KR0150542B1 - Projector system - Google Patents

Abstract

The present invention relates to a projection-type image display apparatus, comprising: a light tongue (10) and a reflective member (12) for emitting light for reproducing an image, and the light for reproducing the image in a predetermined direction and the amount of light in the center portion thereof. Light modulation member 14, the slit is formed for the adjustment of the light reflection member (1) for reflecting the light deflected in a predetermined direction from the light modulation member 14 to have a focal length of curvature, the optical projection member 18 ) And a projection lens 20 for projecting the light passed through the slit of the light modulation member 14 on the screen 22, the light reflecting member 18 is formed to have a constant curvature It consists of an active matrix substrate having a pixel driving element and an AMA panel composed of a plurality of actuators formed on the active matrix substrate to have a constant curvature defined by the active matrix substrate. To one so that the overall structure is simplified by the sense.

Description

Projection type image display device

1 is a diagram for explaining a configuration of a projection type image display apparatus according to a conventional example.

FIG. 2 is a cross-sectional view showing a representative light reflecting member of the AMA panel constituting the projection image display device shown in FIG.

3 is a diagram for explaining the overall configuration of a projection image display apparatus according to the present invention.

* Explanation of symbols for main parts of the drawings

10: light source 12: reflector

14 light control member 16 field lens

18, 18: light reflecting member (AMA panel) 20: projection lens

22: screen 30: active matrix substrate

40: actuator 42: support member

44: membrane 46: plug

48: lower electrode 50: deformation part

52: upper electrode

The present invention relates to a projection type image display apparatus, and more particularly, to a projection type image display apparatus in which an AMA panel having a shape with a constant curvature in its overall shape is reduced.

In general, according to the direct-view display device represented by the CRT apparatus, an RGB fluorescent point that emits light in response to the video signal is reproduced for each pixel for reproduction of the video signal, and each pixel for the color signal component of the video signal. By reproducing an RGB fluorescent point corresponding to the color image, the color image can be reproduced. However, in a CRT device constituting such a direct-view display device, an RGB fluorescent point must be formed for each pixel, and the size of the screen is not limited. Since the absolute flow distance of the electron beam must be secured to uniformly reach the entire electron beam, there is a disadvantage in that its size is increased.

As such a projection display device that can be lighter and thinner than such a direct-view display device, an LCD device which reproduces a color image by adjusting a light transmittance by scattering a uniform arrangement of liquid crystals according to an image signal voltage applied to a polarizing plate, In the LCD device, the disadvantage is that the light efficiency is degraded by the polarizing plate.

Therefore, in recent years, an image display apparatus using AMA (Actuated mirror array) proposed by Aura of the United States has been proposed, and research for practical use is in progress. According to the AMA device, for driving a pixel, for example, a plurality of MOS transistors are formed on an active matrix substrate arranged in a matrix array form as pixel driving elements corresponding to each pixel driving element and provided by the pixel driving element. The actuator is configured to modulate incident light (modulation) by adjusting the tilt angle Tilt in accordance with the voltage.

FIG. 1 is a diagram schematically showing the configuration of a projection type image display apparatus employing such an AMA device, wherein reference numeral 10 denotes a light source for emitting high luminance light, and 12 denotes an efficiency of light emitted from the light source 10. FIG. And a reflector 12 used to make the light reflector 12, which is a light adjusting member such as a knife edge, which emits light emitted from the light source 10 and is reflected by the reflector 12 at a predetermined angle. The central portion of the adjusting member 14 is formed with a slit for adjusting the amount of light.

16 represents a field lens for collecting light reflected from one surface of the light adjusting member 14, and 18 represents a light reflecting member (ie, an AMA panel) made of the AMA device. On the AMA panel 18 as the light reflection member, a pixel driving element for driving all the pixels of the screen is formed on an active matrix substrate formed in a matrix array form and corresponding to the pixel driving element on the active matrix substrate, and the pixel driving is performed. A plurality of actuators inclinedly driven in proportion to the image signal voltage applied to the device is formed.

20 is a light reflecting by the AMA panel 18 as the light reflecting member depending on the image signal voltage and the light incident through the slit portion of the field lens 16 and the light adjusting member 14 is screen 22 Represents a projection lens for projecting on.

