CN218939004U - Intelligent certificate keeping equipment - Google Patents

Abstract

The utility model discloses an intelligent certificate keeping device, which comprises: a housing provided with a passport reader; the hinge mechanism is used for folding the passport, and the passport reader is arranged right above the hinge mechanism; the card feeding mechanism is used for conveying the passport from the deposit port to the hinge mechanism, the card feeding mechanism is fixed with the shell, the card feeding mechanism is arranged at the front end of the hinge mechanism, the gate is arranged at the front end of the card feeding mechanism, and the card feeding mechanism is arranged in the shell; a container for storing a passport, the container being disposed within the housing; and the stacking mechanical arm is used for storing the passport folded on the hinge mechanism into the container or taking out the passport on the container and putting the passport into the take-out port. The utility model provides intelligent certificate keeping equipment which can automatically store and fold certificates, and the certificates are scanned and folded and stored in a machine, so that the problem that an operator can unpack the certificates between scanned certificates and stored certificates is prevented.

Description

Intelligent certificate keeping equipment

Technical Field

The utility model relates to the technical field of license access equipment, in particular to intelligent license storage equipment.

Background

With the improvement of the opening of China, the life quality of national economy is greatly improved, government enterprises and institutions are obviously increased due to the fact that personnel in the country (border) are private, so that the workload of management personnel is also greatly increased, meanwhile, the existing offline entry and exit management is gradually unable to adapt to the requirements of the entry and exit management business development in the aspects of license preservation and management, license information retrieval, approval, safety guarantee capability and the like, so that in order to further improve the entry and exit management work efficiency, convenience service is provided for the relevant personnel in the country, refined management is practically enhanced, and a set of automatic, standardized and systematic management system is developed and designed due to the fact that the private country is strictly in a hot spot and direction of research. The certificate scanning detection module of the certificate access device in the prior art is arranged outside the device and is independently completed by the applicant. After the document is scanned, the document is sent to the device by the applicant for storage. There is no way to prevent the applicant from reconciling the certificates. In order to prevent the problem that the applicant unpacks the certificate between the scanned certificate and the stored certificate, the application designs an intelligent certificate safekeeping device which can automatically store and recognize the certificate and keep the certificate.

Chinese patent application publication No. CN214226004U, publication No. 2021, year 09, month 17, entitled "intelligent certificate safekeeping cabinet", discloses an intelligent certificate safekeeping cabinet, which is equipped with a processor, a peripheral interface, a display feedback module, a storage control unit, a memory, a camera, a fingerprint acquisition unit, a bar code reader, a cabinet module, and an identity card information acquisition unit. The identity information of the evidence storage/acquisition personnel is collected and verified through image recognition, fingerprint recognition, bar code recognition and NFC data transmission, so that the background automatic management and verification of the identity information of the personnel are facilitated; through installing this certificate box, card formula certificate box, deposit the card case in batches, deposit the setting of the cabinet case module of card case in batches, the access information of convenient backstage management certificate. However, the certificate scanning and detecting module of the safe deposit cabinet is arranged outside the equipment, and the problem of certificate unpacking still exists.

Disclosure of Invention

The utility model aims to solve the problem that a certificate scanning detection module of a certificate access device in the prior art is arranged outside the device, and an applicant transfers a certificate between a scanned certificate and a stored certificate.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

an intelligent certificate keeping device, comprising:

a housing provided with a passport reader;

a folding mechanism for lifting the passport to facilitate scanning of the passport by the passport reader, the folding mechanism folding the passport after scanning of the passport reader, the passport reader disposed directly above the folding mechanism, the folding mechanism disposed within the housing;

a passport input mechanism for conveying the passport from the deposit port to the folding mechanism, the passport input mechanism being fixed to the housing, the passport input mechanism being provided at a front end of the folding mechanism, the gate being provided at a front end of the passport input mechanism, the passport input mechanism being provided within the housing;

a container for storing a passport, the container being disposed within the housing;

and the stacking mechanical arm is used for storing the passport folded by the folding mechanism into the container or taking out the passport on the container and putting the passport into the take-out opening.

