会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 3. 发明授权
    • Luminaire
    • 灯具
    • US06655819B2
    • 2003-12-02
    • US10214108
    • 2002-08-08
    • Simona LogaGeorg Kempter
    • Simona LogaGeorg Kempter
    • F21V500
    • F21V15/01F21S8/02F21S8/026F21S8/04F21S8/06F21V3/04F21V7/0016F21V7/22F21V9/08F21V9/40F21V13/02F21V13/12F21W2131/402F21Y2113/00F21Y2113/20F21Y2115/10
    • A luminaire having a tube-shaped gas discharge lamp (1) contains at least one concavely curved reflector (2) arranged—seen from the region to be illuminated—neighboring the lamp (1), and at least one partially light permeable diffusor (3) arranged—likewise seen from the region to be illuminated—neighboring the lamp (1) but before the reflector (2). The diffusor (3) and the reflector (2) bound next to the lamp (1) at least one light entry surface and run together at their ends away from the lamp (1) such that they enclose at least one light chamber (4), the ratio between the width (a) of a light chamber and the height (b) of a light entry surface being at least 4:1. Further, there may be provided means for the attainment for a uniform light density over the width of the reflector.
    • 具有管状气体放电灯(1)的灯具包含至少一个从要照明的区域 - 邻近灯(1)排列的凹入弯曲反射器(2),以及至少一个部分透光扩散器(3) ),同样从被照明的区域看,邻近灯(1)但在反射器(2)之前。 扩散器(3)和反射器(2)紧邻灯泡(1)并入至少一个入射表面,并在其远离灯(1)的端部一起移动,使得它们包围至少一个光室(4) 光室的宽度(a)与光入射面的高度(b)之比至少为4:1。 此外,可以提供在反射器的宽度上获得均匀的光密度的装置。
    • 4. 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。
    • 6. 发明授权
    • Optical attachment for a light-emitting diode and brake light for a motor vehicle
    • 用于机动车辆的发光二极管和刹车灯的光学附件
    • US06536923B1
    • 2003-03-25
    • US09446179
    • 1999-12-17
    • Bernd Merz
    • Bernd Merz
    • F21V500
    • F21V7/0091F21S43/14F21S43/26F21S43/315
    • An optical attachment 10 for a light source, in particular for a light-emitting diode 12, exhibits an inner lens area 14 which surrounds an optical axis 13 of the optical attachment 10 for inner light beams 15 emitted from the light source and an outer reflector area 16 for outer light beams 17 of the light source which surrounds the inner lens area 14 in a ring-like manner. Due to this combination of refraction in the inner lens area and reflection in the outer reflector area, the dimensions of the optical attachment can be kept relatively small and, in comparison to a lens or a reflector, more light can be collected and the point-shaped light diode can be imaged on the exiting side as a large area light appearance.
    • 用于光源的光学附件10,特别是用于发光二极管12的光学附件10具有内部透镜区域14,该透镜区域14包围光学附件10的光轴13,用于从光源发射的内部光束15和外部反射器 区域16,用于以环状方式围绕内透镜区域14的光源的外光束17。 由于内透镜区域中的折射和外反射器区域中的反射的这种组合,光学附件的尺寸可以保持相对较小,并且与透镜或反射器相比,可以收集更多的光, 形状的光二极管可以在出射侧成像为大面积的光外观。
    • 7. 发明授权
    • Display lamp and method
    • 显示灯和方法
    • US06488393B1
    • 2002-12-03
    • US09693506
    • 2000-10-23
    • David J. Burnham
    • David J. Burnham
    • F21V500
    • F21S6/004F21S6/007F21S10/002F21W2121/00Y10S362/806Y10S362/811
    • A display lamp includes an electric light bulb disposed within a cylinder supported in a substantially vertical orientation. A light-transmitting container of water or other light-transmitting liquid is supported on the top of the cylinder. A dispenser of liquid is disposed above the container for dropping droplets of liquid onto the surface of the liquid in the container for disturbing it. The light shines through the vessel and the liquid and its disturbed surface and onto an associated display surface, such as an adjacent wall or ceiling, for producing thereon a visual wave pattern which moves in accordance with the disturbance of the liquid surface.
    • 显示灯包括设置在以基本垂直的方向支撑的圆筒内的电灯泡。 水或其他透光液体的透光容器支撑在气缸的顶部。 液体分配器设置在容器上方,用于将液滴滴落到容器中的液体表面以使其干扰。 灯光通过容器和液体及其受干扰的表面照射到相关的显示表面上,例如相邻的墙壁或天花板上,用于在其上产生根据液面的干扰而移动的视波图案。
    • 8. 发明授权
    • Flood lamp with improved light energy utilization
    • 具有改善光能利用率的泛光灯
    • US06471375B2
    • 2002-10-29
    • US09860305
    • 2001-05-18
    • Motoaki KobayashiToshifumi Nakano
    • Motoaki KobayashiToshifumi Nakano
    • F21V500
    • F21V5/048G01C3/02
    • A flood light includes a lamp that is located at a focus of a reflecting mirror having a reflecting surface whose cross-section is oval and partially arcuate. A concave lens having negative refracting power is disposed between first and second foci about which an elliptical reflecting surface of the reflecting mirror is disposed. Some light rays from the lamp pass directly from the lamp through the lens while other rays from the lamp are reflected by the mirror before passing through the lens. Generally speaking, on the upstream side of the lens, the reflected rays enter the lens outboard of the rays that pass directly from the lamp to the lens. This construction provides a small flood light that has a high optical output, and effectively uses bundles of rays emitted from the lamp to produce a luminous intensity distribution desirable as light for range finding.
