KR101034721B1 - Lcd mold frame structure - Google Patents

Abstract

The present invention discloses a liquid crystal display mold frame structure which can improve light efficiency and reduce manufacturing cost of a mold frame by coating a reflective film inside a mold frame in which a backlight assembly is assembled. Disclosed is a liquid crystal display device in which a liquid crystal panel, a mold frame, a light guide plate, a lamp, a reflector, a lower cover, and an upper cover are assembled, wherein a reflective film is formed inside the mold frame in which the light guide plate is assembled The light guide plate may be formed inside the mold frame corresponding to both side surfaces of the light guide plate and the light incident part, and the width of the reflective film may have a width equal to the width from the reflector below the light guide plate to the top surface of the light guide plate.

Here, the reflective film is made of any one of polycarbonite, silver (Ag), aluminum (Al), and the reflective film is made of a film type of polycarbonateite, silver, aluminum and attached. It is done.

LCD, Mold Frame, Reflective Film, LGP, Light Efficiency

Description

Liquid Crystal Display Mold Frame Structure {LCD MOLD FRAME STRUCTURE}

1 is an exploded perspective view of an assembly structure of a liquid crystal display generally.

2 is a view illustrating an assembly structure of a light guide plate and a mold frame of a liquid crystal display device in general.

3 is a cross-sectional view taken along the line AA ′ of FIG. 2;

4 is a view showing the structure of a liquid crystal display mold frame according to the present invention;

5 is a view showing a state in which light reflection is made in the light guide plate assembled to the mold frame of the present invention.

* Description of the symbols for the main parts of the drawings *

1: upper case 3: panel guide

5: liquid crystal panel 10: backlight assembly

13: lamp 15, 115: light guide plate

17: reflector plate 21, 121: mold frame

22: lower cover 140: reflective film

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a liquid crystal display device, and more particularly, by coating a reflective film inside a mold frame in which a backlight assembly is assembled, thereby improving light efficiency and reducing manufacturing cost of a mold frame. It's about structure.

Recently, due to the rapid development of technology in the semiconductor industry, liquid crystal display devices are being manufactured with smaller and lighter weight and more powerful products. Cathode ray tube (CRT), which is widely used in information display devices, has many advantages in terms of performance and price, but has many disadvantages in terms of miniaturization or portability.

On the other hand, liquid crystal displays have been attracting attention as an alternative means of overcoming the shortcomings of CRTs because they have advantages such as miniaturization, light weight, and low power consumption. Currently, almost all information processing devices that require display devices are required. The situation is attached to.

Such liquid crystal displays generally apply voltages to specific molecular arrays of liquid crystals to convert them into other molecular arrays, and change optical properties such as birefringence, photoreactivity, dichroism, and light scattering characteristics of liquid crystal cells that emit light by such molecular arrays. Is a display device using modulation of light by a liquid crystal cell by converting the light into a visual change.

Recently, various structures have been developed for slimming and lightening in order to secure the competitiveness of the product. One of them is a liquid crystal panel in which an array substrate and a color filter substrate are bonded to each other, and the backlight assemblies, which are optical units, are stacked and inserted into a mold frame in order to protect them. Produce a mold frame structure.

The PCB for applying a signal to the gate pad and the data pad formed at the edge of the display panel is connected together with the flexible cable by TCP to which the drive IC is bonded, and is attached to the rear surface of the mold frame of the liquid crystal display device.

1 is an exploded perspective view of an assembly structure of a liquid crystal display generally.

As shown in FIG. 1, the liquid crystal panel 5 in which the array substrate in which a plurality of pixels are formed in a matrix form and the color filter substrate in which the R, G, and B color filters are formed in a matrix form are bonded together with the backlight assembly. It is housed in a stacked form in a mold frame.

A gate printed circuit board (PCB) 7 for applying a driving signal is provided at one edge of the liquid crystal panel 5 with a gate pad of the liquid crystal panel 5 interposed between the gate pad and a gated taper package (TCP). It is connected by a (flexible cable).

Similarly, a data printed circuit board (PCB) 9 for applying a graphic signal to the other edge of the liquid crystal panel 5 is connected to a data pad of the liquid crystal display panel 5 by a flexible cable. Data TCP is attached to apply a signal to the liquid crystal panel 5 according to a certain scanning method.                         

Under the liquid crystal panel 5, a plurality of optical sheets 11 and a lamp 13 for generating light in order to express an image, and the light generated from the lamp 13 are plane light of an area of the liquid crystal panel 5. The backlight assembly 10 including the light guide plate 15 to be replaced with the light reflection plate 17 for reflecting the light leaked from the light guide plate 15 and increasing the light efficiency is attached in a stacked form.

