The disclosure of Japanese Patent Application No. 2005-157655 filed on May 30, 2005 including the specification, drawings and abstract is incorporated herein by reference in its entirety.
1. Field of the Invention
The present invention relates to a three-dimensional display device, and more particularly to a technique which is effectively applicable to a three-dimensional display device of a DFD (Depth Fused 3D) type which arranges a plurality of display panels (display screens) in the depth direction in an overlapped manner.
2. Description of Related Arts
Conventionally, as a three-dimensional display device which displays a three-dimensional image such as a three-dimensional stereoscopic image of an object or an image which arranges a plurality of objects three-dimensionally, there has been known a display device of a DFD type.
The above-mentioned display device of a DFD type is a three-dimensional display device which arranges a plurality of display panels (display screens) at different depth positions as viewed from a viewer of the display device (for example, Japanese Patent Laid-open No. 2002-214566 (patent document 1)). In the three-dimensional display device described in the above-mentioned patent document 1 or the like, two-dimensional images which are obtained by projecting an object to be displayed on the respective display screens from the viewing direction of the viewer are generated, and are displayed on the respective display screens. Then, the transmissivities of the two-dimensional images displayed on the respective display screens as viewed from the viewer are respectively independently changed for respective display screens thus generating a three-dimensional stereoscopic image.
Here, for example, in the display device having two display panels, the transmissivity of the front-side display panel as viewed from the viewer is set such that the brightness of the two-dimensional image which is displayed on the front-side display panel becomes equal to the brightness of the object to be displayed, and the transmissivity of the depth-side display panel as viewed from the viewer is set to a maximum value of the display panel, for example. Due to such a constitution, it appears to the viewer as if the object to be displayed is displayed on the front-side display panel. Further, by slightly increasing the transmissivity of the front-side display panel and by slightly decreasing the transmissivity of the depth-side display panel, it appears to the viewer as if the object to be displayed is displayed at a depth position corresponding to a rate of transmissivities of the respective display panels. In this manner, in the above-mentioned display device of a DFD type, it is possible to display an image of the object at the arbitrary depth position between the display panels by independently changing the transmissivity of the front-side display panel and the transmissivity of the depth-side independently from each other so as to change a ratio between the transmissivities thereof.
The above-mentioned three-dimensional display device of a DFD type allows the viewer to observe the three-dimensional stereoscopic image without using particular glasses for stereoscopic observation such as a liquid crystal shutter glass, for example, thus suppressing the contradiction among physiological factors in stereoscopic vision.
The three-dimensional display device of the present invention is a three-dimensional display device of a DFD type and is substantially characterized in that at least one display panel out of a plurality of display panels is a display panel which includes a filter having higher light transmissivity than a color filter which expresses color of an image (reference color filter) or pixels having transparent windows. To explain typical constitutional examples of the three-dimensional display device having such a feature, they are as follows, for example.
(1) In a three-dimensional display device which includes a plurality of transmissive display panels (hereinafter referred to as display panels) and a light source, wherein the plurality of display panels have depth positions thereof made different from each other as viewed from a viewer and have display surfaces thereof overlapped to each other, the light source is arranged at a position at which the light source radiates light toward the front-side display panel from the display panel which is arranged at a deepest position as viewed from the viewer, and each display panel includes a plurality of color filters which express colors of an image to be displayed (hereinafter referred to as reference color filters) per pixel, the plurality of display panels is constituted of a first display panel in which all pixels are formed of a pixel to which only the reference color filters are provided, and a second display panel which has filters having optical transmissivity higher than optical transmissivity of the reference color filters or pixels which form transparent windows.
(2) On the premise of the constitutional example (1), the present invention is characterized in that the second display panel is arranged on a side deeper than the first panel as viewed from the viewer.
(3) On the premise of the constitutional example (1) or (2), the present invention is characterized in that the second display panel includes the pixels to which white color filters are provided.
(4) On the premise of the constitutional example (3), the present invention is characterized in that the reference color filter and the white color filter are provided to all pixels in the second display panel.
