CN109598487B - Seal Internet of things system and control method thereof - Google Patents

Abstract

The invention discloses a seal Internet of things system, which comprises a plurality of user seal management systems and seal Internet of things system background management platforms, wherein each user seal management system is communicated with the seal Internet of things system background management platform through a signal transmission line and is used for information transmission; the user seal management system at least comprises an intelligent lock body and an entity seal; the solid seal is blocked in the intelligent lock body; the intelligent lock body continues to block the solid seal or drive the seal face stamping of the solid seal according to the instruction transmitted by the seal internet of things system background management platform, and transmits information and data related to the stamping process to the seal internet of things system background management platform. Because the entity seal is blocked in the intelligent lock body, the entity seal can not be used without authorization, and the use safety of the entity seal is greatly improved.

Description

Seal Internet of things system and control method thereof

Technical Field

The invention relates to a seal tool, in particular to a seal Internet of things system and a control method thereof.

Background

A stamp is a device used to represent an authentication or signature printed on a document.

The existing seal is a block structure with smaller overall dimension and is generally kept at financial staff of a company. The user who obtains the stamp can stamp a legal stamp pattern on the corresponding document.

The use mode of the prior stamp has the following problems:

(1) when a company post business stamp is taken out, the company stamp is in a naked unsupervised state, the problems that a stamp user gains illicit and does not authorize the illicit stamping easily occur, and the enterprise risk is huge;

(2) traditionally, a company printing process needs to be reported layer by layer and then is examined and approved by leaders, so that the whole application process is complicated and the human efficiency is low;

(3) when a company receives some false contracts or fraudulent stamping authorization documents, financial staff are difficult to identify the false of the contracts or the stamping authorization documents, and the company is easy to lose;

(4) other problems also exist: the process of looking up and examining the files to be sealed is troublesome, the files are placed and filed disorderly, and the sealing details are imperfect, such as: time of stamping, location, person, number of impressions, etc.

Disclosure of Invention

The invention aims to provide a seal Internet of things system and a control method thereof, which can improve the use safety of a seal.

In order to achieve the purpose, the invention provides the following technical scheme: a seal Internet of things system comprises a plurality of user seal management systems and seal Internet of things system background management platforms, wherein each user seal management system is communicated with the seal Internet of things system background management platform through a signal transmission line and used for information transmission;

the user seal management system at least comprises an intelligent lock body and an entity seal; the solid seal is blocked in the intelligent lock body; the intelligent lock body continues to block the solid seal or drive the seal face stamping of the solid seal according to the instruction transmitted by the seal internet of things system background management platform, and transmits information and data related to the stamping process to the seal internet of things system background management platform.

Furthermore, the user seal management system also comprises a monitoring module, an identity authentication module and a network communication module;

the monitoring module comprises one or more cameras with different shooting angles; the camera is arranged on the intelligent lock body and is used for shooting the behavior and actions of specific workers in the stamping process or/and shooting the characteristic image of the stamped file;

the identity authentication module is arranged on the intelligent lock body and used for verifying the identity of a manager;

the network communication module is installed on the intelligent lock body and used for network communication between the intelligent lock body and the seal Internet of things system background management platform.

Furthermore, the user seal management system also comprises a file certificate storage box with electronic locking and unlocking functions;

the file certificate storage box is arranged on the intelligent lock body and used for storing files to be stamped or/and certificates.

Furthermore, the intelligent lock body comprises a seal seat assembly and a seal cylinder assembly;

the stamp holder assembly includes a stamp holder housing and a first controller; the first controller is arranged in the seal seat shell; the camera is connected with the first controller through a data transmission line and used for transmitting the shooting data to the first controller; the identity authentication module is connected with the first controller through a data transmission line and used for transmitting verification information to the first controller; the network communication module is connected with the first controller through a data transmission line and is used for network communication between the first controller and a background management platform of the seal Internet of things system;

the seal cylinder assembly comprises an installation cylinder with an opening at the bottom end, a driver and a second controller; the mounting cylinder can be detachably mounted on the stamp seat shell; the second controller is arranged in the mounting cylinder and is respectively communicated with the driver and the first controller through data transmission lines; the solid seal is arranged in the mounting cylinder, and the inner size of the mounting cylinder is slightly larger than the outer size of the solid seal; the driver is installed in the installation cylinder and drives the entity seal stamping according to the control signal of the second controller.

