KR20040026032A - 3-dimension display system - Google Patents

Abstract

PURPOSE: A three-dimensional image display system is provided to lengthen the observable distance by widening a left observation angle and a right observation angle and maintaining a cubic effect. CONSTITUTION: A three-dimensional image display system includes an image display device(10), a 1/2-phase difference plate(30), and a 1/4-phase difference plate(40). The image display device(10) is used for displaying images corresponding to both eyes of a left eye and a right eye. The 1/2 phase difference plate(30) has a grating pattern corresponding to the image display device(10). The 1/2 phase difference plate(30) is installed at a front face of the image display device. The 1/4 phase difference plate(40) is formed with a type of film corresponding to the image display device. The 1/4 phase difference plate(40) is installed at a front face of the 1/2 phase difference plate(30).

Description

3D image display system {3-dimension display system}

The present invention is one of the three-dimensional image display system using the polarization of light, and more particularly relates to a three-dimensional image display system using circularly polarized light.

The research on the 3D image display device has been continued for a long time, and in recent years, the active research on the 3D image display device which enables the observer to enjoy the realistic and realistic image has been conducted.

In general, a 3D image is sensed as a stereoscopic image by detecting different images in the left and right eyes and then recognizing the left and right images in the brain. Accordingly, in order to produce a stereoscopic image, an image display device for allowing different images to be recognized by the left and right eyes is required.

Among them, a display device that realizes a stereoscopic image by allowing different images to be viewed to the left and right eyes by using the polarization characteristic of light is recognized as an advantage that the viewer's eyes are comfortable.

In the conventional three-dimensional image display system using circularly polarized light, two liquid crystal display panels (1-1, 1-2) for displaying images corresponding to left and right eyes are arranged at right angles to each other, as shown in FIG. 1/4 phase difference plates (2-1, 2-2) for converting the image into left and right polarized light, a half mirror (3) for combining left and right polarized light, and synthesized left and right polarized light A screen 5 in which polarization is displayed and maintained, a projection optical system 4 for guiding the synthesized left and right polarizations toward the screen 5, and a left and right polarizing plate glasses for transmitting left and right polarized light. It is comprised with 6). The liquid crystal display panels 1-1 and 1-2 display images corresponding to the left and right images by the light projected from the backlight not shown. The images displayed on the liquid crystal display panels 1-1 and 1-2 are converted into left circularly polarized light and the other into right circularly polarized light in the two quarter-phase plates 2-1 and 2-2. The half mirror 3 transmits the incident light by transmitting 1/2 and reflecting 1/2, and combines the left circularly polarized light and the right circularly polarized light and enters the projection optical system 4. Light passing through the projection optical system 4 is irradiated onto the screen 5 to maintain polarization characteristics. When the observer sees the screen 5 using polarized glasses composed of a left circularly polarized plate and a right circularly polarized plate eyeglasses 6 projecting left circularly polarized light and right circularly polarized light, respectively, an image having polarized light in different directions in each of the right and left eyes You will be able to watch 3D images.

However, since two liquid crystal display panels and two quarter-phase plates are used as described above, the device price not only increases significantly, but the volume of the device increases, and the half mirror 3 is used, so that the liquid crystal display panel is used. There is a fatal disadvantage, such that the brightness of the image emitted from the image is delivered to be reduced to less than 1/2, resulting in darkening of the image.

The present invention has been made to solve the above-mentioned conventional problems, and compared to the conventional similar devices, the three-dimensional effect is maintained even when the left and right viewing angles are enlarged and the observer's head is tilted, and the longer the observable distance is secured. Of course, the present invention provides a display system that enables significant cost reduction and realizes a three-dimensional effect in a comfortable posture when observing.

In order to achieve the above object, a three-dimensional image display apparatus according to an embodiment of the present invention, the image display element for displaying an image corresponding to the left and right eyes; A 1/2 phase difference plate processed in a lattice form so as to correspond to the image display element, and installed on a front surface of the image display element; Processed in the form of a film to correspond to the image display device, characterized in that configured to include a 1/4 phase difference plate installed on the front of the 1/2 phase plate.

