JP2010191326A - Print forming device and method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To prevent positions of a lenticular sheet and a print for stereoscopic display from being deviated when forming a lenticular print by sticking the lenticular sheet and the print for stereoscopic display. <P>SOLUTION: A hot-melt adhesive 3 is applied to an area A1 near one short side of a back surface of the lenticular sheet 1. A peeling sheet 5 is stuck by applying adhesive 4 made of transparent acrylic resin while leaving space A3 from the area A1 to which the adhesive 3 has been applied. After aligning the lenticular sheet 1 with the print for stereoscopic display, the area A1 is heated to attach the sheet 1 to the print. Thereafter, the peeling sheet 5 is peeled, and the sheet 1 and the print are attached, thereby forming the lenticular print. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to a lenticular print creation apparatus and method for creating a lenticular print by attaching a lenticular sheet to a stereoscopic display sheet to which a stereoscopically viewable stereoscopic image is provided, a lenticular sheet, and a stereoscopic display print. is there.

  It is known that stereoscopic viewing can be performed using parallax by combining a plurality of images and displaying them three-dimensionally. In such a stereoscopic view, a plurality of images having parallax (referred to as parallax images) are acquired by photographing the same subject from different positions using a plurality of cameras, and the subjects included in the plurality of parallax images are captured. This can be performed by displaying a plurality of images three-dimensionally using parallax.

  Here, lenticular printing is known as a method for displaying an image three-dimensionally. Lenticular printing generates a stereoscopic image by cutting a plurality of parallax images acquired by a multi-lens imaging device having a plurality of imaging units into strips in the vertical direction and arranging them alternately, and the stereoscopic image is printed on a print sheet. After printing, a stereoscopic display print is created, and after aligning the strip-shaped image and the individual cylindrical lenses of the lenticular sheet, for example, using the technique described in Patent Document 1, It can be created by bonding the lenticular sheet with an adhesive. Here, the lenticular sheet is provided with a transparent adhesive and a release material such as release paper, and after positioning, the release material is released to bond the lenticular sheet and the 3D display print. Thus, a lenticular print can be created.

JP-A-5-278207

  By the way, if the position of the width of each cylindrical lens in the lenticular sheet and the position of one set of parallax images corresponding to each cylindrical lens are shifted, stereoscopic viewing becomes impossible or image quality deteriorates due to moire. For this reason, when the lenticular sheet and the stereoscopic display print are bonded together, it is necessary to accurately align the lenticular sheet and the stereoscopic display print. However, even if the alignment is performed with high accuracy, there is a possibility that the positions of the lenticular sheet and the 3D display print are shifted when the release material is peeled from the lenticular sheet.

  The present invention has been made in view of the above circumstances, and when creating a lenticular sheet by laminating a lenticular sheet and a stereoscopic display print, the positions of the lenticular sheet and the stereoscopic display print are not shifted. Objective.

A first lenticular print creation device according to the present invention is a lenticular sheet configured by arranging a plurality of cylindrical lenses in parallel, which is attached to a stereoscopic display print provided with a stereoscopic image capable of stereoscopic viewing, A first adhesive that exerts an adhesive force by a predetermined action is applied to at least a part of the back surface corresponding to the non-applied region of the stereoscopic image of the stereoscopic display print, and the stereoscopic image of the stereoscopic display print A lenticular sheet in which a transparent second adhesive is applied together with a release material in an area corresponding to the application area, and an alignment means for aligning the 3D display print;
The predetermined action is applied to the first adhesive in the lenticular sheet after the alignment to bond the at least part of the lenticular sheet and the non-given area of the stereoscopic image in the stereoscopic display print. A first bonding means;
A peeling means for peeling the release material from the lenticular sheet after the bonding;
A second adhering means for adhering the region to which the second adhesive of the lenticular sheet from which the release material has been peeled off and the region to which the stereoscopic image of the stereoscopic display print is applied;
And a cutting unit that cuts the non-given area of the stereoscopic image in the bonded lenticular sheet and the stereoscopic display print from the stereoscopic image imparting area.

