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    • 1. 发明授权
    • Relative angle detection device, rotation angle detection device, relative angle detection method, and rotation angle detection method
    • 相对角度检测装置,旋转角度检测装置,相对角度检测方法和旋转角度检测方法
    • US08810237B2
    • 2014-08-19
    • US13512555
    • 2010-06-30
    • Hiroyuki MutoKiyokazu OkadoTsukasa Suzuki
    • Hiroyuki MutoKiyokazu OkadoTsukasa Suzuki
    • G01B7/14
    • G01D5/04G01D5/145
    • Disclosed is a relative angle detection device for detecting a relative angle between a first rotary shaft and a second rotary shaft, the relative angle detection device being provided with a first magnetic field sensing unit which outputs a value according to a magnetic field of a magnet, a second magnetic field sensing unit which outputs a value according to the magnetic field of the magnet and outputs a value different from the output value of the first magnetic field sensing unit even if being placed in the same magnetic field as that of the first magnetic field sensing unit, a correction unit which corrects one output value out of the output value of the first magnetic field sensing unit and the output value of the second magnetic field sensing unit in accordance with an amplitude ratio between magnetic field components orthogonal to each other in the magnetic field of the magnet, and a computing unit which computes the relative angle between the first rotary shaft and the second rotary shaft on the basis of the one output value corrected by the correction unit and the other output value different from the one output value. Consequently, a technique capable of detecting the relative rotation angle with high accuracy is provided even if magnitudes of amplitudes of magnetic field components orthogonal to each other in the magnetically sensitive surface of the magnetic field sensing unit are different from each other.
    • 公开了一种相对角度检测装置,用于检测第一旋转轴和第二旋转轴之间的相对角度,该相对角度检测装置设置有第一磁场感测单元,其输出根据磁体的磁场的值, 第二磁场感测单元,其输出与磁体的磁场相对应的值,即使与第一磁场的磁场相同,也输出与第一磁场检测单元的输出值不同的值 检测单元,校正单元,其根据第一磁场感测单元的输出值中的一个输出值和第二磁场感测单元的输出值,根据在第二磁场感测单元中彼此正交的磁场分量之间的振幅比 磁体的磁场以及计算第一旋转轴与第二旋转轴之间的相对角度的计算单元 基于由校正单元校正的一个输出值和与一个输出值不同的另一个输出值的旋转轴。 因此,即使在磁场感测单元的磁敏感表面中彼此正交的磁场分量的幅度的大小彼此不同,也能够提供能够高精度地检测相对旋转角度的技术。
    • 4. 发明授权
    • Method for forming ceramic films by anode-spark discharge
    • 通过阳极喷射形成陶瓷膜的方法
    • US5147515A
    • 1992-09-15
    • US573703
    • 1990-08-28
    • Haruo HanagataTsukasa SuzukiKazuo YanagidaHidesato Igarashi
    • Haruo HanagataTsukasa SuzukiKazuo YanagidaHidesato Igarashi
    • C25D9/06
    • C25D13/02
    • A method for forming a ceramics film on the surface of a substrate comprises performing spark discharge in an electrolytic bath, wherein the electrolytic bath comprises an aqueous solution of a water-soluble or colloidal silicate and/or an oxyacid salt to which ceramics fine particles and/or specific fine particles are dispersed and the spark discharge is carried out in the electrolytic bath while ensuring the suspended state of the ceramics particles and/or the specific fine particles in the electrolytic bath. The method makes it possible to effectively form, on the surface of a metal substrate, ceramics films having a variety of color tones as well as excellent insulating properties and hardness. Moreover, it further makes it possible to effectively form a composite ceramics film having excellent wear resistance on the surface of a metal substrate.
