CN215551991U - Conveyer and certificate making machine - Google Patents

Abstract

The utility model relates to a conveying device and a certificate making machine, wherein the conveying device comprises a rack, an upper conveying assembly and a lower conveying assembly, the upper conveying assembly and the lower conveying assembly are slidably arranged on the rack, the upper conveying assembly can move to at least a first station and a second station, the lower conveying assembly can move to at least a third station and a fourth station, the upper conveying assembly is used for outwards conveying or receiving an external certificate core, and the lower conveying assembly is used for outwards conveying or receiving the external certificate core. Because last transmission assembly and lower transmission assembly homoenergetic frame relatively move, wherein, go up the transmission assembly and can remove to first station and second station at least, lower transmission assembly can remove to third station and fourth station at least, and then make system card machine and first station, the second station, the mechanism that third station and fourth station correspond can work, and be unlikely to empty the card core of waiting for last station and processing, thereby make a plurality of mechanisms of system card machine can simultaneous working, the efficiency of system card is greatly improved.

Description

Conveyer and certificate making machine

Technical Field

The utility model relates to the technical field of self-service equipment, in particular to a conveying device and a certificate making machine.

Background

At present, domestic motor vehicles are rapidly developed, the vehicle driving management business volume is increased year by year, for the situation, a traffic police department uses equipment to replace manual work to carry out vehicle driving management business acceptance, a stylus printer and a color printer are generally arranged in driver license and driving license making equipment, the stylus printer is used for printing characters on a license core when making the license, then the color printer prints pictures such as pictures on the license core, then the license core carries out subsequent procedures such as cutting, film covering and plastic covering, when the traffic police department carries out batch making the license, one license core is printed by the stylus printer and then is transmitted to the color printer through a transmission device to be printed, and then is transmitted to subsequent stations such as cutting, film covering and plastic covering, when the transmission device is used for transmitting the license core, a plurality of stations generally need to wait in an empty mode, and the efficiency of batch making the license is low.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a conveying device with higher transmission efficiency and a certificate making machine with higher certificate making efficiency.

According to an aspect of the present invention, there is provided a transfer apparatus including a frame, and an upper transfer assembly and a lower transfer assembly slidably disposed on the frame, the upper transfer assembly being movable to at least a first station and a second station, the lower transfer assembly being movable to at least a third station and a fourth station, the upper transfer assembly being configured to outwardly transfer or receive an external certificate core, and the lower transfer assembly being configured to outwardly transfer or receive an external certificate core.

As an embodiment of the present invention, the conveying device further includes a slide rail disposed on the frame, a carriage slidably disposed on the slide rail, and a first driving assembly driving the carriage to move along a length direction of the slide rail, and the upper conveying assembly and the lower conveying assembly are disposed on the carriage at intervals along the length direction of the slide rail.

As an embodiment of the utility model, the second station and the third station are in the same position.

As an embodiment of the present invention, the first driving assembly includes a driving motor disposed on the frame, a driving gear connected to an output end of the driving motor, a driven gear rotatably disposed on the frame, and a synchronous belt connecting the driving gear and the driven gear, the synchronous belt is fixedly connected to the carriage, and a direction of a connecting line between the driving gear and the driven gear is the same as a length direction of the slide rail.

As an embodiment of the present invention, the upper transmission assembly includes an upper bracket, an upper transmission motor, an upper driving wheel shaft, an upper transmission belt connecting the upper driving wheel shaft and an output end of the upper transmission motor, and an upper driven wheel shaft corresponding to the upper driving wheel shaft, which are respectively disposed on the upper bracket, and the upper driving wheel shaft can drive the certificate core to move between the upper driving wheel shaft and the upper driven wheel shaft.

As an embodiment of the present invention, at least two upper driving wheel shafts are provided, at least two upper driving wheel shafts are connected through a transmission belt, and the number of the upper driven wheel shafts is the same as that of the upper driving wheel shafts and corresponds to that of the upper driving wheel shafts one by one.

As an embodiment of the present invention, the lower transmission assembly includes a lower bracket, and a lower transmission motor, a lower driving wheel shaft, a lower transmission belt connecting the lower driving wheel shaft and an output end of the lower transmission motor, and a lower driven wheel shaft corresponding to the lower driving wheel shaft, which are respectively disposed on the lower bracket, and the lower driving wheel shaft is capable of driving the certificate core to move between the lower driving wheel shaft and the lower driven wheel shaft.

