CN214563963U - Certificate making equipment and certificate core feeding device thereof - Google Patents

Abstract

The application discloses system card equipment and card core loading attachment thereof, this card core loading attachment prove core loading attachment and first printing passageway including proving core storage box, proving the core and extracting subassembly, first card core material loading drive assembly, proving core material loading moving part, second. When the material loading of proving the core is carried out to needs, prove the core and demonstrate at least one motion in the core extraction element through the first core material loading drive assembly drive of proving in the core storage box to it is close to the core of proving in the core storage box to demonstrate the core extraction element. Then the core extracting component is used for extracting a core which is closest to the core extracting component, the second core feeding driving component drives the core feeding movable part to move so as to drive the core on the core extracting component to enter the first printing inlet, and then the core moves to the input position of the first printer in the first printing channel, so that the core feeding is completed. And the mechanical structure support is provided for realizing the automation of the core feeding.

Description

Certificate making equipment and certificate core feeding device thereof

Technical Field

The invention relates to the technical field of certificate processing, in particular to certificate manufacturing equipment and a certificate core feeding device thereof.

Background

People can not leave various certificates in work and life, such as driving licenses, practice licenses, various skill registration certificates and the like. Most of these documents comprise a core paper card, on which text information and images including at least the photograph of the person are usually printed, and a plastic film covering the core paper card. The production of these documents requires numerous steps, for example, when producing a document, it is necessary to first place a blank card in a printing position of a printer to print characters on the blank card; then the paper card which finishes the character printing step is placed at the printing position of another printer to print the image on the paper card; and then placing the paper card with the printed characters and images on a plastic packaging device for plastic packaging.

Many working units which take responsibility for making the certificate still use an artificial certificate making method to complete the certificate making steps, and workers need to go back and forth between the two printers and the plastic packaging device to complete the operation of each certificate making step by step. However, manual certification has many disadvantages such as high labor cost and low certification efficiency, and therefore, some inventors are developing a certification equipment capable of automatically certifying. To develop a certification making apparatus capable of automatically making a certificate, it is necessary to automate each certification making step, for example, it is necessary to automate the core loading.

Disclosure of Invention

The invention mainly solves the technical problems that: how to provide support in the aspect of mechanical structure for realizing the automation of the core loading.

In a first aspect, an embodiment provides an authentication apparatus comprising:

a first printer for printing a type of information on the core;

the second printer is used for printing second type information on the certificate core and the photo paper;

the certificate core feeding device is used for conveying the certificate core to an input position of the first printer;

the first reversing device is used for turning over the certificate core and conveying the certificate core to the certificate core feeding device;

the transfer device is used for receiving the certificate cores output from the output position of the first printer and can convey the certificate cores to the input positions of the first reversing device and the second printer;

the photographic paper feeding device is used for conveying photographic paper to the transfer device, and the transfer device can convey the photographic paper to an input position of the second printer;

a slitting device for slitting the certificate core into a certificate core original and a certificate core copy, and slitting the photo paper into photographic paper and blank paper;

the film covering device is used for covering the certificate core original and the printing paper;

the certificate core feeding device comprises a certificate core storage box, a certificate core extraction assembly, a first certificate core feeding driving assembly, a certificate core feeding moving part, a second certificate core feeding driving assembly and a first printing channel;

the certificate core storage box is used for placing the certificate core; the certificate core extracting component is used for extracting a certificate core which is closest to the certificate core extracting component; the first certificate core feeding driving assembly is used for driving at least one of the certificate core in the certificate core storage box and the certificate core extracting assembly to move so that the certificate core extracting assembly is close to the certificate core in the certificate core storage box; the certificate core feeding movable part is used for contacting the certificate core on the certificate core extracting assembly; the first printing channel is provided with a first printing inlet and a first printing outlet, and the first printing outlet is used for being communicated with an input position of a first printer; the second certificate core feeding driving assembly is used for driving the certificate core feeding moving part to move so as to drive the certificate core on the certificate core extracting assembly to enter the first printing inlet.