In addition, to achieve the above object, a three-dimensional image display apparatus according to another embodiment of the present invention, the image display element for displaying an image corresponding to the left and right eyes; A 1/4 phase difference plate processed in a film form so as to correspond to the image display element, and installed on a front surface of the image display element; Processed in the form of a grid to correspond to the image display element, characterized in that configured to include a 1/2 phase difference plate installed on the front of the 1/4 phase plate.

In addition, in order to achieve the above object, the three-dimensional image display system according to an embodiment of the present invention, the image display element for displaying the image corresponding to the left and right eyes, and processed in a grid form so as to correspond to the image display element. And a 1/2 phase difference plate installed on the front of the image display element, and processed in a film form so as to correspond to the image display element, and including a 1/4 phase difference plate installed on the front of the 1/2 phase plate. A display device; Circular polarized glasses for converting the image displayed from the image display device into left circularly polarized light and right circularly polarized light by the 1/2 phase and 1/4 phase difference plates of the stereoscopic image display device, and converting the transmitted image into linearly polarized light again. Characterized in that configured to include.

1 is a diagram illustrating a conventional three-dimensional image display system using circularly polarized light.

2 is a view for explaining an image processing method of an image display element used in the present invention.

3 is a view showing a three-dimensional image display system according to an embodiment of the present invention.

4 is a view showing a three-dimensional image display system according to another embodiment of the present invention.

※ Explanation of code for main part of drawing

1-1, 1-2, 10: Flat display panel (LCD panel or PDP panel)

2-1, 2-2, 40, 60: 1/4 phase difference plate 3: Half mirror

4: projection optical system 5: screen

6: left and right circularly polarized glasses 20: polarizing plate

30: 1/2 phase difference plate of lattice structure 50: Polarized glasses

L: Left eye image R: Right eye image

Hereinafter, a 3D image display system according to an embodiment of the present invention will be described with reference to the accompanying drawings.

With reference to Figures 2 to 4 will be described in detail a preferred embodiment of the present invention.

2 is a view showing an image display form of the image display device to properly implement the present invention.

As shown in the figure, a polarizing plate 20 is provided in front of a flat display panel 10 such as an LCD and a PDP. In the horizontal direction in the polarizing plate 20, an odd line L displays an image to be seen in the left eye, and an even line R displays an image to be shown in the right eye. The signal processing method is an interlace method. This method can be implemented as a program or a circuit configuration.

3 is a diagram illustrating a 3D image display system according to an exemplary embodiment.

As shown in the figure, a polarizing plate 20 is installed on the front of the flat display panel 10 for displaying images corresponding to the left and right eyes, horizontal horizontal odd line (L) of the polarizing plate 20 The left eye image is interlaced, and the right eye image is interlaced and displayed.

In addition, on the front of the polarizing plate 20, a 1/2 phase difference plate 30 processed in a lattice structure to separate the left eye image and the right eye image displayed from the flat panel 10 is installed. The portion a of the second phase difference plate 30 is a portion where the half phase difference plate remains, and the portion b is a portion from which the half phase difference plate is removed. The front phase of the 1/2 phase difference plate 30 is provided with a 1/4 phase difference plate 40 for converting the linearly polarized state passing through the 1/2 phase difference plate 30 into a circularly polarized state.

The three-dimensional image displayed in the three-dimensional image display device including the display panel 10, the 1/2 phase difference plate 30 and the 1/4 phase difference plate 40, the 1/4 phase difference plate 60 is It can be visually confirmed by the polarizing glasses 50 attached. Here, the polarizing glasses 50 to which the 1/4 phase difference plate 60 is attached serves as circular polarizing glasses.