The second lenticular print creating apparatus according to the present invention is a stereoscopic display print to which a stereoscopic image capable of stereoscopic viewing is provided by attaching a lenticular sheet configured by arranging a plurality of cylindrical lenses in parallel, A first adhesive that exerts an adhesive force by a predetermined action is applied to at least a part of the non-applied area of the stereoscopic image, and a transparent second adhesive is applied together with the transparent release material to the applied area of the stereoscopic image. A positioning means for positioning the three-dimensional display print and the lenticular sheet;
Applying the predetermined action to the first adhesive in the three-dimensional display print after the alignment to bond the non-applied area of the three-dimensional image and the lenticular sheet in the three-dimensional display print Bonding means;
After the bonding, a peeling means for peeling the transparent release material from the three-dimensional display print,
The stereoscopic image application region of the stereoscopic display print from which the transparent release material has been peeled off. A second adhering means for adhering an area corresponding to the application area of the lenticular sheet;
And a cutting unit that cuts the non-given area of the stereoscopic image in the bonded lenticular sheet and the stereoscopic display print from the stereoscopic image imparting area.

  Examples of the “first adhesive that exhibits adhesive force by a predetermined action” include, for example, a hot-melt adhesive that melts by applying heat and exhibits adhesive force, and an adhesive that exhibits adhesive force by applying pressure. An adhesive that exhibits adhesive strength when irradiated with light such as an ultraviolet ray and the like can be used.

A first lenticular print creation method according to the present invention is a lenticular sheet configured by arranging a plurality of cylindrical lenses in parallel, which is affixed to a stereoscopic display print provided with a stereoscopic image capable of stereoscopic viewing, A first adhesive that exerts an adhesive force by a predetermined action is applied to at least a part of the back surface corresponding to the non-applied region of the stereoscopic image of the stereoscopic display print, and the stereoscopic image of the stereoscopic display print Alignment of the lenticular sheet formed by applying a transparent second adhesive together with a release material in a region corresponding to the application region, and the stereoscopic display print,
The predetermined action is applied to the first adhesive in the lenticular sheet after the alignment to bond the at least part of the lenticular sheet and the non-given area of the stereoscopic image in the stereoscopic display print. ,
After the bonding, the release material is released from the lenticular sheet,
Adhering the region to which the second adhesive of the lenticular sheet from which the release material has been peeled is applied, and the region to which the stereoscopic image of the stereoscopic display print is applied,
The non-given area of the stereoscopic image in the bonded lenticular sheet and the stereoscopic display print is cut from the stereoscopic image imparted area.

A second lenticular print creation method according to the present invention is a stereoscopic display print provided with a stereoscopic image that can be stereoscopically viewed by attaching a lenticular sheet configured by arranging a plurality of cylindrical lenses in parallel. A first adhesive that exerts an adhesive force by a predetermined action is applied to at least a part of the non-applied area of the stereoscopic image, and a transparent second adhesive is applied together with the transparent release material to the applied area of the stereoscopic image. The three-dimensional display print and the lenticular sheet are aligned,
Applying the predetermined action to the first adhesive in the stereoscopic display print after the alignment, and bonding the non-given area of the stereoscopic image in the stereoscopic display print and the lenticular sheet,
After the bonding, the transparent release material is peeled off from the three-dimensional display print,
The stereoscopic image application region of the stereoscopic display print from which the transparent release material has been peeled off. Adhering the region corresponding to the application region of the lenticular sheet,
The non-given area of the stereoscopic image in the bonded lenticular sheet and the stereoscopic display print is cut from the stereoscopic image imparted area.

The lenticular sheet according to the present invention is a lenticular sheet configured by arranging a plurality of cylindrical lenses in parallel, which is attached to a stereoscopic display print provided with a stereoscopic image capable of stereoscopic viewing.
A first adhesive that exerts an adhesive force by a predetermined action is applied to at least a part on the back side corresponding to the non-applied region of the stereoscopic image of the stereoscopic display print, and the stereoscopic display print is stereoscopic. A transparent second adhesive is applied to the region corresponding to the image application region together with the release material.

  In the lenticular sheet according to the present invention, the first adhesive and the second adhesive may be applied at a predetermined interval.

The stereoscopic display print according to the present invention is a stereoscopic display print provided with a stereoscopic image capable of stereoscopic viewing by attaching a lenticular sheet configured by arranging a plurality of cylindrical lenses in parallel.
A first adhesive that exerts an adhesive force by a predetermined action is applied to at least a part of the non-applied area of the stereoscopic image, and a transparent second adhesive together with a transparent release material is applied to the applied area of the stereoscopic image. It is characterized by being granted.

