KR101921250B1 - Integrated plastic panel having light guide layer and light spread layer - Google Patents

Abstract

The present invention relates to a plastic panel in which a light guide layer and a light diffusion layer are integrally formed, and more particularly, to a plastic panel in which a light guide layer functioning as a light guide plate and a light diffusion layer, And a plastic panel in which a light-guiding layer and a light-diffusing layer are formed integrally with each other so as to realize a lightweight and low defective rate by making the thickness of the light-diffusing layer very thin, will be.

Description

[0001] The present invention relates to a plastic panel having a light guide layer and a light diffusion layer,

The present invention relates to a plastic panel in which a light guide layer and a light diffusion layer are integrally formed, and more particularly, to a plastic panel in which a light guide layer functioning as a light guide plate and a light diffusion layer, And a plastic panel in which a light-guiding layer and a light-diffusing layer are formed integrally with each other so as to realize a lightweight and low defective rate by making the thickness of the light-diffusing layer very thin, will be.

Generally, an illumination device using a light guide plate projects light onto a light guide plate made of plate-like transparent plastic or acrylic resin through a light source such as a cold cathode ray tube (CCFL) or a light emitting diode (LED) Advertising panels and so on.

As shown in FIG. 1, a conventional lighting apparatus using a light guide plate includes a light reflecting unit 30 for reflecting light toward the front side, that is, a light reflecting plate 30 and a light reflecting pattern 40 A light source unit 20 for generating light toward the side surfaces of the light reflecting units 30 and 40 or the light guide plate 10 and a light source unit 20 provided on the front surface of the light guide plate 10, And a light diffusing plate 50 for diffusing light to be incident on the light guide plate 10 or covering the exposure of the light reflectors 30 and 40 formed on the rear face of the light guide plate 10.

However, since the light guide plate 10 and the light diffusion plate 50 are separately manufactured and stored separately, the manufacturing cost, the processing cost, and the management cost of the light guide plate 10 and the light diffusion plate 50 are increased, The thickness thereof becomes thick and the weight becomes large.

In addition, foreign matter enters between the light guide plate 10 and the light diffusion plate 50 in the process of individually assembling the light guide plate 10 and the light diffusion plate 50, and productivity and quality are deteriorated There is a concern.

Further, since the light guide plate 10 and the optical diffusion plate 50 are separately assembled, there is a problem that a deflection phenomenon of the optical diffusion plate occurs when the lighting apparatus is installed on the ceiling.

In order to solve such a problem, Korean Patent Registration No. 10-1059656 discloses a light diffusing-function integrated light guide plate, which is installed on the upper side of a reflection plate and guides light incident from the side to an upper surface A light guide plate comprising: a light guide plate having a plurality of engraved patterns formed on a lower surface thereof; And a light diffusion pattern layer formed on at least one of an upper surface and a lower surface of the light guide plate and having a light diffusion pattern formed at an obtuse angle on a surface contacting the light guide plate to diffuse and diffuse light through the light diffusion pattern Light can be emitted in a wide area and light can be scattered and diffused through the light diffusion pattern so that light can be emitted in a wide area even if the light diffusion particles are not selectively included in the light diffusion pattern layer .

However, when a light diffusion pattern of a negative angle is formed on one side of the light guide plate as in the conventional art, the light diffusion pattern of the negative angle also acts as reflection or scattering of light generated from the light source and is formed on the opposite side of the light diffusion pattern The function of the light reflection pattern is disturbed, so that the overall brightness of the light guide plate becomes uneven.

In addition, in the case of the above-described related art, since the light diffusion plate and the light guide plate having the light diffusion pattern are separately formed and then attached to each other by a separate process, the light guide plate and the light diffusion pattern layer are integrated, , Not only the productivity is lowered but also the manufacturing cost is increased.

1. Korean Registered Patent No. 10-1059656 (issued on Aug. 25, 2011)

SUMMARY OF THE INVENTION The present invention has been made in order to solve the problems of the prior art as described above, and an object of the present invention is to provide a light guide plate and a light diffusion layer functioning as a light diffusion plate integrally formed on one plastic panel And a plastic panel in which a light-guiding layer and a light-diffusing layer are integrally formed so as to improve the productivity and to reduce the manufacturing cost innovatively.

