KR20090003430U - Light-guide led light - Google Patents

Abstract

The present invention relates to a luminaire structure of a light guide LED, and is mainly made of a concave accommodating space that is directly installed in a chassis of a lamp or placed in a building, furniture, or other practical appliances, and is made of a material having high light transmittance. A light guide plate which is disposed at the front surface and has a very clear light transmitting layer at the front, and is integrally formed on the rear surface, and is installed in the gap between the concave accommodating space and the light guide plate so as to cover the reflective layer in the shape of a continuous continuous flake and a large number of concave bent shapes. It consists of a plurality of LEDs shining toward the middle from the lateral direction of the light guide plate.

Such a structure enlarges the projection refraction angle of light via an arc-shaped concave bent reflective layer, improves the illumination range, and overcomes multiple light spots. The light source that comes out is uniform, bright, stable, and does not have the best lighting effect.

Description

Light fixture structure of light guide LED {LIGHT-GUIDE LED LIGHT}

The present invention relates to a luminaire structure of a light guiding LED, and is particularly composed of a plurality of LEDs irradiated from the light guide plate, and the arc-shaped bent shape molding specially studied by the reflective layer inside the light guide plate. In addition, the lighting apparatus which obtains the best reflection effect effectively not only overcomes multiple lighting, but also relates to improving the range of illumination and making the light emission more uniform and bright.

The invention of the lamp has already been a long time since its origin. In line with the ever-increasing standard of living, the industry actively researches and develops lighting fixtures that decorate modern illuminations with various appearances. Because of the high market demand, we consider many functional improvements and practicalities.

However, regardless of any changes in the luminaire, the use of bulbs or lamps inside has not changed. Thus, the problem of the loss of electrical energy and the heat generation still exist, and the environmental temperature has also increased accordingly. In extreme cases, fluorescent lamps, which are frequently used in residential life, may ignite, twinkle, and become unstable, and may always injure eyes.

The new generation of light emitting unit LEDs is at least ten years longer than current lighting systems and has lower power consumption. In addition, since LEDs do not contain mercury and are harmless to the environment, they are likely to be the best light sources in the future.

By the way, since light emission of LED is unidirectional and it is hard to disperse | distribute itself uniformly, the light irradiation of the luminaire of stagnation composition cannot be effectively improved. In order to overcome such defects, the most frequently seen method is to construct a large number of LEDs, multi-angle distribution, and aggregation. As a result, since the appearance is multi-directional and multi-angle arrangement, not only the production difficulty and cost increase but also the emission dispersion effect of the light is too limited and cannot be said to be complete. In the case of using multiple LEDs, the overlapping crossover of multiple beams is likely to be a major fatality that can not replace traditional lighting.

In view of this, the creator of the present invention previously proposed an improved structure of the light guide plate and was recognized as Taiwan's publication number M306666. Its structure is mainly made of light guide foil and high light transmission material. A very clear light transmitting layer is provided in front of it, and the reflective layer is covered so as to be integrally molded on the back side. At the time of implementation, there is an arc-shaped convex transmission portion (as in Claim 7) so that the middle of the reflective layer faces inward. This creates a very thin luminaire with a light source shining from the side, and the projection light is uniform and bright, effectively improving the range of illumination as well as solving the known multiple light defects of LEDs conventionally.

Such a structure achieves an excellent application effect, and the reflection layer installed therein is only the simplest arrangement of the convex transmission portion, so that the arrangement of the reflection angle of each portion is also not complete. The inventors of the present invention devised and researched and improved the new generation products with better reflection effect and more uniform luminescence as a result of active research and improvement.

Therefore, the main object of the present invention is to design a luminaire structure of a light guide LED and to be composed of a plurality of LEDs shining from the side with the light guide plate. The reflection layer in the interior of the light guide plate has the arc-shaped bending shape studied in particular, and the luminaire which obtains and produces the best reflection effect in the application effectively not only overcomes multiple lighting, but also improves the range of illumination and emits light. This is more evenly bright.

