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    • 61. 发明专利
    • Electrode for ion source
    • 电离电极
    • JP2011076937A
    • 2011-04-14
    • JP2009228700
    • 2009-09-30
    • Toshiba Aitekku KkToshiba Corp東芝アイテック株式会社株式会社東芝
    • TAKASAKI MASAHIROSHIBUYA SUMIICHIICHIHASHI KOJIASANO SHIROOKUYAMA TOSHIHISA
    • H01J27/08C23C14/48G21B1/11G21K5/04H01J37/08
    • PROBLEM TO BE SOLVED: To provide an electrode for an ion source of long lifetime, having high cooling efficiency and superior corrosion resistance.
      SOLUTION: The electrode for an ion source includes a pair of heat-resistant electrode plates 1, 1A, 1B, 3, 3A, and 3B of heat-resistant metal material in which a plurality of beam holes 23 for extracting ion beam are formed, with at least one of them containing continuous grooves 2, 2A, and 2B; as well as, includes barrier materials 4, 4A, 4B, 5, 5A, and 5B of corrosion-resistant metal material which are sandwiched between the pair of heat-resistant electrode plates, being tightly bonded to each of the heat-resistant electrode plates so as to cover the peripheral wall of the groove; and further includes coolant flow paths 22, 22A, and 22B which are arranged near the beam holes, with their periphery being defined by the barrier material covering the peripheral wall of the groove, for the coolant for cooling the heat-resistant electrode plate to be flown, and with at least a part of them infiltrating the grooves 2, 2A, and 2B.
      COPYRIGHT: (C)2011,JPO&INPIT
    • 要解决的问题:提供长寿命的离子源用电极,具有高的冷却效率和优异的耐腐蚀性。 解决方案:用于离子源的电极包括耐热金属材料的一对耐热电极板1,1A,1B,3,3A和3B,其中多个用于提取离子束的光束孔23 形成,其中至少一个包含连续的凹槽2,2A和2B; 并且包括夹在一对耐热电极板之间的耐腐蚀金属材料的阻挡材料4,4A,4B,5A,5B和5B紧密地结合到每个耐热电极板 以覆盖槽的周壁; 并且还包括布置在梁孔附近的冷却剂流动通道22,22A和22B,其周边由覆盖槽的周壁的阻挡材料限定,用于将耐热电极板冷却的冷却剂为 并且其中至少一部分浸入槽2,2A和2B中。 版权所有(C)2011,JPO&INPIT
    • 62. 发明专利
    • Ion source electrode and its manufacturing method
    • 离子源电极及其制造方法
    • JP2008078042A
    • 2008-04-03
    • JP2006257748
    • 2006-09-22
    • Toshiba Corp株式会社東芝
    • SHIBUYA SUMIICHITAKAHASHI RYOJIICHIHASHI KOJIOKUYAMA TOSHIHISA
    • H01J27/02G21B1/11H01J9/02H01J37/08
    • PROBLEM TO BE SOLVED: To obtain an ion source electrode with high cooling-efficiency which is highly protected against corrosion by a molten layer and has little risk of leakage of cooling water.
      SOLUTION: In an ion source electrode made by bonding a flat plate 1 made of a heat-resistant material whose thermal expansion coefficient is small with a grooved flat plate 3 having cooling grooves forming cooling holes, barriers 9 and 10 made of a metal which is highly corrosion-resistant and highly reactive with these flat plates are formed on the bonding surfaces of the flat plate 1 and the grooved flat plate 3, and inside of grooves of the grooved flat plate so that bonding surfaces of the flat plate 1 and the grooved flat plate 3 are bonded together through the barriers 9 and 10.
