CN106295754B - Intelligent card personalized production line - Google Patents

Abstract

The invention discloses a smart card personalized production line which comprises a case, a card issuing module, a card writing module and other personalized modules, wherein a card inlet is arranged at the initial end of a card conveying channel of the case, the outer side of the card inlet is connected with the card issuing module, the inner side of the card inlet is connected with the card writing module, and a lithograph module is connected with the card writing module; the card writing module comprises a machine base, a card writing driving mechanism and a card writing mechanism which moves up and down under the driving of the card writing driving mechanism, wherein the card writing mechanism comprises a card writing connecting plate, a first lifting plate, a second lifting plate and a third lifting plate are respectively arranged on one side of the card writing connecting plate from top to bottom, the other side of the card writing connecting plate is connected with an up-and-down movement output piece of the card writing driving mechanism, and a first guide rail pair is arranged between the card writing connecting plate and the machine base. The personalized production line has the advantages of small volume, compact structure and high working efficiency.

Description

Intelligent card personalized production line

Technical Field

The invention relates to smart card processing equipment, in particular to a smart card personalized production line.

Background

In the field of smart card manufacturing, the traditional card manufacturing method is to collect information of a user first, then manufacture a card through smart card production equipment and finally dispatch the card to the user, and the main disadvantage is that the card issuing period is long, and the user needs to wait for a long time. The instant card issuing equipment can collect user information and make cards on site, so that waiting time of users is greatly shortened, and great convenience is brought to card issuing units and users.

The patent application with the application publication number of CN 105631489A discloses a smart card timely card issuing device which comprises a case with an upper layer and a lower layer, wherein a card issuing module, a magnetic writing module and a lithographic module are linearly arranged on the upper layer processing module along the card conveying direction; the upper and lower processing modules of the lower machine box are linearly arranged with the coding module, the hot stamping module and the card collecting module along the card conveying direction, and the card conveying direction of the lower processing module is opposite to the card conveying direction of the upper processing module; along card direction of delivery, be equipped with vertical card transfer mechanism between the terminal of upper strata processing module and the starting of lower floor processing module. When the card feeding device works, the card is sent out from the card sending device, and the upper card transition conveying mechanism sequentially conveys the card to the magnetic writing module and the lithographic module to finish the magnetic writing process and the lithographic process; when the card finishes the processing of the upper processing module and is positioned at the tail end of the upper processing module, the vertical card transferring mechanism transfers the card to the head end of the lower processing module; at the moment, the lower card transition conveying mechanism sequentially conveys the cards to the coding module and the thermoprinting module to finish the coding process and the thermoprinting process; the lower card transition conveying mechanism conveys the cards to the tail end of the lower processing module, and then the card collecting module collects the smart cards after all the processing procedures are completed.

The intelligent card instant card issuing equipment has the advantages of reasonable layout of processing modules, compact structure, high card conveying and processing speed and the like. However, the instant card issuing device has the following disadvantages: the card writing module in the instant card issuing equipment can only process one intelligent card in one period, and the processing efficiency is low; in order to improve the processing efficiency, the number of the card writing modules must be increased, but the number of the card writing modules is increased, which occupies more space, so that the whole card reading device has a complex structure and a large volume, and the problem is particularly remarkable in a small-sized desktop machine. In addition, due to the increase of the card writing module, the error rate is increased, so that the stability of the equipment in operation is reduced, and the installation and maintenance cost is increased.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provide a smart card personalization production line which can realize card writing processing and other personalization processing on a smart card and has the advantages of small volume and high working efficiency.

