KR101174152B1 - Liquid Crystal Module - Google Patents

Abstract

The present invention relates to a liquid crystal display module that can reduce assembly time and reduce manufacturing costs.

 The liquid crystal display module includes a liquid crystal display panel; A lamp for irradiating light onto the liquid crystal display panel; A bottom cover to receive the lamps under the liquid crystal display panel; A panel guide facing a side of the bottom cover and supporting an edge of the liquid crystal display panel under the liquid crystal display panel; A silicon pad including a conductive material is connected to the bottom cover and the liquid crystal display panel.

Description

Liquid Crystal Display Module

1 is a perspective view showing a conventional liquid crystal display module.

FIG. 2 is a cross-sectional view taken along line II ′ of FIG. 1;

3 is a cross-sectional view showing a part of a liquid crystal display module in the present invention.

4 is a view showing region A of FIG. 3 in detail.

Description of the Related Art

2,102: liquid crystal panel 10,110: backlight unit

12,112: Lamp 114,114: Bottom cover

16,116: panel guide 22,122: optical sheet

20,120: diffuser 18,118: reflector

40: silicon pad 140: silicon pad containing a conductive material

The present invention relates to a liquid crystal display device, and more particularly to a liquid crystal display module that can reduce the assembly time of the liquid crystal display module and the manufacturing cost.

A typical liquid crystal display device is composed of a liquid crystal display module (LCM) and a driving circuit portion for driving the liquid crystal display module.

The liquid crystal display module includes a liquid crystal display panel in which liquid crystal cells are arranged in a matrix form between two substrates, and a backlight unit for irradiating light to the liquid crystal display panel. The liquid crystal display panel 2 and the backlight unit 10 are fastened in an integrated form to prevent light loss, and the case surrounding and protecting the outside of the liquid crystal display module to prevent damage to the liquid crystal display module due to external impact. Is used.

The liquid crystal display module is mounted on a notebook personal computer, a mobile vehicle, an aircraft, and the like, which is manufactured in a size of a notebook so that a user can use information between mobiles.

There are two types of backlight of the liquid crystal display module, an edge type type and a direct type type. In the edge type system, a lamp is installed outside the flat panel to irradiate light to the medium and small liquid crystal display panels, and the light generated from the lamp is incident on the entire surface of the liquid crystal display panel through the transparent diffusion plate. In the direct type, a plurality of lamps are disposed on a flat surface and a diffuser plate is disposed between the lamps and the liquid crystal display panel in order to irradiate light to the large and medium type liquid crystal display panels.

1 is a perspective view illustrating a part of a conventional liquid crystal display module having a direct type backlight, and FIG. 2 is a cross-sectional view taken along line II ′ of FIG. 1.

The liquid crystal display module illustrated in FIGS. 1 and 2 has a side surface of the liquid crystal display panel 2, the backlight unit 10 for irradiating light to the liquid crystal display panel 2, the backlight unit 10, and the liquid crystal display panel 2. It includes a case top (6) surrounding the.

The liquid crystal display panel 2 is arranged in a matrix form of the liquid crystal cells to implement a predetermined image when driving the liquid crystal.

The backlight unit 10 includes a plurality of direct type lamps 12, a bottom cover 14 that provides a space in which the lamps 12 are to be accommodated, a panel guide 16 that is fastened to the side surfaces of the bottom cover 14, and a lamp ( 12) a reflecting plate 18 positioned below, a diffuser plate 20 and an optical sheet 22 positioned between the lamp 12 and the liquid crystal display panel 2.

The plurality of direct lamps 12 receive power from an external power source to irradiate light to the liquid crystal display panel 2, and the bottom cover 14 provides a space in which the lamps 12 are accommodated and diffuses. The plate 18 and the optical sheet 20 serve to provide an area to be seated.

The reflection plate 18 is positioned on the inner side of the bottom cover 14 to prevent leakage of light generated from the lamp 12 and to reflect the light irradiated to the liquid crystal display panel 2.

The diffusion plate 20 serves to propagate light generated from the lamp 12 toward the liquid crystal display panel 2, and the optical sheet 22 is positioned between the diffusion plate 20 and the liquid crystal display panel 2. Thereby improving the efficiency of light emitted from the diffuser plate 20.

