Rotor for permanent magnet type rotating machine
    1.
    发明授权
    Rotor for permanent magnet type rotating machine 失效
    转子永磁式旋转机

    公开(公告)号:US06268677B1

    公开(公告)日:2001-07-31

    申请号:US09537408

    申请日:2000-03-29

    IPC分类号: H02K2112

    CPC分类号: H02K1/246 H02K1/276 H02K21/46

    摘要: A rotor is provided for a permanent magnet type rotating machine having a stator 1 with armature windings 11. The rotor 3 includes a rotor core 31 and a plurality of permanent magnets 32 arranged in the rotor core 31 so as to negate magnetic flux of the armature windings 11 passing through interpoles 3b. The rotor 3 is constructed so that the average of magnetic flux in an air gap 2 between the rotor 3 and the stator 1, which is produced by the permanent magnets 32 at the armature windings' de-energized, ranges from 0.1 [T] to 0.7 [T] and the ratio (Lq/Ld) of self-inductance of the magnetic portion in a hard-magnetizing direction (q-axis) to self-inductance in an easy-magnetizing direction (d-axis) under a rated load condition ranges from 0.1 to 0.8. Under these conditions, it is possible to realize the rotating machine which operates as an induction machine at the machine's starting and also operates as an synchronous machine at the rated driving due to smooth pull-in.

    摘要翻译: 为具有具有电枢绕组11的定子1的永磁式旋转电机提供转子。转子3包括转子芯31和布置在转子芯31中的多个永久磁铁32,以抵消电枢的磁通量 绕组11穿过间极3b。 转子3被构造成使得在电枢绕组断电时由永磁体32产生的转子3和定子1之间的气隙2中的磁通量的平均值为0.1 [T]至 0.7 [T]和磁性部分在硬磁化方向(q轴)上的自感的容许比(Lq / Ld)与在额定负载下的易磁化方向(d轴)上的自感比 条件从0.1到0.8。 在这些条件下,可以实现在机器启动时作为感应电机工作的旋转机器,并且由于平滑的拉入而在额定驱动下作为同步电机工作。

    Permanent-magnet reluctance electrical rotary machine
    4.
    发明授权
    Permanent-magnet reluctance electrical rotary machine 有权
    永磁磁阻电动旋转机

    公开(公告)号:US07804216B2

    公开(公告)日:2010-09-28

    申请号:US11875529

    申请日:2007-10-19

    IPC分类号: H02K1/27 H02K21/14

    CPC分类号: H02K1/2766 H02K1/246

    摘要: For an electrical reluctance rotary machine, a stator has a winding as an armature, and a rotor has permanent magnet implanting slots provided in a rotor core at lateral sides magnetic poles configured to produce reluctance torque along directions of magnetic flux passing through the magnetic poles to produce reluctance torque, and permanent magnets inserted in the permanent magnet implanting slots so as to cancel magnetic flux of the armature intersecting that magnetic flux, to control a magnetic field leaking at ends of the magnetic poles, having circumferential magnetic unevenness. The electrical reluctance rotary machine is configured to meet a relationship, such that 1.6 ≤ P × W pm R ≤ 1.9 where Wpm [mm] is a width of permanent magnet, R [mm] is a radius of the rotor, and P is the number of poles.

    摘要翻译: 对于电磁旋转机,定子具有作为电枢的绕组,并且转子具有设置在转子芯中的横向磁极上的永磁体注入槽,该磁极被构造成沿着通过磁极的磁通的方向产生磁阻转矩, 产生磁阻转矩,并将永磁体插入到永磁体注入槽中,以抵消与该磁通相交的电枢的磁通,以控制具有圆周磁性不均匀性的磁极端部的磁场泄漏。 电磁旋转机被配置为满足1.6≤P×W pmR≤1.9的关系,其中Wpm [mm]是永磁体的宽度,R [mm]是转子的半径,P是 极数。

    PERMANENT MAGNET ELECTRIC MOTOR
    7.
    发明申请
    PERMANENT MAGNET ELECTRIC MOTOR 有权
    永磁电机

    公开(公告)号:US20110309706A1

    公开(公告)日:2011-12-22

    申请号:US13140669

    申请日:2009-12-16

    IPC分类号: H02K1/27

    摘要: According to one embodiment, a rotor 1 has rotor cores 2a, 2b divided in the axial direction. a permanent magnet 30 is mounted at the position of each of the magnetic poles of cores. The permanent magnet 30 of each magnetic pole is configured by a single tabular member that penetrates the two divided cores in the axial direction. Convex parts 31a, 31b are respectively provided on the outer peripheries of the respective magnetic poles of the rotor cores along the axial direction of the rotor. The convex parts 31a, 31b are provided to positions that are displaced for each of the two divided cores. The magnetic flux density increases in the convex parts, which becomes the magnetic pole center. Since the convex parts positions are displaced to each other, a skew function can be exhibited even if the permanent magnet is mounted at the same position.

