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    • 1. 发明授权
    • Spool for a coil winding device and method of loading coils
    • 线圈绕线装置的线轴和线圈加载方法
    • US08631564B2
    • 2014-01-21
    • US13061430
    • 2008-09-02
    • Daisuke ShijoMasaya MotohashiHiroyuki AkitaToshio Arai
    • Daisuke ShijoMasaya MotohashiHiroyuki AkitaToshio Arai
    • H02K15/04H02K15/06
    • H02K15/0457H02K15/068
    • To provide a spool for a coil winding device capable of preventing poor insulation caused by a leakage of coil wires without initially inserted coil wires staying at the vicinity of slot openings. A spool for a coil winding device of this invention includes a plurality of coil winding surfaces increased stepwise in diameter from the bottom upward in a state where the spool is disposed on the coil winding device. The spool includes a front spool part and a rear spool part, which are placed at a distance from each other so that each turn of coil has a length corresponding to arbitrary lamination thickness of the stator core. The plurality of coil winding surfaces includes a coil winding surface corresponding to the outermost coil that is formed so that a portion in a radial pattern from the vicinity of a portion corresponding to a central axis of the stator core towards an opening of the slot in which each coil is loaded is extended at least to a position corresponding to a core back where the roots of the teeth outside the slot of the stator core are connected.
    • 为了提供一种用于线圈绕线装置的线轴,其能够防止线圈线的泄漏引起的绝缘不良,而没有最初插入的线圈线停留在槽口附近。 本发明的线圈绕线装置的线轴包括多个线圈绕组表面,该线圈绕组表面在线轴设置在线圈绕线装置上的状态下从底部向上逐步增加。 卷轴包括前卷轴部分和后卷轴部分,它们彼此相隔一定距离,使得每一圈的线圈具有对应于定子芯的任意叠层厚度的长度。 多个线圈绕组表面包括对应于最外面线圈的线圈绕组表面,该线圈绕组表面被形成为使得从与定子铁芯的中心轴线对应的部分的附近的径向图案的部分朝向槽的开口形成,其中 每个线圈被加载至少延伸到对应于定子芯的槽外面的齿根连接的芯背的位置。
    • 2. 发明申请
    • SPOOL FOR A COIL WINDING DEVICE AND METHOD OF LOADING COILS
    • 用于卷绕卷绕装置的支架和装载线圈的方法
    • US20110192019A1
    • 2011-08-11
    • US13061430
    • 2008-09-02
    • Daisuke ShijoMasaya MotogashiHiroyuki AkitaToshio Arai
    • Daisuke ShijoMasaya MotogashiHiroyuki AkitaToshio Arai
    • H02K15/085B65H75/08B65H75/24
    • H02K15/0457H02K15/068
    • To provide a spool for a coil winding device capable of preventing poor insulation caused by a leakage of coil wires without initially inserted coil wires staying at the vicinity of slot openings. A spool for a coil winding device of this invention includes a plurality of coil winding surfaces increased stepwise in diameter from the bottom upward in a state where the spool is disposed on the coil winding device. The spool includes a front spool part and a rear spool part, which are placed at a distance from each other so that each turn of coil has a length corresponding to arbitrary lamination thickness of the stator core. The plurality of coil winding surfaces includes a coil winding surface corresponding to the outermost coil that is formed so that a portion in a radial pattern from the vicinity of a portion corresponding to a central axis of the stator core towards an opening of the slot in which each coil is loaded is extended at least to a position corresponding to a core back where the roots of the teeth outside the slot of the stator core are connected.
