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    • 2. 发明授权
    • Lighting device
    • 照明设备
    • US08256922B2
    • 2012-09-04
    • US12487627
    • 2009-06-18
    • Takashi Futami
    • Takashi Futami
    • F21V21/00
    • F21V29/004F21S41/143F21S41/147F21S41/29F21S41/336F21S45/47F21S45/60F21V7/0008F21V7/0025F21V13/12F21V29/70F21V29/713F21V29/763F21V29/89F21V29/90F21Y2115/10
    • A lighting device with a stable high light intensity can effectively dissipate heat generated by an LED so that the light emission efficiency does not deteriorate while the inside temperature distribution can be maintained in an even state. The lighting device can also be configured to prevent snow from adhering onto an outer lens by allowing an outer surface temperature of the lighting device to rise during actuation of the device. The lighting device can also be configured to improve light utilization efficiency. The lighting device can include a semiconductor light emitting device as a light source and can include structure(s) that guides the emission light to a projection lens. The semiconductor light emitting device can be configured to emit light in a reverse or opposed direction with respect to an illumination direction for the lighting device. A projection lens can be disposed in front of the semiconductor light emitting device. An elliptic reflector can be configured to reflect light from the semiconductor light emitting device and to direct the light to the projection lens. A lens holder can be made of metal and the semiconductor light emitting device and the projection lens can be disposed on the lens holder.
    • 具有稳定的高光强度的照明装置可以有效地散发由LED产生的热量,使得在内部温度分布能够保持均匀的状态下,发光效率不劣化。 照明装置还可以被配置为通过允许照明装置的外表面温度在装置致动期间升高来防止雪粘附到外部透镜上。 照明装置还可以被配置为提高光利用效率。 照明装置可以包括作为光源的半导体发光器件,并且可以包括将发射光引导到投影透镜的结构。 半导体发光器件可以被配置为相对于照明器件的照明方向以相反或相反的方向发光。 投影透镜可以设置在半导体发光器件的前面。 椭圆反射器可以被配置为反射来自半导体发光器件的光并将光引导到投影透镜。 透镜保持器可以由金属制成,并且半导体发光器件和投影透镜可以设置在透镜保持器上。
    • 3. 发明申请
    • VEHICLE LIGHT
    • 车辆灯
    • US20110122637A1
    • 2011-05-26
    • US12945830
    • 2010-11-12
    • Takashi FUTAMI
    • Takashi FUTAMI
    • F21S8/10
    • F21S41/43F21S41/147F21S41/255F21S41/26F21S41/321F21S41/36F21S41/365F21S45/47F21W2102/00F21Y2115/10
    • A vehicle light can include an LED light source disposed such that the optical axis of the LED light source is directed downward, a first lens disposed forward of the LED light source, a second lens disposed below and forward of the first lens, and a first reflector extending from both sides of the LED light source to a position near the optical axis of the LED light source. The first reflector can be configured to reflect light beams from the LED light source toward the first lens so as to form a wide vertically converged and horizontally diffused light distribution pattern. The vehicle light can include a second reflector disposed at a position below and forward of the first reflector. The second reflector can be configured to reflect light beams from the LED light source toward the second lens so as to form a middle-area vertically converged and horizontally diffused light distribution pattern. The lens can be formed by a toroidal lens that is horizontally elongated and that is formed by horizontally extending an aspherical lens cross section having a focus near the LED light source in an arc shape, or by a cylindrical lens having a horizontal focus line. In particular, the lens can be formed by an upper-half lens portion of such a toroidal lens. The vehicle light can include a light shielding shutter having a first upper edge portion and a second upper edge portion lower than the first upper edge portion.