In addition, the present invention provides a space between the light guide layer and the light diffusion layer so that the light generated from the light source is refracted and totally reflected through the space, thereby allowing the light guide layer and the light diffusion layer to uniformly maintain the overall brightness of the illumination device. The present invention provides a plastic panel formed of a metal plate.

In addition, the present invention can separate the space portion formed between the light guide layer and the light diffusion layer to make the plastic panel structurally stable, reduce the overall thickness and weight of the lighting device including the plastic panel, Another object of the present invention is to provide a plastic panel in which a light guide layer and a light diffusion layer are integrally formed so as to prevent sagging of a plastic panel after installation of an illumination device by a light guide layer and a light diffusion layer.

Further, the present invention is characterized in that a separate thin total reflection induction layer made of a medium having a density lower than that of the light guide layer is additionally formed between the light guide layer and the light diffusion layer, and the total reflection induced by the light source Another object of the present invention is to provide a plastic panel in which a light-guiding layer and a light-diffusing layer are integrally formed so as to prevent a phenomenon in which the illuminance becomes weaker as the light is guided away from the light source.

According to an aspect of the present invention,

A light diffusing layer formed integrally on the entire surface of the light guide layer for diffusing light emitted from the light guide layer; and a space portion formed between the light guide layer and the light diffusion layer .

In this case, the space portions are separated from each other by a predetermined distance.

In addition, the present invention provides a light guiding layer comprising a light guide layer for reflecting or transmitting light generated from a light source, a total reflection induction layer formed integrally on the entire surface of the light guide layer and made of a medium having a density smaller than that of the light guide layer, And a light diffusion layer formed integrally and diffusing light emitted from the total reflection inducing layer.

Here, the total reflection inducing layer is formed of a transparent film layer.

In addition, the light diffusion layer is formed by embossing formed on the outer surface of the total reflection induction layer.

The light diffusion layer is filled with a light diffusion polymer.

Further, the light guide layer is characterized in that a light scattering polymer is introduced.

In addition, the light source is a light emitting diode (LED) installed on a side surface of the light guide layer, and the light emitted from the light emitting diode is irradiated toward the light guide layer at an angle of 30 ° to 110 °.

The manufacturing method of the plastic panel formed integrally with the light guide layer and the light diffusion layer according to the present invention is characterized in that the light guide layer, the total reflection induction layer and the light diffusion layer are integrally extruded at the same time.

In the method of manufacturing a plastic panel in which the light guide layer and the light diffusion layer are integrally formed according to the present invention, the light guide layer and the light diffusion layer are separately formed, and a transparent film made of a medium having a density lower than that of the light guide layer is used. And the light diffusion layer are bonded to each other.

According to the present invention, a light guide layer functioning as a light guide plate and a light diffusion layer functioning as a light diffusion plate can be integrally formed on one plastic panel and produced at the same time, thereby improving productivity and improving the defect rate So that the manufacturing cost can be remarkably reduced.

In addition, according to the present invention, by forming the light-diffusing layer functioning as the light diffusing plate as a single body with the light-guiding layer functioning as a light guide plate, the entire thickness and weight of the plastic panel can be reduced and the raw material cost can be reduced And further has an effect of preventing the plastic panel from sagging.

According to the present invention, a thin total reflection induction layer made of a medium having a density smaller than that of the light guide layer is formed between the light guide layer and the light diffusion layer to induce total reflection of light generated from the light source by the total reflection induction layer, And further has an effect of preventing a phenomenon in which the recorded illuminance is weakened.

