KR20060004448A - Projection lens unit for keystone/tilt correction, and method for remotely correcting keystone/tilt using it - Google Patents

Abstract

The present invention relates to a projection lens device for keystone / tilt correction and a keystone / tilt remote correction method using the same, comprising: a projection lens for projecting an image on a screen by forming part of an optical engine constituting a projection image display device; A base provided on one side of a housing accommodating the projection lens; A post which is rotatably connected to the four outer corner portions of the base via a joint portion and has a threaded portion at a predetermined depth along an axis; A motor having a distal end portion fixed to one side mounting plate of the optical engine separated from the base and having a corresponding threaded portion formed on an outer circumferential surface corresponding to the threaded portion of each corresponding post; The motor is electrically connected to each of the motors, and the control unit is configured to control the angle of the projection lens through the motor. Accordingly, the present invention can adjust the projection lens of the optical engine applied to a projection TV or a projector by using a motor to more easily correct the keystone / tilt of the optical engine.

Keystone, Projection Lens, Projection

Description

Projection Lens Unit for Keystone / Tilt Correction and Keystone / Tilt Remote Correction Method Using It {PROJECTION LENS UNIT FOR KEYSTONE / TILT CORRECTION, AND METHOD FOR REMOTELY CORRECTING KEYSTONE / TILT USING IT}

1 is a schematic configuration diagram showing an optical engine of a typical CRT projection type.

2 is a schematic configuration diagram showing an optical engine of a general LCD projection type.

3 is a schematic configuration diagram showing an optical engine of a general DLP projection type.

4 is a schematic view showing a projection lens device for keystone / tilt correction according to the present invention.

5 is a flowchart of a keystone / tilt remote correction method using a projection lens device according to the present invention;

<Description of the symbols for the main parts of the drawings>

2c: projection lens 3c: screen

9: housing 10: base

11: joint part 12a: threaded part

12: Post 13: Mount Plate

14a: counterpart thread 14: tip

15: motor

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a projection lens device for keystone / tilt correction and a method for remotely correcting a keystone / tilt using the same. The present invention relates to a projection lens device for keystone / tilt correction and to a keystone / tilt remote correction method using the same.

In general, projection image display apparatuses include a rear projection type projection TV that projects an image from the inside of a cabinet to a screen installed in front of the cabinet, and a front projection type projector that projects an image on an external screen at a distance from the apparatus. .

Optical engines applied to the rear projection type TV or front projection type projector are largely classified into a CRT (Cathode Ray Tube) projection, an LCD (Liquid Crystal Display) projection, and a DLP (Digital Light Processing) projection type.

As shown in FIG. 1, the CRT projection type optical engine separates an image signal input from an external device into R, G, and B, generates an image in the corresponding cathode ray tube 1, and amplifies the image signal. ) To enlarge the projection on the screen (3).

The LCD projection type optical engine generates an image through each LCD panel 5 by separating signals of light emitted from the lamp 4 into R, G, and B, as shown in FIG. This is done in such a way as to recombine it again through the prism 6 and to project it on the screen 3a through the projection lens 2a.

As shown in FIG. 3, the DLP projection type optical engine projects a signal of light generated by the lamp 4a onto the DMD element 8 through the color filter wheel 7, thereby forming a large number of microminiature elements formed in the DMD element. After forming an image through the fine mirror, it is made by the projection on the screen 3b through the projection lens (2b).

However, in the case of the CRT projection type optical engine, since processing and assembly tolerances are basically generated between the CRT 1 and the projection lens 2, the image generated in the CRT is transferred to the screen 3 through the projection lens 2. ), There was a problem that caused the keystone or tilted when projected to.

In the case of the LCD projection type optical engine, since the machining and assembly tolerances are similarly generated between the LCD panel 5, the prism 6, and the projection lens 2a, an image synthesized through the prism 6 is displayed in the projection lens 2a. There was a problem that the keystone is generated or tilted when projected onto the screen 3a through.

In the case of the DLP projection type optical engine, since the processing and assembly tolerances are similarly generated between the color filter wheel 7, the DMD element 8, and the projection lens 2b, an image synthesized through the DMD element 8 is displayed as a projection lens. There was a problem of causing keystone or tilting when projected onto the screen 3b through 2b.

Furthermore, each of the above mentioned optical engines was designed to manually adjust the entire base or specific components of the optical engine when calibrating the keystone / tilt, which would be very inconvenient every time the operator sets the product. It was.

Accordingly, the present invention has been made to solve the above-described problems, the object of which is to adjust the projection lens of an optical engine applied to a projection TV or a projector by using a motor to more easily adjust the keystone / tilt of the optical engine. It is to be able to calibrate.

Another object of the present invention is to be able to adjust the angle of the projection lens of the predetermined projection lens apparatus by using a remote control to more easily correct the keystone / tilt of the optical engine.

In order to achieve the above object, the present invention comprises a projection lens for projecting an image on the screen by forming a part of the optical engine constituting the projection image display device; A base provided on one side of a housing accommodating the projection lens; A post which is rotatably connected to the four outer corner portions of the base via a joint portion and has a threaded portion at a predetermined depth along an axis; A motor having a distal end portion fixed to one side mounting plate of the optical engine separated from the base and having a corresponding threaded portion formed on an outer circumferential surface corresponding to the threaded portion of each corresponding post; The motor is electrically connected to each of the motors, and the control unit is configured to control the angle of the projection lens through the motor.

