CN211294069U - Certificate keeping equipment - Google Patents

Abstract

The utility model provides a device is kept to certificate, include: the system comprises a main control unit, an input unit, an identity recognition unit, a certificate scanning integrated access unit, a self-rotation tower type certificate storage box and a transport box, wherein the input unit, the identity recognition unit, the certificate scanning integrated access unit, the self-rotation tower type certificate storage box and the transport box are connected with the main control unit; the input unit is used for receiving a certificate receiving and sending request of a user; the identity identification unit is used for acquiring identity card information of the user; the certificate scanning integrated access unit is used for receiving or sending out certificates and scanning image information of the certificates; the transportation box is arranged between the certificate scanning integrated access unit and the autorotation tower type certificate storage box, is used for conveying certificates and can realize automatic storage of the certificates.

Description

Certificate keeping equipment

Technical Field

The utility model relates to an automatic change the certificate and keep the field, especially relate to a certificate keeps equipment.

Background

At present, the tourism group is more and more strong, and more people need to apply for passports, Taihong Kong and Macao and other passes in the tourism. In addition, with the development of electronic technology and the requirement of management efficiency, on the basis of the traditional paper certificate, the form of the electronic certificate is increased by the national relevant management organization, for example, the electronic pass refers to the card certificate designed and manufactured according to the relevant international standard, the issuing management information such as the photo, the name, the birth date, the issuing authority, the issuing place and the like of the certificate holder is printed on the front side of the electronic pass, a non-contact integrated circuit chip is embedded in the electronic pass, the personal data of the certificate holder and the issuing management information of the certificate and the issue of the endorsement are stored, the paper endorsement is not required to be issued, the condition of replacing the certificate due to the full endorsement page is reduced, and the use cost is reduced.

In some cases where a specific management request is made, it is necessary to collectively store documents such as passports and passports. At present, certificates are still stored in a file cabinet for storage and management in most cases manually, and the efficiency is low.

SUMMERY OF THE UTILITY MODEL

To the problem among the prior art, the utility model provides an equipment is kept to certificate can solve the problem that exists among the prior art at least partially.

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

in a first aspect, there is provided a document escrow apparatus comprising: the system comprises a main control unit, an input unit, an identity recognition unit, a certificate scanning integrated access unit, a self-rotation tower type certificate storage box and a transport box, wherein the input unit, the identity recognition unit, the certificate scanning integrated access unit, the self-rotation tower type certificate storage box and the transport box are connected with the main control unit;

the input unit is used for receiving a certificate receiving and sending request of a user; the identity identification unit is used for acquiring identity card information of the user; the certificate scanning integrated access unit is used for receiving or sending out certificates and scanning image information of the certificates;

the transport box is arranged between the certificate scanning integrated access unit and the autorotation tower type certificate storage box and is used for conveying certificates.

Further, this rotation tower certificate guarantor box includes: the certificate identification device comprises a motor, a main rotary disc, a driven rotary disc, a conveyor belt and a plurality of certificate box groups;

the plurality of certificate box groups are uniformly distributed on the conveyor belt, and the main rotary disc, the driven rotary disc and the conveyor belt form an annular rotating system;

the motor is electrically connected with the main turntable and is used for driving the main turntable to rotate, and then the certificate box group on the main turntable is driven to rotate through the conveyor belt.

Further, this certificate box group includes: the certificate box comprises a certificate box, a back plate, a lower base and an upper base; the back plate is arranged between the lower base and the upper base and used for stacking and fixing the certificate box in a layered mode.

Further, the cassette includes: certificate box body, gear and gyro wheel, this gyro wheel be a pair of gyro wheel from top to bottom, are provided with three groups, evenly distributed in this certificate box body, and this gear drives the gyro wheel motion, drives the certificate through the friction and goes out the certificate box.

Further, this tower certificate of rotation guarantor box still includes: the lower track is arranged outside the conveyor belt and is parallel to the conveyor belt; the upper track is parallel to the lower track;

this certificate box group still includes: a pulley; the bottom of the lower base is installed on the lower rail through the pulley, and the top of the upper base is installed on the upper rail through the pulley.

Furthermore, a first connecting piece is fixedly arranged on the conveying belt, and the certificate box group is installed on the conveying belt through the first connecting piece.

Further, the lower base is connected with the first connecting piece in a concave-convex meshing mode through a second connecting piece.

Further, the transport box includes: a transport box, a transport shaft, and a transport rail;

the transport box is movably arranged on the transport shaft, and the transport shaft is movably and vertically arranged between the transport rails;

this transport box includes: the automatic certificate conveying device comprises two interfaces for receiving or sending out a certificate, an internal motor, a gear, a roller and a sensor, wherein the internal motor drives the gear and the roller to be linked to convey the certificate, and the sensor is used for sensing the position of the certificate.

Further, the document keeping apparatus further includes: and the display unit is connected with the main control unit.

