JP2004214098A - Acoustic noise reduction method for plasma display panel and plasma display panel - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To reduce acoustic noise generated in a plasma display panel. <P>SOLUTION: This plasma display panel is provided with a front substrate 10a and a back substrate 20a oppositely disposed with a plurality of discharge cells positioned therebetween. Gas or liquid is sealed between a filter glass 30 provided in front of the plasma display panel and the front substrate 10a. The gas or the liquid is sealed at a pressure higher than a pressure of 1 atmosphere. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a plasma display panel, and more particularly to an acoustic noise reduction method and a plasma display panel that can reduce acoustic noise generated in the panel.
[0002]
[Prior art]
With the advent of the multimedia age, there is a demand for a display that is finer and larger than existing ones and that can express colors close to natural colors. In particular, for a large-sized display, the current CRT structure and the LCD structure have limitations, and a plasma display panel has been spotlighted as a next-generation display.
[0003]
The plasma display panel has a structure in which a front substrate 10 and a back substrate 20 as shown in FIG. A scan electrode 11 and a sustain electrode 12 parallel to each other are formed on the front substrate 10, and a dielectric layer 13 and a protective film 14 are stacked so as to cover them. On the other hand, an address electrode 21 is formed on the rear substrate 20 in a direction orthogonal to the scan electrode 11 and the sustain electrode 12, and a dielectric layer 22 is formed on the entire rear substrate including the address electrode 21. A partition 23 for dividing each discharge cell region is formed on the substrate, and a phosphor 24 is applied to the surfaces of the dielectric layer 22 and the partition 23.
[0004]
The operation of the plasma display panel described above will be briefly described as follows. First, when a drive voltage is supplied between the scan electrode 11 and the address electrode 21 in an arbitrary discharge cell, a write discharge occurs in a cell located between the scan electrode 11 and the address electrode 21. Thereafter, when a discharge voltage is supplied to the scan electrode 11 and the sustain electrode 12, the discharge cell in which the write discharge has occurred, that is, the sustain discharge occurs between the scan electrode 11 and the sustain electrode 12 in the selected discharge cell, and the cell is discharged. Is maintained for a certain period of time.
[0005]
In the cell where the sustain discharge occurred, an electric field was generated by the discharge between the electrodes, and a small amount of electrons in the discharge gas were accelerated.The accelerated electrons collided with the neutral particles in the gas to generate electrons and ions. Due to other collisions between the ionized electrons and the neutral particles, the neutral particles are more quickly ionized into electrons and ions, and the discharge gas becomes a plasma state and generates vacuum ultraviolet rays. The generated ultraviolet light excites the phosphor 24 to generate visible light, and when the generated visible light is radiated to the outside through the front substrate 10, the light emission of an arbitrary cell, that is, image display is recognized outside. can do. The applicant could not find any prior art documents related to the present invention by the time of filing. Therefore, prior art document information is not disclosed.
[0006]
[Problems to be solved by the invention]
In the plasma display panel shown in FIG. 4, after the structure of the front substrate 10 and the structure of the rear substrate 20 are separately manufactured, the front substrate 10 and the rear substrate 20 are bonded to each other by a sealing member made of, for example, low-melting glass. After the inside of the sealed plasma display panel is evacuated, a discharge gas is sealed therein. The pressure of the discharge gas is set to about 400 Torr (negative pressure with respect to the atmosphere).
[0007]
However, in the sealed panel, there is locally a poor adhesion portion where the protective film 14 formed on the front substrate 10 and the partition wall 23 formed on the rear substrate 20 are not in close contact. The space between 14 and the partition 23 will be empty. As described above, when a voltage is applied to each electrode of the plasma display panel, an attractive force acts between the sustain electrode 12 (or the scan electrode 11) and the address electrode 21 due to the stress of Maxwell due to the electric field. Therefore, at the inadequately adhered portion, when the suction force is generated, the protective film 14 and the partition wall 23 adhere to each other, and when the voltage application is turned off and the suction force is lost, the protective film 14 and the partition wall 23 are separated from each other. I do. The occurrence of such a phenomenon means that a standing wave is generated on the front substrate 10 and the rear substrate 20, and it becomes acoustic noise that causes the plasma display panel to vibrate.