As an embodiment of the present invention, at least two lower driving wheel shafts are provided, at least two lower driving wheel shafts are connected through a transmission belt, and the number of the lower driven wheel shafts is the same as that of the lower driving wheel shafts and corresponds to that of the lower driving wheel shafts one by one.

According to another aspect of the utility model, a certificate making machine is provided, which comprises a base, and a color printer, a text printer, a turning device, a cutting device, a film laminating and plastic laminating device and a conveying device as described in any one of the above embodiments, which are arranged on the base, wherein the color printer is used for printing pictures or photos on a certificate core, the text printer is used for printing texts on the certificate core, the turning device is used for turning the certificate core, the cutting device is used for cutting the certificate core into a preset pattern, the film laminating and plastic laminating device is used for laminating the certificate core and heating and plastic laminating the certificate core, and the certificate core after being printed by the text printer sequentially passes through the cutting device and the film laminating and plastic laminating device;

the conveying device comprises a frame arranged on the base and an upper conveying assembly and a lower conveying assembly which are arranged on the frame in a sliding manner, the upper conveying assembly can move at least to a first station corresponding to the color printer and a second station corresponding to the character printer, the upper conveying assembly can receive the certificate core printed by the color printer at the first station, the certificate core can be transmitted to the character printer by the upper conveying assembly at the second station, the lower conveying assembly can move at least to a third station corresponding to the character printer and a fourth station corresponding to the cutting device at the third station, the certificate core printed by the character printer can be received by the lower conveying assembly at the fourth station, and the certificate core can be transmitted to the cutting device by the lower conveying assembly, during the third station, transmission assembly can be with proving the core and transmitting to turning device on and can receive the card core after the turning device upset down.

As an embodiment of the utility model, the cutting device comprises a main frame, a clamping component movably arranged on the main frame and a cutting component arranged on the main frame, wherein the clamping component can move to at least a fifth station corresponding to the cutting component and a sixth station corresponding to the film laminating and plastic coating device, and the cutting component can cut the certificate core positioned at the fifth station into a main page and an auxiliary page;

the clamping assembly comprises a clamping motor, a cam shaft connected with the output end of the clamping motor and a chuck for clamping the certificate core, the cam shaft and the chuck are arranged in a linkage manner, and the camshaft is rotated to open and close the chuck;

the tectorial membrane is crossed and is moulded the device and mould the subassembly including removing adsorption component, tectorial membrane storehouse and crossing, the tectorial membrane storehouse is used for depositing the tectorial membrane piece, remove adsorption component be used for with tectorial membrane piece in the tectorial membrane storehouse adsorbs and removes extremely sixth station, remove adsorption component and can also be with the card core tectorial membrane that is located sixth station department, the centre gripping subassembly can also remove extremely with cross the seventh station that moulds the subassembly and correspond, cross the card core heating after moulding the subassembly and can be located the tectorial membrane on the seventh station and cross the plastic processing.

The embodiment of the utility model has the following beneficial effects:

the conveying device in the embodiment comprises an upper conveying assembly and a lower conveying assembly, the upper conveying assembly and the lower conveying assembly can move relative to the frame, wherein the upper conveying assembly can move to at least a first station and a second station, the lower conveying assembly can move to at least a third station and a fourth station, and then mechanisms corresponding to the certificate making machine and the first station, the second station, the third station and the fourth station can work, so that a certificate core which is processed at the previous station can not be waited for in an empty mode, a plurality of mechanisms of the certificate making machine can work simultaneously, and the certificate making efficiency is greatly improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic diagram of a certificate making machine according to an embodiment of the present invention;

FIG. 2 is a schematic structural view of the transfer device of FIG. 1;

FIG. 3 is a schematic view of the conveyor of FIG. 2 from another perspective;

FIG. 4 is a schematic view of a portion of the structure of FIG. 1;

FIG. 5 is a schematic view of a portion of the cutting device of FIG. 1;

wherein: 10. a machine base; 100. a color printer; 200. a text printer; 300. a cutting device; 310. a main frame; 320. a clamping assembly; 321. a clamping motor; 322. a camshaft; 323. a chuck; 3231. a translation block; 3232. an upper clamping block; 3233. a lower clamping block; 330. a cutting assembly; 340. a guide rail; 350. a second drive assembly; 400. a film laminating and plastic laminating device; 410. moving the adsorption assembly; 411. a gantry; 412. a sucker is arranged; 413. an up-down structure; 414. a guide rail; 415. a third drive assembly; 420. a film covering bin; 430. a plastic coating component; 500. a conveying device; 510. a frame; 520. an upper transmission component; 521. an upper bracket; 522. an upper drive motor; 523. an upper driving wheel shaft; 524. uploading a transmission belt; 525. an upper driven axle; 530. a lower transport assembly; 531. a lower bracket; 532. a lower drive motor; 533. a lower driving wheel shaft; 534. a lower transmission belt; 535. a lower driven axle; 540. a slide rail; 550. a carriage; 570. a first drive assembly; 571. a drive motor; 572. a driving gear; 573. a driven gear; 574. a synchronous belt; 600. and a turnover device.

