| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 1 | 制造旋转电机的方法 | CN96103385.1 | 1996-03-27 | CN1137702A | 1996-12-11 | 市川秀树; 佐治良平 |
| 提供一个由多个薄片组成的电枢铁芯,薄片有多个槽和一个中心孔。然后,下线圈条再与上线圈条和绝缘材料一起被放到相应的槽中,使得在一个槽内的下线圈条之一的线圈端部与在另一个槽内的上线圈条之一的线圈端部碰在一起。在相遇的线圈端部焊接好以后,轴被插入中心孔内。 | ||||||
| 2 | 最佳模块式利用永磁体的电机 | CN200710145118.3 | 2007-08-16 | CN101222168B | 2011-12-14 | 保罗·巴特菲尔德 |
| 本发明提供了一种最佳模块式利用永磁体的电机,该电机具有磁体组件,该磁体组件具有磁体载体环,磁体载体环具有偶数个永磁体,所述偶数个永磁体在圆形轨迹的周围安装在载体环中,还具有导体组件,该导体组件具有一个或多个在平导体支撑环周围的双螺旋线波形绕组缠绕的导体电路,该导体电路带有成渐开线或弓形构造的均匀弯曲的导体部分,其中磁体组件和导体组件被容纳在壳体内,磁体组件相对于导体组件旋转。 | ||||||
| 3 | 直流电动机 | CN00804447.3 | 2000-03-07 | CN1342261A | 2002-03-27 | 约翰·菲奥伦扎; 艾伦·耶斯克; 费利克斯·贝尔金 |
| 一种电动机装置包括一个轴、至少一个轴承、转子、定子和电刷架。轴承位于所述轴附近。转子与所述轴相互连接并与所述定子磁性地相互作用。电刷架可拆卸地与转子和/或定子相互连接,使得电刷架可以机械地脱离转子和/或定子,而不干扰轴承和其它电动机部件。通过使电刷架脱离端盖并通过端盖孔观察换向器表面,可以检查电动机的换向器表面。由于电枢的多个绕组部分可起换向器表面的作用,电动机的装配被简化并且电动机具有长的使用寿命。也提供了包括多于一个电刷架的电动机。每个电刷架可拆卸地与转子和/或定子相互连接,使得任一电刷架可以机械地脱离转子和/或定子,而不干扰轴承和其它电动机部件。 | ||||||
| 4 | 旋转电机 | CN94119653.4 | 1994-10-14 | CN1063880C | 2001-03-28 | 志贺孜; 林信行; 大见正昇; 新美正巳; 村田光广 |
| 一种旋转电机仅通过绝缘垫即可使带着线圈干体的线圈臂设置成大致平行于电枢铁心端面。金属电刷设在线圈臂上使电枢总长可显著缩短并省去常规所需的换向器,从而缩短电枢制造时间。上层线圈臂的突起嵌入绝缘垫孔中使该臂从电枢铁心轴向伸出的长度由于其朝外周的位移得到调整而可降至最小。由于固定件将线圈臂延长部紧压固定到电枢铁心侧而显著改善抗离心力能力。由于下层线圈臂延长部嵌入绝缘垫凹陷内而防止该臂轴向朝外周位移。 | ||||||
| 5 | 最佳模块式利用永磁体的电机 | CN200710145118.3 | 2007-08-16 | CN101222168A | 2008-07-16 | 保罗·巴特菲尔德 |
| 本发明提供了一种最佳模块式利用永磁体的电机,该电机具有磁体组件,该磁体组件具有磁体载体环,磁体载体环具有偶数个永磁体,所述偶数个永磁体在圆形轨迹的周围安装在载体环中,还具有导体组件,该导体组件具有一个或多个在平导体支撑环周围的双螺旋线波形绕组缠绕的导体电路,该导体电路带有成渐开线或弓形构造的均匀弯曲的导体部分,其中磁体组件和导体组件被容纳在壳体内,磁体组件相对于导体组件旋转。 | ||||||
| 6 | 直流电动机 | CN200510052768.4 | 2000-03-07 | CN1658474A | 2005-08-24 | 约翰·菲奥伦扎; 艾伦·耶斯克; 费利克斯·贝尔金 |
| 一种电动机装置包括一个轴、至少一个轴承、转子、定子和电刷架。轴承位于所述轴附近。转子与所述轴相互连接并与所述定子磁性地相互作用。电刷架可拆卸地与转子和/或定子相互连接,使得电刷架可以机械地脱离转子和/或定子,而不干扰轴承和其它电动机部件。通过使电刷架脱离端盖并通过端盖孔观察换向器表面,可以检查电动机的换向器表面。由于电枢的多个绕组部分可起换向器表面的作用,电动机的装配被简化并且电动机具有长的使用寿命。也提供了包括多于一个电刷架的电动机。每个电刷架可拆卸地与转子和/或定子相互连接,使得任一电刷架可以机械地脱离转子和/或定子,而不干扰轴承和其它电动机部件。 | ||||||
| 7 | 制造旋转电机的方法 | CN96103385.1 | 1996-03-27 | CN1041154C | 1998-12-09 | 市川秀树; 佐治良平 |
| 提供一个由多个薄片组成的电枢铁芯,薄片有多个槽和一个中心孔。然后,下线圈条再与上线圈条和绝缘材料一起被放到相应的槽中,使得在一个槽内的下线圈条之一的线圈端部与在另一个槽内的上线圈条之一的线圈端部碰在一起。在相遇的线圈端部焊接好以后,轴被插入中心孔内。 | ||||||
| 8 | 旋转电机 | CN94119653.4 | 1994-10-14 | CN1114795A | 1996-01-10 | 志贺孜; 林信行; 大见正升; 新美正巳; 村田光广 |
| 一种旋转电机仅通过绝缘垫即可使带着线圈干体的线圈臂设置成大致平行于电枢铁心端面。金属电刷设在线圈臂上使电枢总长可显著缩短并省去常规所需的换向器,从而缩短电枢制造时间,上层线圈臂的突起嵌入绝缘垫孔中使该臂从电枢铁心轴向伸出的长度由于其朝外周的位移得到调整而可降至最小。由于固定件将线圈臂延长部紧压固定到电枢铁心侧而显著改善抗离心力能力。由于下层线圈臂延长部嵌入绝缘垫凹陷内而防止该臂轴向朝外周位移。 | ||||||
| 9 | 전기 회전 장치 | KR1019940026464 | 1994-10-15 | KR100164249B1 | 1999-04-15 | 시가쯔또무; 하야시노부유끼; 오오미마사노리; 니이미마사미; 무라타미쯔히로 |
| 기계적 그리고 전기적 부하들을 감소시킬 수 있는 전기 회전 장치에 관한 것이다. 코일 암들(534, 537, 20b, 21b, 20d, 21d) 및 코일 트렁크들(533, 536, 20e,21e)은 절연 링들 또는 스페이서들(560, 590, 20a, 21a, 20c, 21c) 만을 통해 아마츄어 코어(520, 11)의 끝단면에 거의 평행한 방향으로 제공된다. 금속 브러쉬(910, 81)는 코일 암들 상에 설치되고, 따라서 상기 아마츄어의 전체 길이는 현저하게 단축될 수 있다. 또한, 종래에 필요하였던 정류자는 제거될 수 있고, 따라서 상기 아마츄어를 위한 공정의 길이는 감소될 수있다. 더욱이, 상기 상부 코일 암의 돌출부들(534c)이 상기 절연 스페이서의 홀들에 합치되는 구조에서는, 외주를 향한 상기 상부 코일 암의 변위는 조절되므로, 상기 아마츄어 코어의 끝단면으로 부터의 상기 상부 코일 암의 축 돌출부의 길이는 최소화 될 수 있다. 또한, 확장부들(538, 20g, 20h) 및 코일 트렁크들은 고정 수단들(570, 30)에 의해 아마츄어 코어 측으로 강력하게 가압 되고 고정되며, 원심력에 대한 현저하게 개선될 것이다. 더욱이, 상부 코일 암의 확장부는 절연 스페이서의 설치부에 합치되므로, 축방향에서 외주로 향한 하부 코일 암의 변위는 방지될 수 있다. | ||||||
| 10 | Motor and starter using the motor | JP34166096 | 1996-12-20 | JPH09285074A | 1997-10-31 | OMI MASANORI; SHIGA TSUTOMU; OGISHIMA KENJI |
