθ.
    • 超声波检查装置100包括:超声波探头1,其包括沿着预定方向排列的n(n≥2)个换能器的超声波探头1,被配置为面向被测试对象P;以及发送/接收控制装置2,用于选择m(n> 从n个换能器中的换能器的数量,从所选择的m个换能器向测试对象发送超声波,从其接收超声波,并将m个换能器切换为b个连续选择的传感器。 如果换能器的排列方向与超声波进入的被测物体的表面的角度为θ,则每个选择的m个换能器相对于目标缺陷的有效波束宽度为W1,则传输/ 接收控制装置将满足以下公式的切换节距长度P连续选择要连续选择的M个换能器:P< ll; W1·cos&
    • 6. 发明授权
    • Ultrasonic testing method and apparatus
    • 超声波检测方法及装置
    • US08393218B2
    • 2013-03-12
    • US13129859
    • 2009-11-18
    • Masaki YamanoMasami IkedaKenji FujiwaraHiroshi Kubota
    • Masaki YamanoMasami IkedaKenji FujiwaraHiroshi Kubota
    • G01N29/00
    • G01N29/043G01N29/262G01N2291/106G01N2291/2634
    • An ultrasonic testing apparatus 100 comprises an ultrasonic probe 1 including n (n≧2) number of transducers arranged along a predetermined direction, disposed so as to face a test object P, and a transmission/reception control device 2 for selecting m (n>m≧1) number of transducers from among the n number of transducers, transmitting ultrasonic waves from the selected m number of transducers toward the test object, receiving the ultrasonic waves therefrom, and switched m number of transducers to b selected successively. If an angle that the arrangement direction of the transducers makes with the surface of the test object which ultrasonic waves enter is θ, and the effective beam width of each selected m number of transducers with respect to a target flaw is W1, the transmission/reception control device switches m number of transducers to be selected successively by a switching pitch length P satisfying the formula: P≦W1·cos θ.
    • 超声波检查装置100包括:超声波探头1,其包括沿着预定方向排列的n(n≥2)个换能器的超声波探头1,被配置为面向被测试对象P;以及发送/接收控制装置2,用于选择m(n> 从n个换能器中的换能器的数量,从所选择的m个换能器向测试对象发送超声波,从其接收超声波,并将m个换能器切换为b个连续选择的传感器。 如果换能器的排列方向与超声波进入的被测物体的表面的角度为θ,则每个选择的m个换能器相对于目标缺陷的有效波束宽度为W1,则传输/ 接收控制装置将满足以下公式的切换节距长度P连续选择要连续选择的M个换能器:P< ll; W1·cos&
    • 7. 发明申请
    • ULTRASONIC TESTING METHOD AND EQUIPMENT THEREFOR
    • 超声波测试方法及其设备
    • US20110088476A1
    • 2011-04-21
    • US12935377
    • 2009-03-27
    • Masaki YamanoHiroshi ShikadaKenji Fujiwara
    • Masaki YamanoHiroshi ShikadaKenji Fujiwara
    • G01N29/00
    • G01N29/24B06B1/0625G01N29/043G01N29/225G01N2291/044G01N2291/056G01N2291/106G01N2291/2634
    • A ultrasound flaw probing device (100) is provided with a ultrasonic probe (1) with a plurality of vibrators (11) arranged along a predetermined circular curved surface, a transmission and reception control means (2) that selects at least two or more pieces of the vibrators to carry out the transmission and reception of a ultrasonic wave for inspecting a tubular subject member (P) to be probed, and a probing waveform display means (3) that radially displays a probing waveform received by the selected pieces of the vibrators arranged in accordance with propagation directions of the ultrasonic transmitted and received from the vibrators. The probing waveform display means (3) radially displays the probing waveform regarded a timing us a start point corresponding to a reflection echo at an incident point of the ultrasonic wave toward the tubular probing subject contained in the probing wave and also displays, at the start point (S) as the center, circles (C1, C2) showing timings corresponding to reflection echoes at the inner surface and/or outer surface of the tubular probed subject member (P).