The backlight assembly 10 and the liquid crystal panel 5 are inserted in a stacked form in the mold frame 21 for optical alignment while protecting from external impact. In order to prevent movement of the liquid crystal panel 5, a guide panel 3 capable of fixing the liquid crystal panel 5 is attached.

The mold frame 21 is divided into a metal material or a plastic material, and the liquid crystal panel 5 and the backlight assembly 10 are inserted into the mold frame 21 in a stacked form, and then the panel The guide 3 is coupled to the mold frame 21.

Thereafter, an upper case 1 and a lower cover 22 are assembled to the liquid crystal panel 5 and the mold frame 21 in which the backlight assembly 10 is accommodated.

The upper case 1 and the lower cover 22 serve to ground the PCB connected to the liquid crystal panel 5 while protecting the liquid crystal panel 5 and the backlight assembly 10.

2 is a view illustrating an assembly structure of a light guide plate and a mold frame of a liquid crystal display device in general.                         

As shown in FIG. 2, a light guide plate 15 for generating plane light is assembled inside the mold frame 21, and a lamp 13 is coupled to a light incident region of the light guide plate 15.

The light incident on the light guide plate 15 generates plane light after being uniformly transmitted to the entire area of the light guide plate 15 while repeating the reflection.

In this case, light reflected from the light guide plate 15 leaks to the mold frame 21 in the region other than the light incident region where the lamp 13 is incident, thereby lowering the light efficiency.

Therefore, in order to prevent leakage of light and deterioration of light efficiency as described above, it is necessary to improve the light reflection efficiency of the mold frame 21 itself.

Therefore, when manufacturing the mold frame 21, it is produced by adding a light reflecting agent.

FIG. 3 is a cross-sectional view of the AA ′ region of FIG. 2, which is vertically cut, and shows light scattering inside the mold frame 21 and the inside of the mold frame 21 in which light reflected from the light guide plate 15 is assembled. You can see the reflection back to the ash.

The light reflecting material added to the mold frame 21 increased the light reflection efficiency, and the light emitted from the light incident plate region of the light guide plate 15 was propagated back to the inside of the light guide plate 15 to improve the light efficiency of the lamp.

However, in the prior art as described above, the light guide plate of the backlight assembly is assembled inside the mold frame, and when light incident from the lamp is reflected inside the light guide plate, light leaks into the semi-incident part region between the assembly regions.

In addition, when the light reflecting agent is not added to the mold frame, light is absorbed in the mold frame itself, thereby lowering light efficiency.

As described above, since the exposure of light lowers the light efficiency, when the mold frame is manufactured, a light scattering agent is added, thereby producing a manufacturing cost.

An object of the present invention is to provide a liquid crystal display mold frame structure capable of reducing the manufacturing cost of a mold frame while improving light efficiency by coating a reflective film on the inside of a mold frame corresponding to a region of the light incident part of the liquid crystal display light guide plate. have.

In order to achieve the above object, the liquid crystal display mold frame structure according to the present invention,
In a liquid crystal display device in which a liquid crystal panel, a mold frame, a light guide plate, a lamp, a reflector, a lower cover, and an upper cover are assembled,
A reflective film is formed inside the mold frame in which the light guide plate is assembled,

The reflective film is formed inside the mold frame corresponding to both side surfaces of the light guide plate and the light incident part, and the width of the reflective film has a width equal to the width from the reflector below the light guide plate to the upper surface of the light guide plate.

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Here, the reflective film formed inside the mold frame is formed inside the mold frame corresponding to both side surfaces of the light guide plate and the incident light incident portion, and the reflective film is made of any one of polycarbonate, silver (Ag), and aluminum (Al). The semi-desert is characterized in that the material of any one of polycarbonite, silver, aluminum made of a film type attached.

The thickness of the reflecting plate disposed between the mold frame inner surface and the side surface of the light guide plate and the light incident portion may be equal to or smaller than the distance between the mold frame inner surface and the side surface of the light guide plate and the side of the light incident portion. The width of the reflective film has the same width as the width from the reflective plate below the light guide plate to the upper surface of the light guide plate, and the thickness of the reflective film has a thickness of 10 to 30 μm.

According to the present invention, by coating a reflective film on the inside of the mold frame corresponding to the region of the light incident part of the liquid crystal display LGP, the manufacturing cost of the mold frame can be reduced while improving the light efficiency.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

4 is a view showing the structure of a liquid crystal display mold frame according to the present invention.

