KR200190587Y1 - Optical fiber display - Google Patents

Abstract

The present invention is designed to make the structure of the image display device itself ultra-thin by configuring the light (image or text) emitted from the projector or various image equipments to be directly projected onto the screen through the optical cable. The present invention relates to an image display device using an optical cable that enables bright and clear images to be viewed regardless of a place. The present invention includes a large screen (4) and a projector (2) in a case (1) forming an appearance. In the image display apparatus, the screen 4 is divided into a plurality of arbitrary sections so that the beam emitted from the projector 2 is directly projected to the screen 4 through the optical cable 5 into one module M. And connect the optical cable 5 one-to-one corresponding to each pixel present in the module M, and the beam emitted from the projector 2 Oh, the projector 9 which is transmitted to the optical cable 5 is installed between the projector 2 and the optical cable 5, and using the connector 8 which collects the plurality of optical cables 5 in one line, the projector ( 9) provides an image display device characterized in that for connecting the optical cable (5).

Description

Image display device using optical cable {Optical fiber display}

The present invention relates to an image display device using an optical cable. More specifically, the light (image or text) emitted from the projector is screened through the optical cable by using the characteristic of the optical cable that transmits the light received from one end to the other end. The present invention relates to an image display apparatus using an optical cable that is configured to be directly projected onto an image to express an image, so that the structure of the image display apparatus itself can be manufactured in an ultra slim type so that bright and clear images can be viewed regardless of a place.

In general, as a large screen image display device used in an event hall or an exhibition hall, a rear projection image projection device is widely used. The rear projection image projection device is based on image signals and text signals transmitted from a video player or a computer. The beam or light projected from the projector, which is supposed to reproduce the image, is reflected through several reflectors and then displayed externally through the screen.

That is, as shown in Figure 1, the conventional rear projection type projection projection bar is made of a large case 10, the case 10 is the upper case and the upper surface and the lower surface of the upper case 10a and the upper surface is open. The lower case 10b is opened, and the inside of the upper case 10a and the inside of the lower case 10b in which the upper surface is open are coupled to communicate with each other.

In the rear of the lower case 10b, a projector 20 for reproducing an image on the basis of an image signal and a text signal is provided. In front of the projector 20, that is, in front of the lower case 10b. The lower reflector 30 is installed to reflect the beam or light emitted from the projector 20 to the inside of the upper case 10a.

In addition, a speaker 40 is installed at the front of the lower case 10b, and a beam of the projector 20 reflected from the lower reflector 30 is reflected at the rear of the upper case 10a. An upper reflector 50 is provided to reflect the front surface, and an open front portion of the upper case 10a is configured to display images and characters according to the projection of the beam reflected from the upper reflector 50. Is installed.

However, such a conventional rear projection type image projecting device has a disadvantage in that the image quality is deteriorated when the image is enlarged by a certain size or more.

That is, while the amount and size of the beam radiated through the projector 20 are constant, as the size of the screen increases, the beam irradiated to the screen 60 has to be spread widely. .

Due to such drawbacks, the size of the image that can be enlarged by one projector 20 is limited, and thus there is a problem in that the size of the image cannot be enlarged beyond a certain limit.

In addition, when the screen 60 is enlarged as described above, in order to increase the irradiation width of the beam irradiated to the screen 60, the distance between the upper reflector 50 and the screen 60 projecting the beam from the rear surface must be widened. The size of the projection apparatus itself must be made very large, and in this case, there is a practical problem that the installation space is restricted because it requires a large installation place.

Therefore, the present invention was devised to solve the above problems, and an object of the present invention is to emit light (image or text) emitted from the projector by using a characteristic of an optical cable that transmits light received from one end to the other end as it is. It is possible to provide an image display device using an optical cable that can be produced by projecting the image directly onto the screen through an optical cable and expressing it. have.

An image display device according to the present invention for achieving the above object, in the image display device including a large screen and a projector in a case forming an appearance, the beam emitted from the projector directly to the screen through the optical cable Projector for dividing the screen into a plurality of arbitrary sections to project into one module, connecting the optical cable one-to-one correspondence to each pixel present in the module, and receiving the beam emitted from the projector and transmitting it to the optical cable It is installed between and the optical cable, characterized in that for connecting the optical cable to the projector using a connector for collecting the plurality of optical cables in a single line.

1 is a schematic cross-sectional view showing a rear projection image projection device according to the prior art.

Figure 2 is a perspective view showing the appearance of an image display device according to the present invention.

Figure 3 is a schematic cross-sectional view showing the interior of the image display device according to the present invention.

Figure 4 is a partially enlarged perspective view showing a state in which an optical cable is connected to the screen of the image display device according to the present invention.

