JP2007334274A - Stereograph - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To prepare a low-price stereograph without using high-precision working and high-precision parts. <P>SOLUTION: An image for right eye of a stereo pair image is disposed at a left slope of a V-shaped groove structure and an image for left eye is disposed at a right slope. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a stereoscopic photograph having a structure in which two parallax images are displayed separately on the left and right eyes.

  As a structure for separating and displaying two images with parallax on the left and right eyes, a structure using a lenticular lens and a parallax barrier is known.

However, in stereo photography using a lenticular lens and a parallax barrier, the right-eye image and left-eye image of a stereo pair photograph are alternately divided and arranged so that it can be used as a back cover such as a DVD case. It was difficult to obtain a sufficient resolution for stereoscopic photographs of the size.
According to the first and second aspects of the invention, it is possible to obtain a fine resolution with a small-sized stereoscopic photograph, and to produce a low-priced stereoscopic photograph without using precise processing and precision parts. This is the issue.
It is an object of the present invention described in claims 3 and 4 to produce a low-priced stereoscopic photograph with a relatively large size, precise processing, and without using precise parts.
In the invention according to claim 5, the invention according to claims 1 to 4 overcomes the disadvantage that a stereoscopic image becomes dark because an image is arranged obliquely to the line of sight, and a clear stereoscopic image cannot be obtained. Let it be an issue.
In the inventions according to claims 6 and 7, it is an object of the present invention to create a three-dimensional photograph using only a printing paper as a material with a configuration of a computer and a printer in a general household.

According to the first aspect of the present invention, in FIG. 1, the right eye image (7) is arranged so as to overlap the left eye left end line of sight (3), and the left eye image (8) is overlapped with the right eye right end line of sight (6). ).
In FIG. 3, the right-eye image (7) is the right-eye original image (18), the image height (16) is the upper bottom, the image V-shaped groove bottom height (17) is the lower bottom, and the V-shape. It is created by extending into a trapezoid with the groove slope length (21) as the height.
In FIG. 4, the image for the left eye (8) is the original image for the left eye (19), the image height (16) is the upper bottom, the image V-shaped groove bottom height (17) is the lower bottom, and the V-shape. It is created by extending into a trapezoid with the groove slope length (21) as the height.
In FIG. 2, the image V-shaped groove bottom height (17) indicates the intersection of the image upper end line of sight (14) and the V-shaped groove bottom part (11), the image lower end line of sight (15), and the V-shaped groove bottom part (11). ) Is the length of the line segment at the intersection point.

According to the second aspect of the present invention, in FIG. 5, the right eye image (27) is arranged so as to overlap the left eye right end line of sight (23), and the left eye image (26) is overlapped with the right eye left end line of sight (24). ).
In FIG. 7, the left-eye image (26) is the left-eye original image (19), the image height (16) is the bottom, the image convex edge height (34) is the top, and the image convex It is created by extending it into a trapezoid with the slope length (35) as the height.
In FIG. 8, the image for right eye (27) is the original image for right eye (18), the image height (16) is the bottom, the image convex edge height (34) is the top, and the image convex It is created by extending it into a trapezoid with the slope length (35) as the height.
In FIG. 6, the height of the image convex portion ridge (34) is the intersection of the image upper line of sight (32) and the convex vertex (30), the image lower line of sight (33) and the convex vertex (30). The length of the line segment at the intersection.

