RU2371780C1 - Lighting panel - Google Patents

Abstract

FIELD: advertising.

SUBSTANCE: panel contains light conducting panel element, light source and point-matrix light-efferent structure. Light conducting panel element is produced from transparent material and has face light-efferent surface. Radiated by light source light rays come to light conducting panel element through its edge. Point-matrix structure is formed on face surface of light panel element. Points of point-matrix structure are distributed on surface unevenly and their area on different parts of surface is not equal. Density of points in places with brighter glow of face surface is lower, in places with less bright glow of face surface is greater. Distribution of points on surface area is determined applying model-analogue of light panel. Distribution is obtained by fixation of picture of luminosity of illuminated by light source of face surface of model, transformation of fixed picture of glowing in raster monochromic picture- point-matrix structure, reproduction of obtained point-matrix structure on face surface of light panel's panel element.

EFFECT: identical glowing throughout the area of illuminated picture.

2 cl

Description

The invention relates to lighting engineering and can be used in light indicators, light signs, advertising light signs, light detectors, in particular light signs for emergency routes, and other lighting devices.

Currently, light panels are widely used as lighting devices or as carriers of advertising or service information.

So, for example, a light sign is known [US 6026602], containing a light guide panel element made of a transparent material, inside of which, near one of its edges, a light source is arranged in the form of a group of LEDs. An information image is formed on the front surface of the panel element.

When light beams emitted by the light source enter the light guide panel element through its edge (with the so-called end illumination of the panel element), fewer light sources are used than when illuminating the panel element with light sources distributed over its front or rear surface.

However, with end illumination, a noticeable attenuation of the illumination of the illuminated surface of the panel element occurs in the direction away from the radiation source, therefore, to achieve uniform luminosity over the entire area of the light output surface of the light panel, special measures have to be applied.

In particular, in the device under consideration, a reflector is installed inside the panel element, which causes the reorientation of light beams propagating inside the panel element so that part of the light is output through the front surface of the specified element.

Known light panel with end lighting [US 5625968], selected by the authors as the closest analogue.

The specified light panel contains a light guide panel element made of a transparent material, as well as a luminescent light source located near the edge of the panel element. On the front surface of the panel element, a dot-matrix light-emitting structure is formed containing many points whose dimensions exceed the wavelength of light radiation. These points can be made, in particular, in the form of roughness sections deposited on the front surface of the panel element. The front surface of the light panel is covered with a transparent film with a graphic or verbal image.

The light beams propagate inside the light guide panel element, experiencing total internal reflection, with their removal from the front surface at the points of the dot-matrix structure, which form sections of the surface optical inhomogeneity on which the light beams are reoriented. The area occupied by the points of the dot-matrix structure is not uniform in different parts of the front surface of the panel element and increases in the direction of removal from the light source due to an increase in the geometric dimensions of the points. Thus, in this direction, an increase in the light output from the front surface of the panel element is provided, which contributes to a more uniform luminosity over the area of the specified surface. However, in the device under consideration, it is not possible to minimize the luminosity gradient over the area of its light-output surface.

The task of the invention is to minimize the luminosity gradient of the light output surface of the light panel.

The essence of the invention lies in the fact that in a light panel containing a light guide panel element made of a transparent material, having a front light guide surface, a light source arranged in such a way that light beams emitted from the light source enter the light guide panel element through its edge, and the dot-matrix light-output structure formed on the front surface of the light guide panel element, while the area occupied by the points of the dot matrix structure is not uniform in different parts of the front surface of the panel element, according to the invention, the points of the dot-matrix structure are distributed unevenly over the area of the front surface of the panel element, while the distribution of the points of the dot-matrix structure over the area of the specified surface is determined using a layout analogue of the light panel in size, panel material element, as well as the type and location of the light source, and the specified distribution is obtained by fixing the luminosity pattern is highlighted the light source of the front surface of the layout, transforming the fixed luminosity pattern into a raster monochrome image using a raster graphic computer editor, which is a dot-matrix structure, the density of points of which is lower in places with a higher brightness of the glow of the front surface of the layout and in places with lower brightness the luminescence of the front surface of the layout is greater, and the subsequent reproduction of the obtained dot-matrix structure on the front surface of the panel element of the light panel whether.

