CN113715524A - Temporary license plate manufacturing device, manufacturing method thereof and storage medium - Google Patents

Abstract

The application relates to a temporary license plate manufacturing device, a manufacturing method thereof and a storage medium, wherein the temporary license plate manufacturing device comprises a conveying mechanism, a double-sheet detection mechanism, a double-sheet separation mechanism, a turnover mechanism, a printer and a transfer mechanism. On one hand, the technical scheme is additionally provided with the double-sheet detection mechanism and the double-sheet separation mechanism, so that whether the certificate is double-sheet or not can be detected, and a plurality of double-sheet certificates can be separated, so that the problem of double-sheet certificates in the prior art is solved, and the condition of printing errors of the certificates is effectively avoided; on the other hand, the controller controls the work flow of each mechanism, provides complete time sequences of certificate transmission, repeated separation, transfer, single/double-sided printing and transfer-out, can fully regulate and control the high-efficiency working performance of each mechanism in the temporary license plate manufacturing device, can eliminate the risk of certificate printing errors through the time sequence connection of each mechanism, and improves the practicability of the device.

Description

Temporary license plate manufacturing device, manufacturing method thereof and storage medium

Technical Field

The application relates to the technical field of temporary license plate manufacturing, in particular to a temporary license plate manufacturing device, a manufacturing method and a storage medium thereof.

Background

As the number of automobiles continues to increase, many car authorities or government agencies opt to use self-service temporary license plates in the form of certificates to provide drivers with temporary license plates in order to better serve the drivers. However, the existing card-registering manufacturing equipment often has the problem of certificate re-registration, for example, when a first certificate is conveyed, a second certificate below the first certificate is adhered to the lower surface of the first certificate, so that various information mismatch problems occur. Because the temporary license plate is printed in each region and only can be suitable for a certain region, and the density and the style of the used paper are different, the parameters (such as the suction force of the sucker for sucking the certificate) for conveying the certificate by the temporary license plate manufacturing equipment cannot be suitable for all regions of the country, and the probability of the problem of overlapping is increased due to the improper equipment parameters, so that improvement is needed.

Disclosure of Invention

The technical problem that this application mainly solved is: how to reduce the risk of printing errors of the temporary license plate. In order to solve the technical problems, the application provides a temporary license plate manufacturing device, a manufacturing method thereof and a storage medium.

According to a first aspect, there is provided in one embodiment a temporary license plate manufacturing apparatus comprising: a transport mechanism for transporting the certificate; the certificate is used for being printed into a temporary license plate; the re-tensioning detection mechanism is arranged on the conveying path of the certificate and used for detecting whether the certificate is re-tensioned or not; a double-sheet separation mechanism which is arranged on the conveying path of the certificate and is used for separating a plurality of double-sheet certificates; the turnover mechanism is used for turning over the certificate; the printer is used for printing the information of the temporary license plate on the certificate; a transfer mechanism for transferring the certificate among the heavy sheet separation mechanism, the turnover mechanism, and the printer; and a controller.

The controller controls the conveying mechanism to obtain the certificate to be printed and transmits the certificate to be printed according to a preset conveying path; the controller controls the overlapped sheet detection mechanism to perform overlapped sheet detection on the certificate to be printed in transmission; when the controller judges that the certificate to be printed is overlapped, the controller controls the overlapped separation mechanism to obtain a plurality of overlapped certificates, separates the overlapped certificates and transmits the single separated certificate to the transfer mechanism; when the controller judges that the certificate to be printed has no overlapped sheets, the controller controls the conveying mechanism to directly transmit the certificate to the transfer mechanism; the controller controls the transfer mechanism to transfer the transmitted certificate to be printed to the printer; the controller controls the printer to print information of a temporary license plate on one surface of the certificate to be printed, and the certificate printed on one surface is returned to the transfer mechanism; the controller controls the transfer mechanism to transfer the certificate printed on one side to the turnover mechanism; the controller controls the turnover mechanism to turn over the certificate printed on one side to obtain the turned-over certificate; the controller controls the transit mechanism to transit the turned-over certificate to the printer; the controller controls the printer to print information of a temporary license plate on the other surface of the certificate and returns the certificate printed on the other surface to the transfer mechanism; the controller controls the transfer mechanism to transfer the certificate with double printed faces to a preset certificate outlet position.

The temporary license plate manufacturing device also comprises a scanner, wherein the scanner is used for scanning information codes preset on the certificate to be printed; the controller controls the scanner to send out code scanning rays to scan information codes on the certificate to be printed in the process of transferring the certificate to be printed to the printer by the transfer mechanism, so as to obtain scanning information; and the controller determines the information of the temporary license plate to be printed on the certificate to be printed according to the scanning information.

The temporary license plate manufacturing device further comprises a camera, wherein the camera is used for photographing the information of the temporary license plate printed on the certificate; after the controller controls the printer to return the certificate printed on one side to the transfer mechanism, the controller controls the camera to photograph the printed content on the certificate printed on one side; and/or after the controller controls the printer to return the certificate printed on the other side to the transfer mechanism, the controller controls the camera to photograph the printed content on the certificate printed on the other side.

The temporary license plate manufacturing device also comprises a turnover detection mechanism, wherein the turnover detection mechanism is used for detecting whether the certificate is turned over or not; after the controller controls the turnover mechanism to turn over the certificate printed on one side, the controller controls the turnover detection mechanism to detect whether the certificate printed on one side is turned over or not; the controller judges that the certificate printed on one side is turned over, and controls the transfer mechanism to transfer the turned-over certificate to the printer; and the controller judges that the certificate printed on one side is not turned over, and controls the turning mechanism to turn over the certificate again.

The temporary license plate manufacturing device also comprises a first storage mechanism and a first paper shortage detection mechanism; the first storage mechanism is used for storing the certificate to be printed, and the first paper shortage detection mechanism is used for detecting whether the certificate to be printed is stored in the first storage mechanism or not; before the controller controls the conveying mechanism to obtain the certificate to be printed, the controller controls the first paper-out detection mechanism to detect whether the certificate to be printed is stored in the first storage mechanism; if so, the controller controls the conveying mechanism to obtain the certificate to be printed; and if not, the controller generates a command of the paper shortage prompt of the certificate to be printed.

The temporary license plate manufacturing device also comprises a second storage mechanism, a second paper shortage detection mechanism and a transfer mechanism; the second storage mechanism is used for storing the certificates to be printed related to the temporary license plate, the second paper-out detection mechanism is used for detecting whether the certificates to be printed are stored in the second storage mechanism, and the transfer mechanism is used for transferring the certificates between the second storage mechanism and the printer; after the controller controls the transfer mechanism to transfer the printed certificate to a preset certificate outlet position, the controller controls the second paper shortage detection mechanism to detect whether the certificate to be printed is stored in the second storage mechanism or not; if yes, the controller controls the transfer mechanism to acquire the certificate to be printed from the second storage mechanism and transmits the certificate to be printed to the printer; then, the controller controls the printer to print certificate making qualification information of a temporary license plate on one surface of the certificate to be printed, and the certificate printed on one surface is returned to the transfer mechanism; the controller controls the transfer mechanism to transfer the certificate printed on one side to a preset certificate outlet position; if not, the controller generates a command that the certificate to be printed is out of paper.

The temporary license plate manufacturing device also comprises a printing detector, wherein the printing detector is used for detecting whether the qualified certificate has printed contents; after the controller controls the printer to return the one-side printed certificate to the transfer mechanism, the controller controls the printing detector to detect whether printed contents exist on the one-side printed certificate; if yes, the controller controls the transfer mechanism to transfer the certificate printed on one side to a preset certificate outlet position; if not, the controller controls the transfer mechanism to transfer the unprinted certificate to a preset waste paper position.

According to a second aspect, an embodiment provides a method of manufacturing a temporary license plate, comprising: acquiring a certificate to be printed; carrying out refolding detection on the certificate to be printed; when the certificate to be printed is judged to be overlapped, separating a plurality of overlapped certificates to obtain a single separated certificate; when the certificate to be printed is judged to have no overlapping, the certificate is directly obtained; printing the single separated certificate or the directly obtained certificate so as to print the information of the temporary license plate on one surface of the certificate to be printed; turning over the certificate printed on one side to obtain the turned-over certificate; printing the turned certificate to print the information of the temporary license plate on the other side of the certificate; and sending out the certificate with the printed double surfaces.

