JP2780318B2 - Projection color display - Google Patents

Description

Description: TECHNICAL FIELD The present invention relates to a projection type color display device using a transmission type liquid crystal light valve.

[Conventional technology]

Conventionally, as described in JP-A-62-94818 and shown in FIG. 2, a white light emitted from a light source is converted into a blue light, a green light,
A projection type color display that separates red light, modulates each color light with a polarizing plate and a transmission type liquid crystal light valve, synthesizes the color with a dichroic mirror that synthesizes the color light, and projects the image on the screen with a projection lens. The device was known.

[Problems to be solved by the invention]

However, according to the conventional technology, when white light emitted from a light source is color-separated by a dichroic mirror, ultraviolet light is included in blue light and infrared light is included in red light. Among the placed polarizing plates, there is a problem that a red polarizing plate causes thermal deterioration due to infrared rays, and a blue polarizing plate deteriorates due to the chemical action of ultraviolet rays.

Therefore, the present invention solves such a problem,
An object of the present invention is to provide a projection type color display device in which a polarizing plate does not deteriorate.

[Means for solving the problem]

The projection type color display device of the present invention firstly comprises: a light source;
A projection type color display device comprising: a liquid crystal light valve for modulating light from the light source; and projection optical means for projecting light modulated by the liquid crystal light valve, wherein the liquid crystal light valve is on the light source side of the light valve. In order to prevent the infrared and ultraviolet light contained in the light from the light source from being incident on the polarizing plate, an infrared light shielding unit and an ultraviolet light shielding unit are provided in an optical path between the light source and the polarizing plate. It is characterized by being arranged.

Second, a light source, color separation means for separating the light from the light source into a plurality of color lights, a plurality of liquid crystal light valves for modulating the separated color lights, and a light modulated by the plurality of liquid crystal light valves. The projection type color display device comprising: a liquid crystal light valve, a polarizing plate disposed on the light source side of the light valve, an infrared light shielding unit and an ultraviolet light shielding unit, and the light source and the polarizing plate. And in the optical path between the light source and the color separation means.

Thirdly, the ultraviolet light shielding means is a filter that reflects ultraviolet light out of the light path from the light from the light source.

Fourth, a light source and light from the light source are red light, green light,
A color separation unit that separates blue light into red light, a first liquid crystal light valve that modulates red light after separation, and a second liquid crystal light valve that modulates green light after separation. A third liquid crystal light valve for modulating the subsequent blue light;
A projection type color display device comprising: a color synthesizing unit that synthesizes the color lights modulated by the first, second, and third liquid crystal light valves; and a projection optical unit that projects the light synthesized by the color synthesizing unit. The liquid crystal light valves each include a polarizing plate disposed on the light source side of the light valve, and an infrared light shielding unit disposed in an optical path between the light source and the polarizing plate of the first liquid crystal light valve; An ultraviolet transmission type mirror is disposed in an optical path between the color separating means and the polarizing plate of the third liquid crystal light valve as a mirror for reflecting the blue light separated by the color separating means.

Fifth, a light source and light from the light source are red light, green light,
A color separation unit that separates blue light into red light, a first liquid crystal light valve that modulates red light after separation, and a second liquid crystal light valve that modulates green light after separation. A third liquid crystal light valve for modulating the subsequent blue light;
A projection type color display device comprising: a color synthesizing unit that synthesizes the color lights modulated by the first, second, and third liquid crystal light valves; and a projection optical unit that projects the light synthesized by the color synthesizing unit. Each of the liquid crystal light valves has a polarizing plate disposed on the light source side of the light valve, and is provided in the optical path between the color separating unit and the polarizing plate of the first liquid crystal light valve by the color separating unit. An infrared transmitting mirror is arranged as a mirror for reflecting the separated red light, and an ultraviolet light shielding unit is arranged in an optical path between the light source and the polarizing plate of the third liquid crystal light valve.

〔Example〕

 An embodiment of the present invention will be described below with reference to the drawings.

FIG. 1 is a plan view of a projection type color display device of the present invention. The white light emitted from the projection light source 1 deviates from the optical path where the ultraviolet light 32 (light of about 400 nm or less) is reflected by the ultraviolet light shielding filter 2, the infrared light is absorbed by the infrared light shielding filter, and only the visible light 30 enters the light guide tube 4. Incident on.

