WO2014050185A1 - Decorative display body - Google Patents

Description

Decorative display

The present invention relates to a decorative display body applied to decoration of various products such as photo frames, outer panels of game machines and game machines, packaging boxes, advertising bodies, ornaments, display devices, stationery, souvenirs, and teaching materials. is there.

Conventionally, various kinds of enlarged virtual images of patterns have been used as decorations for various products such as photo frames, outer panels of game machines and game machines, packaging boxes, advertising bodies, ornaments, display devices, stationery, souvenirs, structures, and teaching materials. It is known to apply a decorative display body that appears upward or downward from the surface of a product, and is disclosed in, for example, Patent Documents 1 to 5 listed below.

These decorative display bodies are arranged by two-dimensionally arranging a plurality of convex lens-shaped light condensing elements on a surface of a plate-like transparent material at a predetermined arrangement pitch with the direction of each light condensing element being arranged. An arrangement pitch that is different from the arrangement pitch of each light condensing element by forming a plurality of colored pixels on the back surface of the transparent material and having the same directionality as the light condensing element pattern of each pixel. The pixel pattern is formed in a two-dimensional arrangement, and the light condensing element pattern and the pixel pattern are formed so that the arrangement pitch of each light condensing element and each pixel is different. An enlarged virtual image appears.

Recently, a transparent plate-like first material having a light condensing element pattern formed on the surface and a sheet-like second material formed separately from the first material and having a pixel pattern formed on the surface. There is known a decorative display body that displays an enlarged virtual image of a pixel by overlapping the first material and the second material in the thickness direction (for example, FIG. 9 of Patent Document 2). ). According to this, only the light condensing element pattern can be formed on the surface of the first material, and the pixel pattern can be formed on the surface of the separate second material together with the formation of the light condensing element pattern. For this reason, the time required to form the light condensing element pattern and the pixel pattern can be greatly shortened, so that the manufacturing cost of the decorative display body can be greatly reduced. In addition, since the first material and the second material can be sold in a separate state, the general consumer can superimpose the first material and the second material to cause the enlarged virtual image of the pixel to appear on its own. It is possible to improve the taste of the decorative display body.

Japanese Patent No. 49007049 Japanese Patent No. 3488179 JP 2008-012870 A JP 2003-226100 A JP 2003-226099 A

However, the decorative display body in which the first material and the second material are separated from each other needs to match both arrangement directions of the light condensing element pattern and the pixel pattern, but this operation is very delicate. It is not easy to superimpose the first material and the second material while aligning the arrangement directions of the light condensing element pattern and the pixel pattern. In particular, since many general consumers have little experience in the work, it is very difficult to match the arrangement directions of the light condensing element pattern and the pixel pattern. There is a problem that the arrangement directions of the patterns are shifted (see FIG. 6), and the enlarged virtual image of the pixel cannot be surely displayed. In FIG. 6, broken arrows X and Y indicate the arrangement direction of the light condensing elements 211 a in the condensing element pattern 211, and solid arrows x and y indicate the arrangement direction of the pixels 221 a in the pixel pattern 221. .

The present invention has been made in view of the above problems, and the first material having the light condensing element pattern formed on the surface and the second material having the pixel pattern formed on the surface are separated. An object of the present invention is to provide a decorative display body that can easily and surely display an enlarged virtual image of a pixel in the provided decorative display body.

In order to achieve the above object, the decorative display body according to the present invention has a plurality of convex lens-shaped light condensing elements arranged in a two-dimensional manner at a predetermined array pitch with the directionality of each light condensing element. A transparent plate-like or sheet-like first material having a light condensing element pattern formed on the front or back surface and a plurality of colored pixels having the same directionality as the light condensing element pattern of each pixel A sheet-like or plate-like second material having an image pattern that is two-dimensionally arranged at an arrangement pitch different from the arrangement pitch of each light condensing element is provided. And this decoration display body is provided with a plurality of first alignment sections on the first material, and a plurality of second alignment sections corresponding to the first alignment sections on the second material. The first material and the second material are overlapped in the thickness direction in such a manner that the positions of the first alignment unit and the second alignment unit corresponding to the first alignment unit coincide with each other. Thus, the arrangement directions of the light condensing element pattern of the first material and the pixel pattern of the second material coincide with each other.