In the technical scheme, the shell comprises a shell and a frame, wherein a passport gate for storing a passport and a taking-out port for taking out the passport are arranged on the shell; the frame is provided with a passport reader; the frame is arranged in the shell and is fixed with the shell. The entry end of the passport input mechanism is aligned with the gate of the license accessor. The method comprises the steps that an applicant clicks and stores a license on a screen of a license storage machine, a corresponding number of a license bin is input, face recognition is confirmed through a rear electronic signature, a gate is opened, when the applicant plugs the license into the gate, the opposite-incidence type photoelectric sensor detects the license, the license is pressed tightly by a passport input mechanism and is conveyed to a folding mechanism, the reflective type photoelectric sensor detects the license in place, and the folding mechanism enables the license to rise and to be detected close to a scanning detection module. After detection, the folding mechanism closes the license, the stacking mechanical arm takes away the license, the license is stored on the container, and when the license needs to be taken away, the stacking mechanism takes down the corresponding license from the container and puts the corresponding license into the take-out port. The mechanism can automatically store and fold the license, the license is opened when the license is stored, the license is stored in the machine, then the license is scanned in the machine, and the license is directly folded and stored in the machine. The problem that an operator unpacks the certificate between the scanned certificate and the stored certificate is prevented. The front end is the end of the passport input mechanism near the inlet, and the rear end is the end of the passport input mechanism near the outlet.

Preferably, the card input mechanism comprises a fixed bracket, a card driver, a plurality of card rollers and a card pinch roller, wherein the card rollers and the card pinch roller are respectively connected with the fixed bracket in a rotating way, the card rollers are arranged side by side along the card feeding direction, the card rollers are sequentially connected through a synchronous belt, the card driver drives one of the card rollers to rotate, the card rollers and the card pinch roller clamp a card, a card gate is arranged on a shell, and the card input mechanism is arranged at the rear end of the card gate and fixed with the shell.

In the technical scheme, the card driver is a motor. The applicant clicks to deposit the card, inputs the corresponding bin number of the card, and the face recognition is confirmed through the rear electronic signature, when the applicant plugs the card into the card gate, the card roller and the card pinch roller convey the card to the card lifting assembly.

Preferably, the card gate is provided with an electronic lock. And the face recognition is confirmed by the post electronic signature, and the card gate electronic lock is activated.

Preferably, the card pinch roller is fixed on a connecting shaft, the connecting shaft is in sliding connection with the fixed support along the vertical direction, and a compression spring for enabling the connecting shaft to compress downwards is arranged on the connecting shaft. The structure can enable the card pinch roller to have a certain vertical floating space.

Preferably, the card lifting assembly comprises a card lifting driving member and a card lifting plate, wherein the card lifting plate is arranged at the rear end of the card input mechanism and drives the card to lift, and the card lifting plate is arranged under the passport reader and is fixed with the shell. The card lifting assembly may be used to lift the card into close proximity with the passport reader for scanning.

Preferably, the folding mechanism comprises a lifting mechanism, a lifting table, a fixing plate, a turnover plate and a first turnover driving piece, wherein the lifting mechanism is fixed with the shell, the lifting mechanism drives the lifting table to move up and down, the fixing plate is fixed with the lifting table, one end of the turnover plate is hinged with the fixing plate, and the first turnover driving piece drives the turnover plate to rotate around the hinge shaft.

In the above technical scheme, elevating system is motor drive's feed screw nut mechanism, and first upset driving piece includes motor and connecting rod, and connecting rod one end and motor output shaft connect, and the other end and the upset board of connecting rod are articulated, and the motor is fixed with the fixed plate, rotates through motor drive connecting rod, drives the upset board upset. The folding mechanism can lift and fold the passport, the scanning detection module which enables the passport to be close to the passport detects the passport through the lifting platform, the lifting platform descends by a certain height after the passport passes detection, and then the passport is folded, so that the passport is convenient for subsequent storage.

