KR20170019867A - The front and the rear side channel advertisement pannel - Google Patents

Abstract

The present invention relates to an advertising panel using a front and rear light channel sign in which an LED is installed on one surface thereof and an acryl panel, which emits rear light, may be manufactured simply and promptly at a low price with various colors while lowering costs. The present invention includes a light diffusion PC (110) that is an upper front channel formed at the uppermost part of an advertising panel in a form of a figure or a letter that is to be advertised, an extruded aluminum bar (120) which is formed at a lower portion of the light diffusion PC (110) to have an outer peripheral surface having the same shape as that of the light diffusion PC (110), in which the light diffusion PC (110) is seated by a first protrusion piece (121) formed in the interior thereof, and in which a second protrusion piece (122) having the same shape of that of the first protrusion piece (121) is formed at a lower portion thereof, a plurality of acryl plates (140, 150) which is a side channel that is formed at a lower portion of the extruded aluminum bar (120) and protrudes further than the extruded aluminum bar (120) and which has different colors; and a synthetic resin member (170) which is formed at a lower portion of a lowermost acryl plate 150 among the plurality of acryl plates to have a plate shape, an outer side surface of which is narrower than the lowermost acryl plate (150), and mounted only one side thereof such that an LED module (180) emits light to the light diffusion PC (110) and the plurality of acryl plates (140, 150). The front and rear side light channels may be simply manufactured as compared with existing front and rear channels, and may be promptly manufactured at a low price by applying a rear channel to all of a stapler manner, and a welding manner that are existing front channel manufacturing manners, and all material manufacturing manners such as an extruded aluminum bar, stainless steel, and galvanized steel, which are existing channel materials.

Description

The front and rear side channel advertisement pannel

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a billboard, and more particularly, to a front and back light channel advertisement board which can be manufactured quickly and easily at a low cost.

Advertising signboards are usually installed on the outside wall or entrance of a building and are used as a means of advertising a company, a shop name, or a commodity.

A typical advertisement signboard is formed by attaching a flexible sheet, for example, on the entire frame of a rectangular frame forming the main body, and printing or attaching an ad text such as a desired letter or figure thereon.

Recently, a so-called " channel signboard ", in which the frame itself is in the form of letters or figures of advertisement text, is widely used. Such a channel signboard is directly attached to the outer wall of the building.

Such advertisement signboards need to be recognized not only in the daytime but also in the nighttime for the purpose of advertisement effect. For this purpose, a separate illumination lamp for illuminating the advertising signboard is provided, or lighting means such as a fluorescent lamp or a neon lamp is provided in the frame, So that advertisements can be identified at night.

Particularly, in the case of a channel signboard, a signboard is displayed in the form of a letter or a figure when the lighting means is installed inside a frame composed of an ad text form such as a letter or a graphic and the light is turned on at night.

However, since such a channel signboard is usually directly attached to the outer wall of the building, when the lighting means is lit at night, the underlying background must be uniformly expressed in dark color, that is, black.

Hereinafter, an all-optical channel signboard according to the related art will be described with reference to the accompanying drawings.

FIG. 2 is a perspective view showing the inside of an all-optical channel signboard shown in FIG. 1, FIG. 3 is a view for explaining an all-optical channel signboard shown in FIG. 2, And FIG. 4 is a view showing an example of an epoxy channel structure of the front and rear optical fiber channel signboard of the prior art.

The front and rear optical fiberboard signboard 10 according to an example of the prior art is composed of an all-optical channel 11, a side channel 12, a backlight channel 13 and a front-back optical channel 14 as shown in Figs.

The front and rear optical channels 14 are also welded by galvanization and stain. The front and rear optical channels 14 and 14 are welded to each other by a galvanic or stainless steel. ) Was manufactured by attaching the LED module 15 as an all-light and a backlight in such a manner that they were welded with galvanized steel and stainless steel.

