CN210390549U - Temporary identity card making machine - Google Patents

Abstract

The utility model belongs to the technical field of certificate manufacture, in particular to a temporary identity card manufacturing machine, which comprises a shell, and a printing component and a plastic coating component which are arranged in the shell, wherein a feeding component, a conveying mechanism, a pushing mechanism, a card core seat and a card membrane seat are also arranged in the shell, and the feeding component is used for synchronously feeding a card core and a card membrane to the card core seat and the card membrane seat; the conveying mechanism is used for conveying the film clamping seat to be switched between an initial position and a target position; the printing component is used for printing the card film on the card film seat at the target position; the pushing mechanism is used for pushing the card core on the card core seat so as to enable the card core to be superposed above the printed card film on the card film seat at the initial position; the pushing mechanism is also used for pushing the superposed card core and the superposed card film so as to enable the superposed card core and the superposed card film to move to the plastic coating component. The utility model discloses an interim ID card processor can realize the synchronous material loading of card core and card membrane, and the system is proved efficiently.

Description

Temporary identity card making machine

Technical Field

The utility model belongs to the technical field of the certificate preparation, concretely relates to interim ID card processor.

Background

Identity documents now play an increasingly important role in the everyday life of citizens, for example: the identity card is needed for buying tickets and air tickets, the identity card is needed for examinations, and even if the person goes to an internet bar to surf the internet, the identity card needs to be swiped. Conceivably, the loss of the identity document will cause great troubles to the daily life of citizens; for emergency, temporary identification cards are often dealt with. The existing temporary identity card is manufactured mainly by traditional handwork, materials are printed, and then the materials are cut and covered manually, so that time and labor are wasted, mistakes are easily made, and certain economic loss is caused. And due to the reason of the temporary identity card film, the number of the cards is mostly required to be uniformly made until 8 cards are obtained.

Actively responding to the 'Internet + government service' call of the state institute, enabling data to run more and people to run less, integrating a temporary identity card making process by relying on an interconnected and intercommunicated information system and an automatic control system, and taking place of a temporary identity card making machine. In the existing certificate making machine, a card core and a card film are mostly manually placed in the certificate making process, after the certificate making is completed, the card core and the card film are manually placed in the certificate making machine, and so on; thus, the certificate making efficiency is low.

SUMMERY OF THE UTILITY MODEL

Based on the above-mentioned not enough that exists among the prior art, the utility model provides a temporary ID card processor.

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

the temporary identity card manufacturing machine comprises a shell, and a printing assembly and a plastic coating assembly which are arranged in the shell, wherein a feeding assembly, a conveying mechanism, a pushing mechanism, a card core seat and a card membrane seat are also arranged in the shell, and the feeding assembly is used for synchronously feeding a card core and a card membrane to the card core seat and the card membrane seat; the conveying mechanism is used for conveying the film clamping seat to be switched between an initial position and a target position; the printing component is used for printing the card film on the card film seat at the target position; the pushing mechanism is used for pushing the card core on the card core seat so as to enable the card core to be superposed above the printed card film on the card film seat at the initial position; the pushing mechanism is also used for pushing the superposed card core and the superposed card film so as to enable the superposed card core and the superposed card film to move to the plastic coating component.

As a preferred scheme, the feeding assembly comprises a material taking part and a driving part, wherein the material taking part comprises a core clamping material taking position and a film clamping material taking position; the driving part is used for synchronously driving the core clamping material taking position and the film clamping material taking position so as to switch the core clamping material taking position and the film clamping material taking position between the material taking position and the material loading position; when the core clamping material taking position and the film clamping material taking position are located at the feeding position, the core clamping material taking position and the film clamping material taking position are respectively located above the core clamping seat and the film clamping seat.

As an optimized scheme, the material taking part further comprises a clamping core lifting seat located below the clamping core material taking position, a clamping film lifting seat located below the clamping film material taking position, and a first lifting mechanism and a second lifting mechanism which are respectively used for driving the clamping core lifting seat and the clamping film lifting seat to do lifting movement, wherein the clamping core lifting seat and the clamping film lifting seat are respectively used for placing a stacked clamping core and a stacked clamping film.

As a preferred scheme, a friction piece is arranged on one side of the film clamping lifting seat, and the friction piece is positioned between the film clamping lifting seat and the film clamping taking position; when the film clamping lifting seat does lifting motion, the friction piece can be in friction contact with the film clamping on the film clamping lifting seat.