In a second aspect, an embodiment provides a certificate core feeding device, including:

the certificate core storage box is used for placing the certificate core;

the certificate core extracting component is used for extracting a certificate core closest to the certificate core extracting component;

the first certificate core feeding driving assembly is used for driving at least one of the certificate core in the certificate core storage box and the certificate core extracting assembly to move so that the certificate core extracting assembly is close to the certificate core in the certificate core storage box;

the card core feeding moving part is used for contacting the card core on the card core extracting assembly;

a first print channel having a first print inlet and a first print outlet for communicating with an input station of a first printer;

and the second core feeding driving assembly is used for driving the core feeding moving part to move so as to drive the core on the core extracting assembly to enter the first printing inlet.

In one embodiment, the card core storage box is provided with a driving license core storage cavity and a driving license core storage cavity, the driving license core storage cavity is used for placing a card core of a driving license, and the driving license core storage cavity is used for placing a card core of a driving license.

In one embodiment, the storage case further comprises a storage case track having a loading position, the core storage case is disposed on the storage case track, and a storage case driving assembly is used for driving the core storage case to move on the storage case track, so that the driving core storage cavity and the driving core storage cavity move to the loading position.

In one embodiment, the core extraction assembly includes a core adsorbing structure having an adsorbent side for adsorbing the core.

In one embodiment, the core-pulling assembly comprises a first fan frame and a first negative-pressure fan, and the first negative-pressure fan is disposed on the first fan frame.

In one embodiment, the driver license printing system further comprises at least one of a driver license code scanning device and a driver license code scanning device, the driver license code scanning device is arranged below the first printing channel, the driver license code scanning device is arranged above the first printing channel, the driver license code scanning device is used for scanning the information code on the driver license core, and the driver license code scanning device is used for scanning the information code on the driver license core.

In one embodiment, the printing system further comprises a heavy paper detection device, and the heavy paper detection device is used for detecting whether the certificate core in the first printing channel has heavy paper.

In one embodiment, the printing device further comprises a first one-way baffle and a baffle elastic member, wherein the first one-way baffle is arranged in the first printing channel, one side of the first one-way baffle is rotatably connected with the first printing channel, and the elastic restoring force of the baffle elastic member is used for driving the first one-way baffle to rotate to a position for closing the first printing channel.

In a third aspect, an embodiment provides an authentication apparatus comprising an authentication core loading apparatus as in any of the above.

According to the certificate making equipment and the certificate core feeding device thereof of the embodiment, when the certificate core is required to be fed, the first certificate core feeding driving component drives the certificate core in the certificate core storage box and at least one of the certificate core extracting components to move so that the certificate core extracting components are close to the certificate core in the certificate core storage box. Then the core extracting component is used for extracting a core which is closest to the core extracting component, the second core feeding driving component drives the core feeding movable part to move so as to drive the core on the core extracting component to enter the first printing inlet, and then the core moves to the input position of the first printer in the first printing channel, so that the core feeding is completed. And the mechanical structure support is provided for realizing the automation of the core feeding.

Drawings

FIG. 1 is a schematic diagram of a first exemplary embodiment of an authentication device under a first viewing angle;

FIG. 2 is a schematic diagram of a second embodiment of an authentication device at a second viewing angle;

FIG. 3 is a schematic diagram illustrating an exemplary authentication device at a third viewing angle according to an embodiment of the present disclosure;

FIG. 4 is a schematic diagram illustrating an exemplary certification equipment according to a fourth embodiment of the present disclosure;

FIG. 5 is a cross-sectional view taken along line C-C of FIG. 4 of the present application;

FIG. 6 is a schematic structural diagram of a core feeder according to an embodiment of the present application;

FIG. 7 is a schematic structural view of a cartridge storage cartridge and a cartridge drive assembly according to one embodiment of the present application;

FIG. 8 is a schematic diagram of a certificate core extraction assembly in an embodiment of the present application;

FIG. 9 is a schematic structural diagram of a core extracting assembly and a third core loading driving assembly according to an embodiment of the present application;

FIG. 10 is a schematic diagram illustrating an internal structure of a core extracting assembly, a third core loading driving assembly and a first reversing device according to an embodiment of the present disclosure;

FIG. 11 is a schematic diagram of the internal structure of a core feeder and a first reversing device according to an embodiment of the present application;

reference numerals:

1000. a first printer;

2000. a second printer;

3000. a core feeding device;