| PROBLEM TO BE SOLVED: To discharge brush powder securely by a method wherein a portion of armature conductors of a starter motor are utilized as a centrifugal fan and a distance between the conductor fan part and a wall facing the fan is smaller than the conductor diameter or conductor thickness to produce a more positive air flow. SOLUTION: An air introducing inlet hole 55 is formed in a yoke 1 on the inner diameter side of the partition 1a and an air exhaust outlet hole 17 is formed in the yoke 1 on the outer diameter side of the partition 1a to produce an air flow from the inner diameter side to the outer diameter side of a coil end part 7a. As the coil end part 7a is formed into a flat and whirlpool shape corresponding to the winding pitch, the respective coils function as the vanes of a fan by the spacings between the respective coils and, as a result, an air flow can be produced. COPYRIGHT: (C)1997,JPO | ||||||
| 11 | JPH03503835A - | JP50171990 | 1989-12-18 | JPH03503835A | 1991-08-22 | |
| 12 | Armature of rotary electric machine with communicator and its manufacture, and conductor for armature coil | JP5772989 | 1989-03-13 | JPH02241346A | 1990-09-26 | UMEKI SATORU |
| PURPOSE: To enable insulation and fixing to be performed more efficiently than in a conventional way by fixing a commutator, an armature coil, and an armature shaft mutually with mold work having a process for filling up a space between commutator segments and a space between the armature coil and the armature shaft, with insulators. CONSTITUTION: After an armature section and a commutator section are set in a mold 14, a shaft 1 is penetrated through the center of the mold and is retained in a hole A. On the peripheral surface of the shaft 1, a plurality of salient strips 17 are formed in the axial direction and at equal intervals. In the opening section 14a of the mold 14, the ingot 11 of soft epoxy resin is set. In the opening 14a of the mold 14, a die 15 is set, and the ingot 11 of the resin is extruded into the internal space of the mold 14 along the shaft 1. A molded armature 20 is taken out of the mold 14, and is dried to be hardened by a drying furnace. As a result, the shaft and a core outer-periphery are exactly set in a concentric state, and so the core outer-periphery is not required to be machined, and a work process is simplified. COPYRIGHT: (C)1990,JPO&Japio | ||||||
| 13 | Manufacture of armature for rotary electric machine | JP9806487 | 1987-04-20 | JPS63265550A | 1988-11-02 | TOMITE TOSHIO; WATANABE YASUAKI |
| PURPOSE:To improve the efficiency of output, by using the end section of the lead section of an armature coil, also as a commutator segment. CONSTITUTION:An armature core 2 is firmly fitted on a shaft 1, and the respective slots arranged on the outer periphery of the core 2 are wound up with armature coils 4-5. After this, a pair of the upper and lower side lead sections 4A-5A of the armature coils 4-5 are extended to a space for setting a commutator 3, in the axial direction, and the end sections 4a-5a are welding-jointed in a state that the sections 4a-5a are vertically arranged in parallel with each other. A commutator segment section S is formed with the end sections 4a-5a of the lead sections, and at welding-jointed sections 7, recessed sections 14 are secured and are aligned and arranged at specified intervals on the periphery of the shaft 1. In the space for setting the commutator, a ring-formed resin- molded unit 3' for the main unit of the commutator 3 is molded to be firmly fitted. Besides, at the time of a molding process, the recessed section 14 set at the welding-jointed section 7 of the segment section S is also filled up with the resin of the ring-formed resin-molded unit 3'. As a result, the segment section S can be prevented from being levitated and fired. | ||||||
