JP5820191B2 - Three-dimensional photograph, three-dimensional image, and three-dimensional product manufacturing method - Google Patents

Description

  The present invention is, for example, a picture, a signboard, a poster, characters on a panel, calligraphy, handwritten characters such as calligraphy, original images made up of figures, etc. Or the original image itself is a flat surface, but a part of the original image appears to be raised (so-called 3D image), a stereoscopic photograph and a stereoscopic image (all other than a stereoscopic photograph). Unless otherwise specified, “stereophotographs and stereoimages” are simply defined as “stereophotographs”) and a method for manufacturing a three-dimensional product.

  Conventionally, when a product is sold, a color photograph is used as a sample of the product. In most cases, the photograph is a plane photograph.

  In this case, for example, if the product sold is an arranged flower in which seasonal cut flowers such as cut roses or orchids are brought into one pot, or a potted plant such as phalaenopsis or symbium, the petals and leaves are three-dimensional. If the product is a fruit such as melon or strawberry, the unevenness of the flesh on the surface of the melon and the bunch of cocoons are three-dimensional, it is not only beautiful for ornamental purposes but also the customer's willingness to purchase Will be intriguing.

  In this case, if the scent inherent to the flower diverges around the stereoscopic photograph, the customer is further motivated to purchase.

  Recently, due to the development of horticultural technology and distribution means, all kinds of plants have been delivered by horticulturists to homes by courier throughout the four seasons.

  However, as a sample photograph of the product used in such a case, if the above three-dimensional photograph can be easily produced, an increase in sales can be expected for a plant dealer, while accurate product selection for a purchaser. Because it becomes a means, it is very convenient for both sides.

  As conventional techniques of such a method for producing a stereoscopic photograph, those described in Patent Document 1 and Patent Document 2 are conventionally known.

  As shown in paragraph 0010 and FIG. 6 of the method for producing a stereoscopic photograph of Patent Document 1, a plurality of nails are struck on the surface of a wooden frame, and the nails are folded back so that a plurality of stainless wires are placed between the nails. A three-dimensional structure made of stainless steel wire is used as a support, and a photographic image is fixed on the surface of the support so that a fixed image formed on the support can be viewed. It appears as if it is floating in a three-dimensional area.

  However, this method for producing a three-dimensional photograph individually fixes a photographic image on the surface of a support, so that it requires not only skill in production but also labor and time, and is not suitable for mass production.

  On the other hand, Patent Document 2 does not relate to a method for producing a three-dimensional photograph, but as a technique related thereto, transparent heat-welding having a large number of holes 111, 111... Having a surface area ratio of 3 to 25%. There is described a heat-welded pressed flower-coated sheet characterized in that a simple synthetic resin film 11 is laminated on a breathable thin paper 12.

  However, it is actually difficult to open the numerous holes 111, 111... On the surface of the printed paper on which plants such as cut roses and orchids are drawn. There was the fault that it was inferior in appearance.

  On the other hand, although it is a planar photograph, if the part in the photograph corresponding to the uneven part in the real thing looks three-dimensional like the real thing, the value as a photograph will increase.

JP-A-6-337484 (Claim 1, paragraph 0010, FIG. 6) Japanese Patent Application No. 10-88017 (Claim 1, FIG. 3)

  Therefore, the present invention has been made in view of such circumstances, and is not limited to ornamental plants, but as a general product photograph, it looks three-dimensional (three-dimensional) when viewed from any direction, and is a laminate operation. It is possible to exclude air when creating signboards, posters, etc., and it is a simple plan to create a stereoscopic photograph and a three-dimensional product that looks three-dimensional as if a part of the photograph is actually raised. It is intended to provide an industrially manufacturable method.

  In order to solve the above problems, a method of manufacturing a stereoscopic photograph according to the present invention is a method of manufacturing a stereoscopic photograph in which a part of a product image captured on the surface of a printing paper is three-dimensionally raised. A double-sided printed photograph (so-called virtual image reversal photograph) in which the imaging on the back surface is reversed is taken with respect to the image of the photographed product, etc. In this case, the imaging portion corresponding to the swollen portion of the product is arranged with the outline of the imaging on the back surface as a mark, and then the entire outer surface of the double-sided printed photograph to which the arranging material is fixed has the same outer dimensions. The backing sheet is pasted, and finally, a transparent plastic film having an outer dimension slightly larger than these outer dimensions is laminated on the front surface of the double-sided printed photograph and the back surface of the mounting sheet (hereinafter referred to as the present invention). Is referred to as "first invention".).

  Here, as the “laying material”, it is preferable to use paper clay, putty, gypsum, pulp, tissue paper, cotton, fine granules, synthetic resin, caulking agent, or a mixture thereof. In addition, these arrangement | positioning materials may be not only the aspect to arrange | position, but you may put in a required location or pinch | interpose and adhere | attach with a suitable adhesive agent.

Further, as the “mounting board”, it is preferable to use a material such as a panel or a signboard, a cardboard, a thin board such as a cardboard, a resin film, a metal film or the like.
And as a method of fixing the above "laying material" to the swollen portion of the back side of the double-sided printed photograph industrially, a material having fluidity such as a synthetic resin or a caulking agent is selected as the placing material, and this is used. There is a method in which the movement in the three-dimensional direction protrudes from a numerically controlled dispenser nozzle (not shown) and is attached.

  The above-mentioned problem of the present invention is the same as that of the first invention in that the mounting material is fixed to the imaging portion corresponding to the bulging portion of the product. It can also be set as the invention which concerns on a manufacturing method.

  That is, a method for producing a three-dimensional photograph in which a part of a product image captured on the surface of a printing paper is three-dimensionally raised. First, a printing surface of a product image is formed on the surface of a mount, and then the printing is performed. When the imaging of the surface of the surface is seen, the placing material is fixed on the mount with the outline of the imaging as a mark on the imaging portion corresponding to the bulging portion of the product, and finally the placing material is fixed. A method for producing a three-dimensional photograph, characterized in that a product image printing paper composed of the same image as the product image on the surface of the mount is bonded to the entire surface of the mount so as to overlap with the product image on the surface of the mount (hereinafter, referred to as `` photograph ''). The present invention will be referred to as “second invention”).

  In the case of the second invention, a transparent plastic film having an outer dimension that is the same as or slightly larger than the outer dimension of the printing paper is further laminated on the surface of the printing paper of the product image bonded on the mount. Is preferred. In this case, the “transparent plastic film” is transparent and can be laminated. Any material can be used. Moreover, even if the surface form is not a glossy surface, it may have a rough surface such as a mesh sheet or some uneven surface.