According to the third aspect of the present invention, in FIG. 9, the right-eye fragment 1 image (42) is arranged so as to overlap the left eye-V-shaped groove 1 left end line of sight (36).
The right-eye fragment 2 image (44) is arranged so as to overlap the left eye-V-groove 2 left end line of sight (37).
The right eye fragment 3 image (46) is arranged so as to overlap the left eye-V-groove 3 left end line of sight (38).
The left-eye fragment 1 image (43) is arranged so as to overlap the right eye-V-shaped groove 1 right end line of sight (39).
The left eye fragment 2 image (45) is arranged so as to overlap the right eye-V-shaped groove 2 right end line of sight (40).
The left eye fragment 3 image (47) is arranged so as to overlap the right eye-V-shaped groove 3 right end line of sight (41).
In FIG. 10, the right-eye fragment 1 image (42) is the right-eye fragment original image (57), the image height (16) is the upper bottom, and the image V-shaped groove bottom length (17) is the lower. It is created by extending it into a trapezoid with the bottom, V-shaped groove 1 left slope length (60) as the height.
The left eye fragment 1 image (43) is the left eye fragment 1 original image (54), the image height (16) is the upper bottom, the image V-shaped groove bottom length (17) is the lower bottom, and the V-shaped groove 1 right side. It is created by extending into a trapezoid with the slope length (61) as the height.
The right-eye fragment 2 image (44) is the right-eye fragment binary image (58), the image height (16) is the upper bottom, the image V-shaped groove bottom length (17) is the lower bottom, and the V-shaped groove 2 left side. It is created by extending into a trapezoid with the slope length (62) as the height.
The left eye fragment 2 image (45) is the left eye fragment binary image (55), the image height (16) is the upper bottom, the image V-shaped groove bottom length (17) is the lower bottom, and the V-shaped groove 2 right side. It is created by extending into a trapezoid whose slope length (63) is the height.
The right eye fragment 3 image (46) is the right eye fragment 3 original image (59), the image height (16) is the upper bottom, the image V-shaped groove bottom length (17) is the lower bottom, and the V-shaped groove 3 left side. It is created by extending the slope length (64) into a trapezoid.
The left eye fragment 3 image (47) is the left eye fragment 3 original image (56), the image height (16) is the upper bottom, the image V-shaped groove bottom length (17) is the lower bottom, the V-shaped groove 3 right side It is created by extending it into a trapezoid with the slope length (65) as the height.
In FIG. 2, the image V-shaped groove bottom height (17) indicates the intersection of the image upper end line of sight (14) and the V-shaped groove bottom part (11), the image lower end line of sight (15), and the V-shaped groove bottom part (11). ) Is the length of the line segment at the intersection point.

In the invention of claim 4, in FIG. 11, the right eye fragment 1 image (73) is arranged so as to overlap the left eye-convex portion 1 vertex line of sight (66).
The right eye fragment 2 image (75) is arranged so as to overlap the left eye-convex part 2 vertex line of sight (67).
The right eye fragment 3 image (77) is arranged so as to overlap the left eye-convex part 3 vertex line of sight (68).
The left eye fragment 1 image (72) is arranged so as to overlap the right eye-convex part 1 vertex line of sight (69).
The left eye fragment 2 image (74) is arranged so as to overlap the right eye-convex part 2 vertex line of sight (70).
The left eye fragment 3 image (76) is arranged so as to overlap the right eye-convex part 3 vertex line of sight (71).
In FIG. 12, the left-eye fragment 1 image (72) is the left-eye fragment original image (54), with the image height (16) at the bottom and the image convex edge height (34) at the top. The projection 1 is created by extending into a trapezoid having a left slope length (82) as a height.
The right-eye fragment 1 image (73) includes the right-eye fragment 1 original image (57), the image height (16) as the lower base, the image convex edge height (34) as the upper base, and the convex part 1 right slope length. It is created by expanding into a trapezoid with a height (83).
The left-eye fragment 2 image (74) is the left-eye fragment binary image (55), the image height (16) is the lower base, the image convex edge height (34) is the upper base, and the convex part 2 left slope length It is created by stretching into a trapezoid with a height (84).
The right-eye fragment 2 image (75) is the right-eye fragment binary image (58), the image height (16) is the lower base, the image convex edge height (34) is the upper base, and the convex part 2 right slope length It is created by stretching into a trapezoid with a height (85).
The left-eye fragment 3 image (76) is the left-eye fragment three-way image (56), the image height (16) is the lower base, the image convex edge height (34) is the upper base, and the convex part 3 left slope length It is created by stretching into a trapezoid with height (86).
The right eye fragment 3 image (77) is the right eye fragment 3 original image (59), the image height (16) is the lower base, the image convex edge height (34) is the upper base, and the convex part 3 right slope length It is created by stretching into a trapezoid with height (87).
In FIG. 6, the height of the image convex portion ridge (34) is the intersection of the image upper line of sight (32) and the convex vertex (30), the image lower line of sight (33) and the convex vertex (30). The length of the line segment at the intersection.