The technical scheme for solving the technical problems is as follows:

the intelligent card personalized production line comprises a case, a card issuing module, a card writing module and other personalized modules, wherein the case is provided with a card inlet at the initial end of a card conveying channel, the outer side of the card inlet is connected with the card issuing module, the inner side of the card inlet is connected with the card writing module, and the lithograph module is connected with the card writing module; the other personalized modules are one or more of a lithographic module, a magnetic writing module, a code printing module and a thermoprinting module;

the card writing module comprises a machine base, a card writing driving mechanism and a card writing mechanism which moves up and down under the driving of the card writing driving mechanism, wherein the card writing mechanism comprises a card writing connecting plate, a first lifting plate, a second lifting plate and a third lifting plate are respectively arranged on one side of the card writing connecting plate from top to bottom, the second lifting plate is fixedly connected with the card writing connecting plate, and a second guide rail pair and a third guide rail pair are respectively arranged between the first lifting plate and the card writing connecting plate and between the third lifting plate and the card writing connecting plate; the bottom surfaces of the first lifting plate and the second lifting plate are respectively provided with a first contact type card reader and a second contact type card reader, the first contact type card reader is provided with a first probe, and the second contact type card reader is provided with a second probe; the top surface of the second lifting plate and the top surface of the third lifting plate are respectively provided with a first card positioning groove and a second card positioning groove; a first spring which causes a first probe on the first lifting plate to be pressed on a chip of the card when a card is written is arranged between the first lifting plate and the second lifting plate, and a second spring which causes a second probe on the second lifting plate to be pressed on the chip of the card when the card is written is arranged between the third lifting plate and the second lifting plate; the first lifting plate is provided with a first baffle column, and the third lifting plate is provided with a second baffle column;

the other side of the card writing connecting plate is connected with an up-and-down motion output piece of the card writing driving mechanism, and a first guide rail pair is arranged between the card writing connecting plate and the machine base; the machine seat is provided with a first limiting surface positioned below the first baffle column and a second limiting surface positioned above the second baffle column, when the first baffle column descends to contact with the first limiting surface along with the first lifting plate, the first card positioning groove is positioned above the card conveying channel, and when the second baffle column ascends to contact with the second limiting surface along with the third lifting plate, the second card positioning groove is aligned with the card conveying channel.

In a preferred embodiment of the present invention, a first support column is disposed between the first lifting plate and the second lifting plate, and a second support column is disposed between the second lifting plate and the third lifting plate. In this way, the card positioning groove can support the first lifting plate in a card-free state, and the first lifting plate is prevented from continuously moving downwards under the action of the elastic force of the first spring to damage the first probe on the first lifting plate; the second support column can support the third lifting plate, and the third lifting plate is prevented from continuing to move upwards under the action of the elastic force of the second spring to damage the second probe on the second lifting plate.

The invention is characterized in that the card writing driving mechanism comprises a card writing motor and a card writing eccentric wheel transmission mechanism; the card writing eccentric wheel transmission mechanism comprises a rotary disc and a driving block, wherein a roller is arranged on the circumference of the rotary disc, a long round groove is formed in the driving block, the rotary disc is fixed on a main shaft of a card writing motor, the roller is matched with the long round groove, and the driving block is fixedly connected with the card writing connecting plate. When the main shaft of the card writing motor rotates, the card writing eccentric wheel transmission mechanism drives the card writing connecting plate fixedly connected with the driving block to move up and down, so that the card writing mechanism is driven to move up and down. In addition, the card writing driving mechanism can also adopt a scheme formed by combining a card writing motor and a screw rod transmission mechanism, so that the card writing connecting plate can be lifted more stably and positioned more accurately.

According to a preferred scheme of the invention, the machine base comprises a base, a card writing motor supporting plate and a baffle plate, wherein the card writing motor supporting plate is used for supporting a card writing motor, and the lower ends of the card writing motor supporting plate and the baffle plate are fixedly arranged on the base; the baffle is provided with a notch, the upper end face of the notch is a second limiting face, and the top face of the baffle is a first limiting face. Therefore, the card writing driving mechanism and the card writing mechanism are positioned on the same machine seat, so that the card writing module of the whole intelligent card is more compact in structure.

According to the invention, a first avoiding groove is formed above the writing card connecting plate, and a second avoiding groove is formed below the writing card connecting plate; the first baffle column passes through the first avoidance groove and is positioned above the first limiting surface on the baffle plate, and the second baffle column passes through the second avoidance groove and is positioned below the second limiting surface on the baffle plate. Like this, first fender post, second fender post, baffle and write card actuating mechanism are located the same side of writing the card connecting plate, make the card module of writing of whole smart card small, and the structure is compacter.

