KR20010109814A - Display apparatus for management 3-dimensional image - Google Patents

Abstract

The present invention relates to a three-dimensional imaging device. The 3D imaging apparatus may include: a left / right planar imager (LCD) for simultaneously outputting two left and right planar images 2D input to the same stereoscopic image on the left and right sides to a screen; A left / right image reversing apparatus for inverting the original image; After the inverted image is inputted through the left image reversing device to the original image and the inverted image outputted to the left plane imaging device is incident at a predetermined angle, the left inverted image is left at the same angle as the angle at which the left reflection mirror is incident. A left reflection mirror reflecting from the reflection mirror and inverting the original image to reflect the incident image to the viewer's left eye; And an inverted image inputted from the original image through the right image inverting device, and the inverted image outputted to the right plane imager is incident at a predetermined angle, and then in the left reflection mirror at the same angle as the right inverted image is incident. A right reflection mirror reflecting the incident image to the viewer's right eye while being reflected and inverted into the original image; Characterized in that it comprises a. According to the present invention, there is an advantage that it is possible to simply implement a three-dimensional image without the conventional complex yet general purpose three-dimensional image device and a separate additional device.

Description

3-D Imaging Device {DISPLAY APPARATUS FOR MANAGEMENT 3-DIMENSIONAL IMAGE}

The present invention relates to a three-dimensional imaging apparatus, and more particularly, to a three-dimensional imaging apparatus capable of displaying three-dimensional stereoscopic images by combining two conventional mirrors, two image inverting apparatuses, and two two-dimensional imaging apparatuses. It is about.

Three-dimensional stereoscopic image is a three-dimensional stereoscopic image that can be seen in three-dimensional theaters such as Lotte World, Seoul Land, and Daejeon Expo Park. As a kind of image that can give a stereoscopic sense to viewers, many research efforts have been made to overcome the limitation that most image screens give only a flat feeling.

The basic basis of the technical factors for realizing this three-dimensional stereoscopic image is based on the fact that humans have two eyes, and the principle that humans perceive objects in three dimensions is horizontally at a predetermined interval, for example, in the case of an adult. 7.5cm, in the case of children, two eyes located about 5cm apart through the retina at different angles to receive the object through the optic nerve through the pathway is synthesized through the path. Therefore, the conventional method for showing a stereoscopic image to the viewer is possible by allowing the two images to be separated into the left and right eyes, respectively, by a shutter or refraction method.

Although a stereoscopic image using a conventional liquid crystal electronic glasses or the like has been implemented based on this method, such a separate device has a limitation in its use due to its low versatility, and even when using such a conventional device, separation of the left and right images is possible. When is not made completely, the overlap of the image may occur, or the screen may flicker due to the interference of light.

The technical problem to be achieved by the present invention is to solve the problems of the conventional apparatus for implementing the stereoscopic image described above, in order to achieve this technical problem, two reflection mirrors, two image inverting device and two two-dimensional image device It is an object of the present invention to provide a three-dimensional imaging device that can show a three-dimensional stereoscopic image by combining the two.

1 is a configuration diagram of an imaging apparatus in which an incident angle and a reflection angle are 45 ° in a 3D imaging apparatus according to the present invention.

2 is a configuration diagram of an imaging apparatus in which an incident angle and a reflection angle are 30 ° in a 3D imaging apparatus according to the present invention.

3 is a flowchart illustrating an image inversion and reinversion process according to the present invention.

<Description of main parts of drawing>

10/20 ... Left / Right Planar Imaging Device 11/22 ... Left / Right Inverter

25/30 ... left / right reflection mirror 40/50 ... left / right eyes

60/70 ... left / right incidence angle 62/72 ... left / right reflection angle

80/90 ... left / right virtual image 95 ... stereoscopic image with left / right virtual image

Three-dimensional imaging apparatus for achieving the object of the present invention, the left and right plane image device for simultaneously outputting the plane image input to the same stereoscopic object on the left and right; A left / right image reversing apparatus for inverting the original image; The inverted image output from the left planar imager is incident at a predetermined angle, inverted again by a mirror to become a circle shape, and then the left image is reflected at the same angle as the incident angle to reflect the incident image to the viewer's left eye. A left reflecting mirror to reflect; And an inverted image output from the right planar imager is incident at a predetermined angle, inverted again by a mirror to become a circle, and then reflected at the same angle as the angle at which the right image is incident to the incident image to the viewer's right eye. A right reflecting mirror to reflect; Characterized in that it comprises a. In addition, since the natural mirror is inverted in the alternative mirror, the image is inverted using the left / right inverting device in advance and inputted to the left / right plane imager.

