JPH05121005A - Cooling device for plasma display panel - Google Patents

Abstract

PURPOSE:To freely and effectively cool the plasma display panel by having a container which forms an air-tight container between the plasma display panel and a refrigerant which flows in the air-tight container or flows out therefrom or sealed therein. CONSTITUTION:An air-tight container is formed between the display surfaces of a plasma display panel 1 made up by sealing a glass substrates with a separation necessary for discharge. When the plasma display panel 1 is made to operate, the temperature of the panel 1 is increased mainly by Joule's heat. Thereupon, a cooling water 6 is warmed up so that a convection current is generated inside the air-tight container formed between the display surfaces of the panel 1. The heat of the panel is thereby moved to a metal plate 4 through the cooling water 6 and the heat is discharged to the open air from a heat sink 5 with the result that the panel is cooled. It is thereby possible to control the temperature rise of the display surface by approx. 20 deg.C. Moreover, the cooling water is colored black, so that the reflection of external light is controlled with high contrast.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a plasma display panel cooling device, and more particularly to a plasma display panel cooling device integrated with a plasma display panel and capable of improving the contrast of the plasma display panel.

[0002]

2. Description of the Related Art A conventional plasma display panel cooling device has not been used at all, or an air cooling method in which air is directly applied to the panel by a cooling fan is used.

[0003]

When the plasma display panel is colored, the luminous efficiency is low at the present stage, and most of the energy consumed by the panel becomes heat, so that the plasma display is intended to obtain necessary and sufficient brightness. The panel becomes hot. Therefore, a cooling device for the plasma display panel is required.

No cooling device was used in the conventional plasma display panel, or as shown in FIG. 6, the plasma display panel 1, the housing 11, and the
Most of them were integrated with the cooling fan 10 and were mainly intended to cool a drive circuit (not shown) of the plasma display panel.

Therefore, there is a problem that the substrate on the display surface side cannot be cooled because the cooling is performed mainly from the back surface side of the plasma display panel. This is a particular problem in the case of a type in which most of the display discharge such as the AC surface discharge reflection type plasma display panel is obtained on the display surface side substrate.

[0006]

A cooling device for a plasma display panel according to the present invention is a container which is directly attached to the plasma display panel with an appropriate interval and forms an airtight container with the plasma display panel, and the container. It has a refrigerant which flows in and out or is enclosed in an airtight container.

Further, another cooling device for a plasma display panel according to the present invention has a front plate directly attached to the plasma display panel with an appropriate interval, and a fan for ventilating the interval. ..

[0008]

In the cooling device for a plasma display panel of the present invention, it is possible to freely cool the display surface side or the back surface side of the panel by using a material having visible light transparency for the container and the coolant forming the airtight container. Become.

[0009]

The present invention will be described below with reference to the drawings. Figure 1
1 is a vertical sectional view of a first embodiment of a cooling device for a plasma display panel according to the present invention.

A plasma display panel 1 in which two glass substrates on which electrodes are formed is sealed with a space required for discharge kept sealed, and a dischargeable rare gas is sealed inside the plasma display panel 1. In order to form an airtight container with the display surface, a sealing material 2 also serving as a spacer is sandwiched around and combined with a front plate 3 having sufficient visible light transmission. In the upper part of the plasma display panel 1,
The metal plate 4 is arranged and fixed on the front plate 3 to the most extent where the display of the plasma display panel 1 is not penetrated by penetrating between the front plate 3 and the sealing material 2. A heat sink 5 is arranged on a portion of the metal plate 4 which is formed between the front plate 3 and the display surface of the plasma display panel 1 and which is exposed to the outside of the airtight container. A cooling liquid 6 colored with a black pigment so as to have a visible light transmittance of about 50% is enclosed in an airtight container formed between the front plate 3 and the display surface of the plasma display panel 1.

Here, the plasma display panel has A
C-side discharge reflection type color type, seal material 2 is 10 mm thick rubber packing material, front plate 3 is 2 t
A soda glass plate, a metal plate 4 and a heat sink 5 integrally formed of aluminum, and a coolant 6 was ethylene glycol.