  As the “mounting paper”, the same cardboard, corrugated paper, thin board such as warp, resin film, or metal film similar to those described in the first invention can be used.

In the second invention, although details will be described later, an air reservoir generated when the printing paper is laminated on the mount is removed, and therefore, a material having air permeability such as foamed polystyrene is preferable.
In the second invention, the double-sided laminating process used in the first invention is not essential, but rather a single-sided laminating process is adopted (see claim 5), and it is preferable to use a thick panel as the mount.

Moreover, in order to remove the air pocket which generate | occur | produced between the mount and printing paper, it is preferable to provide the air vent hole which leads to the back surface of this mount in the mount immediately under the said arrangement | positioning material or its periphery.
Furthermore, it is preferable to mix fragrance | flavor which emits the said fragrance specific to the said product, and fragrance | flavors, such as perfume, in the said arrangement | positioning material, and you may mix a deodorizing agent, an insect repellent, etc. depending on installation environment. Here, the “product-specific scent” is, for example, a scent or smell unique to the “orchid” if the product of the stereoscopic photograph is the “orchid” of the arrange flower illustrated in FIG. 4 to be described later. If the photo shows “rose”, it means the scent or smell of the “rose”. The fragrance | flavor which emits such a fragrance or smell can use what is marketed.

  The manufacturing method of the three-dimensional photograph which concerns on said 1st invention or 2nd invention can be used also when manufacturing the three-dimensional goods which have an uneven | corrugated | grooved part on the surface by the same procedure.

  On the other hand, although it is a plane photograph (the term of a photograph also includes a handwritten image other than a photograph as explained at the beginning), a method for producing a stereoscopic photograph that looks stereoscopically as if a part of it is swelled in appearance Is a method for producing a stereoscopic photograph in which a specific portion of an image described on the surface of a sheet body appears three-dimensionally raised, and first, an original image creating step for creating a predetermined original image on the surface of a flexible sheet body Then, the original image surface contour line is extruded to the extent that the contour line is visible from the back surface toward the back surface direction from the surface of the sheet body with a pressing body having a sharp tip such as an iron brush. Next, the sheet body was turned over so that the back side of the original image was turned upside down, and the original image was reversed and placed on the soft mount, and then placed on the base plate. Extruded against the back of the original A solid part forming step in which the part to be three-dimensionalized is slightly inside the contour line and is pushed again in the surface direction of the original image by the pressing body, and then, the sheet in which the part to be three-dimensionalized is extruded again in the surface direction of the original image The body is placed on the image scanner platen, the gap between the image scanner platen and the sheet body is adjusted, the gap is adjusted so that light does not enter from the surroundings into the gap, and the oblique light process, and finally A scanning step of scanning an original surface having a portion to be three-dimensionalized with an image scanner and forming an image on the printing paper so that the portion to be three-dimensionally raised from the surface of the printing paper (Hereinafter, the present invention is referred to as “third invention”).

  Here, in the present invention, the “description” does not select any means, and is a wide concept such as photographing, painting, printing, and handwriting as described above. In the present invention, everything described by these means is referred to as an “original picture”. The contents of the original picture may be anything such as animals, plants, people, landscapes, buildings, etc. in addition to the plants described above.

  The “flexible sheet member” used in the original image creating step may be any material as long as the trace can be visually observed from the back surface when pressed by the tip of the pressing member. For example, printing paper, sheet paper, cardboard, cloth, synthetic resin film, metal thin foil, and the like can be given.

  In addition, the “mounting paper” used in the process of extruding the original image surface contour line includes paper such as general copy or printing paper, cardboard, corrugated paper, thin sheets such as polystyrene foam, panels, warp wood, and synthetic resin films. Also good.

  The “pressing body” may be anything as long as the tip is pointed, such as an iron brush, a used ballpoint pen, or a nail.

  As the type of the “image scanner”, any known type may be used, but a flat bed type in which the sheet body does not move and the image sensor moves is preferable. This is because the uneven portions formed on the sheet body are not damaged.

  In addition, after the three-dimensional part formation step, a specific fragrance according to the content of the image, that is, the scent of a rose flower if it is a rose flower, the fragrance or perfume that emits the scent if it is a food such as a banana, It is preferable to sprinkle or inject on the front or back surface of the portion to be three-dimensionalized formed by extrusion again. This is because the value of a three-dimensional product as a product sample photograph increases.

  Finally, in order to protect the stereoscopic photograph surface, it is preferable to laminate a transparent plastic film or the like on the scanned imaging surface after the scanning step.

Next, as a modification of the third invention, there is a method for producing a stereoscopic photograph or a stereoscopic image in which a specific portion of an image described (imaging or drawn, printed, handwritten) on the surface of a sheet body appears to rise three-dimensionally. First, an original image creating step for creating a predetermined original image on the surface of the flexible sheet body,
Next, creating a virtual image reversal original image composed of virtual images obtained by reversing the original image in plane symmetry, and then reversing the original image so that the back side of the original image is turned upside down and placed on a soft mount Next, with respect to the back surface of the virtual image reversal original image placed on the base plate, a portion that is slightly inside the contour line and should be three-dimensionalized is pushed out in the direction of the surface of the original image by the pressing body. A three-dimensional part forming step, and then placing a sheet body on which the portion to be three-dimensionalized is pushed in the direction of the surface of the original image on the document table of the image scanner, and adjusting a gap between the document table of the image scanner and the sheet body; The gap adjustment and the oblique light process for obliquely illuminating the gap so that light does not enter from the surroundings. Finally, the surface of the original image partially including the portion to be three-dimensionalized is scanned with an image scanner, and printed on printing paper. The printed paper table And a scanning process for forming an image in which the portion to be three-dimensionally appears to rise up three-dimensionally, may be a method for producing a three-dimensional photograph (hereinafter referred to as "fourth invention"). Called).

  The feature of the fourth invention resides in the virtual image reversal image creation process, and the other processes are the same as in the third invention described above.

  As a method of creating such a virtual image reversal image, instead of the above-described photography method, for example, a virtual image reversal image created in advance by some method (monochrome or color copy), or the front image is the back side Using a copy of the surface image on paper that is so thin that it can be seen through, it is pasted from the back side of the surface image so as to match the contour of the surface image. And in the case of the above three-dimensional part forming step, in order to grasp the contour part of the image on the surface, for example, by placing the image on a light box or illuminating from the front side to the back side with a flashlight, etc. You can find the part to be pushed out.

  When the virtual image reversal image creation process of the fourth invention is used, in the above-mentioned third invention, the process of extruding the sheet body with a pressing body having a sharp tip such as an iron brush is required twice. In the invention, since the virtual image reversal image is only required once from the back surface to the front surface, the production of the stereoscopic photograph is speeded up.