According to this, when the first material and the second material are overlapped, the light condensing element pattern and the pixel can be simply obtained by matching the positions of the plurality of first alignment units and the plurality of second alignment units. Since both the arrangement directions of the patterns can be made coincident with each other, an enlarged virtual image of the pixel can be easily and reliably displayed.

The plurality of first alignment portions are a first hole group including a plurality of holes formed in the first material, and the plurality of second alignment portions are formed on the second material. 2nd hole group which consists of a plurality of holes drilled so as to correspond to 1 hole group, and each hole of the 1st hole group and the 2nd hole group corresponding to the 1st hole group It is preferable that the first material and the second material are overlapped in the thickness direction in such a manner that the positions of the two match. According to this, the first material and the second material are overlapped while easily visually confirming whether each hole of the first hole group is coincident with each hole of the second hole group. be able to.

Also, it is preferable that the plurality of first alignment portions and the plurality of second alignment portions are provided separately in at least two corners of the first material and the second material. According to this, since the distance in the planar direction of each hole in the first hole group and the second hole group becomes long, it becomes easy to match both arrangement directions of the light condensing element pattern and the pixel pattern.

Further, when the first material and the second material are overlapped in the thickness direction in such a manner that the positions of the holes of the first hole group and the second hole group corresponding to the first hole group coincide with each other. In addition, the first material and the second material are mutually connected by being inserted into a communication hole formed by each hole of the first hole group and the second hole group corresponding to the first hole group. It is preferable that a fixing member for fixing is provided. According to this, the fixing member is inserted into the communication hole formed by each hole of the first hole group and each hole of the second hole group, so that the planar direction of the first material and the second material is determined. Therefore, a state in which the arrangement directions of the light condensing element pattern and the pixel pattern coincide with each other is maintained, and an enlarged virtual image of the pixel can be stably displayed.

In addition, the fixing member includes a rod-like body portion that is inserted into a communication hole formed by each hole of the first hole group and the second hole group corresponding to the first hole group, Removably attachable to the other end of the body of the fixing male member formed of a head formed with a diameter larger than the holes of the first hole group at one end, and the fixing male member inserted through the communication hole. It is preferable to have the female member for fixation engaged. According to this, the first material and the second material are fixed in the thickness direction of the first material and the second material by fixing the first material and the second material in such a manner that the head of the fixing male member and the fixing female member are sandwiched. Since the displacement is prevented, the enlarged virtual image of the pixel can be made to appear more stably.

In addition, a third material may be provided on the opposite side of the second material to the first material, and a display body such as a photograph may be interposed between the second material and the third material. According to this, it is possible to display a display body such as a photograph in a visible state without affecting the focal length of the light condensing element pattern of the first material and the pixel pattern of the second material.

According to the present invention, when the first material and the second material are overlapped, the condensing element pattern can be obtained simply by matching the positions of the plurality of first alignment portions and the plurality of second alignment portions. Since both the arrangement directions of the pixel pattern can be made coincident with each other, an enlarged virtual image of the pixel can be easily and reliably displayed. For this reason, there is no need for experience in overlaying the first material and the second material, and the arrangement directions of the light condensing element pattern of the first material and the pixel pattern of the second material are the same. Therefore, anyone can easily assemble a decorative display body in which an enlarged virtual image of a pixel appears.