3100. a certificate core storage box; 3110. a driving license core storage cavity; 3120. a driving license core storage cavity; 3200. a certificate core extraction component; 3210. a first fan case; 3220. a first negative pressure fan; 3300. a first core feeding driving assembly; 3310. a support plate; 3320. a first core feeding motor; 3330. a first core feeding screw rod; 3340. a first core feeding slide block; 3350. a first core feeding slide bar; 3400. the card core is provided with a material moving part; 3500. a second core feeding driving assembly; 3510. a second core feeding motor; 3520. a core feeding driving wheel; 3530. a core feeding driven wheel; 3540. a second core feeding driving belt; 3550. a second core feeding slide block; 3560. a second core feeding slide bar; 3600. a first print pass; 3610. a first one-way baffle; 3700. a storage cartridge track; 3800. a cartridge drive assembly; 3810. a storage box motor; 3820. a first storage box drive pulley; 3830. a second storage box drive pulley; 3840. a storage box drive belt; 3900. a third core feeding driving assembly; 3910. a core feeding driving wheel; 3920. a core feeding matching wheel; 3930. the card core is loaded to drive the rotating shaft; 3940. the card core is loaded and matched with the rotating shaft; 3950. a third core feeding motor; 3960. a core feeding output wheel; 3970. a core feeding transmission wheel; 3980. a third core feeding driving belt; 31100. a driver license code scanning device; 31200. a driving license code scanning device; 31300. an ultrasonic emitting device; 31400. an ultrasonic receiving device; 31500. a first recovery tank;

4000. a first reversing device;

4100. a first commutation channel; 4200. a first commutation drive component; 4210. a first reverse drive wheel; 4220. a first reverse mating wheel; 4230. a first commutation drive shaft; 4240. the first reversing matching rotating shaft; 4250. a first commutated motor; 4260. a first reversing output wheel; 4270. a first reversing transmission wheel; 4280. a first reverse drive belt;

5000. a transfer device;

6000. a photographic paper feeding device;

7000. a slitting device;

8000. provided is a film covering device.

Detailed Description

The present invention will be described in further detail with reference to the following detailed description and accompanying drawings. Wherein like elements in different embodiments are numbered with like associated elements. In the following description, numerous details are set forth in order to provide a better understanding of the present application. However, those skilled in the art will readily recognize that some of the features may be omitted or replaced with other elements, materials, methods in different instances. In some instances, certain operations related to the present application have not been shown or described in detail in order to avoid obscuring the core of the present application from excessive description, and it is not necessary for those skilled in the art to describe these operations in detail, so that they may be fully understood from the description in the specification and the general knowledge in the art.

Furthermore, the features, operations, or characteristics described in the specification may be combined in any suitable manner to form various embodiments. Also, the various steps or actions in the method descriptions may be transposed or transposed in order, as will be apparent to one of ordinary skill in the art. Thus, the various sequences in the specification and drawings are for the purpose of describing certain embodiments only and are not intended to imply a required sequence unless otherwise indicated where such sequence must be followed.

The numbering of the components as such, e.g., "first", "second", etc., is used herein only to distinguish the objects as described, and does not have any sequential or technical meaning. The term "connected" and "coupled" when used in this application, unless otherwise indicated, includes both direct and indirect connections (couplings).

The present embodiment provides an authentication apparatus.

Referring to fig. 1-5, the authentication apparatus includes a first printer 1000, a second printer 2000, an authentication core feeding device 3000, a first reversing device 4000, a transferring device 5000, a photographic paper feeding device 6000, a slitting device 7000, and a film covering device 8000.

The first printer 1000 is used to print one type of information on the certificate core, and the second printer 2000 is used to print two types of information on the certificate core and the photo paper. The core feeding device 3000 is used for conveying the core to an input position of the first printer 1000, and the first reversing device 4000 is used for turning over the core and conveying the core to the core feeding device 3000. The transfer device 5000 is used for receiving the certificate core output from the output position of the first printer 1000, and the transfer device 5000 can convey the certificate core to the input positions of the first reversing device 4000 and the second printer 2000. The photo paper feeding device 6000 is used for conveying the photo paper to the transfer device 5000, and the transfer device 5000 can convey the photo paper to an input position of the second printer 2000. Cut device 7000 is used for cutting the card core and is proved the core positive and card core copy, and, cuts the photo paper into printing paper and blank paper, and tectorial membrane device 8000 is used for being proved the core positive and printing paper tectorial membrane.