  According to the method for producing a stereoscopic photograph according to the first aspect of the present invention, first, a double-sided printed photograph in which the imaging on the back surface is reversed with respect to the imaging of the product or the like photographed on the front surface, On the back surface of the reversed double-sided printed photograph, when the imaging of the front surface is seen, an arrangement portion is fixed to the imaging portion corresponding to the bulging portion of the product with the outline of the imaging on the back surface as a mark, and In addition, a mount having the same outer dimensions is pasted on the entire back surface of the double-sided printed photograph to which the arrangement material is fixed, and finally, the outer surface of the double-sided printed photograph and the back surface of the mount are slightly larger than these outer dimensions. Since the transparent plastic film having the outer dimensions as described above is laminated, a three-dimensional photograph in which the product sample can actually be seen three-dimensionally can be produced as a sample photograph of a general commodity by a simple method.

  In addition, in the step of fixing the arrangement material, for example, by adopting the dispenser method described above, stereoscopic photographs can be industrially mass-produced.

  Since the three-dimensional photograph of the product thus obtained is a three-dimensional photograph, not a two-dimensional photograph, it can be seen three-dimensionally and the customer's willingness to purchase can be increased.

  On the other hand, a customer can select and purchase a product with no mistake.

  According to the method for producing a three-dimensional photograph according to claim 2, in addition to the effect of the method for producing a three-dimensional photograph according to claim 1, paper clay, putty, gypsum, pulp, tissue paper, cotton, fine granules, synthetics are added as a placement material. Since resin, caulking agent, or a mixture of either of these is used, the swelled portion when the product on the front is viewed from the back side of the reversed double-sided photograph can be easily and easily photographed according to the imaging site Can float from the surface.

  According to the method for producing a three-dimensional photograph according to claim 3, in addition to the effect of the method for producing a three-dimensional photograph according to claim 1 or claim 2, the mount is a thin board such as cardboard, corrugated paper, warp wood, a resin film, or Since it is composed of metal film, these mounts are stiff, so it is possible to reliably form a three-dimensional shape outward from the photo surface when the product on the surface is viewed from the back side of the reverse double-sided photo . Can be extruded.

  According to the method for producing a stereoscopic photograph according to the second aspect of the present invention, first, a printed surface of a product image is formed on the surface of the mount, and then when the imaging of the surface of the printed surface is seen, Fixing material is fixed to the imaging portion corresponding to the bulging portion of the product with the outline of the imaging as a mark, and finally, the same image as the product image on the surface of the mounting surface on the entire surface of the mount on which the mounting material is fixed Since the product image printing paper comprising the above is pasted so as to overlap the product image on the surface of the mount, the same effects as those of the first invention described above can be obtained.

  In particular, in the manufacturing method according to the second invention, unlike the manufacturing method according to the first invention in which the mounting material is fixed on the back surface of the double-sided printed photograph, the mounting material is fixed on the printing surface of the product image formed on the mount surface. Therefore, the worker can proceed with the fixing work of the placement material while visually recognizing the outline of the image fixing the placement material, and can easily produce a stereoscopic photograph.

  According to the method for producing a three-dimensional photograph according to claim 5, in addition to the effect of the method for producing a three-dimensional photograph according to claim 4, the surface of the print paper of the product image bonded on the mount is further provided with the print paper. Since a transparent plastic film with an outer dimension that is the same as or slightly larger than the outer dimensions is laminated, the filling material filled between the mount surface and the back side of the printing paper does not move on the mount surface, and the printing paper surface Protect and look better.

  According to the method for producing a stereoscopic photograph according to claim 6, in addition to the effect of the method for producing a stereoscopic photograph according to claim 4 or claim 5, as the mount, polystyrene foam, panel, cardboard, corrugated paper, warp, etc. Therefore, since these mounts are stiff, it is possible to reliably form a three-dimensional portion that is swollen when the product on the surface is viewed from the back side of the reversed double-sided photograph. In particular, when the mount is made of a breathable material such as polystyrene foam, the laminating operation can be continued while effectively excluding air mixed when the printing paper is bonded to the mount.

  According to the method for producing a three-dimensional photograph according to claim 7, in addition to the effect of the method for producing a three-dimensional photograph according to any one of claims 4 to 6, on the mount directly below or around the mounting material, Since the air vent hole leading to the back surface of the mount is provided, the bonding operation can be carried out while effectively extruding air mixed between the two when the print paper is bonded to the mount.

  According to the method for producing a stereoscopic photograph according to claim 8, in addition to the effect of the method for producing a stereoscopic photograph according to any one of claims 4 to 7, the scent unique to the product is emitted to the serving material. Since a fragrance | flavor or a perfume is mixed, the fragrance of the product imaged from the three-dimensional photograph diverges to the circumference | surroundings, and a customer's willingness to purchase can be improved more.

  In particular, when fragrance is mixed in the serving material and air is provided in the mount, the scent from the serving material is always released to the outside through this air vent hole, so that it can be captured more effectively in a three-dimensional photograph. The product-specific fragrance can diverge around.

  According to the method for manufacturing a three-dimensional product according to the ninth aspect, the effect of the method for manufacturing a stereoscopic photograph according to any one of the first to eighth aspects can be obtained.

  According to the method for producing a stereoscopic photograph according to the third aspect of the present invention, an image of the whole of what should be called a so-called projecting processed original image in which the portion to be three-dimensionalized from the back surface of the original image is forcibly extruded in the surface direction of the original image Since scanning is performed with a scanner, the image obtained by the scanning is flat, but the projected part appears to be three-dimensionally higher than the actual object in the original image. .

  Therefore, when such a three-dimensional photograph is used as a product sample, the customer's willingness to purchase can be improved, and the value can be further increased as a three-dimensional photograph for various uses.

  According to the method for producing a stereoscopic photograph according to claim 11, in addition to the effect of the method for producing a stereoscopic photograph according to claim 10, an original picture is created on the surface as a flexible sheet body in the original picture creating step. In addition, since any one of printing paper, sheet paper, cardboard, cloth, synthetic resin film, and thin foil metal is used, the material used is not limited, and a stereoscopic photograph can be easily manufactured.

  According to the method for producing a stereoscopic photograph according to claim 12, in addition to the effect of the method for producing a stereoscopic photograph according to claim 10 or claim 11, the mount used in the step of extruding the original surface contour line is expanded polystyrene, Since it is any one of thick paper, corrugated paper, panel, thin board such as wood, and synthetic resin film, the material used is not restricted and the original surface contour line can be easily extruded.

