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    • 1. 发明授权
    • Coil spring with irregular cross section
    • 线圈弹簧横截面不规则
    • US08393602B2
    • 2013-03-12
    • US12736596
    • 2009-02-23
    • Hisao IsobeJun Matsumoto
    • Hisao IsobeJun Matsumoto
    • F16F1/06
    • F16F1/042F16H45/02
    • A coil spring with irregular cross section according to the present invention is made by subjecting a coil wire having an irregular cross section to a fatigue-strength improving treatment including a shot peening treatment after coiling the coil wire into a spring configuration, and the coil spring with irregular cross section has a vertical cross sectional profile whose coil inner-peripheral-side section is expressed by following Equation (1) and Equation (2) in a polar coordinate system and orthogonal coordinate system: x=(LR−Δb)cosnxr θ+Δb  (1) y=SR sinnyr θ  (2) wherein θ is a deflection angle in said polar coordinate system; and 0°≦θ
    • 根据本发明的具有不规则横截面的螺旋弹簧是通过对具有不规则横截面的线圈线进行包括在将线圈线卷绕成弹簧构造之后的喷丸硬化处理的疲劳强度改善处理而制成的,并且螺旋弹簧 具有不规则横截面的垂直截面轮廓线圈内周侧截面由极坐标系和正交坐标系中的等式(1)和等式(2)表示:x =(LR-&Dgr; b) cosnxr&thetas; +&Dgr; b(1)y = SR sinnyr&thetas; (2)其中&amp; 是所述极坐标系中的偏转角; 0°&nlE;&Thetas; <90°,270°&nlE;&Thetas; <360°,0.7&nlE; nxr&nlE; 0.9,0.8&nlE; nyr&nlE; 1.0和0.1SR&nlE;&Dgr; b&nlE; 0.3SR; 在等式(1)和等式(2)中。 根据本发明,可以提供一种具有不规则横截面的螺旋弹簧,该线圈弹簧沿着线圈线的横截面圆周方向具有更均匀和更高的疲劳强度。
    • 4. 发明授权
    • Medical instrument holding apparatus
    • 医用仪器夹具
    • US07556626B2
    • 2009-07-07
    • US10751565
    • 2004-01-05
    • Masaaki UedaSatoshi OtsukaTomoaki YamashitaHisao IsobeKenji HiroseToru Shinmura
    • Masaaki UedaSatoshi OtsukaTomoaki YamashitaHisao IsobeKenji HiroseToru Shinmura
    • A61B17/00
    • A61B90/50A61B2090/504
    • A medical instrument holding apparatus includes a supporting mechanism, a moving mechanism, a basal portion and a counterweight. The supporting mechanism supports a medical instrument. The moving mechanism which has first and second sides, and a shaft portion located between the first and second sides. The moving mechanism supports the supporting mechanism, allowing the medical instrument and the supporting mechanism to be moved around the shaft portion. The basal portion is coupled to the shaft portion. The basal portion supports the moving mechanism, allowing the moving mechanism to rotate around the shaft portion. The counterweight is located on the second side of the moving mechanism. The counterweight generates a first rotation moment being smaller than a second rotation moment generated from the weights of the medical instrument and the supporting mechanism and acting around the shaft portion in the opposite direction to the second rotation moment.