Preferably, the friction member is a brush or a sheet.

Preferably, the core clamping and material taking position comprises a first base and a plurality of first suction nozzles arranged below the first base, and the first suction nozzles are used for being connected with a vacuum pump; the film clamping and material taking position comprises a second base and a plurality of second suction nozzles arranged below the second base, and the second suction nozzles are used for being connected with a vacuum pump.

Preferably, the first suction nozzle comprises a first suction nozzle base fixed below the first base and a first suction nozzle telescopically matched with the first suction nozzle base; the second suction nozzle comprises a second suction nozzle seat fixed below the second base and a second suction head in telescopic fit with the second suction nozzle seat.

Preferably, the driving part comprises a driving motor, a guide rail and a linkage frame, and the linkage frame is fixedly connected with the first base and the second base; the linkage frame is connected with the guide rail in a sliding manner; the driving motor is used for driving the linkage frame to slide along the guide rail.

Preferably, the film clamping seat is positioned between the core clamping seat and the plastic coating assembly, the core clamping seat is provided with a first guide groove, and the film clamping seat is provided with a second guide groove corresponding to the first guide groove; correspondingly, push mechanism includes the driving piece, pushes away the post with first guide way one-to-one, the driving piece is used for the drive to push away the post and in proper order the movable fit in first guide way and second guide way to make the card core superpose on the card membrane and card core and card membrane activity after the stack to crossing the plastic assembly.

Preferably, a material arranging mechanism is further arranged in the shell, and the material arranging mechanism is located below the film clamping seat and used for arranging the card cores and the films stacked above the film clamping seat.

Compared with the prior art, the utility model, beneficial effect is:

the utility model discloses an interim ID card processor can realize the synchronous material loading of card core and card membrane, and the system is proved efficiently.

Drawings

Fig. 1 is a schematic view of an appearance structure of a temporary identification card making machine according to an embodiment of the present invention;

fig. 2 is a schematic view of an internal main structure of a temporary identification card making machine according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a feeding assembly of the temporary identification card making machine according to the embodiment of the present invention;

fig. 4 is a schematic structural diagram of another view angle of the feeding assembly of the temporary identification card making machine according to the embodiment of the present invention;

fig. 5 is a schematic structural diagram of another view angle of the feeding assembly of the temporary identification card making machine according to the embodiment of the present invention (excluding the structure of the laminated card core, the laminated card film, and the limiting frame);

fig. 6 is a schematic structural view of a limiting frame of a feeding assembly of the temporary identity card manufacturing machine according to the embodiment of the present invention;

fig. 7 is a schematic structural diagram of another view angle of the feeding assembly of the temporary identification card making machine according to the embodiment of the present invention;

fig. 8 is a schematic structural view of a conveying mechanism of a temporary identification card making machine according to an embodiment of the present invention;

fig. 9 is a schematic structural view of a card film seat of the temporary identity card making machine according to the embodiment of the present invention;

fig. 10 is a schematic structural view of a cartridge seat, a card film seat, a pushing mechanism and a plastic coating component of the temporary identity card making machine according to the embodiment of the present invention;

fig. 11 is a schematic structural diagram of a pushing mechanism of the temporary identification card making machine according to the embodiment of the present invention;

fig. 12 is an external structural view of another view angle of the temporary identification card making machine according to the embodiment of the present invention.

Detailed Description

In order to more clearly illustrate the embodiments of the present invention, the following description will explain embodiments of the present invention with reference to the accompanying drawings. It is obvious that the drawings in the following description are only examples of the invention, and that for a person skilled in the art, other drawings and embodiments can be obtained from these drawings without inventive effort. In addition, directional terms referred to in the following examples, for example: up, down, left, right, front or rear, etc., are simply directions with reference to the drawings. Accordingly, the directional terminology is used for purposes of illustration and is in no way limiting.

As shown in fig. 1-12, the utility model discloses interim ID card processor of embodiment, including casing 1 and the material loading subassembly 2, card core seat 3, card membrane seat 4, push mechanism 5, conveying mechanism 6, printing module 7, cross plastic subassembly 8, material all in one piece mechanism 9 and the ultraviolet illumination subassembly of installing in casing 1. As shown in fig. 2, the feeding assembly 2 is located at the front side of the cartridge seat 3 and the film clamping seat 4, the film clamping seat 4 is located between the cartridge seat 3 and the plastic coating assembly 8, and the printing assembly 7 is located at the rear side of the film clamping seat 4.

