Three-dimensional structure of a collection paper card and a three-dimensional collection mechanism

By designing a flip-top and pull-out 3D display structure in the collection album, the problem of 3D display was solved, enabling multi-angle 3D display of cards and saving space, thus improving the user experience.

CN224492202UActive Publication Date: 2026-07-14HUIZHOU JINGYI PRINTING CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
HUIZHOU JINGYI PRINTING CO LTD
Filing Date
2025-03-24
Publication Date
2026-07-14

AI Technical Summary

Technical Problem

Existing collection albums cannot meet the needs of three-dimensional display, especially for multi-angle three-dimensional display of cards with embossed textures and hollowed-out structures, and they take up a lot of space, affecting the convenience of carrying and storing them.

Method used

Design a three-dimensional structure for collecting paper cards, including a flip-top body and a pull-out three-dimensional assembly, setting up first and second three-dimensional display areas, and connecting the card placement pieces through pull-out pieces to achieve multi-angle three-dimensional display of cards, while reducing the overall area of ​​the collection album.

Benefits of technology

It achieves multi-angle three-dimensional display of embossed textures and hollowed-out structure cards, enhancing the sense of layering and reducing the size of the collection album, making it easy to carry and store.

✦ Generated by Eureka AI based on patent content.

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Abstract

The present disclosure provides a three-dimensional structure of a collection paper card and a three-dimensional collection mechanism, the three-dimensional structure of the collection paper card comprising a flip cover body and a pull-out three-dimensional group piece, wherein the pull-out three-dimensional group piece comprises a pull-out piece, a three-dimensional display block and a plurality of card paper placing pieces, the flip cover body is rotationally connected to the three-dimensional display block, the three-dimensional display block is provided with a pull-out cavity, the pull-out piece is arranged in the pull-out cavity, the end surface of the three-dimensional display block is provided with a first three-dimensional display area and a second three-dimensional display area, the pull-out cavity is respectively connected to the first three-dimensional display area and the second three-dimensional display area, the plurality of card paper placing pieces are arranged in the first three-dimensional display area and connected to the pull-out piece, and the plurality of card paper placing pieces are arranged in the second three-dimensional display area and connected to the pull-out piece; the card collection presents a three-dimensional display effect by operating the pull-out piece, the three-dimensional visual effect of the collection can be presented from multiple angles, and the level of the card collection is strengthened.
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Description

TECHNICAL FIELD

[0001] The present disclosure relates to the technical field of product packaging, in particular to a three-dimensional structure of a collection paper card and a three-dimensional collection mechanism. BACKGROUND

[0002] In recent years, with the rise of the collection culture boom, the types and quantities of paper collectibles such as cards and stamps have increased explosively, and thus the demand for collection tools by users has become increasingly urgent. In response, many businesses have introduced a collection album that facilitates collection.

[0003] For example, Chinese patent document CN217892326U discloses a collection album for anime cards, which includes an outer packaging album body including a foldable album surface and an album bottom, a plurality of card packs that can package a plurality of cards, and a clasp that can fix or release the card packs to connect or separate the card packs from the outer packaging album body.

[0004] However, the above-mentioned collection album for anime cards can package all the cards in the card packs. However, since all the cards are packaged in the card packs, the user needs to flip through different card packs when browsing the cards. However, some collection cards need to be displayed in three dimensions to reflect the design essence of the collection cards due to special pattern designs. The above-mentioned collection album cannot meet the demand for three-dimensional display, and thus for special process cards with embossed textures, holographic layers, and hollow structures, only one-way planar observation through the card packs cannot present a three-dimensional visual effect from multiple angles, resulting in the weakening of the level of the collection cards. At the same time, using multiple card packs to place the collection cards occupies a large space, increases the overall volume of the collection album, and makes it inconvenient to carry and store, affecting the user experience. CONTENT OF THE UTILITY MODEL

[0005] The purpose of the present disclosure is to overcome the deficiencies in the prior art and provide a three-dimensional structure of a collection paper card and a three-dimensional collection mechanism that can display the collection from multiple angles and save space in the collection album.

