KR101186454B1 - Structure for 3d display pannel - Google Patents

Abstract

PURPOSE: A light diffusion three-face structure for a stereoscopic sign is provided to increase protrusion sense of figure or character for advertisement, thereby improving an advertising effect. CONSTITUTION: A light diffusion three-face structure for a stereoscopic sign is comprised of a light source part and a stereoscopically formed part(200). The light source part is comprised of a light source(110), a printed circuit board(120), and a lower heat discharging board(130). The printed circuit board arranges the light source according to a constant pattern and forms a heat discharge board on the top. The lower heat discharging board easily performs the reflection of light and heat release. The stereoscopically formed part comprises a molding part, an internal diffusing part(220), an external diffusing part(230), and a light diffusing sheet. The molding part comprises a receiving part for the attachment of the light source part. The internal diffusing part radiates light emitted from the light source to outside.

Description

Light Diffusion Three-Side Structure for Stereoscopic Signs {STRUCTURE FOR 3D DISPLAY PANNEL}

The present invention relates to a light diffusing triangular structure for a three-dimensional signage, and more particularly, by efficiently constructing the diffusion portion on the accommodating portion side of the three-dimensional portion, and mounting the light source portion inside the accommodating portion, Evenly distribute color and brightness. To this end, the present invention relates to a light diffusing three-side structure for three-dimensional signage that can sequentially install light diffusion plates inside and outside the structure to induce a three-dimensional appearance of the structure, and increase the feeling of protrusion of characters or figures.

In general, various forms of signboards are used as advertising means to promote the brand image of the company and the sale of the produced products. Such advertising signboards are usually installed in sales floors, outdoor spaces of building structures, exhibition halls, roads, and the like. It is most important that such advertisement signboards express more advertising effect at a lower cost to maximize the efficiency of the advertisement.

The signboard for advertisement is provided with a flat signboard formed by placing letters and figures on a substantially rectangular panel and the letters and figures of the content to be displayed in a protruding shape, and a light source is placed therein to be recognized by the protruding shape during the day. At night with low illumination, characters and figures may be visually recognized by the light of the light source to be divided into three-dimensional signs to enhance the advertising effect.

Advertisement signage according to the prior art is provided with a lower frame having a predetermined receiving space inside, the lower end of the lower frame is fixed to the building structure. It is provided with a printed circuit board having a plurality of light emitting diode elements which are located in the receiving space of the lower frame and emits light as power is supplied. In addition, the upper portion of the lower frame is provided with an acrylic plate to express the light emitted from the light emitting biode device to the outside. The upper frame has a shape in which the upper side is partially cut, and the upper frame is fixed to the lower frame by fastening means such as bolts so that the acrylic plate does not escape from the upper surface of the lower frame.

Advertisement signage according to the prior art as described above can be confirmed even from a dark place in a dark place by brightly expressing the characters and figures that you want to advertise by illuminating the light after installing the light emitting element in the rear, usually one building In reality, because many billboards for advertising are installed, because it is the same structure as the signage of other businesses and companies, not really differentiated, of course, there was a problem that can not properly achieve the advertising effect. In addition, due to the complex structure such as fastening means for fixing the upper frame and the lower frame, a considerable amount of work is required in the manufacture and installation of the advertising signboard.

As a prior art for solving such a structural complexity, Patent No. 10-0742753 discloses that the same light is illuminated not only on the front surface but also on the side surface of the object because light is distributed evenly over the entire surface of the object by the reflection layer. Disclosed is a lighting signboard using a light emitting diode that is configured to be configured.

The lighting signboard using the light emitting diode is a light-emitting body coated with a reflective layer on the surface; A substrate coupled to a rear surface of the light fixture, the substrate having a plurality of light emitting diodes arranged thereon, wherein light incident from the light emitting diode into the light fixture is partially reflected by the reflective layer inside the light fixture; Reflected and some transmitted.

In the lighting signboard using the light emitting diode configured as described above, the light may be distributed on the entire surface of the illuminated object by the reflective layer, but the light may not be evenly distributed on the front surface and the side surface with the same light distribution, and the lighting sign may not be efficiently emitted. It is difficult to obtain continuity of. In addition, it is vulnerable to the color change of ultraviolet light, and there is a somewhat vulnerable to eliminating the afterimage of the light source.

