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    • 1. 发明专利
    • Reforming device of liquid fuel
    • 液体燃料改造装置
    • JP2012251507A
    • 2012-12-20
    • JP2011125751
    • 2011-06-03
    • Masao Shimoda政雄 霜田Kenji Furuta健次 古田Teruo Tanaka照夫 田中
    • SHIMODA MASAOFURUTA KENJITANAKA TERUO
    • F02M27/04C10L1/00F02M33/00
    • PROBLEM TO BE SOLVED: To provide a reforming device of liquid fuel which can improve fuel consumption by breaking the balance of the electric potential of molecules of the liquid fuel to make a cluster small, and can decrease cost by a simple structure.SOLUTION: In a state that ceramic bodies 1 are stored in two storage tubular bodies 8, columnar parts of both lid bodies 11 are press-fitted into the two storage tubular bodies 8, so that openings of both ends of both the two storage tubular bodies 8 are covered by both the lid bodies 11. In a state that artificial ores 5 are stored in a storage tubular body 10, columnar parts of both the lid bodies 11 are press-fitted into the storage tubular body 10, so that openings of both ends of the storage tubular body 10 are covered with both the lid bodies 11. Then, a wire rod is inserted into a through hole 12 of the lid bodies 11 on the left, a through hole 2 of the ceramic bodies 1, and a through hole 12 of the lid bodies 11 on the right of one of structures 15 assembled like above, and inserted into a spacer 13. Furthermore, the wire rod is inserted into a through hole 12 of the lid bodies 11 on the left and a through hole 12 of the lid bodies 11 on the right of the other structure 16, and then inserted into a spacer 13. Then, the wire rod is inserted into the other of the structures 15 in the same manner.
    • 解决问题的方案:提供一种能够通过破坏液体燃料的分子的电位的平衡来提高燃料消耗的液体燃料的重整装置,从而使集束变小,能够通过简单的结构降低成本。 解决方案:在将陶瓷体1储存在两个储存管状体8中的状态下,将两个盖体11的柱状部压配合到两个储存管状体8中,使两者的两端开口 存储管状体8被两个盖体11覆盖。在将人造矿石5储存在储存管状体10中的状态下,两个盖体11的柱状部分压配合到储存管状体10中,使得 存储管状体10的两端的开口被两个盖体11覆盖。然后,将线材插入到左侧的盖体11的通孔12中,陶瓷体1的通孔2, 以及如上所述组装的一个结构15的右侧的盖体11的通孔12,并插入到间隔件13中。此外,线材插入左侧的盖体11的通孔12中, 另一结构16右侧的盖体11的通孔12, 然后插入到间隔件13中。然后,以相同的方式将线材插入到另一个结构15中。 版权所有(C)2013,JPO&INPIT
    • 4. 发明授权
    • Method of dividing workpiece using laser beam
    • 使用激光束分割工件的方法
    • US08536486B2
    • 2013-09-17
    • US13113379
    • 2011-05-23
    • Kenji FurutaSatoshi Usuda
    • Kenji FurutaSatoshi Usuda
    • B23K26/00
    • B23K26/046B23K26/03B23K26/40B23K2103/50
    • A workpiece including an irregularly shaped portion on a dividing line is divided along the dividing line by detecting the location of the irregularly shaped portion, applying a detecting laser beam to an area of the workpiece except for the detected location, along the dividing line to detect the height of a surface of the workpiece except for the location, applying and focusing a machining laser beam having a wavelength which permeates the workpiece within the workpiece while moving a focused spot of the machining laser beam based on the detected height of the surface of the workpiece to form a modified layer in an area of the workpiece except for at least the location of the irregularly shaped portion along the dividing line, and applying an external force to the modified layer to divide the workpiece along the dividing line.
    • 通过检测不规则形状部分的位置,沿着分割线将除了检测位置的检测激光束施加到工件的区域上,沿分割线分割包括分割线上的不规则形状部分的工件,以检测 除了所述位置之外,所述工件的表面的高度,在基于检测到的所述表面的高度移动所述加工激光束的聚焦点的同时,将具有在工件内渗透的波长的加工激光束施加和聚焦 工件,除了至少沿着分割线的不规则形状部分的位置之外,在工件的区域中形成改性层,并且向改性层施加外力以沿着分割线分割工件。
    • 9. 发明申请
    • METHOD OF DETECTING PATTERN FORMED ON NON-EXPOSED SURFACE OF WORKPIECE
    • 检测在非工作表面形成的图案的方法
    • US20120086797A1
    • 2012-04-12
    • US13269364
    • 2011-10-07
    • Kenji Furuta
    • Kenji Furuta
    • H04N7/18
    • B23K26/032B23K26/38
    • A method of detecting an object of detection formed in the inside of or on a non-exposed surface of a workpiece having a rugged exposed surface, the detection being made on the exposed surface side of the workpiece by use of an imaging unit. The detecting method includes: a flattening step of coating the exposed surface of the workpiece with a liquid resin transmissive to the wavelength of light to be detected by the imaging unit so as to flatten the exposed surface of the workpiece; and a detecting step of detecting the object of detection formed in the inside of or on the non-exposed surface of the workpiece by use of the imaging unit on the exposed surface side of the workpiece coated with the liquid resin, after the flattening step.
    • 一种检测形成在具有粗糙的暴露表面的工件的未暴露表面的内部或其上的检测对象的方法,通过使用成像单元在工件的暴露表面侧上进行检测。 所述检测方法包括:平坦化步骤,用对所述成像单元要检测的光的波长透射的液体树脂涂覆所述工件的暴露表面,以使所述工件的暴露表面变平; 以及检测步骤,在平坦化步骤之后,通过使用成像单元在涂覆有液体树脂的工件的暴露表面侧上检测形成在工件的内部或外部的检测对象。
    • 10. 发明申请
    • WORKPIECE DIVIDING METHOD
    • 工作分歧方法
    • US20110226747A1
    • 2011-09-22
    • US13048465
    • 2011-03-15
    • Kenji Furuta
    • Kenji Furuta
    • B23K26/00
    • H01L21/67092B23K26/38B23K26/40B23K2103/50H01L21/6715H01L21/68728
    • A workpiece dividing method for dividing a workpiece having an uneven incident surface upon which a pulsed laser beam falls. The workpiece dividing method includes a coating step of applying a coating member to the incident surface of the workpiece, thereby planarizing the incident surface of the workpiece, the coating member transmitting the pulsed laser beam and having a refractive index close to that of the workpiece for the pulsed laser beam, a modified layer forming step of applying the pulsed laser beam to the workpiece from the side of the incident surface in the condition where a focal point of the pulsed laser beam is set inside the workpiece after performing the coating step, thereby forming a modified layer inside the workpiece, and a dividing step of applying an external force to the workpiece after performing the modified layer forming step, thereby dividing the workpiece as starting from the modified layer formed inside said workpiece as a break start point.
    • 一种用于分割具有脉冲激光束落在其上的不均匀入射表面的工件的工件分割方法。 工件分割方法包括涂覆步骤,将涂覆部件施加到工件的入射表面,由此平坦化工件的入射表面,涂覆部件透射脉冲激光束并具有接近工件的折射率的折射率 所述脉冲激光束,在执行所述涂布步骤之后,在所述脉冲激光束的焦点被设置在所述工件内部的状态下,将所述脉冲激光束从所述入射表面的一侧施加到所述工件的修改层形成步骤,由此 在工件内部形成改性层,以及在进行改质层形成工序后向工件施加外力的分割工序,从而将形成在所述工件内部的改性层开始的工件划分为断裂开始点。