It is a perspective view of the decoration display body which concerns on this embodiment. It is a disassembled perspective view of the decoration display body of FIG. FIG. 2A is an enlarged cross-sectional view of the decorative display body of FIG. 1 and FIG. FIG. 4 is a sectional view taken along the line IV-IV of the decorative display body of FIG. 1 and an enlarged virtual image of a pixel. FIG. 5 is a cross-sectional view taken along the line VV of the decorative display body of FIG. 1 and an enlarged virtual image of a pixel. It is a front schematic diagram which shows the positional relationship of a condensing element and a pixel in case both arrangement directions of a condensing element and a pixel have shifted | deviated.

Next, an embodiment of a decorative display according to the present invention will be described with reference to FIGS.

The decoration display body 1 according to the present embodiment is applied to a photo frame that displays a photograph F at the center as shown in FIG. As shown in FIGS. 2 and 3, the decorative display body 1 includes a transparent plate-shaped condensing element plate (first material) 11 made of a synthetic resin such as an acrylic plate, and the condensing element plate 11. A sheet-like pixel sheet (second material) 12 arranged on the back surface side, a sheet-like support sheet 13 arranged on the back surface side of the pixel sheet 12, and a photograph F of the pixel sheet 12 and the support sheet 13 And a fixing member 14 for fixing the light condensing element plate 11, the pixel sheet 12, and the support sheet 13 while being interposed therebetween.

As shown in FIG. 1, the condensing element plate 11 is a plate-like member formed in a substantially rectangular shape with the left-right direction as the length direction, and a plurality of colorless and transparent inks are used on the periphery of the surface. The condensing element pattern 111 is formed by printing the convex lens-shaped condensing element 111a.

As shown in FIG. 3, the light condensing element pattern 111 is formed by arranging the light condensing elements 111a in a two-dimensional manner with the directivity of the light condensing elements 111a. The light condensing elements 111a are formed in a matrix in the same arrangement pitch p in the orthogonal y direction.

In this embodiment, the diameter of each light condensing element 111a is set to 0.9 mm, and the arrangement pitch p is set to 1.0 mm. The arrangement of the light condensing elements 111a is not necessarily an orthogonal pattern, and the other arrangement direction with respect to one arrangement direction may form an angle smaller than 90 degrees or an angle larger than 90 degrees.

Further, the light condensing element plate 11 is formed with a thickness d as shown in FIGS. The thickness d is set to a thickness at which an enlarged virtual image Z of a pixel 121a, which will be described later, appears by the light condensing element 111a of the light condensing element pattern 111 formed on the surface of the light condensing element plate 11. It is set appropriately depending on the size of the pixel 121a and the arrangement pitch. In the present embodiment, the thickness d of the light concentrating element 11 is set to 3.0 mm.

Further, as shown in FIG. 1, the condensing element plate 11 has a transparent window portion 113 formed at the center portion (inside portion other than the peripheral portion on the surface), and between the pixel sheet 12 and the support sheet 13. The arranged photograph F can be exposed from the window 113 to the surface side so as to be visible.

In addition, as shown in FIG. 2, the condensing element plate 11 is provided with circular holes 112a in a plan view in the vicinity of each corner as a first alignment portion, and these four holes 112a A first hole group 112 is formed. Each hole 112a of the first hole group 112 is formed so as to penetrate in the orthogonal direction of the light concentrating base plate 11, and the shape and size of each hole 112a are formed to be the same.

As shown in FIGS. 2 and 3, the pixel sheet 12 is arranged in such a manner that the front surface is in contact with the back surface of the light condensing element plate 11, and is formed in the same shape as the light condensing element plate 11. It is a member. This pixel sheet 12 forms a pixel pattern 121 by printing a plurality of pixels 121a using colored transparent or opaque ink at a position overlapping the light condensing element pattern 111 of the light condensing element plate 11 at the peripheral edge of the surface. Has been.

As shown in FIG. 3, the pixel pattern 121 is formed by two-dimensionally arranging a plurality of pixels 121a with the same directionality as the light condensing element pattern 111 of each pixel 121a. That is, the pixel pattern 121 is formed by equally arranging the pixels 121a in a matrix in one direction and in a direction orthogonal thereto, and the pixel pattern 121 is arranged by the fixing member 14 described later. The light condensing element plate 11 is fixed in a manner that coincides with the x and y directions. In the present embodiment, the diameter of the pixel 121a is set to 0.9 mm.

