KR100719260B1 - A structure of projection television - Google Patents

Abstract

The present invention relates to a structure of a projection television, and more particularly, light absorbing means for converting an image output from an engine into an optical signal; A wired carrier for transmitting an optical signal introduced through the light suction means to a wired line; Since the optical signal of the engine is transmitted by the wire to the screen through the light transmitting means for irradiating the optical signal of the wire carrier to the screen pixel by pixel, there is no need for a conventional mirror or a space for expanding the image. In addition, it is possible to produce projection televisions of various sizes.

Projection Televisions, Green Lenses, Fiber Optics, Engines

Description

Structure of projection television {A STRUCTURE OF PROJECTION TELEVISION}

1 is a schematic diagram illustrating a conventional projection television.

2 is a view showing briefly the light absorbing means according to the present invention.

3 is a view showing briefly the light transmitting means according to the present invention.

4 is an embodiment of a projection television capable of wired transmission of an image according to the present invention.

* Explanation of symbols for main parts of drawings *

30: light sucking means 50: light transmitting means

31: micro lens panel

32, 52: green lens 33, 53: optical fiber

34, 54: glass tube 35, 55: pigtail

The present invention relates to a structure of a projection television characterized in that the image light of the engine is transmitted to the screen through the optical fiber and the image appears on the screen, thereby reducing the volume of the projection television and producing various types of products.

In general, a projection television is produced using a cathode ray tube, a liquid crystal display (LCD), a deformable mirror device (DMD), an actuated mirror array (AMA), or the like. An image display device is formed by projecting light including an image signal onto a screen to form a screen.

1 is a schematic diagram illustrating a conventional projection television.

As shown, the conventional projection television is provided with a screen 11 on the front of the main body 10, the rear cover 12 having an inclined shape is formed on the back of the main body 10.

In addition, an engine 15 for transmitting light is installed at an inner lower side of the main body 10, and a mirror 14 for reflecting light emitted from the engine 15 is mounted on the rear cover 12. The light reflected through the mirror 14 is projected onto the screen 11 as an image.

That is, the conventional projection television secures the mirror to the rear cover and fixes the screen to the mask portion on the front of the main body, thereby enabling a large screen.

However, the projection television structure requires a sufficient space for the image signal output from the engine to be enlarged and projected on the screen, which causes a problem that the volume of the television itself is increased to secure a sufficient distance.

Accordingly, the present invention has been made to solve the above problems, the present invention is to reduce the volume of the projection television itself by allowing the video signal output from the engine to be transmitted to the screen by the wire.

The present invention for achieving the above object and the light absorbing means for converting the image output from the engine into an optical signal; A wired carrier for transmitting an optical signal introduced through the light suction means to a wired line; It provides a structure of a projection television comprising a light transmitting means for irradiating the optical signal of the wired carrier to the screen for each pixel.

In the projection television described above, since an optical signal of an engine is transmitted by a wire and moved to a screen, a projection mirror of various sizes can be produced because a conventional mirror or a space for expanding an image is not required.

Hereinafter, exemplary embodiments of the present invention will be described with reference to the accompanying drawings.

In addition, this embodiment is presented by way of example only, not limiting the scope of the present invention, the same parts as the conventional configuration uses the same reference numerals or names.

2 is a view briefly showing the light absorbing means according to the present invention, FIG. 3 is a view briefly showing the light transmitting means according to the present invention, and FIG. 4 is an embodiment of a projection television capable of wired transmission of an image according to the present invention. to be.

As shown, briefly explaining the image transmission structure of the projection television according to the present invention, the light absorbing means 30 for converting the light output from the engine 21, that is, the image into an optical signal, the light absorbing means ( It consists of a wire transfer body 40 for transmitting the optical signal introduced through the wire 30 to the wire and the light transmitting means 50 for irradiating the optical signal of the wire transfer body 40 to the screen 22 for each pixel.

Looking at the light suction means 30 in detail, a micro lens panel 31 is formed of a plurality of micro lenses for sucking the various image information output from the engine 21 for each region, from each of the micro lenses A plurality of green lenses 32 are formed in close proximity to the micro lens panel 31 to absorb the incident light that is emitted.

In addition, an optical fiber 33 is connected to each of the green lenses 32 to receive an incident light signal and to be connected to the wire carrier 40.

In addition, a glass tube 34 is formed to surround the contact portion of the optical fiber 33 and the green lens 32 to prevent leakage of light.