In order to maintain the same incident angle of the image incident from the left / right planar imager into the respective left / right reflecting mirrors and the reflection angle reflected from the left / right eye of the viewer from the left / right planar imager, The mutual arrangement of the left and right reflection mirrors should be provided so as to adjust automatically or manually.

On the other hand, the left / right flat image display device is preferably any one of the screen processing device selected from a 2D image device such as a television monitor, a wall-mounted flat screen TV, a computer monitor, and an LCD, and in particular, the left / right reflection mirror The incident angle at which the planar image is incident and the reflection angle reflected to the viewer are preferably adjusted in the range of 30 ° to 50 °.

Hereinafter, the present invention will be described in detail with reference to the following examples, and the present invention will be described in detail with reference to the accompanying drawings. However, embodiments according to the present invention may be modified in many different forms, and the scope of the present invention should not be construed as being limited to the embodiments described below. Embodiments of the present invention are provided to more completely describe the present invention to those skilled in the art.

1 is a configuration diagram of an imaging apparatus in which an incident angle and a reflection angle are 45 ° in a 3D imaging apparatus according to the present invention.

As shown in FIG. 1, the left planar imager 10 and the right planar imager 20 are generally any one of a television monitor, a wall-mounted flat panel TV, a computer monitor, and an LCD display output device. As a technology, various screen output devices which output only two-dimensional plane images may be selected. The left reflection mirror 25, which is a reflection mirror with the inverted image screen outputted to the left and right planar imaging devices 10 and 20, inverted by the left and right inverting devices 11 and 22, and is input to the center. And left and right eyes of the viewer viewing the screen by being incident (60, 70) at the same angle to the right reflective mirror 30 at 45 °, respectively, and then being inverted and reflected at the same angle as the incident angle (62, 72). 40, 50) to each of the original will be delivered. According to the human visual transmission process, the image transmitted through the eye is transmitted to the cerebrum by the intersection of the left virtual image 80 and the right virtual image 90, which are virtual images. Act to cause recognition (95). Meanwhile, the left and right inverting devices 11 and 22, the left and right planar imaging devices 10 and 20, and the left and right reflecting mirrors 25 and 30 maintain the same incident angle and reflection angle of the screen image. It is desirable to allow the mutual placement to be adjusted automatically or manually. On the other hand, the incidence angle and the reflection angle is preferably that can be adjusted within the range of 30 to 50 °, in Figure 1 has been described with respect to the form adjusted to 45 °. In addition, the left and right reflection mirrors 25 and 30 may be arranged in a V shape to face the viewer, and the reflection mirror may utilize a conventional 100% reflection mirror.

As described above, the present invention does not take the conventionally developed digital image synthesizing method, and implements a three-dimensional image 95 with improved image quality by performing a mirror reflection on a planar image incident in a mechanical manner, that is, in both directions. Adjusting the angle of the mirror has the advantage that you can also adjust the size of the screen. In addition, since the screen width can be freely adjusted, there is an advantage in that a stereoscopic image of a large screen can be viewed without using an additional device such as an additional lens or prism and glasses for viewing. In addition, the distance to the screen can be arbitrarily adjusted, and both the focus type stereoscopic image and the balanced type stereoscopic image can be realized. In addition, three-dimensional implementation of still and moving images is possible.

2 is a configuration diagram of an imaging apparatus in which an incident angle and a reflection angle are 30 ° in a 3D imaging apparatus according to the present invention.

