KR100235479B1 - Exhaustion structure of fpd - Google Patents

Abstract

The present invention discloses an improved exhaust structure of a flat panel display device.

There has been a problem that when the exhaust gas is exhausted through the exhaust pipe, the functional membrane is contaminated due to the exhaust pipe attachment and the functional membrane is sucked due to the pressure change during exhausting, so that the present invention solves the conventional problems by forming the buffer dam around the exhaust hole.

Description

Exhaust structure of flat panel display

1 is a sectional view showing a general exhaust structure;

FIG. 2 is a sectional view showing a problem of a conventional exhaust structure. FIG.

FIG. 3 is a perspective view of a rear substrate showing the exhaust structure of the present invention. FIG.

FIG. 4 is a sectional view showing another embodiment of the present invention.

DESCRIPTION OF THE REFERENCE NUMERALS

P1, P2: substrate H: exhaust hole

X: exhaust pipe L: functional membrane

P: Fluorescent layer 1, 1a, 1b: buffer dam

TECHNICAL FIELD The present invention relates to a flat panel display device, and more particularly, to an exhaust structure thereof.

A matrix type flat panel display device capable of displaying an arbitrary image has a two-substrate structure in which two substrates are opposed to each other, and an atmosphere necessary for the action is formed in a cavity between the two substrates.

A liquid crystal display (LCD) having a working fluid as a liquid has no problem in discharging and charging thereof. However, a plasma display device (PDP) in which a discharge gas is to be charged or a field emission device (FED) It is common to exhaust and charge using an exhaust pipe as shown in Fig.

1, an exhaust hole H is formed in a rear substrate P2 of a panel formed by sealing two substrates P1 and P2 with a sidewall W. An exhaust pipe X is formed on the exhaust hole H, (Funnel 1;

Attachment of the exhaust pipe X is performed by applying a sealing material A in a paste state around the exhaust hole H and placing the funnel F of the exhaust pipe X on the sealing material A And the panel is put into a baking furnace to burn the sealing material (A).

However, since the exhaust and charge are the completion stages of manufacturing the flat panel display device, various functional films such as an electrode, a fluorescent layer and a dielectric layer are already formed on the substrates P1 and P2.

Accordingly, when the sealing material A is fired to attach the exhaust pipe X, the contaminants such as organic solvents contained in the sealing material A are diffused and a part of the contaminants is introduced through the exhaust hole H, And is attached on the functional film L as shown in FIG.

Here, the function film (L) that is most likely to adhere to contaminants is a fluorescent layer, and the functional film (L) having the greatest influence on the luminance or the like due to adhesion of contaminants is also a fluorescent layer.

The reason is that unlike electrodes and dielectric layers that form a vitreous layer by firing, the fluorescent layer weakly bonds with the van der Waals force between the molecules, ) Is stronger, and the contaminant containing C blocks light emission of the fluorescent layer to form a black spot.

On the other hand, a vacuum pump is coupled to the exhaust pipe X to exhaust the inside of the panel. As a result, a large pressure difference is formed between the inside of the panel and the air and foreign substances existing inside the panel, A part of the functional film L is also sucked out.

At this time, too, the fluorescent layer bonded with a weak molecular force is liable to be drawn out, and if it is severe, there arises a problem that the brightness and color purity of the whole panel become uneven.

SUMMARY OF THE INVENTION The present invention has been made in view of the above problems, and it is an object of the present invention to provide an exhaust structure capable of preventing contamination and suction of a functional film such as a fluorescent layer.

In order to achieve the above object, the exhaust structure of the present invention is characterized by forming a buffer dam partially surrounding the exhaust hole around the exhaust hole inside at least one of the substrates.

According to an aspect of the present invention, the buffer dam is formed in a horseshoe shape, and its opening portion is directed to the opposite side of the functional membrane.

These and other features and advantages of the present invention will become more apparent from the following description of the preferred embodiments with reference to the accompanying drawings.

3, a function film L such as an electrode E, a partition wall B, and a fluorescent layer P is formed on a rear substrate P2 on which an exhaust hole H is formed, And is sealed with the front substrate P1 by the side wall W of the front substrate P1.

The buffer dam 1 is provided around the exhaust hole H in accordance with the characteristics of the present invention. The buffer dam 1 is preferably formed of the same material as the partition wall B when the partition B is formed.

The buffer dam 1 preferably has a horseshoe shape facing the opposite side of the open additional function film L and is formed on at least one of the two substrates P1 and P2.

In the case where the buffer dam 1 is formed only on one substrate P1 or P2, the substrate P1 is a substrate on the side where the fluorescent layer P is formed, that is, a rear substrate P2 in the case of a reflective PDP, It may be formed on the front substrate P1.

This is because the fluorescent layer P is susceptible to contamination at the time of attaching the exhaust pipe X and to suction at the time of exhausting as described above.

On the other hand, when the buffer dam 1 is formed on both the substrates P1 and P2, the buffer dams 1a and 1b of the substrates P1 and P2, as shown in FIG. 4, So that the alignment between the substrates P1 and P2 is facilitated.

The function of the buffer dam 1 is to prevent the flow of the airflow to the exhaust hole H directly from reaching the functional film L, particularly, the fluorescent layer P.

That is, contaminants such as organic components diffused in the sealing material A at the time of bonding the exhaust pipe X are once brought into contact with the inner surface of the buffer dam 1 and attached thereto.

On the other hand, when a rapid pressure change is transmitted to the exhaust pipe X according to the start of the exhaust, the pressure wave is buffered by the buffer dam 1 and is not directly transferred to the functional film L, Damage due to the drawing of the functional film (L) such as the layer (P) is prevented.

As described above, according to the present invention, contamination and suction of the functional film are effectively prevented, and a high-quality flat panel display device can be manufactured.

Claims (4)

A structure in which two substrates of flat panel display elements each having a functional film formed thereon are sealed with side walls and exhausted through an exhaust hole formed in the rear substrate, Forming a buffer dam partially surrounding the exhaust hole of at least one of the two substrates The exhaust structure of the flat panel display device is characterized. The method according to claim 1, And the buffer dam is formed in a horseshoe shape in which an opening is formed on the opposite side of the functional membrane The exhaust structure of the flat panel display device is characterized. The method according to claim 1, Wherein the buffer dam is formed on at least a functional film of the two substrates on a substrate including a fluorescent layer The exhaust structure of the flat panel display device is characterized. The method according to claim 1, And the buffer dam is formed so as to be engaged with the two substrates in correspondence with each other The exhaust structure of the flat panel display device is characterized.