CN210553690U - Open desktop printing, counterfeit identifying and batch stamping integrated machine - Google Patents

Abstract

The utility model relates to an open desktop printing, counterfeit-identifying and batch stamping integrated machine, which comprises a printing device, a counterfeit-identifying device, a stamping device, a paper transmission device and a processing device; first through-hole has been seted up to casing one side of the device of stamping, the first through-hole lower extreme horizontal mounting board has been linked firmly on the casing, horizontal mounting board top has been set up a mounting platform that has the second through-hole through the support, the pseudo-device of distinguishing is installed on the mounting platform and its exit slot passes through the second through-hole extends the mounting platform below, printing device and paper transmission device all install on the horizontal mounting board, just paper transmission device one end with the exit slot dock of the pseudo-device of distinguishing, the other end passes first through-hole with the inside dock of the device of stamping. The utility model discloses have the differentiation contract true and false, print contract and automatic contract function of stamping in batches, and small, occupation space is few.

Description

Open desktop printing, counterfeit identifying and batch stamping integrated machine

Technical Field

The utility model relates to a financial equipment field particularly, relates to an open desktop is printed and is distinguished pseudo-all-in-one of stamping in batches.

Background

In the situation that a bank or other financial institutions often encounter the situation that a contract needs to be printed for signature and seal, the traditional processing method comprises the following steps: when a user needs to print and stamp a certain file, the file needs to be printed at a printer manually, and then the printed file is taken out, so that a file page needing to be stamped is selected from the printed file; after signing and sealing on the contract document page, a client needs to manually verify whether the document page is correct or not, and seals at a designated position on the contract document page by using the contract seal after verification is finished, so that the processing mode is low in efficiency, a certain error exists in manual identification, and if the seal is sealed on the wrong document, great loss can be brought to a financial institution; and the machines used by the existing financial institutions are huge, need to occupy a lot of space for placement, and cannot be miniaturized and desktop.

Disclosure of Invention

For solving the technical problem, the utility model provides an open desktop is printed and is discerned pseudo-all-in-one of stamping in batches has and prints contract, differentiates the contract true and false and automatic contract stamping function in batches, and is small, and occupation space is few.

The utility model adopts the technical proposal that: the open desktop printing, counterfeit-distinguishing and batch-stamping integrated machine comprises a printing device for printing paper document pages, a counterfeit-distinguishing device for distinguishing counterfeit documents placed in the printing device, a stamping device for stamping the documents to be stamped, a paper transmission device for transmitting the documents identified by the counterfeit-distinguishing device to the stamping device, and a processing device electrically connected with the counterfeit-distinguishing device, the stamping device and the paper transmission device respectively; first through-hole has been seted up to casing one side of the device of stamping, the first through-hole lower extreme horizontal mounting board has been linked firmly on the casing, horizontal mounting board top has been set up a mounting platform that has the second through-hole through the support, the pseudo-device of distinguishing is installed on the mounting platform and its exit slot passes through the second through-hole extends the mounting platform below, printing device and paper transmission device all install on the horizontal mounting board, just paper transmission device one end with the exit slot dock of the pseudo-device of distinguishing, the other end passes first through-hole with the inside dock of the device of stamping.

In the open desktop printing, counterfeit-distinguishing and batch stamping integrated machine of the utility model, the paper transmission device comprises a first paper conveying module, a second paper conveying module, a third paper conveying module and a lane changing module, one end of the first paper conveying module is butted with a paper outlet of the counterfeit-distinguishing device, and the other end of the first paper conveying module is butted with one end of the second paper conveying module; the lane changing module can rotate up and down, one end of the lane changing module is butted with a paper outlet of the printing device, and the other end of the lane changing module can rotate upwards to a first position to be butted with one end of the second paper conveying module or rotate downwards to a second position to be butted with the third paper conveying module; the other end of the second paper conveying module is butted with the stamping device.

In the open desktop printing, counterfeit-identifying and batch stamping integrated machine of the present invention, the first paper conveying module comprises a first conveying channel, a first paper determining sensor disposed on the first conveying channel, and a first active driving wheel module disposed in the first conveying channel; the second paper conveying module comprises a second conveying channel, a second paper judging sensor arranged on the second conveying channel and a second driving wheel module arranged in the second conveying channel, and the third paper conveying module comprises a third conveying channel, a third paper judging sensor arranged on the third conveying channel and a third driving wheel module arranged in the third conveying channel; the lane changing module comprises a driving motor fixed on the paper conveying device rack, a lane changing guide rail arranged on the upper side of the driving motor and a transmission part, wherein one end of the transmission part is connected with a rotating shaft of the driving motor, and the other end of the transmission part is fixedly connected with the lane changing guide rail.

Open desktop print pseudo-batch all-in-one of stamping of distinguishing, still including setting up in the device of stamping, be used for putting together the collection the paper of the file page or leaf of paper transmission device conveying is put together the device, the paper is put together the device and is fixed including the delivery unit who is used for collecting the file page or leaf and being used for delivery unit's fixing device.