When making the certificate, print a type of information on the certificate core through first printer 1000, print two types of information on the certificate core through second printer 2000, realize the material loading of certificate core through certificate core loading attachment 3000, realize the material loading of photo paper through photo paper loading attachment 6000. The transfer of the certificate core and/or the photo paper between the output position of the first printer 1000, the input position of the first reversing device 4000 and the second printer 2000 is realized by the transfer device 5000, and the certificate core is turned over by the first reversing device 4000 so as to print information on both sides of the certificate core. Cut into the card core through cutting device 7000 and prove the core copy for the card core is positive, cut into photographic paper and blank paper with the picture paper, through tectorial membrane device 8000 to the card core positive and photographic paper tectorial membrane. And the support in the aspect of mechanical structure is provided for realizing automatic certificate making.

Referring to fig. 1-5, in one embodiment, the first printer 1000 is a stylus printer, the "first type information" is black text information, and the second printer 2000 is an ink jet printer, the "second type information" is color image information. In other embodiments, the printer type, the first type information and the second type information selected by the certificate making equipment can be flexibly changed according to the requirements of the certificate making management unit of the corresponding certificate. Note that "printing paper" refers to a portion of the photographic paper on which image information is printed, and "blank paper" refers to a portion of the photographic paper on which image information is not printed.

On the other hand, this embodiment provides a card core loading attachment.

Referring to fig. 6-10, in one embodiment, the core feeder 3000 includes a core storage box 3100, a core extracting assembly 3200, a first core feeding driving assembly 3300, a core feeding moving member 3400, a second core feeding driving assembly 3500, and a first printing path 3600.

Referring to fig. 6-10, the core storage case 3100 is used to store the cores, and the core extracting assembly 3200 is used to extract a core closest thereto. The first core loading driving assembly 3300 is used for driving at least one of the core in the core storage box 3100 and the core extracting assembly 3200 to move, so that the core extracting assembly 3200 is close to the core in the core storage box 3100. The card core material loading moving part 3400 is used for contacting the card core on the card core extracting component 3200. The first print path 3600 has a first print inlet and a first print outlet for communication with an input station of the first printer 1000. The second core feeding driving assembly 3500 is used for driving the core feeding movable element 3400 to move so as to drive the core on the core extracting assembly 3200 to enter the first printing inlet.

When the core is loaded, at least one of the core in the core storage box 3100 and the core extracting assembly 3200 is driven by the first core loading driving assembly 3300, so that the core extracting assembly 3200 is close to the core in the core storage box 3100. Then, the drawing assembly draws a card core closest to the drawing assembly, then, the second card core feeding driving assembly 3500 drives the card core feeding moving part 3400 to move, so as to drive the card core on the card core drawing assembly 3200 to enter the first printing inlet, and then the card core moves to the input position of the first printer 1000 in the first printing channel 3600, so that the feeding of the card core is realized.

Referring to fig. 6 and 7, in one embodiment, the core loading device 3000 includes a core storage cartridge 3100, a cartridge track 3700, and a cartridge drive assembly 3800.

Referring to fig. 6 and 7, the license core storage case 3100 has a driving license core storage cavity 3110 and a driving license core storage cavity 3120, the driving license core storage cavity 3110 is for placing a license core of a driving license, and the driving license core storage cavity 3120 is for placing a license core of a driving license. The cartridge track 3700 has a loading position, and the core cartridge 3100 is disposed on the cartridge track 3700. The cartridge drive assembly 3800 is used to drive the movement of the core cartridge 3100 on the cartridge track 3700 to move the driver core storage cavity 3110 and the driver core storage cavity 3120 to the loading position.

When carrying out the material loading during operation, when the certificate that needs to make is the driver's license, through storage box drive assembly 3800 drive certificate core storage box 3100 on storage box track 3700 motion, make driver's license core storage cavity 3110 move to the material loading position, when the certificate that needs to make is the driving certificate, through storage box drive assembly 3800 drive certificate core storage box 3100 on storage box track 3700 motion, make driving certificate core storage cavity 3120 move to the material loading position.

Specifically, the material loading position of storage box track 3700 corresponds with the position of card core extraction element 3200, i.e. when driving license core storage cavity 3110 moves to the material loading position, the driving license core in driving license core storage cavity 3110 is relative with the position of extraction element, when driving license core storage cavity 3120 moves to the material loading position, the driving license core in driving license core storage cavity is relative with the position of extraction element.

