CN111382461A - Stamp system, seal authorization method, identification method, authorization server and authorization identification system - Google Patents

Abstract

The invention discloses a stamp system, a seal stamp authorization method, an identification method, an authorization server and an authorization identification system, which solve the problem that the existing seal cannot authorize the seal and perform closed-loop control on a use event. A stamp system, a stamp face including a design for stamp, comprising: the printing system comprises an input module, a communication module, a printing module, a triggering module and a processing module; an input module for inputting an authorization code; a communication module for receiving an identification pattern; the printing module is used for printing the identification pattern; a trigger module for generating an electrical trigger signal; the processing module is used for identifying the authorization code, starting the communication module and collecting the sensing signal; and driving the printing module according to the sensing signal. The seal authorization method uses a stamp system. The seal stamp authorization server is used for the authorization of the seal stamp system. The seal identification method is used for identifying the authority of the seal pattern. The seal authorized identification system includes a stamp system and a server. The invention realizes the functions of seal authorization and reverse identification.

Description

Stamp system, seal authorization method, identification method, authorization server and authorization identification system

Technical Field

The invention relates to the technical field of communication and safety, in particular to a stamp system, a stamp authorization method, a server, an identification method and an authorization identification system.

Background

The seal is used as a stationery which is printed on a document to represent authentication or signing, along with the development of science and technology, the safety of the seal is increasingly threatened, and more seals are generated by using counterfeiting events, so that immeasurable economic loss is brought. The existing seal only contains a seal face, the use authorization event cannot be determined in the seal use process, one-time authorization for multiple use, authorization for use at other times at specific time, authorization for use of a first file by using other actual files, and closed-loop control over the seal authorization use condition and the seal actual use condition can not be performed. Most of the existing seal authorization and identification methods adopt manual authorization and identification methods, which brings the problems of high time cost, low identification efficiency and unfavorable batch authorization and identification of seal authorization and use.

Disclosure of Invention

The invention provides a stamp system, a stamp authorization method, an identification method, an authorization server and an authorization identification system, solves the problem that the existing stamp cannot perform closed-loop control on stamp authorization events and stamp use events, and solves the problem that the existing authorization and identification methods are low in efficiency.

A stamp system, a stamp surface including a design for stamp, the stamp system further comprising: the printing system comprises an input module, a communication module, a printing module, a triggering module and a processing module; the input module is used for inputting an authorization code; the communication module is used for receiving an identification pattern; the printing module is used for printing an identification pattern corresponding to the authorization code; the trigger module is used for converting the mechanical pressure into an electric trigger signal; the processing module is used for identifying the authorization code, collecting the electric trigger signal and driving the printing module.

Further, the stamp system further includes: a camera; the processing module is also used for driving the camera and acquiring video images or pictures.

Preferably, the communication module is further configured to download an authorization code corresponding to the identification pattern.

Further, the communication module is further configured to receive a task number corresponding to the authorization code; and the processing module is also used for detecting the actual printing times, comparing the actual printing times with the task times and driving the printing module according to the comparison result.

Further, the communication module is further configured to receive a task time corresponding to the authorization code; and the processing module is also used for detecting the actual printing time, comparing the actual printing time with the task time and driving the printing module according to the comparison result.

Preferably, the communication module is further configured to send the video image or the picture data.

Preferably, the input module is further configured to input a PIN code; and when the PIN code is wrong, the processing module does not work.

Further, the communication module is also used for uploading at least one of the following monitoring data, actual printing time, actual printing times, video image or picture data.

Preferably, the communication module adopts a WIFI communication technology or a cellular communication technology.

Further, the stamp system further includes: a storage module; the storage module is used for storing at least one of the following task data: task times, task time, authorization codes and identification patterns; the processing module is further used for calling the task data.

Further, the stamp system further includes a position limiting member. The limiting component is positioned between the stamping surface and the printing module and used for mechanically connecting the stamping surface and the printing module, fixing the positions of the stamping surface and the printing module and limiting the distance between the stamping surface and the printing module.

Preferably, the processing module is connected with the printing module in a wireless communication mode; the printing modules correspond to the printing surfaces one by one.

A seal stamp authorizing method using said stamp system, comprising the steps of: inputting an authorization code to the stamp system; and printing an identification pattern corresponding to the authorization code when the seal is generated.

Further, before the step of inputting the authorization code to the stamp, the method further includes: sending the application data to the server; and generating task data by the server, wherein the task data comprises an authorization code and an identification pattern corresponding to the task.

