CN111882778A - Desktop type multi-service self-service certificate-making and endorsement device, system and service method - Google Patents

Abstract

The invention relates to the technical field of intelligent government affair terminals, and particularly discloses desktop type multi-service self-service certificate-making and endorsement equipment, a system and a service method. The invention has the advantages of small volume, light weight, strong deployability, low investment cost, strong functions, simple and convenient maintenance and easy operation, effectively improves the business handling efficiency and improves the service satisfaction degree.

Description

Desktop type multi-service self-service certificate-making and endorsement device, system and service method

Technical Field

The invention relates to the technical field of intelligent government affair terminals, in particular to desktop type multi-service self-service certificate-making and endorsement equipment, a system and a service method.

Background

With the continuous development of national economy, the service reform of 'management and administration' of a deepened national institute is realized, the 'internet + government affairs' landing is promoted comprehensively, and at present, government affair service centers and service organizations are built in many places in the country, so that the administrative efficiency is improved, and a high-quality, convenient and efficient government affair service platform is provided for people. However, there still exist many problems in terms of operation mechanism, business handling and government efficiency, such as difficult handling, slow handling, running many times and running back and forth. Along with the continuous progress of intelligent technology, self-service equipment has obtained the rapid development in recent years, to the dilemma of current government affairs handling, introduces intelligent government affairs terminal, replaces traditional artificial service mode, through technologies such as artificial intelligence, automatic control, big data, thing networking, can realize that intelligent, self-service, high-efficient are handled to the government affairs. The intelligent level of government affair service is promoted to be continuously improved, the effects of more data transmission and less running of the masses are really achieved, and the masses run at most once.

In the development process of the intelligent government affair terminal, the following defects mainly exist:

1. due to the limitation of factors such as technical level, demand environment and the like, most terminal equipment only has one service function, such as single card making equipment and single endorsement equipment, and the equipment has the defects of large volume, large occupied area, difficulty in transportation and movement, complex function, high operation difficulty, high maintenance cost and the like.

2. If the card making and endorsement functions are integrated into one machine, the size is larger, the power consumption is large, the investment cost is high, and large-scale self-service equipment is difficult to popularize in a large area in areas with limited deployment environments, general economic budgets and stable business volumes.

3. The terminal equipment is not strong in applicability and only faces to an independent service function. The information of each police department is not shared, the business handling needs to run a plurality of departments, the business handling cannot be performed at one time, the handling process is complicated, the time consumption is long, an applicant is often required to go and return for handling the business many times, various businesses cannot be simultaneously adapted, and the business requirements of all places are difficult to adapt.

Disclosure of Invention

The technical problem to be solved by the present invention is to provide a desktop multi-service self-service certificate-making and endorsement device, system and service method, aiming at the above defects of the prior art, which has the advantages of small volume, light weight, strong deployability, low investment cost, powerful functions, simple and convenient maintenance, easy operation, effectively improved service handling efficiency and improved service satisfaction.

In order to solve the technical problems, the technical scheme of the invention is as follows:

the utility model provides a self-service system of desktop formula multiservice visa endorsement equipment, include the shell bracket component and set up in hairpin mechanism, discernment reversing mechanism, tilting mechanism, transport mechanism, erasable card class endorsement machine, industrial control unit, colored rendition smart card printer, laminating machine, display control unit and the main control unit in the shell bracket component, hairpin mechanism, discernment reversing mechanism, tilting mechanism, transport mechanism, erasable card class endorsement machine, industrial control unit, colored rendition smart card printer, laminating machine and display control unit all with the main control unit electricity is connected.

Preferably, a card box maintenance window, a box cover buckle, a forced certificate withdrawing switch, an inlet and outlet bayonet, a batch card making and taking bayonet, an indicator light bar, an operation screen, a laminating machine maintenance door and a color retransfer printing smart card printer maintenance door are arranged on the shell bracket assembly, the card box maintenance window and the box cover buckle are arranged at the upper end of the shell bracket assembly, the forced certificate withdrawing switch, the inlet and outlet bayonet, the batch card making and taking bayonet, the indicator light bar and the operation screen are arranged at the front end of the shell bracket assembly, and the laminating machine maintenance door and the color retransfer printing smart card printer maintenance door are arranged at the right side of the shell bracket assembly; still be provided with equipment switching power supply interface, equipment ground connection interface, USB interface, net twine interface, radiator fan and side maintenance door on the shell bracket subassembly, equipment switching power supply interface, equipment ground connection interface, USB interface, net twine interface and radiator fan all set up in the rear end of shell bracket subassembly, the side maintenance door sets up in the left side of shell bracket subassembly.

Preferably, the card inlet and outlet and the batch card making and taking card port are connected with the transportation mechanism, and the forced card quitting switch, the indicating lamp bar and the operation screen are electrically connected with the main control unit; the equipment switching power supply interface, the USB interface, the network cable interface and the cooling fan are electrically connected with the main control unit.

Preferably, the transportation mechanism is respectively connected with the card issuing mechanism, the identification reversing mechanism, the turnover mechanism, the erasable card type endorsement machine, the color retransfer intelligent card printer and the film laminating machine; the display control unit and the main control unit are arranged at the front end of the inner side of the shell support component, the identification reversing mechanism, the card issuing mechanism and the film laminating machine are sequentially arranged at the rear of the display control unit from left to right, and the industrial control unit, the overturning mechanism, the erasable card type endorsement machine and the color retransfer intelligent card printer are sequentially arranged at the rear of the transport mechanism from left to right.

Preferably, card issuing mechanism is last to be provided with draw-in groove and card case, the draw-in groove bottom is provided with scrapes card transmission, the draw-in groove side is provided with detection device, it includes driving motor, first synchronous belt, first axis of rotation, second synchronous belt, first guiding axle, second guiding axle, scrapes blade holder, scraper, elastic unit and pivot to scrape card transmission, first synchronous belt is connected with driving motor and first axis of rotation respectively, first axis of rotation is connected with the second synchronous belt, it is fixed to set up on the second synchronous belt to scrape the blade holder, the scraper holder is connected with scraper, first guiding axle, second guiding axle, elastic unit and pivot respectively.

