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1. 发明授权

US07721606B2 Ultrasonic test method and ultrasonic test instrument used for the method 有权
标题翻译：超声波检测方法和超声波检测仪用于该方法
公开(公告)号：US07721606B2
公开(公告)日：2010-05-25
申请号：US11667772
申请日：2005-11-11
申请人： Makoto Shirai , Hiroshi Miyamoto , Shigeyuki Matsubara
发明人： Makoto Shirai , Hiroshi Miyamoto , Shigeyuki Matsubara
IPC分类号： G01N9/24
CPC分类号： G01N29/043 , G01N29/07 , G01N29/223 , G01N29/32 , G01N29/38 , G01N2291/0231 , G01N2291/0427 , G01N2291/044 , G01N2291/056 , G01N2291/102 , G01N2291/2694
摘要： An ultrasonic test method for detecting a defective portion more precisely in a noncontact reflection way, and ultrasonic test instrument used for the method. An ultrasonic wave is transmitted from a transmitter (20 (21)) provided on one side of an object under test, and the reflected wave is received by a receiver (30 (31)) provided on the same side. The ultrasonic wave is transmitted/received through an air layer between the transmitter and the object (100) under test and between the receiver and the object (100). The relative positions of the transmitter (20), the receiver (30), and the object (100) are so determined that the air propagation time ta of the air path (RA) between the transmitter and the receiver is longer than the propagation time tb of the reflected wave in the reflection path (RB). The propagation of the ultrasonic wave through the solid body between the transmitter and the receiver is blocked. This invention is suitable to test laminated material (100) such as a laminate of CFRP (101) and insulation (102) in a noncontact way.
摘要翻译：一种用于以非接触反射方式更准确地检测缺陷部分的超声波测试方法，以及用于该方法的超声波测试仪器。从设置在被测物体的一侧的发送器（20（21））发送超声波，反射波由设置在同一侧的接收器（30（31））接收。超声波通过发射机与待测物体（100）之间的空气层和接收器与物体（100）之间的空气层进行传送/接收。如此确定发射器（20），接收器（30）和物体（100）的相对位置，使得发射器和接收器之间的空气路径（RA）的空气传播时间ta比传播时间长反射波（RB）中的反射波的tb。超声波在发射机和接收机之间通过固体的传播被阻断。本发明适合以非接触方式测试诸如CFRP（101）和绝缘体（102）的层压材料的层压材料（100）。

2. 发明申请

US20080127731A1 Ultrasonic Test Method And Ultrasonic Test Instrument Used For The Method 有权
标题翻译：用于该方法的超声波测试方法和超声波测试仪器
公开(公告)号：US20080127731A1
公开(公告)日：2008-06-05
申请号：US11667772
申请日：2005-11-11
申请人： Makoto Shirai , Hiroshi Miyamoto , Shigeyuki Matsubara
发明人： Makoto Shirai , Hiroshi Miyamoto , Shigeyuki Matsubara
IPC分类号： G01N29/00
CPC分类号： G01N29/043 , G01N29/07 , G01N29/223 , G01N29/32 , G01N29/38 , G01N2291/0231 , G01N2291/0427 , G01N2291/044 , G01N2291/056 , G01N2291/102 , G01N2291/2694
摘要： An ultrasonic test method for detecting a defective portion more precisely in a noncontact reflection way, and ultrasonic test instrument used for the method. An ultrasonic wave is transmitted from a transmitter (20 (21)) provided on one side of an object under test, and the reflected wave is received by a receiver (30 (31)) provided on the same side. The ultrasonic wave is transmitted/received through an air layer between the transmitter and the object (100) under test and between the receiver and the object (100). The relative positions of the transmitter (20), the receiver (30), and the object (100) are so determined that the air propagation time ta of the air path (RA) between the transmitter and the receiver is longer than the propagation time tb of the reflected wave in the reflection path (RB). The propagation of the ultrasonic wave through the solid body between the transmitter and the receiver is blocked. This invention is suitable to test laminated material (100) such as a laminate of CFRP (101) and insulation (102) in a noncontact way.
摘要翻译：一种用于以非接触反射方式更准确地检测缺陷部分的超声波测试方法，以及用于该方法的超声波测试仪器。从设置在被测物体的一侧的发送器（20（21））发送超声波，反射波由设置在同一侧的接收器（30（31））接收。超声波通过发射机与待测物体（100）之间的空气层和接收器与物体（100）之间的空气层进行传送/接收。如此确定发射器（20），接收器（30）和物体（100）的相对位置，使得发射器和接收器之间的空气路径（RA）的空气传播时间ta比传播时间长反射波（RB）中的反射波的tb。超声波在发射机和接收机之间通过固体的传播被阻断。本发明适合以非接触方式测试诸如CFRP（101）和绝缘体（102）的层压材料的层压材料（100）。