As shown in FIG. 4, the mold frame 121 in which the backlight assembly of the liquid crystal display device and the liquid crystal panel are stacked has a structure in which an open area has a lot in recent years due to the trend of weight reduction.

Inside the mold frame 121, a reflector is assembled first, and a light guide plate is assembled on the reflector.

The open area of the four side edges of the light guide plate has an open structure because the lamp is disposed at a predetermined distance from the light guide plate.

However, the light efficiency is improved by coating the reflective film 140 inside the mold frame 121 to be assembled with the light guide plate, except for the region where the light guide plate is open. That is, the reflective film 140 is formed on the inner side surfaces of the mold frame 121 corresponding to other side surfaces of the light guide plate except the light incident portion and the light incident portion.

In particular, since the reflective film 140 is coated inside the mold frame 121, when manufacturing the mold frame 121, there is no need to add a light scattering agent.

   Since the light scattering agent does not need to be added to the mold frame 121, the manufacturing cost can be reduced.

FIG. 5 is a view illustrating light reflection in a state in which a light guide plate is assembled to a mold frame of the present invention. The reflective film 140 is coated inside the mold frame 121, and the light proceeds from the light guide plate 115. The reflective film 140 is reflected without light loss.

Since the reflected light reflected from the reflective film 140 coated inside the mold frame 121 proceeds to the inside of the light guide plate 115, the light efficiency of the light guide plate 115 is improved.

The material of the reflective film 140 coated inside the mold frame 121 is made of polycarbonate, silver (Ag), aluminum (Al) used as a light scattering agent.

In the drawing, there is a method of forming the reflective film 140 in a form of directly coating the inside of the mold frame 121 or by manufacturing a film type to attach the inside of the mold frame 121. Therefore, in the present invention, a reflective film 140 formed of a coating film or a film is formed along the inner surface of the mold frame 121.

The width of the reflective layer 140 is equal to the width from the reflecting plate (not shown) inserted between the light guide plate 115 assembled to the mold frame 121 to the upper surface of the light guide plate 115.

Therefore, the light leaking from the side surface of the light guide plate 115 and the incident light incident part is totally reflected by the reflective film 140 and is incident into the light guide plate 115.

Since the mold frame 121 and the light guide plate 115 are assembled and spaced apart from each other, the distance of the mold frame 121 and the light guide plate 115 is about 20 to 30 μm, and the thickness of the reflective film 140 is 10 to 30 μm.

That is, the thickness of the reflective film 140 is formed within a distance equal to or less than a distance from the inner surface of the mold frame 121 to the side surface of the light guide plate 115 and the light incident part surface, thereby reducing light leakage and light reflection efficiency. Improved.

Preferably, the thickness of the reflective film 140 is equal to the distance between the inner surface of the mold frame 121 and the side surface of the light guide plate 115 and the surface of the light incident part 115, so that all of the light exiting part of the light guide plate 115 is outside the light incident area. Prevent light leakage from the side.

As described in detail above, the present invention has an effect of reducing the manufacturing cost of the mold frame while improving the light efficiency by coating a reflection film on the inside of the mold frame corresponding to the region of the light incident portion of the liquid crystal display LGP.

The present invention is not limited to the above-described embodiments, and various changes can be made by those skilled in the art without departing from the gist of the present invention as claimed in the following claims.

Claims (7)

In a liquid crystal display device in which a liquid crystal panel, a mold frame, a light guide plate, a lamp, a reflector, a lower cover, and an upper cover are assembled, A reflective film is formed inside the mold frame in which the light guide plate is assembled, The reflective film is formed inside the mold frame corresponding to both side surfaces of the light guide plate and the light incident part, and the width of the reflective film has a width equal to the width from the reflector below the light guide plate to the upper surface of the light guide plate, The thickness of the reflecting plate disposed between the mold frame inner surface and the side surface of the light guide plate and the light incident portion has a range equal to or smaller than the distance between the mold frame inner surface and the side surface of the light guide plate and the side of the light incident portion, Liquid crystal display device mold frame structure, characterized in that the thickness of the reflective film has a thickness of 10 ~ 30㎛. delete The method of claim 1, And the reflective film is made of any one of polycarbonite, silver (Ag), and aluminum (Al). The method of claim 1, The reflective film is a liquid crystal display device mold frame structure, characterized in that the polycarbonateite, silver, aluminum any one of the material produced by the film type attached. delete delete delete

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