According to the invention, the bottom surface of the first lifting plate and the bottom surface of the third lifting plate are respectively provided with the first non-contact card reader and the second non-contact card reader, and the first non-contact card reader and the second non-contact card reader are respectively used for performing non-contact information reading and writing on the cards in the first card positioning groove and the second card positioning groove, so that the first card positioning groove and the second card positioning groove can be used for information writing of a contact type smart card and information writing of the non-contact type smart card.

The working principle of the invention is as follows: in the production process of the smart card, firstly, the card issuing module issues a card, the smart card reaches the card outlet end of the card conveying channel, the card reaches a card writing station (the card conveying channel forms a card writing station at the card writing module) through the card conveying channel, and the card writing connecting plate can move up and down under the drive of the card writing driving mechanism; because the second lifter plate is fixed on writing the card connecting plate, and first lifter plate is connected with writing the card connecting plate through the second guide rail pair, first lifter plate is connected with the second lifter plate through first spring, the third lifter plate is connected with writing the card connecting plate through the third guide rail pair, the third lifter plate is connected with the second lifter plate through the second spring, therefore, under the effect of first spring, second spring tensile force, first lifter plate and third lifter plate draw close to the second lifter plate, card reader probe can sticis on the card in the card constant head tank that corresponds, at this moment, first lifter plate, second lifter plate and third lifter plate are in relative static state, can be together along with writing the card connecting plate up-and-down motion. When the card writing connection plate works, the card writing connection plate reciprocates up and down, the position where the card writing connection plate moves to the uppermost end is defined as an initial position, and the position where the card writing connection plate moves to the lowermost end is defined as a final position.

In the process of downward movement of the card writing connecting plate from the initial position, when the first lifting plate descends to a certain position, a first baffle column on the first lifting plate can touch a first limiting surface, the position is called the descending limit position of the first lifting plate, and at the moment, the first card positioning groove is positioned above the card conveying channel; with the further downward movement of the card writing connecting plate, the first limiting surface has larger resistance to the first lifting plate than the first spring, so that the first lifting plate cannot continue to move downwards, and further the first probe cannot be separated from the card along with the further downward movement of the second lifting plate; when the first lifting plate continues to descend for a certain distance, the first card positioning groove is aligned with the card conveying channel, the card writing connecting plate reaches the end position, and at the moment, the card in the first card positioning groove can be pushed out and a new card is fed.

Then, the card writing connecting plate moves upwards from the end position, and when the first baffle column leaves the first limiting surface, the first probe is pressed on a chip of a card in the first card positioning groove and enters a card writing stage; along with the further upward movement of the card writing connecting plate, when the third lifting plate ascends to a certain position, the second baffle column on the third lifting plate can touch the second limiting surface, the position is called the ascending pole limit of the second lifting plate, and the second card positioning groove is aligned with the card conveying channel; with the further upward movement of the third lifting plate, the resistance of the second limiting surface to the third lifting plate is larger than the tension of the second spring to the third lifting plate, so that the third lifting plate cannot continue to move upwards, the second probe can be separated from the card with the continued upward movement of the second lifting plate, and then the card writing connecting plate reaches the initial position, so that the card in the second card positioning groove can be pushed out and a new card can be fed. Then, the card writing connecting plate moves downwards from the initial position, and when the second baffle post leaves the second limiting surface, the second probe is pressed on a chip of the card in the second card positioning groove, and the card writing stage is started.

After the card writing process is completed, the smart card reaches other personalization stations via the card transport path, such as a lithographic station (where the card transport path forms a lithographic station at the lithographic module) to complete other personalization.

Compared with the prior art, the invention has the following beneficial effects:

1. according to the intelligent card personalization production line, two cards can be processed simultaneously only by arranging one card writing module, so that card writing efficiency is improved; in addition, the personalized production line block has simple structure and small volume, saves the installation space, and is particularly suitable for a desktop machine with small volume.

