KR100322104B1 - Liquid Crystal Device Module - Google Patents

Abstract

PURPOSE: To provide a liquid crystal display device module having excellent support stress when the support structure is installed on the bezel skirt of the liquid crystal display device module when the mechanical structure is stabilized and subjected to local force.

Configuration: At least a driving circuit board 8, a backlight 6, and a liquid crystal display device 4 are stacked, and a skirt 20b and a driving circuit board 8 surrounding the backlight 6 and the liquid crystal display device 4 are stacked. In the liquid crystal display device module including a bezel 20 having a fastening portion 20a fastened to the edge portion, the liquid crystal display device module is formed at corners and sides of the skirt 20b of the bezel 20 and is in contact with the driving circuit board 8. It consists of a configuration including a plurality of support 22 to be.

Effect: By forming the supporting portion at a predetermined portion of the skirt of the bezel, it is possible to compensate for the excessive stress that may occur locally by tightening a plurality of bezel fastening portions when the liquid crystal display module is terminated. You can block stains or liquid crystal spills that occurred while bending.

Description

Liquid Crystal Display Module

The present invention relates to a liquid crystal display device module, and more particularly, to a liquid crystal display device module in which a bezel support is formed at a predetermined portion of a skirt portion of a bezel among the liquid crystal display device modules.

The liquid crystal display device has a regular molecular arrangement such as a crystal of a solid with the liquidity of the liquid, and has the property of liquid crystal having the characteristic that the molecular arrangement of the liquid crystal changes along the direction of the electric field when voltage is applied while having optical anisotropy. A device for displaying a figure, a character, or a picture by using a state, and a state in which a signal generation circuit for driving the liquid crystal display device is combined is called a liquid crystal display device module.

Liquid crystal display devices can be made thin and light, and they can be driven even by low power by adopting batteries, and are gradually replacing CRTs. Especially, they are mainly used in high-tech portable electronic devices such as portable telephones, notebook computers, and PDAs. .

As the above-described liquid crystal display device module has various densities and compactness as the liquid crystal display device becomes high density and compact, there are various types of modules, and in the present invention, a liquid crystal display device module to which a quad flat package (QFP) module is applied It is about.

Liquid crystal display device mounting technology refers to the connection technology between the liquid crystal display device electrode and the driving circuit of fine pitch as the liquid crystal display device becomes denser and compact, and is a zebra connector, heat seal, and anisotropic conductive film. And the like.

FIG. 3 schematically shows a liquid crystal display device module 1 mounted by a zebra connector and a thread which are mainly used in the above-described mounting method.

As shown in the drawing, the liquid crystal display device 4 is positioned on the bottom of the bezel 2 constituting the frame of the liquid crystal display device module 1, and the liquid crystal display device receives a light on the lower surface of the liquid crystal display device 4. Since it is a type device, the backlight 6 serving as a light source is located at night or in the dark, and the printed circuit board 8 is positioned at the bottom of the backlight 6.

The zebra connector 10 for connecting the liquid crystal display device 4 and the lower portion of the printed circuit board 8 to the liquid crystal display device module 4 is installed on the side of the long axis direction of the liquid crystal display device module 1, and the thread 12 is formed at the end of the short axis direction. The liquid crystal display device 4 and the printed circuit board 8 are connected to each other.

In the liquid crystal display device module 1 having the above structure, the fastening grooves 2 of the printed circuit board 8 include the fastening portions 2a formed on the skirts 2b of the bezel 2 to be assembled after assembling the components. It inserts in (8a), and it makes an assembly by bending or tightening the inserted fastening part 2a.

At the time of assembly, all the fastening parts cannot be tightened at the same time and are tightened individually. Therefore, when the tightening force at a specific fastening part is relatively large, as shown in FIG. 4, the stress may not be evenly distributed and a warpage phenomenon may occur. If it does not endure the above stress, the internal structure of the liquid crystal display device is deformed and stains are generated, or the substrate or the seal is broken, so that there is a problem that the quality reliability may be deteriorated.

The present invention devised to solve the above-mentioned problems of the prior art provides a liquid crystal display device module having excellent support stress when the support structure is installed on the bezel skirt of the liquid crystal display device module when the mechanical structure is stable and receives local force during assembly. The purpose is to provide.

To this end, in the present invention, a printed circuit board, a backlight, a liquid crystal display device, and a bezel are stacked in this order, and a printed circuit board and a liquid crystal display device are connected to a zebra connector and a yarn in a liquid crystal display device module. And a plurality of bezel support portions formed in contact with the printed circuit board.

