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
    • 1. 发明授权
    • High brightness projection lighting system
    • 高亮度投影照明系统
    • US5636915A
    • 1997-06-10
    • US492358
    • 1995-06-19
    • William J. CassarlyJohn M. DavenportRichard L. HanslerRichard C. Nagle
    • William J. CassarlyJohn M. DavenportRichard L. HanslerRichard C. Nagle
    • F21S8/00F21V8/00
    • G02B6/0006F21W2131/406
    • A light source and optical delivery arrangement for use with a projection lighting system as may be used in the stage and studio fields, includes a high brightness light source which achieves a light output in excess of 4000 lumens at a power rating of approximately 60 watts and wherein such efficiency is achieved in conjunction with a rated life of greater than about 4000 hours for such light source. The light source is disposed at the first optical focal point of an ellipsoidally shaped reflector with an input end of an optical coupler disposed at the second optical focal point of the reflector in order to receive the light output from the light source. The optical coupler member has a cross-sectional surface area which is polygonal in shaped and is effective so as to provide a light output therefrom which is essentially uniform in terms of color and intensity. A prismatic member is disposed on the optical coupler member for re-directing the light output into a lens member. The lens member is effective for shaping the light output into the desired beam pattern.
    • 用于舞台和演播室领域的投影照明系统所使用的光源和光学传送装置包括:高亮度光源,其以约60瓦特的额定功率实现超过4000流明的光输出;以及 其中这种效率结合对于这种光源的大于约4000小时的额定寿命来实现。 光源设置在椭圆形反射器的第一光焦点处,其中光耦合器的输入端设置在反射器的第二光焦点处,以便接收来自光源的光输出。 光耦合器部件具有成形多边形的横截面表面积,并且是有效的,从而提供从它们的颜色和强度基本均匀的光输出。 棱镜构件设置在光耦合器构件上,用于将光输出重新引导到透镜构件中。 透镜构件对于将光输出成形为期望的波束图案是有效的。
    • 2. 发明授权
    • Compact optical system with turn and color mixing
    • 紧凑的光学系统具有转动和混色
    • US06192176B1
    • 2001-02-20
    • US09027663
    • 1998-02-23
    • William J. CassarlyRichard L. HanslerJohn M. DavenportRichard C. Nagle
    • William J. CassarlyRichard L. HanslerJohn M. DavenportRichard C. Nagle
    • G02B626
    • G02B6/4298B60Q1/0011G02B6/0001G02B6/0006Y10S385/901
    • A compact optical assembly includes a tight bend region that effectively propagates light from a source to an end use while maximizing beam lumens, improving color mixing, and minimizing complexity. A first nonimaging optical component increases the angular distribution of light from the source to an input end of the bend region having a light fiber with a first cross-sectional dimension. A second nonimaging optical component receives light from the bend region and decreases the angular distribution. A light conductor that interconnects the light source to the first nonimaging optical component has a cross-sectional dimension in the plane of the bend region greater than that of the light fiber and, likewise, a second conductor receiving light from the second nonimaging optical component has a cross-sectional dimension in the plane of the bend region greater than the light fiber.
    • 紧凑的光学组件包括有效地将光从源传播到最终用途的紧密弯曲区域,同时最大化光束流明,改善颜色混合并使复杂度最小化。 第一非成像光学部件增加了从具有第一横截面尺寸的具有光纤的弯曲区域的光源到输入端的光的角度分布。 第二非成像光学部件从弯曲区域接收光并减小角度分布。 将光源与第一非成像光学部件互连的光导体在弯曲区域的平面中具有大于光纤的横截面尺寸,并且同样地,接收来自第二非成像光学部件的光的第二导体具有 弯曲区域的平面中的横截面尺寸大于光纤。
    • 5. 发明授权
    • Modular dual port central lighting system
    • 模块化双端口中央照明系统
    • US5924792A
    • 1999-07-20
    • US803948
    • 1997-02-21
    • William J. CassarlyJohn M. DavenportRichard L. Hansler
    • William J. CassarlyJohn M. DavenportRichard L. Hansler
    • F21S8/12F21V8/00F21V7/04
    • F21S48/1241G02B6/0006
    • A central lighting system for providing light to locations remote from a light source includes first and second ellipsoidally shaped reflectors joined together to surround the light source. The first and second reflectors direct the light from the light source to light guides which are fixed at a position outside of the joined together reflectors. The ellipsoidally shaped reflectors each have an opening or window along an optical axis through which the reflected light passes to the light guides. The configuration of the reflectors allows the light the be received by the light guides outside of the reflectors. A base secures the light source in a fixed position with respect to the reflectors and allows the light source and reflector module to be removed and replaced as a single unit without repositioning the light guides.
