CN110978812A

CN110978812A - High-speed certificate making equipment

Info

Publication number: CN110978812A
Application number: CN201911020353.7A
Authority: CN
Inventors: 唐孝宏; 卢星明; 邹波; 张清亮; 任建坤; 张丰盛; 林志宏; 侯新博; 董勇; 刘文奇; 李燕辉; 伍文汉; 黄亮
Original assignee: Shenzhen Emperor Technology Co Ltd
Current assignee: Shenzhen Emperor Technology Co Ltd
Priority date: 2019-10-25
Filing date: 2019-10-25
Publication date: 2020-04-10
Anticipated expiration: 2039-10-25
Also published as: CN110978812B

Abstract

The invention discloses high-speed certificate making equipment which comprises a certificate sending device, a first page turning device, a first recognition device and a first cache module, wherein the certificate sending device is used for storing and sending certificates, the first page turning device is used for performing page turning processing on the certificates sent by the certificate sending device, the first recognition device is used for electrically writing certificate making information into a certificate chip, and the first cache module is used for storing the certificates; the certificate page-turning device comprises a first conveying device used for moving a page-turned certificate to a first cache module, a plurality of first printing devices arranged at the downstream of the first cache module and used for printing certificate making information on the page-turned certificate, a second conveying device used for respectively moving the plurality of certificates in the first cache module to the plurality of first printing devices, a film laminating device used for plastically packaging the printed certificates and a third conveying device used for moving the printed certificates to the film laminating device. The high-speed certificate making equipment has higher certificate making efficiency.

Description

High-speed certificate making equipment

Technical Field

The invention relates to the technical field of automatic certificate making equipment, in particular to high-speed certificate making equipment.

Background

The production of the general document such as the electronic passport needs to use a plurality of split mechanisms, such as a page turning mechanism, a printing mechanism, a film covering mechanism, a hinge mechanism and the like, all the mechanisms are mutually independent, and in the production process of the document, the mechanisms need to be manually assisted to smoothly produce, which can lead to high manual labor intensity, low efficiency and high error rate in the certificate production process.

With the rise of electronic passports, in order to intelligentize and automate the manufacturing process, an automatic certificate manufacturing device is provided, and the automatic certificate manufacturing device can realize the whole manufacturing process of certificates from semi-finished products to finished products without manual participation. In the automatic certificate making equipment, all the functional mechanisms are arranged in the same plane and are sequentially arranged along the conveying channel, and the conveying channel sequentially conveys certificates to carry out related operations through all the working procedures. However, in the whole process of making certificates, the processing speed of personal information printing is the slowest and the longest in use, which is the bottle diameter of the certificate making speed, and all certificates need to wait before passing through the personal information printing link, so that the speed of making the certificate card by the equipment is slow, and the efficiency of making the certificate card is seriously influenced.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: the high-speed certificate making equipment is provided, not only can automatic certificate card making be realized, but also the efficiency of certificate card making can be improved.

In order to solve the technical problems, the invention adopts the technical scheme that:

a high-speed certification making apparatus comprising:

the transmitting device is used for storing and transmitting the certificate;

the first page turning device is used for performing page turning processing on the certificate sent by the sender device;

the first recognition device is used for electrically writing the certificate making information into a chip of the certificate;

the first cache module is used for storing certificates;

the first conveying device is used for moving the turned certificates to the first cache module;

the first printing devices are arranged at the downstream of the first cache module and are used for printing certificate making information on the turned certificates;

the second conveying device is used for respectively moving the certificates in the first cache module to the first printing devices;

the laminating device is used for plastically packaging the printed certificate; and

and the third conveying device is used for moving the printed certificate into the film laminating device.

Optionally, the document stacking machine further comprises a second cache module for storing documents, the second cache module is arranged between the first printing device and the film laminating device, the second conveying device is further used for moving the printed documents to the second cache module, and the third conveying device is used for moving the documents in the second cache module to the film laminating device.

Optionally, still include the third buffer module that is used for storing the certificate, the figure of tectorial membrane device is a plurality of, and is a plurality of tectorial membrane device all set up in between second buffer module and the third buffer module, third conveyor is still used for removing the certificate after the plastic envelope to in the third buffer module.

Optionally, the number of the first printing devices is four, and the number of the film coating devices is three.

Optionally, the printing system further comprises a rack and a lifting device, wherein the rack is provided with a multi-layer frame, and a plurality of first printing devices are arranged on the same layer of frame; the film covering devices are all arranged on the frame on the same layer; the transmitting device and the first page turning device are arranged on the frame on the same layer; the lifting device is used for conveying certificates between the frames on different layers.

Optionally, the frame has at least three layers of frames, and the first page flipping unit, the first printing unit and the film covering unit are respectively disposed on the frames of different layers.