1 is a side view showing a conventional lighting apparatus using a light guide plate.
2 is a perspective view showing a plastic panel in which a light guide layer and a light diffusion layer are integrally formed according to the present invention.
3 (a) and 3 (b) are sectional views of AA 'and BB' of the present invention shown in FIG. 2;
4 is a front view showing another embodiment of a plastic panel in which a light guide layer and a light diffusion layer are integrally formed according to the present invention.
5 and 6 (a) and 6 (b) are front views showing still another embodiment of a plastic panel in which a light guide layer and a light diffusion layer are integrally formed according to the present invention.
7 (a), 7 (b) and 7 (c) are cross-sectional views schematically showing various shapes of a light-guiding layer and a light-diffusing layer formed in the process of manufacturing a plastic panel in which a light- .
8 (a) and 8 (b) conceptually show an embodiment of the lighting apparatus using the present invention shown in Fig. 2; Fig.
9 (a) and 9 (b) conceptually show an embodiment of a lighting apparatus using the present invention shown in Fig.
Fig. 10 conceptually shows an embodiment of a lighting device using the present invention shown in Fig. 5; Fig.

Hereinafter, preferred embodiments of a plastic panel in which a light guide layer and a light diffusion layer are integrally formed according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 2 is a perspective view showing a plastic panel in which a light guide layer and a light diffusion layer are integrally formed according to the present invention, FIGS. 3A and 3B are cross-sectional views of AA 'and BB' 4 is a front view showing another embodiment of a plastic panel in which a light guide layer and a light diffusion layer are integrally formed according to the present invention and FIGS. 5 and 6 (a) and 6 7 (a), 7 (b) and 7 (c) are cross-sectional views illustrating a method of manufacturing a plastic panel in which a light guide layer and a light diffusion layer according to the present invention are integrally formed, 8 (a) and 8 (b) are diagrams conceptually showing an embodiment of the lighting apparatus using the present invention shown in Fig. 2, and Fig. 9 (a) and (b) show an embodiment of the lighting apparatus using the present invention shown in Fig. 4 A view showing the Conceptually, Figure 10 is a view showing an embodiment of a lighting apparatus using the present invention is conceptually shown in Fig.

The present invention relates to a plastic panel in which a light guide layer and a light diffusion layer are integrally formed, and more particularly, to a plastic panel in which a light guide layer functioning as a light guide plate and a light diffusion layer, A plastic panel 100 (see FIG. 1) in which a light-guiding layer and a light-diffusing layer are integrally formed, which can reduce productivity by realizing light weight by making the thickness of the light-diffusing layer extremely thin, (Hereinafter, referred to as "plastic panel 100"). The structure includes a light guide layer 110, a light diffusion layer 120, and a space portion 130 .

More specifically, the light guide layer 110 is formed on the rear surface of the plastic panel 100 to reflect or transmit light generated from the light source 210 to the front or rear surface. The light guide layer 110 is made of a transparent plastic material, And functions in the same manner as the light guide plate of the lighting apparatus.

At this time, a light reflection pattern 160 may be formed on the rear surface of the light guide layer 110. The light reflection pattern 160 reflects light generated from the light source 210 toward the front surface of the light guide layer 110 Thereby improving the illumination efficiency of the plastic panel 100 and making the overall brightness of the plastic panel 100 uniform.

The light reflection pattern 160 may be a pattern formed in the back surface of the light guide layer 110, such as a groove, a protrusion or a dot printing pattern. The light reflection pattern 160 may include a light reflection pattern formed by a groove, The size of the light reflection pattern 160 or the size of the light reflection pattern 160 may be varied depending on the distance from the light source 210 in order to uniformly illuminate the front surface of the light guide layer 110. [ Of course, the distance can be changed.

A light scattering polymer (not shown) may be injected into the light guide layer 110. The light scattering polymer scatters light entering the light guide layer 110 from the light source 210, And refracts the light toward the front surface of the light guide plate 110 to improve the illuminance.

The light diffusing layer 120 diffuses light emitted from the light guide layer 110 and is integrally formed on the front surface of the plastic panel 100, that is, on the entire surface of the light guide layer 110.

That is, in the conventional lighting apparatus, since the light guide plate and the light diffusion plate are separately manufactured, assembled and assembled, not only the manufacturing cost and time are increased but also the thickness and weight of the entire lighting apparatus 200 are increased A light guide layer 110 functioning as a light guide plate and a light diffusion layer 120 serving as a light diffusion plate are integrally formed on one plastic panel 100, It is possible to greatly reduce the time and cost required for manufacturing the lighting apparatus 200 and to reduce the thickness and weight of the lighting apparatus 200 as a whole.