The liquid crystal display device module according to the above-described configuration forms a support portion at each corner of the bezel and the center of the skirt, so that the support force is uniformly applied by the bezel support portion even when the force for tightening the respective fastening portions differs when assembling the liquid crystal display device module. It can be strengthened to cope with the bending stress, it is possible to prevent the occurrence of stains and liquid crystal outflow due to the bending phenomenon.

1 is an exploded perspective view schematically showing a liquid crystal display device module according to the present invention.

Figure 2 is a side view showing a state in which the liquid crystal display device module according to the present invention is coupled.

Figure 3 is an exploded perspective view showing a conventional liquid crystal display device module.

Figure 4 is a side view showing a combined state of a conventional liquid crystal display device module.

Explanation of symbols on the main parts of the drawings

1,1 ': liquid crystal display module 4: liquid crystal display element

6: backlight 8: printed circuit board

10: zebra connector 12: thread

20: Bezel 20a: Fastening portion

20b: skirt 22: support

EMBODIMENT OF THE INVENTION The structure of this invention is demonstrated in detail based on attached drawing. Prior to the description of the present invention, the same reference numerals as those of the conventional drawings will be referred to.

1 is an exploded perspective view illustrating a liquid crystal display device module 1 ′ according to the present invention, and FIG. 2 is a side view illustrating a state in which the liquid crystal display device module is assembled.

Referring to FIG. 1, in the liquid crystal display device module 1 ′ according to the present invention, the backlight 6 is disposed on the lowermost printed circuit board 8, and the liquid crystal display device 4 is disposed on the backlight 6. The zebra connector 10 is interposed in the long axis direction on one side of the liquid crystal display device 4.

The zebra connector 10 is a member that connects the liquid crystal display device 4 and the printed circuit board 8. The conductive connector and the insulating layer are alternately formed between the silicone rubber resin so that the liquid crystal display device has a printed circuit board 8. It is used as a connection medium to receive the driving signal of.

In addition, one side of the short axis direction plays the same role as the zebra connector 10, but is connected to the liquid crystal display device 4 and the driving circuit part of the printed circuit board 8 by a flexible thread 12.

The liquid crystal display device module 1 ′ having the above-described configuration includes a bezel for fastening the printed circuit board 8 while covering the stacked liquid crystal display device 4, the backlight 6, the printed circuit board 8, and the like. The bezel 20 includes a plurality of fastening portions 20a formed at predetermined positions of the skirt 20b, and the fastening portions 20a are a series of printed circuit boards 8. Is fastened to the fastening groove (8a).

At the corners and sides of the skirt 20b of the bezel 20, a plurality of support portions 22, which are main parts of the present invention, are formed, and the support portions 22 abut against the printed circuit board 8 when assembled. Contact is supported.

FIG. 2 schematically shows the side surface in the long axis direction after the liquid crystal display device module 1 'is assembled.

As shown in the figure, a plurality of fastening portions 20a are formed in the side skirts 20b of the bezel 20, and the bezel supporting portions 22 are formed at the skirt end corners and the center of the skirt by extending the skirt 20b. .

Although not shown inside the skirt 20b, the liquid crystal display device 4 and the backlight 6 are stacked, and a portion formed between the bezel support 22 and the fastening part 20a is a printed circuit board 8 and a liquid crystal display device. (4) is a zebra connector 10 for transmitting a drive signal between.

The fastening portions 20a are inserted into the fastening grooves 8a of the printed circuit board 8 so that the fastening portions 20a may be tightened, and the bezel support 22 may be supported by contact with the surface of the printed circuit board 8 to tighten the fastening portions. When supporting the load.

As described above, when the bezel support part 22 is formed on the bezel 20 to assemble the liquid crystal display device module 1 ′, the bezel support part 22 increases the tightening force to a certain degree when the fastening part 20a is tightened. Since it is regulated, it is possible to prevent excessive stress from occurring in some fastening portions 20a, thereby maintaining a stable state even when the liquid crystal display device module 1 'is assembled, thereby reducing the defective rate at which staining occurs on the LCD screen or liquid crystal is leaked. You can.

By forming the supporting portion at a predetermined portion of the skirt of the bezel, when the liquid crystal display device module is terminated, the bezel fastening portion is tightened to compensate for the excessive stress that may occur locally. You can block stains or liquid crystal leakage that occurred.

Claims (1)

A bezel 20 in which a driving circuit board 8, a backlight 6, and a liquid crystal display device 4 are stacked, and are coupled to the driving circuit board 8 while surrounding the backlight 6 and the liquid crystal display device 4. In the liquid crystal display device module comprising: And a plurality of support portions (22) formed at predetermined portions of the bezel (20) and supported by the driving circuit board (8) to keep the compressive force constant when fastening.