The separating the multiple certificates of the overlapped sheets to obtain the single separated certificate comprises the following steps: carrying out paper twisting in opposite directions on a plurality of certificates which are re-opened, and paging to obtain a plurality of separated certificates; and detecting the repeated certificates separated from the certificate, and separating the certificates again when the repeated certificates separated from the certificate are judged to exist, until a single separated certificate is obtained, or the preset separation times are reached.

Before printing the separated certificate or the directly obtained certificate, the method further comprises the following steps: scanning the certificate separated from the single certificate or the certificate directly obtained to obtain scanning information; and determining the information of the temporary license plate to be printed on the certificate to be printed according to the scanning information.

After printing the information of the temporary license plate on one side of the certificate, the method further comprises the following steps: photographing the printing content of the certificate printed on one side; and/or after the information of the temporary license plate is printed on the other side of the certificate, the method further comprises the following steps: and photographing the printing content of the certificate printed on the other side.

After the certificate printed on one side is turned over and before the certificate printed on the turned over is printed, the method further comprises the following steps: detecting whether the certificate printed on one side is turned over; if so, printing the turned certificate; if not, the certificate printed on one side is turned over again until the certificate printed on one side is detected to be successfully turned over, or the preset turning times are reached.

After the certificate with double-sided printing is sent out, the method further comprises the following steps: acquiring a certificate to be printed related to the temporary license plate; printing the certificate to be printed so as to print certificate making qualification information of the temporary license plate on one side of the certificate to be printed; and sending out the certificate with one printed side.

According to a third aspect, an embodiment provides a computer-readable storage medium having a program stored thereon, the program being executable by a processor to implement the manufacturing method described in the first aspect above.

The beneficial effect of this application is:

according to the embodiment, the temporary license plate manufacturing device comprises a conveying mechanism, a double-sheet detection mechanism, a double-sheet separation mechanism, a turnover mechanism, a printer and a transfer mechanism. On one hand, the technical scheme is additionally provided with the double-sheet detection mechanism and the double-sheet separation mechanism, so that whether the certificate is double-sheet or not can be detected, and a plurality of double-sheet certificates can be separated, so that the problem of double-sheet certificates in the prior art is solved, and the condition of printing errors of the certificates is effectively avoided; on the other hand, the controller controls the work flow of each mechanism, provides complete time sequences of certificate transmission, repeated separation, transfer, single/double-sided printing and transfer-out, can fully regulate and control the high-efficiency working performance of each mechanism in the temporary license plate manufacturing device, can eliminate the risk of certificate printing errors through the time sequence connection of each mechanism, and improves the practicability of the device.

Drawings

FIG. 1 is a perspective view of a temporary license plate manufacturing apparatus from one perspective according to one embodiment of the present disclosure;

FIG. 2 is a perspective view of a temporary license plate manufacturing apparatus from another perspective according to one embodiment of the present disclosure;

FIG. 3 is one of the block diagrams of the conveying mechanism, the double sheet detection mechanism and the double sheet separation mechanism in an embodiment of the present application;

FIG. 4 is a second block diagram of the conveying mechanism, the double sheet detection mechanism and the double sheet separation mechanism in an embodiment of the present application;

FIG. 5 is a flowchart illustrating operation of a temporary license plate manufacturing apparatus according to an embodiment of the present application;

FIG. 6 is a perspective view of a temporary license plate manufacturing apparatus according to another embodiment of the present application;

FIG. 7 is a flowchart illustrating the operation of a temporary license plate manufacturing apparatus according to another embodiment of the present application;

FIG. 8 is a flow chart of printing certificates in an embodiment of the present application;

FIG. 9 is a flow chart of printing a certification in one embodiment of the present application;

FIG. 10 is a schematic diagram of a manufacturing apparatus according to an embodiment of the present disclosure.

Detailed Description

The present application will be described in further detail below with reference to the accompanying drawings by way of specific embodiments. 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 first embodiment,

Referring to fig. 1 and 2, the present embodiment discloses a temporary license plate manufacturing apparatus, which mainly includes a conveying mechanism 1100, a double-sheet detecting mechanism 1200, a double-sheet separating mechanism 1300, a turnover mechanism 2000, a printer 3000, a transfer mechanism 4000, and a controller 8000, which are described below.

The transport mechanism 1100 is used to transport certificates, where certificates are intended to be printed as temporary license plates. The double-fed detection means 1200 is provided on the conveyance path of the certificate, and detects whether or not the certificate is double-fed. A double-sheet separation mechanism 1300 provided on a certificate conveyance path for separating a plurality of double-sheet certificates; the flipping mechanism 2000 is used to flip the certificate. The printer 3000 is used to print information on a temporary license plate on a certificate. The transfer mechanism 4000 is used to transfer certificates between the double-sheet separation mechanism 1300, the turnover mechanism 2000, and the printer 3000. The controller 8000 can be in signal connection with the conveying mechanism 1100, the double-sheet detecting mechanism 1200, the double-sheet separating mechanism 1300, the reversing mechanism 2000, the printer 3000, the relay mechanism 4000, and the controller 8000, and since there are many connecting lines, the connecting lines are not shown in fig. 1 and 2, but do not affect the function of the controller 8000 to control the respective mechanisms, such as controlling the operation timing of the respective mechanisms.

In this embodiment, the controller 8000 controls the respective mechanisms to operate, and the certificate to be printed can be printed into a temporary license plate by the cooperation of the respective mechanisms. For example, the controller 8000 controls the transport mechanism 1100 to acquire a certificate to be printed, and transfers the certificate to be printed according to a predetermined transport path; the controller 8000 controls the double-sheet detection mechanism 1200 to perform double-sheet detection of the certificate to be printed in transit. When the controller 8000 judges that the certificate to be printed has a double-sheet, the controller 8000 controls the double-sheet separation mechanism 1300 to obtain a plurality of double-sheet certificates, separates the plurality of double-sheet certificates, and transmits the single-sheet separated certificate to the transfer mechanism 4000; when the controller 8000 judges that there is no double sheet of the certificate to be printed, it controls the transport mechanism 1100 to directly transfer the certificate to the transfer mechanism 4000. Next, the controller 8000 controls the transfer mechanism 4000 to transfer the delivered certificate to be printed to the printer 3000; the controller 8000 controls the printer 3000 to print the information of the temporary license plate on one side of the certificate to be printed, and to return the certificate printed on one side to the transfer mechanism 4000. The controller 8000 controls the transfer mechanism to transfer the certificate printed on one side to the turnover mechanism 2000; the controller 8000 controls the turnover mechanism 2000 to turn over the certificate printed on one side to obtain a turned-over certificate; the controller 8000 controls the transfer mechanism to transfer the turned-over certificate to the printer 3000; the controller 8000 controls the printer 3000 to print the information of the temporary license plate on the other side of the certificate, and to return the certificate printed on the other side to the relay authority 4000. Finally, the controller 8000 controls the transfer mechanism 4000 to transfer the certificate whose both sides are printed to a preset certificate export position.

In this embodiment, referring to fig. 1 to 4, the conveying mechanism 1100 includes a conveying driving assembly 1110 and a conveying driving wheel 1120, the conveying driving wheel 1120 is used for contacting with the certificate, and the conveying driving assembly 1110 is used for driving the conveying driving wheel 1120 to rotate so as to drive the certificate to move. The driving of the certificate is achieved by the friction between the transport drive wheel 1120 and the certificate. In one embodiment, the transport drive wheel 1120 is a cam structure for intermittently engaging the credential as the credential is driven in motion; because the transport drive wheel 1120 is a cam, the transport drive wheel 1120 intermittently contacts the certificate when rotating, achieving an effect similar to "knocking" the certificate, thereby driving the certificate to vibrate. The vibrations through the certificates may separate the certificates of the double note from each other, thereby reducing the number of double notes that need to be separated by the double note separation mechanism 1300.