Optionally, the at least three layers of frames comprise a first layer of frames, a second layer of frames and a third layer of frames;

the first cache module comprises a first cache mechanism and a second cache mechanism, the first cache mechanism and the original sending device are respectively arranged on two opposite sides of the second-layer frame, and the first page turning device is arranged between the first cache mechanism and the original sending device;

the second cache module comprises a third cache mechanism and a fourth cache mechanism, the second cache mechanism and the third cache mechanism are respectively arranged at two opposite sides of the third-layer frame, and the plurality of first printing devices are arranged between the second cache mechanism and the third cache mechanism;

the third cache module comprises a fifth cache mechanism, the fifth cache mechanism and the fourth cache mechanism are respectively arranged on two opposite sides of the first layer of frame, and the plurality of film covering devices are arranged between the fifth cache mechanism and the fourth cache mechanism;

the lifting device comprises a first lifting mechanism and a second lifting mechanism, and the first lifting mechanism is used for moving the certificate between the first cache mechanism and the second cache mechanism; the second lifting mechanism is used for moving the certificate between the third caching mechanism and the fourth caching mechanism.

Optionally, the rack has four layers of the frames, the rack further includes a fourth layer of the frames, and the third cache module further includes a sixth cache mechanism;

the high-speed certificate making equipment further comprises a fourth conveying device and a local collecting device, the local collecting device and the sixth caching mechanism are respectively arranged on two opposite sides of the fourth layer of frame, and the fourth conveying device is used for moving certificates into the local collecting device;

the first lifting mechanism is also used for moving the certificate between the fifth caching mechanism and the sixth caching mechanism.

Optionally, the first layer of frame, the second layer of frame, the fourth layer of frame and the third layer of frame are parallel to each other and are sequentially arranged from bottom to top, or the first layer of frame, the fourth layer of frame, the second layer of frame and the third layer of frame are parallel to each other and are sequentially arranged from bottom to top.

Optionally, the document feeder further comprises a fifth conveying device, a second page turning device and a second printing device, the second page turning device and the second printing device are both arranged between the document receiving device and the sixth caching mechanism, and the fifth conveying device is used for moving the document in the sixth caching mechanism to the second page turning device; the second page turning device is used for turning pages of the certificate again, and the second printing device is used for printing page adding information on the certificate after the pages are turned again; and the fourth conveying device is used for moving the certificate after the page is turned again to the second printing device and moving the certificate after the page information is printed to the book receiving device.

Optionally, the first identification device is disposed between the first page flipping device and the first cache module, or the first identification device is disposed in the first cache module, or the first identification device is disposed on the first page flipping device.

Optionally, the system further comprises a quality inspection device, wherein the quality inspection device is arranged at the downstream of the film laminating device and is used for shooting and verifying the printing condition and the plastic package condition of the certificate.

Optionally, still include the useless this case of second, the useless this case of second set up in the low reaches of quality control device, and be close to the quality control device sets up, the useless this case of second is used for retrieving the unqualified certificate is examined to the quality control device.

Optionally, the number of the quality inspection devices is more than two.

Optionally, the system further comprises a second identification device, the second identification device is arranged at the downstream of the quality inspection device, and the second identification device is used for identifying and verifying the material information of the certificate.

Optionally, the system further comprises a third waste bin, wherein the third waste bin is arranged at the downstream of the second recognition device and is used for recovering the certificate which is checked to be unqualified by the second recognition device.

Optionally, the first lifting mechanism comprises a lifting device and a first clamping device connected to the lifting device, the lifting device is used for driving the first clamping device to move in the vertical direction, and the first clamping device is used for clamping a document;

the structure of the second lifting mechanism is the same as that of the first lifting mechanism, and the first lifting mechanism and the second lifting mechanism are symmetrically arranged on two opposite sides of the rack.

Optionally, the first conveying device includes a transporting device and a first clamping device, the transporting device is connected to the first clamping device and is configured to drive the first clamping device to move in the horizontal direction, and the first clamping device is configured to clamp a document.

The embodiment of the invention has the following beneficial effects:

the high-speed certificate making equipment is sequentially provided with the certificate issuing device, the first page turning device, the first recognition device, the first printing device and the film laminating device, and the first conveying device, the second conveying device and the third conveying device are respectively arranged to move certificates among the functional devices, so that the full-automatic making of the certificates can be realized, the certificate making efficiency is high, and the error rate is low. In addition, the first cache module is arranged in front of the printing module, so that certificates which finish page turning in a short time can be temporarily stored in the first cache module, and the continuous work of the first page turning device is not influenced; set up a plurality of first printing device behind first buffer memory module, second conveyor can carry the certificate of keeping in the first buffer memory module in idle first printing device, a plurality of first printing device can work simultaneously, print a plurality of certificates that have turned over the page respectively, a plurality of first printing device work jointly, can supply the continuation work of back link (for example the plastic envelope of tectorial membrane device), each is not retrained mutually between the functional device, thereby the problem that some links need to shut down and wait among the prior art has been solved, guarantee that each functional device in this high-speed system card equipment can both last uninterrupted work, the system card efficiency has been improved greatly.

