Printed material and method for manufacturing the same
By constructing printed matter with multiple layers and strategically arranging patterns and information, the printed material achieves enhanced visual appeal and functionality with reduced costs.
Patent Information
- Authority / Receiving Office
- JP · JP
- Patent Type
- Patents
- Current Assignee / Owner
- BANDAI CO LTD
- Filing Date
- 2025-01-06
- Publication Date
- 2026-07-01
AI Technical Summary
Existing methods for decorating printed matter lack the ability to create visually appealing and multifunctional designs that enhance interest and functionality.
The printed matter is constructed with multiple layers, including a base material layer, a surface layer with hologram, second pattern, plain, first pattern, foil, and third pattern layers, and a back layer with identification and game information, where the first and second patterns are formed on different layers, and the number of layers on one side is less than the other to reduce manufacturing costs.
This structure enhances the visual appeal and functionality of the printed material by providing a three-dimensional effect and hiding important information, while reducing production costs.
Smart Images

Figure 0007883611000001_ABST
Abstract
Description
Technical Field
[0001] The present invention relates to printed matter and a method for manufacturing the same.
Background Art
[0002] Patent Document 1 describes a method for decorating printed matter, in which a coating film is formed on the surface of a sheet or mount that constitutes the printed matter using a transparent varnish, a predetermined pattern is printed on the surface of the coating film using ink or resin that can adhere to the coating film, and a metal foil is pressed through an adhesive that does not adhere to the coating film but has the property of adhering to the pattern made of the ink or resin, and the metal foil is adhered only to the pattern made of the ink or resin printed on the coating film.
Prior Art Documents
Patent Documents
[0003]
Patent Document 1
Summary of the Invention
Problems to be Solved by the Invention
[0004] An object of the present invention is to provide printed matter with improved interest and a method for manufacturing the same.
Means for Solving the Problems
[0005] The printed matter according to one aspect of the present invention includes a main body portion composed of a plurality of layers, the main body portion includes a first pattern and a second pattern, and the first pattern and the second pattern are formed in different layers. <00000�2> The method for manufacturing a printed matter according to one aspect of the present invention includes a lamination step of laminating a plurality of layers on one side and the other side of a base material layer, and in the lamination step, the layers are laminated so that the number of laminated layers on the other side is less than that on one side. [Effects of the Invention]
[0007] According to the present invention, it is possible to provide printed materials with improved appeal, and a method for manufacturing the same. [Brief explanation of the drawing]
[0008] [Figure 1] Figure 1 is a schematic diagram of a card-type toy 100, which is one embodiment of the printed material of this disclosure, as viewed from the front side. [Figure 2] Figure 2 is a schematic diagram of the card-type toy 100 shown in Figure 1, viewed from the reverse side. [Figure 3] Figure 3 is a schematic cross-sectional view illustrating the layered structure of the main body 50. [Figure 4] Figure 4 is a schematic diagram showing the base material layer 10, the hologram layer 21, and the second pattern layer 25 of the main body 50 as viewed from the surface side. [Figure 5] Figure 5 is a schematic diagram showing the plain layer 26 and the first patterned layer 29 of the main body 50 as viewed from the surface side. [Figure 6] Figure 6 is a schematic diagram showing the foil layer 30 and the third pattern layer 32 of the main body 50 as viewed from the surface side. [Figure 7] Figure 7 is a schematic diagram showing the base material layer 10 and the identification information layer 41 of the main body 50 as viewed from the back side. [Figure 8] Figure 8 is a schematic diagram showing the game information layer 42 and the protective layer 43 of the main body 50 as viewed from the back side. [Modes for carrying out the invention]
[0009] Figure 1 is a schematic diagram of a card-type toy 100, which is one embodiment of the printed material of this disclosure, as viewed from the front side. Figure 2 is a schematic diagram of the card-type toy 100 shown in Figure 1 as viewed from the back side. The card-type toy 100 contains identification information that can be optically read by a game device, and the game can be played by reading this identification information with the game device. It is not essential that the card-type toy 100 contains such identification information; it may simply be a card for collection or a card for competitive play between people.
[0010] The card-type toy 100 comprises a main body 50 composed of multiple layers. In the examples shown in Figures 1 and 2, the card-type toy 100 is composed only of the main body 50, but it is not limited to this. For example, other accessories may be provided on the main body 50. The direction in which the multiple layers are stacked in the main body 50 is referred to as the thickness direction.