  According to the method for producing a three-dimensional photograph according to claim 13, in addition to the effect of the method for producing a three-dimensional photograph according to any one of claims 10 to 12, after the three-dimensional part forming step, the method according to the content of the image Sprinkling perfume or perfume that emits a specific scent on the front or back of the part to be three-dimensionalized, which is formed by re-extrusion, so that the value of the three-dimensional photograph is increased, and when used as a product sample, the customer's willingness to purchase become.

  According to the method for producing a stereoscopic photograph according to claim 14, in addition to the effect of the method for producing a stereoscopic photograph according to any one of claims 10 to 13, after the scanning step, an image of the scanned image is obtained. Since the transparent plastic film is laminated on the surface, the three-dimensionally processed part can be semipermanently protected.

  According to the method for producing a three-dimensional photograph according to claim 15, when the virtual image reversal image creation process of the fourth invention is used, the sheet body is pushed out by a pressing body having a sharp tip such as an iron brush. Although the process was required twice, in the fourth invention, since the reverse of the virtual image reversal image only needs to be performed once in the direction of the surface, the production of the stereoscopic photograph is speeded up.

FIG. 1 is a front view of a stereoscopic photograph 10 obtained by the method for producing a stereoscopic photograph according to the first invention of the present invention. FIG. 2 is a cross-sectional view of the stereoscopic photograph 10 of FIG. 1 cut along the stepped AA line in the vertical direction and viewed from the right to the left. FIG. 3 is a back view of the reverse-side reversed double-sided photograph 2 taken along the line BB and viewed from the right to the left in the cross-sectional view of FIG. FIG. 4 is a front view of the three-dimensional photograph 20 of the arrange flower F obtained by the method for producing a three-dimensional photograph according to the second invention of the present invention. FIG. 5 is a front view of the case where the placement material 4 is fixed on the image printed on the panel surface as the mount 3A located in the lower layer of the stereoscopic photograph 20 of FIG. FIG. 6 is a cross-sectional view of the stereoscopic photograph 20 of FIG. 4 as viewed from the left to the right after being cut along the stepped CC line in the vertical direction. FIG. 7 is an example of a method for producing a stereoscopic photograph according to the second invention of the present invention, and is a drawing when applied to the production of an underlay saucer 30 that is a three-dimensional product. Of these, FIG. 7 (a) is an underlay saucer. FIG. 7B is a cross-sectional view taken along the line DD of FIG. 7A. FIG. 8 is another example of the method for producing a stereoscopic photograph according to the second invention of the present invention, and is a drawing when applied to the production of an underlay tray 40 which is a three-dimensional product. Of these, FIG. 8 (a) shows the underlay. FIG. 8B is a cross-sectional view of the underlay tray 40 of FIG. 8A cut along the line EE, and FIG. 8C is the underlay tray of FIG. 8A. FIG. FIG. 9 is a process diagram of the method for producing a stereoscopic photograph according to the third aspect of the present invention. FIG. 10A is a plan view of the printed paper 50 taken with a rose photograph L, and FIG. 10B is a cross-sectional view taken along the line XX. Fig.11 (a) is a top view of the back side of the photograph of Fig.10 (a) by which outline processing was performed from the front side, FIG.11 (b) is sectional drawing of the YY direction arrow. FIG. 12A is a plan view of a photograph that is projected from the back side of the photograph of FIG. 11A, and FIG. 12B is a cross-sectional view of the photograph taken along the ZZ direction.

1, 1A Transparent laminate film 2 Reversed reverse side photo
2, 2A-2C Printing paper (single side)
3, 3A-3C Mount 4, 4a-4p Placement material 5, 5a-5d Air vent 6 Fragrance 7 Water collecting hole 8 Drain hole 10 Three-dimensional photograph of houseplant (product of the present invention)
20 Stereophoto of Arrange Flower (Product of the present invention)
30 Underlay tray (product of the present invention)
40 Underlay tray (product of the present invention)
50 Printing paper 51 Mount
F Arrange flower image (surface)
K Imaging of foliage plants (surface)
Imaging of K 'foliage plant (back side)
L Photo of rose flower (surface of original picture)
La The back side of a rose flower photo with an outline 52 protruding. Lb The back side of a rose flower photo with protrusions from the back. P Used ballpoint pen T Total thickness δ

  Hereinafter, an embodiment of a method for manufacturing a stereoscopic photograph and a stereoscopic product according to the present invention will be described with reference to the drawings.

Embodiment 1

  FIG. 1 is a front view of a stereoscopic photograph 10 of, for example, a potted houseplant K obtained by the method for producing a stereoscopic photograph according to the first invention. Two parts of the minute are peeled off.

  FIG. 2 is a cross-sectional view of the stereoscopic photograph 10 of FIG. 1 cut along the stepped AA line in the vertical direction. Note that the scale in the thickness direction of this figure is shown exaggerated and enlarged from the scale in the vertical direction for convenience of explanation.

  FIG. 3 is a back view of the reverse-side reversed double-sided photograph 2 taken along the line BB and viewed from the right to the left in the cross-sectional view of FIG.

Hereinafter, the manufacturing method of the present invention will be described in the order of manufacturing steps with reference to these drawings.
<Manufacturing process of reverse-side reversed double-sided photograph 2>
First, as shown in FIG. 1 and FIG. 3, a double-sided printed photograph (hereinafter referred to as “reverse-side reversal”), in which a photograph K of an object to be photographed such as a product is photographed by reversing the back-side image K ′ with respect to the front-side image. Abbreviated as “double-sided photo”.)

  Here, the object to be photographed is a potted houseplant K as shown in FIG. 1 in this embodiment. Of course, in addition to such a plant, fruits, dishes, people, animals, vehicles, buildings Anything, such as natural scenery, may be used. Of course, the color of the photograph may be black and white instead of color.

In short, it is a feature of the present invention that the reverse side double-sided photograph 2 having the same size pattern K ′ in which the front surface pattern K is inverted on the back surface is made with respect to the front surface of the imaging object K.
Therefore, in this sense, the present invention uses the term “backside reversed double-sided photograph” with the letters “reverse” in particular, not just “double-sided printed photograph”. In some cases, for example, a “celebration” character 2a may be placed on the upper surface of the photograph and a “manufacturer” character 2b may be placed on the lower portion.
<Fixing process of the serving material 4>
Next, as shown in FIG. 3, the reverse-side reversed double-sided photograph 2 is placed on a desk or the like on the back side, and is placed on the part that seems to be swollen when the subject is viewed from the front side. The materials 4a to 4f are fixed.