When the plasma display panel with this cooling device is operated, the temperature of the panel rises mainly due to Joule heat. Then, the cooling liquid 6 is heated and convection occurs inside the airtight container formed between the front plate 3 and the display surface of the plasma display panel 1. As a result, the heat of the plasma display panel 1 is transferred to the metal plate 4 via the cooling liquid 6, and the heat is radiated from the heat sink 5 to cool the panel. The panel panel surface temperature of the plasma display without the cooling device reached a maximum of around 60 ° C, whereas the display surface temperature of the plasma display panel with the cooling device of the present example was suppressed to about 40 ° C at the maximum. Was given.

The contrast of the plasma display panel having a bare display surface was about 15: 1 at an ambient luminance of 100 lx, whereas the plasma display panel with a cooling device of the present invention was colored black. As a result, reflection of external light was suppressed, and a high contrast of about 30: 1 was obtained.

FIG. 2 shows that an airtight container is formed between the plasma display panel 1 and the display surface of the present invention.
A sealing material 2 which also serves as a spacer is sandwiched around the front plate 3 and the plasma display panel 1 which have sufficient visible light transparency. The convection tube 7 connects the upper part and the lower part inside the airtight container formed between the front plate 3 and the display surface of the plasma display panel 1 to form the convection tube 7
The heat sink 5 is formed midway. The cooling liquid 6 colored with a black pigment so that the transmittance of visible light is about 50% is provided inside the airtight container and the convection tube 7 formed between the front plate 3 and the display surface of the plasma display panel 1. Encapsulate.

Here, the plasma display panel has A
C-side discharge reflection type color type, seal material 2 is 10 mm thick rubber packing material, front plate 3 is 2 t
A soda glass plate was used, an aluminum pipe having an inner diameter of φ6 was used for the convection tube 7, an aluminum plate was used for the heat sink 5, and ethylene glycol was used for the cooling liquid 6.

When the plasma display panel with the cooling device is operated, the temperature of the panel rises mainly due to Joule heat. Then, the cooling liquid 6 is heated and convection occurs inside the airtight container and the convection tube formed between the front plate 3 and the display surface of the plasma display panel 1. As a result, the heat of the plasma display panel 1 is transferred to the cooling liquid 6, and the convection cools the convection tube to heat it.
While the maximum surface temperature of the plasma display panel without a cooling device was around 60 ° C., the display surface temperature of the plasma display panel with the cooling device of this example was suppressed to about 40 ° C. at the maximum. ..

Further, the contrast of the plasma display panel with the exposed display surface was about 15: 1 at an ambient illuminance of 10 lx, whereas in the plasma display panel with the cooling device of the present invention, the cooling liquid is colored black. Therefore, reflection of external light was suppressed, and a high contrast of about 30: 1 was obtained.

FIG. 3 is a vertical sectional view of a cooling device for a plasma display panel according to a third embodiment of the present invention.

Similar to the first embodiment, a front plate having a sufficient visible light transmittance is provided by sandwiching a sealing material 2 also serving as a spacer around the periphery so as to form an airtight container with the display surface of the plasma display panel 1. 3 and the plasma display panel 1 are combined. The convection tube 7 connects the upper part and the lower part inside the airtight container formed between the front plate 3 and the display surface of the plasma display panel 1, and the heat sink 5 and the forced circulation fan are provided in the middle of the convection tube 7. 8 is formed.
The forced circulation fan 8 includes a temperature detection device such as a thermostat that detects the temperature of the plasma display panel 1 and an external power supply (which may be shared with the plasma display panel drive circuit) that drives the fan (not shown). ). The cooling liquid 6 colored with a black pigment so that the visible light transmittance is about 50% is provided inside the airtight container and the convection tube 7 formed between the front plate 3 and the display surface of the plasma display panel 1. Encapsulate.

Here, the plasma display panel has A
C-side discharge reflection type color type, seal material 2 is 10 mm thick rubber packing material, front plate 3 is 2 t
A soda glass plate was used, an aluminum pipe having an inner diameter of φ6 was used for the convection tube 7, an aluminum plate was used for the heat sink 5, and ethylene glycol was used for the cooling liquid 6.