[0011] The main body 50 is a rectangular card shape and has a front surface 32S (see Figure 1) and a back surface 43S (see Figure 2) on the opposite side. As shown in Figure 1, the main body 50 is configured so that when viewed from the front surface 32S side, the first pattern 28 (a picture of a human character), the second pattern 23 (a picture of a robot character), and the third pattern 61 (a line drawing showing the outer edge of the second pattern 23 and the ridges of the irregularities formed on the surface) are visible. In the example in Figure 1, the second pattern 23 includes, for example, text information 23A ("ABCDEFG" in the figure) indicating the name of the robot character of the second pattern 23. As shown in Figure 1, it is preferable that the size of the first pattern 28 is smaller than the size of the second pattern 23.
[0012] As shown in Figure 2, the main body 50 is configured so that game information 65, consisting of characters and images, and a background image 66 are visible when viewed from the back side 43S. As shown in Figure 2, the main body 50 is provided with two pieces of identification information 67 that are not visible from the outside. The identification information 67 consists of images such as a two-dimensional code. The two pieces of identification information 67 are provided side by side, spaced apart in the longitudinal direction of the main body 50.
[0013] The identification information 67 is configured to be able to reflect light of a specific wavelength irradiated from the game device. The game device can optically read the identification information 67 by detecting this reflected light. Since the main body 50 includes two pieces of identification information 67 in a spaced-apart manner, either one of the pieces of identification information 67 can be read regardless of whether the main body 50 is placed vertically or horizontally at a predetermined position of the game device.
[0014] FIG. 3 is a schematic cross-sectional view for explaining the layer structure of the main body 50. The main body 50 includes a base material layer 10, a surface layer 20 laminated on one surface 10A on the front side of the base material layer 10, and a back surface layer 40 laminated on the other surface 10B on the back side of the base material layer 10. The surface layer 20 and the back surface layer 40 are each composed of a plurality of layers. The number of layers constituting the surface layer 20 is larger than the number of layers constituting the back surface layer 40.
[0015] The base material layer 10 is, for example, configured to have no light transmissivity and high rigidity. The base material layer 10 is composed of, for example, synthetic paper. Since the base material layer 10 has no light transmissivity, when the main body 50 is viewed from the front side, the identification information 67 and the game information 65 provided on the back surface layer 40 can be made invisible. Thereby, the design property when the main body 50 is viewed from the front side can be enhanced.
[0016] The surface layer 20 has a structure in which a hologram layer 21, a second pattern layer 25, a plain layer 26, a first pattern layer 29, a foil layer 30, a protective layer 31, and a third pattern layer 32 are laminated in order from the side closer to the base material layer 10. The third pattern layer 32 is the uppermost layer of the surface layer 20, and the surface of the third pattern layer 32 constitutes the surface 32S (see FIG. 1) of the main body 50.
[0017] The hologram layer 21 is composed of a film or the like on which a pattern hologram is formed. By providing the hologram layer 21, when the main body 50 is viewed from the front side, the entire surface 32S can be made to shine, decorating the first pattern 28 and the second pattern 23, and enhancing the interest of the card-type toy 100.
[0018] The second pattern layer 25 has a structure in which a coating layer 22, a second pattern 23, and a coating layer 24 are laminated in this order from the hologram layer 21 side. The coating layer 22 is composed of, for example, a varnish applied on the hologram layer 21. The second pattern 23 is a printing layer formed on the coating layer 22 by, for example, offset printing using four or five colors of ink. The second pattern 23 is configured as a pattern more complex than the first pattern 28, for example. The second pattern 23 is formed, for example, by printing white ink on the entire surface of the coating layer 22 and printing color ink on the white ink. The coating layer 24 is composed of, for example, an anchor coating agent applied on the second pattern 23. The second pattern layer 25 constitutes a layer including the second pattern 23.
[0019] FIG. 4 is a schematic view of the base material layer 10, the hologram layer 21, and the second pattern layer 25 of the main body 50 as viewed from the surface side. As shown in FIG. 4, the base material layer 10, the hologram layer 21, and the second pattern layer 25 have the same size when viewed in the thickness direction. The hologram layer 21 does not need to have a pattern hologram formed on its entire surface and may be formed partially.