3. 发明授权

US08024975B2 Ultrasonic testing method and ultrasonic testing device using this 有权
标题翻译：超声波检测方法及超声波检测装置采用此方法
公开(公告)号：US08024975B2
公开(公告)日：2011-09-27
申请号：US11988306
申请日：2006-06-30
申请人： Hideki Yabushita , Tatsuyuki Nagai , Shigeyuki Matsubara , Norio Nemoto , Hiroshi Miyamoto
发明人： Hideki Yabushita , Tatsuyuki Nagai , Shigeyuki Matsubara , Norio Nemoto , Hiroshi Miyamoto
IPC分类号： G01N29/04 , G01N29/00
CPC分类号： G01N29/225 , G01N29/2487 , G01N2291/02854 , G01N2291/0425 , G01N2291/0427 , G01N2291/057 , G01N2291/102 , G01N2291/2693
摘要： An ultrasonic wave is sent from a transmission element to a test element to produce a plate wave in the test element, and the plate wave propagating through the test element is received by a reception element to thereby test the test element on the propagation route of the plate wave. The other probe that is the other reception element or transmission element is disposed between the transmission element and the reception element. A probe holding mechanism that has support legs contacting the surface of the test element and keeps constant an angle of the other probe with respect to the surface of the test element is allowed to support the other probe. And, the other probe is allowed to cross over in non-contact the propagation route of the plate wave extending from the transmission element to the reception element by means of support legs.
摘要翻译：从传输元件向测试元件发送超声波，以在测试元件中产生平板波，并且通过接收元件接收通过测试元件传播的平板波，从而在测试元件的传播路径上测试测试元件平板波。作为另一个接收元件或传输元件的另一个探针设置在传输元件和接收元件之间。具有与测试元件的表面接触并且使另一个探针相对于测试元件的表面保持恒定角度的支撑腿的探针保持机构被允许支撑另一个探针。并且，另一个探头允许通过支撑腿非接触地从传输元件延伸到接收元件的板波的传播路径交叉。

4. 发明授权

US08225668B2 Ultrasonic wave testing method and ultrasonic testing device using this method 有权
标题翻译：超声波检测方法及超声波检测装置采用该方法
公开(公告)号：US08225668B2
公开(公告)日：2012-07-24
申请号：US11988304
申请日：2006-06-30
申请人： Hideki Yabushita , Tatsuyuki Nagai , Shigeyuki Matsubara , Norio Nemoto , Hiroshi Miyamoto
发明人： Hideki Yabushita , Tatsuyuki Nagai , Shigeyuki Matsubara , Norio Nemoto , Hiroshi Miyamoto
IPC分类号： G01N29/26
CPC分类号： G01N29/2456 , G01N29/223 , G01N29/2487 , G01N2291/0231 , G01N2291/0425 , G01N2291/0427 , G01N2291/056 , G01N2291/101 , G01N2291/2693 , G01N2291/2694
摘要： An ultrasonic wave propagating method capable of propagating plate waves between a probe and a test piece despite variations in the thickness or the surface angle of a test piece, and an ultrasonic propagating device and an ultrasonic testing device using this method. Ultrasonic waves are propagated between a probe (20) for transmitting or receiving ultrasonic waves and a test piece (100) for propagating plate waves. When propagating ultrasonic waves, a probe that can set an ultrasonic wave incident angle from the probe (20) to the test piece (100) and/or an ultrasonic wave receivable angle from the test piece to the probe in a plurality of states is used. A focal point type probe may be used as the above probe (20). When this type of a probe is used, it is oriented such that an oscillating direction axis L1 in the direction of which a reference axis along the propagation route of ultrasonic waves is oscillated around the focal point of the probe crosses the propagation element surface L2 including the test piece surface of a ultrasonic wave propagation element.
摘要翻译：尽管测试件的厚度或表面角度发生变化，但是使用该方法的超声波传播装置和超声波检测装置，能够在探针和试验片之间传播平板波的超声波传播方法。超声波在用于发送或接收超声波的探针（20）和用于传播平板波的测试片（100）之间传播。当传播超声波时，可以使用能够以多个状态从探头（20）到测试件（100）设置超声波入射角和/或从测试片到探针的超声波可接收角度的探针。可以使用焦点型探针作为上述探针（20）。当使用这种类型的探针时，其取向为使得沿着超声波的传播路径的参考轴在探针的焦点周围摆动的方向的振动方向轴线L1穿过传播元件表面L2，包括：超声波传播元件的测试片表面。