Detailed Description

To facilitate an understanding of the utility model, the utility model will now be described more fully with reference to the accompanying drawings. Preferred embodiments of the present invention are shown in the drawings. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the utility model herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the utility model. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

Referring to fig. 1-5, an embodiment of the present invention provides a certificate making machine, which can be used in hospitals, libraries, banks or other places, and is mainly used for making drivers' licenses, but also other certificates such as books and certificates.

Specifically, the certificate making machine of the embodiment of the utility model comprises a base 10, and a color printer 100, a text printer 200, a cutting device 300, a film laminating and plastic laminating device 400 and a conveying device 500 which are arranged on the base 10, wherein the color printer 100 is used for printing pictures or photos on certificate cores, the text printer 200 is used for printing characters on the certificate cores, the text printer 200 can be a stylus printer, the cutting device 300 is used for cutting the certificate cores into preset patterns, the film laminating and plastic laminating device 400 is used for laminating the certificate cores and heating and laminating the laminated certificate cores, the certificate cores after being printed by the text printer 200 sequentially pass through the cutting device 300 and the film laminating and plastic laminating device 400, the conveying device 500 is used for conveying the certificate cores among all mechanisms of the certificate making machine, and through mutual matching among the color printer 100, the text printer 200, the cutting device 300, the film laminating and plastic laminating device 400 and the conveying device 500, can realize the system card automatically, need not manual operation, improve system card efficiency greatly, moreover, can use manpower sparingly, reduce the human cost.

In order to further improve the certification efficiency of the certification making machine, it is necessary to reduce the idle waiting time of each mechanism of the color printer 100, the text printer 200, the cutting device 300, the film laminating and plastic coating device 400 and the conveying device 500, and to make the color printer 100, the text printer 200, the cutting device 300, the film laminating and plastic coating device 400 and the conveying device 500 operate as soon as possible, and in order to achieve the above objects, referring to fig. 2 and 3, in an embodiment, the conveying device 500 includes a frame 510 disposed on the base 10 and an upper conveying assembly 520 and a lower conveying assembly 530 slidably disposed on the frame 510, the upper conveying assembly 520 is movable at least to a first station corresponding to the color printer 100 and a second station corresponding to the text printer 200, at the first station, the upper conveying assembly 520 can receive the certificate core printed by the color printer 100, at the second station, upper transport assembly 520 is capable of transporting the certificate core to text printer 200, and lower transport assembly 530 is at least movable to a third station corresponding to text printer 200 and a fourth station corresponding to cutting device 300, at the third station, lower transport assembly 530 is capable of receiving the certificate core printed by text printer 200, and at the fourth station, lower transport assembly 530 is capable of transporting the certificate core to cutting device 300.

In this embodiment, the conveying device 500 includes two conveying assemblies, namely an upper conveying assembly 520 and a lower conveying assembly 530, the upper conveying assembly 520 has at least two working positions, namely a first working position and a second working position, at which the two working positions can respectively correspond to the color printer 100 and the text printer 200, so that the certificate core printed by the color printer 100 can be timely conveyed to the text printer 200 through the first conveying assembly, and the lower conveying assembly 530 has at least two working positions, namely a third working position and a fourth working position, which can respectively correspond to the text printer 200 and the cutting device, so that the certificate core printed by the text printer 200 can be timely conveyed to the cutting device through the lower conveying assembly 530, and thus the color printer 100, the cutting device and the like can simultaneously work while the text printer 200 works, and the cutting device 300 and the film laminating device 400 have short working hours for processing the certificate core, the waiting time is not too long basically, so that the color printer 100, the text printer 200, the cutting device 300 and the film coating and plastic coating device 400 in the certificate making machine in the embodiment can be in a working state basically at the same time, the idle waiting time is greatly reduced, and the certificate making efficiency is greatly improved.