Referring to fig. 1 to 4, the transportation driving assembly 1110 may include a transportation motor 1111, a transportation driving pulley 1112, a transportation driven pulley 1113, a transportation driving belt 1114 and a transportation rotation shaft 1115, and the temporary license plate manufacturing apparatus further includes a certification installation frame 1600. Then, the conveying rotating shaft 1115 is rotatably connected with the certificate mounting rack 1600, and the conveying driving wheel 1120 is connected with the conveying rotating shaft 1115; an output shaft of the conveyance motor 1111 is connected to a conveyance driving pulley 1112, a conveyance driven pulley 1113 is connected to a conveyance rotation shaft 1115, and a conveyance transmission belt 1114 connects the conveyance driving pulley 1112 and the conveyance driven pulley 1113. When the certificate needs to be conveyed, the conveying motor 1111 drives the conveying driving pulley 1112 to rotate, so as to drive the conveying driven pulley 1113 to rotate, the conveying driven pulley 1113 drives the conveying rotating shaft 1115 to rotate, the conveying rotating shaft 1115 drives the conveying driving wheel 1120 to rotate, and finally the certificate is driven to move by the conveying driving wheel 1120.

In this embodiment, the problem of certificate re-tensioning can be solved by adding the re-tensioning detection mechanism 1200 and the re-tensioning separation mechanism 1300. Specifically, the double-sheet detection mechanism 1200 may use a double-sheet detection probe based on an infrared principle or a double-sheet detection probe based on an ultrasonic principle; it can be understood that since the certificate is a paper document, the thickness of the certificate can be detected by infrared or ultrasonic waves, and whether multiple pieces of the certificate are overlapped can be known according to the thickness.

In this embodiment, referring to fig. 1-4, a sheetpile separation mechanism 1300 includes a first separation assembly 1310 and a second separation assembly 1320, a certificate having first and second oppositely disposed sides in a stacking direction thereof, the first separation assembly 1310 for applying a first driving force to the certificate from the first side of the certificate, and the second separation assembly 1320 for applying a second driving force to the certificate from the second side of the certificate. When the certificate is re-tensioned, the first driving force and the second driving force are opposite in direction so as to drive the re-tensioned certificate to be separated from each other. When the double-sheet detection mechanism 1200 detects the double-sheet of the certificate, a first driving force in a first direction is applied to the certificate from a first side of the certificate by the first separation assembly 1310, and a second driving force in a second direction is applied to the certificate from a second side of the certificate by the second separation assembly 1320, wherein the first direction is opposite to the second direction, so that the double-sheet certificates stacked together are separated. Specifically, when the certificate is placed in a horizontal state, the stacking direction of the certificates is a vertical direction, the first side of the certificate refers to the lower side of the certificate, and the second side of the certificate refers to the upper side of the certificate. In other cases, the certificate may be transported at other suitable angles to the horizontal plane, for example, 60 ° or 45 °, and the direction of stacking the certificates may be changed to a direction perpendicular to the angle.

Referring to fig. 1 to 4, in order to support the separated certificates, the temporary license plate manufacturing apparatus further includes a transfer support mechanism 1400, which is located at the rear ends of the conveying mechanism 1100 and the separation mechanism 1300, and is configured to support the conveyed single certificates and the separated single certificates.

Referring to fig. 1 to 4, when the double-sheet detection mechanism 1200 detects that the certificate is a single certificate, the first separating assembly 1310 and the second separating assembly drive the certificate in the same direction, so that the certificate moves to the transfer bearer 1400. Because the certificate on the transfer bearing mechanism 1400 must be a single certificate, the suction parameter of the suction cup 4320 of the transfer mechanism 4000 can be maximized, thereby ensuring that the certificate can be adsorbed. The problem that in the conventional scheme, when the suction force of the suction disc piece 4320 is large, a single certificate is sucked through, so that a plurality of certificates are sucked simultaneously is solved. For example, the first separating assembly 1310 includes a first abutting member and a first driving member, the first driving member is located on a first side of the certificate, the first abutting member is located on a second side of the certificate, the first abutting member is used for abutting the certificate against the first driving member, and a friction force between the first driving member and the certificate is a first driving force. For example, the second separating assembly 1320 includes a second driving member and a second abutting member, the second driving member is located on the second side of the certificate, the second abutting member is located on the first side of the certificate, the second abutting member is used for abutting the certificate against the second driving member, and a friction between the second driving member and the certificate is a second driving force. Then, the certificate is abutted to the first driving piece through the first abutting piece, the certificate is abutted to the second driving piece through the second abutting piece, and the certificate is driven to move and separate through friction force between the first driving piece and the certificate and between the second driving piece and the certificate.

In one embodiment, the first fastening member is configured as a first idler 1311, the first driving member is configured as a first driving wheel 1312, the second fastening member is configured as a second idler 1321, and the second driving member is configured as a second driving wheel 1322. Of course, the first abutting member and the second abutting member may be other abutting structures, such as block structures with smooth surfaces, and the first driving member and the second driving member may also be other driving structures using friction force, such as a belt structure.

Referring to fig. 1 to 4, when the re-opened certificate is to be separated, the first driving wheel 1312 is driven to rotate counterclockwise in fig. 3, so as to drive the lowermost certificate of the stacked certificates to move to the side where the storage box 1510 is located, and drop into the storage box 1510. When a plurality of certificates are stacked, the operation is repeated until the double-tension detection mechanism 1200 detects that a certificate is a single certificate, the first driving wheel 1312 is driven to rotate clockwise in fig. 3, and the second driving wheel 1322 is driven to move counterclockwise in fig. 3, so that the single certificate is driven to move to the transfer bearing mechanism 1400.

Referring to fig. 1-4, the restrike separation mechanism 1300 further includes a first separation drive assembly 1330, a second separation drive assembly 1340, and a separation carrier plate 1350. The split carrier plate 1350 is used to hold the certificate, the first split drive assembly 1330 is used to rotate the first drive wheel 1312, and the second split drive assembly 1340 is used to rotate the second drive wheel 1322. Specifically, the first separation driving assembly 1330 includes a first separation motor 1331, a first separation driving pulley 1332, a first separation driven pulley 1333, a first separation driving belt 1334, and a first separation rotating shaft 1335. The first separating rotating shaft 1335 is rotatably connected with the proof mounting frame 1600, and the first driving wheel 1312 is connected with the first separating rotating shaft 1335. The first separation driven pulley 1333 is connected to the first separation rotating shaft 1335, the first separation driving pulley 1332 is connected to an output shaft of the first separation motor 1331, and the first separation driving pulley 1334 connects the first separation driving pulley 1332 to the first separation driven pulley 1333. When the first driving wheel 1312 needs to be driven to rotate, the first separation driving pulley 1332 is driven to rotate by the first separation motor 1331, so as to drive the first separation driven pulley 1333 to rotate, the first separation rotating shaft 1335 is driven to rotate by the first separation driven pulley 1333, and the first separation rotating shaft 1335 drives the first driving wheel 1312 to rotate. Specifically, the second split drive assembly 1340 includes a second split motor 1341, a second split drive pulley 1342, a second split driven pulley 1343, a second split drive belt 1344, and a second split spindle 1345. The second separation rotating shaft 1345 is rotatably connected to the certificate mounting bracket 1600, and the second driving wheel 1322 is connected to the second separation rotating shaft 1345. The second separation driven pulley 1343 is connected to a second separation rotating shaft 1345, the second separation driving pulley 1342 is connected to an output shaft of a second separation motor 1341, and the second separation driving pulley 1342 is connected to the second separation driven pulley by a second separation belt 1344. When the second driving wheel 1322 needs to be driven to rotate, the second separation driving pulley 1342 is driven to rotate by the second separation motor 1341, so as to drive the second separation driven pulley 1343 to rotate, the second separation rotating shaft 1345 is driven to rotate by the second separation driven pulley 1343, and the second separation rotating shaft 1345 drives the second driving wheel 1322 to rotate.

