CN109551926B - Bill storage device - Google Patents

Abstract

The invention discloses a bill storage device, which comprises a bill inlet, a bill walking channel, a bill separating structure, a bill box assembly, a detection module for detecting bill information and a control module, wherein the bill walking channel is arranged between the bill inlet and the bill box assembly and is communicated with the bill inlet and the bill box assembly; the ticket box assembly comprises a first ticket box and a second ticket box, a ticket box channel is arranged between the first ticket box and the second ticket box, and a ticket distributing structure is arranged in the ticket box channel; the ticket distributing structure is electrically connected with the control module and pushes the tickets into the first ticket box or the second ticket box under the control of the control module; the control module is also electrically connected with the detection module. The ticket-walking passage is only provided with one ticket-walking passage, and the ticket-walking passage is straight and does not turn, so that the ticket-blocking risk is greatly reduced; the ticket distributing structure integrates the functions of a ticket distributor and a ticket pushing device in the prior art, the processes of distributing tickets and pushing tickets can be completed only by one motor, the number of transmission mechanical structures is reduced, and equipment is simple to control and low in cost.

Description

Bill storage device

Technical Field

The invention relates to the technical field of automatic processing of bill vouchers in the financial industry, in particular to a bill storage device.

Background

The traditional public bill service is handled on a counter of a website, along with the technical progress in recent years, "light weight, intellectualization, specialization and community" becomes the development trend of the national banking industry, the putting amount of various intelligent devices is increased year by year, and the self-service handling of the public bill service is gradually realized.

At present, bill service self-service handling equipment is realized in the industry, wherein one ticket box is designed by some manufacturers of the ticket boxes used by the core processing module, and the other manufacturers adopt a double ticket box design. The design of one ticket box is not suitable for the business scene, while the structure of the existing double ticket boxes is too complex. The ticket divider of the double ticket boxes is designed outside the ticket boxes, double channels are adopted inside the ticket boxes, different channels are selected by the ticket divider before the ticket 600 enters the ticket boxes, and after the ticket 600 enters the channels, the voucher of the ticket 600 is pushed into the ticket boxes by the ticket pusher. With this design, there is a problem that the passage is divided into two, and there is a risk of a card ticket. The ticket distributor needs one motor, the ticket pushing device also needs one motor, and the double-motor structure makes the equipment control complicated and the cost high.

Disclosure of Invention

The invention aims to provide a bill storage device with low card and bill risk and simple structure.

In order to solve the technical problems, the technical scheme provided by the invention is as follows:

a bill storage device comprises a bill inlet, a bill walking channel, a bill separating structure, a bill box assembly, a detection module for detecting bill information and a control module, wherein the bill walking channel is arranged between the bill inlet and the bill box assembly and is communicated with the bill inlet and the bill box assembly; the ticket box assembly comprises a first ticket box and a second ticket box, a ticket box channel is arranged between the first ticket box and the second ticket box, and the ticket box channel is internally provided with the ticket distributing structure; the ticket distributing structure is electrically connected with the control module and pushes the tickets into the first ticket box or the second ticket box under the control of the control module; the control module is also electrically connected with the detection module.

Furthermore, the ticket distributing structure comprises a driving assembly and a ticket distributing plate fixedly connected with the output end of the driving mechanism.

Furthermore, the driving assembly comprises a motor and a screw rod, an output shaft of the motor is the screw rod, and the screw rod is in threaded connection with one end of the ticket board.

Furthermore, the driving assembly further comprises a sliding rail and a sliding block which are matched with each other, and the sliding block is fixedly connected with the ticket board.

Furthermore, a first ticket box inlet and a second ticket box inlet for the ticket separating plate to pass through are respectively formed in the first ticket box and the second ticket box, and the length and/or width of the first ticket box inlet and the second ticket box inlet are smaller than those of the tickets.

Further, the length and the width of the first ticket box inlet and the second ticket box inlet are both larger than the length and the width of the ticket dividing plate.