According to the first aspect of the present invention, in FIG. 1, the left eye (1) is used for the left eye by looking into the V groove opening at the V groove right end (10) from the V groove left end (9). The image (8) looks like a left-eye original image (19) at the V-shaped groove opening, and the right-eye image (7) is displayed at the V-shaped groove opening at the right-eye (2). looks like.
Since the left-eye original image (19) and the right-eye original image (18) are images with parallax of a stereo pair image, they are recognized as a stereoscopic image by the viewer.

According to the second aspect of the present invention, in FIG. 5, the left eye (1) has a left-eye image (26) by gazing at the convex bottom from the convex left end (28) to the convex right end (29). ) Appears on the bottom of the convex portion as the original image for the left eye (19), and on the right eye (2), the image for the right eye (27) appears on the bottom of the convex portion as the original image for the right eye (18).
Since the left-eye original image (19) and the right-eye original image (18) are images with parallax of a stereo pair image, they are recognized as a stereoscopic image by the viewer.

In FIG. 9, the left eye (1) has an opening for the left eye in the V-shaped groove 1 opening from the left end (88) of the V-shaped groove 1 to the right end (89) of the V-shaped groove 1 in FIG. The fragment 1 image (43) looks like a left-eye fragment original image (54) in the V-shaped groove 1 opening, and the right-eye fragment 1 image (42) is in the V-shaped groove 1 opening in the right eye (2). Looks like the right-eye fragment original image (57).
In the V-shaped groove 2 opening from the left end (90) of the V-shaped groove 2 to the right end (91) of the V-shaped groove 2, the left-eye fragment 2 image (45) is displayed on the left-eye (1). For the right eye (2), the right eye fragment 2 image (44) looks like the right eye fragment binary image (58) in the V-shaped groove 2 opening.
In the V-shaped groove 3 opening from the left end (92) of the V-shaped groove 3 to the right end (93) of the V-shaped groove 3, the left eye fragment 3 image (47) is displayed on the left eye (1). For the right eye (2), the right eye fragment 3 image (46) looks like the right eye fragment 3 original image (59) in the V-shaped groove 3 opening.
The left-eye fragment original image (54), the left-eye fragment binary image (55), and the left-eye fragment three-way image (56), and the left-eye fragment original image (52) 57) The right-eye fragment binary image (58) and the right-eye fragment binary image (59) are combined with the right-eye fragment binary image (59). Recognized as an image.

The invention according to claim 4 is that in FIG. 11, the left eye (1) has a left eye fragment 1 image (from the left end (94) of the convex portion 1 to the right end (95) of the convex portion 1). 72) looks like a left-eye fragment original image (54) at the bottom of the convex portion 1, and the right-eye fragment 1 image (73) appears at the bottom of the convex portion 1 at the bottom of the convex portion 1 (54). 57).
At the bottom of the convex part 2 from the left end (96) of the convex part 2 to the right end (97) of the convex part 2, the left eye fragment 2 image (74) is displayed on the left part of the left eye (1), and the left eye fragment binary image ( 55), and to the right eye (2), the right-eye fragment 2 image (75) looks like a right-eye fragment binary image (58) at the bottom of the convex portion 2.
At the bottom of the convex part 3 from the left end (98) of the convex part 3 to the right end (99) of the convex part 3, the left eye fragment 3 image (76) is displayed on the left part of the left eye (1), and the left eye fragment three original image ( 56), and to the right eye (2), the right eye fragment 3 image (77) looks like the right eye fragment 3 original image (59) at the bottom of the convex part 3.
The left-eye fragment original image (54), the left-eye fragment binary image (55), and the left-eye fragment three-way image (56), and the left-eye fragment original image (52) 57) The right-eye fragment binary image (58) and the right-eye fragment binary image (59) are combined with the right-eye fragment binary image (59). Recognized as an image.

FIG. 13 shows an embodiment according to claim 6 and claim 7, and is an image obtained by collectively printing the right eye fragment 1 image (42) to the left eye fragment 3 image (47) shown in FIG. The dotted line of the sheet (101) is fold-folded, the alternate long and short dash point is fold-folded, and sandwiched between the support parts (100) and fixed with an adhesive.
The image sheet (101) and the support component (100) have a configuration of a computer and a printer in a general household. If a stereo pair image is prepared, the image sheet (101) and the support component (100) are printed and separated by a cutter or the like.
Realized as software executed on a computer, no special parts are required, and no high-precision processing is required.
The printing paper used for printing the image sheet (101) is a thin sheet having a thickness of about 0.1 mm, and is viewed over a light source such as a fluorescent lamp. A bright and vivid 3D image emerges.