In a specific embodiment, the conveying apparatus 500 further includes a slide rail 540 disposed on the frame 510, a carriage 550 slidably disposed on the slide rail 540, and a first driving assembly 570 for driving the carriage 550 to move along the length direction of the slide rail 540, wherein the upper transmission assembly 520 and the lower transmission assembly 530 are disposed on the carriage 550 at intervals along the length direction of the slide rail 540. Through setting up transmission subassembly 520 and transmission subassembly 530 simultaneously on balladeur train 550, and then when balladeur train 550 removed, can drive transmission subassembly 520 and transmission subassembly 530 simultaneously and remove down simultaneously on the drive simultaneously, can drive transmission subassembly 520 and transmission subassembly 530 removal down simultaneously through a power drive arrangement, the structure of conveyer 500 has been simplified, the equipment cost has been reduced, in addition, all install on balladeur train 550 of transmission subassembly 520 and transmission subassembly 530 down, the relative position between transmission subassembly 520 and the transmission subassembly 530 is unchangeable, it is changeed in the relative position relation of transmission subassembly and transmission subassembly 530 down to control, the condition that the position overlaps and collide can not take place.

Further, color printer 100 sets up the top at text printer 200, text printer 200 sets up on frame 10, the length direction of slide rail 540 is vertical direction, first station is located the top of second station, the third station is located the top of fourth station, first station corresponds with color printer 100's export, certificate core transmission after color printer 100 prints is to the last transmission assembly 520 when being in first station on, last transmission assembly 520 when being in the second station transmits the certificate core that color printer 100 printed and accomplishes to text printer 200 in order to carry out the characters printing, through moving carriage 550 along vertical direction, can be with last transmission assembly 520 from first station removal to second station, or remove to first station from the second station.

It should be noted that the text printer 200 may be disposed above the color printer 100, and at this time, text printing may be performed on the certificate core first, and then picture or photograph printing may be performed on the certificate core, where the first station corresponds to the text printer 200, and the second station corresponds to the color printer 100.

Preferably, the second station and the third station are in the same position. By setting the second station and the third station to the same position, the second station and the third station can both correspond to the character printer 200 at the optimal positions, and both the working stability and the working efficiency can be moderately improved.

In other embodiments, the upper transport assembly 520 is slidably mounted on the slide rail 540, the lower transport assembly 530 is slidably mounted on the slide rail 540, and the upper transport assembly 520 and the lower transport assembly 530 are independently controlled, so that the upper transport assembly 520 and the lower transport assembly 530 in this embodiment can be moved to the required stations respectively at appropriate time more precisely due to the independent control, and further save the waiting time.

In a more specific embodiment, the first driving assembly 570 includes a driving motor 571 disposed on the frame 510, a driving gear 572 connected to an output end of the driving motor 571, a driven gear 573 rotatably disposed on the frame 510, and a timing belt 574 connecting the driving gear 572 and the driven gear 573, wherein the timing belt 574 is fixedly connected to the carriage 550, and a direction in which the driving gear 572 and the driven gear 573 are connected is the same as a length direction of the slide rail 540.

In some other more specific embodiments, the first driving assembly 570 includes an upper motor, a lower motor, an upper gear connected to an output end of the upper motor, a lower gear connected to an output end of the lower motor, and a timing belt 574 connecting the upper gear and the lower gear, wherein the timing belt 574 is fixedly connected to the carriage 550, and a direction of a line connecting the upper gear and the lower gear is the same as a length direction of the slide rail 540. Because be equipped with motor and lower motor in this embodiment, and then make gear and lower gear all can drive synchronous rotation as driving gear 572, and then can be stable drive the length direction removal of balladeur train 550 along slide rail 540 through hold-in range 574, through the mode that adopts two motors and hold-in range 574 conveying, not only can increase balladeur train 550's displacement, but also can accurate control balladeur train 550's displacement.

In some other more specific embodiments, the first driving assembly 570 includes a motor, a gear and a rack, the motor is connected to the gear, the gear and the rack are engaged, and the rack is fixedly connected to the carriage 550, and the first driving assembly 570 of this embodiment can also precisely move the carriage 550 on the slide rail 540.

In other more specific embodiments, the carriage 550 may be driven to move by driving a pulley and a conveyor belt with a motor, or the carriage 550 may be driven to move by driving a lead screw with a motor.