In the pixel pattern 121, the pixels 121a are arranged at an arrangement pitch q smaller than the arrangement pitch p of the light condensing elements 111a. In this embodiment, the arrangement pitch q of the pixels 121a is set to 0.95 mm. Thereby, when the light condensing element plate 11 and the pixel sheet 12 are overlapped in the thickness direction in a manner in which the arrangement directions of the light condensing element pattern 111 of the light condensing element plate 11 and the pixel pattern 121 of the pixel sheet 12 coincide with each other, x For each direction in the −y plane, there are a plurality of portions where the light condensing elements 111a and the pixels 121a completely overlap each other, and a portion where the surrounding pixels 121a are sequentially displaced inward from the light condensing elements 111a. Thus, when the arrangement pitch q of the pixels 121a is set to be smaller than the arrangement pitch p of the light condensing elements 111a, the enlarged virtual image Z is the back side of the pixel sheet 12 on which the pixel pattern 121 is formed (see FIG. 4). And on the left side in FIG.

In addition, the pixel sheet 12 has a transparent window portion 123 formed at the center (the inner portion other than the peripheral portion on the surface), and the photograph F arranged on the back surface side from the window portion 123 to the surface side (light collection). It can be exposed to the base plate 11 side so as to be visible.

In addition, as shown in FIG. 2, the pixel sheet 12 has circular holes 122a in the plan view in the vicinity of the respective corners as the second alignment portions, and the second holes 122a are used to form the second holes. A hole group 122 is formed. Each hole 122a of the second hole group 122 is formed so as to penetrate in the orthogonal direction of the pixel sheet 12, and is the same as each hole 112a of the first hole group 112 in the light condensing element plate 11. It is formed in the shape and size. In addition, each hole 122a of the second hole group 122 is formed at a position corresponding to the position of each hole 112a of the first hole group 112. As described later, the light condensing element plate 11 and the pixel sheet 12 are formed. When the positions of the holes 112a of the first hole group 112 coincide with each other, the arrangement directions of the light condensing element pattern 111 on the light condensing element plate 11 and the pixel pattern 121 on the pixel sheet 12 coincide with each other. Designed to.

As shown in FIGS. 1 and 2, the support sheet 13 is formed so that both front and back surfaces are flat, and is arranged with a photograph F interposed between the back surface of the pixel sheet 12, and the light collecting element plate 11. The pixel sheet 12 is formed in the same shape. According to this, the photograph F can be displayed in a visible state without affecting the focal length of the light condensing element pattern 111 of the light condensing element plate 11 and the pixel pattern 121 of the pixel sheet 12.

The support sheet 13 is provided with a third hole group 132 composed of four holes 132a formed so as to correspond to the holes 112a of the first hole group 112 and the holes 122a of the second hole group 122, respectively. It has been. Each hole 132a of the third hole group 132 is formed in a manner of penetrating in the orthogonal direction of the support sheet 13, and each hole 112a of the first hole group 112 and each hole 122a of the second hole group 122 It is formed with the same shape and size.

Thus, as shown in FIG. 2, the condensing element plate 11, the pixel sheet 12, and the support sheet 13 are arranged in the thickness direction so that the positions of the holes 112a, 122a, and 132a in the hole groups 112, 122, and 132 coincide with each other. Since the arrangement directions of the light condensing element pattern 111 and the pixel pattern 121 coincide with each other, the enlarged virtual image of the pixel can be easily and reliably displayed.