In order to achieve the above object, the luminaire structure of the light guide LED of the present invention is mainly made of a concave accommodating space which is directly installed in a chassis of a lamp or placed in a building, furniture, or various practical apparatuses, and a material having high light transmittance. A light guide plate disposed in the concave accommodating space and covering the reflective layer of a continuous convex and arc-shaped concave bending cross section to install an integrally transparent light transmitting layer at the front side and to be integrally molded on the back; concave accommodating space and the light guide plate It is provided in the gap with and consists of several LED which illuminates toward the middle from the lateral direction of a light guide plate. With such a structure, the projection refracting angle of the light is enlarged through the arc-shaped concave bent reflective layer, the illumination range is improved, and multiple light projections are overcome. The light source that comes out is uniform, bright, stable, and does not have the best lighting effect.

According to the present invention, the angle of refraction of light is enlarged through the concave bent reflective layer with many arcs, the illumination range is improved, and multiple light projections are overcome. The light source that comes out is uniform, bright, stable, and does not have the best lighting effect.

DETAILED DESCRIPTION OF THE EMBODIMENTS In order to understand the objects, features, and the like employed in forming the present invention, the present invention will be described in detail with reference to the accompanying drawings.

<Example 1>

First, referring to FIGS. 1 to 5, it is as follows. The luminaire structure of the light guide LED of the present invention is mainly formed of the following elements. The concave accommodating space 11 is directly installed in the chassis 1 of the lamp or in various practical appliances such as buildings, furniture and the like.

The light guide plate 2 is made of a material having a high light transmittance and is disposed in the concave accommodation space 11. A transparent light transmitting layer 21 is provided in front of it, and the reflective layer 3 in the shape of a continuous continuous flake is covered so as to be integrally molded on the rear surface. The cross section of the reflective layer 3 becomes a concave bent shape with many arcs. At its distal end there is a symmetrical bottom 31 close to a straight line. The symmetric bending part 32 with a large arc degree is arrange | positioned at two shoulders, and the protrusion part 33 in which the bending part of a V-shaped arc is protruded in the middle is provided.

The plurality of LEDs 4 are provided in the gap between the concave accommodating space 11 and the light guide plate 2 and are directed toward the middle from the side surface direction of the light guide plate 2.

In the above components, after assembly as shown in FIGS. 2 to 4, the LED 4 emits light toward the middle from two sides of the light guide plate 2. The symmetrical bottom portion 31 near the straight line at both ends of the reflective layer 3, the symmetrical bent portion 32 with large arcs on both shoulders, and the extremely protruding portion 33 of the bending of the V-shaped arc in the middle. The light source is uniform, bright, stable, and not shining because the light is reflected by the arc-shaped concave bend in the light guide plate 2, the projection angle is enlarged, and the illumination range is improved. have.

As shown in Figs. 2 and 5, an elongated concave groove 25 penetrating parallel to both sides of the light guide plate 2 may be added, and the strength of the structure is increased and the length of the light guide plate 2 is increased. Do not deform either. In the case of use after assembly, the LED 4 is deeply recessed into the recess 25, that is, the light guide plate 2 is fully illuminated so as to closely attach the light source. As a result, light leakage is reduced and an excellent luminous effect is obtained.

<Example 2>

Referring to Figures 6 to 10 as follows. The luminaire structure of the light guide LED of the present invention is mainly formed of the following elements.

The concave accommodating space 11 is directly installed in the chassis 1 of the lamp or placed in a building, furniture, or various practical appliances.