Preferably, the passport input mechanism comprises a lower conveying mechanism and an upper conveying mechanism, wherein the lower conveying mechanism comprises a lower roller and a conveying driving piece, the conveying driving piece is fixed with the shell, and the conveying driving piece drives the lower roller to rotate; the upper conveying mechanism comprises a lifting frame, a pressing mechanism and an upper pressing wheel, the pressing mechanism is fixed with the shell, the pressing mechanism drives the lifting frame to move up and down, the upper pressing wheel is rotationally connected with the lifting frame, and the upper pressing wheel and the lower roller compress the passport.

When the applicant plugs the passport into the gate, the opposite-type photoelectric sensor detects the passport, the lower pressing mechanism drives the lifting frame to descend, the upper pressing wheel and the lower roller press the passport, and then the conveying driving piece drives the lower roller to rotate, so that the passport moves inwards.

Preferably, the number of the lower rollers is a plurality, and the plurality of lower rollers are connected through a belt. The structure can ensure the conveying stability.

Preferably, the lifting frame comprises an upper connecting frame, a lower fixing frame and a telescopic spring, the upper connecting frame is in vertical sliding connection with the lower fixing frame, the telescopic spring is arranged between the upper connecting frame and the lower fixing frame, the upper connecting frame is connected with the lower pressing mechanism, and the upper pressing wheel is arranged on the lower fixing frame. The structure can ensure the conveying stability.

Preferably, the passport input mechanism is provided with a document feeding detection mechanism. The certificate entering detection mechanism is an emission type photoelectric sensor.

The beneficial effects of the utility model are as follows: (1) The automatic certificate storing and folding can be carried out, the certificate scanning and the folding storing are carried out in the machine, and the problem that an operator transfers certificates between the scanned certificates and the stored certificates is prevented; (2) Before detection, the second limiting plate is opened, so that personal information can be prevented from being blocked; (3) The upper pressing wheel and the lower roller synchronously rotate under the action of the same driving piece, and the synchronous effect of the upper pressing wheel and the lower roller is not affected even if the lifting frame of the synchronous mechanism moves up and down; (4) When the license is basically separated from the passport input mechanism, the pushing mechanism pushes the license again, so that the license can be ensured to completely enter the folding mechanism; (5) The error-proof blocking mechanism can prevent a depositor from placing unopened license into the gate, and can ensure that the column is deposited in a correct direction.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic view of a partial structure of the present utility model;

FIG. 3 is a schematic structural view of a folding mechanism;

FIG. 4 is a first schematic view of the passport input mechanism;

FIG. 5 is a second schematic view of the passport input mechanism;

FIG. 6 is a schematic structural view of a card input mechanism;

FIG. 7 is a schematic view of the card lift assembly;

fig. 8 is a schematic structural diagram of embodiment 3.

In the figure: frame 1, folding mechanism 2, lifting mechanism 2.1, lifting table 2.2, fixing plate 2.3, turning plate 2.4, first turning driving piece 2.5, first limiting plate 2.6, second limiting plate 2.7, second turning driving piece 2.8, positioning plate 2.9, passport input mechanism 3, lower conveying mechanism 3.1, lower roller 3.1.1, conveying driving piece 3.1.2, upper conveying mechanism 3.2, lifting frame 3.2.2, lower pressing mechanism 3.2.3, upper pressing wheel 3.2.4, upper connecting frame 3.2.5, lower fixing frame 3.2.6, extension spring 3.2.7, synchronizing mechanism 3.3, driving gear 3.3.1, first transfer gear 3.3.2, second transfer gear 3.3.3, driven gear 3.3.4, connecting rod 3.3.5, fixing case 3.3.6, lower pressing mechanism 3.2.3, upper pressing wheel 3.2.4, driving gear 3.3.5, connecting rod 3.3.5, and upper driving gear 3.6 the card reader comprises a pushing mechanism 3.4, a pushing plate 3.4.1, a pushing driving piece 3.4.2, an error-proof blocking mechanism 4, a blocking plate 4.1, a detection block 4.2, a reset spring 4.3, a limiting block 4.4, a guide inclined plane 4.5, a license reader 5, a shell 6, a card gate 6.3, an electronic lock 6.4, a container 7, a stacking mechanical arm 8, a card input mechanism 9, a fixed support 9.1, a card driver 9.2, a card roller 9.3, a card pinch roller 9.4, a synchronous belt 9.5, a tail end pressing structure 9.6, a pressing roller support 9.6.1, a pressing roller 9.6.2, a pressing driving piece 9.6.3, a connecting shaft 9.7, a pressing spring 9.8, a card lifting assembly 10, a card lifting driving piece 10.1 and a card lifting plate 10.2.