Further, before the step of printing the identification pattern corresponding to the authorization code when sealed, the method further includes: and downloading the identification pattern from a server in real time according to the authorization code.

Preferably, after the step of inputting an authorization code to the stamp system, the method further comprises: downloading, by the server, at least one of: task time, task times and camera use task.

Preferably, the method further comprises: uploading monitoring data to a server, including at least one of: actual impression time, actual impression count, video image or picture data.

An seal stamp authorization server for said stamp system, further comprising: a server; the server is used for generating an authorization code and a corresponding identification pattern according to the application for printing.

Further, the server is further configured to generate at least one of a task time and a task number corresponding to the authorization code.

Further, the server is further configured to receive and store monitoring data, including at least one of: actual impression time, actual impression count, video image or picture data.

Preferably, the server is further configured to establish communication with the stamp system based on the PIN code.

A signature recognition method using the server, comprising: acquiring the identification pattern; and inquiring the application data and/or task data for printing from the server according to the identification pattern.

An seal identification system, comprising the stamp system according to any one of the embodiments of the present application and the server according to any one of the embodiments of the present application.

Further, the system further comprises: a mobile terminal; the mobile terminal is used for scanning the identification pattern; the server is further used for searching at least one of the following according to the identification pattern: task data, monitoring data, application data.

The beneficial effects of the invention include: the seal, the authorization method, the server, the system, the identification method and the authorization identification system can synchronously print a printing pattern on line or off line when the seal is used according to the authorization code, are used for authorizing the use of the seal, can also be used for reversely identifying the use condition of the seal, and realize closed-loop control on the authorization condition and the actual condition of the seal; meanwhile, the task information is generated once by one application, the printing time, the printing place, the printing position, the printing person, the printing times, the authorized person, the printing pattern and the like can be stored and recorded, and the big data statistics of the printing use and the query of the printing event are facilitated.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the invention and not to limit the invention. In the drawings:

FIG. 1 is an embodiment of a stamp system;

FIG. 2 is an embodiment of a stamp system including a memory module;

FIG. 3 is an embodiment of a stamp system including a camera;

FIG. 4 is a flowchart of an embodiment of a seal authorization method;

FIG. 5 is a flowchart of an embodiment of a seal authorization method including an authorization process;

FIG. 6 is a flowchart of an embodiment of a seal authorization method including online downloading of identification patterns;

FIG. 7 is a flowchart of an embodiment of a seal authorization method including a seal application task;

FIG. 8 is a flowchart of an embodiment of a seal authorization method including seal monitoring;

FIG. 9 is an embodiment of a seal authorization server;

FIG. 10 is a flowchart of an embodiment of a seal identification method;

FIG. 11 is an embodiment of a seal authorization identification system;

fig. 12 is a diagram of an embodiment of a seal authorization identification system including a mobile terminal.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the technical solutions of the present invention will be clearly and completely described below with reference to the specific embodiments of the present invention and the accompanying drawings. It is to be understood that the described embodiments are merely exemplary of the invention, and not restrictive of the full scope of the invention. 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.

The technical solutions provided by the embodiments of the present invention are described in detail below with reference to the accompanying drawings.

Fig. 1 is a stamp system embodiment for simultaneously printing an identification pattern at the time of stamping, and as an embodiment of the present application, a stamp system 20 in which a stamp face 6 includes a pattern for stamping, the stamp system further comprising: the device comprises an input module 1, a communication module 2, a printing module 3, a triggering module 4 and a processing module 5.

The input module is used for inputting an authorization code; the communication module is used for receiving an identification pattern; the printing module is used for printing an identification pattern corresponding to the authorization code; the trigger module is used for converting the mechanical pressure into an electric trigger signal; the processing module is used for identifying the authorization code, starting the communication module, collecting the electric trigger signal and driving the printing module according to the electric trigger signal.

It should be noted that the communication module may adopt a wireless communication mode, such as a WIFI communication technology, a cellular communication technology (4G network, 5G network), an infrared communication, and a bluetooth communication, and may also adopt a wired communication mode, such as a network cable, which is not limited herein.

Preferably, the communication module is further configured to download an authorization code corresponding to the identification pattern, and it should be noted that the communication module is configured to upload data of the stamp system and/or download data to the stamp system, and the communication module employs a bidirectional communication manner.

It should be noted that the authorization codes correspond to the identification patterns one to one.

