KR930008163B1 - Discharge tube - Google Patents

Abstract

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Description

discharge pipe

1 is a side cross-sectional view of a discharge tube in a conventional general display element.

2 is a three-dimensional exploded overview of the discharge tube according to the present invention.

3 is a cross-sectional view taken along line III-III of FIG. 2;

4a is a cross-sectional view of another embodiment of the present invention corresponding to FIG.

4b is a cross-sectional view according to another embodiment of the present invention corresponding to FIG.

5a and 5b are plan views of further embodiments according to the invention.

* Explanation of symbols for main parts of the drawings

10 container 11, 12 electrode

13: fluorescent layer 14: coating layer

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a discharge tube, and more particularly, to a discharge tube having a low discharge sustain voltage and configured to have an uniform luminance of light emitted by discharge gas.

The discharge tube is provided with two electrodes which charge the high voltage in the discharge space filled with the discharge gas, a general example of which is shown in FIG. This is a form in which two electrodes 2, 3 are directly faced to both sides of a tubular container 1 filled with an inert gas such as neon, argon, xenon, or the like, and are disposed at both ends of the tubular container 1 of the two electrodes. To have a very long discharge path.

However, the larger the disadvantages of the conventional discharge tube, the higher the discharge start and sustain voltage is, which is because the distance between the two electrodes becomes larger as the electrode is provided at both ends in the longitudinal direction of the container (1).

It is an object of the present invention to provide a discharge tube having a low discharge start and sustain voltage, and particularly excellent in luminous efficiency.

In order to achieve the above object, the discharge tube of the present invention includes a linear transparent container into which discharge gas is injected into an inner space thereof, and two electrodes for causing a space discharge into the inner space. The two electrodes are arranged in parallel, one of the electrodes is located in the inner space, the other electrode is characterized in that it is provided to contact the outer surface of the container.

In the present invention as described above, the other electrode is substantially U-shaped in cross section thereof, and furthermore, the other electrode is preferably formed of a conductive material coated on the outer surface of the container.

In addition, it is more preferable that a coating material of at least one of a metal and a dielectric having a large secondary electron emission ratio is applied to at least one side of the inner electrode and the inner surface of the container. As such a coating material, a volatile earth oxide, Al ₂ O ₃ , SiO ₂ , MgO, or the like may be used. Particularly, in the case of MgO, the coating material is more preferable because it serves as a protective film.

In the present invention of the type described above, the linear transparent container may be bent in a planar shape to selectively form a light emitting plane of a predetermined area.

Furthermore, it is also desirable to position the coating material applied to the inner surface of the container so as to face it with substantially the same width as the outer electrode.

According to various types of the present invention, a discharge tube having a discharge gas is injected into an inner space and a fluorescent material is applied to an inner wall thereof, and two electrodes causing a discharge to the inner space. Application is also possible.

Hereinafter, embodiments of the present invention illustrated in the accompanying drawings will be described in detail.

2 shows a cross-sectional view of the basic structure of the discharge tube according to the present invention, and FIG. 3 shows a section III-III line of FIG.

As can be seen from this, the discharge tube of the present invention is provided with an inner electrode 11 arranged in a longitudinal direction at the inner center of the linear transparent container 10 made of a dielectric material, for example, glass, and the container 10. Has a structure in which the outer electrode 12 of a predetermined width is attached in the longitudinal direction of the outer surface. At this time, the outer electrode 12 may be simply formed in a linear shape, but as shown in FIG.

The discharge tube of such a structure causes the discharge in the longitudinal direction between the positive electrode provided in the inner and outer sides of the container in the longitudinal direction, the voltage applied to the positive electrode is alternating current, the wall of the container attached to the outer electrode is one By having a role as a capacitor of having a characteristic that causes a constant AC discharge. As a result, it is possible to provide a design advantage in which the distance between the positive electrodes can be determined as desired regardless of the length of the container, so that the discharge initial voltage and the sustain voltage can be adjusted regardless of the length of the container. Therefore, the discharge tube of the present invention has the advantage of having a very low driving voltage compared to the conventional discharge tube, in particular, since the outer electrode has a U-shaped cross section surrounding the inner electrode 11 can be expected to play a role as a so-called hollow cathode. This results in very high discharge efficiency.

Based on the basic structure of the present invention as described above, it is possible to realize other types of discharge tubes whose functions and performances are improved and expanded.

4a and 4b show two other embodiments of the invention.

In the case of the discharge tube shown in FIG. 4A, the fluorescent layer 13 is formed on the inner surface of the container 10 facing the outer electrode 12 and is discharged therefrom without using the color light of the discharge light itself at the time of discharge. Indirectly generated color light is obtained by exciting the fluorescent layer 13 having a predetermined color with ultraviolet rays generated around the region.

