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    • 3. 发明授权
    • Chemiluminescent lighting element
    • 化学发光照明元件
    • US06758572B2
    • 2004-07-06
    • US09948386
    • 2001-09-07
    • Jacques Ladyjensky
    • Jacques Ladyjensky
    • F21K200
    • F21K2/06Y10S362/812
    • The invention relates to a chemiluminescent light element having at least two chambers, filled with an oxalate solution and an activator solution, or variations of known chemiluminescent light materials including dyes. The oxalate solution is placed within a tight-sealed pouch made of thin aluminum foil lined on its interior side by a polymer, for instance a polyolefin, and so forms the first chamber. This latter is enclosed in a bigger tight-sealed pouch made of translucent polymer film forming the second chamber, which also contains the liquid activator. The outer pouch consists of two polymer films sealed together along their periphery and contain a ball able to pierce the inner pouch by manual action from the user.
    • 本发明涉及一种具有至少两个室的化学发光轻元件,其中填充有草酸溶液和活化剂溶液,或已知化学发光轻质材料(包括染料)的变体。 将草酸盐溶液放置在由薄铝箔制成的紧密密封的小袋中,其内侧由聚合物(例如聚烯烃)排列,从而形成第一室。 后者被封闭在由形成第二室的半透明聚合物膜制成的更大的密封袋中,该第二室也含有液体活化剂。 外袋由沿其周边密封在一起的两个聚合物膜组成,并且包含能够通过用户手动操作来刺穿内袋的球。
    • 4. 发明授权
    • Globe type electrodeless lighting apparatus
    • 地球式无电极照明装置
    • US06712488B2
    • 2004-03-30
    • US10117961
    • 2002-04-05
    • Jae-Jin LeeYoung-Jin BaeGeun-Young Park
    • Jae-Jin LeeYoung-Jin BaeGeun-Young Park
    • F21K200
    • H01J65/044
    • An electrodeless lighting apparatus using microwave comprises: a waveguide for transmitting microwave generated in a magnetron; a mesh screen coupled to an outlet portion of the waveguide for blocking a leakage of the microwave and passing light; a bulb located in the mesh screen for emitting light by generating plasma by the microwave; and a globe installed on outer area of the mesh screen so that the light generated in the bulb can be radiated to omnidirection, that is, the globe is installed around the bulb instead of a reflector and a light guide which are used in the conventional art, and thereby, a structure of the lighting apparatus can be made simply and an omnidirectional lighting can be performed.
    • 使用微波的无电极照明装置包括:用于传输在磁控管中产生的微波的波导; 耦合到所述波导的出口部分的网状屏蔽件,用于阻止所述微波的泄漏并使光通过; 位于筛网中的灯泡,用于通过微波产生等离子体发光; 以及安装在网眼屏幕的外部区域上的球体,使得在灯泡中产生的光可以被辐射到全向,即,球体安装在灯泡周围,而不是传统技术中使用的反射器和光导 ,从而可以简单地进行照明装置的结构,并且可以进行全向照明。
    • 7. 发明授权
    • Overhead industrial light fixture with mounted reflector
    • 架空工业灯具,安装反光罩
    • US06467927B1
    • 2002-10-22
    • US09696543
    • 2000-10-24
    • Eric HaugaardKurt Wilcox
    • Eric HaugaardKurt Wilcox
    • F21K200
    • F21V29/004F21S8/06F21V23/026F21V29/83F21W2131/40
    • An overhead industrial light fixture of the type including a housing, power-related components and a lamp-mounting socket. The housing has top and bottom walls and sidewalls together forming a substantially enclosed space, and the bottom wall defines a socket location. The bottom wall includes a plurality of downward projections around the socket location, and a reflector is secured to the housing by attachment at the downward projections, creating an air flow gap for cooling purposes between the reflector and the housing. In some preferred embodiments, the bottom wall defines a socket window, and the socket is in the enclosed space with its lamp-receiving end aligned with the socket window. In some preferred embodiments, the bottom wall is formed of sheet metal and the projections are stampings therein.
