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    • 2. 发明申请
    • DRIVE DEVICE, AND MOVEMENT MECHANISM USING DRIVE DEVICE
    • 驱动装置和使用驱动装置的运动机构
    • US20130009492A1
    • 2013-01-10
    • US13577524
    • 2011-02-16
    • Shigeki FujiwaraYouhei IshigamiYoshio MitsutakeSatoshi Suzuki
    • Shigeki FujiwaraYouhei IshigamiYoshio MitsutakeSatoshi Suzuki
    • H02K41/02
    • H02K33/16H02K33/12
    • A drive device includes two integrated electromagnetic coils separated on an axis, an elastic body, and two movable electric conductors. An object-to-be-moved is moved to left with an operation of a left group which includes one electromagnetic coil and one conductor. A first conductor is repulsively moved to right by a repulsion force caused by an eddy current generated on the first conductor with an electrical current-supply to a first electromagnetic coil and then, the elastic body is compressed by the first conductor and subsequently pushes back the first conductor. At this time, the electrical current-supply to the first electromagnetic coil is turned off, and the first conductor collides with the first electromagnetic coil, and this collision generates a leftward impact. The left and right groups enable a left-right reciprocating movement.
    • 驱动装置包括在轴上分离的两个集成电磁线圈,弹性体和两个可移动导电体。 用左电子线的操作将待移动的物体移动到左侧,其中包括一个电磁线圈和一个导体。 第一导体通过由在第一导体上产生的涡流引起的排斥力向第一导体排斥,向第一电磁线圈提供电流供应,然后弹性体被第一导体压缩并随后推回 第一指挥 此时,关闭第一电磁线圈的电流供应,并且第一导体与第一电磁线圈碰撞,并且该碰撞产生向左的冲击。 左右组可进行左右往复运动。
    • 3. 发明申请
    • ORGANIC EL DEVICE
    • 有机EL设备
    • US20110024779A1
    • 2011-02-03
    • US12673806
    • 2008-08-25
    • Masahiro NakamuraTakeyuki YamakiYoshio MitsutakeMasahito YamanaNobuhiro IdeNorihiro ItoHiroya Tsuji
    • Masahiro NakamuraTakeyuki YamakiYoshio MitsutakeMasahito YamanaNobuhiro IdeNorihiro ItoHiroya Tsuji
    • H01L51/50
    • H01L51/5268B82Y20/00B82Y30/00H01L2251/5369
    • An organic EL device in the present invention comprises a light-transmissive substrate 1, an organic light emitting layer 2, a light-transmissive electrode 3 disposed between the light-transmissive substrate 1 and the organic light emitting layer 2, and a light guiding layer 4 which is disposed between the substrate 1 and the light-transmissive electrode 3. The light guiding layer 4 is configured to alter light direction. The organic EL device is configured to emit light from the organic light emitting layer 2, and allow the light to propagate out through said light guiding layer 4, the light-transmissive electrode 3, and the light-transmissive substrate 1. The light guiding layer 4 includes a light dispersion layer 5. The light dispersion layer 5 is formed with a light dispersion region 8 and a light-transmissive region 9, which are arranged in a coplanar relation within said light dispersion layer 5. The light dispersion region 8 contains light dispersion particles 6 and a binder resin 7. The light-transmissive region 9 contains the light dispersion particles 6 at a lower ratio than the light dispersion region 8. The organic EL device in the present invention enables to improve an overall light output by suppressing the reduction of light output in the front direction as well as increasing light output in diagonal directions.