As shown in fig. 1, a housing 1 of the embodiment of the present invention is a rectangular box structure, and includes a box 10 and a flip 11, a rear side of the box 10 is connected to a rear side of the flip 11 through a hinge, a front side of the box 10 is fixed to a front side of the flip 11 through a latch 12, and the flip 11 can open or close a top opening of the box through operation of the latch, so as to facilitate checking operation states of components and subsequent maintenance; the detailed structure of the latch 12 can be found in the prior art and is not described herein. The left and right sides of the case 10 surrounded by the wide and high sides are oppositely provided with a lifting handle 100 and a heat dissipation fan 110, the front side of the case 10 is provided with a start switch 120 and a certificate outlet 130, as shown in fig. 12, the rear side of the case is provided with a power socket 140, a communication interface 150, a safety switch 160 and a nameplate of a maker. In addition, the bottom of the box 10 has four adjusting seats (not limited to four, but may be three, six, etc.) for adjusting the box 10 in a horizontal state.

The feeding assembly 2 of the embodiment of the utility model is used for synchronously feeding the card core and the card membrane to the card core seat 2 and the card membrane seat 3; specifically, as shown in fig. 3 to 5, the feeding assembly 2 includes a material taking part 20, a driving part 21, a limiting frame 23 and a mounting frame 24, wherein the material taking part 20 includes a core clamping and material taking position 201, a film clamping and material taking position 202, a core clamping lifting seat 203, a film clamping lifting seat 204, a first lifting mechanism 205 and a second lifting mechanism 206; the core clamping and material taking position 201 comprises a first base 201a and four first suction nozzles 201b (the number of the first suction nozzles is not limited to four, and can be one, two, three or the like) arranged below the first base, wherein the four first suction nozzles 201b are uniformly distributed along the circumferential direction of the bottom surface of the first base; the first suction nozzle 201b is used for connecting with a vacuum pump so that the first suction nozzle 201b sucks the card core. The first suction nozzle 201b comprises a first nozzle seat 2011 fixed below the first base and a first suction head 2012 telescopically matched with the first nozzle seat; the specific manner of telescopic matching can be as follows: first suction nozzle seat is cavity columnar structure, and the hollow structure's of first suction nozzle seat top is equipped with the spring, and first suction head inserts in the hollow structure of first suction nozzle seat and with spring fixed connection for first suction head can the flexible cooperation in first suction nozzle seat.

As shown in fig. 4-5, the film sticking and fetching position 202 includes a second base 202a and four second suction nozzles 202b (the number of the second suction nozzles is not limited to four, and may also be one, two, three, etc.) installed below the second base, and the four second suction nozzles 202b are evenly distributed along the circumferential direction of the bottom surface of the second base; the second suction nozzle 202b is used for connecting with a vacuum pump so that the second suction nozzle 202b sucks the card film. Wherein, the second suction nozzle 202b comprises a second suction nozzle seat 2021 fixed under the second base and a second suction head 2022 telescopically matched with the second suction nozzle seat; the specific manner of telescopic matching can be as follows: the second suction nozzle seat is of a hollow cylindrical structure, a spring is arranged at the top of the hollow structure of the second suction nozzle seat, and the second suction nozzle is inserted into the hollow structure of the second suction nozzle seat and is fixedly connected with the spring, so that the second suction nozzle can be matched with the second suction nozzle seat in a telescopic manner; i.e. the second suction nozzle has the same construction as the first suction nozzle.

