KR101523609B1 - Led lighting for concentration light source with uniform - Google Patents

Abstract

The present invention is characterized in that it comprises a plurality of LED cells provided with a heat dissipating member, a light guide plate having a plurality of light control units corresponding to the LED cells, and a cover member for fixing the light guide plate to the housing, The light control unit includes a plurality of lenses sequentially arranged outwardly from the center of the light guide plate, the light partition being protruded so as to form a top surface thereof while being connected to the edge of the light guide plate, And an LED light for forming a uniform central light source installed to cover the outside and the edges of the light guide plate.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an LED illumination device,

The present invention is characterized in that it comprises a plurality of LED cells provided with a heat dissipating member, a light guiding plate having a light dividing portion and a light adjusting unit corresponding to the LED cell, and a cover member for fixing the light guiding plate to the housing, The unit is provided with first and second lenses that are different from each other in the outward direction from the center of the light guide plate and the light partition is provided so as to form an upper face protruding from the edge of the light guide plate, And an LED light for forming a uniform concentrated light source which is installed so as to cover the protruding outer side and the edge of the light guide plate.

Generally, a metal PCB light source used in LED lighting equipment is packaged with several power LEDs.

For example, products such as street lamps and floodlights require light to reach the distance. When a wide light source is required by using a light emitting diode, a large amount of high-output light emitting diodes In this case, a large amount of heat dissipating plate is required depending on the temperature generated from the chip as well as the cost increase factor.

Therefore, in order to solve such a problem, LED lighting products incorporating the technology of lenses are being developed variously.

In the related art, a conventional diffusion lens having a composite lens is disclosed in Japanese Patent No. 1279885. As shown in FIG. 1, a diffuser lens having a reflector, which is coupled with a metal PCB 1 having a photodiode mounted thereon, Shaped concave grooves are formed in a predetermined interval on the outer circumference of the diffuser lens 2 and the concave grooves formed in the rim of the diffusing lens 4 and the concave grooves of the reflector 2 are formed in an L- A boundary lens and a protrusion on one side of the diffusing lens 4 are simultaneously formed on the inner periphery of the diffusing lens 4 so that the compound lens 3 coupled to the diffusing lens 4 is positioned at a position coincident with the photodiode A plurality of hemispherical convex (6) planes are formed.

However, in the diffused lens described above, the light of the photodiode is reflected only by the hemispherical convex surface 6, and a plurality of spots are generated in the entire composite lens, which makes it difficult to form a uniform light source.

Also, there is a disadvantage in that light is diffused through the side surfaces of the compound lens 3 and the diffusion lens 4, resulting in loss of illumination.

SUMMARY OF THE INVENTION It is an object of the present invention to overcome the above-mentioned problems of the prior art, and it is an object of the present invention to make it possible to form a uniform light source without forming a spot on a certain area, So that it is possible to provide illumination that minimizes glare with a minimum power source and forms a uniform concentrated light source that prevents scattering of light in a uniform area by scattering light throughout the light guide plate through diffusion and accumulation of light LED lighting.

In order to accomplish the above object, the present invention provides a light emitting device comprising: a plurality of LED cells provided with a heat dissipating member; a light guide plate having a plurality of light control units and corresponding to the LED cell; Wherein the light regulating unit is provided with lenses sequentially outward from the center of the light guide plate and the light dividing unit is protruded so as to form an upper surface thereof while being connected to the edge of the light guide plate, The member provides LED light that forms a uniform centralized light source that is installed to cover the protruding outer side of the light compartment and the edge of the light guide plate.

The light dividing section of the present invention is provided to have a rectangular cross section protruding from the edge of the light guide plate and provided with a color layer on the upper face and a blackening layer on the inner face.

Further, the light control unit of the present invention provides an LED light that forms a uniform central light source in which a convex lens, a concave lens, and a convex lens are respectively positioned at the center toward the outer diameter side.