In a more specific embodiment, the upper transmission assembly 520 includes an upper bracket 521 disposed on the frame 510, an upper transmission motor 522 disposed on the upper bracket 521, an upper driving axle 523, an upper transmission belt 524 connecting the upper driving axle 523 and an output end of the upper transmission motor 522, and an upper driven axle 525 corresponding to the upper driving axle 523, wherein the upper driving axle 523 can drive the certificate core to move between the upper driving axle 523 and the upper driven axle 525. The friction force generated by the upper driving wheel shaft 523 and the upper driven wheel shaft 525 on the certificate core between the upper driving wheel shaft 523 and the upper driven wheel shaft 525 drives the certificate core to transmit, and the certificate core can be stably transmitted in the mode without being accumulated with other certificate cores due to slipping.

Further, the number of the upper driving wheel shafts 523 is at least two, the at least two upper driving wheel shafts 523 are in transmission connection through a conveyor belt, and the number of the upper driven wheel shafts 525 is the same as that of the upper driving wheel shafts 523 and corresponds to that of the upper driving wheel shafts 523 one by one. Through the cooperation between a plurality of last driven wheel axles 523 and a plurality of last driven wheel axles 525, can further guarantee the stability of card core transmission in-process.

In other more specific embodiments, the upper driven axle 525 is movable relative to the upper bracket 521 along a radial direction thereof, so that a distance between the upper driven axle 525 and the upper driving axle 523 can be adjusted, and thus the friction force of the upper driven axle 525 and the upper driving axle 523 on the core can be adjusted according to requirements.

Preferably, the upper and lower transfer assemblies 520 and 530 are identical in structure.

Specifically, the lower transmission assembly 530 includes a lower bracket 531 disposed on the frame 510, a lower transmission motor 532 disposed on the lower bracket 531, a lower driving wheel shaft 533, a lower transmission belt 534 connecting the lower driving wheel shaft 533 with the output end of the lower transmission motor 532, and a lower driven wheel shaft 535 corresponding to the lower driving wheel shaft 533, where the lower driving wheel shaft 533 can drive the certificate core to move between the lower driving wheel shaft 533 and the lower driven wheel shaft 535. The friction force generated by the lower driving wheel shaft 533 and the lower driven wheel shaft 535 to the certificate core between the lower driving wheel shaft 533 and the lower driven wheel shaft 535 drives the certificate core to transmit, and the certificate core can be stably transmitted in the mode without being accumulated with other certificate cores due to slipping.

Further, the number of the lower driving wheel shafts 533 is at least two, the at least two lower driving wheel shafts 533 are in transmission connection through a conveyor belt, and the number of the lower driven wheel shafts 535 is the same as that of the lower driving wheel shafts 533 and corresponds to that of the lower driving wheel shafts 533. The cooperation between the multiple lower driving axle shafts 533 and the multiple lower driven axle shafts 535 can further ensure the stability in the core transmission process.

In other more specific embodiments, the lower driven axle 535 is movable relative to the lower bracket 531 in a radial direction thereof, and the distance between the lower driven axle 535 and the lower driving axle 533 can be adjusted, so that the friction force of the lower driven axle 535 and the lower driving axle 533 against the core can be adjusted as required.

For the color printer 100 and the text printer 200 in the embodiment of the present invention, the color printer 100 and the text printer 200 in the prior art can be directly used, and the structure thereof will not be described herein.

Referring to fig. 4 and 5, in an embodiment, the cutting device 300 includes a main frame 310 disposed on the machine base 10, a clamping assembly 320 movably disposed on the main frame 310, and a cutting assembly 330 disposed on the main frame 310, the clamping assembly 320 is configured to clamp the certificate core, the clamping assembly 320 is movable to at least a fifth station corresponding to the cutting assembly 330 and a sixth station corresponding to the laminating and molding device 400, and the cutting assembly 330 is configured to cut the certificate core at the fifth station into a main page and a sub-page. Because the clamping assembly 320 in this embodiment is movably disposed on the main frame 310, the clamping assembly 320 can simultaneously perform the functions of clamping the certificate core and transferring the certificate core, thereby simplifying the structure and having stable operation.

Further, the cutting device 300 further comprises a guide rail 340 disposed on the main frame 310, and a second driving assembly 350, wherein the clamping assembly 320 is slidably mounted on the guide rail 340 along the length direction of the guide rail 340, and the second driving assembly 350 can drive the clamping assembly 320 to move on the guide rail 340.

