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    • 2. 发明申请
    • FLUID DYNAMIC BEARING DEVICE
    • 流体动力轴承装置
    • US20130272634A1
    • 2013-10-17
    • US13976816
    • 2012-01-06
    • Hiromichi KokumaiKazuyoshi HaradaIsao Komori
    • Hiromichi KokumaiKazuyoshi HaradaIsao Komori
    • F16C32/06
    • F16C32/06F16C17/026F16C33/107F16C2370/12
    • A fluid dynamic bearing device (1), comprising a dynamic pressure generating groove region (B) being provided on an inner peripheral surface (3a) of a bearing member (3), which forms a radial bearing gap, the region (B) comprising: a first region (B1) for generating a fluid dynamic pressure when the bearing member (3) and a shaft member (2) are rotated relative to each other in a forward direction; and a second region (B2) for generating a fluid dynamic pressure when the bearing member (3) and the shaft member (2) are rotated relative to each other in a reverse direction. A portion of the region (B), corresponds to an end portion on an open-to-air side of the radial bearing gap, comprises an annular projecting portion (6) provided closer to the shaft member (2) with respect to a groove bottom of each of the plurality of dynamic pressure generating grooves (4).
    • 一种流体动力轴承装置(1),包括形成径向轴承间隙的轴承构件(3)的内周面(3a)上的动压产生槽区域(B),所述区域(B)包括 :当所述轴承构件(3)和轴构件(2)沿向前方向相对于彼此旋转时产生流体动压的第一区域(B1) 以及用于当轴承构件(3)和轴构件(2)相对于彼此相反地旋转时产生流体动压的第二区域(B2)。 所述区域(B)的一部分对应于所述径向轴承间隙的空对空侧的端部,包括相对于所述轴构件(2)更靠近所述轴构件(2)设置的环形突出部分(6) 所述多个动压产生槽(4)中的每一个的底部。
    • 6. 发明授权
    • Fluid dynamic bearing device
    • 流体动力轴承装置
    • US08113715B2
    • 2012-02-14
    • US12294485
    • 2007-02-02
    • Kenji ItoIsao Komori
    • Kenji ItoIsao Komori
    • F16C32/06
    • F16C17/107F16C33/107F16C2370/12
    • In this type of fluid dynamic bearing device, a dynamic pressure generating part having high molding accuracy is formed at low cost.A rotating member 2 includes a shaft part 9, and a holding member 10 as a thrust member provided in one end of the shaft part 9. In a partial annular region of a lower end surface 10a1 of a disk part 10a making up the holding member 10, a region where a plurality of dynamic pressure grooves 10a2 and a plurality of sectioning parts 10a3 formed between the plurality of dynamic pressure grooves 10a2 to section the respective dynamic pressure grooves 10a2 are arrayed spirally is formed. The above-described dynamic-pressure-groove 10a2 arrayed region is opposed to an upper end surface 8a of a housing part 8, and forms a thrust bearing clearance of a thrust bearing part T between the dynamic-pressure-groove 10a2 and the upper end surface 8a during the rotation of the shaft part 9. The above-described dynamic-pressure-groove 10a2 arrayed region is molded in the lower end surface 10a1 of the holding member 10 by press working.
    • 在这种类型的流体动力轴承装置中,以低成本形成具有高成型精度的动压产生部件。 旋转构件2包括轴部9和设置在轴部9的一端的推力构件的保持构件10.在构成保持构件的盘部10a的下端面10a1的部分环状区域 如图10所示,形成有多个动压槽10a2和形成在多个动压槽10a2之间的多个切断部10a3,以使各个动压槽10a2分段的区域螺旋地排列。 上述动压槽10a2排列区域与壳体部8的上端面8a相对,并且在动压槽10a2与上端部之间形成推力轴承部T的推力轴承间隙 表面8a在轴部9的旋转期间。上述动压槽10a2排列区域通过冲压加工模制在保持构件10的下端面10a1中。