WO2016068474A1

WO2016068474A1 - Transparent display board having sagging prevention means, and method for manufacturing same

Info

Publication number: WO2016068474A1
Application number: PCT/KR2015/009259
Authority: WO
Inventors: 이호준
Original assignee: 지스마트 주식회사
Priority date: 2014-10-27
Filing date: 2015-09-02
Publication date: 2016-05-06
Also published as: CN104715693A; KR20160049613A

Abstract

The present invention relates to a transparent display board having a sagging prevention means and a method for manufacturing same, and more specifically relates to a transparent display board having a sagging prevention means so as to prevent the sagging, due to the weight thereof, of a transparent display board in which one or more transparent boards are adhered together.

Description

Transparent electronic board having sag prevention means and its manufacturing method

The present invention relates to a transparent display board having a deflection prevention means and a method of manufacturing the same, and more particularly, to a transparent display board having deflection prevention means to prevent deflection due to load in a transparent display board to which one or more transparent plates are bonded. .

In general, as a light emitting device used outdoors, neon, a cold cathode lamp (CCL: Cold Cathode Lamp), an LED using a light emitting diode (LED) is widely used. In addition, as a light emitting device used indoors, an external electrode fluorescent lamp (EEFL), a cold cathode fluorescent lamp (CCFL), a light emitting diode display board, and the like are used.

Here, neon or cold cathode discharge tube has a drawback of using a high voltage power consumption, high power consumption, risk of electric shock and fire, and short life. In addition, EEFL or CCFL has a disadvantage in that it is difficult to use outdoors in that it uses a high frequency, has a low illuminance and short lifespan.

In addition, in the case of the LED board using the LED, the back surface of the surface emitting light by the processing of the electric wire, the black film treatment, etc. of the rear surface is blocked by the cover, and has the characteristic of emitting light in only one direction.

On the other hand, in recent years, the light emitting device is used as an advertisement signboard rather than simply used as a function of lighting, and has been widely used in interiors and the like as a design with an added aesthetic sense.

However, the light emitting devices as described above are limited in providing aesthetic sense due to the limitation of the size of a lamp, the size of a stand for supporting the light emitting device, and the like.

Therefore, in the related art, a plurality of light emitting elements are attached to the transparent electrode to impart the above aesthetic sensation, and the light is controlled by the controller to emit light to display characters or figures on the transparent electrode, and furthermore, to display a moving image. This was released.

In the transparent display board, a plurality of light emitting devices having two electrodes, three electrodes, or four electrodes are mounted on the transparent electrode. Such a transparent display board is disclosed in Korean Patent No. 79950 (registered on November 21, 2007).

However, such a conventional transparent display board is mainly designed for interior or advertising to give an aesthetic sense, but it does not have a thermal insulation and insulation function that can maintain the indoor temperature, so when installed near a window of a residential or office building, Thereby, there was a problem in that the heating and cooling costs for maintaining the room temperature properly increases.

In addition, the transparent transparent plate is a transparent cover plate is bonded to the light emitting transparent plate to which the light emitting device is bonded. In this case, as the conventional transparent display board is installed in an upright state, deflection occurs due to its own load on the cover transparent plate, thereby causing a problem of damage to the light emitting device installed in the light emitting transparent plate.

Therefore, the present invention has been made to solve the conventional problems as described above, the object of the present invention is provided with a deflection prevention means that can prevent the sagging of the cover transparent plate by the load in a transparent electronic board attached to one or more transparent plates It is to provide a transparent electronic display.

In addition, another object of the present invention to provide a transparent display board having a deflection prevention means having a multilayer structure to improve the thermal insulation and sound insulation effect of the transparent display board.

The present invention includes the following examples in order to achieve the above object.

Preferred embodiment of the transparent display board having a deflection prevention means according to the present invention includes a light emitting transparent plate which is formed with a transparent electrode to enable the power supply to the plurality of light emitting devices mounted on one surface; A cover transparent plate bonded to one surface of the light emitting device on the light emitting transparent plate; A protective layer protecting the light emitting device and the transparent pattern by injecting and curing a resin between the light emitting transparent plate and the cover transparent plate; And at least one bumper fixed between the light emitting transparent plate and the cover transparent plate to prevent sagging of the cover transparent plate.

