KR200488057Y1 - Transparent neon board - Google Patents

Abstract

The present invention relates to a transparent neon board, more particularly, to a transparent neon board that exhibits a high light transmittance at normal times and is opaque when an object or a person approaches, A light guide plate having a transparent plate and a light scattering layer having a refractive index larger than that of the transparent plate and having a transparent resin including a light scattering agent of an inorganic material formed on a back surface of the transparent plate; A light emitting source disposed on a side of the light guide plate to provide light into the light guide plate; A transparent panel disposed on a front surface of the light guide plate and having a advertisement text written thereon; And a guide frame which is fastened along the edges of the light guide plate and the transparent panel to assemble them and form an outer appearance of a rim of the neon board. In the light guide plate, when light is incident from the light source, And a transparent window, wherein the transparent window functions as a planar light source that is scattered in the light scattering layer and emits light to the transparent panel, and operates as a transparent window when the light is not incident on the light emitting source, The board becomes opaque and at the same time emits light so that the described items can be recognized, thereby enabling people to concentrate their gaze.

Description

Transparent neon board

The present invention relates to a transparent neon board, and more particularly to a transparent neon board that exhibits a high light transmittance at normal times and is opaque when an object or a person approaches it to concentrate the attention of the surroundings.

In general, a neon board is formed by superimposing a transparent panel in which a figure or character is written on the inside of a rectangular frame and an auxiliary panel which is an opaque plate for identifying what is described in the transparent panel, A light source for emitting light of a predetermined brightness is provided, and then the back plate is covered and the rear plate is fixed by the fastening means. Such a neon board is installed in a necessary place of a restaurant or a store, and it describes a special menu, a reservation situation or a notification contents so that it can be easily confirmed by consumers. In particular, at night, So that it can be confirmed.

In recent years, as the use of neon boards has diversified, letters or symbols written on transparent panels have been described with various color highlighters to increase the fluorescent effect, thereby improving the beauty of the neon board. However, As the panel absorbs some of the light emitted from the light source, the illumination of the characters or symbols written on the neon board is lowered due to the mining or lighting of the place where the neon board is installed, There is a problem that efficiency of neon board installation is lowered.

In order to solve such a problem, the Korean Registered Utility Model No. 20-0430955 'Mirror Combination Neon Board' which prevents the function of the neon board itself and the efficiency of installation of the neon board from deteriorating is proposed.

1 is an exploded perspective view of a mirror-combined neon board according to the prior art.

As shown in FIG. 1, the conventional mirror-mounted neon board 10 includes a rectangular frame 11 disposed on the front surface thereof, and a transparent panel (not shown) A light source 14 which emits light of a predetermined brightness and is located at one side or both sides of the transparent panel 12, a rear plate 15 for protecting the rear surface of the neon board, Means (16).

In the mirror-combined neon board 10 having the above-described structure, a reflector having a high reflectance such as silver or aluminum is deposited on the rear surface of the transparent panel 12 to form the reflective film 13. The mirror-combined neon board 10 enhances the light reflectance by forming the reflective film 13, so that the identification rate of characters or symbols written on the neon board according to the illumination becomes high, and the mirror can function as a mirror. However, the mirror-combined neon board having the above-described structure is merely a mirror-added neon board, which is not different from a general neon board, and thus there is a limitation in attracting attention to people.

In addition, the mirror-combined neon board according to the related art has a problem that the light source is continuously lit, thereby deteriorating the compatibility with the surrounding environment.

Domestic registration utility model 20-0430955 (Registered on November 14, 2006)

The object of the present invention is to provide a transparent neon board capable of adjusting the transparency of a neon board according to the approach of an object so as to attract people's attention.

Another object of the present invention is to provide a transparent neon board capable of enhancing the environment and harmony with the surrounding by turning on / off the light source according to the situation.

According to an aspect of the present invention, there is provided a light-scattering layer comprising a transparent plate on a plate, and a transparent resin including a light scattering agent having a refractive index larger than that of the transparent plate, A light guide plate; A light emitting source disposed on a side of the light guide plate to provide light into the light guide plate; A transparent panel disposed on a front surface of the light guide plate and having a advertisement text written thereon; And a guide frame which is fastened along the edges of the light guide plate and the transparent panel to assemble them and form an outer appearance of a rim of the neon board. In the light guide plate, when light is incident from the light source, The light scattering layer functions as a surface light source that emits light to the transparent panel, and operates as a transparent window when no light is incident on the light emitting source.