In the particular case of the invention, the points of the dot-matrix structure can have different colors, selected in accordance with the color of the image on the front surface of the panel element, and after transferring the fixed luminosity pattern to a raster monochrome image, the colors of the points of the dot-matrix structure are restored using a computer, and then reproduce the resulting color dot matrix structure on the front surface of the panel element of the light panel.

The use of the inventive device end lighting panel element allows you to minimize the number of used light sources, which can be used, for example, LED light sources or fluorescent light sources.

The visually distinguishable points of the dot-matrix structure formed on the front surface of the transparent light guide panel element, the dimensions of which exceed the wavelength of light radiation, form sections of the surface optical inhomogeneity in which the light beams propagating inside the panel element undergo complete internal reflection, and their output at the locations of these heterogeneities.

The specified dot-matrix light-output structure can be formed on the entire front surface of the panel element and form a background image (background fill) or on a part of the specified surface and form a graphic or letter image.

Points of a dot-matrix structure can be formed, for example, by violating the surface structure of the front surface of the panel element by applying roughness areas to the indicated surface or by applying a colorful coating. If points are formed by violating the surface structure of the light-output surface of the panel element, the spectrum of the light output through them corresponds to the spectrum of the light source used to illuminate. If the points are formed by applying a colorful coating, the color of the light emitted (background fill and / or the image present on the front surface) corresponds to the intersection of the emission spectrum of the light source and the transmission spectrum (reflection) of the dye.

It is fundamentally important in the inventive device that the points of the dot-matrix structure are distributed unevenly over the area of the front surface of the panel element in accordance with the luminosity gradient recorded on the model of the inventive device.

In order for the luminosity of the light-emitting surface of the panel element with the background or graphic image formed on it to be uniform, it is necessary to ensure that the integral luminosity of each single portion of the indicated surface is constant. Representing the generated background or graphic image on the light-output surface as a set of luminous points that will be perceived from a distance as a solid image, and varying the distribution density of the points, we can achieve the same integrated luminosity of a single surface area, which is defined as the sum of the brightnesses of the points belonging to single plot.

Thus, in order to minimize the luminosity gradient over the area of the front surface of the panel element, it is necessary to form a dot-matrix structure on it, the density of points of which corresponds to the luminosity pattern of the indicated surface and is chosen lower in places with a higher brightness and higher in places with a lower brightness.

For the luminosity pattern of the light-emitting surface of the light panel containing information about its luminosity gradients in the selected coordinate directions, take the luminosity pattern of the front surface of the layout, which is an analog of the light panel in terms of size and material of the panel element, as well as in the type and location of the light source used in the light panel, which is obtained when the latter is on. In this case, a solid background or graphic monochrome or color image corresponding to the image on the light output surface of the light panel is preliminarily formed on the front panel of the layout.

The indicated luminosity pattern is fixed by the method of photography, scanning or another method. Due to the fact that any light source is not strictly monochromatic, as well as due to the presence of luminosity gradients, the resulting luminosity pattern is multicolor even if a monochrome background or graphic image is formed on the front surface of the layout.

Then, the recorded luminosity pattern is converted to a digital raster format, while the multicolor raster luminosity pattern is converted to a monochrome (most often black and white) raster. The indicated operations are performed using a raster graphic computer editor (Corel Photo Paint, Adobe Photoshop, etc.). The obtained monochrome raster picture is the desired dot-matrix structure, the density of points of which is less in places with a higher brightness of the front surface of the layout, and in places with lower brightness of the front surface of the layout.

Next, this dot-matrix structure is reproduced, obtained from the condition of minimizing the luminosity gradient of the luminous surface of the layout, which is an analog of the light panel, on the front surface of the panel element of the latter.

Thus, the technical result achieved by using the claimed invention is to minimize the luminosity gradient of the light output surface of the light panel.

In the case when a color image should be formed on the front surface of the light panel using a dot-matrix structure with dots of different colors, it is advisable to restore the image color using a computer to convert the color of the image using the computer to obtain the color of the dot-matrix pixels structure, and then reproduce the resulting color dot matrix structure on the front surface of the panel element of the light panel.