Drawings

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

Wherein:

FIG. 1 is a schematic view of the overall construction of the high-speed certification apparatus of the present invention;

FIG. 2 is a schematic structural diagram of a first page turning device according to the present invention;

FIG. 3 is a schematic structural view of a film covering device according to the present invention;

FIG. 4 is a schematic structural diagram of a first lifting mechanism according to the present invention;

FIG. 5 is a schematic structural view of the first grasping apparatus according to the present invention;

description of reference numerals:

10. a device for issuing a book;

20. a first page turning device; 21. a main frame; 211. a transmission channel; 22. a transport mechanism; 23. a first page turning mechanism; 24. a first page turning assembly; 25. a second page turning mechanism; 26. a second page turning assembly;

30. a first identification device;

41. a first caching mechanism; 42. a second cache mechanism;

50. a first conveying device;

60. a first printing device;

70. a second conveying device;

80. a film covering device; 81. a film releasing mechanism; 82. a film collecting mechanism; 83. a film pressing plate; 84. a film pressing mechanism; 85. a mold splitting mechanism;

90. a third conveying device;

101. a third caching mechanism; 102. a fourth cache mechanism;

111. a fifth cache mechanism; 112. a sixth caching mechanism;

120. a fourth conveying device;

130. a book collecting device;

140. a fifth conveying device;

150. a second page turning device;

160. a second printing device;

170. a frame; 171. a first layer of frame; 172. a second layer frame; 173. a third layer of frame; 174. a fourth layer frame;

180. a first lifting mechanism; 181. a lifting assembly; 182. a first gripping device; 1821. a clamping assembly; 1822. a moving assembly;

190. a second lifting mechanism;

200. a first waste bin;

210. a quality inspection device;

220. the second waste book case.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It should be noted that all the directional indicators (such as up, down, left, right, front, and rear … …) in the embodiment of the present invention are only used to explain the relative position relationship between the components, the movement situation, etc. in a specific posture (as shown in the drawing), and if the specific posture is changed, the directional indicator is changed accordingly.

In addition, the descriptions related to "first", "second", etc. in the present invention are for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one of the feature. In addition, technical solutions between various embodiments may be combined with each other, but must be realized by a person skilled in the art, and when the technical solutions are contradictory or cannot be realized, such a combination should not be considered to exist, and is not within the protection scope of the present invention.

Referring to fig. 1, the present invention provides a high speed passport production apparatus for producing various types of present or card-type documents, such as passports, identification cards, port and australian passes, and the like.

The high-speed certification making equipment comprises a sending device 10, a first page turning device 20, a first recognition device 30, a first cache module, a first conveying device 50, a first printing device 60, a second conveying device 70, a film covering device 80 and a third conveying device 90, wherein the sending device 10, the first page turning device 20, the first recognition device 30, the first printing device 60 and the film covering device 80 are sequentially arranged from upstream to downstream.

The device 10 is used for placing a plurality of blank certificates and sending out the certificates one by one in blank, and when the device 10 sends out the blank certificates, the blank certificates are in a closed state. Specifically, the document issuing device 10 includes a document issuing box and a document pushing mechanism, a document issuing opening is formed in the document issuing box, a plurality of documents can be placed in the document issuing box at the same time, and the document pushing mechanism can push the documents out of the document issuing box from the document issuing opening one by one so as to issue the documents. The pushing mechanism comprises a first driving assembly, a first guide rail and a pushing block, wherein the first guide rail is connected to the sending box, the first driving assembly is connected to the pushing block and used for driving the pushing block to slide along the first guide rail so as to push the certificates in the sending box out of the sending box one by one.

The document such as passport is basically in a closed state after coming out of the document box, and the document needs to be opened when performing a subsequent document making session, and the first page turning device 20 of the present invention turns the pages of the blank document. The first page turning device 20 is disposed adjacent to the document feeder 10. in one embodiment, the first page turning device 20 is directly connected to the document feeder 10, and blank documents fed from the document feeder 10 can directly enter the first page turning device 20. of course, in other embodiments, the first page turning device 20 is connected to the document feeder 10 by a conveying device (e.g., a conveyor belt or a manipulator), i.e., blank documents fed from the document feeder 10 can be transferred to the first page turning device 20 by the conveying device.

Specifically, as shown in fig. 2, the first page turning device 20 includes a main frame 21, a transmission mechanism 22, a first page turning mechanism 23, a first page turning component 24, a second page turning mechanism 25 and a second page turning component 26, a transmission channel 211 is formed on the main frame 21, the transmission channel 211 extends from the start end to the end of the main frame 21, and the transmission mechanism 22 is disposed on the main frame 21 and can drive the certificate to move in the transmission channel 211. In this embodiment, the main frame 21 includes two parallel side plates and a connecting plate connecting the two side plates at two ends of the middle, and the conveying channel 211 is mainly formed by the two side plates. It will be appreciated that the documents are transferred between the side panels.

The first page turning mechanism 23, the first page turning component 24, the second page turning mechanism 25 and the second page turning component 26 are sequentially arranged on the conveying channel 211, and the first page turning mechanism 23 is mainly used for sucking and sucking a first page (such as a cover of a passport) of a certificate; the first page turning component 24 is mainly used for turning a first page of the certificate passing through the first page turning mechanism 23, and for convenience of introduction, the turning angle of the first page is called as a first angle; the second page turning mechanism 25 is primarily for attracting and holding a second page of the document (e.g., a data page of a passport); the second leafing assembly 26 is primarily for leafing a second page of the document after passing through the second leafing mechanism 25, and for convenience of description, the angle at which the second page is turned up will be referred to as a second angle.