Detailed Description

The utility model is further described below with reference to the drawings and specific embodiments.

Example 1:

as shown in fig. 1 and 2, an intelligent certificate keeping device comprises a shell, a folding mechanism 2, a passport input mechanism 3, a container 7 and a stacking mechanical arm 8, wherein a certificate gate for storing a certificate and a certificate taking-out port for taking out the certificate are arranged on the shell 6; the frame 1 is provided with a license reader 5, and the shell comprises a shell 6, the frame 1 and the license reader 5 which are arranged right above the folding mechanism 2. The folding mechanism 2 is used for lifting the license and conveniently scanning, and the license is folded after scanning, as shown in fig. 3, the folding mechanism 2 comprises a lifting mechanism 2.1, a lifting table 2.2, a fixed plate 2.3, a turnover plate 2.4 and a first turnover driving piece 2.5, the lifting mechanism 2.1 is fixed with the frame 1, the lifting mechanism 2.1 drives the lifting table 2.2 to move up and down, the fixed plate 2.3 is fixed with the lifting table 2.2, one end of the turnover plate 2.4 is hinged with the fixed plate 2.3, and the first turnover driving piece 2.5 drives the turnover plate 2.4 to rotate around a hinge shaft. A first limiting plate 2.6 is arranged above the overturning plate 2.4, a gap for storing the license is arranged between the first limiting plate 2.6 and the overturning plate 2.4, and one end of the first limiting plate 2.6 is fixed with the overturning plate 2.4; the fixed plate 2.3 top is equipped with second limiting plate 2.7, is equipped with the clearance that is used for depositing the license between second limiting plate 2.7 and the fixed plate 2.3, and second limiting plate 2.7 one end is articulated with fixed plate 2.3, is equipped with second upset driving piece 2.8 on the fixed plate 2.3, and second upset driving piece 2.8 drive second limiting plate 2.7 rotates around the articulated shaft. The fixed plate 2.3 is provided with a proximity switch for detecting the position of the second limiting plate 2.7. The end of the lifting platform 2.2 remote from the passport input mechanism 3 is provided with a locating plate 2.9.

As shown in fig. 4 and 5, the passport input mechanism 3 is configured for conveying a license from a deposit port to the folding mechanism 2, the passport input mechanism 3 being fixed to the frame 1, and the passport input mechanism 3 being provided at the front end of the folding mechanism 2. The passport input mechanism 3 comprises a lower conveying mechanism 3.1 and an upper conveying mechanism 3.2, the lower conveying mechanism 3.1 comprises a lower roller 3.1.1 and a conveying driving piece 3.1.2, the conveying driving piece 3.1.2 is fixed with the frame 1, and the conveying driving piece 3.1.2 drives the lower roller 3.1.1 to rotate; the upper conveying mechanism 3.2 comprises a lifting frame 3.2.2, a pressing mechanism 3.2.3 and an upper pressing wheel 3.2.4, wherein the pressing mechanism 3.2.3 is fixed with the frame 1, the pressing mechanism 3.2.3 drives the lifting frame 3.2.2 to move up and down, the upper pressing wheel 3.2.4 is rotationally connected with the lifting frame 3.2.2, and the upper pressing wheel 3.2.4 and the lower pressing wheel 3.1.1 compress the license. The number of the lower rollers 3.1.1 is a plurality, and the lower rollers 3.1.1 are connected through belts. The number of the upper pinch rollers 3.2.4 is multiple, and the upper pinch rollers 3.2.4 are connected through belts. The lifting frame 3.2.2 comprises an upper connecting frame 3.2.5, a lower fixing frame 3.2.6 and a telescopic spring 3.2.7, wherein the upper connecting frame 3.2.5 is vertically and slidably connected with the lower fixing frame 3.2.6, the telescopic spring 3.2.7 is arranged between the upper connecting frame 3.2.5 and the lower fixing frame 3.2.6, the upper connecting frame 3.2.5 is connected with the lower pressing mechanism 3.2.3, and the upper pressing wheel 3.2.4 is arranged on the lower fixing frame 3.2.6. The passport input mechanism 3 is provided with a entering-certificate detecting mechanism.