FIG. 14 shows an embodiment in which the invention of claim 1 is applied to the back cover of a DVD case, and the V-shaped groove structure (104) described in FIG. 1 is changed to the upper end of the back cover of the DVD case (102). In addition, by providing a skylight (103), a bright and vivid three-dimensional image emerges.
The width of the spine of the DVD case is about 12 mm, and a good stereoscopic photograph can be realized even with such a small size.

FIG. 15 shows an embodiment of the invention as set forth in claim 8, and a booklet (105) is provided with a band (106) for limiting an angle at which a page is opened.
The invention according to claim 1 is applied to a V-shaped groove structure formed by opening a page.
By looking in from the viewing direction (107), a stereoscopic image emerges.

It is a top view of Claim 1 of this invention. It is a side view of Claim 1 of this invention. It is explanatory drawing which produces the image for right eyes of Claim 1 of this invention. It is explanatory drawing which produces the image for left eyes of Claim 1 of this invention. It is a top view of Claim 2 of the present invention. It is a side view of Claim 2 of this invention. It is explanatory drawing which produces the image for left eyes of Claim 2 of this invention. It is explanatory drawing which produces the image for right eyes of Claim 2 of this invention. It is a top view of Claim 3 of this invention. It is explanatory drawing which produces the image of Claim 3 of this invention. It is a top view of Claim 4 of the present invention. It is explanatory drawing which produces the image of Claim 4 of this invention. It is the schematic of Claim 6 and Claim 7 of this invention. It is the figure which applied invention of claim 1 of this invention to DVD case spine. It is a schematic diagram of Claim 8 of this invention.

Explanation of symbols

1 Left eye 2 Right eye 3 Left eye left edge line of sight 4 Left eye right edge line of sight 5 Right eye left edge line of sight 6 Right eye right edge line of sight 7 Right eye image 8 Left eye image 9 V-shaped groove left edge 10 V-shaped groove right edge 11 V-shaped groove bottom 12 Panel 13 Eye 14 Upper edge of image Line of sight 15 Image bottom line of sight 16 Image height 17 Image V-shaped groove bottom height 18 Right-eye original image 19 Left-eye original image 20 Image width 21 V-shaped groove slope length 22 Left eye left-end line of sight 23 Left eye right-end line of sight 24 Right eye left-end line of sight 25 Right eye right end line of sight 26 Left eye image 27 Right eye image 28 Convex part left end 29 Convex part right end 30 Convex part vertex 31 Panel 32 Top end line of sight 33 Image bottom line of sight 34 Image convex part ridge height 35 Image convex part slope length 36 Left eye- V-groove 1 left end line of sight 37 Left eye-V-shaped groove 2 left end line of sight 38 Left eye-V-shaped groove 3 left end line of sight 39 Right eye-V-shaped groove 1 right end line of sight 40 Right eye-V-shaped groove 2 right end line of sight 1 Right-eye-V-shaped groove 3 Right end line of sight 42 Right-eye fragment 1 image 43 Left-eye fragment 1 image 44 Right-eye fragment 2 image 45 Left-eye fragment 2 image 46 Right-eye fragment 3 image 47 Left-eye fragment 3 image 48 Panel 49 V-shape Groove 1 bottom 50 V-groove 2 bottom 51 V-groove 3 bottom 52 Left-eye original image 53 Right-eye original image 54 Left-eye fragment 1 original image 55 Left-eye fragment 2 original image 56 Left-eye fragment 3 original image 57 Right-eye fragment 1 original image 58 Right eye fragment 2 binary image 59 Right eye fragment 3 original image 60 V groove 1 left slope length 61 V groove 1 right slope length 62 V groove 2 left slope length 63 V groove 2 right side Slope length 64 V-groove 3 left slope length 65 V-groove 3 right slope length 66 Left eye-convex 1 vertex line of view 67 Left eye-convex part 2 vertex line of view 68 Left eye-convex part 3 vertex line of view 69 Right eye-convex part 1 vertex line of sight 70 right eye-convex part 2 vertex Line 71 Right-eye-convex 3 vertex line of sight 72 Left-eye fragment 1 image 73 Right-eye fragment 1 image 74 Left-eye fragment 2 image 75 Right-eye fragment 2 image 76 Left-eye fragment 3 image 77 Right-eye fragment 3 image 78 Panel 79 Protrusion 1 vertex 80 convex 2 vertex 81 convex 3 vertex 82 convex 1 left slope length 83 convex 1 right slope length 84 convex 2 left slope length 85 convex 2 right slope length 86 convex 3 left slope Length 87 Right side slope length of convex part 3 88 V-shaped groove 1 left end 89 V-shaped groove 1 right end 90 V-shaped groove 2 left end 91 V-shaped groove 2 right end 92 V-shaped groove 3 left end 93 V-shaped groove 3 right end 94 convex part 1 Left edge 95 Convex part 1 Right end 96 Convex part 2 Left end 97 Convex part 2 Right end 98 Convex part 3 Left end 99 Convex part 3 Right end 100 Supporting part 101 Image sheet 102 DVD case 103 Skylight 104 V-shaped groove structure 105 Booklet 106 Band 107 Viewing direction