[0008]
As described above, the conventional plasma display panel has a problem that acoustic noise is generated in the panel due to insufficient adhesion between the protective film 14 and the partition 23. In a conventional plasma display panel, the pressure of the discharge gas is set to about 400 Torr to suppress the entire panel at atmospheric pressure. However, such a method is not enough to reduce acoustic noise generated in the panel. Was enough.
[0009]
The present invention has been made to solve the above problems, and has as its object to provide an acoustic noise reduction method and a plasma display panel that can reduce acoustic noise generated in a panel.
[0010]
[Means for Solving the Problems]
The present invention relates to an acoustic noise reduction method for reducing acoustic noise generated in a panel in a plasma display panel having a front substrate and a rear substrate disposed to face each other with a plurality of discharge cells interposed therebetween, the plasma display panel comprising: A gas or a liquid is sealed between the filter glass provided on the front surface and covering the front substrate and the front substrate. By sealing gas or liquid between the filter glass and the front substrate, pressure can be applied to the front substrate. As the type of gas, for example, there is air.
In the method for reducing acoustic noise of a plasma display panel according to the present invention, a gas or a liquid is sealed between a plate provided on a back surface of the plasma display panel and covering the back substrate and the back substrate. By sealing gas or liquid between the plate and the back substrate, pressure can be applied to the back substrate.
In one embodiment of the method for reducing acoustic noise of a plasma display panel according to the present invention, the gas or liquid is sealed at a pressure higher than 1 atm.
Further, the plasma display panel of the present invention has a sealed space between the filter glass provided on the front surface of the plasma display panel and covering the front substrate and the front substrate, and the gas or gas sealed in the space. It has a liquid.
In one configuration example of the plasma display panel of the present invention, the liquid refraction of the liquid sealed in a space sealed between the filter glass provided on the front surface of the plasma display panel and covering the front substrate and the front substrate. The index is substantially the same as the light refractive index of the filter glass.
Further, the plasma display panel of the present invention has a sealed space between a plate provided on the back of the plasma display panel and covering the back substrate and the back substrate, and a gas or liquid sealed in this space. It has.
In one configuration example of the plasma display panel of the present invention, the gas or the liquid is sealed at a pressure higher than 1 atm.
[0011]
BEST MODE FOR CARRYING OUT THE INVENTION
[First Embodiment]
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. FIG. 1 is a sectional view showing the structure of the plasma display panel according to the first embodiment of the present invention. For example, a scan electrode 11 and a sustain electrode 12 that are parallel to each other are formed on a front substrate 10a made of glass, and a dielectric layer 13 and a protective film 14 are stacked so as to cover these. Each of the scan electrode 11 and the sustain electrode 12 includes a transparent electrode and a metal bus electrode having a smaller width than the transparent electrode. As a material of the protective film 14, magnesium oxide (MgO) is used.
[0012]
On the other hand, on a back substrate (back-plate) 20a made of, for example, glass, address electrodes 21 are formed so as to be orthogonal to the scan electrodes 11 and the sustain electrodes 12 of the front substrate 10a. A dielectric layer 22 is formed, partition walls (ribs) 23 are formed on the dielectric layer 22 for dividing each discharge cell region, and a phosphor 24 is applied to the surfaces of the dielectric layer 22 and the partition walls 23. Is done. Glass is used as a material of the dielectric layers 13 and 22 and the partition 23.
[0013]
After separately fabricating the structure of the front substrate 10a and the structure of the rear substrate 20a as described above, the front substrate 10a and the rear substrate 20a face each other with the protective film 14 of the front substrate 10a facing down, The front substrate 10a and the rear substrate 20a are bonded and sealed by a sealing member 25 made of glass. Then, after the inside of the sealed plasma display panel is evacuated, a discharge gas is sealed therein. The pressure of the discharge gas is set to, for example, about 400 Torr. Thus, the panel process for manufacturing the plasma display panel is completed.
[0014]
Next, in an assembly process of converting the completed plasma display panel into a product such as a module, an FPC (Flexible Printed Circuit) for wiring and electrodes of the plasma display panel are connected via an anisotropic conductive film, and then a front substrate is connected. The filter glass 30 is mounted on 10a. The filter glass 30 is for protecting the plasma display panel, shielding electromagnetic waves and infrared rays generated from the plasma display panel, and improving the color reproducibility and contrast ratio of a displayed image.