Referring to fig. 6 and 7, in one embodiment, the cartridge drive assembly 3800 includes a cartridge motor 3810, a first cartridge drive pulley 3820, a second cartridge drive pulley 3830, and a cartridge drive belt 3840. The storage box motor 3810 has an output, first storage box drive pulley 3820 is connected with the output of storage box motor 3810, storage box drive belt 3840 cup joints with first storage box drive pulley 3820 and second storage box drive pulley 3830, storage box drive belt 3840 is parallel with storage box track 3700, storage box drive belt 3840 is connected with card core storage box 3100, card core storage box 3100 is connected with storage box track 3700 sliding connection. The cartridge motor 3810 is configured to drive the first cartridge drive pulley 3820 to rotate, so as to drive the card cartridge 3100 to slide on the cartridge track 3700.

When the card core storage box 3100 is driven to move, the first storage box driving belt wheel 3820 is driven to rotate through the motor, the storage box driving belt 3840 is driven to move, and then the card core storage box 3100 is driven to slide on the storage box rail 3700. Specifically, the cartridge track 3700 may be a sliding bar, rail, or other type of track, and the core cartridge 3100 may be slidably coupled to the cartridge track 3700 via a slider or other type of sliding element.

Referring to fig. 6-8, in one embodiment, a wick extraction assembly 3200 includes a wick-attaching structure having an absorbent side for absorbing a wick. Specifically, the core attaching structure may be a negative pressure fan, a negative pressure chuck, an electrostatic chuck, or the like.

Referring to fig. 6-8, in an embodiment, the core extracting assembly 3200 is disposed above the first print inlet, the core attaching structure is a negative pressure fan, the core extracting assembly 3200 includes a first fan housing 3210 and a first negative pressure fan 3220, and the first negative pressure fan 3220 is mounted on the first fan housing 3210.

Referring to fig. 6-10, in one embodiment, first core loading drive assembly 3300 includes a support plate 3310, a first core loading motor 3320, a first core loading wire 3330, a first core loading slider 3340, and a first core loading slide 3350.

The cushion board 3310 sets up in card core storage box 3100, cushion board 3310 is used for bearing the card core in the card core storage box 3100, first card core material loading slide bar 3350 is along extending from card core storage box 3100 to the direction that proves core draws subassembly 3200, first card core material loading lead screw 3330 is parallel with first card core material loading slide bar 3350, first card core material loading motor 3320's output and first card core material loading lead screw 3330 are connected, first card core material loading slider 3340 cup joints with first card core material loading lead screw 3330, first card core material loading slider 3340 and first card core material loading slide bar 3350 sliding connection, first card core material loading slider 3340 is connected with cushion board 3310. The first core feeding motor 3320 is used to drive the first core feeding screw 3330 to rotate, so as to drive the supporting plate 3310 to move close to and away from the core extracting assembly 3200.

Referring to fig. 6-10, in an embodiment, the second core loading driving assembly 3500 includes a second core loading motor 3510, a core loading driving wheel 3520, two core loading driven wheels 3530, a second core loading driving belt 3540, a second core loading slider 3550, and a second core loading sliding rod 3560.

Second certificate core material loading slide bar 3560 extends along the direction that is on a parallel with first print channel 3600, certificate core material loading driving wheel 3520 is connected with the output end of second certificate core material loading motor 3510, two certificate core material loading driven wheels 3530 set up relatively, so that second certificate core material loading driving belt 3540 that moves to between two certificate core material loading driven wheels 3530 is parallel with second certificate core material loading slide bar 3560, second certificate core material loading slider 3550 is connected with second certificate core material loading slide bar 3560 in a sliding manner, second certificate core material loading slider 3550 is connected with second certificate core material loading driving belt 3540 between two certificate core material loading driven wheels 3530, second certificate core material loading slider 3550 is connected with second certificate core material loading movable piece 3400. The second core feeding motor 3510 is used for driving the core feeding driving wheel 3520 to rotate so as to drive the second core feeding moving part 3400 to move along the extending direction of the sliding rod. Specifically, the second card core feeding moving element 3400 may be a shift lever or a shift claw, as long as the second card core is pushed to move toward the first printing inlet.

Referring to fig. 6-10, in one embodiment, the core feeder 3000 further includes a third core feeder drive assembly 3900, the third core feeder drive assembly 3900 being configured to drive movement of the cores within the first print lane 3600.