As a conventional technology for solving the above problems, the "light emitting diode structure and its manufacturing method" of the Patent Publication No. 10-0773830 provides a method for visually expressing a variety of colors. The prior art proposes a translucent or opaque epoxy molding compound layer formed surrounding a printed circuit board, and a signboard structure having a diffusion layer formed on the epoxy molding compound layer surrounding a light emitting diode mounted on the printed circuit board.

1 is a view showing a conventional LED light emitting diode structure. As shown, the light emitting diode structure for the signboard includes a printed circuit board equipped with one or more light emitting diodes, an epoxy molding compound layer, and an epoxy resin layer uniformly mixed with a light diffusing agent. First, at least one light emitting diode is mounted on the printed circuit board of FIG. 1 and other shapes such as numerals, letters, or figures. The printed circuit board is connected to the cable, although not shown in the drawing. The light emitting diode is controlled by the power and the control signal transmitted.

And an epoxy molding compound layer is formed using an opaque or translucent epoxy molding compound, and the optical resin is mixed uniformly with the epoxy resin layer. Light generated from the light emitting diodes is scattered and diffusely reflected by the light diffusing agent so as to emit light evenly over the entire epoxy resin layer.

The optical acid mixed in the epoxy resin layer may be polyacrylate, polyalkyl methacrylate, polytetrafluoroethylene, silicon, zinc, antimony, titanium, barium, or other fine particles, but the epoxy resin layer Of course, the pigment of the color to be selectively further mixed may be formed, of course, by mixing the pigment in this way to form the epoxy resin layer, it is possible to implement a variety of colors.

As such, the conventional light emitting diode structure for signboards has the advantage of forming a structure without using aluminum channels to manufacture a cheap and lightweight light emitting diode structure for signboards, and without using a diffuser plate to obtain a surface light emitting effect. The surface light emitting effect is obtained by the epoxy resin layer in which the light diffusing agent is uniformly mixed, so that the thickness can be greatly reduced, thereby miniaturizing the light emitting diode structure for signboards. However, since the conventional structure emits letters on a plane, it is inevitably weak in competitiveness for advertising effects. In other words, it is necessary to make structural modifications to secure the competitiveness of the product by inducing the three-dimensional appearance of the advertising using the same lighting. In addition, a three-dimensional lighting sign that can change a variety of colors with a simple structure is required.

The present invention is to solve the above problems, an object of the present invention is to provide a three-dimensional signage light diffusion structure for three-dimensional signage that can increase the advertising effect in a state that does not require a separate production cost with a simple structure. .

Another object of the present invention is to provide a three-dimensional signage light diffusion structure for three-dimensional signage that can be visually distinguishable to the viewer of the advertising signage by uniformly dispersing the brightness and light distribution of the light source to add a three-dimensional sense of the text advertising Its purpose is to efficiently disperse heat emitted from the light source and to minimize contamination by ultraviolet rays, thereby maintaining the continuity and durability of the structure.

In order to achieve the above object, a three-dimensional light diffusing three-sided structure for a signboard according to an embodiment of the present invention, a light source, a printed circuit board in which the light source is disposed along a predetermined pattern and a heat dissipation plate is formed thereon, and heat A light source unit comprising a lower heat radiating plate for facilitating emission and reflection of light; The front side has a letter or figure shape, and the rear side is provided with a receiving portion to which the light source is mounted and facilitates the transmission of light, and formed on the rear side of the receiving portion and provided with light emitted from the light source. An inner diffusion part for radiating inward, an outer diffusion part formed on an outer surface side of the molding part and diffusing light emitted from the light source to the outside of the molding part, and a light diffusion sheet formed on the front side of the molding part; A three-dimensional portion configured by; Is done.

Meanwhile, the internal diffusion part includes a first shape part which directly radiates the light emitted from the light source to the front side, a first side part which emits the light emitted from the light source to the side, and light emitted from the light source to the lower heat radiating plate. It is characterized in that it is composed of a second optical portion and the second side portion which is in contact with the optical illusion guide surface to be reflected by the radiation and the end of the lower heat-radiating plate.

In addition, the lower heat radiating plate is configured to be directly fixed to the bottom of the molding.

In addition, the light diffusion sheet is characterized in that the addition of a sunscreen.

In the three-dimensional structure for a three-dimensional signboard according to the present invention, a groove is further provided in a molding portion adjacent to the external diffusion portion, and the groove and an end portion of the light diffusion sheet formed on the front side of the molding portion have an adhesive member. It is characterized by being fixed by (P).

On the other hand, the three-dimensional signage structure for the three-dimensional signage is configured to add light evenly to the front side of the three-sided structure by adding a molding portion of the acrylic material and the light diffusion sheet of the molding portion.