However, in such a conventional technique, the entire backlight channel 14 is complicated in structure, so it is expensive, takes a long time to manufacture, can not use the existing channel material, requires a separate material to be manufactured or bent and welded, There is a problem in that it is impossible to produce aluminum extruded bar which is inexpensive and is light and does not melt, and therefore expensive stainless steel or rust can not be manufactured.

Also, since the manufacturing process is complicated and the LED module 15 enters the backlight separately, the required amount of the LED module 15 is large and the work process is complicated.

The prior art optical fiber channel signboard 10 according to the related art is a product at a considerably high price. The reason is complex production process, product structure, and labor costs.

On the other hand, the epoxy channel as shown in FIG. 4 is generally used as an indoor high-density type channel, and since it is manufactured by welding method and epoxy is poured later, there is a problem that A / S is impossible.

Korean Patent No. 10-1026412 (notice issued on April 06, 2011 - a signboard having rear decorative lighting)

SUMMARY OF THE INVENTION Accordingly, the present invention has been made to solve the above problems and disadvantages of the related art, and it is an object of the present invention to provide a light emitting diode The present invention provides a billboard using a front and back light channel signboard which can be manufactured in various colors with a simple and low price.

In order to accomplish the above object, an advertising board using front and back side light measuring channel signs of the present invention includes an optical pick-up PC 110 as an upper all-optical channel formed at the top in a graphic form or a character type to be advertised; The optical diffusion PC 110 is mounted on the lower portion of the optical pick-up PC 110 by a first projecting piece 121 formed inside the optical pick-up PC 110 having the same shape as the optical diffusion PC 110, An aluminum extrusion bar 120 as a light measuring channel having a second protruding piece 122 having the same shape as the first protruding piece 121; A plurality of acrylic plates (140) 150 formed at the lower portion of the aluminum extrusion bar 120 and having a light measuring channel protruding outwardly from the aluminum extrusion bar 120 and having different colors; The LED module 180 is formed in a plate shape below the lowermost acrylic plate 150 among the plurality of acrylic plates and is formed to have a narrower outer surface than the lowermost acrylic plate 150, And a synthetic resin 170 mounted on one side only to emit light by the PC 110 and the plurality of acrylic plates 140 and 150.

Synthetic resin 130 and 160 are further disposed between the aluminum extrusion bar 120 and the uppermost acrylic plate 140 among the plurality of acrylic plates and between the lowest acrylic plate 150 and the synthetic resin 170, The aluminum extrusion bars 120 are connected to the protruding pieces 130, 160 and 170 through the connecting means 190. The aluminum extruding bars 120 are connected to the protruding pieces 140, 121) 122 to the lower surface of the optical pick-up PC 110 and the upper surface of the synthetic resin 130 through an adhesive or adhesive.

The plurality of acrylic plates are manufactured so that the outer circumferential surface of the plurality of acrylic plates protrude outwardly from the synthetic resin, and the bottom plate of the lower synthetic resin is smaller than the acrylic plate even when the acrylic plate is closely attached to the wall or the bottom surface. .

The present invention has the following effects.

First, the front and back metering channels of the present invention are easier to manufacture than the conventional front and back channels, and can be manufactured using all methods of producing materials such as Taka system, welding method and aluminum extrusion bar, It is advantageous that it can be produced quickly and simply at a low price by applying all the backlight channels.

Second, the existing front-back light channel required a large amount of light by assembling LEDs as front and back lights, but this product only came in one side and lowered power consumption and unit price. Therefore, it can be supplied at a low price.