In the first leafing device 20, the first angle and the second angle may be set to 80-100, and the first angle and the second angle may be the same or different. To simplify the structure and to ensure the smoothness of the turning of the pages and the transfer of the document, the first angle is generally the same as the second angle. In the present embodiment, the first angle and the second angle are both 90 °. When the turned-over certificate is conveyed in the conveying channel 211, the first page and the second page are also in an upright state, and the turned-up first page and the turned-up second page do not need to occupy additional space in a horizontal plane, so that the width of the conveying channel 211 can be reduced, and the occupied space of the first page turning device 20 can be reduced.

The first identification means 30 is used to identify the chip of the turned-over document and to electronically write the authentication information into the chip of the document. It should be noted that the card-type document does not need to be turned over, so that the card-type document does not need to pass through the first page-turning device 20 during the manufacturing process of the card-type document, or the card-type document passes through the first page-turning device 20, but the first page-turning device 20 does not perform the page-turning operation on the card-type document, and the card-type document can enter the first recognition device 30 to perform the corresponding program while maintaining the original posture.

The first cache module is arranged at the downstream of the page turning device and used for storing the turned certificates. In this embodiment, the first identification device 30 may be integrated into the first cache module, that is, when the document after page turning enters the first cache module for temporary storage, the first identification device 30 performs identification and electric writing operation on the document after page turning at the same time. In other embodiments, the first identification device 30 may be separately disposed between the first cache module and the first page turning device 20, the document after page turning first stays at the first identification device 30, and after the identification and the electric writing operation are performed, the document enters the first cache module for temporary storage.

The first conveying device 50 is used for moving the turned documents into the first cache module. It will be appreciated that when the first identification device 30 is located separately from the first cache module, the first transport device 50 is capable of moving documents from the first flipping device 20 to the first identification device 30 first, while also being capable of moving documents from the first identification device 30 to the first cache module.

The number of the first printing devices 60 is multiple, and the multiple first printing devices 60 are all arranged at the downstream of the first cache module and are used for printing the certificate making information on the document page of the certificate after page turning. A plurality of first printing device 60 can work simultaneously, prints a plurality of certificates respectively, doubles and improves printing efficiency, solves among the prior art because of printing the problem that the whole system certificate inefficiency that the inefficiency leads to.

The second conveying device 70 is used for moving the plurality of certificates in the first buffer module to the plurality of first printing devices 60 respectively.

The laminating device 80 is used for plastic packaging of the document page of the printed certificate, that is, an anti-counterfeiting film is pasted on the document page printed by the certificate, and the area of the anti-counterfeiting film is a little smaller than that of the page of the document page. The third transport device 90 is used to move the printed documents into the laminating device 80.

Specifically, as shown in fig. 3, the film laminating device 80 includes a film releasing mechanism 81, a film collecting mechanism 82, a film pressing plate 83, a film pressing mechanism 84, and a film separating mechanism 85, wherein the film releasing mechanism 81 is used for releasing the tape adhered with the anti-counterfeiting film; the film collecting mechanism 82 is used for collecting the material belt; the lamination plate 83 is fixedly arranged, and the lamination mechanism 84 can move towards the direction close to or far away from the lamination plate 83; when the certificate needs to be plastically packaged, the certificate can be sent into the space between the film pressing plate 83 and the film pressing mechanism 84 by the third conveying device 90, the film pressing mechanism 84 can move towards the direction close to the film pressing plate 83 to thermally press the anti-counterfeiting film on the material belt onto the data page of the certificate, after the anti-counterfeiting film is plastically packaged onto the certificate, the film pressing mechanism 84 moves towards the direction far away from the film pressing plate 83 to loosen the certificate, and meanwhile, the film separating mechanism 85 moves towards the direction close to the material belt to strip the anti-counterfeiting film from the material belt.

In the high-speed certificate making equipment, the certificate issuing device 10, the first page turning device 20, the first recognition device 30, the first printing device 60 and the laminating device 80 are sequentially arranged, and the first conveying device 50, the second conveying device 70 and the third conveying device 90 are respectively arranged to move certificates among various functional devices, so that full-automatic certificate making can be realized, the process level of certificate making is improved, the certificate quality is ensured, the certificate making speed and efficiency are improved, and the problems of poor certificate quality consistency, low efficiency, high error rate and the like in manual operation are solved. In addition, the first cache module is arranged in front of the printing module, so that a plurality of certificates which finish page turning in a short time can be temporarily stored in the first cache module, and the continuous work of the first page turning device 20 is not influenced; the plurality of first printing devices 60 are arranged behind the first cache module, the second conveying device 70 can convey the certificates temporarily stored in the first cache module into the idle first printing device 60, the plurality of first printing devices 60 can work simultaneously and respectively print the plurality of turned-over certificates, the plurality of first printing devices 60 work together and can supply continuous work of the following links (such as plastic package of the film laminating device 80), and all functional devices are not constrained with each other, so that the problem that some links in the prior art need to be stopped for waiting is solved, all functional devices in the high-speed certificate making equipment can continuously work, and the certificate making efficiency is greatly improved.