    • 用于向远离光源的位置提供光的中央照明系统包括连接在一起以围绕光源的第一和第二椭圆形反射器。 第一和第二反射器将来自光源的光引导到固定在连接在一起的反射器之外的位置处的光导。 椭圆形反射器各自具有沿着光轴的开口或窗口,反射光通过该光轴通过光导。 反射器的配置允许光被反射器外部的光导件接收。 基座将光源固定在相对于反射器的固定位置,并且允许光源和反射器模块被移除并且被替换为单个单元而不重新定位光导。
    • 6. 发明授权
    • Optical coupling systems with bend
    • 具有弯曲的光耦合系统
    • US5774608A
    • 1998-06-30
    • US798972
    • 1997-02-11
    • Gary R. AllenWilliam J. CassarlyJohn M. DavenportRichard L. Hansler
    • Gary R. AllenWilliam J. CassarlyJohn M. DavenportRichard L. Hansler
    • G02B6/12G02B6/26G02B6/28G02B6/42
    • G02B6/2808G02B6/262G02B6/2817G02B6/4298G02B2006/12119
    • An optical couplers and optical coupling system for coupling a source of non-coherent light to a light distribution harness, wherein the couplers are polygonal in cross section to increase light mixing, and the coupler has inlet and outlet arms, and an intermediate bend region configured to achieve compactness and minimal light loss through the bend region. In one embodiment, the bend region is an integral part of the coupler, with the inlet arm having a different cross-sectional dimension from the outlet art in such manner that substantially all light directed from the inlet portion to the bend portion reaches the outlet arm portion, and light rays parallel to the inlet axis are reflected in the bend portion to be directed substantially parallel to the outlet axis. In a second embodiment, the bend region comprises a prism having a pair of parallel spaced surfaces, and inlet, outlet, and third surfaces that are non-parallel to the spaced surfaces. The inlet arm projects from the inlet surface, and the outlet arm projects from the outlet surface. One of the inlet and outlet surfaces forms a first interface with a first material having an index of refraction different from that of the prism, so that light rays within the prism totally internally reflect from the first interface.
    • 一种用于将非相干光源耦合到配光线束的光耦合器和光耦合系统,其中所述耦合器的横截面为多边形以增加光混合,并且所述耦合器具有入口臂和出口臂以及配置 以实现通过弯曲区域的紧凑性和最小的光损失。 在一个实施例中,弯曲区域是耦合器的整体部分,入口臂具有与出口技术不同的横截面尺寸,使得从入口部分到弯曲部分的基本上所有的光到达出口臂 平行于入口轴线的光线在弯曲部分中被反射以基本上平行于出口轴线引导。 在第二实施例中,弯曲区域包括具有一对平行间隔表面的棱镜,以及不平行于间隔表面的入口,出口和第三表面。 入口臂从入口表面突出,并且出口臂从出口表面突出。 入口表面和出口表面中的一个与第一材料形成具有不同于棱镜的折射率的第一界面,使得棱镜内的光线全部从第一界面反射。
    • 7. 发明授权
    • Compact optical coupling systems
    • 紧凑型光耦合系统
    • US5692091A
    • 1997-11-25
    • US530916
    • 1995-09-20
    • William J. CassarlyJohn M. DavenportRichard L. Hansler
    • William J. CassarlyJohn M. DavenportRichard L. Hansler
    • G02B6/26G02B6/28G02B6/32G02B6/42G02B6/24
    • G02B6/4298G02B6/2808Y10S385/901
    • A compact optical coupling member is useful for coupling non-coherent light from a source of light to a light distribution harness. The coupling member includes an elongated light transmissive body having a central longitudinal axis, an inlet end for receiving light from the light source, and an outlet end for providing light to a leading end of a light distribution harness. The elongated body has a polygonal cross-sectional shape for providing increased light mixing of the non-coherent light. The polygonal shape of the elongated body increases in size from a first cross-sectional area at the inlet end to an enlarged cross-sectional area at the outlet end for reducing, with respect to the longitudinal axis, the maximum angle of light passed through the outlet end relative to the maximum angle of light received through the inlet end. A pair of compact optical coupling members of the foregoing type may be used for coupling non-coherent light from first and second sides of the source of light to respective first and second light distribution harnesses. A compact, folded optical system may be realized by making the polygonal shape of a an elongated body of an optical coupling member trapezoidal; and using a plano-convex lens as part of the light distribution harness. The plano-convex lens has a convex surface through which light is received from the coupling member, and a mirrored, planar surface confronting the coupling member and being for reflecting light at an angle that causes the light to substantially miss the coupler.