Referring to fig. 1 to 4, the turnover mechanism 2000 includes a turnover base 2100, a turnover rotating shaft 2200, a clamping structure 2300, a turnover motor 2400, a turnover driving pulley 2500, a turnover driven pulley 2600, and a turnover driving belt 2700. The turning rotating shaft 2200 is rotatably connected with the turning base 2100, the turning rotating shaft 2200 is connected with the clamping structure 2300, and the clamping structure 2300 is used for clamping the certificate. The output shaft of upset motor 2400 is connected with upset driving pulley 2500, and upset driven pulley 2600 is connected with upset pivot 2200, and upset drive belt 2700 will overturn driving pulley 2500 and upset driven pulley 2600 is connected. When the certificate is required to be turned over, the certificate is clamped through the clamping structure 2300, the overturning driving belt wheel 2500 is driven to rotate through the overturning motor 2400, the overturning driven belt wheel 2600 is driven to rotate, the overturning rotating shaft 2200 is driven to rotate through the overturning driven belt wheel 2600, the clamping structure 2300 is driven to rotate 180 degrees through the overturning rotating shaft 2200, and the turning over of the certificate in the clamping structure 2300 is achieved.

Referring to fig. 1 to 4, the transit mechanism 4000 includes a first transit component 4100, a second transit component 4200 and an extraction component 4300, the extraction component 4300 is configured to extract and release the certificate, the first transit component 4100 is connected to the extraction component 4300, and the first transit component 4100 is configured to drive the extraction component 4300 to move along the first axis. The second relay assembly 4200 is connected to the first relay assembly 4100, and the second relay assembly 4200 is configured to drive the first relay assembly 4100 and the picking assembly 4300 to move along a second axis, where the first axis is perpendicular to the second axis. Specifically, the extending direction of the first axis is a vertical direction, and the extending direction of the second axis is a horizontal direction; in other embodiments, the first axis and the second axis may extend in other directions perpendicular to each other in space, for example, the first axis extends at an angle of 15 ° to the horizontal plane, and the second axis is perpendicular to the first axis. In a particular embodiment, the extraction assembly 4300 includes an extraction connection plate 4310 and a suction cup member 4320, the suction cup member 4320 being for adsorbing and releasing certificates, the suction cup member 4320 being connected to the extraction connection plate 4310. The first relay assembly 4100 includes a first moving member 4110, a relay screw rod, a first relay motor 4120 and a relay connection plate 4130. The transfer lead screw is parallel to the first axis, the transfer lead screw is rotatably disposed, the first moving member 4110 is in threaded connection with the transfer lead screw, and the extraction connecting plate 4310 is connected with the first moving member 4110. The first relay motor 4120 is provided on the relay connection plate 4130, and an output shaft of the first relay motor 4120 is connected with the relay screw rod. In one embodiment, second transfer assembly 4200 includes second mover 4210, guide rod 4220, second transfer motor 4230, transfer drive pulley 4240, transfer driven pulley 4250, and transfer drive belt 4260. The guide rod 4220 is parallel to the second axis, the second movable piece 4210 is movably sleeved with the guide rod 4220, and the transfer connecting plate 4130 is connected with the second movable piece 4210. The relay driving pulley 4240 and the relay driven pulley 4250 are respectively located at both ends of the guide rod 4220, an output shaft of the second relay motor 4230 is connected with the relay driving pulley 4240, a relay transmission belt 4260 connects the relay driving pulley 4240 with the relay driven pulley 4250, and a relay connection plate 4130 is connected with the relay transmission belt 4260.

When carrying out the transportation of certificate, through the rotation of first transfer motor 4120 drive transfer screw pole, transfer screw pole drives first moving part 4110 motion, drives through first moving part 4110 and draws subassembly 4300 and move in vertical direction. The second relay motor 4230 drives the relay driving pulley 4240 to rotate, so as to drive the relay transmission belt 4260 and the relay driven pulley 4250 to move, the relay transmission belt 4260 drives the relay connection plate 4130 and the second movable member 4210 to move along the extending direction of the guide rod 4220, and the relay connection plate 4130 drives the first relay assembly 4100 and the extraction assembly 4300 to move in the horizontal direction.

It should be noted that the transfer mechanism 4000 may transfer the certificate among the transfer supporting mechanism 1400, the flipping mechanism 2000, and the printer 3000 by using one conveying component. In other embodiments, this function may be achieved by multiple sets of conveying members, for example, the transfer between the transfer carriage 1400 and the printer 3000 is achieved by one conveying device, and the transfer between the printer 3000 and the turnover mechanism 2000 is achieved by another conveying member.

In this embodiment, referring to fig. 1 and 2, the temporary license plate manufacturing apparatus further includes a scanner 6000, and the scanner 6000 is configured to scan an information code preset on a certificate to be printed. For example, the controller 8000 can be in signal connection with a scanner, so that the controller 8000 controls the transfer mechanism 4000 to transfer the transferred certificate to be printed to the printer 3000, and the controller 8000 controls the scanner 6000 to emit code scanning rays to scan the information code on the certificate to be printed in the transfer process, so as to obtain the scanning information. Then, the controller 8000 determines information of a temporary license plate to be printed on the certificate to be printed according to the scan information; because the information code on the certificate to be printed is associated with the information of the temporary license plate, the information of the temporary vehicle configuration (such as the number, the number color, the background color, the validity period, the use place, the use type and the like of the temporary license plate) can be found in the temporary license plate management database by utilizing the scanning information. Of course, in an embodiment, the code scanning ray emitted by the scanner 6000 passes through the movement path of the certificate when moving between the transfer bearing mechanism 1400 and the printer 3000, so that the scanner 6000 can scan the information code on the certificate, and the information code can also be used to determine the authenticity of the certificate.

In this embodiment, the temporary license plate manufacturing apparatus further includes a camera (not illustrated in fig. 1 and 2) for photographing information of the temporary license plate printed on the certificate. In one embodiment, the camera is disposed on the transfer mechanism 4000 and is directed vertically toward the paper output of the printer 3000, and when the printed certificate is output by the printer 3000 and the certificate is transferred to the transfer platform at the print output, the printer photographs the printed content on the certificate. For example, after the controller 8000 controls the printer 3000 to return the certificate printed on one side to the transfer mechanism, the controller 8000 controls the camera to photograph the printed matter on the certificate printed on one side. And/or after the controller 8000 controls the printer 3000 to return the certificate printed on the other side to the transfer mechanism, the controller 8000 controls the camera to photograph the printed content on the certificate printed on the other side. It should be noted that the purpose of the controller 8000 controlling the camera to photograph both sides of the printed certificate is to retain the print content, which is provided to the quality inspector for verification and to retain the manufacturing proof of the temporary license plate.

In this embodiment, the temporary license plate manufacturing apparatus further includes a turn-over detection mechanism (not illustrated in fig. 1 and 2) for detecting whether the certificate is turned over. In one embodiment, the rollover detection mechanism is disposed on the relay mechanism 4000 and is directed vertically to the rollover mechanism 2000, and after the rollover mechanism 2000 performs rollover on the certificate, the rollover detection mechanism captures the content of the certificate on the rollover mechanism 2000 and transmits the captured content to the processor 8000, and the processor 8000 analyzes whether the certificate is flipped by capturing an image. It will be appreciated that the turn-over detection mechanism may be an image sensor or the like, capable of capturing an image of the printed content of the surface of the certificate. For example, after the controller 8000 controls the flipping mechanism 2000 to flip the certificate printed on one side, the controller 8000 controls the flipping detection mechanism to detect whether the certificate printed on one side is flipped over; the controller 8000 judges that the certificate printed on one side is turned over, and controls the transfer mechanism 4000 to transfer the turned-over certificate to the printer 3000; the controller 8000 judges that the certificate printed on one side is not turned over, controls the turnover mechanism 2000 to turn over the certificate again until a preset number of turns (e.g., 1, 2 or more) is reached.

In this embodiment, the temporary license plate manufacturing apparatus further includes a first storage mechanism 1500 and a first paper out detection mechanism 1800. The first storage mechanism 1500 is used to store the certificate to be printed, and the first paper-out detection mechanism 1800 is used to detect whether the certificate to be printed is stored in the first storage mechanism 1500, for example, the first paper-out detection mechanism 1800 may be an infrared probe or an ultrasonic probe, and detects whether there is paper by emitting infrared light or ultrasonic waves. For example, before the controller 8000 controls the conveying mechanism 1100 to acquire the certificate to be printed, the controller 8000 controls the first paper-out detecting mechanism 1800 to detect whether the certificate to be printed is stored in the first storing mechanism 1500; if so, the controller 8000 controls the conveying mechanism 1100 to obtain the certificate to be printed; if not, the controller 8000 generates a command for prompting that the certificate to be printed is out of paper.