The high-speed certificate making equipment further comprises a second cache module for storing certificates, the second cache module is arranged between the first printing device 60 and the film laminating device 80, the second conveying device 70 can also move the certificates which are printed by the data pages from the first printing device 60 to the second cache module, the certificates which are printed by the data pages can be temporarily stored in the second cache module, and the third conveying device 90 is used for moving the certificates in the second cache module to the film laminating device 80.

The high-speed certificate making equipment further comprises a third cache module for storing certificates, the number of the film coating devices 80 is multiple, the film coating devices 80 are arranged between the second cache module and the third cache module, the third conveying device 90 is used for moving the certificates into the film coating devices 80 respectively, the film coating devices 80 can work simultaneously and carry out plastic packaging on the certificates respectively, and the third conveying device 90 is further used for moving the certificates after the plastic packaging into the third cache module.

The number of the first printing devices 60 and the film covering devices 80 can be set at will, as long as continuous and uninterrupted work among the devices is ensured, and certificates cannot be overstocked in a certain intermediate link. In the present embodiment, the number of the first printing devices 60 is four, and the number of the laminating devices 80 is three. The printing speeds of the four first printing devices 60 and the plastic packaging speeds of the three film laminating devices 80 can be well matched with the manufacturing speeds of other links, so that the functional devices of all the links can be in a continuous non-stop state. According to statistics, the certificate making equipment in the prior art can make the certificate at most at the certificate making speed of 300 per hour, and the high-speed certificate making equipment of the embodiment can reach the certificate making speed of 500 per hour, so that the certificate making speed is greatly improved.

The high-speed certificate making equipment further comprises a fourth conveying device 120 and a certificate receiving device 130, the fourth conveying device 120 is used for moving the certificates which are manufactured to the certificate receiving device 130, the certificate receiving device 130 comprises a certificate receiving box and a hinge mechanism, the hinge mechanism is used for hinging the turned-over certificates which are manufactured, and the certificates after being hinged are sent into the certificate receiving box to be received. It will be appreciated that the case of a card document does not require a hinge, and the present receiver 130 can receive it.

Furthermore, the high-speed certificate making apparatus further includes a fifth conveying device 140, a second page turning device 150, and a second printing device 160, where the second page turning device 150 and the second printing device 160 are both disposed between the document receiving device 130 and the third cache module, and the fifth conveying device 140 is configured to move the certificate in the third cache module to the second page turning device 150; the second page turning device 150 is used for turning the document to the filling page again, and the second printing device 160 is used for printing the filling page information on the filling page of the document; the fourth transport device 120 is used to move the re-turned document to the second printing device 160 and to move the document with the printed pagination information to the receiving device 130. In the process of making a certificate, some certificates need to print the filling page information, some certificates do not need to print the filling page information, for the certificate needing to print the filling page information, the certificate in the third cache module needs to be turned again through the second page turning device 150, the filling page printing needs to be performed through the second printing device 160, and after the filling page printing is completed, all manufacturing processes of the certificate are completed; for certificates which do not need to print the filling page information, the certificate in the third cache module is the certificate which has been manufactured, and the certificate can directly enter the book receiving device 130 without page turning and filling page printing again. In one embodiment, the number of second printing devices 160 is two.

In the present embodiment, the second page turning device 150 has a similar structure to the first page turning device 20, and since only one page of the document (passport note) needs to be turned in the second page turning device 150, the second page turning device 150 eliminates the second page turning mechanism 25 and the second page turning assembly 26 with respect to the first page turning device 20, and the first angle is 180 ° in the second page turning device 150

It is understood that in the high-speed certification device of the present invention, the issuing device 10, the first flipping device 20, the first recognizing device 30, the first printing device 60, the laminating device 80, the second flipping device 150, the second printing device 160 and the receiving device 130 may be arranged in any spatial manner. For example, the present apparatus 10, the first page flipping means 20, the first identification means 30, the first printing means 60, the film covering means 80, the second page flipping means 150, the second printing means 160 and the present apparatus 130 may be disposed in the same horizontal plane, and each of the functional means may be arranged linearly, or each of the functional means may be arranged in an arc type, a ring type or an S type; the present invention 10, the first page turning device 20, the first identification device 30, the first printing device 60, the laminating device 80, the second page turning device 150, the second printing device 160, and the present collector 130 may also be disposed in different horizontal planes and arranged in multiple layers.

In the present embodiment, the high-speed certification apparatus includes a rack 170 and a lifting device, wherein the rack 170 has a multi-layer frame, and the plurality of first printing devices 60 are all disposed on the same layer of frame; the plurality of film coating devices 80 are all arranged on the same layer of frame; the device 10 and the first page turning device 20 are arranged on the same layer of frame; the second page turning device 150 and the second printing device 160 are arranged on the same layer of frame; the lifting device is used for conveying the certificates between the frames of different layers. The high-speed certificate making equipment of the embodiment is provided with the frame 170 with a multilayer frame, each functional module is arranged on the multilayer frame respectively, and the lifting device is arranged to carry out certificate conveying between frames on different layers, so that the automatic making of certificates can be realized, the occupied space of the high-speed certificate making equipment can be greatly reduced, and the occupied space is saved.

