KR100197811B1 - Projection tv using optical fiber - Google Patents

Abstract

In the projection TV, the rear projection type that reflects an image by using a lens on a mirror and then forms on a screen has a thick thickness due to its structure, which limits the installation location and restricts the supply to homes. To provide projection TV

The bundle of optical fibers 6 is bundled to the fluorescent surface of the high resolution small CRT 3 and tightly fixed by the coupling 4, and the light transmitted to the optical fiber 6 is spread out from the guide 11 to form a lens of the screen 8. 9), it is possible to reduce the thickness while providing a screen with a constant brightness and sharpness of the image by enlarged display.

Description

Projection TV using Fiber Optic

1 is a cross-sectional view of an arrangement of the present invention TV.

2 is a cross-sectional view showing the structure of the screen and the optical fiber of the present invention.

Figure 3 is a rear view showing the insertion state of the optical fiber of the present invention.

Figure 4 is a side cross-sectional view showing a coupling relationship between the CRT and the optical fiber of the present invention.

5 is a cross-sectional view showing a coupling relationship between the CRT and the optical fiber of the present invention.

* Explanation of symbols for main parts of the drawings

1: set 3: small CRT

4 coupling 5 display device

6: fiber optic 8: screen

9: lens 10: black stripe

11: guide 13: insertion hole

14: insertion groove

The present invention relates to a projection TV using an optical fiber, and by moving the light of a high resolution small CRT to a large screen with an optical fiber, the magnification of the moved light can be enlarged and displayed so that the thickness of the set can be greatly reduced, and anywhere on the screen. It has the same brightness.

The existing projection TV is a rear projection type using a reflection mirror, and a high resolution small CRT is reflected by a reflection mirror disposed on the back of the set so that an image can be formed on the front screen.

However, since the image must be reflected on the reflective mirror using the lens, the thickness of the set is inevitably increased. Also, since the image is reflected on the screen to form an image on the screen, the brightness of the center of the screen and the corners of the screen do not coincide with each other. Will be.

As such, conventional projection TVs do not have constant brightness for each part of the screen and are rear projection type, so the thickness thereof is large, so that they are hardly widely used for home use. Because it takes up so much space.

The prior art for solving the above problems is presented in Japanese Patent Application Laid-open No. Hei 2-49286, the prior art forms an optical fiber bundle bundled with optical fibers having the same size as the image surface of the imaging device, One end is opposed to the image plane of the electro-imaging device, and an image expansion part is formed on each optical fiber of the other end, and the image expansion part is made to face the display surface, so that a separate lens structure and a rear reflector are not required, and thus the thickness of the projection TV is reduced. Although it can be greatly reduced, in order to enlarge and display the image transmitted to the optical fiber on the display surface after connecting the situation axis to the end of the optical fiber had to be fixed to the back of the display surface was a problem that is difficult to manufacture.

In the present invention, in order to solve the above problems, in the projection TV to reduce the thickness of the projection TV by transmitting the image formed on the fluorescent screen of the high resolution small CRT to the screen by the optical fiber,

By simply inserting the optical fiber into the insertion groove on the back of the screen, it is possible to display an image on the screen so that the production can be made simple, while obtaining a constant brightness and clarity on all sides of the screen.

In order to achieve the above object, the present invention is to adhere the mineral oil to the fluorescent surface of the high-resolution small CRT to move the light on the screen,

It is intended to provide a projection TV that has the same brightness and clarity, and is thin in thickness by configuring the screen so that the light transferred to the optical fiber can be magnified.

Preferred embodiments of this invention will be described in detail based on the accompanying drawings.

The present invention is in close contact with the fluorescent surface of the high resolution small CRT (30) and bundled with an optical fiber (6),

The optical fiber (6) bundle and the coupling (4) for fixing to the fluorescent surface of the small CRT (3),

The optical fiber 6 is arranged on the rear surface of the screen 8 and comprises a display device 5 for enlarging the magnification of light.

Here, the display device 5 is disposed on the upper front side of the set 1, and the small CRT 3 is disposed at a lower side at a right angle to the display device 5, but the fluorescent surface is positioned at the top, and the neck is positioned at the bottom. It is fixed with brackets and the PCB (2) is fixed upright under the set (1).

Then, the optical fiber 6 is bundled into a series of bundles using 0.1 mm or less, and then tightly fixed to the fluorescent surface of the small CRT 3 using the coupling 4. The optical fibers 6 bundled in the bundle are each screen size. It is configured to plant one by one on the checkerboard rectangular guide 15 in accordance with the back.