[0006] The purpose of the present disclosure is achieved by the following technical solutions:

[0007] A three-dimensional structure for collecting paper cards includes a flip-top and a pull-out three-dimensional assembly. The pull-out three-dimensional assembly includes a pull-out piece, a three-dimensional display block, and several cardboard placement pieces. The flip-top is rotatably connected to the three-dimensional display block. The three-dimensional display block has a pull-out cavity. The pull-out piece is disposed in the pull-out cavity. The end face of the three-dimensional display block has a first three-dimensional display area and a second three-dimensional display area. The pull-out cavity is connected to the first three-dimensional display area and the second three-dimensional display area, respectively. Several cardboard placement pieces are disposed in the first three-dimensional display area and connected to the pull-out piece. Several cardboard placement pieces are disposed in the second three-dimensional display area and connected to the pull-out piece.

[0008] When the pull tab moves away from the 3D display block, the plurality of cardboard placement pieces move away from the first 3D display area and the second 3D display area; when the pull tab moves closer to the 3D display block, the plurality of cardboard placement pieces move closer to the first 3D display area and the second 3D display area.

[0009] In one embodiment, the first 3D display area and the second 3D display area are arranged adjacent to each other, and the areas of the first 3D display area and the second 3D display area are equal.

[0010] In one embodiment, the 3D display block includes a storage layer and a protective layer, the first 3D display area and the second 3D display area are located on the storage layer, the protective layer is away from the cardboard placement piece, and the pull-out cavity is enclosed by the storage layer and the protective layer.

[0011] In one embodiment, each of the cardboard placement pieces has a receiving cavity for holding cardboard collectibles.

[0012] In one embodiment, the side of each of the cardboard placement pieces is connected to the side of another cardboard placement piece, and the sides of the pull-out pieces are collectively connected to one of the cardboard placement pieces in the first three-dimensional display area and one of the cardboard placement pieces in the second three-dimensional display area.

[0013] In one embodiment, the storage layer is provided with an adsorption edge, the magnetic edge is provided on the side away from the flip cover, the flip cover is provided with a magnetic edge, the magnetic edge is provided on the side away from the first three-dimensional display area, and the magnetic edge and the magnetic edge have mutual magnetic attraction.

[0014] In one embodiment, the rotation angle range of the plurality of card placement pieces located in the first stereoscopic display area and the second stereoscopic display area is 0° to 180°.

[0015] In one embodiment, both the flip cover and the three-dimensional display block are provided with a moisture-proof layer.

[0016] A three-dimensional collectible mechanism includes the three-dimensional structure of the collectible paper cards described in any of the above embodiments.

[0017] Compared with the prior art, this disclosure has at least the following advantages:

[0018] The cover is rotatably connected to the 3D display block, allowing it to close securely. Simultaneously, a first and second 3D display area are located on the end face of the 3D display block. Multiple card holders are placed in these areas. The 3D display block also features a pull-out cavity connected to both the first and second 3D display areas. The pull-out piece connects to the card holders in these areas via the cavity, causing them to swing when pulled. This creates a 3D effect. When collectible cards are placed in the card holders within the first and second 3D display areas, the pull-out piece allows for a 3D display. For collectible cards with embossed textures and openwork structures, this multi-angle display enhances the visual appeal and depth of the collectible card bottle. Meanwhile, by dividing the first and second three-dimensional display areas and overlapping them with multiple cardboard placement pieces, the overall area of ​​the collection album is reduced, making it easier to carry and store. Attached Figure Description

[0019] To more clearly illustrate the technical solutions of the embodiments of this disclosure, the accompanying drawings used in the embodiments will be briefly described below. It should be understood that the following drawings only show some embodiments of this disclosure and should not be regarded as a limitation of the scope. For those skilled in the art, other related drawings can be obtained based on these drawings without creative effort.