    • 为了提供一种用于线圈绕线装置的线轴,其能够防止线圈线的泄漏引起的绝缘不良,而没有最初插入的线圈线停留在槽口附近。 本发明的线圈绕线装置的线轴包括多个线圈绕组表面,该线圈绕组表面在线轴设置在线圈绕线装置上的状态下从底部向上逐步增加。 卷轴包括前卷轴部分和后卷轴部分,它们彼此相隔一定距离,使得每一圈的线圈具有对应于定子芯的任意叠层厚度的长度。 多个线圈绕组表面包括对应于最外面线圈的线圈绕组表面,该线圈绕组表面被形成为使得从与定子铁芯的中心轴线对应的部分的附近的径向图案的部分朝向槽的开口形成,其中 每个线圈被加载至少延伸到对应于定子芯的槽外面的齿根连接的芯背的位置。
    • 6. 发明申请
    • LAMINATED CORE MANUFACTURING METHOD AND LAMINATED CORE MANUFACTURED USING SAME
    • 层压芯制造方法和使用其制造的层压芯
    • US20140139068A1
    • 2014-05-22
    • US14127842
    • 2011-10-06
    • Daisuke ShijoHiroyuki Akita
    • Daisuke ShijoHiroyuki Akita
    • H02K15/02H02K1/14
    • H02K15/022H02K1/148Y10T29/49009
    • A laminated core manufacturing method is linearly arranging and punching out a plurality of separate core pieces formed of a back yoke portion and a magnetic-pole teeth portion protruding from the back yoke portion and die-cut caulking. The manufacturing method includes: a first step of punching out a first region located on an opposite side to the magnetic-pole teeth portion between adjacent ends of the back yoke portions of the core pieces; a second step of punching out a second region located on a side of the magnetic-pole teeth portion between the adjacent ends of the back yoke portions of the core pieces; a third step of punching out a region that brings the first region punched out in the first step and the second region punched out in the second step into communication; and a fourth step of forming the magnetic-pole teeth portion by punching.
    • 叠层铁芯的制造方法是直线地排列和冲出由后轭部形成的多个分离的铁心片和从后轭部突出的磁极齿部分并进行冲切。 该制造方法包括:第一步骤,在芯片的背轭铁部分的相邻端部之间冲出位于与磁极齿部分相反侧的第一区域; 第二步骤,在芯片的后轭铁部分的相邻端之间冲出位于磁极齿部分一侧的第二区域; 第三步骤,将在第一步骤中冲出的第一区域和在第二步骤中冲出的第二区域冲出区域; 以及通过冲压形成磁极齿部分的第四步骤。
    • 9. 发明申请
    • STATOR FOR ELECTRICAL ROTATING MACHINE
    • 电动旋转定子
    • US20120080976A1
    • 2012-04-05
    • US13375873
    • 2010-04-05
    • Keiichiro OkaHiroyuki AkitaToshio Arai
    • Keiichiro OkaHiroyuki AkitaToshio Arai
    • H02K3/34
    • H02K3/522H02K1/148H02K3/325H02K2203/12
    • Included are a pair of insulators arranged on axial end surfaces of a split core, and an insulating film attached to lateral side surfaces of the tooth part, for insulating the split core from a coil wound around the tooth part. Each insulator includes projections projecting further than a tooth front end part in the circumferential direction, slits which are formed in the respective projections to a corresponding axial end surface side of the tooth front end part and into which the insulating film is inserted, and ribs formed, on an end surface side in the circumferential direction, in the respective projections. The insulating film inserted into the slits is folded back to a back yoke part side with the ribs interposed therein, and fixed by being interposed between the ribs at tip portions of projections of adjacent insulators. Accordingly, the insulating film can be assuredly fixed and prevented from escaping from a slot.
    • 包括布置在分裂芯的轴向端表面上的一对绝缘体,以及附着到齿部的侧面的绝缘膜,用于将分割芯与缠绕在齿部周围的线圈绝缘。 每个绝缘体包括在圆周方向上比齿前端部突出的突起的突起,在各个突起中形成到齿前端部的相应的轴向端面侧并且绝缘膜插入其中的狭缝,形成肋 在圆周方向的端面侧。 插入狭缝中的绝缘膜被折回到后轭部分侧,肋插入其中,并且通过在相邻绝缘体的突起的尖端处插入在肋之间来固定。 因此,可以可靠地固定绝缘膜并防止其从槽中逸出。