KR101146390B1 - Liquid Crystal Module - Google Patents

Abstract

The present invention relates to a liquid crystal display module capable of easily discharging static electricity in a liquid crystal display panel.

A liquid crystal display module according to the present invention includes: a lamp for supplying light to a liquid crystal display panel; A cover bottom for providing a space for the lamp to be positioned; A panel guide coupled to the cover bottom side and providing an area where the liquid crystal display panel is to be mounted; A case top for covering an edge of the panel guide and the liquid crystal display panel; And a conductive member having elasticity positioned between one side of the liquid crystal display panel and the case top.

Description

A liquid crystal display module (Liquid Crystal Module)

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

2 is a cross-sectional view taken along line I-I 'of Fig.

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

FIG. 4 is a view showing a specific area A in FIG. 3; FIG.

5 is a view showing still another embodiment of the present invention.

Description of the Related Art

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

12,112: Lamps 114,114: Cover bottom

16, 116: panel guide 22, 122:

20, 120: diffusion plate 18, 118:

134: conductive member

The present invention relates to a liquid crystal display, and more particularly, to a liquid crystal display module capable of easily discharging static electricity in a liquid crystal display panel.

A typical liquid crystal display device comprises a liquid crystal display module (LCM) and a driving circuit for driving the liquid crystal display module.

The liquid crystal display module comprises 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 the liquid crystal display panel with light. The liquid crystal display panel (2) and the backlight unit (10) are integrally joined together to prevent light loss, and a liquid crystal display module for protecting the liquid crystal display module Is used.

Such a liquid crystal display module is mounted on a notebook computer (notebook personal computer), a moving vehicle, an airplane, or the like which is manufactured in a size of a notebook so that the user can use the information between the movements.

There are two types of backlight of the liquid crystal display module, namely, a wedge type and a direct type. In the edge type method, a lamp is provided on the outer periphery of a flat plate to irradiate light to medium and small liquid crystal display panels. 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 arranged on a flat surface in order to irradiate light to a large and medium type liquid crystal display panel, and a diffusion plate is provided between the lamp and the liquid crystal display panel.

FIG. 1 is a perspective view showing 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 I-I 'of FIG.

The liquid crystal display module shown in Figs. 1 and 2 includes a liquid crystal display panel 2, a backlight unit 10 for emitting light to the liquid crystal display panel 2, a backlight unit 10 and a liquid crystal display panel 2 (Not shown).

In the liquid crystal display panel 2, liquid crystal cells are arranged in a matrix form so that a predetermined image is realized when the liquid crystal is driven.

The backlight unit 10 includes a plurality of direct type lamps 12, a cover bottom 14 for providing a space for accommodating the lamp 12, a panel guide 16 fastened to the side surface of the cover bottom 14, A diffusion plate 20 positioned between the lamp 12 and the liquid crystal display panel 2,

The plurality of direct-acting lamps 12 are supplied with power from an external power source and irradiate light to the liquid crystal display panel 2. The cover bottom 14 provides a space for accommodating the lamp 12, The plate 18 and the optical sheet 20 serve as an area to be seated.

The reflector 18 is disposed on the inner surface of the cover bottom 14 to prevent leakage of the light generated from the lamp 12 and to reflect the light radiated to the lamp 12 toward the liquid crystal display panel 2.

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

The panel guide 16 is engaged with the side surface of the cover bottom 14 to guide the liquid crystal display panel 2 and fix the diffusion plate 20 and the optical sheet 22 together with the cover bottom 14. [ do. That is, the panel guide 16 is provided with a seating portion 30 on which the liquid crystal display panel 2 can be placed, and the diffuser plate 20 and the liquid crystal display panel 20 are provided in a region provided by the seating portion 30 and the cover bottom 14. [ The optical sheet 22 is inserted so that the diffuser plate 20 and the optical sheet 22 can be fixed.

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

In order to discharge the static electricity generated in the liquid crystal display panel 2, the conventional liquid crystal display module is in contact with the conductive lines formed on the lower substrate of the liquid crystal display panel 2 and passes through the panel guide 16, The conductive tape 32 is formed to be in contact with the conductive film 14. That is, since the panel guide 16 is formed of plastic or mold material, the cover bottom 14, which is a metal material, is connected to the liquid crystal display panel 2, thereby making the static electricity generated in the liquid crystal display panel 2 serve as a ground Through a cover bottom 14 which can be opened and closed.

However, in such a conventional structure, when a physical impact applied from the outside is applied, the conductive tape 32 is separated from the liquid crystal display panel 2, so that static electricity generated in the liquid crystal display panel 2 There arises a problem that it is not discharged to the outside.

SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to provide a liquid crystal display module capable of easily discharging static electricity in a liquid crystal display panel to the outside even when an external shock is applied.

In order to achieve the above object, a liquid crystal display module according to an embodiment of the present invention includes: a lamp for supplying light to a liquid crystal display panel; A cover bottom for providing a space for the lamp to be positioned; A panel guide coupled to the cover bottom side and providing an area where the liquid crystal display panel is to be mounted; A case top for covering an edge of the panel guide and the liquid crystal display panel; And a conductive member having elasticity positioned between one side of the liquid crystal display panel and the case top.

And a conductive link portion extending from the cover bottom and connected to the conductive member through the panel guide.

The conductive member is a metal gasket.