2. Because only one driving mechanism is needed to be arranged in the card writing module of the intelligent card personalized production line, the intelligent card personalized production line has the advantages of simple structure and small volume, saves the installation space, reduces the error rate of the driving mechanism, and simultaneously reduces the installation and maintenance cost.

Drawings

Fig. 1 to 3 are schematic perspective views of a smart card personalization line according to an embodiment of the present invention, in which fig. 1 is a rear view (cross-sectional view), fig. 2 is a top view, and fig. 3 is a schematic perspective view.

Fig. 4 is a schematic perspective view of the card writing module in fig. 1.

Fig. 5 is an exploded view of the write card module of fig. 1.

Fig. 6 is a schematic view of the structure of the card writing module of fig. 1 after being mounted in a smart card processing apparatus.

Fig. 7 is a schematic diagram of a card entry and exit of the card writing module of fig. 1.

Fig. 8 to 14 are schematic views illustrating the operation of the card writing module in fig. 1, wherein:

FIG. 8 is a view showing the first stop post contacting the first stop surface during the downward movement of the card-writing connection plate from the initial position;

FIG. 9 is a view showing the card-writing connection plate moving further downward, the first probe being separated from the card in the first card positioning slot, the card-writing connection plate reaching the end position;

FIG. 10 is a state diagram showing the card writing connection plate moving upwards from the end position, the first probe being pressed against the card in the first card positioning slot and entering the card writing stage;

FIG. 11 is a view showing the card-writing connection plate moving further upward, with the second stop post reaching the second limit surface;

FIG. 12 is a view showing further upward movement of the write card connecting plate with the second stop post contacting the second stop surface;

FIG. 13 is a view showing the third lifter plate further moving upward, the second probe being separated from the card in the second card positioning slot, the card-writing connecting plate reaching the end position;

fig. 14 is a state diagram showing the downward movement of the card writing connection board, when the second probe is pressed against the card in the second card positioning slot and enters the card writing stage.

Fig. 15 is an enlarged view of IV in fig. 13.

Detailed Description

The present invention will be described in further detail with reference to examples and drawings, but embodiments of the present invention are not limited thereto.

Referring to fig. 1 to 3, the smart card personalization production line of the present embodiment includes a chassis C, a card issuing module a, a card writing module B, and other personalization modules, where the chassis C is provided with a card inlet at a start end of a card conveying channel, an outer side of the card inlet is connected to the card issuing module a, an inner side is connected to the card writing module B, and the lithographic module D is connected to the card writing module B; the other personalized modules are one or more of a lithographic module, a magnetic writing module, a code printing module and a thermoprinting module; in this embodiment, the personalization module is a lithographic module D.

The card writing module comprises a machine base 13, a card writing driving mechanism and a card writing mechanism which moves up and down under the driving of the card writing driving mechanism.

Referring to fig. 4, 5 and 6, the card writing mechanism includes a card writing connection board 1, wherein a first lifting board 2, a second lifting board 3 and a third lifting board 4 are respectively arranged on one side of the card writing connection board from top to bottom, the second lifting board 3 is fixedly connected with the card writing connection board 1, and a second guide rail pair 5 and a third guide rail pair 6 are respectively arranged between the first lifting board 2 and the card writing connection board 1 and between the third lifting board 4 and the card writing connection board 1; the bottom surfaces of the first lifting plate 2 and the second lifting plate 3 are respectively provided with a first contact type card reader and a second contact type card reader, the first contact type card reader is provided with a first probe 2-1, and the second contact type card reader is provided with a second probe 3-2; the top surface of the second lifting plate 3 and the top surface of the third lifting plate 2 are respectively provided with a first card positioning groove 3-1 and a second card positioning groove 4-1; a first spring 21 for urging the first probe 2-1 on the first lifting plate to be pressed against the chip of the card 18 when writing a card is arranged between the first lifting plate 2 and the second lifting plate 3, and a second spring 22 for urging the second probe 3-2 on the second lifting plate 3 to be pressed against the chip of the card 18 when writing a card is arranged between the third lifting plate 4 and the second lifting plate 3; the first lifting plate is provided with a first baffle column 2-2, and the third lifting plate is provided with a second baffle column 3-3. The writing card connecting plate 1 is provided with a guide rail 7, the first lifting plate 2 is provided with a first sliding block, and the first sliding block and the guide rail 7 are combined to form the second guide rail pair 5; the third lifting plate 4 is provided with a second sliding block, and the second sliding block and the guide rail 7 are combined to form the third guide rail pair 6. The bottom surface of the first lifting plate 2 and the bottom surface of the third lifting plate 3 are respectively provided with a first non-contact card reader and a second non-contact card reader (not shown in the figure) which are respectively used for non-contact information reading and writing of the cards in the first card positioning slot 3-1 and the second card positioning slot 4-1.

