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    • 1. 发明专利
    • Element test method of gasket for cask and its device
    • 元件垫片及其装置的元件测试方法
    • JP2006017609A
    • 2006-01-19
    • JP2004196463
    • 2004-07-02
    • Mitsubishi Heavy Ind Ltd三菱重工業株式会社
    • AKAMATSU TETSUOMURAKAMI KAZUOASADA KAZUOMINAMI MASAHARUTAN YASUHIRO
    • G01M13/00G01M3/04G01M3/20G01N3/30G21C19/32G21F5/12
    • PROBLEM TO BE SOLVED: To provide an element testing device of a gasket for a cask capable of acquiring a side-slid displacement characteristic resetting after deformation such as oval deformation of a shell part generated in an actual machine.
      SOLUTION: In this element testing device of the gasket for the cask, an annular metal gasket 3 is sandwiched between the first and second metal flange members 1, 2, and the first and second metal flange members 1, 2 are fastened by a plurality of bolts 4, and an impact load in the lateral direction is applied to the first metal flange member 1 and the second metal flange member 2 by a pendulum type impact testing machine 20. In the device, the second metal flange member 2 is deformed into an oval shape by providing an aperture on the center part of the first and second metal flange members 1, 2.
      COPYRIGHT: (C)2006,JPO&NCIPI
    • 要解决的问题:提供一种能够获得在实际机器中产生的壳体部分的变形例如椭圆形变形之后的侧滑位移特性复位的用于桶的垫圈的元件测试装置。

      解决方案:在用于桶的垫圈的元件测试装置中,环形金属垫圈3夹在第一和第二金属凸缘构件1,2之间,并且第一和第二金属凸缘构件1,2由 多个螺栓4和横向的冲击载荷通过摆锤式冲击试验机20施加到第一金属凸缘构件1和第二金属凸缘构件2.在该装置中,第二金属法兰构件2是 通过在第一和第二金属凸缘构件1,2的中心部分上设置孔,使其变形为椭圆形。版权所有(C)2006,JPO&NCIPI

    • 6. 发明专利
    • Thrust bearing of superconducting flywheel device
    • 超声波飞行器装置的轴承
    • JPH11280764A
    • 1999-10-15
    • JP8108498
    • 1998-03-27
    • Chubu Electric Power Co IncMitsubishi Heavy Ind Ltd三菱重工業株式会社中部電力株式会社
    • NAGAYA SHIGEOMINAMI MASAHARUKAWASHIMA YUTAKA
    • H02J15/00F16C32/04H02K7/02H02K7/09
    • F16C32/0438F16C15/00F16C2361/55
    • PROBLEM TO BE SOLVED: To restrain deformation by centrifugal force, and uniformly hold clearance between thrust bearings by vertically symmetrically installing permanent magnet assemblies on the upper side and the lower side of a thrust collar so that both centrifugal forces become the same with each other. SOLUTION: When operating a superconducting flywheel, centrifugal force FRu of an upper side permanent magnet assembly 60b and centrifugal force FRd of a lower side permanent magnet assembly 60a become the same with each other since weight, a shape and an installing position of these magnet assemblies 60b, 60a are equal to each other, and laterally uniformly act on the cylindrical part 5a of a thrust collar 5 since the assemblies are vertically symmetrically installed in the disk part 5b. The comparatively thin cylindrical part 5a is vertically uniformly bent in the outer peripheral direction over both ends from the root to the central disk part 5b by these centrigugal forces FRu , FRd , and does not deviate to the upper side like a conventional product. Therefore, clearance between the permanent magnet assembly 60a and a superconducting bulk body is also uniformized over the bearing inner/outer periphery to prevent reduction in bearing performance.
