CN107170150B

CN107170150B - A device for bill is distinguished and is accomodate

Info

Publication number: CN107170150B
Application number: CN201710592092.0A
Authority: CN
Inventors: 蔡水钗; 吕响红; 赵子龙
Original assignee: Shenzhen Yihua Computer Co Ltd; Shenzhen Yihua Time Technology Co Ltd; Shenzhen Yihua Financial Intelligent Research Institute
Current assignee: Shenzhen Yihua Computer Co Ltd; Shenzhen Yihua Time Technology Co Ltd; Shenzhen Yihua Financial Intelligent Research Institute
Priority date: 2017-07-19
Filing date: 2017-07-19
Publication date: 2023-06-02
Anticipated expiration: 2037-07-19
Also published as: CN107170150A

Abstract

The invention discloses a device for bill identification and storage, and belongs to the technical field of financial equipment. The device for identifying and storing the bills comprises a control component, an identification part and a storage part, wherein the identification part is used for identifying the authenticity of information carried on the bills, and the control component controls the movement direction of the first transmission mechanism according to the authenticity of the bills, so that the true bills are transmitted to the storage part, and the false bills are withdrawn from the identification part. The ticket stacking mechanism can stack the valuable bills one by one into the storage box, the position of the ticket stacking mechanism is limited by the limit mechanism in the ticket stacking process, and the control assembly controls the movement of the second transmission mechanism according to the obtained position information, so that the ticket stacking precision is improved, and the valuable bills are prevented from being damaged due to errors in the ticket stacking process.

Description

A device for bill is distinguished and is accomodate

Technical Field

The invention relates to the technical field of financial equipment, in particular to a device for bill identification and storage.

Background

In the financial industry system, there are many valuable bills, including draft, check, principal ticket, deposit bill, etc., when dealing with various financial services, the valuable bills need to be identified, processed and stored, and the processing procedure of the valuable bills in the existing financial system is generally: the ticket is issued by the ticket issuing person, the ticket holder gives the ticket to financial institutions such as banks, staff of the financial institutions manually checks the financial seal, legal representative seal and prestored seal on the ticket, then pays the ticket holder, and the valuable ticket is stored in the storage box after being archived.

However, the manual identification and storage of the valuable bills is complicated in procedure, low in efficiency, and poor in experience, and a great deal of time is wasted when the customers transact business in the financial institutions. And as the existing forging technology is mature, the valuable bill is manually identified to occupy a great deal of manpower of a financial institution, and mistakes are easy to occur in the identification process due to human errors, thereby bringing unnecessary loss to the financial institution.

Disclosure of Invention

The invention aims to provide a device for identifying and containing notes, which has the functions of identifying and containing notes, can identify the authenticity of information carried on the notes in the identification process, can accurately control the note stacking precision and can prevent note damage caused by note stacking errors.

To achieve the purpose, the invention adopts the following technical scheme:

there is provided an apparatus for bill authentication and storage, comprising a control unit, an authentication section, and a storage section, wherein:

the identification part comprises a first transmission channel, an identification mechanism and a first transmission mechanism, wherein the first transmission mechanism can drive the bill to move along the first transmission channel, the identification mechanism is positioned on the first transmission channel and is used for identifying the authenticity of the bill, and the control component controls the first transmission mechanism according to the authenticity information of the bill;

the storage part comprises a second transmission channel, a second transmission mechanism, a ticket stacking mechanism, a limiting mechanism and a storage box, wherein the second transmission channel is communicated with the first transmission channel, the ticket stacking mechanism is positioned on the second transmission channel, the second transmission mechanism can drive the ticket stacking mechanism to stack the ticket into the storage box, the limiting mechanism is used for acquiring the position information of the ticket stacking mechanism, and the control assembly controls the second transmission mechanism according to the position information.

