KR100252065B1 - Fluorescent display tube - Google Patents

Abstract

PURPOSE: A fluorescence displaying tube is provided to prevent electric wires from short-circuiting by cortrolling a wire designing work in wire disposed layers. CONSTITUTION: The fluorescence displaying tube comprises a substrate(20) and a grid. The substrate(20) includes a wiring layer(30) having a curved portion at an upper surface thereof, an insulating layer(40), a conductive layer(50) and a fluorescent layer(60). The wiring layer(30) has the first wiring layer and the second wiring layer. The width of the second wiring layer is smaller than that of the first wiring layer. The second wiring layer has an end extending toward the first wiring layer at a predetermined length.

Description

Fluorescent tube

1 is a schematic cross-sectional view of a conventional fluorescent display tube.

FIG. 2 is a partial plan view of FIG.

3 is a schematic cross-sectional view of a fluorescent display tube according to the present invention.

4 is a plan view of FIG.

* Explanation of symbols for main parts of the drawings

20: substrate 30: wiring layer

30: first wiring layer 30: second wiring layer

40: insulating layer 50: conductive layer

60: phosphor layer

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a fluorescent display tube, and more particularly, to a fluorescent display tube configured to prevent a short circuit between wirings by improving the structure of the wiring layer.

In general, a fluorescent display tube used as a display device in a digital calculator, a telephone, and a communication device having a fine and complicated wiring layer has a structure as shown in FIG.

That is, the fluorescent display tube 1 is a wiring layer 3 formed by sputtering and depositing a conductive metal (for example, Al) on a substrate 2 made of a material such as glass or ceramic, followed by photoetching. Is formed, and an insulating layer 4 is formed on the upper surface of the substrate 2 on which the wiring layer 3 is formed. In addition, a through hole 4a is formed in the insulating layer 4 so that the conductive layer 5 formed in the later process is electrically connected, and a conductive layer 5 is formed on an upper surface of the through hole 3a, and the conductive layer ( 5) The phosphor layer 6 serving as a light emitting portion is formed on the upper surface by electrodeposition. On the other hand, a grid 7 for controlling hot electrons and a filament K for emitting hot electrons are fixed to the upper surface of the substrate 2 by frit glass. Then, one fluorescent display tube 1 is formed by sealing the front glass 8 and the side glass 9.

In the conventional fluorescent display tube as described above, in particular, in the formation of the wiring layer 3, as shown in FIG. 2, a photo-plotter is designed and formed on the upper surface of the substrate 1. At this time, when the wiring layer 3 has a portion that is bent at different widths, as shown in the figure, the wiring layer 3a of the larger portion is protruded by the width difference from the smaller wiring layer 3a '. . This is because when the wiring layer 3a of the large portion and the wiring layer 3a 'of the small width are connected, they are overlapped with each other when the pattern is formed by an exposure apparatus. As a result, a portion protruding from the bent portion of the wiring layer may come into contact with another adjacent wiring layer, resulting in a short circuit between the wirings, resulting in a problem of product defects.

The present invention was created to solve the problems of the conventional fluorescent display tube as described above, in designing a wiring layer having a portion that is bent at different widths, it is possible to smoothly prevent the wiring layer from protruding at the portion that is bent by the overlap, thereby preventing short circuits between wirings. The purpose is to provide a fluorescent display tube that can prevent the risk in advance.

In order to achieve the above object, the present invention includes a wiring layer having a portion that is bent at different widths on its upper surface, an insulating layer, a conductive layer, a substrate on which a phosphor layer is sequentially applied, and a grid fixed to the substrate. In the fluorescent display tube,

The wiring layer includes a wide first wiring layer and a second wiring layer having a width smaller than that of the first wiring layer and having an end portion connected to the first wiring layer extending a predetermined width in the direction of the first wiring layer. There is a characteristic.

Hereinafter, a preferred embodiment of a fluorescent display tube according to the present invention will be described in detail with reference to the accompanying drawings.

3 is a schematic cross-sectional view of a fluorescent display tube according to the present invention, and FIG. 4 is a plan view of FIG.

As shown in the figure, the fluorescent display tube 10 according to the present invention is deposited on a substrate 20 made of a material such as glass or ceramic by sputtering and depositing a conductive metal (for example, Al). ), An interconnection layer 30 is formed, and an insulating layer 40 is formed on the upper surface of the substrate 20 on which the interconnection 30 is formed. In addition, a through hole 40a is formed in the insulating layer 40 to electrically connect the conductive layer 50 formed in the later process, and a conductive layer 50 is formed on an upper surface of the through hole 40a, and the conductive layer ( 50) The phosphor layer 60 serving as the light emitting portion is formed on the upper surface. Meanwhile, a grid 70 for controlling hot electrons and a filament K for emitting hot electrons are fixed to the upper surface of the substrate 20 by frit glass. One fluorescent display tube 10 is formed by sealing the front glass 80 and the side glass 90.

In the fluorescent display tube according to the present invention as described above, the wiring layer 30, which is designed and formed, in particular, by a photo-plotter, has a wide width according to the characteristics of the present invention as shown in FIG. The first wiring layer 30a has a narrower width than the first wiring layer 30a and extends a predetermined width so that one end thereof overlaps the first wiring layer 30a, and the other end thereof is bent at a predetermined angle. The second wiring layer 30b extends a predetermined distance.

According to the fluorescent display tube according to the present invention configured as described above, the wiring layer 30 formed by sputtering and depositing a conductive metal and then photoetching has a wide first wiring layer 30a and a portion bent therefrom. When the second wiring layer 30b having a width narrower than that of the first wiring layer 30a is formed, the first wiring layer 30a is first formed to have a predetermined length, and then one end thereof is overlapped therefrom. The second wiring layer 30b is extended to form a second wiring layer 30b, and the wiring layer 30 is formed by forming the second wiring layer 30b formed by folding the other end at a predetermined angle from the portion extending to overlap the wiring layer 30. The protruding portion due to the difference in width size of the wiring layer 30 can be eliminated at the bent portion of the wiring layer 30. That is, the bent portion of the wiring layer 30 is formed by forming the second wiring layer 30b having a narrow width so that one end thereof overlaps with the first wiring layer 30a, and then bending the other end at a predetermined angle. The size difference does not occur, so the protruding part is not generated by the width size difference. Therefore, the risk of a short circuit due to contact between adjacent wirings can be prevented.

As described above, according to the fluorescent display tube according to the present invention, in forming a wiring layer having different widths and bent at a predetermined angle, no protruding portion due to the difference in width sizes of the bent portions is generated, and thus the contact between adjacent wirings is prevented. It can not only prevent the risk of short circuit, but also prevent the failure of the product. In addition, since the size of the wiring layer can be widened to the maximum, there is an advantage that the formation of the wiring layer is desired.

Claims (1)

In a fluorescent display tube having a wiring layer having portions having different widths on the upper surface thereof, an insulating layer, a conductive layer, a substrate sequentially coated with a phosphor layer, and a grid fixed to the substrate, The wiring layer 30 has a wider first wiring layer 30a and a width smaller than that of the first wiring layer 30a and is connected to the first wiring layer 30a in the direction of the first wiring layer 30a. And a second wiring layer (30b) extending a predetermined width of the fluorescent display tube.