The three-dimensional light diffusing three-side structure for the three-dimensional signage by the above configuration can not only increase the advertising efficiency in the state without a separate production cost, but also uniformly distribute the brightness of the light emitted from the light source by the sequential light diffusion plate And spreading and adding a three-dimensional effect to a character or figure to be finally displayed, thereby improving the advertising effect.

In addition, the light diffusion sheet is attached to the upper surface of the mold unit without additionally forming a separate color in the light source or the molding part of the three-dimensional signboard structure, so that the color can be easily modified according to the needs of the user.

1 is a view showing an advertisement signboard using a conventional light emitting diode.
2 is a view showing a light diffusing three-sided structure for a three-dimensional signage in the lit and unlit state according to an embodiment of the present invention.
3 is an exploded perspective view of a light diffusing three-sided structure for a three-dimensional signboard according to an embodiment of the present invention.
Figure 4 is a perspective view showing a light diffusing three-sided structure for a three-dimensional sign according to an embodiment of the present invention.
5 is an exploded cross-sectional view of a three-dimensional portion of a three-dimensional light diffusing three-dimensional structure for a signboard according to an embodiment of the present invention.
6 is a view showing a light traveling direction of the three-sided structure for a three-dimensional sign according to an embodiment of the present invention.
7 is a side cross-sectional view of a light diffusing three-sided structure for a three-dimensional signboard according to an embodiment of the present invention.
8 is a view showing an optical illusion guide surface of the three-dimensional light diffusing three-sided structure for a sign according to an embodiment of the present invention.
9 is a view showing the brightness and light distribution of the three-dimensional light diffusing three-dimensional structure for a signboard according to an embodiment of the present invention.
FIG. 10 is a view illustrating a light traveling direction and a brightness change in a molding part of a light diffusing triangular structure for a three-dimensional signboard according to an exemplary embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the drawings, sizes and thicknesses of devices may be exaggerated for convenience of description.

2 is a view showing a light diffusing three-sided structure for three-dimensional signage in the lit and unlit state according to an embodiment of the present invention, Figure 3 is an exploded view of the light-diffusing three-sided structure for a three-dimensional signage according to an embodiment of the present invention 4 is a perspective view showing a light diffusing three-sided structure for a three-dimensional signboard according to an embodiment of the present invention.

The light diffusing three-sided structure for a three-dimensional signboard according to an embodiment of the present invention includes a light source unit 100 and a three-dimensional unit 200 including a light source 110, a printed circuit board 120, and a lower heat emission plate 130. The three-dimensional portion 200 is configured to include a molding unit 210, an internal diffusion unit 220, an external diffusion unit 230, and a light diffusion sheet 240.

The light source unit 100 distributes heat emitted from the light source 110 and the printed circuit board 120, in which the light source 110 and the light source are arranged along a predetermined pattern, and wires for supplying electrical energy to the light source are formed. And a lower heat dissipation plate 130 reflecting some light. The light source 110 is composed of one or more light emitting diodes. The light source is not particularly limited as long as it can emit not only a light emitting diode but also an organic light emitting diode, a cold cathode tube, and the like.

The printed circuit board 120 supplies electrical energy to the light source. Although not shown, the printed circuit board may be additionally formed with a control circuit for intermittently controlling the electric energy supplied to the light source in accordance with time change in order to increase the advertising effect. The control circuit may be integrally formed on the printed circuit board or separately provided to transmit the control signal to the printed circuit board. A heat spreader for dispersing heat emitted from the light source may be additionally formed on the printed circuit board. The heat dissipation plate 120 may be formed by the substrate itself or by separately manufacturing and attaching a dispersion plate that performs a heat dissipation function.

The lower heat radiating plate 130 quickly transfers heat generated from the light emitting diode to the outside. Metal materials with relatively good heat transfer can be selected. On the upper side of the lower heat dissipation plate, a printed circuit board mounted with a light emitting diode is mounted. It is preferable to form the reflection of light on a portion where the printed circuit board is not mounted. It is preferable to select the material of the lower heat radiating plate which is easy to reflect light. It is of course also possible to form additional reflectors if necessary to enhance light reflection.