In this case, a light diffusion polymer (not shown) may be injected into the light diffusion layer 120. The light diffusion polymer scatters light emitted from the light guide layer 110 to diffuse the light diffusion in the light diffusion layer 120 Thereby improving the uniformity of light emitted through the light diffusing layer 120.

When the light diffusing polymer is injected into the light diffusion layer 120 as described above, the light reflection pattern 160 or the light source 210 formed on the rear surface of the light guide layer 110 by the light diffusion polymer is applied to the light diffusion layer 120).

The space 130 is formed at the interface between the light guide layer 110 and the light diffusion layer 120 so that the entire surface of the light guide layer 110 and the light diffusion layer 120 are not integrally formed So as to obtain an illumination with uniform illumination as a whole.

That is, the density of the light diffusion layer 120 made of a milky white material is higher than that of the light guide layer 110 made of a transparent material, and the milky white material constituting the light diffusion layer 120 also plays a role of the light reflection pattern 160 The light generated from the light source 210 provided on the side surface of the light guide layer 110 is incident on the light diffusion layer 120 The total reflection is not caused by the density difference between the light guide layer 110 and the light diffusing layer 120, and the light is refracted and emitted to the outside. As a result, as the distance from the light source 210 is reduced, the illuminance is reduced The density of the space 130 is smaller than the density of the light guide layer 110 when the predetermined space 130 is formed between the interface between the light guide layer 110 and the light diffusion layer 120, The light generated from the light- A part of the light generated in the light source 210 is totally reflected in the space 130 and propagated far away from the light source 210 in the direction away from the light source 210. Therefore, It will be.

The space 130 may be formed only inside the plastic panel 100 or may extend through the plastic panel 100 in the longitudinal direction or the width direction. It is preferable that the space 130 is divided into a plurality of spaces so that light emitted to the front surface of the plastic panel 100 can be uniformly formed.

That is, as shown in FIGS. 3A and 3B, the space portions 130 are separated from each other by a predetermined distance so that the light guide layer 110 and the light diffusion layer 130 are interposed between the space portions 130, The plastic panel 100 can be structurally stabilized by forming the connecting portions between the plastic panel 100 and the plastic panel 100 by reducing the weight of the plastic panel 100 by the space 130, So that the plastic panel 100 can be prevented from being sagged when the lighting device 200 is installed on the ceiling.

When the space 130 is divided into a plurality of spaces as described above, the light guide layer 110 and the light diffusion layer 120 formed at the intermediate portion of the plastic panel 100 may be separated from the light source 210 The light emitted through the front surface of the plastic panel 100 can be more uniformly emitted.

4, the plastic panel 100 may further include a second light diffusion layer 140 and a second space 150, as shown in FIG. 4, The second light diffusion layer 140 is formed on the rear surface of the light guide layer 110 and the second space 150 is formed between the second light diffusion layer 140 and the interface between the light guide layer 110. [ And functions the same as the light diffusion layer 120 and the space 130 described above.

That is, the above embodiment is mainly used to allow light to be emitted to both the front surface and the back surface of the plastic panel 100. The light diffusion polymer 120 includes a light diffusion polymer and a plurality of space portions 130 The second light diffusion layer 140 and the second space 150 may be equally applied to the first light diffusion layer 140 and the second light diffusion layer 150, respectively.

5 (a), the total reflection induction layer 112 may be integrally formed on the entire surface of the light guide layer 110. In this case, In this case, the light diffusion layer 120 is integrally formed on the entire surface of the total reflection induction layer 112.

That is, the total reflection inducing layer 112 serves as the space 130 in the above-described embodiment by making the total reflection inducing layer 112 made of a medium having a smaller density than the light guide layer 110.

10, a total reflection induction layer 112 made of a medium having a smaller density than that of the light guide layer 110 is formed on the entire surface of the light guide layer 110 and a total reflection induction layer 112 is formed, A part of the light generated from the light source 210 is refracted in the direction away from the light source 210 in the total reflection inducing layer 112 and the remaining light is refracted in the total reflection inducing layer 112, The light is totally reflected from the rear surface of the layer 112, that is, at the interface between the light guide layer 110 and the total reflection inducing layer 112 and propagates far away from the light source 210. Therefore, It will be possible to do.