The card core lifting seat 203 is located below the card core material taking position 201, and the top of the card core lifting seat 203 is a horizontal plane and used for placing the stacked card cores. The film clamping lifting seat 204 is positioned below the film clamping material taking position 202, and the top of the film clamping lifting seat 204 is a horizontal plane and used for placing laminated film clamping. In addition, the mounting frame 24 is fixedly mounted at the bottom of the box body 10, and the limiting frame 23 is fixedly mounted above the mounting frame 24, as shown in fig. 6, the limiting frame 23 has a core limiting groove 230 and a film limiting groove 231 respectively matched with the core lifting seat 203 and the film lifting seat 204, the core lifting seat 203 and the film lifting seat 204 are in lifting fit with the core limiting groove 230 and the film limiting groove 231, and the core limiting groove 230 and the film limiting groove 231 can limit the laminated cores on the core lifting seat 203 and the laminated films on the film lifting seat 204; moreover, due to the adhesion between the card cores or the card films, when the excess card cores or the card films sucked by the first suction nozzle or the second suction nozzle fall, the falling card cores or the falling card films can be automatically aligned to the laminated card cores or the laminated card films through the action of the card core limiting groove 230 and the card film limiting groove 231.

As shown in fig. 5, the core lifter 203 is driven by a first lifter 205, and the first lifter 205 is fixedly mounted on the mounting frame 24. Specifically, the first lifting mechanism 205 is a screw motor, and accordingly, the bottom of the core clamping lifting seat 203 has a threaded hole matched with a rotating shaft of the screw motor, so that the core clamping lifting seat 203 can move up and down by the operation of the screw motor. In addition, the first lifting mechanism can also be a driving piece such as a telescopic cylinder. The first lifting mechanism 205 drives the core clamping lifting seat 203 to lift to the first suction head 2012 of the first suction nozzle, the first suction head 2012 sucks a core clamping on the surface of the laminated core clamping, and the first lifting mechanism 205 continues to drive the core clamping lifting seat 203 to lift, so that the first suction head 2012 retracts into the first suction nozzle seat 2011; when the first limit switch 241 mounted on the mounting bracket 24 is triggered by the trigger switch 2031 mounted at the bottom of the cartridge lifter 203, the first lifter 205 drives the cartridge lifter 203 to descend. Wherein, the telescopic structure design of first suction nozzle is favorable to improving the adsorption affinity of first suction nozzle to the card core.

As shown in fig. 5, the lifting motion of the film clamping lifting seat 204 is driven by a second lifting mechanism 206, and the second lifting mechanism 206 is fixedly mounted on the mounting frame 24. Specifically, the second lifting mechanism 206 is a screw motor, and accordingly, the bottom of the film clamping lifting seat 204 has a threaded hole matched with the rotating shaft of the screw motor, so that the film clamping lifting seat 204 can move up and down by the operation of the screw motor. In addition, the second lifting mechanism can also be a driving piece such as a telescopic cylinder. The second lifting mechanism 206 drives the film clamping lifting seat 204 to lift up to the second suction head 2022 of the second suction nozzle, the second suction head 2022 sucks a film clamping film on the surface of the laminated film clamping film, and the second lifting mechanism 206 continues to drive the film clamping lifting seat 204 to lift up, so that the second suction head 2022 retracts into the second suction nozzle seat 2021; when the second limit switch 242 mounted on the mounting frame 24 is triggered by a trigger switch (not shown) mounted at the bottom of the film clamping lifting seat 204, the second lifting mechanism 206 drives the film clamping lifting seat 204 to descend. Wherein, the telescopic structure design of second suction nozzle is favorable to improving the adsorption affinity of second suction nozzle to the card membrane.

Because the card membranes of the laminated card membranes are adhered to each other, the second suction head 2022 is easy to suck a plurality of card membranes at a time; as shown in fig. 4, a friction member (not shown in the figure) is arranged on the right side of the film clamping lifting seat 204, and the friction member is fixedly mounted on the limiting frame 23 through a mounting bracket c, so that the friction member is positioned between the film clamping lifting seat 204 and the film clamping material taking position 202 in the vertical direction, namely between the laminated film clamping and the second suction head; when the film clamping lifting seat 204 moves up and down, the friction piece can be in friction contact with the film clamping on the film clamping lifting seat, so that the adhered film clamping is separated, and the second suction head is ensured to only suck one film clamping at a time. Wherein, the friction piece is made of materials such as brushes, sheets and the like.

In addition, as shown in fig. 1, the flip cover 11 of the embodiment of the present invention is provided with a material supplementing cover 111, and the position of the material supplementing cover 111 corresponds to the positions of the card core lifting seat 203 and the card film lifting seat 204, so as to add the stacked card core and card film.