In another embodiment of the present invention, the transparent cover plate is characterized in that the one or more cover plates are stacked spaced apart from each other.

In another embodiment of the present invention, the cover transparent plate is a first cover plate adhered to one surface of the light emitting transparent plate; A space bar coated with an adhesive solution on both surfaces thereof and bonded to an edge of the first cover plate; and a second space bonded to an upper surface of the space bar to form a space spaced apart from the first cover plate in a vacuum state or a gas filled state; It includes a cover plate.

In another embodiment of the present invention, the bumper is made of a transparent plastic resin is bonded to the light emitting transparent plate and the cover transparent plate, respectively, by the adhesive means installed on both sides.

According to a preferred embodiment of the present invention, there is provided a method of manufacturing a transparent display device having a deflection preventing means, including: a light emitting device mounting step of mounting a light emitting device on at least one transparent pattern formed on a transparent electrode of a light emitting transparent plate; A bumper bonding step of bonding at least one solid bumper made of a transparent plastic resin to one surface of the light emitting transparent plate after the light emitting device mounting step; A cover transparent plate bonding step of attaching a cover transparent plate to one surface of the light emitting transparent plate after the bumper bonding step; A protective layer forming step of fixing the bumper by injecting and curing a resin between the light emitting transparent plate and the cover transparent plate after the cover transparent plate bonding step; And an epoxy finishing step of injecting liquid epoxy into the end face and the edge of the light emitting transparent plate and the transparent cover plate.

In another embodiment of the present invention, the cover transparent plate bonding step further comprises a cover transparent plate manufacturing step of one or more cover plates are stacked apart from each other.

In another embodiment of the present invention, the cover transparent plate manufacturing step is a space bar bonding step of bonding a space bar extending in the longitudinal direction to the edge of the first cover plate; A second cover plate is bonded to the second cover plate to have a space spaced between the first cover plate and the second cover plate by mounting a second cover plate on the upper surface of the space bar after the space bar bonding step step; And a filling step of vacuuming or filling the spaced space between the first cover plate and the second cover plate.

The present invention can support the load of the cover transparent plate adhered to one surface of the light emitting transparent plate in which the light emitting element is installed in the transparent display plate to prevent damage of the light emitting element due to the sagging of the cover transparent plate, thereby improving the safety of the transparent display plate. It has an effect.

In addition, the present invention can be installed on the windows of residential and office buildings in addition to the advertising and interior, by stacking at least one cover transparent plate to expand the scope of application, can save the heating and cooling costs when applied to residential or office buildings It has an effect.

1 is a plan view showing a transparent electronic board having a deflection prevention means according to the present invention,

Figure 2 is a side cross-sectional view showing a transparent electronic board with a deflection prevention means according to the invention,

Figure 3 is a side cross-sectional view showing a transparent cover plate in the transparent electronic board with a deflection prevention means according to the invention,

Figure 4 is a flow chart illustrating a method of manufacturing a transparent display board having a deflection prevention means according to the present invention.

Hereinafter, with reference to the accompanying drawings, a preferred embodiment of a transparent display board having a deflection prevention means according to the present invention and a manufacturing method thereof.

1 is a plan view showing a transparent display board having a deflection prevention means according to the present invention, Figure 2 is a side cross-sectional view showing a transparent display board having a deflection prevention means according to the present invention.

Referring to FIGS. 1 and 2, the transparent electronic display panel 100 including the deflection prevention means according to the present invention includes a light emitting transparent plate 110 on which one or more light emitting elements 111 are mounted, and the light emitting transparent plate 110. The cover transparent plate 140 adhered to the protective layer 130 formed by the resin injected between the transparent transparent plate 110 and the transparent cover plate 140, the transparent transparent plate 110 and the cover One or more adhesive is fixed between the transparent plate 140 includes a deflection prevention means 120 for dispersing the load of the transparent cover plate 140.

