Abstract in simplified Chinese:一种用于制造内部绕线式定子之设备,包括:一卷绕心轴,其构成以接纳一导线。该种设备亦具有一定子载座,且接纳一定子,其具有概括圆柱形状及一内部开口且具有形成于其的复数个轴向槽部。定子之内部尺寸系大于卷绕心轴之外部尺寸,俾使该卷绕心轴与定子系可相关彼此而横跨。该种设备亦具有一第一活动件,其为构成以移动该卷绕心轴与定子之至少一者。该种设备亦具有一第二旋转件,其构成以旋转该定子与卷绕心轴之至少一者。该导线系引入穿过该卷绕心轴之一内部。第一活动件系构成以将该卷绕心轴与定子之至少一者相对于彼此移动,以第一纵向方式卷绕该导线,且卷绕至该复数个轴向槽部之第一者。第二旋转件系构成以将该第一卷绕心轴至少一者,或定子相对于彼此旋转,相对于该复数个轴向槽部之一第二个轴向槽部而对准该导线。第一活动件系构成以将该卷绕心轴与定子之至少一者相对于彼此移动,以第二相反纵向方式卷绕该导线至第二个轴向槽部。
Abstract in simplified Chinese:本发明揭示一种电机机械,例如无刷式直流马达,其包含由复数个定子分段所组成的数个定子。该等定子分段系沿着该电机机械的一共享中央轴线彼此纵向偏移。该等定子分段系彼此磁性独立,不过,通常系以和标准的多相马达类似的方式利用偏移相位来进行电驱动。该等定子分段的径向位置亦可以进一步偏移。该等定子分段的结构在效率、功率消耗、力矩、以及热性能方面具有优越的效果,且当使用电池来提供电力给该马达时(例如在可携的手持式工具之中或用于汽车的驱动马达之中),该等定子分段的结构能够特别有利。
Abstract in simplified Chinese:一种用于具有一个悬吊设备之车辆的差动设备系包括有一个第一轴杆以及一个第二轴杆。该第一轴杆以及该第二轴杆系沿着一个第一旋转主轴配置。一个第一电动马达系沿着一个第二旋转主轴配置。该第二旋转主轴系从该第一旋转主轴处分隔开。一个壳体系被建构成用以支撑该第一以及该第二轴杆。该等轴杆系配置成以一种横向方式通过该壳体。第一电动马达亦配置成以一种横向方式通过该壳体。该壳体系被建构成用以将该第一电动马达当做跳动重量支撑,并且系位于该车辆下方的一个位置之中。
Abstract in simplified Chinese:本发明揭示一种用在一具有高力矩尺寸比的无刷直流电机马达之中具有实质圆柱状组态的转子。该转子具有一外周围表面。该转子还具有一中央转子轴杆以及被安置在该中央转子轴杆之上且彼此分开的第一固持末端与第二固持末端。该转子还具有复数个磁铁,该等磁铁系被配置成用以配合一设置在该中央转子轴杆附近的定子来提供一磁通量。该等磁铁会径向设置在该轴杆之上且该转子还具有一护套。该护套会卷曲在该等径向设置的永久磁铁附近,并且将该等磁铁固定在该轴杆附近。该护套的重量轻且会最小化该等永久磁铁与该定子之间的间隙,用以在该等磁铁与该等定子绕线之间提供一电磁通量并且用以旋转该中央转子轴杆。
Abstract:
Permanent magnet rotor (10) with air gap sleeve (18) being crimped into clearances between the magnets (20a-f) to fix them. Six magnets (20a-f) are directly attached to the shaft (40) having a hexagonal receiving surface (22). The rotor is separated into three axial sections which magnets of one section are shifted in circumferential direction from the magnets of another section.
Abstract:
Permanent magnet rotor (10) with air gap sleeve (18) being crimped into clearances between the magnets (20a-f) to fix them. Six magnets (20a-f) are directly attached to the shaft (40) having a hexagonal receiving surface (22). The rotor is separated into three axial sections which magnets of one section are shifted in circumferential direction from the magnets of another section.
Abstract:
An apparatus for manufacturing an internal wound stator includes a winding arbor configured to receive a conductive wire. The apparatus also has a stator loader, and receives a stator having a generally cylindrical shape with an interior opening and having a plurality of axial slots formed therein. The interior dimension of the stator is larger than the exterior dimension of the winding arbor such that the winding arbor and stator may traverse with respect to one another. The apparatus also has a first movable member configured for moving at least one of the winding arbor and the stator. The apparatus also has a second rotating member configured to rotate at least one of the stator and the winding arbor. The conductive wire is introduced through an interior of the winding arbor. The first movable member is configured to move at least one of the winding arbor and the stator relative to one another to wind the conductive wire in a first longitudinal manner and into a first of the plurality of axial slots. The second rotating member is configured to rotate at least one of the first winding arbor or the stator relative to one another to align the wire relative to a second axial slot of the plurality of axial slots. The first movable member is configured to move at least one of the winding arbor and the stator relative to one another to wind the conductive wire in a second opposite longitudinal manner and into the second axial slot.