CN109255397B - Modularized intelligent card desktop machine - Google Patents

Abstract

The invention discloses a modularized intelligent card desktop machine, which comprises an intelligent card library module and a combined functional module, wherein the intelligent card library module comprises a card library box body, card library sub-functional modules arranged in the card library box body, and a card conveying and cross-connecting module for carrying out card cross-connection between the card library sub-functional modules in the intelligent card library module and between the intelligent card library module and the combined functional module, wherein the card library sub-functional modules at least comprise card issuing modules for issuing cards; the combined functional module is one or more of a code printing and gold stamping module, a lithographic module and a magnetic writing core module; the code printing and gold stamping module, the lithographic module and the magnetic writing core writing module all comprise an outer box and a personalized processing module arranged in the outer box. The modularized intelligent card desktop machine has the advantages of small volume, light weight, convenient disassembly and transportation, high production and assembly efficiency, and capability of flexibly combining the function modules according to requirements, thereby realizing various instant card making/card capturing application requirements.

Description

Modularized intelligent card desktop machine

Technical Field

The invention relates to smart card personalized information processing equipment, in particular to a smart card desktop machine.

Background

In the production of smart cards, it is necessary to write to the card personal information of the user, which includes physical information on the surface of the card (for example, embossed codes printed by a coding device, graphic information printed by a lithographic device, etc.) and data information written into the chip of the card. The traditional intelligent card personalized treatment is completed in a card manufacturing factory, large-scale continuous operation personalized equipment is adopted, and the production process is suitable for mass card production. For small-lot card demands in daily life, it is obviously inappropriate to use traditional production methods, such as card replenishment, card replacement and new card handling by individuals, where individual cards are often produced, in order to accommodate such small-lot card demands, small smart card personalization devices have been developed in the prior art, which can be placed on a desk at a card handling site (e.g., a bank, government card handling department, etc.), and are therefore also referred to as "desktops".

The desktop machine is small in size, but in order to meet the requirements of various personalized treatment processes, various personalized treatment modules are generally integrated, and mainly comprise a card issuing module, a card transportation module, a code printing and hot stamping module, a lithographic printing module, a magnetic writing core module and the like. The existing desktop machines are divided into a single-layer desktop machine and a double-layer desktop machine according to the structural form. The utility model patent grant with the grant bulletin number of CN 205486183U discloses a double-layer smart card personalized information processing device, which comprises a frame, an upper processing module assembly line, a lower processing module assembly line, a card transferring mechanism arranged between the upper processing module assembly line and the lower processing module assembly line and an electric control box arranged below the lower processing module assembly line, wherein the upper processing module and the lower processing module are a plurality of magnetic writing modules, chip writing modules, cleaning modules, lithographic modules, code printing modules and soup printing modules which are arranged along the conveying direction of cards. Through the arrangement, the personalized information processing device has the advantages of small vertical size and compact overall structure.

However, the existing small-sized personalized information processing device has the following problems in practical application:

1. The existing small-sized personalized information processing equipment has much smaller volume and weight than the traditional large-sized personalized equipment, but the volume and weight are still larger than those of the traditional large-sized personalized information processing equipment which is carried by manpower, and the traditional small-sized personalized information processing equipment generally needs a plurality of people to carry the small-sized personalized information processing equipment together, so that the transportation and the use are still inconvenient.

2. Because the modules of the existing small-sized personalized information processing equipment are more, a plurality of modules need to be fixed on an installation rack in sequence, when the modules are produced and assembled, mutual attachment relation exists between the modules, namely when one module does not complete assembly and splicing, the modules adjacent to the module and the modules behind the module cannot be assembled and spliced in advance, so that the production and assembly efficiency of the device is greatly restricted, and particularly when the device is in a state of only needing shortage and is often in short supply in the market, the problem of low assembly efficiency is particularly remarkable.

3. In practical applications, the combined functional modules required to be applied in different occasions are different, for example, part of occasions may need to write a magnetic writing core module, a code printing thermoprinting module and a lithographic printing module, and part of occasions may need only one or two of them, so that the desktop machine with the combined functional modules cannot be selected according to the practical needs, and resource waste is caused.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provide the modularized intelligent card desktop machine which has small volume, light weight, convenient disassembly and transportation and high production and assembly efficiency, and can select functional modules for flexible combination according to the requirement so as to realize various instant card making/card capturing application requirements.