Third, afterwards, the photometric acrylic can be variously expressed in various colors, single color, two color, and three color.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a perspective view showing an outline of a front and rear optical fiberboard signboard according to an example of the prior art;
2 is a perspective view showing the interior of the front and rear optical fiber channel signboard shown in Fig.
3 is a cross-sectional view for explaining the front and rear optical fiber channel signboard shown in Fig.
4 is a view showing an epoxy channel structure of a front and rear optical fiber channel signboard of the prior art.
5 is a perspective view showing the outline of the front and back light channel advertisement boards according to the present invention.
6 is a perspective view showing the interior of the front and rear light channel advertisement boards shown in FIG.
7 is a cross-sectional view illustrating the front and rear light channel advertisement boards shown in Fig.
8 is an exploded perspective view illustrating a front and rear photometric channel billboard according to the present invention.
FIGS. 9 to 10 are photographs showing a front and rear photometric channel billboard according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

In addition, although the term used in the present invention is selected as a general term that is widely used at present, there are some terms selected arbitrarily by the applicant in a specific case. In this case, since the meaning is described in detail in the description of the relevant invention, It is to be understood that the present invention should be grasped as a meaning of a term that is not a name of the present invention. Further, in describing the embodiments, descriptions of technical contents which are well known in the technical field to which the present invention belongs and which are not directly related to the present invention will be omitted. This is for the sake of clarity of the present invention without omitting the unnecessary explanation.

FIG. 5 is a perspective view showing the outer shape of the front and rear light channel advertisement boards according to the present invention, FIG. 6 is a perspective view showing the inside of the front and rear light channel advertisement boards shown in FIG. 5, And FIG. 8 is an exploded perspective view illustrating the front and rear photometric channel billboards according to the present invention.

As shown in FIGS. 5 to 8, the front and rear light channel advertisement board 100 according to the present invention includes an optical pick-up PC 110 as an upper optical channel formed in graphic and character shapes to be advertised, A metal extrusion bar 120 which is a light measuring channel and is formed at a lower portion of the aluminum extrusion bar 120 and protrudes outwardly from the aluminum extrusion bar 120, The first acrylic plate 140, the second acrylic plate 150 and the second acrylic plate 150 are formed in a plate shape below the second acrylic plate 150, And a synthetic resin 170 on which the LED module 180 is mounted. At this time, first and second synthetic resins 130 and 160 are formed between the aluminum extrusion bar 120 and the first acrylic plate 140 and between the second acrylic plate 150 and the synthetic resin 170, respectively. At this time, the synthetic resin 170 is referred to as a third synthetic resin. The same holes are formed in the first synthetic resin 130, the first acrylic plate 140, the second acrylic plate 150, the second synthetic resin 160, and the third synthetic resin 170 to form connection means ) ≪ / RTI > In the present invention, the light of the LED module 180 is emitted to the front surface of the light diffusion PC 110, the first acrylic plate 140 and the second acrylic plate 150, It can be seen that the light is also emitted to the rear surface.

7, the upper and lower protruding pieces 121 and 122 are formed inside the aluminum extrusion bar 120, and the lower surface of the optical pick-up PC 110 and the upper surface of the first synthetic resin 130 And are joined together through adhesive or adhesive.

Here, the optical pick-up PC 110 is also referred to as polycarbonate (PC), also known as lexan. PC is good in elasticity and high transparency, and is often used in building exterior. Of course, acrylic or PVC can be used instead of PC.

At this time, acrylic can be considered as a substitute for light glass, which is often used as an optical material for glass substitution because of its high transparency. However, since elasticity is less than PC and it is fragile, be careful about processing. In case of PC, there is no such problem and it is advantageous that it is easy to process. PVC is a general-purpose material widely used in chemical plants, electrical insulation coatings, and piping materials.

FIGS. 9 to 10 are photographs showing a front and rear photometric channel billboard according to the present invention. FIG.

As shown in FIGS. 9 and 10, the front and rear photometric channel billboards according to the present invention are manufactured so that the conventional general channel can be projected to the side when viewed from the back side of the second acrylic plate 150, The surface of the legs is seen like the existing post-war fiber channel, and the legs were seen in the past. This product has the second acrylic plate, the second acrylic plate, There is an effect of covering the plate 150. In addition, when the first and second acrylic plates 140 and 150 are implemented with different colors, the color of the first and second acrylic plates 140 and 150 is considerably beautiful.

