KR20070033108A - Field emission display - Google Patents

Abstract

A field emission display is provided to activate entirely a getter irrespective of a fixed state of a heating unit by forming closely the getter within a limited area. A field emission display includes a panel box and a getter(70). The panel box includes a sealed vacuum space and an effective screen part for displaying images. The getter is mounted in a non-effective screen part of the panel box. A part of the getter is formed with a shape of parallel line in order to absorb gas particles. The getter is formed closely to be activated at a fixed position of an activation device thereof. The getter is formed with a spiral shape.

Description

Field emission display device

1 is a planar cutaway view showing a field emission display device according to the prior art;

2 and 3 are diagrams illustrating a first embodiment of the field emission display device according to the present invention;

2 is a partially cutaway perspective view of the field emission display device;

3 is a plane cutaway view of a field emission display device;

4 is a planar cutaway view showing a second embodiment of the field emission display device according to the present invention.

<Explanation of symbols for the main parts of the drawings>

52: front substrate 60: frame

62: back substrate 70: getter

72: getter grip 82: effective screen portion

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a field emission display device, and more particularly, to a field emission display device in which a getter is densely installed in a limited space so that the entire getter is activated even when the device for activating the getter is fixed and operated.

In general, the field emission display device is a flat panel display that displays an image by electrons emitted from a plurality of emitters by an electric field excite phosphors and emit light.

1 is a planar cutaway view showing a field emission display device according to the prior art.

As shown in the drawing, the field emission display device includes a back substrate 12 having a plurality of emitters 8 and cathode electrodes, and a phosphor coated to implement pixels and coated with an anode. the substrate 2 is provided between the front substrate 2 and the front substrate 2 and the rear substrate 12 so that the space between the substrates 2 and 12 is sealed. It consists of a frame 10 for supporting the edge of 12) spaced apart.

The space enclosed by the substrates 2 and 12 and the frame 10 should be fabricated and maintained with a vacuum of 10 ⁻⁶ Torr or less, otherwise the mean free path of electrons will be reduced, and gas particles may cause It is adsorbed to the emitter to prevent the emission of current or to damage the emitter, the gas particles are ionized to change the trajectory of the emitted electrons, thereby preventing the image implementation of the field emission display device and shorten the life.

After the frit 18 is applied to a portion where the frame 10, the front substrate 2, and the rear substrate 12 contact each other in order to fabricate the vacuum, the vacuum chamber is in a vacuum state of 10 ^-6 Torr or less. Direct sealing or vacuum align sealing methods which are heated and sealed at are used in addition to, or in addition to or by vacuum through an exhaust port (not shown) provided in the back substrate 12 alone. The end cap sealing method is used, which is then evacuated with air and then sealed with the exhaust port.

In addition, in order to maintain a vacuum state, a getter 20 which absorbs gas particles is installed in the sealed space and then activated in the sealed state.

The getter 20 should be installed to increase the surface area to facilitate gas particle absorption, thus forming the getter 20 longer and supporting both ends of the getter 20 with a getter grip 22.

In order to activate the getter 20, any technical means that can be employed by those skilled in the art may be used, such as a resistance heating method, a high frequency (RF) induction heating method, a laser heating method, and the like.

Among these methods, the resistance heating method has a disadvantage in that a process is complicated because an electrode connected to the getter 20 is installed through the frit 18 and power is applied from the outside. Research is underway to improve the heating method or the laser heating method.

However, in the field emission display device according to the related art, when the getter 20 is activated by using a heating device implementing the high frequency induction heating method or the laser heating method, the shape of the getter 20 is long. Therefore, it is necessary to scan while changing the position of the heating device 40 to implement the heating method, there is a problem that complicated equipment and processes are required to change the position of the heating device.

The present invention has been made to solve the above problems, the object to provide a field emission display device comprising a getter is densely formed in a limited area so that the entire getter is activated even if the heating device for activating the getter is fixed. There is this.

According to an aspect of the present invention, there is provided a field emission display device comprising: a panel box having an internal space sealed by a vacuum and displaying an image on an effective screen portion; It is embedded in the ineffective screen portion of the panel box, so that at least a portion of the path is formed in a linear shape opposite to each other so as to be densely installed, characterized in that it comprises a getter for adsorbing gas particles.

In addition, the getter is characterized in that formed in a spiral shape.

In addition, the getter is characterized in that it is formed in a zigzag shape.

In addition, the getter is characterized in that it is densely installed so as to activate the getter while the position of the activating means of the getter is fixed.

Hereinafter, exemplary embodiments of the present invention will be described with reference to the accompanying drawings.

2 and 3 show a first embodiment of the field emission display device according to the present invention, FIG. 2 is a partially cutaway perspective view of the field emission display device, and FIG. 3 is a plan view of the field emission display device.

2 and 3, the field emission display device according to the first embodiment of the present invention comprises a panel box having an interior space sealed by a vacuum, the image is implemented on the effective screen portion 82; It is built in the ineffective screen portion of the panel box, so that at least a portion of the path is formed in a linear shape opposite to each other so as to be densely installed, it is composed of a getter 70 for adsorbing gas particles.

