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    • 1. 发明专利
    • System for monitoring wall thickness
    • 监测墙壁厚度的系统
    • JP2006170754A
    • 2006-06-29
    • JP2004362527
    • 2004-12-15
    • Mitsubishi Heavy Ind Ltd三菱重工業株式会社
    • KUROISHI TAKUJIMATSUMOTO HIROTOSHIAOKI KIYOTAKA
    • G01B17/02G01N29/00G01N29/04G01N29/44
    • PROBLEM TO BE SOLVED: To construct a system for measuring defect remotely when necessary on the basis of defect detection technology with an established guide wave and predict future thinning from thinning speed considering former thinning speed and property of metal material and predict exchange time of a pipe.
      SOLUTION: Ultrasonic signal output from an ultrasonic signal converter is introduced in a pipe and the reflection wave transmitted as a guide wave in the pipe and reflected at the pipe wall are measured with the ultrasonic signal converter. By this, correlation between the height of the reflection wave and the cross section reduction rate of the pipe is obtained in advance in a thickness monitoring system measuring the thickness of the pipe, thinning quantity of the pipe is estimated from the height of the reflection wave measured with the ultrasonic signal converter by utilizing the correlation. When the estimated thinning quantity exceeds a reference value, alert is issued.
      COPYRIGHT: (C)2006,JPO&NCIPI
    • 要解决的问题:在必要时构建一个基于缺陷检测技术的远程测量缺陷的系统,具有既定的引导波,并且考虑到前面的稀疏速度和金属材料的性质,预测未来从稀疏速度变薄的预测,并预测交换时间 的管道。 解决方案:超声波信号转换器的超声信号输出引入到管道中,以超声波信号转换器测量在管道中作为引导波传输并在管壁反射的反射波。 由此,在测量管道的厚度的厚度监视系统中预先获得反射波的高度与管的截面减小率之间的相关性,从反射波的高度估计管的变薄量 通过利用相关性用超声信号转换器测量。 当估计的稀疏量超过参考值时,发出警报。 版权所有(C)2006,JPO&NCIPI
    • 3. 发明专利
    • Method and device for detecting condition of pipe or plate
    • 用于检测管道或板条件的方法和装置
    • JP2008032466A
    • 2008-02-14
    • JP2006204606
    • 2006-07-27
    • Mitsubishi Heavy Ind Ltd三菱重工業株式会社
    • OGUCHI TAKAHIROSAKATA FUMITOSHIKUROISHI TAKUJIAOKI KIYOTAKA
    • G01N29/04G01M3/24G01N29/02G01N29/24G01N29/44
    • PROBLEM TO BE SOLVED: To provide a method and device for detecting conditions of pipes or plates for uniformly and efficiently detecting the entire inner surface conditions of the pipes by an extremely simple method.
      SOLUTION: The method detects the conditions of pipes by emitting an ultrasonic wave to a pipe thick-wall part to analyze a reflected wave from a discontinuous part of the pipes, and is characterized by: calculating, as difference waveform data, differences between initial waveform data which are initial data on the reflected wave and monitoring waveform data which are waveform data on the reflected wave collected after a lapse of a certain time period from the collection of the initial waveform data; comparing echoes of the difference waveform data with a previously set reference echo; and detecting a diminution in thickness of the pipes when the echoes of the difference waveform data exceed the reference echo.
      COPYRIGHT: (C)2008,JPO&INPIT
    • 要解决的问题:提供一种用于检测管道或板材的状况的方法和装置,以通过极其简单的方法均匀有效地检测管道的整个内表面状况。 解决方案:该方法通过向管道厚壁部分发射超声波来检测管道的状况,以分析来自不连续部分管道的反射波,其特征在于:作为差分波形数据计算差异 作为反射波的初始数据的初始波形数据和作为从收集初始波形数据经过一定时间段之后收集的反射波上的波形数据的监视波形数据; 将差分波形数据的回波与预先设定的参考回波进行比较; 并且当差分波形数据的回波超过参考回波时,检测管道厚度的减小。 版权所有(C)2008,JPO&INPIT
    • 4. 发明专利
    • Tube temperature measuring apparatus
    • 管温度测量装置
    • JP2005077108A
    • 2005-03-24
    • JP2003209749
    • 2003-08-29
    • Mitsubishi Heavy Ind Ltd三菱重工業株式会社
    • SAKATA FUMITOSHINISHIMURA NOBUHIKOKUROISHI TAKUJIHASHIMOTO YASUSHIISHIHARA YOSHIYUKIKUMANO SHINTARO
    • G01K7/02
    • PROBLEM TO BE SOLVED: To measure the temperature of a large number of tubes without the need for large-scale and complicated wiring.