Preferably, the communication module is further configured to receive a task number corresponding to the authorization code; and the processing module is also used for detecting the actual printing times, comparing the actual printing times with the task times and driving the printing module according to the comparison result. The printing module comprises a printing drive or a printing head, wherein the printing head is provided with a nozzle ink bag for printing an identification pattern, and the printing head can be arranged in the center or at the periphery of a printing line. The processing module compares the actual printing times with the task times, and drives the printing module to print an identification pattern when the actual printing times are less than the task times; and when the actual printing times are not less than the task times, the processing module drives the printing module to print an invalid pattern or not print a pattern.

Further, the communication module is further configured to receive a task time corresponding to the authorization code; and the processing module is also used for detecting the actual printing time, comparing the actual printing time with the task time and driving the printing module according to the comparison result. The processing module compares the actual printing time with the task time, and drives the printing module to print the identification pattern when the actual printing time is within the range of the task time; and when the actual printing time is not in the range of the task time, the processing module drives the printing module to print an invalid pattern or a non-printing pattern.

Further, the input module is also used for inputting a PIN code; and when the PIN code is wrong, the processing module does not work. The task data contains the PIN code, which can be used for encryption processing. The PIN code needs to be input before the applicant inputs the authorization code, and when the PIN code is input correctly, the authorization code can be continuously input; when the PIN code is input incorrectly, the PIN code does not enter an input authorization code interface, the continuous input errors of the PIN code reach a certain degree, the processing module is locked, and the PIN code can be unlocked after a period of time after being locked and can also be unlocked by a person waiting for authorization.

Preferably, the communication module is further configured to upload at least one of the following monitoring data, actual printing time, and actual printing times. The processing module can acquire the actual printing time and the actual printing times according to the electric trigger signal returned by the trigger module, and the communication module uploads the monitoring data for data storage and query.

The input module may be a numeric keypad or other device capable of inputting an authorization code, and is not limited herein.

The stamp system may further include: a display screen for displaying at least one of: the identification pattern, the authorization code, the task time, the task times, the actual printing time and the actual printing times.

The stamp system further includes: and the power supply module is used for supplying power.

Regarding the trigger module. The trigger module is mechanically connected with the printing surface of the device, and is directly connected or connected through a printing handle. When the stamp is used, in order to realize stamp and printing synchronization, the mechanical switch conducting circuit can be pressed to form an electric trigger signal while stamping, or the pressure of the stamp face or the stamp handle is sensed by the pressure sensor to generate an electric trigger signal trigger module, and the electric trigger signal trigger module is not specifically limited. The force for generating the output signal by the trigger module may be a force directly applied to the apparatus by a person or a reaction force of the printing surface on the paper, and is not particularly limited herein.

It should be noted that the identification pattern may be a character string, a bar code, a two-dimensional code, a pattern, etc., may be a machine-recognizable pattern, may be a human-recognizable pattern, and may be a pattern or a character string generated by an encryption algorithm, which is not limited herein.

The stamp system that this embodiment provided can print the identification pattern simultaneously at the stamp, possesses the authorization function to the seal use, can encrypt the use to the seal user simultaneously and prescribe a limit, has increased the security of seal impression authorization and use, possesses the closed loop monitor function to seal application service data and in-service use data.

Fig. 2 is a stamp system embodiment including a memory module, which can print an identification pattern according to the memory module offline, and as an embodiment of the present invention, a stamp 20 includes: the device comprises an input module 1, a communication module 2, a printing module 3, a triggering module 4, a processing module 5 and a storage module 7.

The input module is used for inputting an authorization code; the communication module is used for receiving an identification pattern; the printing module is used for printing an identification pattern corresponding to the authorization code; the trigger module is used for generating an electric trigger signal; the processing module is used for identifying the authorization code, starting the communication module, collecting an electric trigger signal and driving the printing module according to the electric trigger signal.

The storage module is used for storing at least one of the following task data: task times, task time, authorization codes and identification patterns; the processing module is further used for calling the task data.

The storage module can store a group of authorization codes and identification patterns corresponding to the authorization codes, and the processing module calls the identification patterns according to the authorization codes and drives the printing module to work; the storage module can also store a plurality of groups of authorization codes and identification patterns corresponding to the authorization codes, and the processing module inquires the identification patterns according to the authorization codes and drives the printing module to work; the storage module can also store other task data, including task times and/or task time; the storage module can also store monitoring data, including actual stamp using times and/or actual stamp using time, and can be used for uploading the stamps when the stamps are networked.

The task data may also include: the information of the printing place, the printing file, the printing position and the like, and the task data corresponds to the authorization code.

