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    • 1. 发明申请
    • METHOD OF DETERMINING POSITION WHERE WORK IS DONE IN SPACE SURROUNDED BY SURFACES AND WORK RESULT MANAGEMENT DEVICE
    • 通过表面和工作结果管理设备确定空间位置的方法
    • US20110170374A1
    • 2011-07-14
    • US12866369
    • 2009-09-04
    • Masakazu MiyachiTetsuya YamadaSatoshi TasakiMasaaki FujitaKeiji IdaNaoki Suganuma
    • Masakazu MiyachiTetsuya YamadaSatoshi TasakiMasaaki FujitaKeiji IdaNaoki Suganuma
    • G01S3/80
    • G01S11/16G01S5/30
    • To provide a position determining method and a work result management device, used for internal inspection of a space surrounded by surfaces such as a boiler furnace, and further used for inspection of an inner or outer wall in a vessel and capable of detecting plural positions. There is provided a method of determining a position where work is done in a space surrounded by surfaces, wherein the position where work inside the space is done is a sidewall, wave receivers capable of receiving an acoustic wave signal are placed at three or more points, which are on the same plane substantially parallel to the sidewall but not collinear with one another and whose position coordinates are known, the signal is transmitted from a wave transmitter capable of transmitting an acoustic wave and placed at a position where work is done on the sidewall in the space, and the respective arrival times of the signal at the three or more wave receivers that are not collinear with one another are measured to determine the position coordinates of the wave transmitter using the arrival times and the position coordinates of the three or more wave receivers.
    • 提供一种位置确定方法和作业结果管理装置,用于内部检查由诸如锅炉炉的表面包围的空间,并且还用于检查容器中的内壁或外壁并且能够检测多个位置。 提供了一种确定在由表面包围的空间中完成工作的位置的方法,其中完成空间内的工作的位置是侧壁,能够接收声波信号的波接收器被放置在三个或更多点 它们在基本上平行于侧壁的同一平面上,但彼此不共线并且其位置坐标是已知的,该信号从能够发送声波的波发射器发射并放置在工作在 测量空间中的侧壁,并且测量在三个或更多个波形接收器处彼此不共线的信号的相应到达时间,以使用到达时间和位置坐标来确定波发射器的位置坐标, 更多的波接收机。
    • 3. 发明授权
    • Inspection device and inspection method for boiler furnace water wall tubes
    • 锅炉炉水壁管检查装置及检验方法
    • US08786867B2
    • 2014-07-22
    • US13129503
    • 2009-07-09
    • Hirotoshi MatsumotoKeiji IdaHideaki MurataKai Zhang
    • Hirotoshi MatsumotoKeiji IdaHideaki MurataKai Zhang
    • G01B11/24G01B11/14G01N21/00G01N21/86
    • G01B11/06F22B37/005G01N21/952
    • An inspection device and an inspection method for boiler furnace water wall tubes. The inspection device includes a scanner including columns placed upright and fixed by magnets onto the surfaces of multiple water wall tubes extending in the up-down direction on the inner wall surfaces of the boiler furnace, a support frame fixed to the columns to support a displacement sensor producing laser light to be irradiated onto the surface of a water wall tube, and a moving mechanism for moving the displacement sensor in the axial direction of the water wall tube relative to the support frame. A signal processing unit calculates the amount of reduced wall thickness of the water wall tube from a difference between the cross-sectional surface shape of the water wall tube based on a signal from the displacement sensor and a reference shape without reduction in wall thickness.
    • 锅炉炉水壁管检查装置及检验方法。 检查装置包括扫描器,其包括直立放置并由磁铁固定在多个水壁管的表面上的柱,所述多个水壁管在锅炉炉的内壁表面上沿上下方向延伸,支撑框架固定到柱以支撑位移 产生要照射在水壁管表面的激光的传感器,以及用于相对于支撑框架沿位于水壁管的轴向方向移动位移传感器的移动机构。 信号处理单元根据来自位移传感器的信号与基准形状之间的水壁管的截面形状之间的差来计算水壁管的壁厚减少量,而不会减小壁厚。
    • 4. 发明申请
    • INSPECTION DEVICE AND INSPECTION METHOD FOR BOILER FURNACE WATER WALL TUBES
    • 锅炉炉壁管检查装置及检验方法
    • US20110279828A1
    • 2011-11-17
    • US13129503
    • 2009-07-09
    • Hirotoshi MatsumotoKeiji IdaHideaki MurataKai Zhang
    • Hirotoshi MatsumotoKeiji IdaHideaki MurataKai Zhang
    • G01B11/06
    • G01B11/06F22B37/005G01N21/952
    • There are provided an inspection device and an inspection method for boiler furnace water wall tubes, which can inspect reduced wall thickness conditions of multiple water wall tubes, extending in an up-down direction along inner wall surfaces of a boiler furnace and arranged adjacent to each other, accurately and efficiently over a wide range based on surface shapes of the water wall tubes measured by a laser displacement sensor. A scanner 14 including columns 20 placed upright and fixed by magnets onto the surfaces of multiple water wall tubes 4 extending the up-down direction on the inner wall surfaces of the boiler furnace, a support frame 28 fixed to the columns 20 to support a displacement sensor 12 producing laser light to be irradiated onto the surface of a water wall tube 4, and a moving mechanism 31 for moving the displacement sensor 12 in the axial direction of the water wall tube 4 relative to the support frame 28. A signal processing unit 16 is also provided for calculating the amount of reduced wall thickness of the water wall tube 4 from a difference between the cross-sectional surface shape of the water wall tube 4 based on a signal from the displacement sensor 12 and a reference shape without reduction in wall thickness in order to evaluate a reduced wall thickness condition.
    • 提供了一种用于锅炉炉水壁管的检查装置和检查方法,其可以检查多个水壁管的壁厚条件,沿着锅炉炉的内壁表面沿上下方向延伸并且布置在每个 其他,基于由激光位移传感器测量的水壁管的表面形状在宽范围内准确和有效。 扫描仪14,其包括直立放置并由磁铁固定在多个水壁管4的表面上的柱20,该多个水壁管4在锅炉炉的内壁表面上沿着上下方向延伸,支撑框架28固定在立柱20上以支撑位移 产生要照射在水壁管4的表面上的激光的传感器12;以及移动机构31,用于使位移传感器12相对于支撑框架28在水壁管4的轴向上移动。信号处理单元 图16还用于根据来自位移传感器12的信号和水平管壁4的横截面形状之间的差异与基准形状来计算水壁管4的壁厚减小量 以评估壁厚条件的降低。