5 is an exploded cross-sectional view of a three-dimensional portion of the three-dimensional signage light diffusing three-side structure according to an embodiment of the present invention, Figure 6 shows the light traveling direction of the three-dimensional signage three-dimensional structure according to an embodiment of the present invention 7 is a side cross-sectional view of a light diffusing three-side structure for a three-dimensional sign according to an embodiment of the present invention, Figure 8 is an optical illusion guide surface of a three-dimensional light diffusing three-side structure for a sign according to an embodiment of the present invention 9 is a view showing the luminance and light distribution of the three-dimensional light diffusing three-dimensional structure for a signboard according to an embodiment of the present invention.

As shown, the three-dimensionally shaped portion 200 includes a molding portion 210, an inner diffusion portion 220 formed on the inner surface side of the molding portion, and an outer diffusion portion 230 formed on the outer surface side of the molding portion. And a light diffusion sheet 240 that can exhibit various colors and light diffusion.

The molding unit 210 is most suitable to use a transparent acrylic resin that does not contain other additives, which hinders the brightness of the light, the inner diffusion portion 220, the outer diffusion portion 230, the light diffusion sheet 240 Except for transmitting the shape or size of the molding to the advertisement contents, all the factors that hinder the brightness are excluded.

 The back side is different depending on the shape of the character or figure, but when the structure is viewed as 1, it should be formed so as to sink about 5/6 inward. For example, when the thickness is 30mm, it is preferable to configure it to sink about 25mm. This is necessary for the even light distribution and efficient luminance of the structure, and to eliminate the light diffusion and afterimage of the light source. In other words, the light emitting diode, which is a lighting body, has a strong straightness of light, and if the proper distance is not maintained, the light does not spread and the afterimage of the light source is seen as it is. The receiving part of a predetermined space is provided so that the light may be spread evenly and the light source part may be mounted. The molding part emits light emitted from the light source to the front side of the molding part as it is.

Referring to FIG. 7, the internal diffusion part 220 includes a first shape part 221, a first side part 222, an optical illusion guide surface 223, a second shape part 224, and a second shape part from the center of the molding part. It consists of two side parts 225 one after the other.

The internal diffusion part 220 is formed of a material in which a white pigment, a light diffusion paint, an anon and the like are properly mixed. The first shape portion 221 directly radiates the light emitted from the light source of the light source mounted on the receiving portion to the front side, and the first side portion 222 radiates the light emitted from the light source in the side direction. The optical illusion guide surface 223 emits light in an oblique direction. Here, the diagonal direction means a direction between the front side direction of the first shape portion and the side side direction of the first side portion.

The second shape portion 224 and the second side surface portion 225 are formed to be perpendicular to each other, the end surface of the heat dissipation plate assembled with a printed circuit board on which one or more light emitting diodes are mounted is in contact with each other. The heat dissipation plate to which the printed circuit board is assembled is supported and fixed by the second shape portion and the second side portion. The height of at least one light emitting diode mounted on the printed circuit board is configured to be formed higher than the installation position of the optical illusion induction surface, so that light emitted from the light emitting diode cannot be directly irradiated onto the optical illusion induction surface. The light emitted from the light source is reflected by the lower heat radiating plate and proceeds to the optical illusion guide surface.

The lower heat dissipation plate is a combination of the second shape portion and the second side portion is made of a fastening method or a direct fixing method.

In the embodiment of the present invention, the lower heat dissipation plate is fixed between the second shape portion and the second side portion, but preferably, a silicon, adhesive member, or adhesive member is directly applied to the bottom surface of the molding portion. Can be fixed with

Meanwhile, heat generated in the light emitting diode is transferred to the printed circuit board and finally released to the outside by the lower heat radiating plate. To this end, it is preferable that the lower heat radiating plate is made of a material having a relatively good heat transfer. If heat is not quickly emitted to the outside and stays inside the accommodating space in which the light emitting diode is formed, the life of the light emitting diode may be shortened and the light emitted from the internal diffusion may be discolored due to deterioration.

The optical illusion guide surface 223 is an oblique cut portion based on the first side portion and the second shape portion. Referring to FIG. 8, the cut portion forms an angle of 0 ° to 15 ° from the vertical with respect to the ground. When the angle is 15 ° or less, light emitted from the light emitting diode may be directly emitted to the front side, and when the angle exceeds 15 °, due to diffused light diffused from the internal and external diffusers, which will be described later. The brightness can be significantly lowered. Therefore, the angle range is determined in consideration of the installation position of the light source, the distance between the internal diffusion portion and the external diffusion portion.