    • 要解决的问题:为了通过离心力抑制变形,并且通过在推力轴环的上侧和下侧上垂直对称地设置永磁体组件,使得两个离心力彼此相同,从而均匀地保持推力轴承之间的间隙。 解决方案:当操作超导飞轮时,上侧永磁体组件60b的离心力FRu和下侧永磁体组件60a的离心力FRd彼此相同,因为这些磁体组件的重量,形状和安装位置 60b,60a彼此相等,并且横向均匀地作用在止推环5的圆柱形部分5a上,因为组件垂直对称地安装在盘部分5b中。 相对较薄的圆柱形部分5a通过这些中心力FRu,FRd从根部到中心盘部分5b的两端沿外周方向垂直均匀地弯曲,并且如常规产品不偏离上侧。 因此,永磁体组件60a与超导体本体之间的间隙在轴承内/外周上也是均匀的,以防止轴承性能的降低。
    • 7. 发明专利
    • Flange fastening structure
    • 法兰紧固结构
    • JP2007071334A
    • 2007-03-22
    • JP2005260580
    • 2005-09-08
    • Mitsubishi Heavy Ind Ltd三菱重工業株式会社
    • KUNITAKE NOBUHIROFUKUI YUTAKAKAWAHARA YOSHIYUKITANAKA YUTAKASHINOHARA TANEHIROKURIMURA TAKAYUKIMINAMI MASAHARU
    • F16B7/18F16B5/02F16B35/00F16J15/08F16L23/036F16L23/16
    • PROBLEM TO BE SOLVED: To provide a flange fastening structure for securing reliable sealing performance under high-temperature environment. SOLUTION: The fastening structure 1 is provided for fastening a pair of flanges 7, 9 arranged opposing each other with a metal seal held therebetween. It comprises through-holes 11, 13 provided through the flanges 7, 9 in mutual communication, a ceramics connection member 17 inserted therethrough, a metal fastening bolt 19 having a male screw portion 33 engraved in the outer periphery and divided into a plurality of parts to form a hollow cylindrical shape during assembly, a metal fastening nut 21 having a female screw portion 37 on the hollow inner periphery to be threaded to the male screw portion 33, and a spring washer 23. The connection member 17 has an insertion head porion 25 large enough to pass through the through-holes 11, 13 and a locked head portion 27 large enough to be locked to the through-holes 11, 13. The fastening bolt 19 abuts on a seating face 29 of the insertion head portion 25, and the male screw portion 33 is protruded to the outside of the insertion head portion 25. COPYRIGHT: (C)2007,JPO&INPIT
    • 要解决的问题:提供一种用于在高温环境下确保可靠的密封性能的法兰紧固结构。 解决方案:紧固结构1用于紧固彼此相对布置的一对凸缘7,9,其间保持有金属密封件。 它包括通过相互连通的凸缘7,9提供的通孔11,13,插入其中的陶瓷连接构件17,金属紧固螺栓19,其具有刻在外周上的外螺纹部分33并被分成多个部分 在组装时形成中空圆柱形,金属紧固螺母21在中空内周上具有螺纹连接到阳螺纹部33上的阴螺纹部分37和弹簧垫圈23.连接构件17具有插入头部 25足够大以穿过通孔11,13和锁定的头部27,其大到足以锁定到通孔11,13。紧固螺栓19邻接插入头部25的就座面29, 并且外螺纹部分33突出到插入头部分25的外部。版权所有(C)2007,JPO&INPIT
    • 8. 发明专利
    • Metal airtight container and its corrosion prevention method
    • 金属空气容器及其腐蚀预防方法
    • JP2006125905A
    • 2006-05-18
    • JP2004311799
    • 2004-10-27
    • Mitsubishi Heavy Ind Ltd三菱重工業株式会社
    • TANAKA KAZUHISANOGUCHI HIRONORIHOJO KIMINOBUKISHIMOTO JUNICHIMINAMI MASAHARU
    • G21C19/32G21F5/12G21F9/36
    • PROBLEM TO BE SOLVED: To provide a corrosion prevention method for metal airtight container, in which a cause of corrosion is removed by efficiently washing the gasket part as the airtight boundary of a cask, remaining water quantity is minimized before drying of cask cavity (whole inside where a fuel assembly is placed), the drying load is lowered in later processes, and drying performance is improved. SOLUTION: The metal airtight container comprises: a container body 1 of which the open end is provided with a lid attaching part 1a; an upper lid 2 tightened to the lid attaching part 1a; and a seal member 3 intervening between the lid attaching part 1a and the upper lid 2. A spacer bolt 5 is penetrated vertically into the upper lid 2 and its lower end is projected from the lower surface of the upper lid 2 to contact the lid attaching part 1a so that a gap G to be a flow path for draining washing water injected to the seal member 3 is formed between the upper lid 2 and the attaching part 1a. COPYRIGHT: (C)2006,JPO&NCIPI
    • 要解决的问题:为了提供金属密封容器的防腐蚀方法,其中通过有效地洗涤作为桶的气密边界的垫圈部分来去除腐蚀的原因,在桶的干燥之前剩余的水量被最小化 空腔(放置燃料组件的内部),干燥负荷在后续过程中降低,并且干燥性能得到改善。 金属密封容器包括:容器体1,其开口端设有盖附接部分1a; 上盖2紧固到盖安装部1a; 以及密封构件3,其插入在盖安装部1a和上盖2之间。间隔螺栓5被垂直地穿入上盖2,并且其下端从上盖2的下表面突出以接触盖附接 使得在上盖2和安装部1a之间形成作为用于排出喷射到密封构件3的洗涤水的流动路径的间隙G. 版权所有(C)2006,JPO&NCIPI