The driving part 21 of the feeding assembly provided by the embodiment of the utility model is used for synchronously driving the core clamping material taking position 201 and the film clamping material taking position 202, so that the core clamping material taking position 201 and the film clamping material taking position 202 are switched between the material taking position and the feeding position; wherein the material taking position is that the core clamping material taking position 201 and the film clamping material taking position 202 are respectively positioned above the core clamping lifting seat 203 and the film clamping lifting seat 204; the loading position is that a core clamping material taking position 201 and a film clamping material taking position 202 are respectively positioned above the core clamping seat 3 and the film clamping seat 4. Specifically, as shown in fig. 7, the driving portion 21 includes a driving motor 210, a guide rail 211, and a linkage bracket 212, and the linkage bracket 212 is fixedly connected to the first base 201a and the second base 202 a; the linkage frame 212 is slidably connected on the guide rail 211; the driving motor 210 is used for driving the linkage frame 212 to slide along the guide rail so as to synchronously drive the core clamping material taking position 201 and the film clamping material taking position 202, so that the core clamping material taking position 201 and the film clamping material taking position 202 are switched between a material taking position and a material loading position. Specifically, the driving motor drives and links through the structures of the driving wheel, the driving belt and the driven wheel, the linkage frame is fixedly connected with the driving belt, and the connection structure among the driving wheel, the driving belt and the driven wheel can refer to the prior art and is not described herein in detail. In addition, corresponding to the material taking position and the material loading position, two limit switches are also respectively arranged so as to limit the movable position of the linkage frame. When the core clamping material taking position 201 and the film clamping material taking position 202 are located at the material loading position, the vacuum pump is communicated with the first suction nozzle and the second suction nozzle and is cut off (the specific cutting-off mode can be controlled by an electromagnetic valve), and the core clamping material and the film clamping material drop to the core clamping seat 3 and the film clamping seat 4 respectively. A fan is arranged below the film clamping seat 4, accordingly, as shown in fig. 8, the film clamping seat 4 is provided with a plurality of vertical air holes 41, and the film clamping seat 4 can stably adsorb the film clamping seat 4 through the action of the fan.

The conveying mechanism 6 of the embodiment of the utility model is used for conveying the film clamping seat 4 to switch between the initial position and the target position; specifically, as shown in fig. 8, the conveying mechanism 6 includes a slide rail 60, a slide block 61, a stepping motor 62, a synchronous belt 63, a driving wheel and a driven wheel, the synchronous belt 63 surrounds between the driving wheel and the driven wheel, the stepping motor 62 is used for driving the driving wheel to link the synchronous belt 63, the synchronous belt 62 is fixedly connected with the slide block 61, the synchronous belt 62 links the slide block 61 to slide along the slide rail 60, the film clamping seat 4 is arranged above the slide block 61, and the slide block 61 links the film clamping seat 4, so that the film clamping seat 4 is switched between an initial position and a target position, wherein the initial position is a position corresponding to the feeding position, and the target position is a printing position; when the film clamping seat 4 moves to a target position, the printing component 7 is used for printing the film clamping on the film clamping seat; when printing is completed, the stepping motor 62 is driven in reverse, so that the film cartridge 4 returns to the initial position ready for being stacked with the cartridge. In addition, two limit switches are also arranged corresponding to the initial position and the target position of the film clamping seat so as to limit the movable position of the film clamping seat 4.

