KR101244862B1 - Beam projector to make laser beam mixing - Google Patents

Abstract

The present invention relates to a laser light mixer for a beam projector, by using each of the three primary laser diodes of RGB without the filter of the light source to make a laser beam of the three primary colors into a single light beam line is transmitted to the optical fiber, there is no filter Laser light mixer for beam projectors that can efficiently transfer the image signal of three primary laser diodes by adjusting the size of the dot of the light beam line emitted through the optical fiber without any phenomenon that the power of the three primary lasers is attenuated. It is about.
Laser light mixers for beam projectors of the present invention for this purpose, the laser diode to emit light from the three primary color light emitting diodes of the red, blue, green; A fixed base plate having a plurality of apertures having a spaced position such that the light emitting diodes are spaced at predetermined intervals and inserted and fixed; An optical fiber inserted and fixed in the center of the fixed base plate; A case having the fixed base plate mounted to one side and having a predetermined depth to accommodate the light generated by the laser diode and having a reflecting mirror on one surface thereof; It consists of.

Description

Beam projector to make laser beam mixing

The present invention relates to a laser light mixer for a beam projector, and more particularly, by using each of the three primary laser diodes of RGB to convert the laser light of the three primary colors into a single light beam line without using a filter as a light source to be transmitted to the optical fiber. Without many filters, the power of the three-color laser is not attenuated. The beam projector can efficiently transmit the image signal of the three-color laser diode by adjusting the size of the dot of the light beam line emitted through the optical fiber to a desired size. It relates to a laser light mixer for use.

In general, since a conventional light source uses a metal haloid lamp or other discharge lamp, it is necessary to install a separate cooling device to cool the heat because a lot of heat is generated, which increases the volume and weight of the projector, thereby increasing the price of the projector. At the same time, there is a problem that it is difficult to obtain high brightness as a factor, and in recent years, a laser beam capable of obtaining high brightness and having low brightness is used as a light source.

In addition, in the conventional method of realizing an image of a projector, a liquid crystal display has been mainly used, which is divided into a transmission type and a reflection type. The transmissive liquid crystal display transmits only about 25% of the light while transmitting light, reducing the brightness of the light source and reducing the efficiency. In the case of the reflective liquid crystal display, the transmissive liquid crystal reflects about 50% of the incident light as compared to the transmissive liquid crystal display. The efficiency is twice as high as the indicator.

However, there is a limit in increasing light efficiency even when using a transmissive liquid crystal display.

In the projector using a conventional laser beam, as shown in FIG. 1, an image signal input to an image input unit (not shown) is processed by an image processing unit (not shown), and is separated into a vertical horizontal synchronization signal and an RGB image signal. The RGB image signal is always oscillated and processed together with the laser diode module 13 which is transmitted to the optical modulator 14 to pass light of a corresponding color, and the transmitted light passes through the total reflection mirror 15 of the optical mixer 17. ) And the polarizing beam splitter 16 emit light into one beam.

At this time, the conventional light mixer is a light combiner (beam combiner) 17 of the three-color pulsed laser system while passing through a plurality of filters to position the laser beams spatially coaxially overlapping the position and direction of the beam It is a device for matching the size.

The emitted beam is projected onto the screen 10 by the diffusing optical system 19 via the scanning means 18 composed of horizontal and vertical scanning means 18a and 18b, which are vertical and horizontal in position. And determine the position in synchronization with.

As described above, in the projector using the conventional laser beam configured, a laser as a light source is separated into an RGB image signal through an image processing unit, and the RGB image signal is divided into a plurality of optics such as an optical modulator 14 and a light mixer 17. There is a problem that the efficiency is reduced every time it passes through or reflects through the device.

In addition, due to the structural complexity, especially expensive optical modulator 17 and the liquid crystal display, the volume is increased, and because it is manufactured in large and expensive, such an expensive projector for presentation in a small office presentation or research lab There was a problem that can not be used.

An object of the present invention for solving the problems according to the prior art, by using each of the three primary laser diode of the RGB light source without using a filter to make the laser color of the three primary colors into a single light beam line to be transferred to the optical fiber Without a filter, the power of the three primary lasers is not attenuated. The beam projector can transmit the image signal of the three primary laser diodes efficiently by adjusting the dot size of the light beam line emitted through the optical fiber to a desired size. A laser light mixer is provided.