  That is, in the case of the present embodiment, the placement material 4a is applied to a part of the back surface where the surface of the leaf K1 of the houseplant K 'is swollen, and the placement material 4b is similarly applied to a part of the back surface where the surface of the leaf K2 is swollen. In the same manner, up to the leaf K4, the material 4d is arranged on a part of the back surface thereof, and the material 4e is similarly applied to a part of the back surface of the wrapping paper H whose surface is swollen. The placing material 4f is sequentially placed and fixed to a part of the back surface where the bulges are inflated.

  For example, a material mixed with an appropriate amount of paper clay, putty, gypsum, pulp, fine granules, synthetic resin, caulking agent, or the like can be used as the placement material 4. It is recommended to select and fix a product that can reproduce the surface texture of the product. Alternatively, soft paper may be stacked while adhering a plurality of layers, and the three-dimensional effect may be obtained by adjusting the number of stacked sheets depending on the image portion. Note that the non-adhesive laying material 4 is adhered to the photograph 2 with an appropriate adhesive.

  Then, the same part of the photo 2 is fixed while adjusting the height of the back surface, that is, the height of the mounting materials 4a, 4b,. Then, the work is carried out while considering the maximum raised height so that the total thickness T (FIG. 2) is within 4 mm at the maximum in consideration of the subsequent laminating process.

  In these operations, the image K ′ on the back surface is an image obtained by inverting the image on the front surface, so that the contour on the front surface and the rising state of the surface can be immediately observed, and the placement materials 4a, 4b,. Anyone can easily do without requiring skill because 4f should be arranged.

In addition, when the spreading material 4 oozes out from the area to be filled on the back surface of the reversed double-sided photograph 2 such as oily material such as paper clay, the top of the placing materials 4a, 4b,. Further, a thin transparent film such as saran wrap may be provided on each of the arranging materials 4a, 4b,... 4f, or on the entire back surface of the reversed double-sided photograph 2.
<The pasting process of the mount 3>
Next, a backing 3 having the same external dimensions as the reverse-side reversed double-sided photograph 2 made in the previous process is prepared separately, and the reverse-side reversed double-sided photograph in which the mounting materials 4a, 4b,. On the back surface of 2, the mount 3 is attached with an appropriate adhesive or the like with its four corners aligned.
The mount 3 used in this case is not particularly limited, and may be any material such as thick paper, corrugated paper, thin board such as warp, resin film, metal film, etc. Since the arrangement material described in the above is sandwiched, prepare a thick and relatively firm material, that is, an elastic material.

  Further, depending on the material of the placement material 4 such as paper clay, the placement material 4 may ooze out on the surface of the mount 3 as described above. Therefore, it is preferable that the material of the mount 3 does not penetrate into the mount. As a specific example of such a mount 3, a resin film, a metal film, or the like is suitable. However, a surface of the mount that has been subjected to a water-repellent coating treatment may be used.

<Lamination process>
Finally, on the both sides of the one obtained by fixing the mounting materials 4a, 4b,... 4f on the back surface of the reverse-side-inverted double-sided photograph 2 obtained in the previous step, and mounting the mount 3 on the entire back surface. The thin transparent plastic films 1 and 1 having an appropriate paste applied on one side and the outside dimension protruding by δ (FIG. 1) are sandwiched and laminated by a continuous laminating apparatus (not shown).
Thus, the stereoscopic photograph obtained by the manufacturing method of the present invention is the stereoscopic photograph 10 shown in the front view of FIG. 1 and the cross-sectional view of FIG. In the part where the placing materials 4a, 4b,... 4f are located, the reverse side reverse double-sided photograph 2 has a slightly swollen cross-sectional shape, but the both surfaces are laminated with thin transparent plastic films 1 and 1, and the placing material 4a, 4b... 4f are pressed around and the protruding portions δ at the four corners are in close contact with each other, so that the placing materials 4a, 4b... 4f do not move between the reverse side reversed two-sided photograph 2 and the mount 3. .

  As the laminating technique used in the laminating process of this process, a well-known one is sufficient. With the current technique, the maximum total thickness T can be up to 4 mm, so even the previous process can be manufactured in large quantities for each pattern. In other words, semi-industrial mass production is possible.

  1 is obtained from the front side, the leaves K1 to K4 of the ornamental plant K, the wrapping paper H and the plant pot U part are arranged from the back side of the inverted double-sided photo 2 with the arranging materials 4a, 4b,.・ Because it is raised at 4f, it can be seen that it actually floats three-dimensionally from the surface of the reversed double-sided photograph 2 when viewed from any direction. 3D photograph 10 excellent in the above can be obtained.

  In addition, although the 3D photograph 10 includes a manual placement material fixing process in part, the final process is laminated on both sides with a laminating apparatus, so that industrial mass production is possible without requiring operators to be skilled. is there.

  As described above, according to the method for producing a stereoscopic photograph of the present invention, a placement material such as paper clay corresponding to the degree of the stereoscopic effect is placed on the back surface of the portion where the stereoscopic effect is to appear in the pattern in the photographed photograph. Thus, a three-dimensional photograph having a three-dimensional effect can be easily produced in large quantities by a known laminating technique.

Embodiment 2

  The second embodiment relates to an example in which the method for producing a stereoscopic photograph according to the second invention described above is applied.

  As described above with reference to FIG. 3, the first embodiment described above is a method for producing a three-dimensional photograph using a double-sided printed photograph 2 in which the imaging K ′ on the back surface is reversed with respect to the imaging of the product K or the like photographed on the surface. However, the second embodiment is a manufacturing method that does not use the double-sided printed photograph 2.

  FIG. 4 is a front view of the three-dimensional photograph 20 of the arrange flower F obtained by the manufacturing method of the second embodiment, and the upper left side of the laminate sheet 1 on the surface is 2/3 for easy understanding. It has been peeled off to some extent.

  FIG. 5 is a front view printed on the surface of the panel as the mount 3A located in the lower layer of the stereoscopic photograph 20 in FIG. 4 and the placement material 4 is fixed on the image. FIG. 6 is the arrangement flower of FIG. It is sectional drawing which cut | disconnected the three-dimensional photograph F along the step-like CC line to the vertical direction.

  Hereinafter, although the manufacturing method of this Embodiment 2 is demonstrated in order of a manufacturing process using these FIGS. 4-6, what is not mentioned especially is set as the process content similar to the case of Embodiment 1. FIG.

<Print surface forming step of product image F on the surface of the mount 3A>
First, a mount 3A as a base of the stereoscopic photograph 20 is prepared.

  As shown in FIG. 6, the mount 3A of the present embodiment is a panel made of styrene foam having a particularly large thickness. As the other mount 3A, the thick paper, corrugated paper, thin board such as warp wood, resin film, metal film, etc. described in the first embodiment may be used, but those having air permeability and slightly stiff are preferable.