In addition, in the light control unit of the present invention, the convex lens, the concave lens, and the convex lens are positioned in the center toward the outer diameter side, while the lenses positioned in the circumferential direction are arranged in the circumferential direction, And provides an LED illumination for forming a focused light source.

The light dividing portion of the present invention is provided so as to have a rectangular cross section protruding between the lenses in the circumferential direction of the light guide plate and has a black layer on both sides where the color layer protrudes on the upper face, To provide LED illumination.

In addition, the lens of the present invention provides an LED light which forms a uniform centralized light source having an incident surface and a reflection surface, which extend to the light collecting portion protruding from the light guide plate and absorb light or disperse the light, respectively.

As described above, according to the present invention, it is possible to form a uniform light source without forming spots in a certain area, to be able to produce various light through a certain area, to uniformly distribute light throughout the light guide plate, The light is scattered throughout the light guide plate through diffusion and integration of light to prevent the spot from being generated in a uniform area.

FIGS. 1 and 2 are an exploded view and a side view showing a diffusion lens incorporating a conventional composite lens.
3 is a perspective view showing an LED illumination according to the present invention.
FIGS. 4 and 5 are an exploded view and a combined state view, respectively, illustrating an LED illumination according to the present invention.
6 and 7 are a cross-sectional view and a state of use of the LED illumination according to the present invention, respectively.
8 and 9 are a state diagram and an external perspective view illustrating the LED illumination according to the present invention, respectively.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 3 is a perspective view illustrating an LED illumination according to the present invention, FIGS. 4 and 5 are an exploded view and an assembled state view illustrating an LED illumination according to an embodiment of the present invention, And FIGS. 8 and 9 are a use state diagram and an external perspective view showing the LED illumination according to the present invention, respectively.

The illumination L of the present invention includes a housing 100 having a heat radiation member 110, a plurality of LED cells 200 connected to the housing 100, A light guide plate 300 having a plurality of light control units 330 and a cover member 400 for fixing the light guide plate 300 to the housing 100.

At this time, the light control unit 330 includes first and second lenses 331 and 333 which are different from each other in the outward direction from the center of the light guide plate.

The light dividing part 310 is installed along the periphery of the light guide plate 300 so as to protrude to form a flat surface thereon.

At this time, it is preferable that the upper surface of the light divider 310 is formed to be parallel to the surface of the light guide plate.

Further, the cover member 400 is installed so as to cover the protruding outer side of the light dividing portion and the edge of the light guide plate.

The light dividing section 310 is provided so as to have a rectangular cross-section protruding from the edge of the light guide plate. The color layer 313 is provided on the upper surface, and the blackening layer 315 is provided on the inner side surface to prevent external reflection of light. do.

The light control unit 330 is provided with a first lens 331 made of a convex lens and a second lens 333 made of a concave lens alternately in the center toward the outer diameter side.

In addition, the light control unit 330 has a convex lens, a concave lens, and a convex lens arranged in a circumferential direction with the convex lens, the concave lens, do.

Subsequently, the light dividing section 310 is protruded to have a rectangular cross section protruding between the lenses in the circumferential direction of the light guide plate, and blackening layers are provided on both sides of the upper surface on which color layers protrude.

The first and second lenses are configured to include an incident surface 330b and a reflecting surface 330c that extend to the light collecting portion 330a protruding from the light guide plate and absorb light or disperse light, respectively .

The operation of the present invention constructed as described above will be described.

3 to 9, the present invention is connected to a plurality of LED cells 200 through a substrate to a housing 100 having a heat dissipation member 110 and a power connection unit (not shown) So that heat generated during the light emission of the LED cell is emitted to the outside through the heat dissipating member 110. [

A light guide plate 300 is disposed on the upper side of each of the LED cells 200 to uniformly irradiate the light emitted from the LED cells 200 to a predetermined area.