Further, the second driving assembly 350 includes a motor, a gear and a rack, the motor is connected to the gear, the gear is engaged with the rack, and the rack is connected to the clamping assembly 320, and the motor drives the rack to move, so as to drive the clamping assembly 320 to move. Of course, the second driving assembly 350 may also be a motor-screw combination, and may also be a combination of a motor and a conveyor belt.

As for the cutting assembly 330, the cutting assembly 330 can be directly used as the cutting assembly 330 in the prior art, and the structure thereof is not described herein.

For the clamping assembly 320, the clamping assembly 320 comprises a clamping motor 321, a cam shaft 322 connected with the output end of the clamping motor 321, and a clamping head 323 for clamping the certificate core, wherein the cam shaft 322 is arranged in linkage with the clamping head 323, and the clamping head 323 can be opened and closed by rotating the cam shaft 322. The scheme that the clamping motor 321 drives the cam shaft 322 to rotate so as to control the opening and closing of the clamping head 323 can stably control the opening or closing of the clamping head 323, the structure is simple, the motor can rotate towards one direction all the time, and the possibility of damage to the motor is reduced.

Specifically, the chuck 323 comprises a translation block 3231, an upper clamping block 3232 and a lower clamping block 3233 which are respectively arranged on the translation block 3231, and a spring arranged between the upper clamping block 3232 and the lower clamping block 3233, wherein in a natural state, the spring can enable the upper clamping block 3232 and the lower clamping block 3233 to be pressed against each other, and at the time, the cam shaft 322 is in a clamping state and can clamp the certificate core, and the cam shaft 322 is in contact with the upper clamping block 3232 or the lower clamping block 3233, when a convex part of the cam shaft 322 is pressed against the upper clamping block 3232 or the lower clamping block 3233, a protrusion on the cam shaft 322 drives the upper clamping block 3232 or the lower clamping block 3233 to move against the spring force, and the chuck 323 is opened. Translation block 3231 is mounted on rail 340 and is driven by second drive assembly 350 to move along rail 340.

Referring to fig. 4 and 5, in an embodiment, the film covering and plastic coating device 400 includes a movable adsorption assembly 410, a film covering bin 420 and a plastic coating assembly 430, the film covering bin 420 is used for storing a film covering sheet, the movable adsorption assembly 410 is used for adsorbing the film covering sheet in the film covering bin 420 and moving the film covering sheet to a sixth station, the movable adsorption assembly 410 can further cover a film on a certificate core located at the sixth station, the clamping assembly 320 can also move to a seventh station corresponding to the plastic coating assembly 430, and the plastic coating assembly 430 can heat and perform plastic coating on the certificate core located at the seventh station. In this embodiment, the clamping assembly 320 can be moved to the fifth station, the sixth station and the seventh station respectively, so as to correspond to the cutting assembly 330, the movable adsorption assembly 410 and the plastic coating assembly 430 respectively, thereby simplifying the structure of the certificate making machine and making the structure more reasonable.

It should be noted that in some other embodiments, the core may be transferred from the sixth station to the seventh station by other transfer assemblies, and the core does not necessarily have to be transferred from the sixth station to the seventh station by the cooperation of the clamping assembly 320, the guide 340 and the second driving assembly 350.

Referring to fig. 4, in an embodiment, the movable suction assembly 410 includes a gantry 411, an upper suction cup 412 disposed on the gantry 411, an upper lifting structure 413, a guide rail 414 and a third driving assembly 415, a lower lifting structure (not shown) disposed below the sixth station and capable of driving the lower suction cup to move toward or away from the sixth station, an upper lifting structure 413 capable of driving the upper suction cup 412 to move toward or away from the sixth station, the upper suction cup 412 and the upper lifting structure 413 slidably disposed on the guide rail 414, and a lower suction cup (not shown) capable of driving the upper suction cup 412 and the upper lifting structure 413 to move along a length direction of the guide rail 414. The removal adsorption component 410 in this embodiment not only can shift the tectorial membrane from tectorial membrane storehouse 420 to the sixth station, can also open the opening that will be located the tectorial membrane on the sixth station through the cooperation of last sucking disc 412 and lower sucking disc to make the card core can penetrate in the tectorial membrane through the opening, and then make the card core tectorial membrane accomplish.

Further, the third driving assembly 415 includes a motor, a gear and a rack, the motor is connected to the gear, the gear is engaged with the rack, the rack is connected to the upper suction cup 412 and the upper lifting structure 413, and the rack is driven by the motor to move so as to drive the upper suction cup 412 and the upper lifting structure 413 to move. Of course, the third driving assembly 415 may also be a motor-screw combination, and may also be a combination of a motor and a conveyor belt.

