KR0130910Y1 - Optical system for projector - Google Patents

Abstract

The present invention is designed to install a microlens array between the field lens and the optical path controller, and to configure the tilt angle of the mirror array of the optical path controller to correspond to the red, blue and green pixels so that the color of the optical path controller of the single-plate method can be achieved. The optical system of the projection-type image display device to realize the configuration, the configuration is a light source 11 for emitting white light of high brightness, a reflection mirror 13 for reflecting the radiation light from the light source 11, and A field lens 14 for focusing incident light reflected from the reflection mirror 13 at a predetermined angle, an optical path controller 50 for adjusting an optical path to correspond to a pixel according to a predetermined signal, and the optical path controller 50 A projection image display device comprising a projection lens 16 for projecting light incident on a screen by adjusting an optical path from an optical path between the field lens 14 and the optical path controller 50. The microlens array 30 is installed in the optical path controller 50, and the mirror 50c is formed to reflect the pixels corresponding to the red, blue, and green pixels, respectively, and the microlens array 30 The coating unit 320b is formed between the lens unit 30a and the lens unit 30a which are formed like the numbers of the mirrors 50c of the optical path controller 50.

Description

Optical system of projection image display device

1 is a plan view schematically showing an optical system of a conventional general projection image display device.

2 is a plan view schematically showing an optical system of a projection image display device according to the present invention.

3 is a view showing the optical path controller of FIG.

* Explanation of symbols for main parts of the drawings

10: projection image display device 13: reflection mirror

14: field lens 15: projection lens

30: microlens array 30a: lens unit

30b: coating part 50: optical path controller

The present invention relates to a projection image projector (optical system), and more particularly, a microlens array is installed in front of the optical path controller and the tilting angle of the mirror array of the optical path controller corresponds to red, blue and green pixels. The present invention relates to an optical system of a projection image display device configured to be tilted so as to realize color as a one-plate optical path controller.

An image display apparatus is classified into a direct image display apparatus and a projection image display apparatus according to a display method.

The direct view type image display device includes a CRT (Cathode Ray Tube). The CRT image display device has good image quality but has a problem such as an increase in size and thickness as the screen is enlarged, and a high price. There is a limit.

Projection type image display apparatuses include a large crystal display (hereinafter referred to as an LCD), and such a large screen LCD can be thinned to reduce the weight. However, the LCD has a high light loss due to the polarizing plate, and a thin film transistor for driving the LCD is formed for each pixel, so that there is a limit in increasing the aperture ratio (light transmission area).

Accordingly, a projection image display device using Actuated Mirror Arrays (hereinafter referred to as AMA) has been developed by Aura, USA.

The projection image display device is divided into one-dimensional AMA and two-dimensional AMA. The one-dimensional AMA has mirror surfaces arranged in an M × 1 array, and the two-dimensional AMA has mirror surfaces arranged in an M × N array. Therefore, a projection image display device using a 1D AMA pre-scans M × 1 rays using a scanning mirror, and a projection image display device using a 2D AMA projects M × Nro luminous fluxes to produce an array of M × N pixels. Branches represent images.

1 is a schematic diagram of a conventional projection image display apparatus.

This projection image display apparatus 1 includes a light source 11, a reflecting mirror 13, a field lens 14, a see-through lens 15, and an optical path adjuster 20.

The light source 11 emits high brightness white light, and the light emitted from the light source 11 is reflected by the reflection mirror 13.

The field lens 14 is positioned in front of the optical path controller 20 to be described later, and has a large reflection angle so that the light reflected from the reflection mirror 13 is not lost and the optical path is reduced.

The optical path controller 20 includes a mirror 20c that reflects a path of light to correspond to the pixels incident from the reflective mirror 13, and an actuator 20b that allows the mirror 20c to have a predetermined path. Is made of an actuated mirror array panel 20a on which M × N pieces are mounted. The actuated mirror array panel 20a includes M × N transistors (not shown), and the actuator 20b is mounted on the actuated mirror array panel 20a so as to be electrically connected to the transistors. Deformed by the electric field generated by the image signal, the mirror 20c mounted on the top is inclined by a predetermined angle.

The projection lens 15 projects the light whose light amount is adjusted by the optical path controller 20 onto the screen.

In the conventional projection image display device configured as described above, it is difficult to control the brightness of the screen for each pixel unit by performing optical modulation with one stop, and thus, in design freedom of the optical system for uniformity of brightness adjustment. There was a problem that brought a lot of constraints.

