KR930002091Y1 - Cooling device of projection tv - Google Patents

Abstract

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Description

Liquid Cooling System for Projection-type TV

1 is an exploded perspective view showing the structure of a liquid cooling apparatus according to the present invention.

2 is an assembled cross-sectional view of FIG.

3 is a side cross-sectional view showing an example of a conventional liquid cooling apparatus.

* Explanation of symbols for main parts of the drawings

1: Monochromatic cathode ray tube 2: Front panel

3: spacer 4: notch

The present invention relates to a liquid cooling device of a projection television.

Projection-type televisions are being developed into three- or two-tube monochromatic cathode ray tubes that emit only one of R, G, and B, and the images projected from the cathode ray tubes each having a unique monochrome color are projected on the projection screen. It is a system that enables a large screen as a video display device of a method synthesized in a color image and displayed in color images.

One of the problems conventionally seen in this type of projection-type television is a decrease in luminance due to the use of a large screen.

The decrease in brightness can be overcome by using a cathode ray tube with a high output, but in doing so, the temperature during operation on the face side of the cathode ray tube becomes very high, which causes a problem of poor white balance on the projection screen. .

In order to solve the problem of the projection type TV, a method of attaching a cooling device to the face of a monochromatic cathode ray tube so that the temperature of the face of the face is not excessively raised has been proposed in Japanese Utility Model Publication No. 54-43926. have.

This method forms a closed space on the outer surface of the panel of the monochromatic cathode ray tube, fills the cooling liquid with this space, and draws the heat sink to the outside from the above space and always uses the convection of the refrigerant to face it. Although the structure is proposed to maintain the surface at about 80 ℃, the refrigerant filled inside repeats the expansion and contraction according to the operation and non-operation of the cathode ray tube, and the inside of the space is subjected to the stress due to the expansion and contraction. There is an unexpected problem of accelerating the leakage of the refrigerant by accelerating the aging of the adhesive surrounding the space.

This problem is proposed again in the high-brightness cathode ray tube disclosed in Japanese Patent Laid-Open No. 60-32237.

Referring to the liquid cooling method of the high-brightness cathode ray tube described with reference to FIG. 3, the front panel F is provided outside the face surface of the monochromatic cathode ray tube C to form a sealed space S, and this space S By arranging the air bags A communicating with each other on one side), the air contained in the air bags A absorbs the stress caused when the refrigerant charged in the space S shrinks and expands.

The above-mentioned high-brightness cathode ray tube has the advantage of absorbing the stress generated inside the space and fundamentally solving the problems caused by this, but it requires a separate component called an air bag, and the airtight portion at the connection between the air bag and the space It is difficult to guarantee the reliability, which in practice causes a rise in manufacturing cost and a disadvantage of low reliability of the product.

It is an object of the present invention to provide a liquid crystal cooling apparatus of a projection television that has a structure which can secure the reliability of a product without affecting the manufacturing cost by simply solving the problems seen in the liquid cooling apparatus of such a projection television. .

In accordance with the above object, the present invention is a liquid-cooling apparatus of a projection-type television comprising a metal spacer interposed between a face surface of a monochromatic cathode ray tube and a front panel attached to form a space in front of the face surface. Refrigerant filled in the internal space by forming a notch having a proper volume on a predetermined portion of the inner circumferential surface and attaching the front panel to the face of the cathode ray tube in the same manner as in the prior art with a buffer in the notch. It is characterized in that it is configured to absorb the stress generated when the shrinkage expansion.

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

1 is an exploded perspective view of a liquid cooling apparatus according to the present invention, in which reference numeral 1 denotes a conventional monochromatic cathode ray tube, 2 an front panel, and 3 an electric monochromatic cathode ray tube 1 It refers to a spacer interposed between the face of the) and the front panel 2 to form a space.

The spacer 3 is made of a metal body having a relatively high thermal conductivity in order to enhance the heat dissipation effect, and the notch 4 is formed in at least one place on the inner circumferential surface thereof.

This cutout 4 is more specifically formed in a size of 3-15 mm in depth and 10-100 mm in width, and the number of pieces may be about 1-4 pieces depending on the size of the spacer 3, for example, 7 "or more. In the case of a monochromatic cathode ray tube spacer, it is preferable to form two or more.

The cutout 4 accommodates a cushioning material 5 made of neoprene or butyl rubber having excellent elasticity.

In the spacer 3 interposed with the buffer material 5 described above, the monochromatic cathode ray tube 1 is a contact surface between the face surface and the buffer material 5 and a contact surface between the front panel 2 and the buffer material 5. Care should be taken to avoid getting glue on the

In this way, the state in which the front panel 2 is attached to the face of the monochromatic cathode ray tube 1 is shown in FIG.

The refrigerant S is filled in the space S formed by the front panel 2 and the frame 3 surrounding the face of the monochromatic cathode ray tube 1.

The refrigerant may be a liquid having a low condensation point, such as a solution in which ethylene glycol and water are mixed at 4: 1, or a solution in which ethylene glycol, water and glycerin are mixed at a ratio of 6: 3: 1.

The temperature of the coolant is set at a time when the monochromatic cathode ray tube is in an inoperative state, and the temperature is generally at a temperature of 1-2 degrees or higher.

When the monochromatic cathode ray tube 1 is operated to increase the temperature of the face surface, the refrigerant filled in the space S is heated and heat is radiated due to the thermal conduction through the spacer 3.

Even if such heat radiation continues, the refrigerant is heated up, and this inevitably causes a volume expansion.

The volume expansion of the refrigerant is represented by the internal pressure of the space S, and the internal pressure is equally applied to the face surface of the monochromatic cathode ray tube 1, the inner circumferential surface of the spacer 3, and the inner surface of the front panel 2. .

However, the portion to which the internal pressure is applied generates stress because all but the buffer member 5 of the spacer 3 have a substantial path, but the buffer member 5 contained in the cutout 4 of the spacer 3 is elastic. Since it is a material having a shrinkage upon receiving an internal pressure, the contraction of the cushioning material 5 increases the effective volume of the space S, thereby absorbing and extinguishing the stress due to the volume expansion of the refrigerant. Therefore, according to the present invention, even if the refrigerant contained in the space S is expanded in temperature, no stress is generated inside the space S at all.

As described above, the present invention forms a predetermined cutout on the inner circumferential side of the spacer, and the stress generated by the temperature rise of the refrigerant, such as the high-brightness cathode ray tube disclosed in all, only has a very simple structure in which a buffer material of excellent elasticity is accommodated in the cutout. It has the practicality to obtain the effect of absorbing and extinguishing.

Claims (1)

(Correction) A liquid cooling device of a projection-type television in which a space for charging refrigerant is formed by interposing a spacer between a face surface of a monochromatic cathode ray tube and a front panel attached to form a space in front of the face surface. At least one cutout 4 is formed at a predetermined portion of the inner circumferential surface of 3), and the cutout 4 can accommodate a buffer material 5 made of neopretene or butyl rubber to absorb stress due to volume expansion of the refrigerant. Liquid-cooled device for projection televisions configured to