As shown in fig. 10 and 11, the pushing mechanism 5 of the embodiment of the present invention is used to push the card core on the card core seat 3 so as to be superimposed on the printed card film on the card film seat at the initial position; the pushing mechanism 5 is also used for pushing the superposed card core and the superposed card film so as to enable the card core and the superposed card film to move to the plastic coating assembly, thereby completing the compounding of the card core and the card film. The film clamping seat 4 is positioned between the card core seat 3 and the plastic coating component 8, namely the card core seat 3 is positioned on the left side of the card film seat 3, and the plastic coating component 8 is positioned on the right side of the card film seat 3; the card core seat 3 is provided with two first guide grooves 30, and the card film seat 4 is provided with two second guide grooves 40 corresponding to the first guide grooves 30; correspondingly, the pushing mechanism 5 comprises a driving part 50, a linkage block 51, two guide rods 52, two connecting rods 53 and pushing posts 54 corresponding to the first guide grooves one by one, the driving part 50 comprises a stepping motor, a driving wheel, a transmission belt and a driven wheel, the transmission belt surrounds between the driving wheel and the driven wheel, the linkage block 51 is fixedly connected with the transmission belt, the linkage block 51 is in sliding fit with the guide rods 52, one ends of the two connecting rods 53 are respectively fixed on the linkage block 51, the two connecting rods 53 are parallel to the two guide rods 52, and the other ends of the two connecting rods 53 are respectively fixedly connected with the pushing posts 54, so that the pushing posts 54 extend from the bottom to the top of the first guide grooves 30 and protrude out of the top; when the stepping motor operates, the driving push column 54 is sequentially and movably matched with the first guide groove 30 and the second guide groove 40, so that the card core is overlapped on the card film, and the overlapped card core and the card film move to the plastic coating assembly 8, so that the plastic coating assembly 8 compounds the card core and the card film, and the temporary identity card is prepared. In addition, two limit switches 55 are respectively arranged corresponding to the movement of the linkage block 51, the two limit switches respectively correspond to the starting point and the end point of the movement of the linkage block 51, when the linkage block 51 is positioned at the starting point, the trigger switch arranged on the linkage block 51 triggers the limit switch 55 corresponding to the starting point, and at the moment, the push rod 54 is positioned at the left side of the card core; when the linkage block 51 is at the end point, the trigger switch arranged on the linkage block 51 triggers the limit switch 56 corresponding to the end point, and at the moment, the push rod 54 just pushes the overlapped card core and card film to enter the plastic coating assembly 8.

The utility model discloses material all in one piece mechanism 9 is located the below of card membrane seat 4 and fixes on slider 61 for carry out material all in one piece to card core and card membrane of card membrane seat 4 top stack, so that the card core aligns with the card membrane. Specifically, as shown in fig. 9, the rectifying mechanism 9 includes a monolith motor 90, a monolith seat 91, a guide column 92 and a limit switch 93, the monolith motor 90 drives the monolith seat 91 to move up and down, and the limit switch 93 is used for limiting the up and down movement of the monolith seat 91; the material arranging seat 91 is abutted against the lower part of the film clamping seat 4 and is linked with the film clamping seat 4; the guide posts 92 are fixed to the monolith seat 91 and fit into the guide holes of the slider 61. When the push rod 54 pushes the card core to be overlapped on the card film, the card film seat 4 is driven by the material arranging motor to slightly move up and down, which is beneficial to the alignment of the card core and the card film overlapped above the card film seat 4. Wherein, material all in one piece motor 90 is the lead screw motor, correspondingly, material all in one piece seat 91 bottom has with the pivot complex screw hole of lead screw motor, through the operation of lead screw motor for material all in one piece seat 91 makes elevating movement. In addition, the monolith motor 90 may be replaced with a driving member such as a telescopic cylinder.

In addition, as shown in fig. 1, the temporary identity card making machine according to the embodiment of the present invention further includes a display screen a and a plurality of indicator lights, wherein the display screen a is used for displaying various parameter information of the temporary identity card making machine; the display screen A is positioned on the flip cover 11, so that the display screen A is convenient to observe. The indicator light is used for indicating information such as working, heating, stopping, opening of a feed supplement cover door and the like.

The printing assembly, the plastic coating assembly and the ultraviolet illumination assembly are all in the prior art and are not described herein.

The utility model discloses interim ID card processor's preparation flow as follows:

opening the material supplementing cover, and respectively placing the laminated clamping core and the laminated clamping film on the clamping core lifting seat and the clamping film lifting seat;

starting a first lifting mechanism and a second lifting mechanism, lifting a core clamping lifting seat and a film clamping lifting seat, and respectively sucking a core clamping and a film clamping by a first suction nozzle and a second suction nozzle;

starting a driving motor until the core clamping material taking position and the film clamping material taking position are at the material loading position, cutting off the communication between a vacuum pump and the first suction nozzle and the communication between the vacuum pump and the second suction nozzle, and respectively dropping the core clamping and the film clamping onto a core clamping seat and a film clamping seat;

the conveying mechanism drives the film clamping seat to a target position, and the printing assembly performs printing operation on the film clamping seat; after printing is finished, the conveying mechanism drives the film clamping seat to an initial position;

the card core drive of push mechanism on with the card core seat is to the top of the card membrane of printing completion on the card membrane seat, and material all in one piece mechanism can start when push mechanism starts, and push mechanism continues to the card core after the stack and card membrane propelling movement to cross in moulding the subassembly, crosses to mould and pass through ramp and from the export output after accomplishing.