In addition, since the optical path controller cannot implement color, an additional optical path controller is required, and thus, a plurality of optical path controllers are required for color implementation.

The present invention is devised to improve the problems of the conventional projection image display device as described above, and by manufacturing the optical path controller constituting the optical system to reflect the red, blue and green light respectively, the optical path of the single plate method An object of the present invention is to provide an optical system of a projection image display device, which enables color to be implemented as a controller.

Another object of the present invention is to mount a microlens array on the front side of the optical path controller, thereby making it easy to control screen brightness for each pixel unit, increasing pixel uniformity and increasing design freedom of the optical system. The purpose is to provide.

According to a preferred embodiment of the present invention to achieve the object as described above, a light source for emitting a high brightness white light, a reflection mirror for reflecting the emitted light from the light source, and a predetermined angle of the light reflected from the reflection mirror A field lens for transmitting / reflecting, an optical path controller for adjusting an optical path so that the light transmitted through the field lens corresponds to a pixel according to a predetermined signal, and a projection lens for projecting light whose light path is adjusted from the optical path controller onto a screen In the optical system of the projection image display device, a front surface of the optical path controller is provided with a microlens array, and the optical path controller is manufactured and installed to control light paths of red, blue, and green light, respectively. An optical system of an image display apparatus is provided.

The optical path controller is preferably a mirror array in the longitudinal or transverse direction in the form of a stripe to reflect the light of red, blue and green to implement the color.

Hereinafter, an optical system of a projection image display device according to the present invention will be described in detail with reference to the accompanying drawings.

2 is a plan view schematically showing the optical system of the projection image display device according to the present invention, and the same reference numerals are used for the same parts as the conventional drawings. As shown therein, the projection image display apparatus 10 includes a light source 11, a reflecting mirror 13, a field lens 14, an optical path controller 50, a microlens array 30, and a projection lens 15. Consists of.

The microlens array 30 is installed to be located between the field lens 14 and the optical path controller 50. The lens unit 30a is formed like the number of the mirrors 50c of the optical path controller 50. In addition, a coating portion 30b coated with a black stripe made of a material such as chromium (Cr) is formed between the plurality of lens portions 30a. The lens unit 30a of the mirror array 30 emits red, blue, and green light at the same position as the mirror 50c corresponding to the red, blue, and green pixels of the mirror array 50c of the optical path controller 50. It is manufactured in the form of a stripe to be transmitted.

Looking at the operation of the optical system of the projection image display device according to the present invention configured as described above, the white light of high brightness is emitted from the light source 11, reflected by the reflection mirror 13, and then the angle by the field lens 14 Is adjusted to pass through the lens unit 30a of the microlens array 30. After that, the mirrors 50c of the optical path controller 50 correspond to pixels of light and correspond to red, blue and green pixels, respectively. Light passing through the lens unit 30a of the microlens array 30 has a tilting direction and passes through the lens unit 30a according to the tilting direction of the mirrors 50c, and then passes through the lens unit 30a and the projection lens ( 15), so that the light path is controlled image on the screen.

Since the optical path controller 50 is arranged in a stripe shape so that the mirror array 50c can reflect light corresponding to the red, blue and green pixels, respectively, the optical path controller 50 can realize the color as the optical path controller of the first plate.

As described in the above embodiments, the optical system of the projection image display apparatus according to the present invention enables optical modulation to correspond to pixels of incident light by installing a microlens array in front of the optical path controller, thereby increasing the brightness of an image formed on the screen. There is an effect, and since the color can be implemented only by the optical path controller, the design freedom of the optical system is increased.

Claims (1)

A light source 11 emitting high brightness white light, a reflective mirror 13 reflecting the emitted light from the light source 11, and a field lens 14 focusing incident light reflected from the reflective mirror 13 at a predetermined angle. And an optical path controller 50 for adjusting the optical path to correspond to the pixel according to a predetermined signal, and a projection lens 16 for controlling the optical path from the optical path controller 50 to project the incident light onto the screen. In the projection image display device, a microlens array 30 is provided between the field lens 14 and the optical path controller 50, and the optical path controller 50 corresponds to red, blue, and green pixels. Mirrors 50c are formed to reflect the pixels, respectively, and the microlens array 30 includes the lens unit 30a and the lens unit 30 formed as the number of the mirrors 50c of the optical path controller 50. 30a) between the coating part 30b The optical system of the projection type image display device, characterized in that is composed of sex.