As the density of the total reflection inducing layer 112 is made smaller than the density of the light guide layer 110, the total amount of total reflection at the interface between the light guide layer 110 and the total reflection inducing layer 112 increases, It is easy to make the overall brightness uniform.

5 (b), the total reflection inducing layer 112 may be formed of a transparent film layer using a transparent film material. In the same manner as in the above-described embodiment, The second total reflection inducing layer 114 made of a medium having a smaller density than the light guide layer 110 is integrally formed thin and the second light diffusing layer 140 is integrally formed on the rear surface of the second total reflection inducing layer 114 The second total reflection inducing layer 114 may serve as the second space 150 in the above-described embodiment.

6 (a), a plurality of embossings 122 may be formed on the outer surface of the total reflection inducing layer 112. The embossing 122 may include a light reflection pattern 160 And functions of the light diffusing layer 120 simultaneously.

More specifically, the embossing 122 is configured to refract and diffuse the light irradiated through the light guide layer 110 and the total reflection guide layer 112. The light guide layer 110 has a light reflection pattern The embossing 122 may serve as the light reflection pattern 160 and the light reflection pattern 160 may be formed on the rear surface of the light guide layer 110. In this case, The light reflection pattern 160 formed on the rear surface of the light guide layer 110 is not exposed to the front surface of the plastic panel 100 due to refraction or diffuse reflection of the light guide layer 110. [

That is, when the light reflection pattern 160 is exposed to the front surface of the plastic panel 100, there is a possibility that the beauty of the entire lighting device 200 may be damaged. Therefore, a plurality of embossings 122 So that the light reflection pattern 160 is prevented from being exposed to the outside.

When a plurality of embossings 122 are formed on the outer surface of the total reflection inducing layer 112 as described above, the embossing 122 functions as the light diffusion layer 120, It is possible to reduce the manufacturing cost of the plastic panel 100 and to provide a light diffusion polymer 120 in the light diffusion layer 120. In addition, It has an advantage that the light transmittance can be improved more than when it is supplied.

6 (b), even when the second total reflection inducing layer 114 is formed on the rear surface of the light guide layer 110, the second total reflection inducing layer 114 is formed on the outer surface of the second total reflection inducing layer 114, The second embossing 142 may be configured to perform the role of the second light diffusing layer 140 by forming the embossing 142.

Hereinafter, a method for manufacturing a plastic panel in which a light guide layer and a light diffusion layer are integrally formed according to the present invention will be described in detail with reference to the accompanying drawings.

First, the method of manufacturing a plastic panel according to the present invention is characterized in that the light guide layer 110 and the light diffusion layer 120 are integrally extruded at one time using one mold.

3, a plastic material to be used as the light guide layer 110 and a plastic material to be used as the light-diffusing layer 120 may be used as the plastic panel 100 shown in Fig. The light guide layer 110 and the light diffusing layer 120 are integrally formed by integrally molding the light guide layer 110 and the light diffusing layer 120, The plastic panel 100 in which the plastic film 130 is formed can be manufactured.

Similarly, in the case of another embodiment of the plastic panel 100 shown in Fig. 4, a mold having a cross-sectional shape as shown in Fig. 4 is prepared and a plastic material to be used as the light guide layer 110, The light guide layer 110, the light diffusion layer 120 and the second light diffusion layer 140 are integrally formed by integrally molding the light guide layer 110 and the diffusion layer 140, (100) having a space portion (130) and a second space portion (150) formed at a boundary portion between the light guide layer (110) and the second light diffusion layer (140) .

5, a mold having a rectangular sectional shape is prepared, and a plastic material to be used as the light guide layer 110 and a plastic material used as the total reflection inducing layer 112 or the total reflection inducing layer 112, A plastic material to be used as the light guide layer 112 and the second total reflection inducing layer 114 and a plastic material to be used as the light diffusion layer 120 or the light diffusion layer 120 and the second light diffusion layer 140 are prepared, And the total reflection inducing layer 112 and the total reflection inducing layer 112 and the light diffusing layer 120 or the light guide layer 110 and the total reflection inducing layer 112, the total reflection inducing layer 114, the light diffusing layer 120, 140 can be integrally formed at the same time.