In the present embodiment, when the positions of the holes 112a, 122a, and 132a in the hole groups 112, 122, and 132 coincide with each other, the holes 112a, 122a, and 132a are continuous in the front-rear direction, so that the communication holes 15 (FIG. 2) (locations indicated by two-dot chain lines in FIG. 2) are formed. Therefore, the light condensing element plate 11, the pixel sheet 12, and the support sheet 13 are overlapped while visually confirming whether or not the holes 112a, 122a, 132 are coincident (the communication hole 15 is formed). Can do. In addition, when each hole 112a, 122a, 132 confirms a match, it does not necessarily need to be completely the same, and may correspond substantially.

As shown in FIG. 2, the fixing member 14 includes the light condensing element plate 11, the pixel sheet 12, and the support sheet 13 in such a manner that the positions of the holes 112a, 122a, and 132a in the hole groups 112, 122, and 132 are aligned. When overlapped, they are attached to the respective communication holes 15 formed by the respective holes 112a, 122a, 132a, and are each composed of a pair of a fixing male member 141 and a fixing female member 142.

The fixing male member 141 is formed with a rod-shaped body portion 141a inserted into the communication hole 15 and a diameter larger than the hole 112a of the first hole group 112 at one end (front side) end portion of the body portion 141a. The head portion 142b is formed. On the other hand, the fixing female member 142 is detachably fitted to the other side (rear side) end of the body 141a of the fixing male member 141 inserted through the communication hole 15.

In the fixing member 14, the body 141a of the fixing male member 141 is inserted into the communication holes 15 formed by the holes 112a, 122a, 132a of the hole groups 112, 122, 132, respectively. Thereby, since the shift | offset | difference in the plane direction of the condensing element | plate 11 and the pixel sheet | seat 12 is prevented, the state where both the arrangement | sequence directions of the condensing element pattern 111 and the pixel pattern 121 corresponded can be maintained. Further, the fixing female member 142 is fitted into the rear side end portion of the body 141a of the fixing male member 141 inserted through each communication hole 15, so that the head 141b of the fixing male member 141 and the fixing female are fixed. Since the light condensing element plate 11 and the pixel sheet 12 are fixed in such a manner that the member 142 is sandwiched, a shift in the thickness direction of the light condensing element plate 11 and the pixel sheet 12 can be prevented.

According to the decorative display body 1 configured as described above, each hole 112a in the first hole group 112 of the light condensing element plate 11 serving as a plurality of first alignment portions and a plurality of second alignments. Since the positions of the light condensing element pattern 111 and the pixel pattern 121 coincide with each other in the position of each hole 122a in the second hole group 122 of the pixel sheet 12 as a part, the light condensing element plate 11 and the pixel Since the alignment when the sheets 12 are overlapped in the thickness direction is performed constantly, the magnified virtual image Z of the pixel 121a in the decorative display body 1 in which the light condensing element plate 11 and the pixel sheet 12 are provided separately. Can appear easily and reliably.

Further, in the present embodiment, since the fixing member 14 is inserted into the communication hole 15, the light condensing element plate 11 and the pixel sheet 12 are prevented from being displaced in the plane direction. Thus, the state in which the two arrangement directions coincide with each other is maintained, and the enlarged virtual image Z of the pixel 121a can be stably displayed.

In addition, since the condensing element plate 11 and the pixel sheet 12 are fixed in such a manner that the head 141 a of the fixing male member 141 and the fixing female member 142 are sandwiched by the fixing member 14, Since displacement in the thickness direction is prevented, the enlarged virtual image Z of the pixel 121a can be more stably displayed.

In the above embodiment, the case where there are four holes 112a and 122a in the first hole group 112 and the second hole group 122 has been described. There may be. As described above, the plurality of holes 112a and 122a of the first hole group 112 and the second hole group 122 are two-dimensionally arranged in the two-dimensional direction of the light condensing element pattern 111 and the pixel pattern 121 (the x direction described above). This is for matching with the y direction). That is, when the holes 112a and 122a of the first hole group 112 and the second hole group 122 are one, the arrangement direction of the light condensing element pattern 111 and the pixel pattern 121 is the rotation direction around the holes 112a and 122a. Although the positions are shifted, if there are a plurality of holes 112a and 122a of the first hole group 112 and the second hole group 122, the positions of the light condensing element plate 11 and the pixel sheet 12 in the plane direction are determined. The arrangement direction of the light condensing element pattern 111 and the pixel pattern 121 can be two-dimensionally matched.

