JPH04147248A - Liquid crystal video projector - Google Patents

Abstract

PURPOSE:To offer a projector that the chromaticity of red, blue and green and the intensity of the brightness thereof are adjusted by providing a dichroic filter and an ND filter on the identical surface of a field lens. CONSTITUTION:The red external light of a light component emitted from a lamp 7 is transmitted through a cold mirror 8 and the light component other than it is reflected. Then, the ultraviolet ray thereof is absorbed by an ultraviolet ray cut filter 9 and only visible light is emitted to a first chroic mirror 3. Besides, it is condensed to the first and the second field lenses 2A and 2C by the mirror 3 and a total reflecting mirror 5. On one of the surfaces thereof, the dichroic filter which decides the band of wavelength and the ND filter which attenuates the transmissivity of the light component in the decided band of the wavelength are provided. Then, the light component is modulated by a transmission type liquid crystal plate 1 and the light components of red, blue and green are composed by the mirrors 4 and 5. Besides, it is projected by a projecting lens 6.

Description

DETAILED DESCRIPTION OF THE INVENTION Field of Industrial Application The present invention relates to a liquid crystal video projector used as an image display device or the like.

2. Description of the Related Art In recent years, display devices using liquid crystals have made remarkable progress, and in particular, liquid crystal video projectors for displaying images are becoming popular.

Hereinafter, a conventional liquid crystal video projector as described above will be explained with reference to the drawings.

FIG. 2 is a block diagram of a conventional liquid crystal video projector. In FIG. 2-8.2-C is a field lens that condenses the light component emitted from the light source and illuminates the transmission type liquid crystal plate 1, and the field lens 2-B has a dichroic lens that determines the wavelength band of the transmitted light component. A filter membrane is attached. Fig. 5 2 Fig. 6 shows the characteristics of the dichroic and Kutsuilter described above. 3 is the first dichroic mirror that separates the colors of the light components emitted from the light source, and 4 is the transmission type liquid crystal plate 1.
This is a second mechanical mirror that optically synthesizes the video signals optically modulated by the above. 5 is a total reflection mirror, 6 is a projection lens, and 7 is a lamp. 8 is a gold mirror that transmits infrared light and reflects incident light other than infrared light. 9 is an ultraviolet cut filter that absorbs ultraviolet rays.

The operation of the liquid crystal video projector configured as described above will be explained below.

In FIG. 2, the light component emitted from the lamp 7 passes the infrared light component, which is a thermal component, through the cold mirror 8, the other light components are reflected, the UV light component is absorbed by the UV cut filter 9, and the visible light component is transmitted through the cold mirror 8. only the light is emitted toward the first dichroic mirror 3.

With the first dichroic mirror 3 and the total reflection mirror 5,
The light components separated into red, blue, and green and directed toward the transmissive liquid crystal plate 1 are condensed by the second field lens 2-B2 and the second field lens 2-c, and illuminate the transmissive liquid crystal plate 1, respectively. The wavelength band of the light component incident on the first field lens 2-B is determined by the characteristics of the dichroic ink filter included in the first field lens 2-B. The red, blue, and green light components obtained by optically modulating the video signal with the transmissive liquid crystal plate 1 are combined by the second optical mirror 4 and the total reflection mirror 5, and projected onto a screen (not shown) by the projection lens 6. be done.

However, in the above configuration, it is difficult to develop a lamp that can obtain ideal chromaticity and brightness. Although the determined red, blue, and green light components can satisfy the required red, blue, and green chromaticity, there is a problem in that the brightness and intensity are not satisfied.

In view of the above problems, the present invention has been developed to provide the required red and blue color.

It is an object of the present invention to provide a liquid crystal video projector in which the chromaticity of green and its brightness intensity are adjusted.

Above are the ways to solve tJR! I! ! ! In order to solve the problem, the liquid crystal video projector of the present invention focuses the light components emitted from the light source and focuses the i!
ii! ! and a neutral density (ND) filter that makes it possible to attenuate the transmittance of the light component in the wavelength band determined by the dichroic ink filter. Features.

Effect: With the above configuration, it is possible to provide a liquid crystal video projector with good chromaticity and brightness intensity required for each of red, blue, and green. Therefore, the chromaticity of white, which is a composite of red, blue, and green, is also good, and the colors of intermediate colors such as yellow, fan, and magenta are also good. Therefore, a liquid crystal video projector with good colors can be provided for a lamp having any spectral distribution.

DESCRIPTION OF THE PREFERRED EMBODIMENTS A liquid crystal video projector according to an embodiment of the present invention will be described below with reference to the drawings.