The utility model provides an equipment is kept to certificate, include: the system comprises a main control unit, an input unit, an identity recognition unit, a certificate scanning integrated access unit, a self-rotation tower type certificate storage box and a transport box, wherein the input unit, the identity recognition unit, the certificate scanning integrated access unit, the self-rotation tower type certificate storage box and the transport box are connected with the main control unit; the input unit is used for receiving a certificate receiving and sending request of a user; the identity identification unit is used for acquiring identity card information of the user; the certificate scanning integrated access unit is used for receiving or sending out certificates and scanning image information of the certificates; the transportation box is arranged between the certificate scanning integrated access unit and the autorotation tower type certificate storage box, is used for conveying certificates and can realize automatic storage of the certificates.

In order to make the aforementioned and other objects, features and advantages of the present invention comprehensible, preferred embodiments accompanied with figures are described in detail below.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts. In the drawings:

fig. 1 is a top view of a document keeping apparatus according to an embodiment of the present invention;

fig. 2 is a partial plan view of an embodiment of the present invention showing a document scanning integrated access unit, a self-rotating tower document storage case, and a transport case;

FIG. 3 illustrates a partial side view of an embodiment of the present invention showing an integrated credential scanning access unit, a spinning tower credential storage case, and a transport case;

FIGS. 4 and 5 show enlarged partial views of the bottom of a credential box in an embodiment of the invention;

FIG. 6 is a side view of the transport case transporting documents between the document scanning integrated access unit and the autorotation tower document depository;

FIG. 7 is a top view of the transport case transporting documents between the document scanning integrated access unit and the spinning tower document storage case.

Detailed Description

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

The detailed features and advantages of the present invention are described in detail in the following embodiments, which are sufficient for anyone skilled in the art to understand the technical content of the present invention and to implement the present invention, and the related objects and advantages of the present invention can be easily understood by anyone skilled in the art according to the disclosure of the present specification, the claims and the drawings. The following examples further illustrate the aspects of the present invention in detail, but do not limit the scope of the present invention in any way.

It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. The present application will be described in detail below with reference to the embodiments with reference to the attached drawings.

Fig. 1 is a top view of a document keeping apparatus according to an embodiment of the present invention; as shown in fig. 1, the document storage apparatus 1 includes: the system comprises a main control unit 2, an input unit 4, an identity recognition unit 5, a certificate scanning integrated access unit 6, a rotation tower type certificate storage box 7 and a transportation box 8, wherein the input unit 4, the identity recognition unit 5, the certificate scanning integrated access unit, the rotation tower type certificate storage box 7 and the transportation box 8 are electrically connected with the main control unit 2;

the input unit 4 is used for receiving a certificate receiving and sending request of a user; the identity recognition unit 5 is used for acquiring identity card information of the user; the certificate scanning integrated access unit 6 is used for receiving or sending out certificates and scanning image information of the certificates.

The transport box 8 is arranged between the certificate scanning integrated access unit 6 and the autorotation tower type certificate storage box 7 and is used for conveying certificates.

The main control unit 2 receives the certificate receiving and sending request, the identity card information of the user and the image information, and controls the input unit 4, the identity recognition unit 5, the certificate scanning integrated access unit 6, the autorotation tower type certificate storage box 7 and the transport box 8 to work; the main control unit receives the certificate receiving and sending request, the identity card information of the user, the image information and other related information, processes the related business process, identifies the image (wherein, the identification image technology can adopt OCR identification or image comparison, because the two technologies are mature, the utility model discloses the detailed description is not needed), sends the certificate receiving and sending instruction according to the need, controls the input unit 4, the identity identification unit 5, the certificate scanning integrated in-out unit 6, the autorotation tower type certificate keeping box 7 and the transportation box 8 to cooperate, automatically identifies and records the type information of the certificate through the image scanning function of the certificate scanning integrated in-out unit, and the like, and can automatically collect a certain quantity of certificates with different specifications and sizes in the certificate keeping box through the autorotation tower type certificate keeping box and the carrier box type transportation technology by simple operation, the automatic keeping of the large-capacity certificates with different specifications and sizes is realized, the position information of each certificate in the tower-type certificate keeping box is recorded, the user information is obtained through identity recognition, and the related information is bound. When the certificate is issued, corresponding processing is carried out according to the requirement of the user and the information binding relation, and the certificate required by the user at the specified position in the tower type certificate box is automatically taken out.

The input unit 4 may be a numeric keypad, and is responsible for receiving input of digital information and transmitting the received information to the main control unit 2.

The identification unit 5 may be an identification card recognizer and is responsible for reading the identification card information of the user and transmitting the information to the main control unit 2.

The certificate scanning integrated access unit 6 can be an access device with an image scanning function, and can scan image information of a certificate and transmit the image information to the main control unit 2 for identification. The integrated certificate scanning access unit 6 has two access ports, wherein the front access port 61 is located outside the device 1, and the rear access port 62 is located inside the device 1. Since the existing miniature image scanning devices and techniques are all very mature, the present invention is not described in detail.

