RU187085U9 - Light diffuser sheet for LED panels with frontal radiation input - Google Patents

Abstract

The utility model relates to light-scattering means used in LED lighting devices with mechanical radiation input in various fields. The diffuser sheet for LED panels with an end input of radiation is made of plastic and contains a diffuser pattern deposited on its surface. The light-scattering sheet is made by extrusion to obtain, during the manufacturing process, a light-scattering pattern on the front and back sides of the sheet. On the front side of the sheet used as the front side of the LED panel, this pattern is made in the form of parallel ribs, the thickness of which is equal to their height, which ensure the propagation of light along the length of the ribs. The back side of the diffuser sheet is made in the form of a plurality of recesses evenly distributed on the surface of the sheet with a depth of 0.1-0.15 mm, which provide redistribution of the light flux to obtain uniform illumination over the entire surface of the LED panel. The light-scattering sheet is made with a thickness of 2-6 mm and provides a light transmission of up to 92%. Provides a uniform distribution of light, reduces the complexity of manufacturing. 2 ill., 2 tablets

Description

The utility model relates to light-scattering means used in LED lighting devices with frontal radiation input in various fields, for example, lighting devices for lighting rooms, advertising devices, etc., and can be made in the form of panels, sheets, and the like structures various overall dimensions depending on the requirements shown to finished goods.

Currently, the widespread use of light-scattering sheets is due to the increased demand for interior items, advertising products and decorative and architectural lighting of rooms and buildings.

Known diffuser for lighting device, disclosed in the application of Great Britain GB 1314401 A, F21M 3/12, 04/26/1973, made of light-transmitting material and having a convex surface, while its front surface is made with longitudinal and transverse recesses of various shapes intersecting in pairs. These recesses are located in one longitudinal, in one transverse and two diagonal directions. A disadvantage of the known diffuser is the difficulty of manufacturing due to the variety of shapes of the recesses, as well as the insufficient efficiency of light refraction due to the heterogeneity of the recesses, and obtaining these recesses is a laborious and costly process.

Known lamp RU 134612 U1, F21S 4/00, 11/20/2013, which disclosed an LED lamp containing a plastic diffuser, the external surface of which contains corrugations in the form of a light-scattering pattern, obtained by laser engraving. This diffuser does not provide a high degree of light distribution and light transmission.

Also known is the diffuser of the light flux of an LED lamp, disclosed in RU 99105 U1, F21S 13/00, 11/10/2010, on the outer surface of which elements in the form of conjugated hemispheres are made. The specified diffuser does not provide uniform dispersion of the light flux due to the superposition of refracted light rays during the passage of light through hemispheres and is laborious to manufacture.

Known diffuser according to patent RU 104809 U1, H05K 5/00, 11/13/2010, in which the front side of the sheet contains light-scattering particles, and the opposite side contains a reflective coating. The manufacturing technology of this sheet is based on the deposition of particles on the surface of a translucent material, which does not allow to obtain a homogeneous surface structure and to ensure uniform distribution of light flux with high light transmission.

Closest to the claimed utility model is the technical solution according to patent RU 95793 U1, F21V 7/04, 07/10/2010, where a diffuser panel is used, on one side of which is made in the form of separate optically inhomogeneous elements, the combination of which is a diffuser pattern, diffusing the light flux emitted from the end of the panel, while these elements contain photoluminescent fillers, which additionally emit light with the possibility of changing the color rendering of the LEDs, which ensures ivaet long afterglow panel. This design is used mainly in emergency lighting systems, is difficult to manufacture and provides low light transmission due to the heterogeneous distribution of the elements of the light-scattering pattern.

The technical problem is to eliminate the disadvantages of the known technical solutions, which do not ensure uniform distribution of the light flux and high light transmission, as well as are laborious to manufacture, since they require additional operations to apply a light-scattering pattern to the surface, which are produced mainly by laser engraving or silk-screen printing, and additional costs for the specified operation, which also increases the cost of finished products.