    • 医疗器具保持装置包括支撑机构,移动机构,基部和配重。 支持机构支持医疗器械。 具有第一和第二侧面的移动机构和位于第一和第二侧之间的轴部分。 移动机构支撑支撑机构,允许医疗器械和支撑机构绕轴部移动。 基部与轴部联接。 基部支撑移动机构,允许移动机构围绕轴部旋转。 配重位于移动机构的第二侧。 配重产生的第一旋转力矩小于由医疗器具和支撑机构的重量产生的第二旋转力矩,并且在与第二旋转力矩相反的方向上围绕轴部作用。
    • 7. 发明授权
    • Manufacturing method for optical pickup device
    • 光学拾取装置的制造方法
    • US06330119B1
    • 2001-12-11
    • US09589033
    • 2000-06-06
    • Satoshi KasaharaHisao Isobe
    • Satoshi KasaharaHisao Isobe
    • G02B702
    • G02B7/04
    • A method used during the manufacturing of a device of an optical pickup device for bonding and fixing drive coils to a lens holder or other parts of a drive device. The optical pickup device has a lens holder and a magnetic drive device for driving the lens holder in a tracking direction and a focusing direction, the magnetic drive device having a permanent magnet and drive coils fixed to the lens holder. The method includes providing a fuse wire having a wire and a fuse coating covering the wire, pressing the fuse wire on the lens holder at a predetermined position, energizing the fuse wire in the pressed position to melt the fuse coating, and curing the melt fuse coating to bond and fix the fuse wire to the lens holder to form the drive coils. Alternatively, the fuse wire may be melt first and then pressed to the desired position of the lens holder. The current used for energizing the coil to melt the fuse coating or fuse film is much larger than drive currents used during normal operation of the optical pickup device.
    • 在制造用于将驱动线圈接合和固定到透镜架或驱动装置的其它部分的光学拾取装置的装置中使用的方法。 光学拾取装置具有透镜架和用于沿跟踪方向和聚焦方向驱动透镜架的磁性驱动装置,该磁性驱动装置具有固定在透镜架上的永磁体和驱动线圈。 该方法包括提供具有导线的保险丝和覆盖线的保险丝涂层,将预定位置处的镜片保持器上的熔丝线按压在受压位置上的熔丝,使熔丝熔化,并熔化熔融熔丝 涂覆以将熔丝连接并固定到透镜架上以形成驱动线圈。 或者,熔丝首先熔化,然后压到透镜架的所需位置。 用于对线圈通电以熔化保险丝涂层或熔丝膜的电流远大于在光学拾取装置的正常操作期间使用的驱动电流。
    • 9. 发明申请
    • COIL SPRING WITH IRREGULAR CROSS SECTION
    • 线圈弹簧与非正交交叉部分
    • US20110031667A1
    • 2011-02-10
    • US12736596
    • 2009-02-23
    • Hisao IsobeJun Matsumoto
    • Hisao IsobeJun Matsumoto
    • F16F1/06
    • F16F1/042F16H45/02
    • A coil spring with irregular cross section according to the present invention is made by subjecting a coil wire having an irregular cross section to a fatigue-strength improving treatment including a shot peening treatment after coiling the coil wire into a spring configuration, and the coil spring with irregular cross section has a vertical cross-sectional profile whose coil inner-peripheral-side section is expressed by following Equation (1) and Equation (2) in a polar coordinate system and orthogonal coordinate system: x=(LR−Δb)cosnxrθ+Δb  (1) y=SRsinnyrθ  (2) wherein θ is a deflection angle in said polar coordinate system; and 0°≦θ
    • 根据本发明的具有不规则横截面的螺旋弹簧是通过对具有不规则横截面的线圈线进行包括在将线圈线卷绕成弹簧构造之后的喷丸硬化处理的疲劳强度改善处理而制成的,并且螺旋弹簧 具有不规则横截面的垂直截面轮廓,其线圈内周侧截面由极坐标系和正交坐标系中的等式(1)和等式(2)表示:x =(LR-&Dgr; b )cosnxr&thetas; +&Dgr; b(1)y = SRsinnyr&thetas; (2)其中&amp; 是所述极坐标系中的偏转角; 0°&nlE;&Thetas; <90°,270°&nlE;&Thetas; <360°,0.7&nlE; nxr&nlE; 0.9,0.8&nlE; nyr&nlE; 1.0和0.1SR&nlE;&Dgr; b&nlE; 0.3SR; 在等式(1)和等式(2)中。 根据本发明,可以提供一种具有不规则横截面的螺旋弹簧,该线圈弹簧沿着线圈线的横截面圆周方向具有更均匀和更高的疲劳强度。