(5) On the premise of the constitutional example (4), the present invention is characterized in that an area of the reference color filter and an area of the white color filter are set equal to each other in the second display panel.
(6) On the premise of the constitutional example (3), the present invention is characterized in that the second display panel includes the pixels to which only the reference color filters are provided and the pixels to which only the white color filters are provided.
(7) On the premise of the constitutional example (6), the present invention is characterized in that the pixels to which only the reference color filters are provided and the pixels to which only the white color filters are provided are arranged in a checkered pattern in the second display panel.
(8) On the premise of the constitutional example (6), the present invention is characterized in that the pixels to which only the reference color filters are provided and the pixels to which only the white color filters are provided are arranged in a stripe pattern in the second display panel.
(9) On the premise of the constitutional example (3), the present invention is characterized in that the second display panel includes the pixels to which only the reference color filters are provided and the pixels each of which replaces one of the reference color filters with the white color filter.
(10) On the premise of the constitutional example (9), the present invention is characterized in that the pixels to which only the reference color filters are provided and the pixels each of which replaces one of the reference color filters with the white color filter are arranged in a checkered pattern in the second display panel.
(11) On the premise of the constitutional example (3), the present invention is characterized in that the second display panel includes only the pixels which replace one of the reference color filters with the white color filter.
(12) On the premise of the constitutional example (11), the present invention is characterized in that the pixels in a plurality of patterns which replace one of the reference color filters with the white color filter are arranged in a stripe shape.
(13) On the premise of the constitutional example (11), the present invention is characterized in that the pixels in a plurality of patterns which replace one of color filters with the white color filter are arranged in the second display panel such that two or more pixels having the same pattern are not continuously arranged.
The three-dimensional display device of the present invention includes, for example, as in the case of the constitutional example (1), the second display panel which has the pixels to which the filters having the higher optical transmissivity than the reference color filters or the transparent windows are formed are provided. Accordingly, in passing through the second display panel, the transmissivity (brightness) of the light which passes through the pixel which is provided with the filter having the high optical transmissivity or the transparent window becomes larger than the transmissivity of the light which passes the pixel which is provided with only the reference color filters and can prevent the lowering of the intensity of the light. Accordingly, it is possible to prevent a displayed three-dimensional stereoscopic image from being darkened.
Here, by arranging the second display panel deeper than the first display panel as in the case of the constitutional example (2), it is possible to lower the intensity (brightness) of the light which passes the second display panel and hence, it is possible to increase the intensity of the light which is radiated to the first display panel. Accordingly, it is possible to prevent the displayed three-dimensional stereoscopic image from being darkened and, at the same time, it is possible to reduce the displacement of the depth position of the displayed three-dimensional stereoscopic image.
Here, it may be sufficient that the second display panel includes the pixels which are provided with the filters having the higher optical transmissivity than the reference color filters or the transparent windows. However, when the colors expressed by the reference color filters are influenced, that is, the colors expressed by the reference color filters are changed, an image (two-dimensional image) which is displayed by the second display panel is deteriorated. Accordingly, to prevent the colors expressed by the reference color filters from being changed, it is preferable to provide the white color filters as the filters having the high optical transmissivity as in the case of the constitutional example (3).
Further, when the white filters are provided to the second display panel, for example, it is preferable that the second display panel adopts the constitution of any one of the constitutional examples (4) to (13). Particularly, by adopting the constitutional example (7) or the constitutional example (13), it is possible to enhance an effect to improve the optical transmissivity of the second display panel and, at the same time, it is possible to make the degradation of an image attributed to the white filter less conspicuous.
Hereinafter, the present invention is explained in detail in conjunction with embodiments by reference to the drawings. Here, in all drawings for explaining the embodiments, parts having identical functions are given same numerals and their repeated explanation is omitted.
In a three-dimensional display device of a DFD type of the present invention, by forming at least one display panel out of a plurality of display panels using a display panel which has pixels which are provided with filters having the higher optical transmissivity than color filters (reference color filters) which express colors of an image or transparentwindows, it is possible to prevent a displayed three-dimensional stereoscopic image from being darkened.