In one embodiment, the first storage mechanism 1500 includes a storage cassette 1510 and a lift assembly 1520, the storage cassette 1510 being adapted to store the credential, the lift assembly 1520 being adapted to move the credential within the storage cassette 1510 proximate to the transport mechanism 1100 to bring the credential within the storage cassette 1510 into contact with the transport mechanism 1100, and to move the credential within the storage cassette 1510 away from the transport mechanism 1100 to bring the credential within the storage cassette 1510 out of contact with the transport mechanism 1100. It can be understood that batch storage of certificates is realized through the storage box 1510, so that the time interval for replenishing certificates for workers is longer, and the labor intensity of the workers is reduced; also, the credential within the storage cartridge 1510 is provided to the transport mechanism 1100 by the lift assembly 1520, enabling continuous supply of the credential to the transport mechanism 1100. In one instance, the storage case 1510 can be a drawer structure, the storage case 1510 being movably coupled to the proof mounting 1600; the storage case 1510 is capable of moving closer to the mounting block 1600 to embed the mounting block 1600 and away from the mounting block 1600 to detach the mounting block 1600. It will be appreciated that when it is desired to replenish the certificate in the storage case 1510, a worker may pull the storage case 1510 away from the certification mounting bracket 1600, so as to replenish the certificate in the storage case 1510, and then push the storage case 1510 toward the certification mounting bracket 1600 to embed in the certification mounting bracket 1600. In yet another aspect, the lift assembly 1520 includes a lift plate 1521, a lift screw 1522, a lift motor 1523, a lift drive pulley 1524, a lift driven pulley 1525, and a lift belt 1526, at least a portion of the lift plate 1521 being positioned within the storage box 1510 for supporting the credential within the storage box 1510; the lifting screw rod 1522 is perpendicular to the lifting plate 1521, the lifting screw rod 1522 is rotatably arranged, and one side of the lifting plate 1521 is in threaded connection with the lifting screw rod 1522; the lifting driving pulley 1524 is connected with an output shaft of a lifting motor 1523, the lifting driven pulley 1525 is connected with the lifting screw rod 1522, and the lifting transmission belt 1526 connects the lifting driving pulley 1524 with the lifting driven pulley 1525. Then, it can be understood that when a certificate needs to be provided to the conveying mechanism 1100, the lifting motor 1523 drives the lifting driving pulley 1524 to rotate, so as to drive the lifting driven pulley 1525 to rotate, the lifting driven pulley 1525 drives the lifting screw rod 1522 to rotate, the lifting screw rod 1522 drives the lifting plate 1521 to move, and finally the lifting plate 1521 drives the certificate to move along the extending direction of the lifting screw rod 1522.

In this embodiment, referring to fig. 1 and fig. 2, the temporary license plate manufacturing apparatus further includes a supporting apparatus 5000, the supporting apparatus 5000 includes a fixing base 5100, a supporting member 5200 and a supporting motor 5300, the supporting member 5200 is rotatably connected to the fixing base 5100, the supporting member 5200 is located between the printer 3000 and the clamping structure 2300, and the supporting member 5200 is used for supporting the certificate. The output shaft of bearing motor 5300 is connected with bearing piece 5200, and bearing motor 5300 is used for driving bearing piece 5200 and rotates relatively fixing base 5100. When the support 5200 is used to support a certificate, the support 5300 is driven by the support motor 5300 to rotate the support 5200 in a direction close to the flipping mechanism 2000, so that the support 5200 can support the certificate output from the printer 3000. When the turning device 2000 needs to turn over the certificate, the supporting member 5200 is driven by the supporting motor 5300 to rotate in a direction away from the turning device 2000, so that the supporting member 5200 prevents the holding structure 2300 of the turning device 2000 from moving.

Further, referring to fig. 1 to 4, the temporary license plate manufacturing apparatus further includes an output mechanism, the output mechanism includes an output bearing plate 7100 and an output driving assembly 7200, the output bearing plate 7100 is used for bearing the certificate, and the output driving assembly 7200 is used for driving the certificate on the output bearing plate 7100 to the outside of the temporary license plate manufacturing apparatus. It can be understood that the output bearing plate 7100 is equivalent to a preset certificate exit position, the transfer mechanism 4000 transfers the certificate printed on both sides to the output bearing plate 7100, and the output driving assembly 7200 drives the output bearing plate 7100 to slide the certificate carried thereon out of the device.

Further, the temporary license plate manufacturing device further comprises a shell, each mechanism is wrapped by the shell, and only one side of the shell is provided with an opening, so that the first storage mechanism 1500 is conveniently drawn out, and the certificate can conveniently slide out of the output bearing plate 7100.

It should be noted that, referring to fig. 1 to 4, if the controller 8000 is to control each mechanism, the controller 8000 may be electrically connected to the driving components in each mechanism, for example, the controller 8000 is electrically connected to the conveying motor 1111, the first driving component in the first separation area 1310, the second driving component in the second separation assembly 1320, the flipping motor 2400, the first relay motor 4120, the lifting assembly 1520, and the output driving assembly 7200, so as to control the power-on working states of these driving components.

In the present embodiment, with the temporary license plate manufacturing apparatus disclosed in fig. 1 to 4, reference may be made to fig. 5 for a sequence control process of the controller 8000 for each mechanism.

In fig. 5, the controller 8000 detects whether the certificate to be printed is stored in the first storage mechanism 1500 through the first paper shortage detection mechanism 1800, and if so, the controller 8000 controls the conveying mechanism 1100 to operate to pick up a single or multiple overlapped certificates to be printed from the first storage mechanism 1500, and the conveying mechanism 1100 conveys the picked certificates. The controller 8000 controls the operation of the re-opening detection mechanism 1200 to detect whether the picked certificate has the condition of re-opening, if so, the controller 8000 controls the operation of the re-opening separation mechanism 1300 to drive the multiple re-opened certificates in the opposite direction, thereby stripping the single certificate; of course, the controller 8000 may further control the reprint detection mechanism 1200 to perform the reprint detection on the separated certificate again until only one certificate is detected, and then transfer the single certificate to the transfer bearer 1400 to wait for the transfer of the transfer mechanism 4000. In the process that the controller 8000 controls the transfer mechanism 4000 to absorb a single certificate and transfer the certificate to the printer, the controller 8000 controls the scanner 6000 to scan the information code on the certificate, and the controller 8000 determines the information of the temporary license plate to be printed on the certificate by analyzing the scanning information. After the transfer mechanism 4000 puts the certificate into the printer 3000, the controller 8000 controls the printer to print the information of the temporary license plate on one side of the certificate, and quits printing the certificate on one side after printing, and the controller 8000 controls the camera to photograph the certificate (such as the certificate supported on the supporting member 5200) at the printing outlet to obtain the image printed on one side of the certificate. The controller 8000 controls the transfer mechanism 4000 to absorb a one-side printed certificate and transfer the one-side printed certificate to the turnover mechanism 2000, the controller 8000 controls the turnover mechanism 2000 to turn over the one-side printed certificate, the controller 8000 controls the turnover detection mechanism to capture images of the surface of the certificate after the turnover is completed, and the controller 8000 analyzes the image capture content to judge that the one-side printed certificate is turned over, and controls the transfer mechanism 4000 to absorb the turned-over certificate and transfer the one-side printed certificate to the printer 3000. After the turned-over certificate is sent to the printer 3000, the controller 8000 controls the printer 3000 to print the information of the temporary license plate on the other side of the certificate, and quits printing the certificate printed on the other side after printing is finished, and the controller 8000 controls the camera to photograph the certificate at the printing outlet to obtain the image printed on the other side of the certificate. The controller 8000 controls the transfer mechanism 4000 to absorb the certificate printed on the other side to transfer the certificate to the certificate outlet position, so that the certificate slides out of the output bearing plate 7100, and a worker can conveniently pick out the certificate printed on the two sides of the device.

