KR20210100049A - Signage display enhances cooling efficiency - Google Patents

Abstract

The present invention relates to a signage display with enhanced cooling efficiency, which comprises: a liquid crystal display device; a first panel protective layer installed to be spaced apart from the liquid crystal display device by a predetermined distance and configured to protect the liquid crystal display device; and a second panel protective layer installed to be spaced apart from the first panel protective layer by a predetermined distance and configured to protect the liquid crystal display device. An optical bonding process is performed between the liquid crystal display device and the first panel protective layer, and a cooled fluid or a cooled gas flows between the first panel protective layer and the second pattern protective layer. In the present invention, the second panel protective layer (120) is added to the first panel protective layer which protects a front panel in order to effectively block heat generated in a display front panel part, and the cooled fluid or the cooled gas flows between the first panel protective layer (110) and the second panel protective layer (120) in a state in which the outside is blocked, such that damage to the panel due to external heat is minimized, thereby preventing a screen from aging quickly.

Description

Signage display enhances cooling efficiency

The present invention relates to a signage display with enhanced cooling efficiency, and more particularly, adding a second panel protective layer to the first panel protective layer that protects the front panel in order to effectively block heat generated in the display front panel part, Cooling that minimizes damage to the panel due to external heat by allowing a cooled fluid or a cooled airflow to flow between the first and second panel protective layers while blocking the outside to prevent aging of the screen for a long period of time It relates to a signage display with enhanced efficiency.

The content described below merely provides background information related to the present invention and does not constitute the prior art.

Recently, digital signage that provides various contents and messages through a display panel rather than a hardware medium, such as a signboard or poster for outdoor advertising, is being used. Recently, the demand for digital signage is increasing due to the rapid development of intelligent digital imaging devices based on LCD or LED.

However, as the size of the display panel increases, the heat generated from the display panel and the driving circuit board increases, and due to the nature of outdoor advertising, it must operate normally even in a high-temperature and high-humidity environment. Digital signage that can effectively emit is required.

In order to solve the problem related to the cooling of the flat panel display device, in the related art, a heat sink is attached to the back side of a specific heating component that generates a large amount of heat to cool the specific component, and as a whole, a plurality of holes are provided in the cover of the flat display device. A method was used to allow air to communicate inside and outside the flat-panel display device by drilling a hole.

However, although this method can expect a cooling effect on specific parts that generate high heat, the process of discharging the heat collected in the internal space of the device to the outside is not performed smoothly, so the device cannot be operated stably. There is this.

In order to improve the above method, an axial fan is installed from the middle part of the back cover toward the rear in a direction orthogonal to the formation direction of the flat-panel display device, so that the hot air inside the device is forcibly discharged to the rear has been applied. .

In addition, in the conventional cooling method, the use time increases due to foreign substances caused by air inflow of the screen and the protective layer (case) shown in the front, and the screen must be darkened and cleaned periodically. There is a problem in that the lifespan of the product is rapidly reduced by causing fatal defects such as defects in the product.

And, in the conventional method, the efficiency of discharging the heat accumulated inside the device to the outside can be increased, but not only a lot of noise is generated during the operation of releasing the air, but also there is a gap between the back of the device and the wall in order to discharge the air. There is a problem in that a gap of several tens of centimeters or more must be provided.

In addition, there is a problem in that the width of the flat display module becomes thicker due to the gap that must be provided between the axial fan and the flat display module in order to suck the internal air of the device when the axial fan is installed, and the space itself of the axial fan.

And the conventional method has a problem in that a number of openings are formed on the surface of the back cover to allow external air to be sucked in or discharged, thereby reducing the strength of the back cover. Since it must be formed thickly, there is a problem in that the material cost is increased.

Domestic Patent Publication 2014-0126912 (2014.11.03)

The present invention is to solve the above problem, and in order to effectively block heat generated in the display front panel part, a second panel protective layer is added to the first panel protective layer that protects the front panel, and the outside is blocked A signage with enhanced cooling efficiency that minimizes damage to the panel due to external heat by allowing a cooled fluid or cooled airflow to flow between the first and second panel protective layers, thereby preventing the screen from aging for a long time. to provide a display.

In addition, the present invention is to solve the above-described problem, and does not block the heat generated by the display, but optically bonds between the liquid crystal display (LCD) and the first panel protective layer so that the generated heat can be effectively dissipated. , to provide a signage display with enhanced cooling efficiency for controlling the temperature of the entire surface by optical bonding between the first panel protective layer and the second panel protective layer as needed.

However, the problems to be solved by the present invention are not limited to those mentioned above, and other problems not mentioned will be clearly understood by those skilled in the art from the following description.