As for the upper lifting structure 413 and the lower lifting structure, the lifting structures in the prior art are adopted, and are not described herein.

In addition, regarding the plastic coating assembly 430, the plastic coating process is mainly performed on the certificate core coated with the film by a heating plastic coating method, and the plastic coating assembly 430 may be a plastic coating assembly 430 in the prior art, which is not described herein again.

Referring to fig. 1, in an embodiment, the certificate maker includes an overturning device 600 disposed on the base 10, the overturning device 600 is used for overturning the certificate core, and at the third station, the lower transmission component 530 is capable of transmitting the certificate core to the overturning device 600 and receiving the certificate core overturned by the overturning device 600. Various forms of documents can be produced by the inverting apparatus 600, specifically the following two embodiments.

The first implementation mode comprises the following steps: when making the certificate in batches, need not overturn the certificate core this moment, only need color printer 100, text printer 200, cutting device 300, tectorial membrane to cross to mould the cooperation of device 400 and can accomplish, concrete certificate-making flow is as follows:

first, carriage 550 is moved to position upper transport assembly 520 at the first station and lower transport assembly 530 at the third station, where the cores are printed by color printer 100 onto upper transport assembly 520 and the cores are printed by text printer 200 onto lower transport assembly 530.

The carriage 550 is then moved to position the upper transport assembly 520 at the second station and the lower transport assembly 530 at the fourth station, wherein the cores on the upper transport assembly 520 are transported to the text printer 200 and the cores on the lower transport assembly 530 are transported to the cutting device 300 for subsequent cutting operations.

Finally, the cut certificate core is subjected to film covering and plastic coating through the film covering and plastic coating device 400, and the certificate is prepared.

The second embodiment: when characters need to be printed on two sides of the certificate core, the color printer 100, the character printer 200, the turnover device 600, the cutting device 300 and the laminating and plastic-coating device 400 are needed to be matched to complete the process, and the specific certificate making process is as follows:

first, carriage 550 is moved to position upper transport assembly 520 at the first station and lower transport assembly 530 at the third station, where the cores are printed by color printer 100 onto upper transport assembly 520 and the cores are printed by text printer 200 onto lower transport assembly 530.

Then, the certificate core on the lower transmission assembly 530 at the third station is transmitted to the turnover device 600, and the certificate core is turned to the other side by the turnover device 600, and after the turnover device 600 turns the certificate core, the certificate core is transmitted to the lower transmission assembly 530 at the third station again.

Continuously transmitting the certificate core on the lower transmission assembly 530 to the text printer 200, printing the other side of the certificate core through the text printer 200, outputting the certificate core to the lower transmission assembly 530 at the third station again after printing is finished, continuously transferring the certificate core on the lower transmission assembly 530 at the third station to the turnover device 600, and turning over the certificate core to the side coming out from the text printer 200 for the first time through the turnover device 600;

the carriage 550 is then moved to position the upper transport assembly 520 at the second station and the lower transport assembly 530 at the fourth station, wherein the cores on the upper transport assembly 520 are transported to the text printer 200 and the cores on the lower transport assembly 530 are transported to the cutting device 300 for subsequent cutting operations.

Finally, the cut certificate core is subjected to film covering and plastic coating through the film covering and plastic coating device 400, and the certificate is prepared.

As for the turning device 600 in this embodiment, the turning device 600 may be directly used as the turning device 600 in the prior art, and the structure thereof is not described herein.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the claims. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (10)

1. The conveying device is characterized by comprising a rack, an upper conveying assembly and a lower conveying assembly, wherein the upper conveying assembly and the lower conveying assembly are slidably arranged on the rack, the upper conveying assembly can move to at least a first station and a second station, the lower conveying assembly can move to at least a third station and a fourth station, the upper conveying assembly is used for outwards conveying or receiving an external certificate core, and the lower conveying assembly is used for outwards conveying or receiving the external certificate core.

2. The conveyor of claim 1, further comprising a slide rail disposed on the frame, a carriage slidably disposed on the slide rail, and a first drive assembly driving the carriage to move along a length of the slide rail, wherein the upper transport assembly and the lower transport assembly are disposed on the carriage at intervals along the length of the slide rail.