Preferably, transport mechanism includes left socle, right branch frame, third guiding axle, fourth guiding axle, drive unit, third hold-in range, dolly subassembly and detecting element, third guiding axle and fourth guiding axle are equallyd divide and are do not connected with left socle and right branch frame, drive unit sets up in the right side of left socle, the third hold-in range is connected with drive unit, the dolly subassembly is fixed to be set up on the third hold-in range, detecting element is fixed to be set up the below at the hold-in range.

Preferably, discernment reversing mechanism includes support, preceding power wheel, back power wheel, side power wheel, first motor, second motor, electro-magnet, gives case, OCR module, switching-over piece and non-contact module in batches, be provided with the spacing piece of a plurality of on the support, first motor passes through the hold-in range and is connected with preceding power wheel and back power wheel respectively, the second motor is connected with side power wheel, the OCR module sets up on the support, the electro-magnet sets up in the right side wall outside of giving the case in batches, switching-over piece axle head is connected with the electro-magnet, the non-contact module sets up on the switching-over piece.

Preferably, the turnover mechanism comprises an upper support, a lower support, a first driving motor, a driving shaft, a turnover device, a second driving motor, a rotating wheel, a third driving motor and a chain belt, wherein the upper support is fixedly connected with the lower support, the first driving motor, the driving shaft, the turnover device, the second driving motor and the rotating wheel are all arranged on the upper support, the rotating wheel is connected with the first driving motor, the driving shaft is connected with the turnover device, and the third driving motor and the chain belt are all arranged on the lower support.

In order to solve the above technical problem, the present invention further provides a desktop multi-service self-service certificate-making and endorsement system, which includes an equipment system and a management system connected to the equipment system, wherein the equipment system includes: the application layer is composed of front-end applications and used for data input and output interaction; the interface layer is used for processing the business logic and providing interface service for the outside; the resource layer consists of a first operating system, an equipment module, a control unit and equipment hardware; the service layer is used for encapsulating the equipment module of the resource layer into a service mode; the management system consists of a service management system, a service interface, a database, a second operating system and a server and is used for providing management interface service, recording service data, storing an operation log, monitoring the running state of equipment, registering the management equipment and authorizing a login account.

In order to solve the technical problem, the invention also provides a desktop multi-service self-service certificate-making and endorsement service method, which comprises an endorsement flow and a card-making flow, wherein the endorsement flow comprises the following steps: selecting endorsement erasing business or certificate card manufacturing business through a touch interactive screen, and controlling a power wheel to suck the certificate card; controlling the non-contact read-write module to read certificate information; judging whether the certificate card meets the endorsement condition, if not, controlling a power wheel to discharge the certificate card, and if so, controlling an OCR mechanism to identify the card surface orientation of the certificate card; controlling the transport mechanism to transfer the certificate card to the turnover mechanism; selecting a direct erasing printer type or an erasing printer type with direction identification; in the type of the direct erasing printer, judging whether the orientation of the certificate card accords with a printing mode, if so, controlling the erasing and writing endorsement machine to erase and write directly, and if not, controlling the turnover mechanism to turn over the certificate card by 180 degrees or 360 degrees, and then controlling the erasing and writing endorsement machine to erase and write directly; returning to the OCR mechanism after erasing; in the direction identification erasing printer type, judging whether the positive and negative directions of the certificate card accord with a printing mode, if not, controlling a turnover mechanism to vertically turn over the certificate card by 180 degrees, if so, judging the left and right directions of the certificate card, if the positive direction is positive, controlling an erasing and writing endorsement machine to erase and write in sequence, if the reverse direction is negative, controlling the erasing and writing endorsement machine to erase and write in reverse sequence, and returning to an OCR mechanism in the original path after erasing and writing are finished; controlling an OCR mechanism to shoot verification printing information and judge whether the verification passes or not, if not, rewriting and writing and returning to the OCR mechanism in the original way after completing the rewriting, if so, controlling a non-contact reading and writing module to write certificate information and controlling a power wheel to discharge a certificate card; the card making process comprises the following steps: selecting a endorsement erasing service or a certificate card making service through a touch interactive screen; controlling the transportation mechanism to send the white card to the card issuing mechanism; transmitting the white card to an OCR recognition reversing mechanism, judging whether the positive and negative directions of the card accord with a printing mode, if so, sending the card to a control erasing printer for erasing, and if not, controlling a turnover mechanism to turn over to the correct side and then sending the card to the control erasing printer for erasing; returning to the OCR mechanism after erasing; controlling an OCR mechanism to shoot verification printing information, judging whether the verification passes or not, if not, rewriting, and if so, controlling a non-contact read-write module to write certificate information and controlling a power wheel to return the certificate card to a transportation mechanism; transmitting the certificate card to a color retransfer printer; controlling a transport mechanism to take the printed certificate card; transmitting the certificate card to a laminating machine; controlling a transport mechanism to take the certificate card with the finished film; and transmitting the information to an OCR mechanism for shooting, checking and printing information, judging whether the checking passes or not, if not, recovering the information as a waste card, if so, judging whether the information is printed in batch, if not, controlling a power wheel to discharge the identification card to an in-out bayonet, if so, controlling a reversing block to discharge the identification card to a batch card manufacturing port, judging whether the printing is finished, if not, re-executing a transportation mechanism to a card issuing mechanism to take a blank card, and if so, finishing the card manufacturing process.

By adopting the technical scheme, the desktop type multi-service self-service certificate-making and endorsement equipment, the system and the service method provided by the invention have the following beneficial effects: the desktop type multi-service self-service certificate-making and endorsement equipment adopts a desktop type design, is designed towards miniaturization, integration and internal module localization, has small volume, light weight, strong deployability, low investment cost, powerful functions, simple and convenient maintenance and easy operation, effectively provides service handling efficiency and improves the service satisfaction degree; the method can realize the change of endorsements of the existing cards or the preparation of new cards and can realize the preparation of single cards or batch preparation of certificates; an industrial control unit is integrated, and the certification task can be automatically completed by upper-layer control, or an operator controls an operation screen to independently complete the card making task; the card adding reminding device has the functions of reminding card adding with few cards and alarming without cards, and the equipment does not need to be attended by personnel during batch certificate making; the self-adaption is strong, the business function is configured according to the needs, various business systems can be customized, the system is suitable for various government affair service halls, certificate handling organizations, certificate card issuing units and the like, and the system can be widely applied to multiple fields of public security, traffic, finance and commerce.