[0020] Figure 1 This is a schematic diagram of the three-dimensional structure of a collectible paper card according to an embodiment of the present disclosure;

[0021] Figure 2This is another schematic diagram of the three-dimensional structure of a collectible paper card according to an embodiment of the present disclosure; reference numerals: 10, three-dimensional structure of the collectible paper card; 100, flip-top body; 110, magnetic edge; 200, pull-out three-dimensional assembly; 210, pull-out piece; 220, three-dimensional display block; 2210, pull-out cavity; 2220, first three-dimensional display area; 2230, second three-dimensional display area; 2240, storage layer; 2241, suction edge; 2250, protective layer; 230, card placement piece. Detailed Implementation

[0022] To facilitate understanding of this disclosure, a more complete description will be given below with reference to the accompanying drawings, which illustrate preferred embodiments of the present disclosure. However, this disclosure can be implemented in many different forms and is not limited to the embodiments described herein. Rather, these embodiments are provided to provide a more thorough and complete understanding of the disclosure.

[0023] It should be noted that when an element is referred to as being "fixed to" another element, it can be directly attached to the other element or there may be an intervening element. When an element is referred to as being "connected to" another element, it can be directly connected to the other element or there may be an intervening element. The terms "vertical," "horizontal," "left," "right," and similar expressions used herein are for illustrative purposes only and do not represent the only possible implementation.

[0024] Unless otherwise defined, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this disclosure belongs. The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of this disclosure. The term "and / or" as used herein includes any and all combinations of one or more of the associated listed items.

[0025] To better understand the technical solutions and beneficial effects of this disclosure, the following detailed description is provided in conjunction with specific embodiments:

[0026] like Figures 1 to 2As shown, a three-dimensional structure 10 for collecting paper cards in one embodiment includes a flip-top body 100 and a pull-out three-dimensional assembly 200. The pull-out three-dimensional assembly 200 includes a pull-out piece 210, a three-dimensional display block 220, and several cardboard placement pieces 230. The flip-top body 100 is rotatably connected to the three-dimensional display block 220. The three-dimensional display block 220 has a pull-out cavity 2210, and the pull-out piece 210 is disposed in the pull-out cavity 2210. The end face of the three-dimensional display block 220 is provided with a first three-dimensional display area 2220 and a second three-dimensional display area 2230. The pull-out cavity 2210 is connected to the first three-dimensional display area 2220 and the second three-dimensional display area 2230, respectively. The multiple cardboard placement pieces 230 are connected to each other. The multiple cardboard placement pieces 230 are disposed in the first three-dimensional display area 2220 and connected to the pull tab 210. The multiple cardboard placement pieces 230 are disposed in the second three-dimensional display area 2230 and connected to the pull tab 210. When the pull tab 210 is away from the three-dimensional display block 220, the multiple cardboard placement pieces 230 are away from the first three-dimensional display area 2220 and the second three-dimensional display area 2230. When the pull tab 210 is close to the three-dimensional display block 220, the multiple cardboard placement pieces 230 are close to the first three-dimensional display area 2220 and the second three-dimensional display area 2230.

[0027] In this embodiment, the cover is rotatably connected to the 3D display block 220, allowing the cover to be rotated and closed onto the 3D display block 220. Simultaneously, a first 3D display area 2220 and a second 3D display area 2230 are provided on the end face of the 3D display block 220. Multiple cardboard placement pieces 230 are placed in the first 3D display area 2220 and the second 3D display area 2230. The 3D display block 220 also has a pull-out cavity 2210. Furthermore, because the pull-out cavity 2210 is connected to the first 3D display area 2220 and the second 3D display area... The slide 210 is connected to the card placement piece 230 in the first three-dimensional display area 2220 and the second three-dimensional display area 2230 via the slide cavity 2210. When the slide 210 is pulled, the card placement piece 230 in the first three-dimensional display area 2220 and the second three-dimensional display area 2230 will swing within these areas, creating a three-dimensional effect. When card collectibles are placed on the card placement piece 230 in the first three-dimensional display area 2220 and the second three-dimensional display area 2230, the slide 210 can be operated to create a three-dimensional display effect. For craft card collectibles with embossed textures and hollowed-out structures, this allows for a multi-angle presentation of the collectibles' three-dimensional visual effect, enhancing the sense of depth in the card collectible bottle. Meanwhile, by dividing the first three-dimensional display area 2220 and the second three-dimensional display area 2230, and by overlapping the first three-dimensional display area 2220 and the second three-dimensional display area 2230 with multiple card placement pieces 230, the overall area of ​​the collection album is reduced, making the collection album more convenient to carry and store.