  In the three-dimensional display print according to the present invention, the first adhesive and the second adhesive may be applied at a predetermined interval.

  According to the first lenticular print creation apparatus and method of the present invention, alignment between the lenticular sheet and the stereoscopic display print is performed, and a predetermined action is applied to the first adhesive in the lenticular sheet after alignment. Thus, at least a part of the lenticular sheet is bonded to the non-applied area of the stereoscopic image in the stereoscopic display print. Then, after bonding, the release material is peeled off from the lenticular sheet, the lenticular sheet from which the release material has been peeled off and the 3D display print are bonded, and the 3D image non-applied area in the bonded lenticular sheet and 3D display print Cutting from the stereoscopic image application region completes the creation of the lenticular print.

  As described above, after aligning the lenticular sheet and the stereoscopic display print, at least a part of the lenticular sheet and the non-applied area of the stereoscopic image in the stereoscopic display print are bonded, so when peeling the release material, It is possible to prevent the position of the 3D display print from shifting. Therefore, the created lenticular print can be favorably stereoscopically viewed.

  Further, according to the second lenticular print creating apparatus and method of the present invention, the lenticular sheet and the 3D display print are aligned, and the first adhesive in the 3D display print after alignment has a predetermined value. The action is applied, and the non-applied area of the stereoscopic image and the lenticular sheet in the stereoscopic display print are bonded. Then, after bonding, the transparent release material is peeled off from the three-dimensional display print, the three-dimensional display print from which the transparent release material is peeled off, and the lenticular sheet are bonded together, and the three-dimensional image in the bonded lenticular sheet and three-dimensional display print The non-applied area is cut from the stereoscopic image applied area to complete the creation of the lenticular print.

  As described above, after the alignment between the lenticular sheet and the stereoscopic display print, the lenticular sheet and the stereoscopic image non-applied area in the stereoscopic display print are bonded, so that when the transparent release material is peeled off, the lenticular sheet and the stereoscopic display are removed. It is possible to prevent the position of the print from shifting. Therefore, the created lenticular print can be favorably stereoscopically viewed.

  Further, the release material can be easily peeled by applying the first and second adhesives at predetermined intervals in the lenticular sheet or the stereoscopic display print.

The top view of the lenticular sheet by the embodiment of the present invention The back view of the lenticular sheet by embodiment of this invention The partial perspective view of the lenticular sheet by the embodiment of the present invention Sectional view taken along the line II of FIG. The top view which shows the print for three-dimensional display to which the lenticular sheet by this embodiment is affixed Diagram for explaining stereoscopic image and alignment The figure which shows the structure of the lenticular print production apparatus by embodiment of this invention. A flowchart showing processing performed in the present embodiment The figure for demonstrating operation | movement of a lenticular print production apparatus (the 1) Diagram for explaining the operation of the lenticular print creation apparatus (part 2) The top view which shows the print for stereoscopic display by other embodiment Diagram for explaining the operation of the lenticular print creating apparatus (part 3) The figure which shows the other example of the part which provides a heat-meltable adhesive agent

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. 1 is a plan view of a lenticular sheet according to an embodiment of the present invention, FIG. 2 is a back view, FIG. 3 is a partial perspective view, and FIG. 4 is a cross-sectional view taken along the line II of FIG. The lenticular sheet 1 is configured by arranging a plurality of cylindrical lenses 2 in parallel, and a hot-melt adhesive 3 such as hot melt is applied to a region near one short side on the back surface thereof. Yes.

In addition, a transparent acrylic resin adhesive 4 is applied at a distance A3 from the area A1 to which the adhesive 3 is applied. A release sheet 5 is attached to the adhesive 4. The release sheet 5 is formed with a knob portion 5A used when the release sheet 5 is peeled from the lenticular sheet 1 as will be described later. In addition, in the region A1 of the lenticular sheet 1, a double-round marker 6 is provided for alignment with the stereoscopic display print to which the lenticular sheet 1 according to the present embodiment is attached.