[0015]
In the present embodiment, when the filter glass 30 is attached, the filter glass is sealed by the sealing member 31 made of, for example, low-melting glass so that the filter glass 30 and the front substrate 10a face each other while maintaining a space 32 having a predetermined height. The glass 30 and the front substrate 10a are bonded and sealed at their peripheral edges. A space 32 formed by sealing the filter glass 30 and the front substrate 10a with the sealing member 31 has a pressure higher than the discharge gas in the plasma display panel, specifically, a pressure higher than 1 atm. Enclose air.
[0016]
In a conventional plasma display panel, the pressure of the discharge gas is set to a negative pressure with respect to air to apply pressure to the panel at atmospheric pressure, but this is insufficient for reducing acoustic noise. On the other hand, in the present embodiment, by setting the pressure in the space 32 to be higher than 1 atm, it is possible to apply a higher pressure to the front substrate 10a than in the related art, so that the protection film 14 formed on the front substrate 10a is formed. Vibration caused by insufficient adhesion between the substrate and the partition 23 formed on the back substrate 20a can be suppressed.
[0017]
Also, by enclosing air at a pressure higher than 1 atm in the space 32, a constant pressure can be applied to the front substrate 10a irrespective of the surrounding air pressure, so that good acoustic noise reduction not affected by the surrounding air pressure can be achieved. The effect can be obtained stably. In the conventional plasma display panel, the acoustic noise reduction effect is reduced at a place where the atmospheric pressure is low, such as at a high altitude, but in the plasma display panel of the present embodiment, the acoustic noise reduction effect does not change.
[0018]
[Second embodiment]
Next, a second embodiment of the present invention will be described. FIG. 2 is a sectional view showing the structure of a plasma display panel according to a second embodiment of the present invention, and the same components as those in FIG. 1 are denoted by the same reference numerals. In the above-described assembly process, the filter glass 30 is provided on the front surface of the plasma display panel as described in the first embodiment, and the panel is attached to the metal plate 40 serving as a base supporting the plasma display panel.
[0019]
In the present embodiment, when attaching the plasma display panel to the metal plate 40, the backing substrate 20a is sealed by the sealing member 41 so that the rear substrate 20a and the metal plate 40 face each other while maintaining a space 42 having a predetermined height. And the metal plate 40 are adhered and sealed at their peripheral edges. The space 42 is filled with air at a pressure higher than the discharge gas in the plasma display panel, specifically, at a pressure higher than 1 atm. When the rear substrate 20a is made of glass, the sealing member 41 made of low-melting glass can be sealed to the metal plate 40 by forming an oxide film on the surface of the metal plate 40 in advance.
[0020]
By setting the pressure in the space 42 to be higher than 1 atm, it is possible to suppress the vibration generated due to insufficient adhesion between the protective film 14 and the partition 23 as in the first embodiment. In addition, it is possible to stably obtain a good acoustic noise reduction effect that is not affected by the surrounding atmospheric pressure.
[0021]
[Third Embodiment]
Next, a third embodiment of the present invention will be described. FIG. 3 is a sectional view showing the structure of a plasma display panel according to a third embodiment of the present invention, and the same components as those in FIGS. 1 and 2 are denoted by the same reference numerals. This embodiment is a combination of the first embodiment and the second embodiment, and a space 32 formed by sealing the filter glass 30 and the front substrate 10a with the sealing member 31. The inside of the space 42 formed by sealing the back substrate 20a and the metal plate 40 with the sealing member 41 was filled with air having a pressure higher than 1 atm. Things. Thereby, an acoustic noise reduction effect can be obtained more effectively.