[0020] As shown in FIG. 4, the second pattern 23 includes character information 23Aa. Further, in the central portion of the second pattern 23, a low-concentration region 23B is provided which is configured to have a lower ink concentration than other regions. The low-concentration region 23B is a region that overlaps with the first pattern 28 (see FIG. 1) laminated on the surface 32S side of the second pattern 23, and its shape is preferably larger than the shape of the first pattern 28. The thickness and the like of the second pattern layer 25 are determined so that the hologram layer 21 can be visually recognized through the second pattern layer 25 when the main body 50 is viewed from the front side.
[0021] The plain layer 26 is a layer in which a plain region is formed. The thickness D1 of the plain layer 26 is configured to be larger than each of the thickness D2 of the second pattern layer 25 and the thickness D3 of the first pattern layer 29.
[0022] Figure 5 is a schematic diagram showing the plain layer 26 and the first patterned layer 29 of the main body 50 as viewed from the surface side. As shown in Figure 5, the plain layer 26 is composed of a light-transmitting rectangular sheet 26A and a plain region 26B partially provided at a predetermined position on the sheet 26A. The sheet 26A is made of a resin such as PET (Poly Ethylene Terephthalate) and is the same size as the base layer 10. The region 26B is formed by printing a single-color ink such as black ink or white ink. The outline of the plain region 26B is the same shape as the first pattern 28, and is configured so that its outline matches that of the first pattern 28 when the plain layer 26 and the first pattern layer 29 are superimposed. Furthermore, the plain region 26B is provided at a position that overlaps with the low-density region 23B when the second pattern layer 25 and the plain layer 26 are superimposed.
[0023] The first pattern layer 29 has a structure in which a coating layer 27 and a first pattern 28 are laminated in order from the plain layer 26 side. The coating layer 27 is composed of, for example, an anchor coating agent applied on top of the plain layer 26. The first pattern 28 is a printed layer formed on top of the coating layer 27 by offset printing using, for example, four or five colors of ink. The first pattern 28 is formed, for example, by printing white ink over the entire surface of the coating layer 27 and then printing colored ink on top of the white ink. The first pattern layer 29 constitutes the layer that contains the first pattern 28. The thickness of the first pattern layer 29 is determined so that the second pattern layer 25 can be seen through the first pattern layer 29 when the main body 50 is viewed from the front side.
[0024] As shown in Figure 5, the length of the plain layer 26 and the first patterned layer 29 in the short direction is L3, and the length of the plain layer 26 and the first patterned layer 29 in the long direction is L4, and the first patterned layer 29 and the plain layer 26 are made up of the same size when viewed in the thickness direction. When the first patterned layer 29 is laminated on the plain layer 26, region 26B and the first pattern 28 overlap, and the outline of region 26B and the outline of the first pattern 28 coincide.
[0025] The foil layer 30 is a layer of metal foil formed by foil stamping. Figure 6 is a schematic diagram of the foil layer 30 and the third pattern layer 32 of the main body 50 as viewed from the surface side. As shown in Figure 6, the foil layer 30 is formed as character information 23Ab ("ABCDEF") at a position that overlaps with the character information 23Aa included in the second pattern 23.
[0026] The protective layer 31 is a layer that protects the first pattern 28 and the foil layer 30, and is made of, for example, a PET sheet.
[0027] The third pattern layer 32 is a layer containing a third pattern 61 composed of line drawings of arbitrary colors. The third pattern layer 32 is formed by printing the third pattern 61 and then applying a process using two types of varnish to express different textures. As shown in Figure 6, the third pattern layer 32 has a third pattern 61 formed on it, which represents the outer edge and surface pattern of the second pattern 23 with lines. Note that the hatched area 32A in Figure 6 is transparent.
[0028] The layers shown in Figures 4, 5, and 6 are stacked to obtain the main body 50 shown in Figure 1. The character information 23Aa in the second pattern layer 25 shown in Figure 4 and the foil layer 30 (character information 23Ab) shown in Figure 6 overlap, making the character information 23A shown in Figure 1 visible.
[0029] The overlapping of the second pattern 23 shown in Figure 4, the region 26B and the first pattern 28 shown in Figure 5, and the third pattern 61 shown in Figure 6 makes the second pattern 23, the third pattern 61, and the first pattern 28 shown in Figure 1 visible. A thick, unpatterned layer 26 is provided between the second pattern layer 25 containing the second pattern 23 and the first pattern layer 29 containing the first pattern 28. As a result, the distance between the first pattern 28 and the second pattern 23 is increased in the thickness direction. This increased distance makes the first pattern 28 appear to stand out relative to the second pattern 23, enhancing its appeal. As shown in Figure 1, the overlapping of the first pattern 28 in the center of the second pattern 23 makes it possible to represent a connection between a robot character and a human character.
