KR101778298B1 - 3 dimensional image system - Google Patents

Abstract

The present invention relates to a non-polarized laser light source device and a projector capable of minimizing the deformation of a color and the speckle of a projected image by outputting light having various polarization axes by using a light source having a plurality of polarization axes, Wherein each of the laser diodes includes a non-polarized laser light source device arranged so that the angle of a polarization axis of output light is two or more, a plurality of light source units arranged to output a light beam along a plurality of optical paths, And a combining unit for combining the plurality of light beams into a single combined light beam, wherein the combined light beam provides a non-polarized projector consisting of two or more polarization axes. Therefore, since there are a plurality of polarization axes, color distortion and coherence can be remarkably reduced.

Description

[0002] A three-dimensional image system

The present invention relates to a three-dimensional image processing system, and more particularly, to a three-dimensional image processing system capable of minimizing speckle of color distortions and projected images by outputting light having various polarization axes by using a light source having a plurality of polarization axes. Dimensional image.

Recently, image projectors use a separate light source for red (R), green (G), and blue (B) colors to implement a desired image. In many cases, a laser light source with good light efficiency is used. Such a video projector basically implements the desired image by mixing light from each RGB light source and scanning it on the screen.

1 is a perspective view showing a laser diode.

A typical semiconductor laser diode 1 is shown in which a Bragg reflector (DBR) is provided on the upper and lower sides of an active layer to emit light perpendicular to the crystal growth plane.

The portion indicated by the arrow indicates the polarization direction of the laser diode, and the light source made of the laser diode has polarized light by its characteristics.

2 is a conceptual diagram showing a basic concept of a laser light source device in which the laser diode is arranged.

Each of the laser diodes 1 is arranged with a predetermined rule for accurate light output to form the laser light source device 2.

The arrow (a) shown at the bottom of the figure shows the polarization direction of the light synthesized from the laser diodes 1.

Therefore, the projector using such a laser light source device has a characteristic in which the output polarized state of the laser beam is output with a specific direction, and the polarization state in a specific direction is maintained even when the screen is reflected.

However, in the case of using such a light source device, light from each light source causes coherence, thereby generating a speckle that realizes an undesired shape.

On the other hand, when realizing a 3D image using such a laser light source device, special glasses such as active shutter glasses or passive shutter glasses are used. Due to the polarization state of the laser light incident on the glasses and the state of the polarization axis of the glasses A certain angle may be formed between the light from the screen and the polarization axis of the glasses, which has the problem that some colors are deformed.

SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to provide a laser light source device and a projector capable of reducing the coherence of a light source to reduce speckle and to protect a user's eye by reducing the directivity of the light source .

It is another object of the present invention to provide a non-polarized laser light source device and a projector that prevent color distortion caused by an angle with the polarization axis of a spectacle according to a posture of a user when viewing a 3D image.

A non-polarized light source apparatus according to the present invention is a light source apparatus comprising a plurality of laser diodes, each of the laser diodes being arranged so that the angle of polarization axis of output light is two or more. Therefore, since there are a plurality of polarization axes, color distortion and coherence can be remarkably reduced.

The non-polarized light source device according to the present invention further comprises color combining means arranged on the optical path of the plurality of laser diodes for combining the plurality of lights into a combined light beam, The combined light beam provides a non-polarized laser light source device having two or more polarization axes. Therefore, the light beam output from the light source device can be output in the unpolarized state.

Further, the non-polarized light source device according to the present invention provides a non-polarized laser light source device in which adjacent laser diodes are arranged such that their polarization axes have an angle difference of 15 degrees with each other. Accordingly, there is an advantage that light can be output to the polarization axes of eight directions, and color distortion due to the color implementation environment can be prevented.

Meanwhile, a non-polarized light projector according to the present invention includes a plurality of light source units arranged to output a light beam along a plurality of optical paths and a combining unit for combining the plurality of light beams into a single combined light beam, The composite light beam provides a non-polarized projector having two or more polarization axes. Therefore, there is an advantage that color distortion of the projector image can be prevented.

Further, the non-polarized light projector according to the present invention provides the non-polarized light projector in which the plurality of light source units are arranged to have two or more polarization axes.