Example II,

Referring to fig. 6, the present embodiment discloses another temporary license plate manufacturing apparatus, which includes not only a conveying mechanism 1100, a double-sheet detecting mechanism 1200, a double-sheet separating mechanism 1300, a turnover mechanism 2000, a printer 3000, a transfer mechanism 4000, a controller 8000, but also a second storage mechanism 9100, a second paper shortage detecting mechanism 9200, and a transfer mechanism 9300. The second storage mechanism 9100 is used for storing the certificates to be printed related to the temporary license plate, the second paper shortage detection mechanism 9200 is used for detecting whether the certificates to be printed are stored in the second storage mechanism 9100, and the transfer mechanism 9300 is used for transferring the certificates between the second storage mechanism 9100 and the printer 3000.

The controller 8000 controls the conveying mechanism 1100, the double-sheet detection mechanism 1200, the double-sheet separation mechanism 1300, the turnover mechanism 2000, the printer 3000 and the transfer mechanism 4000 to perform time sequence operation, and can print the certificate to be printed into a temporary license plate. For the timing control process, reference may be made to the contents in the embodiments, and details are not repeated here.

The controller 8000 controls the second paper shortage detection mechanism 9200, the transfer mechanism 9300 and the printer 3000 to perform time sequence work, and can print the certificate to be printed into the certificate recording the temporary license plate certificate making information.

In this embodiment, the controller 8000 can be connected to the second paper shortage detection means 9200, the transfer means 9300, and the printer 3000 by signals, and can perform timing control from each means. For example, the controller 8000 controls the transfer mechanism 4000 to transfer the certificate after printing to a preset certificate export position, and then starts to perform the printing of the certificate; the controller 8000 controls the second paper shortage detection mechanism 9200 to detect whether the second storage mechanism 9100 stores the certificate to be printed or not; if the certificate to be printed exists, the controller 8000 controls the transfer mechanism 9300 to acquire the certificate to be printed from the second storage mechanism, and transfers the certificate to be printed to the printer 3000; then, the controller 8000 controls the printer 3000 to print the certification making qualification information of the temporary license plate on one side of the certification to be printed, and returns the certification printed on one side to the transfer mechanism 9300; and the controller 8000 controls the transport mechanism 9300 to transport the certification printed on one side to a preset certification outlet position. If there is no certificate to be printed, the controller 8000 generates a command to the effect that the certificate to be printed is out of paper.

Referring to fig. 6, a second storage mechanism 9100 includes at least one storage box in which the certificates to be printed are placed. It can be understood that the more the storage boxes are, the more the quantity of the qualified certificates can be put, and the more the qualified certificates can be put conveniently, so that the paper adding times and workload of workers can be reduced.

Referring to fig. 6, the second paper shortage detecting mechanism 9200 may be an infrared probe or an ultrasonic probe, which detects whether there is paper by emitting infrared light or ultrasonic waves.

Referring to fig. 6, the transfer mechanism 9300 may include a third transit assembly 9310, a fourth transit assembly 9320, and a certification extracting assembly 9330, where the certification extracting assembly 9330 is configured to extract and release the certification; the third transit assembly 9310 is connected to the certificate extraction assembly 9330, and is configured to drive the certificate extraction assembly 9330 to move along the first axis; the fourth relay assembly 9320 is connected to the third relay assembly 9310, the fourth relay assembly 9320 is used for driving the third relay assembly 9310 and the certificate picking assembly 9330 to move along a second axis, and the first axis is perpendicular to the second axis. Specifically, the extending direction of the first axis is a vertical direction, and the extending direction of the second axis is a horizontal direction. In other embodiments, the first axis and the second axis may extend in other directions perpendicular to each other in space. In one particular embodiment, the credential extraction assembly 9330 includes a suction cup member for absorbing and releasing the credentials.

In this embodiment, the temporary license plate manufacturing apparatus further includes an outlet loading plate 9400 for loading and sliding out the printed certification. It can be understood that the outlet bearing plate 9400 is equivalent to the certificate outlet position, and the transfer mechanism 9300 transfers the printed certificate to the outlet bearing plate 9400, and the certificate carried by the outlet bearing plate 9400 slides out of the device, so that the staff can pick the printed certificate.

In this embodiment, the temporary license plate manufacturing apparatus includes a print detector (not illustrated in fig. 6) that is capable of signal connection with the controller 8000, and detects whether the certification has printed contents and transmits a detection signal to the controller 8000. For example, after the controller 8000 controls the printer 3000 to return the one-side printed certificate to the transfer mechanism 9300, the controller 8000 controls the print detector to detect whether printed contents exist on the one-side printed certificate; if yes, the controller 8000 controls the transfer mechanism to transfer the certificate printed on one side to a preset certificate outlet position; if not, the controller 8000 controls the transfer mechanism 9300 to transfer the unprinted certification to a predetermined used paper level, which may be referred to as the storage box 9500 in fig. 6.

It should be noted that in one aspect, the print detector may be a hardware device, such as an image sensor, capable of capturing an image of the surface of the printed certificate, and the controller 8000 may analyze the image to determine whether there is any printed matter on the certificate. In another case, the print detector may be a software module capable of detecting whether the printer 3000 receives certification-making certification information or whether the printer 3000 performs a print job, and the controller 8000 determines whether there is printed contents on the certification according to the detected software information.

In this embodiment, for the temporary license plate manufacturing apparatus disclosed in fig. 6, reference may be made to fig. 7 for a sequence control process of the controller 8000 to the second paper shortage detecting mechanism 9200, the transferring mechanism 9300, and the printer 3000.

In fig. 7, the controller 8000 controls the second paper shortage detecting mechanism 9200 to detect whether the second storing mechanism 9100 stores a certificate to be printed; if the controller 8000 judges that the certification to be printed is stored, the controller 8000 controls the transfer mechanism 9300 to suck one certification to be printed from the second storage mechanism 9100, and transfers the certification to be printed to the printer 3000. Then, the controller 8000 controls the printer 3000 to print the certification making certification information of the temporary license plate on one side of the certification to be printed, and returns the certification printed on one side to the transfer mechanism 9300. Next, the controller 8000 controls the print detector to operate, the print detector detects whether the printed certificate is printed successfully (i.e., whether the certificate has printed contents), and if the controller 8000 determines that the printing is successful, the controller 8000 controls the transfer mechanism 9300 to transfer the certificate printed to the outlet bearing plate 9400, and the certificate is sent out of the apparatus by the outlet bearing plate 9400.

Example III,

On the basis of the temporary license plate manufacturing device disclosed in the first embodiment and the second embodiment, the embodiment discloses a temporary license plate manufacturing method which is mainly used for printing and forming a temporary license plate by using a certificate to be printed.

Referring to fig. 8, the method for manufacturing a temporary license plate disclosed in this embodiment includes steps 101-109, which are described below.

Step 101, obtaining a certificate to be printed. For example, referring to fig. 1 and 2, the controller 8000 controls the transportation mechanism 1100 to operate, so as to pick up a single or multiple stacked certificates to be printed from the first storage mechanism 1500, and the transportation mechanism 1100 transports the picked certificates, thereby obtaining the certificates to be printed.

And 102, detecting the repeated printing of the certificate to be printed. For example, referring to fig. 1 and 2, the controller 8000 controls the operation of the double sheet detecting mechanism 1200, and the double sheet detecting mechanism 1200 detects a certificate to be printed by infrared light or ultrasonic waves and transmits a detection signal to the controller 8000.

And 103, judging whether the certificate to be printed has overlapping sheets, if so, entering a step 105, otherwise, entering a step 104. For example, the controller 8000 may determine whether a double-fed certificate exists according to a detection signal generated by the double-fed detection mechanism 1200, and if so, separate the multiple double-fed certificates.

And step 104, directly obtaining the certificate when judging that the certificate to be printed has no overlapping. It can be understood that if there is no overlapped certificate to be printed picked up by the conveying mechanism 1100, the overlapped separating mechanism 1200 does not need to work, and the conveying mechanism 1100 directly conveys the certificate to be printed to the transfer carrying mechanism 1400 to wait for the transfer of the transfer mechanism 4000.

