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    • 1. 发明专利
    • Unloading device
    • 卸载装置
    • JP2014047043A
    • 2014-03-17
    • JP2012191991
    • 2012-08-31
    • Toshiba Corp株式会社東芝
    • URAGUCHI KOHEISUDO KAZUOYUGUCHI YASUHIROOKA KEIICHIROSUGAWARA ATSUSHITERAI FUJIOHOZUMI HISASHIHIROSE YUKINORI
    • B66F7/10B66F5/00E04G21/14G21C13/00
    • Y02E30/40
    • PROBLEM TO BE SOLVED: To provide an unloading device accessible to an upper floor in a building without interference in the building, even when a large lifting range is needed.SOLUTION: An unloading device 10 includes: a gondola 11 with a platform 22 and provided with a carrying in/out port of an object; a joint pipe removable lifting device 12 movably disposed in a lower side of the platform, and for adjusting the connecting number of joint pipes by repeating the gripping and lifting of the joint pipes 25 configured to be removable from a bottom surface of the platform and plurally connectable in a longitudinal direction; a horizontal load support 13 for supporting a horizontal load acting on the gondola, and lifted in conformity with the lifting of the gondola; a crawler 15 for making the unloading device travel; a sub-gate 14 lifted in a predetermined range while placing the object; a power supply unit 16 for supplying an operating power of the unloading device; a control unit 19 for controlling a movement such as the gondola; and an operation unit 20 for providing an operation command to the control unit.
    • 要解决的问题:即使在需要大的提升范围时,即使在需要大的提升范围的情况下,也可以在建筑物中的上层楼板上提供可以抵达建筑物上层的卸载装置。解决方案:卸载装置10包括:具有平台22的提供的吊篮11 携带物品的进/出口; 可移动地设置在平台的下侧的联接管可移除提升装置12,并且用于通过重复抓住和提升构造成可从平台的底表面移除的接合管25并且多个 在纵向可连接; 水平负载支撑件13,用于支撑作用在吊舱上的水平负载,并且与升降缆车相一致地提升; 用于使卸载装置行进的履带15; 在放置物体的同时在预定范围内提升的子门14; 用于提供卸载装置的操作电力的电源单元16; 用于控制诸如缆车的移动的控制单元19; 以及用于向控制单元提供操作命令的操作单元20。
    • 2. 发明专利
    • Conveying device, work system, and conveying method
    • 输送设备,工作系统和输送方法
    • JP2013014400A
    • 2013-01-24
    • JP2011147525
    • 2011-07-01
    • Toshiba Corp株式会社東芝
    • HIGASHIKURA ICHIROYUGUCHI YASUHIROMATSUZAKI KENJIKASAI SHIGERUMATSUZAKI MICHIHIROHAMADA TOMOHIRONISHIKUBO MASARUSUZUKI ATSUSHIUENO KENICHI
    • B66F9/06B66F9/24
    • PROBLEM TO BE SOLVED: To provide a conveying device that can reliably and quickly deliver a working machine up to an upper floor even when a facility for going up and down, such as stairs, is not available for use, and to provide a work system and a conveying method.SOLUTION: The conveying device includes: a working robot 11 that works in a building 2; a control device 12 for remotely controlling the working robot 11; a rack 43 for going up and down between a floor 3 and an upper floor 4 in an open ceiling extending to upper floors in the building 2, and having a moving device for horizontally translating an object loaded thereon; a fixed part 15b configured to be fixed through contact with the upper floor 4 or a structure 6 on the upper floor 4 after horizontally moved by the moving device on the rack 43; and a crossing board 15 serving as a passage 15a for the working robot 11.
