KR100354521B1 - Protrude Electrode Type Flat Fluorescent Lamp - Google Patents

Abstract

The present invention relates to a so-called flat-panel fluorescent lamp for LCD-backlighters used in decorative large flat lamps and liquid crystal display (LCD) devices.

The flat fluorescent lamp having the protruding electrode structure according to the present invention has a high-efficiency electrode structure due to the surface discharge effect by the protruding electrodes arranged on the plane, and the protruding electrode structure forms a partition by a printing method. It is then formed by applying an electrode to the partition wall surface. In addition, when the pressure of the gas is low, the distance between the electrodes is slightly widened so that the fluorescent layer emits light between the electrodes, thereby maximizing luminance and efficiency.

Description

Protrude Electrode Type Flat Fluorescent Lamp

The present invention relates to a flat fluorescent lamp having a protruding electrode structure used as a surface light source for a liquid crystal display (hereinafter referred to as LCD) backlight and a lamp for decorative lighting.

Conventional backlights mainly use cylindrical fluorescent lamps as surface light sources. Recently, flat lamps have been developed which arrange face electrodes directly on the bottom plate. However, they still do not meet the purpose of high brightness and high efficiency due to the large area of LCD.

An object of the present invention is to fabricate electrodes in a projecting structure so as to have the effect of opposing surface discharge between the projecting electrodes. The projecting electrode structure adopts a method of applying a metal on the partition by installing a partition by a printing method. . In some cases, the protruding electrode structure may be formed by using the partition wall of the double layer structure by a method other than the printing method.

1 is a conceptual view of a flat fluorescent lamp having a protruding electrode structure according to an embodiment of the present invention, Figure 1a is a perspective view of the upper plate and the lower plate is separated, Figure 1b is a vertical cross-sectional view of the assembled upper and lower plates.

2 is a conceptual view of a flat fluorescent lamp having a protruding electrode structure according to another embodiment of the present invention, Figure 2a is a cross-sectional view of the lower plate, Figure 2b is a perspective view of the fluorescent plate, Figure 2c is an assembled cross-sectional view of the upper plate and the lower plate. .

3 is a perspective view of a lower plate in which a straight protruding electrode is formed in a rectangular protruding structure.

※ Explanation of code about main part of drawing ※

One; Top 2; Fluorescent layer 3; Bottom 4; An electrode 5; Outer wall 6; Partition 7; Dielectric layer and protective film 8; Barrier rib 9 having a double layer structure; Fluorescent layer

A flat plate fluorescent lamp having a protruding electrode structure according to an aspect of the present invention, the upper plate (1) having a fluorescent layer (2); And an edge outer wall 5, a plurality of partitions 6 formed in the outer wall 5, a plurality of electrodes 4 formed on the partitions 6, and formed on the electrodes 4. And a lower plate 3 having a dielectric layer and a protective film 7, wherein the heights of the plurality of electrodes 4 are lower than the height of the outer wall 5. The protruding electrode according to another aspect of the present invention. A flat plate fluorescent lamp having a structure includes: an upper plate 1 having a fluorescent layer 2; A lower plate (3) having a plurality of double-layered partition walls (8), a plurality of electrodes (4) formed on the partition walls (8), and a dielectric layer and a protective film (7) formed on the electrodes (4); And a fluorescent plate 9 having a fluorescent layer 10 and fitted to the plurality of electrodes 4, wherein the thickness of the fluorescent plate 9 is lower than the height of the partition wall 8 of the double layer structure. .