In this case, the screen 8 processes the lens 9 in the form of a block lens so that the light of the optical fiber 6 is enlarged in magnification, and performs a black stripe 10 (Black STRIPE) treatment to prevent interference by external light, and a square guide. 11 constitutes a funnel shape, but constitutes an insertion hole 13 for guiding and fixing the optical fiber 6, and an insertion groove 14 in which the optical fiber 6 is placed on the rear of the square guide 11. While forming a cover 12 which can cover the optical fiber 6.

According to the present invention, as shown in FIG. 1, the display device 5 is disposed on the upper front surface of the set 1 with the screen 8 facing the front surface, and the image is transmitted to the display device 5 as light. And a high resolution small CRT (3) in which the optical fiber (6) is fixed to the fluorescent surface is placed in the lower part of the set (1), and the fluorescent surface is placed in the upper portion of the neck and the PCB (2) (1) The thickness of the set 1 is made thin by placing it vertically and covering it with the back cover 7.

The optical fiber 6 is bundled in the fluorescent surface of the high resolution small CRT 3 and tightly fixed by the coupling 4.

At this time, the bundle of the optical fiber 6 should be in close contact with the fluorescent surface of the small CRT as shown in FIG. 5 and the adhesion between the optical fiber 6 and the fluorescent surface of the small CRT 3 should be completely fixed by using the coupling 4. The image in the small CRT 30 is transmitted to the light through the optical fiber 6 without loss.

That is, the bundle of optical fibers 6 should be evenly adhered to the fluorescent surface of the small CRT 3 as shown in FIG. 5 and the optical fiber 6 should be completely fixed by using the coupling 4 so that there is no image loss. .

When the optical fiber 6 is closely fixed to the fluorescent surface of the small CRT 3, an image in which the fluorescent surface of the small CRT 3 is formed is transmitted to the display device 5 through the optical fiber 6. The image magnification is displayed enlarged through the screen (8).

In this case, the display device 5 is formed of a screen 8, a guide 11, and a cover 12, and the screen 8 lines the black stripe 10 to prevent light interference due to incidence of external light. The front surface of the square guide 15 is formed by processing the lens 9 which can enlarge and reduce the light incident from the optical fiber 6.

At this time, the square guide 15 is changed according to the number of optical fibers 6 and the size of the screen (8).

And the guide 11 forms an insertion hole 13 for guiding and catching the optical fiber 6, while making a funnel-shaped groove so that the light from the optical fiber 6 can spread toward the lens 9 The rear of the guide 11 makes the insertion groove 14 that can be collected by bending the optical fiber.

In addition, a cover 12 is formed on the rear surface of the guide 11 to cover the optical fiber 6.

As described above, the present invention will be described in which an image of one pixel formed on the fluorescent surface of the small CRT 3 is enlarged and displayed on the screen 8.

An image of one pixel formed on the fluorescent surface of the high resolution small CRT 3 is transmitted to the light by the optical fiber 6, and the optical fiber 6 is inserted into the insertion groove 14 and the insertion hole 13 of the display device 5. Since it is guided to the guide 11 through the light transmitted to the optical fiber 6 is spread out in the funnel-shaped groove is magnified in the lens 9 is displayed.

Therefore, the user can watch the large screen of the screen 8, and the image for each pixel is transmitted to the screen 8 through the optical fiber 6, so that the image displayed on the screen 8 is constant brightness and You will have sharpness.

As described above, the present invention provides a projection TV which greatly reduces the thickness of a set by using an optical fiber. The arrangement of the optical fiber disposed on the screen is simple, and thus, the production is simple and the image can be enlarged and displayed without a separate device. The use of the optical fiber has the effect of viewing a constant image brightness and sharpness of the screen.

Claims (3)

In a projection TV in which one end of the bundled optical fiber 6 is brought into close contact with the fluorescent surface of the small CRT 3 with a coupling 4 and the other end is coupled to the screen 8, it is installed upright on the top of the set 1, A guide 11 for guiding and fixing the other end of the optical fiber 6, an insertion groove 14 formed on the rear surface of the guide 11 and collecting the optical fiber 6, and an optical fiber collected in the insertion groove 14 ( 6) an insertion groove 13 for inserting and fixing the screen, a screen 8 positioned on the front of the guide 11 to display an image transmitted to the optical fiber 6, and fixed and inserted in the rear surface of the guide 11; Projection TV using an optical fiber, characterized in that the cover (12) for blocking the groove (14). The projection screen according to claim 1, wherein the screen (8) is a projection using an optical fiber formed by processing a lens (9) for enlarging the light of the optical fiber (6) by applying a black stripe (10) to the line to prevent interference of external light. TV. The optical fiber according to claim 1, wherein the insertion hole (13) formed in the guide (11) forms a funnel-shaped groove for fixing the optical fiber (6) while extending the light of the fixed optical fiber (6). Projection TV.