The pseudo-batch all-in-one of stamping of discerning is printed to open desktop, the collection device includes the rectangle bottom plate, establishes the curb plate of the bottom plate left and right sides, establishes the baffle of both sides around the bottom plate and with the limiting plate that the bottom plate front and back both sides level meets, the width of bottom plate is wider 20-40mm than the paper in the printing device, and length ratio printing device paper is long 7-21mm, the length of curb plate is less than the length of bottom plate, its lower extreme is erect on the bottom plate, the upper end is to the lateral tilt formation inclined plane be equipped with the spacing arch of upwards salient on the limiting plate, fixing device one end is fixed on the casing, the other end with spacing arch is kept away from one side looks butt of bottom plate makes the collection device front and back end is spacing.

In the integrated machine for batch stamping with open desktop printing and counterfeit identification of the utility model, the paper transmission device comprises a paper feeding channel, a transmission channel, a paper returning channel, a channel switching module and a forward and reverse transmission module, the paper feeding channel and the paper returning channel are arranged on the same side, the paper feeding port of the paper feeding channel is butted with the paper outlet of the scanning device, the paper outlet of the paper feeding channel and the paper feeding port of the paper returning channel are butted with one end of the channel switching module at the same time, the other end of the channel switching module is butted with one end of the transmission channel, the other end of the transmission channel is butted with the stamping device, the channel switching module can move up and down, when the channel switching module is located at a first position, the paper feeding channel is communicated with the transmission channel, when the channel switching module is located at a second position, the paper returning channel is communicated with the transmission channel, the forward and reverse transmission module is used for driving the document pages in the transmission channel to move forward or backward.

Open desktop print pseudo-batch all-in-one of stamping of appraising, positive reverse transmission module is in including rack-mounted first motor and a plurality of distribution transmission roller in transmission passage and the paper exit passageway, the transmission roller by first motor drive forward or reverse rotation, the file page or leaf falls into can be driven the transmission on the transmission roller.

Open desktop print pseudo-batch all-in-one of stamping of appraising, the passageway switches the module including switching the passageway and being used for the drive switch the actuating mechanism that the passageway reciprocated, work as when switching the passageway and being located the upper end position with the paper feed passageway docks mutually, works as when switching the passageway and being located the lower extreme position with the paper-ejecting passageway docks mutually.

Open desktop print pseudo-batch all-in-one of stamping of appraising, paper transmission device is still including being used for being located the paper pressing module that the file page or leaf of transmission channel exit slot department pushed down.

False batch all-in-one of stamping of open desktop discernment in, the casing opposite side of the device of stamping is equipped with the mouth of getting the seal and is used for the control of installing double-lock burglary-resisting door get the camera of the mouth of stamping.

The utility model provides an open desktop is printed and is distinguished pseudo-batch all-in-one of stamping integrates with automatic printing, automatic printing stamp and pseudo-batch equipment and the function of stamping of automatic discrimination of file page or leaf in an organic whole, through reasonable space arrangement, makes its volume reduce by a wide margin compared with traditional equipment, makes it can regard as desktop formula equipment to use, can reduce its occupation space, and can arbitrary whole move when using, very convenient, greatly improve financial institution's efficiency of working an affair; the equipment reliability is high, is equipped with camera monitoring device, can improve the security of contract signing process.

Drawings

The invention will be further explained with reference to the drawings and examples, wherein:

fig. 1 is a schematic overall structure diagram of a first embodiment of the present invention;

fig. 2 is a schematic view of a frame line structure according to a first embodiment of the present invention;

fig. 3 is a schematic structural view of a lane changing guide rail in a first position according to an embodiment of the present invention;

fig. 4 is a schematic structural view of a lane changing guide rail in a second position according to an embodiment of the present invention;

FIG. 5 is a schematic view of the structure of FIG. 4 from another perspective;

fig. 6 is a schematic structural view of a delivery device according to a first embodiment of the present invention;

fig. 7 is a schematic structural view of a paper gathering device according to an embodiment of the present invention;

fig. 8 is a schematic view of an operation structure of a channel switching module according to a second embodiment of the present invention;

fig. 9 is a schematic structural diagram of a certain viewing angle of the channel switching module in the second embodiment of the present invention;

fig. 10 is a schematic structural diagram of another view angle of the channel switching module according to the second embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

As shown in fig. 1 to fig. 2, an embodiment of the present invention provides an open desktop printing, counterfeit-identifying and batch-stamping integrated machine, which includes a printing device 10, a counterfeit-identifying device 20, a paper conveying device 30, a processing device 40, a stamping device 50 and a human-computer interaction module 60. The printing device 10 is used for printing paper document pages, the counterfeit identifying device 20 is used for identifying counterfeit of the placed document pages, the stamping device 50 is used for stamping the document pages to be stamped, the paper transmission device 30 is used for transmitting the document pages identified by the counterfeit identifying device 20 and/or the document pages printed by the printing device 10 to the stamping device 50, and the processing device 40 is electrically connected with the counterfeit identifying device 20, the stamping device 50, the paper transmission device 30 and the human-computer interaction module 60 respectively. A first through hole is formed in one side of a shell 501 of the sealing device 50, a horizontal mounting plate 502 is fixedly connected to the shell 501 at the lower end of the first through hole, and a mounting platform 504 with a second through hole is erected above the horizontal mounting plate 502 through a support 503. The lower end of the bracket 503 is fixed on the horizontal mounting plate 502, the upper end supports the mounting platform 504, the counterfeit identifying device 20 is mounted on the mounting platform 504, and the paper outlet of the counterfeit identifying device extends to the lower part of the mounting platform 504 through the second through hole; the printing device 10 and the paper conveying device 30 are both mounted on the horizontal mounting plate 502, and one end of the paper conveying device 30 is butted with the paper outlet of the counterfeit identifying device 20, and the other end of the paper conveying device 30 passes through the first through hole to be butted with the inside of the stamping device 50, so that the document page identified by the counterfeit identifying device 20 can be conveyed to the stamping device 50 through the paper conveying device 30 to be stamped. Meanwhile, the paper outlet of the printing device 10 in this embodiment is also abutted to the paper conveying device 30, so that the document pages printed by the printing device 10 can be directly conveyed to the stamping device 50 through the paper conveying device 30 for stamping. Through above setting, make this embodiment become one collection print, the pseudo-all-in-one of stamping of distinguishing, print stamp equipment and function in pseudo-batch stamp all-in-one of distinguishing of open desktop printing of an organic whole, owing to reasonable space arrangement for its volume reduces by a wide margin for traditional equipment, makes its equipment that can regard as the desktop formula use, reducible its occupation space, and can wholly move wantonly when using, unusual convenient.