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

The modularized intelligent card desktop machine comprises an intelligent card library module and a combined functional module, wherein the intelligent card library module comprises a card library box body, card library sub-functional modules arranged in the card library box body, and a card conveying and exchanging module used for carrying out card exchange between the card library sub-functional modules in the intelligent card library module and between the intelligent card library module and the combined functional module, and the card library sub-functional modules at least comprise a card issuing module used for issuing cards; the card conveying and cross-connecting module comprises a card conveying trolley, a Y-axis driving mechanism for driving the card conveying trolley to move on a horizontal Y-axis and a Z-axis driving mechanism for driving the card conveying trolley to move in a Z-axis direction, and the card conveying trolley is also provided with a card driving mechanism for driving the card to move on the trolley along a horizontal X-axis; the card library box body is provided with a plurality of access ports for allowing the cards to extend out of the card library box body from the card feeding trolley along a horizontal X axis;

The combined functional module is one or more of a code printing and gold stamping module, a lithographic module and a magnetic writing core module; the code printing and gold stamping module, the lithographic module and the magnetic writing core writing module all comprise an outer box and a personalized processing module arranged in the outer box; the outer boxes of the code printing and stamping module, the lithographic module and the magnetic writing core module are provided with access ports for allowing cards to enter and exit the outer boxes, the outer boxes of the code printing and stamping module, the lithographic module and the magnetic writing core module are combined on one side of the smart card library module provided with the access ports, and the inlet and outlet bayonets in the outer box in the code printing gilding module, the lithographic module and the writing magnetic writing core module are in butt joint with one of the inlet and outlet bayonets.

Preferably, the card library sub-functional module further comprises a card storage box for storing cards, wherein a plurality of card storage grooves are uniformly formed in the inner cavity wall of the card storage box from bottom to top, one side surface of the card storage box is open, an inlet and an outlet of the card storage box are formed, and the inlet and the outlet of the card storage box face the card feeding trolley. After the card storage box is arranged, the processed cards can be stored in the card storage box, or the outside cards are intensively stored in the card storage box for centralized management through the carrying of the card carrying and exchanging module, and when the cards are used when needed, the cards are sent out as a card picking machine, so that the card picking machine plays a role. The card processing device has the advantages that the desktop machine integrates the card processing machine and the card receiving machine, not only can meet the personalized processing requirements of various cards, but also can meet the requirements of the card receiving machine, and realize the dual functions of instant card processing and card receiving, which has important significance for the production management of the cards, can help users get rid of the problem that the card processing machine and the card receiving machine are independent and cannot be connected for a long time, and has wide market prospect.

Preferably, a partition plate for layering the space in the card library box body is arranged in the card library box body, and a plurality of card issuing modules are arranged in parallel in each layer of space. When the novel tabletop machine is used, one card issuing module is used for storing a card, a plurality of card issuing modules are used for storing various types of cards, so that when the cards are produced and processed, the card conveying and intersecting module can select target cards from the plurality of card issuing modules for processing according to actual production requirements, the types of the cards are richer and more various, and the problem that the types of the cards in the conventional tabletop machine are single is solved.

Preferably, the card library sub-function module further comprises a personalized processing module, and the entrance and exit port of the personalized processing module faces one side of the card feeding trolley. The purpose of setting like this is that during the personalized processing of smart card, there is some little and often used combination function module such as write magnetism write mandrel module etc. volume, if carry out the box with this module alone and seal up, can waste very big space, and through above-mentioned after setting up this little combination function module in the card storehouse box, can enough guarantee the normal work of this processing module, can make holistic structure compacter again simultaneously, consequently the overall arrangement is effectual.

Preferably, the card feeding trolley is arranged on a lifting frame, two ends of the lifting frame are respectively connected with the frame through sliding guide rail pairs, wherein a sliding block of each sliding guide rail pair is arranged on the lifting frame, and a guide rail of each sliding guide rail pair is fixed on the frame; the Z-axis driving mechanism is composed of two groups of belt wheel conveying mechanisms and a motor, wherein the belt wheel conveying mechanisms are respectively arranged at two ends of the lifting frame, driving belt wheels in the two groups of belt wheel conveying mechanisms are coaxially arranged through connecting shafts, and conveying belts in the two groups of belt wheel conveying mechanisms are respectively connected with two ends of the lifting frame through fixing pieces. When the truck-feeding trolley is in operation, as the driving pulleys in the two groups of pulley conveying mechanisms are coaxially arranged, when the motor drives one group of pulley conveying mechanisms to rotate, the other group of pulley conveying mechanisms are simultaneously driven to synchronously move, so that the stress at the two ends of the lifting frame in lifting movement is balanced, and the stability of the lifting movement of the truck-feeding trolley is ensured.

Preferably, the lifting frame comprises fixing plates at two ends and a supporting rod arranged between the two fixing plates and used for supporting and guiding the card feeding trolley, the Y-axis driving mechanism is composed of a motor and a synchronous belt transmission mechanism, a driving belt wheel and a driven belt wheel in the synchronous belt transmission mechanism are respectively arranged on the fixing plates at two ends, an output shaft of the motor is arranged on the driving belt wheel, and the card feeding trolley is connected with a synchronous belt in the synchronous belt transmission mechanism through a fixing piece. When the automatic clamping device works, the motor rotates to drive the synchronous belt to move, so that the clamping trolley connected with the synchronous belt is driven to horizontally move along the Y axis. In addition, the Y-axis driving mechanism can also be composed of a motor and a screw rod transmission mechanism.

