KR920005886Y1 - Cold cathode type fluorescent lamp - Google Patents

Abstract

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Description

Cold Cathode Fluorescent Lamp

1 is a view showing an embodiment of the present invention, (a) is a partial cutaway perspective view of a cold cathode fluorescent lamp according to the present invention, (b) is a cross-sectional view taken along the line of FIG.

FIG. 2 is a partial perspective view of the main portion porous electrode body of FIG. 1; FIG.

3 is a partially cutaway perspective view showing the structure of an electrode used in a conventional fluorescent lamp.

* Explanation of symbols for main parts of the drawings

1: fluorescent surface 2: case

3: porous electrode body 4: phosphor

6: through-hole

The present invention relates to a cold cathode fluorescent lamp, and more particularly to a cold cathode fluorescent lamp that improves the brightness by improving the shape of the lamp.

Cold-cathode fluorescent lamps using glow discharge phenomena have low current and high brightness to have moderate characteristics.

The cold-cathode fluorescent lamps described above are being gradually expanded, and their main use is as a light source attached to the back of the liquid crystal display panel for the purpose of improving the brightness of the screen in a liquid crystal display television. have.

The cold-cathode fluorescent lamps used in the prior art have a cylindrical shape, which is a major obstacle to miniaturization of liquid crystal display televisions.

The reason why the shape of the cold cathode fluorescent lamp should be cylindrical is as follows.

Since the luminance of a cold cathode fluorescent lamp in which a liquid crystal display television is used as a back light source is determined by the area of the fluorescent surface and the electrode area ratio, the improvement in luminance means an increase in the electrode area.

Therefore, in order to have the electrodes of the cold cathode fluorescent lamp have a maximum area in a narrow space, the cold cathode fluorescent lamp is arranged by concentrically arranging circular ordinary things having different diameters or winding them in a spiral shape as shown in FIG. 'S appearance is naturally cylindrical as well.

In order to overcome the problems that arise in order to reduce the thickness of the cylindrical cold-cathode fluorescent lamp, the present invention improves the electrode to improve the uniformity of the field emission efficiency and the brightness, even though the shape of the lamp is deformed to be flat. It is an object to provide a cold cathode fluorescent lamp.

In order to achieve the above object, the present invention, as a whole, the inner sides of the case forming a cube, the pleated cross section It is characterized in that a porous electrode body having an electrode surface constituting an image and in which numerous holes are perforated is disposed facing the electrode surface.

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

As shown in FIG. 1 (a). The present invention has a cube-shaped case 2 having a rectangular fluorescent surface 1, and the porous electrode bodies 3 are disposed opposite to each other on both inner sides of the case 2.

One end portion 3α of the porous electrode body 3 is exposed to the outside of the case 1 to form a terminal, and as shown in FIG. It becomes a phase, and the electrode area is expanded significantly.

In addition, the ordinary phosphor 4 is coated on the inner facing surface of the upper and lower fluorescent surfaces 1 so as to achieve a predetermined film thickness by screen printing or sedimentation, and the upper and lower fluorescent surfaces 1 are separated by a spacer ( It is segregated at intervals by 5).

2 is an enlarged perspective view showing a part of the above-described porous electrode body 3, showing that the through hole 6 is innumerable in the wrinkled electrode surface.

The porous electrode body 3 substantially embodying the present invention has the following effects as the electrode surface is formed to be corrugated, and the through holes 6 are innumerably formed on the electrode surface.

The area that can cause the collision of electrons is widely distributed on the electrode surface, and the field emission efficiency is greatly improved. The emission amount of the mercury-excited ultraviolet rays is also significantly increased due to the improvement of the field emission efficiency. It is possible to achieve about 1.5 times the improvement of, and in particular, the planarization of the fluorescent surface can be achieved, so that the thickness of the liquid crystal display television can be considerably reduced.

In addition, the through-holes innumerably perforated in the porous electrode body 3 also have the effect of reducing the impedance, and the practical use of lowering the power consumption of the cold cathode fluorescent lamp using the same can be obtained.

Claims (1)

Wrinkles are formed on both inner sides of the case 2 having a cube as a whole and a fluorescent surface 1 provided on the upper and lower surfaces thereof. A cold cathode fluorescent lamp comprising an electrode surface constituting an electrode surface and a porous electrode body (3) having a through hole (6) innumerable on the electrode surface.