It is understood that the first printing device 60 and the film covering device 80 may be disposed on the same layer or on different layers of frames, and the first printing device 60 and the first page turning device 20 may also be disposed on the same layer or on different layers of frames; the laminating device 80 and the second printing device 160 can also be arranged on the same layer or on different layers of the frame.

In the present embodiment, the frame 170 has at least three layers of frames, and the first page flipping unit 20, the first printing unit 60 and the film covering unit 80 are respectively disposed on the frames of the different layers. That is, the first page flipping unit 20, the plurality of first printing units 60, and the plurality of film covering units 80 are respectively disposed on three different frames, so that the footprint of the high-speed certification machine can be reduced, and the size of each frame can be ensured to be equivalent.

Specifically, the frame 170 has four layers of frames, which are a first layer frame 171, a second layer frame 172, a third layer frame 173, and a fourth layer frame 174, respectively, the first layer frame 171, the second layer frame 172, the third layer frame 173, and the fourth layer frame 174 all extend in the horizontal direction, and the first layer frame 171, the second layer frame 172, the third layer frame 173, and the fourth layer frame 174 are disposed in parallel with each other.

The first cache module includes a first cache mechanism 41 and a second cache mechanism 42, the first cache mechanism 41 and the original apparatus 10 are respectively disposed on two opposite sides of the second layer frame 172, the first identification device 30 is disposed in the first cache mechanism 41, and the first page turning device 20 is disposed between the first cache mechanism 41 and the original apparatus 10. The second buffer module includes a third buffer mechanism 101 and a fourth buffer mechanism 102, the second buffer mechanism 42 and the third buffer mechanism 101 are respectively disposed on two opposite sides of the third layer frame 173, and the plurality of first printing devices 60 are disposed between the second buffer mechanism 42 and the third buffer mechanism 101. The third buffer module includes a fifth buffer mechanism 111 and a sixth buffer mechanism 112, the fifth buffer mechanism 111 and the fourth buffer mechanism 102 are respectively disposed on two opposite sides of the first layer frame 171, the plurality of film covering devices 80 are respectively disposed between the fifth buffer mechanism 111 and the fourth buffer mechanism 102, the page turning device 130 and the sixth buffer mechanism 112 are respectively disposed on two opposite sides of the fourth layer frame 174, the second page turning device 150 and the second printing device 160 are respectively disposed between the page turning device 130 and the sixth buffer mechanism 112, the second printing device 160 is located at the downstream of the second page turning device 150, and the page turning device 130 is located at the downstream of the second printing device 160. It is understood that the conveyor corresponding to each functional device is disposed on the same floor as the corresponding functional device, for example, the first conveyor 50 is disposed on the second floor, the second conveyor 70 is disposed on the third floor, the third conveyor 90 is disposed on the first floor, and the fourth conveyor 120 and the fifth conveyor 140 are disposed on the fourth floor.

In order to realize the movement of the certificate between different buffer mechanisms of different layers, the lifting device comprises a first lifting mechanism 180 and a second lifting mechanism 190, wherein the first lifting mechanism 180 is used for moving the certificate between the first buffer mechanism 41 and the second buffer mechanism 42 and is used for moving the certificate between the fifth buffer mechanism 111 and the sixth buffer mechanism 112; the first buffer mechanism 41, the second buffer mechanism 42, the fifth buffer mechanism 111, and the sixth buffer mechanism 112 are linearly arranged in the vertical direction. The second lifting mechanism 190 is used for moving the certificates between the third buffer mechanism 101 and the fourth buffer mechanism 102, and the third buffer mechanism 101 and the fourth buffer mechanism 102 are linearly arranged in the vertical direction. In the whole process of producing the certificates, the certificates need to pass through the first buffer mechanism 41, the second buffer mechanism 42, the third buffer mechanism 101, the fourth buffer mechanism 102, the fifth buffer mechanism 111 and the sixth buffer mechanism 112 in sequence.

According to the angle shown in fig. 1, the first buffer mechanism 41, the second buffer mechanism 42, the sixth buffer mechanism 112, and the fifth buffer mechanism 111 are respectively disposed on the left side of the second-layer frame 172, the left side of the third-layer frame 173, the left side of the fourth-layer frame 174, and the left side of the first-layer frame 171, and the first elevating mechanism 180 is disposed on the left side of the frame 170. The third buffer mechanism 101 and the fourth buffer mechanism 102 are respectively disposed on the right side of the third layer frame 173 and the right side of the first layer frame 171, and the second elevating mechanism 190 is disposed on the right side of the frame 170.

The arrangement of the first, second, third and fourth layer frames 171, 172, 173 and 174 in the vertical direction may be arbitrary. In an embodiment, the first layer frame 171, the second layer frame 172, the fourth layer frame 174, and the third layer frame 173 are sequentially disposed from bottom to top, or the first layer frame 171, the fourth layer frame 174, the second layer frame 172, and the third layer frame 173 are sequentially disposed from bottom to top. That is, send out this device 10 and receive this device 130 and set up two-layer in the middle of four layers of frames, be convenient for operating personnel to put blank certificate and take away the certificate that the preparation was accomplished toward high-speed system certificate equipment, the weight ratio of tectorial membrane device 80 is bigger, sets up the lower floor in four layers of frames, the holistic stability of assurance high-speed system certificate equipment that can be better.