Preferably, the card driving mechanism is arranged on the frame of the card feeding trolley and comprises a card conveying guide rail, a roller conveying mechanism for driving a card to move on the card conveying guide rail and a card clamping and storing mechanism for driving the card to move between the card conveying guide rail and the card storage box; the card clamping and storing mechanism comprises a clamping piece used for clamping a card, a clamping piece fixing block, an opening and closing driving mechanism used for driving the clamping piece to do opening or closing movement and an access driving mechanism used for driving the clamping piece to do horizontal card access movement. When the card feeding trolley is used for taking the card, the clamping piece firstly moves to the card taking position of the card library under the drive of the access driving mechanism, then the opening and closing driving mechanism drives the clamping piece to be closed, clamps the card and sends the card to the roller conveying mechanism through the shrinkage motion; when the card is stored, the clamping piece clamps the card sent by the roller conveying mechanism under the drive of the opening and closing driving mechanism, and then the card is stored in the card box under the drive of the access driving mechanism, so that the card storing and taking task can be completed in an auxiliary mode according to requirements.

Preferably, a driving gear is arranged on the motor shaft, a driven gear meshed with the driving gear is arranged on the connecting shaft, and the driven gear is meshed with the driving gear. When the device works, the motor shaft sequentially drives the driving gear and the driven gear to rotate so as to drive the connecting shaft, and the device has the advantages of small size, compact structure and high transmission efficiency.

Preferably, the clamping piece is arranged on a clamping piece fixing plate and consists of an upper clamping block and a lower clamping block, one ends of the upper clamping block and the lower clamping block are connecting ends, the other ends of the upper clamping block and the lower clamping block are clamping ends for clamping the card, and the connecting ends are rotationally connected with the clamping piece fixing plate; the lower part of the connecting end of the upper clamping block is provided with an incomplete upper gear, and the upper part of the connecting end of the lower clamping block is provided with an incomplete lower gear which are meshed with each other; the opening and closing driving mechanism comprises a spring and a vertical driving mechanism for driving the upper clamping block or the lower clamping block to move up and down, wherein the elastic force of the spring drives the upper clamping block and the lower clamping block to be in a clamping and closing state. The card driving mechanism comprises a rack arranged on the fixed plate, a gear meshed with the rack and a motor for driving the gear to rotate.

Preferably, a guiding and positioning assembly used for guiding and positioning the two boxes in the butt joint process is arranged on the butt joint surface of the box body of the card library, the code printing and stamping module, the lithographic printing module and the magnetic writing core module, which is required to be in butt joint. The guiding and positioning assembly can be concave-convex parts (for example, concave parts are arranged on the card library box body, convex parts are arranged on the code printing and hot stamping module box body, and when the two box bodies are spliced, the two box bodies can be butted only by matching the convex parts with the concave parts), or can be matched with the positioning groove seat. After the guide positioning assembly is arranged, the box body can be assisted to conveniently and rapidly finish the butt joint task, and the smooth butt joint between the inlet and outlet bayonets of the box bodies and the inlet and outlet bayonets of the box bodies of the card library is realized.

Preferably, the combined functional module further comprises a turnover rotating module, and the turnover rotating module is attached to the inside of the code printing gilding module, the lithographic module or the writing magnetic writing core module or is independently arranged in a box body of an outer box. During operation, through the setting of the overturning and rotating module, the adjustment of the gesture of the card can be completed, so that the requirements of the card on the gesture in the personalized processing process are met.

The working principle of the modularized intelligent card desktop machine is as follows:

When in use, one or more of the code printing and gold stamping module, the lithographic module and the magnetic writing core module (hereinafter collectively referred to as a combined functional module) are selected according to the requirements and combined with the smart card library module to form the combined desktop machine. The intelligent card library module is used for carrying out card handover between the card library sub-function modules in the intelligent card library module and carrying out card handover between the intelligent card library module and the combined function module. Specifically, in the smart card library module, the card issuing module is used for placing the cards to be processed and can send the cards one by one or out of order (card issuing in sequence means that the cards are sent out of the card issuing module one by one according to the storage sequence, card issuing in out of order means that the cards are selectively sent out of the card issuing module according to actual requirements, and in actual application, the selective sending of the cards in out of order can be realized through the rotation of a turntable or through the space movement mode of a card sending trolley), and the card conveying and exchanging module is used for conveying the cards. Further, in the card conveying and exchanging module, the Y-axis driving mechanism and the Z-axis driving mechanism are used for driving the card conveying trolley to a position corresponding to the card sending module or the card inlet and outlet, the card driving mechanism is used for connecting the card to the card conveying trolley or sending the card from the card conveying trolley along the horizontal X-axis direction when the card conveying trolley is aligned with the card sending module or the card inlet and outlet, and when the trolley moves under the driving of the Y-axis driving mechanism and the Z-axis driving mechanism, the card positioned on the trolley moves along with the trolley, so that the card is transferred between the card sending module and the combined functional module.