Laser light mixers for beam projectors of the present invention for solving the above technical problem, the laser diode is emitted from the three primary color light emitting diodes of the red, blue, green; A fixed base plate having a plurality of apertures having a spaced position such that the light emitting diodes are spaced at predetermined intervals and inserted and fixed; An optical fiber inserted and fixed in the center of the fixed base plate; A case having the fixed base plate mounted to one side and having a predetermined depth to accommodate the light generated by the laser diode and having a reflecting mirror on one surface thereof; Characterized in that consisting of.

Preferably, the fixing base plate, characterized in that the fixing to the position spaced apart at a predetermined interval the light emitting diode around the center of the optical fiber fixed in the center.

Preferably, the reflector is mounted on one side of the reflector case, characterized in that it comprises reflecting the laser light emitted into the case.

Preferably, the reflector is to combine the three light emitted from the three primary color light emitting diodes in the spaced apart position to reflect through the reflector to combine in one light beam line to transmit to the optical fiber It is characterized by including.

Preferably, the light beam line received from the reflector is made to be uniformly emitted by making a dot (dot) of the desired size through an optical fiber that is adjusted to emit a predetermined size It is characterized by including.

Preferably, the fixed base plate and the case is characterized in that the aluminum material for heat radiation.

As described above, the present invention uses three primary laser diodes of RGB, so that the three primary colors of the laser are made into a single light beam line without using a filter as a light source and are transmitted to the optical fiber. There is an effect that no power is attenuated.

In addition, it is possible to adjust the size of the dot (dot) of the light beam line emitted through the optical fiber by the laser color of the three primary colors are reflected from the reflector.

In addition, it is a very useful invention because it combines the laser diodes of each of the three RGB primary colors into a single light beam line through a reflector to simplify the optical path and at the same time structurally simple, improve the light efficiency and reduce the cost .

1 is a view showing a configuration of a conventional beam projector and a light mixer.
2 is an exploded perspective view showing a laser light mixer for a beam projector according to the present invention.
Figure 3 is a side cross-sectional view of a laser light mixer for a beam projector according to the present invention.
4 is a schematic diagram showing light mixing of a laser light mixer for a beam projector according to the present invention;

According to an aspect of the present invention,

Laser diodes emitting light from the three primary color light emitting diodes of the red, blue, and green colors;

A fixed base plate having a plurality of apertures having a spaced position such that the light emitting diodes are spaced at predetermined intervals and inserted and fixed;

An optical fiber inserted and fixed in the center of the fixed base plate;

A case having the fixed base plate mounted to one side and having a predetermined depth to accommodate the light generated by the laser diode and having a reflecting mirror on one surface thereof; By providing a laser light mixer for a beam projector, characterized in that consisting of.

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

Prior to this, terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms, and the inventor should appropriately interpret the concepts of the terms appropriately It should be interpreted in accordance with the meaning and concept consistent with the technical idea of the present invention based on the principle that it can be defined.

Therefore, the embodiments described in the present specification and the configurations shown in the drawings are only the most preferred embodiments of the present invention, and not all of the technical ideas of the present invention are described. Therefore, It should be understood that various equivalents and modifications are possible.

2 is an exploded perspective view showing a laser light mixer for a beam projector according to the present invention.

As shown, the laser light mixer for the beam projector according to the present invention uses each of the three primary laser diodes 110 of RGB to convert the laser colors of the three primary colors into one light beam line 102 without using a light source filter. Because there are no many filters because the filter is transmitted to the optical fiber 130, the size of the dot of the light beam line 120 emitted through the optical fiber 130 can be adjusted to a desired size without the phenomenon that the power of the laser of the three primary colors is attenuated. The present invention relates to a laser light mixer (100) for a beam projector that can efficiently transmit an image signal of a primary laser diode (110).

The laser light mixer 100 for the beam projector is basically a laser diode 110 constituting three primary color light emitting diodes of the red light emitting diode 112, the blue light emitting diode 114, and the green light emitting diode 116 and fixed thereto. The case which collects the laser emitted from the optical fiber 130 and the three-color laser diode 110 of RGB embedded in the center of the fixed base plate 120 and the fixed base plate 120 to one side of the optical fiber 130 in the center ( It is composed of a reflector 142 mounted inside the 140.

First, the laser diode 110 refers to a three-color laser diode 110 that emits RGB of the light emitting diode 112, the blue light emitting diode 114, and the green light emitting diode 116.

This is to process the image signal input from the image processing unit of the beam projector, extract the RGB image signal, and the corresponding light emitting diode of the laser diode 110 of the three primary colors is operated according to the extracted RGB image signal.

Thus, the laser diode 110 of three primary colors emits three primary colors of lasers by the video signal.