The light guide plate 2 is made of a material having a high light transmittance and is disposed in the concave accommodation space 11. A transparent light transmitting layer 21 is provided in front of it, and the reflective layer 3 in the shape of a continuous continuous flake is covered so as to be integrally molded on the rear surface. The light guide plate 2 has an incident surface 22 of light on a single side. Adjacent front sides become the light emitting surface 23. The cross section of the reflective layer 3 becomes a concave bent shape with many arcs, and is provided at a diagonal of the light incident surface 22 and the light emitting surface 23. At one end close to the light source, there is a bottom portion 39 of planar relaxation. After that, a bent portion 38 having a large arc is provided, and a longer inclined portion 37 is connected in the middle. At the end, a bent portion 36 having a small arc is provided.

The plurality of LEDs 4 are provided in the gap between the recessed accommodating space 11 and the light guide plate 2 and are illuminated toward the middle from the side surface direction of the light guide plate 2.

In the above components, after assembly as shown in Figs. 7 to 9, the LED 4 shines laterally from the incident surface 22 of the light of the light guide plate 2 and emits light inward. Light is reflected through the bottom 39 of the planar relaxation of the reflective layer 3, the symmetrical bent portion 38 having a large degree of arcing at the back, the inclined portion 37 in the middle, and the bent portion 36 having a small degree of arcing at the end. In 3), the light source is uniform and bright due to the reflection of arc-shaped concave bends, the projection angle is enlarged, and the illumination range is improved. You can get the best lighting effect.

For the same reason, as shown in Figs. 6 and 10, an elongated concave groove 25 penetrating in parallel to both sides of the light guide plate 2 may be added, and the strength of the structure is increased and the length of the light guide plate 2 is increased. Even if it does not deform. In the case of use after assembly, the LED 4 is deeply recessed into the recess 25, that is, the light guide plate 2 is fully illuminated so as to closely attach the light source. As a result, light is reduced and leakage is excellent.

In addition, as shown in Fig. 11, such a new structure arrangement can extend the structure in a single direction of projection, and thus can replace the current fluorescent lamp in application. Paralleling the string of LEDs to the same concave accommodating space 11 or chassis 1 can replace the known ceiling fitting mechanism and provide better lighting effects.

In summary, the structure of the present invention is effective, compact, and practical, and effectively improves the lighting range and effect to a far superior level than before. Because of its progressiveness and industrial use value, utility models are claimed in accordance with the law.

However, the above description is only specific embodiments that present the objects, features, and effects. In the technical idea of the present invention, no matter what local changes or modifications by those skilled in the art are included in the claims of the present invention.

1 is a plan view of the assembly of the installation method in the concave receiving space according to the present invention.

Figure 2 is a plan view of the assembly of the method installed in the chassis by the present invention.

3 is a three-dimensional appearance of the light guide plate according to the present invention.

4 is an embodiment applied by the present invention.

5 is a plan view of installing an elongated concave groove on the side of the light guide plate according to the present invention.

Figure 6 is a plan view of the assembly of the installation method in the concave receiving space according to an embodiment of the present invention.

Figure 7 is a plan view of the assembly method of the chassis according to an embodiment of the present invention.

8 is a three-dimensional appearance of the light guide plate according to the embodiment of the present invention.

9 is an embodiment applied by an embodiment of the present invention.

10 is a plan view of installing an elongated concave groove on the side of the light guide plate according to one embodiment of the present invention.

11 is an application explanatory diagram in which a plurality of LEDs are arranged in parallel according to one embodiment of the present invention.

<Description of Major Codes in Drawings>

1: chassis of lamp 2: light guide plate

3: reflective layer 4: light emitting LED

11: concave accommodating space 21: light transmitting layer

22: incident surface of light 23: emitting surface of light

25: recessed groove 31: bottom

32: bend portion 33: protrusion

36: bent portion 37: inclined portion

38: bend 39: bottom

Claims (7)