  FIG. 5 is a plan view showing a stereoscopic display print to which the lenticular sheet 1 according to the present embodiment is attached. As shown in FIG. 2, the stereoscopic display print 11 has a region A11 where an image for bonding with the region A1 of the lenticular sheet 1 is not printed and a region A12 where a stereoscopic image G3 for performing stereoscopic viewing is printed. . In the area A11, a marker 12 having the same shape as the marker 6 for positioning with the lenticular sheet 1 is provided.

  FIG. 6 is a diagram for explaining a stereoscopic image and alignment. As shown in FIG. 6, the stereoscopic image G3 is generated by cutting a plurality of images acquired in each imaging unit of a multi-lens imaging device having a plurality of imaging units into strips in the vertical direction and arranging them alternately. It will be. For example, if the multi-lens imaging device has two imaging units and the images acquired by the two imaging units are G1 and G2, respectively, a stereoscopic image is obtained from the two images G1 and G2 as shown in FIG. It is generated by alternately arranging strip-shaped patterns. Then, a stereoscopic display print 11 is created by printing the stereoscopic image on a print sheet. Note that one set of the images G1 and G2 is generated so that the width thereof matches the width of the cylindrical lens 2 in the lenticular sheet 1.

  In the present embodiment, as shown in FIG. 6, the lenticular sheet 1 and the three-dimensional image are combined with the lenticular sheet 1 so that one set of the images G1 and G2 in the three-dimensional image G3 falls within the width of one cylindrical lens 2 in the lenticular sheet 1. After alignment with the display print 11, the lenticular sheet 1 and the stereoscopic display print 11 are bonded to create a lenticular print. Note that the marker 6 in the lenticular sheet 1 and the marker 12 in the stereoscopic display print 11 are such that one set of the images G1 and G2 in the stereoscopic image G3 is 1 in the lenticular sheet 1 when the positions of the markers 6 and 12 match. The positions are provided so as to be within the width of the two cylindrical lenses 2.

  FIG. 7 is a diagram showing a configuration of an apparatus for creating a lenticular print from the lenticular sheet 1 and the stereoscopic display print 11 according to the embodiment of the present invention. As shown in FIG. 7, the lenticular print creating apparatus 20 according to the present embodiment includes a fixing unit 21 that fixes the stereoscopic display print 11, a holding unit 22 that holds the lenticular sheet 1 movably, and a driving unit that drives the holding unit 22. 23, a detection unit 24 for alignment, a heating unit 25 for heating the area A1 of the lenticular sheet 1, a peeling unit 26 for peeling the release sheet 5 from the lenticular sheet 1, the lenticular sheet 1 and the three-dimensional display print 11. A pressure roller 27 for pressing the lenticular sheet 1 for bonding, and a cutting unit 28 for cutting unnecessary portions after bonding the lenticular sheet 1 and the three-dimensional display print 11 are provided.

  The fixing unit 21 includes a stage 31 on which the three-dimensional display print 11 in which a plurality of holes 30 are formed is placed. By applying a negative pressure to the hole 30 with a pump (not shown), the three-dimensional display print 11 is placed. Is fixed on the stage 31.

  The holding unit 22 includes four adsorbing portions 32A to 32D that adsorb the four corners of the region A2 in the lenticular sheet 1 from above, and a rectangular frame 33 that holds the four adsorbing portions 32A to 32D at the four corners. 33 is connected to the drive unit 23.

  The drive unit 23 has a known mechanism, and moves the lenticular sheet 1 held by the holding unit 22 in parallel with the stereoscopic display print 11 fixed to the fixing unit 21 in accordance with an instruction from the control unit 29. At the same time, the lenticular sheet 1 is moved relative to the 3D display print 11 so as to rotate. The driving unit 23 drives the lenticular sheet 1 held by the holding unit 22 to be detachable from the stereoscopic display print 11 fixed to the fixing unit 21, and in the direction of a cutting unit 28 described later. Drive to move.

  The detection unit 24 includes an imaging device, images the marker 6 in the lenticular sheet 1 and the marker 12 in the stereoscopic display print 11, and outputs an image obtained by the imaging to the control unit 29.

  The heating unit 25 includes a heater and heats the area A1 of the lenticular sheet 1 after alignment. The heating unit 25 is driven by a driving unit (not shown) so as to be detachable from the fixing unit 21.