The autorotation tower type certificate storage box 7 can be formed by a plurality of independent certificate boxes to form a certificate box group which is distributed in an annular shape and can circularly move in a conveyor belt mode, and the related certificate box group can move to a specified position according to the instruction requirement of the main control unit 2.

The main body part of the transport box 8 is designed into a box shape, and can be used as a carrier to convey the certificates between the certificate scanning integrated in-and-out unit 6 and the autorotation tower type certificate storage box 7 according to the instruction requirement of the main control unit 2.

By adopting the technical scheme, the automatic document storage device not only can realize the automatic document storage, but also can realize the automatic document storage function with large capacity and different specifications and sizes, so that the document storage work is more flexible and efficient.

In an alternative embodiment, with continued reference to FIG. 1, the credential escrow device can further include: and the display unit 3 is electrically connected with the main control unit 2.

The display unit 3 may be a display with a touch screen, and is responsible for displaying a related operation interface and transmitting operation content received by the touch screen to the main control unit 2.

In an alternative embodiment, with continued reference to FIG. 1 in conjunction with FIGS. 2 and 3, the spinning tower credential vault 7 may include: a motor 714, a master turntable 711, a slave turntable 715, a carousel 712, and a plurality of credential box banks 72;

a plurality of credential box groups 72 are uniformly distributed on the carousel 712, and the main carousel 711, the driven carousel 715, and the carousel 712 form a circular rotating system;

the motor 714 is electrically connected with the main turntable 711 and is used for driving the main turntable 711 to rotate, so as to drive the certificate box group 72 on the main turntable to rotate through the conveyor belt 712.

The main turntable 711 is driven by a motor 714 to rotate clockwise and counterclockwise, and drives the transmission belt 712 and the driven turntable 715 to rotate.

By adopting the technical scheme, the annular rotating system can occupy the minimum space and simultaneously realize the maximum certificate storage, thereby further improving the certificate storage efficiency.

In an alternative embodiment, with continued reference to FIGS. 2 and 3, the credential box assembly 72 includes: credential box 721, back plate 7223, lower base 7221, upper base 7222; the back plate is arranged between the lower base and the upper base and used for stacking and fixing the certificate box in a layered mode.

A plurality of credential boxes 721 are fixed on the back plate 7223 in a stacked manner, and a tower type credential box group 72 is formed by the lower base 7221 and the upper base 7222.

It should be noted that each credential box group 72 is identified by defining a group number, each credential box 721 is identified by defining a position number, and the position number information is composed of the group number of the tower credential box group 72 and the layer number of the credential box 721 (for example, the structure may be 24 groups × 20 layers, and the number of assembled credential box groups may be increased or decreased in practical application according to the actual capacity requirement and the site requirement). The main control unit 2 realizes the automatic document storage function by associating the position number information with the document type information and the user information.

Each credential box 721 represents "certified" or "uncertified" status, respectively, by defining a credential status flag.

The tower type certificate box groups 72 are uniformly distributed on the periphery of the conveyor belt 712 through connecting pieces, the main rotary disc 711 is driven by a motor to drive the conveyor belt 712 to circularly rotate clockwise and anticlockwise, and the tower type certificate box groups 72 are driven to move clockwise or anticlockwise through the connecting pieces 713 on the conveyor belt 712. According to the instruction requirement sent by the main control unit 2, the main turntable 711 drives the conveyor belt 712, so that the tower type certificate box group 72 where the certificate box 721 with the corresponding position number is located can be accurately positioned on the side, which is close to the transport box 8, and the specified position is defined as the 'certificate box collecting and sending certificate working position' of the tower type certificate box group 72.

Through adopting above-mentioned technical scheme, every certificate box group can set up a plurality of certificate boxes, when realizing that each certificate box independently places, the maximize utilizes the space, reduces the volume of equipment is kept to the certificate, realizes the miniaturization.

In an alternative embodiment, with continued reference to fig. 2-5, the autorotation turret credential storage cartridge 7 further comprises: an upper rail 7312 and a lower rail 7311, the lower rail 7311 being disposed outside the conveyor 712, the track line being parallel to the conveyor; an upper rail 7312 parallel to the lower rail 7311;

the certificate box group further comprises: a pulley; two sets of pulleys 7251 are provided at the bottom of the lower base 7221 and are mounted on lower rails 7311. The upper base 7222 is also provided with two sets of pulleys 7252 on top and mounted on upper rails 7312 in a configuration identical to the lower base. Also, the track line of the upper track 7312 is identical to that of the lower track 7311.

By adopting the above technical scheme, the tower-type credential box group 72 is controlled to move clockwise or counterclockwise along the lower rail 7311 and the upper rail 7312 under the driving of the conveyor belt 712 according to the instruction of the main control unit 2.

In an alternative embodiment, with continued reference to fig. 2 and 3, a first connector 713 is fixedly disposed on the carousel 712, specifically, connectors 713 are uniformly disposed on the outside of the carousel 712, and the credential box group 72 is mounted on the carousel 712 via the first connector 713.

