JPH0566382A - Projection type liquid crystal display device - Google Patents

Abstract

PURPOSE:To provide a projection type liquid crystal display device capable of obtaining an image projected on a screen an image with excellent contrast and high quality. CONSTITUTION:A liquid crystal display panel 10 is used for a reflection type liquid crystal panel having a reflecting plate 16 on the rear surface thereof. Light (a1) from a light source 3 is made incident on the panel 10 from the front surface side thereof. Simultaneously, image light (a2) reflected by the plate 16 on the rear surface of the panel 10 and emitted to the front surface side thereof is made incident on a projection lens 4.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a projection type liquid crystal display device.

[0002]

2. Description of the Related Art Recently, as a liquid crystal display device for displaying a television image or the like using a liquid crystal display panel, a device has been developed in which a display image on the liquid crystal display panel is enlarged by a projection lens and projected on a screen.

As the projection type liquid crystal display device,
A transmissive type is used as the liquid crystal display panel, and light is made incident on the liquid crystal display panel from a light source disposed so as to face the light incident surface, and the light transmitted through the liquid crystal display panel, that is, the image light is transmitted to the liquid crystal display panel. It is known that a projection lens disposed so as to face the light emission surface of the above is made to enter the projection lens and enlarged and projected on the screen.

[0004]

However, the above-mentioned conventional projection type liquid crystal display device has a problem that the contrast of an image projected and displayed on the screen is poor.
This is because the contrast of the image light transmitted through the transmissive liquid crystal display panel is poor.

That is, the liquid crystal display panel displays an image by controlling the electric field applied to the liquid crystal in the liquid crystal display panel so that each pixel display portion of the liquid crystal display panel is allowed to transmit light and light is blocked. However, in the liquid crystal display panel, since a certain amount of light leakage occurs even in the state of blocking light, the pixel display section selected in the light transmitting state and the pixel display section selected in the light blocking state. Since the ratio of the transmitted light intensities is low, the contrast of the image light transmitted through the transmissive liquid crystal display panel is poor, and thus the contrast of the image projected and displayed on the screen is also poor.

The present invention has been made in view of the above situation, and an object thereof is a projection type liquid crystal capable of forming an image projected on a screen as a high quality image with good contrast. It is to provide a display device.

[0007]

In order to achieve the above object, the present invention provides a liquid crystal display panel having a reflective surface on its back surface, wherein light from a light source is directed to the liquid crystal display panel. The image light is made to enter from the side, and the image light reflected by the reflecting surface on the back side thereof and emitted to the front side of the liquid crystal display panel is made to enter the projection lens.

[0008]

According to this structure, even if the light which is incident on the liquid crystal display panel from the front surface side and is transmitted through the liquid crystal display panel to be image light is image light having poor contrast as described above, This image light is reflected by the reflection surface on the back surface of the liquid crystal display panel, passes through the liquid crystal display panel again, and is emitted to the front surface side of the liquid crystal display panel. Therefore, the image light emitted from the liquid crystal display panel has a high contrast. Become.

This is because the light that has entered the liquid crystal display panel passes through the liquid crystal display panel twice and exits from the liquid crystal display panel, and the image light emitted from the liquid crystal display panel passes through the liquid crystal display panel twice. However, since the total brightness of the pixel display is slightly reduced due to the light, the light leakage of the pixel display section selected to be in the light blocking state is considerably small, resulting in image light with good contrast. Therefore, this image light is incident on the projection lens. By enlarging and projecting on the screen, the image projected on the screen can be a high-quality image with good contrast.

[0010]

Embodiments of the present invention will be described below with reference to the drawings. 1 and 2 show a first embodiment of the present invention, and FIG. 1 shows the overall construction of a projection type liquid crystal display device.

In FIG. 1, 1 is a case of the apparatus,
A transmissive screen 2 is provided in a display window opened on the front surface of the case 1. Reference numeral 10 denotes a dot matrix liquid crystal display panel for displaying a television image and the like arranged in the lower portion of the case 1.
Is a reflective type having a reflective surface on its back surface.