    • 要解决的问题:提供一种能够可靠且快速地将工作机械运送到上层的输送装置,即使在楼梯等上下不动的设施不可用的情况下,也可以提供 工作系统和输送方法。 解决方案:输送装置包括:在建筑物2中工作的作业机器人11; 用于远程控制工作机器人11的控制装置12; 用于在延伸到建筑物2的上层的开放式天花板中的地板3和上层4之间上下移动的搁板43,并且具有用于水平平移装载在其上的物体的移动装置; 固定部分15b,被配置成通过与机架43上的移动装置水平移动之后与上层4或上层4上的结构6接触而固定; 和用作作业机器人11的通道15a的交叉板15.版权所有(C)2013,JPO&INPIT
    • 3. 发明专利
    • Three-dimensional surface shape calculation apparatus, automatic construction device using the apparatus, and method thereof
    • 三维表面形状计算装置,使用装置的自动构造装置及其方法
    • JP2012088244A
    • 2012-05-10
    • JP2010236781
    • 2010-10-21
    • Toshiba Corp株式会社東芝
    • SUGANUMA NAOTAKAKOBAYASHI NORIYASUYUGUCHI YASUHIROMATSUZAKI KENJIOKADA SATOSHISHIMAMURA MITSUAKIOCHIAI MAKOTO
    • G01B5/20G01B5/00
    • PROBLEM TO BE SOLVED: To provide a three-dimensional surface shape calculation apparatus capable of accurately calculating the three-dimensional surface shape of a measurement object surface by one scan.SOLUTION: A three-dimensional surface shape calculation apparatus 1 includes: a sensor base 6; displacement sensors 2 having spherical shapes at the distal ends and moving the spherical shapes in one direction; and an operation part 8 for moving the sensor base 6 by allowing the displacement sensors 2 to be brought into contact with three contact points surrounding each plane equation calculation point 22 in a three-dimensional space with an original point fixed therein. The operation part 8 acquires three spherical center coordinates through the use of displacement signals 200 being the movement distances of the sensor spheres 2 and directions and distances from the original point of the sensor base 6. The operation part 8 also acquires vectors which are obtained by multiplying the unit vector of a normal vector being the exterior product of two vectors from one spherical center coordinate to the other two spherical center coordinates by the radius of the spherical shape, and acquires the coordinates of the contact points by adding the vectors to the spherical center coordinates. Then, the operation part calculates a plane equation for a shape surrounded by the coordinates of the contact points.
    • 要解决的问题:提供一种能够通过一次扫描精确地计算测量对象表面的三维表面形状的三维表面形状计算装置。 解决方案:三维表面形状计算装置1包括:传感器基座6; 位移传感器2在远端具有球形并沿一个方向移动球形; 以及操作部8,用于通过使位移传感器2与其中固定有原点的三维空间中的每个平面方程计算点22周围的三个接触点相接触来移动传感器基座6。 操作部8通过使用作为传感器球体2的移动距离的位移信号200和与传感器基座6的原点的方向和距离来取得三个球面中心坐标。操作部8还获取由 将来自一个球面中心坐标的两个向量的外部乘积的法向量的单位向量乘以球形半径的另外两个球面中心坐标,并通过将向量加到球面中来获取接触点的坐标 中心坐标。 然后,操作部分计算由接触点的坐标包围的形状的平面等式。 版权所有(C)2012,JPO&INPIT
    • 4. 发明专利
    • Ultrasonic flaw detecting method and device
    • 超声波检测方法和装置
    • JP2010025676A
    • 2010-02-04
    • JP2008185856
    • 2008-07-17
    • Toshiba Corp株式会社東芝
    • HIRASAWA TAIJIYUGUCHI YASUHIROOTSUBO TOORU
    • G01N29/04
    • PROBLEM TO BE SOLVED: To easily and precisely execute the ultrasonic flaw detecting work to a multilayered piping structure region.
      SOLUTION: At first, linear scanning is performed at a flaw detecting angle θ1 of refraction so that the ultrasonic beams from the respective vibrators of a phased array probe 1 can directly irradiate a flaw inspecting target region R. Subsequently, the same linear scanning is performed at a flaw detecting angle θ2 of refraction so that the ultrasonic beams are once reflected from the inner surface of a thick-walled part to arrive at the flaw inspecting target region R. In this case, one of the ultrasonic beams is reflected on one end side (crack opening position) of a flaw part (d). Then, the ultrasonic beams are once reflected from the inner surface of the thick-walled part and the same linear scanning is performed at a flaw detecting angle θ3 of refraction so that the ultrasonic beams are once reflected from the outer surface of the thick-walled part to arrive at the flaw inspecting target region R. In this case, one of the ultrasonic beams is reflected on the other end side (crack leading end position) of the flaw part (d).