Here, the white light that has entered the light guide tube 4 first reflects blue light (light of about 500 nm or less) by the blue reflecting dichroic mirror 5 and transmits other light (yellow light).
The direction of the reflected blue light is changed by the reflection mirror 9 and is incident on the blue modulation liquid crystal light valve 10B. At this time, blue light, which does not contain ultraviolet light, having a wavelength of about 400 nm to about 500 nm, is incident on the polarizing plate attached to the light source side of the blue modulation liquid crystal light valve.

The light transmitted through the blue reflecting dichroic mirror 5 is incident on the green reflecting dichroic mirror 6, and the green light (about 50
It reflects light between 0 nm and about 600 nm) and transmits other light, red light (light above about 600 nm). The reflected green light enters the green modulation liquid crystal light valve 10G, and the transmitted red light changes its direction by the reflection mirror 7 and the reflection mirror 8, and enters the red modulation liquid crystal light valve 10R. At this time, red light from about 600 nm to about 760 nm, which does not include infrared rays, is incident on the polarizing plate attached to the light source side of the red modulation liquid crystal light valve.

The incident color lights pass through the color modulation liquid crystal light valves 10R, 10B, and 10G to which signals for the respective colors of red, blue, and green are added, and are combined by the dichroic prism 11. The dichroic prism 11 is configured such that the red reflection surface 10R and the blue reflection surface 10B are perpendicular to each other.

The color image synthesized in this way is
The image is enlarged and projected by 12 and displayed on the screen 13.

FIG. 3 shows the transmission characteristics of the ultraviolet light shielding filter,
FIG. 4 shows the transmission characteristics of the infrared light shielding filter. FIG. 5 shows the output characteristics of a xenon lamp as a projection light source.

As shown in the above figure, among the electromagnetic waves radiated from the lamp, infrared rays 31 which are electromagnetic waves in a wavelength region of about 760 nm or more.
Is absorbed by an infrared absorption filter, and ultraviolet rays 32, which are electromagnetic waves in a wavelength region of about 400 nm or less, are reflected by the ultraviolet light shielding filter.

Embodiment 2 Hereinafter, a second embodiment of the present invention will be described with reference to the drawings.

FIG. 6 is a plan view of the projection type color display device of the present invention. The white light emitted from the projection light source 61 enters the light guide tube 62, and the white light that enters the light guide tube 62 first reflects blue light (light of about 500 nm or less) by the blue reflecting dichroic mirror 63. And other light (yellow light).

The reflected blue light is irradiated with ultraviolet light by the ultraviolet transmitting mirror 66.
32 (light of about 400 nm or less) is transmitted and deviates from the optical path, and blue light of about 400 nm to about 500 nm is reflected, changes its direction, and enters the blue modulation liquid crystal light valve 68B. At this time, the polarizing plate attached to the light source side of the blue modulation liquid crystal light valve has about 400n.
Blue light not containing ultraviolet light 32 from m to about 500 nm is incident.

The light transmitted through the blue reflecting dichroic mirror 63 is incident on the green reflecting dichroic mirror 64, and the green light (about 50
It reflects light between 0 nm and about 600 nm) and transmits other light, red light (light above about 600 nm). The reflected green light enters the green modulation liquid crystal light valve 68G.

The red light transmitted through the green reflecting dichroic mirror 64 is transmitted by the infrared transmitting mirror 65 to the infrared light 31 which is an electromagnetic wave in a wavelength region of about 760 nm or more, and the red light from about 600 nm to about 760 nm is reflected by the infrared transmitting mirror 65 and the reflected light. Mirror 67
And enter the red modulation liquid crystal light valve 68R. At this time, red light of about 600 nm to about 760 nm, which does not include the infrared rays 31, is incident on the deflection plate attached to the light source side of the red modulation liquid crystal light valve.

The incident light of each color passes through each color modulation liquid crystal light valve 68R, 68B, 68G to which a signal for each color of red, blue, and green is added, and is synthesized by the dichroic prism 69. The dichroic prism 69 is configured such that the red reflection surface 69R and the blue reflection surface 69B are perpendicular to each other.

The color image synthesized in this way is
The image is enlarged and projected by 70 and displayed on the screen 71.