Furthermore, the stamp seat also comprises a satellite navigation positioning module arranged in the stamp seat shell; the satellite navigation positioning module is connected with the first controller through a data transmission line and is used for transmitting the time information or/and the position information of the entity seal to the first controller.

Further, the driver is a lead screw motor; the screw motor is arranged in the mounting cylinder, and a screw of the screw motor faces downwards;

the non-seal face of the solid seal is fixedly connected with the lower end head of the lead screw, and the seal face of the solid seal faces the opening side of the mounting cylinder.

Further, the stamp cartridge assembly further comprises a damage prevention mechanism arranged in the stamp cartridge assembly; the damage prevention mechanism is connected with the second controller through a signal transmission line;

the second controller directly sends out an alarm signal according to the information transmitted by the damage prevention mechanism; or/and; the second controller transmits information transmitted by the anti-damage mechanism to the first controller, and the first controller directly sends out an alarm signal or sends alarm information to a background management platform of the seal Internet of things system.

Further, the seal holder assembly and the seal cartridge assembly are constantly connected in a near field wireless communication mode.

Further, when two or more units carry out cooperative stamping, the respective user seal management systems are constantly connected in a near field wireless communication mode.

The other technical scheme of the invention is as follows: a seal Internet of things system control method comprises the following steps:

(1) a user fills in application seal information on line through a seal Internet of things system background management platform;

(2) the approval personnel approve the seal on line through the background management platform of the Internet of things system of the seal, if the approval is unqualified, the seal cannot be used, otherwise, the step (3) is carried out;

(3) the user seal management system transmits the input identity information, time information and position information of the entity seal of the user to the first controller; the first controller compares the input data with the application seal information; if the comparison fails, the seal cannot be used, otherwise, the step (4) is carried out;

(4) the first controller transmits unlocking information to the second controller; the second controller controls the driver to operate;

(5) the driver drives the solid seal to automatically stamp;

meanwhile, the camera shoots the image in the stamping process or/and the image of the stamping file and transmits the shooting data to the first controller;

(6) the first controller transmits the camera shooting data to a background management platform of the seal Internet of things system for storage and filing.

Compared with the prior art, the invention has the beneficial effects that:

(1) the entity seal is blocked in the intelligent lock body, and can not be used without authorization, so that the use safety of the entity seal is greatly improved; in addition, the purpose of separating the human prints can be realized;

(2) the seal user applies for online through the seal Internet of things system background management platform, and the seal manager approves online through the seal Internet of things system background management platform, so that the seal user and the seal manager can be directly connected, and the printing process is efficient;

(3) by checking the photos of the stamped files of the background management platform of the stamp Internet of things system, the authenticity of the stamped files can be checked by the contract-related party, and the risk of fraud is reduced;

(4) the stamped file can be investigated at any time through a background management platform of the stamp Internet of things system; in a background management platform of the seal Internet of things system, a seal file can be filed, and seal details are recorded, such as: the time, place, people and the number of times of stamping are stamped, and the tracking capability is strong.

Drawings

FIG. 1 is a schematic diagram of a seal Internet of things system;

FIG. 2 is a flow chart of a seal Internet of things system control method;

FIG. 3 is a schematic diagram of the connection of a first controller to various modules;

FIG. 4 is a schematic diagram of the connection of a second controller to various modules;

FIG. 5 is a schematic structural diagram of an intelligent lock body;

FIG. 6 is a first structural view of the mounting barrel;

FIG. 7 is a schematic view of a first internal structure of the stamp cartridge assembly;

FIG. 8 is a second structural view of the mounting barrel;

FIG. 9 is a schematic view of a second internal structure of the stamp cartridge assembly;

in the figure: the system comprises a 1-seal Internet of things system background management platform, a 2-first-side seal management system, a 3-second-side seal management system, a 4-camera, a 5-installation cylinder, a 6-seal seat shell, a 7-keyboard module, an 8-fingerprint module, a 9-touch screen module, a 10-proximity sensor, an 11-second charging module, a 12-lead screw motor, a 13-second battery module, a 14-lead screw, a 15-solid seal, a 16-second controller, a 17-elastic guide rail, an 18-baffle, a 19-slide bar and a 20-file certificate storage box.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention. It is to be understood that the described embodiments are merely a few embodiments of the invention, and 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 invention.