When a specific combination function module is selected to be combined with the smart card library module, it is required to ensure that the access ports in the combination function module are aligned with one of the access ports in the smart card library module, so that the transfer of the card between the smart card library module and the combination function module can be realized, that is, only the access ports in the combination function module and one of the access ports in the smart card library module are aligned, and the combination function module and the smart card library module can be combined into a modularized desktop machine, so that the use is very convenient and flexible. And specifically selecting which combined functional modules are flexibly selected according to actual functional requirements. The personalized card may be sent to the user directly from the card receiving opening provided in the combined functional module, or the processed card may be delivered back to the card delivery and delivery module by the combined functional module, and then sent to the user from the card receiving opening of the card library box body by the card delivery and delivery module, or the card may be stored in the card storage device in the card library box body by the card delivery and delivery module, and then sent to the user from the card receiving opening.

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

1. The modularized intelligent card desktop machine of the invention adopts a mode of modularized assembly firstly and then splicing all assembled modules to realize the assembly of the whole desktop machine. On the one hand, the modules are mutually independent before being integrally spliced, and mutual influence is avoided, so that the internal assembly work of the modules can be simultaneously and respectively carried out, and compared with the prior art that the splicing task needs to be sequentially carried out among a plurality of module assemblies, the assembly efficiency is greatly improved; on the other hand, when the next splicing task among the modules is carried out, only the butt joint task among the card interfaces on the modules is needed to be completed, the butt joint task is low in difficulty and less in time consumption, and therefore the splicing assembly efficiency of the intelligent card desktop machine is further improved.

2. In practical application, the modularized intelligent card desktop machine can be combined into a modularized desktop machine by only aligning the access port in the combined functional module with one access port in the intelligent card library module, and specifically selecting which combined functional modules can be flexibly selected and assembled according to practical functional requirements, so that the modularized intelligent card desktop machine has the advantages of convenience in use and good flexibility, and realizes various instant card making/capturing application requirements.

3. The modularized intelligent card desktop machine adopts modularized production, so that each module of the desktop machine can be detached firstly and reassembled after the desktop machine is transported to a destination during transportation, and the transportation task can be easily completed by only one person without the need of carrying by multiple persons due to the light weight of each module during transportation, thereby greatly facilitating the transportation of the desktop machine. In addition, because each module of the desktop machine after modularization is mutually independent, when optimizing the inside of each module, the desktop machine is not restricted by the weight of other modules, thereby greatly improving the optimization space, and the desktop machine after optimization is more compact and portable in structure and volume than the original desktop machine, and has better service performance.

Drawings

FIG. 1 is a schematic diagram of a layout structure of a modular smart card desktop according to the present invention.

FIG. 2 is a schematic diagram of a modular smart card desktop according to one embodiment of the present invention.

Fig. 3 is a schematic perspective view of the smart card library module shown in fig. 2.

Fig. 4 is a schematic perspective view of the card transport interface module of fig. 3.

Fig. 5 and 6 are schematic perspective views of the card feeding cart shown in fig. 4.

Fig. 7 is a partial exploded view of fig. 6.

Fig. 8 is a schematic perspective view of a corresponding memory cartridge in embodiment 3.

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.

Example 1

Referring to fig. 1 and 2, a modular smart card desktop machine according to the present invention includes a smart card library module 1 and a combined functional module, where the smart card library module 1 includes a card library box, a card library sub-functional module 2 disposed in the card library box, and a card transport and interface module 3 for delivering cards between the card library sub-functional module 2 and between the smart card library module 1 and the combined functional module in the smart card library module 1, where the card library sub-functional module 2 includes at least a card issuing module (the card issuing module may be configured by a card box type card issuing module, in operation, the card box type card issuing module issues cards from a card box in a one-by-one manner, and a specific embodiment of the card box type card issuing module may be implemented by referring to an invention patent of a fast card issuing mechanism of application No. 2018108001636; the card conveying and cross-connecting module 3 comprises a card conveying trolley 4, a Y-axis driving mechanism for driving the card conveying trolley 4 to move on a horizontal Y-axis and a Z-axis driving mechanism for driving the card conveying trolley 4 to move in a Z-axis direction, wherein the card conveying trolley 4 is also provided with a card driving mechanism for driving a card to move on the trolley along a horizontal X-axis; the card library box body is provided with a plurality of access ports for allowing the cards to extend out of the card library box body from the card feeding trolley 4 along a horizontal X axis; the combined functional module is one or more of a code printing and gold stamping module 5, a lithographic module 6 and a magnetic writing core module; the code printing and stamping module 5, the lithographic module 6 and the magnetic writing core writing module all comprise an outer box and a personalized processing module arranged in the outer box; the outer box of the code printing gilding module 5, the lithographic module 6 and the magnetic writing core module is provided with a card inlet and outlet opening for allowing a card to enter and exit the outer box, one side of the card inlet and outlet opening is formed in the intelligent card library module 1 by the combination of the code printing gilding module 5, the lithographic module 6 and the outer box of the magnetic writing core module, and the card inlet and outlet opening in the outer box of the code printing gilding module 5, the lithographic module 6 and the magnetic writing core module is in butt joint with one of the card inlet and outlet openings.