1 is a conceptual view of a flat fluorescent lamp having a protruding electrode structure according to the present invention, Figure 1a is a perspective view of the upper plate and the lower plate is separated and Figure 1b is a cross-sectional view of the upper and lower plates assembled state. As described above, a fluorescent layer 2 is formed on the rear surface of the upper plate 1, and the lower plate 3 is provided with a plurality of electrodes 4 and an edge outer wall 5. The height of the outer wall 5 is higher than the height of the electrode 4 so that discharge occurs between the electrodes. As shown in FIG. 1B, a plurality of partitions 6 are formed in the outer wall 5. ) And a plurality of electrodes 4 are formed on the partition 6 to form a protruding electrode structure. A dielectric layer and a passivation layer 7 are applied on the electrode 4. Next, an odd number (X-electrode) and even (Y-electrode) electrodes of the plurality of electrodes are connected to each other in an AC power source. Connect to As a result, discharge occurs between odd and even electrodes. Alternatively, two adjacent electrodes may be paired and connected to the same power source. Plasma is generated by alternating current discharge, and ultraviolet rays are emitted from the plasma to emit the fluorescent layer 2 of the upper plate 1. The gas used for the discharge uses a mixed gas with xenon in addition to mercury. Here, the AC discharge is a method of applying a dielectric layer on the electrode and applying a pole of the power supply alternately. The spacing, width, and protrusion height between the electrodes are determined in consideration of gas pressure and discharge efficiency. For example, in order to discharge a high-pressure gas of several 100 Torr, the interval between electrodes is 1 mm or less. The electrodes of the barrier rib structure may be formed by a printing method, and the dielectric layer and the protective layer 7 may be formed of electrodes by ions. To prevent damage and increase the emission of secondary electrons.

2 is a schematic view of a flat fluorescent lamp having a protruding electrode structure according to another embodiment of the present invention, unlike the fluorescent film is applied only to the upper plate, the fluorescent layer is also applied to the lower plate, In the case where the gas pressure in the discharge space is lower than that in Fig. 1, a fluorescent plate fitted to the electrode portion formed on the lower plate is separately manufactured. Fig. 2A is a cross-sectional view of the lower plate 3, and the electrode is formed on the partition 8 of the double layer structure. The portion 4 is formed, followed by the dielectric layer and the protective film 7. It is to be understood that the partition 8 of the double layer structure has another partition formed on the partition 6 in FIG. 1. FIG. 2B is a perspective view of a fluorescent plate, and the fluorescent layer 10 is formed on the front surface of the fluorescent plate 9. Is formed. Preferably, the thickness of the fluorescent plate 9 is lower than the height of the partition wall 8 of the double layer structure. The fluorescent plate 9 is coupled to the lower plate 3 of FIG. 2A, wherein the electrode 4 protrudes into the cutout portion of the fluorescent plate to form a protruding electrode structure. FIG. 2C shows the upper plate 1 and the lower plate. (It is sectional drawing which assembled 30.

In the present invention, as shown in FIG. 1 and FIG. 2, a rectangular protrusion structure having a limited length as shown in FIG. 3 may be adopted in addition to the straight protrusion electrode in either direction.

In order to use it as an LCD backlight, a reflector is attached to the lower plate or a diffuser plate is additionally attached to the upper plate.

The use of LCDs as display devices to cope with CRTs is being expanded. The trend is expanding from notebook PCs to desktop monitors and LCD TVs. Therefore, the size of the backlight is also increasing in demand for large screens of 10 inches to 20 inches or more. At the same time, high brightness and high efficiency are required. In this respect, the method of the backlight writer proposed in the present invention has high brightness and high efficiency. Therefore, since the brightness of the backlight is not a limiting factor for the LCD of the large screen, it will bring a big change in the technology enhancement and market expansion of the large area LCD.

Claims (2)

An upper plate 1 having a fluorescent layer 2; And An edge outer wall 5, a plurality of partitions 6 formed in the outer wall 5, a plurality of electrodes 4 formed on the partition 6, and a dielectric layer formed on the electrodes 4. And a lower plate (3) having a protective film (7), wherein the heights of the plurality of electrodes (4) are lower than the height of the outer wall (5). An upper plate 1 having a fluorescent layer 2; A lower plate (3) having a plurality of double-layered partition walls (8), a plurality of electrodes (4) formed on the partition walls (8), and a dielectric layer and a protective film (7) formed on the electrodes (4); And And a fluorescent plate (9) having a fluorescent layer (10) fitted to the plurality of electrodes (4), wherein the thickness of the fluorescent plate (9) is lower than the height of the partition wall (8) of the double layer structure. Flat fluorescent lamp with type electrode structure.