[0030] Furthermore, as shown in Figure 1, a low-density region 23B of the second pattern 23 exists around the first pattern 28. The presence of the low-density region 23B around the first pattern 28 makes the first pattern 28 stand out more, thereby increasing its appeal. In addition, the overlapping of the line drawing of the third pattern 61 on the outer edge of the second pattern 23 emphasizes the second pattern 23, further increasing its appeal. The third pattern 61 is located above the second pattern 23. Therefore, the overlap with the third pattern 61 also gives the second pattern 23 a sense of three-dimensionality.
[0031] Thus, by forming the first pattern 28 and the second pattern 23 on different layers, the overall pattern can be given a sense of depth and increased interest compared to a configuration where multiple patterns are formed on the same layer. Furthermore, by having the second pattern layer 25 and the blank layer 26 adjacent to each other, and the first pattern layer 29 and the blank layer 26 adjacent to each other, the distance between the first pattern 28 and the second pattern 23 can be made appropriate, resulting in a more natural overall pattern.
[0032] The back layer 40 has a structure in which, starting from the side closest to the base layer 10, an identification information layer 41, a game information layer 42 on which game information is formed, and a protective layer 43 are stacked. The protective layer 43 constitutes the uppermost layer of the back layer 40, and the surface of the protective layer 43 constitutes the back surface 43S of the main body 50 (see Figure 1).
[0033] Figure 7 is a schematic diagram of the main body 50, showing the base layer 10 and the identification information layer 41 as viewed from the back side. As shown in Figure 7, the identification information layer 41 is formed on the back surface of the base layer 10 with identification information 67 as a code image using ink that can be read by irradiating it with light of a specific wavelength. By making this code image invisible in visible light, a configuration that is invisible to the user can be achieved.
[0034] Figure 8 is a schematic diagram of the game information layer 42 and the protective layer 43 of the main body 50, viewed from the back side. As shown in Figure 8, the game information layer 42 is a printed layer on the back side of the base material layer 10 on which identification information 67 is formed, with game information 65 and background image 66 formed by offset printing using, for example, four or five colors of ink. The game information layer 42 is formed, for example, by printing white ink over the entire surface of the base material layer 10 on which identification information 67 is formed, and then printing the game information 65 and background image 66 on top of the white ink using colored ink. The protective layer 43 is composed of, for example, a light-transmitting layer processed with PP (Poly-Propylene).
[0035] Thus, the back layer 40 is provided with identification information 67 and game information 65 necessary for the progress of the game. By providing this information, the card-type toy 100 can be made more multifunctional. Since the identification information 67 and game information 65 are not visible from the front layer 20 side, the design can be enhanced while making it more multifunctional. Because the back layer 40 has fewer layers than the front layer 20, the manufacturing cost of the card-type toy 100 can be reduced.
[0036] The method for manufacturing the card-type toy 100, which is constructed as described above, is as follows. The first step involves sequentially laminating a hologram layer 21, a second pattern layer 25, a plain layer 26, a first pattern layer 29, a foil layer 30, a protective layer 31, and a third pattern layer 32 onto one side 10A of the base layer 10. Next, a second step is performed in which an identification information layer 41, a game information layer 42, and a protective layer 43 are sequentially laminated on the other surface 10B of the base layer 10. The order of the first and second steps may be reversed. By completing these steps, a card-type toy 100 is manufactured.
[0037] If we define the first and second processes as lamination processes, then in these lamination processes, layers are laminated such that the number of layers on one side 10A is less than the number of layers on the other side 10B. This reduces manufacturing costs. Also, in these lamination processes, the first pattern layer 29 and the second pattern layer 25 are laminated on one side 10A without being adjacent to each other. This allows the pattern to have a three-dimensional feel. Also, in these lamination processes, a plain layer 26 is laminated between the first pattern layer 29 and the second pattern layer 25 on one side 10A. This allows the pattern to have a three-dimensional feel. Also, in these lamination processes, the plain layer 26 is a layer that includes a plain area 26B of the same size as the first pattern 28. This allows the pattern to have an even greater three-dimensional feel.
