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    • 1. 发明申请
    • Method of Molding a Hydrodynamic Pressure Producuing Part
    • 流体动力压力生成部分成型方法
    • US20080217803A1
    • 2008-09-11
    • US11791019
    • 2005-12-12
    • Tatsuo NakajimaArito MatsuiIsao Komori
    • Tatsuo NakajimaArito MatsuiIsao Komori
    • B29C43/00B29C35/08
    • F16C33/107F16C17/026F16C17/107
    • To enable molding of a hydrodynamic pressure producing part on the flat surface of a material by simple steps highly accurately and at low costs. A microdroplet 13 of an ultraviolet curable type ink from a nozzle head 11 by the ink jet method is caused to land or dropped on the upper end face 2b1 of the material 2b′. The nozzle head 11 and a light source 14 which irradiates a ultraviolet ray are disposed sequentially according to the direction of travel of the material 2b′, and are provided at positions opposing the material 2b′. While the material 2b′ is relatively slid, landing or dropping of the ink from the nozzle head 11 and curing of the ink by the ultraviolet ray irradiated from the light source 14 are gradually conducted according to in the direction of travel of the material 2b′ to form the hydrodynamic pressure producing part.
    • 为了能够以高精度和低成本的简单步骤在材料的平坦表面上模制流体动力学压力产生部件。 通过喷墨法将来自喷嘴头11的紫外线固化型墨水的微滴13落在或者掉入材料2b'的上端面2bb上。 喷嘴头11和照射紫外线的光源14根据材料b'的行进方向依次设置,并且设置在与材料2b'相对的位置处。 当材料b'相对滑动时,油墨从喷嘴头11的着落或落下,并且通过从光源14照射的紫外线固化油墨根据材料2的行进方向逐渐进行 b'以形成流体动力学压力产生部件。
    • 4. 发明申请
    • Magnetic encoder and wheel support bearing assembly utilizing the same
    • 磁性编码器和使用其的车轮支撑轴承组件
    • US20050058376A1
    • 2005-03-17
    • US10940776
    • 2004-09-15
    • Kouya OohiraTatsuo NakajimaArito MatsuiKazutoyo Murakami
    • Kouya OohiraTatsuo NakajimaArito MatsuiKazutoyo Murakami
    • G01P3/44G01P3/487H01F1/057H01F41/02F16C41/04
    • G01P3/443F16C19/184F16C33/7883F16C41/007F16C2326/02G01P3/487H01F1/0577H01F1/059H01F41/026Y10T29/49861Y10T29/49982
    • To substantially eliminate deficiencies such as portions of the resinous coating, where the film thickness is reduced considerably during the press-fitting, and to aim at providing a high productivity with a reduced cost and without the possibility of occurrence of rusting after a prolonged time of use under severe environmental conditions due to an excellent anticorrosive property, a magnetic encoder (10) includes a multipolar magnet (14) having a plurality of alternating magnetic poles alternating with each other in a direction circumferentially thereof, and a core metal (11) supporting the multipolar magnet (14). The multipolar magnet (14) is formed of a sintered element prepared by mixing and sintering a powdery mixture of a magnetic powder and a non-magnetic metallic powder. The multipolar magnet (14) is fixed on the core metal (1) by staking a portion of the core metal (11), and a sintered element/core metal assembly (21) fixed on the core metal (11) is surface treated to have with an anticorrosive resinous coating (22) for anticorrosive purpose. When the magnetic encoder is press-fitted on an encoder carrier member, one of a press-fitting punch and the magnetic encoder (10) is heated to a temperature within the range of 60 to 150° C.
