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    • 2. 发明授权
    • Lubricant applying system for a rolling bearing
    • 用于滚动轴承的润滑剂应用系统
    • US06477885B1
    • 2002-11-12
    • US09471232
    • 1999-12-23
    • Masaaki SekineKatsuyoshi YamashitaMichiharu Naka
    • Masaaki SekineKatsuyoshi YamashitaMichiharu Naka
    • G07N2100
    • F16C33/6674F16C33/6622F16C33/6625F16C33/667F16N17/00F16N2210/14
    • In a lubricant application system, a prescribed volume of lubricant is transferred from a lubricant discharge port 8 of a prescribed liquid volume discharge device to a rolling element 703 of a rolling bearing 700 in a state in which the lubricant discharge port 8 is positioned directly above and sufficiently close to the rolling element 703, whereby the lubricant is applied to the interior of the rolling bearing 700. Further, the application system inspects whether or not a prescribed volume of lubricant is injected from the discharge device for injecting a lubricant into the interior of a rolling bearing 700. A laser beam L1 is irradiated between a lubricant discharge port 8 of the lubricant discharge device and the rolling bearing 700, and a reflected laser beam L2 reflected by the lubricant when it is discharged from the lubricant discharge port 8 is received by a photoreceptor 116 disposed on the optical axis of the reflected laser beam L2, whereby whether or not the lubricant is applied to the rolling bearing 700 is determined based on an output from the photoreceptor 116.
    • 在润滑剂施加系统中,在润滑剂排出口8直接位于上方的状态下,将规定体积的润滑剂从规定液体排出装置的润滑剂排出口8输送到滚动轴承700的滚动体703 并且足够接近滚动元件703,由此将润滑剂施加到滚动轴承700的内部。此外,应用系统检查从用于将润滑剂注入内部的排出装置是否喷射了规定体积的润滑剂 在润滑剂排出装置的润滑剂排出口8和滚动轴承700之间照射激光束L1,以及从润滑剂排出口8排出时由润滑剂反射的反射激光束L2是 由设置在反射激光束L2的光轴上的感光体116接收,由此是否润滑剂 基于来自感光体116的输出来确定应用于滚动轴承700的滚动轴承700。
    • 3. 发明授权
    • Lubricant applying system for a rolling bearing
    • 用于滚动轴承的润滑剂应用系统
    • US06898959B2
    • 2005-05-31
    • US10849247
    • 2004-05-20
    • Masaaki SekineKatsuyoshi YamashitaMichiharu Naka
    • Masaaki SekineKatsuyoshi YamashitaMichiharu Naka
    • F16C33/66F16N17/00G01N27/00F01M1/18
    • F16C33/6674F16C33/6622F16C33/6625F16C33/667F16N17/00F16N2210/14
    • In a lubricant application system, a prescribed volume of lubricant is transferred from a lubricant discharge port 8 of a prescribed liquid volume discharge device to a rolling element 703 of a rolling bearing 700 in a state in which the lubricant discharge port 8 is positioned directly above and sufficiently close to the rolling element 703, whereby the lubricant is applied to the interior of the rolling bearing 700. Further, the application system inspects whether or not a prescribed volume of lubricant is injected from the discharge device for injecting a lubricant into the interior of a rolling bearing 700. A laser beam L1 is irradiated between a lubricant discharge port 8 of the lubricant discharge device and the rolling bearing 700, and a reflected laser beam L2 reflected by the lubricant when it is discharged from the lubricant discharge port 8 is received by a photoreceptor 116 disposed on the optical axis of the reflected laser beam L2, whereby whether or not the lubricant is applied to the rolling bearing 700 is determined based on an output from the photoreceptor 116.
    • 在润滑剂施加系统中,在润滑剂排出口8直接位于上方的状态下,将规定体积的润滑剂从规定液体排出装置的润滑剂排出口8输送到滚动轴承700的滚动体703 并且足够接近滚动元件703,由此将润滑剂施加到滚动轴承700的内部。 此外,应用系统检查从用于将润滑剂注入到滚动轴承700的内部的排出装置是否喷射规定体积的润滑剂。 在润滑剂排出装置的润滑剂排出口8和滚动轴承700之间照射激光束L 1和由润滑剂反射的反射激光束L 2 2, 从设置在反射激光束L 2的光轴上的感光体116接收从润滑剂排出口8排出的润滑剂,由此确定是否向滚动轴承700施加润滑剂 基于来自感光体116的输出。
    • 5. 发明授权
    • Lubricant applying system for a rolling bearing
    • 用于滚动轴承的润滑剂应用系统
    • US06755071B2
    • 2004-06-29
    • US10225296
    • 2002-08-22
    • Masaaki SekineKatsuyoshi YamashitaMichiharu Naka
    • Masaaki SekineKatsuyoshi YamashitaMichiharu Naka
    • G01N2700
    • F16C33/6674F16C33/6622F16C33/6625F16C33/667F16N17/00F16N2210/14
    • In a lubricant application system, a prescribed volume of lubricant is transferred from a lubricant discharge port (8) of a prescribed liquid volume discharge device to a rolling element (703) of a rolling bearing (700) in a state in which the lubricant discharge port (8) is positioned directly above and sufficiently close to the rolling element (703), whereby the lubricant is applied to the interior of the rolling bearing (700). Further, the application system inspects whether or not a prescribed volume of lubricant is injected from the discharge device for injecting a lubricant into the interior of a rolling bearing (700). A laser beam (L1) is irradiated between a lubricant discharge port (8) of the lubricant discharge device and the rolling bearing (700), and a reflected laser beam (L2) reflected by the lubricant when it is discharged from the lubricant discharge port (8) is received by a photoreceptor (116) disposed on the optical axis of the reflected laser beam (L2), whereby whether or not the lubricant is applied to the rolling bearing (700) is determined-based on an output from the photoreceptor (116).