Drawings

FIG. 1 is a perspective view of a desktop multi-service self-service certificate-making and endorsement device of the present invention;

FIG. 2 is a perspective view of another angle of the desktop multi-service self-service certificate-making and endorsement device of the present invention;

FIG. 3 is a schematic diagram of an internal structure of the desktop multi-service self-service certificate-making and endorsement device according to the present invention;

FIG. 4 is a schematic diagram of an internal structure of the desktop multi-service self-service certificate-making and endorsement device at another angle according to the present invention;

FIG. 5 is a perspective view of a card issuing mechanism in the desktop multi-service self-service certificate-making and endorsement device of the present invention;

FIG. 6 is a schematic diagram of an internal structure of a card issuing mechanism in the desktop multi-service self-service certificate-making and endorsement device according to the present invention;

FIG. 7 is a perspective view of a transport mechanism in the desktop multi-service self-service certificate-making and endorsement device of the present invention;

FIG. 8 is a perspective view of an identification reversing mechanism in the desktop multi-service self-service certificate-making and endorsement device of the present invention;

FIG. 9 is an exploded view of a turnover mechanism in the desktop multi-service self-service certificate-making and endorsement device of the present invention;

FIG. 10 is a block diagram of a desktop multi-service self-service certificate-making and endorsement system of the present invention;

FIG. 11 is a flowchart of an endorsement flow in the desktop multi-service self-service endorsement service method of the present invention;

FIG. 12 is a flowchart of a card making process in the desktop multi-service self-service certificate making and endorsement service method of the present invention;

in the figure, 1-a shell bracket component, 2-a card issuing mechanism, 3-a recognition reversing mechanism, 4-a turnover mechanism, 5-a transportation mechanism, 6-an erasable card type endorsement machine, 7-an industrial control unit, 8-a color retransfer smart card printer, 9-a film coating machine, 10-a display control unit, 11-a main control unit, 21-a card slot, 22-a card box, 23-a card scraping transmission device, 24-a detection device, 231-a driving motor, 232-a first synchronous belt, 233-a first rotating shaft, 234-a second rotating shaft, 235-a second synchronous belt, 236-a first guide shaft, 237-a second guide shaft, 238-a scraper seat, 239-a scraper, 2310-an elastic unit, 2311-a rotating shaft, 31-a bracket, 32-limiting piece, 33-front power wheel, 34-rear power wheel, 35-side power wheel, 36-first motor, 37-second motor, 38-electromagnet, 39-batch distribution box, 310-OCR module, 311-reversing block, 312-non-contact module, 41-upper bracket, 42-lower bracket, 43-first driving motor, 44-driving shaft, 45-turnover device, 46-second driving motor, 47-rotating wheel, 48-third driving motor, 49-chain belt, 51-left bracket, 52-right bracket, 53-third guiding shaft, 54-fourth guiding shaft, 55-driving unit, 56-third synchronous belt, 57-trolley component, 58-detecting unit, 101-clamping box maintenance window, 102-box cover buckle, 103-forced certificate-withdrawing switch, 104-in and out bayonet, 105-batch card-making and taking bayonet, 106-indicator light bar, 107-operation screen, 108-laminating machine maintenance door, 109-color retransfer smart card printer maintenance door, 110-equipment switch power supply interface, 111-equipment grounding interface, 112-USB interface, 113-network cable interface, 114-cooling fan, 115-side maintenance door and 116-card.

Detailed Description

The following further describes embodiments of the present invention with reference to the drawings. It should be noted that the description of the embodiments is provided to help understanding of the present invention, but the present invention is not limited thereto. In addition, the technical features involved in the embodiments of the present invention described below may be combined with each other as long as they do not conflict with each other.

In the description of the present invention, it is to be understood that the terms "central," "longitudinal," "lateral," "length," "width," "thickness," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," "clockwise," "counterclockwise," "axial," "radial," "circumferential," and the like are used in the orientations and positional relationships indicated in the drawings for convenience in describing the invention and to simplify the description, and are not intended to indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and are therefore not to be considered limiting of the invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In the description of the present invention, "a plurality" means at least two, e.g., two, three, etc., unless specifically limited otherwise.

As shown in fig. 1-9, the desktop multi-service self-service certificate-making and endorsement device includes a housing bracket assembly 1 and a card issuing mechanism 2 disposed in the housing bracket assembly 1, a recognition reversing mechanism 3, a reversing mechanism 4, a transportation mechanism 5, an erasable card type endorsement machine 6, an industrial control unit 7, a color retransfer smart card printer 8, a film coating machine 9, a display control unit 10 and a main control unit 11, wherein the card issuing mechanism 2, the recognition reversing mechanism 3, the reversing mechanism 4, the transportation mechanism 5, the erasable card type endorsement machine 6, the industrial control unit 7, the color retransfer smart card printer 8, the film coating machine 9 and the display control unit 10 are electrically connected with the main control unit 11. It can be understood that, the housing bracket assembly 1 is provided with a card box maintenance window 101, a box cover buckle 102, a forced card quitting switch 103, an in-out bayonet 104, a batch card making and fetching bayonet 105, an indication light bar 106, an operation screen 107, a laminating machine maintenance door 108 and a color retransfer smart card printer maintenance door 109, the card box maintenance window 101 and the box cover buckle 102 are both arranged at the upper end of the housing bracket assembly 1, the forced card quitting switch 103, the in-out bayonet 104, the batch card making and fetching bayonet 105, the indication light bar 106 and the operation screen 107 are all arranged at the front end of the housing bracket assembly 1, and the laminating machine maintenance door 108 and the color retransfer smart card printer maintenance door 109 are both arranged at the right side of the housing bracket assembly 1; the enclosure bracket assembly 1 is further provided with an equipment switching power supply interface 110, an equipment grounding interface 111, a USB interface 112, a network cable interface 113, a heat dissipation fan 114 and a side maintenance door 115, the equipment switching power supply interface 110, the equipment grounding interface 111, the USB interface 112, the network cable interface 113 and the heat dissipation fan 114 are all arranged at the rear end of the enclosure bracket assembly 1, and the side maintenance door 115 is arranged at the left side of the enclosure bracket assembly 1. As can be understood, the housing bracket assembly 1 is used for supporting and mounting various mechanisms and assemblies; the card issuing mechanism 2 is used for storing prefabricated or blank cards and sequentially scraping the cards 116 according to the requirement; the transport mechanism 5 is used to transport the card 116 to each module; the erasable card printer adopts the heat sensitive technology to directly print the content on the erasable material or erase the original content and print the new content; industrial control unit 7: the industrial control mainboard is a special industrial computer which is mainly used for an industrial computer to help process industrial projects; the color retransfer smart card printer 8 may print the information on the surface of the card 116 as desired; the laminating machine 9 is used for coating a layer of anti-counterfeiting film on the upper surface of the card 116 with printed information; the identification reversing mechanism 3 adopts a camera to check characters on the surface of the card 116, and adopts a non-contact card reader to effectively read or write information of a chip of the card 116 in the process of translating the shape into computer characters by a character identification method; the turnover mechanism 4 is used for turning over the front side and the back side of the card 116; the main control unit 11 is electrically connected to each module of the apparatus, and is used for controlling each action of the entire apparatus.