The counterfeit identifying device 20, the stamping device 50 and the human-computer interaction module 60 which are adopted in the embodiment are all the prior art, the counterfeit identifying device 20 can adopt the technical scheme that the Chinese patent application number is 201820677865.5 and the name is a bill processing device with a double-sided scanning counterfeit identifying function, counterfeit identification is carried out by comparing and identifying images of a collected document page after counterfeit identifying images are arranged on the document page in advance, or the technical scheme that the Chinese patent application number is 201710581714.X and the name is a signature authenticity identification system based on characteristic self-adaptive oscillation attenuation is adopted, and counterfeit identification is carried out in a text or handwriting mode; the stamping device 50 can adopt the technical scheme of the Chinese patent with the application number of 201310522516.8 and the name of an automatic stamping machine and a stamping method. The processing device 40 in this embodiment may be a single chip microcomputer or an industrial personal computer, such as an 89C52 single chip microcomputer, which has a plurality of I/O ports, the counterfeit identifying device 20, the stamping device 50, and the paper transmission device 30 are all connected to the I/O ports of the processing device 40, when the counterfeit identifying device 20 completes the counterfeit identification, the first signal is sent to the processing device 40, the processing device 40 receives the first signal to control the paper transmission device 30 to operate, the paper transmission device 30 completes the transmission, the second signal is sent to the processing device 40, the processing device 40 receives the second signal to control the stamping device 50 to operate, the counterfeit identifying and stamping process of a document page is completed, and then the above steps are repeated to realize the batch counterfeit identifying and stamping of the document page; the control process of the processing device 40 is easily implemented by those skilled in the art using the prior art, and will not be described herein. The human-computer interaction module 60 is used for a user to select which mode to operate, the human-computer interaction module 60 is the prior art, and specifically, the technical scheme and the touch screen controller in chinese patent application No. 201810811610.8, which is named as a touch screen controller, a touch screen system and a touch screen controller, may be adopted, and are not described herein again.

Further, in order to enable the open desktop printing, counterfeit identifying and batch stamping integrated machine provided in this embodiment to perform counterfeit identifying and identifying on any document page, the counterfeit identifying device 20 in this embodiment includes a document obtaining module for obtaining an electronic document of the document page, a scanner for scanning an image of the document page, and a counterfeit identifying and comparing module electrically connected to the document obtaining module and the scanner, respectively, and both the document obtaining module and the scanner are connected to the counterfeit identifying and comparing module. The document acquisition device is used for acquiring an electronic document, and can be a two-dimensional code scanning device for acquiring the electronic document by scanning a two-dimensional code on a document page, for example, a financial institution can make various contracts in advance, each contract is correspondingly provided with one two-dimensional code, when a user needs to sign a certain contract, the user only needs to scan the two-dimensional code corresponding to the contract and then identify the fake product, the seal can be sealed without supervision of personnel in the whole process, the document acquisition device can also be connected with a management terminal in a wired or wireless mode, the management terminal sends the electronic document to the document acquisition device, and the document acquisition device acquires the electronic document and then sends the electronic document to a comparison and identification module; the scanner is used for scanning contract pages needing to be stamped by a user, the scanned images are synchronously sent to the comparison and counterfeit identification module for counterfeit identification, the counterfeit identification method of the comparison and counterfeit identification module can adopt the technical scheme of application number 200920207525.7 of Chinese patent and named as an image and character analysis and counterfeit identification system for counterfeit identification, each page and the page of the same opening and closing need to be subjected to counterfeit identification by the counterfeit identification device and then transmitted to the stamping device by the paper transmission device for stamping, when the counterfeit identification is successful, the counterfeit identification device sends a signal to the processing device, and the processing device controls the stamping device and the paper transmission device to stop working. A paper taking port 84 with an automatic door is arranged at the front side of the shell 501 of the stamping device 50, and a user can take the stamped paper by the stamping device 50 through the paper taking port 84. Further, the other side of the housing 501 of the sealing device 50 in the present embodiment, which is opposite to the through hole, is provided with a seal taking port to which the double-lock security door is mounted, a camera 92 for monitoring the seal taking port, and a first camera 91 arranged at the upper end of the housing 501. First camera 91 is the flip camera, can upwards turn up it when using to rotatory camera makes its normal work to the assigned position, can fold down the camera when collection or transport, makes it can drop when removing or storing and save space, convenient transportation and save. The first camera 91 is used to take dynamic environment video, which employs a wide-angle camera for monitoring all people and objects in front of the right of the machine. The seal taking port is sealed through a double-lock anti-theft door at ordinary times, the double-lock structure comprises an electronic coded lock, an IC card lock or a fingerprint lock and a mechanical lock, if a main lock is an ID card or an IC card lock, and an auxiliary lock is a cross-core mechanical lock, a double-person double lock is formed, and a cabinet door can be opened by two persons at the same time, so that the anti-theft effect can be realized. When the internal machine breaks down and needs manual stamping, authorized management personnel can open the door body of the stamp taking opening to take out the stamp on the stamping device for manual stamping. The camera device 92 is used for shooting the region of the stamp taking port, so that the whole stamp taking process and the whole stamp using process are in the shooting range, and the absolute safety of the stamp is ensured.