In an alternative embodiment, with continued reference to FIGS. 2 and 3, the lower base 7221 is coupled to the first coupling member 713 via a second coupling member 723 in a male-female engagement such that the coupling members 713 are evenly distributed on the belt 712 and correspondingly the plurality of turret type credential magazine assemblies 72 are evenly distributed about the periphery of the belt 712.

In an alternative embodiment, with continued reference to fig. 3, the transport box 8 includes: a transport cassette 81, a transport shaft 83, and transport rails 821, 822;

the transport box 81 is movably disposed on a transport shaft 83, and the transport shaft 83 is movably vertically installed between transport rails 821, 822.

The main body of the transport box 8 is a transport box 81 disposed between the certificate scanning integrated access unit 6 and the autorotation tower-type certificate storage box 7, and the transport box 81 can move up and down along a transport shaft 83 by an internal stepping motor (not shown) at a precise distance, and can be accurately positioned at the same horizontal position height of the certificate box 721 with a specified position number or the certificate scanning integrated access unit 6 and the certificate access port 62 according to the instruction sent by the main control unit 2. Meanwhile, the transport box 81 and the transport shaft 83 as a whole can horizontally move back and forth between the certificate scanning integrated access unit 6 and the self-rotation tower-type certificate storage box 7 along the transport rail (transverse lower rail) 821 and the transport rail (transverse upper rail) 822, and specifically can horizontally move back and forth between the certificate scanning integrated access unit 6 and the self-rotation tower-type certificate storage box 7 by a motor (not shown) inside the lower rail 821, and can be accurately positioned on the side close to the access opening 62 behind the tower-type certificate box group 72 or the certificate scanning integrated access unit 6.

Specifically, referring to fig. 7, the transport box 81 is provided with a transmission mechanism including a gear 84, rollers 851, 852, and 853, sensors 861, 862, and 863, and an internal drive motor (not shown).

The rollers 851, 852 and 853 are a pair of upper and lower rollers, and are provided in three groups, and are uniformly distributed in the transport box 8. The roller can keep the uneven document flat during the transportation process.

The sensors 861, 862 and 863 are photoelectric sensors, are provided with three pairs (a tower type certificate storage box near-end sensor 861, a middle sensor 862 and a certificate scanning integrated in-out unit near-end sensor 863), are symmetrically distributed at two ends and a middle position of the transport box 81, and judge the current position of the certificate by detecting whether the certificate 91 or the certificate 92 or 93 blocks the sensors at different positions.

The transport box 8 is provided with an internal driving motor (not shown) for driving the gear 84 in conjunction with the rollers 851, 852 and 853 while performing a forward or reverse interlocking motion. The certificates 91 and 92 are moved into and out of the transport box 81 by the friction action of the rollers 851, 852 and 853, and the certificates 91 and 92 are transported between the certificate scanning integrated access unit 6 and the self-rotation tower-type certificate storage box 7.

The gear 84 can also be coupled to and move the gear 724 of the cassette 721 when the carriage 81 is positioned adjacent to one side of the turret cassette set 72.

It will be appreciated by those skilled in the art that the transport box includes two interfaces for receiving or sending out documents.

In an alternative embodiment, referring to fig. 3-7, each credential cartridge 721 is configured with an independent drive mechanism comprising: a credential cartridge, gears 724, and rollers 7261, 7262, and 7263. The gyro wheel is upper and lower a pair of gyro wheel, is provided with three groups, evenly distributes in certificate box 721, and the effect of gyro wheel can make the certificate that is uneven and surmount keep level in the transportation. The gear 724 can drive the rollers 7261, 7262 and 7263 to do forward or reverse linkage movement simultaneously, and drives the certificates (in the figure, the certificate 91 with larger size is a passport, and the certificate 92 with smaller size is an electronic pass) to enter and exit the certificate box 721 through friction, so that the certificate receiving and sending operation is realized.

In order to better understand the present invention for those skilled in the art, the following detailed description is provided for the practical operation of the present invention:

the main control unit 2 sends a command request, the certificate scanning integrated access unit 6 transports the certificate to a side close to the transport box 8, and the transport box 81 and the transport shaft 83 as a whole are horizontally moved and switched along the transverse lower rail 821 and the transverse rail 822 by an internal motor (not shown) of the lower rail 821 at three working state positions, including:

(1) a non-operating state position;

(2) the transportation box 8 and the certificate scanning integrated in-out unit 6 are in linkage working state, namely the transportation box 81 and the transportation shaft 83 move to the side close to the certificate scanning integrated in-out unit 6 as a whole, and meanwhile, the transportation box 81 is accurately positioned at the same horizontal height position of the certificate inlet and outlet 62 behind the certificate scanning integrated in-out unit 6 along the transportation shaft 83;

(3) the transport box 8 and the tower-type certificate box group 72 are in linkage working state, namely, the transport box 81 is accurately positioned at the same horizontal position height of the certificate box 721 with the designated position number along the transport shaft 18, meanwhile, the transport box 81 and the transport shaft 83 move to the side close to the tower-type certificate box group 72 as a whole, and the gear 84 of the transport box 81 is connected with the gear 724 of the certificate box 721.