Here, the AMA panel 18 as the light reflecting member is formed in the structure shown in FIG. 2, that is, a plurality of pixel driving elements (e.g., MOS transistors) for driving an entire pixel constituting one screen. On the active matrix substrate 30 arranged in the form of a matrix array, a signal electrode pad 32 derived corresponding to each pixel driving element is formed. In addition, an actuator 40 is formed on the active matrix substrate 30 in correspondence with the signal electrode pad 32. The actuator 40 places the actuator 40 on the active matrix substrate 30. A support member 42 for supporting and a membrane 44 having a predetermined length stacked on the support member 22, a plug laminated on the membrane 44 and penetrating the support member 42 and the membrane 44. A lower electrode 48 electrically connected to the signal electrode pad 32 via the 46, a deformable portion 50 formed by laminating a piezoelectric material on the lower electrode 48, and the deformable portion 50. The upper electrode 52 which acts as a common electrode formed by laminating aluminum on the upper surface, and also acts as a reflective layer reflecting incident light when the actuator 40 is inclinedly driven by the image signal voltage applied from the signal electrode pad 32. It is configured with).

Accordingly, the actuator 40 is electrically connected to the signal electrode pad 32 to perform inclined driving in proportion to the image signal voltage applied to the signal electrode pad 32 in the corresponding pixel driving element. Light modulation is performed by adjusting the reflection angle.

Therefore, in the projection image display apparatus shown in FIG. 1, light emitted from the light source 10 and reflected from the reflector 12 is prospectively reflected on one surface of the light adjusting member 14, and the reflected light is fielded. The image signal voltage is incident on the AMA panel 18 through the lens 16, and accordingly the image signal voltage is applied to the pixel drive element of the matrix array formed on the active matrix substrate 30 constituting the AMA panel 18 as described above. When this is applied, the actuator 40 formed on the active matrix substrate 30 is tilted in proportion to the applied image signal voltage. By the inclination of the actuator 40, the angle of incidence of the incident light that is incident on the one surface of the light adjusting member 14 is adjusted, and the adjusted light is controlled by the light adjusting member 14 through the field lens 16. Through the slit formed in the projection lens 20 is provided to the projection lens 20, the image adjusted by the projection lens 20 to form an image and projected on the screen 22, it is possible to reproduce the image.

By the way, according to the projection type image display device shown in FIG. 1, the light adjustment member 14 such as a knife edge for performing optical modulation on light whose reflection angle is adjusted in the AMA panel 18 is positioned at its position displacement. In order to adjust the amount of light reflected from the AMA panel 18, a field lens 16 as an optical lens is required, and the number of field lenses 16 needs to be increased to remove chromatic aberration.

Accordingly, the present invention has been made in view of the above-described circumstances of the prior art, and employs an AMA panel having an actuator formed on an active matrix substrate having a constant curvature, thereby allowing the role of the optical lens to be achieved by the curvature. SUMMARY OF THE INVENTION An object of the present invention is to provide a projection type image display device that is capable of simplicity.

In order to achieve the above object, according to a preferred embodiment of the present invention, the light source and the reflection member for emitting the light for the reproduction of the image, and the light for the reproduction of the image is redirected in a predetermined direction and the amount of light is adjusted in the center portion thereof. A light modulation member having a slit for forming a light reflection member for reflecting light deflected in a predetermined direction from the light modulation member to have a focal length of a predetermined curvature, and reflected from the light reflection member to pass through the slit of the light modulation member. Provided is a projection image display device comprising a projection lens for projecting light onto a screen.

Preferably, the light reflection member is provided with an active matrix substrate formed to have a constant curvature and having a plurality of pixel driving elements, and a plurality of actuators formed on the active matrix substrate to have a constant curvature defined by the active matrix substrate. It is composed.

Therefore, according to the projection type image display apparatus of the present invention, when the light formed from the light source is reflected from one surface of the light modulation member and incident on the light reflection member, the incident light is reflected based on a predetermined curvature preset for the light reflection member. When the reflected light is secured to secure a focal length with a constant curvature, the light reflected from the light reflecting member passes through the slit of the light modulating member and is applied to the projection lens even when the optical lens such as a field lens is excluded. The image will be projected on.

Hereinafter, with reference to the accompanying drawings, the present invention will be described in detail.

3 is a view showing a projection image display apparatus according to the present invention, wherein the projection image display apparatus is formed such that the AMA panel constituting the light reflecting member has a constant curvature in the projection image display apparatus shown in FIG. As a result, the field lens is excluded.

