KR200319504Y1 - Lamp housing of a lcd projection television - Google Patents

Abstract

The present invention relates to a lamp housing of an LCD projection television, wherein a lamp (1) used as a light source of an LCD projection television is mounted inside, and a cooling fan (2) is installed outside to cool the lamp (1). In the lamp housing 100 in which the heat dissipation holes 110 and 120 are formed on at least one side surface to allow air to pass through the cooling fan 2, a plurality of guides for guiding the flow of air to the heat dissipation port 110 adjacent to the cooling fan 2 are provided. The guide plate 130 is arranged at intervals back and forth, the heat dissipation opening from each of the arbitrary position (A ₁ , A ₂ , ..., A _n ) with respect to the longitudinal direction of the outer peripheral surface of the lamp (1) formed with a curvature Each of the guide plates 130 is formed with different upper and lower widths so that the shortest moving distances (L ₁ , L ₂ , ..., L _n ) of the heat passing through the 110 to the cooling fan 2 are the same. In addition, it characterized in that the inclination angle is provided to be different from each other . Therefore, the present invention provides the lamp surface by the cooling fan by making the shortest moving distance of the heat passing through the heat dissipation opening to the cooling fan from each of any of the outer peripheral surfaces formed by the curvature of the lamp used as the light source of the LCD projection television to be equal to each other. By uniformizing the cooling rate of the lamp to improve the cooling efficiency of the lamp, thereby has the effect of extending the life of the lamp.

Description

Lamp housing for LCD projection TV {LAMP HOUSING OF A LCD PROJECTION TELEVISION}

The present invention relates to a lamp housing of an LCD projection television, and more particularly, the shortest travel distance of heat from a predetermined position of an outer circumferential surface formed by the curvature of a lamp used as a light source of an LCD projection television to a cooling fan through a heat dissipation opening. The present invention relates to a lamp housing of an LCD projection television which improves the cooling efficiency of the lamp by making the same to each other.

Recently, with the diversification of the video media and the development of the multimedia industry, the demand for a video display device having a large screen is increasing. A direct-type cathode ray tube composed of a screen of a television receiver, which is a conventional video display device, has been enlarged. In order to make the cathode ray tube itself have to be manufactured in a large size, there was a limit of large size.

Overcoming these limitations, an image projection system such as a projection television has been developed and put into practical use as a device capable of obtaining a larger screen.

Such an image projection system generates an image by using a specially made small cathode ray tube, an image display such as a liquid crystal display device or a polymer dispersed liquid crystal display panel, and enlarges the image by using an optical lens, for example, a projection lens. As a system of projecting onto a screen, the demand is increasing in the advantage that a large screen that can satisfy the needs of consumers is recently obtained.

Among such projection televisions, liquid crystal display (LCD) projection televisions use a lamp as a light source, and a lamp housing is provided to facilitate replacement and handling of the lamp.

The lamp housing, in which the lamp is mounted in the conventional LCD projection television, will be described with reference to the accompanying drawings.

1 is a side sectional view showing a lamp housing of a conventional LCD projection television. As shown, the lamp housing 10 of a conventional LCD projection television is equipped with a lamp 1 used as a light source of an LCD projection television (not shown) inside, and cooled outside to cool the lamp 1. The fan 2 is installed, and the heat dissipation port 11 is formed on at least one side surface to allow air to pass through the cooling fan 2.

The lamp 1 mounted to the lamp housing 10 has its outer circumferential surface formed in a curvature along the longitudinal direction, and generates heat during operation.

The heat dissipation port 11 is provided on the upper and lower surfaces of the lamp housing 10, respectively, and includes a plurality of slits 11a arranged back and forth.

By the blowing force of the cooling fan 2, the air is cooled through the lamp housing 10 through the plurality of slits 11a of the heat dissipation port 11.

However, the lamp housing of such a conventional LCD projection television is formed from each of arbitrary positions a ₁ , a ₂ ,..., A _n in the longitudinal direction of the outer circumferential surface of the lamp 1 formed with curvature. Since the shortest moving distances (d ₁ , d ₂ , ....., d _n ) of the heat passing through the heat dissipating opening (11) to the cooling fan (2) are different from each other, the cooling fan (2) on the outer circumferential surface of the lamp (1). The shorter the distance from the cooling fan, the faster it is cooled. The farther the distance from the cooling fan 2 is, the slower the cooling is, the less the cooling of the lamp 1 becomes. There was a problem of significantly lowering the cooling efficiency of 1).

In addition, due to the decrease in the cooling efficiency of the lamp 1, the cycle of use of the lamp 1 is shortened, which has a problem that the user bears the cost of replacing the lamp 1.

The present invention is to solve the above-mentioned conventional problems, the object of the present invention is the shortest of the heat passing through the heat dissipation opening from each of the arbitrary positions of the outer peripheral surface formed by the curvature of the lamp used as the light source of the LCD projection television to the cooling fan By providing the same movement distance to each other, the cooling speed of the lamp surface by the cooling fan is made uniform to improve the cooling efficiency of the lamp, thereby providing a lamp housing of the LCD projection television that extends the life of the lamp.