It can be understood that the housing bracket assembly 1 comprises a box body and a box cover which are opposite up and down, wherein the box cover can be opened and closed, and a mounting bracket which is welded or fixed on the box body by screws; the card issuing mechanism 2 comprises a card holder and a card box 22 arranged on the card holder, and a certain number of prefabricated or blank cards can be stored in the card box 22; the card seat can vertically place the card box 22, scrape out the card at the bottommost part of the card box 22 and send the card to the trolley component 57 of the transportation component; the transport mechanism 5 comprises a left bracket 52 and a right bracket 52 which are oppositely arranged, and a third guide shaft 53 and a fourth guide shaft 54 which are fixed on the left bracket 52 and the right bracket 52, and a trolley assembly 57 can move left and right along the third guide shaft 53 and the fourth guide shaft 54; the erasable card endorsement machine 6 adopts the heat sensitive technology to directly print the content on the erasable material or erase the original content and print the new content; the industrial control mainboard in the industrial control unit 7 is a special mainboard which is mainly used for an industrial computer to help process industrial projects; the color retransfer smart card printer 8 prints characters or pictures on the surface of the card 116; the laminator 9 includes laminating the upper surface of the printed card 116; the recognition reversing mechanism 3 is an OCR recognition mechanism, and includes functions of card entering and exiting at two ends, the OCR module 310 can perform front and back recognition on the card 116, and the card 116 can be recycled; the turnover mechanism 4 carries out positive and negative turnover on the card identified by the OCR; the display control unit 10 comprises a touch display screen, and can know the running state of the equipment in real time and carry out input control on the equipment; the main control unit 11 is electrically connected to each module, and controls and feeds back each module.

Specifically, the card entrance/exit 104 and the batch card making/fetching 105 are connected to the transportation mechanism 5, and the forced certificate rejection switch 103, the indicator light bar 106 and the operation screen 107 are electrically connected to the main control unit 11; the device switching power supply interface 110, the USB interface 112, the network cable interface 113, and the heat dissipation fan 114 are electrically connected to the main control unit 11, and the device ground interface 111 is grounded.

It can be understood that the touch control screen 107 is arranged on the front surface of the device to control the operation of the service as an interactive operation interface, and integrate characters and pictures to prompt a user to operate the device, or perform device initialization management. The card inlet/outlet is arranged to insert endorsements, print out and output single-certificate cards, and if batch card making is carried out, the cards are output to the batch card making card taking outlet 105 in batches. The forced card-withdrawing switch 103 is disposed on the card-in/card-out position for forced card-withdrawing. The upper and right sides of the apparatus are the maintenance access doors for the interior modules. On the left is a side maintenance door 115: the internal module is maintained, and the central part of the front surface is provided with a cooling fan 114 for internal cooling, in particular cooling of core modules such as the endorsement module, the main control board and the industrial personal computer. And setting a power interface, accessing 220V 50Hz alternating current, and setting an equipment switch for power connection/disconnection. The USB serial port and the RJ45 network interface are arranged to realize local or remote control of the equipment, and the USB serial port is commonly used for local host control and equipment safety management. The network interface realizes Ethernet connection, and performs remote system control, data transmission and service management functions.

Specifically, the transportation mechanism 5 is respectively connected with the card issuing mechanism 2, the identification reversing mechanism 3, the turnover mechanism 4, the erasable card type endorsement machine 6, the color retransfer intelligent card printer 8 and the film laminating machine 9; this display control unit 10 and main control unit 11 all set up in the inboard front end of this shell bracket component 1, and this discernment reversing mechanism 3, hairpin mechanism 2 and laminating machine 9 are set gradually in the rear of display control unit 10 by turning right left side, and this industrial control unit 7, tilting mechanism 4, erasable card class endorsement machine 6 and colored retransfer printing smart card printer 8 set gradually in the rear of transport mechanism 5 by turning right left side.

Specifically, the card issuing mechanism 2 is provided with a card slot 21 and a card box 22, the bottom of the card slot 21 is provided with a card scraping transmission device 23, the side surface of the card slot 21 is provided with a detection device 24, the card scraping transmission device 23 comprises a driving motor 231, a first synchronous belt 232, a first rotating shaft 233, a second rotating shaft 234, a second synchronous belt 235, a first guide shaft 236, a second guide shaft 237, a scraper seat 238, a scraper 239, an elastic unit 2310 and a rotating shaft 2311, the first synchronous belt 232 is respectively connected with the driving motor 231 and the first rotating shaft 233, the first rotating shaft 233 is connected with the second synchronous belt 235, the scraper seat 238 is fixedly arranged on the second synchronous belt 235, and the scraper seat 238 is respectively connected with the scraper 239, the first guide shaft 236, the second guide shaft 237, the elastic unit 2310 and the rotating shaft 2311. It can be understood that the four sides of the card slot 21 are oppositely arranged, a groove is arranged in the middle of the card slot 21 and can be used for placing the card box 22, the bottom of the groove of the card slot 21 is provided with a card scraping transmission device 23, and the side surface of the card slot 21 is provided with a detection device 24. Card 116 that a certain amount was used for making the card can be placed in the card case 22, and the mechanical lock is located card case 22 top, and card case 22 front end bottom is the mechanical gate, and this gate self-closing when card case 22 was placed alone can prevent that card 116 in the card case 22 from taking out, and this card case 22 has certain theftproof, prevents the function that card 116 lost. When the card box 22 is placed at the bottom of the groove of the card slot 21, the gate of the card box 22 can be opened by the mechanical key in the card slot 21, and the card 116 at the bottom in the card box 22 can be scraped out from the gap of the mechanical gate. The detection devices 24 arranged on the side walls of the card slot 21 are realized by photoelectric sensing units, and can realize the detection functions of detecting whether the card box 22 exists, warning less cards 116 in the card box 22, alarming when no card exists in the card box 22, scraping the card by a scraper at the original position, pushing out the card by the scraper and the like. The driving motor 231 drives the first timing belt 232 to rotate the first rotating shaft 233, the second timing belt 235 moves along with the first rotating shaft 233, and the scraper seat 238 is fixed to the second timing belt 235, so that the scraper seat 238 moves back and forth along the first guide shaft 236 and the second guide shaft 237. The scraper seat 238 is shown in the initial position in fig. 6, when it moves to the left along the guiding shaft for a certain displacement, the scraper groove will abut against the right side of the first card at the bottom of the card box 22, the scraper will move to the left to push the card 116 to move to the left, so that the card 116 can be pushed out from the card box 22, and when the scraper moves to the left to the first rotating shaft 233, the card 116 is completely scraped out of the card box 22. When the scraper seat 238 moves back to the initial position to the right, the inside card of the card box 22 will exert a leftward force on the scraper, the scraper lowers its head leftwards along the rotation shaft 2311, i.e. the scraper will not jack up the inside card of the card box 22, when the scraper moves to the initial position to the right, the scraper will lift up under the action of the elastic unit 2310, and the next action of scraping the card can be repeated.