The passport input mechanism 3 further comprises a synchronizing mechanism 3.3 and a propelling mechanism 3.4, as shown in fig. 5, the synchronizing mechanism 3.3 comprises a driving gear 3.3.1, a first transmitting gear 3.3.2, a second transmitting gear 3.3.3, a driven gear 3.3.4, a connecting rod 3.3.5 and a fixed shell 3.3.6, the driving gear 3.3.1, the first transmitting gear 3.2, the second transmitting gear 3.3.3 and the driven gear 3.3.4 are meshed in sequence, the driving gear 3.3.1 is coaxially connected with the lower idler wheel 3.1.1, the first transmitting gear 3.3.2 is rotatably connected with the frame 1, the second transmitting gear 3.3.3 is rotatably connected with the fixed shell 3.3.6, the driven gear 3.3.4 is coaxially connected with the upper pinch roller 3.2.4, the fixed shell 3.3.6 is rotatably connected with the driven gear 3.3.4, one end of the connecting rod 3.3.5 is hinged with the frame 1, and the other end of the connecting rod 3.3.3.5 is hinged with the fixed shell 3.3.6; the rotation axis of the first transmission gear 3.3.2 is a first rotation axis, the rotation axis of the second transmission gear 3.3.3 is a second rotation axis, the rotation axis of the driven gear 3.3.4 is a third rotation axis, the rotation axis of the fixed shell 3.3.6 and the rotation connection of the driven gear 3.3.4 is a fourth rotation axis, the hinge axis of the connecting rod 3.3.5 and the frame 1 is a first hinge axis, the hinge axis of the connecting rod 3.3.5 and the fixed shell 3.3.6 is a second hinge axis, the first rotation axis is overlapped with the first hinge axis, the second rotation axis is overlapped with the second hinge axis, and the third rotation axis is overlapped with the fourth rotation axis. As shown in fig. 4, the pushing mechanism 3.4 includes a pushing plate 3.4.1 and a pushing driving member 3.4.2, the upper end of the pushing plate 3.4.1 is hinged with the lifting frame 3.2.2, the pushing driving member 3.4.2 drives the pushing plate 3.4.1 to rotate around the hinge shaft, and the pushing plate 3.4.1 is disposed at a position of the passport input mechanism 3 near the exit. The propulsion driving piece 3.4.2 comprises a push rod motor, one end of the push rod motor is hinged with the lifting frame 3.2.2, and the other end of the push rod motor is hinged with the push plate 3.4.1. When the license is basically separated from the passport input mechanism 3, the pushing mechanism 3.4 pushes the license again, so that the license can be completely entered into the folding mechanism 2.

The counter 7 is used for storing the license, and the counter 7 is arranged in the shell 6; the container 7 is fixed to the housing 6. The stacking mechanical arm 8 is used for storing the license folded on the folding mechanism 2 into the container 7, or taking out the license on the container 7 and putting the license into the taking-out port, and the stacking mechanical arm 8 is fixed with the shell 6.