Signage display with enhanced cooling efficiency according to the features of the present invention for solving these technical problems,

As a signage display with enhanced cooling efficiency,

liquid crystal display;

a first panel protective layer installed to be spaced apart from the liquid crystal display device by a predetermined distance and configured to protect the liquid crystal display device;

and a second panel protective layer installed to be spaced apart from the first panel protective layer by a predetermined distance and configured to protect the liquid crystal display device;

An optical bonding process is performed between the liquid crystal display device and the first panel protective layer,

A cooled fluid or a cooled gas flows between the first panel protective layer and the second pattern protective layer.

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An inlet for injecting the cooled fluid or cooled gas and a recovery port for recovering the cooled fluid or cooled gas are installed between the first panel protective layer and the second pattern protective layer. .

A movement path may be formed to smoothly move the cooled fluid or cooled gas from the inlet to the recovery port.

A portion between the first panel protective layer and the second pattern protective layer, except for a passage through which the cooled fluid or cooled gas moves, is optically bonded.

The method further includes a temperature control device for cooling the fluid or gas recovered from the recovery port, adjusting the temperature to a predetermined temperature, and injecting it back into the inlet port.

A driving circuit board for driving the liquid crystal display device may be further included on the rear surface of the liquid crystal display device.

In an embodiment of the present invention, a second panel protective layer is added to the first panel protective layer that protects the front panel in order to effectively block heat generated in the display front panel part, and the first panel is protected in a state in which the outside is blocked By allowing a cooled fluid or a cooled airflow to flow between the second panel protective layer and the layer, it is possible to provide a signage display with enhanced cooling efficiency that minimizes damage to the panel due to external heat and prevents the screen from aging for a long time. there is.

In addition, in an embodiment of the present invention, optical bonding is performed between the liquid crystal display (LCD) and the first panel protective layer so as to effectively dissipate the generated heat rather than block the heat generated by the display, and, if necessary, Optical bonding between the protective layer of the first panel and the protective layer of the second panel may provide a signage display with enhanced cooling efficiency for controlling the temperature of the entire surface.

1 is a view showing a side cross-section of a signage display with enhanced cooling efficiency of the present invention.
2 and 3 are diagrams illustrating the flow of a cooling fluid or cooling gas of a signage display with enhanced cooling efficiency according to the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. In describing the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the gist of the present invention, the detailed description thereof will be omitted. In addition, the terms used in this specification are terms used to properly express the preferred embodiment of the present invention, which may vary according to the intention of the user or operator or customs in the field to which the present invention belongs. Accordingly, definitions of these terms should be made based on the content throughout this specification. Like reference numerals in each figure indicate like elements.

Throughout the specification, when a member is said to be located “on” another member, this includes not only a case in which a member is in contact with another member but also a case in which another member is present between the two members.

Throughout the specification, when a part "includes" a certain component, it means that other components may be further included, rather than excluding other components.

Hereinafter, a signage display with enhanced cooling efficiency of the present invention will be described in detail with reference to Examples and drawings. However, the present invention is not limited to these examples and drawings.

1 is a view showing a side cross-section of a signage display with enhanced cooling efficiency of the present invention.

2 and 3 are diagrams illustrating the flow of a cooling fluid or cooling gas of a signage display with enhanced cooling efficiency according to the present invention.

1 to 3, the signage display with enhanced cooling efficiency according to an embodiment of the present invention,

As a signage display with enhanced cooling efficiency,

liquid crystal display device 140;

a first panel protective layer 110 installed to be spaced apart from the liquid crystal display 140 by a predetermined distance and configured to protect the liquid crystal display 140;

and a second panel protective layer 120 installed to be spaced apart from the first panel protective layer 110 by a predetermined distance and configured to protect the liquid crystal display device 140,

An optical bonding process is performed between the liquid crystal display device 140 and the first panel protective layer 110 to form an optical bonding region 130 ,

A cooled fluid or cooled gas flows between the first panel protective layer 110 and the second panel protective layer 120 .

The first panel protective layer 110 and the second pattern protective layer may be tempered glass.

An inlet for injecting the cooled fluid or cooled gas and a recovery port for recovering the cooled fluid or cooled gas are installed between the first panel protective layer 110 and the second pattern protective layer characterized.

A movement path may be formed to smoothly move the cooled fluid or cooled gas from the inlet to the recovery port.

A portion between the first panel protective layer 110 and the second pattern protective layer except for a passage through which the cooled fluid or cooled gas moves is optically bonded.