5. 发明申请

US20090165561A1 Ultrasonic Wave Propagating Method and Ultrasonic Propagating Device and Ultrasonic Testing Device Using This Method 有权
标题翻译：超声波传播方法及超声波传播装置及超声波检测装置
公开(公告)号：US20090165561A1
公开(公告)日：2009-07-02
申请号：US11988304
申请日：2006-06-30
申请人： Hideki Yabushita , Tatsuyuki Nagai , Shigeyuki Matsubara , Norio Nemoto , Hiroshi Miyamoto
发明人： Hideki Yabushita , Tatsuyuki Nagai , Shigeyuki Matsubara , Norio Nemoto , Hiroshi Miyamoto
IPC分类号： G01N29/07
CPC分类号： G01N29/2456 , G01N29/223 , G01N29/2487 , G01N2291/0231 , G01N2291/0425 , G01N2291/0427 , G01N2291/056 , G01N2291/101 , G01N2291/2693 , G01N2291/2694
摘要： An ultrasonic wave propagating method capable of propagating plate waves between a probe and a test piece despite variations in the thickness or the surface angle of a test piece, and an ultrasonic propagating device and an ultrasonic testing device using this method. Ultrasonic waves are propagated between a probe (20) for transmitting or receiving ultrasonic waves and a test piece (100) for propagating plate waves. When propagating ultrasonic waves, a probe that can set an ultrasonic wave incident angle from the probe (20) to the test piece (100) and/or an ultrasonic wave receivable angle from the test piece to the probe in a plurality of states is used. A focal point type probe may be used as the above probe (20). When this type of a probe is used, it is oriented such that an oscillating direction axis L1 in the direction of which a reference axis along the propagation route of ultrasonic waves is oscillated around the focal point of the probe crosses the propagation element surface L2 including the test piece surface of a ultrasonic wave propagation element.
摘要翻译：尽管测试件的厚度或表面角度发生变化，但是使用该方法的超声波传播装置和超声波检测装置，能够在探针和试验片之间传播平板波的超声波传播方法。超声波在用于发送或接收超声波的探针（20）和用于传播平板波的测试片（100）之间传播。当传播超声波时，可以使用能够以多个状态从探头（20）到测试件（100）设置超声波入射角和/或从测试片到探针的超声波可接收角度的探针。可以使用焦点型探针作为上述探针（20）。当使用这种类型的探针时，它被定向成使得沿着超声波的传播路径的参考轴在探针的焦点周围摆动的方向的振荡方向轴线L1穿过传播元件表面L2，包括：超声波传播元件的测试片表面。

6. 发明申请

US20080302188A1 Ultrasonic Testing Method and Ultrasonic Testing Device Using This 有权
标题翻译：超声波检测方法及超声波检测装置
公开(公告)号：US20080302188A1
公开(公告)日：2008-12-11
申请号：US11988306
申请日：2006-06-30
申请人： Hideki Yabushita , Tatsuyuki Nagai , Shigeyuki Matsubara , Norio Nemoto , Hiroshi Miyamoto
发明人： Hideki Yabushita , Tatsuyuki Nagai , Shigeyuki Matsubara , Norio Nemoto , Hiroshi Miyamoto
IPC分类号： G01N29/24
CPC分类号： G01N29/225 , G01N29/2487 , G01N2291/02854 , G01N2291/0425 , G01N2291/0427 , G01N2291/057 , G01N2291/102 , G01N2291/2693
摘要： A ultrasonic testing method capable of carrying out a test of high degree of freedom where a degree of freedom of arranging a transmission element and a reception element is high and the scope of an object of testing is not likely to be limited, and a ultrasonic testing device using this. An ultrasonic wave is sent from a transmission element (20) to a test element (100) to produce a plate wave in the test element, and the plate wave propagating through the test element is received by a reception element (30) to thereby test the test element on the propagation route of the plate wave. The other probe that is the other reception element (20) or transmission element (30) is disposed between the transmission element (20) and the reception element (30). A probe holding mechanism (40) that has support legs (46) contacting the surface of the test element and keeps constant an angle of the other probe with respect to the surface of the test element is allowed to support the other probe. And, the other probe is allowed to cross over in non-contact the propagation route of the plate wave extending from the transmission element to the reception element by means of support legs (46).
摘要翻译：能够进行发送元件和接收元件的配置的自由度高，测试对象的范围不太可能被限制的高自由度的超声波检测方法，超声波检查设备使用这个。从传输元件（20）向测试元件（100）发送超声波，以在测试元件中产生平板波，并且通过接收元件（30）接收通过测试元件传播的平板波，从而测试测试元件在板波传播路径上。作为另一个接收元件（20）或发送元件（30）的另一个探针被配置在发送元件（20）和接收元件（30）之间。具有支撑腿（46）的探针保持机构（40）允许支撑腿（46）与测试元件的表面接触并且使另一个探针相对于测试元件的表面保持恒定的角度来支撑另一个探针。并且，另一个探针被允许通过支撑腿（46）非接触地从传播元件延伸到接收元件的板波的传播路径交叉。