Furthermore, a first ticket pressing plate and a first elastic piece are arranged in the first ticket box, two ends of the first elastic piece are fixedly connected with the first ticket box and the first ticket pressing plate respectively, and the length and/or width of the first ticket pressing plate is larger than that of the inlet of the first ticket box.

Furthermore, a second ticket pressing plate and a second elastic piece are arranged in the second ticket box, two ends of the second elastic piece are fixedly connected with the second ticket box and the second ticket pressing plate respectively, and the length and/or width of the second ticket pressing plate is larger than that of the inlet of the second ticket box.

Furthermore, the detection module comprises an RFID module and a scanning module, wherein the RFID module is arranged below the ticket walking channel, and the scanning module is arranged in the middle section of the ticket walking channel and is used for collecting the ticket image.

Furthermore, the bill deviation correcting device further comprises a bill deviation correcting structure used for adjusting the bill direction, a transmission structure used for driving the bill to move in the bill walking channel and a thermal transfer printer used for printing the bill surface information.

The invention has the beneficial effects that:

this application will divide the ticket structure to set up in the ballot box subassembly, and the ticket is earlier through only walking the ticket passageway, reachs and divides the class of ticket structure back again, pushes into corresponding first ballot box or second ballot box with the ticket simultaneously. Compared with the prior art, the ticket checking system has the advantages that only one ticket passing channel is arranged, the ticket passing channel is straight and does not turn, the ticket checking risk is greatly reduced, and the failure rate is obviously reduced; meanwhile, the ticket distributing structure integrates the functions of the ticket distributor and the ticket pushing device in the prior art, the processes of distributing tickets and pushing tickets can be completed only by one motor, the transmission mechanical structure is reduced, the circuit control difficulty is reduced, and the device is simple to control and low in cost.

Drawings

FIG. 1 is a side view of a document storage unit in accordance with a preferred embodiment of the present invention;

FIG. 2 is a side view of a ticket box assembly in a preferred embodiment of the invention;

FIG. 3 is a schematic view of a note entering the passage of a box in preparation for entering a first box in a preferred embodiment of the present invention;

FIG. 4 is a schematic view of a ticket entering the passage of the ticket bin at another angle ready to enter the first ticket bin in accordance with a preferred embodiment of the present invention;

FIG. 5 is a rear elevational view of the ticket box assembly in a preferred embodiment of the invention;

FIG. 6 is a schematic view of a preferred embodiment of the present invention showing the ticket pressing mechanism pressing a ticket into a first ticket bin;

FIG. 7 is a schematic view of the final condition of a ticket entering a first bin in accordance with a preferred embodiment of the present invention;

FIG. 8 is a schematic view of a note entering the passage of a box in preparation for entering a second box in a preferred embodiment of the present invention;

FIG. 9 is a schematic view of the preferred embodiment of the present invention showing the ticket pressing structure pressing a ticket into a second ticket box;

FIG. 10 is a schematic view of the final condition of a ticket entering the second ticket bin in a preferred embodiment of the present invention.

Detailed Description

In order to make the technical problems, technical solutions and advantageous effects 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 do not limit the invention.

Referring to fig. 1 and fig. 2, in a preferred embodiment of the present invention, the ticket storage device includes a ticket entrance 100, a ticket walking passage 200, a ticket distributing structure 300, a ticket box assembly 400, a detection module for detecting information of a ticket 600, and a control module, wherein the ticket walking passage 200 is disposed between the ticket entrance 100 and the ticket box assembly 400, and communicates the ticket entrance 100 and the ticket box assembly 400; the ticket box assembly 400 comprises a first ticket box 410 and a second ticket box 420, a ticket box channel 430 is arranged between the first ticket box 410 and the second ticket box 420, and the ticket distributing structure 300 is arranged in the ticket box channel 430; the ticket distributing structure 300 is electrically connected with the control module, and pushes the ticket 600 into the first ticket box 410 or the second ticket box 420 under the control of the control module; the control module is also electrically connected with the detection module.