In FIG. 4B, at least one of the inner electrode 11 and the inner surface of the container 10 has a metal or dielectric material 14 having a large secondary electron emission ratio, for example, a earth-based oxide or Al ₂ O. ₃ , SiO ₂ , MgO and the like are applied alone or in combination. In such a case, the MgO is a very preferable material because it also expects a role as a protective film.

On the other hand, although not shown in the drawings, the functional element shown in FIGS. 4A and 4B is provided in a single container 10 in combination to obtain a discharge tube of a very desirable form.

In addition, the discharge tube according to the present invention having the functional elements as described above can be deformed to the shape shown in FIGS. 5A and 5B, and thus it is possible to obtain a light source having a predetermined area on one plane. The vessels 10 'and 10 " are tightly banded in a zigzag or coil shape.

This type of discharge tube has the advantage that it can be applied to various fields including the back light source of the liquid crystal display device.

Embodiment of the present invention described above will be able to be modified in a wide variety of forms through simple modifications according to additional functional elements and other design conditions. However, it should be understood that any type of discharge tube is within the scope of the present invention as long as it includes the basic technical idea of the present invention.

Claims (22)

A discharge tube having a linear transparent container into which discharge gas is injected into an inner space thereof, and two electrodes causing space discharge into the inner space, wherein the two electrodes are arranged in parallel in the longitudinal direction of the container, and one side thereof The electrode is located in the inner space, the other electrode is characterized in that the discharge tube is provided to be in contact with the outer surface of the container. The discharge tube according to claim 1, wherein the other electrode has a cross section substantially formed in a U shape. 3. The discharge tube according to claim 2, wherein the other electrode is made of a conductive material coated on the outer surface of the container. The discharge tube according to any one of claims 1 to 3, wherein the linear transparent container is bent in a planar shape so as to form a light emitting plane with a predetermined area. The coating material according to any one of claims 1 to 3, wherein at least one of the inner electrode and the inner surface of the container is coated with at least one of a metal and a dielectric having a large secondary electron emission ratio. Discharge tube. 6. The discharge tube according to claim 5, wherein the coating material comprises a volatile earth oxide, or at least one of Al ₂ O ₃ , SiO ₂ , and MgO alone or in combination. The discharge tube according to claim 5, wherein the linear transparent container is bent in a planar shape to form a light emitting plane with a predetermined area. 8. The discharge tube according to claim 7, wherein the coating material comprises a single earth oxide or at least one of Al ₂ O ₃ , SiO ₂ , and MgO. 6. The discharge tube according to claim 5, wherein the coating material applied to the inner surface of the container is positioned to face the outer material substantially the same width as the outer electrode. 10. The discharge tube according to claim 9, wherein the coating material comprises a volatile earth oxide, or at least one of Al ₂ O ₃ , SiO ₂ , and MgO alone or in combination. The discharge tube according to claim 10, wherein the linear transparent container is bent in a plane to form a light emitting plane with a predetermined area. In a discharge tube having a container in which discharge gas is injected into the inner space and a fluorescent material is applied to the inner wall thereof, and two electrodes causing discharge in the inner space, the positive electrodes are arranged in parallel in the longitudinal direction of the container. Wherein, one of the electrodes is located in the inner space, the other electrode is provided on the outside of the container while the fluorescent layer is characterized in that the positive electrode is formed on the portion except the inner surface of the container facing the electrodes discharge pipe. 13. The discharge tube according to claim 12, wherein the other electrode has a cross section substantially formed in a U shape. The discharge tube according to claim 13, wherein the other electrode is made of a conductive material coated on an outer surface of the container. 15. The discharge tube according to any one of claims 12 to 14, wherein the linear transparent container is bent in a plane so as to form a light emitting plane with a predetermined area. The coating material according to any one of claims 12 to 14, wherein at least one of the inner electrode and the inner surface of the container is coated with at least one of a metal and a dielectric having a large secondary electron emission ratio. Discharge tube characterized in that. 17. The discharge tube according to claim 16, wherein the coating material comprises a single earth compound or at least one of Al ₂ O ₃ , SiO ₂ , and MgO. 17. The discharge tube according to claim 16, wherein the linear transparent container is bent in a plane to form a light emitting plane with a predetermined area. 19. The discharge tube according to claim 18, wherein the coating material comprises a volatile earth oxide or at least one of Al ₂ O ₃ , SiO ₂ , and MgO alone or in combination. 17. The discharge tube according to claim 16, wherein the coating material applied to the inner surface of the container is positioned to face the outer electrode at substantially the same width as the outer electrode. 21. The discharge tube according to claim 20, wherein the coating material comprises a single earth compound or at least one of Al ₂ O ₃ , SiO ₂ , and MgO. 22. The discharge tube according to claim 21, wherein the linear transparent container is bent in a planar shape to form a light emitting plane with a predetermined area.

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