When in the "non-operating state position", the transport box 81 stays at the middle position of the lateral lower rail 821 as a whole with the transport shaft 83. The turret credential box assembly 72 has a 20-tier configuration with either credentials 91 or 92 already in place in a portion of the credential box 721.

Since it is in the "non-operating state position", the gear 84 of the transport cartridge 81 and the gear 724 of the certification cassette 721 are in an unconnected state.

For further clarity, the whole process of the certificate collecting operation will be described below with reference to fig. 6 and 7, that is, the operation of the transport box 8 collecting the certificate 91 from the certificate scanning integrated access unit 6 and the transport box 8 sending the certificate 91 to the tower-type certificate box set 72 will be described as an example.

1. After the certificate 91 enters the certificate scanning integrated access unit 6, the certificate scanning integrated access unit 6 scans images and then sends the image information to the main control unit 2, and after the main control unit 2 identifies the type of the certificate, the main control unit 2 randomly selects an empty certificate box 721 position number.

The main control unit 2 sends an instruction of receiving the certificate (including the information of the position number of the selected empty certificate box 721), and the operation of receiving the certificate starts:

2. the transport box 81 is driven by an internal motor (not shown) of the transport shaft 18 and an internal motor (not shown) of the lower rail 821 to reach the 'linked working state position of the transport box 8 and the certificate scanning integrated in-out unit 6', as shown in B in fig. 6 and B in fig. 7, namely, the transport box 81 and the transport shaft 83 move as a whole to be close to one side of the tower-type certificate box group 72, and meanwhile, the transport box 81 is accurately positioned at the same horizontal height position of the certificate in-out port 62 behind the certificate scanning integrated in-out unit 6 along the transport shaft 83, so that the certificates 91 can be smoothly transferred to the transport box 81 from the certificate scanning integrated in-out unit 6.

3. When the transport box 81 reaches the "position of the working state in which the transport box 8 and the certificate scanning integrated access unit 6 are linked", the internal transmission mechanism of the certificate scanning integrated access unit 6 starts working to send out the certificate 91, and at the same time, the internal driving motor of the transport box 81 starts working to drive the rollers 851, 852 and 853 to rotate in a linked manner to suck the certificate 91 into the transport box 81 through friction.

4. When the sensors 861, 862, and 863 of the transport case 81 detect that the certification sheet 91 is completely fed into the transport case 81, the internal driving motor of the transport case 81 stops.

The detection process of the sensors 861, 862, and 863 of the transport box 81 and the operation process of the internal driving mechanism of the internal driving motor and document scanning integrated access unit 6 of the transport box 81 are described as follows:

(1) the internal transmission mechanism of the certificate scanning integrated in-out unit 6 starts to work to send out the certificate 91, and at the same time, the internal driving motor of the conveying box 81 starts to work to drive the roller to suck the certificate 91;

(2) when the certificate scanning integrated in-out unit proximal end sensor 863 is changed from an unshielded state to a shielded state (namely, the certificate 91 starts to enter the conveying box 81), the internal driving motor of the conveying box 81 continuously works to drive the roller to suck the certificate 91, and the internal transmission mechanism of the certificate scanning integrated in-out unit 6 continuously works to send out the certificate 91;

(3) when the near-end sensor 863 of the certificate scanning integrated in-out unit is continuously shielded (namely the certificate 91 enters the conveying box 81), the internal driving motor of the conveying box 81 continuously works to drive the roller to suck the certificate 91, and the internal transmission mechanism of the certificate scanning integrated in-out unit 6 continuously works to send out the certificate 91;

(4) when the middle sensor 862 is changed from an unshielded state to a shielded state (i.e. the certificate 91 starts to enter the middle part of the conveying box 81), the near-end sensor 863 of the certificate scanning integrated in-out unit is continuously shielded, the internal driving motor of the conveying box 81 continuously works to drive the roller to suck the certificate 91, and the internal transmission mechanism of the certificate scanning integrated in-out unit 6 continuously works to send out the certificate 91;

(5) when the middle sensor 862 is continuously shielded (i.e. the certificate 91 passes through the middle part of the conveying box 81), the near-end sensor 863 of the certificate scanning integrated in-out unit is continuously shielded, the internal driving motor of the conveying box 81 continuously works to drive the roller to suck the certificate 91, and the internal transmission mechanism of the certificate scanning integrated in-out unit 6 continuously works to send out the certificate 91;

(6) when the intermediate sensor 862 is continuously shielded, the certificate scanning integrated access unit proximal end sensor 863 is changed from a shielded state to an unshielded state (i.e. the certificate 91 completely leaves the certificate scanning integrated access unit 6), the internal driving motor of the transport box 81 continuously works to suck the certificate 91, and the internal transmission mechanism of the certificate scanning integrated access unit 6 stops working;

(7) when the intermediate sensor 862 continues to be blocked, the tower-type document storage case proximal end sensor 861 is switched from the unblocked state to the blocked state (indicating that the document 91 is completely fed into the transport case 81), and the operation of the internal drive motor of the transport case 81 is stopped.

