KR100700738B1 - A structure of projection engine - Google Patents

Abstract

The present invention relates to a structure of a projection engine, and more particularly, a plurality of light sources for irradiating one color light; It includes a plurality of dichroic mirrors reflecting only the light irradiated corresponding to each of the light sources, the dichroic mirror through a dichroic mirror by adopting a structure of a projection engine that sends the reflected light to the lens Since the reflected light is moved directly to the lens without passing through the prism, the prism which causes the high cost is removed from the engine, thereby lowering the unit cost of the product and using a high-brightness light source.

Dichroic mirror, projection, television, light source, engine

Description

A STRUCTURE OF PROJECTION ENGINE}             

1 is a schematic diagram illustrating a conventional projection television.

2 is a view schematically showing a light reflection structure of a conventional engine.

Figure 3 is a first embodiment schematically showing the internal configuration according to the light source arrangement of the projection engine according to the present invention.

Figure 4 is a second embodiment schematically showing the internal configuration according to the light source arrangement of the projection engine according to the present invention.

Figure 5 is a third embodiment schematically showing the internal configuration according to the light source arrangement of the projection engine according to the present invention.

6 is a fourth embodiment schematically showing an internal configuration according to a light source arrangement of a projection engine according to the present invention.

* Explanation of symbols for main parts of drawings *

30 engine 31 housing

32: lens 34: light source

35 dichroic mirror

The present invention relates to a structure of a projection engine, characterized in that the light reflected through the arrangement of a plurality of light sources irradiating one color light and the corresponding dichroic mirror moves to the lens without passing through the prism.

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. 1 is a schematic diagram illustrating a conventional projection television. The image display apparatus is configured to project a light including an image signal onto a screen to form a screen.

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 20 for transmitting light is installed below the main body 10, and a mirror 14 for reflecting light emitted from the engine 20 is mounted on the rear cover 12. The light reflected through the mirror 14 is projected onto the screen 11 as an image.

On the other hand, Figure 2 is a view schematically showing the light reflection structure of the conventional engine, the light irradiated from one light source 21, R, G, B light through a plurality of dichroic mirror (dichroic mirror) and total reflection mirror Each of the light beams is separated from each other, assembled at the prism 24, and then moved to the mirror 14 of FIG. 1 through the lens 25.

That is, the light irradiated from the light source 21 is reflected by the R light through the R dichroic mirror 22r, and the reflected R light is irradiated to one side of the prism 24 through the first total reflection mirror 23a. do.

The light passing through the R dichroic mirror 22r is reflected by the G light through the G dichroic mirror 22g, and the reflected G light is irradiated to the other side of the prism 24.

In addition, the light passing through the G dichroic mirror 22g becomes B light, which is irradiated to another side of the prism 24 through the second and third total reflection mirrors 23b and 23c. .

However, the prism has a problem in that the size of the television is higher than that of other parts and the unit price of the parts is high.

In addition, the prism has a problem that the luminance is lowered because the reflectance is lower than that of the dichroic mirror.

In order to prevent the lowering of the brightness, a light source having a higher brightness is adopted. In this case, the heat generated by the engine itself is high, causing damage to the product and shortening the lifespan.

Accordingly, the present invention has been made to solve the above problems, the present invention is to allow a plurality of light sources for irradiating one color light propagated directly to the lens without going through a prism through a dichroic mirror or its own positioning The purpose is to remove the prism from the component.

The present invention for achieving the above object is a plurality of light sources for irradiating one color light; And a plurality of dichroic mirrors reflecting only the light irradiated corresponding to the respective light sources, wherein the dichroic mirrors send the reflected light to the lens.

In the above engine structure, the light reflected through the dichroic mirror is directly moved to the lens, thereby removing the prism that causes the conventional high cost from the engine, thereby lowering the unit cost of the product and using a high brightness light source.

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.

3 to 6 are various embodiments showing the internal configuration according to the light source arrangement of the projection engine according to the present invention.

As shown, the engine 30 according to the present invention is a lens 32 protrudes to one side of the housing 31 forming an external shape, a plurality of light sources 34 are individually inside the housing 31. Color light (eg, R light, G light, and B light) is irradiated.

In addition, a plurality of dichroic mirrors 35 corresponding to the respective light sources 34 are provided, and each of the dichroic mirrors 35 reflects only the light of the corresponding light source 34 to the lens ( 32) Design by considering position or angle to send.

In this case, each of the light sources 34 is normally mounted in the projection engine 30, and includes an LED backlight unit, an LCD panel, a filter, a lens, and the like, and a detailed description thereof will be omitted.

The present invention having the above configuration eliminates the conventional prism and enables the design of various types of engines 30 through the arrangement of a plurality of light sources 34 and dichroic mirrors 35 for irradiating one color light. Become.

Hereinafter, various embodiments will be described with reference to the drawings, and the position of each light source may be changed according to design.

3, which is a first embodiment, has three light sources 34 positioned at the rear of the lens 32 so that light is reflected through the dichroic mirror and moved to the lens 32. Three light sources 34 are arranged in a line in the direction of inclination of 90 degrees, and the dichroic mirror 35 corresponding to the light sources 34 is also arranged in a line.

More specifically, R light sources 34r, G light sources 34g, and B light sources 34b are arranged in a row in the housing 31, and R dichroic mirrors 35r corresponding to the light sources are respectively arranged. ), The G dichroic mirror 35g and the B dichroic mirror 35b are arranged inclined in a line.