Further, the non-polarized projector according to the present invention provides the non-polarized projector wherein the light source unit is a laser diode or a light emitting diode. Therefore, it is possible to prevent coherence and color distortion of light output from various light sources.

The non-polarized light projector according to the present invention further includes a non-polarized projector disposed on the optical path of the light beam output from the light source unit and further including a wavelength conversion material for emitting the wavelength of the light beam to light of another wavelength to provide. Therefore, a projector capable of preventing color distortion due to polarization while having various peak wavelengths is provided.

The non-polarized laser light source device and the projector according to the present invention configured as described above are arranged so that the polarization axes of the light sources are arranged so as to be plural, so that the coherency of the color is remarkably reduced and the speckle can be reduced. It is possible to prevent the color distortion due to the angular difference, and the straightness of the light is reduced, which is advantageous for protecting the eyes.

1 is a perspective view showing a conventional laser diode;
2 is a conceptual diagram showing a conventional laser light source device.
3 is a conceptual diagram illustrating a laser light source device according to the present invention.
4 is a conceptual diagram illustrating polarization of a 3D projector according to the present invention;
5 is a conceptual diagram of a light source including a wavelength converting material according to the present invention.

Hereinafter, a non-polarized laser light source device and a projector according to preferred embodiments of the present invention will be described in detail with reference to the drawings.

3 is a conceptual diagram showing a non-polarized laser light source device according to the concept of the present invention.

When laser diodes, which are a plurality of laser light sources, are arranged to constitute a laser light source device, polarization is generated and the color distortion is caused by the angle between the polarization axis of the glasses, Is as described above.

In order to solve such a problem, according to the concept of the present invention, the laser diodes 10 of the non-polarized light source device 20 are arranged to have two or more polarization axes.

Preferably, the laser diode 10 is disposed such that the polarization axis thereof is adjacent to the adjacent laser diode at a predetermined angle.

For example, in FIG. 3, the angle between the polarization axes of adjacent laser diodes is arranged to form 45 degrees. More specifically, in each row, the polarization axis is disposed while rotating at an angle of 45 degrees in the counterclockwise direction from the left.

Each of the laser diodes 10 is arranged to form the light source device 20. In this case, the light beams emitted from the laser diodes 10, which are the respective light sources, pass through the respective optical paths.

In order to utilize this as a light source, it is preferable that color combining means (not shown) disposed on the light paths is disposed. As the color synthesizing means, an apparatus such as a light reflecting means or a refraction means can be used.

The color synthesizing means synthesizes the light beams from the respective laser diodes 10 and forms a combined light beam so that it can be used as a light source such as a projector or an illumination.

The polarization axis of the above-mentioned synthesized light beam is shown by an arrow (b) at the lower end of Fig. In the example of Fig. 3, since the respective polarization axes are arranged so as to form four directions, in the case of the combined light beam, the light has four polarization axes b.

In the case where the light source device outputs a light beam having various polarization axes as described above, it is possible to prevent the color deformation according to the optical environment conditions. This concept will be described in more detail with reference to FIG.

4 is a conceptual diagram illustrating angles between glasses and a polarization axis used in viewing a 3D image of a projector to which a light source device according to the concept of the present invention is applied.

The light beam output from the light source device is projected onto the screen 30 by a predetermined image, and the user recognizes the light reflected from the screen 30. 3D images can be viewed through the glasses shown in the drawings.

When the polarization axis alpha of the spectacles is formed in the horizontal direction, color distortion does not occur when the polarization axis of the light beam is in the horizontal direction as in the left drawing of Fig. 4. However, When the polarization axis alpha and the polarization axis of the image form a predetermined angle [theta], color deformation occurs.

In order to compensate for such a color deformation phenomenon, a light source device in which each light source has various polarization axes is provided as in the concept of the present invention.

In Fig. 4, the case where the polarization axis of the image forms two directions is shown. In this case, the angle between the polarization axes is 90 degrees, and when the polarization axis alpha of the glasses is an angle therebetween, image distortion may occur.

Therefore, in order to reduce the difference in angle, it is more preferable that the polarization axis is in the above-mentioned four directions or more. For example, when 24 light sources are arranged, they may be arranged to form an angle of 15 degrees with each other.