In practical situations, some documents of the financial institutions are printed in advance and placed in a fixed area, customers can take a certain contract to sign according to their own needs and then hand-print the contract, and when the contract is processed, the customer needs to identify the contract signed according to the hand-print and identify whether the document page is off-package or wrong and then stamp the contract; in order to facilitate the integration of printing and sealing of such contracts, the paper transport device 30 in this embodiment may not only transport the document pages authenticated by the authentication device 20 to the sealing device 50, but also transport the document pages printed by the printing device 10 directly to the sealing device 50. Specifically, as shown in fig. 3 to 5, the sheet transporting device 30 includes a first sheet transporting module 31, a second sheet transporting module 32, a third sheet transporting module 33, and a lane changing module 34. One end of the first paper conveying module 31 is butted with the paper outlet of the counterfeit identifying device 20, and the other end is butted with one end of the second paper conveying module 32, and is used for conveying the counterfeit identified document page to the second paper conveying module 32; the third paper conveying module 33 is arranged below the second paper conveying module 32 and is arranged obliquely; the lane changing module 34 can rotate up and down, one end of which is butted with the paper outlet of the printing device 10, and the other end of which can rotate upward by a certain angle to a first position (as shown in fig. 3, the black arrow in the figure is the paper transmission path) and butted with one end of the second paper conveying module 32, and can also rotate downward by a certain angle to a second position (as shown in fig. 4, the black arrow in the figure is the paper transmission path) and butted with the upper end of the third paper conveying module 33; the other end of the second sheet transport module 32 interfaces with the stamping device 50. Specifically, the first paper conveying module 31 includes a first conveying path 311, a first paper determining sensor 312 disposed on the first conveying path 311, and a first driving wheel module 313 disposed in the first conveying path 311; the second paper conveying module 32 comprises a second conveying channel 321, a second paper judging sensor 322 arranged on the second conveying channel 321, and a second driving transmission wheel module 323 arranged in the second conveying channel 321; the third paper conveying module 33 comprises a third conveying channel 331, a third paper judging sensor arranged on the third conveying channel 331 and a third driving transmission wheel module 333 arranged in the third conveying channel 331; the lane changing module 34 includes a driving motor 341 fixed on the frame of the paper conveying device 30, a lane changing guide 342 disposed on the upper side of the driving motor 341, and a transmission member 343 having one end connected to the rotating shaft of the driving motor 341 and the other end connected to the lane changing guide 342. The transmission member 343 may be a toothed belt, one end of which is engaged with a gear on the rotating shaft of the driving motor 341 and is driven by the driving motor 341 to rotate, and the other end of which is fixedly connected with the lane-changing guide rail 342, and when the driving motor 341 rotates clockwise, the driving motor 341 drives the lane-changing guide rail 342 to rotate upwards to be abutted with the second transmission channel 321; when the driving motor 341 rotates counterclockwise, it will drive the lane-changing guide 342 to rotate downward to abut against the third transmission path 331. In order to increase the reliability and the service life of the equipment, the transmission member 343 in this embodiment is respectively engaged with three rotating gears, one side of the middle part of the transmission member is fixedly connected with the lane-changing guide rail 342, and the other side is provided with an angle sensor 344 for measuring the rotating angle of the driving motor 341. The angle sensor 344 may use an infrared sensor and perforates the belt to measure the rotation angle of the driving motor 341, for example, a first unthreaded hole and a second unthreaded hole may be formed in the belt, an infrared emission sensor is mounted on the rack, an infrared receiving sensor is disposed on the motor, when the lane-changing guide rail 342 is rotated upward to be in butt joint with the second transmission channel 321, the belt just rotates until the infrared emitted by the infrared emission sensor can irradiate onto the infrared receiving sensor through the first through hole in the belt, and at this time, the driving motor 341 is controlled to stop rotating; when the lane-changing guide rail 342 rotates downward to be in butt joint with the third transmission channel 331, the belt just rotates until the infrared rays emitted by the infrared emission sensor can irradiate onto the infrared receiving sensor through the second through hole on the belt and control the driving motor 341 to stop rotating, so that the control of the rotation angle of the driving motor 341 is realized, and the control precision of the motor can be improved. In addition, the stepping motor can be used to directly set two forward and reverse rotation angles to realize the rotary butt joint of the lane-changing guide rail 342, which is not described in detail herein. The first driving transmission wheel module 313, the second driving transmission wheel module 323, the third driving transmission wheel module 333 and the driving motor 341 are electrically connected with the I/O port of the processing device 40 through the relay driving circuit, and are controlled to start, stop and operate by the processing device 40. At the outlet of the second conveyance path 321, there is also provided a static electricity removing brush plate 35 for removing static electricity of the sheet.