Therefore, the R light irradiated from the R light source 34r is reflected by the R dichroic mirror 35r to move to the lens 32, and the G light irradiated from the G light source 34g is the G dichroic mirror ( 35g) is reflected and moved to the lens 32, and the B light irradiated from the B light source 34b is reflected by the B dichroic mirror 35b to move to the lens 32.

In the second embodiment of FIG. 4, three light sources 34 are located behind the lens 32, two light sources irradiate the light through the dichroic mirror, and one light source directly to the lens. By irradiating the light source, the two light sources are arranged in a line in a direction inclined 90 degrees with the lens, the dichroic mirror 35 corresponding to the light source 34 is also arranged in a line, and the other light source ( 34 is irradiated directly to the lens 32 without dichroic mirrors on the same line as the lens 32.

That is, more specifically, R light sources 34r and G light sources 34g are arranged in a line inside the housing 31, and R dichroic mirrors 35r and G dichroic corresponding to the light sources are respectively arranged. The mirrors 35g are disposed to be inclined in a line.

In addition, the B light source 34b is provided to be positioned on the same line as the lens 32.

Therefore, the R light irradiated from the R light source 34r is reflected by the R dichroic mirror 35r to move to the lens 32, and the G light irradiated from the G light source 34g is the G dichroic mirror ( 35g) is reflected to the lens 32, and the B light irradiated from the B light source 34b passes through the dichroic mirror and moves directly to the lens 32.

5 is a structure in which two light sources are symmetrical to the rear of the lens to send light to the lens through a dichroic mirror, and one light source directly irradiates the light to the lens. The lens 32 is symmetrically disposed in a direction of 90 degrees inclination, and the dichroic mirror 35 corresponding to the light source 34 is also symmetrically disposed, and the other light source 34 is the lens 32. ) Is directly irradiated with the lens 32 without dichroic mirrors on the same line as the above, the above structure can reduce the volume of the engine 30.

More specifically, the R light source 34r and the G light source 34g are symmetrically disposed at both sides of the lens 32 in the housing 31 and R dichroic corresponding to the light sources, respectively. The mirror 35r and the G dichroic mirror 35g are also symmetrically arranged with respect to the lens 32.

In addition, the B light source 34b is provided to be positioned on the same line as the lens 32.

Therefore, the R light irradiated from the R light source 34r is reflected by the R dichroic mirror 35r to move to the lens 32, and the G light irradiated from the G light source 34g is the G dichroic mirror ( 35g) is reflected to the lens 32, and the B light irradiated from the B light source 34b passes through the dichroic mirror and moves directly to the lens 32.

On the other hand, FIG. 6, which is a fourth embodiment, uses six light sources to improve color expressive power, and the three light sources 34 are symmetrically arranged in a line in a direction of inclining 90 degrees behind the lens 32, respectively. The dichroic mirror 35 corresponding to the light source 34 is also symmetrically arranged in a line.

More specifically, the R light source 34r, the G light source 34g, and the B light source 34b are arranged in a line on the right side of the housing 31 and the M light source ( 34m), the C light source 34c and the Y light source 34y are arranged in a line.

R dichroic mirrors 35r, G dichroic mirrors 35g, B dichroic mirrors 35b and M dichroic mirrors 35m, and C dichroic mirrors respectively corresponding to the light sources. 35c, the Y dichroic mirror 35y is disposed to be symmetrically inclined in a line.

Therefore, the R light irradiated from the R light source 34r is reflected by the R dichroic mirror 35r to move to the lens 32, and the G light irradiated from the G light source 34g is the G dichroic mirror ( 35g) is reflected to the lens 32, and the B light irradiated from the B light source 34b is reflected by the B dichroic mirror 35b to move to the lens 32.

Similarly, the M light irradiated from the M light source 34m is reflected by the M dichroic mirror 35m to move to the lens 32, and the C light irradiated from the C light source 34c is a C dichroic mirror ( Reflected by 35c) and moved to the lens 32, the Y light irradiated from the Y light source 34y is reflected by the Y dichroic mirror 35y to move to the lens 32.

As described above, the structure of the projection engine according to the present invention does not use a prism, thereby lowering the unit cost of the engine product and simplifying the process.

Further, since one color light is irradiated from each light source, even if each color light brightness is increased, there is an advantage of extending the life of the engine by lowering the amount of heat generated by the conventional one light source.

In addition, the arrangement of each light source and dichroic mirror has an effect of significantly reducing the volume of the engine.

Further, by using three or more color lights based on the concept that separate color light is radiated from each light source and moved to the lens, there is an advantage of improving color expression power of the television.

Claims (5)

delete delete A plurality of light sources for irradiating one color light; It includes a plurality of dichroic mirrors reflecting only the light irradiated corresponding to each of the light sources to send to the lens, Two light sources are arranged in a row at the rear of the lens, Two dichroic mirrors respectively corresponding to the light sources and reflecting light emitted from the light source to the lens are arranged in a line, And a light source arranged in a straight line of the lens to directly irradiate the lens. A plurality of light sources for irradiating one color light; It includes a plurality of dichroic mirrors reflecting only the light irradiated corresponding to each of the light sources to send to the lens, Two light sources are symmetrically arranged behind the lens, Two dichroic mirrors respectively corresponding to the light source and reflecting the light emitted from the light source to the lens are disposed symmetrically, And a light source arranged in a straight line of the lens to directly irradiate the lens. A plurality of light sources for irradiating one color light; It includes a plurality of dichroic mirrors reflecting only the light irradiated corresponding to each of the light sources to send to the lens, In the rear of the lens, six light sources are arranged symmetrically in a row, and six dichroic mirrors for reflecting light emitted from the light source to the lens are disposed symmetrically to correspond to the light sources. rescue.

Images