The light emitting transparent plate 110 is, for example, a transparent electrode formed by applying a conductive ink or conductive material using ITO (Indium Tin Oxide) or CNT (Carbon Nano Tube) Glass to enable the power supply One or more light emitting devices 111 that emit power by being supplied with power through one or more transparent patterns (not shown) formed to be insulated from other patterns by a process such as etching at 112.

In addition, the light emitting transparent plate 110 includes a controller (not shown) for outputting a control signal of the light emitting element 111 and a control terminal (not shown) to which the controller is connected, Since the configuration is generally known technology, detailed descriptions and drawings have been omitted.

The protective layer 130 is formed as a liquid resin is injected and cured in a state where the cover transparent plate 140 is bonded by a double-sided tape (not shown) at the edge of the light emitting transparent plate 110. . The protective layer 130 fixes the cover transparent plate 140, the light emitting transparent plate 110, and the sag preventing means 120 together with a function of protecting the light emitting device 111.

The deflection preventing unit 120 is a bumper 120 in a solid state made of a plastic resin of a transparent material, and is adhered between the light emitting transparent plate 110 and the cover transparent plate 140. The bumper 120 is one or more to support and distribute the load of the cover transparent plate 140 to prevent sagging of the cover transparent plate 140. Therefore, when the cover transparent plate 140 is bonded between the light emitting transparent plate 110, a liquid resin is injected and bonded to the light emitting transparent layer by the hardened protective layer 130. The cover transparent layer may be sag in a state in which the cover transparent layer is bonded by the light emitting transparent plate 110 and the protective layer 130 by its own load.

However, the present invention can support the load of the cover transparent plate 140 as the bumper 120 is bonded between the light emitting transparent plate 110 and the cover transparent plate 140, respectively, the cover transparent plate ( 140) can be prevented from sagging.

To this end, the bumper 120 is formed of a transparent plastic resin (for example, urethane or silicone) in a solid state on which both sides are provided with an adhesive means (for example, a double-sided tape or adhesive having an adhesive layer coated thereon). It is manufactured and bonded to the cover transparent plate 140 and the light emitting transparent plate 110, respectively.

The cover transparent plate 140 is bonded in a direction opposite to one surface on which the plurality of light emitting elements 111 are mounted on the light emitting transparent plate 110. The cover transparent plate 140 forms a multi-layered structure in which one or more transparent cover plates 141, 142 (see FIG. 3) are laminated for insulation and noise shielding so that the cover transparent plate 140 may be installed outside the office building or residential building. desirable.

The cover transparent plate 140 will be described in detail with reference to FIG. 3. Figure 3 is an enlarged side cross-sectional view of the cover transparent plate in a transparent electronic display with a deflection prevention means according to the present invention.

Referring to FIG. 3, the cover transparent plate 140 has a multilayer structure in which one or more cover plates are made of a transparent glass material. In more detail, the transparent cover plate 140 is laminated so that one or

more cover plates

141 and 142 are spaced apart from each other.

For example, the cover transparent plate 140 may include a first cover plate 141 bonded to the light emitting transparent plate 110, and a second cover plate 142 spaced apart from the first cover plate 141. And a space bar 143 supporting the second cover plate 142 so as to be stacked at a spaced interval between the first cover plate 141 and the second cover plate 142.

The first cover plate 141 and the second cover plate 142 are stacked to be spaced apart from each other by the space bar 143 to maintain the empty space 144. In this case, the separation space 144 may maintain a vacuum state or inject argon gas to improve noise shielding and insulation effect.

The space bar 143 is a bar shape extending in the longitudinal direction and has a predetermined thickness and is bonded to an edge of the first cover plate 141. The space bar 143 may be a glass or a metal material, and may not be a transparent material as long as the space bar 143 may be covered by a frame (not shown) that supports the transparent display board.

In addition, the space bar 143 is adhesively bonded to both edges of the cover transparent plate 140 by the adhesive means (143a).

The bonding means 143a is installed on both sides of the space bar 143 to adhere the space bar 143 to the first cover plate 141, and the second cover plate 142 to the space bar ( To 143).

The adhesive means 143a is not limited to means for temporarily attaching the space bar 143 as a double-sided tape or epoxy, and in addition, the space bar 143 may be adhered to the first cover plate 141. If there is, it is applicable.