Referring to fig. 4 to 6, the other side of the card writing connection board 1 is connected with an up-down motion output piece of the card writing driving mechanism, a first guide rail pair 8 is arranged between the card writing connection board 1 and the machine base 13, and the first guide rail pair 8 is composed of a guide rail 11 arranged on the side of the card writing connection board 1 and a sliding block arranged on the machine base 13; the machine base 13 is provided with a first limiting surface II positioned below the first baffle column 2-2 and a second limiting surface III positioned above the second baffle column 3-3, when the first baffle column 2-2 descends to be in contact with the first limiting surface along with the first lifting plate 2, the first card positioning groove 3-1 is positioned above the card conveying channel I, and when the second baffle column 3-3 ascends to be in contact with the second limiting surface III along with the third lifting plate 4, the second card positioning groove 4-1 is aligned with the card conveying channel I.

Referring to fig. 4 to 7, a first support column 23 is disposed between the first lifting plate 2 and the second lifting plate 3, and a second support column 24 is disposed between the second lifting plate 3 and the third lifting plate 4. In this way, the first supporting column 23 can support the first lifting plate 2 in the card-free state, so that the first lifting plate 2 is prevented from continuing to move downwards under the elastic force of the first spring 21 to damage the first probe 2-1 on the first lifting plate; the second support column 24 supports the third lifter plate 4 to prevent the third lifter plate 4 from moving upward under the elastic force of the second spring 22 to damage the second probes 3-2 on the second lifter plate 3.

Referring to fig. 4 to 7, the card writing driving mechanism includes a card writing motor 16 and a card writing eccentric wheel transmission mechanism; the card writing eccentric wheel transmission mechanism comprises a rotary disc 15 and driving blocks 1-4, wherein rollers are arranged on the circumference of the rotary disc, long round grooves are formed in the driving blocks, the rotary disc is fixed on a main shaft of a card writing motor 16, the rollers are matched with the long round grooves, and the driving blocks are fixedly connected with the card writing connecting plate. When the main shaft of the card writing motor 16 rotates, the card writing connecting plate 1 fixedly connected with the driving block is driven to move up and down by the card writing eccentric wheel transmission mechanism, so that the card writing mechanism is driven to move up and down. In addition, the card writing driving mechanism can also be formed by combining a motor and a screw rod transmission mechanism.

Referring to fig. 4 to 7, the base 13 includes a base 13-1, a card writing motor supporting plate 13-2 for supporting a card writing motor 16, and a baffle 12, wherein lower ends of the card writing motor supporting plate 13-2 and the baffle 12 are fixedly remained on the base 13-1; the baffle is provided with a notch, the upper end face of the notch is a second limiting face III, and the top face of the baffle is a first limiting face II. In this way, the card writing driving mechanism and the card writing mechanism are positioned on the same base 13, so that the card writing module of the whole intelligent card is more compact in structure.

Referring to fig. 4 to 7, a first avoidance groove is formed above the card writing connection plate 1, and a second avoidance groove is formed below the card writing connection plate; the first baffle column 23 passes through the first avoiding groove and is located above the first limiting surface II on the baffle plate, and the second baffle column 24 passes through the second avoiding groove and is located below the second limiting surface III on the baffle plate. In this way, the first baffle post 23, the second baffle post 24, the baffle plate 12 and the card writing driving mechanism are positioned on the same side of the card writing connecting plate 1, so that the card writing module of the whole intelligent card has small volume and more compact structure.