5 is a partially enlarged perspective view illustrating a state in which a plurality of optical cables connected to a screen according to the present invention are collected in one connector and fastened to a projector.

Figure 6 is an enlarged cross-sectional view showing a state in which the optical cable according to the present invention is bonded to the acrylic resin plate.

* Description of the symbols for the main parts of the drawings *

1: Case 1a, 1b: Upper, Lower Case

2: projector 3: speaker

4 screen 5: optical cable

6: acrylic resin board 7: light diffusing agent

8 connector 9: projector

Hereinafter, the present invention will be described in detail with the accompanying drawings.

2 is a perspective view showing an image display device according to the present invention, Figure 3 is a schematic cross-sectional view showing the inside of the image display device according to the present invention, Figure 4 is an optical cable on the screen of the image display device according to the present invention 5 is a partially enlarged perspective view illustrating a connected state, and FIG. 5 is a partially enlarged perspective view illustrating a state in which an optical cable connected to a screen according to the present invention is collected in a connector and fastened to a projector, and FIG. 6 is an acrylic resin of the optical cable according to the present invention. It is an expanded sectional view which shows the state bonded to the board.

2 and 3, the image display device according to the present invention is similar in appearance to the conventional image projection device.

That is, the case 1 is composed of an upper case 1a having an open front and a lower surface and a lower case 1b having an open upper surface, and a lower case 1b having an inner surface and an upper surface open with the upper case 1a. ) Are coupled to communicate with each other, and a projector (2) is installed at the rear of the lower case (1b) to reproduce an image based on an image signal and a text signal transmitted from an image player or a computer. The speaker 3 is provided at the front of the lower case 1b, and the screen 4 for displaying images and characters is installed at the open front of the upper case 1a. Do.

At this time, instead of the projector 2, various video equipments such as sliders, laser imagers, OHPs, etc., which are adapted to reproduce images based on image signals and text signals, may be installed.

However, the present invention, as schematically shown in FIG. 3, reflects a beam radiated from the projector 2 in the related art, and the image described above in the prior art used when projecting an image or a character on the screen 4, Instead of the lower reflectors 50, 30, a plurality of optical cables 5 are used to project the beams emitted from the projector 2 directly onto each pixel of the screen 4 as an image or text.

Here, the configuration and connection state of the optical cable 5 for directly transmitting and projecting the beam emitted from the projector 2 to the screen 4 through the optical cable 5 will be described.

First, the size of the screen 4 may be designed to be about 80 cm to about 1200 cm and about 60 cm to about 900 cm in height. I can make it.

In addition, the screen 4 displaying an image according to the present invention is divided into a plurality of zones according to an arbitrary line as shown in FIG. 4, and the size of each divided partition is set as one module. ; M).

In other words, the standard of one module (M) is that it should be set to about 40cm × 30cm (width × length) in accordance with the aspect ratio of a normal screen such as a video or a CRT to maintain the width: length, 4: 3. desirable.

The one module M is further divided into pixel units of very small size, and the size of one pixel is preferably set to about 2 mm × 2 mm (width × length).

That is, about 30,000 pixels are set in one module M described above.

In this state, one optical cable 5 is connected to each pixel in a one-to-one correspondence.

At this time, the optical cable (5) has the characteristic of transmitting the light received from one end to the other end as it is, the thickness of one of the optical cable (5) is preferably about 0.5mm ~ 1.5mm, the screen ( 4) It can be configured to vary the size slightly depending on the size of the screen and projection equipment.

In the case of the present invention, the number of the optical cables 5 is composed of approximately 80,000 to 1,400,000 depending on the size of the screen 4 and the resolution of the projection equipment.

When one optical cable 5 is connected in one-to-one correspondence with one pixel, a strong adhesive W such as an epoxy resin is perpendicular to the optical cable 5 at the center of a transparent plate such as an acrylic resin having one pixel size. In this case, the contact surface of the acrylic resin plate 6 and the optical cable 5 is to spread the light (image or text) projected from the tip of the optical cable 5 evenly over the entire acrylic resin plate 6 The light diffusing agent 7 is applied.

The reason why the light diffusing agent 7 is applied to the acrylic resin plate 6 is that the size of the acrylic resin plate 6 constituting one pixel is about 2 mm × 3 mm (width × length). Since the thickness of the optical cable 5 adhered to the acrylic resin plate 6 is only about 0.5 mm to 1.5 mm, the light transmitted from the optical cable 5 is evenly distributed over the entire acrylic resin plate 6 forming one pixel. To spread.