That is, 10 represents a light source that emits light of high brightness, 12 represents a reflector 12 used to increase the efficiency of light emitted from the light source 10, and 14 represents a light emitted from the light source 10 and reflected. A light adjusting member, such as a knife edge, which redirects the light reflected by the member 12 at a predetermined angle from one surface thereof, and a slit is formed in the central portion of the light adjusting member 14 to adjust the amount of light.

18 'represents a X-reflective member (i.e., AMA panel) consisting of the AMA panel described above to reflect incident light in accordance with an image signal, wherein the AMA panel 18' is a TFT (Thin film transinstor) AMA panel formed to have a constant curvature. And a pixel driving element for driving all the pixels of the screen on the active matrix substrate formed in a matrix array form and corresponding to the pixel driving element on the active matrix substrate, as shown in FIG. Thus, a plurality of actuators which are inclinedly driven in proportion to the signal signal voltage applied to the pixel driver are formed.

20 projects light incident on the screen 22 through the slit portion of the field lens 16 and the light adjusting member 14 while being controlled by the AMA panel 18 'as the optical path adjusting device. The projection lens is shown.

That is, the AMA panel 18 'serving as the light reflection member has an active matrix in which a plurality of pixel driving elements (not shown) composed of, for example, MOS transistors are arranged in a matrix array form in order to drive the whole pixels constituting one screen. The substrate is formed to have a constant curvature, and a plurality of actuators are formed on the active matrix substrate with a curvature given to the active matrix substrate.

In general, when a spherical reflector is formed with curvature 'R', its focal length f is

f = R / 2

Since the AMA panel 18 'has a curvature `R' corresponding to` f 'of the optical modulation lens (16 in FIG. 1) required by the characteristics of the system in the projection image display apparatus, the optical modulation lens Constant focal length is ensured in the absence of the.

Therefore, when a certain curvature is secured with respect to the AMA panel 18 'used in the present invention, the focal length can be secured even without using a field lens for optical modulation.

Here, according to an example of providing a curvature 'R' to the AMA panel 18 ', the pixel driving device is manufactured in a state in which a predetermined curvature is assumed and processed on the active matrix substrate by using a TFT (thin film transistor) manufacturing technology. After forming, an actuator corresponding to the pixel driving element is formed on the active matrix substrate having the constant curvature so that a constant curvature can be ensured for each of the actuators.

Therefore, according to the projection type image display apparatus of the present invention shown in FIG. 3, the light emitted from the light source 10 and reflected from the reflector 12 is prospectively reflected on one surface of the light adjusting member 14, and The reflected light is incident on the AMA panel 18 'having a constant curvature, and as a result, the image signal is applied to a pixel array element pixel array element formed on the active matrix substrate constituting the AMA panel 18'. When a voltage is applied, the actuator formed on the active matrix substrate is inclined in proportion to the applied image signal voltage.

In this case, as the AMA panel 18 'is formed to have a constant curvature, a constant curvature is also secured by the actuator formed thereon, so that the focal length of the reflected light reflected by the AMA panel 18' becomes the field. It is secured without the use of a lens.

Reflected light reflected from the AMA panel 18 'is provided to the projection lens 20 through the slit formed in the light adjusting member 14, thereby forming an image controlled by the projection lens 20 to form a screen. By projecting on (22), the image can be reproduced.

As described above, according to the projection type image display apparatus according to the present invention, by adopting the AMA panel of the structure in which the actuator is formed on the active matrix substrate having a constant curvature, the curvature to achieve the role of the optical modulation lens The score is reduced, allowing the overall structure to be simplified.

Claims (1)

A light modulating member having a light source 10 and a reflecting member 12 for emitting light for reproducing an image, and a slit for deflecting the light for reproducing the image in a predetermined direction and adjusting the amount of light in a central portion thereof; 14), the light reflecting member 18 for reflecting the light reflected by the light modulating member 14 to have a focal length of a predetermined curvature, the light reflecting member 18 is reflected by the light modulating member 14 And a projection lens 20 for projecting the light passing through the slit on the screen 22, wherein the light reflection member 18 is formed to have a constant curvature and has an active matrix substrate having a plurality of pixel driving elements. And an AMA panel comprising a plurality of actuators formed on the active matrix substrate so as to have a constant curvature defined by the active matrix substrate.