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    • 1. 发明授权
    • Hydrodynamic bearing and disc rotation apparatus using the same
    • 流体动力轴承和使用其的盘旋转装置
    • US07237955B2
    • 2007-07-03
    • US10727070
    • 2003-12-02
    • Takafumi AsadaHiroaki SaitoKeigo KusakaDaisuke Itou
    • Takafumi AsadaHiroaki SaitoKeigo KusakaDaisuke Itou
    • F16C32/06
    • F16C33/107F16C17/045F16C17/107F16C2370/12G11B19/2018
    • A high-accuracy, long-life hydrodynamic bearing that does not cause oil film breakage in bearing clearances and a disc rotation apparatus using the bearing is disclosed. Oil film breakage is avoided as negative pressure is prevented from generating between the shaft and sleeve of the hydrodynamic bearing. Herringbone shaped dynamic pressure generating grooves, located on the thrust bearing section and the radial bearing section of the hydrodynamic bearing, are oil filled and have optimum shapes. The optimum shapes prevent the generation negative pressure and thus prevents the coagulation of air bubbles that can cause oil film breakage. The disc rotation apparatus, that holds a reproduction/recording disc, is concentrically secured to the hydrodynamic bearing and rotated. The disc is put into contact with magnetic or optical heads while rotating in the disc rotation apparatus. Both the hydrodynamic bearing and the disc rotation apparatus experience high reliability.
    • 公开了一种高精度,长寿命的流体动力轴承,其不会导致轴承间隙中的油膜破裂和使用轴承的盘旋转装置。 避免了油膜断裂,因为防止在流体动力轴承的轴和套筒之间产生负压。 位于推力轴承部分和流体动力轴承的径向轴承部分的人字形动态压力产生槽被充满油并具有最佳形状。 最佳形状可以防止发生负压,从而防止会导致油膜破裂的气泡凝结。 保持再现/记录盘的盘旋转装置同心地固定到流体动力轴承并旋转。 在盘旋转装置中旋转时,盘与磁头或光头接触。 流体动力轴承和圆盘旋转装置都具有高可靠性。
    • 2. 发明申请
    • HYDRODYNAMIC BEARING DEVICE AND DISK ROTATION APPARATUS
    • 水力轴承装置和盘旋转装置
    • US20100085661A1
    • 2010-04-08
    • US12412870
    • 2009-03-27
    • Takafumi ASADAHiroaki SaitoTakao YoshitsuguKeigo KusakaHiroyuki KiriyamaDaisuke Ito
    • Takafumi ASADAHiroaki SaitoTakao YoshitsuguKeigo KusakaHiroyuki KiriyamaDaisuke Ito
    • G11B17/02F16C32/06
    • F16C17/107F16C33/103F16C33/107F16C2370/12
    • In a hydrodynamic bearing device in which a radial bearing face having a dynamic pressure generating groove on a shaft or an inner periphery of a sleeve is provided and a clearance between the shaft and the sleeve is filled with lubricant, an annular depression is provided on one end face of the sleeve adjacent to a rotor hub and a cover plate for covering the depression is attached to the sleeve so as to define a reservoir for the lubricant or air for the purpose of preventing such a risk that absence of an oil film occurs in clearances of a bearing of the hydrodynamic bearing device due to outflow of oil upon forcing of the oil by air received into the bearing. A step portion is provided on the other end face of the sleeve such that the step portion and the reservoir are communicated with each other by a communication hole. During operation of the hydrodynamic bearing device, air in the hydrodynamic bearing device reaches the reservoir via the communication hole so as to be discharged from the reservoir.