Meanwhile, in another embodiment of the method for manufacturing a plastic panel according to the present invention, the light guide layer 110 and the light diffusion layer 120 are extrusion-molded using respective molds, The light guide layer 110 and the light diffusion layer 120 may be integrally formed by laminating the light guide layer 110 and the light diffusion layer 120. The light guide layer 110 and the light diffusion layer 120 may be formed between the light guide layer 110 and the light diffusion layer 120, The light guide layer 110 and the light diffusion layer 120 can be more firmly bonded to each other and the transparent film serves as the total reflection guide layer 112 .

8 (a) and 8 (b), when the space portion 130 is formed between the light guide plate portion 110 and the light diffusion plate portion 120, A mold having a protrusion having a height equal to the width of the space 130 may be provided in the diffusion layer 120 or a mold may be provided in both the light guide layer 110 and the light diffusion layer 120, And a space 130 is formed between the light guide layer 110 and the light diffusion layer 120 after the extrusion molding is prepared by preparing a mold for forming a protrusion having a height corresponding to half the width of the portion 130 .

An illumination device 200 (hereinafter, referred to as 'illumination device 200') using a plastic panel in which a light guide layer and a light diffusion layer according to the present invention are formed integrally has a structure in which a light source A light emitting diode (LDE) may be used as the light source 210 at this time.

In the case of the plastic panel 100 according to the first embodiment including the light guide layer 110, the light diffusion layer 120 and the space portion 130, the side surface or the rear surface of the plastic panel 100, When the light source 210 is installed on the side surface or the rear surface of the layer 110 and the light source 210 is provided on the side surface of the plastic panel 100, a light reflector 220 is installed on the rear surface of the light guide layer 110 So that the light generated from the light source 210 can be reflected toward the front surface.

8 (a) and 8 (b), when the light source 210 is installed on both sides of the plastic panel 100 in the longitudinal direction or in the width direction, A light reflection pattern 160 formed on the rear surface of the light guide layer 110 and a light reflection plate 220 provided on the rear surface of the light guide layer 110 are reflected to the front surface of the light guide plate 110 to pass through the space portion 130 and the light diffusion layer 120, 100).

Next, the plastic panel 100 according to the second embodiment including the light guide layer 110, the light diffusion layer 120, the second light diffusion layer 140, the space part 130 and the second space part 150 The light source 210 may be installed on the side surface or the rear surface of the plastic panel 100. When the light source 210 is installed on the side surface of the plastic panel 100 as shown in FIG. The light generated from the light source 210 passes through the light guide layer 110, the space 130 or the second space 150 and the light diffusion layer 120 or the second light diffusion layer 140, The front and rear surfaces of the plastic panel 100 can be illuminated to illuminate both the front surface and the rear surface of the plastic panel 100.

9 (b), when the light source 210 is provided on the rear surface of the plastic panel 100, light generated from the light source 210 is directly reflected by the second light diffusion layer 140 The light is guided to the front surface of the plastic panel 100 through the second space 150, the light guide layer 110, the space 130, and the light diffusion layer 120.

10, when the plastic panel 100 is composed of the light guide layer 110, the total reflection induction layer 112 and the light diffusion layer 120, the light source 210, that is, the light emitting diode (LED) The light emitted from the LED light source 210 may be irradiated toward the light guide layer 110 at an angle of 30 ° to 110 °.

That is, in the case of a lighting apparatus using a conventional light guide plate of side illumination type, a light diffusion plate is attached to the front surface of the light guide plate, a medium of an air layer is provided between the light guide plate and the light diffusion plate, When the total reflection inducing layer 112 is integrally formed between the light guide layer 110 and the light diffusing layer 120 instead of the air layer as in the present invention, the density of the total reflection inducing layer 112 is relatively higher than that of the air layer The light incident angle of the LED light source 210 is maintained at 120 degrees as in the conventional case. Therefore, when the light guide layer 110 and the total reflection induction layer 210 of the total light amount injected from the LED light source 210 to the inside of the light guide layer 110, The amount of light reaching the central portion of the light guide layer 110, that is, the center portion of the plastic panel 100, decreases, and the center portion becomes relatively dark. Is so concerned about the symptoms appear.