In the above technical solution, the frame 1 is fixed inside the license accessing machine, and the inlet end of the passport input mechanism 3 is aligned with the gate of the license accessing machine. The applicant clicks on the screen of the license storing and taking machine to store the license, the corresponding number of the license bin is input, the face recognition is confirmed through the rear electronic signature, the gate is opened, when the applicant plugs the license into the gate, the opposite-type photoelectric sensor detects the license, the passport input mechanism 3 compresses the license and conveys the license to the folding mechanism 2, the reflective photoelectric sensor detects the license in place, and the folding mechanism 2 enables the license to rise and is close to the scanning detection module for detection. After detection, the folding mechanism 2 closes the license, and the mechanical arm takes away the license for storage. The mechanism can automatically store and fold the license, the license is opened when the license is stored, the license is stored in the machine, then the license is scanned in the machine, and the license is directly folded and stored in the machine. The problem that an operator unpacks the certificate between the scanned certificate and the stored certificate is prevented. When the folding mechanism 2 rises to be close to the scanning detection module, the second limiting plate 2.7 is opened, after the second limiting plate 2.7 is opened, the license cannot be closed because the license is close to the scanning detection module, the second limiting plate 2.7 is opened to prevent the license from being closed, then the license is continuously made to rise, detection is carried out, one side of the second limiting plate 2.7 is a personal information page of the license, and the second limiting plate 2.7 is opened to avoid personal information from being blocked. The front end is the end of the passport input mechanism 3 near the entrance, and the rear end is the end of the passport input mechanism 3 near the exit.

Example 2:

as shown in fig. 2 and 6, on the basis of embodiment 1, the card input mechanism 9 further comprises a card input mechanism 9, the card input mechanism 9 comprises a fixed bracket 9.1, a card driver 9.2, a plurality of card rollers 9.3, a card pressing wheel 9.4 and a terminal pressing structure 9.6, the card rollers 9.3 and the card pressing wheel 9.4 are respectively and rotatably connected with the fixed bracket 9.1, the plurality of card rollers 9.3 are arranged side by side along the card feeding direction, the plurality of card rollers 9.3 are sequentially connected through a synchronous belt 9.5, the card driver 9.2 drives one of the card rollers 9.3 to rotate, the card rollers 9.3 and the card pressing wheel 9.4 clamp a card, a card gate 6.3 is arranged on the shell 6, the card input mechanism 9 is arranged at the rear end of the card gate 6.3, and the fixed bracket 9.1 is fixed with the frame 1. The terminal pressing structure 9.6 comprises a pressing roller support 9.6.1, a pressing roller 9.6.2 and a pressing driving member 9.6.3, wherein the pressing roller support 9.6.1 is arranged at the outlet end of the card input mechanism 9, the pressing roller support 9.6.1 is hinged with the fixed support 9.1, the pressing roller 9.6.2 is rotatably connected with the pressing roller support 9.6.1, and the pressing driving member 9.6.3 drives the pressing roller support 9.6.1 to rotate. The card pinch roller 9.4 is fixed on the connecting shaft 9.7, the connecting shaft 9.7 is in sliding connection with the fixed support 9.1 along the vertical direction, and the connecting shaft 9.7 is provided with a compression spring 9.8 which enables the connecting shaft 9.7 to compress downwards. An electronic lock 6.4 is arranged on the card gate 6.3.

As shown in fig. 7, the card lifting assembly 10 further comprises a card lifting driving member 10.1 and a card lifting plate 10.2, wherein the card lifting plate 10.2 is arranged at the rear end of the card input mechanism 9, the card lifting driving member 10.1 drives the card to lift, the card lifting plate 10.2 is arranged under the license reader 5, and the lifting driving member is fixed with the frame 1. The card lifting assembly 10 may scan the card by lifting it into close proximity to the license reader 5.

In the above technical solution, the card driver 9.2 is a motor. The applicant clicks to deposit the card, inputs the corresponding bin number of the card, and the face recognition is confirmed through the rear electronic signature, when the applicant plugs the card into the card gate 6.3, and the card roller 9.3 and the card pinch roller 9.4 convey the card to the card lifting assembly 10. The end pressing structure 9.6 is partially overlapped with the card lifting assembly 10, so that the card can be completely conveyed to the card lifting assembly 10, then the pressing driving piece 9.6.3 drives the pressing roller support 9.6.1 to rotate, the pressing roller 9.6.2 is tilted, and interference between the card lifting assembly 10 and the pressing roller 9.6.2 is avoided.