      COPYRIGHT: (C)2008,JPO&INPIT
    • 要解决的问题:为了获得高度保护以防止熔融层腐蚀的高冷却效率的离子源电极,并且几乎没有冷却水泄漏的风险。 解决方案:在通过将具有热膨胀系数小的耐热材料制成的平板1与具有形成冷却孔的冷却槽的开槽平板3接合而制成的离子源电极中, 在平板1和带槽平板3的接合面和带槽的平板的槽的内侧形成具有高耐腐蚀性且与这些平板高度反应的金属,使得平板1的接合表面 并且带槽的平板3通过挡板9和10粘结在一起。版权所有(C)2008,JPO&INPIT
    • 63. 发明专利
    • Water-cooled conductor and manufacturing method thereof
    • 水冷式导体及其制造方法
    • JP2004132556A
    • 2004-04-30
    • JP2002294554
    • 2002-10-08
    • Toshiba Corp株式会社東芝
    • SHIBUYA SUMIICHIFUNATO MINORUUCHIDA TAKATSUGUMIYASE TOSHIHIROMIYAMOTO TATSUO
    • G21B1/11B23K1/00B23K20/00B23K20/04B23K101/14B23K103/10B23K103/12B23K103/14B23K103/18F25D1/02G21B1/00G21B1/17H01B5/02H01B13/00
    • PROBLEM TO BE SOLVED: To provide a water cooled conductor manufacturable at low cost and having high reliability even in the case of a long size water cooled conductor having a large vertical/lateral ratio of a cross section or in the case of a cooled water conductor having a pipe projecting from an end thereof.
      SOLUTION: This water cooled conductor is formed of a cooling pipe 13 forming a flow passage when the cooling water flows and a pair of conductor parts 11 respectively formed from a rectangular conductive body and formed with a U-shape groove 12 having a nearly semicircular cross section, to which the cooling pipe 13 is to be inserted, on a surface of one of the conductors. The cooling pipe 13 is pinched between the U-shape grooves of the pair of conductors 11, while inserting the cooling pipe 13. An abutment surface of each of the members is bonded for integration by a bonding means such as soldering, brazing, eutectic bonding and diffused bonding.
      COPYRIGHT: (C)2004,JPO
    • 要解决的问题:为了提供低成本制造的水冷却导体,并且即使在具有横截面的垂直/横向比大的长尺寸水冷导体的情况下也可以具有高可靠性,或者在 冷却水导体,其具有从其端部突出的管。 解决方案:该水冷却导体由冷却水流动时形成流路的冷却管13和分别由矩形导电体形成的一对导体部分11形成,并形成有形成有U形槽12的U形槽12 在其中一个导体的表面上将要插入有冷却管13的几乎半圆形的横截面。 在插入冷却管13的同时,冷却管13被夹在一对导体11的U形槽之间。每个构件的邻接表面通过焊接,铜焊,共晶接合 并扩散结合。 版权所有(C)2004,JPO
    • 66. 发明专利
    • Method for manufacturing superconducting high frequency accelerating cavity
    • 制造超高速加速炉的方法
    • JP2003037000A
    • 2003-02-07
    • JP2001220159
    • 2001-07-19
    • Toshiba Corp株式会社東芝
    • SHIBUYA SUMIICHI
    • G21K5/04B24B31/00H05H7/20H05H13/04
    • PROBLEM TO BE SOLVED: To obtain a superconducting high frequency accelerating cavity that is stable in quality, wherein complicated works in the aspect of working environment, waste solution treatment and work management or the like are simplified without requiring a large cost. SOLUTION: In a manufacturing method of a superconducting high frequency accelerating cavity which is constituted of the cavity main body composed of a superconducting material and of flanges mounted on both ends of the cavity main body, in which a high-frequency electric power is inputted into the cavity of the cavity main body to generate an electric field, and in which charged particles are accelerated by the electric field, plural cells having openings in both ends in the shaft direction are arranged in the shaft direction and make mutual openings come into contact with each other, and the one cavity main body is formed by the integration as the contact parts are made to be weld-joined, and next the inner face of the cavity main body is roughly abraded after the cavity main body is formed, and afterwards, a surface treatment is carried out as the post-finishing abrasion wherein a mirror face is finished by mechanical abrasion by means of an abrasive or an abrasive solution, in which a ceramic type abrasive is contained.
    • 要解决的问题:为了获得质量稳定的超导高频加速腔,在工作环境,废液处理和工作管理等方面的复杂工作简化,而不需要大量成本。 解决方案:在由超导材料构成的空腔主体和安装在空腔主体的两端的法兰构成的超导高频加速腔的制造方法中,高频电力输入到 空腔主体的空腔产生电场,其中通过电场加速带电粒子,在轴向上的两端具有开口的多个单元被布置在轴向上,并使彼此的开口接触 彼此相连,并且通过一体化形成一个腔体主体,因为接触部分被焊接在一起,接下来在空腔主体形成之后,空腔主体的内表面被粗磨,然后, 进行表面处理作为后整理磨损,其中镜面通过磨料或磨料溶液的机械磨蚀而完成,其中 包含陶瓷型磨料。