Claims (8)

It has a structure in which V-shaped grooves are carved in the vertical direction for both eyes. The right-eye image of the stereo pair photograph is deformed in a trapezoidal shape so that it becomes a positive image at the V-shaped groove opening on the left slope of the V-shaped grooves Arrange and arrange the left-eye image of the stereo pair photo on the right slope of the V-shaped groove with a trapezoidal deformation so that it becomes a positive image at the V-shaped groove opening, and experience a stereoscopic image by looking through the V-shaped groove opening Stereophoto that can be done. It has a structure in which inverted V-shaped convex parts are connected vertically to both eyes, and the left-eye image of the stereo pair photograph is arranged on the left slope of the convex part with a trapezoidal deformation so that it becomes a normal image at the bottom of the convex part. The right-eye image of the stereo pair photograph is placed on the right slope of the convex part after being trapezoidally deformed so that it becomes a positive image at the bottom of the convex part. 3D photo that you can experience. A V-shaped groove is carved in the vertical direction for both eyes, and a plurality of them are arranged horizontally. The left slope of each V-shaped groove overlaps the extension line connecting the left end of the V-shaped groove and the left eye. The right slope of the V-shaped groove is formed so as to overlap the extension line connecting the right end of the V-shaped groove and the right eye, and the right-eye image fragment of the stereo pair photograph is aligned at the V-shaped groove opening on the left slope of each V-shaped groove. Arrange the image fragment for the left eye of the stereo pair photo on the right slope of each V-shaped groove so as to become an image, and arrange the image fragment for the left eye of the stereo pair so that it becomes a positive image at the V-shaped groove opening. A stereoscopic photo that allows you to experience a 3D image by looking into it from the viewpoint when forming a groove. Inverted V-shaped convex parts are connected in the vertical direction to both eyes, and a plurality of the convex parts are arranged side by side. The left slope of each convex part overlaps the extension line connecting the convex vertex and the right eye, The right slope of the convex part is formed so as to overlap the extension line connecting the vertex of the convex part and the left eye, so that the left-eye image fragment of the stereo pair photograph on the left slope of each convex part becomes a positive image at the bottom of the convex part Look from the viewpoint when forming the convex part, arrange the image fragment for the right eye of the stereo pair photograph so that it becomes a positive image at the bottom of the convex part on the right slope of each convex part. 3D photo that allows you to experience 3D images. The three-dimensional photograph according to any one of claims 1 to 4, wherein the material constituting the structure is a material that transmits light and light can be taken in from the back side. The material constituting the structure is a board that can be folded and printed by a printer, and when the structure is formed by folding, the component that fixes the structure is also a board that can be printed by a printer. The three-dimensional photograph as described in any one of 1-4. The material constituting the structure is a board that can be folded and printed by a printer, and when the structure is formed by folding, the component that fixes the structure is also a board that can be printed by a printer. The three-dimensional photograph of 5. 3. A three-dimensional photograph in which the invention according to claim 1 is applied to a V-shaped groove formed when a page is opened.

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