According to the concept of the present invention, when each of the light sources is arranged to have various polarization axes, it is possible to prevent chrominance due to the angle formed with the polarization axis of the glasses when viewing the 3D image, The coherence between the two images can be reduced, so that speckle, which is a phenomenon in which an undesired pattern of the projected image occurs, can be remarkably reduced. In addition, since the linearity of the light beam is reduced, fatigue or damage to the eyes of a person who senses the light can be remarkably reduced.

5 is a conceptual diagram illustrating a light source in which a wavelength converting material is disposed.

On the light beam path of the laser diode 10, an imaging optical system 11 for condensing is disposed, and in front of it, a rotating wheel 12 including a wavelength converting material is disposed.

The rotating wheel 12 has a disc shape and is divided into two or more parts, each of which contains a different kind of wavelength conversion material.

Generally, in the case of a semiconductor light source, light having a wavelength ranging from 300 nm to 500 nm is emitted. For example, in the case of a blue light beam laser diode having a wavelength of 460 nm, In order to output the colors of green and blue, wavelength conversion materials for red and green are required.

Therefore, in this case, light passing through the wavelength converting material is output in the case of red and green, and light beam from the laser diode is outputted as it is in the case of blue.

At this time, light is output in the non-polarized state in the red and green regions, but the light in the polarized state is directly output in the blue region, so that the above-described coherence and color deformation can occur.

Therefore, according to the concept of the present invention, when the above-described laser diodes are arranged to have a plurality of polarization axes, the above-mentioned problem can be solved.

In the case of the light source capable of emitting multicolor as shown in FIG. 5, it can be used in a projector as well as an illumination. Also, although the rotary wheel is only an example for emitting red, green, and blue light, it is needless to say that the part and color can be variously arranged according to the selection.

Since the unpolarized laser light source device and the projector are arranged so that the polarization axes of the light sources are arranged to be plural, the color coherence is remarkably reduced and the speckle can be reduced, and the color distortion due to the angle difference of the polarization axis It has an advantage that it can be prevented. In addition, since the straightness of the light is reduced, there is an advantage that it is effective for protecting the eyes.

Although only a laser diode is illustrated as a light source in the embodiment of the present invention, it may be a light source of a light emitting diode (LED) as well as various light sources having a specific polarization direction. Further, although the case where the light source device is used as the light source of the projector has been described, it is needless to say that the concept of the present invention can be easily applied to a lighting device or various image realizing devices.

In the foregoing, the present invention has been described in detail based on the embodiments and the accompanying drawings. However, the scope of the present invention is not limited by the above embodiments and drawings, and the scope of the present invention will be limited only by the content of the following claims.

10 ... laser diode 11 ... imaging optical system
12 ... rotation wheel 20 ... light source device
30 ... screen

Claims (7)

A light source device including a plurality of light sources;
A screen for projecting light output from the light source device;
And a display unit configured to display the light reflected from the screen as a three-dimensional image,
The light source device includes:
And color synthesizing means arranged on an optical path of the plurality of light sources and synthesizing the light output from the plurality of light sources into synthesized light,
Wherein at least some of the plurality of light sources output light having polarization axes at different angles and arranged so that the angle of the polarization axis of the output light is four or more, A three-dimensional imaging system having four or more polarization axes with constant differences.
delete The method according to claim 1,
Wherein the adjacent light sources are arranged such that their polarization axes have an angle difference of 15 degrees with respect to one another.
delete delete The method according to claim 1,
Wherein each of the plurality of light sources is a laser diode or a light emitting diode.
A light source device including a plurality of light sources;
A screen for projecting light output from the light source device;
Wherein the light reflected from the screen is embodied as a three-dimensional image, and the polarizing axis of the eyeglasses is located;
An imaging optical system for focusing the plurality of light sources;
And a rotating wheel disposed in front of the imaging optical system and including a wavelength conversion material,
The rotating wheel
A red region for outputting red color by the wavelength converting material;
A rust area for outputting rust color by the wavelength converting material;
And a blue region for outputting a blue color,
Wherein at least a part of the plurality of light sources outputs light having polarization axes at different angles and the angle of the polarization axis of the output light is four or more, Wherein the polarized light is output in a non-polarized state when passing through the green region, and has four or more polarization axes having a constant angular difference between neighboring polarizing axes when passing through the blue region.

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