1. Field of the Invention
The present invention relates to electric light shades, lighting displays and lighting systems.
2. Description of the Related Art
Many different designs of ornaments and lighted displays have been developed to help people decorate their houses and yards during particular holidays.
The present invention is directed toward light shades and strings of lights. In one disclosed embodiment, the invention is directed toward a shade for use with at least one lighting element. The shade has a hollow body with an internal cavity large enough for at least one lighting element to be positioned therein; at least a portion of the hollow body is configured to allow light from inside the body to escape therefrom; at least a portion of the hollow body has features thereon for breaking up light to create a spectral effect; and the hollow body has an opening therein configured to allow a conductor to be routed to the at least one lighting element when the at least one lighting element is positioned in the internal cavity.
In another disclosed embodiment, the invention is directed toward a light having at least one lighting element, a conductor for coupling the lighting element to a source of electricity, and a hollow body having an internal cavity within which at least one lighting element is positioned. At least a portion of the hollow body is configured to allow light from inside the body to escape therefrom; at least a portion of the hollow body has features thereon for breaking up light to create a spectral effect; and the hollow body has an opening therein configured to allow the conductor to be routed to the at least one lighting element in the internal cavity.
In another disclosed embodiment, the invention is directed toward a light string having lighting elements, a conductor, and light shades. The conductor electrically couples the lighting elements together and is configured to couple the lighting elements to a source of electricity. The light shades are positioned at different locations along the length of the conductor. Each of the light shades has a hollow body with an internal cavity within which at least one of the lighting elements is positioned. At least a portion of the hollow body is configured to allow light from inside the body to escape therefrom; at least a portion of the hollow body has features thereon for breaking up light to create a spectral effect; and the hollow body has an opening therein configured to allow the at least one lighting element to be positioned within the hollow body.
In order to assist understanding of the present invention, embodiments will now be described, purely by way of non-limiting example, with reference to the attached drawings, in which:
a is an enlarged isometric view of a portion of a light according to an embodiment of the present invention;
b is an enlarged isometric view of a portion of a light according to another embodiment of the present invention;
The present invention is directed toward devices and systems for use in decorating a home or yard during a holiday or other event. The following is a detailed description of a few illustrative embodiments. The drawings are provided to clarify the description, and may not be to scale.
The front and back surfaces 28,30 of the illustrated embodiment are made from thin sheet material formed in three dimensions to create the shape of a faceted star. Accordingly, the contoured shape of the light shade 20 creates a corresponding internal cavity. The inventor appreciates that the hollow light shade 20 can be made through other means, such as by blow molding or other suitable means, without deviating from the spirit of the invention.
As best illustrated in
As illustrated in
The material of the light shade 20 can be, as indicated above, formed from a thin sheet. In particular embodiments, the thin sheet is a translucent—and in some instances, a transparent—polymer treated to break light leaving the light shade 20 into some of its spectral elements. For example, the sheet can have a diffraction grating printed or otherwise formed thereon to diffract the light into various wavelengths, giving the light shade 20 a colorful, rainbow-like effect. Such treatment can cover select portions of the light shade 20 or can cover the entire light shade. As a result, the light originating with each of the light bulbs 32 passes through the skin of the light shade 20, breaking up into a spectral pattern and dispersing, giving the light shade a brilliant effect. Further, where the light display incorporates several light bulbs 32, such as that illustrated in
An individual of ordinary skill in the art, having reviewed this disclosure, will appreciate that the steps in the above methods can be exchanged in some instances, and/or can be combined in different sequences or without all of the other steps, to make other suitable light shades, light displays or light strings, without deviating from the spirit of the present invention.
The front surface 228 can have different portions, each portion affecting light in a different way. A first portion 223 of the front surface can be adapted to allow light to escape the light shade 220. The first portion 223 could include holes and/or translucent material (again, a term intended herein to incorporate transparent materials), and can be a material similar to that discussed in connection with the first embodiment, above. That is, the first portion 223 can incorporate a diffraction grating, either directly or through affixation, to break light leaving the light shade 220 into its spectral elements. In situations where the diffraction grating is affixed to the front surface 228 of the first portion 223, the inventor appreciates that the diffraction grating can be printed or otherwise applied to a strip of material that is then either applied smoothly over the surface or at angles to the surface to provide the light shade 220 with an even more brilliant effect.
The second portion 225 of the front surface 228 can be adapted to reflect light, externally and/or internally with respect to the light display. In addition, the second portion 225 can be adapted to refract light into some of its spectral elements, further increasing the brilliant effect of the light display. The second portion 225 can be covered with a metallic foil or with a paper that is itself covered with metallic foil, and/or can be printed or otherwise treated to create a diffraction grating over the reflective foil, thus both reflecting and breaking up light. The paper or foil can be smoothly affixed to the second portion 225 of the front surface 228, or can be bent, wrinkled or otherwise angled with respect to the surface to further break up the light and create a more brilliant effect.
In the illustrated embodiment, the front surface 228 is faceted such that the several first portions 223 of the front surface face the several second portions 225. As a result, light escaping the light shade 220 through the first portions 223 is directed, at least in part, toward the second portions 225. The light impinging the second portions 225 of the front surface 228 is then refracted, creating several spectral effects. Thus, even though half of the front surface 228 in the illustrated embodiment is opaque, all of the front surface can create spectral light, making the entire lighted display 220 brilliant.
The illustrated front surface 328 is a flat, translucent sheet of material, such as a polymer or resin-based material, having indicia thereon to create a desired decorative effect. A first portion 323 of the front surface 328 can be translucent and can be treated or covered with light-diffracting features such as those disclosed above in connection with the first surface 223 in a previous embodiment. A second portion 325 of the front surface 328 can be colored, opaque and/or treated to diffract and/or reflect light, such as that discussed above in connection with the second portion 225 in a previous embodiment. The first and second portions can be randomly selected or can be selected to create a desired image, such as the present shown in the figures. The inventor intends this image to be merely an example, and appreciates that any other desired design could be used instead.
The back surface 330 can be similar to the front surface 328 or can be a simple sheet of material, translucent or opaque, depending on the desired use of the display. In addition, the interior of the back surface 330 can be reflective to direct additional light toward—and through—the front surface 328. The back surface 330 could also be formed and contoured similar to one of the surfaces described in the first embodiment, above, to give the display two distinct designs, depending on the direction the display is facing. One of ordinary skill in the art, having reviewed this disclosure, will appreciate these and other variations and modifications that can be made to the disclosed embodiments without deviating from the spirit of the invention.
As illustrated in
As best illustrated in
From the foregoing it will be appreciated that, although specific embodiments of the invention have been described herein for purposes of illustration, various modifications may be made without deviating from the spirit and scope of the invention. Accordingly, the invention is not limited except as by the appended claims.
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