[0038] As explained above, this specification contains the following:
[0039] (1) It is a printed material, It has a main body made up of multiple layers, The main body described above includes the first design and the second design, The first and second images described above are formed on different layers of the printed material.
[0040] (2) (1) The printed matter described above, The main body of the printed material includes a layer in which a plain area is formed between the layer containing the first pattern and the layer containing the second pattern.
[0041] (3) (2) The printed matter described above, The printed material comprises a main body in which the layer on which the plain area is formed is adjacent to the layer containing the first pattern and the layer containing the second pattern.
[0042] (4) (2) or (3) the printed matter, The main body of the printed material is configured such that the layer in which the plain area is formed is thicker than the layer containing the first pattern or the layer containing the second pattern.
[0043] (5) A printed document described in any one of (2) to (4), A printed material in which the layer in which the above-mentioned patternless area is formed is the same size as the layer containing the first pattern.
[0044] (6) A printed document described in any one of (2) to (5), The above-mentioned unpatterned area is a printed material in which its outline is constructed to be the same shape as the outline of the first pattern described above.
[0045] (7) A printed document described in any one of (1) to (6), The first image is formed in a printed material such that it overlaps the central part of the second image when the layer containing the first image and the layer containing the second image are stacked.
[0046] (8) A printed document described in any one of (1) to (7), The second image described above is a printed material in which the ink density in the area overlapping with the first image described above is lower.
[0047] (9) A printed matter described in any one of (1) to (8), The above-mentioned main body includes a base material layer, A printed material in which the above-mentioned base material layer is configured to be closer to the layer containing the second pattern than to the layer containing the first pattern.
[0048] (10) A printed matter described in any one of (1) to (9), It includes a surface layer and a back layer, A printed material in which the above-mentioned surface layer and the above-mentioned back layer are each composed of multiple layers.
[0049] (11) (10) The printed matter described above, The printed material includes the layer containing the first image and the layer containing the second image, which are included in the surface layer.
[0050] (12) (10) or (11) the printed matter, The above surface layer is composed of more layers than the above back layer of the printed material.
[0051] (13) A printed matter described in any one of (10) to (12), A printed material in which the layer containing the first image described above is located closer to the topmost layer of the surface layers than the layer containing the second image described above.
[0052] (14) A printed matter described in any one of (10) to (13), The main body mentioned above includes the third design, The third image shown above is a printed image composed of line drawings.
[0053] (15) (14) The printed matter described above, The layer containing the third image described above is a printed material that is configured as the topmost layer among the surface layers described above.
[0054] (16) A printed matter described in any one of (10) to (15), The main body mentioned above includes a layer on which game information is formed. The layer on which the above game information is formed is a printed material included in the reverse layer mentioned above.
[0055] (17) (16) The printed matter described above, The layer on which the above game information is formed is a printed material that is not visible from the surface layer.
[0056] (18) A printed matter described in any one of (10) to (17), The above main body includes identification information, The above identification information is a printed material contained in the reverse layer.
[0057] (19) (18) The printed matter described above, The above identification information is configured to be invisible from the surface layer side of the printed material.
[0058] (20) (18) or (19) the printed matter, The main body of the above-mentioned printed material contains multiple pieces of the above-mentioned identification information in a spaced-out manner.
[0059] (twenty one) A printed matter described in any one of (1) to (20), The above main body includes a foil layer, The above-mentioned foil layer is located adjacent to the layer containing the above-mentioned first pattern in the printed material.
[0060] (twenty two) A printed matter described in any one of (1) to (21), The main body described above is a printed material consisting of a card-shaped structure.
[0061] (twenty three) A method for manufacturing printed materials, The process includes a lamination step of laminating multiple layers on one side and the other side of a base layer. A method for manufacturing printed materials, wherein the lamination process involves laminating layers such that the number of layers on one side is less than the number of layers on the other side.
[0062] (twenty four) (23) The manufacturing method described above, In the above lamination process, a manufacturing method is provided in which a layer containing the first pattern and a layer containing the second pattern are laminated on one side without being adjacent to each other.
[0063] (twenty five) (24) The manufacturing method described above, A manufacturing method comprising the lamination process described above, wherein on one side, a layer containing a patternless area is laminated between the layer containing the first pattern and the layer containing the second pattern.