    摘要翻译: 根据一个实施例,转子1具有沿轴向分开的转子芯2a,2b。 永磁体30安装在芯的每个磁极的位置。 每个磁极的永磁体30由在轴向方向上贯穿两个分开的芯的单个板状构件构成。 凸部31a,31b分别设置在转子芯的各个磁极的外周沿着转子的轴向。 凸部31a,31b设置在两个分割芯的每一个上移位的位置。 凸起部分的磁通密度增加,成为磁极中心。 由于凸部位置彼此位移,所以即使将永久磁铁安装在同一位置,也能够发挥偏斜功能。

    Permanent magnet electric motor
    8.
    发明授权
    Permanent magnet electric motor 有权
    永磁电动机

    公开(公告)号:US08796898B2

    公开(公告)日:2014-08-05

    申请号:US13139889

    申请日:2009-12-15

    IPC分类号: H02K21/12 H02K21/20 H02K3/00

    摘要: According to one embodiment, a rotor is configured by a rotor core and magnetic poles. Two or more types of permanent magnets are used such that each product of coercivity and thickness in the magnetization direction becomes different. A stator is located outside the rotor with air gap therebetween and configured by an armature core winding. At least one permanent magnet is magnetized by a magnetic field by a current of the armature winding to change a magnetic flux content thereof irreversibly. A short circuited coil is provided to surround a magnetic path portion of the other permanent magnet excluding the magnet changed irreversibly and a portion adjacent to the other permanent magnet where the magnetic flux leaks. A short-circuit current is generated in the short circuited coil by the magnetic flux generated by conducting a magnetization current to the winding. A magnetic field is generated by the short-circuit current.

    摘要翻译: 根据一个实施例,转子由转子芯和磁极构成。 使用两种或更多种类型的永磁体,使得矫顽力和磁化方向上的厚度的每个乘积变得不同。 定子位于转子外部,其间具有气隙,并由电枢铁心绕组构成。 至少一个永磁体被电枢绕组的电流通过磁场磁化,以不可逆地改变其磁通量。 设置短路线圈以围绕除了不可逆地改变的磁体之外的另一个永磁体的磁路部分和与磁通量泄漏的另一个永久磁铁相邻的部分。 短路电流由短路线圈产生的磁通量通过向绕组施加磁化电流而产生。 由短路电流产生磁场。

    Permanent magnet electric motor
    9.
    发明授权
    Permanent magnet electric motor 有权
    永磁电动机

    公开(公告)号:US08653710B2

    公开(公告)日:2014-02-18

    申请号:US13140669

    申请日:2009-12-16

    IPC分类号: H02K21/12 H02K21/20

    摘要: A rotor has rotor cores divided in the axial direction. A permanent magnet is mounted at the position of each of the magnetic poles of cores. The permanent magnet of each magnetic pole is configured by a single tabular member that penetrates the two divided cores in the axial direction. Convex parts are respectively provided on the outer peripheries of the respective magnetic poles of the rotor cores along the axial direction of the rotor. The convex parts are provided to positions that are displaced for each of the two divided cores. The magnetic flux density increases in the convex parts, which becomes the magnetic pole center. Since the convex parts positions are displaced to each other, a skew function can be exhibited even if the permanent magnet is mounted at the same position.

    摘要翻译: 转子具有沿轴向分割的转子芯。 永磁体安装在芯的每个磁极的位置。 每个磁极的永磁体由在轴向方向上穿透两个分开的芯的单个板状构件构成。 凸部分别设置在转子芯的各个磁极的外周上,沿着转子的轴向。 凸部设置在两个分割芯的每一个上移位的位置。 凸起部分的磁通密度增加,成为磁极中心。 由于凸部位置彼此位移,所以即使将永久磁铁安装在同一位置,也能够发挥偏斜功能。

    PERMANENT MAGNET ELECTRIC MOTOR
    10.
    发明申请
    PERMANENT MAGNET ELECTRIC MOTOR 有权
    永磁电机

    公开(公告)号:US20110304235A1

    公开(公告)日:2011-12-15

    申请号:US13139889

    申请日:2009-12-15

    IPC分类号: H02K3/16 H02K15/02

    摘要: According to one embodiment, a rotor is configured by a rotor core and magnetic poles. Two or more types of permanent magnets are used such that each product of coercivity and thickness in the magnetization direction becomes different. A stator is located outside the rotor with air gap therebetween and configured by an armature core winding. At least one permanent magnet is magnetized by a magnetic field by a current of the armature winding to change a magnetic flux content thereof irreversibly. A short circuited coil is provided to surround a magnetic path portion of the other permanent magnet excluding the magnet changed irreversibly and a portion adjacent to the other permanent magnet where the magnetic flux leaks. A short-circuit current is generated in the short circuited coil by the magnetic flux generated by conducting a magnetization current to the winding. A magnetic field is generated by the short-circuit current.

    摘要翻译: 根据一个实施例,转子由转子芯和磁极构成。 使用两种或更多种类型的永磁体,使得矫顽力和磁化方向上的厚度的每个乘积变得不同。 定子位于转子外部,其间具有气隙,并由电枢铁心绕组构成。 至少一个永磁体被电枢绕组的电流通过磁场磁化,以不可逆地改变其磁通量。 设置短路线圈以围绕除了不可逆地改变的磁体之外的另一个永磁体的磁路部分和与磁通量泄漏的另一个永久磁铁相邻的部分。 短路电流由短路线圈产生的磁通量通过向绕组施加磁化电流而产生。 由短路电流产生磁场。