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    • 2. 发明授权
    • Multi-layered surface reflecting mirror
    • 多层表面反射镜
    • US5007710A
    • 1991-04-16
    • US425119
    • 1989-10-23
    • Yuji NakajimaMasashi Mochizuki
    • Yuji NakajimaMasashi Mochizuki
    • G02B5/08
    • G02B5/0833G02B5/0858
    • A multi-layered surface reflecting mirror comprises a substrate, a metal or semiconductor film formed on one side of the substrate and a dielectric multi-layered film formed on the metal or semiconductor film. The dielectric multi-layered film consisting of a low refractive index material layer having an optical thickness of 0.05.lambda.o (.lambda.o/20)-0.4.lambda.o (2/5.lambda.o) (.lambda.o is the wavelength of a light used as the reference measurement for design purposes) and a high refractive index material layer having an optical thickness of .lambda.o/2. The low refractive index material layer existing closer to the metal or semiconductor film relative to the high refractive index material layer, and the high refractive index material layer existing closer to the atmosphere relative to the low refractive index material layer. The multi-layered surface reflecting mirror is used mainly as a rearview mirror for automobiles, a mirror with a convex surface that warns drivers against hazards on the road, an ornamental mirror, etc.
    • 多层表面反射镜包括形成在基板的一侧上的基板,金属或半导体膜以及形成在金属或半导体膜上的电介质多层膜。 由光学厚度为0.05λo(λo / 20)-0.4λo(2 /5λo)(λo)的低折射率材料层组成的介电多层膜是用作 用于设计目的的参考测量)和具有λo / 2的光学厚度的高折射率材料层。 存在于相对于高折射率材料层更靠近金属或半导体膜的低折射率材料层和相对于低折射率材料层更靠近大气的高折射率材料层。 多层表面反射镜主要用作汽车后视镜,具有凸起表面的镜子,用于警告驾驶员不要在道路上受到危害,装饰镜等。
    • 3. 发明申请
    • NON-CONTACT POWER FEEDING APPARATUS
    • 非接触式送料装置
    • US20120153741A1
    • 2012-06-21
    • US13206672
    • 2011-08-10
    • Kitao YamamotoTakeshi SatoKeisuke AbeMasashi MochizukiYasuyuki Okiyoneda
    • Kitao YamamotoTakeshi SatoKeisuke AbeMasashi MochizukiYasuyuki Okiyoneda
    • H01F38/14
    • H02J50/10H02J5/005H02J7/025H02J50/70
    • In a non-contact power feeding apparatus of the present invention, power is fed through an air gap from a power transmission coil of a power feeding side circuit to a power receiving coil of a power receiving side circuit, which are closely located to face each other, based on a mutual induction effect of electromagnetic induction. The power transmission coil and the power receiving coil are respectively composed of a planar assembly of a number of unit coils. Each unit coil is formed in a spirally wound flat structure, wherein the direction of an electric current is set in reverse to make the north and south magnetic poles reverse between each unit coil which is juxtaposed to another to directly come into line. As a result, the unit coils, which are juxtaposed to another to directly come into line, are provided in such a manner that an overlapping area of a respectively formed magnetic field cancels another out to be offset
    • 在本发明的非接触供电装置中,通过供电侧电路的输电线圈的空气间隙将电力供给到受电侧电路的受电线圈,所述电力接收侧电路紧贴在每个 其他,基于电磁感应的互感效应。 电力传输线圈和受电线圈分别由多个单元线圈的平面组件组成。 每个单元线圈形成为螺旋卷绕的扁平结构,其中电流方向相反地设置,使得在与另一个并联的每个单元线圈之间的北极和南极磁极反转直接进入线。 结果,与另一个直接并列的单位线圈以这样的方式设置,使得分别形成的磁场的重叠区域抵消另一个偏移以偏移
    • 9. 发明授权
    • Mobile type non-contact power feeding device
    • 移动式非接触式馈电装置
    • US08528710B2
    • 2013-09-10
    • US13081202
    • 2011-04-06
    • Kitao YamamotoTakeshi SatoKeisuke AbeMasashi MochizukiYasuyuki Okiyoneda
    • Kitao YamamotoTakeshi SatoKeisuke AbeMasashi MochizukiYasuyuki Okiyoneda
    • B60L9/00B60M1/00
    • H02J50/12H02J5/005H02J7/025H02J50/50H02J50/70
    • A non-contact power feeding device feeds power from a power transmission coil to a power receiving coil based on a mutual induction effect of electromagnetic induction. In such a non-contact power feeding device, power can be fed to the power receiving coil by a mobile power feeding method whereby the power receiving coil is moved corresponding to the stationary power transmission coil through an air gap in the case of power feeding. The power transmission coil and the power receiving coil are respectively formed in a loop-shaped flat structure. A crossover coil is adopted to serve as the power transmission coil. The crossover coil is formed in a long loop shape along the direction of movement of the power receiving side and is crossed along the way to provide a plurality of units. It is however to be noted that a resonant repeating coil can be used together with the power transmission coil to adopt the crossover coil as its repeating coil.
    • 基于电磁感应的相互感应效应,非接触供电装置将功率传递线圈供给到受电线圈。 在这种非接触供电装置中,能够通过移动供电方式将电力供给到受电线圈,由此在供电的情况下,电力接收线圈通过气隙相应于固定电力传输线圈移动。 动力传递线圈和受电线圈分别形成为环形平面结构。 采用交叉线圈作为输电线圈。 交叉线圈沿着电力接收侧的移动方向形成为长环形,并且沿着交叉方向交叉以提供多个单元。 然而,应注意,谐振重复线圈可以与输电线圈一起使用,以采用交叉线圈作为其重复线圈。
    • 10. 发明授权
    • High frequency electric wire
    • 高频电线
    • US08299654B2
    • 2012-10-30
    • US12792323
    • 2010-06-02
    • Kitao YamamotoTakeshi SatoKeisuke AbeMasashi MochizukiYasuyuki Okiyoneda
    • Kitao YamamotoTakeshi SatoKeisuke AbeMasashi MochizukiYasuyuki Okiyoneda
    • H01B7/30
    • H01B7/30B60L11/182H01B9/006H02J5/005H02J7/025H02J50/12Y02T10/7005Y02T10/7072Y02T90/122Y02T90/14
    • A high frequency electric wire is provided in such a manner that a large number of wires are bundled, twisted and insulated with an outer sheath S. Each wire has an extra-fine hollow pipe structure of a capillary shape. The wire is provided to make its hollow section with the extra-fine hollow pipe structure an air cavity or to cause its hollow section to house an insulating material. In the latter case, the wire is provided by causing a metal conductor to adhere to the outer periphery of an extra-fine insulating yarn, which serves as the insulating material, by plating or vapor-deposition. The electric wire is used as a circuit cable or a coil in a non-contact power feeding device which supplies power based on a mutual induction action of the electromagnetic induction. In this manner, the electric wire fulfills its function to suppress and reduce an increase of the alternating current resistance due to a high frequency alternating current.
    • 提供高频电线,使得大量电线与外护套S捆绑,扭曲和绝缘。每根线具有毛细管形状的超细中空管结构。 电线被设置成使其中空部分具有超细中空管结构的空气腔或使其中空部分容纳绝缘材料。 在后一种情况下,通过使金属导体通过电镀或气相沉积附着在作为绝缘材料的绝缘细线的外周上来提供导线。 电线用作基于电磁感应的相互感应动作供给电力的非接触供电装置中的电路电缆或线圈。 以这种方式,电线实现了抑制和减少由于高频交流电导致的交流电阻的增加的功能。