    • 车辆灯可以包括LED光源,其被设置为使得LED光源的光轴向下指向,设置在LED光源前方的第一透镜,设置在第一透镜的下方和前方的第二透镜,以及第一透镜 反射器从LED光源的两侧延伸到靠近LED光源的光轴的位置。 第一反射器可以被配置为将来自LED光源的光束朝向第一透镜反射,以形成宽的垂直会聚和水平扩散的光分布图案。 车辆灯可以包括设置在第一反射器的下方和前方的位置处的第二反射器。 第二反射器可以被配置为将来自LED光源的光束反射到第二透镜,以形成中间垂直会聚的水平扩散的光分布图案。 透镜可以由水平伸长的环形透镜形成,并且通过水平延伸具有圆弧形状的LED光源附近的焦点的非球面透镜横截面或通过具有水平聚焦线的柱面透镜形成。 特别地,透镜可以由这种环形透镜的上半透镜部分形成。 车辆灯可以包括具有第一上边缘部分和比第一上边缘部分低的第二上边缘部分的遮光遮板。
    • 4. 发明申请
    • LIGHTING DEVICE
    • 照明设备
    • US20090316423A1
    • 2009-12-24
    • US12487627
    • 2009-06-18
    • TAKASHI FUTAMI
    • TAKASHI FUTAMI
    • F21V7/00F21V29/00
    • F21V29/004F21S41/143F21S41/147F21S41/29F21S41/336F21S45/47F21S45/60F21V7/0008F21V7/0025F21V13/12F21V29/70F21V29/713F21V29/763F21V29/89F21V29/90F21Y2115/10
    • A lighting device with a stable high light intensity can effectively dissipate heat generated by an LED so that the light emission efficiency does not deteriorate while the inside temperature distribution can be maintained in an even state. The lighting device can also be configured to prevent snow from adhering onto an outer lens by allowing an outer surface temperature of the lighting device to rise during actuation of the device. The lighting device can also be configured to improve light utilization efficiency. The lighting device can include a semiconductor light emitting device as a light source and can include structure(s) that guides the emission light to a projection lens. The semiconductor light emitting device can be configured to emit light in a reverse or opposed direction with respect to an illumination direction for the lighting device. A projection lens can be disposed in front of the semiconductor light emitting device. An elliptic reflector can be configured to reflect light from the semiconductor light emitting device and to direct the light to the projection lens. A lens holder can be made of metal and the semiconductor light emitting device and the projection lens can be disposed on the lens holder.
    • 具有稳定的高光强度的照明装置可以有效地散发由LED产生的热量,使得在内部温度分布能够保持均匀的状态下,发光效率不劣化。 照明装置还可以被配置为通过允许照明装置的外表面温度在装置的致动期间升高来防止雪粘附到外部透镜上。 照明装置还可以被配置为提高光利用效率。 照明装置可以包括作为光源的半导体发光器件,并且可以包括将发射光引导到投影透镜的结构。 半导体发光器件可以被配置为相对于照明器件的照明方向以相反或相反的方向发光。 投影透镜可以设置在半导体发光器件的前面。 椭圆反射器可以被配置为反射来自半导体发光器件的光并将光引导到投影透镜。 透镜保持器可以由金属制成,并且半导体发光器件和投影透镜可以设置在透镜保持器上。
    • 7. 发明申请
    • Lighting Device
    • 照明装置
    • US20070242463A1
    • 2007-10-18
    • US11736216
    • 2007-04-17
    • Takashi Futami
    • Takashi Futami
    • F21V7/00
    • F21S43/14F21S41/143F21S41/663F21Y2115/10
    • A lighting device can include at least one LED light source having at least one LED chip, the LED light source being configured to impart a certain directivity to light emitted from the LED chip in a direction of the optical axis of the light source. A first reflector can be disposed in front of the LED light source and upwards with respect to the optical axis. The first reflector can also extend forward and above the optical axis in an inclined manner from a first side to a second side so as to reflect part of light emitted from an upper part of the LED light source with respect to the optical axis. A second reflector can be disposed substantially in parallel to, and below, the first reflector. The second reflector can be configured to reflect light from the first reflector. A third reflector can be disposed in front of the LED light source and downward with respect to the optical axis. The third reflector can extend forward and below the optical axis in an inclined manner from the second side to the first side so as to reflect part of light emitted from a lower part of the LED light source with respect to the optical axis. A fourth reflector can be disposed substantially in parallel to, and above, the third reflector. The fourth reflector can also be configured to reflect light from the third reflector.
    • 照明装置可以包括具有至少一个LED芯片的至少一个LED光源,所述LED光源被配置为沿着所述光源的光轴的方向对从所述LED芯片发射的光赋予一定的方向性。 第一反射器可以设置在LED光源的前面并相对于光轴向上。 第一反射器还可以从第一侧向第二侧以倾斜的方式向前和向上延伸,以便相对于光轴反射从LED光源的上部发射的光的一部分。 第二反射器可以基本上平行于第一反射器并且在其下方布置。 第二反射器可以被配置为反射来自第一反射器的光。 第三反射器可以设置在LED光源的前面并相对于光轴向下。 第三反射器可以从第二侧向第一侧以倾斜的方式向前和向下延伸,以便相对于光轴反射从LED光源的下部发射的光的一部分。 第四反射器可以基本上平行于第三反射器并且上方设置。 第四反射器还可以被配置为反射来自第三反射器的光。
    • 8. 发明申请
    • VEHICLE LIGHT
    • 车辆灯
    • US20070070642A1
    • 2007-03-29
    • US11535342
    • 2006-09-26
    • Takashi Futami
    • Takashi Futami
    • F21V7/00
    • F21S41/43F21S41/162F21S41/17F21S41/25F21S41/255F21S41/321F21S41/338F21S41/36F21S41/365F21V7/05F21V7/08
    • A vehicle light with a bulb arranged sideway is provided which can reduce a length of the entire light without a deterioration in its brightness and with a simple configuration. The vehicle light can include a light source arranged sideway on an optical axis extending horizontally in the front-to-rear direction of a vehicle. First and second projection lenses can be arranged in front of the light source above and below the optical axis. First and second reflecting surfaces can be provided for reflecting light emitted from the light source to the respective first and second projection lenses. A third reflecting surface can be provided for reflecting light emitted upward from the light source toward the area below the light source. A plane mirror can also be provided and configured to direct light reflected from the third reflecting surface toward the rear focus of the second projection lens.