Example 1: referring to fig. 1-7, the present invention provides a technical solution: a seal Internet of things system comprises a first party seal management system 2, a second party seal management system 3 and a seal Internet of things system background management platform 1; the first-party stamp management system 2 is communicated with the stamp Internet of things system background management platform 1 through a signal transmission line and is used for information transmission; the stamp management system B3 is communicated with the stamp Internet of things system background management platform 1 through a signal transmission line and is used for information transmission;

the first party stamp management system 2 and the second party stamp management system 3 have the same composition and control method, and now taking the first party stamp management system 2 as an example, the first party stamp management system 2 at least comprises an intelligent lock body, an entity stamp 15, a monitoring module, an identity authentication module, a network communication module and a file voucher storage box 20 with electronic locking and electronic unlocking functions;

the intelligent lock body comprises a seal seat assembly and a seal cylinder assembly;

wherein the stamp holder assembly comprises a stamp holder housing 6 and a first controller; the first controller is mounted within the stamp holder housing 6; the monitoring module comprises one or more cameras 4 with different shooting angles; the camera 4 is arranged on the seal seat shell 6 and is used for shooting behavior actions of specific workers in the seal process and shooting seal file characteristic images; the camera 4 is connected with the first controller through a data transmission line and used for transmitting the shooting data to the first controller; the identity authentication module is arranged on the seal seat shell 6 and used for verifying the identity of a worker; the identity authentication module is connected with the first controller through a data transmission line and used for transmitting verification information to the first controller; the network communication module is arranged on the stamp seat shell 6, is connected with the first controller through a data transmission line and is used for network communication between the first controller and the stamp Internet of things system background management platform 1; the document storage box 20 is mounted on the stamp seat housing 6 for storing documents and documents to be stamped and stamped, namely: the document and certificate storage box 20 cannot put in or take out documents or/and certificates when in a locked state, and the document and certificate storage box 20 can put in or take out documents or/and certificates when in an unlocked state, the monitoring module simultaneously monitors the whole process of the operation of the office staff on the document and certificate storage box 20, and the state of the document and certificate storage box 20 is controlled by the first controller;

the seal cylinder assembly comprises a mounting cylinder 5 with an opening at the bottom end, a driver and a second controller 16; the mounting cylinder 5 can be detachably mounted on the stamp seat shell 6; the second controller 16 is installed in the installation cylinder 5 and is respectively communicated with the driver and the first controller through data transmission lines; the solid seal 15 is arranged in the mounting cylinder 5, and the inner size of the mounting cylinder 5 is slightly larger than the outer size of the solid seal 15; the driver is arranged in the mounting cylinder 5 and drives the solid seal 15 to stamp according to a control signal of the second controller 16; wherein the driver is a lead screw motor 12; the screw motor 12 is arranged in the mounting cylinder 5, and a screw 14 of the screw motor 12 faces downwards; the non-seal surface of the solid seal 15 is fixedly connected with the lower end head of the lead screw 14, and the seal surface of the solid seal 15 faces the opening side of the mounting cylinder 5;

the solid seal 15 is sealed in the intelligent lock body; the intelligent lock body continues to block the solid seal 15 or drive the seal face stamping of the solid seal 15 according to the instruction transmitted by the seal internet of things system background management platform 1, and transmits information and data related to the stamping process to the seal internet of things system background management platform 1.

The user seal management system and the seal Internet of things system background management platform 1 are in network communication in a wireless communication mode; the network communication module comprises a 4G communication module and a WIFI communication module, and the 4G communication module is used for network communication and data transmission between the user seal management system and the seal Internet of things system background management platform 1; when the 4G network does not exist, the local area network can be switched to, and at the moment, the WIFI communication module is used for network communication and data transmission between the user seal management system and the seal Internet of things system background management platform 1.