When the plasma display panel with the cooling device is operated, the temperature of the panel rises mainly due to Joule heat. When the set temperature of the thermostat is exceeded, the forced circulation fan 8 operates and the cooling liquid 6 is formed between the front plate 3 and the display surface of the plasma display panel 1 inside the airtight container and inside the convection tube. The heat of the plasma display panel 1 is radiated from the heat sink 5 to the outside air, thereby cooling the panel. The maximum panel surface temperature of the plasma display without a cooling device was around 60 ° C., whereas the display surface temperature of the plasma display panel with the cooling device of the present example was suppressed to about 40 ° C. at the maximum. It was

Further, the contrast of the panel of the plasma display having a bare display surface was about 15: 1 at an ambient luminance of 100 lx, whereas in the plasma display panel with a cooling device of the present invention, the front plate 3 was colored black. Therefore, the reflection of external light is suppressed, and the ratio is 30: 1.
A high front and rear contrast was obtained.

In the above three embodiments, the front plate 3
The same effect can be obtained even if the cooling liquid 6 is transparent so that the visible light transmittance is about 50%.

Although the heat sink is naturally air-cooled in the above embodiments, it goes without saying that the heat sink may be cooled by forced air cooling or liquid cooling.

FIG. 4 is a vertical cross-sectional view of Embodiment 4 of the cooling device for the plasma display panel according to the present invention.

The two glass substrates having the electrodes formed thereon are sealed while maintaining the feeling necessary for discharging, and a rare gas capable of discharging is sealed inside the plasma display panel 1. A front panel 3 and a plasma display, which are colored with a spacer 2 around them so that the visible light transmittance is about 50%, so that air can freely flow in and out while maintaining an appropriate distance from the display surface. Combine with panel 1. A blower pipe 9 is connected to the outside of the plasma display panel 1 so as to blow outside air into the space between the plasma display panel 1 and the front plate 3 through a spacer below the plasma display panel 1, and a blower fan 10 is provided at the opposite end of the blower pipe 9. Attach. The blower fan 10 includes a temperature detection device such as a thermostat that detects the temperature of the plasma display panel 1 and an external power supply (may be shared with the plasma display panel drive circuit) that drives the fan (not shown). ..

Here, the plasma display panel has A
A C surface discharge reflection type color type, a spacer 2 made of rubber having a thickness of 10 mm, and a front plate 3 made of an acrylic plate were used.

When the plasma display panel with this cooling device is operated, the temperature of the panel rises mainly due to Joule heat. When the set temperature of the thermostat is exceeded, the blower fan 10 operates and the outside air passes through the blower pipe 9,
It is fed into the space between the plasma display panel 1 and the front plate 3. As a result, the heat of the plasma display panel 1 is released to the outside air to cool the panel.
While the maximum panel surface temperature of the plasma display without a cooling device was around 60 ° C, the display surface temperature of the plasma display panel with the cooling device of the present example was suppressed to approximately 35 ° C at the maximum. Was given.

Further, while the contrast of the panel of the plasma display having a bare display surface was about 15: 1 at an ambient illuminance of 100 lx, in the plasma display panel with a cooling device of the present invention, the front plate 3 is colored black. Therefore, reflection of external light was suppressed, and a high contrast of about 30: 1 was obtained.

FIG. 5 is a vertical sectional view of a cooling device for a plasma display panel according to a fifth embodiment of the present invention.

The plasma display panel 1 is combined with a housing 11 in which a front plate 3 is integrated so as to maintain an appropriate distance from the display surface of the plasma display panel 1. Here, the front plate 3 is colored so that the visible light transmittance is about 50%. A gap is provided in the lower portion between the plasma display panel 1 and the housing 11, and the housing 1
The blower fan 10 arranged at the rear part of the housing 1
The outside air of No. 1 can be sent into the space between the plasma display panel 1 and the front plate 3. A slit is formed in the rear portion of the blower fan 10 of the housing 11 so that outside air can be taken in. The blower fan 10 includes a temperature detection device such as a thermostat that detects the temperature of the plasma display panel 1 and an external power supply (may be shared with the plasma display panel drive circuit) that drives the fan (not shown). ..