    • 本发明的有机EL元件包括透光性基板1,有机发光层2,配置在透光性基板1和有机发光层2之间的透光性电极3和导光层 4,其设置在基板1和透光电极3之间。导光层4被配置为改变光线方向。 有机EL器件被配置为从有机发光层2发光,并且允许光通过所述导光层4,透光电极3和透光基板1传播出去。导光层 4包括光分散层5.光分散层5形成有在所述光分散层5内以共面关系排列的光分散区域8和透光区域9.光分散区域8包含光 分散粒子6和粘合剂树脂7.透光区域9含有比分散区域8低的比例的光分散粒子6.本发明的有机EL元件能够通过抑制 在正向上减少光输出以及增加对角线方向的光输出。
    • 4. 发明授权
    • Position sensor with a shield member for improving linearity of impedance of the detection coil
    • 带有屏蔽构件的位置传感器,用于提高检测线圈的阻抗线性
    • US07598734B2
    • 2009-10-06
    • US11574610
    • 2006-05-12
    • Masahisa NiwaYukiko InookaYoshio MitsutakeTomohiro Ota
    • Masahisa NiwaYukiko InookaYoshio MitsutakeTomohiro Ota
    • G01B7/14
    • G01D3/02G01D5/2013
    • A position sensor with excellent linearity of coil impedance is provided. This position sensor is equipped with a tubular detection coil, a magnetic core movable in the detection coil, a drive circuit for the detection coil, a signal processing circuit for converting a change in impedance of the detection coil into an electric signal, and a shield member disposed around the detection coil. The shield member is a tubular member having a first inner surface for surrounding an axial region of the detection coil, and a second inner surface for surrounding another axial region of the detection coil. The tubular member is formed such that a distance between the second inner surface and the detection coil is smaller than the distance between the first inner surface and the detection coil.
    • 提供了线圈阻抗线性良好的位置传感器。 该位置传感器配备有管状检测线圈,可在检测线圈中移动的磁芯,用于检测线圈的驱动电路,将检测线圈的阻抗变化转换为电信号的信号处理电路,以及屏蔽 构件设置在检测线圈周围。 屏蔽构件是具有用于包围检测线圈的轴向区域的第一内表面和用于围绕检测线圈的另一轴向区域的第二内表面的管状构件。 管状构件形成为使得第二内表面和检测线圈之间的距离小于第一内表面和检测线圈之间的距离。
    • 6. 发明申请
    • ORGANIC ELECTROLUMINESCENCE DEVICE
    • 有机电致发光器件
    • US20110121267A1
    • 2011-05-26
    • US12675101
    • 2008-08-28
    • Nobuhiro IdeMasahito YamanaHiroya TsujiNorihiro ItoYoshio MitsutakeMasahiro NakamuraTakeyuki Yamaki
    • Nobuhiro IdeMasahito YamanaHiroya TsujiNorihiro ItoYoshio MitsutakeMasahiro NakamuraTakeyuki Yamaki
    • H01L51/44
    • H01L51/5265H01L51/0052H01L51/0059H01L51/0067H01L51/007H01L51/0073H01L51/0079H01L2251/558
    • An organic electroluminescence device comprises a light transmissive substrate, a light scattering region which is disposed on the light transmissive substrate, and a light emissive layer having a luminescent point. The luminescent point is spaced from the light reflective electrode by a distance of d which satisfies the following equation: nd = a × λ 4  ( 2 + φ π ) wherein φ = tan - 1  { 2  ( n 1  k 2 - n 2  k 1 ) n 1 2 - n 2 2 + k 1 2 - k 2 2 } . λ is a wavelength of a specific light emitted from said light emissive layer. n is a refractive index of a layer disposed between the luminescent point of the light emissive layer and the light reflective electrode, with respect to the wavelength of λ. n1 and k1 are respectively a refractive index and an attenuation coefficient of the layer disposed between the luminescent point of the light emissive layer and the light reflective electrode, and is in contact with said light reflective electrode, with respect to the wavelength of λ. n2 and k2 are respectively a refractive index and an attenuation coefficient of the light reflective electrode, with respect to the wavelength of λ. a is a value that satisfies a relation of “1.28
    • 有机电致发光器件包括透光衬底,设置在透光衬底上的光散射区域和具有发光点的发光层。 发光点与光反射电极隔开距离d,满足以下等式:nd = a×λ4(2 +&phgr;&pgr;)其中&phgr; = tan -1(2 1(n 1 k 2 - n 2 k 1)n 1 2 - n 2 2 + k 1 2 - k 2 2}。 λ是从所述发光层发射的特定光的波长。 n是相对于λ的波长设置在发光层的发光点和光反射电极之间的层的折射率。 n1和k1分别是设置在发光层的发光点和光反射电极之间并相对于λ的波长与所述光反射电极接触的层的折射率和衰减系数。 n2和k2分别是相对于λ的波长的光反射电极的折射率和衰减系数。 a是满足“1.28
    • 7. 发明申请
    • Position Sensor
    • 位置传感器
    • US20080315868A1
    • 2008-12-25
    • US11574610
    • 2006-05-12
    • Masahisa NiwaYukiko InookaYoshio MitsutakeTomohiro Ota
    • Masahisa NiwaYukiko InookaYoshio MitsutakeTomohiro Ota
    • G01B7/004
    • G01D3/02G01D5/2013
    • A position sensor with excellent linearity of coil impedance is provided. This position sensor is equipped with a tubular detection coil, a magnetic core movable in the detection coil, a drive circuit for the detection coil, a signal processing circuit for converting a change in impedance of the detection coil into an electric signal, and a shield member disposed around the detection coil. The shield member is a tubular member having a first inner surface for surrounding an axial region of the detection coil, and a second inner surface for surrounding another axial region of the detection coil. The tubular member is formed such that a distance between the second inner surface and the detection coil is smaller than the distance between the first inner surface and the detection coil.