And 105, when the certificate to be printed is determined to be overlapped, separating the overlapped certificates to obtain a single separated certificate.

In a specific embodiment, multiple certificates of a plurality of overlapped sheets are subjected to paper twisting in opposite directions, and a plurality of separated certificates are obtained by paging; and then, carrying out repeated detection on the plurality of separated certificates, and separating again when the plurality of separated certificates are judged to have repeated separation until a single separated certificate is obtained or the preset separation times are reached. For example, as shown in fig. 1 and 2, the controller 8000 controls the operation of the double-fed separating mechanism 1300 to drive the multiple certificates to be separated in opposite directions, thereby separating the single certificate. Of course, the controller 8000 may further control the reprint detection mechanism 1200 to perform the reprint detection on the separated certificate again until only one certificate is detected, and then transfer the single certificate to the transfer bearer 1400 to wait for the transfer of the transfer mechanism 4000.

And step 106, printing the single separated certificate or the directly obtained certificate so as to print the information of the temporary license plate on one surface of the certificate to be printed. For example, the controller 8000 controls the transfer mechanism 4000 to absorb a single certificate and transfer the certificate to the printer, the controller 8000 controls the printer to print the information of the temporary license plate on one side of the certificate, and the printer quits printing the certificate on one side after printing is finished, so that printing on one side of the certificate can be finished.

And step 107, turning over the certificate printed on one side to obtain a turned-over certificate. For example, the controller 8000 controls the transfer mechanism 4000 to absorb a certificate printed on one side and transfer the certificate to the turnover mechanism 2000, the controller 8000 controls the turnover mechanism 2000 to turn over the certificate printed on one side, and after the turning is completed, the controller 8000 controls the transfer mechanism 4000 to absorb the certificate turned over and transfer the certificate to the printer 3000 to wait for printing the other side of the certificate.

And step 108, printing the turned certificate to print the information of the temporary license plate on the other side of the certificate. For example, after the certificate of the reversed side is sent to the printer 3000, the controller 8000 controls the printer 3000 to print the information of the temporary license plate on the other side of the certificate, and quits printing the certificate printed on the other side after printing is finished, so that printing the other side of the certificate can be finished.

And step 109, sending out the certificate with the printed double surfaces. For example, referring to fig. 1 and 2, the controller 8000 controls the transfer mechanism 4000 to suck the certificate printed on the other side to transfer the certificate to the certificate outlet, so that the certificate slides out of the output carrying plate 7100, thereby facilitating the worker to pick the certificate printed on both sides of the device.

In another embodiment, before printing the separated certificate or the directly obtained certificate, i.e. before step 106, the method further comprises: and scanning the single separated certificate or the directly obtained certificate to obtain scanning information, and then determining the information of the temporary license plate to be printed on the certificate to be printed according to the scanning information. For example, referring to fig. 1 and 2, in the process that the controller 8000 controls the transfer mechanism 4000 to absorb a single certificate and transfer the certificate to the printer, the controller 8000 controls the scanner 6000 to scan the information code on the certificate, and the controller 8000 determines the information of the temporary license plate to be printed on the certificate by analyzing the scanned information.

In another embodiment, after printing the information of the temporary license plate on one side of the certificate, the method further comprises the following steps: photographing the printed contents of the certificate printed on one side; and/or after printing the information of the temporary license plate on the other side of the certificate, the method further comprises the following steps: and photographing the printing content of the certificate printed on the other side. For example, after step 106, the controller 8000 controls the camera to photograph the certificate at the print outlet to obtain an image printed on one side of the certificate; and/or, after step 108, the controller 8000 controls the camera to photograph the certificate at the print outlet to obtain an image printed on the other side of the certificate.

In another embodiment, after inverting the printed certificate on one side and before printing the inverted certificate, the method further comprises: detecting whether the certificate printed on one side is turned over, and if so, printing the turned certificate; if not, the certificate printed on one side is turned over again until the certificate printed on one side is detected to be successfully turned over, or the preset turning times are reached. For example, after step 107, the controller 8000 controls a turn-over detection mechanism (not shown in fig. 1 and 2) to image the surface of the certificate, and when the controller 8000 analyzes the image and determines that the certificate printed on one side has been turned over, the controller 8000 controls the transfer mechanism 4000 to absorb the turned-over certificate and transfer the certificate to the printer 3000.

The temporary license plate manufacturing device in the second embodiment can manufacture not only the temporary license plate but also the pass certificate of the temporary license plate. Then, the technical solution of the present embodiment is based on the temporary license plate manufacturing apparatus in the second embodiment, and can also be used to print a pass certificate of the temporary license plate.

Referring to fig. 9, the method for manufacturing the temporary license plate certificate includes steps 201 and 205, which are described below.

Step 201, obtaining a to-be-printed certificate related to the temporary license plate. For example, in fig. 6, the controller 8000 controls the transport mechanism 9300 to take up one certificate to be printed from the second storage mechanism 9100, and transports the certificate to be printed to the printer 3000.

Of course, before step 201, the controller 8000 may further detect whether the second storage mechanism 9100 stores the certificate to be printed through the second paper shortage detection mechanism 9200, and if the controller 8000 determines that the certificate to be printed is stored, the controller 8000 controls the transfer mechanism 9300 to absorb one certificate to be printed.

Step 202, printing the certificate to be printed so as to print the certificate-making qualification information of the temporary license plate on one side of the certificate to be printed. For example, the controller 8000 controls the printer 3000 to print the certification information of the temporary license plate on one side of the certification to be printed, and returns the certification printed on one side to the transfer mechanism 9300.

Step 203, determining whether the certificate is printed successfully, if so, entering step 204, otherwise, entering step 205. For example, in fig. 6, the controller 8000 controls the print detector to operate, the print detector detects whether the printed certificate is printed successfully (i.e. whether the certificate has printed contents), and if the controller 8000 determines that the printing is successful, the controller 8000 controls the transfer mechanism 9300 to transfer the printed certificate to the outlet carrying plate 9400.

And step 204, sending out the certificate with one printed side. For example, in fig. 6, the controller 8000 controls the transferring mechanism 9300 to transfer the printed certificates to the outlet bearing plate 9400, and the outlet bearing plate 9400 sends the certificates out of the apparatus, so that the worker can pick the printed certificates outside the apparatus.

In step 205, an error prompt is generated. It is understood that, in the case that the certificate is not printed successfully, the controller 8000 may control some prompting components such as sound, light, and text to display an error prompt, so as to prompt the staff that the certificate is not printed successfully, and even prompt a specific reason for the error.

Example four,

On the basis of the manufacturing method of the temporary license plate disclosed in the third embodiment, a manufacturing apparatus for performing the manufacturing method is disclosed in the present embodiment.

Referring to fig. 10, the present embodiment discloses a manufacturing apparatus, and the manufacturing apparatus 3 mainly includes a memory 31 and a processor 32.

The memory 31 is used as a computer-readable storage medium and is mainly used for storing a program, and the program may be a timing control code corresponding to the manufacturing method in the third embodiment.

Wherein the processor 32 is connected to the memory 31 for executing the program stored in the memory 31 to implement the disclosed manufacturing method. It should be noted that, the functions implemented by the processor 32 may refer to the processor 8000 in the third embodiment, and will not be described in detail here.

Those skilled in the art will appreciate that all or part of the functions of the various methods in the above embodiments may be implemented by hardware, or may be implemented by computer programs. When all or part of the functions of the above embodiments are implemented by a computer program, the program may be stored in a computer-readable storage medium, and the storage medium may include: a read only memory, a random access memory, a magnetic disk, an optical disk, a hard disk, etc., and the program is executed by a computer to realize the above functions. For example, the program may be stored in a memory of the device, and when the program in the memory is executed by the processor, all or part of the functions described above may be implemented. In addition, when all or part of the functions in the above embodiments are implemented by a computer program, the program may be stored in a storage medium such as a server, another computer, a magnetic disk, an optical disk, a flash disk, or a removable hard disk, and may be downloaded or copied to a memory of a local device, or may be version-updated in a system of the local device, and when the program in the memory is executed by a processor, all or part of the functions in the above embodiments may be implemented.