FIG. 1 shows the configuration of a liquid crystal video projector in one embodiment of the present invention. In FIG. 1, reference numeral 1 denotes a transmissive liquid crystal plate for optically modulating a video signal. 2-A, l-
C is a field lens that condenses the light component emitted from the light source and illuminates the transmission type liquid crystal plate 1, and the field lens 2
- A dichroic ink filter that determines the wavelength band of the transmitted light component and an ND filter that makes it possible to attenuate the transmittance of the light component in the wavelength band determined by the dichroic filter are disposed on either surface of A. We are prepared. 3 and 4 show the characteristics of the dichroic ink filter. 3 is the first dichroic mirror that separates the light components emitted from the light source into colors, and 4 is the image that is light-modulated by the transmissive liquid crystal plate 1. #5, which is the second dichroic ink mirror that optically synthesizes the signals, is a total reflection mirror;
6 is a projection lens, and 7 is a lamp. 8 is a cold mirror that transmits infrared light and reflects incident light other than infrared light. 9 is an ultraviolet cut filter that absorbs ultraviolet rays.

The operation of the liquid crystal video projector configured as described above will be explained below.

In FIG. 1, the light component emitted from the lamp 7 passes through a cold mirror 8 where infrared light, which is a thermal component, is transmitted, other light components are reflected, and the ultraviolet rays are absorbed by an ultraviolet cut filter 9, leaving only visible light. is ejected toward the first dichroic ink mirror 3.

] With the guichroic mirror 3 and the total reflection mirror 5,
The light components separated into red, blue, and green and directed towards the transmissive liquid crystal plate 1 are focused by the first field lens 2-A and the second field lens 2-C, and illuminate the transmissive liquid crystal plate 1, respectively. The wavelength band of the light component incident on the first field lens 2-A is determined by the characteristics of the dichroic ink filter of the first field lens 2-A, and the wavelength band of the light component transmitted by the first field lens 2-A is SuruN
The characteristics of the D filter attenuate the transmittance of light components.

The red, blue, and green light components obtained by optically modulating the video signal on the transmissive liquid crystal plate 1 are combined by the second dichroic ink mirror 4 and the total reflection mirror 5, and projected onto a screen (not shown) by the projection lens 6. Ru.

Effects of the Invention As described above, according to the present invention, the wavelength band of the light component transmitted through the field lens is determined on the same surface of the field lens that condenses the light component emitted from the light source and illuminates the transmission type liquid crystal plate. red by including a dichroic ink filter and an ND filter that attenuates the transmittance of light components in the wavelength band determined by the dichroic ink filter.

The chromaticity and brightness intensity required for each of blue and green are good, the chromaticity of white that is a composite of red, blue, and green is good, and intermediate colors such as yellow, cyan, and magenta are good. You can also get a good LCD video projector.

[Brief explanation of the drawing]

Fig. 1 is a block diagram of a liquid crystal video projector according to an embodiment, Fig. 2 is a block diagram of a conventional liquid crystal video projector, and Figs. 3 and 4 are spectroscopic diagrams of a field lens configured as shown in Fig. 1. Characteristic diagrams, Figures 5 and 6 are
It is a spectral characteristic diagram of the field lens configured as shown in the figure. 1...Transmission type liquid crystal plate, 2-A...1st
Field lens, 2-C... Second field lens, 3... First dichroic mirror, 4
...Second dichroic mirror, 5...
・Total reflection mirror, 6...Projection lens, 7...
...Lamp, 8...Cold Mira, 9...
...Name of UV cut filter agent: Patent attorney Akira Okaji and 2 others" I type J rat version! ! 1 Field Lens Ken 2 Planning Jbo Mirror Talented Intoxication! Tatokasoto Filter / Shallow, profit-making temporary cold mirror filter Tatokaso F filter (par)

Claims (3)

[Claims] (1) In a video projector that optically modulates a video signal using a transmissive liquid crystal and projects it onto a screen, the field lens is placed on the same surface of a field lens that focuses light components emitted from a light source and illuminates a transmissive liquid crystal panel. A liquid crystal video projector equipped with a dichroic filter that determines the wavelength band of a light component that passes through a lens, and a neutral density filter that makes it possible to attenuate the transmittance of the light component in the wavelength band determined by the dichroic filter. (2) The liquid crystal video projector according to claim (1), further comprising a dichroic mirror for color-separating incident light before the field lens, and projecting the optically modulated video signal using three projection lenses. (3) A first dichroic mirror that color-separates the incident light and a second dichroic mirror that optically synthesizes the optically modulated video signal are provided in front of the field lens, and the optically synthesized image signal is projected into one beam. The liquid crystal video projector according to claim 1, wherein the liquid crystal video projector projects using a lens.