The second cover plate 142 is stacked while being spaced apart from the first cover plate 141 while both edges are bonded to the upper surface of the space bar 143 temporarily attached to the first cover plate 141. In this case, the first cover plate 141 and the second cover plate 142 are manufactured as a light transmissive material to transmit the light emitted from the light emitting element 111 mounted on the light emitting transparent plate 110, and is insulated Low-E glass or ordinary transparent glass having a function may be applied.

In addition, as the second cover plate 142 is installed to have a space spaced apart from the first cover plate 141, it is possible to improve the heat insulation and soundproofing function on the transparent electric display plate.

In addition, the present invention can be various applications depending on the intention of the operator or designer. That is, the cover transparent plate 140 is not necessarily made of a transparent material, but is replaced by a resin plate made of colored glass or a light transmissive material capable of transmitting light emitted from the light emitting device 111 according to the intention of the operator or designer. This may correspond to any one of various applications corresponding to the scope of the technical spirit of the present invention.

As described above, the second cover plate 142 and the space bar 143 are completely bonded by the finishing material applied to the edge and the end surface of the entire transparent electronic board in the state of being temporarily bonded by the adhesive means 143a.

The finishing material is a liquid epoxy to seal the space between the light emitting transparent plate 110 and the second cover plate 142, the first cover plate 141 and the space bar 143 and the second cover plate 142 ) Fully bond.

In addition, the present invention maintains a vacuum state or vacuum by discharging the air inside for insulation and sound insulation in the spaced space between the first cover plate 141 and the second cover plate 142 before finishing with the epoxy It is preferable to inject a gas (for example, Ar) in the state.

The present invention includes the above-described configuration and hereinafter will be described with reference to the accompanying flowchart of the manufacturing method of the transparent display board having a deflection prevention means including the above configuration.

Referring to FIG. 4, in the method of manufacturing a transparent display device having a deflection preventing device according to the present invention, a transparent electrode 112 is formed on a light emitting transparent plate 110 to mount a light emitting device 111. Mounting step (S100), the bumper 120 for adhering the bumper 120 to the light emitting transparent plate 110 (S200) and the cover transparent plate 140 is temporarily bonded to the light emitting transparent plate 110 A step of bonding the transparent cover plate 140 (S300) and the resin between the light emitting transparent plate 110 and the cover transparent plate 140 by injecting and curing the light emitting transparent plate 110 and the cover transparent plate 140 Bonding the protective layer 130 forming step (S400), and the epoxy finishing step (S500) for fixing and fixing the cover transparent plate 140 to the light emitting transparent plate 110 with epoxy.

In the light emitting device mounting step (S100), a conductive ink or a conductive material is coated on one surface of the light emitting transparent plate 110 to form a transparent electrode 112 for power supply, and is spaced apart from the transparent electrode 112 to insulate it. A control terminal (not shown) and a transparent pattern (not shown) are formed, and the light emitting device 111 is mounted.

The transparent electrode 112 is coated with a light-transmissive conductive adhesive or a light-transmissive conductive material on one surface of the light emitting transparent plate 110 to enable the power supply.

The control terminal (not shown) is connected to the control terminal by a flexible circuit board (not shown) installed on one or more edges of the light emitting transparent plate 110. The flexible circuit board (not shown) is adhered to the control terminal as a conductive adhesive.

The transparent pattern (not shown) is patterned to be spaced apart from each other so that at least one of the control terminals may extend to insulate the other electrode. The light emitting device 111 is bonded by a conductive adhesive at the end of the transparent pattern.

The bumper adhering step (S200) is one surface is bonded by an adhesive means (not shown, for example, epoxy or double-sided tape) installed on one surface on which the light emitting element 111 is mounted on the light emitting transparent plate 110. do. In addition, the bumper 120 is provided with an adhesive means (for example, epoxy or double-sided tape) on the opposite side is bonded to one surface of the transparent cover plate 140. Here, the bumper 120 is preferably made of a plastic resin of a transparent material in a solid state.