In addition, the stamp holder assembly further comprises a first battery module, a first charging module, a satellite navigation positioning module, a touch screen module 9 and a keyboard module 7;

the identity authentication module is a fingerprint module 8 and is used for verifying the identity of the officer, including collecting, identifying and verifying the biological information characteristics of the officer;

the first battery module is arranged in the stamp seat shell 6, is connected with the first controller through a data transmission line, and is used for supplying power to the first controller, the satellite navigation positioning module, the fingerprint module 8, the camera 4 and the touch screen module 9;

the first charging module is arranged on the stamp seat shell 6, exposed, connected with the first controller through a data transmission line and used for charging the first battery module;

the fingerprint module 8 is arranged on the surface of the seal seat shell 6, is connected with the first controller through a data transmission line and is used for transmitting the input fingerprint information to the first controller;

the touch screen module 9 is installed on the surface of the seal holder shell 6, is connected with the first controller through a data transmission line, and is used for displaying data information sent by the first controller;

the keyboard module 7 is arranged on the surface of the seal seat shell 6, is connected with the first controller through a data transmission line, and can be used for verifying password information input by a manager;

the stamp cylinder assembly further comprises a second battery module 13 and a second charging module 11; the second battery module 13 is installed in the installation cylinder 5, is respectively connected with the second controller 16 and the screw motor 12 through data transmission lines, and is used for supplying power to the second controller 16 and the screw motor 12; the second charging module 11 is mounted on the mounting cylinder 5 and exposed, and is connected with the second controller 16 through a data transmission line, so as to charge the second battery module 13.

In addition, the system also comprises a first Bluetooth module and a USB interface module which are connected with the first controller through a data transmission line; the first bluetooth module is used for network communication and data transmission between the first controller and the second controller 16; the USB interface module can be used as an external interface part, can charge the first battery module when being connected with a charger or a PC, increases the endurance of the first battery module, and can also realize data transmission, namely: downloading data, pictures and the like in a user seal management system or a seal Internet of things system background management platform 1;

the Bluetooth mobile phone also comprises a proximity sensor 10, a second Bluetooth module, a start key and a pressure sensor;

the proximity sensor 10 is fixedly arranged on the outer wall surface of the installation cylinder 5, is connected with the second controller 16 through a data transmission line and is used for detecting the position of a file to be stamped;

the second bluetooth module is connected with the second controller 16 through a data transmission line, and is used for network communication and data transmission between the first controller and the second controller 16;

the starting key is arranged on the outer wall of the mounting cylinder 5, is connected with the second controller 16 through a data transmission line and is used for controlling the on-off of the screw motor 12;

the pressure sensor is mounted on the lead screw 14 and connected to the second controller 16 through a connection line for detecting a pressure change of the lead screw 14.

The support rod is composed of a plurality of connecting rods which are sequentially hinged end to end; one end of the supporting rod is arranged on the stamp seat shell 6, and the other opposite end is fixedly connected with the camera 4; the supporting rod can adjust the shooting position and the shooting angle of the camera 4 in a folding and rotating mode.

In order to improve the safety of the invention, the invention also comprises an anti-damage mechanism arranged in the seal cylinder component; the anti-damage mechanism can be a micro travel switch: a micro travel switch is respectively arranged on the screw rod motor 12, the second battery module 13 and the second controller 16, and a contact of the micro travel switch is in press-fit contact connection with the inner wall of the mounting cylinder 5; the micro travel switch is connected with the second controller 16 through a signal transmission line; the second controller 16 detects the occurrence of violent damage behavior according to the information transmitted by the anti-damage mechanism and transmits the signal to the first controller, and the first controller directly sends out an alarm signal and sends alarm information to the seal Internet of things system background management platform 1;

when the occurrence of violent damage or detachment is detected, the micro travel switch acts and sends a signal to the second controller 16, the second controller 16 acquires the occurrence of the destructive behavior and transmits the signal to the first controller, and the first controller directly sends an alarm signal and sends alarm information to the seal Internet of things system background management platform 1.

In order to further avoid separation of the stamp holder assembly and the stamp cartridge assembly, in a non-use state, the stamp holder assembly and the stamp cartridge assembly are constantly kept in heartbeat connection by means of near field wireless communication, namely: the seal seat assembly and the seal cylinder assembly are communicated with each other according to a certain frequency so as to ensure that the seal seat assembly and the seal cylinder assembly are within a safe distance from each other, and if the seal seat assembly and the seal cylinder assembly cannot be communicated with each other, the seal seat assembly directly sends out an alarm or gives an alarm to a seal Internet of things system background management platform 1;

when two or more single cards are positioned at the same place for cooperative stamping, the respective user seal management systems are constantly connected in a near field wireless communication mode, so that two or more related user seal management systems are determined to be really positioned in the same scene.