Specifically, this transport mechanism 5 includes left socle 51, right socle 52, third guiding axle 53, fourth guiding axle 54, drive unit 55, third hold-in range 56, dolly subassembly 57 and detecting element 58, this third guiding axle 53 and fourth guiding axle 54 are all connected with left socle 51 and right socle 52 respectively, this drive unit 55 sets up in the right side of left socle 51, this third hold-in range 56 is connected with drive unit 55, this dolly subassembly 57 is fixed to be set up on third hold-in range 56, this detecting element 58 is fixed to be set up in the below of hold-in range. It can be understood that, the left bracket 51 and the right bracket 52 are oppositely arranged left and right, the third guide shaft 53 and the fourth guide shaft 54 are respectively arranged between the left bracket 52 and the right bracket 52, the driving unit 55 is arranged at the side of the left bracket 51, the driving unit 55 drives the third synchronous belt 56 to rotate between the left bracket 52 and the right bracket 52, the trolley assembly 57 is fixed on the synchronous belt, therefore, the trolley assembly 57 can move left and right along the third guide shaft 53 and the fourth guide shaft 54, and the detecting unit 58 can detect the position of the trolley moving left and right. Either card 116 can be drawn in or out from the front and rear ends of the cart assembly 57, and the card 116 can also be temporarily stored inside the cart.

Specifically, the identifying and reversing mechanism 3 includes a support 31, a front power wheel 33, a rear power wheel 34, a side power wheel 35, a first motor 36, a second motor 37, an electromagnet 38, a batch dispensing box 39, an OCR module 310, a reversing block 311 and a non-contact module 312, wherein the support 31 is provided with a plurality of limiting pieces 32, the first motor 36 is respectively connected with the front power wheel 33 and the rear power wheel 34 through a synchronous belt, the second motor 37 is connected with the side power wheel 35, the OCR module 310 is arranged on the support 31, the electromagnet 38 is arranged on the outer side of the right side wall of the batch dispensing box 39, the shaft end of the reversing block 311 is connected with the electromagnet 38, and the non-contact module 312 is arranged on the reversing block 311. As can be appreciated, the brackets 31 are disposed opposite to each other on the left and right. The plurality of position-limiting pieces 32 are fixed at the front and rear ends of the left and right brackets 31 to form a channel for the card 116 to move back and forth. The first motor 36 transmits power to the front power wheel 33 and the rear power wheel 34 through a synchronous belt, the motor 37 transmits power to the two side power wheels 35 which are arranged side by side, and the card 116 moves back and forth in the channel under the action of the front power wheel 34 and the rear power wheel 35. When the card 116 is completely held by the side power wheels 35, the card 116 is separated from the front and rear power wheels 34, and the surface of the card 116 is completely exposed, so that the OCR module 310 disposed above the left and right supports 31 can recognize information on the surface of the card 116. The electromagnet 38 is arranged on the outer side of the right side wall, the shaft end of the reversing block 311 is connected with the electromagnet 38, and the front end of the reversing block 311 does not act on the clamping piece 116 at the lower end of the limiting piece 32 under normal conditions. The contactless module 312 disposed on the upper surface of the commutation block 311 can perform RFID technology electrical reading and writing on the card 116 chip. After the electromagnet 38 drives the reversing block 311 to rotate upwards for a certain angle along the rotating shaft 2311, the tail end of the reversing block 311 is higher than the limiting piece 32, the cards 116 entering from the right side can fall downwards into the batch dispensing box 39 to be freely stacked under the action of the reversing block 311, the electromagnet 38 drives the reversing block 311 back to the original position after the cards 116 enter the recycling box, and a worker can take out the cards 116 from the card taking opening outside the device. The card 116 generally has a front side and a back side, and the two sides display different information, for example, the front side of the hong Kong and Australia pass is the picture and the personal information, and the back side is the information such as the endorsement and the two-dimensional code, so the front side and the back side of the card 116 need to be identified by COR before printing, and if the OCR identifies that the printing side of the card 116 is incorrect, the front side and the back side of the card 116 can be rotated by 180 degrees through the overturning module.

