CN113002208A - Personalized card making method for smart card - Google Patents

Abstract

The invention relates to the field of smart card manufacturing processes, in particular to a personalized smart card manufacturing method. The method simultaneously carries out ink-jet printing on the basic pattern, the personalized picture and the card making identification code in the printing link of the printing sheet, breaks through strict division of a blank card preparation stage and a personalized stage in the personalized card making method, integrates the printing process of the complex pattern on the card surface, is beneficial to improving the appearance quality of a product and the qualification rate of a finished product, and is also beneficial to improving the card making efficiency and simplifying the card making process.

Description

Personalized card making method for smart card

Technical Field

The invention relates to the field of smart card manufacturing processes, in particular to a personalized smart card manufacturing method.

Background

According to the traditional personalized card manufacturing process of the smart card based on personalized customization, the blank card is manufactured firstly, after the personalized picture and card manufacturing data are received, the card surface personalized picture is printed one by one in a thermal transfer mode, and subsequent operations such as magnetic writing and chip writing are performed, so that the personalized customization of the smart card is realized.

In the personalized card manufacturing method, because the printing mode efficiency of the blank card one-by-one thermal transfer printing is low, and the utilization rate of consumables such as transfer paper is not high, the two factors are not beneficial to controlling the production cost. In addition, the heat transfer process relates to the heat pressing treatment of the blank card, and the large-area heat pressing easily causes irreversible deformation of the main body part of the blank card made of PVC materials, so that the appearance of the product is seriously influenced. In the quality inspection step, once the personalized picture is found to have printing defects, the corresponding smart card is judged to be an unqualified product, and the packaged chip cannot be recycled, so that the traditional personalized card manufacturing process of the smart card has higher risk in the aspect of product qualification rate.

Disclosure of Invention

The invention mainly aims to provide a personalized card making method for a smart card by integrating and optimizing a printing process.

In order to achieve the purpose, the invention provides a personalized card manufacturing method of an intelligent card, which is characterized by comprising the following steps:

s1: the printing sheet is manufactured in an ink-jet printing mode, the printing sheet comprises a plurality of card surface areas printed with card patterns, each card surface area comprises a printing area, a packaging area and a hot stamping area, each card pattern comprises a basic pattern and a personalized picture which are positioned in the printing area, and the card patterns further comprise card manufacturing identification codes which are positioned in the printing area, the packaging area or the hot stamping area.

S2: and manufacturing a card blank adhered with the magnetic strip by using the printing sheet, and then segmenting the card blank to obtain the primary personalized card containing the magnetic strip.

S3: and obtaining the card making identification code of the first-level personalized card, and writing the personal magnetic track information corresponding to the card making identification code into the magnetic stripe to obtain the second-level personalized card.

S4: and milling a groove on the part of the second-level personalized card corresponding to the packaging area, packaging the chip, acquiring the personal magnetic track information in the magnetic stripe, and writing the personal chip information corresponding to the personal magnetic track information into the chip to obtain the third-level personalized card.

S5: and hot stamping the anti-counterfeiting hologram and the signature strip on the part of the third-level personalized card corresponding to the hot stamping area to obtain a fourth-level personalized card.

S6: card side personalization information corresponding to the individual track information or individual chip information is printed onto the four-level personalized card surface.

As can be seen from the above, the blank card manufacturing stage generally uses an inkjet printing method to print a printed sheet, and such printed sheet is printed with only a basic pattern, i.e. a basic feature pattern of a specific type of smart card, and does not contain a customizable pattern. The personalized picture with large area and complex pattern is subjected to heat transfer printing in the personalized card making stage, so that the cost is high, the difficulty is high, and the irreversible deformation of the card can be caused. The printing of basic patterns and personalized pictures can be synchronously completed by one-round ink-jet printing in the printing link of the printing sheet, so that the one-level personalization of the smart card is realized, the two types of patterns cannot be overlapped and staggered, and the appearance quality of the product and the qualification rate of the finished product are improved.