  The peeling portion 26 is composed of a linear member that extends beyond the entire width of the lenticular sheet 1 in the y direction in FIG. 7 and is rotationally driven by a motor (not shown), is aligned, and the area A1 is the three-dimensional display print 11. The release sheet 5 is peeled from the lenticular sheet 1 while the release sheet 5 is wound up by pinching the knob portion 5A of the release sheet 5 of the lenticular sheet 1 adhered to the sheet.

  The pressure roller 27 is a cylindrical member that is driven by a motor (not shown) that extends beyond the entire width of the lenticular sheet 1 in the y direction in FIG. 7, and the pressure roller 27 of the lenticular sheet 1 from which the release sheet 5 has been peeled off. While rolling the upper surface of the area A2, the lenticular sheet 1 is pressed by pressing it toward the stereoscopic display print 11, and the stereoscopic image of the area A2 to which the adhesive 4 of the lenticular sheet 1 is applied and the stereoscopic display print 11 is applied. The area A12 on which G3 is printed is adhered.

  The cutting portion 28 is made of a cutter, and the lenticular sheet 1 conveyed to the position of the cutting portion 28 after bonding and the unnecessary portion in the three-dimensional display print 11, that is, the portion of the region A1 of the lenticular sheet 1 are bonded to the region A1. Cut together with the area A11 of the stereoscopic display print 11.

  The control unit 29 analyzes the image output from the detection unit 24, and when the positions of the markers 6 and 12 match, the control unit 29 assumes that the positions of the lenticular sheet 1 and the stereoscopic display print 11 match, and holds them at that position. The drive of the part 22 is stopped. Further, the control unit 29 controls driving of each unit of the lenticular print creating apparatus 20 according to the present embodiment. That is, the fixing unit 21 fixes the stereoscopic display print 11, the holding unit 22 holds and moves the lenticular sheet 1, the detection unit 24 moves and aligns the lenticular sheet 1 and the stereoscopic display print 11, and the heating unit 25 The movement and heating, the movement of the peeling unit 26, the movement and pressure of the pressure roller 27, and the driving of the cutting unit 28 are controlled.

  Next, the operation of the lenticular print creating apparatus according to the present embodiment will be described. It is assumed that the 3D display print 11 is fixed to the fixing unit 21 and the lenticular sheet 1 is held by the holding unit 22. FIG. 8 is a flowchart showing processing performed in the present embodiment. First, the control unit 29 drives the holding unit 22 to bring the lenticular sheet 1 into contact with the stereoscopic display print 11, moves the detection unit 24 to the vicinity of the markers 6, 12, and captures the markers 6, 12 on the detection unit 24. The lenticular sheet 1 and the 3D display print 11 are aligned (step ST1). When the alignment is completed (Yes in step ST2), the control unit 29 retracts the detection unit 24, moves the heating unit 25 to the vicinity of the region A1 of the lenticular sheet 1, and heats the region A1 (step ST3). Thereby, the area A1 of the lenticular sheet 1 and the area A11 of the stereoscopic display print 11 are bonded.

  After bonding, the control unit 29 stops heating of the heating unit 25 and retracts the heating unit 25, and drives the holding unit 22 as shown in FIG. 9 to lift the lenticular sheet 1 upward in the region A2 side. (Step ST4). And the peeling part 26 is driven, and the peeling sheet 5 of the lenticular sheet 1 is wound up in the arrow A direction as shown in FIG. 10, thereby peeling the peeling sheet 5 from the lenticular sheet 1 (step ST5). Here, since the area A1 and the area A2 in the lenticular sheet 1 are spaced apart from each other by A3, the release sheet 5 can be wound up to the end to release the release sheet 5 from the lenticular sheet 1. Yes.

  After peeling the release sheet 5 from the lenticular sheet 1, the control unit 29 retracts the release part 26 and drives the holding unit 22 to bring the lenticular sheet 1 into contact with the three-dimensional display print 11 (step ST6). Then, the pressure roller 27 is driven to press the lenticular sheet 1 toward the stereoscopic display print 11, and the area A 2 of the lenticular sheet 1 and the area A 12 on which the stereoscopic image G 3 of the stereoscopic display print 11 is printed. Are bonded (step ST7). After the bonding, the control unit 29 retracts the pressure roller 27 and stops the negative pressure in the fixing unit 21 to release the fixation of the three-dimensional display print 11 (step ST8). Then, the holding unit 22 is driven to move the bonded lenticular sheet 1 and the stereoscopic display print 11 to the cutting unit 28 (step ST9), and unnecessary areas in the bonded lenticular sheet 1 and the stereoscopic display print 11 are removed. Disconnect (step ST10). Thereby, the creation of the lenticular print is completed.