The stamp system provided by the embodiment of the invention comprises a storage module, wherein the storage module is used for storing the identification pattern and/or the task data in advance, and the off-line authorization function of the stamp can be realized.

Fig. 3 is a stamp system embodiment including a camera, which can be visually monitored according to the use of the stamp system, and as an embodiment of the present application, the stamp system 20, the stamp face 6 includes a pattern for a stamp, and the stamp system further includes: the device comprises an input module 1, a communication module 2, a printing module 3, a triggering module 4, a processing module 5, a storage module 7 and a camera 8.

The input module is used for inputting an authorization code; the communication module is used for receiving an identification pattern; the printing module is used for printing an identification pattern corresponding to the authorization code; the trigger module is used for converting the mechanical pressure into an electric trigger signal; the processing module is used for identifying the authorization code, starting the communication module, collecting the electric trigger signal, driving the camera according to the electric trigger signal, collecting a video image or a picture, and calling the task data; andor, driving the printing module according to the electrical trigger signal; the storage module is used for storing at least one of the following task data: task times, task time, authorization codes, identification patterns.

As an embodiment of the present invention, the storage module may be configured to store task data and monitoring data, where the task data at least includes one of the following items: task times and/or task time, wherein the monitoring data at least comprises one of the following items: actual number of impressions, actual impression time, said video image or picture data.

As an embodiment of the present invention, the communication module is further configured to send the video image or the picture data, and further, the communication module is further configured to upload at least one of the following monitoring data: actual impression time, actual impression count, video image or picture data.

As the embodiment of the invention, the camera shoots the environment information and/or the information of the paper surface where the stamp is located through the form of video images or pictures at the stamp moment.

The stamp system provided by the embodiment of the invention comprises the camera, and can carry out visual monitoring during stamp use; the system comprises a storage module, and can record task data and monitoring data, so that the stamp system can be used in an off-line working mode or accessed to the Internet for on-line use.

In the embodiments shown in fig. 1 to 3, the stamp system may authorize a stamp while stamping a pattern, for example, the stamp system is a stamp device, and the stamp face includes the pattern for stamping, and further includes the input module, the communication module, the printing module, the trigger module, and the processing module, and the printing module includes at least one micro print head installed at the center of or around the stamp face.

In the embodiments shown in fig. 1 to 3, for another example, the stamp system is a printer system with a communication function, and a stamp face with a trigger module is mounted in the printer system.

In the embodiments shown in FIGS. 1-3, for another example, the stamp system includes a printer with a communication function and a stamp with a trigger module; a limiting part, such as a clamping groove or a connecting piece, is arranged between the stamping surface of the stamp and the printing module and used for mechanically connecting the stamping surface and the printing module, fixing the positions of the stamping surface and the printing module and limiting the distance between the stamping surface and the printing module.

Furthermore, the processing module is wirelessly connected with the printing module, and the printing module corresponding to the printing surface is determined through a handshake signal.

Preferably, the stamp face corresponds to a unique print module, and the print module corresponds to a unique stamp face.

Fig. 4 is a flowchart of an embodiment of a seal authorization method for authorizing a seal to be used, and as an embodiment of the present application, the seal authorization method includes the following steps:

step 103, input the authorization code to the stamp system.

In step 103, the authorization code is entered by the input module, the authorization code being entered by the applicant.

And 106, printing an identification pattern corresponding to the authorization code when the seal is generated.

In step 106, the stamp system prints the identification pattern according to the authorization code, and the applicant presses the stamp of the stamp system while printing the identification pattern after the applicant is authorized to use the stamp system.

For realizing stamp and printing synchronization, for example, a pressure sensor can be used for monitoring the pressure of the stamp face and outputting an electric trigger signal; or the mechanical force generated by the stamp is converted into an electric trigger signal through a mechanical switch, and then a time reference is provided for printing through the electric trigger signal.

As a further preferred embodiment of the method, when the stamp face of the stamp system is pressed, a video image or a photograph of the environment or the paper surface is taken.

For realizing stamp and shooting synchronization, for example, a pressure sensor can be used for monitoring the stamp face pressure and outputting an electric trigger signal; or the mechanical force generated when the stamp is pressed is converted into an electric trigger signal through a mechanical switch, and then a time reference is provided for photographing through the electric trigger signal.

Fig. 5 is a flowchart of an embodiment of a seal authorization method including an authorization process, including a seal authorization use process, as an embodiment of the present application, a seal authorization method including the following steps:

step 101, sending application data to a server.