      SOLUTION: In this apparatus, a heating medium flows inside through a plurality of nozzles 5, and the temperature of a wall part of each nozzle 5 in a structure in which the plurality of nozzles 5 are arranged in parallel with one anther is measured. The apparatus is provided with a contact thermometer 11 for measuring the temperature of the wall part of each nozzle 5; a guide rail 13 for supporting the contact thermometer 11 in such a way that it may move along the direction in which the nozzles 5 are arranged and guiding its movement; and a wire rope body 21 for moving the thermometer along a guide member.
      COPYRIGHT: (C)2005,JPO&NCIPI
    • 要解决的问题:测量大量管的温度,而不需要大规模和复杂的布线。 解决方案:在该装置中,加热介质通过多个喷嘴5流入内部,并且多个喷嘴5与一个花药平行布置的结构中的每个喷嘴5的壁部的温度为 测量。 该装置设置有用于测量每个喷嘴5的壁部的温度的接触温度计11; 用于支撑接触式温度计11的导轨13,其可以沿着喷嘴5的布置方向移动并引导其运动; 以及用于沿着引导构件移动温度计的钢丝绳主体21。 版权所有(C)2005,JPO&NCIPI
    • 8. 发明专利
    • Anti-fouling and corrosion protection device of structure contacting with seawater and anti-fouling and corrosion-proofing method
    • 用海水和防腐蚀和腐蚀保护方法接触的结构的防止和腐蚀保护装置
    • JP2007186933A
    • 2007-07-26
    • JP2006006616
    • 2006-01-13
    • Mitsubishi Heavy Ind Ltd三菱重工業株式会社
    • FURUKAWA SEIJITAKEUCHI KAZUHISAKUROISHI TAKUJISAKIMURA MITSURUYAMASHITA YUTAKASHINOHARA MASATOMO
    • E02B5/00B63B59/04C02F1/00C02F1/46
    • PROBLEM TO BE SOLVED: To provide an anti-fouling and corrosion protection device of a structure contacting with seawater and capable of continuing the effect of anti-fouling and corrosion protection even if it is operated for a long period of time and continuing also the durability of the device for a long period of time and an anti-fouling and corrosion proofing method.
      SOLUTION: In the anti-fouling and corrosion protection contacting with seawater and protecting ocean creatures from being adhered to the wall surface of the structure by supplying a current based on a power connection pattern intermittently repeating one cycle setting a predetermined voltage and an applied time in a titanium membrane formed on the wall surface of the structure contacting with seawater through an insulating membrane, a potential sensor measuring the surface potential of the titanium membrane is provided, and the power connection pattern is renewed in real time based on a voltage value obtained by the potential sensor. Further, the fine adjustment of the power connection pattern can be made in real time based on measurement data obtained by a water quality monitor of seawater, a temperature sensor, a flow velocity sensor and a picture monitor.
      COPYRIGHT: (C)2007,JPO&INPIT
    • 要解决的问题:提供与海水接触的结构的防污和防腐蚀装置,并且即使长时间运行并且继续运行也能够继续防污和防腐蚀的效果 长时间使用设备的耐久性和防污防腐方法。 解决方案:在与海水接触的防污和防腐蚀保护中,通过以间歇地重复设定预定电压的一个循环的电力连接图案供应电流来保护海洋生物不被粘附到结构的壁表面,并且 在通过绝缘膜与形成在与海水接触的结构的壁表面上的钛膜中施加时间,提供测量钛膜的表面电位的电位传感器,并且基于电压实时更新电力连接图案 值由电位传感器获得。 此外,可以基于通过海水,温度传感器,流速传感器和图像监视器的水质监视器获得的测量数据实时地进行电力连接模式的微调。 版权所有(C)2007,JPO&INPIT
    • 10. 发明专利
    • CORRECTING DEVICE FOR PRECEDING CONTROL SIGNAL OF BOILER CONTROL
    • JPH03110303A
    • 1991-05-10
    • JP24497589
    • 1989-09-22
    • MITSUBISHI HEAVY IND LTD
    • KUROISHI TAKUJI
    • F22B35/00
    • PURPOSE:To eliminate wasteful movements of supply water, fuel, and air and attempt to improve the operation of a thermal electricity generation by the constitution that, when a target value of load varies, a subtractor sends the variation width of the difference of held load instruction signals and a target load value to a function generator and a preceding control signal is corrected. CONSTITUTION:A variation rate limiting device 5 holds its output for a specified time as soon as a target load value 15S varies. And, a subtractor 6 inputs a held load instruction signal 10S and the target load value 15 and inputs the variation width 16S of the difference between them to a function generator 4. The function generator 4 inputs a correction value 17S from 0.2 to 1.2 to a multiplier 3 according to input, and the correction value is multiplied by output signal of a differentiator 1 and the multiplication is inputted to each proportion calculator 2. With this arrangement, when the load variation width 16S is small, 0.2 is taken is a correction value 17S and it is multiplied to make each of preceding control signals 11S-13S small and when the width 16S is large, a corresponding large value is multiplied to make each of the preceding control signals 11S-13S large in order to make it possible to provide a preceding control signal output that is most suitable for any load variation pattern.