Specifically, the turnover mechanism 4 includes an upper bracket 41, a lower bracket 42, a first driving motor 43, a driving shaft 44, a turnover device 45, a second driving motor 46, a rotating wheel 47, a third driving motor 48 and a chain belt 49, the upper bracket 41 is fixedly connected to the lower bracket 42, the first driving motor 43, the driving shaft 44, the turnover device 45, the second driving motor 46 and the rotating wheel 47 are all disposed on the upper bracket 41, the rotating wheel 47 is connected to the first driving motor 43, the driving shaft 44 is connected to the turnover device 45, and the third driving motor 48 and the chain belt 49 are all disposed on the lower bracket 42. It can be understood that the turnover mechanism 4 has a card turnover function, and can turn over the card surface which is not in line with the erasing and writing direction of the erasing and writing module, and is fixed by the upper bracket 41 and the lower bracket 42. The wheel 47 is driven to rotate by the second drive motor 46 to draw in the card 116 and to eject the card 116. After the card surface direction is identified by the identification reversing mechanism 3, the system judges whether the card surface needs to be turned up and down, and the card 116 is directly sent out without turning. Otherwise, the first driving motor 43 drives the chain belt 49 to drive the driving shaft 44, so as to drive the turnover device 45 to turn over, thereby realizing vertical turnover of 180 degrees and enabling the card surface to conform to the printing surface of the erasing and writing printer. A third driving motor 48 and a driving chain belt 49 are additionally arranged on the lower support 42 to drive the whole upper support 41 to rotate forwards and backwards, and the horizontal turnover function of 180 degrees forwards and backwards and the vertical turnover function of 180 degrees upwards and downwards are integrally realized by combining the vertical turnover function inside the upper support 41, so that the adaptive printing face and the azimuth of the erasing printer are strictly limited. The invention relates to a turnover mechanism 4 and a endorsement turnover module converted by an erasable card endorsement machine 6, which can realize that the certificate cards can be inserted in any card surface direction and front and back directions and correct erasing endorsement can be realized.

Specifically, fig. 10 is a block diagram of a desktop multi-service self-service certificate-making and endorsement system according to the present invention, and as can be seen from fig. 1 to 10, the desktop multi-service self-service certificate-making and endorsement system includes an equipment system and a management system connected to the equipment system, and the equipment system includes: the application layer is composed of front-end applications and used for data input and output interaction; the interface layer is used for processing the business logic and providing interface service for the outside; the resource layer consists of a first operating system, an equipment module, a control unit and equipment hardware; the service layer is used for encapsulating the equipment module of the resource layer into a service mode; the management system consists of a service management system, a service interface, a database, a second operating system and a server and is used for providing management interface service, recording service data, storing an operation log, monitoring the running state of equipment, registering the management equipment and authorizing a login account. It can be understood that the desktop type multi-service self-service certificate-making and endorsement system is designed to support the making and endorsement functions of a plurality of types of certificate cards of a harbor permit, a Macau permit, a round trip Taiwan permit, a local residence permit, a student permit and a financial card on hardware. The device system is logically divided into an application layer, an interface layer, a service layer and a resource layer. The application layer is composed of front-end applications and used for data input and output interaction, the interface layer processes business logic and provides interface services for the outside, and the service layer encapsulates equipment modules of the resource layer into a service mode, so that the front end is concentrated on the development of the front-end layer, and the development efficiency is improved. The service management system provides management interface service, records service data, stores operation logs, monitors the running state of the equipment, registers the management equipment, authorizes login accounts, and integrates certificate making service and endorsement service systems to realize service functions. The certificate making service and the endorsement service are customized according to the requirements of users, the service is defined by a system through a software definition function, the customization according to the requirements is realized, and the application range of the invention is effectively enhanced.

Specifically, fig. 11 is a flowchart of an endorsement flow in the desktop multi-service self-service certificate-making and endorsement service method of the present invention, and it can be known from fig. 1 to 12 that the desktop multi-service self-service certificate-making and endorsement service method includes an endorsement flow and a card-making flow, and the endorsement flow includes: selecting endorsement erasing business or certificate card manufacturing business through a touch interactive screen, and controlling a power wheel to suck the certificate card; controlling the non-contact read-write module to read certificate information; judging whether the certificate card meets the endorsement condition, if not, controlling a power wheel to discharge the certificate card, and if so, controlling an OCR mechanism to identify the card surface orientation of the certificate card; controlling the transport mechanism 5 to transfer the certificate card to the turnover mechanism 4; selecting a direct erasing printer type or an erasing printer type with direction identification; in the type of the direct erasing printer, judging whether the orientation of the certificate card accords with a printing mode, if so, controlling the erasing and writing endorsement machine to erase and write directly, and if not, controlling the turnover mechanism 4 to turn over the certificate card by 180 degrees or 360 degrees, and then controlling the erasing and writing endorsement machine to erase and write directly; returning to the OCR mechanism after erasing; in the direction identification erasing printer type, judging whether the positive and negative directions of the certificate card accord with a printing mode, if not, controlling the turnover mechanism 4 to vertically turn over the certificate card by 180 degrees, if so, judging the left and right directions of the certificate card, if the positive direction is positive, controlling the erasing and writing endorsement machine to erase and write in sequence, if the reverse direction is negative, controlling the erasing and writing endorsement machine to erase and write in reverse sequence, and returning to the OCR mechanism after erasing and writing are finished; controlling an OCR mechanism to shoot verification printing information and judge whether the verification passes or not, if not, rewriting and writing and returning to the OCR mechanism in the original way after completing the rewriting, if so, controlling a non-contact reading and writing module to write certificate information and controlling a power wheel to discharge a certificate card; the card making process comprises the following steps: selecting a endorsement erasing service or a certificate card making service through a touch interactive screen; controlling the transport mechanism 5 to the card issuing mechanism 2 to take the white card; the white card is transmitted to an OCR recognition reversing mechanism 3, whether the positive and negative directions of the card accord with a printing mode or not is judged, if yes, the card is sent to a control erasing printer for erasing, and if not, a turnover mechanism 4 is controlled to turn over to the correct side and then the card is sent to the control erasing printer for erasing; returning to the OCR mechanism after erasing; controlling an OCR mechanism to shoot the verification printing information and judge whether the verification passes or not, if not, rewriting, and if so, controlling a non-contact read-write module to write certificate information and controlling a power wheel to return the certificate card to the transportation mechanism 5; transmitting the certificate card to a color retransfer printer; controlling the transport mechanism 5 to take the printed certificate card; transmitting the certificate card to a laminating machine 9; controlling the transport mechanism 5 to take the certificate card with the finished film; and transmitting the information to an OCR mechanism for shooting, checking and printing information, judging whether the checking passes or not, if not, discharging the information as a waste card, if so, judging whether the information is printed in batch, if not, controlling a power wheel to discharge the card to an in-out bayonet 104, if so, controlling a reversing block 311 to discharge the card to a batch card manufacturing port, judging whether the printing is finished, if not, re-controlling a transport mechanism 5 to a card issuing mechanism 2 to take a blank card, and if so, ending the card manufacturing process.