Example 3:

as shown in fig. 8, on the basis of embodiment 1, the inlet end of the passport input mechanism 3 is provided with an error-proof blocking mechanism 4, the error-proof blocking mechanism 4 includes a blocking plate 4.1, two detection blocks 4.2 and two return springs 4.3, one of the upper end and the lower end of the blocking plate 4.1 is hinged to the frame 1, the two detection blocks 4.2 are respectively disposed at two opposite sides of the lateral position of the blocking plate 4.1, the detection blocks 4.2 are transversely slidably connected with the frame 1, the sliding direction of the detection blocks 4.2 is perpendicular to the license moving direction, one end of the return springs 4.3 is connected with the corresponding detection blocks 4.2, the other end of the return springs 4.3 is connected with the frame 1, a limiting block 4.4 is disposed at the rear end of the detection blocks 4.2, the limiting block 4.4 is disposed at the rear of the blocking plate 4.1 and the front end of the detection blocks 4.2 is provided with a guiding inclined plane 4.5.

The error-proofing blocking mechanism 4 can prevent a depositor from placing unopened licenses into the gate, can also prevent the licenses from being transversely placed, is different in transverse length between the opening and the unopened of the licenses, is different in length and width, and can be normally stored and detected only if the licenses are opened and transversely placed. When the license is not opened, the width of the license cannot meet the requirement, at least one of the two detection blocks 4.2 cannot be pushed, the stop block 4.4 can be used for placing the stop plate 4.1 to rotate, and at the moment, the license is blocked by the stop plate 4.1 and cannot enter the passport input mechanism 3. When the license is opened and stored in the correct direction, the two sides of the license just contact with the guide inclined plane 4.54.5 of the detection block 4.2, so that the detection block 4.2 moves transversely, the two limiting blocks 4.4 are far away from the blocking plate 4.1, the blocking plate 4.1 can rotate at this time, and the license can enter the passport input mechanism 3 through the blocking plate 4.1. The structure does not need a complex photoelectric detection or image recognition mechanism, can avoid misplacement through simple width detection, and the error-proofing blocking mechanism 4 has the advantages of simple structure, low cost, strong reliability and the like.

The beneficial effects of the utility model are as follows: (1) The automatic certificate storing and folding can be carried out, the certificate scanning and the folding storing are carried out in the machine, and the problem that an operator transfers certificates between the scanned certificates and the stored certificates is prevented; (2) Before detection, the second limiting plate 2.7 is opened, so that personal information can be prevented from being blocked; (3) The upper pinch roller 3.2.4 and the lower roller 3.1.1 synchronously rotate under the action of the same driving piece, and even if the synchronous mechanism 3.3 lifting frame 3.2.2 moves up and down, the synchronous effect of the upper pinch roller 3.2.4 and the lower roller 3.1.1 is not affected; (4) When the license is basically separated from the passport input mechanism 3, the pushing mechanism 3.4 pushes the license again, so that the license can be ensured to completely enter the folding mechanism 2; (5) The error-proofing blocking mechanism 4 can prevent the depositor from placing unopened license into the gate and can ensure that the column is deposited in the correct direction.

Claims (10)

1. The utility model provides a license intelligence custody equipment which characterized in that includes:

a housing provided with a passport reader;

a folding mechanism (2) for lifting the passport to facilitate the scanning of the passport by the passport reader, the folding mechanism (2) folding the passport after the scanning of the passport reader, the passport reader being disposed directly above the folding mechanism (2), the folding mechanism (2) being disposed within the housing;

a passport input mechanism (3) for conveying a passport from a deposit port to the folding mechanism (2), the passport input mechanism (3) being fixed to the housing, the passport input mechanism (3) being provided at a front end of the folding mechanism (2), the gate being provided at a front end of the passport input mechanism (3), the passport input mechanism (3) being provided in the housing;

a container (7) for storing a passport, the container (7) being disposed within the housing;

and a stacking robot arm (8) for storing the passport folded by the folding mechanism (2) in the container (7) or taking out the passport from the container (7) to the take-out port.