FIG. 2 is an enlarged view of a part of the reflection type liquid crystal display panel 10. In the figure, 11a and 11b are a pair of transparent substrates (glass plates) facing each other with a liquid crystal enclosing gap. A large number of thin striped transparent signal electrodes 12 are arranged in parallel on the inner surface of one of the substrates, for example, the front surface side substrate 11a, and on the inner surface of the other back surface side substrate 11b in a direction intersecting the signal electrodes 12. A large number of thin striped transparent scanning electrodes 13 are arranged in parallel,
Portions where the scanning electrodes 13 and the signal electrodes 12 cross each other are pixel display portions D, respectively.

A red filter RF and a green filter GF are provided above or below either one of the scanning electrode 13 and the signal electrode 12 (the signal electrode 12 in this embodiment).
Blue filters BF are alternately formed, and the liquid crystal display panel 10 displays a full-color image by a combination of red, green, and blue pixels that are alternately displayed in each pixel display portion D. It has become.

The liquid crystal display panel 10 is of a TN type, and the liquid crystal LC enclosed between the substrates 11a and 11b is 90 ° by the alignment treatment films 14a and 14b formed on the electrode forming surfaces of the substrates 11a and 11b. Alternatively, they are twisted by 270 degrees, and polarizing plates 15a and 15b are provided on the outer surfaces of both substrates 11a and 11b, respectively. In addition,
The polarizing plates 15a and 15b are provided so that their polarization axis directions are parallel or orthogonal to each other.

Reference numeral 16 is a reflection plate provided on the outer surface of the back side polarizing plate 15b, and this liquid crystal display panel 10 is
Light incident on the front surface side and transmitted through the liquid crystal display panel 10 is reflected by the reflection surface of the reflection plate 16 and again transmitted through the liquid crystal display panel 10 and emitted to the front surface side.

On the other hand, in FIG. 1, reference numeral 3 is a light source for making light incident on the reflection type liquid crystal display panel 10. The light source 3 includes a light source lamp and a parabolic mirror reflector that reflects light emitted from the light source lamp. The reflector is a parabolic surface that reflects light emitted from the light source lamp as parallel light. It is used as a mirror reflector. The light source 3 is installed so as to face the reflective liquid crystal display panel 10 so that light is incident from a direction slightly inclined with respect to a line perpendicular to the liquid crystal display panel surface.

4 is a projection lens, 5 is a circular lens,
The full-color image light emitted from the liquid crystal display panel 10 is a condensing lens made of a Fresnel lens, is incident on the projection lens 4 by the condensing lens 5, and is enlarged and projected by the projection lens.

Numerals 6 and 7 are projection mirrors for guiding the image light projected by the projection lens 4 toward the transmissive screen 2 on the front surface of the case, and the image light passing through the projection lens 4 is the first projection mirror. It is reflected toward the second projection mirror 7 by 6, and further reflected toward the screen 2 by the second projection mirror 7 and is projected and displayed on the screen 2.

In this projection type liquid crystal display device, light a ₁ from a light source 3 is incident on a reflection type liquid crystal display panel 10, and image light a ₂ emitted from the liquid crystal display panel 10 is projected by a projection lens 4 onto a projection mirror 6. The image is projected on the transmission screen 2 on the front side of the case from the rear side thereof via 7, and the image projected on the transmission screen 2 is observed from the front side of the apparatus.

In the projection type liquid crystal display device, however, the liquid crystal display panel 10 is provided on the back surface thereof with the reflection plate 16.
And a light from the light source 3
₁ is made incident on the liquid crystal display panel 10 from the front side thereof, and the image light a ₂ reflected by the reflection plate 16 on the rear surface thereof and emitted to the front side of the liquid crystal display panel 10 is made incident on the projection lens 4. Therefore, the image projected on the screen 2 can be a high-quality image with good contrast.

That is, the light which is incident on the liquid crystal display panel 10 from the front surface side thereof, and which is transmitted through the liquid crystal layer of the liquid crystal display panel 10 and the rear surface side polarizing plate 15b to be the image light is the pixel selected in the light blocking state. Due to the light leakage of the display unit, the image light has a poor contrast similar to the image light transmitted through the transmissive liquid crystal display panel.
The liquid crystal display panel 1 is reflected again by the reflection plate 16 on the back surface of
The image light a ₂ emitted from the liquid crystal display panel 10 in order to pass through 0 and be emitted to the front surface side of the liquid crystal display panel 10.
Provides image light with good contrast.