The external diffusion part 230 is formed on the side of the molding part and reflects the light emitted from the light source to the inside of the molding part or transmits it to the outside. The reflected light is directed to the front side of the three-dimensional portion. In FIG. 7, the total internal reflection is performed at the external volcanic part, but the external diffusion part is mixed with the diffusion material in the transparent acrylic resin, so that a part of the light emitted from the light source is reflected into the molding part, and the other part is the By allowing the reflective portion to pass through, the outer side of the character or figure to be advertised shows a uniform and even light, thereby obtaining a visual effect to the viewer.

Hereinafter, a light diffusion sheet according to an embodiment of the present invention will be described with reference to FIGS. 7 and 10. FIG. 10 is a view illustrating a light traveling direction and a brightness change in a molding part of a light diffusing three-side structure for a three-dimensional signboard according to an exemplary embodiment of the present invention.

The light diffusion sheet 240 is composed of sheets having various colors. In addition, it is sufficient that the light emitted from the light source can pass through the light diffusion sheet to exhibit a specific color and a uniform and even light distribution, and a general light diffusion sheet commercially available on the market can be used. On the other hand, in the present invention, the effect of using the sheet having a variety of colors to produce the effect of the embodiment, but preferably can be configured to display a variety of colors using a color sheet.

The diffusion part is formed to protrude a predetermined portion above the height of the molding part, and a light diffusion sheet is formed on the front side of the molding part.

After the light diffusion sheet is brought into close contact with the molding part, the light diffusion sheet is cut according to the outer shape of the molding part by cutting means such as a knife. When the light diffusion sheet is cut into a certain letter or figure as described above, the cut portion of the light diffusion sheet and the portion of the outer diffusion portion adjacent to each other may be completely fixed by using an adhesive agent (P) such as a sealing agent or an adhesive. have. Here, since the adhesive subsidiary agent is formed on the light diffusion sheet, it is preferable to select a transparent material.

In order to facilitate the height of the adhesive member formed on the light diffusing sheet and the convenience of cutting, it is preferable to further form a groove in the molding part in contact with the external diffusion part so that the adhesive member is formed in the groove.

If the light diffusion sheet is formed using a color paint having a specific color, the color paint is formed on the protruded portion of the diffusion portion and the portion defined by the upper portion of the molding portion. Therefore, it is preferable that the height of the protruding portion of the outer diffusion portion is formed to a height such that the color paint does not overflow. Thereafter, the cured color paint forms a light diffusion sheet.

On the other hand, the advertisement board to be advertised may be reduced the advertising effect by discoloration. Light emitted from the sun and light emitting diodes includes ultraviolet light. When exposed to ultraviolet light for a long time, the light diffusing sheet and the molding part can be easily discolored. The light diffusion sheet is provided with a sunscreen to prevent discoloration of the light diffusion sheet and the molding part by ultraviolet rays. By maintaining vivid color for a long time, the continuity and persistence of the structure can be maintained.

Hereinafter, the luminance and the light distribution when viewed from the front side of the three-dimensional signage light diffusion triangular structure of the present invention will be described in detail with reference to FIGS. 6, 7, 9, and 10.

In order to display a character or figure to be displayed in a three-dimensional shape, it must be formed in a structure in which the character or figure is projected by the brightness of light. In the embodiment of the present invention by the light diffusion plate to reduce the brightness step by step to evenly distribute the light distribution to obtain a three-dimensional effect.

As seen from the front side of the three-dimensional signage light diffusion triangular structure, the characters or figures that are to be advertised are gradually reduced in brightness and the light distribution gradually from the portion where the first side portion is formed to the portion where the external diffusion portion is formed. It can be represented as

6, the internal diffusion part and the external diffusion part include sanding and a light diffusion paint. That is, sanding is formed in a portion adjacent to the light source, and a light diffusion paint is formed in the far portion. The light emitted from the light emitting diode toward the front direction passes through the inner diffusion part, the molding part, and the light diffusion sheet, and then goes toward the front direction of the three-sided structure.

On the other hand, the light emitted obliquely from the light emitting diode is partially reflected by the internal diffusion part, so that the light is uniformly mixed in the accommodating part inside the molding part, and then proceeds to the front side or the side side through the internal diffusion part, so that the light distribution is even.

Next, referring to FIG. 7, the light emitted from the light emitting diode in the molding part is diffused.

 Light emitted from the light source passes through the first shape part and the molding part, and the brightest area A is formed by the light path L2 which is directly radiated to the front side.

The light emitted from the optical illusion guide surface is somewhat darker than the light emitted from the first shape. Since the light path L1 reflected by the diffuser plate formed on the printed circuit board is directed to the optical illusion guide surface, the light emitted from the light source is formed in the optical path L5, and the light path L5 is formed to the front side through the molding part. The bright area B is formed.