2. The license intelligent custody device according to claim 1, further comprising a card input mechanism (9), wherein the card input mechanism (9) comprises a fixed support (9.1), a card driver (9.2), a plurality of card rollers (9.3) and card pinch rollers (9.4), the card rollers (9.3) and the card pinch rollers (9.4) are respectively connected with the fixed support (9.1) in a rotating mode, the card rollers (9.3) are arranged side by side along a card feeding direction, the card rollers (9.3) are sequentially connected through a synchronous belt (9.5), the card driver (9.2) drives one of the card rollers (9.3) to rotate, the card rollers (9.3) clamp a card with the card pinch rollers (9.4), a card gate (6.3) is arranged on a shell, the card input mechanism (9) is arranged at the rear end of the card gate (6.3), and the fixed support (9.1) is fixed with the shell.

3. The intelligent certificate keeping device according to claim 2, wherein the card gate (6.3) is provided with an electronic lock (6.4).

4. The intelligent certificate keeping device according to claim 2, wherein the card pinch roller (9.4) is fixed on the connecting shaft (9.7), the connecting shaft (9.7) is slidably connected with the fixed support (9.1) along the vertical direction, and the connecting shaft (9.7) is provided with a compression spring (9.8) for enabling the connecting shaft (9.7) to be compressed downwards.

5. The intelligent certificate keeping device according to claim 2, further comprising a card lifting assembly (10), wherein the card lifting assembly (10) comprises a card lifting driving member (10.1) and a card lifting plate (10.2), the card lifting plate (10.2) is arranged at the rear end of the card input mechanism (9), the card lifting driving member (10.1) drives the card to lift, the card lifting plate (10.2) is arranged under the passport reader, and the card lifting driving member is fixed with the shell.

6. A smart certificate keeping apparatus as claimed in claim 1 or 2 or 3 or 4 or 5, wherein the passport input mechanism (3) comprises a lower conveying mechanism (3.1) and an upper conveying mechanism (3.2), the lower conveying mechanism (3.1) comprises a lower roller (3.1.1) and a conveying driving member (3.1.2), the conveying driving member (3.1.2) is fixed with the housing, and the conveying driving member (3.1.2) drives the lower roller (3.1.1) to rotate; the upper conveying mechanism (3.2) comprises a lifting frame (3.2.2), a pressing mechanism (3.2.3) and an upper pressing wheel (3.2.4), the pressing mechanism (3.2.3) is fixed with the shell, the pressing mechanism (3.2.3) drives the lifting frame (3.2.2) to move up and down, the upper pressing wheel (3.2.4) is rotationally connected with the lifting frame (3.2.2), and the upper pressing wheel (3.2.4) and the lower roller (3.1.1) press the passport.

7. The license intelligent custody device of claim 6, wherein the number of lower rollers (3.1.1) is plural, and the plural lower rollers (3.1.1) are connected by a belt.

8. The license intelligent custody device of claim 6, wherein the lifting frame (3.2.2) comprises an upper connecting frame (3.2.5), a lower fixing frame (3.2.6) and a telescopic spring (3.2.7), the upper connecting frame (3.2.5) is vertically and slidably connected with the lower fixing frame (3.2.6), the telescopic spring (3.2.7) is arranged between the upper connecting frame (3.2.5) and the lower fixing frame (3.2.6), the upper connecting frame (3.2.5) is connected with the pressing mechanism (3.2.3), and the upper pressing wheel (3.2.4) is arranged on the lower fixing frame (3.2.6).

9. An intelligent certificate keeping apparatus as claimed in claim 6, wherein the passport input means (3) is provided with a certificate feeding detection means.

10. A license intelligent keeping apparatus according to claim 1 or 2 or 3 or 4 or 5, wherein the folding mechanism (2) comprises a lifting mechanism (2.1), a lifting table (2.2), a fixing plate (2.3), a turnover plate (2.4) and a first turnover driving member (2.5), the lifting mechanism (2.1) is fixed with the shell, the lifting mechanism (2.1) drives the lifting table (2.2) to move up and down, the fixing plate (2.3) is fixed with the lifting table (2.2), one end of the turnover plate (2.4) is hinged with the fixing plate (2.3), and the first turnover driving member (2.5) drives the turnover plate (2.4) to rotate around a hinge shaft.

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