Referring to fig. 6-11, the third core loading driving assembly 3900 includes a core loading driving wheel 3910, a core loading engaging wheel 3920, a core loading driving shaft 3930, a core loading engaging shaft 3940, a third core loading motor 3950, a core loading output wheel 3960, a core loading driving wheel 3970, and a third core loading driving belt 3980.

The output of third card core material loading motor 3950 is connected with card core material loading output wheel 3960, proves that core material loading drive wheel 3910 sets up with card core material loading cooperation wheel 3920 relatively, proves that core material loading drive wheel 3910 and card core material loading cooperation wheel 3920 are used for respectively with the relative both sides contact of proving the core. Card core loading attachment 3000 is still including proving core material loading mounting panel, and card core material loading drive wheel 3910 is connected with proving core material loading mounting panel rotation through proving core material loading drive pivot 3930, and card core material loading cooperation wheel 3920 is connected with proving core material loading mounting panel rotation through proving core material loading cooperation pivot 3940, and card core material loading drive wheel 3970 cup joints with proving core material loading drive pivot 3930. A third core feeding driving belt 3980 is sleeved with the core feeding output wheel 3960 and the core feeding driving wheel 3970. The third core feeding motor 3950 is configured to drive the core feeding output wheel 3960 to rotate so as to drive the core feeding driving wheel 3910 to rotate, and further drive the core to move in the first printing channel 3600. Specifically, multiple sets of core feed drive wheels 3910 and core feed mating wheels 3920 may be provided according to the length of first print lane 3600 to enable continuous movement of the cores within first print lane 3600.

Referring to fig. 9-11, in one embodiment, two opposite sides of first print lane 3600 perpendicular to the movement path of the core are provided with a feeding driving opening, and at least a portion of the driving wheel and the engaging wheel extends from the feeding driving opening into first print lane 3600.

Referring to fig. 9-11, in an embodiment, the card core loading device 3000 further includes a card core loading pressure spring, the card core loading driving wheel 3910 and the card core loading matching wheel 3920 are rotatably connected to the card core loading mounting plate through a rotation shaft, a card core loading kidney slot extending in a direction perpendicular to a movement path of the card core is disposed on the card core loading mounting plate, the rotation shaft of the card core loading matching wheel 3920 is disposed in the card core loading kidney slot, one end of the card core loading pressure spring is connected to the card core loading mounting plate, the other end is connected to the rotation shaft of the card core loading matching wheel 3920, and the card core loading pressure spring is used for pressing the card core loading matching wheel 3920 on the card core loading driving wheel 3910. Through setting up card core material loading pressure spring, be favorable to ensureing the inseparable cooperation of guaranteeing core material loading drive wheel 3910 and card core material loading cooperation wheel 3920, make card core material loading drive wheel 3910 and card core material loading cooperation wheel 3920 can drive the motion of card core more steadily.

Referring to fig. 9-11, in an embodiment, the license core loading device 3000 further includes a driving license code scanning device 31100 and a driving license code scanning device 31200, the driving license code scanning device 31100 is disposed below the first printing passage 3600, the driving license code scanning device 31200 is disposed above the first printing passage 3600, the first printing passage 3600 is provided with a driving license code scanning opening opposite to the driving license code scanning device 31100, and the first printing passage 3600 is provided with a driving license code scanning opening opposite to the driving license code scanning device 31200. The driver license code scanning device 31100 is used for scanning the information code on the driver license core, and the driving license code scanning device 31200 is used for scanning the information code on the driving license core.

Referring to fig. 9-11, in one embodiment, the core feeder 3000 further includes a heavy paper detection device for detecting whether the core in the core feeder 3000 has a problem of heavy paper.

Referring to fig. 9-11, in one embodiment, the heavy paper detecting device further includes an ultrasonic transmitting device 31300 and an ultrasonic receiving device 31400. Ultrasonic detection holes are formed in two opposite sides of the first printing channel 3600, which are perpendicular to the motion path of the certificate core, the ultrasonic transmitting device 31300 and the ultrasonic receiving device 31400 are respectively arranged on two opposite sides of the first printing channel 3600, and the ultrasonic transmitting device 31300 and the ultrasonic receiving device 31400 are aligned with the ultrasonic detection holes. The ultrasonic transmitter 31300 and the ultrasonic receiver 31400 are used to detect whether there is a problem of a core being re-laid in the first printing lane 3600, i.e., whether two or more cores are stacked. The ultrasonic emitting device 31300 and the ultrasonic receiving device 31400 may also be disposed on the photographic paper feeding device 6000 to detect whether there is a problem of overlapped sheets of the outputted photographic paper. In other embodiments, the heavy paper detection device may also be an infrared detection device. The photo paper feeding device 6000 may also be provided with a heavy paper detection device for detecting whether the photo paper in the photo paper feeding device 6000 has a problem of heavy paper.