At this time, the light guide plate 300 includes a light dividing unit 310 and a plurality of light adjusting units 330 to uniformly irradiate the light to a predetermined area corresponding to the light guide plate 300 without being reflected to the outside .

That is, when the light guide plate 300 is fixed to the housing 100 as the cover member 400, a constant light irradiation area W is formed so as to have the same shape as the inner diameter of the cover member without external light reflection.

When a certain color layer 313 is formed on the upper surface of the light guide plate 300 formed on the light guide plate 300 so as to be parallel to the surface of the light guide plate, And the irradiation area W are formed at the same time, thereby realizing various productions, thereby increasing the concentration of the products to be displayed, thereby increasing the advertising effect.

The light control unit 330 included in the light guide plate 300 includes first and second lenses 331 and 333 that are different from each other in the outward direction from the center of the light guide plate. Uniform scattering effect is realized by uniformly distributing the light uniformly over the entire surface.

The upper surface of the light dividing part 310, which is protruded from the upper part of the light dividing part 310 when the light dividing part 310 is connected along the edge of the light guide plate 300 in a state in which one side is closed, is parallel to the light guide plate, (B) which is not irradiated with light.

When the color layer 313 is formed on the upper surface and the blackening layer 315 is formed on the inner surface of the light dividing portion 310, The light is transmitted only to the upper surface of the light emitting region 310 so that the edge region C, the light irradiation region W, and the non-irradiation region B are accurately separated.

In addition, the light control unit 330 is provided with a convex lens, a concave lens, and a convex lens arranged in the circumferential direction, respectively. The same effect can be achieved.

The light dividing section 310 is provided so as to have a quadrangular cross-section protruding between the lenses in the circumferential direction of the light guide plate, and has a blackening layer on both sides where the color layer protrudes on the upper surface, The edge region C, the light irradiation region W, the edge region C, and the non-irradiation region B are sequentially arranged in the center to enable various kinds of directing.

At this time, the border region C allows various colors to be implemented by the color layer.

In addition, the first and second lenses may include a light incidence surface 330b and a reflection surface 330c, which are extended to the light collecting portion 330a protruding from the light guide plate and absorb light or disperse light, Thereby preventing light loss.

100 ... housing 110 ... radiation member
200 ... LED cell 300 ... light guide plate
310 ... light dividing unit 330 ... light adjusting unit
400 ... cover member

Claims (6)

A light guide plate provided on one side of the LED cell and including a light dividing portion and a plurality of light control units, and a cover member for fixing the light guide plate to the housing,
The light control unit may include first and second lenses sequentially disposed outward from the center of the light guide plate,
The light dividing portion is protruded to form a top surface of the light dividing plate while being connected along the edge of the light guiding plate,
The cover member is provided so as to cover the protruding outer side of the light dividing portion and the edge of the light guide plate,
Wherein the light dividing section has a quadrangular cross section protruding from an edge of the light guide plate and has a blackening layer along the inner side thereof. [2] The LED lighting device of claim 1, wherein the light divider includes a color layer on a top surface of a quadrangular section protruding from an edge of the light guide plate. The LED illumination device according to claim 1, wherein the light control unit is configured to alternately arrange a convex lens, a concave lens, and a convex lens from the center of the light guide plate toward the outer diameter side. The light control unit according to claim 1, wherein the light adjusting unit comprises a light guide plate having a convex lens, a concave lens, and a convex lens arranged in the center of the light guide plate, Wherein the light source is a light source. The light guide plate according to claim 1, wherein the light dividing portion further protrudes between lenses disposed toward the outer diameter side from the center of the light guide plate so as to have a rectangular cross section, and a blackening layer is formed on both sides, Wherein the plurality of light sources are arranged in the same direction. 2. The light-emitting device according to claim 1, wherein the first and second lenses are integrally formed with an incidence surface and a reflection surface, which extend to the light-collecting portion protruding from the light guide plate and absorb light or disperse light, LED light that forms a light source.

Images