The present invention for achieving the above object is, the lamp used as a light source of the LCD projection television is mounted on the inside, a cooling fan is installed on the outside to cool the lamp, one or more sides to allow air to pass through the cooling fan In the lamp housing in which the heat dissipation hole is formed in the lamp housing, a plurality of guide plates for guiding the flow of air to the heat dissipation hole adjacent to the cooling fan are arranged at intervals in front and rear, and any position of the outer circumferential surface of the lamp formed by curvature based on the length direction Each of the guide plates is formed with different top and bottom widths and inclined with different inclination angles such that the shortest moving distances of the heat passing through the heat radiating holes from each to the cooling fan are the same.

1 is a side sectional view showing a lamp housing of a conventional LCD projection television;

2 is a side sectional view and a plan view showing a lamp housing of the LCD projection television according to the present invention,

3 is a side cross-sectional view showing a path of movement of a row of lamp housings of an LCD projection television according to the present invention.

<Description of Symbols for Main Parts of Drawings>

110, 120: heat sink 121: slit

130: guide plate

Hereinafter, with reference to the accompanying drawings, the most preferred embodiment of the present invention will be described in more detail so that those skilled in the art can easily practice.

Figure 2 is a side cross-sectional view and a plan view showing a lamp housing of the LCD projection television according to the present invention, Figure 3 is a side cross-sectional view showing the movement path of the columns of the lamp housing of the LCD projection television according to the present invention. As shown, the lamp housing 100 of the LCD projection television according to the present invention has a lamp (1) used as a light source of the LCD projection television (not shown) is mounted on the inside, the outside to cool the lamp (1) Cooling fan (2) is installed in the heat dissipation holes (110, 120) is formed on one or more sides so that the air passes by the cooling fan (2), the flow of air to the heat dissipation holes (110) adjacent to the cooling fan (2) A plurality of guide plates 130 for guiding are arranged at intervals back and forth.

The lamp 1 mounted to the lamp housing 100 has an outer circumferential surface formed in a curvature along the length direction and generates heat during driving.

The heat dissipation holes 110 and 120 are provided on the upper and lower surfaces of the lamp housing 100, respectively, and the heat dissipation holes 110 adjacent to the cooling fan 2 are provided with a plurality of guide plates 130, and the heat dissipation holes 120 on the other side. ), A plurality of slits 121 are formed to be arranged back and forth as in the prior art.

Each of the guide plates 130 is cooled by passing through the heat dissipation port 110 from each of a predetermined position (A ₁ , A ₂ ,..., A _n ) in the longitudinal direction of the outer circumferential surface of the lamp (1) formed of curvature. The shortest moving distances (L ₁ , L ₂ , ..., L _n ) of the heat to the fan 2 are formed to be different from each other so that the upper and lower widths are equal to each other, and the inclined angles are different from each other.

The operation of the lamp housing of the LCD projection television having such a structure is performed as follows.

The lamp 1 used as a light source of the LCD projection television (not shown) generates heat when driven, and the heat of the lamp 1 is provided through the heat dissipation holes 110 and 120 by the blowing force of the cooling fan 2. Due to the air passing through the 100 is cooled.

The plurality of guide plates 130 provided in the heat dissipation port 110 adjacent to the cooling fan 2 may be any position A ₁ , A ₂ ,. .., A _n ) Up and down widths and inclination angles are set so that the shortest moving distances (L ₁ , L ₂ , ..., L _n ) of heat from each of them to the cooling fan 2 through the heat dissipation holes 110 are equal to each other. By forming differently, the lamp 1 is guided by guiding the flow of air to equalize the moving distance of heat from any position A ₁ , A ₂ ,..., A _n of the outer peripheral surface of the lamp 1 to the cooling fan 2. The cooling speed of the lamp 1 by the cooling fan 2 is improved by making the cooling speed of the surface uniform.

By extending the life of the lamp 1 by improving the cooling efficiency of the lamp 1, the user can reduce the economic burden of replacing the lamp (1).

As described above, the lamp housing of the LCD projection television according to the present invention is the shortest movement distance of air to the cooling fan through the heat dissipation opening from each of the arbitrary positions of the outer peripheral surface formed by the curvature of the lamp used as the light source of the LCD projection television By making the same to each other, the cooling speed of the lamp surface by the cooling fan is made uniform, thereby improving the cooling efficiency of the lamp, and thus, has the effect of extending the life of the lamp.

What has been described above is only one embodiment for implementing the lamp housing of the LCD projection television according to the present invention, the present invention is not limited to the above embodiment, as claimed in the utility model registration claims below Without departing from the gist of the present invention, anyone with ordinary knowledge in the field to which the present invention belongs will have a technical spirit of the present invention to the extent that various modifications can be made.

Claims (1)

A lamp 1 used as a light source of an LCD projection television is mounted on the inside, and a cooling fan 2 is installed on the outside for cooling the lamp 1 so that air can pass through the cooling fan 2. In the lamp housing 100, the heat dissipation holes (110, 120) is formed on at least one side, A plurality of guide plates 130 for guiding the flow of air to the heat dissipation port 110 adjacent to the cooling fan 2 are arranged at intervals back and forth, the longitudinal direction of the outer circumferential surface of the lamp 1 is formed of curvature As a reference, the shortest moving distance (L ₁ , L ₂ , ..) of the heat from each of the arbitrary positions (A ₁ , A ₂ ,..., A _n ) to the cooling fan (2) through the heat dissipation port (110). ., L _n ) The lamp housing of the LCD projection TV, characterized in that each of the guide plate 130 is formed to be different from each other in the upper and lower widths and inclined at different angles.