Further, although the holes 112a and 122a of the first hole group 112 and the second hole group 122 are provided in the vicinity of the corners of the light condensing element plate 11 and the pixel sheet 12, they may be provided in other places. However, the longer the distance in the plane direction of the plurality of holes 112a and 122a, the alignment directions of the light condensing element pattern 111 and the pixel pattern 121 can be made to coincide with each other with high accuracy, and thus the plurality of holes 112a, 122a may be provided separately in at least two corners of the light condensing element plate 11 and the pixel sheet 12.

Moreover, although the 1st alignment part is the 1st hole group 112 which consists of several holes 112a, and the 2nd alignment part was the 2nd hole group 122 which consists of several holes 122a, it demonstrated. In addition, a line, a symbol, or a figure may be used. In short, it is only necessary to provide a mark that can match the positions of the first alignment portion and the second alignment portion.

Further, although the case where the fixing member 14 is constituted by the fixing male member 141 and the fixing female member 142 has been described, only the fixing male member 141 may be used.

In addition, although the case where the light condensing element plate 11 and the pixel sheet 12 are fixed by inserting the fixing member 24 through the communication hole 15 has been described, other fixing members may be used.

Moreover, although the case where the thickness of the condensing element | baseplate 11 was set to 2.0 mm was demonstrated, it does not need to be 2.0 mm. The thickness d of the light concentrator plate 11 is appropriately set according to the size and arrangement pitch of the light concentrator 111a and the pixels 121a and 221a. For example, when the pixel diameter of the light condensing element 111a and the pixels 121a and 221a is 0.10 to 2.0 mm and the arrangement pitch is 0.11 to 2.2 mm, the thickness d is 0.10 to 20 mm, more preferably 0. It is preferably set to 40 to 10 mm.

Further, the case where the arrangement pitch p of the light condensing elements 111a is 1.0 mm, the arrangement pitch q of the pixels 121a is 0.95 mm, and the arrangement pitch q ′ of the pixels 221a is 1.05 mm has been described. It may be. However, in order to ensure that the enlarged virtual image of the pixel appears, the light collecting elements are arranged in a range of 0.30 to 2.0 mm and the through holes are arranged in a range of 0.20 to 2.2 mm. The difference in the arrangement pitch between the element and the through hole is preferably set within a range of about ± 20%.

Further, although the case where the arrangement pitch p of each light condensing element 111a and the arrangement pitch q of the pixels 121a are both constant has been described, the arrangement pitch may be changed in either case, or either one of the arrangement pitches may be changed. The pitch may be constant and the other arrangement pitch may be changed.

Further, although the case where the arrangement pitch q of the pixels 121a is smaller than the arrangement pitch p of the light condensing elements 111a has been described, the arrangement pitch q may be larger than the arrangement pitch p. In this case, the enlarged virtual image of the pixel can appear on the front side (right side in FIGS. 4 and 5) of the pixel sheet 12.

Further, although the case where the diameters of the light condensing element 111a and the pixel 121a are the same has been described, they may not be the same.

Moreover, although the case where the first material is formed in a plate shape (light condensing element plate 11) and the second material is formed in a sheet shape (pixel sheet 12) has been described, the first material is a sheet shape. The second material may be formed in a plate shape.

Further, the case where the light condensing element pattern 111 is formed on the peripheral edge portion of the light condensing element plate 11 and the pixel pattern 121 is formed on the peripheral edge portion of the pixel sheet 12 has been described, but the light condensing element plate 11 and the pixel sheet 12 are overlapped. As long as the light condensing element pattern 111 and the pixel pattern 121 overlap each other, the light condensing element pattern 111 and the pixel pattern 121 may be formed at arbitrary positions.

