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    • 2. 发明授权
    • Rotor for a high speed induction type AC motor having a press fit
stacked core
    • 用于具有压配合堆芯的高速感应式交流电动机的转子
    • US5389847A
    • 1995-02-14
    • US974588
    • 1993-02-25
    • Kosei NakamuraYoshiyuki HayashiKazuhisa Numai
    • Kosei NakamuraYoshiyuki HayashiKazuhisa Numai
    • H02K1/30H02K17/16H02K1/00
    • H02K17/165
    • A rotor 14 for a high speed induction type ac motor having a construction such that the rotor is provided with an iron core 20 provided, at the periphery thereof, with a plurality of through-bores 22 in which electro-conductive rods 24 made of aluminum rod members are forcibly inserted in a press-fitting manner so as to form opposite projections from the axial opposite ends of the iron core 20, electro-conductive end rings 26 connected to the projections of the electro-conductive rods 24, and slitted pins 30 press-fit in small blind bores 32 formed in the projections of the electro-conductive rods 24 to thereby fixedly attach the electro-conductive rings 26 to the opposite end faces of the iron core 20.
    • PCT No.PCT / JP92 / 00814 Sec。 371日期:1993年2月25日 102(e)日期1993年2月25日PCT提交1992年6月26日PCT公布。 公开号WO93 / 00735 日本1993年1月7日。一种用于高速感应式交流电动机的转子14,其具有使得转子设置有铁芯20的结构,在其周边处设置有多个通孔22,其中电 由铝棒构件制成的导电杆24以压配合的方式强制插入,从而与铁芯20的轴向相对的端部形成相对的突出部,连接到导电的突起的导电端环26 杆24,并且切割销30压配合在形成在导电杆24的突起中的小盲孔32中,从而将导电环26固定地附接到铁芯20的相对端面。
    • 6. 发明授权
    • AC spindle motor and method of changing rotating speed of same
    • 交流电主轴及其转速改变方法
    • US5134332A
    • 1992-07-28
    • US499335
    • 1990-07-18
    • Kosei NakamuraYoshiyuki HayashiKazuhisa NumaiMasami Kimijima
    • Kosei NakamuraYoshiyuki HayashiKazuhisa NumaiMasami Kimijima
    • H02K17/12H02K17/14
    • H02K17/14
    • An ac spindle motor (10) for driving a spindle motor of a machine tool provided with a rotor (14) having an output shaft (12) connected to the spindle, and a stator (16) surrounding the rotor and having a laminated core (20) serving as a yoke, and stator winding assemblies of three phases (U-phase, V-phase, W-phase). The stator winding assembly of each phase (18u, 18v, 18w) has: windings (C.sub.2, C.sub.4) of a first group which are energized for a rotation of the spindle in both a low-speed range not higher than a given speed, and a high-speed range above the given speed; windings (C.sub.1, C.sub.3) of a second group energized only for a rotation of the spindle in the low-speed range; and electrical contact means (S1, S2, S3, S4) controlled so that the windings (C.sub.1, C.sub.2, C.sub.3, C.sub.4) of the first and second groups are energized to generate a first multipolar revolving magnetic field for the rotation of the spindle in the low-speed range, and so that only the windings (C.sub.2, C.sub.4) of the first group are energized to generate second multipolar revolving magnetic field having magnetic poles less than those of the first multipolar revolving magnetic field for the rotation of the spindle in the high-speed range. The operating mode of the ac spindle motor is changed between a high-speed mode and a low-speed mode by changing the ampere-turn of the windings and the number of poles of the revolving magnetic field.
    • 8. 发明授权
    • Method of synchronous control of spindle motor and feed motor
    • 主轴电机和进给电机的同步控制方法
    • US5010286A
    • 1991-04-23
    • US365158
    • 1989-05-08
    • Kosei NakamuraShinichi KonoKazuhisa NumaiMasami Kimijima
    • Kosei NakamuraShinichi KonoKazuhisa NumaiMasami Kimijima
    • G05D13/62G05B19/18
    • G05B19/186G05B2219/42186G05B2219/45216G05B2219/49295
    • When a spindle (10) of a machine tool is rotated and moved relative to a workpiece linearly along an axis (Z) thereof during a machining process such as screw cutting, a spindle servomotor (12) and a feed servomotor (22), each of which is the primary drive, must be rotated synchronously. In general, the spindle servomotor directly drives the spindle without a reduction gear, and the feed servomotor feeds a spindle head (18) through reduction gears (26, 28). Therefore, in general, the synchronous work is controlled in accordance with an acceleration and deceleration capacity of the spindle servomotor. Consequently, the spindle servomotor is rotated along the torque limit curve line (L1, L2) to drive the spindle, to thereby effect the synchronous work at a high efficiency.
