KR940004295B1 - Making method and device of display panel - Google Patents

Abstract

The unit improves the brightness of display unit, and reduces the volume of display unit. The manufacturing method includes a stripe shape forming process which forms an anode electrode on a plate and a lumininant layer on the anode electrode, a 1st isolated layer forming process which forms an opposite electrode on a back plate and a line cathode electrode, a 2nd isolated layer forming process which forms a pixel, and a vacuum tube between the face plate and the back plate. An isolated layer has a thickness of 100 m with insulation paste. The line cathode electrode(26) perpendicularly lies to an isolated layer(25). The vacuum tube contains 1.0 x 10 Torr vacuum degree.

Description

Method of manufacturing flat panel display and its apparatus

1 is a side cross-sectional view of a flat panel display according to the present invention.

2 is a side cross-sectional view of a conventional flat panel display.

3 is an exploded perspective view showing the display of FIG. 2 partially cut away.

* Explanation of symbols for main parts of the drawings

20: face plate 21: anode electrode

22 fluorescent layer 23 back plate

24 back electrode 25 partition wall

26: line cathode electrode

The present invention relates to a method for manufacturing a flat panel display and an apparatus thereof, and more particularly, to a method for manufacturing a display and a device which can be used for a wall hanging by reducing the overall volume and to increase brightness.

Many studies have been attempted because flat panel displays have an advantage of being thinner than general display devices.

2 and 3 show a conventional display device, in which the entire device is denoted by reference numeral 100.

On the rear plate 1, the rear electrodes 2 are arranged in parallel, and a bias voltage Vbe is applied.

Above the cathode 4 of the wire formation is a lattice-shaped acceleration electrode 5. In addition, there is a back electrode 2 and a face plate structure 12 at the top thereof. The structure 12 includes a face plate 11, a phosphor layer coated with a phosphor layer 10 coated with aluminum, and an anode electrode ( 9), and the face plate 11 forms an image to show an image emitting from the front surface by electrons colliding with the fluorescent layer 10.

And the address means 13 is located on the structure 12 and the grid-shaped acceleration electrode 5, the address means 13, the first and second address electrodes disposed with the substrate 7 in between (6) (8).

The first address electrode 6 extends in one direction on the rear surface of the substrate 7 having a plurality of holes, and the second address electrode 8 faces the first address electrode 6. It is arranged in a posture.

In the electron clouds 3 and 3 ′ shown by dotted lines, the speed and the direction are controlled by the respective bias voltages Vbe (Vk) and Vse applied to the electrodes.

In more detail, when voltage Vk is applied to the wire-shaped cathode 4 during the blanking period in which the screen is not displayed, electrons are emitted from the cathode 4 to form the electron clouds 3 and 3 '. will be.

The amount of electrons that have an absolute influence on the brightness of an image is difficult to obtain a sufficient amount of electrons because the thermal electron emission period is limited to the blanking period, and thus high luminance is difficult to realize.

Furthermore, because a small amount of electrons are emitted from the wire-shaped cathode due to the electric field pass during the effective signal driving but not during the blanking period, these electrons cause non-uniformity of line-shaped luminance in the displayed image.

In addition, the display device having the above-described structure has a structure including the first and second address electrodes, so that the thickness of the mank becomes thick, which is not suitable for wall-mounting.

The present invention has been invented to solve the problems of the prior art as described above, and an object of the present invention is to produce a flat panel display that can obtain a brightness, and to realize a wall-mounted type by reducing the thickness, and the apparatus To provide.

In order to realize this, the present invention forms an anode electrode on one side of the face plate and applies the fluorescent layer in the same shape thereon, and forms a back electrode on the back plate and a partition wall thereon. It is provided, and the flat panel display apparatus which has a line cathode electrode arrange | positioned orthogonally on this partition is provided.

1 is a side cross-sectional view of a flat panel display device according to the present invention, in which a plurality of ITO anode electrodes 21 are formed in a stripe shape on one side of the face plate 20, and the surface of the anode electrode 21 is shown in FIG. The fluorescent layer 22 for exciting the low speed electron beam is applied.

A back electrode 24 for improving contrast is formed on the back plate 23 which is disposed to face the face plate 20 at regular intervals, and the anode electrode 21 is formed on the back electrode 24. The partitions 25 are arranged in the same direction as the ones, and the partitions 25 are provided between the anode electrodes 21.

The line cathode electrode 26 is orthogonally arranged on the partition wall 25 to form a plurality of pixels.

In the flat panel display device according to the present invention, the transparent conductive film electrode is formed over the entire surface of one side of the face plate 20, and then the anode is formed using the transparent conductive film electrode as a stripe in a usual manner. 21).

On the anode 21, red, blue, and green phosphors are plotted in a stripe shape by the slurry method and the printing method to form the fluorescent lamp 22.

Next, the back electrode 24 is formed on the back planar 23, and the partition 25 is formed on the back electrode 24 in the same direction as the anode electrode 21. Next, as shown in FIG.

At this time, the partition wall 25 is made to have a thickness of about 100 μm using an insulator thick film paste, and then the line cathode electrode 26 is disposed on the partition wall 25 in a direction perpendicular to the partition wall 25 to be fixed. Then, the barrier ribs are printed on the line cathode electrode 26 to a thickness of 100 탆 again to form pixels.

The face plate 20 and the back plate 23 thus produced are plastically sealed with low melting glass powder via the side glass, and the inside of the tube is evacuated in a conventional manner to complete the panel.

In this exhausting step, the activation process of the ly cathode electrode 26 is performed, the exhaust pipe is cut off, and then getter flashed to maintain a vacuum degree of about 1.0 x 10 Torr.

The flat panel display device of the present invention manufactured as described above displays a face plate image by scanning a constant voltage on the line cathode electrode and applying a data signal voltage to the anode electrode.

The display device of the present invention thus constructed does not employ the address means shown in Figs. 2 and 3, so that the overall volume can be reduced, and the wall-mounted device can be realized. There is an advantage that high brightness can be obtained at low voltage.

Claims (2)

An anode electrode is formed on the face plate in a stripe shape, a fluorescent layer is applied on the anode electrode in a stripe shape, a back electrode is formed on a back plate, and a primary partition is formed on the back electrode. A flat panel display is fabricated by orthogonally fixing the line cathode electrode thereon, and forming secondary pixels on the line cathode electrode to form pixels, and forming the face plate and the back plate in a vacuum tube. Way. An anode electrode is formed on one side of the face plate, a fluorescent layer is formed on the back plate, a back electrode is formed on the back plate, and a partition wall is formed in a stripe shape, and a line cathode electrode is disposed orthogonally on the partition wall. Flat panel display device.