Referring to fig. 3 and 4, the card feeding trolley 4 is arranged on a lifting frame 11, two ends of the lifting frame 11 are respectively connected with a frame through a sliding guide rail pair 7, wherein a sliding block of the sliding guide rail pair 7 is arranged on the lifting frame 11, and a guide rail of the sliding guide rail pair 7 is fixed on the frame; the Z-axis driving mechanism is composed of two groups of belt wheel conveying mechanisms 8 and a first motor 9, wherein the belt wheel conveying mechanisms 8 are respectively arranged at two ends of a lifting frame 11, driving belt wheels in the two groups of belt wheel conveying mechanisms 8 are coaxially arranged through a connecting shaft 10, and conveying belts in the two groups of belt wheel conveying mechanisms 8 are respectively connected with the two ends of the lifting frame 11 through fixing pieces. When the truck feeding trolley is in operation, as the driving pulleys in the two groups of pulley conveying mechanisms 8 are coaxially arranged, when the first motor 9 drives one group of pulley conveying mechanisms to rotate, the other group of pulley conveying mechanisms 8 are simultaneously driven to synchronously move, so that the stress at two ends of the lifting frame 11 in lifting movement is balanced, and the stability of the lifting movement of the truck feeding trolley 4 is ensured. A driving gear 12 is arranged on a motor shaft of the first motor 9, a driven gear 13 meshed with the driving gear 12 is arranged on the connecting shaft 10, and the driven gear 13 and the driving gear 12 are meshed with each other. When the device works, the motor shaft sequentially rotates the electric driving gear 12 and the driven gear 13 to drive the connecting shaft 10, and the device has the advantages of small size, compact structure and high transmission efficiency.

Referring to fig. 3-7, the lifting frame 11 comprises fixing plates 14 at two ends and a supporting rod 15 arranged between the two fixing plates 14 and used for supporting and guiding the card feeding trolley 4, the Y-axis driving mechanism is composed of a second motor 16 and a synchronous belt transmission mechanism 17, wherein a driving belt pulley and a driven belt pulley in the synchronous belt transmission mechanism 17 are respectively arranged on the fixing plates 14 at two ends, an output shaft of the second motor 16 is arranged on the driving belt pulley, and the card feeding trolley 4 is connected with a synchronous belt in the synchronous belt transmission mechanism 17 through a fixing piece. When the device works, the second motor 16 rotates to drive the synchronous belt to move, so that the card feeding trolley 4 connected with the synchronous belt is driven to horizontally move along the Y axis. In addition, the Y-axis driving mechanism can also be composed of a motor and a screw rod transmission mechanism.

Referring to fig. 3-7, the card driving mechanism is arranged on the frame of the card feeding trolley 4, and comprises a card conveying guide rail, a roller conveying mechanism 18 for driving the card to move on the card conveying guide rail, and a card clamping and storing mechanism for driving the card to move between the card conveying guide rail and the card storage box; the card gripping and storing mechanism comprises a clamping piece 19 for clamping a card, a clamping piece fixing block 20, an opening and closing driving mechanism 21 for driving the clamping piece 19 to open or close, and an access driving mechanism 22 for driving the clamping piece 19 to horizontally access the card. When the card feeding trolley is used, the clamping piece 19 moves to the card taking position of the card library under the drive of the access driving mechanism 22, then the opening and closing driving mechanism 21 drives the clamping piece 19 to be closed, clamps the card, and sends the card to the roller conveying mechanism 18 through shrinkage motion; when the card is stored, the clamping piece 19 clamps the card sent by the roller conveying mechanism 18 under the drive of the opening and closing driving mechanism 21, and then the card is stored in the card box under the drive of the access driving mechanism 22, so that the card access task can be assisted according to the requirement. The opening and closing driving mechanism 21 is composed of a screw rod stepping motor, the screw rod stepping motor comprises a screw rod stepping motor main body, a screw rod nut arranged in the screw rod stepping motor main body and a screw rod sleeved on the screw rod nut, wherein the lower end of the screw rod is rotationally connected with the upper clamping block, a compression spring is further arranged on the screw rod, located between the screw rod stepping motor main body and the upper clamping block, and the elastic force of the compression spring enables the upper clamping block and the lower clamping block to be mutually close. When the clamping piece is in a closed state under the action of the elastic force of the compression spring, when the clamping piece is required to be opened, the screw rod stepping motor drives the nut to rotate, and then drives the screw rod to move upwards to lift the upper clamping piece, and when the upper clamping piece is lifted to rotate, the lower clamping piece is driven to rotate downwards through the meshing rotation of the upper gear and the next wheel, so that the clamping piece is opened. Specifically, the clamping piece is arranged on a clamping piece fixing plate and consists of an upper clamping block and a lower clamping block, one ends of the upper clamping block and the lower clamping block are connecting ends, the other ends of the upper clamping block and the lower clamping block are clamping ends for clamping a card, and the connecting ends are rotationally connected with the clamping piece fixing plate; the lower part of the connecting end of the upper clamping block is provided with an incomplete upper gear, and the upper part of the connecting end of the lower clamping block is provided with an incomplete lower gear which are meshed with each other; the opening and closing driving mechanism comprises a spring and a vertical driving mechanism for driving the upper clamping block or the lower clamping block to move up and down, wherein the elastic force of the spring drives the upper clamping block and the lower clamping block to be in a clamping and closing state. The card driving mechanism comprises a rack arranged on the fixed plate, a gear meshed with the rack and a motor for driving the gear to rotate.