A seal Internet of things system control method takes control between a first-party seal management system 2 and a seal Internet of things system background management platform 1 as an example, wherein the first-party seal management system 2 is managed and used by a seal user, and the seal Internet of things system background management platform 1 collects and manages all seal information; the first party seal management system 2 and the seal Internet of things system background management platform 1 are in network communication through wireless, and the method comprises the following steps:

(1) the user applies for: the seal user gets into seal thing networking system backstage management platform 1 and carries out online application through cell-phone APP or computer customer end, and the information of filling in during online application includes: using a printer, using printing time, using printing place, a file needing to be stamped and using printing times;

(2) and (3) carrying out on-line examination and approval: seal managers enter the seal internet of things system background management platform 1 through a mobile phone APP or a computer client and conduct online auditing, and auditing information comprises: using a printer, using printing time, using printing place, a file needing to be stamped and using printing times; when one of the audit information does not meet the requirement, the user application is cancelled, otherwise, the user application information is transmitted to a first controller in a first-party seal management system 2 through a seal Internet of things system background management platform 1; the first controller transmits the acquired user application information to the touch screen module 9 and displays the information, and the display information of the touch screen module 9 is as follows: fingerprint verification result, total stamping times, stamped times and residual stamping times;

(3) intelligent identification:

a: the fingerprint data of a seal user is read through the fingerprint module 8 and is transmitted to the first controller; the first controller compares the fingerprint data applied by the user with the fingerprint data acquired by the fingerprint module 8, and judges whether the compared data are matched or not; (the fingerprint module 8 plays a role in identity authentication to ensure that the seal user is the same person as the authorized applicant);

b: time synchronization is carried out on the seal terminal through a time synchronization function in the satellite navigation positioning module, and time information is sent to the first controller; the first controller compares the time of printing when the user applies for with the time information sent by the satellite navigation positioning module, and judges whether the compared data are matched or not;

c: the satellite navigation positioning module positions the position information of the intelligent lock body and transmits the position information to the first controller; the first controller compares the printing place when the user applies for with the position information positioned by the satellite navigation positioning module, and judges whether the compared data are matched or not;

d: placing the file to be stamped in place, carrying out real-time image acquisition by the camera 4, and transmitting the acquired image to the first controller; the first controller compares files needing to be stamped when the user applies for the files with images collected by the camera 4, and judges whether the compared data are matched (the supporting rod is adjusted to obtain more comprehensive shot patterns, so that the shooting position and the shooting angle of the camera 4 are adjusted, and the files to be stamped all fall into the shooting view field of the camera 4);

when the comparison result of the first controller is that all the first controllers are not matched, the user applies for cancellation, otherwise, the first controller sends execution information to the second controller 16;

(4) unlocking intelligently: after receiving the authorization information, the second controller 16 makes the following determinations:

a: detecting whether a file to be stamped is close to the position right below the stamp cylinder assembly through a proximity sensor 10;

b: whether a start key is pressed down or not;

when any one of the above 2 items is no, the lead screw motor 12 stops working, otherwise, the second controller 16 controls the lead screw motor 12 to operate;

(5) and (3) automatic stamping: a lead screw in the lead screw motor 12 moves downwards and pushes the solid seal 15 out of the mounting cylinder 5 until the solid seal 15 is stamped on a file;

at the same time, the second controller 16 receives a signal from the pressure sensor indicating: when the entity seal 15 is sealed on the authorization file, the lead screw motor 12 immediately rotates reversely and returns to the installation cylinder 5 with the entity seal 15;

(6) and (3) retention and archiving: after the seal is finished, the seal file is captured, and the picture is transmitted to a background management platform 1 of the seal Internet of things system to be stored and filed;

meanwhile, the first controller compares the files needing to be stamped when the user applies for the files with the images captured by the camera 4 in real time, and gives an alarm if the contrast ratio is lower than a threshold value;

meanwhile, the first controller adjusts the display information of the touch screen module 9;

when the residual stamping times are not zero and the contrast ratio is higher than the threshold value, returning to the step (5); otherwise, the process is finished.