It can be understood that the card 116 needs to be inserted from the card inlet at the left front end of the device, the OCR recognition reversing mechanism 3 sucks the card 116, and the operations of OCR recognition of the front and back sides of the card 116, electric reading and writing of the card chip, and the like are performed. At the moment, the two conditions are divided, when the endorsement surface of the card 116 faces downwards, the card 116 is sent into the turnover module by the trolley to rotate 180 degrees, and the endorsement surface of the card 116 faces upwards; then, the card is transported to an erasing module by the transportation mechanism 5 as the same as the situation that the endorsement face of the card 116 is upward identified by OCR, and the operator operates the equipment through the display control unit 10 to perform rewritable high-quality printing on the endorsement information of the card 116; after printing, the transportation module sends the card 116 back to the OCR recognition and reversing channel, the OCR module recognizes and confirms the printed information of the card 116, the non-contact card reader conducts chip verification on the chip information of the card 116 again, and after the verification is confirmed to be successful, the card 116 is photographed and stored, and exits from the card entrance and returns to the card clerk. The new card is scraped out from the card issuing mechanism 2 to the transport mechanism 5 as required, the transport mechanism 5 carries the card to move to the left side, and the card is sent into the OCR recognition and reversing channel to perform operations such as OCR recognition of the front and back sides of the card 116, electric writing and the like. Similarly, when the card 116 is turned upside down, the card 116 is conveyed into the turnover module by the conveying mechanism 5 and is rotated 180 degrees, and the back of the card is turned upside down; then, as the OCR recognizes that the back of the card 116 faces upwards, the card is transported to an erasing module by a transportation mechanism 5, and the endorsement information on the back of the card 116 is printed in a rewritable high-quality mode; after printing, the trolley sends the card 116 back to the OCR recognition and reversing channel, the OCR recognition confirmation is carried out on the back side printing information of the card 116, the OK control non-receiving read-write module writes in the certificate information, the card 116 is returned to the trolley, the trolley drives the card 116 to move rightwards to the inlet of the color retransfer intelligent card printer 8, and the card 116 is sent into the printer. The printer prints pictures and character information on the front surface of the card 116, the card 116 is sent into the film laminating machine 9 by the trolley after printing, the front surface of the card 116 is coated with a film, and the film is provided with functions of laser anti-counterfeiting of an old version and protection of the card 116 against abrasion. The card 116 after being coated with the film is sent to an OCR recognition and reversing channel by a trolley, the front face of the card 116 is subjected to OCR recognition, and the card 116 is directly withdrawn from the card inlet or withdrawn into the batch issuing box 39 after being confirmed to be OK.

It can be understood that the card making device is reasonable in design and unique in structure, 1, cards can be made by single card or in batches, and the reversing block 311 for batch card making is used for guiding the cards into the batch card making and taking bayonet 105; 2. 2 card boxes 22 are arranged in parallel, different types of cards 116 can be placed in the card boxes respectively, and the card box maintenance window 101 is arranged at the top of the box cover, so that the cards can be conveniently added and replaced in the card boxes 22, and a manager and an operator can be conveniently distinguished; 3. the operation screen 107 can be opened upwards by a certain angle, so that the certificate clerk can stand or sit on a stool conveniently; 4. the manufacturing and endorsement functions of various card cards of the Hongkong and Macao pass, the round-trip Taiwan pass, residence permit in each place and student permit are realized; 5. the software system defines the service function, and designs the service function of the equipment according to the actual requirements of users and needs so as to meet the service selection of different fields, different mechanisms and different regions.

The embodiments of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited to the described embodiments. It will be apparent to those skilled in the art that various changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, and the scope of protection is still within the scope of the invention.

Claims (10)

1. The utility model provides a self-service system of desktop formula multiservice visa endorsement equipment which characterized in that: including the shell bracket component and set up in hairpin mechanism, discernment reversing mechanism, tilting mechanism, transport mechanism, erasable card class endorsement machine, industrial control unit, colored rendition smart card printer, laminating machine, display control unit and the main control unit in the shell bracket component, hairpin mechanism, discernment reversing mechanism, tilting mechanism, transport mechanism, erasable card class endorsement machine, industrial control unit, colored rendition smart card printer, laminating machine and display control unit all with the main control unit electricity is connected.

2. The desktop multi-service self-service visa endorsement device of claim 1, wherein: the shell support assembly is provided with a card box maintenance window, a box cover buckle, a forced card returning switch, an inlet and outlet bayonet, batch card making and taking bayonets, an indicator light bar, an operation screen, a laminating machine maintenance door and a color retransfer printing intelligent card printer maintenance door, wherein the card box maintenance window and the box cover buckle are arranged at the upper end of the shell support assembly, the forced card returning switch, the inlet and outlet bayonet, the batch card making and taking bayonet, the indicator light bar and the operation screen are arranged at the front end of the shell support assembly, and the laminating machine maintenance door and the color retransfer printing intelligent card printer maintenance door are arranged at the right side of the shell support assembly; still be provided with equipment switching power supply interface, equipment ground connection interface, USB interface, net twine interface, radiator fan and side maintenance door on the shell bracket subassembly, equipment switching power supply interface, equipment ground connection interface, USB interface, net twine interface and radiator fan all set up in the rear end of shell bracket subassembly, the side maintenance door sets up in the left side of shell bracket subassembly.

3. The desktop multi-service self-service visa endorsement device of claim 2, wherein: the card inlet and outlet and the batch card making and taking card ports are connected with the conveying mechanism, and the forced card withdrawing switch, the indicating lamp bar and the operation screen are electrically connected with the main control unit; the equipment switching power supply interface, the USB interface, the network cable interface and the cooling fan are electrically connected with the main control unit.

4. The desktop multi-service self-service visa endorsement device of claim 1, wherein: the transportation mechanism is respectively connected with the card issuing mechanism, the identification reversing mechanism, the turnover mechanism, the erasable card type endorsement machine, the color retransfer intelligent card printer and the film laminating machine; the display control unit and the main control unit are arranged at the front end of the inner side of the shell support component, the identification reversing mechanism, the card issuing mechanism and the film laminating machine are sequentially arranged at the rear of the display control unit from left to right, and the industrial control unit, the overturning mechanism, the erasable card type endorsement machine and the color retransfer intelligent card printer are sequentially arranged at the rear of the transport mechanism from left to right.