The bill storage device mainly comprises a bill inlet 100, a bill walking channel 200, a bill distribution structure 300, a bill box assembly 400, a control module and a detection module. The ticket passing channel 200 is arranged between the ticket inlet 100 and the ticket box assembly 400, and is communicated with the ticket inlet 100 and the ticket box assembly 400, the tickets 600 pass through the ticket inlet 100 and the ticket box assembly 400 in sequence and then reach the ticket box assembly 400, and then are classified and put into the box under the action of the ticket distributing structure 300.

According to the application, the ticket distributing structure 300 is arranged in the ticket box assembly 400, the tickets 600 firstly pass through the unique ticket walking channel 200, are classified after reaching the ticket distributing structure 300, and meanwhile, the tickets 600 are pushed into the corresponding first ticket box 410 or second ticket box 420. Compared with the prior art, the ticket checking system has the advantages that only one ticket passing channel 200 is provided, ticket checking risks are greatly reduced, and the failure rate is obviously reduced; meanwhile, the ticket distributing structure 300 integrates the functions of a ticket distributor and a ticket pushing device in the prior art, and can complete the processes of ticket distributing and ticket pushing only by one motor, so that the equipment is simple to control and low in cost. Each of the above components will be described in further detail below.

The ticket box assembly 400 includes at least a first ticket box 410 and a second ticket box 420, and it is generally only necessary to divide the ticket 600 into two categories, in which case the ticket box assembly 400 only includes the first ticket box 410 and the second ticket box 420. Such as a first box 410 and a second box 420 for the separate storage of genuine and counterfeit tickets, respectively, or for the separate storage of checks and deposit slips, respectively, or for the separate storage of my and other parties, respectively.

In a preferred embodiment of the present application, the first and second boxes 410, 420 are the same size and shape for aesthetic and manufacturing convenience, and are each adapted to the size and shape of the documents 600, e.g., the first and second boxes 410, 420 are box-shaped, and the plurality of documents 600 can be accommodated in the first and second boxes 410, 420. The first and second bins 410, 420 are preferably arranged in opposing relation, for example, in this embodiment the first and second bins 410, 420 are stacked one above the other, although it will be understood that the first and second bins 410, 420 are also side-by-side.

As shown in fig. 3 and 4, the first ticket box 410 and the second ticket box 420 are respectively provided with a first ticket box inlet 411 and a second ticket box inlet 421 for the ticket distributing structure 300 to pass through, and the length and/or width of the first ticket box inlet 411 and the second ticket box inlet 421 are less than the length and/or width of the ticket 600.

The first and second hopper inlets 411, 421 are oppositely disposed with a gap therebetween, which is a hopper passage 430 through which the ticket distribution structure 300 and the ticket 600 can pass. The box passage 430 is in conjunction with the ticket passing passage 200. Preferably, the box passage 430 is in the same plane as the ticket passing passage 200, so that the ticket 600 can smoothly reach the box passage 430 through the ticket passing passage 200.

The length and/or width of the first ticket box inlet 411 and the second ticket box inlet 421 are/is smaller than the length and/or width of the ticket 600, when the ticket 600 is not subjected to an external force, the ticket 600 is located in the ticket box channel 430, and when the ticket 600 is subjected to the external force applied by the ticket distributing structure 300, the ticket 600 deforms, so that the ticket smoothly passes through the first ticket box inlet 411 or the second ticket box inlet 421 and is pushed into the first ticket box 410 or the second ticket box 420.

The ticket distributing structure 300 is arranged in the ticket box channel 430, the ticket distributing structure 300 is electrically connected with the control module, and the ticket distributing structure 300 pushes the tickets 600 into the first ticket box 410 or the second ticket box 420 under the control of the control module while classifying the tickets 600. Specifically, in the preferred embodiment of the present application, the ticket distribution structure 300 includes a drive assembly 310 and a ticket distribution plate 320.