Referring to fig. 5 and 7, the clamping member 19 is composed of an upper clamping block and a lower clamping block, wherein one ends of the upper clamping block and the lower clamping block are connected with the clamping member fixing block in a rotating manner, an upper gear is arranged at the lower part of the connecting end of the upper clamping block, a lower gear is arranged at the upper part of the connecting end of the lower clamping block, and the upper gear and the lower gear are meshed with each other; the other ends of the upper clamping block and the lower clamping block are clamping ends. Through add gear and lower gear between last grip block and lower grip block, during operation, when one grip block in last grip block and the lower grip block receives opening and shutting actuating mechanism's drive, go up the linkage that can realize both through last gear and lower gear meshing rotation between grip block down, do Zhang Kaisong card movements promptly simultaneously or do closed clamp movements simultaneously, this linkage is not the linkage (go up grip block or lower grip block one of them rotates and the other party is motionless) for current last grip block and lower grip block working method, can avoid the interference to gyro wheel conveying mechanism when sending the card for the device has the advantage that the centre gripping effect is good.

Referring to fig. 2, the card library box body is internally provided with a partition plate for layering the space in the card library box body, and a plurality of card issuing modules 23 are arranged in parallel in each layer of space. When in use, one card sending module 23 is used for storing a card, and a plurality of card sending modules 23 are used for storing a plurality of types of cards, so that when the card is produced and processed, the card conveying and intersecting module 3 can select target cards from the plurality of card sending modules 23 for processing according to actual production requirements, thereby ensuring that the types of card processing are richer and more various, and solving the problem of single type of card processing in the conventional desktop machine.

Referring to fig. 2, the modularized intelligent card desktop machine of the invention comprises a code printing and stamping module, a lithographic module and a magnetic writing core module, wherein the lithographic module 6 and the magnetic writing core module are arranged on the upper layer and are packaged in the same outer box, the outer box of the code printing and stamping module 5 is arranged on the lower layer, and an access bayonet is further arranged on the surface opposite to the surface where the access bayonet is arranged on the box body of the outer box of the code printing and stamping module 5. When the intelligent card is in operation, the card is firstly conveyed to the position of the upper-layer lithograph module 6 and the magnetic writing core module for processing, after the processing is finished, the card is conveyed to the code printing gilding module 5 for processing by the card conveying and exchanging module 3, and a finished intelligent card is formed after the processing is finished, and when the finished intelligent card needs to be stored, the finished intelligent card can be stored and stored by the card conveying and exchanging module 3 through the access port; when the portable electronic device is required to be directly taken out, the portable electronic device can be directly sent out through the access port, so that operation can be selected according to actual requirements. In addition, the combined functional module further comprises a turnover rotating module, wherein the turnover rotating module is attached to the inside of the coding and stamping module 5, the lithographic module 6 or the writing magnetic writing core module or is independently arranged in a box body of an outer box. During operation, through the setting of above-mentioned upset rotary module, can accomplish the adjustment to the card gesture to satisfy the card and to the requirement of gesture at individualized in-process, this concrete implementation of upset rotary module can refer to the smart card turnover mechanism that has the card function of sending out of application number 2015106241472 and implement.

Referring to fig. 2, a guiding and positioning assembly for guiding and positioning the two boxes in the butt joint is arranged on the butt joint surface of the box body of the card library, the code printing and stamping module 5, the lithographic printing module 6 and the writing magnetic writing core module, wherein the butt joint surface is required to be in butt joint. The guiding and positioning assembly can be concave-convex parts (for example, concave parts are arranged on the card library box body, convex parts are arranged on the code printing and hot stamping module box body, and when the two box bodies are spliced, the two box bodies can be butted only by matching the convex parts with the concave parts), or can be matched with the positioning groove seat. After the guide positioning assembly is arranged, the box body can be assisted to conveniently and rapidly finish the butt joint task, and the smooth butt joint between the inlet and outlet bayonets of the box bodies and the inlet and outlet bayonets of the box bodies of the card library is realized.