      COPYRIGHT: (C)2010,JPO&INPIT
    • 要解决的问题:为了容易且精确地执行超声波探伤工作到多层管道结构区域。 解决方案:首先,以折射检测角度θ1进行线性扫描,使得来自相控阵探头1的各个振动器的超声波束可以直接照射缺陷检查目标区域R.随后,相同的线性 在缺陷检测角度θ2进行扫描,使得超声波束从厚壁部分的内表面一次反射到达缺陷检查目标区域R.在这种情况下,超声波束之一被反射 在缺陷部(d)的一端侧(开口位置)。 然后,超声波束一旦从厚壁部分的内表面反射,并且以折射的探伤角度θ3进行相同的线性扫描,使得超声波束从厚壁的外表面一次反射 到达缺陷检查对象区域R的部分。在这种情况下,超声波束中的一个在缺陷部分(d)的另一端(裂纹前端位置)反射。 版权所有(C)2010,JPO&INPIT
    • 5. 发明专利
    • Ultrasonic flaw detection device and inspection device
    • 超声波检测装置和检查装置
    • JP2008215877A
    • 2008-09-18
    • JP2007050266
    • 2007-02-28
    • Toshiba Corp株式会社東芝
    • ADACHI HIROYUKIHIRASAWA TAIJIYAMAMOTO SATOSHIYUGUCHI YASUHIRO
    • G01N29/04G01N29/24G01N29/26
    • PROBLEM TO BE SOLVED: To provide an ultrasonic flaw detection device for performing an ultrasonic flaw detection test without being affected by the surface unevenness of a structure to be inspected and capable of obtaining a precise measuring results, and an inspection device capable of sharply shortening the inspection time when a plurality of welding lines are inspected.
      SOLUTION: The device inspects the flaw produced in the structure 5 to be inspected arranged in water. The device includes a holding mechanism arranged on the surface 5a of the structure 5 and a phased array probe 3 which is held in a non-contact state with respect to the surface 5a of the structure 5 by the holding mechanism and has a plurality of probes 1 for ultrasonic flaw detection test arranged in a unidimensional or two-dimensional state. The respective probes 1 for the ultrasonic flaw detection test transmit an ultrasonic wave into the structure 5 and detect the ultrasonic wave reflected by the flaw of the structure 5.
      COPYRIGHT: (C)2008,JPO&INPIT
    • 要解决的问题:提供一种用于执行超声波探伤测试的超声波探伤装置,而不受被检查结构的表面凹凸的影响并且能够获得精确的测量结果;以及检测装置, 当检查多条焊接线时,大大缩短检查时间。

      解决方案:设备检查结构5中产生的缺陷,以检查排列在水中。 该装置包括设置在结构体5的表面5a上的保持机构和相控阵探头3,该相控阵探头3通过保持机构相对于结构体5的表面5a保持非接触状态,并具有多个探针 1用于以一维或二维状态排列的超声波探伤试验。 用于超声波探伤试验的各个探针1将超声波发送到结构5中,并检测由结构5的缺陷反射的超声波。版权所有(C)2008,JPO&INPIT

    • 7. 发明专利
    • Nuclear reactor building interior work assisting device and nuclear reactor building interior work method
    • 核反应堆建筑内部工作辅助装置和核反应堆建筑内部工作方法
    • JP2005331245A
    • 2005-12-02
    • JP2004147228
    • 2004-05-18
    • Toshiba Corp株式会社東芝
    • ITO TOMOYUKIKIMURA MOTOHIKOSHIMAMURA MITSUAKIYUGUCHI YASUHIROADACHI HIROYUKI
    • G21C13/00G21C17/003G21C17/013G21C17/08G21C19/02
    • Y02E30/40
    • PROBLEM TO BE SOLVED: To execute work such as inspections, repairs for an object point inside a reactor well simultaneously/in parallel with work such as fuel exchange, without using refueling machines.