Next, an image of a desired product is color-printed on the surface of the mount 3A, or a color-printed image is attached to the surface of the mount 3A, thereby forming a print surface of the product image on the surface of the mount 3A. In the present embodiment, as shown in the front view of FIG. 4, a product image of Arrange Flower F in which various orchid cut flowers are gathered on a cocoon is printed on a polystyrene foam panel. As a printing method, any method such as an intaglio plate or a relief plate may be used.
As in the case of the first embodiment, the product image of the second embodiment may employ any image such as fruits, dishes, persons, animals, vehicles, buildings, natural scenery, etc. in addition to the arranged flower F as shown in the figure. Also, the color of the photograph may be black and white instead of color as in the case of the first embodiment.

  In FIG. 4, the “celebration” character 2 c and the “manufacturer” character 2 d on the lower right are also the same as in the first embodiment.

<Fixing process of the serving material 4>
Next, as shown in FIG. 5, the image of the arrangement flower F is printed in color on the surface of the mount 3A, or the surface of the mount 3A on which the photograph (not shown) of the color arrangement flower F is pasted. However, when viewing the image of the arrangement flower F on the mount 3A, the placement material 4 is fixed to the part that is assumed to be actually inflated with the actual product, with the outline of the imaged part as a mark.

  Specifically, in the image of the arrangement flower F in FIG. 5, the bud part Fa is a part that swells three-dimensionally in the actual product of the arrangement flower F. An appropriate amount is fixed by means such as adhesion according to the degree of swelling and the area of swelling.

  On the other hand, the imaging portions of the leaves Fb and the basket Fc have a large swell amount and a swell area in actual products, and accordingly, the fixed amounts of the laying materials 4j and 4k are increased in the same manner. In short, as shown in FIG. 6, the swelled portion of each component of the imaging is reproduced as much as possible in a three-dimensional state close to the real thing by the placement materials 4 g to 4 k. Here, since it is clear from the printed photograph whether or not the portion of the image pickup is the “bulging portion”, it can be easily determined by the operator.

  As a specific example of the serving material 4 used in this case, a material obtained by mixing an appropriate amount of the same putty, gypsum, pulp, fine granules, synthetic resin, caulking agent, and the like as in the first embodiment is used. Or you may use 4g-4k of different kinds of arrangement | positioning materials for every site | part. Alternatively, as described above, soft paper may be laminated while adhering a plurality of layers, and the three-dimensional effect may be obtained by adjusting the number of laminated sheets according to the image portion. Furthermore, among these arrangement | positioning materials 4g-4k, you may mix the fragrance | flavor or perfume which has the fragrance of the flower of "Orchid" in the arrangement material 4g corresponding to the said bud part Fa.

  The adhering method of the mounting material 4 may be bonded on the mount 3A using an appropriate adhesive, or in the case of the mounting material 4 having no adhesive performance, an appropriate adhesive may be mixed. When a caulking agent is used as the placing material 4, the caulking agent itself has a strong adhesive performance, which is convenient.

The above-described fixing work (laying work) of the placement materials 4g to 4k on the mount 3A is not fixed to the back surface of the double-sided printed photograph 2 used in Embodiment 1, but literally fixed on the mount 3A. Therefore, the fixing work is very easy and does not require skill. In addition, when there are a large number of three-dimensional photographs manufactured according to the second invention, industrial mass production can be achieved by using the dispenser nozzle in which movement in the three-dimensional direction described in the first embodiment is numerically controlled. It becomes possible.
<Punching process of air vent hole 5 on mount 3A>
When all of the mounting materials 4g to 4k fixed on the mount 3A are dried, air vent holes 5a to 5d are formed on the mount 3A as necessary, but not necessarily as the next step.

  When the stereoscopic photograph becomes a large size such as a landscape photograph (not shown), it will be described in detail in the next step. However, when the printing paper 2A is pasted on the mount 3A, air is mixed between the two and is difficult to eliminate. It is. If air is mixed between the backing paper 3A and the printing paper 2A, a 3D photo will cause an “air pool”, which will look like a puddle. It cannot be a product PR.

  Specifically, as shown in FIG. 5 and FIG. 6, a plurality of air vent holes 5 a to 5 d are provided around the placing materials 4 g to 4 k fixed in the previous process by a punching means such as a needle, a thousand pieces, a drill, etc. 3A is penetrated and provided.

  The diameter of the hole Fb portion, basket Fc portion, etc., where the amount of the placement material 4j, 4k is large, should naturally be large. Therefore, the air vent hole 5c has a small diameter. In this case, in order not to generate any air pockets, it is preferable to provide also on the portion where the serving materials 4g to 4k are not fixed, such as the air vent hole 5d.

  As described above, the air vent holes 5a to 5d having the hole diameter and the number of holes appropriately changed are provided in accordance with the placement volume of the individual placement materials 4g to 4k.

  The positions where these air vent holes 5 are provided can be based on the contour of imaging on the surface of the mount 3A, as in the fixing operation of the mounting materials 4g to 4k. Therefore, drilling work is easy. Note that these air vent holes 5a to 5d are not visible to the purchaser of the product at all because the printing paper 2A is put on the entire surface of the mount 3A and bonded together in the next step.

<The bonding process of the printing paper 2A of the same imaging>
Finally, an appropriate adhesive (not shown) is applied to the entire surface of the mount 3A to which the serving material 4 is fixed, and the print paper 2A on which the same image as the product image on the surface of the mount 3A is printed is displayed on the product image. Is stuck on the mount 3A while extruding the air entrained between the mount 3A and the printing paper 2A from the air vent holes 5a to 5d so as to be exactly coincident with the image on the surface of the mount 3A.
The image of the arrangement flower F imaged on the printing paper 2A is a judgment when the customer purchases the arrangement flower F, which is so-called “decorative printing paper”, on the other hand, on the surface of the mount 3A. The image of the arrange flower F is used as a guide for the fixing position when the arranging materials 4g to 4k are fixed.

<Lamination process>
Finally, if desired, the transparent plastic film 1A is bonded to the surface of the printing paper 2A bonded to the mount 3A in the previous step using an appropriate adhesive.

  If the surface of the printing paper 2A bonded to the mount 3A is already coated with a transparent sheet (not shown) equivalent to the transparent plastic film 1A, or if the surface of the printing paper 2A is durable, this It is not always necessary to provide a process.

Embodiment 3

  The third embodiment is an example of a method for producing a stereoscopic photograph according to the second invention, and is applied to the production of the underlay saucer 30 of the houseplant K of FIG. 1 and the arrange flower F of FIG. FIG. 7A is a plan view of the underlay tray 30, and FIG. 7B is a cross-sectional view of the underlay tray 30 of FIG. 7A taken along line DD.