The utility model discloses a system card effect of interim identity card processor is higher, realizes waiting immediately to be advisable.

The foregoing has been a detailed description of the preferred embodiments and principles of the present invention, and it will be apparent to those skilled in the art that variations may be made in the specific embodiments based on the concepts of the present invention, and such variations are considered as within the scope of the present invention.

Claims (10)

1. The temporary identity card manufacturing machine comprises a shell, and a printing assembly and a plastic coating assembly which are arranged in the shell, and is characterized in that a feeding assembly, a conveying mechanism, a pushing mechanism, a card core seat and a card film seat are further arranged in the shell, and the feeding assembly is used for synchronously feeding a card core and a card film to the card core seat and the card film seat; the conveying mechanism is used for conveying the film clamping seat to be switched between an initial position and a target position; the printing component is used for printing the card film on the card film seat at the target position; the pushing mechanism is used for pushing the card core on the card core seat so as to enable the card core to be superposed above the printed card film on the card film seat at the initial position; the pushing mechanism is also used for pushing the superposed card core and the superposed card film so as to enable the superposed card core and the superposed card film to move to the plastic coating component.

2. A temporary identity card making machine according to claim 1, wherein the feeding assembly comprises a material taking part and a driving part, and the material taking part comprises a core clamping material taking position and a film clamping material taking position; the driving part is used for synchronously driving the core clamping material taking position and the film clamping material taking position so as to switch the core clamping material taking position and the film clamping material taking position between the material taking position and the material loading position; when the core clamping material taking position and the film clamping material taking position are located at the feeding position, the core clamping material taking position and the film clamping material taking position are respectively located above the core clamping seat and the film clamping seat.

3. The temporary identity card making machine according to claim 2, wherein the material taking part further comprises a card core lifting seat located below the card core material taking position, a card film lifting seat located below the card film material taking position, and a first lifting mechanism and a second lifting mechanism which are respectively used for driving the card core lifting seat and the card film lifting seat to move up and down, wherein the card core lifting seat and the card film lifting seat are respectively used for placing a laminated card core and a laminated card film.

4. The temporary identity card making machine according to claim 3, wherein a friction piece is arranged on one side of the card film lifting seat, and the friction piece is positioned between the card film lifting seat and the card film taking position; when the film clamping lifting seat does lifting motion, the friction piece can be in friction contact with the film clamping on the film clamping lifting seat.

5. A temporary identity card maker as claimed in claim 4 wherein the friction member is a brush or sheet.

6. A temporary identity card making machine according to any one of claims 2 to 5, wherein the card core material taking position comprises a first base and a plurality of first suction nozzles arranged below the first base, and the first suction nozzles are used for being connected with a vacuum pump; the film clamping and material taking position comprises a second base and a plurality of second suction nozzles arranged below the second base, and the second suction nozzles are used for being connected with a vacuum pump.

7. A temporary identification card making machine according to claim 6, wherein said first nozzle comprises a first nozzle base fixed below the first base and a first nozzle telescopically engaged with the first nozzle base; the second suction nozzle comprises a second suction nozzle seat fixed below the second base and a second suction head in telescopic fit with the second suction nozzle seat.

8. The temporary identity card making machine according to claim 6, wherein the driving part comprises a driving motor, a guide rail and a linkage frame, and the linkage frame is fixedly connected with the first base and the second base; the linkage frame is connected with the guide rail in a sliding manner; the driving motor is used for driving the linkage frame to slide along the guide rail.

9. A temporary identity card maker as claimed in any one of claims 1 to 5, wherein the card film holder is located between the card holder and the over-mold assembly, the card holder having a first guide slot, the card film holder having a second guide slot corresponding to the first guide slot; correspondingly, push mechanism includes the driving piece, pushes away the post with first guide way one-to-one, the driving piece is used for the drive to push away the post and in proper order the movable fit in first guide way and second guide way to make the card core superpose on the card membrane and card core and card membrane activity after the stack to crossing the plastic assembly.

10. A temporary identity card making machine according to any one of claims 1 to 5, wherein a material arranging mechanism is further arranged in the shell, is positioned below the card film seat and is used for arranging the card core and the card film which are superposed above the card film seat.

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