Such, the three primary colors of the light emitting diodes 112, the blue light emitting diodes 114, and the green light emitting diodes 116 emitted from the laser diode 110 is fixed to the fixed base plate 120 to be disposed at a predetermined position, respectively. do.

The fixed base plate 120 is provided with a plurality of through holes 122 so that the light emitting diodes 112, the blue light emitting diodes 114, and the green light emitting diodes 116 are spaced apart from each other at predetermined intervals so as to be inserted and fixed. Is formed.

In addition, the optical fiber 130 is inserted and fixed at the center of the fixed base plate 120.

That is, the fixed base plate 120 is to fix the optical fiber 130 fixed in the center at a position spaced apart by the light emitting diode at predetermined intervals.

In addition, the fixed base plate 120 is inserted into one side of the case 140.

The reflector 142 is inserted into one side of the case 140 to a predetermined depth.

Here, the case 140 is provided with a space that can accommodate the three primary colors of light emitted from the laser diode 110 included in the fixed base plate 120.

Meanwhile, the fixed base plate 120 to which the laser diode 110 and the optical fiber 130 are assembled, and the case 140 to be assembled with the fixed base plate 120 can be effectively radiated by using aluminum as a material. have.

In addition, the reflector 142 existing inside the case 140 is mounted on one side of the case 140 to reflect the laser light emitted into the case 140.

In addition, the reflector 142 is coupled to one light beam line 102 while reflecting through the reflector 142 three light emitted from the three primary color light emitting diode in the spaced position as shown in FIG. It plays a role.

One light beam line 102 coupled by the reflector 142 is transmitted to the optical fiber 130 again.

The reflector 142 is configured such that three primary colors of light are generated by the laser diode 110 so that most of the incident light is reflected by the reflector 142 so as to be concentrated toward the center of the optical fiber 130 positioned at the center.

To this end, the reflector 142 is provided on one side of the case 140 to have a size that can accommodate most of the light incident from the three primary colors generated from the laser diode 110 installed in the fixed base plate 120. The reflector 142 is provided at one side of the case 140 having a predetermined depth inwardly.

In addition, a reflector 142 is formed on a surface facing the fixed base plate 120 to horizontally reflect the transmitted light.

As such, the light beam line 102 received from the reflector 142 may be made into a dot having a desired size through the optical fiber 130 for adjusting a predetermined size to be emitted, and the light passing through the optical fiber 130. Beamline 102 exits uniformly.

As shown in FIGS. 3 and 4, the light mixer 100 simplifies the optical path by combining the laser diodes 110 of each of three RGB colors with one light beam line 102 through the reflector 142. At the same time, the structure of the device is simple, can improve the light efficiency and reduce the cost, the three primary colors of the conventional RGB is separated, and the three primary colors laser of the RGB is the same as the filter of the optical modulator and the light mixer 100 There is no decrease in efficiency each time it passes or reflects through multiple optics.

The laser diode is a different type of laser light mixer 100, that is, for example, conventional combiners to use a three primary color using a filter, three color primary laser because many colors pass through the filter to mix This phenomenon occurs that the power of the laser light mixer 100 of the present invention does not have a filter, so there is no attenuation of the laser of the three primary colors, and no filter is required, so the production is simple, the production cost is reduced, and miniaturization Will be able to achieve.

On the other hand, the projector equipped with the optical mixer of the present invention can be used in TV, VTR, camera, PC and the like and generally can be used for projector or projection.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. Various modifications and variations are possible within the scope of the appended claims.

100: light mixer 102: light beam line
110: laser diode 112: rad light emitting diode
114: blue light emitting diode 116: green light emitting diode
120: fixed base plate 122: through
130: optical fiber 140: case
142: Reflector

Claims (6)

In the optical mixer formed to transmit an image signal in the beam projector,
Laser diodes emitting light from the three primary color light emitting diodes of the red, blue, and green colors;
A fixed base plate in which the laser diodes are spaced apart from each other on the same plane and fixedly supported side by side with an optical axis of a concave reflector;
An optical fiber inserted and fixed in the center of the fixed base plate so as to be positioned on an optical axis of a concave reflector;
A case having a concave reflector mounted on one side of the fixed base plate to reflect light emitted from the laser diodes to the optical fiber; Laser light mixer for a beam projector, characterized in that consisting of.
The method of claim 1,
The fixed base plate,
A laser light mixer for a beam projector, comprising: fixing an optical fiber fixed at a center thereof at a position spaced apart at predetermined intervals by a light emitting diode.
delete delete delete The method of claim 1,
The fixed base plate and the case is a laser beam mixer for beam projector, characterized in that the aluminum material for heat radiation.

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