A three-dimensional display device 1 of the present invention is a three-dimensional display device of a DFD-type. The three-dimensional display device 1 includes, for example, as shown in
The above-mentioned respective display panels 101, 102 may have any constitution provided that an image (two-dimensional image) is displayed by allowing the light radiated from the light source 103 to pass through or to be blocked for every pixel unit. For example, a liquid crystal display panel is used as such display panels 101, 102. When the liquid crystal display panel is used as the display panel, the front-side display panel 101 includes, for example, as shown in
Further, as the light source, for example, a fluorescent lamp such as a cold cathode fluorescent tube, a dispersion type electro luminescence (EL), a light emitting diode (LED) or the like may be used.
Further, although omitted from
Further, in the three-dimensional display device 1 of a DFD-type of the present invention, the constitution of the above-mentioned display panels 101, 102 and the detailed constitution of other parts may be substantially equal to the constitution of the three-dimensional display device described in the above-mentioned Patent document 1 (Japanese Patent Laid-open 2002-214566) and hence, the detailed explanation of these constitutions is omitted in these specification.
The detail of the method for displaying a three-dimensional stereoscopic image of an object or a three-dimensional image which arranges a plurality of objects in a three-dimensional manner using the three-dimensional display device 1 of a DFD-type may be substantially equal to the three-dimensional display method described in the above-mentioned patent document 1 and hence, the detailed explanation of the method is omitted in this specification and the explanation is made briefly only with respect to the display principle.
In displaying a three-dimensional image using the three-dimensional display device 1 of a DFD-type which has two display panels, for example, as shown in
Further, in the above-mentioned three-dimensional display device 1 of a DFD-type, in place of the transmissivities of the two-dimensional images Obj1, Obj2 displayed on the above-mentioned respective display panels 101, 102, a ratio of brightnesses of the two-dimensional images Obj1, Obj2 may be set. Also in this case, it appears for the viewer as if the object to be displayed Obj is displayed at a depth position corresponding to the ratio of brightnesses of the two-dimensional images Obj1, Obj2 displayed on the above-mentioned respective display panels 101, 102.
However, in the conventional three-dimensional display device of a DFD-type, the light which is radiated to the front-side display panel 101 is the light which passes through the depth-side display panel 102 with a certain transmissivity α2 and exhibits the intensity (brightness) smaller than the intensity (brightness) of the light which is radiated to the depth-side display panel 102. Accordingly, the intensity of the light which arrives at the viewer 2 after passing through the front-side display panel 101 is further decreased. As a result, the displayed three-dimensional image may be darkened or the depth position of the three-dimensional image may appear such that the depth position is displaced from a preset position. Accordingly, in the three-dimensional display device 1 of this embodiment of the present invention, for example, to reduce a degree of lowering of the intensity of the light which is radiated to the front-side display panel 101, as the depth-side display panel 102, the display panel which includes the pixels which are provided with the filters having the higher optical transmissivity than the color filters of a plurality of colors (reference color filters) which express colors of the object or the transparent windows is used. Hereinafter, a constitutional example of the display panel which includes the pixels which are provided with the filters having the higher optical transmissivity than the reference color filters or the transparent windows is explained (embodiment 1)
In
The three-dimensional display device 1 of the embodiment 1 includes, as shown in
Further, on the counter substrate 102b of the depth-side display panel 102 as viewed from the viewer, for example, as shown in
Further, although the detailed explanation is omitted, as shown in
In case of the three-dimensional display device of this embodiment 1, the above-mentioned depth-side display panel 102 is provided with the above-mentioned white color filter CFw in each pixel. Here, out of the light which passes through the above-mentioned depth-side display panel 102, the light which passes through each reference color filter CFR, CFG, CFB decreases intensity (brightness) thereof, the light which passes through the white color filter CFw hardly reduces intensity thereof. Accordingly, to consider the display screen as a whole, for example, the light which passes through the white color filter CFW exhibits the higher intensity compared to the light which passes through the pixel which is only provided with the above-mentioned respective reference color filter CFR, CFG, CFB. As a result, a degree of lowering of the intensity (brightness) of light which is radiated to the front-side display panel 101 can be reduced thus preventing the displayed three-dimensional image from being darkened.