The electroconductive member is disposed on the thin film transistor array substrate of the liquid crystal display panel and connected to a conductive thin film extending in the liquid crystal display panel to discharge static electricity generated in the liquid crystal display panel to the outside.

The conductive member may include an elastic material having elasticity and elasticity; And a metal film surrounding the elastic material.

Other objects and features of the present invention will become apparent from the following description of embodiments with reference to the accompanying drawings.

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

3 includes a liquid crystal display panel 102, a backlight unit 110 for emitting light to the liquid crystal display panel 102, a backlight unit 110, and a liquid crystal display panel 102, And a conductive member 134 for electrically connecting the top 106 and the liquid crystal display panel 102 to the gate top 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 the liquid crystal display panel 102, pixel electrodes and a common electrode for applying an electric field to each of the liquid crystal cells are formed. At the intersections of the plurality of data lines and the plurality of scan lines, thin film transistors (hereinafter, referred to as TFTs) for switching data voltages to be applied to the pixel electrodes are formed in response to the scan signals. In this liquid crystal display panel 102, gate drive integrated circuits and data drive integrated circuits are electrically connected through a tape carrier package (hereinafter referred to as " TCP "). Further, a polarizing plate may be further provided on the front and back surfaces of the liquid crystal display panel 102 to polarize incident and emitted light.

The backlight unit 110 includes a plurality of direct-type lamps 112, a cover bottom 114 for providing a space for accommodating the lamps 112, a panel guide 116 fastened to a side surface of the cover bottom 114, A diffuser plate 20 positioned between the lamp 12 and the liquid crystal display panel 102,

The plurality of direct type lamps 112 are supplied with power from an external power source and irradiate light to the liquid crystal display panel 102. The cover bottom 114 provides a space for accommodating the lamps 112, The plate 120 and the optical sheet 122 serve to provide an area to be seated.

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

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

The panel guide 116 is engaged with the side surface of the cover bottom 114 to guide the liquid crystal display panel 102 and fix the diffusion plate 120 and the optical sheet 122 together with the cover bottom 114 do. That is, the panel guide 116 is provided with a seating portion 130 on which the liquid crystal display panel 102 can be placed, and the diffusion plate 120 and the liquid crystal display panel 120 are provided in a region provided by the seating portion 130 and the cover bottom 114, The optical sheet 122 is inserted so that the diffuser plate 120 and the optical sheet 122 can be fixed.

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

The conductive member 134 serves to discharge the static electricity from the liquid crystal display panel 102 through the case top 106 instead of the conventional conductive tape.

This will be described in more detail with reference to FIG.

4 is an enlarged view of the area A in Fig.

The liquid crystal display panel 102 includes a thin film transistor array substrate 102b and a color filter (C / F array) substrate 102a bonded together with a liquid crystal therebetween, and a thin film transistor array substrate 102b A conductive line or a conductive thin film stretched in the liquid crystal display panel 102 is formed in a region that is not overlapped with the color filter (C / F) array substrate 102a. The conductive member 134 is positioned between the conductive thin film or lines and the case top 106 so that the static electricity generated inside the liquid crystal display panel 102 flows through the conductive member 134 to the case top 106 .

Here, the conductive member 134 is composed of a conductive film 134a which surrounds the elastic material 134a and the elastic material 134b having elasticity and elasticity such as sponge and is covered or plated with a conductive material. A known metal gasket or the like having such a structure or having elasticity may be used.

The liquid crystal display panel 102 is electrically connected to the case top 106 made of a metal material by using the elastic conductive member 134 so that even if shocks or the like are applied to the liquid crystal display module, It is possible to easily discharge static electricity to the outside.

5 is a view showing still another embodiment of the present invention.

5, the conductive member 134 having elasticity is extended to the panel guide 116 and further includes the link portions 114a and 114b extended from the cover bottom 114 and connected to the conductive member 134 And has the same structure as in Fig.

That is, the link portions 114a and 114b connecting the cover bottom 114 and the conductive member 134 connect the two vertical portions 114a and the vertical portions 114a passing through the panel guide 116, And a horizontal portion 114b that is in direct contact with the upper surface 134. Accordingly, the conductive member 134 is connected to the case top 106 and the cover bottom 114, respectively, so that static electricity can be easily discharged from the liquid crystal display panel 102 even if an impact is applied from the outside.

As described above, the liquid crystal display module according to the embodiment of the present invention electrically connects the liquid crystal display panel and the case top using the elastic conductive member. As a result, even if an impact is applied to the liquid crystal display module, the static electricity generated in the liquid crystal display panel is easily discharged to the outside through the case top via the conductive member.

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 (5)

A lamp for supplying light to the liquid crystal display panel; A cover bottom for providing a space for the lamp to be positioned; A panel guide coupled to the cover bottom side and providing an area on which the liquid crystal display panel is to be mounted; A case top for covering an edge of the panel guide and the liquid crystal display panel; An elastic conductive member positioned between one side of the liquid crystal display panel and the case top; And a conductive link portion extending from the cover bottom and connected to the conductive member through the panel guide. delete The method according to claim 1, Wherein the conductive member is a metal gasket. The method according to claim 1, The conductive member Wherein the liquid crystal display panel is connected to a conductive thin film which is disposed on the thin film transistor array substrate of the liquid crystal display panel and extends inside the liquid crystal display panel to discharge static electricity generated in the liquid crystal display panel to the outside. The method according to claim 1, The conductive member Elastic material having elasticity and elasticity; And a metal film surrounding the elastic material.

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