The document 91 is now fully loaded into the transport box 81 and remains in a position to block both the intermediate sensor 862 and the turret document vault proximal sensor 861.

5. After the certificate 91 is completely sent to the transport box 81, the self-rotation tower type certificate keeping box 7 drives the conveyor belt 712 through the main turntable 711 according to the position number of the certificate box 721 which needs to take in the certificate and is sent by the main control unit 2, as shown by C in fig. 2 and 6 and C in fig. 7, the position number information of which the group number is 13 th group and the layer number is 14 th layer, and the tower type certificate box group 72 of which the group number is 13 th group is accurately positioned at the side close to the transport box 8, namely, the 'certificate box take-in and take-out certificate work position'.

6. After the tower type certificate box group 72 with the group number of 13 reaches the 'certificate box receiving and sending certificate working position', the conveying box 81 respectively reaches the 'linkage working state position of the conveying box 8 and the tower type certificate box group 72' through the driving of an internal motor (not shown) of the conveying shaft 83 and an internal motor (not shown) of the lower rail 821, as shown in C in fig. 6 and C in fig. 7, namely, the conveying box 81 is accurately positioned at the same horizontal position height of the certificate box 721 with the layer number of 14 along the conveying shaft 18, simultaneously the conveying box 81 and the conveying shaft 83 move to the side close to the tower type certificate box group 72 as a whole, the gear 84 of the conveying box 81 is connected with the gear 724 of the certificate box 721 with the layer number of 14, so that the certificate 91 can be smoothly conveyed from the conveying box 81 to the certificate box 721 with the designated position number.

7. After the conveying box 81 reaches the 'position of the linkage working state of the conveying box 8 and the tower-type certificate box group 72', an internal driving motor of the conveying box 81 starts to work to drive the rollers 851, 852 and 853 to rotate in a linkage manner to send out the certificate 91 to the certificate box 721 through friction action, meanwhile, the gear 84 of the conveying box 81 drives the gear 724 of the certificate box 721 to rotate in a linkage manner, the gear 724 drives the rollers 7261, 7262 and 7263 to move in a linkage manner, and the certificate is sucked into the certificate box 721 through friction action.

8. When the sensors 861, 862, and 863 of the transport case 81 detect that the document 91 is completely fed into the document case 721, the internal driving motor of the transport case 81 stops operating.

The detection process of the sensors 861, 862, and 863 of the transport box 81 and the operation process of the internal driving motor of the transport box 81 are described as follows:

(1) when the middle sensor 862 is continuously shielded, the near-end sensor 861 of the tower-type certificate storage box is continuously shielded, the internal driving motor of the transport box 81 starts to work continuously to drive the roller to continuously send out the certificate 91 to the certificate box 721, meanwhile, the gear 84 of the transport box 81 drives the gear 724 of the certificate box 721 to start and continuously rotate in a linkage manner, and the certificate box 721 waits for the certificate 91 to be sucked;

(2) when the middle sensor 862 is changed from a blocking state to a non-blocking state, the tower type certificate storage box near-end sensor 861 is continuously blocked (i.e. the certificate 91 starts to enter the certificate box 721), the internal driving motor of the transport box 81 continuously works to drive the roller to continuously send out the certificate 91 to the certificate box 721, meanwhile, the gear 84 of the transport box 81 drives the gear 724 of the certificate box 721 to continuously rotate in a linkage manner, and the certificate box 721 continuously sucks the certificate 91;

(3) the tower type certificate storage box near-end sensor 861 is continuously shielded (namely the certificate 91 continuously enters the certificate box 721), the internal driving motor of the conveying box 81 continuously works to drive the roller to continuously send the certificate 91 out of the certificate box 721, meanwhile, the gear 84 of the conveying box 81 drives the gear 724 of the certificate box 721 to continuously rotate in a linkage manner, and the certificate box 721 continuously sucks the certificate 91;

(4) when the tower type certificate storage box near-end sensor 861 is changed from a shielding state to an unshielding state (namely the certificate 91 is about to be sent out of the conveying box 81), the internal driving motor of the conveying box 81 stops working after delaying working for a period of time, the roller is continuously driven to ensure that the certificate 91 is completely sent out of the conveying box 81, meanwhile, the gear 84 of the conveying box 81 drives the gear 724 of the certificate box 721 to continuously rotate in a linkage manner, and the certificate box 721 completely sucks the certificate 91;

the credential 91 is now fully fed into the credential box 721 having the group number 13 and the layer number 14. The main control unit 2 sets the certification status flag bit of the certification box 721 whose group number is the 13 th group and whose layer number is the 14 th layer to "certified status".