The neon board further includes a sensor disposed on a front surface of the neon board for measuring a distance to the object from the neon board and operating the neon board in a display mode and a window mode according to the measured distance.

In addition, the sensor may turn on and off the light source in a fade-in and fade-out manner as the object approaches or leaves the neon board, Thereby converting the image data.

The transparent neon board of the present invention allows a neon board which has become transparent as an object approaches the neon board to become opaque and simultaneously emit light so that what has been described becomes recognizable, so that people's eyes can be focused.

In addition, the present invention can achieve harmony with the surrounding environment by turning on and off the light source according to the situation.

FIG. 1 is an exploded perspective view of a mirror-combined neon board according to the prior art,
2 is an exploded perspective view of a transparent neon board according to an embodiment of the present invention,
3 is a cross-sectional view of the transparent neon board of FIG. 2,
FIG. 4 is a cross-sectional view showing a transparent light guide plate as a main part of FIG. 2,
5 is a front view showing a state of each transparent neon board according to an embodiment of the present invention.

The technical object achieved by the present invention and the implementation of the present invention will be clarified by the following preferred embodiments. Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 2 is an exploded perspective view of a transparent neon board according to an embodiment of the present invention, and FIG. 3 is a sectional view of the transparent neon board of FIG. 2. Referring to FIG.

As shown in these drawings, the transparent neon board 100 of the present invention includes a light guide plate 110, a light source 120 that provides light to the inside of the light guide plate at the side of the light guide plate, A guide frame 140 for assembling the light guide plate 110 and the transparent panel 130 while being fastened along the edge and a guide frame 140 for joining the light guide plate 110 and the transparent panel 130, And a sensor 150 for operating the mode of the transparent neon board according to the distance measured by measuring the distance between the transparent neon board and the transparent neon board.

When the transparent neon board 100 is driven in the display mode A, the light guide plate 110 becomes opaque in the form of a surface light source through the light incident from the light emitter 120 disposed at the side, When the light emitting device 100 is driven in the window mode B, the light emitting source 120 is turned off and the transparent neon board 100 is transparent. The light guide plate 110 has a structure in which a translucent light scattering layer 112 is formed on the back surface of the transparent plate 111. A detailed description of the structure of the light guide plate 110 will be described later.

The light emitting source 120 may be disposed at one side of the light guide plate 110 or at opposite sides or four sides of the light guide plate 110 as light sources that provide light into the light guide plate 110. The light emitting source 120 may be an LED array in which a plurality of LEDs are mounted on a substrate as an LED light source, and may include light emitting members such as CCFL, EEFL, and HCFL. The light emitting source 120 is preferably positioned inside the guide frame 140 to prevent damage due to an external impact.

The transparent panel 130 is a transparent panel that is disposed on the front surface of the light guide plate 110 and has a configuration in which characters or graphics are described via a fluorescent material. The transparent panel 130 may be integrally formed with the light guide plate 110 for convenience, and may be disposed on the rear surface of the light guide plate 110 to protect the light guide plate 110 from being damaged by an external impact.

The guide frame 140 is fastened along the edges of the light guide plate 110 and the transparent panel 130 so as to assemble them and form an outer appearance of a rim of the transparent neon board 100. The guide frame 140 may include a front guide frame 141 and a rear guide frame 142. The front guide frame 141 may include therein a member such as a light guide plate 110 and a transparent panel 130, And the rear guide frame 142 can be pressed and fixed while being fastened along the edge of the front guide frame 141. Further, the functions of the front guide frame 141 and the rear guide frame 142 may be mutually changed.

The sensor 150 measures the distance between the moving object and the transparent neon board 100 and operates the transparent neon board in the display mode and the window mode according to the measured distance. Rear, or side. The sensor 150 measures the distance between the object and the transparent neon board 100 by using infrared rays or acoustics to determine whether the object is within a predetermined distance from the transparent neon board 100 or outside.

