KR100480085B1 - LCD Projector - Google Patents

Abstract

The present invention relates to an LCD projector, wherein the LCD panel (10) embedded in the LCD projector to enlarge and project an image and the transparent glass (11), which is a protective means for protecting foreign matters from the LCD panel (10), have a constant thickness. The polarizing filter 12 is attached to both surfaces or one surface of the LCD panel 10, and the polarizing filter 12 is attached to the transparent glass 11, which is a protective means attached to the front of the LCD panel 10. It is located outside the focal length of the projection lens 13. The LCD panel 10, which is integrally formed with the transparent glass 11 as the protective means, is disposed under the suction fan 14 and disposed between the projection lens 13 and the condenser lens 15, thereby providing an LCD panel ( As the dust management standard of 10) can be lowered, productivity is improved and the effect of cooling can be afforded to some extent in terms of cooling efficiency.

Description

LCD projector

The present invention relates to an LCD projector, and more particularly to an LCD projector for attaching transparent glass to both sides or one side of an LCD panel to improve the quality degradation of a screen image caused by foreign matter (dust) attached to the LCD surface. will be.

In general, an LCD projector is a device that transmits an image formed on a semi-transparent liquid crystal display (LCD) panel through focused light using a lamp and projects a large image on a screen through a projection lens.

However, since LCD panels do not have self-luminous, high brightness lighting systems are required to form an image on the screen.

The apparatus is roughly divided into a single plate type and a three plate type according to the number of LCD panels 1 configured to implement a color. FIGS. 1 to 3 illustrate the configuration of a single plate type LCD projector. Light emitted from 5) is made into parallel light by the parabolic reflector 6 and irradiated to the front. Among these lights, infrared and ultraviolet rays which do not help screen lighting are removed by installing a UV / IR filter (4).

A light condensing lens 3 for condensing this light onto the projection lens is placed at the front end to focus the light. The LCD panel 1 serves as a principle for displaying an image and has an internal structure as shown in FIG. 2, and an incident side polarizing plate 1a is attached to the light incident side, and a glass substrate 1b and a polarization inside thereof. Filter 1c (single plate type), light shielding layer 1d, common electrode 1e. It consists of the liquid crystal 1f, TR wiring layer 1g, the glass substrate 1h, and the emission side polarizing plate 1i. These configurations control display of the pixels of each pixel in the panel to form a display system. In general, the incident side polarizing plate 1a is installed separately from the LCD panel 1 as shown in FIG. 1 for thermal management of the LCD panel 1.

In the drawings, reference numeral 2 denotes an emission fan, 7 suction fan, 8 an air filter, 9 a projection lens, 10 a screen, and 11 an LCD projector.

The operation principle of the conventional LCD projector configured as described above is briefly described. When an image is formed on the LCD panel 1 by the driving circuit unit, the LCD panel (on the screen 11) is formed on the screen 11 by the imaging principle formed by the projection lens 10. The video in 1) is formed in the inverted room.

As such, one of the important factors in the above process is the problem of thermal management in the device, which is transmitted through the incident side polarizer 1a primarily in the light emitted from the lamp 5 and transmitted through the illumination system configuration. ˜50% is filtered and converted into heat, and while the light penetrates the inside of the LCD panel 1 and the exit-side polarizing plate 1i, very much light is filtered and converted into heat, so the heat resistance characteristics of the LCD 12 and the polarizing filter 1c are considered. Proper cooling must be provided.

To this end, generally, as shown in FIG. 1, the suction air 8 is sucked into the LCD panel 1 toward the outside. The sucked air passes through the components of the projector and is discharged to the outside through the discharge fan 2.

However, as described above, since the cooling of the LCD panel 1 is very important, the LCD projector sucks and cools the outside air. At this time, when a large amount of dust in the outside air flows in and attaches to the surface of the LCD 1, Therefore, as shown in FIG. 1, the air filter 8 is placed in front of the suction fan 7 to filter the air.

