KR940005878B1 - Fluorescent display tube having characteristic cathode - Google Patents

Abstract

The tube fixes a number of electrodes to a substrate in a specified pattern, simplifies a board structure, and improves a productivity of manufacturing method. The tube includes electrodes (12) of pin type, a substrate (11) having the electrodes in a specified pattern, a fluorescent layer (13) formed over the electrodes and having on its top a grid (14) and line cathode (15), and a front glass (17) for realing the electrodes with the board (11) and spacers.

Description

Fluorescent display tube having electrode member immersed in substrate

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

2 is a cross-sectional view showing a fluorescent display tube having an electrode member immersed in a substrate according to the present invention.

3 is an enlarged cross-sectional view partially showing an electrode immersed and fixed to the substrate.

* Explanation of symbols for main parts of the drawings

11 substrate 11a conductive layer

12 electrode member 13 phosphor layer

14: grid 15: line cathode

16: side glass 17: front glass

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a fluorescent display panel, and more particularly, to a fluorescent display tube in which an electrode of a back plate is formed in a pin type.

In general, a fluorescent display tube used for an image display device such as a digital measuring instrument, a telephone communication device, etc. having a complicated wiring layer, as shown in FIG. 1, a substrate 2 made of glass or ceramic, sputtering conductive metal on the upper surface thereof ( After deposition by sputtering, photo etching is performed to form a wiring layer 2a, and an insulating layer 2b is formed on the substrate 2 on which the wiring layer 2a is formed, and an upper surface of the insulating layer 2b. The conductive layer 2c which is electrically connected with the said wiring layer 2a is formed in this. In addition, a phosphor layer 3, which is a light emitting part, is formed on an upper surface of the conductive layer 2c by an electrodeposition method, and a grid 4 and a lycadiode 5 are formed on a vertical upper portion of the phosphor layer 3. It is installed to be spaced apart from each other by a predetermined support (not shown) installed in (2) and the substrate 2 is sealed to the front glass 7 by the side glass 6 or a spacer. In the conventional fluorescent display tube 1 configured as described above, as a predetermined potential is applied to the wiring layer 2a and the line cathode 5, hot electrons are emitted from the line cathode 5 and the line cathode ( The hot electrons emitted from 5) are accelerated and controlled in the grid 4 and landed on the phosphor layer 3 to form one pixel, and these pixels gather to form a screen.

In the conventional fluorescent display tube 1, since the wiring layer 2a for supplying power to the conductive layer 2c on which the phosphor layer 3 is formed is complicatedly formed on the substrate 2, the substrate 2 Is very difficult to fabricate, and in particular, when the phosphor layer 3 is formed in a dot type, the structure of the conductive layer 2c and the pattern of the wiring layer 2a become complicated, so that the fine wiring layer 2a on the substrate 2 is formed. ), When the tip part is etched more than a predetermined value, there is a problem that the disconnection is generated, and the sharpness of the fluorescent display tube is reduced due to the decrease in conductivity (increase in resistance) due to the breakage of the tip part of the wiring layer 2a There is a problem. In the conventional fluorescent display tube 1 described above, the wiring layer 2a, the insulating layer 2b, the conductive layer 2c, and the like must be formed when the substrate 2 is manufactured. There was a problem going up.

The present invention has been made to solve the above problems, and by using the needle-shaped electrode member as the electrode of the substrate, the structure is simple, and the cause of failure in the disconnection of the wiring layer can be fundamentally solved. It is an object of the present invention to provide a fluorescent display tube having an electrode member immersed and fixed to a substrate capable of improving its value.

In order to achieve the above object, the present invention provides a fluorescent display tube having an electrode member immersed and fixed to a substrate, the substrate immersed and fixed in a predetermined pattern such that the needle-like electrode member and both ends of the plurality of electrode members are exposed to the upper and lower surfaces thereof. And a phosphor layer formed at an end portion of the electrode member exposed to the upper surface of the substrate, a grid and a line cathode provided on the phosphor layer, and a front glass sealed by the substrate and the spacer. It is done.

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

In the fluorescent display tube 10 having the electrode member immersed and fixed to the substrate according to the present invention shown in FIG. 2, the electrode member 12 is immersed and fixed to the substrate 11 made of glass or ceramic. Both ends of 12 are exposed to the upper and lower surfaces of the substrate 11, respectively. At this time, the end portion 12a of the electrode member 12 exposed to the upper surface of the substrate 11 is to be introduced into the predetermined length from the upper surface of the substrate 11, as shown in Figure 3 but the electrode member 12 is It is preferable that the periphery of the inlet is enlarged so that the shape of the inlet part is formed in a substantially conical shape, and the upper surface of the substrate 11 is electrically connected to the end of the electrode member 12 exposed to the upper surface of the substrate 11. It is preferable that the conductive layer 11a of a pattern is formed, and the electrode member 12 preferably uses a band-shaped or needle-shaped metal conductive metal. In addition, a phosphor layer is formed on an end portion 12a or a conductive layer of the electrode member 12 exposed to the upper surface of the substrate 11, and a grid 14 and a line cathode ( 15 is fixed to the substrate 11 so as to be spaced apart by a predetermined interval, and the substrate 11 is sealed with the front glass 17 by the spacer 16 installed at the edge thereof.