Referring to fig. 9-11, in an embodiment, the core feeding device 3000 further includes a first recycling box 31500, a first unidirectional baffle 3610 is disposed in the first printing path 3600, the first recycling box 31500 is disposed below the first unidirectional baffle 3610, one side of the first unidirectional baffle 3610 is rotatably disposed, a baffle elastic member is disposed on the first unidirectional baffle 3610, and the first unidirectional baffle 3610 rotates to a position where the first printing path 3600 closes the first printing path under an elastic restoring force of the baffle elastic member. When the card core positively passes through first one-way baffle 3610, the card core can push first one-way baffle 3610 to rotate, so that the card core passes through first one-way baffle 3610. When the certificate core reversely passes through the first one-way baffle 3610, the first one-way baffle 3610 guides the certificate core into the first recycling box 31500.

Specifically, "forward direction through first unidirectional barrier 3610" means that the core moves toward first printer 1000, and "reverse direction through first unidirectional barrier 3610" means that the core moves away from first printer 1000. When the fact that the certificate core in the printing channel has a problem of overlapping or fails to print in the first printer 1000 is detected, the third certificate core feeding driving assembly 3900 drives the certificate core to reversely pass through the first one-way baffle 3610, and the certificate core with overlapping or failed to print is guided into the first recovery box 31500 to be recovered. The baffle elastic piece can be a tension spring, a torsion spring and the like.

Referring to fig. 4, 5, 10 and 11, in one embodiment, the first commutation apparatus 4000 includes a first commutation channel 4100 and a first commutation drive component 4200.

The first reversing channel 4100 is provided with a first reversing inlet and a first reversing outlet, the first reversing inlet is used for receiving the certificate core, the first reversing outlet is communicated with the first printing channel 3600, and at least part of the path of the first reversing channel 4100 is provided with a bent radian so that the certificate core passing through the first reversing channel 4100 is turned over. The first reversing driving assembly 4200 is used to drive the first reversing moving element to move, so as to drive the core inside the first reversing channel 4100 to move.

Referring to fig. 4, 5, 10 and 11, in one embodiment, first reverse drive assembly 4200 includes a first reverse drive wheel 4210, a first reverse engagement wheel 4220, a first reverse drive spindle 4230, a first reverse engagement spindle 4240, a first reverse motor 4250, a first reverse output wheel 4260, a first reverse drive wheel 4270 and a first reverse drive belt 4280.

The output end of the first reversing motor 4250 is connected with a first reversing output wheel 4260, a first reversing driving wheel 4210 is arranged opposite to a first reversing matching wheel 4220, and the first reversing driving wheel 4210 and the first reversing matching wheel 4220 are respectively used for contacting with two opposite sides of the core. First switching-over drive wheel 4210 is connected with card core material loading mounting panel through first switching-over drive pivot 4230 rotation, and first switching-over cooperation wheel 4220 is connected with card core material loading mounting panel rotation through first switching-over cooperation pivot 4240. The first reversing transmission wheel 4270 is connected with the first reversing driving rotating shaft 4230, and the first reversing driving belt 4280 is sleeved with the first reversing transmission wheel 4270 and the first reversing output wheel 4260. The first reversing motor 4250 is configured to drive the first reversing output wheel 4260 to rotate, so as to drive the first reversing driving wheel 4210 to rotate, and further drive the core to move in the first reversing channel 4100.

Specifically, multiple sets of the first reversing driving wheel 4210 and the first reversing matching wheel 4220 can be arranged according to the length of the first reversing channel 4100, so that the core can continuously move in the first reversing channel 4100. Because of the long length of the first commutation channel 4100, a plurality of first commutation drive assemblies 4200 can be disposed along the first commutation channel 4100, each first commutation drive assembly 4200 including a first commutation motor 4250 as a power source.

The present invention has been described in terms of specific examples, which are provided to aid understanding of the invention and are not intended to be limiting. For a person skilled in the art to which the invention pertains, several simple deductions, modifications or substitutions may be made according to the idea of the invention.