  As described above, in the present embodiment, after the alignment of the lenticular sheet 1 and the stereoscopic display print 11, the area A1 of the lenticular sheet 1 and the area A11 to which the stereoscopic image G3 in the stereoscopic display print 11 is not given. Therefore, it is possible to prevent the positions of the lenticular sheet 1 and the stereoscopic display print 11 from being shifted when the release sheet 5 is peeled off. Therefore, the created lenticular print can be favorably stereoscopically viewed.

  In the above embodiment, the adhesives 3 and 4 are applied to the regions A1 and A2 of the lenticular sheet 1, respectively, but the adhesives 3 and 4 may be applied to the three-dimensional display print 11. FIG. 11 is a plan view showing a stereoscopic display print according to another embodiment. As shown in FIG. 11, the stereoscopic display print 11 </ b> A has an area A <b> 11 ′ for bonding with the area A <b> 1 of the lenticular sheet 1 and an area A <b> 12 ′ on which a stereoscopic image G <b> 3 for stereoscopic viewing is printed. The region A11 ′ is provided with a hot-melt adhesive 3 ′, the region A12 ′ is provided with a transparent acrylic resin adhesive 4 ′, and the release sheet 5 ′ is provided on the adhesive 4 ′. It is pasted. The adhesive 3 'is applied so as to avoid the marker 12'.

  When such a three-dimensional display print 11A is used, it is not necessary to apply the adhesives 3 and 4 to the lenticular sheet 1. Further, when creating a lenticular print using such a stereoscopic display print 11A, a device similar to the lenticular print creating apparatus 1 described above is used, and when the peeling unit 26 is driven, the stereoscopic display print is used. What is necessary is just to peel by peeling the peeling sheet 5 'affixed on area | region A12' of 11A toward the arrow B direction, as shown in FIG.

  In the above-described embodiment, the heat-meltable adhesive 3 is used for bonding the lenticular sheet 1 and the three-dimensional display print 11 after alignment. Alternatively, an adhesive that exhibits an adhesive force by irradiation with light such as ultraviolet rays may be used.

  Moreover, although the area | region A1 extended over the length direction of the short side of the lenticular sheet 1 is used as an application | coating position of the adhesive agent 3, as shown in FIG. Adhesive 3 may be applied. Similarly, two-point adhesives near the corners may be applied to the stereoscopic display print 11A.

DESCRIPTION OF SYMBOLS 1 Lenticular sheet 2 Cylindrical lens 3 Hot melt adhesive 4 Transparent adhesive 5 Peeling sheet 11, 11A 3D display print 20 Lenticular print creation device

Claims (8)