This is because the light that has entered the liquid crystal display panel 10 from the front side thereof passes through the liquid crystal display panel 10 twice and is emitted to the front side of the liquid crystal display panel 10, and is emitted from the liquid crystal display panel 10. Since the image light a ₂ is light that has passed through the liquid crystal display panel 10 twice, the overall brightness is 1
Although it is slightly lower than the image light transmitted through the transmissive liquid crystal display panel, the leakage of light in the pixel display section selected in the light blocking state is considerably small, so dark pixels out of each pixel of image light Since it becomes dark, the image light a ₂ emitted from the liquid crystal display panel 10 has a _high contrast.

Therefore, this image light a ₂ is projected onto the projection lens 4
When the image is projected onto the screen 2 and is enlarged and projected, the image projected on the screen can be a high-quality image with good contrast.

In this embodiment, the light from the light source 3 is directly incident on the liquid crystal display panel 10, but the light from the light source 3 is reflected by the mirror and is incident on the liquid crystal display panel 10. You may do it.

In this embodiment, the liquid crystal display panel 1 is also used.
The incident path of the light a ₁ incident on 0 and the liquid crystal display panel 10
Although the emission path of the image light a ₂ emitted from the liquid crystal display panel 10 is different, if the incident angle of the light to the liquid crystal display panel 10, that is, the angle with respect to a line perpendicular to the liquid crystal display panel surface is made as small as possible, Most of the light reflected by the reflection plate 16 through the pixel display section D is emitted from the liquid crystal display panel 10 through the same pixel display section D as shown in FIG. Board 16
The red light reflected by the red or green light is discolored through the adjacent blue or green pixel display portion, or the light reflected by the reflector 16 through the pixel display portion selected to be in the light transmitting state is in the light blocking state. There is almost no reduction in brightness due to the cutoff through the adjacent pixel display unit selected.

Next, another embodiment of the present invention will be described.
3 and 4 show a second embodiment of the present invention.
In the second embodiment, the light a ₁ from the light source 3 is transmitted to the prism 8
The image light a ₂ which is incident on the reflection type liquid crystal display panel 10 perpendicularly to the panel surface via the light and is emitted from the liquid crystal display panel 10 in the direction perpendicular to the panel surface via the prism 8 through the projection lens. In this way, the incident path of the light a ₁ incident on the liquid crystal display panel 10 and the exit path of the image light a ₂ emitted from the liquid crystal display panel 10 can be matched with each other. it can. In this case, the optical path of the light that enters the projection lens 4 from the light source 3 through the reflective liquid crystal display panel 10 may be designed as follows.

That is, as shown in FIG.
The incident angle of the light a ₁ from the light source 3 on the light source facing surface 8a is θ ₁ , the refraction angle of the incident light on the light source facing surface 8a is θ ₂ , and the outgoing and incoming angle of the light on the display panel facing surface 8b is θ.
₃ , the light source facing surface 8a of the prism 8 and the display panel facing surface 8
If the angle formed by b is θ ₄ , θ ₂ and θ ₁ have the following relationship. θ ₂ = sin (90−sin ⁻¹ n sin θ ₁ / n ′) n ′: Refractive index of prism n: Refractive index of prism outside (air)

When the angle between the light source facing surface 8a of the prism 8 and the display panel facing surface 8b is θ ₄ , the light passes through the prism 8 from the display panel facing surface 8b toward the reflective liquid crystal display panel 10. Exit angle θ of light
₃ is θ ₃ = sin ⁻¹ n ′ sin [90− (θ ₂ + θ ₄ ] / n

By arranging the reflection type liquid crystal display panel 10 so that the panel surface is perpendicular to the emission angle θ ₃ , the incident path of the light a ₁ incident on the liquid crystal display panel 10 and the liquid crystal display panel The emission path of the image light a ₂ emitted from 10 can be matched.