    • 一种类型的顶置工业灯具,包括外壳,电源相关部件和灯安装插座。 壳体具有一起形成基本封闭空间的顶壁和底壁和侧壁,并且底壁限定了插座位置。 底壁包括围绕插座位置的多个向下突起,并且反射器通过附接在向下的突出部处而固定到壳体,从而在反射器和壳体之间产生用于冷却目的的气流间隙。 在一些优选实施例中,底壁限定了插座窗口,并且插座位于封闭空间中,其灯接收端与插座窗口对准。 在一些优选实施例中,底壁由金属板形成,并且凸起在其中是冲压件。
    • 8. 发明授权
    • Glow cup modular system
    • 发光杯模块化系统
    • US06371624B1
    • 2002-04-16
    • US09778981
    • 2001-02-07
    • Peter Dorney
    • Peter Dorney
    • F21K200
    • A47G23/0309F21K2/06
    • A glow cup modular system comprising a generally rigid exterior member that has a side wall with a top edge and a bottom edge to form an upper cavity for receiving and retaining a beverage container. The exterior member further has a circular planar surface located at an intermediate height. The system also includes a interior member that has a side wall with a planar top surface at the top end and has a recessed portion extending downward from the center of the planar top and fabricated of a pliable material. The generally rigid interior member also has a bottom end with a horizontal lip coupled to the horizontal lip of the exterior member form an air tight intermediate gap is formed between the two members.
    • 一种发光杯模块化系统,包括大致刚性的外部构件,所述外部构件具有侧壁,所述侧壁具有顶部边缘和底部边缘,以形成用于容纳和保持饮料容器的上腔体。 外部构件还具有位于中间高度的圆形平面。 该系统还包括内部构件,其具有在顶端具有平坦顶表面的侧壁,并且具有从平坦顶部的中心向下延伸并由柔韧材料制成的凹部。 通常刚性的内部构件还具有底端,其具有联接到外部构件的水平唇缘的水平唇缘,形成在两个构件之间的气密中间间隙。
    • 9. 发明授权
    • Rotating chemiluminescent fan blade light display
    • US06367942B1
    • 2002-04-09
    • US09498976
    • 2000-02-07
    • Scott Bauer
    • Scott Bauer
    • F21K200
    • F21V33/0096F04D25/088F21K2/06
    • Due to the persistence of human vision, moving light sources tend to be perceived not as point sources, but as continuous streaks or arcs of light. Many toys, novelty items, and light show devices make use of this peculiarity of human vision by moving light sources to produce visually striking patterns of light and color. In addition to dedicated devices for this purpose, inventive minds have employed simple household devices such as fans to produce the movement necessary to provide an interesting light show. In the past, these have all relied on electrically operated lights. Unfortunately, complications arise in designing and implementing a means to provide electrical power from a stationary power source to electric lights attached to moving fan blades. Further complications arise in trying to adapt this design to fans of different configurations, sizes, and shapes. Most of the types of light displays utilizing fans for movement of the light sources in space are only applicable to a single model or brand of fan and require extensive modification and much technical skill to install them. The invention described herein solves these problems by demonstrating a method for attaching chemiluminescent light sources to the blades or rotating structure of a fan to impart the required movement of the light sources in space. Because the light sources are chemiluminescent and require no electricity to emit light, no electrical connections between rotating blades and stationary power sources are required. Additionally, because the described attachment system conforms to fan blades of any shape, size, or configuration, the chemiluminescent light show may be utilized on virtually any available fan without resorting to the prior requirement of installing special blades. Once the chemiluminescent light source attachment system has been installed on the blades or rotating structure of the fan, the light show that results from rotating the light sources may be easily altered by simply relocating the light sources to different points on the fan blade. The relocation of light sources on the rotating blades or changing the speed of the fan can change the perceived patterns of light in dramatic and surprising ways. In the preferred method of attachment described herein, the relocation of chemiluminescent objects on the fan blades may be done quite easily in seconds. In similar fashion, changing the color, shape, or intensity of the attached chemiluminescent light sources will also cause dramatic changes in the perceived light display. Chemiluminescent light emitting sources are readily available in a wide variety of shapes and colors. These include light sticks in various lengths and diameters, necklaces in varying lengths, bracelets, key chains, swizzle sticks, pendants, ear rings, buttons, and balls. The described invention herein allows attachment of any of these different shape chemiluminescent objects to virtually any location on a fan blade. This results in the ability to create a nearly infinite number of colored light and pattern displays and allows the user to easily produce his or her own custom light show.