In use, the user can select the required operation, such as a counterfeit identification stamping operation, a printing stamping operation or a paper printing operation, through the human-computer interaction module 60. After the user selects the counterfeit identification and seal operation option, the document acquisition device flashes to prompt the user to scan the two-dimensional code on the document page to acquire the electronic document and send the electronic document to the counterfeit identification device 20; the user can then sequentially place the document pages to be stamped into the scanner, which sequentially scans each document page, and the counterfeit identifier 20 performs the counterfeit identification once each document page is scanned, when the contract page is identical to the electronic document, the document page scanned by the scanner will fall into the first transmission channel 311, the first paper determining sensor 312 (reflective photoelectric sensor) senses the paper and then sends a signal to the processing device 40, at this time, the processing device 40 controls the first driving wheel module 313 to rotate, so that the document sheet falls into the second transmission channel 321 through the first transmission channel 311 under the driving of the first driving wheel module 313, when the second paper determining sensor 322 senses the paper and then sends a signal to the processing device 40, at this time, the processing device 40 controls the second driving wheel module 323 to rotate, so that the document sheet falls into the stamping device 50 through the second transmission channel 321 to be stamped under the driving of the second driving wheel module 323. After the previous document page is stamped, the scanner scans the next document page, so that batch and orderly counterfeit identification stamping of a plurality of document pages is realized. After the user selects the printing and stamping operation option (identity recognition such as password authentication and face recognition is needed to obtain an operation authority), the human-computer interaction module 60 sends a first signal to the processing device 40, and at this time, the processing device 40 controls the driving motor 341 to rotate, so that the lane-changing guide rail 342 rotates to be in butt joint with the second transmission channel 321; at this time, the document acquiring device flickers to prompt the user to scan the two-dimensional code of the mobile phone to acquire the electronic file and send the electronic file to the printing device 10, the printing device 10 prints the page of the file after receiving the electronic file, and the printed page of the file falls into the lane-changing guide rail 342. In order to ensure that the paper printed by the printer can fall into the second conveying path 321, the length of the lane-changing guide 342 in this embodiment is set to be smaller than the length of the printing paper (for example, a4 paper), so that when one end of the printing paper is not completely separated from the printer, the other end of the printing paper is already located in the second conveying path 321, at this time, the second paper determination sensor 322 senses the paper and then sends a signal to the processing device 40, and the processing device 40 controls the second active driving wheel module 323 to rotate, so that the document page continuously falls into the sealing device 50 through the second conveying path 321 under the driving of the second active driving wheel module 323 for sealing. After the previous document page is stamped, the printing device 10 prints the next document page, so as to realize the batch and orderly printing and stamping of a plurality of document pages. When the user selects the printing paper operation option, the man-machine interaction module 60 sends a second signal to the processing device 40, and at this time, the processing device 40 controls the driving motor 341 to rotate, so that the lane-changing guide rail 342 rotates to be in butt joint with the third transmission channel 331; the document acquisition device flickers to prompt a user to scan the mobile phone two-dimensional code to acquire an electronic file and send the electronic file to the printing device 10, the printing device 10 prints a document page after receiving the electronic file, the printed document page falls into the lane change guide 342 and enters the third transmission channel 331, and the document page more easily falls into the third transmission channel 331 because the lane change guide 342 and the third transmission channel 331 are both inclined downwards; in order to ensure that the paper can smoothly fall into the printing paper taking box, when the third paper judging sensor senses the paper in the third transmission channel 331 and then sends a signal to the processing device 40, the processing device 40 controls the third driving transmission wheel module 333 to rotate, so that the document page continues to enter the paper taking box through the third transmission channel 331 under the driving of the third driving transmission wheel module 333, and after printing is finished, a user can take the printing paper out of the paper taking box.

