JP2005294145A - Electrode and cold cathode discharge tube - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an electrode capable of efficiently lighting without going off from an introductory metal body connected by a hollow electrode even in the case being lit for a long period of time and a cold cathode discharge tube equipped with the electrode. <P>SOLUTION: The electrode 13 is connected by the hollow electrode 14 in a bottomed cylinder shape at a tip end part 10 of the introductory metal body 5 which is sealed at an end part of a cylindrical glass valve. The hollow electrode 14 is sealed at positions 12, 12 near an end collar in the glass valve. An inside face 16 of a bottom part 15 smoothly swells like a hemi-sphere with a center part 17 as its peak. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a cold cathode discharge tube used as a backlight for a liquid crystal display screen and the like, and an electrode provided in the cold cathode discharge tube. Specifically, a bottomed cylindrical hollow electrode is connected to an introduction metal body. And a cold cathode discharge tube equipped with the electrode.

  In recent years, cold cathode discharge tubes have been used as backlights for liquid crystal display screens used as various device display screens. In this cold cathode discharge tube, as shown in FIG. 2, electrodes 2 are sealed at both ends 1a, 1a of a cylindrical glass bulb 1 via a bead glass 3, and a fluorescent coating 4 is formed on the inner surface of the glass bulb 1. Then, a mixture gas of neon and argon and mercury are diffused and sealed in an appropriate amount in the glass bulb 1.

  The electrode 2 is composed of an introduction metal body 5 sealed in a bead glass 3 and a bottomed cylindrical hollow electrode 6 sealed in the glass bulb 1. The introduced metal body 5 is formed of tungsten or the like having a high melting point in a sealed portion in order to ensure confidentiality with the bead glass 3. On the other hand, the hollow electrode 6 is formed of nickel, niobium, or the like, and is formed in a bottomed cylindrical shape including a bottom portion 7 and a cylindrical portion 8 in order to increase a discharge area.

  The outer surface 9 of the bottom 7 of the hollow electrode 6 and the tip 10 of the introduction metal body 5 are connected by welding. And when the electrode 2 is sealed by the both ends 1a and 1a of the glass bulb | bulb 1, the inner surface 11 of the bottom part 7 of each hollow electrode 6 will oppose.

  When a high voltage is applied between the pair of electrodes 2, 2, the cold cathode discharge tube configured in this manner discharges between the pair of hollow electrodes 6, 6, and between the hollow electrodes 6, 6. When the existing mixed gas and the ultraviolet light generated by the excitation of mercury collide with the fluorescent coating 4, the light is lit as visible light.

  When the light is lit for a long time, the pair of hollow electrodes 6, 6 are subjected to discharge on the inner side surfaces 11, 11 of both the bottom portion 7 and the cylindrical portion 8. As shown in FIG. 3, the inner side surface 11 of the bottom portion 7 is gradually scraped and thinned. Since the hollow electrode 6 is formed to a thickness of about 0.1 mm, the bottom 7 may be scraped off to the tip 10 of the introduced metal body 5 welded. Then, the hollow electrode 6 is detached from the introduction metal body 5 and falls into the glass bulb 1 and cannot be used.

Therefore, Patent Document 1 discloses an electrode 2 that prevents the hollow electrode 6 from being detached from the introduced metal body 5 even when used for a long time, and a cold cathode discharge tube including the electrode 2. The electrode 2 is characterized in that the thickness of the bottom portion 7 of the hollow electrode 6 is 1.5 times or more than the thickness of the cylindrical portion 8. As described above, the bottom 7 of the hollow electrode 6 is 1.5 times thicker than the cylindrical portion 8, so that the bottom 7 can be scraped off to the tip 10 of the introduced metal body 5 even when used for a long time. Without long-term durability.
JP 2002-289136 A

  When the thickness of the bottom portion 7 of the hollow electrode 6 is increased to extend the life as in the conventional example, the surface area of the inner side surfaces 11, 11, that is, the discharge area is increased when the length and outer diameter of the hollow electrode 6 are the same. It gets smaller. For this reason, it is impossible to increase the efficiency, which is the original purpose, so it is necessary to increase the size of the electrode, and there is a negative effect on the recent demand for downsizing the cold cathode discharge tube and increasing the effective light emission length. It becomes.

  Therefore, the present invention provides an electrode that can be illuminated efficiently even if it is lit for a long period of time without being detached from the introduced metal body to which the hollow electrode is connected, and a cold cathode discharge provided with this electrode. The problem is to provide a tube.

  An electrode according to the present invention is an electrode in which a bottomed cylindrical hollow electrode is connected to a tip of an introduction metal body sealed at an end of a cylindrical glass bulb, and the bottom of the hollow electrode is It is characterized in that the inner side surface bulges smoothly with a top at the center.

  According to this electrode, since the inner surface of the bottom portion of the hollow electrode bulges so as to have a top portion at the center portion, even if the center portion of the inner surface surface is scraped off by long-term discharge, the hollow electrode is connected. The tip of the introduced metal body can be prevented from being scraped off. Further, the inner surface of the bottom portion of the hollow electrode swells, so that the surface area becomes larger than that of the flat inner surface, and the hollow electrode can be reduced in diameter while ensuring the surface area necessary for discharge.