The inventive device comprises a panel element and an LED light source arranged in such a way that the light beams emitted by the light source enter the light guide panel element through its edge. In particular, the specified light source can be made in the form of a chain of light-emitting crystals coated with lenses located outside the panel element along its upper edge so that the downward-facing surfaces of the LED lenses are adjacent to the surface of the specified edge.

The shape of the panel element can be selected by anyone.

In particular, the light panel is a light detector, and its panel element has the shape of an elongated flat rectangle.

A dot-matrix structure is formed on the front surface of the panel element, including a set of visually distinguishable points whose dimensions exceed the wavelength of light radiation. In particular, dots are formed on the front surface of the light panel by applying a dotted paint coating to the indicated surface.

Points of a dot-matrix structure can have a different shape (round, square, rhombic, triangular, hexagonal and other) and various dimensions, depending, in particular, on the size of the front surface of the light panel and the size of the image on it. In particular, the points of the dot matrix structure are circular.

Points of a dot-matrix structure form a background or graphic image on the front surface of a panel element. In particular, the dot-matrix structure forms an informational alphanumeric image "EXIT".

For the light siren in question, the front surface of the panel element of which has, in particular, dimensions (150 × 300) mm, the diameters of the points are of the order of 1.5 mm.

The points of the dot-matrix structure are distributed unevenly over the area of the front surface of the panel element.

The distribution of the points of the dot-matrix structure over the area of the indicated surface is determined using a layout - an analog of the light panel in size, material of the panel element, as well as in the type and location of the light source. The desired distribution is obtained by fixing the luminosity pattern of the front surface of the mockup illuminated by a light source, converting the fixed luminosity pattern into a raster monochrome image using a raster graphic computer editor, which is a dot-matrix structure, the density of points of which in places with a higher brightness of the front surface of the layout is less , and in places with a lower brightness, the front surface of the layout is larger. The obtained dot-matrix structure is reproduced on the front surface of the panel element of the light panel.

The dot-matrix structure obtained once in this way can be used in the manufacture of the required number of light panels of a given type.

The device operates as follows.

When the light source is turned on, the light beams emitted by it enter the light guide panel element through its edge. The light beams propagate inside the light guide panel element, experiencing total internal reflection, with their removal from the front surface at the points of the dot-matrix structure, which form sections of the surface optical inhomogeneity on which the light beams are reoriented.

Moreover, due to the fact that the points of the dot-matrix structure are distributed unevenly over the area of the front surface of the panel element in accordance with the luminosity gradient, the illuminated image has almost the same luminosity over the entire area.

Claims (2)

1. A light panel comprising a light guide panel element made of a transparent material, having a front light guide surface, a light source arranged so that light beams emitted from the light source enter the light guide panel element through its edge, and also formed on the front surface of the light guide panel element of a dot-matrix light-output structure, while the area occupied by the points of the dot-matrix structure is not the same in different parts of the front surface panel element, characterized in that the points of the dot-matrix structure are distributed unevenly over the area of the front surface of the panel element, while the distribution of points of the dot-matrix structure over the area of the specified surface is determined using a layout - an analog of the light panel in size and material of the panel element, and also by the type and location of the light source, the indicated distribution being obtained by fixing the luminosity pattern of the front surface of the poppy illuminated by the light source Then, using a raster graphic computer editor, the fixed luminosity pattern is converted into a monochrome raster image, which is a dot-matrix structure, the density of points of which is less in places with a higher brightness of the front surface of the layout, and in places with a lower brightness of the front surface of the layout , and the subsequent reproduction of the obtained dot matrix structure on the front surface of the panel element of the light panel. 2. The light panel according to claim 1, characterized in that the points of the dot-matrix structure have different colors selected in accordance with the color of the image on the front surface of the panel element, and after transferring the fixed luminosity pattern to a raster monochrome image, the colors are restored using a computer points of the dot-matrix structure, and then reproduce the resulting color dot-matrix structure on the front surface of the panel element of the light panel.