9. When the above-described authentication operation is completed, the main control unit 2 sends a reset command, the transport box 81 and the transport shaft 83 as a whole leave the cassette 721 along the lateral lower rail 821 and the lateral rail 822 by a motor (not shown) inside the lower rail 821, the gear 84 of the transport box 81 is disconnected from the gear 724 of the cassette 721, and horizontally moves to the middle position of the lateral lower rail 821 again, and returns to the "non-operating state position".

Further, the working process of the certificate collecting operation, that is, the certificate is received by the transport case 8 from the tower type certificate case group 72 and the certificate is sent out from the transport case 8 to the certificate scanning integrated entry and exit unit 6 is basically similar to the above-described working process of the certificate collecting operation, but the direction of the certificate is sent out from the tower type certificate case group 72 and is transferred to the certificate scanning integrated entry and exit unit 6 through the transport case 81.

The following describes, by way of example, a process for implementing a certificate receiving service by using a certificate storage device according to an embodiment of the present invention:

the description will be made in detail with a scenario in which the user custodies the passport.

Step 1: the device receives a request to custody a credential;

step 2: the main control unit 2 searches whether there is an empty certificate box 721 in the "no certificate state", if yes, executes step 3, and if no, executes step 13;

and step 3: if the user puts the certificate 91 into the certificate scanning integrated access unit 6 and the certificate scanning integrated access unit 6 detects that the certificate enters, executing the step 4, and if the certificate does not enter within overtime, executing the step 1;

and 4, step 4: after the certificate 91 enters the certificate scanning integrated access unit 6, the certificate scanning integrated access unit 6 scans images and then sends the image information to the main control unit 2, and the main control unit 2 identifies and records the certificate type information;

and 5: prompting a user to input identity information on the display unit 3, placing an identity document on the identity recognition unit 5 by the user, reading the identity card information of the user by the identity recognition unit 5, transmitting the information to the main control unit 2, and recording the identity information of the user by the main control unit 2;

step 6: the main control unit 2 randomly selects an empty certificate box 721 position number with a certificate status flag bit of 'no certificate status';

and 7: the main control unit 2 sends a certificate receiving instruction to the certificate receiving and sending devices (the autorotation tower type certificate storage box 7 and the transport box 8);

and 8: a certificate box 721 in which the transport box 8 receives the certificate from the certificate scanning integrated entry/exit unit 6 and feeds the certificate to the designated position number;

and step 9: the main control unit 2 sets the status flag bit of the certificate box 721 to "certified status";

step 10: the user is prompted to set a forensic password on the display unit 3 and set password information via the keyboard input unit 4.

Step 11: the main control unit 2 binds the associated certificate type information, the user identity information, the evidence obtaining password information and the position number information of the certificate box 721;

step 12: the main control unit 2 displays the information of successful certificate keeping on the display unit 3 and jumps back to the step 1;

step 13: the main control unit 2 returns the certificate box full prompt information on the display unit 3, and the step 1 is skipped.

In order to make those skilled in the art better understand the present invention, the following specifically describes the process of using the certificate storage device to implement evidence obtaining business:

specifically, the description is given in a scene in which the user takes out the electronic certificate.

Step 1: the device receives a request to retrieve a certificate;

step 2: the display unit 3 prompts a user to input identity information, the user manually inputs the identity information through the keyboard input unit 4 or places an identity document on the identity recognition unit 5, and the main control unit 2 recognizes and records the identity information of the user;

and step 3: the main control unit 2 calls user certificate type information according to the user identity information and the related binding relationship;

and 4, step 4: the main control unit 2 judges whether the user has the certificate stored, if yes, the step 4 is executed, and if not, the step 12 is executed;

and 5: displaying all certificate information (one or more) currently stored by a user on the display unit 3, selecting a certificate 92 to be taken out by the user, prompting the user to input a forensic password on the display unit 3, and inputting the forensic password by the user through the keyboard input unit 4;

step 6: the main control unit 2 extracts password information according to the binding relationship between the user information and the certificate type information selected by the user, judges whether the password information is consistent with the evidence obtaining password input by the user, if so, executes the step 7, and if not, executes the step 13;

and 7: the main control unit 2 extracts the location number information of the certificate box 721 storing the certificate according to the user information, the certificate kind information, and the related binding relationship, and sends a certificate issuing instruction to the certificate issuing and receiving apparatus.

And 8: the card receiving and sending device successfully takes out the certificate 92 of the user and sends the certificate 92 to the certificate scanning integrated access unit 6, after the certificate 92 of the user enters the certificate scanning integrated access unit 6, the certificate scanning integrated access unit 6 scans images and then sends image information to the main control unit 2, the main control unit identifies and records certificate type information and judges whether the certificate type information is consistent with the certificate type information selected by the user, if so, the step 9 is executed, and if not, the step 14 is executed;

and step 9: the certificate 92 is sent out of the certificate scanning integrated in-out unit 6, and the user takes out the certificate 92;

step 10: the main control unit 2 sets the certificate status flag bit of the certificate box 721 from which the certificate 92 has been taken out to be in a "no-certificate status", releases the binding relationship between the user identification information and the taken-out certificate type information, releases the binding relationship between the taken-out certificate type information and the position number information of the certificate box 721 in which the certificate is originally stored, and removes the certificate-taking password information corresponding to the taken-out certificate type information;

step 11: the main control unit 2 displays the certificate taking success information on the display unit 3 and jumps back to the step 1;

step 12: the main control unit 2 displays the client certificate-free storage prompt information on the display unit 3, and jumps back to the step 1.