The output end of the driving mechanism 310 is fixedly connected with one end of the ticket-sorting plate 320, and drives the ticket-sorting plate 320 to pass through the first ticket box 410, the ticket box channel 430 and the second ticket box 420 in a reciprocating manner. In order to facilitate the entry of the ticket gate 320 into the first bin 410 or the second bin 420, it will be appreciated that the length and width of the first bin inlet 411 and the second bin inlet 421 should be greater than the length and width of the ticket gate 320.

As shown in fig. 2 and fig. 5, the driving assembly 310 includes a motor 311 and a screw 312, in one embodiment of the present application, an output shaft of the motor 311 is the screw 312, in another embodiment of the present application, an output shaft of the motor 311 is fixedly connected to the screw 312, the screw 312 is sleeved on the screw 312 with one end of the ticket board 320, and is in threaded connection with the screw 312. When the motor 311 works, the screw rod 312 is driven to rotate, and the ticket sorting plate 320 can reciprocate along the extending direction of the screw rod 312.

In order to increase the smoothness of the ticket board 320 during movement, the driving assembly 310 further comprises a sliding rail 313 and a sliding block 314, wherein the sliding block 314 is fixedly connected with the ticket board 320. Specifically, the slide rail 313 is laid in a direction in which the first ticket box 410 and the second ticket box 420 are stacked, i.e., a direction perpendicular to the ticket walking path 200. Preferably, the slide rail 313 has two rails, and is disposed parallel to each other. The two slide rails 313 are respectively provided with a slide block 314, and the slide blocks 314 are matched with the slide rails 313 and can slide along the slide rails 313 in a reciprocating manner. The motor 311 and the screw 312 drive the ticket board 320 to reciprocate along the slide rail 313, so as to prevent the ticket board 320 from shaking.

In order to sort the bills 600 in the first ticket box 410, a first ticket pressing plate 412 and a first elastic member 413 are arranged in the first ticket box 410, and two ends of the first elastic member 413 are respectively and fixedly connected with the box bottom of the first ticket box 410 and the first ticket pressing plate 412, so that the first ticket pressing plate 412 corresponds to the first ticket box inlet 411. The length and/or width of the first sheet 412 is greater than the length and/or width of the first inlet 411 to prevent the first sheet 412 from passing through the first inlet 411, i.e. the first sheet 412 can only move back and forth within the first hopper 410. In the preferred embodiment of the present application, the first elastic member 413 is a spring, but the first elastic member 413 is not limited to a spring and may be a structure made of an elastic material.

After the ticket distributing plate 320 moves upwards to pass through the first ticket box inlet 411, the ticket 600 is pressed to the first ticket pressing plate 412, because the ticket 600 is paper and can be deformed to pass through the first ticket box inlet 411, as shown in fig. 6, the ticket distributing plate 320 and the first ticket pressing plate 412 move upwards together with the ticket 600, and finally the ticket 600 is far away from the first ticket box inlet 411, and the process can compress the first elastic piece 413; then the ticket gate 320 moves in the opposite direction, so that the ticket gate 320 moves downward and returns to the initial position, and the restoring force of the first elastic member 413 pushes the first ticket pressing plate 412 to move downward, so that the ticket 600 finally stops below the first ticket box inlet 411, as shown in fig. 7; since the length and/or width of the ticket 600 and the first ticket gate 412 are greater than the length and/or width of the first ticket box entrance 411, the ticket 600 cannot pass through the first ticket box entrance 411, thereby completing the process of entering the first ticket box 410.

Similarly, in order to sort the bills 600 in the first ticket box 410, a second ticket pressing plate 422 and a second elastic member 423 are arranged in the second ticket box 420, and two ends of the second elastic member 423 are fixedly connected with the box bottom of the second ticket box 420 and the second ticket pressing plate 422 respectively, so that the first ticket pressing plate 412 corresponds to the second ticket box inlet 421. The length and/or width of the second ticket pressing plate 422 are/is larger than the length and/or width of the second ticket box inlet 421, so that the second ticket pressing plate 422 is prevented from passing through the second ticket box inlet 421, that is, the second ticket pressing plate 422 can only reciprocate in the second ticket box 420. In the preferred embodiment of the present application, the second elastic member 423 is a spring, but the second elastic member 423 is not limited to a spring and may be a structure made of an elastic material.