Further, the reflection-type liquid crystal display panel image light a ₂ emitted from 10 is directed to the light source facing surface 8a enters the prism 8 with light a ₁ and the same path from the light source, the image light a ₂ If the incident angle (angle of refraction of the incident light on the light source facing surface 8a) θ _{2 of the} light source ₂ is equal to or less than the critical angle, the image light a ₂ is totally directed toward the projection lens facing surface 8c of the prism 8. Since it is reflected, (90−sin ⁻¹ n sinθ ₁ / n ′) ≦ sin θ ₁ n / n ′

In this case, the image light a ₂ emitted from the reflection type liquid crystal display panel 10 and incident on the prism 8 along the same path as the light a ₁ from the light source is converted into the projection lens facing surface 8 of the prism 8.
This image light a ₂ can be projected from c and projected toward the screen 2.

Then, in this embodiment, the incident path of the light a ₁ incident on the liquid crystal display panel 10 and the liquid crystal display panel 1
Since the emission path of the image light a ₂ emitted from 0 is matched, all the light reflected by the reflection plate 16 through each pixel display section of the liquid crystal display panel 10 passes through the same pixel display section and the liquid crystal. Since the light is emitted from the display panel 10, it is possible to completely eliminate the above-mentioned color misregistration and brightness decrease.

FIG. 5 shows a third embodiment of the present invention. In this embodiment, between the prism 8 and the reflection type liquid crystal display panel 10 provided in the second embodiment,
A display panel cooler 9 in which a transparent cooling liquid such as an ethylene glycol aqueous solution is filled in a container whose both sides are transparent and a heat pipe for heat radiation is inserted is provided in the container.

In the case of this embodiment, since the angle of the light a1 emitted from the prism 8 toward the liquid crystal display panel 10 is determined by the refractive index of the display panel cooler 9, the light transmitted through the display panel cooler 9 is If the reflective liquid crystal display panel 10 is arranged so that the panel surface is vertical, the incident path of the light a ₁ that enters the liquid crystal display panel 10 and the exit path of the image light a ₂ that exits from the liquid crystal display panel 10 are provided. Can be matched. Note that, in FIG. 5, for convenience, the refractive index of the display panel cooler 9 is the same as the refractive index of the prism 8, and the optical path of light in that case is shown.

In each of the above embodiments, the projection type liquid crystal display device for projecting the display image of the liquid crystal display panel on the transmissive screen 2 on the front surface of the case from the rear side thereof has been described. The present invention can be applied to a projection type liquid crystal display device that projects a display image onto an external screen different from the device main body, and the liquid crystal display panel 10 is not limited to displaying a full color image, and a monochrome image such as a monochrome image can be displayed. Instead of providing the reflection plate 16, a reflection surface on the back surface may be formed by forming a reflection film on the back surface of the panel by vapor deposition or the like.

[0036]

According to the projection type liquid crystal display device of the present invention,
Since the image light emitted from the reflective liquid crystal display panel is the light that has passed through the liquid crystal display panel twice, the light leakage of the pixel display section selected in the light blocking state is considerably small, and therefore the image light has a good contrast. Since it is image light, the image projected on the screen can be a high-quality image with good contrast.

[Brief description of drawings]

FIG. 1 is a vertical sectional side view of a projection type liquid crystal display device showing a first embodiment of the present invention.

FIG. 2 is an enlarged cross-sectional view of a part of a reflective liquid crystal display panel used in the liquid crystal display device.

FIG. 3 is a vertical sectional side view of a projection type liquid crystal display device showing a second embodiment of the present invention.

FIG. 4 is an optical path diagram of light entering and exiting the reflective liquid crystal display panel.

FIG. 5 is an optical path diagram of light entering and exiting a reflection type liquid crystal display panel showing a third embodiment of the present invention.

[Explanation of symbols]

2 ... Screen, 3 ... Light source, 4 ... Projection lens, 5 ... Condensing lens, 6, 7 ... Projection mirror, 8 ... Prism, 9 ... Display panel cooler, 10 ... Reflective liquid crystal display panel, 16 ... Reflector.

Claims (1)

[Claims] 1. A projection type liquid crystal display device for enlarging and projecting a display image of a liquid crystal display panel on a screen by a projection lens, wherein the liquid crystal display panel is a reflection type liquid crystal display panel having a reflection surface on its back surface, and light from a light source is used. Is incident on the liquid crystal display panel from its front surface side, and image light reflected by a reflection surface on the back surface thereof and emitted to the front surface side of the liquid crystal display panel is incident on the projection lens. Display device.