The diffuser plate formed on the printed circuit board forms an optical path L6 in which the reflected light passes through the second shape portion, thereby forming the third brightest region C. The light emitting diode is formed between the second side portion and the reflective portion. Since light does not directly enter, it becomes the darkest area (D).

On the other hand, since the light path L3 from the first side portion and the light path L5 from the optical illusion guide surface and the light paths L4 and L6 reflected from the reflection part are mixed inside the molding part, Areas B, C, and D further include mixed light to emit light.

Therefore, the area having the first shape has the highest brightness, while the optical illuminating guide surface existing next to it, the brightness gradually decreases toward the second shape, so that the shape of the letter or figure gradually protrudes. Will have

9 is a view showing the brightness and light distribution of the three-dimensional light diffusing three-dimensional structure for a signboard according to an embodiment of the present invention. Referring to FIG. 9, the M1 region at the position where the light emitting diode is formed has the highest luminance. Subsequently, the brightness is gradually lowered from M2 to M5 toward the internal diffusion part, the molding part, and the light diffusion sheet.

On the other hand, in the case of the light distribution, the light distribution is changed by the reflection and superposition of the light in the internal diffusion, and finally maintained at M5.

As shown in FIG. 10, the brightness change of the light from the center to the edge of the triangular structure is the brightest in the part where the first shape part is formed, and the brightness is gradually lowered toward the optical illuminating guide surface and the second shape part. It is the lowest in the part provided with the external diffusion part which is a part.

The distribution of light may vary according to the thickness and shape of the molding part, and the three-dimensional appearance of the three-sided structure that is visually may vary.

As mentioned above, although this invention was demonstrated in detail through the specific Example, this invention is not limited to the said Example, A various deformation | transformation is possible for a person with ordinary knowledge within the scope of the technical idea of this invention.

100: light source
110: light source
120: printed circuit board
120: primary heat discharge plate
130: reflector
130: lower secondary heat emission plate
200: three-dimensional shape
210: molding part
211: Home
220: internal diffusion unit
220-1: sanding
220-2: Light Diffusion Paint
221: first shape portion
222: first side portion
223: optical illusion guide surface
224: second shape
225: second side portion
230: external diffusion unit
240: light diffusion sheet
V: receiving part
P: adhesive
A ~ D: Brightness Range
L1 ~ L6: Light Path
M1 ~ M5: Light Diffusion Layer

Claims (6)

In the three-sided structure for three-dimensional signage,
The three-dimensional signage structure includes a light source unit including a light source, a printed circuit board on which the light source is disposed along a predetermined pattern, and a heat dissipation plate is formed thereon, and a lower heat dissipation plate to facilitate heat emission and light reflection;
The front side has a letter or figure shape, and the rear side is provided with a receiving portion to which the light source is mounted and facilitates light transmission, and is formed on the rear side provided with the receiving portion and emits light emitted from the light source. An inner diffusion part for radiating inward, an outer diffusion part formed on an outer surface side of the molding part and diffusing light emitted from the light source to the outside of the molding part, and a light diffusion sheet formed on the front side of the molding part; A three-dimensional portion configured by; Done,
The external diffuser is formed to protrude from the height of the molding portion and formed by forming an acrylic molding portion and the optical sheet formed on the molding portion so that the light from the light source is evenly emitted to the front side of the three-sided structure Three-sided structure for signboard. The method according to claim 1,
The internal diffusion part includes a first shape part which directly radiates the light emitted from the light source to the front side, a first side part which emits the light emitted from the light source to the side, and light emitted from the light source is reflected by the lower heat radiating plate. The three-sided structure for three-dimensional signage, characterized in that it is composed of a second optical portion and the second side portion which is in contact with the optical illuminating induction surface and the end of the lower heat radiating plate. The method of claim 2,
The lower heat dissipation plate is a three-dimensional structure for three-dimensional signage, characterized in that directly fixed to the bottom of the molding. 4. The method according to any one of claims 1 to 3,
The light diffusion sheet is a three-dimensional structure for three-dimensional signage, characterized in that the addition of the sunscreen. 4. The method according to any one of claims 1 to 3,
A groove is further provided in the molding portion adjacent to the external diffusion portion, and the groove and the end of the light diffusion sheet formed on the front side of the molding portion and the external diffusion portion are fixed by the adhesive member P. Three-sided structure for signboard. delete

Images