The working principle of the modularized intelligent card desktop machine is as follows:

When in use, one or more of the code printing gilding module 5, the lithographic module 6 and the magnetic writing core module (hereinafter collectively referred to as a combined functional module) are selected according to the requirements and combined with the smart card library module 1 to form the combined desktop machine. The function of the smart card library module 1 is to perform card handover between the sub-function modules of the smart card library inside the smart card library module 1 and to perform card handover between the smart card library module 1 and the combined function module. Specifically, in the smart card library module 1, the card issuing module is used for placing the cards to be processed and sending out the cards one by one or out of order, and the card conveying and exchanging module 3 is used for conveying the cards, on one hand, the card conveying and exchanging module 3 can be used for receiving the cards sent out by the issuing module, and on the other hand, the card conveying and exchanging module 3 can be used for conveying the cards to the access port so as to be transmitted to the combined functional module for personalized processing. Further, in the card transporting and exchanging module 3, the Y-axis driving mechanism and the Z-axis driving mechanism are used for driving the card transporting trolley 4 to a position corresponding to the card sending module or the card inlet and outlet, the card driving mechanism is used for connecting the card to the card transporting trolley 4 or sending the card from the card transporting trolley 4 along the horizontal X-axis direction when the card transporting trolley 4 is aligned with the card sending module or the card inlet and outlet, and when the trolley moves under the driving of the Y-axis driving mechanism and the Z-axis driving mechanism, the card on the trolley moves along with the trolley, so that the card is transferred between the card sending module and the combined functional module.

When a specific combination function module is selected to be combined with the smart card library module 1, it is required to ensure that the access ports in the combination function module are aligned with one of the access ports in the smart card library module 1, so that the transfer of the card between the smart card library module 1 and the combination function module can be realized, that is, only the access ports in the combination function module and one of the access ports in the smart card library module 1 are aligned, and the combination function module and the access port in the smart card library module 1 can be combined into a modularized desktop machine, so that the use is very convenient and flexible. And specifically selecting which combined functional modules are flexibly selected according to actual functional requirements. The personalized card may be sent to the user directly from the card receiving opening provided in the combined function module, or the processed card may be delivered back to the card delivery and delivery module 3 by the combined function module, and then sent to the user from the card receiving opening of the card library box by the card delivery and delivery module 3, or the card may be stored in the card storage device in the card library box by the card delivery and delivery module 3, and then sent to the user from the card receiving opening.

Example 2

The difference between this embodiment and embodiment 1 is that the card library sub-function module further includes a personalized processing module, and the card inlet and outlet ports of the personalized processing module face to one side of the card feeding cart 4. The purpose of this arrangement is that, during the personalized processing of the smart card, there are some combined functional module processing modules which have smaller volumes and are often used, such as a writing magnetic writing core module, and if the modules are packaged separately in a box, a large space is wasted, and after the above-mentioned method for arranging the personalized processing module with small volume in the card library box is laid out, the normal work of the processing module can be ensured, and meanwhile, the overall structure is more compact, so that the layout effect is good.

Other embodiments than the above are described with reference to example 1.

Example 3

Referring to fig. 8, the difference between this embodiment and embodiment 1 is that the card library sub-functional module further includes a card storage box 24 for storing cards, a plurality of card storage slots are uniformly formed on the inner cavity wall of the card storage box 24 from bottom to top, a side surface of the card storage box 24 is open, the opening forms an inlet and an outlet of the card storage box 24, the inlet and the outlet of the card storage box 24 face the card feeding cart 4, and a card reading and writing device (the card reading and writing device includes a reading and writing probe 26, a reading and writing probe fixing block 27, a card reader arranged on the reading and writing probe fixing block, and a reading and writing driving mechanism 28 for driving the reading and writing probe fixing block to move up and down) is arranged on the card feeding cart 4. After the card storage box 24 is arranged, the processed cards can be stored in the card storage box 24, or the external cards can be intensively stored in the card storage box 24 for centralized management through the transportation of the card transportation and delivery module and the like, and when the cards are used when needed, the cards are sent out as a card-picking machine, so that the function of the card-picking machine is exerted. The card processing device has the advantages that the desktop machine integrates the card processing machine and the card receiving machine, not only can meet the personalized processing requirements of various cards, but also can meet the requirements of the card receiving machine, and realize the dual functions of instant card processing and card receiving, which has important significance for the production management of the cards, can help users get rid of the problem that the card processing machine and the card receiving machine are independent and cannot be connected for a long time, and has wide market prospect.

