CN219590844U - Personalized certificate single card structure - Google Patents

Abstract

The utility model discloses a personalized certificate single-card structure which comprises an upper transparent protective layer, a certificate Shan Kaka body and a lower transparent protective layer, wherein the certificate Shan Kaka body sequentially comprises a front personalized information printing layer, an anti-counterfeiting layer, a front public information printing layer, an upper intelligent chip protective layer, an intelligent chip bearing layer, a lower intelligent chip protective layer, a back public information printing layer and a back personalized information printing layer from top to bottom. In the utility model, the transparent protective layer does not need to be aligned and bound with the certificate Shan Kaka body, and no adhesive in any form exists, so that the final certificate product has good ageing resistance and service life, the assembly line production of the certificate product is facilitated, the production efficiency is improved, and the further optimization and upgrading of each stage of the certificate product and the single-card body structure are also facilitated.

Description

Personalized certificate single card structure

Technical Field

The utility model relates to the technical field of certificate card preparation, in particular to a certificate single card structure capable of being manufactured in a personalized mode.

Background

Two general structures for manufacturing a certificate single card with personalized visual reading information are adopted, namely, the structure is that the personal information is printed or printed on a white card or a card body only with public information and then is directly used as a finished single card for issuing; the other is to print the personal information on the protective layer (personalized printing layer) in a mirror image mode, press the protective layer and the white card or the card body with only public information into a whole, and then punch the card to obtain the finished single card. The personal information on the surface layer of the first-type single card of the certificate is not effectively protected and is easy to wear and change, while the second-type single card of the certificate lacks flexibility, because the protective layer (personalized printing layer) is provided with the personal information, the card body and the protective layer need to be aligned and bound, and in order to ensure that the protective layer can smoothly and continuously finish information printing, the surface of the protective layer is usually required to be coated with a coating such as an antistatic agent, and the production cost is obviously greatly increased.

Disclosure of Invention

Aiming at the defects of the prior art, the utility model aims to provide a certificate single card structure which can be manufactured in a personalized way.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

the utility model provides a but certification single card structure of personalized preparation, from the top down includes transparent protective layer, certificate Shan Kaka body and lower transparent protective layer in proper order, certificate Shan Kaka body from the top down includes openly personalizes information printing layer, anti-fake layer, openly public information printing layer, goes up intelligent chip protective layer, intelligent chip carrier layer, lower intelligent chip protective layer, back public information printing layer and back personalized information printing layer in proper order.

Further, the protective layer comprises one or more of a PET layer, a PETG layer, a PC layer, a PHA layer and a PLA layer.

Further, the total thickness of the certificate Shan Kaka body is 0.7-0.9 mm, and the thickness of the upper transparent protective layer and the lower transparent protective layer is 0.1-0.2 mm.

Further, the front personalized information printing layer, the anti-counterfeiting layer, the front public information printing layer, the upper intelligent chip protection layer, the intelligent chip bearing layer, the lower intelligent chip protection layer, the back public information printing layer and the back personalized information printing layer are made of any environment-friendly polymer material of PETG, PC, PHA, PLA.

Further, the upper transparent protective layer, the certificate Shan Kaka body and the lower transparent protective layer are bonded by hot pressing.

Further, the front personalized information printing layer, the anti-counterfeiting layer, the front public information printing layer, the upper intelligent chip protection layer, the intelligent chip bearing layer, the lower intelligent chip protection layer, the back public information printing layer and the back personalized information printing layer are combined through hot pressing.

The utility model has the beneficial effects that: in the utility model, the upper transparent protective layer and the lower transparent protective layer which are in the form of coil materials can be directly combined with the certificate Shan Kaka body without aligning and binding with the certificate Shan Kaka body, in addition, the covered transparent protective layer and the certificate Shan Kaka body are pressed into a whole by hot pressing, no adhesive in any form is needed, and the final certificate product can be ensured to have good aging resistance and service life. Further, the certificate Shan Kaka body adopts an asymmetric multilayer composite structure, so that the assembly line production of the certificate product is facilitated, the production efficiency is improved, and the further optimization and upgrading of each stage of the structure of the certificate product and the single-card body are also facilitated.

Drawings

FIG. 1 is a schematic diagram of the overall combination of a single card structure of a document in an embodiment of the utility model;

FIG. 2 is a schematic illustration of a particular composite structure of the body of document Shan Kaka of FIG. 1.

Detailed Description

The present utility model will be further described with reference to the accompanying drawings, and it should be noted that, while the present embodiment provides a detailed implementation and a specific operation process on the premise of the present technical solution, the protection scope of the present utility model is not limited to the present embodiment.

The embodiment provides a personalized certificate single card structure, as shown in fig. 1-2, comprising an upper transparent protective layer 100, a certificate Shan Kaka body 101 and a lower transparent protective layer 102 from top to bottom, wherein the certificate Shan Kaka body 101 comprises a front personalized information printing layer 1, an anti-counterfeiting layer 2, a front public information printing layer 3, an upper intelligent chip protective layer 4, an intelligent chip bearing layer 5, a lower intelligent chip protective layer 6, a back public information printing layer 7 and a back personalized information printing layer 8 from top to bottom. Wherein the smart chip 9 is embedded in the smart chip carrier 5.