This product is similar in price to the existing channel type, so the backlight plate is not only on the back but also on the side. It is structurally the same as general channel, so construction and A / S are convenient. The biggest advantage is that you can see the effect of the front and rear metering channel on the general channel null price.

In general, Epoxy Channel is a high-end channel that is widely used for indoor use. Since it is manufactured by welding method and then epoxy is poured later, A / S is not possible, but this product can be manufactured as optical channel before and after epoxy and A / S is also possible

Currently, the material of the channel can be divided into aluminum extrusion bar, aluminum coil bar, stencil coil, and galvanic coil by welding and taka method. There are pros and cons according to each production method. Aluminum extrusion bar is the most produced method in recent years, so it can be learned by anyone rather than welding by fixing the base plate and top plate by taka method instead of welding, so labor cost is low and extruded bar comes out by color There is no need to paint, welding is not necessary, so there is no post processing, and the unit price is cheap and the manufacturing is fast. Of course, the disadvantage is that the shape is not cleaner than the welding method and is not suitable for large size due to its durability. And because it is difficult to fabricate a backlight channel, it could not be manufactured as a backlight channel. On the other hand, the welding method is more durable than the taka method, and it is used for making large size which is not suitable for taka method because of the color representation because it is painted. The disadvantages of the welding method are many manufacturing processes and it is not possible to make anyone because of welding, and the degree of product completeness differs according to the welding technology.

While the present invention has been described with reference to the exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. Therefore, the examples disclosed in the present invention are not intended to limit the scope of the present invention and are not intended to limit the scope of the present invention. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of equivalents should be construed as falling within the scope of the present invention.

110: Optical acid PC 120: Aluminum extrusion bar
121, 122: inner projecting pieces 130, 160, 170: synthetic resin
140, 150: first and second acrylic 180: LED module
190: Screw

Claims (3)

An optical pick-up PC 110 as an upper optical channel formed at the top in the shape of a figure to be advertised;
The optical diffusion PC 110 is mounted on the lower portion of the optical pick-up PC 110 by a first projecting piece 121 formed inside the optical pick-up PC 110 having the same shape as the optical diffusion PC 110, An aluminum extrusion bar 120 as a light measuring channel having a second protruding piece 122 having the same shape as the first protruding piece 121;
A plurality of acrylic plates (140) 150 formed at the lower portion of the aluminum extrusion bar 120 and having a light measuring channel protruding outwardly from the aluminum extrusion bar 120 and having different colors;
The LED module 180 is formed in a plate shape below the lowermost acrylic plate 150 among the plurality of acrylic plates and is formed to have a narrower outer surface than the lowermost acrylic plate 150, And a synthetic resin (170) mounted on only one side to emit light by the PC (110) and the plurality of acrylic plates (140) (150). The method according to claim 1,
Synthetic resins 130 and 160 are further disposed between the aluminum extrusion bar 120 and the uppermost acrylic plate 140 among the plurality of acrylic plates and between the lowest acrylic plate 150 and the synthetic resin 170,
The same holes are formed in the synthetic resins 130, 160 and 170 and the plurality of acrylic plates 140 and 150 to be coupled through the connection means 190,
The aluminum extrusion bar 120 is connected to the lower surface of the optical pick-up PC 110 and the upper surface of the synthetic resin 130 by the projecting pieces 121 and 122 through a tacky or adhesive agent. Front and rear metering channel billboard. 3. The method of claim 2,
The plurality of acrylic plates are manufactured so that the outer circumferential surface of the plurality of acrylic plates protrudes outwardly from the synthetic resin, and the bottom plate of the lower synthetic resin is smaller than the acrylic plate even when the acrylic plates are closely attached to the wall or the bottom surface. Front and rear metering channel billboards.

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