Other embodiments than the above are described with reference to example 1.

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 modularized intelligent card desktop machine is characterized by comprising an intelligent card library module and a combined functional module, wherein the intelligent card library module comprises a card library box body, card library sub-functional modules arranged in the card library box body, and a card conveying and cross-connecting module for carrying out card cross-connection between the card library sub-functional modules in the intelligent card library module and between the intelligent card library module and the combined functional module, and the card library sub-functional modules at least comprise card issuing modules for issuing cards; the card conveying and cross-connecting module comprises a card conveying trolley, a Y-axis driving mechanism for driving the card conveying trolley to move on a horizontal Y-axis and a Z-axis driving mechanism for driving the card conveying trolley to move in a Z-axis direction, and the card conveying trolley is also provided with a card driving mechanism for driving the card to move on the trolley along a horizontal X-axis; the card library box body is provided with a plurality of access ports for allowing the cards to extend out of the card library box body from the card feeding trolley along a horizontal X axis;

The combined functional module is one or more of a code printing and gold stamping module, a lithographic module and a magnetic writing core module; the code printing and gold stamping module, the lithographic module and the magnetic writing core writing module all comprise an outer box and a personalized processing module arranged in the outer box; the outer boxes of the code printing and stamping module, the lithographic module and the magnetic writing core module are provided with access ports for allowing cards to enter and exit the outer boxes, the outer boxes of the code printing and stamping module, the lithographic module and the magnetic writing core module are combined on one side of the smart card library module, which is provided with access ports, and the access ports of the outer boxes of the code printing and stamping module, the lithographic module and the magnetic writing core module are in butt joint with one access port;

the card library sub-functional module further comprises a card storage box for storing cards, wherein a plurality of card storage grooves are uniformly formed in the inner cavity wall of the card storage box from bottom to top, one side surface of the card storage box is open, an inlet and an outlet of the card storage box are formed, and the inlet and the outlet of the card storage box face towards the card feeding trolley;

The card driving mechanism is arranged on the frame of the card feeding trolley and comprises a card conveying guide rail, a roller conveying mechanism for driving a card to move on the card conveying guide rail and a card clamping and storing mechanism for driving the card to move between the card conveying guide rail and the card storage box; the card clamping and storing mechanism comprises a clamping piece used for clamping a card, a clamping piece fixing block, an opening and closing driving mechanism used for driving the clamping piece to perform opening or closing movement and an access driving mechanism used for driving the clamping piece to perform horizontal card access movement;

The box body of the card library is provided with a guide positioning assembly used for guiding and positioning the two box bodies in the butt joint process, and the butt joint surfaces of the box body, the code printing gilding module, the lithographic printing module and the magnetic writing core module, which are required to be in butt joint;

the card warehouse box body is internally provided with a division plate for layering the internal space of the card warehouse box body, and a plurality of card issuing modules are arranged in parallel in each layer of separated space.

2. The modular smart card desktop of claim 1, wherein the card library sub-function module further comprises a personalization module having an access opening facing a card feed cart side.

3. The modular smart card desktop machine according to any one of claims 1-2, wherein the card feeding trolley is arranged on a lifting frame, two ends of the lifting frame are respectively connected with the frame through sliding guide rail pairs, wherein a sliding block of each sliding guide rail pair is arranged on the lifting frame, and a guide rail of each sliding guide rail pair is fixed on the frame; the Z-axis driving mechanism is composed of two groups of belt wheel conveying mechanisms and a first motor, wherein the belt wheel conveying mechanisms are respectively arranged at two ends of the lifting frame, driving belt wheels in the two groups of belt wheel conveying mechanisms are coaxially arranged through connecting shafts, and conveying belts in the two groups of belt wheel conveying mechanisms are respectively connected with two ends of the lifting frame through fixing pieces.

4. A modular smart card desktop as claimed in claim 3, wherein a driving gear is provided on a motor shaft of the first motor, and a driven gear engaged with the driving gear is provided on the connecting shaft, and the driven gear is engaged with the driving gear.

5. A modular smart card desktop machine according to claim 3, wherein the lifting frame comprises fixing plates at two ends and a supporting rod arranged between the two fixing plates for supporting and guiding the card feeding trolley, the Y-axis driving mechanism is composed of a motor and a synchronous belt transmission mechanism, wherein a driving belt wheel and a driven belt wheel in the synchronous belt transmission mechanism are respectively arranged on the fixing plates at two ends, an output shaft of the motor is arranged on the driving belt wheel, and the card feeding trolley is connected with a synchronous belt in the synchronous belt transmission mechanism through a fixing piece.

6. A modular smart card desktop as claimed in any one of claims 1-2, wherein the combined functional module further comprises a flip-flop rotating module attached to the inside of the coding and stamping module, the lithographic module or the writing core module or separately provided in the case of an external case.