    • 泛光灯包括位于反射镜的焦点处的灯,其具有横截面为椭圆形且部分弧形的反射表面。 具有负折射力的凹透镜设置在第一和第二焦点之间,反射镜的椭圆形反射表面围绕该凹透镜布置。 来自灯的一些光线直接从灯泡通过透镜,而来自灯的其它光线在通过透镜之前被镜子反射。 一般来说,在透镜的上游侧,反射光线进入从灯直接通过透镜的光线外侧的透镜。 这种结构提供了具有高光输出的小型泛光灯,并且有效地使用从灯发射的光线束以产生期望作为测光的光所需的发光强度分布。
    • 9. 发明授权
    • Assembly and device for optical beam transformation
    • 光束转换的装配和装置
    • US06471372B1
    • 2002-10-29
    • US09429806
    • 1999-10-29
    • Vitalij LissotschenkoAlexei Mikhailov
    • Vitalij LissotschenkoAlexei Mikhailov
    • F21V500
    • G02B6/4206G02B3/005G02B3/0062G02B6/425G02B19/0014G02B19/0052G02B27/0961G02B27/0966
    • Assembly for optical beam transformation, which is useful for imaging a light source (1) or several light sources onto the front face of an optical fiber (7), comprising at least one light source (1) that is capable of emitting at least one beam of light (9) and further comprising one imaging element (2) and at least one device (3) for optical beam transformation, the imaging element (2) being able to image the at least one beam of light (9) emitted from the at least one light source onto the at least one device (3) for optical beam transformation through which the at least one beam of light can at least partially pass and the at least one device (3) for optical beam transformation being able to rotate the at least one beam of light (9) passing through said device at least in sections about the direction of propagation (z) of the respective section of the beam(s) of light by an angle of about 90°, the device (3) for optical beam transformation comprising at least one segment of cylindrical lens (8) on one entry and/or exit plane of the beam(s) of light (9).
    • 用于光束变换的组件,其用于将光源(1)或多个光源成像到光纤(7)的前表面上,该光束包括至少一个光源(1),其能够发射至少一个 光束(9)并且还包括一个成像元件(2)和用于光束变换的至少一个装置(3),所述成像元件(2)能够对从所述至少一个光束(9)发射的光束进行成像 所述至少一个光源到所述至少一个用于光束变换的装置(3),所述至少一个光束可以至少部分地通过所述至少一个装置(3),并且所述至少一个用于光束变换的装置(3)能够旋转 所述至少一个光束(9)至少以约90°的角度的光束的相应部分的传播方向(z)至少部分穿过所述装置,所述装置(3) ),其包括至少一个圆柱段 (8)在光束(9)的一个进入和/或出射平面上。
    • 10. 发明授权
    • Adjustable up-angle led lantern utilizing a minimal number of light emitting diodes
    • 采用最少数量的发光二极管的可调式上灯led灯
    • US06364506B1
    • 2002-04-02
    • US09496723
    • 2000-02-03
    • Marc N. Gallo
    • Marc N. Gallo
    • F21V500
    • F21V14/02F21S10/06F21V13/04F21W2111/00F21W2111/06F21Y2115/10
    • An method and apparatus that generates light at various up-angles. A planar surface having a plurality of LEDs equally spaced in a circular arc directs light at a conical reflector, which redirects the generated light in a 360-degree arc of light (i.e., light beam) that is then concentrated by a magnifying lens. The light beam has a small vertical angle of divergence and appears to originate from a point light source in the center of the conical reflector. A base assembly has mounting positions to which the planar surface, conical reflector and magnifying lens are secured and maintains the lantern in an up-right position. The base assembly includes a plurality of mounting positions for securing the planar surface at various predetermined distances from the conical reflector, thereby directing the generated light beam at a corresponding predetermined up-angle. In the preferred embodiment, light produced by four LEDs with 30-degree spreads is redirected by the 45-degree conical reflector to create a 360-degree arc of light outward from the conical reflector.
    • 以各种上下角度产生光的方法和装置。 具有以圆弧等间隔开的多个LED的平坦表面在锥形反射器处引导光,其将所产生的光重定向在360度的光(即,光束)中,然后由放大镜集中。 光束具有小的垂直发散角,并且似乎源于锥形反射器中心的点光源。 基座组件具有安装位置,平面表面,锥形反射器和放大透镜被固定到该安装位置,并且将灯保持在向上 - 右位置。 基座组件包括多个安装位置,用于将平面表面固定在与锥形反射器不同的预定距离处,从而将所产生的光束以相应的预定的上角定向。 在优选实施例中,由具有30度扩展的四个LED产生的光由45度锥形反射器重定向,以从圆锥形反射器向外产生360度弧光。