Lubricating Nipple
    4.
    发明申请
    Lubricating Nipple 有权
    润滑乳头

    公开(公告)号:US20110048855A1

    公开(公告)日:2011-03-03

    申请号:US12869929

    申请日:2010-08-27

    IPC分类号: F16C1/24 F16N21/02

    CPC分类号: F16N21/02

    摘要: A lubricating nipple (1) to be pressed into a bore (5) of a bearing bush (7) of a universal joint has a housing with a flow-through channel (22) to receive a lubricant. A check valve (25, 26, 27) is arranged in the through-flow channel (22). A seat portion (3) positions the lubricating nipple (1) in the bore (5) in the mounted condition. A coupling portion (2) couples the lubricating nipple (1) to a lubricating device. The coupling portion (2) has a first abutment face (10) that faces the seat portion (3). The mounted lubricating nipple (1), in the pressing-in direction, is axially supported by the first abutment face (10) against the thin-walled component (7). A collar portion (4) has a second abutment face (12). The second abutment face (12) is arranged opposite to the first abutment face (10). The mounted lubricant nipple (1) can be axially supported by the second abutment face (12) against the thin-walled component (7).

    摘要翻译: 被压入万向接头的轴承衬套(7)的孔(5)中的润滑嘴(1)具有带有流通通道(22)以容纳润滑剂的壳体。 止回阀(25,26,27)布置在通流通道(22)中。 在安装状态下,座部(3)将润滑嘴(1)定位在孔(5)中。 联接部分(2)将润滑嘴(1)连接到润滑装置。 联接部分(2)具有面向座部(3)的第一邻接面(10)。 安装的润滑嘴(1)在压入方向上被第一邻接面(10)轴向支撑在薄壁部件(7)上。 套环部分(4)具有第二邻接面(12)。 第二抵接面(12)与第一邻接面(10)相对设置。 安装的润滑剂接头(1)可以被第二邻接面(12)轴向支撑在薄壁部件(7)上。

    Unilateral transverse flux machine with a multi-strand design
    5.
    发明授权
    Unilateral transverse flux machine with a multi-strand design 失效
    单向横向通量机具有多股设计

    公开(公告)号:US06236131B1

    公开(公告)日:2001-05-22

    申请号:US09402373

    申请日:2000-03-29

    申请人: Uwe Schafer

    发明人: Uwe Schafer

    IPC分类号: H02K2112

    摘要: An improved, multi-strand design of a transverse flux machine with unilateral stator and rotor, with essentially U-shaped yokes (6) and I-shaped yokes (3) in the stator, as well as a rotor with permanent magnets (5) that are attached planar and a circular back iron (4). The bending of the U-shaped yokes (6) at a right angle results in a considerable reduction of the leakage paths. A joint use of the stator yoke by several strands results in a considerable increase in the torque density, as compared to known embodiments. The direct cooling of winding and stator iron makes it possible to have a machine design with considerably reduced eddy current losses.

    摘要翻译: 具有单向定子和转子的横向磁通机的改进的多股设计,定子中具有基本上为U形的轭(6)和I形轭(3),以及具有永磁体(5)的转子, (4)。 U形轭(6)在直角处的弯曲导致泄漏路径的显着减小。 与已知的实施例相比,通过几股共同使用定子磁轭导致扭矩密度的显着增加。 绕组和定子铁的直接冷却使得可以实现具有显着降低的涡流损耗的机器设计。