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    • 1. 发明专利
    • End surface processing device and end surface processing method of cylindrical structure
    • 端面加工装置和圆柱结构的端面加工方法
    • JP2011183502A
    • 2011-09-22
    • JP2010050946
    • 2010-03-08
    • Toshiba Corp株式会社東芝
    • KOMOTORI TAKESHIMOTOKI HIDEOMATSUMURA HIROTOSHISUDO KAZUOTOKUNAGA YOSHIHARU
    • B24B27/00B23K31/00B24B9/00B24B55/08G21C19/02
    • PROBLEM TO BE SOLVED: To provide an end surface processing technology of a cylindrical structure for applying accurate and smooth end surface processing to an upper end surface of the cylindrical structure using a guided grinder, using a guide tool device constituted by successively installing a plurality of guide tools in the peripheral direction of the cylindrical structure. SOLUTION: This invention is an end surface processing method of the cylindrical structure for performing the end surface processing on the upper end surface of the cylindrical structure 13 for installing the other cylindrical structure 12 by welding on the cylindrical structure 13 arranged in a reactor vessel 11. In this method, the guide tool device 20 having a plurality of guide tools 18 in an arc shape successively installed in a plan view, is arranged in the peripheral direction of the cylindrical structure 13, and a holding mechanism holding the grinder is movably arranged in the peripheral direction on a flange guide 21 formed at the top of the guide tool device 20, and a grinding wheel of the grinder rotatingly driven around the vertical axis is transferred in the peripheral direction while being guided by the guide tool device 20, and thereby, fabrication is performed by performing the end surface processing by grinding on the upper end surface of the cylindrical structure 13. COPYRIGHT: (C)2011,JPO&INPIT
    • 要解决的问题:为了提供圆柱形结构的端面加工技术,使用引导式研磨机将圆柱形结构的上端面精确平滑地进行加工,使用由连续安装构成的导向工具装置 在圆柱形结构的圆周方向上的多个引导工具。 解决方案:本发明是一种用于在圆筒形结构13的上端面进行端面加工的圆柱形结构的端面加工方法,用于通过焊接在另一圆柱形结构12上的圆柱形结构13上安装 在这种方法中,在圆筒形结构13的圆周方向上布置有具有沿平面图连续安装的弧形状的多个导向工具18的导向工具装置20和保持磨床的保持机构 沿圆周方向可移动地布置在形成在导向工具装置20的顶部的凸缘引导件21上,并且绕垂直轴旋转驱动的研磨机的砂轮在周向方向上被导向工具装置引导 因此,通过在圆筒形结构体1的上端面进行研磨而进行端面加工,进行制造 3.版权所有(C)2011,JPO&INPIT
    • 4. 发明专利
    • Remote polishing device
    • 远程抛光装置
    • JP2005342821A
    • 2005-12-15
    • JP2004163448
    • 2004-06-01
    • Toshiba Corp株式会社東芝
    • TOKUNAGA YOSHIHARUKOJIMA MASAYOSHI
    • B24B23/08
    • PROBLEM TO BE SOLVED: To shorten polishing work time, and to efficiently carry out the polishing work. SOLUTION: The remote polishing device comprises a tool vertical driving portion 10 attached to a seating flange 47' for installing the device at a predetermined place in a large-sized structure; an upper ring 11 and a lower ring 12 attached to a plurality of guide shafts 30 vertically moving by the driving portion; a tool hoisting/lowering mechanism attached to a lower end portion of a center pipe 21 attached to a lower end surface of the seating flange, and made from a center guide shaft 20 united by inserting the lower ring; a tool swiveling mechanism 40 attached to the tool hoisting/lowering mechanism and swivel-driving by transmitting rotational force to the center guide shaft; a tool front-rear moving mechanism attached to the tool swiveling mechanism; a polishing spindle head 70 turnably supported by the tool fore-and-aft moving mechanism; a tool oscillation mechanism 60 making the polishing spindle head imitate a machined surface; and a clamp 80 attached to the tool front-rear moving mechanism. COPYRIGHT: (C)2006,JPO&NCIPI
    • 要解决的问题:缩短抛光工作时间,并有效地执行抛光工作。 解决方案:远程抛光装置包括工具垂直驱动部分10,该工具垂直驱动部分10附接到用于将装置安装在大尺寸结构中的预定位置的就座凸缘47' 附接到通过驱动部垂直移动的多个引导轴30的上环11和下环12; 安装在座位凸缘的下端面的中心管21的下端部的工具升降机构,由中心导向轴20构成,通过插入下环而组合起来; 工具旋转机构40,其通过向中心导向轴传递旋转力而附接到工具提升机构和旋转驱动; 工具前后移动机构,其安装在工具旋转机构上; 抛光主轴头70由工具前后移动机构可转动地支撑; 使抛光主轴头模仿加工面的工具摆动机构60; 以及附接到工具前后移动机构的夹具80。 版权所有(C)2006,JPO&NCIPI
    • 7. 发明专利
    • Electrical discharge machining electrode
    • 电动放电加工电极
    • JP2006218565A
    • 2006-08-24
    • JP2005033487
    • 2005-02-09
    • Toshiba Corp株式会社東芝
    • UEKI TATSUYAHIROSE KINZOTOKUNAGA YOSHIHARU
    • B23H1/04
    • PROBLEM TO BE SOLVED: To provide an electrical discharge machining electrode for efficiently carrying out machining by performing continuous machining from roughing to finishing without replacing the electrode when the electrical discharge machining of a structure is carried out in machining liquid such as water by remote control, and by discharging machining chips produced between the electrical discharge machining electrode and a workpiece during the electrical discharge machining.