Here, the fluorescent display tube 10 having the electrode member immersed and fixed to the substrate configured as described above is provided with the electrode member 12 immersed and fixed to the substrate 11 in a delta arrangement and the top surface of the substrate 11 A color image can also be obtained by forming red, blue, and green phosphor layers on the upper end of each of the electrode members 12 exposed to each other.

The operation of the fluorescent display tube having the electrode member immersed and fixed to the substrate according to the present invention configured as described above is as follows.

First, when a predetermined potential is applied to the line cathode 15 and a predetermined potential is selectively applied to each of the grids 14 and the plurality of electrode members 12, thermal electrons from the line cathode 15 are applied. The hot electrons are accelerated or controlled by the grid 14 positioned vertically above the phosphor layer 13 so that the phosphor layer 13 or the potential applied to the electrode member 12 to which the potential is applied Landing on the phosphor layer 13 applied to the conductive layer 11a electrically connected to the applied electrode member 12 causes the phosphor layer 13 to emit light to form a screen.

The fluorescent display tube 10 having the electrode member immersed and fixed to the substrate according to the present invention as described above does not need to form a wiring layer for electrically connecting the conductive layer as in the prior art, and has an end portion of the electrode member 12. Since the phosphor layer 13 can be directly applied to and used, the structure of the substrate 11 can be made very simple, and the production cost according to its manufacture can be greatly reduced. In particular, when the fluorescent display tube 10 is a color fluorescent display tube, the electrode members 12 are arranged in a delta shape, and red, blue, and green phosphor layers 12 are formed at respective ends thereof by electrodeposition. If so, the structure and manufacturing method will be very simple. In the fluorescent display tube 10 according to the present invention, since the end portion of the electrode member 12 is extended to have a predetermined length from the upper surface of the substrate 11 and the periphery thereof has an approximately conical inlet portion, Not only the electrical connection of the phosphor 13 is secure, but also the separation of the phosphor layer 13 from the upper surface of the electrode member 12 and the substrate 11 can be prevented, and the phosphor layer can be arbitrarily adjusted by adjusting the size around the inlet. The size of the light emitting pixel of (13) can be adjusted arbitrarily.

As described above, the fluorescent display tube having the electrode member immersed and fixed to the substrate of the present invention can be used as an electrode by immersing and fixing a plurality of electrode members in a predetermined pattern on the substrate to make the structure of the substrate very simple. There is an advantage that can reduce the production cost and improve the productivity.

Claims (6)

In a fluorescent display tube having an electrode member immersed and fixed to a substrate, the substrate 11 immersed and fixed in a predetermined pattern such that the needle-shaped electrode member 12 and both ends of the plurality of electrode members 12 are exposed to the upper and lower surfaces thereof. And a phosphor layer 13 formed at an end of the electrode member exposed to the upper surface of the substrate 11, a grid 14 and a line cathode 15 provided on the phosphor layer 13, and the substrate. 11. A fluorescent display tube having an electrode member immersed and fixed to a substrate, characterized by comprising 11 and a front glass 17 sealed by a spacer. The electrode member immersed and fixed to the substrate according to claim 1, wherein an end portion of the electrode member 12 exposed to the upper surface of the substrate 11 is drawn in a predetermined length with respect to the upper surface of the substrate 11. Having a fluorescent display tube. 3. The fluorescent display tube according to claim 2, wherein the electrode member is immersed and fixed to the substrate, characterized in that it is formed so as to extend in a conical shape of the substrate around the end of the electrode member inserted with respect to the upper surface of the substrate (11). The fluorescent display of claim 1, further comprising a conductive layer 11a having a predetermined pattern between the phosphor layer 13 and an end of the electrode member 12. tube. 2. The substrate according to claim 1, wherein the arrangement of the electrode members 12 immersed and fixed to the substrate 11 is arranged in a delta shape and has red, blue, and green phosphor layers at each end. A fluorescent display tube having an immersion fixed electrode member. 6. The fluorescent display tube according to any one of claims 1 to 5, wherein the electrode member is made of a band-like or chip-shaped conductive metal.