  The third embodiment will be described with reference to these drawings. First, a mount 3B is prepared.

The mount 3B is a thin sheet-like body made of a water-resistant member such as a plastic plate. The planar shape of the mount 3B is a quadrangle in this embodiment, but the houseplant K in FIG. 1 and the arrange flower in FIG. Cut into an optimum shape such as a circle or an ellipse according to the shape of F or the like.
Then, a double concentric circle (not shown) serving as a guide for the placement positions of the placement materials 4l and 4m is printed at the center of the surface of the mount 3B. At that time, the inner diameter of the inner concentric circle is set to be slightly larger than the outer diameter of the flower pot or the like. Further, in order to increase the commercial value, an appropriate figure may be printed around the periphery.

  Next, as a placement material fixing step, the placement materials 4l and 4m are placed concentrically on the surface of the mount 3B using the double concentric circle position as a guide. The specific examples of the placing materials 4l and 4m are the same as those described above, but it is preferable to use a caulking material that adheres well to anything.

  Next, as a laminating step, the laminating film 2B is bonded to both surfaces of the mount 3B on which the above-described laying materials 4l and 4m are laid.

  In this case, characters such as congratulations 2c and manufacturer's name 2d as shown in the figure and appropriate design figures (not shown) for increasing the commercial value are printed on the front or back surface of the laminate film 2B. .

  Finally, the stopper 4n for preventing movement is raised in a protruding shape at the four corners of the transparent laminate film 2B on the back surface.

  As described above, the method for manufacturing a stereoscopic photograph according to the second invention can be easily manufactured at low cost and not only in the above-described stereoscopic photograph but also in the field of manufacturing a product having a stereoscopic shape. The underlay saucer 30 of the present embodiment has double concentric arrangement materials 4l and 4m, so that even if irrigation leaks from a flower pot or an arrangement flower jar not shown, the underlay saucer 30 does not overflow. .

Embodiment 4

  Embodiment 4 is an example in which the method for producing a stereoscopic photograph according to the second invention is applied to an underlay tray 40 according to still another embodiment. FIG. 8A is a plan view thereof, and FIG. FIG. 8A is a cross-sectional view of the underlay tray 40 taken along line EE, and FIG. 8C is a back view.

  The difference between the underlay tray 40 of the present embodiment and the underlay tray 30 of the above-described third embodiment is that, in the third embodiment, the double placing materials 4l and 4m are stacked on the mount 3B. 4, only one circular placing material 4o is provided on the mount 3C, and a laminate film 2C in which a plurality of water collecting holes 7 are bonded to the surface of the mount 3C and the mount 3C are penetrated. The drainage guide path 4p that leads to the drainage hole 8 is provided on the back surface of the mount 3C, and the other points are the same as in the third embodiment.

  In addition, as shown in FIG.8 (c), the drain hole 8 is provided through the laminate film 2C bonded to the back surface of the mount 3C at only one corner of the back surface of the mount 3C.

  In addition, the drainage guide path 4p is placed on the back surface of the mount 3C so as to surround all of the water collection holes 7 and the drainage holes 8 (in an endless manner). In this case, the plan view shape of the drainage guide path 4p is such that the overflow irrigation can be temporarily retained between the mount 3C and the laminate film 2C on the back surface, and if the underlay tray 40 is inclined during drainage, Can drain. The shape is preferable, for example, it can be a spiral shape, a radial shape, or the like.

  According to the underlay tray 40 of this embodiment, when the underlay tray 40 is placed on a table (not shown) and a potted plant or the like (not shown) is placed inside the serving material 4o, the bottom surface of the drainage guide path 4p is caused by the weight of the potted plant. Move down until it touches the table surface.

  Therefore, as shown by the arrow in FIG. 8 (c), even when irrigation leaks from a flower pot or the like (not shown), the water temporarily passes through the water collection hole 7 and is between the mount 3C and the laminate film 2C on the back surface. It is possible to keep the amount of water retained and to increase the amount of water retained in that part.

  The accumulated irrigation can be drained from the drain hole 8 at any time by tilting the underlay tray 40 at any time, or via a hose (not shown) connected to the drain hole 8, so that the surface of the underlay tray 40 is always beautiful. It can be kept in a state and has a special effect that bacteria do not propagate.

Embodiment 5

FIG. 9 is a process diagram as an embodiment of the method for producing a stereoscopic photograph according to the third invention described above. Hereinafter, the method for producing a stereoscopic photograph according to the present invention will be described in the order of steps based on FIG.
10 to 12 are diagrams for explaining the finished state of the stereoscopic photograph during the process of the present invention over time.

<Original drawing creation process>
First, as shown in FIG. 10A, for example, by taking a photograph L (original image) of a plant or a person on a sheet body such as a printing paper 50, an original image of a stereoscopic photograph is created. In the present embodiment, a photograph of a rose flower L is used as an original picture (step S1).

  Here, the “sheet body” is usually a printing paper, but when the original image is not based on the printing method, it is a sheet paper, a cardboard, a cloth, a synthetic resin film, a thin foil metal, etc. Also good. Therefore, the method of creating the original image may be a means such as painting or handwriting in addition to the printing method.

<Extruding process of the original surface contour line>
Next, FIG. 10A is a cross-sectional view taken along the line XX in FIG. 10A. As shown in FIG. 10B, a soft mount 51 such as foam steel is inserted under the printing paper 50 as an underlay. A person traces the outlines of rose petals, leaves, shafts, etc. in the photo L with a pointed pressing body such as a used ballpoint pen P from the front side to the back side of the photo L (step S2). .

  In this case, as the mount 51, in addition to the foamed polystyrene, it may be a cardboard, a cardboard, a thin plate such as a panel, a wood, or a synthetic resin film. In short, when pressed with the tip of a pressing body such as a used ballpoint pen P. Those that are plastically deformed are good.

  The state shown in the figure is a state where the operator presses the “dew Ld” portion adhering to the rose petal with the tip of the used ballpoint pen P. As a result, the rose outline 52 is pushed out to the extent that it can be seen from the back surface. FIG. 11A shows the back surface of the photograph in this state, and the broken line 52 in the drawing shows the direction from the front surface to the back surface when the outline of the rose is traced with the used ballpoint pen P in the previous process. It is the part that was pushed out.

  As the original image L, a so-called double-sided photograph in which a photograph obtained by inverting the original image on the front surface is attached to the back side of the photograph may be used. In this case, this step is unnecessary, and the creation of a stereoscopic photograph can be speeded up. it can.

<Original image reversal / back side placement process>
Next, the photograph L is reversed and placed again on the mount 51 so that the back surface is the top surface (step S3).