〔The invention's effect〕

As described above, the projection type color display device of the present invention has a structure in which the ultraviolet light shielding filter and the infrared light shielding filter are disposed between the light source and the transmission type liquid crystal light valve, thereby reducing the load on the cooling device. This has the effect of reducing the size of the entire device and improving quietness.

In addition, by arranging both the infrared light shielding means and the ultraviolet light shielding means before the means for color-separating the light of the light source, each of the color lights passes through the light shielding means, so the amount of light attenuation by the light shielding means is It can be made uniform among the light beams of each color.

In addition, by making the reflection mirror that reflects red light or blue light after being separated into color light into an infrared transmission type or an ultraviolet transmission type, the number of additional components can be reduced and the size can be reduced.

[Brief description of the drawings]

FIG. 1 is a plan view of a projection type color display device of the present invention. FIG. 2 is a plan view of a conventional projection type color display device. FIG. 3 is a characteristic diagram of the ultraviolet light shielding filter used in the projection type color display device of the present invention. FIG. 4 is a characteristic diagram of the infrared light shielding filter used in the projection type color display device of the present invention. FIG. 5 is an output characteristic diagram of a projection lamp (xenon lamp) used in the projection type color display device of the present invention. FIG. 6 is a plan view of the projection type color display device of the present invention.

Claims (6)

(57) [Claims] 1. A projection type color display device comprising: a light source; a liquid crystal light valve for modulating light from the light source; and projection optical means for projecting light modulated by the liquid crystal light valve. A polarizing plate is disposed on the light source side of the light valve, and in order to prevent infrared light and ultraviolet light included in light from the light source from being incident on the polarizing plate, an infrared light shielding unit and an ultraviolet light shielding unit are provided. A projection type color display device, which is arranged in an optical path between the plate and a plate. 2. A light source, a color separation means for separating light from the light source into a plurality of color lights, a plurality of liquid crystal light valves for modulating the separated color lights, and a light modulated by the plurality of liquid crystal light valves. A projection type optical display device for projecting light, wherein the liquid crystal light valve is provided with a polarizing plate on the light source side of the light valve, and the infrared light shielding means and the ultraviolet light shielding means are provided with the light source and the polarized light. A projection type color display device, wherein the projection type color display device is arranged in an optical path between a plate and a light source and the color separation means. 3. The projection type color display device according to claim 1, wherein said ultraviolet light shielding means is a filter for reflecting ultraviolet light of the light from said light source out of said optical path. 4. The projection type color display device according to claim 2, wherein said ultraviolet light shielding means is a filter for reflecting ultraviolet light out of the light from said light source out of said optical path. 5. A light source, a color separation means for separating light from the light source into red light, green light and blue light, and a first liquid crystal light valve for modulating the separated red light; A second liquid crystal light valve that modulates the separated green light, a third liquid crystal light valve that modulates the separated blue light, and modulation by the first, second, and third liquid crystal light valves. In a projection type color display device comprising a color synthesizing means for synthesizing the combined color light, and a projection optical means for projecting the light synthesized by the color synthesizing means, A polarizing plate is arranged, and an infrared light shielding unit is arranged in an optical path between the light source and the polarizing plate of the first liquid crystal light valve. The color separating unit and the polarizing plate of the third liquid crystal light valve are arranged. The color separating means in the optical path between A projection type color display device, wherein an ultraviolet transmission type mirror is arranged as a mirror for reflecting the blue light separated by the method. 6. A light source, a color separating means for separating light from the light source into red light, green light and blue light, and a first liquid crystal light valve for modulating the separated red light; A second liquid crystal light valve that modulates the separated green light, a third liquid crystal light valve that modulates the separated blue light, and modulation by the first, second, and third liquid crystal light valves. In a projection type color display device comprising a color synthesizing means for synthesizing the combined color light, and a projection optical means for projecting the light synthesized by the color synthesizing means, Polarizing plates are respectively arranged, and the color separation means and the first
In the optical path between the liquid crystal light valve and the polarizing plate, an infrared transmission type mirror is disposed as a mirror for reflecting the red light separated by the color separation means, and the polarization of the light source and the third liquid crystal light valve. A projection type color display device, wherein an ultraviolet light shielding means is arranged in an optical path between the plate and the plate.