To solve this technical problem, a diffuser sheet for LED panels with an end input of radiation, made of plastic, was developed, it was made by extrusion to obtain a diffuser pattern on the front and back sides of the sheet during manufacturing, and the diffuser pattern of the front side of the sheet used as the front side of the LED panel, made in the form of parallel ribs, the thickness of which is equal to their height, and providing light distribution about the length of the ribs, and the back side of the diffuser sheet is made in the form of many evenly distributed recesses with a depth of 0.1-0.15 mm, providing redistribution of the light flux to obtain uniform illumination over the entire surface of the LED panel, while the diffuser sheet is made with a thickness of 2-6 mm and provides light transmission up to 92%.

The technical result provided by the claimed utility model, characterized by the above set of essential features, is to improve the uniformity of the distribution of light flux and increase light transmission with a simultaneous decrease in the complexity and cost of manufacturing.

The above essential features affect the ability to solve the specified technical problem and obtain the technical result provided by the utility model, that is, they are in a causal relationship with the specified result.

The claimed utility model is illustrated by the following drawings.

FIG. 1 is a general view of a diffuser sheet.

FIG. 2 is a schematic view of the installation of a diffuser sheet in a lighting device.

The diffuser sheet is made of plastic by extrusion, during which the diffuser pattern is formed directly during the manufacture of the sheet simultaneously on its front and back sides, i.e. the formation of these surfaces occurs during the extrusion molding of plastic. The front side of the sheet is made in the form of parallel ribs (1), the thickness of which is equal to their height. This side of the sheet is used as the front side of the LED panel and provides light propagation along the length of the ribs. The uniformity of the location of the ribs and their size makes it possible to obtain a uniform distribution of the light flux from the LEDs (4). The back side of the diffuser sheet contains a plurality of recesses (2) evenly distributed over the surface of the sheet with a depth of 0.1-0.15 mm, which redistribute the light flux to obtain uniform illumination over the entire surface of the LED panel. These recesses may have a different shape. The light-scattering sheet is made of a thickness of (3) 2-6 mm and provides a light transmission of up to 92%, provided that its elements are properly made.

These indicators are confirmed by studies conducted during the development of this design solution and tested in LED panels, used in particular in various models of LED lamps, light showcases and interior light panels, for lighting and decoration.

Some basic indicators of the physical and technical characteristics of the resulting sheet are shown in table I:

It is recommended that LED rulers be placed close to the ends of the workpiece, since when referring to the ruler, the surface illumination can be reduced within 1% per 1 mm of area.

Technical characteristics of surface illumination when using the claimed solution in the LED panel are shown in the following diagrams.

Thus, the main feature of the claimed light-scattering sheet is the possibility of its production by extrusion molding to obtain a given light-scattering pattern, which reduces manufacturing costs due to the absence of additional operations for applying the pattern to the surface of the plastic sheet.

The implementation of the front surface of the sheet with ribs that provide uniform light scattering along their length in combination with evenly located recesses on the back side of the sheet, providing redistribution of the light flux from the LED elements, allows to achieve such a high light transmission of the sheet in comparison with the known similar solutions.

Due to the possibility of making the declared light-scattering sheet in the thickness range of 2-6 mm, the opportunity has been created for the production of modern LED lamps, ultra-thin LED panels, decorative lighting panels and interior and street navigation panels, and thereby provide virtually any needs of the domestic market for advertising and artistic lighting, as well as production LED luminaires with minimal costs and minimum waste, which is the best solution a ratio of "price-quality".

Claims (1)

A diffuser sheet for LED panels with an end input of radiation, made of plastic and containing a diffuser pattern deposited on its surface, characterized in that it is made by extrusion to obtain a diffuser pattern on the front and back sides of the sheet during manufacturing, while the diffuser pattern is front of the sheet used as the front side of the LED panel is made in the form of parallel ribs, the thickness of which is equal to their height, and providing light distribution along the length of the ribs, and the back side of the diffuser sheet is made in the form of a plurality of uniformly distributed recesses with a depth of 0.1-0.15 mm, providing redistribution of the light flux to obtain uniform illumination over the entire surface of the LED panel, and the diffuser sheet is made with a thickness of 2 -6 mm and provides light transmission up to 92%.

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