The whole stamping process and information are recorded in the background management platform 1 of the Internet of things system of the stamp, the party A can check the authenticity of a stamped file by checking the picture, and the party B can also confirm that the file is not illegally stamped or is illegally stamped (if the picture returned by the system is not seen, the illegal stamping is stamped), so that the use safety of the entity stamp 15 is enhanced.

For emergency use, the emergency password is input through the keyboard module 7, and the seal can be made without network and equipment damage.

Example 2: referring to fig. 8 and 9, embodiment 2 is different from embodiment 1 in that a stamp cartridge assembly; the stamp cylinder assembly comprises a mounting cylinder 5 with an opening at the bottom end, a second controller 16, a second battery module 13, a second charging module 11, a lead screw motor 12 and a baffle plate 18;

the mounting cylinder 5 can be detachably mounted on the stamp seat shell 6; the second controller 16 is installed in the installation cylinder 5 and is respectively communicated with the screw motor 12 and the first controller through data transmission lines;

the second battery module 13 is installed in the installation cylinder 5, is respectively connected with the second controller 16 and the screw motor 12 through data transmission lines, and is used for supplying power to the second controller 16 and the screw motor 12; the second charging module 11 is mounted on the mounting cylinder 5 and exposed, is connected with the second controller 16 through a data transmission line, and is used for charging the second battery module 13;

the screw motor 12 is arranged above the inside of the mounting cylinder 5, and a screw 14 of the screw motor 12 faces downwards; the baffle plate 18 is fixedly arranged at the lower end head of the screw rod 14;

the opposite side surfaces of the solid seal 15 are respectively connected with a slide bar 19, and the two slide bars 19 are positioned on the same straight line;

also comprises two elastic guide rails 17; the top cover of the mounting cylinder can be mounted at the upper end of the mounting cylinder in a vertically sliding manner; the two elastic guide rails 17 are oppositely arranged in the mounting cylinder, the bottom ends of the elastic guide rails 17 are fixedly connected to the bottom end of the mounting cylinder, and the top ends of the elastic guide rails 17 are fixedly connected to the bottom end of the top cover; the two sliding rods 19 are respectively fixedly connected to the middle parts of the two elastic guide rails 17, the solid stamp 15 is positioned below the baffle plate 18, and the stamp face of the solid stamp 15 is close to the baffle plate 18; when the top cover is pressed down, the elastic guide rail 17 makes a synchronous motion of compression and bending, and drives the slide rod 19 to make a downward movement and a rotary linkage motion along the axis of the slide rod, and simultaneously, the seal surface of the solid seal 15 stamps on a file.

The seal Internet of things system control method is different from the embodiment 1 in the steps (4) and (5), and mainly comprises the following steps:

(1) the user applies for: the seal user gets into seal thing networking system backstage management platform 1 and carries out online application through cell-phone APP or computer customer end, and the information of filling in during online application includes: using a printer, using printing time, using printing place, a file needing to be stamped and using printing times;

(2) and (3) carrying out on-line examination and approval: seal managers enter the seal internet of things system background management platform 1 through a mobile phone APP or a computer client and conduct online auditing, and auditing information comprises: using a printer, using printing time, using printing place, a file needing to be stamped and using printing times; when one of the audit information does not meet the requirement, the user application is cancelled, otherwise, the user application information is transmitted to a first controller in a first-party seal management system 2 through a seal Internet of things system background management platform 1; the first controller transmits the acquired user application information to the touch screen module 9 and displays the information, and the display information of the touch screen module 9 is as follows: fingerprint verification result, total stamping times, stamped times and residual stamping times;