    • 一种超声波探伤装置(100)具备:超声波探头(1),具有沿预定的圆弧形曲面配置的多个振动器(11);发送接收控制装置(2),其选择至少两个以上 的振动器,用于检测用于检测待探测的管状被检体(P)的超声波的发送和接收;以及探测波形显示单元(3),其径向显示所选择的振动体接收到的探测波形 根据从振动器发送和接收的超声波的传播方向布置。 探测波形显示装置(3)径向地显示所考虑的探测波形,使检测波形的入射点对应于超声波入射点处的反射回波的起始点朝向包含在探测波中的管状探测对象,并且在开始时显示 点(S)为中心,圆(C1,C2)表示与管状探测对象构件(P)的内表面和/或外表面相对应的反射回波的定时。
    • 8. 发明授权
    • Ultrasonic testing method and equipment therefor
    • 超声波检测方法及设备
    • US08544329B2
    • 2013-10-01
    • US12935377
    • 2009-03-27
    • Masaki YamanoHiroshi ShikadaKenji Fujiwara
    • Masaki YamanoHiroshi ShikadaKenji Fujiwara
    • G01N29/26G01N29/24
    • G01N29/24B06B1/0625G01N29/043G01N29/225G01N2291/044G01N2291/056G01N2291/106G01N2291/2634
    • An ultrasonic testing equipment includes an ultrasonic probe having a plurality of transducers arranged along a predetermined annular curved surface, a transmission/reception control unit that causes at least two transducers of the plurality of transducers to transmit the ultrasonic waves to and receive the same from a tubular test object and a ultrasonic testing waveform display unit which displays ultrasonic testing waveforms received by the selected transducers radially corresponding to the propagation directions of the ultrasonic waves transmitted from and received by the selected transducers. The waveform display unit displays the waveforms radially with a point of time corresponding to an echo on an incident point of the ultrasonic wave to the test object contained in the waveform as a beginning point and displays circles indicating points of time corresponding to the echo on the internal surface and/or the external surface of the test object around the beginning point.
    • 超声波检测设备包括具有沿预定环形曲面布置的多个换能器的超声波探头,发送/接收控制单元,其使得多个换能器中的至少两个换能器将超声波从一个 管状测试对象和超声波测试波形显示单元,其显示由所选择的换能器接收的超声波测试波形,其对应于从所选择的换能器发送和接收的超声波的传播方向。 波形显示单元将与超声波的入射点的回波对应的时间点的波形径向显示为波形中包含的测试对象作为起始点,并将与回波对应的时间点的圆圈显示在 测试对象的内表面和/或外表面围绕起始点。
    • 10. 发明申请
    • Method for evaluating fastening state of threaded joint of pipes or tubes and method for fastening threaded joint of pipes or tubes using the method
    • 用于评估管道或管道的螺纹接头的紧固状态的方法和使用该方法来紧固管道或管道的螺纹接头的方法
    • US20090282921A1
    • 2009-11-19
    • US12310799
    • 2007-09-06
    • Ikuji HoshinoMasaki YamanoShigeo Nagasaku
    • Ikuji HoshinoMasaki YamanoShigeo Nagasaku
    • G01N29/11
    • F16L15/004G01N29/11G01N29/265G01N29/4409G01N2291/015G01N2291/02827G01N2291/044G01N2291/101G01N2291/2691
    • There is provided a method capable of evaluating a fastening state of a threaded joint that is used as a joint of pipes or tubes such as OCTG with a high degree of accuracy even after being fastened and a method for fastening a threaded joint of pipes or tubes using the evaluating method. The present invention provides a method for evaluating a fastening state of a threaded joint of pipes or tubes including a pin having an external thread part, a metal seal part, and a shoulder part on an outer peripheral surface, and a box having an internal thread part, a metal seal part, and a shoulder part corresponding to each part of the pin on an inner peripheral surface and being fastened with the pin. The evaluating method according to the present invention is characterized by transmitting and receiving an ultrasonic wave to and from a plurality of locations along an axial direction of the threaded joint in at least one of the internal thread part, the metal seal part, and the shoulder part of the box; detecting echo intensities for the plurality of locations; and comparing the echo intensities detected for the plurality of locations to determine whether the fastening state of the threaded joint is good or bad.
    • 提供了一种即使在紧固之后甚至可以高精度地评价用作OCTG等管子,管子等的管接头的螺纹接头的紧固状态的方法,也可以用于紧固管道或管的螺纹接头的方法 使用评估方法。 本发明提供一种评价包括具有在外周面上具有外螺纹部分,金属密封部分和肩部的销的管或管的紧固状态的方法,以及具有内螺纹 部分,金属密封部分和与销的每个部分对应的胎肩部分,并且与销钉紧固。 根据本发明的评估方法的特征在于,在内螺纹部分,金属密封部分和肩部中的至少一个中沿着螺纹接头的轴向方向从多个位置向多个位置发送和接收超声波 箱子的一部分; 检测所述多个位置的回波强度; 以及比较检测到的多个位置的回波强度,以确定螺纹接头的紧固状态是好是坏。