[0028] like Figure 1 As shown, in one embodiment, the first stereoscopic display area 2220 and the second stereoscopic display area 2230 are arranged adjacent to each other, and the areas of the first stereoscopic display area 2220 and the second stereoscopic display area 2230 are equal. It is understood that in this embodiment, by arranging the first three-dimensional display area 2220 and the second three-dimensional display area 2230 adjacently, the area of ​​the three-dimensional display block 220 is reduced, while the changes of the card placement pieces 230 in the first three-dimensional display area 2220 and the second three-dimensional display area 2230 can be observed better. Furthermore, by limiting the areas of the first three-dimensional display area 2220 and the second three-dimensional display area 2230 to be equal, when the pull tab 210 drives the card placement pieces 230 of the first three-dimensional display area 2220 and the second three-dimensional display area 2230 to swing, because the areas of the first three-dimensional display area 2220 and the second three-dimensional display area 2230 are equal, the changes of the card collections in the card placement pieces 230 of the first three-dimensional display area 2220 and the second three-dimensional display area 2230 can be observed more evenly from a visual perspective.

[0029] Combination Figure 1 and Figure 2 As shown, the 3D display block 220 further includes a storage layer 2240 and a protective layer 2250. The first 3D display area 2220 and the second 3D display area 2230 are located on the storage layer 2240, and the protective layer 2250 is located away from the cardboard placement piece 230. The pull-out cavity 2210 is enclosed by the storage layer 2240 and the protective layer 2250. It can be understood that in this embodiment, the first 3D display area 2220 and the second 3D display area 2230 are disposed on the storage layer 2240. The storage layer 2240 is used to support and display the cardboard placement piece 230 and the card collectibles within it, ensuring the stable display and easy viewing of the card collectibles. Meanwhile, the protective layer 2250 is located on the opposite side of the storage layer 2240, that is, the side away from the cardboard holder 230. This further protects the cardboard holder 230 and the collectibles from external environmental damage, such as dust and minor impacts, thus extending the lifespan of the collectibles. Simultaneously, the pull-out cavity 2210, enclosed by the storage layer 2240 and the protective layer 2250, not only provides more space for the smooth sliding of the pull-out piece 210 but also ensures the stability and reliability of the pull-out action, preventing displacement or damage to the cardboard holder 230 due to structural loosening. Furthermore, the sealing of the pull-out cavity 2210 is improved, helping to maintain the relative stability of the internal structure.

[0030] like Figure 1 As shown, in one embodiment, each of the cardboard placement pieces 230 has a receiving cavity for holding cardboard collectibles. It is understood that by providing a receiving cavity in each cardboard placement piece 230 for holding cardboard collectibles, the receiving cavity is designed to fit the shape and size of the cardboard collectibles to ensure that the collectibles can be securely and properly placed within the receiving cavity. Furthermore, the inner surface of the receiving cavity is treated to be smooth or slightly textured to reduce wear and tear on the cardboard collectibles.

[0031] Combination Figure 1 and Figure 2As shown, in one embodiment, the side of each of the cardboard placement pieces 230 is connected to the side of another cardboard placement piece 230, and the side of the pull-out piece 210 is connected to one of the cardboard placement pieces 230 in the first three-dimensional display area 2220 and one of the cardboard placement pieces 230 in the second three-dimensional display area 2230. In this embodiment, the side of each cardboard placement piece 230 is connected to the side of another cardboard placement piece 230. Simultaneously, the side of the pull tab 210 is connected to one cardboard placement piece 230 in the first 3D display area 2230 and one cardboard placement piece 230 in the second 3D display area 2230. When the pull tab 210 is operated, because one cardboard placement piece 230 is connected to another, the cardboard placement pieces 230 connected to the pull tab 210 in the first 3D display area 2220 and the second 3D display area 2230 swing, causing the other cardboard placement pieces 230 to swing as well. This achieves the effect of multiple cardboard placement pieces 230 being displayed in 3D in the first 3D display area 2220 or the second 3D display area 2230 when the pull tab 210 is operated.