A lenticular sheet comprising a plurality of cylindrical lenses arranged in parallel, which is affixed to a stereoscopic display print to which a stereoscopically viewable stereoscopic image is attached, and the stereoscopic image non-attachment region of the stereoscopic display print A first adhesive that exerts an adhesive force by a predetermined action is applied to at least a part of the back surface side corresponding to, and the region corresponding to the stereoscopic image applying region of the stereoscopic display print is transparent together with a release material Alignment means for performing alignment between the lenticular sheet to which the second adhesive is applied and the stereoscopic display print;
The predetermined action is applied to the first adhesive in the lenticular sheet after the alignment to bond the at least part of the lenticular sheet and the non-given area of the stereoscopic image in the stereoscopic display print. A first bonding means;
A peeling means for peeling the release material from the lenticular sheet after the bonding;
A second adhering means for adhering the region to which the second adhesive of the lenticular sheet from which the release material has been peeled off and the region to which the stereoscopic image of the stereoscopic display print is applied;
An apparatus for creating a lenticular print, comprising: a cutting unit that cuts the non-given area of the stereoscopic image in the lenticular sheet after bonding and the stereoscopic display print from the imparted area of the stereoscopic image. A stereoscopic display print provided with a stereoscopic image capable of stereoscopic viewing by attaching a lenticular sheet configured by arranging a plurality of cylindrical lenses in parallel, and at least a part of the stereoscopic image non-attached region, A three-dimensional display print in which a first adhesive exhibiting an adhesive force by a predetermined action is applied, and a transparent second adhesive is applied together with a transparent release material to the stereoscopic image application region, and the lenticular sheet Alignment means for performing alignment with
Applying the predetermined action to the first adhesive in the three-dimensional display print after the alignment to bond the non-applied area of the three-dimensional image and the lenticular sheet in the three-dimensional display print Bonding means;
After the bonding, a peeling means for peeling the transparent release material from the three-dimensional display print,
The stereoscopic image application region of the stereoscopic display print from which the transparent release material has been peeled off. A second adhering means for adhering an area corresponding to the application area of the lenticular sheet;
An apparatus for creating a lenticular print, comprising: a cutting unit that cuts the non-given area of the stereoscopic image in the lenticular sheet after bonding and the stereoscopic display print from the imparted area of the stereoscopic image. A lenticular sheet comprising a plurality of cylindrical lenses arranged in parallel, which is affixed to a stereoscopic display print to which a stereoscopically viewable stereoscopic image is attached, and the stereoscopic image non-attachment region of the stereoscopic display print A first adhesive that exerts an adhesive force by a predetermined action is applied to at least a part of the back surface side corresponding to, and the region corresponding to the stereoscopic image applying region of the stereoscopic display print is transparent together with a release material Aligning the lenticular sheet provided with the second adhesive and the stereoscopic display print,
The predetermined action is applied to the first adhesive in the lenticular sheet after the alignment to bond the at least part of the lenticular sheet and the non-given area of the stereoscopic image in the stereoscopic display print. ,
After the bonding, the release material is released from the lenticular sheet,
Adhering the region to which the second adhesive of the lenticular sheet from which the release material has been peeled is applied, and the region to which the stereoscopic image of the stereoscopic display print is applied,
A method for producing a lenticular print, comprising: cutting a non-given region of the stereoscopic image in the bonded lenticular sheet and the stereoscopic display print from the stereoscopic image imparting region. A stereoscopic display print provided with a stereoscopic image capable of stereoscopic viewing by attaching a lenticular sheet configured by arranging a plurality of cylindrical lenses in parallel, and at least a part of the stereoscopic image non-attached region, A three-dimensional display print in which a first adhesive exhibiting an adhesive force by a predetermined action is applied, and a transparent second adhesive is applied together with a transparent release material to the stereoscopic image application region, and the lenticular sheet And align with
Applying the predetermined action to the first adhesive in the stereoscopic display print after the alignment, and bonding the non-given area of the stereoscopic image in the stereoscopic display print and the lenticular sheet,
After the bonding, the transparent release material is peeled off from the three-dimensional display print,
The stereoscopic image application region of the stereoscopic display print from which the transparent release material has been peeled off. Adhering the region corresponding to the application region of the lenticular sheet,
A method for producing a lenticular print, comprising: cutting a non-given region of the stereoscopic image in the bonded lenticular sheet and the stereoscopic display print from the stereoscopic image imparting region. In a lenticular sheet configured by arranging a plurality of cylindrical lenses in parallel, which is affixed to a stereoscopic display print provided with a stereoscopic image capable of stereoscopic viewing,
A first adhesive that exerts an adhesive force by a predetermined action is applied to at least a part on the back side corresponding to the non-applied region of the stereoscopic image of the stereoscopic display print, and the stereoscopic display print is stereoscopic. A lenticular sheet characterized in that a transparent second adhesive is applied together with a release material to an area corresponding to an image application area.   6. The lenticular sheet according to claim 5, wherein the first adhesive and the second adhesive are provided with a predetermined interval. In the stereoscopic display print to which a stereoscopic image capable of stereoscopic viewing is given by attaching a lenticular sheet configured by arranging a plurality of cylindrical lenses in parallel,
A first adhesive that exerts an adhesive force by a predetermined action is applied to at least a part of the non-applied area of the stereoscopic image, and a transparent second adhesive together with a transparent release material is applied to the applied area of the stereoscopic image. A three-dimensional display print characterized by being applied.   4. The three-dimensional display print according to claim 3, wherein the first adhesive and the second adhesive are applied at a predetermined interval.

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