Further, the embodiment further includes a paper sheet collecting device provided in the stamping device 50 and used for collecting the document sheets conveyed by the paper sheet conveying device, and the paper sheet collecting device includes a paper collecting device used for collecting the document sheets and a fixing device used for fixing the paper collecting device. The delivery device is disposed in close proximity to the printing device and at a position corresponding to the paper output port of the paper conveying device 30 (i.e., the output port of the second conveying path 321). As shown in fig. 6 and 7, the delivery device specifically includes a bottom plate 11, a side plate 12, a baffle 13, and a limit plate 14, where the bottom plate 11, the side plate 12, and the baffle 13 together enclose a space for accommodating printing paper. The bottom plate 11 is rectangular as a whole, and the size of the bottom plate corresponds to that of paper in the printing device; the side plates 12 are arranged at the left side and the right side of the bottom plate 11 and are used for preventing paper from sliding out of the paper delivery device from the left side and the right side; the limiting plates 14 are arranged on the front side and the rear side of the bottom plate 11, are horizontally arranged and horizontally connected with the bottom plate 11, and are used for being matched with the fixing device to enable the whole paper delivery device to be limited and fixed; the baffle 13 is set up in bottom plate 11 front and back both sides equally for prevent that the paper from waving out from delivery unit front and back both sides, and when using, the baffle 13 of bottom plate 11 front side sets up in parallel with printing device's exit slot, and is in same vertical plane setting with the exit slot, so that each printing paper homoenergetic is complete to fall into in the delivery unit. Specifically, the width of the bottom plate 11 is set to be 20-40mm wider than paper in the printing device, and the length of the bottom plate is 7-21mm longer than paper in the printing device, so that the area of the paper accommodated by the whole paper collecting device is larger than the area of the paper, the paper can fall into the paper collecting device even if the paper slightly deviates from the left or the right when coming out of the printing device, and meanwhile, the paper can be better gathered when falling into the paper collecting device due to the setting of the width and the length, and inconvenience in taking of a user due to the fact that the paper is scattered is avoided. The length setting of curb plate 12 in this embodiment is less than the length of bottom plate 11 for the part that the edge of curb plate and the edge of bottom plate 11 lack forms first breach, and simultaneously, baffle 13 is established in the limiting plate 14 left and right sides, make and form the second breach between the edge of baffle 13 and the edge of limiting plate 14, make the user directly can be followed the left and right sides of device and both sides around and the whole pile of paper in the paper collecting device or look for a certain paper in whole pile of paper through this first breach and second breach, and need not follow the paper above and turn down to open and take, make the user more convenient to taking of paper. The lower end of the side plate 12 is vertically connected with the bottom plate 11, the upper end of the side plate inclines outwards to form an inclined plane, the inclined plane part increases the area of the paper receiving device for receiving the paper on the left side and the right side, and meanwhile, the inclined plane part can play a role in guiding so that the paper can fall into the paper accommodating space more smoothly. The limiting plate 14 is provided with the limiting protrusion 15 protruding upwards, one end of the fixing device is fixed inside the shell 501 (at the bottom of the second area), and the other end of the fixing device is in contact with one side, far away from the bottom plate, of the limiting protrusion 15, so that the front end and the rear end of the whole paper collecting device can be tightly pushed by the fixing device, the situation that the paper collecting device moves in the using process can be prevented, and the paper collecting position of the paper collecting device can be kept fixed. The fixing device comprises a fixing plate 21 fixed inside the housing 501, an elastic member 22, a first rotating shaft 23 and a clamping plate 24 rotatably connected with the fixing plate 21 through the first rotating shaft 23, one end of the elastic member 22 abuts against the clamping plate 24, and the other end of the elastic member 22 abuts against the fixing plate 21, so that the clamping plate 24 can be always pressed against the limiting protrusion 15 under the action of the elastic member 22.

The embodiment of the utility model provides an open desktop is printed and is distinguished pseudo-all-in-one of stamping in batches, and the security is high, and convenient to use can realize that contract document page or leaf's automation is printed, is printed automatically and is stamped and the pseudo-batch stamping of automatic discrimination, and mechanized operation can effectively improve work efficiency, is favorable to improving financial institution's the efficiency of working affairs.

Example two

The embodiment is different from the first embodiment in that the sheet transporting device 30, and the sheet transporting device 30 in the present embodiment has not only a function of transporting sheets but also a function of ejecting a counterfeit sheet out of the machine when authentication is successful. Specifically, as shown in fig. 8 and 9, the paper conveying device includes a frame mounted on a horizontal mounting plate 502, and a paper feeding path 1, a conveying path 2, a paper discharging path 3, a path switching module 4, a forward and reverse conveying module, and a paper pressing module mounted on the frame. The paper feeding channel 1 and the paper withdrawing channel 3 are arranged at the same end, the paper feeding channel 1 is arranged at the upper side, the paper withdrawing channel 3 is arranged at the lower side of the paper feeding channel 1, the paper feeding channel and the paper withdrawing channel are arranged in a horn-shaped inclined mode, and outlets are located on the same vertical plane and approach to each other. The paper feeding channel 1 is butted with a paper outlet of the scanner, and the document pages scanned by the scanner all fall into the paper feeding channel 1. The paper inlet of the transmission channel 2 is connected with the paper inlet channel 1 and the paper outlet channel 3 through the channel switching module 4, and the paper outlet of the transmission channel 2 is butted with the paper collecting device. The channel switching module 4 includes a switching channel 41 disposed between the transmission channel 2 and the paper feeding channel 1/the paper ejecting channel 3 and a driving mechanism for driving the switching channel 41 to move up and down, and when the switching channel 41 is located at an upper end position, the switching channel 41 is abutted against the paper feeding channel 1, and when the switching channel 41 is located at a lower end position, the switching channel 41 is abutted against the paper ejecting channel 3, so that the transmission channel 2 is connected to the paper feeding channel 1 and the paper ejecting channel 3, respectively. The forward and reverse transmission module comprises a first motor 51 installed on the rack and a plurality of transmission rollers 52 distributed in the transmission channel 2 and the paper returning channel 3, the transmission rollers 52 and the transmission rollers 52 are connected with the first motor 51 through conveyor belts 53, and document pages can be driven to be transmitted when falling onto the transmission rollers 52. The first motor 51 is a motor capable of rotating forward and backward, when the first motor 51 rotates forward, the first motor drives each transmission roller 52 to rotate forward, at this time, the document page falls into the paper feed channel 1 from the paper outlet of the scanner, because the paper feed channel 1 is arranged obliquely upward, under the action of gravity, the document page directly enters the transmission channel 2 from the paper feed channel 1 through the switching channel, and the transmission rollers 52 in the transmission channel 2 drive the document page to advance forward and fall into the paper collecting device; when the first motor 51 rotates reversely, each transport roller 52 is driven to rotate backwards, and the document sheet in the transport channel 2 moves backwards under the drive of the transport roller 52, enters the paper exit channel 3 after passing through the switching channel 41, and exits from the machine driven by the transport roller 52 in the paper exit channel 3. The driving mechanism comprises a second motor 42 arranged on the frame, a first rotating shaft 43 driven by the second motor 42 to rotate, an eccentric wheel 44 fixed on the first rotating shaft 43, and a driving block 45 with the upper end connected with the eccentric wheel 44 and the lower end fixedly connected with the switching channel 41, wherein the upper end of the driving block is provided with a rectangular frame 46 with the height same as the diameter of the eccentric wheel 41, and the eccentric wheel 44 is arranged in the rectangular frame 46; the driving block 45 can move freely as a whole, and because the position of the first rotating shaft 43 is fixed, the rectangular frame 46 and the driving block 45 move up and down under the driving of the eccentric wheel 44 in the rotating process of the eccentric wheel 44, so that when the driving block 45 moves down to the second position, the switching channel 41 is butted with the paper ejecting channel 3, and at the moment, a passage is formed between the conveying channel 2 and the paper ejecting channel 3; when the driving block 45 moves up to the first position, the switching path 41 is abutted against the paper feeding path 1, and a path is formed between the conveying path 2 and the paper feeding path 1. The first motor 51 and the second motor 42 are electrically connected with an I/O port of the processing device 40 through a relay driving circuit, and are controlled by the processing device 40 to start and operate. As shown in fig. 10, the paper pressing module is disposed on the frame at the same end as the paper outlet of the transmission channel 2, and includes a third motor 61 mounted on the frame, a second rotating shaft 62 driven by the third motor 61 to rotate, and a pressing plate 63 fixed on the second rotating shaft 62, the pressing plate 63 can be driven by the forward and reverse rotation of the third motor 61 to rotate up and down, the position of the pressing plate 63 corresponds to the paper outlet of the transmission channel 2, when the pressing plate 63 is pressed down, the document at the paper outlet of the transmission channel 2 can be pressed down, because the other side of the paper outlet of the transmission channel 2 is the paper gathering device, the document at the paper outlet of the transmission channel 2 can be pressed into the paper gathering device by the pressing down of the pressing plate 63, so that the document can fall into the paper gathering device more easily, and the document can be prevented from being deviated.