      SOLUTION: This nuclear reactor intra-building work assist device disposed within a nuclear reactor building comprises a platform 501, a platform support structure 502, and handrails 504. The platform 501 is disposed inside an operation floor opening 1020 so that its upper surface is positioned at substantially the same height as an upper surface of an operation floor 1001 and has a platform opening 1021, comprising a circular opening part 1022 substantially of the same size as an inner diameter of a reactor pressure vessel 1007 and a platform opening 1021 made up of an opening part 503 for refueling machine mast passage that communicates with the opening part 1022. The support structure 502 supports the platform 501. The handrails 504 are disposed on the platform 501 along the opening 1021.
      COPYRIGHT: (C)2006,JPO&NCIPI
    • 要解决的问题:在不使用加油机的情况下,同时/与燃料交换等工作并行地执行对反应堆内的物体的检查,修理等工作。 解决方案:设置在核反应堆建筑物内的该核反应堆内部建筑物内辅助装置包括平台501,平台支撑结构502和扶手504.平台501设置在操作底板开口1020的内部,使得其上部 表面定位在与操作底板1001的上表面大致相同的高度处,并且具有平台开口1021,该平台开口1021包括基本上与反应堆压力容器1007的内径大致相同尺寸的圆形开口部分1022和平台开口1021 由用于与开口部1022连通的加油机桅杆通道的开口部503构成。支撑结构502支撑平台501.扶手504沿着开口1021设置在平台501上。版权所有(C) )2006年,日本特许厅和NCIPI
    • 8. 发明专利
    • Traveling radiation monitor and traveling radiation monitor system
    • 旅行辐射监测器和行驶辐射监测系统
    • JP2005024345A
    • 2005-01-27
    • JP2003188518
    • 2003-06-30
    • Japan Nuclear Cycle Development Inst States Of ProjectsToshiba Corp株式会社東芝核燃料サイクル開発機構
    • NEMOTO NORIOTSUJI KOICHIMIYAGAWA SHINICHIKASAI SHIGERUYUGUCHI YASUHIRO
    • G21C17/013G01T1/16G01T1/169G21C17/00G21F9/28
    • PROBLEM TO BE SOLVED: To move a traveling radiation monitor for measuring the radiation conditions on the floor surface and in a space on a traveling route during traveling among a plurality of measurement areas for use without need for survey work by manual operation.
      SOLUTION: The traveling radiation monitor can measure radiation to two floor surfaces F, namely a floor surface contamination measurement by a direct method that is made by lowering and bringing a probe 9 for measuring surface contamination to and closer to a floor surface F and a floor surface contamination measurement by an indirect method by using smear filter paper 12 using the same probe 9 while automatically traveling in a measurement area. Additionally, after measuring radiation at a specified measurement point, along with the automatic traveling to a survey area, a radiation survey by a wheel contamination detection probe 22 to a wheel 2, and the decontamination of a radioactive substance by jetting out decontamination water from a decontamination water nozzle 23 can be made, so that a radiation measurement can be executed to a plurality of measurement areas having different management levels without requiring human work.