5. The desktop multi-service self-service visa endorsement device of claim 1, wherein: card issuing mechanism is last to be provided with draw-in groove and card case, the draw-in groove bottom is provided with scrapes card transmission, the draw-in groove side is provided with detection device, scrape card transmission and include driving motor, first synchronous belt, first axis of rotation, second hold-in range, first guiding axle, second guiding axle, scrape blade holder, scraper, elastic unit and pivot, first synchronous belt is connected with driving motor and first axis of rotation respectively, first axis of rotation is connected with the second hold-in range, it is fixed to set up on the second hold-in range to scrape the blade holder, the scraper holder is connected with scraper, first guiding axle, second guiding axle, elastic unit and pivot respectively.

6. The desktop multi-service self-service visa endorsement device of claim 1, wherein: transport mechanism includes left socle, right branch frame, third guiding axle, fourth guiding axle, drive unit, third hold-in range, dolly subassembly and detecting element, third guiding axle and fourth guiding axle are equallyd divide and are do not connected with left socle and right branch frame, drive unit sets up in the right side of left socle, the third hold-in range is connected with drive unit, dolly subassembly is fixed to be set up on the third hold-in range, detecting element is fixed to be set up the below at the hold-in range.

7. The desktop multi-service self-service visa endorsement device of claim 1, wherein: discernment reversing mechanism includes that support, preceding power wheel, back power wheel, side power wheel, first motor, second motor, electro-magnet, batch issue case, OCR module, switching-over piece and non-contact module, be provided with the spacing piece of a plurality of on the support, first motor passes through the hold-in range and is connected with preceding power wheel and back power wheel respectively, the second motor is connected with the side power wheel, the OCR module sets up on the support, the electro-magnet sets up in the right side wall outside of batch issue case, switching-over piece axle head is connected with the electro-magnet, the non-contact module sets up on the switching-over piece.

8. The desktop multi-service self-service visa endorsement device of claim 1, wherein: the turnover mechanism comprises an upper support, a lower support, a first driving motor, a driving shaft, a turnover device, a second driving motor, a rotating wheel, a third driving motor and a chain belt, wherein the upper support is fixedly connected with the lower support, the first driving motor, the driving shaft, the turnover device, the second driving motor and the rotating wheel are all arranged on the upper support, the rotating wheel is connected with the first driving motor, the driving shaft is connected with the turnover device, and the third driving motor and the chain belt are all arranged on the lower support.

9. The utility model provides a self-service system of making a certificate endorsement system of desktop formula multiservice which characterized in that: including equipment system and with the management system of equipment system connection, equipment system includes: the application layer is composed of front-end applications and used for data input and output interaction; the interface layer is used for processing the business logic and providing interface service for the outside; the resource layer consists of a first operating system, an equipment module, a control unit and equipment hardware; the service layer is used for encapsulating the equipment module of the resource layer into a service mode; the management system consists of a service management system, a service interface, a database, a second operating system and a server and is used for providing management interface service, recording service data, storing an operation log, monitoring the running state of equipment, registering the management equipment and authorizing a login account.

10. A desktop type multi-service self-service certificate-making and endorsement service method is characterized by comprising the following steps: the method comprises an endorsement process and a card making process, wherein the endorsement process comprises the following steps: selecting endorsement erasing business or certificate card manufacturing business through a touch interactive screen, and controlling a power wheel to suck the certificate card; controlling the non-contact read-write module to read certificate information; judging whether the certificate card meets the endorsement condition, if not, controlling a power wheel to discharge the certificate card, and if so, controlling an OCR mechanism to identify the card surface orientation of the certificate card; controlling the transport mechanism to transfer the certificate card to the turnover mechanism; selecting a direct erasing printer type or an erasing printer type with direction identification; in the type of the direct erasing printer, judging whether the orientation of the certificate card accords with a printing mode, if so, controlling the erasing and writing endorsement machine to erase and write directly, and if not, controlling the turnover mechanism to turn over the certificate card by 180 degrees or 360 degrees, and then controlling the erasing and writing endorsement machine to erase and write directly; returning to the OCR mechanism after erasing; in the direction identification erasing printer type, judging whether the positive and negative directions of the certificate card accord with a printing mode, if not, controlling a turnover mechanism to vertically turn over the certificate card by 180 degrees, if so, judging the left and right directions of the certificate card, if the positive direction is positive, controlling an erasing and writing endorsement machine to erase and write in sequence, if the reverse direction is negative, controlling the erasing and writing endorsement machine to erase and write in reverse sequence, and returning to an OCR mechanism in the original path after erasing and writing are finished; controlling an OCR mechanism to shoot verification printing information and judge whether the verification passes or not, if not, rewriting and writing and returning to the OCR mechanism in the original way after completing the rewriting, if so, controlling a non-contact reading and writing module to write certificate information and controlling a power wheel to discharge a certificate card;

the card making process comprises the following steps: selecting a endorsement erasing service or a certificate card making service through a touch interactive screen; controlling the transportation mechanism to send the white card to the card issuing mechanism; transmitting the white card to an OCR recognition reversing mechanism, judging whether the positive and negative directions of the card accord with a printing mode, if so, sending the card to a control erasing printer for erasing, and if not, controlling a turnover mechanism to turn over to the correct side and then sending the card to the control erasing printer for erasing; returning to the OCR mechanism after erasing; controlling an OCR mechanism to shoot verification printing information, judging whether the verification passes or not, if not, rewriting, and if so, controlling a non-contact read-write module to write certificate information and controlling a power wheel to return the certificate card to a transportation mechanism; transmitting the certificate card to a color retransfer printer; controlling a transport mechanism to take the printed certificate card; transmitting the certificate card to a laminating machine; controlling a transport mechanism to take the certificate card with the finished film; and transmitting the information to an OCR mechanism for shooting, checking and printing information, judging whether the checking passes or not, if not, recovering the information as a waste card, if so, judging whether the information is printed in batch, if not, controlling a power wheel to discharge the identification card to an in-out bayonet, if so, controlling a reversing block to discharge the identification card to a batch card manufacturing port, judging whether the printing is finished, if not, re-executing a transportation mechanism to a card issuing mechanism to take a blank card, and if so, finishing the card manufacturing process.

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