The card identification is carried out before each subsequent step of processing of the first-level personalized card, but the first-level personalized card only contains a blank magnetic stripe and is inconvenient to identify. The problem of card identification can be solved by printing the unique card making identification code on the first-level personalized card, the card making identification code is arranged in the hot stamping area or the packaging area, and the card making identification code can be directly invisible through subsequent hot stamping or slot milling processing without introducing additional processing steps, and can be directly arranged in the printing area if a card sender allows, so that the personalized card making method can optimize the printing process and ensure the smooth promotion of the subsequent personalized card making process. Therefore, only the anti-counterfeiting hologram and the signature strip are required to be thermoprinted in the personalized card making stage, and then the card surface personalized information is printed, the pattern corresponding to the information is simple, the occupied area is small, the printing difficulty is low, and the method can be executed according to the conventional process.

The personalized card making process breaks through the strict division of blank card preparation and personalization, integrates the printing process of the card surface complex patterns, is favorable for improving the card making efficiency and simplifying the card making process.

The card manufacturing identification code comprises a category code and a serial number.

Therefore, the card-making identification code is compiled in two stages, so that the complexity of the identification code can be improved, and the uniqueness of the card-making identification code is ensured.

Further, in step S3, a card-making identification code of the primary personalized card is obtained by an OCR detection device.

Therefore, the OCR recognition technology is mature, the corresponding detection device is high in recognition efficiency and recognition accuracy, and the card-making identification code can be accurately obtained.

A further scheme is that the card making identification code is a two-dimensional code, and in step S3, the card making identification code of the primary personalized card is acquired through a two-dimensional code identification device.

From top to bottom, the two-dimensional code is easily scanned and identified, and the information bearing capacity of pattern is great and the size is fixed, therefore system card identification code is fit for setting up with the two-dimensional code form.

Further, the card surface personalized information comprises at least one item of a bank card number, a card validity period, a membership number and an account holder name.

Therefore, the pattern corresponding to the bank card number, the card validity period, the membership number and the account holder name has small area and low printing difficulty, can be printed according to the conventional flow and process, and can be selectively printed on the surface of the card according to the specific card type.

Drawings

Fig. 1 is a flow chart of a personalized card manufacturing method for a smart card according to the invention.

FIG. 2 is a schematic layout diagram of the personalized card manufacturing method for smart cards according to the present invention.

The invention is further explained with reference to the drawings and the embodiments.

Detailed Description

Referring to fig. 1, the personalized card manufacturing method for the smart card provided by the invention comprises the following steps:

s1: the printing sheet is manufactured in an ink-jet printing mode, the printing sheet comprises a plurality of card surface areas printed with card patterns, each card surface area comprises a printing area, a packaging area and a hot stamping area, each card pattern comprises a basic pattern and a personalized picture which are positioned in the printing area, and the card patterns further comprise card manufacturing identification codes which are positioned in the printing area, the packaging area or the hot stamping area.

S2: and manufacturing a card blank adhered with the magnetic strip by using the printing sheet, and then segmenting the card blank to obtain the primary personalized card containing the magnetic strip.

S3: and obtaining the card making identification code of the first-level personalized card, and writing the personal magnetic track information corresponding to the card making identification code into the magnetic stripe to obtain the second-level personalized card.

S4: and milling a groove on the part of the second-level personalized card corresponding to the packaging area, packaging the chip, acquiring the personal magnetic track information in the magnetic stripe, and writing the personal chip information corresponding to the personal magnetic track information into the chip to obtain the third-level personalized card.

S5: and hot stamping the anti-counterfeiting hologram and the signature strip on the part of the third-level personalized card corresponding to the hot stamping area to obtain a fourth-level personalized card.

S6: card side personalization information corresponding to the individual track information or individual chip information is printed onto the four-level personalized card surface.