      SOLUTION: The electrical discharge machining electrode includes a cylindrical electrode body 2 with one end in an axial direction serving as a machined end 3, and with the other end serving as a device connection end 4. A rough machined part 5 and a finish machined part 6 are formed in sequence from the machined end side to the device connection end side on an outer peripheral face of the electrode body 2. Continuous machining chip guide grooves 10a-10h are formed on the outer peripheral faces of the rough machined part and the finish machined part. The machining chip guide grooves are linearly and spirally formed, and machining liquid jet openings 9a-9i are provided on a position shifted from the center of an end face of the machined end.
      COPYRIGHT: (C)2006,JPO&NCIPI
    • 要解决的问题:提供一种放电加工电极,用于通过从粗加工到精加工进行连续加工而无需更换电极来有效地进行加工,而在通过如下方式在加工液体如水中进行结构的放电加工时 并且通过在放电加工期间放电在放电加工电极和工件之间产生的加工芯片。 解决方案:放电加工电极包括一个作为加工端3的轴向一端的圆柱形电极体2,另一端用作器件连接端4.粗加工部分5和 精加工部6从电极体2的外周面的机械加工端侧到器件连接端侧依次形成。连续加工芯片引导槽10a-10h形成在粗加工部的外周面上 和精加工零件。 加工芯片引导槽线性地并螺旋地形成,并且在从加工端的端面的中心偏移的位置上设置加工液体喷射口9a-9i。 版权所有(C)2006,JPO&NCIPI
    • 8. 发明专利
    • Roebel transposition shaping device and method of stator coil
    • ROEBEL TRANSPOSITION SHAPING DEVICE AND METHOD OF STATING COIL
    • JP2005223965A
    • 2005-08-18
    • JP2004026614
    • 2004-02-03
    • Toshiba Corp株式会社東芝
    • TOKUNAGA YOSHIHARU
    • H02K15/04
    • PROBLEM TO BE SOLVED: To provide a Roebel transposition shaping device and method of a stator coil, in which the Roebel transposition pitch can be shortened by performing Roebel transposition shaping of strands one by one, and an insulator for preventing short circuit is not required to be inserted into the Roebel transposition part.
      SOLUTION: The Roebel transposition shaping device, of a stator coil performing Roebel transposition of a strand bundle arranged with a large number of strands, comprises an edgewise bender consisting of an upper die and a lower die having a shaping groove for drawing and cross bending strands of arbitrary length one by one; and a flatwise bender consisting of a male die having a chevron part for flatwise bending a strand cross bent by the edgewise bender such that a gap required for impregnation with insulating resin exists at a cross part in the Roebel transposition shaping part, and a female die having a valley part matching the chevron part.
      COPYRIGHT: (C)2005,JPO&NCIPI
    • 要解决的问题:提供一种定子线圈的Roebel转置成形装置和方法,其中可以通过一个接一个地执行线束的Roebel转置成形来缩短Roebel转置间距,并且用于防止短路的绝缘体是 不需要插入Roebel转置部分。 解决方案:执行罗布尔置换大量股线的股线束的定位线圈的Roebel转置成形装置包括由上模和下模组成的沿边弯曲机,所述上模具具有用于拉伸的成形槽和 交叉弯曲任意长度的股线一个一个; 以及平面弯曲器,其由具有用于平坦地弯曲由边缘弯曲机交叉弯曲的股线的V形部分的阳模构成,使得在Roebel转置成形部分的横截面处存在用绝缘树脂浸渍所需的间隙,并且阴模 具有与山角部分相匹配的山谷部分。 版权所有(C)2005,JPO&NCIPI