On the other hand, looking at the light transmitting means 50 in detail, the optical fiber 53 is connected to the wire transfer body 40 to transmit the video signal by wire, and is connected to the optical fiber 53 and the wired video signal A plurality of green lenses 52 are formed for each pixel of the screen 22.

In addition, a glass tube 54 is formed to surround the contact portion between the green lens 52 and the optical fiber 53 to prevent leakage of light.

Here, the configuration of the light absorbing means 30 and the light transmitting means 50 is similar, the green lens (32, 52) when the light is introduced to one side such an image of the light to the optical fiber 33 as an optical signal When the optical signal transmitted from the optical fiber 53 is introduced to one side, the image signal is irradiated with light.

Meanwhile, pigtails 35 and 55 are formed at ends of the optical fibers 33 and 53 so that the optical fibers 33 and 53 are stably fixed to the glass tubes 34 and 54.

In addition, it is preferable to employ an optical fiber to transmit an image to the wired carrier 40. The optical fiber of the wired carrier 40 has one end of each of the plurality of optical fibers 33 formed in the light absorbing means 30. The other end may be connected to each of the plurality of optical fibers 53 formed in the light transmitting means 50.

In addition, the wire transfer body 40 and each of the optical fibers 33 and 53 can be changed in shape so that the jack coupling.

Effects and effects of the present invention having the above-described configuration are as follows.

The micro lens panel 31 which receives the image generated by the engine 21 transmits the light subdivided into the respective images to the green lens 32 of the light suction means 30, and the green lens 32 provides the image information. To the optical fiber 33.

Then, the optical fiber 33 and the wire carrier 40 transmits the image information by wire, the optical fiber 53 of the optical output means 50 to the green lens 52 to transmit the image signal transmitted to the wire. The green lens 52 irradiates the transmitted image to each pixel of the screen 22.

Then, the image generated by the engine 21 is transmitted by wire and transmitted to each pixel of the screen 22, whereby an image is formed on the screen 22.

On the other hand, Figure 4 is an embodiment of the present invention, according to the projection television according to the image reproduction unit 61 with the engine and the light absorbing means, the display unit 62 and the wire delivery carrier 40 provided with the light transmitting means and the screen Is made of.

In this case, a terminal for transmitting an image signal to an optical fiber is provided on the rear surface of the image reproduction unit 61 and the display unit 62, and the wire transfer unit 40 is jack-coupled to such a terminal, and the engine of the image reproduction unit 61 is provided. The image information generated by is imaged on the screen of the display unit 62 via a wired line.

Therefore, unlike conventional projection televisions, no space for mirrors or image expansion is required, and thus, projection televisions can be manufactured in a thin and simple form.

In addition, the leakage of the image light of the engine is minimized and transmitted to the wire, thereby improving the quality of the image.

In particular, since the display unit 62 only needs light transmitting means for projecting an optical signal to the screen, a separate power device is not required, and thus the display unit 62 can be manufactured in an ultra-thin film type.

As described above, in the structure of the projection television according to the present invention, the image light of the engine is transmitted to the screen through a wire, thereby eliminating the need for a conventional mirror or a space for image expansion.

This greatly reduces the size of the projection television itself, and has the effect of diversifying the shape of the projection television itself.

In addition, since the image light of the engine is stably transmitted by the optical fiber without external leakage, there is an advantage that the preservation of the image quality is improved.

Claims (5)

A micro lens panel comprising a plurality of micro lenses for sucking an image output from an engine; A plurality of green lenses that absorb incident light from each of the micro lenses; An optical fiber connected to each of the green lenses to receive an incident light signal; A light absorbing means having a glass tube surrounding the contact portion of the optical fiber and the green lens to convert an image output from the engine into an optical signal; A wired carrier for transmitting an optical signal introduced by one end of the optical fiber to the wired wire; And a light transmitting means connected to the other end of the wire carrier to irradiate an optical signal to the screen for each pixel. delete The optical transmission apparatus according to claim 1, wherein the light transmitting means comprises: an optical fiber connected to a wired carrier to transmit an image signal by wire; A plurality of green lenses connected to the optical fiber and irradiating a wired video signal for each pixel of the screen; And a glass tube surrounding a contact portion of the green lens and the optical fiber. The structure of a projection television according to claim 1 or 3, wherein a pigtail is formed at an end of the optical fiber. The structure of a projection television as set forth in claim 1 or 3, wherein said cable carrier is made of an optical fiber.

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