The conventional personalized card making process can strictly distinguish two card making stages of blank card preparation and personalization, the assembly of a magnetic stripe and a chip is completed in the blank card preparation stage, and the personalization stage only executes the magnetic writing and the chip writing and prints personalized pictures and card surface personalized information, so that the blank card is not subjected to any personalization and personalization processing and has certain universality.

In the blank card preparation stage, an ink-jet printing mode is generally adopted to print printing sheets, and the printing sheets are only printed with basic patterns, namely basic characteristic patterns of a specific type of smart card and do not contain customizable patterns. The personalized picture with large area and complex pattern is subjected to heat transfer printing in the personalized card making stage, so that the cost is high, the difficulty is high, and the irreversible deformation of the card can be caused. The printing of basic patterns and personalized pictures can be synchronously completed by one-round ink-jet printing in the printing link of the printing sheet, so that the one-level personalization of the smart card is realized, the two types of patterns cannot be overlapped and staggered, and the appearance quality of the product and the qualification rate of the finished product are improved.

From step S3, card identification is performed before each processing is performed on the primary personalized card, but the primary personalized card only contains a blank magnetic stripe and is not easy to identify. The problem of card identification can be solved by printing unique card making identification codes on the first-level personalized cards, however, only a few card issuers want to see the card making identification codes special for card identification on the finished smart cards in the card making process, namely, the card making identification codes appear in a printing area, so that quality tracing can be carried out on related card makers or card making equipment, and most card issuers do not want users to see such information on the finished smart cards. If the card issuer does not want the card-making identification code to appear in the printed area, it needs to be masked or removed in the subsequent manufacturing process. The card-making identification code is arranged in the hot stamping area or the packaging area, so that the card-making identification code can be directly invisible through subsequent hot stamping or slot milling processing without introducing additional processing steps. Therefore, the personalized card making method can also ensure the smooth promotion of the subsequent personalized card making process aiming at the optimization of the printing process. Therefore, only the anti-counterfeiting hologram and the signature strip are required to be thermoprinted in the personalized card making stage, and then the card surface personalized information is printed, the pattern corresponding to the information is simple, the occupied area is small, the printing difficulty is low, and the method can be executed according to the conventional process. Since the anti-counterfeiting hologram and the signature strip used in the thermoprinting step are only related to the card type, and the anti-counterfeiting hologram and the signature strip which need to be used can be judged only from the appearance of the three-level personalized card before thermoprinting, the identification of the personal magnetic track information and the personal chip information is not needed in the step S5.

The personalized card making process breaks through the strict division of blank card preparation and personalization, integrates the printing process of the card surface complex patterns, is favorable for improving the card making efficiency and simplifying the card making process. The card blank production in step S2 involves assembly of the printed sheet and the intermediate layer, Inlay layer, etc., mounting, and thermal binding, and these steps only need to adopt conventional operation methods, and are not particularly limited.

In practice, it is necessary to complete the relevant data processing work when step S1 is performed, and these works are completed by the master workstation before ink jet printing. Specifically, the personal magnetic track information, the personal chip information and the card surface personalization information are all stored in a card manufacturing database of the master control workstation, and the card manufacturing identification code is generated by the master control workstation through a specific algorithm, so that the uniqueness of the card manufacturing identification code can be ensured, and the unique correspondence between the card manufacturing identification code and the personal magnetic track information, the personal chip information and the card personalization information is ensured. The master control workstation is also responsible for generating card patterns and typesetting work of printed sheets, particularly needs to integrate the basic patterns, the personalized pictures and the card making identification codes into complete card patterns, and then typesetting the card patterns according to the card making quantity.