After the ticket distributing plate 320 moves downwards to pass through the second ticket box inlet 421, the ticket 600 is pressed to the second ticket pressing plate 422, because the ticket 600 is made of paper and can be deformed to pass through the second ticket box inlet 421, the ticket distributing plate 320 and the second ticket pressing plate 422 clamp the ticket 600 to continuously move upwards, and finally the ticket 600 is far away from the second ticket box inlet 421, as shown in fig. 9, the process can compress the second elastic member 423; then the ticket board 320 moves in the opposite direction, so that the ticket board 320 moves downwards and returns to the initial position; the restoring force of the second elastic member 423 pushes the second ticket pressing plate 422 to move downwards, so that the ticket 600 finally stops below the second ticket box inlet 421, as shown in fig. 10, since the length and/or width of the ticket 600 and the second ticket pressing plate 422 are greater than the length and/or width of the second ticket box inlet 421, the ticket 600 cannot pass through the second ticket box inlet 421, and thus the process of entering the second ticket box 420 by the ticket 600 is completed.

Before the ticket 600 reaches the bin passageway 430, the ticket 600 information is detected by a detection module, which is electrically connected to the control module, for determining whether the ticket 600 should be placed in the first bin 410 or the second bin 420. In the preferred embodiment of the present application, as shown in fig. 2, the control module is a host computer system 700, and the detection module is a counterfeit detection structure, such as the RFID module 500 and/or the scanning module 230, capable of determining whether the bill 600 is authentic or not. The RFID module 500 is arranged below the ticket walking channel 200 and used for reading electronic tag information of the ticket 600; the scanning module 230 is disposed in the middle of the ticket passing channel 200 and is used for collecting the image of the ticket 600. After the information of the bill 600 is read, the detection module sends an electric signal to the control module, and after the control module receives the electric signal, the control module controls the moving direction of the bill separating structure 300.

If the bills 600 need to be stored according to the classification of the real bills and the false bills, the detection module can be of a false identification structure; it will of course be appreciated that the detection module is not limited to a genuineness detection configuration, for example requiring the ticket 600 to be stored in a category of check and deposit slip or in a category of my and other parties, and that the detection module may be of a corresponding other configuration.

For example, if the RFID module 500 detects that the ticket 600 should enter the first ticket box 410, the control module controls the ticket gate 320 to move away from the first ticket box 410, for example, to be temporarily located at the second ticket box inlet 421, as shown in fig. 4, in order to avoid the ticket 600 entering the ticket box channel 430, after the ticket 600 enters the ticket box channel 430, the control module controls the ticket gate 320 in the opposite direction, so that the ticket gate 320 presses the ticket 600 to move together into the first ticket box 410.

Similarly, if the RFID module 500 detects that the ticket 600 should enter the second ticket box 420, the control module controls the ticket distribution board 320 to move away from the second ticket box 420, for example, to be temporarily located at the first ticket box entrance 411, as shown in fig. 8, in order to avoid the ticket 600 entering the ticket box passage 430, and after the ticket 600 enters the ticket box passage 430, the control module controls the ticket distribution board 320 in the opposite direction, so that the ticket distribution board 320 presses the ticket 600 to move together into the second ticket box 420.

Further, as shown in fig. 1, the bill storage device further includes a bill deviation rectifying structure 210 for adjusting the direction of the bill 600, a transmission structure 220 for driving the bill 600 to move in the bill walking passage 200, and a thermal transfer printer 240 for printing the information on the bill surface of the bill 600.