[0032] Combination Figure 1 and Figure 2 As shown, in one embodiment, the storage layer 2240 is provided with an adsorption edge 2241, which is located on the side away from the flip cover 100. The flip cover 100 is provided with a magnetic edge 110, which is located on the side away from the first three-dimensional display area 2230. The adsorption edge 2241 and the magnetic edge 110 have mutual magnetic attraction. It is understandable that by providing an adsorption edge 2241 in the storage layer 2240 and a magnetic edge 110 in the flip cover 100, with the adsorption edge 2241 and the magnetic edge 110 being arranged opposite each other, when the flip cover 100 rotates to close the three-dimensional display block 220, the magnetic edge 110 will approach the adsorption edge 2241, and the magnetic edge 110 has a magnetic attraction, so that the flip cover 100 can be firmly attached to the three-dimensional display block 220, thereby making the flip cover 100 completely attached to the three-dimensional display block 220, effectively preventing dust from entering. At the same time, the magnetic design also facilitates the opening and closing operation of the flip cover 100, improving the convenience of use and the security of collectibles.

[0033] like Figure 1As shown, in one embodiment, the rotation angle range of several card placement pieces located in the first stereoscopic display area 2220 and the second stereoscopic display area 2230 is 0° to 180°. It can be understood that setting the rotation angle of the card placement pieces to 0° to 180° ensures that the card placement pieces located in the first stereoscopic display area 2220 and the second stereoscopic display area 2230 can rotate to a certain preset angle range on their horizontal end faces. This preset angle range is 0° to 180°, thereby limiting the rotation angle range to not exceed the maximum range relative to the horizontal end face.

[0034] Combination Figure 1 As shown, in one embodiment, both the flip cover 100 and the three-dimensional display block 220 are provided with a moisture-proof layer. In this embodiment, the moisture-proof layer uses a highly efficient moisture-absorbing material to effectively isolate external moisture and ensure that the cardboard collectibles are not damaged by moisture. The moisture-proof layers of the flip cover 100 and the three-dimensional display block 220 are tightly bonded together, forming double protection, further improving the preservation environment of the collectibles and extending their service life.

[0035] This application also provides a three-dimensional collectible mechanism, including the three-dimensional structure 10 of the collectible card described in any of the above embodiments. It is understood that by placing the card collectibles on the card placement piece 230 located in the first three-dimensional display area 2220 and the second three-dimensional display area 2230, the card collectibles can be displayed in a three-dimensional manner by operating the pull tab 210. For craft card collectibles with embossed textures and hollowed-out structures, the three-dimensional visual effect of the collectibles can be presented from multiple angles, enhancing the sense of depth in the card collectible bottle.

[0036] Compared with the prior art, this disclosure has at least the following advantages:

[0037] The cover is rotatably connected to the 3D display block 220, allowing it to close onto the 3D display block 220. Simultaneously, a first 3D display area 2220 and a second 3D display area 2230 are provided on the end face of the 3D display block 220. Multiple cardboard placement pieces 230 are placed in the first 3D display area 2220 and the second 3D display area 2230. The 3D display block 220 also has a pull-out cavity 2210. Furthermore, because the pull-out cavity 2210 is connected to the first 3D display area 2220 and the second 3D display area 2230… The three sections are connected, and the pull tab 210 is connected to the card placement piece 230 in the first three-dimensional display area 2220 and the second three-dimensional display area 2230 through the pull-out cavity 2210. When the pull tab 210 is pulled, the card placement piece 230 in the first three-dimensional display area 2220 and the second three-dimensional display area 2230 will swing in the first three-dimensional display area 2220 and the second three-dimensional display area 2230, thereby making the card placement piece 230 present a three-dimensional effect in the first three-dimensional display area 2220 and the second three-dimensional display area 2230. When the card collectibles are placed in the card placement piece 230 in the first three-dimensional display area 2220 and the second three-dimensional display area 2230, the card collectibles can be displayed in three-dimensional form by operating the pull tab 210. For craft card collectibles with embossed textures and hollow structures, the three-dimensional visual effect of the collectibles can be presented from multiple angles, enhancing the sense of layering of the card collectible bottle. Meanwhile, by dividing the first three-dimensional display area 2220 and the second three-dimensional display area 2230, and by overlapping the first three-dimensional display area 2220 and the second three-dimensional display area 2230 with multiple card placement pieces 230, the overall area of ​​the collection album is reduced, making the collection album more convenient to carry and store.