At this time, as can be seen in the drawing, one acrylic resin plate 6 has substantially the same width as one pixel, and has only a very small boundary when arranged in connection with each other, resulting in a plurality of different acrylic resin plates. (6) is arranged in the same configuration as the array or tile with little space between them.

Each of the optical cables 5 connected in a one-to-one correspondence with the one pixel is formed by stacking a plurality of optical cables 5 in order in the pixel position order based on one connector 8 to form a single line ( 5), a plurality of optical connectors 5 are assembled in one line, and a plurality of connectors 8 exist in one module M. As shown in FIG.

6, the plurality of connectors 8 are sequentially connected to the projectors 9, which receive image signals and text signals emitted from the projector 2 and transmit them to the optical cable 5, as shown in FIG. have.

At this time, the order of the connector 8 plugged into the projector 9 is different from each other at the pixel position of the screen 4 so that the image signal and the text signal projected by the projector 2 are expressed as the correct image on the screen 4. Of course, the connections are matched.

Therefore, the operational effects of the present invention configured as described above are described in detail.

First, the screen 4 is divided into module M units, and the optical cables 5 are arranged in a one-to-one correspondence to a surface corresponding to each pixel located in each module M, and the optical cables 5 arranged as described above. Is connected to each connector 8 according to the pixel position order, and a plurality of optical cables 5 are connected in this way. The image display device is provided as a concept of being connected to the assembly 9).

When the projector 2 is operated by operating a control unit (not shown) while the screen 4 and the projector 9 are connected through the optical cable 5 as described above, the projector 2 is based on image signals and text signals. Reproduces an image, emits a beam, and when the beam emitted from the projector 2 is irradiated to the projector 9, the beam is transmitted to tens of thousands of optical cables 5 connected through a plurality of connectors 8. The tens of thousands of optical cables 5 are irradiated to the acrylic resin plate 6 as it is in the beam state received according to the characteristics of the optical cables 5.

In this case, one acrylic resin plate 6 corresponds to one of the pixel sizes described above, and the beam irradiated from the optical cable 5 is spread through the one acrylic resin plate 6 by the light diffusing agent 7. One pixel is formed.

In addition, it is a basic concept of the present invention that the images irradiated on each acrylic resin plate 6 are combined and expressed as one image.

As the beam emitted from the projector 2 is directly projected on the screen 4 using the optical cable 5 in the present invention, the internal structure of the image display device and its configuration are changed according to various demands of consumers. It becomes possible.

That is, when the exterior case 1 of the image display device is manufactured, the optical cable 5 arranged inside may be formed of a flexible material, and thus the rear structure may be flat or curved while the width of the exterior case 1 is narrowed. In addition to being able to produce freely, it can be installed anywhere indoors and outdoors regardless of the installation place.

Therefore, when the image display device is implemented by using the optical cable according to the present invention as described above, the image display device having a very ultra-slim large screen is compared to the structure of the rear projection type image projection device having a large screen using a conventional reflector. Since it can be configured, unlike the prior art, it is possible to install an image display device having a large screen regardless of the place.

In addition, since the direct projection method using the optical cable is adopted in the resolution of the image display device, it is possible to realize a clearer image, thereby providing a high quality image screen.

Claims (4)

In a video display device including a large screen and a projector or various video equipment in a case forming the appearance, The screen is divided into a plurality of arbitrary sections so that the beam emitted from the projector is directly projected on the screen through an optical cable, and the screen is divided into one module, and the optical cable is connected in a one-to-one correspondence with each pixel present in the module, and the projector The projector is installed between the projector and the optical cable to receive the beam emitted from the optical fiber between the projector and the optical cable, and the optical display using the optical cable, characterized in that for connecting the optical cable to the projector using a connector for collecting the plurality of optical cables in a single line Device. The method of claim 1, When the optical cable is connected in a one-to-one correspondence with the pixels of the screen, the optical cable is fixed with an adhesive perpendicular to the center of the acrylic resin plate corresponding to the pixel size, and when the optical cable is connected by arranging the acrylic resin plate adhesively fixed. And an image display device using an optical cable installed in a rear side of a screen in such a manner that an array or a tile is attached with little space between the different acrylic resin plates with only a very small boundary. The method of claim 2, And a light diffusing agent applied between the acrylic resin plate and the optical cable so that light projected through one optical cable is evenly spread over the entire acrylic resin plate to form one pixel. The method of claim 1, When the optical cable is connected to the projector by connecting the optical cable to each pixel of the screen, the optical cable is accurately stacked and arranged on the connector so that the arrangement of the optical cables is in the same position as that of the screen pixels. And an array connecting the plurality of pixels to be arranged at the same position as that of the screen pixels.