KR19980013971A - LCD project surface water protection device - Google Patents

Abstract

The present invention relates to a water protection device for a surface of an LCD project, which comprises an LCD panel (10) built in an LCD project for enlarging and projecting an image and a transparent glass (10) for protecting the LCD panel (10) The polarizing filter 12 is attached to the transparent glass 11 which is a protection means attached to the front surface of the LCD panel 10 so that the polarizing filter 12 is adhered to both side surfaces or one side surface of the LCD panel 10 with a predetermined thickness The polarizing filter 12 is located outside the focal length of the projection lens 13. [

The LCD panel 10 integrally formed with the transparent glass 11 as the protection means is disposed between the projection lens 13 and the condenser lens 15 under the suction fan 14, 10) can be lowered, productivity can be improved, and it is possible to obtain a certain margin in terms of cooling efficiency.

Description

LCD project surface water protection device

The present invention relates to a waterproofing device for protecting the surface of an LCD project, and more particularly, to a method for improving the quality of a screen image due to foreign matter (dust) adhering to the LCD surface by attaching a transparent glass to both sides or one side of the LCD panel The surface of the LCD projector is a water protection device.

In general, an LCD project is a device that transmits an image formed on a semi-transparent LCD (liquid crystal display) panel through a condensing light using an amplifier or the like, and projects the large image on a screen through a projection lens.

However, since the LCD panel has no self-luminous properties, a high-brightness illumination system is required to form images on a screen.

1 to 3 show the construction of a single-plate LCD project. First, the lamps of the high-intensity lamps 1, 2, 3, (5) is made into parallel light by a reflector (parabola type: 6) and is irradiated to the front side. Among these lights, infrared rays and ultraviolet rays which do not contribute to screen illumination are removed by installing a UV / IR filter (4).

At the front end, this light is condensed by placing a condenser lens (3) for converging on the projection lens. The LCD panel 1 is a principle for displaying an image and is constructed internally as shown in FIG. 2. A polarizing plate 1a is attached to a side where light is incident, and a glass substrate 1b, a color filter A light shielding layer 1d, a common electrode 1e, a liquid crystal 1f, a TR wiring layer 1g, a glass substrate 1h and an output-side polarizing plate 1i. With these arrangements, a display system is constituted by controlling the light leading of one pixel inside the panel. In general, the incident-side polarization plate 1a is installed separately from the LCD panel 1 as shown in FIG. 1 for thermal management of the LCD panel 1.

Reference numeral 2 denotes a discharge fan, 7 denotes a suction fan, 8 denotes an air filter, 9 denotes a projection lens, 10 denotes a screen, and 11 denotes an LCD project.

When the image is formed on the LCD panel 1 by the driving circuit unit, the LCD panel 1 is formed on the screen 11 by the image forming principle composed of the projection lens 10 1) is formed as an inverted real image.

One of the important factors in the above process is the problem of heat management in the apparatus. In the illumination system, the light emitted from the lamp 5 is transmitted through the incident-side polarization plate 1a, To 50% are filtered and converted to heat and a very large amount of light is filtered and changed into heat while being transmitted through the inside of the LCD 12 and the polarizing plate 1a on the outgoing side so that heat resistance characteristics of the LCD 12 and the polarizing filter 1c are taken into account It is necessary to perform proper cooling.

To this end, a suction fan 8 is generally installed as shown in Fig. 1 to suck the cold outside air toward the LCD panel 1 side. The inhaled air passes through the components of the project and is discharged through the discharge fan 2 to the outside.

However, since the cooling of the LCD panel 1 is very important as described above, the LCD project sucks and cools the outside air. At this time, dust having a large particle size in the outside air flows into the LCD panel 1 and adheres to the surface of the LCD 1 The air filter 8 is disposed in front of the suction fan 7 to filter the air as shown in FIG.

At this time, the filtration characteristics of the air filter 8 and the cooling effect of the LCD panel 1 are closely related to each other. If the particle diameter of the dust to be filtered is small, the air permeability of the filter 8 is decreased, If the cooling efficiency is increased, the influx of the foreign matter is increased, so that there is a reciprocal relationship. Particularly, in recent years, the size of the LCD panel 1 has become smaller, and at the same time, the size of the LCD panel 1 has been increasing, and this problem has become a serious problem.

In the case of 1.3 million LCD panels, which are widely used in practice, the size of the LCD pixel is only about 40 × 40 μ, and the function of the air filter 8 becomes more important.

If dust having a particle size of 200 mu m or more is sucked into the LCD panel 1 to be formed on the surface of the LCD 1, the image of the foreign object having a size of about 1.5 cm is enlarged by about 77 times on the 100 screen So that it is formed on the screen 10, and serious failure occurs.

4, the dust adhered to the surface of the LCD 1 is projected onto the screen 10 during focussing, according to the position of the screen 10, or is projected onto the image plane of the LCD as shown in FIG. 4 (4b) Even when the light is focused, the foreign matter adhering to the emission filter 1c lies on the optical path (upper side) and appears as a black spot on the image plane.

Therefore, in the actual production of LCD project, the removal of this dust is a considerable concern. If the method of blowing out dust by air gun is taken during actual work, considerable working time and bad cause are caused .

SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to provide a liquid crystal display device, in which a transparent glass is attached to both sides or one side of an LCD panel to eliminate foreign substances (dust) And a protection device.

1 is a block diagram showing a system of a general single-panel LCD projector.

2 is a schematic view of a general TFT liquid crystal.

3 is a block diagram showing a video image relationship between a general LCD image and a screen.

FIG. 4 shows a focusing position relationship of a projection lens in a conventional LCD configuration diagram,

4a shows a state in which a color filter or a light shielding film is focused between an LCD panel and a projection lens.