In the luminaire structure of the light guide LED, Concave accommodation space, Made of a material with high light transmittance, arranged in a concave accommodating space, and having a transparent light transmitting layer on the front side, the concave bent shape having a large number of continuous thin flakes and an arc shape so as to be integrally molded on the back side. A light guide plate covering a reflective layer of a cross section, having a symmetrical bottom close to a straight line at the distal end, having a large symmetrical bent portion at two shoulders, and having a protrusion in which a bend of a V-shaped arc protrudes in the middle; It is composed of a plurality of LEDs installed in the gap between the concave receiving space and the light guide plate and shining toward the middle from the side direction of the light guide plate, By the above structure, the projection refraction angle of the light is enlarged, the illumination range is improved, and multiple light spots are overcome, and the emitted light source is uniform, bright, stable, and not shiny, and the best light effect is obtained. Lighting fixture structure. In the luminaire structure of the light guide LED, A chassis for installing a recessed space therein, Made of a material with high light transmittance and disposed in the concave accommodating space, a transparent light transmitting layer is provided on the front side, and covers the reflective layer of the concave and concave bent cross section of stagnant continuous flakes to be integrally molded on the back, and at the end. A light guide plate having a symmetrical bottom close to a straight line, having a large arc-shaped symmetrical bent portion on two shoulders, and having a protrusion in which the bend of the V-shaped arc protrudes in the middle; It is provided in the gap between the concave accommodating space and the light guide plate, and consists of a plurality of LEDs shining toward the middle from the side surface direction of the light guide plate, By the above structure, the projection refraction angle of the light is enlarged and the illumination range is improved, thereby overcoming multiple light spots, and the light source of the light guiding LED is characterized in that the light source is uniform, bright, stable and not shiny. Framework structure. The method according to claim 1 or 2, A light fixture structure of a light guide LED, characterized in that there is an elongated concave groove penetrating parallel to both sides of the light guide plate. In the luminaire structure of the light guide LED, Concave accommodation space, Made of a material with high light transmittance, disposed in the concave accommodating space, and provided with a transparent light transmitting layer on the front side, covering the reflective layer of the stagnant continuous flaky and arc-shaped concave bent cross section so as to be integrally molded on the back, the reflective layer It is provided between the incidence surface of this light and the diagonal of the light emission surface, arrange | positions the bending of at least 2 other arcs in the cross section, and has the bottom part which smoothed the plane at one end close to a light source, and after this, the bend part with large arcs is provided, A light guide plate which is connected to a longer inclined portion at the end thereof, and is provided with a bent portion having a small arc at the end of the tail; It is provided in the gap between the concave accommodating space and the light guide plate, and consists of a plurality of LEDs shining toward the middle from the side surface direction of the light guide plate, By the above structure, the projection refraction angle of the light is enlarged and the illumination range is improved, thereby overcoming multiple light spots, and the light source of the light guiding LED is characterized in that the light source is uniform, bright, stable and not shiny. Framework structure. In the luminaire structure of the light guide LED, A chassis for installing a recessed space therein, Made of a material with high light transmittance, disposed in the concave accommodating space, and provided with a transparent light transmitting layer on the front side, covering the reflective layer of the stagnant continuous flaky and arc-shaped concave bent cross section so as to be integrally molded on the back, the reflective layer It is provided between the incidence surface of this light and the diagonal of the light emission surface, and arrange | positions the bending of at least 2 different arcs in the cross section, and has the bottom part 39 which the plane smoothed at one end close to a light source, and the bend part with a large arc A light guide plate which is installed and connected with a longer inclined part in the middle, and a bent part with a small arc at the end, It is provided in the gap between the concave accommodating space and the light guide plate, and consists of a plurality of LEDs shining toward the middle from the side surface direction of the light guide plate, By the above structure, the projection refraction angle of the light is enlarged, the illumination range is improved, and multiple light spots are overcome, and the light source structure of the light guiding LED obtains the best lighting effect which is uniform, bright and stable and not shiny. . The method according to claim 4 or 5, A light fixture structure of a light guide LED, characterized in that there is an elongated concave groove penetrating parallel to both sides of the light guide plate. The method according to claim 4 or 5, The light guide structure of the light guide LED, characterized in that the light guide plate and the light emitting LED with a lot of parallel lines in the concave accommodating space.

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