When the object is within a certain distance from the transparent neon board 100, the sensor 150 lights the light source 120 so that the light guide plate 110 emits light to the transparent panel 130 in the form of a surface light source, The transparent neon board 100 is operated so that the display mode A in which the transparent panel 130 is displayed is operated and when the object is outside a certain distance from the transparent neon board 100, The light guide plate 110 of the transparent neon board 100 is operated as a transparent window so that the window mode B in which the back surface of the transparent neon board 100 is transmitted as it is is operated.

Thus, the sensor 150 determines whether the object is within a predetermined distance from the transparent neon board 100 and changes the light guide plate 110 from a transparent state to an opaque state or from an opaque state to a transparent state, ) Can be focused on the surrounding people. In addition, when there is no object within a certain distance of the transparent neon board 100, the light source 120 is not turned on by the sensor 150, so that the transparent neon board 100 is kept in a transparent state, .

The sensor 150 may determine not only that the object is within a certain distance of the transparent neon board 100, but also that the object approaches or leaves the transparent neon board 100.

When the object is continuously moved from a fade point spaced a predetermined distance away from the transparent neon board 100 to a transparent neon board 100 at a certain distance of the transparent neon board 100, The light guide panel 110 is gradually turned on in a fade-in manner to convert the light guide plate 120 into a surface light source that emits light to the transparent panel 130 in a stepwise manner, The transparent neon board 100 is operated in a display mode A in which those described in the transparent panel 130 are completely displayed. When the object continues to move away from the end of a certain distance of the transparent neon board 100 toward the fade point side, the sensor 150 gradually extinguishes the light source 120 in a fade-out manner, (110) is gradually converted to a transparent window, and when the object reaches the fade point, the transparent neon board (100) operates in a window mode (B) in which the transparent neon board (100) is completely transparent.

In this way, the transparent neon board 100 can change stepwise as the object approaches or distances, thereby reducing the fatigue of the eyes of people around the transparent neon board, while harmonizing with the surrounding environment.

In addition, a certain distance at which the mode of the transparent neon board 100 operates and a fade point at which the transparent neon board 100 is changed stepwise can be adjusted by the user using the transparent neon board 100.

4 is a cross-sectional view showing a transparent light guide plate as a main part of FIG. The light guide plate 110 according to the embodiment of the present invention has a structure in which a light scattering layer is coated on the back surface of the transparent plate 111.

The transparent plate 111 has a rectangular plate shape and is composed of a transparent resin plate having a predetermined refractive index and excellent light transmittance. In the present invention, the transparent plate made of polymethylmethacrylate (PMMA) resin has a refractive index of 1.49.

The light scattering layer 112 is formed on the back surface of the transparent plate of the PMMA material and scatters light incident into the transparent plate so that the transparent plate 111 functions as a surface light source. The light scattering layer 112 is formed by coating a UV curable resin 112a in a transparent liquid state including the inorganic scattering agent 112b and / or the organic scattering agent 112c on the back surface of the transparent plate, And a scattering layer having a refractive index larger than that of the transparent plate so that light inside the light scattering layer 112 can be efficiently absorbed. In the light scattering layer 112 having the above-described structure, the outgoing light efficiency is controlled by the inorganic scattering agent 112b while the refractive index is controlled by the organic scattering agent 112c.

Specifically, the light scattering layer 112 may be formed by mixing the inorganic scattering agent 112b with the transparent resin 112a. The transparent resin 112a may be formed of a resin having a refractive index larger than that of the transparent plate 111 is composed of the inorganic scattering agent (112b) is composed of one or more inorganic substance selected from titanium dioxide (TiO _2), silica (SiO ₂₎ or aluminum oxide (Al ₂ O _3). The inorganic scattering agent 112b reflects the light of the light emitting source with high reflectance, thereby improving the light output efficiency.

Preferably, the inorganic scattering agent 112b is about 10% by weight or less based on the total weight of the light scattering layer 112. In order for the light guide plate 120 to function as a surface light source, light must be reflected at the light scattering layer 112. Therefore, at least the inorganic scattering agent 112b should be included in the transparent resin 112a in order to diffuse light, The outgoing efficiency can be raised at a high reflectance with respect to the light emitted from the light emitting source, but the transmittance to visible light may be lowered and the visibility of the back surface object may be lowered.