4b is a view showing a focused state between the LCD panel and the projection lens on the glass substrate on the light incidence side of the LCD.

4c is a view showing the state of focusing between the LCD panel and the projection lens on the polarizing filter on the light output side of the LCD.

5 is an LCD panel in which a transparent glass is applied to the LCD panel of the present invention.

6 is a view showing a gap between the projection lens and the flange back in the LCD panel of the present invention and the conventional LCD panel.

7 is a block diagram of the LCD when the LCD panel of the present invention is applied to an LCD project.

Description of the Related Art [0002]

10: LCD panel 11: transparent glass

12: polarizing filter 13: projection lens

14: suction fan 15: condenser lens

In order to achieve the object of the present invention, an LCD panel, which is built in an LCD project and enlarges and projects an image, and a transparent glass, which is a protection means for protecting the LCD panel from being adhered to the LCD panel, The surface of the LCD project provides water protection by attaching it to the surface.

A polarizing filter is attached to a transparent glass as protection means attached to the front of the LCD panel, and the polarizing filter is located outside the focal length of the projection lens.

The LCD panel integrally formed with the transparent glass as the protection means is disposed between the projection lens and the condenser lens while being positioned below the suction fan.

Hereinafter, a surface protection device for an LCD project according to the present invention will be described with reference to the accompanying drawings.

As described above, the surface water protection device of the LCD project of the present invention includes an LCD panel 10 built in an LCD project in FIG. 5 for enlarging and projecting an image, and a protection device for protecting the LCD panel 10 from foreign substances The transparent glass 11 is attached to both side surfaces or one side surface of the LCD panel 10 to a predetermined thickness.

7, a polarizing filter 12 is attached to a transparent glass 11, which is a protection means attached to the front surface of the LCD panel 10, and the polarizing filter 12 is located outside the focal distance of the projection lens 13 .

The LCD panel 10 integrally formed with the transparent glass 11 as the protection means is disposed between the projection lens 13 and the condenser lens 15 while being positioned under the suction fan 14. [

6, the distance between the projection lens 13 and the LCD panel 10 of the present invention in the optical configuration of the LCD is determined by the refractive index n and the refractive index n of the transparent glass 11 Taking into account the thickness t, we construct by applying the formula δ = t (1-1 / n). In the figure, reference numeral 16 denotes an aperture, 17 denotes a screen, 18 denotes a discharge fan, 19 denotes an incident-side polarizer, and 20 denotes an LCD project.

The function and effect of the surface water protection device of the LCD project according to the present invention will be described below.

In order to solve the problem of foreign matter adhering to the surface of the LCD panel as in the prior art, there is a method of blocking the source by using a small mesh of the air filter 16 so that dust having a specific size or larger can not be introduced into the first outside air, There may be a method of preventing the image on the screen 17 from being influenced even if dust having a specific size is inputted within a range that does not exert any burden on the user. In the case of a ship, there is a great burden on the cooling of the LCD 20, .

Therefore, the present invention is intended to prevent the occurrence of image defects due to foreign matter (dust) even if dust particles of a certain size are introduced. 5, even if dust adheres to and adheres to the outside of the optical element, it is necessary to attach the attachment surface to the outside of the focus adjustment range of the projection lens 13, It is also possible to keep the safety distance at a certain distance from the image plane of the LCD.

For this purpose, as shown in FIG. 5, a transparent glass 11, which is a protective means of a predetermined thickness, is placed on both surfaces of the LCD 10 so that the glass 11 and the LCD surface are in close contact with each other to prevent foreign matter from flowing into the LCD. For cooling, the exit-side polarization filter 12 allows the heat generated by attaching to the outside of the transparent glass 11 to be cooled by the cold air introduced from the intake fan 16. [ 5, even if large particles of dust are adhered to the outside of the glass 11 as shown in FIG. 5, the dust is out of the focusing range of the projection lens 13 and is not focused on the screen 17 The dust is placed in a state where the diameter of the light flux to be focused on each pixel of the LCD is large, so that the image on the LCD image plane is not greatly affected.

However, in the optical layout (Lay Out) configuration in the above configuration, it should be noted that as shown in FIG. 6, the amount of flange back of the projection lens 13 is set so that the amount of flange back of the glass plate 11 The refractive index n and the thickness t must be considered, and the amount of consideration? Is t (1-1 / n) as shown in FIG.

As described above, according to the present invention, the surface water protection device of the LCD project includes an LCD panel 10 built in an LCD project for enlarging and projecting an image, and a protection for protecting the LCD panel 10 against foreign substances The transparent glass 11 is attached to both sides or one side of the LCD panel 10 with a predetermined thickness and is attached to the transparent glass 11 as a protective means attached to the front surface of the LCD panel 10 12 are attached, the polarizing filter 12 is located outside the focal length of the projection lens 13.

The LCD panel 10 integrally formed with the transparent glass 11 as the protection means is disposed between the projection lens 13 and the condenser lens 15 under the suction fan 14, 10) can be lowered, productivity can be improved, and it is possible to obtain a certain margin in terms of cooling efficiency.

Claims (3)

In an LCD project, an LCD panel built in the LCD and enlarging and projecting an image, and a protection means for protecting the LCD panel from being adhered to the LCD panel are attached to both sides or one side of the LCD panel with a predetermined thickness The water surface protection device of the LCD project. The apparatus according to claim 1, wherein a polarizing filter is attached to the protection means attached to the front surface of the LCD panel, and the polarizing filter is located outside the focal distance of the projection lens. 2. The apparatus according to claim 1, wherein the LCD panel integrally formed with the protection means is installed between the projection lens and the condenser lens while being positioned below the suction fan.