Claims (10)

1. An authentication apparatus, comprising:

a first printer for printing a type of information on the core;

the second printer is used for printing second type information on the certificate core and the photo paper;

the certificate core feeding device is used for conveying the certificate core to an input position of the first printer;

the first reversing device is used for turning over the certificate core and conveying the certificate core to the certificate core feeding device;

the transfer device is used for receiving the certificate cores output from the output position of the first printer and can convey the certificate cores to the input positions of the first reversing device and the second printer;

the photographic paper feeding device is used for conveying photographic paper to the transfer device, and the transfer device can convey the photographic paper to an input position of the second printer;

a slitting device for slitting the certificate core into a certificate core original and a certificate core copy, and slitting the photo paper into photographic paper and blank paper;

the film covering device is used for covering the certificate core original and the printing paper;

the certificate core feeding device comprises a certificate core storage box, a certificate core extraction assembly, a first certificate core feeding driving assembly, a certificate core feeding moving part, a second certificate core feeding driving assembly and a first printing channel;

the certificate core storage box is used for placing the certificate core; the certificate core extracting component is used for extracting a certificate core which is closest to the certificate core extracting component; the first certificate core feeding driving assembly is used for driving at least one of the certificate core in the certificate core storage box and the certificate core extracting assembly to move so that the certificate core extracting assembly is close to the certificate core in the certificate core storage box; the certificate core feeding movable part is used for contacting the certificate core on the certificate core extracting assembly; the first printing channel is provided with a first printing inlet and a first printing outlet, and the first printing outlet is used for being communicated with an input position of a first printer; the second certificate core feeding driving assembly is used for driving the certificate core feeding moving part to move so as to drive the certificate core on the certificate core extracting assembly to enter the first printing inlet.

2. The utility model provides a card core loading attachment which characterized in that includes:

the certificate core storage box is used for placing the certificate core;

the certificate core extracting component is used for extracting a certificate core closest to the certificate core extracting component;

the first certificate core feeding driving assembly is used for driving at least one of the certificate core in the certificate core storage box and the certificate core extracting assembly to move so that the certificate core extracting assembly is close to the certificate core in the certificate core storage box;

the card core feeding moving part is used for contacting the card core on the card core extracting assembly;

a first print channel having a first print inlet and a first print outlet for communicating with an input station of a first printer;

and the second core feeding driving assembly is used for driving the core feeding moving part to move so as to drive the core on the core extracting assembly to enter the first printing inlet.

3. The certificate core loading device according to claim 2, wherein the certificate core storage box is provided with a driving certificate core storage cavity and a driving certificate core storage cavity, the driving certificate core storage cavity is used for placing the certificate core of the driving certificate, and the driving certificate core storage cavity is used for placing the certificate core of the driving certificate.

4. The card core loading apparatus of claim 3, further comprising a storage cartridge track having a loading position, said card core storage cartridge being disposed on said storage cartridge track, and a storage cartridge drive assembly for driving movement of the card core storage cartridge on the storage cartridge track to move the driver card core storage cavity and the driver card core storage cavity to the loading position.

5. The certificate core loading apparatus of claim 2, wherein the certificate core extraction assembly comprises a certificate core attachment structure having an absorbent side for absorbing the certificate core.

6. The certificate core feeding device according to claim 5, wherein the certificate core attaching structure is a negative pressure fan, the certificate core extracting assembly comprises a first fan frame and a first negative pressure fan, and the first negative pressure fan is arranged on the first fan frame.

7. The certificate core feeding device according to claim 2, further comprising at least one of a driver's certificate code scanning device disposed below the first printing passage and a driver's certificate code scanning device disposed above the first printing passage, the driver's certificate code scanning device being configured to scan the information code on the driver's certificate core.

8. The core feeder of claim 2, further comprising a heavy paper detection device for detecting whether a core in the first print pass has a heavy sheet.

9. The certificate core feeding device according to claim 2, further comprising a first one-way shutter and a shutter elastic member, wherein the first one-way shutter is disposed in the first printing passage, one side of the first one-way shutter is rotatably connected to the first printing passage, and an elastic restoring force of the shutter elastic member is used for driving the first one-way shutter to rotate to a position for closing the first printing passage.

10. An authentication apparatus comprising an authentication core loading apparatus as claimed in any one of claims 2 to 9.

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