In addition, the light scattering layer 112 may further include an organic scattering agent 112c in the transparent resin 112a. The light scattering layer 112 should have a refractive index larger than that of the transparent plate and the organic scattering agent 112c may be mixed to control the refractive index of the light scattering layer 112. The light scattering layer 112 according to the embodiment of the present invention in which the organic scattering agent 112c is mixed with the transparent plate 111 made of PMMA having a refractive index of 1.49 is configured to exhibit a refractive index of 1.59. The organic scattering agent 112c may be formed of a material such as polystyrene (PS) or polymethacrylate. The organic scattering agent 112c may reduce the efficiency of light exiting, By weight based on the total weight of the composition.

The inorganic scattering agent 112b and the organic scattering agent 112c have a diameter smaller than the wavelength of the visible light so that visible light can be transmitted through the light scattering layer 112 because the back surface is to be projected in the window mode B. Should have. The titanium dioxide, silica or aluminum oxide particles of the inorganic scattering agent 112b for this purpose have a diameter of 10 nm to 500 nm. When the inorganic scattering agent 112b has a diameter smaller than 10 nm, it is advantageous for light transmission, but the outgoing efficiency is lowered. When the inorganic scattering agent 112b has a diameter larger than 500 nm, the outgoing light efficiency is advantageous, It is disadvantageous in transmittance. In addition, the polystyrene or polymethacrylate particles of the organic scattering agent 112c have a diameter of about 80 nm to 300 nm. When the organic scattering agent 112c has a diameter smaller than 80 nm, it is advantageous in light transmission but disadvantageous in light output efficiency. If the organic scattering agent 112c has a diameter larger than 300 nm, it is advantageous in light output efficiency, but has a disadvantage in decreasing light transmittance.

The light scattering layer 112 is formed of a transparent liquid UV curable resin mixed with at least one inorganic scattering agent selected from titanium dioxide, silica, or aluminum oxide and organic scattering agent of polystyrene or polymethacrylate, Coating method, imprinting, screen printing or gravure method can be used as the screen method.

FIG. 5A is a front view of a transparent neon board according to an embodiment of the present invention, and FIG. 5A is a transparent neon board in which a light emitter is driven to operate in a display mode, The transparent neon board which operates in the window mode is shown.

5 (a), the transparent neon board 100 is driven by the light source 120 by the sensor 150 when there is an object within a certain distance of the transparent neon board 100, The incident light is scattered by the light scattering layer 112 on the back surface and is emitted to the transparent panel 130 on the front surface of the transparent neon board 100, (A). Thereby causing the focus of the objects approaching the transparent neon board 100 to be focused.

The transparent neon board 100 does not drive the light source 120 by the sensor 150 when there is no object within a certain distance of the transparent neon board 110 as shown in FIG. Is operated in the window mode (B) showing the high light transmittance. As a result, the transparent neon board 100 is prevented from being in a state of contradiction with the surrounding environment.

While the invention has been shown and described with reference to certain embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims.

100: transparent neon board
110: light guide plate
111: transparent plate 112: light scattering layer
112a: transparent resin 112b: inorganic scattering agent
112c: Organic scattering agent
120: light source
130: Transparent panel
140: Guide panel
150: sensor

Claims (3)

And a transparent resin including a transparent plate on the plate and a light scattering agent having a diameter of 10 nm to 500 nm and having an inorganic material light scattering agent of 10 wt% or less based on the total weight and an organic material light scattering agent having a diameter of 80 nm to 300 nm, A light guide plate composed of a light scattering layer formed on the light guide plate;
A light emitting source disposed on a side of the light guide plate to provide light into the light guide plate;
A transparent glass panel disposed on a front surface of the light guide plate and having a advertisement text written thereon; And
And a guide frame fastened along edges of the light guide plate and the transparent glass panel to assemble them and form an outer appearance of a rim of the neon board,
Wherein the light guide plate operates as a surface light source that displays the advertisement text by emitting light to the transparent glass panel when light is incident on the light emitting source and is scattered in the light scattering layer, Wherein the transparent window is configured to operate as a transparent window when the incident light is not incident. The method according to claim 1,
And a sensor disposed on a front surface of the neon board for measuring a distance from the object to the neon board and operating the neon board in a display mode and a window mode according to the measured distance. . 3. The sensor according to claim 2,
Characterized in that the light source is turned on and off in a fade-in and fade-out manner as the object approaches or moves away from the neon board, and the neon board is mode-shifted step by step Transparent neon board.

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