Further, although the case where the photograph F is interposed between the pixel sheet 12 and the support sheet 13 has been described, it may be interposed between the light condensing element plate 11 and the pixel sheet 12. However, in order to reveal an enlarged virtual image of the pixel 121a, the design values of the focal lengths of the light condensing element pattern 111 of the light condensing element 11 and the pixel pattern 121 of the pixel sheet 12 are important. If it is interposed between the pixel sheet 12 and the support sheet 13, it is preferable because the design value does not affect.

In addition, the case where the decorative display body 1 is applied to a photo frame has been described, but in addition, outer layer panels of game machines and game machines, packaging boxes, advertising bodies, ornaments, display devices, stationery, souvenirs, educational materials, etc. You may apply to various goods.

Further, the size and arrangement pitch of the light condensing elements 111a and the pixels 121a shown in the drawings are illustrated in an enlarged manner for convenience of explanation, and actually the light condensing elements 111a and the pixels 121a are very small. Are two-dimensionally arranged in large numbers. For example, in FIG. 3, since the pixel 121a is illustrated with a thickness, a gap is formed between the pixel sheet 12 and the condensing element plate 11, but the pixel 121a is actually very thin. The pixel sheet 12 and the condensing element plate 11 are in close contact with each other.

As mentioned above, although embodiment of this invention was described with reference to drawings, this invention is not limited to the thing of embodiment shown in figure. Various modifications and variations can be made to the illustrated embodiment within the same range or equivalent range as the present invention.

Claims (6)

A transparent plate shape in which a light condensing element pattern is formed on a front surface or a back surface by arranging a plurality of convex lens-shaped light condensing elements in a two-dimensional manner at a predetermined arrangement pitch with the direction of each light condensing element arranged. Or a sheet-like first material,
An image pattern formed by two-dimensionally arranging a plurality of colored pixels in the same direction as the light condensing element pattern of each pixel and two-dimensionally arranged at an arrangement pitch different from the arrangement pitch of the respective light condensing elements is the surface or A sheet-like or plate-like second material formed on the back surface,
A plurality of first alignment portions are provided on the first material, and a plurality of second alignment portions corresponding to the first alignment portions are provided on the second material, and the first material The first material and the second material are overlapped in the thickness direction so that the positions of the alignment unit and the second alignment unit corresponding to the first alignment unit coincide with each other. An ornamental display body, characterized in that both arrangement directions of the light condensing element pattern of the material and the pixel pattern of the second material coincide. The plurality of first alignment portions are a first hole group including a plurality of holes drilled in the first material, and the plurality of second alignment portions are the second material. A second hole group comprising a plurality of holes drilled to correspond to the first hole group, the first hole group and the second hole group corresponding to the first hole group. The decoration display body according to claim 1, wherein the first material and the second material are overlapped in the thickness direction so that the positions of the holes coincide with each other. The plurality of first alignment portions and the plurality of second alignment portions are provided separately in at least two corners of the first material and the second material. The decorative display body described in 1. When the first material and the second material are overlapped in the thickness direction in such a manner that the positions of the holes of the first hole group and the second hole group corresponding to the first hole group coincide with each other. In addition, the first material and the second material are mutually connected by being inserted into a communication hole formed by each hole of the first hole group and the second hole group corresponding to the first hole group. The decoration display body in any one of Claim 1 thru | or 3 with which the fixing member to fix is provided. The fixing member includes a rod-shaped body portion inserted into a communication hole formed by each hole of the first hole group and a second hole group corresponding to the first hole group, and one of the body portions A fixing male member composed of a head formed with a diameter larger than the holes of the first hole group at the end, and a detachable attachment to the other end of the trunk of the fixing male member inserted through the communication hole The decorative display body according to claim 4, further comprising a female member for fixing that can be engaged. 6. The third material is provided on the opposite side of the second material to the first material, and a display body such as a photograph is interposed between the second material and the third material. The decoration display body in any one of.

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