Referring to fig. 8 to 15, the working principle of the present invention is: the intelligent card 18 is sent out by a card sending module A, the intelligent card 18 reaches a card writing station (the card conveying channel forms a card writing station at a card writing module B), and the card writing connecting plate 1 can move up and down under the drive of a card writing driving mechanism; because the second lifting plate 3 is fixed on the card writing connection plate 1, the first lifting plate 2 is connected with the card writing connection plate 1 through the second guide rail pair 5, the first lifting plate 2 is connected with the second lifting plate 3 through the first spring 23, the third lifting plate 4 is connected with the card writing connection plate 1 through the third guide rail pair 6, and the third lifting plate 4 is connected with the second lifting plate 3 through the second spring 24, the first lifting plate 2 and the third lifting plate 4 are close to the second lifting plate 2 under the action of the tension force of the first spring 21 and the second spring 22, and the card reader probe is pressed on a card 18 in a corresponding card positioning groove, and at the moment, the first lifting plate 2, the second lifting plate 3 and the third lifting plate 4 are in a relatively static state and move up and down along with the card writing connection plate 1. When the card writing connection plate works, the card writing connection plate reciprocates up and down, the position where the card writing connection plate moves to the uppermost end is defined as an initial position, and the position where the card writing connection plate moves to the lowermost end is defined as a final position.

In the process of downward movement of the card-writing connection plate 1 from the initial position, when the first lifting plate descends to a certain position, the first stop post 23 on the first lifting plate touches the first limiting surface II, and the position is called the descending limit position of the first lifting plate 2, and the first card positioning slot 3-1 is positioned above the card conveying channel I (see FIG. 8); with the further downward movement of the card writing connection plate 1, the resistance of the first limiting surface II to the first lifting plate 2 is larger than the tension of the first spring 21 to the first lifting plate 2, so that the first lifting plate 2 cannot continue to move downwards, and further the first probe 2-1 cannot be separated from the card 18 along with the continued downward movement of the second lifting plate 3; when the first lifting plate 2 continues to descend for a certain distance, the first card positioning slot 3-1 is aligned with the card conveying channel I, the card writing connection plate 1 reaches the end position (see fig. 9), and at this time, the card 18 in the first card positioning slot 3-1 can be pushed out and a new card 18 can be fed.

Subsequently, the card writing connection board 1 moves upwards from the end position, when the first baffle column 23 leaves the first limit surface II, the first probe 2-1 is pressed on the chip of the card 18 in the first card positioning groove 3-1, and the card writing stage is carried out (see fig. 10); with further upward movement of the card-connecting plate 1 (see fig. 11), when the third lifter plate 4 is lifted to a position, called the lifting limit of the second lifter plate 3, the second stopper 24 contacts the second limit surface III (see fig. 12), and the second card positioning slot 4-1 is aligned with the card conveying path I; with further upward movement of the third lifter plate 4, since the resistance of the second limiting surface 24 to the third lifter plate 4 is greater than the tension of the second spring 22 to the third lifter plate 4, the third lifter plate 4 cannot continue to move upward, and the second probe 3-2 can be separated from the card 18 with the continued upward movement of the second lifter plate 3 (see fig. 13), and then the card writing connection plate 1 reaches the initial position, at this time, the card 18 in the second card positioning slot 4-1 can be pushed out and a new card 18 can be fed. Then, the card writing connection board 1 moves downwards from the initial position, and when the second stop post 24 leaves the second limiting surface III, the second probe 3-2 is pressed against the chip of the card 18 in the second card positioning slot 4-1, and the card writing stage is performed (see fig. 15).

After the card is subjected to the card writing process, the smart card reaches a lithographic station through a card conveying channel (the card conveying channel forms a lithographic station at a lithographic module D) to complete the lithographic process.

The foregoing is illustrative of the present invention and is not to be construed as limiting thereof, but rather as various changes, modifications, substitutions, combinations, and simplifications which may be made therein without departing from the spirit and principles of the invention are intended to be included within the scope of the invention.