[0038] The embodiments described above are merely illustrative of several implementations of this disclosure, and while the descriptions are specific and detailed, they should not be construed as limiting the scope of the utility model patent. It should be noted that those skilled in the art can make various modifications and improvements without departing from the concept of this disclosure, and these all fall within the protection scope of this disclosure. Therefore, the protection scope of this patent should be determined by the appended claims.

Claims

1. A three-dimensional structure for collecting paper cards, characterized in that, The device includes a flip-top body and a pull-out 3D assembly. The pull-out 3D assembly includes a pull-out tab, a 3D display block, and several cardboard placement tabs. The flip-top body is rotatably connected to the 3D display block. The 3D display block has a pull-out cavity. The pull-out tab is disposed in the pull-out cavity. The end face of the 3D display block has a first 3D display area and a second 3D display area. The pull-out cavity is connected to the first 3D display area and the second 3D display area, respectively. Several cardboard placement tabs are disposed in the first 3D display area and connected to the pull-out tab. Several cardboard placement tabs are disposed in the second 3D display area and connected to the pull-out tab. When the pull tab moves away from the 3D display block, the plurality of cardboard placement pieces move away from the first 3D display area and the second 3D display area; when the pull tab moves closer to the 3D display block, the plurality of cardboard placement pieces move closer to the first 3D display area and the second 3D display area.

2. The three-dimensional structure of the collectible paper card according to claim 1, characterized in that, The first 3D display area and the second 3D display area are located adjacent to each other, and the areas of the first 3D display area and the second 3D display area are equal.

3. The three-dimensional structure of the collectible paper card according to claim 2, characterized in that, The three-dimensional display block includes a storage layer and a protective layer. The first three-dimensional display area and the second three-dimensional display area are located on the storage layer. The protective layer is away from the cardboard placement piece. The pull-out cavity is formed by the storage layer and the protective layer.

4. The three-dimensional structure of the collectible paper card according to claim 1, characterized in that, Each of the aforementioned cardboard placement pieces has a receiving cavity for holding cardboard collectibles.

5. The three-dimensional structure of the collectible paper card according to claim 1, characterized in that, Each of the cardboard placement pieces has its side connected to the side of another cardboard placement piece, and the sides of the pull-out pieces are collectively connected to one of the cardboard placement pieces in the first three-dimensional display area and one of the cardboard placement pieces in the second three-dimensional display area.

6. The three-dimensional structure of the collectible paper card according to claim 3, characterized in that, The storage layer is provided with an adsorption edge, which is located on the side away from the flip cover. The flip cover is provided with a magnetic edge, which is located on the side away from the first three-dimensional display area. The magnetic edge and the magnetic edge have mutual magnetic attraction.

7. The three-dimensional structure of the collectible paper card according to claim 1, characterized in that, The rotation angle range of the plurality of cardboard placement pieces located in the first three-dimensional display area and the second three-dimensional display area is 0° to 180°.

8. The three-dimensional structure of the collectible paper card according to claim 1, characterized in that, Both the flip cover and the three-dimensional display block are equipped with a moisture-proof layer.

9. A three-dimensional collectible institution, characterized in that, The three-dimensional structure of the collectible paper card as described in any one of claims 1 to 8.