7. 发明授权

US09032799B2 Apparatus and method for nondestructive inspection 有权
标题翻译：无损检测装置及方法
公开(公告)号：US09032799B2
公开(公告)日：2015-05-19
申请号：US13128948
申请日：2009-11-10
申请人： Hidetaka Hattori , Hideki Horizono , Masayuki Kanemasu , Shigeyuki Matsubara , Kunihiko Shinoda , Hirotoshi Hujigaki , Susumu Ryuuou
发明人： Hidetaka Hattori , Hideki Horizono , Masayuki Kanemasu , Shigeyuki Matsubara , Kunihiko Shinoda , Hirotoshi Hujigaki , Susumu Ryuuou
IPC分类号： G01N29/032 , G01N29/04
CPC分类号： G01N29/032 , G01N29/043 , G01N29/265 , G01N2291/0231 , G01N2291/0251 , G01N2291/0427
摘要： A nondestructive inspection apparatus according to the present invention has a transmission-side probe configured to emit a first ultrasonic wave toward a test-target fluid, a plate through which a Lamb wave generated by the first ultrasonic wave is propagated when the first ultrasonic wave is propagated, and a reception-side probe configured to measure intensity of a second ultrasonic wave which is emitted from the plate and propagates through the test-target fluid. At this time, the nondestructive inspection apparatus can inspect the test-target fluid without bringing the transmission-side probe configured to emit the first ultrasonic wave and the reception-side probe configured to measure the second ultrasonic wave into contact with the test-target fluid.
摘要翻译：根据本发明的非破坏性检查装置具有发送侧探针，被配置为朝向被测目标流体发射第一超声波，当第一超声波为第一超声波时，由第一超声波产生的兰姆波传播的板以及接收侧探针，被配置为测量从所述板发射并传播通过所述测试对象流体的第二超声波的强度。此时，非破坏性检查装置可以在不使配置为发射第一超声波的发送侧探针的情况下检查被检查对象流体，并且将被配置为测量第二超声波的接收侧探针与测试对象流体接触。

8. 发明申请

US20110259104A1 APPARATUS AND METHOD FOR NONDESTRUCTIVE INSPECTION 有权
标题翻译：非结构性检查的装置和方法
公开(公告)号：US20110259104A1
公开(公告)日：2011-10-27
申请号：US13128948
申请日：2009-11-10
申请人： Hidetaka Hattori , Hideki Horizono , Masayuki Kanemasu , Shigeyuki Matsubara , Kunihiko Shinoda , Hirotoshi Hujigaki , Susumu Ryuuou
发明人： Hidetaka Hattori , Hideki Horizono , Masayuki Kanemasu , Shigeyuki Matsubara , Kunihiko Shinoda , Hirotoshi Hujigaki , Susumu Ryuuou
IPC分类号： G01N29/22 , G01H3/00
CPC分类号： G01N29/032 , G01N29/043 , G01N29/265 , G01N2291/0231 , G01N2291/0251 , G01N2291/0427
摘要： A nondestructive inspection apparatus according to the present invention has a transmission-side probe configured to emit a first ultrasonic wave toward a test-target fluid, a plate through which a Lamb wave generated by the first ultrasonic wave is propagated when the first ultrasonic wave is propagated, and a reception-side probe configured to measure intensity of a second ultrasonic wave which is emitted from the plate and propagates through the test-target fluid. At this time, the nondestructive inspection apparatus can inspect the test-target fluid without bringing the transmission-side probe configured to emit the first ultrasonic wave and the reception-side probe configured to measure the second ultrasonic wave into contact with the test-target fluid.
摘要翻译：根据本发明的非破坏性检查装置具有发送侧探针，被配置为朝向被测目标流体发射第一超声波，当第一超声波为第一超声波时，由第一超声波产生的兰姆波传播的板以及接收侧探针，被配置为测量从所述板发射并传播通过所述测试对象流体的第二超声波的强度。此时，非破坏性检查装置可以在不使配置为发射第一超声波的发送侧探针的情况下检查被检查对象流体，并且将被配置为测量第二超声波的接收侧探针与测试对象流体接触。

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