[0064] (26) (25) The manufacturing method described above, A manufacturing method in which, in the lamination process described above, a layer containing the unpatterned area, which is the same size as the unpatterned area, is laminated as the layer containing the unpatterned area. [Explanation of symbols]
[0065] 10 Base material layer 10A one side 10B Other side 20 Surface layer 21 Hologram layer 22, 24, 27 Coating layer 23. Second design 23A,23Aa Character information 23B Low concentration area 23Ab Text information 25. Second pattern layer 26 Unpatterned layer 26A Sheet 26B,32A area 28. First design 29. First pattern layer 30 foil layer 31,43 Protective layer 32. Third pattern layer 32S surface 40 Back layer 41. Identification Information Layer 42 Game Information Layer 50 Main body 61 Third design 65 Game Information 66 Background Images 67 Identification Information 100 card-type toys
Claims
1. It is a printed material, It has a main body made up of multiple layers, The main body includes a first pattern and a second pattern, The first pattern and the second pattern are formed in different layers. A printed material in which the second pattern has a lower ink density in the area that overlaps with the first pattern.
2. A printed material according to claim 1, The main body of the printed material includes a layer in which a plain area is formed between the layer containing the first pattern and the layer containing the second pattern.
3. A printed material according to claim 2, The main body includes a layer in which the plain area is formed, adjacent to the layer containing the first pattern and the layer containing the second pattern, in a printed material.
4. A printed material according to claim 2, The main body is configured such that the layer in which the unpatterned area is formed is thicker than the layer containing the first pattern or the layer containing the second pattern.
5. A printed material according to claim 2, A printed material in which the longitudinal and transverse lengths of the layer in which the plain region is formed are the same as the longitudinal and transverse lengths of the layer in which the first pattern is contained.
6. A printed matter according to any one of claims 2 to 5, A printed material in which the outline surrounding the plain area is configured to have the same shape as the outline of the first pattern.
7. A printed material according to claim 1, A printed material in which the first pattern is formed to overlap the central part of the second pattern when the layer containing the first pattern and the layer containing the second pattern are stacked.
8. A printed material according to claim 1, The main body includes a base material layer, A printed material in which the substrate layer is configured to be closer to the layer containing the second pattern than to the layer containing the first pattern.
9. A printed material according to claim 1, It includes a surface layer and a back layer, A printed material in which the surface layer and the back layer are each composed of multiple layers.
10. A printed material according to claim 9, A printed material in which the layer containing the first pattern and the layer containing the second pattern are included in the surface layer.
11. A printed material according to claim 9, A printed material wherein the surface layer has more layers than the back layer.
12. A printed material according to claim 9, A printed material in which the layer containing the first pattern is configured to be closer to the topmost layer of the surface layers than the layer containing the second pattern.
13. A printed material according to claim 9, The main body includes a third pattern, The third image is a printed material composed of line drawings.
14. A printed material according to claim 13, A printed material in which the layer containing the third image is configured as the uppermost layer among the surface layers.
15. A printed material according to claim 9, The main body includes a layer on which game information is formed, The layer on which the game information is formed is a printed material included in the back layer.
16. A printed material according to claim 15, The layer on which the game information is formed is configured to be invisible from the surface layer side, and is a printed material.
17. A printed material according to claim 9, The main body includes identification information, The aforementioned identification information is contained in the printed material on the reverse side.
18. A printed material according to claim 17, The aforementioned identification information is configured to be invisible from the surface layer side in the printed material.
19. A printed material according to claim 17, The main body contains a plurality of the identification information in a spaced-out manner in a printed document.
20. A printed material according to claim 1, The main body includes a foil layer, A printed material wherein the foil layer is configured adjacent to the layer containing the first pattern.
21. A printed material according to claim 1, The main body is a printed material that is configured in the shape of a card.
22. A method for manufacturing printed materials, The process includes a lamination step of laminating multiple layers on one side and the other side of a base layer. A method for manufacturing printed materials, wherein in the lamination process, layers are laminated such that the number of layers on the other side is less than the number of layers on the other side.
23. A manufacturing method according to claim 22, A manufacturing method in which, in the lamination process, a layer containing a first pattern and a layer containing a second pattern are laminated on one surface without being adjacent to each other.
24. A manufacturing method according to claim 23, A manufacturing method comprising the lamination process, wherein on one surface, a layer containing a patternless area is laminated between the layer containing the first pattern and the layer containing the second pattern.
25. A manufacturing method according to claim 24, A manufacturing method comprising the lamination step of laminating a layer containing the unpatterned region having the same contour as the contour of the first pattern, as the layer containing the unpatterned region.