    • 提供了线圈阻抗线性良好的位置传感器。 该位置传感器配备有管状检测线圈,可在检测线圈中移动的磁芯,用于检测线圈的驱动电路,将检测线圈的阻抗变化转换为电信号的信号处理电路,以及屏蔽 构件设置在检测线圈周围。 屏蔽构件是具有用于包围检测线圈的轴向区域的第一内表面和用于围绕检测线圈的另一轴向区域的第二内表面的管状构件。 管状构件形成为使得第二内表面和检测线圈之间的距离小于第一内表面和检测线圈之间的距离。
    • 8. 发明授权
    • Organic EL device
    • 有机EL器件
    • US08530916B2
    • 2013-09-10
    • US12673806
    • 2008-08-25
    • Masahiro NakamuraTakeyuki YamakiYoshio MitsutakeMasahito YamanaNobuhiro IdeNorihiro ItoHiroya Tsuji
    • Masahiro NakamuraTakeyuki YamakiYoshio MitsutakeMasahito YamanaNobuhiro IdeNorihiro ItoHiroya Tsuji
    • H01L33/00
    • H01L51/5268B82Y20/00B82Y30/00H01L2251/5369
    • An organic EL device in the present invention comprises a light-transmissive substrate 1, an organic light emitting layer 2, a light-transmissive electrode 3 disposed between the light-transmissive substrate 1 and the organic light emitting layer 2, and a light guiding layer 4 which is disposed between the substrate 1 and the light-transmissive electrode 3. The light guiding layer 4 is configured to alter light direction. The organic EL device is configured to emit light from the organic light emitting layer 2, and allow the light to propagate out through said light guiding layer 4, the light-transmissive electrode 3, and the light-transmissive substrate 1. The light guiding layer 4 includes a light dispersion layer 5. The light dispersion layer 5 is formed with a light dispersion region 8 and a light-transmissive region 9, which are arranged in a coplanar relation within said light dispersion layer 5. The light dispersion region 8 contains light dispersion particles 6 and a binder resin 7. The light-transmissive region 9 contains the light dispersion particles 6 at a lower ratio than the light dispersion region 8. The organic EL device in the present invention enables to improve an overall light output by suppressing the reduction of light output in the front direction as well as increasing light output in diagonal directions.