    • 为了基本上消除诸如树脂涂层的部分的缺陷,其中在压配合期间膜厚度显着降低,并且旨在以降低的成本提供高生产率,并且在延长的时间之后不会发生生锈 在恶劣环境条件下,由于具有良好的防锈性能,在磁性编码器(10)中包括多个磁极(14),该多极磁体(14)具有在其圆周方向上彼此交替的多个交替磁极和支撑 多极磁体(14)。 多极磁体(14)由通过混合和烧结磁性粉末和非磁性金属粉末的粉末混合物制成的烧结元件形成。 多芯铁磁体(14)通过铆接芯金属(11)的一部分固定在芯金属(11)上,固定在芯金属(11)上的烧结体/芯金属组件(21)进行表面处理 具有用于防腐目的的防腐树脂涂层(22)。 当磁编码器压配合在编码器承载构件上时,压配冲头和磁编码器(10)中的一个被加热到在60至150℃的范围内的温度。
    • 7. 发明授权
    • Wheel support bearing assembly with magnetic encoder
    • 车轮支撑轴承组件带磁编码器
    • US07207723B2
    • 2007-04-24
    • US10793875
    • 2004-03-08
    • Tatsuo NakajimaKouya OohiraArito MatsuiKazutoyo Murakami
    • Tatsuo NakajimaKouya OohiraArito MatsuiKazutoyo Murakami
    • F16C19/28
    • F16C41/007F16C19/184F16C33/723F16C33/7883F16C43/045F16C2326/02F16J15/326G01P3/443G01P3/487
    • To provide a wheel support bearing assembly capable of securing a satisfactory sealability and of accomplishing an assured press-fit of an magnetic encoder, the wheel support bearing assembly for supporting a vehicle wheel rotatably relative to a vehicle body structure includes an outer member 2, an inner member 1 positioned inside the outer member 2 with an annular bearing space delimited between it and the outer member 2, and rows of rolling elements 3 rollingly within the annular bearing space. At least one sealing unit 5 is provided for sealing one of opposite open ends of the annular bearing space. This sealing unit 5 is comprised in part of a magnetic encoder 10 including a multi-pole magnet member 14 having a plurality of opposite magnetic poles alternating in a direction circumferentially thereof and a first sealing plate 11 serving as a core metal. The first sealing plate 11 is press-fitted onto the inner member 1 with the amount of interference fit to be within the range of 5 to 230 μm.
    • 为了提供能够确保令人满意的密封性并且实现磁编码器的可靠的压配合的车轮支撑轴承组件,用于相对于车身结构可旋转地支撑车轮的车轮支撑轴承组件包括外部构件2, 内部构件1定位在外部构件2内部,在其与外部构件2之间限定有环形轴承空间,并且在环形轴承空间内滚动地排列有滚动体3。 提供至少一个密封单元5用于密封环形轴承空间的相对开口端中的一个。 该密封单元5包括磁性编码器10的一部分,磁性编码器10包括多个磁极构件14,多极磁体构件14具有沿圆周方向交替的多个相对的磁极和作为芯金属的第一密封板11。 将第一密封板11压配合到内部构件1上,其中过盈配合量在5至230μm的范围内。
    • 9. 发明授权
    • Magnetic encoder and wheel support bearing assembly utilizing the same
    • 磁性编码器和使用其的车轮支撑轴承组件
    • US07237960B2
    • 2007-07-03
    • US10940776
    • 2004-09-15
    • Kouya OohiraTatsuo NakajimaArito MatsuiKazutoyo Murakami
    • Kouya OohiraTatsuo NakajimaArito MatsuiKazutoyo Murakami
    • F16C41/00B23P25/00G01P3/487
    • G01P3/443F16C19/184F16C33/7883F16C41/007F16C2326/02G01P3/487H01F1/0577H01F1/059H01F41/026Y10T29/49861Y10T29/49982
    • To substantially eliminate deficiencies such as portions of the resinous coating, where the film thickness is reduced considerably during the press-fitting, and to aim at providing a high productivity with a reduced cost and without the possibility of occurrence of rusting after a prolonged time of use under severe environmental conditions due to an excellent anticorrosive property, a magnetic encoder (10) includes a multipolar magnet (14) having a plurality of alternating magnetic poles alternating with each other in a direction circumferentially thereof, and a core metal (11) supporting the multipolar magnet (14). The multipolar magnet (14) is formed of a sintered element prepared by mixing and sintering a powdery mixture of a magnetic powder and a non-magnetic metallic powder. The multipolar magnet (14) is fixed on the core metal (1) by staking a portion of the core metal (11), and a sintered element/core metal assembly (21) fixed on the core metal (11) is surface treated to have with an anticorrosive resinous coating (22) for anticorrosive purpose. When the magnetic encoder is press-fitted on an encoder carrier member, one of a press-fitting punch and the magnetic encoder (10) is heated to a temperature within the range of 60 to 150° C.
    • 为了基本上消除诸如树脂涂层的部分的缺陷,其中在压配合期间膜厚度显着降低,并且旨在以降低的成本提供高生产率,并且在延长的时间之后不会发生生锈 在恶劣环境条件下,由于具有良好的防锈性能,在磁性编码器(10)中包括多个磁极(14),该多极磁体(14)具有在其圆周方向上彼此交替的多个交替磁极和支撑 多极磁体(14)。 多极磁体(14)由通过混合和烧结磁性粉末和非磁性金属粉末的粉末混合物制成的烧结元件形成。 多芯铁磁体(14)通过铆接芯金属(11)的一部分固定在芯金属(11)上,固定在芯金属(11)上的烧结体/芯金属组件(21)进行表面处理 具有用于防腐目的的防腐树脂涂层(22)。 当磁编码器压配合在编码器承载构件上时,压配冲头和磁编码器(10)中的一个被加热到在60至150℃的范围内的温度。