In the typesetting link, if the number of the card patterns to be typeset actually of the printing sheet is less than the upper limit of the typesetting number, the typesetting vacancy can be utilized to repeatedly typeset the card patterns at the positions where the jet printing defects are easy to occur, so as to avoid subsequent reprinting. Referring to fig. 2, if 24 cards can be arranged in a single printed sheet, when only 18 cards are actually required to be typeset, the software will automatically typeset according to the 18 typesetting positions from a to R from top to bottom and from left to right. Because the card patterns at the A, H, I, P, Q positions at the two ends of the layout are easy to generate jet printing defects, the card patterns at the A, H, I, P, Q layout positions can be repeatedly typeset (namely the card patterns at the A layout positions and the A 'layout positions are the same, and the like) by utilizing the residual typesetting vacant positions (namely the A', H ', I', P 'and Q' layout positions in the drawing) of the layout, so that the card patterns at the A, H, I, P, Q layout positions are ensured to be backed up, and the jet printing defects can be directly replaced without reprinting if the jet printing defects occur.

The card-making identification code comprises a category code and a serial number, and the complexity of the identification code can be improved by adopting two-stage coding of the card-making identification code, which is beneficial to ensuring the uniqueness of the card-making identification code.

In the step S3, the card making identification code of the primary personalized card is obtained through the OCR detection device, the OCR recognition technology is mature, the recognition efficiency and the recognition accuracy of the corresponding detection device are high, and the accurate obtaining of the card making identification code can be ensured.

The card making identification code is a two-dimensional code, and in step S3, the card making identification code of the primary personalized card is acquired through the two-dimensional code identification device. The two-dimensional code is easy to scan and identify, the information bearing capacity of the pattern is large, and the size of the pattern is fixed, so that the card-making identification code is suitable for being arranged in a two-dimensional code mode.

The card surface personalized information comprises at least one item of bank card number, card validity period, membership number and name of an account issuer, the pattern area corresponding to the bank card number, the card validity period, the membership number and the name of the account issuer is small, the printing difficulty is low, the card surface personalized information can be printed according to conventional processes and technologies, and the card surface personalized information can be selectively printed on the surface of the card according to specific card types.

Claims (5)

1. A personalized card manufacturing method for a smart card is characterized by comprising the following steps:

s1: manufacturing a printing sheet in an ink-jet printing mode, wherein the printing sheet comprises a plurality of card surface areas printed with card patterns, each card surface area comprises a printing area, a packaging area and a hot stamping area, each card pattern comprises a basic pattern and a personalized picture which are positioned in the printing area, and the card patterns further comprise card manufacturing identification codes which are positioned in the printing area, the packaging area or the hot stamping area;

s2: manufacturing a card blank adhered with a magnetic strip by using the printing sheet, and then segmenting the card blank to obtain a primary personalized card containing a magnetic strip;

s3: obtaining a card making identification code of the first-level personalized card, and writing personal magnetic track information corresponding to the card making identification code into the magnetic stripe to obtain a second-level personalized card;

s4: milling a groove on the part, corresponding to the packaging area, of the second-level personalized card, packaging a chip, obtaining personal magnetic track information in the magnetic stripe, and writing personal chip information corresponding to the personal magnetic track information into the chip to obtain a third-level personalized card;

s5: hot stamping the anti-counterfeiting hologram and the signature strip on the third-level personalized card corresponding to the hot stamping area to obtain a fourth-level personalized card;

s6: card side personalization information corresponding to the personal track information or the personal chip information is printed onto the four-level personalized card surface.

2. The method for personalized card making of smart cards according to claim 1, characterized in that:

the card making identification code comprises a category code and a serial number.

3. The method for personalized card making of smart cards according to claim 1, characterized in that:

in step S3, the card-making identification code of the primary personalized card is obtained through an OCR detection device.

4. The method for personalized card making of smart cards according to claim 1, characterized in that:

the card making identification code is a two-dimensional code, and in step S3, the card making identification code of the primary personalized card is obtained through a two-dimensional code recognition device.

5. The method for personalized card making of smart cards according to claim 1, characterized in that:

the card surface personalized information comprises at least one item of a bank card number, a card validity period, a membership number and an account holder name.

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