It further includes a temperature control device 200 that cools the fluid or gas recovered from the recovery port, adjusts the temperature to a predetermined temperature, and injects it back into the inlet.

A driving circuit board for driving the liquid crystal display 140 may be included in the protective case 150 on the rear surface of the liquid crystal display 140 .

The operation of the signage display with enhanced cooling efficiency having such a configuration is as follows.

2 and 3 , heat is generated while information is displayed in the liquid crystal display 140 . This heat is conducted to the first panel protective layer 110 and the second panel protective layer 120 through the optical bonding region 130 .

On the other hand, the cooled fluid or cooled gas adjusted to a predetermined temperature in the temperature control device 200 is supplied to the inlet.

Then, the cooled fluid or cooled gas flows between the first panel protective layer 110 and the second panel protective layer 120 to cool the first panel protective layer 110 and the second panel protective layer 120 . make it

Then, the fluid or gas that has passed through the first panel protective layer 110 and the second panel protective layer 120 is recovered through the recovery port 220 and is again recovered by the temperature control device 200 .

Thereafter, the cooled fluid or cooled gas adjusted to a predetermined temperature in the temperature controller 200 is supplied to the inlet again.

In this embodiment of the present invention, the second panel protective layer 120 is added to the first panel protective layer that protects the front panel in order to effectively block heat generated in the display front panel, and the outside is blocked. By allowing a cooled fluid or a cooled airflow to flow between the first panel protective layer 110 and the second panel protective layer 120, damage to the panel due to external heat can be minimized to prevent aging of the screen for a long period of time. there is.

In addition, in an embodiment of the present invention, an optical bonding between the liquid crystal display 140 (LCD) and the first panel protective layer 110 is performed so that the heat generated from the display can be effectively dissipated rather than blocked. and, if necessary, optical bonding between the first panel protective layer 110 and the second panel protective layer 120 may be performed to enhance cooling efficiency for controlling the temperature of the entire surface.

As described above, although the embodiments have been described with reference to the limited embodiments and drawings, various modifications and variations are possible from the above description by those skilled in the art. For example, even if the described techniques are performed in an order different from the described method, and/or the described components are combined or combined in a different form from the described method, or replaced or substituted by other components or equivalents Appropriate results can be achieved. Therefore, other implementations, other embodiments, and equivalents to the claims are also within the scope of the following claims.

Claims (1)

As a signage display with enhanced cooling efficiency,
liquid crystal display;
a first panel protective layer installed to be spaced apart from the liquid crystal display device by a predetermined distance and configured to protect the liquid crystal display device;
and a second panel protective layer installed to be spaced apart from the first panel protective layer by a predetermined distance and configured to protect the liquid crystal display device;
An optical bonding process is performed between the liquid crystal display device and the first panel protective layer,
A cooled fluid or cooled gas flows between the first panel protective layer and the second panel protective layer,
An inlet for injecting the cooled fluid or cooled gas and a recovery port for recovering the cooled fluid or cooled gas are installed between the first panel protective layer and the second panel protective layer,
characterized in that a movement path is formed to smoothly move the cooled fluid or cooled gas from the inlet to the recovery port,
A portion between the first panel protective layer and the second panel protective layer except for a passage through which the cooled fluid or cooled gas moves is optically bonded,
Further comprising a temperature control device for cooling the fluid or gas recovered from the recovery port to adjust the temperature to a predetermined temperature and injecting it back into the inlet port,
A driving circuit board for driving the liquid crystal display device is included in a protective case on the rear surface of the liquid crystal display device,
The first panel protective layer and the second panel protective layer are tempered glass,

When heat is generated while information is displayed in the liquid crystal display device, the generated heat is generated in the optical bonding region between the liquid crystal display device and the first panel protective layer, the first panel protective layer, the first panel protective layer and the Conducted and radiated to the optical bonding region between the second panel protective layer and the second panel protective layer,
The cooled fluid or cooled gas adjusted to a predetermined temperature in the temperature control device is supplied to the inlet,
The cooled fluid or cooled gas flows between the first panel protective layer and the second panel protective layer to cool the first panel protective layer and the second panel protective layer,
The fluid or gas that has passed through the first panel protective layer and the second panel protective layer is recovered through the recovery port and is again returned to the temperature control device,
It is characterized in that the cooled fluid or cooled gas adjusted to a predetermined temperature in the temperature control device is supplied to the inlet again,
In order to block the heat generated from the front of the liquid crystal display device, a cooled fluid or a cooled air flow flows between the first panel protective layer and the second panel protective layer in a state in which the outside is blocked. Signage display with enhanced cooling efficiency, characterized in that it prevents damage to

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