  In the electrode, it is preferable that the inner side surface of the bottom portion of the hollow electrode bulges in a hemispherical shape.

  According to this electrode, when the inner side surface of the bottom part of the hollow electrode swells in a hemispherical shape, a sharp corner is not formed, and the entire inner side surface of the bottom part is discharged.

  Further, the cold cathode discharge tube according to the present invention is a cold cathode discharge tube comprising the electrode, wherein an introduction metal body of the electrode is sealed at an end of a cylindrical glass bulb, and the hollow of the electrode The electrode is sealed in the vicinity of the edge of the cylindrical glass bulb.

  According to the present invention, since the inner surface of the bottom portion of the hollow electrode swells smoothly so as to have a top portion at the center portion, even if the inner surface of the bottom portion is scraped off by discharge, the connected introduced metal body Therefore, the hollow electrode is not detached from the introduced metal body, and the service life can be extended or the diameter can be reduced without reducing the efficiency.

  An embodiment of an electrode according to the present invention and a cold cathode discharge tube equipped with the electrode will be described with reference to FIG. However, the same parts as in the prior art will be described with the same reference numerals.

  As shown in FIG. 1, the electrode 13 has a bottomed cylindrical hollow electrode 14 connected to the distal end portion 10 of the introduction metal body 5 by welding or the like, and the inner side surface 16 of the bottom 15 of the hollow electrode 14 is centered. The feature is that the portion 17 bulges smoothly so as to have a top portion. The inner surface 16 of the bottom portion 15 of the hollow electrode 14 does not bulge smoothly. For example, when the tip has a conical shape with a sharp tip or a trapezoidal cross section with a corner, the discharge is concentrated at the sharp tip or the angular portion. Thus, the feature of the hollow electrode 14 that widens the discharge area is impaired.

  Therefore, the bottom portion 15 of the hollow electrode 14 has no hemispherical shape as shown in FIG. 1 or a corner portion such as a trapezoidal shape having a parabolic or rounded cross section, and the peripheral portion of the inner surface 16 of the bottom portion 15. 18 is formed in a shape that bites into a thin wall having the same thickness as the cylindrical portion 19.

  When a high voltage is applied to the pair of electrodes 13, 13, discharge is performed between the pair of hollow electrodes 14, 14, and the mixed gas and mercury existing between the hollow electrodes 14 are excited to generate ultraviolet light. Is turned on when it collides with the fluorescent coating 4.

  Then, when the cold cathode discharge tube is lit for a long time, the hollow electrode 14 is gradually scraped off the central portion 17 of the inner surface 16 of the bottom portion 15. However, since the inner surface 16 of the bottom portion 15 swells smoothly and the top portion is formed at the center portion 17, the hollow electrode 14 has a welded introduced metal body even if the center portion 17 is gradually scraped off. The tip part 10 of 5 is not scraped off. Therefore, even if the cold cathode discharge tube is lit for a long time, the hollow electrode 14 does not come off the introduced metal body 5.

  In addition, since the surface area of the inner surface of the hollow electrode 14 is increased, it is possible to increase the efficiency when the electrode dimensions are the same and to reduce the size of the electrode.

  In addition, this invention can be variously changed in the range of the technical matter described in the claim, without being limited to the said embodiment. For example, the electrode 13 can be similarly implemented even if the hollow electrode 14 is formed in an H-shaped cross section so as to surround the distal end portion 10 of the introduction metal body 5.

  The cold cathode discharge tube is not limited to a pair of electrodes 13 disposed at both ends 1 a and 1 a of the glass bulb 1, but the electrode 13 of the present invention is disposed on one side of the glass bulb 1. The present invention can be carried out even if an external electrode is disposed on the side surface.

  The electrode and the cold cathode discharge tube according to the present invention are useful as a backlight of a liquid crystal display device and the like because they have a long life and can be efficiently illuminated.

Sectional drawing of the principal part of the electrode and cold cathode discharge tube according to the present invention Cross-sectional view of a conventional cold cathode discharge tube Cross section of conventional electrode

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Glass bulb 1a End part 5 Introduced metal body 10 Tip part 12 Edge vicinity 13 Electrode 14 Hollow electrode 15 Bottom part 16 Inner side surface 17 Center part

Claims (3)

An electrode in which a bottomed cylindrical hollow electrode is connected to the tip of an introduction metal body sealed at the end of a cylindrical glass bulb,
An electrode characterized in that the inner surface of the bottom of the hollow electrode bulges smoothly so as to have a top at the center.   The electrode according to claim 1, wherein an inner side surface of the bottom portion of the hollow electrode bulges in a hemispherical shape. A cold cathode discharge tube comprising the electrode according to claim 1 or 2,
A cold cathode discharge characterized in that an introduction metal body of the electrode is sealed at an end portion of a cylindrical glass bulb, and a hollow electrode of the electrode is sealed in the vicinity of an edge portion in the cylindrical glass bulb. tube.

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