    • 本发明的有机EL元件包括透光性基板1,有机发光层2,配置在透光性基板1和有机发光层2之间的透光性电极3和导光层 4,其设置在基板1和透光电极3之间。导光层4被配置为改变光线方向。 有机EL器件被配置为从有机发光层2发光,并且允许光通过所述导光层4,透光电极3和透光基板1传播出去。导光层 4包括光分散层5.光分散层5形成有在所述光分散层5内以共面关系排列的光分散区域8和透光区域9.光分散区域8包含光 分散粒子6和粘合剂树脂7.透光区域9含有比分散区域8低的比例的光分散粒子6.本发明的有机EL元件能够通过抑制 在正向上减少光输出以及增加对角线方向的光输出。
    • 9. 发明授权
    • Organic electroluminescence device
    • 有机电致发光器件
    • US08357930B2
    • 2013-01-22
    • US12675101
    • 2008-08-28
    • Nobuhiro IdeMasahito YamanaHiroya TsujiNorihiro ItoYoshio MitsutakeMasahiro NakamuraTakeyuki Yamaki
    • Nobuhiro IdeMasahito YamanaHiroya TsujiNorihiro ItoYoshio MitsutakeMasahiro NakamuraTakeyuki Yamaki
    • H01L35/24
    • H01L51/5265H01L51/0052H01L51/0059H01L51/0067H01L51/007H01L51/0073H01L51/0079H01L2251/558
    • An organic electroluminescence device comprises a light transmissive substrate, a light scattering region which is disposed on the light transmissive substrate, and a light emissive layer having a luminescent point. The luminescent point is spaced from the light reflective electrode by a distance of d which satisfies the following equation: nd = a × λ 4 ⁢ ( 2 + ϕ π ) wherein ϕ = tan - 1 ⁢ { 2 ⁢ ( n 1 ⁢ k 2 - n 2 ⁢ k 1 ) n 1 2 - n 2 2 + k 1 2 - k 2 2 } . λ is a wavelength of a specific light emitted from said light emissive layer. n is a refractive index of a layer disposed between the luminescent point of the light emissive layer and the light reflective electrode, with respect to the wavelength of λ. n1 and k1 are respectively a refractive index and an attenuation coefficient of the layer disposed between the luminescent point of the light emissive layer and the light reflective electrode, and is in contact with said light reflective electrode, with respect to the wavelength of λ. n2 and k2 are respectively a refractive index and an attenuation coefficient of the light reflective electrode, with respect to the wavelength of λ. a is a value that satisfies a relation of “1.28
    • 有机电致发光器件包括透光衬底,设置在透光衬底上的光散射区域和具有发光点的发光层。 发光点与光反射电极隔开距离d,满足下列等式:nd = a×λ4(2 +&phis;&pgr;)其中&phis; = tan - 1 {2(n 1 k 2 - n 2 k 1)n 1 2 - n 2 2 + k 1 2 - k 2 2}。 λ是从所述发光层发射的特定光的波长。 n是相对于λ的波长设置在发光层的发光点和光反射电极之间的层的折射率。 n1和k1分别是设置在发光层的发光点和光反射电极之间并相对于λ的波长与所述光反射电极接触的层的折射率和衰减系数。 n2和k2分别是相对于λ的波长的光反射电极的折射率和衰减系数。 a是满足1.28
    • 10. 发明授权
    • Actuator
    • 执行器
    • US07218018B2
    • 2007-05-15
    • US10518547
    • 2003-11-25
    • Yuya HasegawaKatsuhiro HirataYoshio MitsutakeTomohiro OtaRyo MotohashiTomohiro KunitaHiroaki ShimizuHidekazu YabuuchiTakahiro Nishinaka
    • Yuya HasegawaKatsuhiro HirataYoshio MitsutakeTomohiro OtaRyo MotohashiTomohiro KunitaHiroaki ShimizuHidekazu YabuuchiTakahiro Nishinaka
    • H02K33/00
    • H02K33/16H02K2201/18
    • An actuator includes a casing, a stationary member having a coil member and mounted in the casing and a movable member having a moving element and supported by the casing. The moving element has a shaft and is supported by the casing so as to be moved in an axial direction of the shaft and in a rotational direction having the axial direction of the shaft as its rotational axis and the moving element is moved in the axial direction and in the rotational direction by causing electric current to flow through the coil member. The stationary member includes a first stationary member for imparting to the movable member a force oriented in the axial direction and a second stationary member for imparting to the movable member a force oriented in the rotational direction, while the coil member includes a first coil member for exciting a first magnetic path passing through the first stationary member and a second coil member for exciting a second magnetic path passing through the second stationary member.
    • 致动器包括壳体,具有线圈构件并安装在壳体中的固定构件和具有移动元件并由壳体支撑的可动构件。 所述移动体具有轴,并且由所述壳体支撑成沿着所述轴的轴向移动,并且沿着所述轴的轴向作为其旋转轴线并且所述移动元件沿轴向移动的旋转方向 并且通过使电流流过线圈构件而沿旋转方向。 固定构件包括用于向可动构件施加沿轴向取向的力的第一固定构件和用于向可动构件施加沿着旋转方向定向的力的第二静止构件,而线圈构件包括用于 激励穿过第一固定构件的第一磁路和用于激励穿过第二静止构件的第二磁路的第二线圈构件。