In one embodiment, the first recognition device 30 includes a first OCR device and a first chip reader/writer, wherein the first OCR device can perform text-image recognition on the document, can be used for recognizing the surface content (such as the number of the passport) of the blank document after the page turning, and can also determine whether the page turning of the blank document by the first page turning device 20 is successful; after the first OCR equipment identifies the number of the blank certificate, the number can be transmitted back to a server of the high-speed certificate making equipment, the server can distribute the number to a person to be certified in a queue to be certified, and the first chip reader-writer can write certificate making information of the person to be certified into a chip of the certificate after page turning. It should be noted that the first OCR device may be disposed on the first page flipping device 20, and the first chip reader/writer may be disposed in the first cache mechanism 41; the first OCR device and the first chip reader may be disposed in the first cache mechanism 41, or both the first OCR device and the first chip reader may be disposed on the first page flipping unit 20, or other configurations may be used.

In another embodiment, the first recognition device 30 may only be configured with the first chip reader without configuring the first OCR device, and when the blank document after page turning is moved to the position of the first chip reader, the server may control the first chip reader to directly write the information of the person to be certified into the chip of the blank document. Further, high-speed system certificate equipment still includes first useless this case 200, quality control device 210, second recognition device, useless this case 220 of second and the useless this case of third, and wherein, first useless this case 200 is close to first recognition device 30 setting, and is used for accomodating the unable certificate of discerning of first OCR equipment. After the certificate passes through the first page turning device 20, the first OCR device can perform text image recognition on the certificate, and if the first OCR device cannot recognize the related information of the certificate, it represents that the page turning of the certificate is unsuccessful or the page turning is wrong, so the server controls the first conveying device 50 to convey the certificate into the first waste box 200.

The quality inspection device 210 is disposed downstream of the plurality of coating devices 80, and the second waste box 220 is disposed downstream of the quality inspection device 210 and near the quality inspection device 210. The quality inspection device 210 is used for shooting information in the document page and checking the printing condition and plastic package condition of the document page, and the second waste book box 220 is used for recovering the unqualified documents checked by the quality inspection device 210. The quality inspection device 210 comprises a camera, the quality inspection device 210 is in communication connection with the server, and if the quality inspection device 210 judges that the document page of the certificate is unqualified in printing or plastic packaging, the server controls the third conveying device 90 to send the unqualified certificate into the second waste book box 220. In one embodiment, the number of the quality inspection devices 210 is two, and the two quality inspection devices 210 can increase the speed of the certification.

The second recognition device is disposed at a downstream of the second waste bin 220 for recognizing and verifying the document information of the document. The third waste tank is arranged at the downstream of the second recognition device. Specifically, the second recognition device includes a second OCR device and a second chip reader/writer, and is configured to recognize information of the certificate and a film number of the plastic package film again, and is further configured to verify whether the certificate needs to be printed with an add-on page, if the certificate needs to be printed with an add-on page, the server controls the first lifting mechanism 180 to transport the certificate from the first layer of frame 171 to the sixth caching mechanism 112 of the fourth layer of frame 174, and then causes the certificate to perform page turning and page printing for the second time on the fourth layer of frame 174, and after the page printing is completed, the fourth transport device 120 moves the certificate to the self-receiving module; if the second recognition device recognizes that the information of the certificate is wrong, the server controls the first lifting mechanism 180, the fifth conveying device 140 and the fourth conveying device 120 to move the certificate into the third waste box; if the second identification device identifies that the document does not need to be printed with a filling page, the server can control the first lifting mechanism 180, the fifth conveying device 140 and the fourth conveying device 120 to move the document to the third waste bin or the collecting device 130.

Specifically, as shown in fig. 4, the first lifting mechanism 180 includes a lifting assembly 181 and a first clamping device 182 connected to the lifting assembly 181, the lifting assembly 181 is configured to drive the first clamping device 182 to move in a vertical direction, and the first clamping device 182 is configured to clamp the document.

Specifically, the lifting assembly 181 includes a second driving assembly and a conveying assembly, the first clamping device 182 is fixed on the conveying assembly, and the second driving assembly can drive the conveying assembly to rotate, so as to drive the first clamping device 182 to perform linear movement in the vertical direction.

As shown in fig. 5, the first gripping device 182 includes a gripping assembly 1821 and a moving assembly 1822, the gripping assembly 1821 includes a first gripping member, a second gripping member, and a first driving member, the first gripping member and the second gripping member are disposed opposite to each other in a first direction, and the first driving member can drive the first gripping member to approach or separate from the second gripping member in the first direction; the first driving member can enable the first clamping member to be close to the second clamping member to clamp the card or enable the first clamping member to be far away from the second clamping member to release the card. The moving assembly 1822 is connected with the clamping mechanism, and the moving mechanism can drive the clamping mechanism to move along a second direction, wherein the second direction is perpendicular to the first direction. The moving mechanism drives the clamping mechanism to move integrally so as to enable the clamping mechanism to be close to the position of the certificate card or change the position of the clamped certificate card. When first gripping device 182 grips a document, moving assembly 1822 drives gripping assembly 1821 to extend out, and after first gripping device 182 grips the document, moving assembly 1822 drives gripping assembly 1821 to retract during the movement of the document.