[0022]
[Fourth Embodiment]
In the first to third embodiments, air is sealed in the space 32 and the space 42, but liquid may be sealed instead of gas. At this time, a liquid having a higher pressure than the discharge gas in the plasma display panel, specifically, a liquid having a pressure higher than 1 atm is sealed in the spaces 32 and 42. In particular, when a liquid is sealed in the space 32, among the light from the plasma display panel, R (red), G (green), and B (blue) phosphor light-emitting components are transmitted, and other light-emitting components (e.g., neon gas light emission). If a liquid having a spectral transmission characteristic such as suppressing the color is used, the color purity can be increased and the color reproducibility of the displayed image can be improved without giving the filter glass 30 a function of improving the color reproducibility. The cost of the glass 30 can be reduced. The light refractive index of the liquid sealed in the space 32 is substantially the same as the light refractive index of the filter glass 30.
[0023]
【The invention's effect】
According to the present invention, pressure can be applied to the front substrate by sealing gas or liquid between the filter substrate and the front substrate provided on the front surface of the plasma display panel and covering the front substrate. Vibration generated due to insufficient adhesion between the formed protective film and the partition formed on the rear substrate can be suppressed, and acoustic noise generated on the plasma display panel can be reduced.
[0024]
In addition, pressure can be applied to the rear substrate by sealing gas or liquid between the plate provided on the rear surface of the plasma display panel and covering the rear substrate, so that a pressure can be applied to the rear substrate. Vibration generated due to insufficient adhesion with the partition formed on the rear substrate can be suppressed, and acoustic noise generated in the plasma display panel can be reduced.
[0025]
Further, by enclosing a gas or a liquid at a pressure higher than 1 atm, a high pressure can be applied to the front substrate or the back substrate, and a good acoustic noise reduction effect which is not affected by the surrounding air pressure can be stably obtained. it can.
[Brief description of the drawings]
FIG. 1 is a sectional view showing a structure of a plasma display panel according to a first embodiment of the present invention.
FIG. 2 is a cross-sectional view illustrating a structure of a plasma display panel according to a second embodiment of the present invention.
FIG. 3 is a sectional view showing a structure of a plasma display panel according to a third embodiment of the present invention.
FIG. 4 is an exploded perspective view showing a structure of a conventional plasma display panel.
[Explanation of symbols]
10a front substrate, 11 scan electrode, 12 sustain electrode, 13 dielectric layer, 14 protective film, 20a rear substrate, 21 address electrode, 22 dielectric layer, 23 partition, 24 phosphor , 25 sealing member, 30 filter glass, 31 sealing member, 32 space, 40 metal plate, 41 sealing member, 42 space.

Claims (7)

An acoustic noise reduction method for reducing acoustic noise generated in a panel in a plasma display panel having a front substrate and a rear substrate disposed to face each other with a plurality of discharge cells interposed therebetween,
A method of reducing acoustic noise in a plasma display panel, comprising: filling a gas or a liquid between a filter glass provided on a front surface of a plasma display panel and covering the front substrate and the front substrate. An acoustic noise reduction method for reducing acoustic noise generated in a panel in a plasma display panel having a front substrate and a rear substrate disposed to face each other with a plurality of discharge cells interposed therebetween,
A method for reducing acoustic noise in a plasma display panel, comprising filling a gas or a liquid between a plate provided on a rear surface of a plasma display panel and covering the rear substrate and the rear substrate. The acoustic noise reduction method for a plasma display panel according to claim 1 or 2,
A method for reducing acoustic noise of a plasma display panel, wherein the gas or liquid is sealed at a pressure higher than 1 atm. In a plasma display panel having a front substrate and a rear substrate that are arranged to face each other with a plurality of discharge cells therebetween,
A plasma display having a sealed space between a filter glass provided on a front surface of a plasma display panel and covering the front substrate and the front substrate, and having a gas or liquid sealed in the space. panel. The plasma display panel according to claim 4,
The light refractive index of the liquid sealed in a space sealed between the filter glass provided on the front surface of the plasma display panel and covering the front substrate and the front substrate is substantially the same as the light refractive index of the filter glass. A plasma display panel, comprising: In a plasma display panel having a front substrate and a rear substrate that are arranged to face each other with a plurality of discharge cells therebetween,
A plasma display panel having a sealed space between a plate provided on a back surface of a plasma display panel and covering the back substrate and the back substrate, and having a gas or liquid sealed in the space. . The plasma display panel according to claim 4 or 6,
The plasma display panel, wherein the gas or liquid is sealed at a pressure higher than 1 atm.

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