The light of the left eye image of the flat panel 10 is linearly polarized by the polarizing plate 20 attached to the surface, and when the light passes through part a of the 1/2 phase difference plate 20, the polarization direction is 90 degrees. Also, the linearly polarized state is changed, and when it passes through the 1/4 phase difference plate 40 again, it becomes a circularly polarized state, and the circularly polarized light changes to linearly polarized light after passing through the 1/4 phase difference plate 60, which is polarized glasses (50). The left eye through the polarizing plate for the left eye.

In addition, the light of the right eye image of the flat panel 10 is linearly polarized by the polarizer 20 attached to the surface, and when the light passes through the b portion of the 1/2 phase difference plate 20, the polarization direction is changed. Although passed through unchanged state, when passing through the 1/4 phase difference plate 40, it becomes circularly polarized state, and this circular polarization becomes linearly polarized light after passing through the 1/4 phase difference plate 60, which is the right eye of the polarizing glasses 50 Reach the right eye through the dragon polarizer.

As described above, in the three-dimensional image display system according to an embodiment of the present invention, the three-dimensional image displayed on the three-dimensional image display apparatus is output in a circular polarization state, so that an observer wearing polarized glasses with a quarter-phase plate is attached. The left and right viewing angles of are enlarged, and the stereoscopic feeling can be maintained even if the observer's head is tilted due to the observer's head tilted. Therefore, the observer can realize a three-dimensional feeling in a comfortable posture.

In addition, as described above, by producing a display device by stacking and disposing one display panel, a 1/2 phase difference plate and a 1/4 phase difference plate, it is possible to drastically reduce the cost of the 3D image display device and furthermore, The volume of the video display device can also be significantly reduced.

4 is a diagram illustrating a 3D image display system according to another exemplary embodiment.

As shown in the figure, a polarizing plate 20 is installed on the front of the flat display panel 10 for displaying the image corresponding to the left and right eyes, the left eye for the horizontal odd line of the polarizing plate 20 The image is interlaced and displayed on the even line.

In order to convert the left eye image and the right eye image displayed from the flat panel display panel 10 into circularly polarized light, a 1/4 phase difference plate 40 in the form of a film is installed on the front surface of the polarizing plate 20.

On the front of the quarter-phase plate 40, the left-eye image and the right-eye image displayed from the flat display panel 10 are converted into circularly polarized light by the quarter-phase plate 40. In order to separate the polarized image and the circularly polarized image for the right eye, a 1/2 phase difference plate 30 processed in a lattice structure is installed, and a part of the 1/2 phase difference plate 30 is a portion where the 1/2 phase difference plate remains. B is the part from which the 1/2 phase difference plate was removed.

The three-dimensional image displayed in the three-dimensional image display device including the display panel 10, the 1/4 phase difference plate 40 and the 1/2 phase difference plate 30, the 1/4 phase difference plate 60 is It can be visually confirmed by the polarizing glasses 50 attached.

The light of the left eye image of the flat panel 10 is linearly polarized by the polarizer 20 attached to the surface, and the light is converted into circular polarized light while passing through the 1/4 phase difference plate 40. When the circularly polarized light passes through the portion a of the 1/2 phase difference plate 20, the circularly polarized state is changed by 90 degrees, and the circularly polarized light changes to linearly polarized light after passing through the 1/4 phase difference plate 60. The left eye is passed through the left eye polarizer of the glasses 50.

In addition, the light of the image for the right eye of the flat panel 10 is linearly polarized by the polarizer 20 attached to the surface, and the light is converted into circularly polarized light while passing through the 1/4 phase difference plate 40. When the circularly polarized light passes through the b portion of the 1/2 phase difference plate 20, the circularly polarized light passes through the circularly polarized state where the polarization direction is not changed, and the circularly polarized light changes to linearly polarized light after passing through the 1/4 phase difference plate 60. The right eye is reached through the right polarizing plate of the polarizing glasses 50.