<Three-dimensional part formation step>
Next, as shown in the cross-sectional view of FIG. 11B, by pressing the slightly inner part of the contour line 52 from the back side of the photograph L toward the front side with the tip of the used ballpoint pen P, for example, in the figure The portion desired to be three-dimensionalized, such as the “dew Ld” portion, is subjected to a projecting (or bulging) process to emphasize the portion desired to be three-dimensional. If it is desired to project the rose leaf surface, the projecting process may be applied from the back surface of the leaf (step S4).

  Here, as the position to project, the inner side of the extruded contour is pushed slightly inside because the back of the photo is usually pure white, so the position, shape, etc. of roses and leaves are unknown from the back of the photo However, since the contour line 52 provided in the previous process is visible, the contour line 52 can be used as a guide for processing.

  In this way, if the original picture is a flower such as a rose, the surface of the original picture L is a swollen part such as petals or leaves, and if the original picture is a person picture, the nose or lips are naturally swollen parts. It is processed so that it protrudes from. In this case, by changing the inclination angle θ of the used ballpoint pen P, the pressing range, the degree of pressing force U, etc. as shown in the figure, by changing the protruding direction from the photo surface, its protruding area, height, etc. Further, the three-dimensional effect can be emphasized, and an impression close to the real thing can be given.

  Further, when the protruding range or protruding height from the back of the photograph is large, the three-dimensional effect is maintained semipermanently by filling the padding 53 (FIG. 12 (b)) such as clay and putty described above into the portion. be able to.

  Moreover, you may sprinkle on the surface or back surface of the three-dimensional part which extruded and formed the fragrance | flavor or perfume which emits a rose scent after this three-dimensional part formation process. In this case, the customer who touches the stereoscopic photograph of the present invention as a sample photograph is motivated to purchase by the smell, and the decoration effect of the stereoscopic photograph of the present invention increases when it is displayed at home.

<Gap adjustment and oblique light process>
Next, the photograph Lb of FIG. 12A obtained in the previous step is placed on the document table of a known image scanner (not shown) of a flat bed type in which the image pickup device moves, with the projecting surface as the lower surface ( Step S5). The type of image scanner used here is preferably a flat bed type in which the original image L does not move and the image sensor moves.

  Next, the gap between the document table of the image scanner and the mount 51 is adjusted, and oblique light is applied so that light does not enter the gap (step S6).

  Specifically, the gap adjustment is performed by inserting a spacer (not shown) between the document table and the periphery of the photo to adjust the height according to the original image. Cover it carefully. As described above, the adjustment of the gap between the document table and the mount 51 and the oblique lighting so that light does not enter the gap from the surroundings greatly affect the quality of the stereoscopic photograph. This step is a particularly important step. The gap adjustment is performed according to the degree of three-dimensionalization of the original image of the stereoscopic photograph. That is, when it is desired to increase the stereoscopic effect, the gap is set to be small, and when it is desired to reduce the stereoscopic effect, the gap is set to be large.

<Scanning process>
Finally, the entire surface of the original image L subjected to the protruding process is scanned with a known image scanner (step S7). In this case, be careful not to let light from outside between the platen and the photo except for the light source of the scanner. In this way, the light from the image sensor of the scanner hits the part that has undergone the projection processing in the three-dimensional part formation process, but the optical path length also varies depending on the height, projection direction, and range of the part that has undergone the projection processing. As a result, a slight change occurs in the direction and intensity of the reflected light, and the image obtained by scanning is flat, but the projected part looks more than the actual one in the original picture. It is possible to obtain a three-dimensional photograph that appears to rise three-dimensionally.

  In particular, the manufacturing method of the present invention can emphasize the protruding height, protruding position, and range of a specific part in an image such as a photograph. In this case, it is possible to easily produce a three-dimensional photograph that makes the viewer feel a three-dimensional effect that is higher than the actual one in the original picture.

  Therefore, when such a three-dimensional photograph is used as a product sample, the customer's willingness to purchase can be improved, and the value can be obtained as an ornamental plant photograph.

  In addition, if a normal photograph was taken from the front without scanning with an image scanner on an image with a protruding part of the original image, the surprisingly obtained photograph is totally three-dimensional Will not occur. This point is the knowledge obtained by the inventor, because the normal photography cannot irradiate with strong light like when scanning an image scanner, and the projection processing using reflected light This is probably because the difference in height between the parts cannot be obtained.

  As mentioned above, although an example of the manufacturing method of the three-dimensional photograph and three-dimensional goods which concern on this invention was demonstrated about various embodiment, this invention is not limited to the thing of the said embodiment, A claim and each embodiment Various modifications can be made within the scope of the technical idea shown, and these modifications are of course included in the scope of the present invention.

  For example, in the third invention described above, a transparent plastic film may be laminated on the imaged surface that has been scanned after the scanning step.

  In addition, by providing the above-described protrusion processing from the front surface to the back surface of the original image, a recess is provided, and by scanning an image having an uneven portion together with the above-described protrusion, a stereoscopic photograph with a more stereoscopic effect is obtained. You can also.

  The manufacturing method of the three-dimensional photograph and the three-dimensional product of the present invention is not limited to the field of manufacture of product samples, but also, for example, manufacture of a three-dimensional photograph having a framed portrait of a person or the like, a landscape photograph, uneven parts such as various figurines It can also be applied to fields.

Claims (3)

A method for producing a three-dimensional photograph in which a part of a product image captured on the surface of a printing paper is three-dimensionally raised,
First, make a double-sided printed photo in which the imaging on the back side is reversed with respect to the imaging of the product etc. photographed on the front side,
Then, the the back surface of the double-sided printing photographs that the inversion, in order to enliven imaging portion corresponding to the swelled in that portion of the product when viewed imaging of said surface, to mark the outline of the imaging of the back surface Fix the material to the imaging part ,
Next, a mount of the same outer dimensions is pasted on the entire back surface of the double-sided printed photo to which the serving material is fixed,
Finally, the back surface of the double-sided printing photograph of the surface and the backing sheet, anaglyph method of manufacturing, which comprises laminating a transparent plastic film having a large becomes outside dimension than these outer dimensions. In the manufacturing method of the three-dimensional photograph of Claim 1,
A method for producing a three-dimensional photograph, characterized in that paper clay, putty, gypsum, pulp, tissue paper, cotton, fine granules, synthetic resin, caulking agent, or a mixture of any of these is used as the serving material. . In the manufacturing method of the three-dimensional photograph of Claim 1 or Claim 2,
A method for producing a three-dimensional photograph, characterized in that a thin plate such as cardboard, corrugated paper, and warp wood, a resin film, or a metal film is used as the mount.

Images