    • 在基板表面上形成陶瓷膜的方法包括在电解槽中进行火花放电,其中所述电解槽包括水溶性或胶态硅酸盐和/或含氧酸盐的水溶液,陶瓷细颗粒和 /或特定的细颗粒分散,并且在电解浴中进行火花放电,同时确保电解浴中的陶瓷颗粒和/或特定细颗粒的悬浮状态。 该方法可以在金属基材的表面上有效地形成具有各种色调的陶瓷膜以及优异的绝缘性能和硬度。 此外,还可以有效地形成在金属基板的表面上具有优异的耐磨性的复合陶瓷膜。
    • 6. 发明申请
    • RELATIVE ANGLE DETECTION DEVICE, ROTATION ANGLE DETECTION DEVICE, RELATIVE ANGLE DETECTION METHOD, AND ROTATION ANGLE DETECTION METHOD
    • 相对角度检测装置,旋转角度检测装置,相对角度检测方法和旋转角度检测方法
    • US20120256619A1
    • 2012-10-11
    • US13512555
    • 2010-06-30
    • Hiroyuki MutoKiyokazu OkadoTsukasa Suzuki
    • Hiroyuki MutoKiyokazu OkadoTsukasa Suzuki
    • G01B7/30
    • G01D5/04G01D5/145
    • Disclosed is a relative angle detection device for detecting a relative angle between a first rotary shaft and a second rotary shaft, the relative angle detection device being provided with a first magnetic field sensing unit which outputs a value according to a magnetic field of a magnet, a second magnetic field sensing unit which outputs a value according to the magnetic field of the magnet and outputs a value different from the output value of the first magnetic field sensing unit even if being placed in the same magnetic field as that of the first magnetic field sensing unit, a correction unit which corrects one output value out of the output value of the first magnetic field sensing unit and the output value of the second magnetic field sensing unit in accordance with an amplitude ratio between magnetic field components orthogonal to each other in the magnetic field of the magnet, and a computing unit which computes the relative angle between the first rotary shaft and the second rotary shaft on the basis of the one output value corrected by the correction unit and the other output value different from the one output value. Consequently, a technique capable of detecting the relative rotation angle with high accuracy is provided even if magnitudes of amplitudes of magnetic field components orthogonal to each other in the magnetically sensitive surface of the magnetic field sensing unit are different from each other.
    • 公开了一种相对角度检测装置,用于检测第一旋转轴和第二旋转轴之间的相对角度,该相对角度检测装置设置有第一磁场感测单元,其输出根据磁体的磁场的值, 第二磁场感测单元,其输出与磁体的磁场相对应的值,即使与第一磁场的磁场相同,也输出与第一磁场检测单元的输出值不同的值 检测单元,校正单元,其根据第一磁场感测单元的输出值中的一个输出值和第二磁场感测单元的输出值,根据在第二磁场感测单元中彼此正交的磁场分量之间的振幅比 磁体的磁场以及计算第一旋转轴与第二旋转轴之间的相对角度的计算单元 基于由校正单元校正的一个输出值和与一个输出值不同的另一个输出值的旋转轴。 因此,即使在磁场感测单元的磁敏感表面中彼此正交的磁场分量的幅度的大小彼此不同,也能够提供能够高精度地检测相对旋转角度的技术。
    • 10. 发明授权
    • Non-neutralizing anti-aPC antibodies
    • 非中和抗APC抗体
    • US07517965B2
    • 2009-04-14
    • US10522086
    • 2003-07-17
    • Takaki KogaTsukasa SuzukiHiroyuki Saito
    • Takaki KogaTsukasa SuzukiHiroyuki Saito
    • C07K16/00
    • C07K16/40A61K2039/505C07K2317/565C07K2317/76
    • The present invention provides anti-aPC antibodies that suppress the inactivation of activated protein C (aPC), and uses thereof. The present inventors screened anti-aPC antibodies, and succeeded in isolating anti-aPC antibodies comprising the activity of suppressing aPC inactivation in blood. The antibodies of the present invention can be used to maintain aPC activity by suppressing aPC inactivation, and can thus be used to sustain aPC bioactivities, such as the activity of suppressing activation of the blood coagulation system, and anti-inflammatory activity. In addition, the present invention provides uses of the antibodies of the present invention in aPC therapy for diseases such as thrombosis and sepsis. The therapeutic effect of aPC can be prolonged in treatment that uses aPC administration by allowing an antibody of the present invention to bind with aPC. The antibodies of the present invention can be used in the treatment and prevention of diseases such as thrombosis and sepsis.
    • 本发明提供抑制活化蛋白C(aPC)失活的抗-APC抗体及其用途。 本发明人筛选了抗-APC抗体,并成功地分离了包含抑制血液中的aPC失活活性的抗-APC抗体。 本发明的抗体可用于通过抑制aPC灭活来维持PCPC活性,因此可用于维持aPC生物活性,例如抑制血液凝固系统活化的活性和抗炎活性。 此外,本发明提供本发明的抗体在aPC治疗中用于血栓形成和败血症等疾病的用途。 通过使本发明的抗体与aPC结合,可以延长使用aPC施用的治疗中aPC的治疗效果。 本发明的抗体可用于治疗和预防诸如血栓形成和败血症等疾病。