    • 在一种流体动力轴承装置中,其中设置有在轴上的动压产生槽或套筒的内周上的径向支承面,并且轴与套筒之间的间隙充满润滑剂,环形凹部设置在一个 与转子轮毂相邻的套筒的端面和用于覆盖凹部的盖板附接到套筒上,以便限定用于润滑剂或空气的储存器,以便防止在油膜中不存在油膜的风险 由于在接收到轴承中的空气迫使油被油流出时,流体动力轴承装置的轴承的间隙。 台阶部设置在套筒的另一端面上,使得台阶部分和储存器通过连通孔相互连通。 在流体动力轴承装置的操作期间,流体动力轴承装置中的空气经由连通孔到达储存器,以便从储存器排出。
    • 3. 发明申请
    • HYDRODYNAMIC BEARING DEVICE AND DISK ROTATING APPARATUS
    • 水力轴承装置和盘旋转装置
    • US20080304776A1
    • 2008-12-11
    • US12188545
    • 2008-08-08
    • Takafumi ASADAHiroaki SaitoTakao YoshitsuguKeigo KusakaHiroyuki KiriyamaDaisuke Ito
    • Takafumi ASADAHiroaki SaitoTakao YoshitsuguKeigo KusakaHiroyuki KiriyamaDaisuke Ito
    • F16C32/06G11B17/02
    • F16C17/107F16C33/103F16C33/107F16C2370/12
    • In a hydrodynamic bearing device in which a radial bearing face having a dynamic pressure generating groove on a shaft or an inner periphery of a sleeve is provided and a clearance between the shaft and the sleeve is filled with lubricant, an annular depression is provided on one end face of the sleeve adjacent to a rotor hub and a cover plate for covering the depression is attached to the sleeve so as to define a reservoir for the lubricant or air for the purpose of preventing such a risk that absence of an oil film occurs in clearances of a bearing of the hydrodynamic bearing device due to outflow of oil upon forcing of the oil by air received into the bearing. A step portion is provided on the other end face of the sleeve such that the step portion and the reservoir are communicated with each other by a communication hole. During operation of the hydrodynamic bearing device, air in the hydrodynamic bearing device reaches the reservoir via the communication hole so as to be discharged from the reservoir.
    • 在一种流体动力轴承装置中,其中设置有在轴上的动压产生槽或套筒的内周上的径向支承面,并且轴与套筒之间的间隙充满润滑剂,环形凹部设置在一个 与转子轮毂相邻的套筒的端面和用于覆盖凹部的盖板附接到套筒上,以便限定用于润滑剂或空气的储存器,以便防止在油膜中不存在油膜的风险 由于在接收到轴承中的空气迫使油被油流出时,流体动力轴承装置的轴承的间隙。 台阶部设置在套筒的另一端面上,使得台阶部分和储存器通过连通孔相互连通。 在流体动力轴承装置的操作期间,流体动力轴承装置中的空气经由连通孔到达储存器,以便从储存器排出。
    • 4. 发明申请
    • Hydrodynamic bearing rotary device and information apparatus
    • 流体动力轴承旋转装置和信息装置
    • US20070230840A1
    • 2007-10-04
    • US11730144
    • 2007-03-29
    • Takafumi AsadaHiroaki SaitoDaisuke ItouKeigo KusakaHiroyuki Kiriyama
    • Takafumi AsadaHiroaki SaitoDaisuke ItouKeigo KusakaHiroyuki Kiriyama
    • F16C32/06
    • F16C33/102F16C17/107F16C33/107F16C2370/12
    • A hydrodynamic bearing rotary device which can reduce rotation friction, and recording and reproducing apparatus including the same are provided. In the hydrodynamic bearing rotary device such as hard disc devices, a rotary shaft having a hub on one end is provided in a bearing of a sleeve so as to be rotatable. Thrust hydrodynamic grooves are provided on the other end surface of the rotary shaft, to form a thrust bearing with the thrust plate. A communication path is provided in the sleeve. The second gap between the hub and the sleeve end surface is used as a flow channel and is connected to the communication path. In this way, the rotation friction torque of the thrust bearing can be made sufficiently small, and internal pressure in bonded portions of the rotary shaft or the bottom plate can be suppressed. Thus, the oil can be prevented from oozing out from a small space of the bonded surfaces. Furthermore, the hydrodynamic bearing can be made thin. These effects can be combined to realize an optimal hydrodynamic bearing rotary device.