(3) intelligent identification:

a: the fingerprint data of a seal user is read through the fingerprint module 8 and is transmitted to the first controller; the first controller compares the fingerprint data applied by the user with the fingerprint data acquired by the fingerprint module 8, and judges whether the compared data are matched or not; (the fingerprint module 8 plays a role in identity authentication to ensure that the seal user is the same person as the authorized applicant);

b: time synchronization is carried out on the seal terminal through a time synchronization function in the satellite navigation positioning module, and time information is sent to the first controller; the first controller compares the time of printing when the user applies for with the time information sent by the satellite navigation positioning module, and judges whether the compared data are matched or not;

c: the satellite navigation positioning module positions the position information of the intelligent lock body and transmits the position information to the first controller; the first controller compares the printing place when the user applies for with the position information positioned by the satellite navigation positioning module, and judges whether the compared data are matched or not;

d: placing the file to be stamped in place, carrying out real-time image acquisition by the camera 4, and transmitting the acquired image to the first controller; the first controller compares files needing to be stamped when the user applies for the files with images collected by the camera 4, and judges whether the compared data are matched (the supporting rod is adjusted to obtain more comprehensive shot patterns, so that the shooting position and the shooting angle of the camera 4 are adjusted, and the files to be stamped all fall into the shooting view field of the camera 4);

when the comparison result of the first controller is that all the first controllers are not matched, the user applies for cancellation, otherwise, the first controller sends execution information to the second controller 16;

(4) unlocking intelligently: after receiving the authorization information, the second controller 16 makes the following determinations:

a: detecting whether a file to be stamped is close to the position right below the stamp cylinder assembly through a proximity sensor 10;

when the file to be stamped is not positioned right below the stamp cylinder assembly, the lead screw motor 12 stops working, otherwise, the second controller 16 controls the lead screw motor 12 to rotate reversely and drives the baffle 18 to move upwards (or retract) to reserve a space for overturning the solid stamp 15;

(5) and (3) automatic stamping: pressing down the top cover, making the elastic guide rail 17 perform compression and bending synchronous motion, driving the slide rod 19 to perform downward movement and rotational linkage motion along the axis of the slide rod, and simultaneously, stamping a file on the stamp face of the solid stamp 15;

the second controller 16 then receives the signal from the pressure sensor indicating: the physical seal 15 is sealed on the authorization file;

then, the top cover resets, and the elastic guide rail 17 resets under the action of elastic restoring force;

(6) and (3) retention and archiving: after the seal is finished, the seal file is captured, and the picture is transmitted to a background management platform 1 of the seal Internet of things system to be stored and filed;

meanwhile, the first controller compares the files needing to be stamped when the user applies for the files with the images captured by the camera 4 in real time, and gives an alarm if the contrast ratio is lower than a threshold value;

meanwhile, the first controller adjusts the display information of the touch screen module 9;

when the residual stamping times are not zero and the contrast ratio is higher than the threshold value, returning to the step (5); on the contrary, the lead screw motor 12 rotates forward and drives the baffle 18 to move down to the seal surface close to the solid seal 15, and the solid seal 15 cannot be used because the solid seal 15 does not have enough turning space.

The stamp seat shell 6 can be in any form, preferably, the stamp seat shell 6 is of a suitcase type structure; an interlayer is arranged in the seal seat shell 6 and serves as a document certificate storage box 20; the seal cylinder assembly is arranged in the suitcase; the camera 4 is arranged on a cover in the suitcase;

the suitcase has the following using modes:

(1) when not in use, the suitcase is in a closed state;

(2) when in use, the suitcase is opened, and the stamp cylinder assembly is taken out;

simultaneously, taking out the seal cylinder assembly from the seal cylinder assembly and stamping;

at the same time, the camera 4 in the suitcase monitors the stamp usage.

The suitcase type design structure is compact, and the use is more convenient.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. A seal Internet of things system is characterized in that: the stamp management system comprises a plurality of user stamp management systems and a stamp Internet of things system background management platform (1), wherein each user stamp management system is communicated with the stamp Internet of things system background management platform (1) through a signal transmission line and is used for information transmission;

the user seal management system at least comprises an intelligent lock body and an entity seal (15); the solid seal (15) is sealed in the intelligent lock body; the intelligent lock body continues to block the solid seal (15) or drive the seal face stamping of the solid seal (15) according to the instruction transmitted by the seal Internet of things system background management platform (1), and transmits information and data related to the stamping process to the seal Internet of things system background management platform (1);

the user seal management system at least comprises a monitoring module and a file certificate storage box (20) with electronic locking and electronic unlocking functions;