Preferably, the ticket stacking mechanism comprises a first ticket stacking roller and a second ticket stacking roller, wherein the first ticket stacking roller and the second ticket stacking roller are symmetrically arranged at the inlet of the second transmission channel and synchronously rotate in opposite directions to stack the tickets into the storage box.

Preferably, the first ticket stacking roller comprises a first rotating shaft, a first baffle plate and first tongue pieces, wherein the first baffle plate and the first tongue pieces are arranged at intervals along the axial direction of the first rotating shaft and are staggered along the circumferential direction; the second ticket stacking roller comprises a second rotating shaft, a second baffle plate and second tongue pieces, wherein the second baffle plate and the second tongue pieces are arranged at intervals along the axial direction of the second rotating shaft and are arranged in a staggered manner along the circumferential direction, the first baffle plate and the second baffle plate are symmetrically arranged, and the first tongue pieces and the second tongue pieces are symmetrically arranged;

the first baffle plate and the second baffle plate are used for bearing the bills, and the first tongue piece and the second tongue piece are used for pressing the bills in the storage box.

Preferably, the second transmission mechanism comprises a first driving mechanism, a synchronous belt assembly and a meshing reversing mechanism, two ends of the synchronous belt assembly are respectively connected with the first rotating shaft and the input end of the meshing reversing mechanism, the output end of the meshing reversing mechanism is connected with the second rotating shaft, and the first driving mechanism drives the first rotating shaft to rotate so as to drive the second rotating shaft to rotate opposite to the first rotating shaft.

Preferably, the limiting mechanism comprises a limiting sensor and a code disc, the code disc is fixedly mounted at one end of the first rotating shaft, the limiting sensor comprises a transmitting end and a receiving end, the transmitting end and the receiving end are arranged at two sides of the code disc, a plurality of code channels are uniformly distributed on the code disc along the circumferential direction, and light rays emitted by the transmitting end can penetrate through the code channels and are received by the receiving end.

Preferably, the ticket stacking device further comprises a ticket stacking mechanism, the ticket stacking mechanism comprises a ticket stacking sensor, a ticket stacking plate and a second driving mechanism, a guide groove is formed in the side wall of the storage box, the ticket stacking sensor is used for detecting the thickness of the ticket in the storage box, and after the thickness reaches a preset value, the second driving mechanism can drive the ticket stacking plate to move towards the bottom of the storage box along the guide groove.

Preferably, the authentication mechanism includes an image sensor for detecting image information on the bill and a magnetic sensor for detecting magnetic information on the bill.

Preferably, the discriminating portion further includes a deviation rectifying mechanism located at an entrance of the discriminating portion for moving the bill along the first conveying path.

Preferably, the first transmission mechanism comprises a transmission motor, a second synchronous belt, a second synchronous wheel and a transmission wheel, wherein the transmission motor is used for driving the second synchronous belt to rotate around the two second synchronous wheels, the transmission wheel is arranged between the two synchronous wheels and can synchronously move along with the second synchronous belt, and the transmission wheel is used for driving the bill to move along the first transmission channel.

Preferably, a plurality of correlation sensors are arranged on the first transmission channel at intervals, the correlation sensors are used for acquiring the position information of the bill in the first transmission channel, and the control assembly controls the start and stop of the identification mechanism and the first transmission mechanism according to the position information of the bill in the first transmission channel.

The invention has the beneficial effects that:

the device for identifying and storing the bills comprises a control component, an identification part and a storage part, wherein the first transmission mechanism is used for driving the bills to move along a first transmission channel to enter the storage part, the identification mechanism is used for identifying the authenticity of information carried on the bills in the transmission process, the control component controls the movement direction of the first transmission mechanism according to the authenticity of the bills, the true bills are transmitted to the storage part, and the false bills are withdrawn from the identification part. Through setting up the mechanism of stacking the ticket in the storage portion, can fold the bill of value one by one to the containing box in folding the ticket in-process, utilize stop gear to inject the position of mechanism of stacking the ticket, control assembly is according to the motion of the position information control second drive mechanism who obtains to be convenient for improve the precision of stacking the ticket, prevent to take place the error and cause the emergence of bill of value damage phenomenon in folding the ticket in-process. The device not only can realize the identification and the storage function of the valuable bills, but also can accurately control the bill stacking precision, and prevent bill damage caused by bill stacking errors.