As described above, in the 3D image display system according to another exemplary embodiment of the present invention, the 3D image displayed on the 3D image display apparatus is output in a circularly polarized state as in the above-described embodiment, and thus the 1/4 phase difference plate is attached. The left and right viewing angles of the observer wearing the polarized glasses can be enlarged, and the stereoscopic feeling can be maintained even when the observer's field of view is moved because the observer is tilted. Therefore, the observer can realize a three-dimensional feeling in a comfortable posture.

In addition, as described above, by stacking and disposing the display panel, the 1/2 phase difference plate and the 1/4 phase difference plate, it is possible to greatly reduce the cost of the 3D image display device and also to increase the volume of the 3D image display device. It can be made significantly small.

On the other hand, the present invention is not limited to the above-described typical preferred embodiments, it can be carried out in various ways without departing from the gist of the present invention various modifications, alterations, substitutions or additions are common in the art Those who have knowledge will easily understand. If the implementation by such improvement, change, replacement or addition falls within the scope of the appended claims, the technical idea should also be regarded as belonging to the present invention.

As described in detail above, according to the present invention, an image display element for displaying images corresponding to left and right eyes, a lattice type 1/2 phase difference plate and a film type phase retardation plate processed to correspond to the image display element By using the optical technique, the retardation plates are used to convert the image displayed from the image display element into left circularly polarized light and right circularly polarized light, respectively, and transmit them and convert them into linearly polarized light. Compared to the device, the three-dimensional effect is maintained even when the left and right viewing angles are enlarged and the observer's head is inclined, the observation distance is long, as well as the cost reduction and the size of the device can be reduced. There is an excellent effect that can realize a three-dimensional feeling.

Claims (10)

An image display device for displaying an image corresponding to left and right eyes; A 1/2 phase difference plate processed in a lattice form so as to correspond to the image display element, and installed on a front surface of the image display element; 3D image display apparatus comprising a 1/4 phase difference plate is processed in the form of a film so as to correspond to the image display element, and installed on the front of the 1/2 phase plate. The method of claim 1, And the image display device is any one selected from a liquid crystal display device and a plasma display device. The method of claim 1, And the left eye image and the right eye image are interleaved and outputted in the image display device. The method of claim 1, And a polarizing plate is attached to a front surface of the image display device. An image display device for displaying an image corresponding to left and right eyes; A 1/4 phase difference plate processed in a film form so as to correspond to the image display element, and installed on a front surface of the image display element; And a 1/2 phase difference plate disposed in front of the 1/4 phase plate to be processed in a lattice form so as to correspond to the image display element. An image display element for displaying an image corresponding to both left and right eyes, a 1/2 phase difference plate disposed in front of the image display element and processed in a lattice form so as to correspond to the image display element, and a film to correspond to the image display element A stereoscopic image display device which is processed into a shape and comprises a 1/4 phase difference plate installed on a front side of the 1/2 phase plate; Circular polarized glasses for converting the image displayed from the image display device into left circularly polarized light and right circularly polarized light by the 1/2 phase and 1/4 phase difference plates of the stereoscopic image display device, and converting the transmitted image into linearly polarized light again. 3D image display system comprising a. An image display device for displaying an image corresponding to left and right eyes; A 1/4 phase difference plate processed in a film form so as to correspond to the image display element, and installed on a front surface of the image display element; A stereoscopic image display device which is processed into a grid shape so as to correspond to the image display element, and includes a 1/2 phase difference plate installed on the front of the quarter phase plate; Circular polarized glasses for converting the image displayed from the image display element into left circularly polarized light and right circularly polarized light by the 1/4 phase and 1/2 phase difference plates of the stereoscopic image display device, and converting the transmitted image into linearly polarized light again. 3D image display system comprising a. The method of claim 7, wherein And the image display device is one selected from a liquid crystal display device and a plasma display device. The method of claim 7, wherein And the left eye image and the right eye image are interleaved and outputted in the image display device. The method of claim 7, wherein And a polarizing plate is attached to a front surface of the image display device.