The second elevating mechanism 190 has the same structure as the first elevating mechanism 180.

The first conveyor 50, the second conveyor 70, the third conveyor 90, the fourth conveyor 120, and the fifth conveyor 140 each include a horizontal moving assembly 1822 for driving the second gripper to move in the horizontal direction, and a second gripper for gripping the document. In this embodiment, the structure of the second clamping device is the same as that of the first clamping device 182, and the description of the second clamping device is omitted here. In the first conveying device 50, the second conveying device 70, the third conveying device 90, the fourth conveying device 120, and the fifth conveying device 140, the number of the second gripping devices may be one or more, and the number of the second gripping devices may be the same or different. In one embodiment, the first conveyor 50 comprises a second grasping device; the second transport device 70 comprises two second gripping devices which move simultaneously and can transport two documents into two first printing devices 60 at a time, and after the transport of one document is completed, the two second gripping devices move again and can transport the other two documents into the other two printing devices 60; the third conveying device 90 comprises four second clamping devices, wherein two second clamping devices are arranged between the film laminating device 80 and the fourth cache mechanism 102 and are used for feeding the certificates in the fourth cache mechanism 102 into the film laminating device 80, two second clamping devices can simultaneously feed two certificates into the film laminating device 80, and the other two second clamping devices are arranged between the film laminating device 80 and the fifth cache mechanism 111 and are used for clamping the certificates from the film laminating device 80 and feeding the certificates into the quality inspection device 210; the fourth transporting device 120 includes two second gripping devices, and the fifth transporting device 140 includes one second gripping device.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all equivalent changes made by using the contents of the present specification and the drawings, or applied directly or indirectly to the related technical fields, are included in the scope of the present invention.

Claims

1. A high-speed certification making apparatus, comprising:

the transmitting device is used for storing and transmitting the certificate;

the first cache module is used for storing certificates;

2. The high-speed certification apparatus according to claim 1, further comprising a second buffer module for storing certificates, the second buffer module being disposed between the first printing device and the laminating device, the second transport device being further configured to move the printed certificates into the second buffer module, and the third transport device being configured to move the certificates in the second buffer module into the laminating device.

3. The high-speed certification device according to claim 2, further comprising a third cache module for storing certificates, wherein the number of the film covering devices is plural, the plural film covering devices are disposed between the second cache module and the third cache module, and the third conveying device is further configured to move the molded certificates into the third cache module.

4. The high-speed authentication apparatus according to claim 3, wherein the number of said first printing means is four, and the number of said coating means is three.

5. The high-speed certification apparatus according to claim 3, further comprising a frame having a multi-layered frame, and a plurality of the first printing devices being disposed on the same layered frame; the film covering devices are all arranged on the frame on the same layer; the transmitting device and the first page turning device are arranged on the frame on the same layer; the lifting device is used for conveying certificates between the frames on different layers.

6. The high-speed certification apparatus according to claim 5, wherein the rack has at least three layers of the frames, and the first page turning device, the first printing device and the film covering device are respectively disposed on the frames of different layers.

7. The high-speed certification apparatus according to claim 6, wherein the at least three layers of frames include a first layer of frames, a second layer of frames, and a third layer of frames;

8. The apparatus of claim 7, wherein the rack has four levels of the frame, the rack further comprising a fourth level of the frame, the third cache module further comprising a sixth cache mechanism;

9. The high-speed certification device according to claim 8, wherein the first layer frame, the second layer frame, the fourth layer frame and the third layer frame are parallel to each other and sequentially arranged from bottom to top, or the first layer frame, the fourth layer frame, the second layer frame and the third layer frame are parallel to each other and sequentially arranged from bottom to top.

10. The high-speed certification apparatus according to claim 8, further comprising a fifth transport device, a second page turning device and a second printing device, wherein the second page turning device and the second printing device are disposed between the receiving device and the sixth caching mechanism, and the fifth transport device is configured to move the certificate in the sixth caching mechanism to the second page turning device; the second page turning device is used for turning pages of the certificate again, and the second printing device is used for printing page adding information on the certificate after the pages are turned again; and the fourth conveying device is used for moving the certificate after the page is turned again to the second printing device and moving the certificate after the page information is printed to the book receiving device.

11. The apparatus for high-speed certification according to claim 1, wherein the first identification means is disposed between the first page flipping means and the first cache module, or the first identification means is disposed in the first cache module, or the first identification means is disposed on the first page flipping means.

12. The high-speed certification manufacturing apparatus according to claim 1, further comprising a quality inspection device disposed downstream of the laminating device for photographing and verifying a printing condition and a plastic sealing condition of the certification.

13. The high-speed certification manufacturing apparatus according to claim 1, wherein the first transporting means includes a transporting means and a first gripping means, the transporting means is connected to the first gripping means and drives the first gripping means to move in a horizontal direction, and the first gripping means is used to grip the certification.