Drawings

FIG. 1 is a schematic view of a device for bill identification and storage according to the present invention;

FIG. 2 is a schematic diagram of a stacking mechanism and a stacking mechanism according to the present invention;

FIG. 3 is a top view of a code wheel provided by the present invention;

fig. 4 is a side view of a code wheel provided by the present invention.

In the figure: 1. a bill; 2. an authentication mechanism; 201. an image sensor; 202. a magnetic sensor;

3. a first transmission mechanism; 301. a transmission motor; 302. a second timing belt; 303. a second synchronizing wheel; 304. a transfer wheel;

4. a second transmission mechanism; 401. a ticket stacking motor; 402. a third timing belt; 403. a fourth timing belt; 404. a third synchronizing wheel; 405. a fourth synchronizing wheel; 406. a fifth synchronizing wheel; 407. a first gear; 408. a second gear;

5. a limiting mechanism; 501. a limit sensor; 502. a code wheel; 5021. coding a channel;

6. a first stack of rollers; 601. a first rotation shaft; 602. a first baffle; 603. a first tongue;

7. a second stack of rollers; 701. a second rotation shaft; 702. a second baffle; 703. a second tongue;

8. a storage box; 9. a ticket stacking mechanism; 901. a ticket stacking motor; 902. stacking ticket plates; 903. a first synchronization belt; 904. a first synchronizing wheel; 10. a deviation correcting mechanism; 11. an correlation sensor.

Detailed Description

The technical scheme of the invention is further described below by the specific embodiments with reference to the accompanying drawings.

As shown in fig. 1, the present invention provides a device for bill authentication and storage, which includes a control unit, an authentication part, and a storage part. Specifically, the identification portion includes first transmission channel, identification mechanism 2 and first drive mechanism 3, and first drive mechanism 3 can drive bill 1 and remove along first transmission channel, and identification mechanism 2 is located on the first transmission channel for the true and false of bill 1 is distinguished, and control assembly is according to bill 1's true and false information control first drive mechanism 3.

The storage part comprises a second transmission channel, a second transmission mechanism 4, a ticket stacking mechanism, a limiting mechanism 5 and a storage box 8, wherein the second transmission channel is communicated with the first transmission channel, the ticket stacking mechanism is located on the second transmission channel, the second transmission mechanism 4 can drive the ticket stacking mechanism to stack the bills 1 into the storage box 8, the limiting mechanism 5 is used for acquiring position information of the ticket stacking mechanism, and the control assembly controls the second transmission mechanism 4 according to the position information.

The device has the functions of identifying the authenticity of the bill 1 and accommodating the bill 1, the bill 1 is driven by the first transmission mechanism to move along the first transmission channel, the authenticity of information carried on the bill is identified by the identification mechanism 2 in the transmission process, the control component controls the movement direction of the first transmission mechanism 3 according to the authenticity of the bill 1, the genuine bill 1 is transmitted to the second transmission channel, and the fake bill 1 reversely exits the identification part. After the identification function is finished, the bills 1 are stacked one by one into the storage box 8 by using the bill stacking mechanism, the position of the bill stacking mechanism is limited by using the limiting mechanism 5 in the bill stacking process, the position information is transmitted to the control component, and the control component controls the specific movement of the second transmission mechanism 4 according to the obtained position information, so that the bill stacking precision is improved, and the bill 1 damage phenomenon caused by the bill stacking error in the bill stacking process is prevented.