      COPYRIGHT: (C)2005,JPO&NCIPI
    • 要解决的问题:在不需要通过手动操作进行测量工作的情况下,在多个测量区域之间移动用于测量在行进路线上的地面和行驶路径上的辐射条件的行驶辐射监视器。

      解决方案:行驶辐射监测器可以测量两个地板表面F的辐射,即通过降低并带有用于测量表面污染并靠近​​地板表面F的探头9制成的直接方法的地板表面污染测量 以及在测量区域自动行进时,使用相同的探针9,通过使用污迹滤纸12,通过间接方法进行地板表面污染测量。 此外,在测量指定测量点处的辐射以及自动行进到测量区域之后,通过车轮污染检测探头22到车轮2的辐射测量,以及通过从一个或多个喷射器喷射去污水来对放射性物质进行去污染 可以制造净化水喷嘴23,使得可以对具有不同管理水平的多个测量区域执行辐射测量,而不需要人工。 版权所有(C)2005,JPO&NCIPI

    • 9. 发明专利
    • Furnace bottom section working device
    • 炉底部分工作装置
    • JP2004294372A
    • 2004-10-21
    • JP2003090023
    • 2003-03-28
    • Toshiba Corp株式会社東芝
    • ISHIZAKA TAKAOITO TOMOYUKIMATSUZAKI KENJIYUGUCHI YASUHIRO
    • G21C17/08G21C17/003G21C19/02
    • PROBLEM TO BE SOLVED: To conduct work for checking and inspection, maintenance and the like over a wide range for a furnace bottom section, by removal of the reduced number of control rod guide tubes or the like, or in a reduced installation frequency of a working device.
      SOLUTION: This working device is provided with a base body 8 and a symmetric body 9 connected by an expansion and contraction linking mechanism 10, and each of the base body 8 and the symmetric body 9 is provided with slide arms 11a, 11b wound onto a CRD housing 3 provided in a bottom section of a nuclear reactor pressure vessel or an outside of a stub tube 2, a traveling tool 13 for traveling on an outer circumference of the CRD housing 3 or the stub tube 2, and a working unit 28 for conducting the work for the checking and inspection, the maintenance and the like for the bottom section of a nuclear reactor pressure vessel.
      COPYRIGHT: (C)2005,JPO&NCIPI
    • 要解决的问题:通过去除减少数量的控制杆导管等或在减少的安装中进行炉底部的宽范围的检查和维护等的工作 工作装置的频率。 解决方案:该工作装置设置有基体8和通过膨胀和收缩连接机构10连接的对称体9,并且基体8和对称体9中的每一个设置有滑动臂11a,11b 缠绕在设置在核反应堆压力容器的底部或短截线管2的外侧的CRD壳体3上,用于在CRD壳体3或短截线管2的外周上行进的行进工具13, 用于进行检查和检查的工作的单元28,用于核反应堆压力容器的底部的维护等。 版权所有(C)2005,JPO&NCIPI
    • 10. 发明专利
    • Remote operation method inside reactor containment vessel
    • 反应堆容器内的远程操作方法
    • JP2013117491A
    • 2013-06-13
    • JP2011266080
    • 2011-12-05
    • Toshiba Corp株式会社東芝
    • SUZUKI ATSUSHIIIJIMA TAKEHARUYUGUCHI YASUHIROHIGASHIKURA ICHIROYASUDA TOSHIHIRO
    • G21C19/02
    • PROBLEM TO BE SOLVED: To provide a method for maintaining the diffusion prevention function of a radioactive substance in a reactor containment vessel, and for executing the remote operation of the inside of the reactor containment vessel.SOLUTION: The embodiment of the remote operation method of the inside of a reactor containment vessel includes; a process of air-tightly arranging a first barrier 21 around a hatch 16 in a work space 20; a process of air-tightly arranging a second barrier 22 outside the first barrier 21; a process of removing a lid 17 of the hatch, and moving a work apparatus 30 from the inside of the first barrier 21 to a CRD housing space 38 along a path 18; and a process of returning the work apparatus 30 to the inside of the first barrier 21 after the end of the work in the CRD housing space 38, and closing the hatch with the lid 17.
    • 要解决的问题:提供一种在反应堆容纳容器中保持放射性物质的扩散防止功能的方法,并且用于执行反应堆容纳容器的内部的远程操作。 解决方案:反应堆安全壳内部的远程操作方法的实施例包括: 在工作空间20中围绕舱口16气密地布置第一障碍物21的过程; 在第一阻挡层21的外侧气密地配置第二阻挡层22的工序; 移除舱口盖17的过程,并且使作业装置30从第一隔壁21的内部沿路径18移动到CRD收纳空间38; 以及在工作结束后将工作装置30返回到第一挡板21的过程,并且在盖体17中封闭。[C]版权所有(C)2013,JPO&INPIT