Further, in arranging the respective reference color filter CFR, CFG, CFB and the white color filter CFw in the depth-side display panel 102 in a two-by-two-matrix pattern, the pixel arrangement is not limited to the arrangement shown in
Further, in arranging the respective reference color filter CFR, CFG, CFB and the white color filter CFw in the depth-side display panel 102, the pixel arrangement is not limited to the arrangement in a two-by-two-matrix pattern shown in
Here, when the area of the white color filter CFw is large, the influence of light which passes through the white color filter CFw is increased and hence, it is difficult to distinguish colors of an object that the respective pixels express. On the other hand, when the area of the white color filter CFw is small, an effect to increase the intensity (brightness) of light which is radiated to the front-side display panel 101 is decreased. Further, for example, as shown in
As explained heretofore, according to the three-dimensional display device of this embodiment 1, with the use of the display panel in which the respective reference color filters CFR, CFG, CFB and the white color filter CFw are combined as one set and this set is provided to the depth-side display panel 102 per pixel, the degree of lowering of intensity (brightness) of the light attributed to the depth-side display panel 102 can be reduced and the brightness of light which is radiated to the front-side display panel 101 can be increased. Accordingly, it is possible to prevent the displayed three-dimensional stereoscopic image from being darkened.
Further, by increasing the brightness of the light which is radiated to the front-side display panel 101, it is possible to prevent the decrease of the brightness of the two-dimensional image displayed on the front-side display panel 101 and hence, for example, it is possible to prevent an object to be displayed from being displayed at a position deeper than a preset depth position.
Here, in the three-dimensional display device 1 of this embodiment 1, the white color filter CFw is provided to the depth-side display panel 102, this embodiment is not limited to such an arrangement. For example, the white color filter CFw is provided to the front-side display panel 101.
Further, in this embodiment 1, the three-dimensional display device 1 which includes two display panels 101, 102 is exemplified as shown in
Further, in this embodiment 1, as the combination of the reference color filters which express the colors of the image, the combination of R, G, B is exemplified, this embodiment is not limited to such a constitution and the combination of other colors may be also used.
The three-dimensional display device 1 of the embodiment 2 includes, as shown in
Further, on the counter substrate 102b of the depth-side display panel 102, for example, as shown in
In the three-dimensional display device of the embodiment 1, an area that the white color filter CFw occupies in a region where an image is displayed (a display screen) of the depth-side display panel 102 is approximately ¼ of the whole display screen. On the other hand, in the three-dimensional display device of the embodiment 2, an area that the white color filter CFw occupies in the display screen of the depth-side display panel 102 is approximately half of the whole display screen. Accordingly, the three-dimensional display device of this embodiment 2 can, compared to the three-dimensional display device of the embodiment 1, enhance an advantageous effect to increase the intensity (brightness) of light which is radiated to the front-side display panel 101. As a result, the displayed three-dimensional stereoscopic image can be more brightened and, at the same time, the displacement of the depth position can be further decreased.
Further, in the generally used display panel, an area of one pixel is extremely small to an extent that the viewer cannot distinguish individual pixels. Accordingly, as shown in
Further, in the example shown in
Further, when the pixel which includes the respective reference color filters CFR, CFG, CFB and the pixel which includes only the white color filter CFw are arranged in the depth-side display panel 102, the pixel arrangement is not limited to the arrangement in a checkered patter shown in
Further, for example, as shown in
Further, in
As explained heretofore, according to the three-dimensional display device of this embodiment 2, in the same manner as the three-dimensional display device of the embodiment 1, the degree of lowering of intensity (brightness) of the light attributed to the depth-side display panel 102 can be reduced and the brightness of light which is radiated to the front-side display panel 101 can be increased. Accordingly, it is possible to prevent the displayed three-dimensional stereoscopic image from being darkened.