Specifically, the first transmission mechanism 3 includes a transmission motor 301, a second synchronous belt 302, a second synchronous wheel 303 and a transmission wheel 304, the transmission motor 301 is used for driving the second synchronous belt 302 to rotate around the two second synchronous wheels 303, the transmission wheel 304 is arranged between the two synchronous wheels 303 and can synchronously move along with the second synchronous belt 302, and the transmission wheel 304 is used for driving the bill 1 to move along the first transmission channel. The number of the transporting wheels 304 may be specifically set according to the specific situation, and in this embodiment, in order to facilitate fine control of the movement of the bill 1 on the first transporting path and to facilitate the authentication of the bill 1 by the authentication mechanism 2, the number of the transporting wheels 304 is set to three, namely, the first transporting wheel, the second transporting wheel and the third transporting wheel.

The authentication mechanism 2 specifically includes an image sensor 201 for detecting image information on the bill 1, and a magnetic sensor 202 for detecting magnetic information on the bill 1. When the bill 1 is put into the entrance of the identification part, the plane where the bill 1 is located has deviation with the direction of the first transmission channel, so that the ticket checking efficiency is seriously affected, and therefore, a deviation correcting mechanism 10 is further arranged in the identification part, and the deviation correcting mechanism 10 is positioned at the entrance of the identification part and is used for enabling the bill 1 to move along the first transmission channel. The deviation rectifying mechanism 10 is a paper sucking deviation rectifying motor.

A plurality of correlation sensors 11 are arranged on the first transmission channel at intervals, the correlation sensors 11 are used for acquiring the position information of the bill 1 in the first transmission channel, and the control assembly controls the start and stop of the identification mechanism 2 and the first transmission mechanism 3 according to the position information of the bill 1 in the first transmission channel. Specifically, the number of the correlation sensors 11 is four, the first correlation sensor is arranged at the entrance of the identification part and is used for detecting whether the bill 1 enters the identification part, and when the first correlation sensor detects that the bill 1 enters the identification part, the correction mechanism 10 is started to enable the bill 1 to enter the identification part according to a specific direction. The second correlation sensor is arranged at the inlet of the first transmission channel, when the second correlation sensor senses the front end of the bill 1, the transmission motor 301 is started, the first transmission wheel is driven to clamp the bill 1 to move along the first transmission channel, the identification mechanism 2 is arranged between the second correlation sensor and the third correlation sensor, and when the bill 1 passes through the identification mechanism 2, the image sensor 201 starts to scan and collect image information, and the magnetic sensor 202 collects magnetic information of the bill 1. After the identification mechanism 2 identifies that the bill 1 is true, the bill 1 continues to move forwards along the first transmission channel, and when the third correlation sensor is triggered, the second transmission wheel corresponding to the third correlation sensor clamps the bill 1 to move forwards. The fourth correlation sensor and the third transmission wheel are positioned at the junction of the first transmission channel and the second transmission channel, when the bill 1 passes through the identification mechanism 2 completely, the fourth correlation sensor is triggered, and at the moment, the bill is clamped by the third transmission wheel and enters the second transmission channel. If the bill 1 is identified as false by the identifying mechanism 2, the transport motor 301 is reversely started, so that the bill 1 reversely moves along the first transport path to exit the identifying part.

The notes 1 identified as true by the identifying mechanism 2 enter the stacking mechanism one by one, as shown in fig. 2, the stacking mechanism specifically comprises a first stacking roller 6 and a second stacking roller 7, and the first stacking roller 6 and the second stacking roller 7 are symmetrically arranged at the entrance of the second transmission channel and synchronously rotate in opposite directions to stack the notes 1 into the storage box 8. Specifically, the first ticket stacking roller 6 includes a first rotation shaft 601, a first baffle 602, and first tongues 603, and the first baffle 602 and the first tongues 603 are disposed at intervals along the axial direction of the first rotation shaft 601 and are staggered along the circumferential direction. The second ticket stacking roller 7 comprises a second rotating shaft 701, a second baffle 702 and a second tongue piece 703, the second baffle 702 and the second tongue piece 703 are arranged at intervals along the axial direction of the second rotating shaft 701, and are arranged alternately along the circumferential direction, the first baffle 602 and the second baffle 702 are symmetrically arranged, and the first tongue piece 603 and the second tongue piece 703 are symmetrically arranged.