Step 13: the main control unit 2 displays the password error prompt information on the display unit 3 and jumps back to the step 1;

step 14: the main control unit 2 displays error information on the display unit 3, and the device suspends service and waits for the processing of a worker.

It is worth mentioning that the master control unit 2 may take the form of, for example, a microprocessor or processor, including but not limited to the following microcontrollers: ARC 625D, Atmel AT91SAM, Microchip PIC18F26K20, and Silicone LabsC8051F 320.

The present invention has been explained by using specific embodiments, and the explanation of the above embodiments is only used to help understand the method and the core idea of the present invention; meanwhile, for the general technical personnel in the field, according to the idea of the present invention, there are changes in the specific implementation and application scope, to sum up, the content of the present specification should not be understood as the limitation of the present invention.

It should also be noted that the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element.

The embodiments in the present specification are described in a progressive manner, and the same and similar parts among the embodiments are referred to each other, and each embodiment focuses on the differences from the other embodiments. In particular, for the system embodiment, since it is substantially similar to the method embodiment, the description is simple, and for the relevant points, reference may be made to the partial description of the method embodiment.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention in any way, and although the present invention has been disclosed with reference to the above preferred embodiment, it is not intended to limit the present invention, and any person skilled in the art can make modifications or changes equivalent to the above disclosed technical content without departing from the scope of the present invention, but all simple modifications, equivalent changes and modifications made to the above embodiments according to the technical spirit of the present invention still fall within the scope of the technical solution of the present invention.

Claims (9)

1. A document escrow apparatus, comprising: the system comprises a main control unit, an input unit, an identity recognition unit, a certificate scanning integrated access unit, a self-rotation tower type certificate storage box and a transport box, wherein the input unit, the identity recognition unit, the certificate scanning integrated access unit, the self-rotation tower type certificate storage box and the transport box are connected with the main control unit;

the input unit is used for receiving a certificate receiving and sending request of a user; the identity recognition unit is used for acquiring identity card information of the user; the certificate scanning integrated access unit is used for receiving or sending out certificates and scanning image information of the certificates;

the transportation box is arranged between the certificate scanning integrated access unit and the autorotation tower type certificate storage box and used for conveying certificates.

2. The credential storage device of claim 1, wherein the autorotation turret credential storage case comprises: the certificate identification device comprises a motor, a main rotary disc, a driven rotary disc, a conveyor belt and a plurality of certificate box groups;

the plurality of certificate box groups are uniformly distributed on the conveyor belt, and the main rotary disc, the driven rotary disc and the conveyor belt form an annular rotating system;

the motor is electrically connected with the main turntable and is used for driving the main turntable to rotate, and the certificate box group on the main turntable is driven to rotate through the conveyor belt.

3. The credential storage device of claim 2, wherein the set of credential cartridges comprises: the certificate box comprises a certificate box, a back plate, a lower base and an upper base; the back plate is arranged between the lower base and the upper base and used for stacking and fixing the certificate box in a layered mode.

4. The credential storage device of claim 3, wherein the credential cassette comprises: certificate box body, gear and gyro wheel, the gyro wheel is a pair of gyro wheel from top to bottom, is provided with three groups, evenly distributed in the certificate box body, the gear drives the gyro wheel motion, drives the certificate through the friction and goes out the certificate box.

5. The credential storage device of claim 3, further comprising: the lower rail is arranged outside the conveyor belt and is parallel to the conveyor belt; the upper track is parallel to the lower track;

the certificate box group further comprises: a pulley; the bottom of the lower base is installed on the lower rail through the pulleys, and the top of the upper base is installed on the upper rail through the pulleys.

6. The credential storage device of claim 5, wherein a first connector is fixedly disposed on the conveyor belt, and wherein the credential box group is mounted on the conveyor belt via the first connector.

7. The document keeping apparatus according to claim 6, wherein the lower base is connected to the first connector by a second connector in a male-female engagement manner.

8. The credential storage device of claim 1, wherein the transport box comprises: a transport box, a transport shaft, and a transport rail;

the transport box is movably arranged on the transport shaft, and the transport shaft is movably and vertically arranged between the transport rails;

the transport box includes: two interfaces, inside motor, gear, gyro wheel and the sensor that is used for receiving or sending out the certificate, inside motor drive the gear with the gyro wheel linkage is in order to convey the certificate, the sensor is used for sensing the certificate position.

9. The document keeping apparatus according to claim 1, further comprising: and the display unit is connected with the main control unit.

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