In addition, the present invention comprises the steps of operating the remote control with the projection image display device turned on; Checking whether the command signal received from the remote controller through the receiver to the micom of the projection image display device is a keystone / tilt-related signal; Displaying a keystone / tilt menu on a screen of the projection image display device if the signal received by the micom is a keystone / tilt-related signal; When the keystone / tilt menu displayed on the screen is selected through the remote controller, the keystone / tilt is adjusted by adjusting the angle of the projection lens through the corresponding motor of the projection lens device.

Hereinafter, an embodiment of the present invention will be described with reference to FIGS. 4 and 5.

4 is a schematic diagram showing a projection lens device for keystone / tilt correction according to the present invention, and FIG. 5 is a flowchart of a keystone / tilt remote correction method using the projection lens device according to the present invention.

As shown in Fig. 4, the present invention comprises a projection lens (2c) for projecting an image on the screen (3c) by forming a part of the optical engine constituting the projection image display device; A base 10 provided on one side of the housing 9 for receiving the projection lens; A post 12 which is rotatably connected to the four outer corners of the base via the joint part 11 and has a threaded portion 12a formed along a axial line; A tip portion 14 fixed to one side mount plate 13 of the optical engine separated from the base 10 and having a corresponding thread portion 14a formed on an outer circumferential surface corresponding to the threaded portion 12a of each of the corresponding posts 12. One motor 15; It is composed of an adjustment unit (not shown) which is electrically connected to each of the motors and controls the angle of the projection lens 2c through the motor.

Here, the joint portion 11 between the base 10 and the post 12 is sufficient if the post 12 is rotatable in any radial direction with respect to the base 10, ball joint, universal joint, etc. Either way is fine.

The mount plate 13 may be formed integrally with the optical engine or fixed inside the cabinet of the projection image display device to form a module with the optical engine.

The motor 15 may be a general motor used in the industry, and above all, the motor 15 may finely adjust the rotation angle of the projection lens 2c like the stepping motor.

The adjustment unit may be formed of a key panel (not shown) provided with a plurality of adjustment keys corresponding to each motor 15, and one side of the adjustment unit may be connected to the projection lens 2c through a remote controller (not shown). A receiver (not shown) is further provided to be connected to the microcomputer of the adjusting unit to remotely control the angle of the control unit.

The remote control may be a user remote control or an operator adjusting remote control of the projection image display device, and the keystone / tilt of the projection image display device may be calibrated before installation, so that there is almost nothing to correct after that. It is preferable to use the remote controller for keystone / tilt correction.

On the other hand, the projection lens (2c) refers to an assembly consisting of a front lens, a reflector and a rear lens, the optical engine can be applied to any of the CRT, LCD, DLP projection method.

The process of correcting the keystone / tilt of the projection image display device by applying the projection lens device for keystone / tilt correction according to the present invention configured as described above will now be described with reference to FIG. 5.

First, the remote controller (not shown) is operated while the projection image display device is turned on (step 500).

Then, a command signal is received from the remote controller through the receiver (not shown) to the micom of the projection image display device, and the microcomputer checks whether the command signal is a keystone / tilt-related signal (step 510).

If the signal received by the microcomputer is a keystone / tilt-related signal, the keystone / tilt menu is displayed on the screen of the projection image display device (step 520).

Then, when the keystone / tilt menu displayed on the screen is selected through the remote control, the corresponding motor 15 (at least one of the four motors) of the projection lens device is operated to adjust the angle of the projection lens 2c to adjust the keystone / tilt. Correct (step 530).

As described above, the present invention makes it possible to adjust the projection lens of the optical engine applied to a projection TV or a projector using a motor to more easily correct the keystone / tilt of the corresponding optical engine.

In addition, the present invention makes it possible to adjust the angle of the projection lens of the predetermined projection lens device by using a remote control to more easily correct the keystone / tilt of the optical engine.

Claims (7)

A projection lens that forms part of an optical engine constituting the projection image display device to project an image onto a screen; A base provided on one side of a housing accommodating the projection lens; A post which is rotatably connected to the four outer corner portions of the base via a joint portion and has a threaded portion at a predetermined depth along an axis; A motor having a distal end portion fixed to one side mounting plate of the optical engine separated from the base and having a corresponding threaded portion formed on an outer circumferential surface corresponding to the threaded portion of each corresponding post; Control unit electrically connected to each of these motors to control the angle of the projection lens through the motor Projection lens device for keystone / tilt correction, characterized in that consisting of. The projection lens apparatus according to claim 1, wherein the joint portion between the base and the post is formed of a ball joint such that the post is rotatable in any radial direction with respect to the base. The projection lens apparatus of claim 1, wherein the motor is a stepping motor. The projection lens apparatus of claim 1, wherein the adjustment unit is a key panel provided with a plurality of adjustment keys corresponding to each motor. The projection lens apparatus of claim 1, further comprising a receiver connected to a microcomputer of the adjustment unit so that one side of the adjustment unit remotely adjusts the angle of the projection lens through a remote controller. 6. The projection lens apparatus according to claim 5, wherein the remote control is an operator adjusting remote control for installing the projection image display apparatus. Operating the remote control with the projection image display device turned on; When the command signal is received from the remote controller through the receiver to the micom of the projection image display device, the micom checking whether the command signal is a keystone / tilt-related signal; Displaying a keystone / tilt menu on a screen of the projection image display device if the signal received by the micom is a keystone / tilt-related signal; When the keystone / tilt menu displayed on the screen is selected through the remote control, operating the corresponding motor of the projection lens device to adjust the angle of the projection lens to correct the keystone / tilt Keystone / tilt remote correction method using a projection lens device, characterized in that consisting of.

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