In the process of stacking the tickets, the second transmission mechanism 4 drives the first rotating shaft 601 and the second rotating shaft 701 to rotate in opposite directions, so as to drive the first baffle 602 and the second baffle 702 to move in opposite directions, and the first tongue piece 603 and the second tongue piece 703 to move in opposite directions. In the present embodiment, the number of first baffles 602 is the same as the number of second baffles 702, and the number of first tongues 603 and second tongues 703 is the same.

The second transmission mechanism 4 comprises a first driving mechanism, a synchronous belt assembly and a meshing reversing mechanism, wherein two ends of the synchronous belt assembly are respectively connected with the first rotating shaft 601 and the input end of the meshing reversing mechanism, the output end of the meshing reversing mechanism is connected with the second rotating shaft 701, and the first driving mechanism drives the first rotating shaft 601 to rotate so as to drive the second rotating shaft 701 to rotate in opposite directions with the first rotating shaft 601.

Specifically, the first driving mechanism is a ticket stacking motor 401, the synchronous belt assembly includes a third synchronous belt 402, a fourth synchronous belt 403, a third synchronous wheel 404, a fourth synchronous wheel 405 and a fifth synchronous wheel 406, and the meshing reversing mechanism includes a first gear 407 and a second gear 408 that are meshed with each other. The ticket stacking motor 401 is connected with the third synchronous wheel 404, the fourth synchronous wheel 405 is coaxially arranged with the first rotary shaft 601, the second gear 408 is coaxially arranged with the second rotary shaft 701, the third synchronous wheel 404 and the fourth synchronous wheel 405 are driven by the third synchronous belt 402, the fourth synchronous wheel 405 and the fifth synchronous wheel 406 are driven by the fourth synchronous belt 403, the fifth synchronous wheel 406 and the first gear 407 are coaxially arranged, the first gear 407 and the second gear 408 are meshed with each other, and the ticket stacking motor 401 can drive the third synchronous wheel 404 to rotate, so as to drive the first rotary shaft 601 and the second rotary shaft 701 to rotate in opposite directions.

In the mechanism of stacking the ticket, first baffle 602 and second baffle 702 mainly used bear the both ends of bill 1, because first baffle 602 and second baffle 702 adopt hard material to make, can give bill 1 sufficient support to prevent that bill 1 directly from falling into containing box 8 and leading to stacking the ticket precision low, and scattered bill 1 occupation space at containing box 8 is big, difficult accomodate and preserve. The first tongue piece 603 and the second tongue piece 703 are used for pressing the bill 1 in the storage box 8, and since the first tongue piece 603 and the second tongue piece 703 are made of soft materials, the bill 1 is not easy to damage when the bill 1 is pressed. After stacking the notes 1 to the storage box 8 by the first shutter 602 and the second shutter 702, both ends of the notes 1 are pressed by the first tongue piece 603 and the second tongue piece 703, thereby preventing the notes 1 stacked together from scattering, affecting the stacking accuracy of the next notes 1. In order to prevent the first shutter 602 using hard materials from damaging the bill 1 while rotating around the first rotation axis 601, the length of the first shutter 602 is smaller than that of the first tongue 603, and the length of the second shutter 702 is smaller than that of the second tongue 703.