| 14 | JPS6037686B2 - | JP7806676 | 1976-06-30 | JPS6037686B2 | 1985-08-28 | NAKAMURA YOSHIMITSU; KOJIMA HAJIME |
| 15 | JPS609419B2 - | JP4604980 | 1980-04-07 | JPS609419B2 | 1985-03-09 | ASO HIROAKI |
| 16 | JPS5744753Y2 - | JP3501675 | 1975-03-15 | JPS5744753Y2 | 1982-10-02 | |
| 17 | JPS51115503U - | JP3501675 | 1975-03-15 | JPS51115503U | 1976-09-18 | |
| 18 | STRUCTURE OF ELECTRICAL CONNECTION PORTION, ROTOR AND MOTOR THAT APPLY SAME STRUCTURE, AND METHOD FOR FORMING ELECTRICAL CONNECTION PORTION | US15703585 | 2017-09-13 | US20180026499A1 | 2018-01-25 | Shou NAKAYAMA; Yoshiaki MAEDA; Takeshi HIRANO; Kenji MUNEDA; Keishirou MAKI |
| The present invention is a structure of an electrical connection portion formed by thermal bonding of a terminal 53 of a current-carrying component 50 of a motor and a winding wire 30. The terminal 53 includes a lock portion 53a positioned on a base end side and a fusion portion 53b positioned on a distal end side. The winding wire 30 includes a binding portion 31 wound around the lock portion 53a and has a one end portion 36 coupled to a molten ball 55 generated at the fusion portion 53b; and a coupling wire portion 33 tightly stretched from a main winding wire portion 34 of the motor disposed in a wound state and continuous to the other end portion of the binding portion 31. The one end portion 36 of the binding portion 31 is in a state where tension pulling the coupling wire portion 33 to the main winding wire portion 34 side does not act. | ||||||
| 19 | ELECTRIC MACHINE | US15306052 | 2015-04-21 | US20170047804A1 | 2017-02-16 | Gurakuq DAJAKU |
| The present invention provides an electric machine with a stator (1) and a rotor (21) mounted movable relative to the stator, wherein the stator comprises a plurality of slots (2) for receiving a stator winding. Exactly one conductor portion (3) of the stator winding is inserted into each slot. The conductor portions (3) are short-circuited with one another in a short-circuiting element on a first side (5) of the stator and are integrally formed with said short-circuiting element. On a second side (6) of the stator, the conductor portions (3) are connected to in each case one terminal of a power supply unit (8) which supplies adequate phase currents. | ||||||
| 20 | Optimized modular electrical machine using permanent magnets | US11506636 | 2006-08-17 | US07375449B2 | 2008-05-20 | Paul D. Butterfield |
| An electrical machine having a magnet assembly with a magnet carrier ring with an even number of permanent magnets mounted in the carrier ring around a circular locus, and a conductor assembly with one or more conductor circuits wound in a double helix wave winding around a flat conductor support ring with the conductor circuits having uniformly curved conductor segments of involute or arcuate configuration wherein the magnet assembly and conductor assembly are contained in a housing with the magnet assembly rotating relative to the conductor assembly. | ||||||
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