The cover transparent plate adhering step (S300) is a step of adhering the cover transparent plate 140 to face one surface on which the light emitting device 111 is mounted on the light transparent plate 110. The cover transparent plate 140 is temporarily bonded by a temporary adhesive means (143a) such as a double-sided tape. In this case, the bumper 120 is adhered to one surface of the cover transparent plate 140 after exposing the adhesive liquid applied from the opposite surface of the light emitting transparent plate 110.

In the protective layer forming step (S400), the transparent transparent resin is injected and cured between the temporarily bonded light emitting transparent plate 110 and the cover transparent plate 140 to cure the light emitting transparent plate 110 and the cover transparent plate 140. It is a step of adhering. The protective layer 130 is cured by a UV curing device (not shown) by injecting a resin between the transparent transparent plate 110 and the transparent cover plate 140 temporarily bonded by a double-sided tape. Therefore, the light emitting transparent plate 110 and the cover transparent plate 140 is fixed by a protective layer 130 formed by the resin is injected and cured. In addition, the resin is a transparent resin. In addition, the protective layer 130 protects the light emitting device 111 of the light emitting transparent plate 110 and fixes the bumper 120.

The epoxy finishing step (S500) is a step in which a liquid epoxy is injected into the cross-sections of the light emitting transparent plate 110 and the cover transparent plate 140 to finish the transparent light emitting plate 100. The epoxy is applied to a portion and a cross section of the edge of the light emitting transparent plate 110 and the cover transparent plate 140 to prevent the inflow of moisture, air and other foreign matter into the light emitting transparent plate 110 and the cover transparent plate 140. Block it. The finish with the epoxy is preferably limited to the area covered by the transparent display board by a frame capable of acting as a window frame or window frame.

Here, as another embodiment of the present invention, the cover transparent plate 140 preferably further includes a cover transparent plate manufacturing step of stacking one or more cover plates spaced apart from each other. For example, the cover transparent plate 140 may include a first cover plate 141 adhered to the surface of the light emitting transparent plate 110 by the protective layer 130 on the surface of the light emitting element 111. The second cover plate 142 is attached to be spaced apart from the first cover plate 141. Of course, the number of the transparent cover plate 140 is not limited to the first cover plate 141 and the second cover plate 142, but may be formed in a stack or more depending on the intention of the operator or designer.

Hereinafter, the manufacturing steps of the cover transparent plate 140 as another embodiment of the present invention.

The manufacturing step of the transparent cover plate 140 is a space bar adhering step for adhering the space bar 143 to the first cover plate 141, and a second cover plate 142 after the space bar adhering step A bonding step of bonding the second cover plate and a filling step of filling the vacuum or gas in the space 144 between the first cover plate 141 and the second cover plate 142.

In the space bar bonding step, the bonding means 143a (for example, a double-sided tape and an adhesive) is installed at both edges of opposite surfaces of the first cover plate 141 to which the protective layer 130 is bonded. The space bar 143 is temporarily bonded thereon. Here, the space bar 143 has a predetermined thickness and extends in the longitudinal direction, and the bonding means 143a bonds the space bar 143 and the first cover plate 141 in a temporary adhesive state.

Preferably, the adhesive means 143a may be a double-sided tape including an adhesive layer formed by an adhesive solution applied on both sides of the space bar 143 and a release paper to protect the adhesive layer.

Therefore, the operator may easily adhere to both edges of the first cover plate 141 after exposing the adhesive layer after removing the release paper attached to one surface of the space bar 143.

The second cover plate adhering step includes temporarily attaching the second cover plate 142 after the bonding means 143a is installed on the top surface of the space bar 143 that is temporarily attached to the first cover plate 141. Step. Here, if the space bar 143 is provided with a double-sided tape as described above, the adhesive layer is exposed after removing the release paper on the upper surface.

Therefore, the operator may press the both sides of the second cover plate 142 to the adhesive layer exposed on the upper surface of the space bar 143 and then pressurize the second cover plate 142. At this time, the first cover plate 141 and the second cover plate 142 are bonded in a state in which they are spaced apart from each other by the thickness of the space bar 143 is completely bonded through the epoxy finishing step.