The present application is illustrated by using specific examples, which are only used to help understanding the technical solutions of the present application, and are not used to limit the present application. Numerous simple deductions, modifications or substitutions may also be made by those skilled in the art in light of the teachings of this application.

Claims (14)

1. A temporary license plate manufacturing apparatus, comprising:

a transport mechanism for transporting the certificate; the certificate is used for being printed into a temporary license plate;

the re-tensioning detection mechanism is arranged on the conveying path of the certificate and used for detecting whether the certificate is re-tensioned or not;

a double-sheet separation mechanism which is arranged on the conveying path of the certificate and is used for separating a plurality of double-sheet certificates;

the turnover mechanism is used for turning over the certificate;

the printer is used for printing the information of the temporary license plate on the certificate;

a transfer mechanism for transferring the certificate among the heavy sheet separation mechanism, the turnover mechanism, and the printer;

and a controller; wherein,

the controller controls the conveying mechanism to obtain the certificate to be printed and transmits the certificate to be printed according to a preset conveying path;

the controller controls the overlapped sheet detection mechanism to perform overlapped sheet detection on the certificate to be printed in transmission;

when the controller judges that the certificate to be printed is overlapped, the controller controls the overlapped separation mechanism to obtain a plurality of overlapped certificates, separates the overlapped certificates and transmits the single separated certificate to the transfer mechanism;

when the controller judges that the certificate to be printed has no overlapped sheets, the controller controls the conveying mechanism to directly transmit the certificate to the transfer mechanism;

the controller controls the transfer mechanism to transfer the transmitted certificate to be printed to the printer;

the controller controls the printer to print information of a temporary license plate on one surface of the certificate to be printed, and the certificate printed on one surface is returned to the transfer mechanism;

the controller controls the transfer mechanism to transfer the certificate printed on one side to the turnover mechanism;

the controller controls the turnover mechanism to turn over the certificate printed on one side to obtain the turned-over certificate;

the controller controls the transit mechanism to transit the turned-over certificate to the printer;

the controller controls the printer to print information of a temporary license plate on the other surface of the certificate and returns the certificate printed on the other surface to the transfer mechanism;

the controller controls the transfer mechanism to transfer the certificate with double printed faces to a preset certificate outlet position.

2. A temporary license plate manufacturing apparatus of claim 1, further comprising a scanner for scanning an information code preset on the certificate to be printed;

the controller controls the scanner to send out code scanning rays to scan information codes on the certificate to be printed in the process of transferring the certificate to be printed to the printer by the transfer mechanism, so as to obtain scanning information;

and the controller determines the information of the temporary license plate to be printed on the certificate to be printed according to the scanning information.

3. The temporary license plate manufacturing apparatus of claim 1, further comprising a camera for photographing information of the temporary license plate printed on the certificate;

after the controller controls the printer to return the certificate printed on one side to the transfer mechanism, the controller controls the camera to photograph the printed content on the certificate printed on one side;

and/or after the controller controls the printer to return the certificate printed on the other side to the transfer mechanism, the controller controls the camera to photograph the printed content on the certificate printed on the other side.

4. A temporary license plate manufacturing apparatus of claim 1, further comprising a turn-over detection mechanism for detecting whether the certificate is turned over;

after the controller controls the turnover mechanism to turn over the certificate printed on one side, the controller controls the turnover detection mechanism to detect whether the certificate printed on one side is turned over or not;

the controller judges that the certificate printed on one side is turned over, and controls the transfer mechanism to transfer the turned-over certificate to the printer;

and the controller judges that the certificate printed on one side is not turned over, and controls the turning mechanism to turn over the certificate again.

5. A temporary license plate manufacturing apparatus according to claim 1, further comprising a first storage mechanism and a first paper out detection mechanism; the first storage mechanism is used for storing the certificate to be printed, and the first paper shortage detection mechanism is used for detecting whether the certificate to be printed is stored in the first storage mechanism or not;

before the controller controls the conveying mechanism to obtain the certificate to be printed, the controller controls the first paper-out detection mechanism to detect whether the certificate to be printed is stored in the first storage mechanism;

if so, the controller controls the conveying mechanism to obtain the certificate to be printed;

and if not, the controller generates a command of the paper shortage prompt of the certificate to be printed.

6. A temporary license plate manufacturing apparatus according to claim 1, further comprising a second storage mechanism, a second paper out detection mechanism, and a transfer mechanism; the second storage mechanism is used for storing the certificates to be printed related to the temporary license plate, the second paper-out detection mechanism is used for detecting whether the certificates to be printed are stored in the second storage mechanism, and the transfer mechanism is used for transferring the certificates between the second storage mechanism and the printer;

after the controller controls the transfer mechanism to transfer the printed certificate to a preset certificate outlet position, the controller controls the second paper shortage detection mechanism to detect whether the certificate to be printed is stored in the second storage mechanism or not;

if yes, the controller controls the transfer mechanism to acquire the certificate to be printed from the second storage mechanism and transmits the certificate to be printed to the printer; then, the controller controls the printer to print certificate making qualification information of a temporary license plate on one surface of the certificate to be printed, and the certificate printed on one surface is returned to the transfer mechanism; the controller controls the transfer mechanism to transfer the certificate printed on one side to a preset certificate outlet position;

if not, the controller generates a command that the certificate to be printed is out of paper.

7. A temporary license plate manufacturing apparatus of claim 6, further comprising a print detector for detecting whether the certification contains printed matter;

after the controller controls the printer to return the one-side printed certificate to the transfer mechanism, the controller controls the printing detector to detect whether printed contents exist on the one-side printed certificate;

if yes, the controller controls the transfer mechanism to transfer the certificate printed on one side to a preset certificate outlet position;

if not, the controller controls the transfer mechanism to transfer the unprinted certificate to a preset waste paper position.

8. A method of manufacturing a temporary license plate, comprising:

acquiring a certificate to be printed;

carrying out refolding detection on the certificate to be printed;

when the certificate to be printed is judged to be overlapped, separating a plurality of overlapped certificates to obtain a single separated certificate;

when the certificate to be printed is judged to have no overlapping, the certificate is directly obtained;

printing the single separated certificate or the directly obtained certificate so as to print the information of the temporary license plate on one surface of the certificate to be printed;

turning over the certificate printed on one side to obtain the turned-over certificate;

printing the turned certificate to print the information of the temporary license plate on the other side of the certificate;

and sending out the certificate with the printed double surfaces.

9. The method of manufacturing according to claim 8, wherein said separating the plurality of signatures of the multiplicity of signatures to obtain a single separated said signature comprises:

carrying out paper twisting in opposite directions on a plurality of certificates which are re-opened, and paging to obtain a plurality of separated certificates;

and detecting the repeated certificates separated from the certificate, and separating the certificates again when the repeated certificates separated from the certificate are judged to exist, until a single separated certificate is obtained, or the preset separation times are reached.

10. The method of manufacturing according to claim 8, further comprising, prior to printing the separated certificate or the directly obtained certificate, the steps of:

scanning the certificate separated from the single certificate or the certificate directly obtained to obtain scanning information;

and determining the information of the temporary license plate to be printed on the certificate to be printed according to the scanning information.

11. The method of manufacturing according to claim 8, further comprising, after printing information of a temporary license plate on one side of the certificate: photographing the printing content of the certificate printed on one side;

and/or after the information of the temporary license plate is printed on the other side of the certificate, the method further comprises the following steps: and photographing the printing content of the certificate printed on the other side.

12. The method of manufacturing of claim 8, wherein after inverting the printed certificate on one side and before printing the inverted certificate, further comprising:

detecting whether the certificate printed on one side is turned over;

if so, printing the turned certificate;

if not, the certificate printed on one side is turned over again until the certificate printed on one side is detected to be successfully turned over, or the preset turning times are reached.

13. The manufacturing method according to claim 8, further comprising, after sending out the certificate whose both sides are finished being printed, the step of:

acquiring a certificate to be printed related to the temporary license plate;

printing the certificate to be printed so as to print certificate making qualification information of the temporary license plate on one side of the certificate to be printed;

and sending out the certificate with one printed side.

14. A computer-readable storage medium, characterized in that the medium has stored thereon a program which is executable by a processor to implement the manufacturing method according to any one of claims 8-13.

Images