Claims (6)

1. The intelligent card personalized production line is characterized by comprising a case, a card issuing module, a card writing module and other personalized modules, wherein the case is provided with a card inlet at the initial end of a card conveying channel, the outer side of the card inlet is connected with the card issuing module, the inner side of the card inlet is connected with one side of the card writing module, and the other side of the card writing module is connected with a lithographic module; the other personalized modules are one or more of a lithographic module, a magnetic writing module, a code printing module and a thermoprinting module;

the card writing module comprises a machine base, a card writing driving mechanism and a card writing mechanism which moves up and down under the driving of the card writing driving mechanism, wherein the card writing mechanism comprises a card writing connecting plate, a first lifting plate, a second lifting plate and a third lifting plate are respectively arranged on one side of the card writing connecting plate from top to bottom, the second lifting plate is fixedly connected with the card writing connecting plate, and a second guide rail pair and a third guide rail pair are respectively arranged between the first lifting plate and the card writing connecting plate and between the third lifting plate and the card writing connecting plate; the bottom surfaces of the first lifting plate and the second lifting plate are respectively provided with a first contact type card reader and a second contact type card reader, the first contact type card reader is provided with a first probe, and the second contact type card reader is provided with a second probe; the top surface of the second lifting plate and the top surface of the third lifting plate are respectively provided with a first card positioning groove and a second card positioning groove; a first spring which causes a first probe on the first lifting plate to be pressed on a chip of the card when a card is written is arranged between the first lifting plate and the second lifting plate, and a second spring which causes a second probe on the second lifting plate to be pressed on the chip of the card when the card is written is arranged between the third lifting plate and the second lifting plate; the first lifting plate is provided with a first baffle column, and the third lifting plate is provided with a second baffle column;

the other side of the card writing connecting plate is connected with an up-and-down motion output piece of the card writing driving mechanism, and a first guide rail pair is arranged between the card writing connecting plate and the machine base; the machine seat is provided with a first limiting surface positioned below the first baffle column and a second limiting surface positioned above the second baffle column, when the first baffle column descends to contact with the first limiting surface along with the first lifting plate, the first card positioning groove is positioned above the card conveying channel, and when the second baffle column ascends to contact with the second limiting surface along with the third lifting plate, the second card positioning groove is aligned with the card conveying channel.

2. The smart card personalization line of claim 1, wherein a first support column is disposed between the first lift plate and the second lift plate, and a second support column is disposed between the second lift plate and the third lift plate.

3. The smart card personalization line of claim 2, wherein the card writing drive mechanism comprises a card writing motor and a card writing eccentric drive mechanism; the card writing eccentric wheel transmission mechanism comprises a rotary disc and a driving block, wherein a roller is arranged on the circumference of the rotary disc, a long round groove is formed in the driving block, the rotary disc is fixed on a main shaft of a card writing motor, the roller is matched with the long round groove, and the driving block is fixedly connected with the card writing connecting plate.

4. The smart card personalization production line of claim 3, wherein the chassis comprises a base, a card-writing motor support plate and a baffle for supporting a card-writing motor, wherein lower ends of the card-writing motor support plate and the baffle are fixed on the base; the baffle is provided with a notch, the upper end face of the notch is a second limiting face, and the top face of the baffle is a first limiting face.

5. The smart card personalization production line of claim 4, wherein a first avoidance groove is formed above the card writing connection board, and a second avoidance groove is formed below the card writing connection board; the first baffle column passes through the first avoidance groove and is positioned above the first limiting surface on the baffle plate, and the second baffle column passes through the second avoidance groove and is positioned below the second limiting surface on the baffle plate.

6. The personalized production line of smart cards according to claim 5, wherein the bottom surface of the first lifting plate and the surface of the third lifting plate are respectively provided with a first non-contact card reader and a second non-contact card reader, and the first non-contact card reader and the second non-contact card reader are respectively used for performing non-contact information reading and writing on the cards in the first card positioning groove and the second card positioning groove, so that the first card positioning groove and the second card positioning groove can be used for writing information of a contact smart card and writing information of a non-contact smart card.

Images