The panel box is formed in a rectangular flat plate shape, the front and rear substrates 52, 62 are installed so as to be spaced apart from each other; The space between the front substrate 52 and the rear substrate 62 is formed in a rectangular frame along the edges of the substrates 52 and 62 so as to seal the vacuum with a space, so that the substrates 52 and 62 are spaced apart from each other. It is composed of a frame 60 to be supported.

The space enclosed by the substrates 52 and 62 and the frame 60 is partitioned into the effective screen portion 82 and the non-effective screen portion which is a portion other than the effective screen portion 82. The screen portion 82 is a portion in which electrons are emitted from a plurality of emitters 80 provided on the rear substrate 62 and the emitted electrons emit light by exciting phosphors provided on the front substrate 52. Corresponds to a part provided spaced apart inward from the rectangular inner surface of the frame.

The getter 70 is formed to be densely formed in a spiral shape wound from the inside to the outside, and one end of the getter 70 positioned at the outside thereof is supported by the getter grip 72 fixed to the front substrate 52.

In addition, the getter 70 is installed near the inner surface of the frame 60 corresponding to the ineffective screen part so as not to cover the emitters 80 and the phosphor, and four of the frame 60 are provided. Four are arranged in the vicinity of the inner side.

In addition, the getter 70 is preferably configured as a non-evaporable getter so as not to interfere with image realization on the effective screen, but is not limited thereto. It is also possible to have a suitable configuration for blocking the getter particles.

The space enclosed by the substrates 52 and 56 and the frame 60 should be manufactured with a vacuum of 10 ⁻⁶ Torr or less and maintained therein.

In the vacuum chamber in a vacuum state of 10 ^-6 Torr or less after the frit 68 is applied to a portion where the frame 60, the upper substrate 52 and the lower substrate 62 contact to produce a vacuum It is preferable to perform a direct sealing or vacuum align sealing method that is heated and sealed at the.

The direct sealing method transfers and seals the substrates 52 and 62 aligned in an air environment into a vacuum chamber, and the vacuum alignment sealing method aligns the substrates 52 and 62 in a vacuum chamber. And suture.

After the direct sealing method or the vacuum alignment sealing method is implemented, the end cap sealing (end) sealing the exhaust hole after exhausting the gas particles generated during the process through the exhaust hole formed in the back substrate 62 It is advisable to perform additional cap sealing methods.

In order to activate the getter 70 to maintain a vacuum state, it is preferable that a high frequency (RF) induction heating method or a laser heating method is used to activate the getter 20.

The high frequency induction heating method or the laser heating method scans and activates the getter 70 by using a heating apparatus for implementing these methods, and the getter 20 is formed in a confined space so that the heating is performed. The device can be activated by heating the getter 70 while keeping its position in place 90 or moving a very short distance.

The operation of the first embodiment of the field emission display device according to the present invention configured as described above is as follows.

When the getter 70 is scanned with the heating device, the getter 70 is heated and enters an activation step. In the activating step, the getter 70 continues in the panel box even if the heating device is removed. Residual gas particles are adsorbed to maintain a vacuum inside the panel box.

Since the getter 70 is densely installed in a limited space, all parts of the getter 70 are included in a region where the heating apparatus is fixed and scanned, and thus the entire getter 70 with the heating apparatus fixed. Can be activated.

On the other hand, even if all parts of the getter 70 are not directly scanned and heated, the getter 70 is installed in a confined space in a limited space. It is possible to activate the entire getter 70 without moving the heating apparatus or only slight movement.

4 is a planar cutaway view showing a second embodiment of the field emission display device according to the present invention.

As shown in the drawing, the field emission display device according to the second embodiment of the present invention has the same structure as the field emission display device of the first embodiment except for a getter and a getter grip.

That is, the getter 120 is installed in an ineffective screen portion among the spaces sealed by the front and rear substrates 102 and 112 and the frame 110, and is formed to have a zigzag shape between both ends, so that both ends are front. It is supported by a getter grip 122 secured to the substrate 102.

In the field emission display device according to the present invention configured and operated as described above, the getter 20 is densely installed to activate the getter while fixing a heating device for implementing a high frequency induction heating method or a laser heating method. Therefore, there is no need for a separate equipment for moving the heating device, and the manufacturing process of the field emission display device is simplified.

Claims (5)

A panel box provided with a vacuum-sealed inner space and configured to display an image on the effective screen portion; And a getter embedded in the ineffective screen portion of the panel box, the getters having at least a portion of the panel box arranged in a line shape in parallel with each other to adsorb gas particles. The method according to claim 1, And the getter is densely installed so as to activate the getter while the position of the getter's activator is fixed. The method according to claim 1 or 2, And the getter is formed in a spiral shape. The method according to claim 1 or 2, And the getter has a zigzag shape. The method according to claim 4, The activator of the getter is a field emission display device, characterized in that for implementing a high frequency induction heating method or a laser heating method.

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