When in use, the scanner scans each document page in turn, and the counterfeit identifying device 20 identifies the counterfeit document once when each document page is scanned, since it takes a certain time for the authentication device 20 to authenticate, while the authentication device 20 authenticates, the document sheet is transported to the sheet discharge port of the transport path 2 by the sheet transport device 30, and at this time, the switching channel 41 is connected with the paper feeding channel 1, the document sheet falls into the transmission channel 2 after passing through the paper feeding channel 1 and the switching channel 41, and is driven to the paper outlet of the transmission channel 2 by the transmission of the transmission rollers 52 distributed in the transmission channel 2, at this time, the processing device 40 controls the first motor 51 to stop rotating, so that the head of the document sheet is positioned above the paper gathering device, the tail of the document sheet still stays on the transmission rollers 52 in the transmission channel 2, at the same time, the processing device 40 controls the third motor 61 to operate so that the pressing plate 63 presses down the head of the document sheet toward the sheet stacker. After the device counterfeit identifying device 20 identifies the current document page, if the counterfeit identification is successful, that is, the image of the current document page is inconsistent with the electronic document, the processing device 40 controls the second motor 42 to operate to move the switching channel 41 to be in butt joint with the paper returning channel 3, and controls the first motor 51 to rotate reversely, so that the document page is transmitted backwards from the transmission channel 2 and is withdrawn from the paper returning channel 3; if the documents are consistent, that is, the image of the current document page is consistent with the electronic document, the processing device 40 controls the first motor 51 to continue to rotate forward, so that the current document page falls into the paper collecting device, controls the third motor 61 to rotate reversely, so that the pressing plate 63 is reset, and controls the second motor 42 to operate until the switching channel 41 is abutted with the paper feeding channel 1, thereby completing the processing of one document page. When the stamping device 50 acts, the scanner scans the next document page, the scanned document page falls into the transmission channel 2 for transmission, if the stamping of the previous document page by the stamping device 50 is not completed, the current document page stays at the paper outlet of the transmission channel 2, and meanwhile, the scanner pauses to scan the next document page until the previous document page is stamped, and then continues to scan, so that the batch sequential false identification stamping of a plurality of document pages is realized. The other parts of this embodiment are the same as those of the first embodiment.

The embodiments of the present invention have been described with reference to the accompanying drawings, but the present invention is not limited to the above-mentioned embodiments, which are only illustrative and not restrictive, and those skilled in the art can make many forms without departing from the spirit and scope of the present invention, and all of them fall within the protection scope of the present invention.

