JPH0361904A - Projector for projection television - Google Patents

Abstract

PURPOSE:To improve the contrast of a picture by means of simple constitution in the projector for a projection television(TV) in which a coupler is filled with a cooling solution and a projection tube is optically coupled with a lens system by adding a light absorbing substance to the cooling solution in the coupler to absorb excess light in the coupler. CONSTITUTION:When the part closed by the CRT projection tube 1, a meniscus lens 3 and the sidewall part 22 is filled with the cooling solution, a front glass 1a is cooled by the cooling solution and optically coupled with the meniscus lens 3. The light absorbing substance for absorbing the full wavelength area of a visible light is added to the cooling solution and a part of light in the cooling solution is absorbed by the light absorbing substance. Thereby, the ratio of the intensity of light made directly incident from the front glass 1a upon the meniscus lens 3 to the intensity of light irregularly reflected by a sidewall part 22 and oriented to the front glass 1a is increased as compared to the case of the light absorbing substance that is unadded. Consequently, the contrast of an image can be improved by means of simple constitution.

Description

DETAILED DESCRIPTION OF THE INVENTION [Technical Field of the Invention] The present invention relates to a so-called projection television in which an image from a projection tube is projected onto a screen by a projection lens, and relates to an improvement of the projection device.

[Technical background of the invention and its problems] A conventional device of this type is shown in FIG.

In the figure, 10 is a CRT projection tube, 20 is a coupler made of die-cast aluminum or the like, and 3o is a meniscus lens that constitutes the projection lens together with a plurality of lens groups R'.
The CRT projection tube 10, coupler 20 and meniscus lens 30 are coupled with a packing 40.50, and the CRT
Front glass 10a of projection tube 10 and meniscus lens 30
In between, that is, inside the coupler 20, a transparent cooling liquid is filled. Note that the cooling liquid in the coupler 20 is CR
It serves to cool the front glass 10a of the T projection tube 10 and to optically couple the front glass 10a and the meniscus lens 30.

The image projected onto the front glass 10a of the CRT projection tube 10 is projected onto a screen (not shown) via the coupler 20 by the meniscus lens 30 and lens group R'. The lenses in lens group R' are coated with an anti-reflection coating to reduce the amount of light reflected from the lenses hitting the front glass 10a of the CRT projection tube l, thereby improving the contrast of the image. I have to.

In addition, in a projection television that has three tubes, red, green, and blue, the emission characteristics of the green CRT projection tube are as shown by the solid line A in Figure 6, and the emission characteristics are 580 nm and 62 nm on the red wavelength band side.
Sidebands appear around 5 nm. For this reason, there is a system in which the lenses of the lens group R' are coated with a dichroic filter having characteristics as shown by the dashed line B in the figure to increase the color purity of the transmitted light projected onto the screen.

However, in this type of conventional projection device, C
There is a problem in that the light from the RT projection tube 10 is diffusely reflected on the inner surface of the coupler 20 or reflected by the meniscus lens 30, illuminating the front glass 10a and reducing the contrast of the image.

Furthermore, in the case where a dichroic ivy filter is used in the lens as described above, there is a problem in that the excess light cut by the filter is reflected toward the CRT projection tube side, resulting in a decrease in contrast as described above. Note that there is a problem in that if the performance of the antireflection coating on the lens of the optical system is improved in order to improve the contrast, the cost will increase.

[Purpose of the invention]

An object of the present invention is to improve image contrast with a simple configuration in a projection device for a projection television in which a coupler is filled with a cooling liquid to optically couple a projection tube and a lens system. .

[Summary of the invention]

The present invention is a projection television projection device in which a coupler is filled with a cooling liquid to optically couple a projection tube and a lens system. Improved image contrast by absorbing excess light.

〔Example〕

Fig. 1 is an assembled side view showing a projection device according to an embodiment of the present invention, and Fig. 2 is an exploded perspective view thereof. form each,
For example, it is used in abjection television.

In the figure, l is a CRT with a flat front glass 1a.
A projection tube, 2 is an aluminum die-cast coupler having a large number of fins 21 around the periphery, and 3 is a plastic meniscus lens that constitutes a projection lens together with a plurality of lens groups R and mainly corrects field curvature. Yes, CRT projection tube 1
The image projected onto the front glass 1a is projected onto a screen (not shown) via the coupler 2 by the meniscus lens 3 and the lens group R.