Further, by increasing the brightness of the light which is radiated to the front-side display panel 101, it is possible to prevent the decrease of the brightness of the two-dimensional image displayed on the front-side display panel 101 and hence, for example, it is possible to prevent an object to be displayed from being displayed at a position deeper than a preset depth position.
Further, in the three-dimensional display device of this embodiment 2, an area of the white color filter CFw of the depth-side display panel 102 can be set larger than the area of the white color filter CFw of the depth-side display panel 102 in the three-dimensional display device of the embodiment 1 and hence, compared to the three-dimensional display device of the embodiment 1, it is possible to increase the intensity (brightness) of light radiated to the front-side display panel 101.
Here, in the three-dimensional display device of this embodiment 2, the pixel which includes only the white color filter CFw is provided to the depth-side display panel 102, this embodiment is not limited to such an arrangement. For example, the pixel which includes only the white color filter CFw may be provided to the front-side display panel 101.
Further, in this embodiment 2, the three-dimensional display device 1 which includes two display panels 101, 102 as shown in
Further, in this embodiment 2, as the combination of the reference color filters which express the colors of the image, the combination of R, G, B is exemplified, this embodiment is not limited to such a constitution and the combination of other colors may be also used.
The three-dimensional display device 1 of an embodiment 3 includes, as shown in
Here, on the counter substrate 102b of the depth-side display panel 102, for example, as shown in
Further, when the depth-side display panel 102 adopts the constitution shown in
Further, in the example shown in
In replacing one of the reference color filters CFR, CFG, CFB with the white color filter CFw, not only the color filter of a particular color is replaced but also, for example, the pixels of three patterns including the pixel which replaces the red color filter CFR with the white color filter CFw, the pixel which replaces the green color filter CFG with the white color filter CFw and the pixel which replaces the blue color filter CFB with the white color filter CFw may be arranged. As such an example, for example, as shown in
Further, in arranging the pixel which replaces the red color filter CFR with the white color filter CFw, the pixel which replaces the green color filter CFG with the white color filter CFw and the pixel which replaces the blue color filter CFB with the white color filter CFw, the arrangement of the pixels is not limited to the stripe arrangement shown in
As explained heretofore, according to the three-dimensional display device of this embodiment 3, in the same manner as the three-dimensional display device of the embodiment 1 and the embodiment 2, the degree of lowering of intensity (brightness) of the light attributed to the depth-side display panel 102 can be reduced and the brightness of light which is radiated to the front-side display panel 101 can be increased. Accordingly, it is possible to prevent the displayed three-dimensional stereoscopic image from being darkened.
Further, by increasing the brightness of the light which is radiated to the front-side display panel 101, it is possible to prevent the decrease of the brightness of the two-dimensional image displayed on the front-side display panel 101 and hence, for example, it is possible to prevent an object to be displayed from being displayed at a position deeper than a preset depth position.
Here, in the three-dimensional display device of this embodiment 3, the white color filter CFw is provided to the depth-side display panel 102, this embodiment is not limited to such an arrangement. For example, the white color filter CFw is provided to the front-side display panel 101.
Further, in this embodiment 3, the three-dimensional display device which includes two display panels 101, 102 is exemplified. However, this embodiment is not limited to such a constitution and the present invention is applicable to the three-dimensional display device which includes three or more display panels. In this case, as in the case of the above-mentioned depth-side display panel 102, by arranging a display panel on which the white color filter CFw is mounted at a depth position close to the light source 103, it is possible to decrease a degree of lowering of intensity of light radiated to the front-side display panel 101.
Further, in this embodiment 3, as the combination of the reference color filters which express the colors of the image, the combination of R, G, B is exemplified, this embodiment is not limited to such a constitution and the combination of other colors may be also used.
Although the present invention has been explained specifically in conjunction with the embodiments, it is needless to say that the present invention is not limited to the above-mentioned embodiments and various modifications can be made without departing from the gist of the present invention.
Number | Date | Country | Kind |
---|---|---|---|
2005-157655 | May 2005 | JP | national |