Claims (10)

1. The open desktop printing, counterfeit distinguishing and batch stamping integrated machine is characterized by comprising a printing device for printing paper document pages, a counterfeit distinguishing device for distinguishing the placed document pages, a stamping device for stamping the document pages to be stamped, a paper transmission device for transmitting the document pages identified by the counterfeit distinguishing device into the stamping device, and a processing device which is electrically connected with the counterfeit distinguishing device, the stamping device and the paper transmission device respectively; first through-hole has been seted up to casing one side of the device of stamping, the first through-hole lower extreme horizontal mounting board has been linked firmly on the casing, horizontal mounting board top has been set up a mounting platform that has the second through-hole through the support, the pseudo-device of distinguishing is installed on the mounting platform and its exit slot passes through the second through-hole extends the mounting platform below, printing device and paper transmission device all install on the horizontal mounting board, just paper transmission device one end with the exit slot dock of the pseudo-device of distinguishing, the other end passes first through-hole with the inside dock of the device of stamping.

2. The open desktop printing, counterfeit distinguishing and batch stamping integrated machine according to claim 1, wherein the paper conveying device comprises a first paper conveying module, a second paper conveying module, a third paper conveying module and a lane changing module, one end of the first paper conveying module is butted with a paper outlet of the counterfeit distinguishing device, and the other end of the first paper conveying module is butted with one end of the second paper conveying module; the lane changing module can rotate up and down, one end of the lane changing module is butted with a paper outlet of the printing device, and the other end of the lane changing module can rotate upwards to a first position to be butted with one end of the second paper conveying module or rotate downwards to a second position to be butted with the third paper conveying module; the other end of the second paper conveying module is butted with the stamping device.

3. The open desktop printing, counterfeit identifying, batch stamping all-in-one machine according to claim 2, wherein the first paper conveying module comprises a first conveying channel, a first paper judging sensor arranged on the first conveying channel, and a first driving transmission wheel module arranged in the first conveying channel; the second paper conveying module comprises a second conveying channel, a second paper judging sensor arranged on the second conveying channel and a second driving wheel module arranged in the second conveying channel, and the third paper conveying module comprises a third conveying channel, a third paper judging sensor arranged on the third conveying channel and a third driving wheel module arranged in the third conveying channel; the lane changing module comprises a driving motor fixed on the paper conveying device rack, a lane changing guide rail arranged on the upper side of the driving motor and a transmission part, wherein one end of the transmission part is connected with a rotating shaft of the driving motor, and the other end of the transmission part is fixedly connected with the lane changing guide rail.

4. The open desktop printing, counterfeit distinguishing and batch stamping integrated machine according to claim 1, further comprising a paper gathering device arranged in the stamping device and used for gathering and collecting the document pages transmitted by the paper transmission device, wherein the paper gathering device comprises a paper collecting device used for collecting the document pages and a fixing device used for fixing the paper collecting device.

5. The open desktop printing, counterfeit identifying and batch stamping integrated machine according to claim 4, wherein the paper collecting device comprises a rectangular bottom plate, side plates arranged on the left and right sides of the bottom plate, baffle plates arranged on the front and back sides of the bottom plate, and limiting plates horizontally connected with the front and back sides of the bottom plate, the width of the bottom plate is 20-40mm wider than paper in the printing device, the length of the bottom plate is 7-21mm longer than paper in the printing device, the length of the side plates is smaller than that of the bottom plate, the lower ends of the side plates are erected on the bottom plate, the upper ends of the side plates are inclined outwards to form an inclined plane, limiting protrusions protruding upwards are arranged on the limiting plates, one end of the fixing device is fixed on the shell, and the other end of the fixing device is abutted against one side of the limiting protrusions far away from the bottom plate, so.

6. The open desktop printing and counterfeit identifying batch stamping integrated machine according to claim 1, wherein the paper conveying device comprises a paper feeding channel, a conveying channel, a paper returning channel, a channel switching module and a forward and reverse conveying module, the paper feeding channel and the paper returning channel are disposed on the same side, a paper feeding port of the paper feeding channel is butted with a paper discharging port of the scanning device, a paper discharging port of the paper feeding channel and a paper feeding port of the paper returning channel are butted with one end of the channel switching module at the same time, the other end of the channel switching module is butted with one end of the conveying channel, the other end of the conveying channel is butted with the stamping device, the channel switching module can move up and down, the paper feeding channel is communicated with the conveying channel when the channel switching module is located at a first position, and the paper returning channel is communicated with the conveying channel when the channel switching module is located at a second position, the forward and reverse transmission module is used for driving the document pages in the transmission channel to move forward or backward.

7. The open desktop printing and counterfeit identifying batch stamping all-in-one machine according to claim 6, wherein the forward and reverse transmission module comprises a first motor mounted on the frame and a plurality of transmission rollers distributed in the transmission channel and the paper returning channel, the transmission rollers are driven by the first motor to rotate forward or reverse, and the document pages can be driven to be transmitted after falling onto the transmission rollers.

8. The open desktop printing, counterfeit identifying, batch stamping all-in-one machine according to claim 6, wherein the channel switching module comprises a switching channel and a driving mechanism for driving the switching channel to move up and down, the switching channel is abutted with the paper feeding channel when located at an upper end position, and is abutted with the paper discharging channel when located at a lower end position.

9. The open desktop printing, counterfeit identifying, batch stamping all-in-one machine according to claim 6, wherein the paper conveying device further comprises a paper pressing module for pressing down the document pages at the paper outlet of the conveying channel.

10. The open desktop printing, counterfeit identifying and batch stamping integrated machine according to claim 1, wherein a stamp taking port provided with a double-lock anti-theft door and a camera for monitoring the stamp taking port are arranged on the other side of the housing of the stamping device.

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