In order to improve the accuracy of the opposite rotation of the first rotation shaft 601 and the second rotation shaft 701, one end of the first rotation shaft 601 or one end of the second rotation shaft 701 is fixedly connected with a limiting mechanism 5, the limiting mechanism 5 comprises a limiting sensor 501 and a code disc 502 (as shown in fig. 3 and 4), the code disc 502 is fixedly installed at one end of the first rotation shaft, the limiting sensor 501 comprises a transmitting end and a receiving end, the transmitting end and the receiving end are arranged on two sides of the code disc 502, a plurality of code channels 5021 are uniformly distributed on the code disc 502 along the circumferential direction, and light rays emitted by the transmitting end can pass through the code channels 5021 and be received by the receiving end. In this embodiment, when the stacking mechanism stacks a bill 1 in the storage box 8, the stacking channel 5021 rotates by a specific angle, so as to trigger the limit sensor 501, and further maintain the stacking mechanism at a specific position, and wait for the next bill 1 to enter the stacking mechanism, so that the bill 1 is convenient to enter the stacking mechanism and then directly contact the first baffle 602 and the second baffle 702, contact between the bill 1 and the first tongue piece 603 and the second tongue piece 703 is prevented, and the first tongue piece 603 and the second tongue piece 703 cannot bear the bill 1 due to softer materials.

In order to improve the quantity of the bills 1 contained in the containing box 8 under the premise of ensuring the stacking precision, a bill stacking mechanism 9 is arranged in the containing box 8, the bill stacking mechanism 9 comprises a bill stacking sensor, a bill stacking plate 902 and a second driving mechanism, the second driving mechanism comprises a bill stacking motor 901, a first synchronous belt 903 and two first synchronous wheels 904, the bill stacking motor 901 and the first synchronous wheels 904 are fixedly arranged on the side wall of the containing box 8, the bill stacking motor 901 can drive the first synchronous belt 903 to rotate around the first synchronous wheels 904, a guide groove is formed in the side wall of the containing box, one end of the bill stacking plate 902 is fixedly connected with the first synchronous belt 903 and can synchronously move along with the first synchronous belt 903, the other end of the bill stacking plate passes through the guide groove to enter the containing box 8, the bill stacking plate 902 is parallel to the bottom surface of the containing box 8, the bill stacking sensor is used for detecting the thickness of the bills in the containing box, and after the bills are stacked to a set thickness, the control assembly controls the bill stacking motor 901 to drive the bill stacking plate 902 to move towards the bottom surface of the containing box 8. To facilitate the bill 1 to tilt toward the bottom of the storage box 8, the storage box 8 is tilted at an angle.

It is to be understood that the above examples of the present invention are provided for clarity of illustration only and are not limiting of the embodiments of the present invention. Other variations or modifications of the above teachings will be apparent to those of ordinary skill in the art. It is not necessary here nor is it exhaustive of all embodiments. Any modification, equivalent replacement, improvement, etc. which come within the spirit and principles of the invention are desired to be protected by the following claims.

Claims

1. A device for bill identification and storage, comprising a control assembly, an identification portion and a storage portion, wherein:

the identification part comprises a first transmission channel, an identification mechanism (2) and a first transmission mechanism (3), wherein the first transmission mechanism (3) can drive the bill (1) to move along the first transmission channel, the identification mechanism (2) is positioned on the first transmission channel and is used for identifying the authenticity of the bill (1), and the control component controls the first transmission mechanism (3) according to the authenticity information of the bill (1);