As shown in FIG. 2, the left planar imager 10a and the right planar imager 20a are generally any one of a television monitor, a computer monitor, and an LCD display output device. Various screen output devices which output only flat plane images may be selected. The left and right reflection mirrors 25a and the right reflection mirrors 30a, which are reflection mirrors in which the image screen output from the left and right planar imaging devices 10a and 20a through the left and right image reversing devices 11a and 22a, are arranged in the center Incidents 60a and 70a at 30 °, which are the same angles, are reflected to 62a and 72a at the same angle as the incident angle, and transmitted to the left and right eyes 40a and 50a of the viewer who is watching the screen. According to the human visual transmission process, the image transmitted through the eye is transmitted to the cerebrum by crossing the left virtual image 80a and the right virtual image 90a, which are virtual images. It acts to make three-dimensional recognition. On the other hand, the left / right planar imaging device (10a, 20a), the left / right reflection mirrors (25a, 30a) can be mutually adjusted by automatic or manual in order to maintain the screen image incident angle and reflection angle the same. It is desirable to be able to. On the other hand, the incidence angle and the reflection angle is preferably able to be adjusted in the range of 30 to 50 °, in Figure 2 has been described with respect to the form adjusted to 30 °. In addition, the left and right reflection mirrors 25a and 30a may be arranged in a V shape to face the viewer, and the reflection mirror may utilize a conventional mirror.

3 is a flowchart illustrating an image inversion and reinversion process according to the present invention.

As shown in FIG. 3, after the left image 100a is generated 100, the left image 100a is generated 100, the reverse image 101 is generated, and the left image 102a is generated. When reflected on the reflection mirror through the re-inverted (104) to restore the original image 105, the original image thus recovered is transmitted to the time (106). On the other hand, after the right image 110a is generated 110, the inversion process 111 is generated, and the inverted right image 112a is generated and then reflected on the reflection mirror through the right image output device 113. It is reinverted (114) to recover the original image (115), and the recovered original image is transmitted to time (116). As described above, the left and right images transmitted to the left and right eyes 106 and 116 through the paths of individual inversion and reversal are synthesized as a virtual image and recognized as a stereoscopic image 120 to sufficiently achieve the effect of the present invention. Can be.

The optimal embodiments of the present invention described above have been disclosed. Although specific terms have been used herein, they are used only for the purpose of describing the present invention and are not intended to limit the scope of the invention as defined in the claims or the claims.

According to the present invention, after simply placing the image reversing apparatus on the left and right in the two image output apparatuses without providing a conventional complex but general purpose stereoscopic imaging apparatus and a separate additional apparatus, the reflection mirror is interposed therebetween. By adjusting the angle of incidence and the angle of reflection, there is an advantage that can easily implement a three-dimensional image. The three-dimensional image device provided by the present invention has an advantage that can be applied to a conventional stereoscopic image device (Head Mounted Display), stereoscopic game machine, stereoscopic broadcast imager, computer stereoscopic image communication and various simulators.

Claims (4)

A left / right plane imager for simultaneously outputting the same plane image on the left and the right; A left reflection mirror reflecting the incident image to the viewer's left eye after the image output from the left planar image device is incident at a predetermined angle and then reflected at the same angle as the angle at which the left image is incident; And A right reflection mirror reflecting the incident image to the viewer's right eye by reflecting the image output from the right plane imager at a predetermined angle and then reflecting the same image at the same angle that the right image is incident; Three-dimensional imaging device comprising a. According to claim 1, The angle of incidence of the image incident from the left and right planar image device to each of the left and right reflection mirrors and the reflection angle reflected from each of the left and right eyes of the viewer from the left to maintain the same 3D imaging apparatus, characterized in that it is provided to automatically or manually adjust the mutual arrangement of the right / right plane imager and the left / right reflection mirror. The 3D imaging apparatus according to claim 1 or 2, wherein the left and right planar imaging apparatuses are any one of a screen processing apparatus selected from a television monitor, a large wall-mounted TV, a computer monitor, and an LCD. The 3D image of claim 1 or 2, wherein an incident angle at which the left and right plane images are incident on the left and right reflection mirrors, and a reflection angle reflected to the viewer can be adjusted in a range of 30 to 50 °. Device.