    • 在润滑剂涂敷系统中,将规定量的润滑剂从规定液体排出装置的润滑剂排出口(8)向滚动轴承(700)的滚动体(703)输送到润滑剂排出口 端口(8)定位在滚动元件(703)的正上方并且足够靠近的位置,由此将润滑剂施加到滚动轴承(700)的内部。 此外,应用系统检查从用于将润滑剂注入到滚动轴承(700)的内部的排出装置是否喷射规定体积的润滑剂。 在润滑剂排出装置的润滑剂排出口(8)和滚动轴承(700)之间照射激光束(L1),以及从润滑剂排出口排出时由润滑剂反射的反射激光束(L2) (8)由设置在反射激光束(L2)的光轴上的感光体(116)接收,由此基于感光体的输出来确定是否向滚动轴承(700)施加润滑剂 (116)。
    • 8. 发明授权
    • Magneto-resistance effect type magnetic head and magnetic tape apparatus
    • 磁阻效应型磁头和磁带装置
    • US07525774B2
    • 2009-04-28
    • US11229074
    • 2005-09-19
    • Yutaka SodaMasaaki Sekine
    • Yutaka SodaMasaaki Sekine
    • G11B5/33G11B5/127
    • G11B5/534B82Y10/00B82Y25/00G11B5/0086G11B5/3903G11B2005/3996
    • A laser diode capable of being easily mounted and a laser diode device in which the laser diode is mounted are provided. A hole is disposed in a semiconductor layer, and a p-type electrode and an n-type semiconductor layer are electrically connected to each other by a bottom portion (a connecting portion) of the hole. Thereby, the p-type electrode has the same potential as the n-type semiconductor layer, and a saturable absorption region is formed in a region corresponding to a current path. Light generated in a gain region (not shown) is absorbed in the saturable absorption region so as to be converted into a current. The current is discharged to a ground via the p-side electrode and the bottom portion, an interaction between the saturable absorption region and the gain region is initiated, and thereby self-oscillation can be produced.
    • 提供能够容易地安装的激光二极管和安装有激光二极管的激光二极管装置。 在半导体层中设置有空穴,p型电极和n型半导体层通过孔的底部(连接部)彼此电连接。 因此,p型电极具有与n型半导体层相同的电位,并且在对应于电流路径的区域中形成可饱和吸收区域。 在增益区域(未示出)中产生的光在可饱和吸收区域中被吸收,以便转换成电流。 电流通过p侧电极和底部放电到地,可饱和吸收区域和增益区域之间的相互作用开始,从而可以产生自振荡。
    • 9. 发明申请
    • Magneto-resistance effect type magnetic head and magnetic tape apparatus
    • 磁阻效应型磁头和磁带装置
    • US20060067011A1
    • 2006-03-30
    • US11229074
    • 2005-09-19
    • Yutaka SodaMasaaki Sekine
    • Yutaka SodaMasaaki Sekine
    • G11B5/127G11B5/33
    • G11B5/534B82Y10/00B82Y25/00G11B5/0086G11B5/3903G11B2005/3996
    • A magneto-resistance effect type magnetic head is disclosed which is high in sensitivity and corrosion resistance. In the head, a spin valve film acting as an magnetic sensing device for detecting a magnetic signal on a magnetic recording medium. The spin valve film is structured such that an antiferromagnetic layer, a fixed magnetization layer whose magnetization direction is fixed by an exchange coupling magnetic field acting between the layers, a free magnetization layer whose magnetization direction varies in response to an external magnetic field, and a nonmagnetic layer for magnetically isolating the fixed magnetization layer and the free magnetization layer are laminated. The nonmagnetic layer is formed from a conductive layer, an interface layer formed on an interface between the fixed magnetization layer and conductive layer, and a second interface layer formed on an interface between the conductive layer and free magnetization layer.
    • 公开了一种具有高灵敏度和耐腐蚀性的磁阻效应型磁头。 在磁头中,作为用于检测磁记录介质上的磁信号的磁感测装置的自旋阀膜。 自旋阀膜被构造成使得反铁磁层,其磁化方向由层之间的交换耦合磁场固定的固定磁化层,其磁化方向响应于外部磁场而变化的自由磁化层和 层叠用于磁性隔离固定磁化层和自由磁化层的非磁性层。 非磁性层由导电层,形成在固定磁化层和导电层之间的界面上的界面层和形成在导电层和自由磁化层之间的界面上的第二界面层形成。