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    • 4. 再颁专利
    • Bearing apparatus
    • 轴承装置
    • USRE35718E
    • 1998-01-27
    • US528059
    • 1995-09-14
    • Katsutoshi NiiKazuhiko KawaikeHiroo HiroyamaSatoshi Uno
    • Katsutoshi NiiKazuhiko KawaikeHiroo HiroyamaSatoshi Uno
    • F16C33/10F16C33/82F16C32/06
    • F16C33/10F16C33/1035F16C33/746
    • A bearing apparatus comprises a housing formed of a non-magnetizable material and having a bottom portion, a fluid lubricating type radial bearing device provided coaxial with the housing and having a magnetic fluid sealing section and a radial bearing section, a thrust bearing device provided at the bottom portion of the housing, and a rotating shaft of a permeable material rotatable supported by the radial bearing device and thr thrust bearing device to extend through the radial bearing device. The magnetic fluid sealing section is disposed on the opening side of the housing with a predetermined spacing away from the radial bearing section whereby a space is provided between the magnetic fluid sealing section and a liquid surface of fluid lubricant filled in the radial bearing section.
    • 轴承装置包括由不可磁化材料形成并具有底部的壳体,与壳体同轴设置并具有磁性流体密封部分和径向轴承部分的流体润滑型径向轴承装置,其中设置有推力轴承装置 壳体的底部以及由径向轴承装置和推力轴承装置可旋转地支撑的可渗透材料的旋转轴,以延伸穿过径向轴承装置。 磁性流体密封部分以距离径向轴承部分预定间隔的方式设置在壳体的开口侧上,从而在磁性流体密封部分和填充在径向支承部分中的流体润滑剂的液体表面之间设置空间。
    • 10. 发明申请
    • Production method for sintered fluid dynamic pressure bearing
    • 烧结流体动压轴承的生产方法
    • US20080010832A1
    • 2008-01-17
    • US11711028
    • 2007-02-27
    • Hidekazu TokushimaTakahiro JinushiKatsutoshi NiiZenzo Ishijima
    • Hidekazu TokushimaTakahiro JinushiKatsutoshi NiiZenzo Ishijima
    • B21K1/10
    • F16C33/10B22F3/26B22F2998/00B22F2998/10B22F2999/00C22C1/0425F16C33/20F16C33/201F16C33/208Y10T29/49639B22F1/0003B22F1/0055B22F3/02B22F3/1007B22F3/16B22F2201/016B22F3/164B22F3/162
    • A sintered fluid dynamic pressure bearing completely seals or decreases the sizes of gaps formed in pores by shrinkage when a resin impregnated therein shrinks. The fluid dynamic pressure bearings can be reliably and easily produced using fewer processes while superior quality is maintained. A production method for a fluid dynamic pressure bearing includes a resin sealing process including a resin impregnating step in which a monomer of an anaerobic resin composed primarily of acrylate or methacrylate is impregnated in pores of a porous sintered compact, an excess resin washing off step in which excess resin adhering to the surface of the porous sintered compact is washed off, and a resin curing step in which the monomer of the anaerobic resin impregnated in the pores is cured by heating the porous sintered compact to at least the curing temperature of the resin after washing off the excess resin; the resin sealing process is repeatedly carried out, and a monomer of an anaerobic resin containing an organic peroxide at 0.1 to 1.0 mass % is used in at least the resin impregnating step of the last resin sealing process.
    • 当浸渍在其中的树脂收缩时,烧结流体动压轴承通过收缩完全密封或减小在孔中形成的间隙的尺寸。 流体动压轴承可以使用更少的工艺可靠且容易地制造,同时保持优良的质量。 流体动压轴承的制造方法包括:树脂密封方法,其包括树脂浸渍步骤,其中主要由丙烯酸酯或甲基丙烯酸酯组成的厌氧性树脂的单体浸渍在多孔烧结体的孔中,多余的树脂洗涤步骤 洗涤多孔烧结体表面附着的多余的树脂,并且通过将多孔烧结体加热至至少树脂的固化温度来固化浸渍在孔中的厌氧性树脂的单体的树脂固化步骤 洗掉多余的树脂后; 重复进行树脂密封处理,至少在最后一次树脂密封工序的树脂浸渍工序中使用含有0.1〜1.0质量%的有机过氧化物的厌氧性树脂的单体。