3. A transfer device as in claim 2 wherein the second station and the third station are in the same position.

4. The conveying device as claimed in claim 2, wherein the first driving assembly comprises a driving motor disposed on the frame, a driving gear connected to an output end of the driving motor, a driven gear rotatably disposed on the frame, and a timing belt connecting the driving gear and the driven gear, the timing belt is fixedly connected to the carriage, and a direction of a connecting line between the driving gear and the driven gear is the same as a length direction of the slide rail.

5. The conveying device as claimed in claim 1, wherein the upper conveying assembly includes an upper frame, an upper driving motor, an upper driving wheel shaft, an upper driving belt connecting the upper driving wheel shaft and an output end of the upper driving motor, and an upper driven wheel shaft corresponding to the upper driving wheel shaft, the upper driving wheel shaft being capable of driving the certificate core to move between the upper driving wheel shaft and the upper driven wheel shaft.

6. The transmission device as claimed in claim 5, wherein the number of the upper driving wheel shafts is at least two, at least two upper driving wheel shafts are in transmission connection through the transmission belt, and the number of the upper driven wheel shafts is the same as that of the upper driving wheel shafts and corresponds to that of the upper driving wheel shafts one by one.

7. The conveying device as claimed in claim 1, wherein the lower conveying assembly includes a lower frame, and a lower driving motor, a lower driving wheel shaft, a lower driving belt connecting the lower driving wheel shaft and an output end of the lower driving motor, and a lower driven wheel shaft corresponding to the lower driving wheel shaft, which are respectively disposed on the lower frame, and the lower driving wheel shaft can drive the certificate core to move between the lower driving wheel shaft and the lower driven wheel shaft.

8. The transmission device as claimed in claim 7, wherein the number of the lower driving wheel shafts is at least two, at least two lower driving wheel shafts are connected through transmission of the transmission belt, and the number of the lower driven wheel shafts is the same as that of the lower driving wheel shafts and corresponds to that of the lower driving wheel shafts one by one.

9. An evidence making machine, characterized by, include the frame and set up color printer, characters printer, turning device, cutting device, tectorial membrane that are in the said frame and cross the plastic device and as the conveyer of any one of above claims 1-8, the color printer is used for printing pictures or photos on the core of the card, the said characters printer is used for printing the characters on the core of the card, the said turning device is used for turning over the core of the card, the said cutting device is used for cutting the core of the card into the preset pattern, the said tectorial membrane crosses the plastic device and is used for the core tectorial membrane of the card and heats the plastic to the tectorial membrane, the core of the card after the said characters printer prints and finishes passes through the said cutting device sequentially and the said tectorial membrane crosses the plastic device;

the conveying device comprises a frame arranged on the base and an upper conveying assembly and a lower conveying assembly which are arranged on the frame in a sliding manner, the upper conveying assembly can move at least to a first station corresponding to the color printer and a second station corresponding to the character printer, the upper conveying assembly can receive the certificate core printed by the color printer at the first station, the certificate core can be transmitted to the character printer by the upper conveying assembly at the second station, the lower conveying assembly can move at least to a third station corresponding to the character printer and a fourth station corresponding to the cutting device at the third station, the certificate core printed by the character printer can be received by the lower conveying assembly at the fourth station, and the certificate core can be transmitted to the cutting device by the lower conveying assembly, during the third station, transmission assembly can be with proving the core and transmitting to turning device on and can receive the card core after the turning device upset down.

10. The certification machine according to claim 9, wherein the cutting device comprises a main frame, a clamping assembly movably arranged on the main frame, and a cutting assembly arranged on the main frame, the clamping assembly is movable at least to a fifth station corresponding to the cutting assembly and a sixth station corresponding to the film laminating and plastic coating device, and the cutting assembly can cut the certificate core at the fifth station into a main page and an auxiliary page;

the clamping assembly comprises a clamping motor, a cam shaft connected with the output end of the clamping motor and a chuck for clamping the certificate core, the cam shaft and the chuck are arranged in a linkage manner, and the camshaft is rotated to open and close the chuck;

the tectorial membrane is crossed and is moulded the device and mould the subassembly including removing adsorption component, tectorial membrane storehouse and crossing, the tectorial membrane storehouse is used for depositing the tectorial membrane piece, remove adsorption component be used for with tectorial membrane piece in the tectorial membrane storehouse adsorbs and removes extremely sixth station, remove adsorption component and can also be with the card core tectorial membrane that is located sixth station department, the centre gripping subassembly can also remove extremely with cross the seventh station that moulds the subassembly and correspond, cross the card core heating after moulding the subassembly and can be located the tectorial membrane on the seventh station and cross the plastic processing.

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