In this embodiment, the protective layer includes one or more layers of a PET layer, a PETG layer, a PC layer, a PHA layer, and a PLA layer, and when a multilayer structure is adopted, each layer is formed by coextrusion.

In this embodiment, the overall thickness of the body of document Shan Kaka is 0.80mm and the thickness of both the upper and lower transparent protective layers is 0.12mm.

When the single card structure of the certificate is manufactured, the set public information is printed on the back of the front public information printing layer 3 and the back public information printing layer 7, the intelligent chip 9 is embedded into the intelligent chip bearing layer 5, the front personalized information printing layer 1, the anti-counterfeiting layer 2, the upper intelligent chip protection layer 4, the lower intelligent chip protection layer 6 and the back personalized information printing layer 8 are manufactured in advance, then all the layers of the certificate Shan Kaka body are sequentially combined through hot pressing, particularly, proper hot pressing process parameters can be used according to different materials, finally, the set personalized visual reading information is printed on the back of the front printing layer and the back printing layer of the front printing layer in a UV printing mode according to the design, and the personalized visual reading information can comprise a certificate-holding color photo, related text information, a two-dimensional code pattern for identifying a scanning code and the like.

In this embodiment, the front personalized information printing layer 1, the anti-counterfeiting layer 2, the front public information printing layer 3, the upper intelligent chip protection layer 4, the intelligent chip bearing layer 5, the lower intelligent chip protection layer 6, the back public information printing layer 7 and the back personalized information printing layer 8 are made of any environment-friendly polymer material of PETG, PC, PHA, PLA.

The upper and lower surfaces of the manufactured certificate Shan Kaka body are respectively covered with an upper transparent protective layer and a lower transparent protective layer in the form of coil materials (namely, the original state after the manufacture). Because the transparent protective layer does not need to be manufactured by additional information printing and the like, the upper transparent protective layer and the lower transparent protective layer in the form of coil materials can be directly combined with the certificate Shan Kaka body without aligning and binding with the certificate Shan Kaka body. The upper transparent protective layer and the lower transparent protective layer are pressed together with the certificate Shan Kaka body through the three-section lamination process of preheating, hot pressing and cold pressing, and then the finished single card with the size conforming to the ID-1 standard is obtained through positioning and punching. The covered transparent protective layer and the certificate Shan Kaka body are pressed into a whole through hot pressing, no adhesive in any form exists, and the final certificate product can be ensured to have good ageing resistance and service life.

In addition, the certificate Shan Kaka body adopts an asymmetric multilayer composite structure, so that the production line of the certificate product is facilitated, the production efficiency is improved, and further optimization and upgrading of each stage of the structure of the certificate product and the single-card body are facilitated.

Specifically, the performance requirement of the final certificate single card can be comprehensively considered, and the matched protection layer material and the material of the certificate Shan Kaka body can be correspondingly selected. When the surface of the final product is required to have excellent wear resistance, a protective layer made of PET (polyethylene terephthalate) material can be selected, a certificate Shan Kaka body is made of PETG (polyethylene terephthalate) material, and when the final certificate product is required to be more easily degraded, PLA (polylactic acid) material can be selected as the material of the certificate Shan Kaka body and the transparent protective layer. The certificate Shan Kaka body and the transparent protective layer are required to be integrated smoothly through lamination, personalized requirements of users on the performance of the certificate are required to be met, and performance indexes such as overall dynamic bending, dynamic distortion, interlayer peeling force and the like of the certificate all meet relevant standards.

Various modifications and variations of the present utility model will be apparent to those skilled in the art in light of the foregoing teachings and are intended to be included within the scope of the following claims.

Claims (6)

1. The utility model provides a but single card structure of certificate of personalized preparation, its characterized in that, from the top down includes transparent protective layer, certificate Shan Kaka body and lower transparent protective layer in proper order, certificate Shan Kaka body from the top down includes positive personalized information printing layer, anti-fake layer, positive public information printing layer, goes up intelligent chip protective layer, intelligent chip carrier layer, lower intelligent chip protective layer, back public information printing layer and back personalized information printing layer in proper order.

2. The personalizable credential single card structure of claim 1, wherein the protective layer comprises one or more of a PET layer, a PETG layer, a PC layer, a PHA layer, a PLA layer.

3. The personalized document single card construction of claim 1, wherein the overall thickness of the document Shan Kaka body is between 0.7 mm and 0.9mm, and the thickness of the upper transparent protective layer and the lower transparent protective layer are both between 0.1 mm and 0.2mm.

4. The personalized document single card structure of claim 1, wherein the front side personalized information printing layer, the anti-counterfeiting layer, the front side public information printing layer, the upper intelligent chip protection layer, the intelligent chip bearing layer, the lower intelligent chip protection layer, the back side public information printing layer and the back side personalized information printing layer are made of any environment-friendly polymer material of PETG, PC, PHA, PLA.

5. The personalized document single card construction of claim 1, wherein the upper transparent protective layer, the document Shan Kaka body and the lower transparent protective layer are bonded by thermal compression.

6. The personalized document single card construction of claim 1, wherein the front side personalized information printing layer, the anti-counterfeiting layer, the front side public information printing layer, the upper smart chip protective layer, the smart chip carrier layer, the lower smart chip protective layer, the back side public information printing layer, and the back side personalized information printing layer are bonded by thermal compression.