At this time, the filtration characteristics of the air filter 8 and the cooling effect of the LCD panel 1 have a close relationship. If the particle diameter of the dust to be filtered is reduced, the air permeability of the filter 8 decreases, thereby decreasing the cooling efficiency. In order to increase the cooling efficiency, if the particle size of the dust to be filtered is increased, the inflow effect of foreign matters is in the opposite effect relationship. In particular, in recent years, the size of the LCD panel 1 has become smaller and higher pixels are being progressed, and this problem has emerged as a very serious problem.

In fact, the 1.30,000-inch LCD panel, which is widely used, has a size of only 40 x 40μ of a pixel of the LCD, and the function of the air filter 8 becomes more important.

If dust having a particle diameter of 200 μ or more is sucked into the LCD panel 1 of the above degree and condensed on the surface of the LCD panel 1, the image of a foreign object having a size of 1.5 cm is enlarged by about 77 times on a 100 ”screen. ) Is formed on the screen 10, a serious failure occurs.

The dust adhering to the surface of the LCD 1 is projected on the screen 10 during focusing according to the position of the screen 10 as shown in FIG. 4 or on the image forming surface of the LCD as shown in 4b of FIG. 4. Even in the case of focusing, foreign matter on the emission-side polarization filter 1c is placed on the optical path and appears as black spots on the image surface.

Therefore, in the production of LCD projectors, the removal of this dust is a matter of considerable concern, and when a method of blowing out the dust with an air gun in actual work is taken, considerable working time and defects are caused. This causes a problem.

Accordingly, an object of the present invention is to provide an LCD projector to improve the quality of the screen image by removing the foreign matter (dust) attached to the LCD surface by attaching the transparent glass on both sides or one side of the LCD panel.

In order to achieve the object of the present invention, it comprises an LCD panel for selectively transmitting the light from the light emitting means, and a projection lens for forming an image by focusing and projecting the light passing through the LCD panel at a certain distance. The projection lens is a LCD projector having a flange back distance of L1, the distance from the rear end thereof to the center of the LCD panel, wherein the glass panel is attached with transparent glass on one side or both sides, and the refractive index of the transparent glass is n, When the sum of the thicknesses of the transparent glass is d, the distance L2 from the rear end of the projection lens to the center of the LCD panel is L2 = L1 + δ = L1 + t (1-1 / n). Is provided.

A polarizing filter is attached to the outside of the transparent glass.

Hereinafter, the LCD projector according to the present invention will be described according to an embodiment shown in the accompanying drawings.

As described above, the LCD projector of the present invention includes a transparent glass 11 which is built in the LCD projector in FIG. 5 and protects the foreign matter on the LCD panel 10 and the LCD panel 10. Is configured to attach to both sides surface or one side surface of the LCD panel 10 in a constant thickness.

In FIG. 7, the polarization filter 12 is attached to the transparent glass 11, which is a protective means attached to the front of the LCD panel 10, and the polarization filter 12 is located outside the focal length of the projection lens 13. It is composed.

Since the internal structure of the LCD panel 10 is the same as in the conventional art described above, the internal structure thereof is not described, but the transparent glass 11 serving as the protection means has the incident side glass substrate 1b shown in FIG. 1. Is attached to any one or both sides of the incidence side surface of the c) and the emission side surface of the emission side glass substrate 1h.

The LCD panel 10, which is integrally formed with the transparent glass 11 as the protective means, is disposed under the suction fan 14 and is installed between the projection lens 13 and the condenser lens 15.

Further, in the optical configuration of the LCD, the distance between the projection lens 13 and the LCD panel 10 of the present invention is as shown in Fig. 6, the flange back (δ) of the refractive index (n) and the transparent glass 11 of the protective means In consideration of the thickness t, a configuration of δ = t (1-1 / n) is applied. In the drawings, reference numeral UV / IR filter, 5 is a lamp, 6 is a reflector, 16 is an air filter, 17 is a screen, 18 is an emission fan, 19 is an incident side polarizer, and 20 is an LCD projector.

The operation and effect of the LCD projector according to the present invention configured as described above will be described below.