the storage part comprises a second transmission channel, a second transmission mechanism (4), a ticket stacking mechanism, a limit mechanism (5) and a storage box (8), wherein the second transmission channel is communicated with the first transmission channel, the ticket stacking mechanism is positioned on the second transmission channel, the second transmission mechanism (4) can drive the ticket stacking mechanism to stack the bills (1) into the storage box (8), the limit mechanism (5) is used for acquiring position information of the ticket stacking mechanism, the control assembly controls the second transmission mechanism (4) according to the position information, the ticket stacking mechanism comprises a first ticket stacking roller (6) and a second ticket stacking roller (7), the first ticket stacking roller (6) and the second ticket stacking roller (7) are symmetrically arranged at an inlet of the second transmission channel and synchronously rotate in opposite directions to stack the bills (1) into the storage box (8), the first ticket stacking roller (6) comprises a first rotating shaft (601), a first tongue piece (602) and a first baffle (603) which are arranged along the axial direction, and the first baffle (603) is arranged at intervals along the axial direction; the second ticket stacking roller (7) comprises a second rotating shaft (701), a second baffle (702) and second tongues (703), wherein the second baffle (702) and the second tongues (703) are arranged at intervals along the axial direction of the second rotating shaft (701) and are arranged in a staggered manner along the circumferential direction, the first baffle (602) and the second baffle (702) are symmetrically arranged, and the first tongues (603) and the second tongues (703) are symmetrically arranged; the first baffle (602) and the second baffle (702) are used for bearing the bill (1), the first tongue piece (603) and the second tongue piece (703) are used for pressing the bill (1) in the storage box (8), the limiting mechanism (5) comprises a limiting sensor (501) and a code disc (502), the code disc (502) is fixedly arranged at one end of the first rotating shaft (601), the limiting sensor (501) comprises a transmitting end and a receiving end, the transmitting end and the receiving end are arranged at two sides of the code disc (502), a plurality of code channels (5021) are uniformly distributed on the code disc (502) along the circumferential direction, and light rays emitted by the transmitting end can pass through the code channels (5021) to be received by the receiving end;

the second transmission mechanism (4) comprises a first driving mechanism, a synchronous belt assembly and a meshing reversing mechanism, two ends of the synchronous belt assembly are respectively connected with a first rotating shaft (601) and an input end of the meshing reversing mechanism, an output end of the meshing reversing mechanism is connected with a second rotating shaft (701), and the first driving mechanism drives the first rotating shaft (601) to rotate so as to drive the second rotating shaft (701) to rotate in opposite directions with the first rotating shaft (601).

2. The device for bill identification and storage according to claim 1, further comprising a bill stacking mechanism (9), wherein the bill stacking mechanism (9) comprises a bill stacking sensor, a bill stacking plate (902) and a second driving mechanism, a guide groove is arranged on the side wall of the storage box (8), the bill stacking sensor is used for detecting the thickness of the bill (1) in the storage box (8), and when the thickness reaches a preset value, the second driving mechanism can drive the bill stacking plate (902) to move towards the bottom of the storage box (8) along the guide groove.

3. The device for ticket authentication and storage according to claim 1, characterized in that the authentication mechanism (2) comprises an image sensor (201) and a magnetic sensor (202), the image sensor (201) being adapted to detect image information on the ticket (1), the magnetic sensor (202) being adapted to detect magnetic information on the ticket (1).

4. The device for ticket authentication and storage according to claim 1, characterized in that said authentication section further comprises a deviation correcting mechanism (10), said deviation correcting mechanism (10) being located at the entrance of said authentication section for moving said ticket (1) along said first transport path.

5. The device for bill identification and storage according to claim 1, characterized in that the first transmission mechanism (3) comprises a transmission motor (301), a second synchronous belt (302), a second synchronous wheel (303) and a transmission wheel (304), the transmission motor (301) is used for driving the second synchronous belt (302) to rotate around the two second synchronous wheels (303), the transmission wheel (304) is arranged between the two synchronous wheels (303) and can synchronously move along with the second synchronous belt (302), and the transmission wheel (304) is used for driving the bill (1) to move along the first transmission channel.

6. The device for bill identification and storage according to claim 1, wherein a plurality of correlation sensors (11) are arranged on the first transmission channel at intervals, the correlation sensors (11) are used for acquiring the position information of the bill (1) in the first transmission channel, and the control component controls the start and stop of the identification mechanism (2) and the first transmission mechanism (3) according to the position information of the bill (1) in the first transmission channel.