The panel guide 16 is coupled to the side of the bottom cover 14 to guide the liquid crystal display panel 2 and to fix the diffusion plate 20 and the optical sheet 22 together with the bottom cover 14. do. That is, the panel guide 16 is provided with a mounting portion 30 on which the liquid crystal display panel 2 can be mounted, and the diffusion plate 20 and Since the optical sheet 22 is inserted, the diffusion plate 20 and the optical sheet 22 can be fixed. In addition, the region in which the seating portion 30 and the liquid crystal display panel 2 overlap each other includes a silicon pad portion 40 to protect the liquid crystal display panel from external physical impact.

The case top 6 is manufactured in a rectangular band shape having a flat portion and a side portion bent at right angles to surround the edge of the liquid crystal display panel 2 and the side surface of the panel guide 16.

In the conventional liquid crystal display module, in order to discharge static electricity generated from the liquid crystal display panel 2, the liquid crystal display panel 2 is in contact with conductive lines formed on the lower substrate, and penetrates the bottom guide 16 through the panel guide 16. A conductive tape 32 is formed in contact with 14.

This is because the panel guide 16 is formed of a plastic or a mold, and is formed of non-conductive materials in a structure seated on the liquid crystal display panel 2 by attaching the silicon pad portion 40 to the plastic or the mold. By connecting the bottom cover 14, which is a metal material, and the liquid crystal display panel 2 through the conductive tape 32, the bottom cover 14 which serves as a ground for static electricity generated in the liquid crystal display panel 2. To discharge through the.

However, since the structure is grounded using this separated structure, the assembly time of the liquid crystal display module is increased and the number of parts is increased, thereby increasing the manufacturing cost.

Accordingly, an object of the present invention is to provide a liquid crystal display module which can reduce assembly time and reduce manufacturing cost.

In order to achieve the above object, the liquid crystal display module according to the present invention includes a liquid crystal display panel; A lamp for irradiating light onto the liquid crystal display panel; A bottom cover to receive the lamps under the liquid crystal display panel; A panel guide facing a side of the bottom cover and supporting an edge of the liquid crystal display panel under the liquid crystal display panel; A silicon pad including a conductive material is connected to the bottom cover and the liquid crystal display panel.

The conductive material is any one of nickel powder and copper powder.

The silicon pad may surround an upper surface, a side surface, and a lower surface of the liquid crystal display panel at an edge of the liquid crystal display panel, and surround one side surface, a side surface, and a bottom surface of the panel guide.

A diffusion plate disposed on the bottom cover to diffuse light radiated from the lamps; A plurality of optical sheets disposed on the diffuser plate to diffuse light incident from the diffuser plate and to control a path of the light; The silicon pad may be formed between the optical sheets and the liquid crystal display panel at an edge of the liquid crystal display panel.

Other objects and features of the present invention in addition to the above object will be apparent from the description of the embodiments with reference to the accompanying drawings.

3 is a view showing a portion of the liquid crystal display module according to the present invention in detail.

The liquid crystal display module illustrated in FIG. 3 includes a case surrounding the sides of the backlight unit 110 and the backlight unit 110 and the liquid crystal display panel 102 that irradiate light to the liquid crystal display panel 102 and the liquid crystal display panel 102. Tower 106.

In the liquid crystal display panel 102, a plurality of data lines and a plurality of scan lines are arranged to cross each other, and liquid crystal cells are arranged in an active matrix form between the upper and lower substrates. In addition, the liquid crystal display panel 102 includes pixel electrodes and a common electrode for applying an electric field to each of the liquid crystal cells. Thin film transistors (hereinafter, referred to as TFTs) for switching data voltages to be applied to the pixel electrode are formed at the intersections of the plurality of data lines and the plurality of scan lines. Gate drive integrated circuits and data drive integrated circuits are electrically connected to the liquid crystal display panel 102 through a tape carrier package (hereinafter, referred to as "TCP"). In addition, a polarizer may be further provided on the front and rear surfaces of the liquid crystal display panel 102 to polarize incident and exiting light.

The backlight unit 110 includes a plurality of direct type lamps 112, a bottom cover 114 that provides a space in which the lamps 112 are to be accommodated, a panel guide 116 that is fastened to the side surfaces of the bottom cover 114, and a lamp ( 112 includes a reflecting plate 118 disposed below the diffusion plate 20 and an optical sheet 122 positioned between the lamp 12 and the liquid crystal display panel 102. The plurality of direct lamps 112 receive power from an external power source to irradiate light to the liquid crystal display panel 102, and the bottom cover 114 provides a space in which the lamps 112 are accommodated and diffuses. The plate 120 and the optical sheet 122 serve to provide an area to be seated.

The reflective plate 118 is positioned on the inner side of the bottom cover 114 to prevent leakage of light generated from the lamp 112 and to reflect the light irradiated to the liquid crystal display panel 102.