    • 提供了能够降低旋转摩擦力的流体动力轴承旋转装置,以及包括其的记录和再现装置。 在诸如硬盘装置的流体动力轴承旋转装置中,一个具有一端的轮毂的旋转轴设置在套筒的轴承中以便可旋转。 在旋转轴的另一端面上设置有推力液压动力槽,与止推板形成推力轴承。 在套筒中提供通信路径。 轮毂和套筒端面之间的第二间隙用作流动通道并连接到连通路径。 以这种方式,推力轴承的旋转摩擦转矩可以变得足够小,并且可以抑制旋转轴或底板的接合部分的内部压力。 因此,可以防止油从接合表面的小空间渗出。 此外,流体动力轴承可以变薄。 这些效果可以结合起来,实现最佳的流体动力轴承旋转装置。
    • 6. 发明授权
    • Hydro dynamic gas bearing and disk drive using the same
    • 水力动力气体轴承和磁盘驱动器使用相同
    • US06604858B2
    • 2003-08-12
    • US09929095
    • 2001-08-15
    • Keigo KusakaTakafumi Asada
    • Keigo KusakaTakafumi Asada
    • F16C3206
    • H02K5/1677F16C17/026F16C33/1015F16C2370/12G11B19/2009H02K5/10H02K2205/09
    • A hydro dynamic gas bearing having a sleeve with one end closed and connected to a front end of a shaft supported at its proximal end relative to a base on a fixed side, a plurality of hydro dynamic pressure generating grooves on at least one of an outer peripheral surface of the shaft and an inner peripheral surface of the sleeve opposite the outer peripheral surface, and a through hole communicating with the outside of the base extending from the front end to the proximal end of the shaft, the through hole having an air vent for adjusting pressure between the shaft and the sleeve for adjustment of discharge air so that the sleeve rotates in a contactless fashion relative to the shaft.
    • 一种液压动态气体轴承,其具有一端封闭并且连接到轴的前端,所述轴在其近端处相对于固定侧上的基座支撑,多个水动力产生槽位于外部的至少一个上 所述轴的外周表面和所述套筒的与所述外周面相对的内周面,以及与所述基部的从所述轴的前端延伸到所述近端的所述基部的外部连通的通孔,所述通孔具有通气孔 用于调节轴和套筒之间的压力以调节排出空气,使得套筒相对于轴以非接触的方式旋转。
    • 7. 发明授权
    • Hydrodynamic bearing device and disk rotating apparatus
    • 流体动力轴承装置和盘旋转装置
    • US07589934B2
    • 2009-09-15
    • US12188545
    • 2008-08-08
    • Takafumi AsadaHiroaki SaitoTakao YoshitsuguKeigo KusakaHiroyuki KiriyamaDaisuke Ito
    • Takafumi AsadaHiroaki SaitoTakao YoshitsuguKeigo KusakaHiroyuki KiriyamaDaisuke Ito
    • G11B19/20
    • F16C17/107F16C33/103F16C33/107F16C2370/12
    • In a hydrodynamic bearing device in which a radial bearing face having a dynamic pressure generating groove on a shaft or an inner periphery of a sleeve is provided and a clearance between the shaft and the sleeve is filled with lubricant, an annular depression is provided on one end face of the sleeve adjacent to a rotor hub and a cover plate for covering the depression is attached to the sleeve so as to define a reservoir for the lubricant or air for the purpose of preventing such a risk that absence of an oil film occurs in clearances of a bearing of the hydrodynamic bearing device due to outflow of oil upon forcing of the oil by air received into the bearing. A step portion is provided on the other end face of the sleeve such that the step portion and the reservoir are communicated with each other by a communication hole. During operation of the hydrodynamic bearing device, air in the hydrodynamic bearing device reaches the reservoir via the communication hole so as to be discharged from the reservoir.
    • 在一种流体动力轴承装置中,其中设置有在轴上的动压产生槽或套筒的内周上的径向支承面,并且轴与套筒之间的间隙充满润滑剂,环形凹部设置在一个 与转子轮毂相邻的套筒的端面和用于覆盖凹部的盖板附接到套筒上,以便限定用于润滑剂或空气的储存器,以便防止在油膜中不存在油膜的风险 由于在接收到轴承中的空气迫使油被油流出时,流体动力轴承装置的轴承的间隙。 台阶部设置在套筒的另一端面上,使得台阶部分和储存器通过连通孔相互连通。 在流体动力轴承装置的操作期间,流体动力轴承装置中的空气经由连通孔到达储存器,以便从储存器排出。