The bill deviation rectifying structure 210 is disposed at the bill inlet 100, and is mainly used for adjusting the arrangement direction of the bills 600, so that the bills 600 are rectified to be parallel to the bill walking passage 200. The transmission structure 220 is arranged near the ticket passing channel 200 and extends in the same direction as the ticket passing channel 200, and the ticket 600 is driven by the transmission structure 220 to move forwards. The thermal transfer printer 240 is arranged at the final section of the ticket walking channel 200 and is used for printing the ticket surface information of the ticket 600.

The foregoing is only a preferred embodiment of the present invention, and many variations in the detailed description and the scope of the application may be made by those skilled in the art without departing from the spirit of the invention.

Claims (7)

1. A bill storage device comprises a bill inlet (100), a bill walking channel (200), a bill separating structure (300), a bill box assembly (400), a detection module for detecting information of bills (600) and a control module, and is characterized in that the bill walking channel (200) is arranged between the bill inlet (100) and the bill box assembly (400) and is communicated with the bill inlet (100) and the bill box assembly (400); the ticket box assembly (400) comprises a first ticket box (410) and a second ticket box (420), a ticket box channel (430) is arranged between the first ticket box (410) and the second ticket box (420), and the ticket distributing structure (300) is arranged in the ticket box channel (430); the ticket distributing structure (300) is electrically connected with the control module and pushes the ticket (600) into the first ticket box (410) or the second ticket box (420) under the control of the control module; the control module is also electrically connected with the detection module;

the first ticket box (410) and the second ticket box (420) are stacked up and down, or the first ticket box (410) and the second ticket box (420) are arranged side by side left and right;

the ticket distributing structure (300) comprises a driving component (310) and a ticket distributing plate (320) fixedly connected with the output end of the driving component (310), and the driving component (310) drives the ticket distributing plate (320) to pass through a first ticket box (410), a ticket box channel (430) and a second ticket box (420) in a reciprocating mode;

the driving assembly (310) comprises a motor (311) and a screw rod (312), an output shaft of the motor (311) is the screw rod (312), and the screw rod (312) is in threaded connection with one end of the ticket sorting plate (320);

the driving assembly (310) further comprises a sliding rail (313) and a sliding block (314) which are matched with each other, and the sliding block (314) is fixedly connected with the ticket board (320).

2. The bill storage device according to claim 1, wherein a first bill box inlet (411) and a second bill box inlet (421) for the bill separating plate (320) to pass through are respectively opened on the first bill box (410) and the second bill box (420), and the length and/or width of the first bill box inlet (411) and the second bill box inlet (421) are smaller than the length and/or width of the bill (600).

3. The document storage unit of claim 2, wherein the first and second cassette inlets (411, 421) each have a length and width greater than the length and width of the dispensing plate (320).

4. The bill storage device according to claim 2, wherein a first ticket pressing plate (412) and a first elastic member (413) are arranged in the first ticket box (410), two ends of the first elastic member (413) are fixedly connected with the first ticket box (410) and the first ticket pressing plate (412) respectively, and the length and/or width of the first ticket pressing plate (412) is larger than the length and/or width of the first ticket box inlet (411).

5. The note storage device according to claim 2, wherein a second note pressing plate (422) and a second elastic member (423) are arranged in the second note box (420), two ends of the second elastic member (423) are fixedly connected with the second note pressing plate (420) and the second note pressing plate (422) respectively, and the length and/or width of the second note pressing plate (422) is larger than that of the second note box inlet (421).

6. The bill storage device according to claim 1, wherein the detection module comprises an RFID module (500) and a scanning module (230), wherein the RFID module (500) is arranged below the bill walking channel (200), and the scanning module (230) is arranged in the middle of the bill walking channel (200).

7. The bill storage device according to claim 1, further comprising a deviation rectifying structure (210) for rectifying the direction of the bill (600), a transmission structure (220) for driving the bill (600) to move in the bill walking channel (200), and a thermal transfer printer (240) for printing the information of the bill (600) surface.

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