The diffusion plate 120 serves to propagate light generated from the lamp 112 toward the liquid crystal display panel 102, and the optical sheet 122 is positioned between the diffusion plate 120 and the liquid crystal display panel 102. Thereby improving the efficiency of light emitted from the diffuser plate 120.

The panel guide 116 is fastened to the side of the bottom cover 114 to guide the liquid crystal display panel 102 and to fix the diffusion plate 120 and the optical sheet 122 together with the bottom cover 114. do. That is, the panel guide 116 is provided with a mounting portion 130 on which the liquid crystal display panel 102 can be mounted, and the diffusion plate 120 and the diffusion cover 120 and the bottom cover 114 are provided in the area provided by the mounting portion 130 and the bottom cover 114. Since the optical sheet 122 is inserted, the diffusion plate 120 and the optical sheet 122 can be fixed.

The case top 106 is manufactured in a rectangular band shape having a flat portion and a side portion bent at right angles to surround the edge of the liquid crystal display panel 102 and the side surface of the panel guide 116.

In addition, the liquid crystal display module according to the present invention further includes a silicon pad 140 including a conductive material connected to the bottom cover 114 and the liquid crystal display panel 102.

The silicon pad 140 including the conductive material protects the liquid crystal display panel 102 from external physical shocks and serves to ground static electricity generated in the liquid crystal display panel 102.

This will be described in more detail with reference to FIG. 4, which is an enlarged view of region A of FIG. 3.

In the liquid crystal display panel 102, a thin film transistor array substrate (TFT array) 102b and a color filter (C / F array) substrate 102a are bonded to each other with a liquid crystal interposed therebetween, and the thin film transistor array substrate (TFT array) 102b is bonded to each other. ), A conductive line or a conductive thin film, which extends inside the liquid crystal display panel 102, is formed in an area not overlapping the color filter (C / F array) substrate 102a. Here, the silicon pad 140 including the conductive material surrounds the top, side, and bottom surfaces of the thin film transistor array substrate 102b at the edge of the thin film transistor array substrate 102b on which the conductive thin film or lines are formed. Wrap one side top, side and bottom. In addition, the silicon pad 140 including a conductive material is formed between the diffusion plate 120 and the optical sheets 122 and the liquid crystal display panel 102 disposed on the bottom cover 114.

Accordingly, the static electricity generated inside the liquid crystal display panel 102 while protecting the liquid crystal display panel 102 from an external impact and through the bottom cover 114 via the silicon pad 130 containing a conductive material. Will be discharged.

As the conductive material included in the silicon pad 130, a metal powder such as copper (Cu) or nickel (Ni) is used.

Such a liquid crystal display module eliminates the process of assembling the conventional conductive tape and uses the silicon pad 130 in which the conductive material is mixed, thereby shortening the assembly time and reducing the manufacturing cost.

As described above, the liquid crystal display module according to the present invention forms a silicon pad including a bottom cover of the liquid crystal panel and a conductive material connected to the liquid crystal display panel, thereby protecting the liquid crystal display panel from external impact and at the same time. Allows to discharge static electricity generated inside. Accordingly, the process of assembling the conductive tape is eliminated, thereby shortening the assembly time and reducing the manufacturing cost.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention. Therefore, the technical scope of the present invention should not be limited to the contents described in the detailed description of the specification, but should be defined by the claims.

Claims (4)

A liquid crystal display panel including a color filter substrate and a thin film transistor array substrate bonded to the color filter substrate and exposing a partial region; A lamp for irradiating light onto the liquid crystal display panel; A bottom cover to receive the lamps under the liquid crystal display panel; A panel guide facing a side of the bottom cover and supporting an edge of the liquid crystal display panel below the liquid crystal display panel; a conductive material connected to the bottom cover and an exposed partial region of the thin film transistor array substrate; A silicon pad, The silicon pad, And an upper surface, a side surface, and a lower surface of an exposed portion of the thin film transistor array substrate at edges of the liquid crystal display panel, and surrounding one side surface, side surface, and bottom surface of the panel guide. The method of claim 1, The conductive material, Liquid crystal display module, characterized in that any one of nickel powder, copper powder. delete The method of claim 1, A diffusion plate disposed on the bottom cover to diffuse light radiated from the lamps; A plurality of optical sheets disposed on the diffuser plate to diffuse light incident from the diffuser plate and to control a path of the light; The silicon pad, And an optical sheet and the liquid crystal display panel at edges of the liquid crystal display panel.

Images