Here, the plasma display panel has A
The C-type discharge reflection type color type and the front plate 3 an acrylic plate were used.

When the plasma display panel with the cooling device is operated, the temperature of the panel rises mainly due to Joule heat. When the set temperature of the thermostat is exceeded, the blower fan 10 operates and the outside air passes through the housing 11,
It is fed into the space between the plasma display panel 1 and the front plate 3. As a result, the heat of the plasma display panel 1 is released to the outside air to cool the panel.
While the maximum panel surface temperature of the plasma display without the cooling device was around 60 ° C., the display surface temperature of the plasma display panel with the cooling device of the present example was suppressed to about 35 ° C. at the maximum. It was

In contrast, the contrast of the plasma display panel with the exposed display surface was about 15: 1 at an ambient illuminance of 100 lx, whereas the front panel 3 was colored black in the plasma display panel with a cooling device of the present invention. Therefore, the reflection of external light is suppressed, and the ratio is 30: 1.
A high front and rear contrast was obtained.

Further, the fifth embodiment is characterized in that it is possible to simultaneously cool the plasma display panel drive circuit.

[0036]

As described above, the cooling device for a plasma display panel according to the present invention is directly attached to the plasma display panel with an appropriate interval, and forms a hermetic container with the plasma display panel. A structure having a refrigerant that flows in or out or is enclosed in the airtight container, or a structure having a front plate directly attached to the plasma display panel with an appropriate interval and a fan for ventilating the interval. Therefore, by using a container that forms an airtight container and a cooling medium, or a light-transmissive material for the front plate, it is possible to cool the plasma display panel freely and effectively on both the display side and the back side. Became.

Before being directly attached to a part of a container forming an airtight container with the plasma display panel, a refrigerant flowing in or out of the airtight container, or a plasma display panel with an appropriate interval. By coloring the face plate, it was possible to obtain a plasma display panel with extremely good contrast.

[Brief description of drawings]

FIG. 1 is a vertical sectional view of a first embodiment of the present invention.

FIG. 2 is a vertical sectional view of a second embodiment of the present invention.

FIG. 3 is a vertical sectional view of a third embodiment of the present invention.

FIG. 4 is a vertical cross-sectional view of Embodiment 4 of the present invention.

FIG. 5 is a vertical sectional view of a fifth embodiment of the present invention.

FIG. 6 is a vertical cross-sectional view of a conventional plasma display panel cooling device.

[Explanation of symbols]

 1 Plasma Display Panel 2 Sealing Material 3 Front Plate 4 Metal Plate 5 Heat Sink 6 After Cooling 7 Convection Tube 8 Forced Circulation Fan 9 Blower Tube 10 Blower Fan 11 Housing

Claims (5)

[Claims] 1. A plasma display having a container which is directly attached to a plasma display panel with an appropriate interval and which forms an airtight container with the plasma display panel, and a refrigerant which flows into or out of the airtight container. Panel cooling system. 2. The cooling device according to claim 1, wherein an airtight container is formed on the display surface side of the plasma display panel, and a part or all of the container forming the airtight container and the coolant have visible light transparency. A cooling device for a plasma display panel, characterized in that the refrigerant is colored. 3. The cooling device according to claim 1, wherein an airtight container is formed on the display surface side of the plasma display panel, and a part or all of the container forming the airtight container and the refrigerant have a visible light transmitting property. In addition, the cooling device for the plasma display panel is characterized in that the visible light transmitting portion of the container forming the airtight container is colored. 4. A cooling device for a plasma display panel, which comprises a front plate directly attached to the plasma display panel with an appropriate interval and a fan for ventilating the interval. 5. The cooling device according to claim 4, wherein the front plate is formed on the display side of the plasma display panel, and the front plate is transparent to visible light and colored. Cooling system.