Therefore, by reducing the irradiation angle of the light emitted from the LED light source 210 provided on both sides of the light guide layer 110 to less than 120 degrees, the total reflection induced by the total reflection induction layer 112 can be more easily performed, So that the brightness of the lighting apparatus 200 can be maintained as uniform as possible.

The angle of light emitted from the LED light source 210 may be reduced as the thickness of the light guide layer 110 is reduced. The light irradiation angle of the LED light source 210 may range from 30 ° to 110 ° It is preferable to adjust the thickness of the light guide layer 110 according to the thickness of the light guide layer 110.

Therefore, according to the plastic panel 100 in which the light guide layer and the light diffusion layer according to the present invention are integrally formed as described above, the light guide layer 110 serving as a light guide plate and the light diffusion layer 120 serving as a light diffusion plate, Can be formed integrally with one plastic panel 100 and can be produced at the same time. Thus, productivity can be improved and defective rate due to assembly tolerance can be reduced, and the manufacturing cost can be reduced remarkably. The entire thickness and weight of the plastic panel 100 can be reduced and the raw material cost can be reduced by forming the light diffusing layer 120 integrally with the light guide layer 110 functioning as a light guide plate, It is possible to prevent the plastic panel 100 from being sagged after the installation of the optical waveguide layer 110 and to provide a medium having a density lower than that of the light guide layer 110 between the light guide layer 110 and the light diffusion layer 120 The total reflection inducing portion 112 may be formed so as to induce total reflection of the light generated from the light source 210 by the total reflection inducing portion 112 so as to prevent the illuminance from becoming weaker as it is separated from the light source 210 Which has various advantages.

Although the embodiments described above describe the most preferable example of the present invention, the present invention is not limited to the above-described embodiments, and the configuration of the plastic panel in which the light guide layer and the light diffusion layer are integrally formed can be used for other purposes than the lighting apparatus It will be apparent to those skilled in the art that various changes and modifications may be made without departing from the spirit of the invention.

The present invention relates to a plastic panel in which a light guide layer and a light diffusion layer are integrally formed, and more particularly, to a plastic panel in which a light guide layer functioning as a light guide plate and a light diffusion layer, And a plastic panel in which a light-guiding layer and a light-diffusing layer are formed integrally with each other so as to realize a lightweight and low defective rate by making the thickness of the light-diffusing layer very thin, will be.

100: plastic panel 110: light guide layer
112: total reflection induction layer 114: second total reflection induction layer
120: light diffusion layer 122: embossing
130: space part 140: second light-diffusing layer
150: second space part 160: light reflection pattern
200: illumination device 210: (LED) light source
220: Light reflector

Claims (10)

delete delete A light guide layer formed on the back surface of the light reflection pattern to reflect or transmit light generated from the light source,
A total reflection inducing layer which is integrally formed on the entire surface of the light guide layer and is made of a medium having a density lower than that of the light guide layer to refract a part of the light emitted from the light source in a direction away from the light source, and,
The light guiding layer is formed on the outer surface of the total reflection inducing layer to refract and diffuse light emitted through the light guiding layer and the total reflection inducing layer to function as a light reflection pattern and function as a light diffusion layer, And a plurality of embossings for preventing the formed light reflection pattern from being exposed to the front surface of the plastic panel,
Wherein the light source is a light emitting diode (LED) provided on a side surface of the light guide layer, and the light generated from the light emitting diode is irradiated at an angle of 30 ° to 110 ° toward the light guide layer. Lt; / RTI >
delete The method of claim 3,
Wherein a second total reflection inducing layer made of a material having a lower density than that of the light guide layer is integrally formed on the rear surface of the light guide layer and a plurality of second embossments are formed on an outer surface of the second total reflection inducing layer. And the light diffusion layer are integrally formed.
delete delete delete delete delete

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