    • 提供了一种具有侧壁布置的灯泡的车辆灯,其可以减少整个光的长度而不会使其亮度劣化并且具有简单的配置。 车辆灯可以包括在车辆的前后方向上水平延伸的光轴上侧向设置的光源。 第一投影透镜和第二投影透镜可以布置在光轴的前方和下方的光轴的前方。 可以提供第一和第二反射表面以将从光源发射的光反射到相应的第一和第二投影透镜。 可以提供第三反射表面,用于将从光源向上发射的光反射到光源下方的区域。 平面镜也可以被设置成将从第三反射面反射的光引导到第二投影透镜的后焦点。
    • 9. 发明授权
    • Multi-ocular light
    • 多眼睛光
    • US06578997B2
    • 2003-06-17
    • US09759976
    • 2001-01-12
    • Takashi Futami
    • Takashi Futami
    • F21V500
    • B60Q1/0041F21S41/28F21S41/334F21S41/692F21W2102/00F21W2103/20
    • A multi-ocular light composed by using a multi-ocular lens integrating a plurality of lenses and comprising one illumination light source for said multi-ocular lens, and a reflector mirror for distributing light from this single illumination light source to said respective lenses, wherein a signal light source is provided at the back of said multi-ocular lens to correspond to at least one lens of this multi-ocular lens, in order to assure the illumination function when said illumination light source is turned on, and the signal function when said signal light source is turned on.
    • 通过使用集成多个透镜并且包括用于所述多眼镜头的一个照明光源的多眼镜头以及用于将来自该单个照明光源的光分配到所述各个镜片的反射镜构成的多眼睛光,其中 信号光源设置在所述多眼镜头的背面以对应于该多眼镜头的至少一个透镜,以便确保当所述照明光源被接通时的照明功能,并且该信号功能当 所述信号光源被接通。
    • 10. 发明授权
    • Multi-lens projector lamp
    • 多镜头投影灯
    • US06367954B1
    • 2002-04-09
    • US09661067
    • 2000-09-13
    • Takashi Futami
    • Takashi Futami
    • F21V700
    • F21S41/43F21S41/255F21S41/265F21S41/32F21S41/321F21S41/334F21S41/36F21S41/365F21V5/045F21V7/08
    • In conventional projector lamp configurations, the shade which is provided for adjusting the luminous intensity distribution property reduces the efficiency of use of light beams and also reduces the area through which light is emitted, resulting in a poor visibility for cars coming from the opposite direction. The present invention provides a multi-lens projector lamp, comprising: a single light source 2; five or more aspheric lenses 4 arranged in an array whose optical axes are oriented in the same direction; a reflector 3 provided in a rear peripheral region of each aspheric lens 4 along the optical axis thereof for generating reflected light to be incident upon the aspheric lens 4, the reflector 3 comprising single reflection sections respectively corresponding to center aspheric lenses 4 in combination with double reflection sections respectively corresponding to one or more aspheric lens located on either side of the center aspheric lenses 4, wherein appropriate positions on the reflector 3 are selected corresponding to the respective positions of the aspheric lenses 4. Thus, the present invention enables one to reduce the front-to-back dimension of the lamp and to improve the efficiency thereof, thereby solving the problems.
    • 在传统的投影灯配置中,用于调节发光强度分布特性的色调降低了光束的使用效率,并且还减少了发光的面积,导致来自相反方向的汽车的可见性差。 本发明提供一种多透镜投影灯,包括:单个光源2; 布置在阵列中的五个或更多个非球面透镜4,其光轴沿相同方向定向; 每个非球面透镜4的沿着其光轴的后周边区域设置的反射器3,用于产生入射在非球面透镜4上的反射光,反射器3包括分别对应于中心非球面透镜4的双反射部分 分别对应于位于中心非球面透镜4的任一侧上的一个或多个非球面透镜的反射部分,其中根据非球面透镜4的相应位置选择反射体3上的适当位置。因此,本发明能够减少 灯的前后尺寸并提高其效率,从而解决了问题。