    • 紧凑的光耦合元件用于将来自光源的非相干光耦合到配光线束。 联接构件包括具有中心纵向轴线的细长光透射体,用于接收来自光源的光的入口端和用于向配光线束的前端提供光的出口端。 细长体具有多边形横截面形状,用于提供非相干光的增加的光混合。 细长体的多边形形状从入口端的第一横截面面积增大到出口端处的扩大横截面面积,用于相对于纵向轴线减小通过 出口端相对于通过入口端接收的最大光角。 上述类型的一对紧凑型光耦合元件可用于将来自光源的第一和第二侧的非相干光耦合到相应的第一和第二配光束。 可以通过使光耦合构件的细长主体的多边形形状梯形来实现紧凑折叠的光学系统; 并使用平凸透镜作为配光线束的一部分。 平凸透镜具有凸出表面,光从接合构件接收,并且与镜面相对的耦合构件的平面表面,用于以使得光基本上错过耦合器的角度反射光。
    • 8. 发明授权
    • High efficiency dual output light source
    • 高效双输出光源
    • US5567031A
    • 1996-10-22
    • US139378
    • 1993-10-20
    • John M. DavenportRichard L. HanslerWilliam J. Cassarly
    • John M. DavenportRichard L. HanslerWilliam J. Cassarly
    • F21V7/08F21V8/00G02B6/00G02B6/42G02B27/00
    • G02B6/4298G02B6/0006
    • A centralized lighting system is provided having a high intensity light source which is disposed at approximately the first optical focal point of an ellipsoidally shaped reflector member. A mirror member, disposed in advance of a second optical focal point associated with the reflector member, receives light output from the light source and is constructed so as to divide the light output into at least first and second beam portions. The mirror member is further effective so as to separate the first and second beam portions by at least 90 degrees relative to one another. Corresponding at least first and second optical transmission members are receptive of the first and second beam portions and are effective for communicating the light output to locations remote from the light source. In one embodiment, the mirror member is V-shaped and is constructed of first and second mirror segments joined together so as to form an angle of less than about 85 degrees therebetween. The mirror member is effective for dividing the beam portions so that such beam portions are substantially equivalent to one another in terms of intensity, shape and color. The V-shaped mirror member is further effective for separating the first and second beam portions by approximately 180 degrees relative to one another.
    • 提供了具有高强度光源的集中照明系统,其设置在椭圆形反射器构件的大致第一光学焦点处。 设置在与反射构件相关联的第二光焦点之前的镜构件接收从光源输出的光,并被构造成将光输出分成至少第一和第二光束部分。 镜构件进一步有效,以便将第一和第二光束部分相对于彼此分开至少90度。 对应的至少第一和第二光学传输构件接收第一和第二光束部分,并且有效地将光输出传送到远离光源的位置。 在一个实施例中,镜构件是V形的,并且由连接在一起的第一和第二镜子段构成,以便在其间形成小于约85度的角度。 镜构件对于分割光束部分是有效的,使得这些光束部分在强度,形状和颜色方面基本相等。 V形镜构件对于将第一和第二光束部分相对于彼此分离大约180度是更有效的。
    • 10. 发明授权
    • Low angle, dual port light coupling arrangement
    • 低角度,双端口光耦合布置
    • US5927849A
    • 1999-07-27
    • US38083
    • 1998-03-11
    • William J. CassarlyJohn M. DavenportRichard L. Hansler
    • William J. CassarlyJohn M. DavenportRichard L. Hansler
    • G02B6/32G02B6/293G02B6/42H01L31/12F21V8/00F21V13/04
    • G02B6/4298
    • A compact coupling arrangement between a light source and a plurality of light distribution harnesses includes a plurality of reflector members arranged around the light source with respective focal points of the reflector members positioned substantially coincident with the light source, so as to receive light from the source and reflect the light away from the source. Further included is a plurality of light coupling members, each having an inlet and an outlet surface for receiving light originating from the light source and transmitting light, respectively. A plurality of light distribution harnesses is provided for respectively receiving light from the light coupling members. The light coupling members each comprise a lens having a negative curvature in at least one direction generally transverse to a main light transmission axis therethrough, for receiving light at a first angular distribution and transmitting light at a reduced angular distribution. To facilitate manufacturing, at least one of the light coupling members may comprise an integral portion of one of the reflector members coinciding with the curvature of a proximate reflector member. Further, at least one of the inlet and outlet surfaces of one of the coupling members may be non-axisymmetrical about the main light transmission axis of its associated coupling member, for improving efficiency of light coupling.
    • 在光源和多个配光束之间的紧凑耦合布置包括围绕光源布置的多个反射器构件,其中反射器构件的各个焦点基本上与光源重合,以便从光源接收光 并将光线从源头反射出来。 还包括多个光耦合构件,每个光耦合构件具有分别用于接收源自光源的光和透射光的入口和出口表面。 提供多个配光束,用于分别接收来自光耦合构件的光。 光耦合构件各自包括在至少一个方向上的至少一个方向具有负曲率的透镜,所述至少一个方向大致横贯于穿过其的主光透射轴,用于以第一角度分布接收光并以较小的角度分布透射光。 为了便于制造,至少一个光耦合构件可以包括一个反射器构件的一体部分,与邻近的反射器构件的曲率重合。 此外,一个联接构件的入口和出口表面中的至少一个可以围绕其相关联的联接构件的主光透射轴线非轴对称,以提高光耦合的效率。