In order to solve the problem that foreign matter adheres to the surface of the LCD panel as in the prior art, first, the method of blocking the source using a small mesh of the air filter 16 to prevent the inflow of dust more than a certain size from the outside air sucked in, There may be a method that does not affect the image on the screen 17 even if a certain size of dust is introduced in a range that does not impose a burden, in the case of the former, a large burden occurs in cooling the LCD (20) limit Will be.

Therefore, the present invention is directed to preventing image defects caused by foreign matter (dust) even when dust having a particle size is introduced to some extent. The configuration is relatively simple as shown in FIG. 5, but even when dust is introduced and attached, it is inevitably attached to the outside of the optical element. Therefore, even if the attachment surface is placed outside the focus adjustment range of the projection lens 13 or placed inside, The safety distance is separated from the phase of LCD.

To this end, as shown in FIG. 5, the transparent glass 11, which is a protection means having a predetermined thickness, is placed on both surfaces of the LCD 10, and the glass 11 and the LCD surface are in close contact with each other so that foreign substances do not flow into the inside. And for cooling, the emission-side polarizing filter 12 is attached to the outside of the transparent glass 11 to cool the heat generated by the cold air introduced from the suction fan (l6). In this configuration, even if a large amount of dust is attached to the outside of the glass 11 as shown in FIG. 5, since the dust is outside the focusing range of the projection lens 13, the image is not focused on the dust and formed on the screen 17. Even if this is not the case, dust is placed in a state in which the diameter of the light beam focused on each pixel is large, so that the image on the LCD imaging surface is not significantly affected.

However, in the above-described configuration, in the optical layout (Lay Out) configuration, it should be noted that the refractive index of the transparent glass 11 into which the flange back amount of the projection lens 13 is inserted, as shown in FIG. (n) and thickness (t) should be taken into consideration, but the amount of consideration (δ) becomes t (1-1 / n) as shown in FIG.

As described above, the LCD projector according to the present invention includes a transparent glass 11 which is a built-in LCD projector and a protective means for protecting foreign matters from the LCD panel 10 and the LCD panel 10. ) Is attached to both surfaces or one surface of the LCD panel 10 in a predetermined thickness, and the polarization filter 12 is attached to the transparent glass 11, which is a protective means attached to the front of the LCD panel 10 and polarized The filter 12 is located outside the focal length of the projection lens 13.

The LCD panel 10, which is integrally formed with the transparent glass 11 as the protective means, is disposed under the suction fan 14 and disposed between the projection lens 13 and the condenser lens 15, thereby providing an LCD panel ( As the dust management standard of 10) can be lowered, productivity is improved and the effect of cooling can be afforded to some extent in terms of cooling efficiency.

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

2 is a block diagram of a general TFT liquid crystal.

3 is a block diagram showing the relationship between a typical LCD image and the screen.

4 shows the focusing positional relationship of the projection lens in the conventional LCD configuration,

4A is a configuration diagram showing 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 configuration diagram showing a state in which the LCD panel and the projection lens are focused on the light incident side glass substrate of the LCD.

4C is a diagram showing a state in which the LCD is focused on the light emitting side polarization filter between the LCD panel and the projection lens;

5 is a LCD panel applying a transparent glass to the LCD panel of the present invention.

Figure 6 is a configuration showing the projection lens and the flange back gap in the LCD panel and the existing LCD panel of the present invention.

7 is a configuration diagram of an LCD when the LCD panel of the present invention is applied to an LCD projector.

Explanation of symbols on the main parts of the drawings

10: LCD panel 11: transparent glass

12 polarization filter 13 projection lens

14: suction fan 15: condenser lens

Claims (2)

And a projection lens for selectively transmitting the light from the light emitting means, and a projection lens for focusing and projecting the light passing through the LCD panel at a predetermined distance to form an image. In the LCD projector whose flange back distance which is the distance to the center of L1 is Transparent glass is attached to one or both sides of the LCD panel. When the refractive index of the transparent glass is n and the sum of the thickness of the transparent glass is d, the distance L2 from the rear end of the projection lens to the center of the LCD panel is L2. = L1 + δ = L1 + t (1-1 / n). The LCD projector according to claim 1, wherein a polarization filter is attached to the outside of the transparent glass.