the monitoring module comprises one or more cameras (4) with different shooting angles; the camera (4) is arranged on the intelligent lock body and is used for shooting behavior actions of specific workers in the stamping process or/and shooting a stamping file characteristic image;

the file certificate storage box (20) is arranged on the intelligent lock body and is used for storing files to be stamped or/and certificates;

the document certificate storage box (20) cannot put in or take out documents or/and certificates when in a locked state; when the document certificate storage box (20) is in an unlocked state, documents can be put in or taken out, or/and the certificates are placed in or taken out, and at the moment, the monitoring module monitors the document certificate storage box (20) and the documents in the document certificate storage box, or/and the whole process of certificate operation by an operator; specifically, the method comprises the following steps:

the operation of the office staff on the document certificate storage box (20) comprises locking and unlocking; the operation of the office staff on the file or/and the certificate specifically comprises putting in, taking out and stamping.

2. The stamp internet-of-things system according to claim 1, wherein: the intelligent lock body comprises a seal seat assembly and a seal cylinder assembly;

the stamp seat assembly comprises a stamp seat housing (6) and a first controller; the first controller is mounted in the stamp holder housing (6); the camera (4) is connected with the first controller through a data transmission line and used for transmitting the shooting data to the first controller;

the seal cylinder assembly comprises a mounting cylinder (5) with an opening at the bottom end, a driver and a second controller (16); the mounting cylinder (5) can be detachably mounted on the stamp seat shell (6); the second controller (16) is arranged in the mounting cylinder (5) and is respectively communicated with the driver and the first controller through data transmission lines; the solid seal (15) is arranged in the mounting cylinder (5), and the inner size of the mounting cylinder (5) is slightly larger than the outer size of the solid seal (15); the driver is installed in the installation cylinder (5) and drives the solid seal (15) to stamp according to the control signal of the second controller (16).

3. The stamp internet-of-things system according to claim 2, wherein: the satellite navigation positioning module is arranged in the seal seat shell (6); the satellite navigation positioning module is connected with the first controller through a data transmission line and is used for transmitting time information or/and position information of the entity seal (15) to the first controller.

4. The stamp internet-of-things system according to claim 3, wherein: the driver is a lead screw motor (12); the screw motor (12) is arranged in the mounting cylinder (5), and a screw (14) of the screw motor (12) faces downwards;

the non-seal surface of the solid seal (15) is fixedly connected with the lower end head of the lead screw (14), and the seal surface of the solid seal (15) faces the opening side of the mounting cylinder (5).

5. The stamp internet-of-things system according to claim 1, wherein: the anti-damage mechanism is arranged in the seal cylinder assembly; the damage prevention mechanism is connected with a second controller (16) through a signal transmission line;

the second controller (16) directly sends out an alarm signal according to the information transmitted by the anti-damage mechanism; or/and; the second controller (16) transmits information transmitted by the anti-damage mechanism to the first controller, and the first controller directly sends out an alarm signal or sends alarm information to the seal Internet of things system background management platform (1).

6. The stamp internet-of-things system according to claim 1, wherein: the seal holder assembly and the seal cylinder assembly are constantly connected in a near field wireless communication mode.

7. The stamp internet-of-things system according to claim 1, wherein: when two or more units stamp in cooperation, the respective user stamp management systems are constantly connected in a near field wireless communication mode.

8. The seal Internet of things system control method according to claim 4, characterized by comprising the following steps:

s1, the user fills in the seal information for application on line through the seal Internet of things system background management platform (1);

s2, carrying out on-line examination and approval by an examination and approval person through the seal Internet of things system background management platform (1), if the examination and approval is unqualified, the seal cannot be used, otherwise, entering S3;

s3, the user seal management system transmits the input identity information, time information and position information of the entity seal (15) of the user to the first controller; the first controller compares the input data with the application seal information; if the comparison fails, the seal cannot be used, otherwise, the operation goes to S4;

s4, the first controller transmits unlocking information to the second controller (16); the second controller (16) controls the operation of the driver;

s5, driving the solid seal (15) by the driver to seal automatically;

meanwhile, the camera (4) shoots the seal process image or/and the seal file image and transmits the camera shooting data to the first controller;

s6, the first controller transmits the camera shooting data to the seal Internet of things system background management platform (1) for storage and filing.

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