The filling step is a step of discharging air remaining in the space 144 between the first cover plate 141 and the second cover plate 142 to maintain a vacuum state or injecting argon gas after vacuum. . In the present invention, the transparent cover plate 140 is filled with a vacuum or gas in the space 144 between the first cover plate 141 and the second cover plate 142 to increase the heat insulation and sound insulation effect. .

At this time, the epoxy finishing step (S500) may be carried out after or before the vacuum and / or gas injection. Such a process corresponds to any one of various embodiments, and the process order corresponds to an application example in which various modifications can be made by an operator or a designer.

In addition, in another embodiment of the present invention, the transparent cover plate 140 may be provided with the bumper 120 in a multilayer structure in which one or more cover plates are stacked. For example, one or more bumpers may be provided on a surface of the space bar 143 provided at both edges of the first cover plate 141 and the surface of the first cover plate 141 that faces the second cover plate 142. After adhering the 120, the second cover plate 142 is attached to the first cover plate 141.

That is, according to another embodiment of the present invention, at least one bumper may be formed between the first cover plate 141 and the second cover plate 142 by the adhesive means 143a (for example, a double-sided tape or a liquid adhesive). It is also possible to bond the 120 to support the load of the second cover plate 142 adhered to the first cover plate 141. In this case, the space between the first cover plate 141 and the second cover plate 142 may be maintained in a vacuum state or filled with gas, and the liquid transparent resin may be filled and cured.

Therefore, the present invention has a heat insulating and soundproofing function when the cover transparent plate 140 having a multilayer structure as described above is installed on the front surface of the transparent display board, and the load according to the addition of the cover transparent plate 140 through the deflection preventing means. It can be supported to replace existing windows in residential and office buildings.

Claims

A light emitting transparent plate on which a plurality of light emitting elements are mounted;

A cover transparent plate bonded to one surface of the light emitting device on the light emitting transparent plate;

A protective layer protecting the light emitting device and the transparent pattern by injecting and curing a resin between the light emitting transparent plate and the cover transparent plate; And

And at least one bumper fixed between the light emitting transparent plate and the cover transparent plate to prevent sagging of the cover transparent plate.
The method of claim 1, wherein the transparent cover plate

Transparent display board having a load distribution means, characterized in that the one or more cover plates are spaced apart from each other.
The method of claim 1, wherein the transparent cover plate

A first cover plate adhered to one surface of the light emitting transparent plate;

Spacer is coated on both sides to be bonded to the edge of the first cover plate; And

And a second cover plate attached to an upper surface of the space bar to form a space spaced apart from the first cover plate in a vacuum state or filled with gas.
The method of claim 1, wherein the bumper

A transparent electronic display board having sagging prevention means, each of which is made of a transparent plastic resin and bonded to the light emitting transparent plate and the cover transparent plate by adhesive means installed on both sides.
A light emitting device mounting step of mounting a light emitting device on at least one transparent pattern formed on a transparent electrode of the light emitting transparent plate;

A bumper bonding step of bonding at least one solid bumper made of a transparent plastic resin to one surface of the light emitting transparent plate after the light emitting device mounting step;

A cover transparent plate bonding step of attaching a cover transparent plate to one surface of the light emitting transparent plate after the bumper bonding step;

A protective layer forming step of fixing the bumper by injecting and curing a resin between the light emitting transparent plate and the cover transparent plate after the cover transparent plate bonding step; And

Method of manufacturing a transparent light emitting plate having a deflection prevention means comprising an epoxy finishing step of injecting a liquid epoxy to the cross-section and the edge of the light emitting transparent plate and the cover transparent plate.
The method of claim 5, wherein the transparent cover plate bonding step

A method of manufacturing a transparent display board having a deflection prevention means further comprising the step of manufacturing a transparent cover plate laminated one or more cover plates spaced apart from each other.
The method of claim 6, wherein the transparent cover manufacturing step

A space bar bonding step of bonding the space bar extending in the longitudinal direction to the edge of the first cover plate;

A second cover plate is bonded to the second cover plate to have a space spaced between the first cover plate and the second cover plate by mounting a second cover plate on the upper surface of the space bar after the space bar bonding step step; And

And a filling step of vacuuming or spaced apart the space between the first cover plate and the second cover plate.