    • PCT No.PCT / JP88 / 00907 Sec。 371日期1989年5月8日 102(e)日期1989年5月8日PCT申请日1988年9月9日PCT公布。 出版物WO89 / 02618 当机床的主轴(10)在诸如螺旋切削的加工过程中沿其轴线(Z)相对于工件线性地旋转和移动时,主轴伺服电动机(12)和 每个主驱动器的进给伺服电动机(22)必须同步旋转。 通常,主轴伺服电动机直接驱动主轴而没有减速齿轮,进给伺服电动机通过减速齿轮(26,28)供给主轴头(18)。 因此,通常,根据主轴伺服电动机的加减速能力来控制同期动作。 因此,主轴伺服电动机沿着转矩极限曲线(L1,L2)旋转以驱动主轴,从而以高效率进行同步工作。
    • 9. 发明授权
    • Winding arrangement in an AC motor
    • 交流电机的绕组布置
    • US5177423A
    • 1993-01-05
    • US864196
    • 1992-04-03
    • Kosei NakamuraYoshiyuki HayashiKazuhisa NumaiMasami Kimijima
    • Kosei NakamuraYoshiyuki HayashiKazuhisa NumaiMasami Kimijima
    • H02P25/18
    • H02P25/18
    • A spindle motor for a machine tool is required to operate at a low rotational speed and to deliver a high output in a machining mode, and is required to operate at a high rotational speed and to deliver a high output in another machining mode. An AC motor employing a winding arrangement of the present invention meets those operating conditions for different machining modes, in that the coils (X1, X2; X1', X2') of each winding for a phase are divided into a plurality of sets of coils, and the plurality of sets of coils are held in a slot (SL). The connection of terminals (U1, U2; V1, V2; W1, W2) for phase dividing the coils into the sets is changed selectively by switching unit (SW, SW') such as an electromagnetic relay, to thereby supply power selectively to the coils for the output regulation.
    • PCT No.PCT / JP89 / 00543 Sec。 371日期1990年2月12日 102(e)1990年2月12日日期PCT提交1989年5月31日PCT公布。 出版物WO89 / 12926 日期为1989年12月28日。用于机床的主轴电机需要以低转速操作并且以加工模式提供高输出,并且需要以高转速运行并输送高输出 在另一种加工模式。 采用本发明的卷绕装置的交流电动机满足用于不同加工方式的那些工作条件,因为用于相的每个绕组的线圈(X1,X2; X1',X2')被分成多组线圈 并且多组线圈被保持在槽(SL)中。 用于将线圈相互分割成组的端子(U1,U2; V1,V2; W1,W2)的连接由诸如电磁继电器的切换单元(SW,SW')选择性地改变,从而选择性地向 线圈用于输出调节。
    • 10. 发明授权
    • Process of structuring stator of built-in motor
    • 内置电机定子结构工艺
    • US5168662A
    • 1992-12-08
    • US820836
    • 1992-01-15
    • Kosei NakamuraYoshiyuki HayashiKazuhisa NumaiMasami Kimijima
    • Kosei NakamuraYoshiyuki HayashiKazuhisa NumaiMasami Kimijima
    • H02K1/04H02K1/16
    • H02K1/04H02K1/16H02K2201/09Y10S174/20
    • The stator of a built-in motor must be firmly and accurately mounted on the spindle head housing or the like of a machine tool. A stator core (10), i.e., a principal component of the stator is welded partially at the circumference (14) thereof, and then the circumference of the stator core (10) held by a mandrel is finished to an accurate outside diameter by grinding. The stator core (10) thus constructed is subjected to a deformation with a lapse of time after the mandrel has been removed. To solve this problem, each lamination (12) of the stator core (10) is coated with a thermosetting adhesive, to be thereby joined together, and each lamination (12) is provided with a plurality of pressed projections (22) to be joined together by weld portions (20) on the circumference of the stator core (10), or each lamination (12) is joined together by pressing a serrated bar (26) into a bore (24) thereof, without a pressed projection (22).
    • 内置电机的定子必须牢固且准确地安装在机床的主轴头壳体等上。 定子铁心(10)即定子的主要部件部分焊接在其周边(14)处,然后由心轴保持的定子铁芯(10)的圆周通过磨削加工成精确的外径 。 如此构造的定子铁芯(10)在心轴已经被去除之后经历了随时间的变形。 为了解决这个问题,定子铁芯(10)的每个层叠(12)涂覆有热固性粘合剂,从而接合在一起,并且每个层压体(12)设置有多个待接合的按压突起(22) 通过将定子芯(10)的圆周上的焊接部分(20)或每个层压体(12)通过将锯齿形杆(26)压入其中的孔(24)而不受压突起(22)而连接在一起, 。