In the coupler 2, a circular opening 2a for fitting the meniscus lens 3 is formed in the center thereof, and a side wall 22 surrounding a substantially rectangular space is formed on the CRT projection tube l side of the opening 2a. has been done. Note that the opening formed by the side wall portion 22 on the CRT projection tube l side has approximately the same shape as the surface of the front glass 1a.

The CRT projection tube 1 and coupler 2 are connected to the front glass 1.
A gasket 4 is disposed between a and the periphery of the opening of the side wall portion 22, and is fixed by a mounting frame 5.

Furthermore, the meniscus lens 3 is fitted into the opening 2a with a gasket 6, and the coupler 2 is fitted with a lens fixing frame 7.
It is attached with screws.

CRT projection tube 1, meniscus lens 3, and side wall portion 22
The sealed part is filled with cooling liquid, and the front glass 1
a is cooled by this cooling liquid, and the front glass 1a and the meniscus lens 3 are optically coupled. Note that the heat of the coolant is transferred to the coupler 2 and the fins 21 and radiated. Further, a pressure regulating chamber 23 is formed in a part of the side wall portion 22 of the coupler 2 to keep the pressure of the cooling liquid constant.

As shown in FIG. 3, for example, a light-absorbing substance that absorbs all visible light wavelengths in the M range is added to the cooling liquid.
A portion of the light within the coolant is absorbed by this light absorbing material. Therefore, from the front glass 1a to the meniscus lens 3
The ratio of the intensity of light that is directly incident on the side wall portion 22 and the intensity of light that is diffusely reflected by the side wall portion 22 and directed toward the front glass 1a is larger than that in the case where no light-absorbing substance is added, and the contrast of the image is improved. Note that the overall contrast of image colors can be improved by adjusting the amount added to the coolant to achieve a light transmittance of 80 to 90%.

Further, as the light absorbing substance, black dye or the like can be used.

In the above example, a light-absorbing substance that absorbs the entire wavelength range of visible light is added to the coolant to improve image contrast, but a substance that selectively absorbs a specific wavelength band is used. By doing so, contrast can be improved while improving color purity.

For example, in the case of a projection device that projects a green image, the light emission characteristics of the CRT projection tube 1 are as shown by the solid line A in FIG. Materials can be used to absorb sideband portions of the green emission characteristic to improve the color purity of the overall image. In this way, the light transmitted through the coolant becomes light with the green sideband portion cut off, and the color purity of the green image is increased.

Furthermore, since the sideband light is absorbed by the light-absorbing material, unnecessary light is no longer reflected toward the CRT projection tube, and the contrast of the image is improved.

〔Effect of the invention〕

As explained above, according to the projection television projection device of the present invention, in the projection television projection device in which the coupler is filled with a cooling liquid to optically couple the projection tube and the lens system, the coupler A light-absorbing substance is added to the coolant to absorb excess light within the coupler, making it possible to improve image contrast with a simple configuration.

[Brief explanation of drawings]

FIG. 1 is an assembled side view showing a projection device according to an embodiment of the present invention, FIG. 2 is an exploded perspective view of the same device, FIG. The figure shows the absorption characteristics of the light-absorbing material in the example and green C.
Figure 5 is a diagram showing an example of a conventional projection television projection device; Figure 6 is a diagram showing the absorption characteristics of a conventional guichroic filter and the emission characteristics of a green CRT projection tube. FIG. 1...CRT projection tube, 2...Coupler 3...Meniscus lens, R...Lens group.

Claims (3)

[Claims] (1) A projection system in which a coupler is disposed between the front glass of the projection tube and the projection lens system, and the coupler is filled with a cooling liquid to optically couple the projection tube and the lens system. A projection device for a television, characterized in that a light absorbing substance is added to the cooling liquid. (2) The projection device for a projection television according to claim 1, wherein the light absorbing material absorbs light in a sideband in the light emission characteristics of the projection tube. (3) The projection device for a projection television according to claim 1, wherein the light absorbing material absorbs light in the entire visible light band.