In step 101, the applicant issues a user application to a server, and the server approves the user application, wherein the user application data may include: the application data may further include a camera application, the camera application may be a video recording application or a photo taking application, and the application data may further include other data related to the application, which is not limited herein.

It should be further noted that there are two ways for the server to approve the application for use: the server can automatically approve according to the application for the stamp, or can approve through a background, namely, an approver approves the application for the stamp.

Step 102, generating task data through a server, wherein the task data comprises an authorization code and an identification pattern corresponding to a task.

In step 102, the authorization code and the identification pattern are uniquely corresponding to each other, and the server generates the authorization code and the identification pattern corresponding to the task according to the application for printing.

Step 103, input the authorization code to the stamp system.

And 106, printing an identification pattern corresponding to the authorization code when the seal is generated.

In step 106, the identification pattern may be downloaded in advance, and the stamp system invokes the identification pattern according to the authorization code to perform offline printing of the identification pattern.

The seal impression authorization method provided by the embodiment of the invention comprises a seal impression authorization process, and can be used for carrying out on-line examination and approval on a seal application through a server and carrying out off-line printing according to an identification pattern stored on line by a seal.

Fig. 6 is a flowchart of an embodiment of a seal authorization method including an online download of an identification pattern, which can be used for online printing of the identification pattern, and as an embodiment of the present application, the seal authorization method includes the following steps:

step 101, sending application data to a server.

Step 102, generating task data through a server, wherein the task data comprises an authorization code and an identification pattern corresponding to a task.

Step 103, input the authorization code to the stamp system.

And 105, downloading the identification pattern from a server in real time according to the authorization code.

In step 105, the authorization code uniquely corresponds to the identification pattern and is stored in the server, and the server is configured to issue the identification pattern corresponding to the authorization code in real time according to the received authorization code.

And 106, printing an identification pattern corresponding to the authorization code when the seal is generated.

The seal authorization method provided by the invention can realize the on-line issuing and printing of the identification pattern, and the server is accessed to the Internet and can provide various identification patterns.

Fig. 7 is a flowchart of an embodiment of a seal authorization method including a seal task, which can issue task data, and as an embodiment of the present application, the seal authorization method includes the following steps:

step 101, sending application data to a server.

Step 102, generating task data through a server, wherein the task data comprises an authorization code and an identification pattern corresponding to a task.

Step 103, input the authorization code to the stamp system.

104, downloading at least one of the following items to the stamp system through the server: task time, task times and camera use task.

In step 104, the server issues at least one of task time, task times and camera use tasks according to the authorization code, and the processing module monitors the use of printing conditions according to the task time and the task times, so as to meet the allowed use of printing of conditions, or else, the use of printing or printing of invalid patterns is not allowed; and the processing module allows or disallows the camera to be used according to the camera use task, and when the camera is allowed to be used, video recording or picture shooting is carried out when the printing surface is pressed down.

And 105, downloading the identification pattern from a server in real time according to the authorization code.

And 106, printing an identification pattern corresponding to the authorization code when the seal is generated.

The seal authorization method of the embodiment of the invention judges the task time and the task times and monitors the actual seal using condition according to the judgment result, thereby realizing the closed-loop monitoring of the seal authorization and the use; in addition, the use task of the camera can be judged, and the stamp system is controlled to carry out visual operation when the stamp face is pressed down.

Fig. 8 is a flowchart of an embodiment of a seal authorization method including seal usage monitoring, which feeds back and records the actual seal usage, and as an embodiment of the present application, a seal authorization method includes the following steps:

step 101, sending application data to a server.

Step 102, generating task data through a server, wherein the task data comprises an authorization code and an identification pattern corresponding to a task.

Step 103, input the authorization code to the stamp system.

And 106, printing an identification pattern corresponding to the authorization code when the seal is generated.

In step 106, the stamp system may be used in an offline operating mode, and the processor queries the identification pattern corresponding to the authorization code according to the authorization code and drives the print module to operate.

In step 106, the storage module may store a set of authorization codes and identification patterns, and the processing module directly invokes the identification patterns according to the authorization codes.

In step 106, the storage module may further store a plurality of sets of authorization codes and identification patterns, and the processing module queries the storage module according to the authorization codes to obtain the identification patterns corresponding to the authorization codes.

And step 107, uploading monitoring data including actual printing time, actual printing times and video image or picture data to the server.

In step 107, the stamp system uploads the monitoring data to the server through the communication module, wherein the monitoring data at least includes one of actual stamp using time, actual stamp using times, video image or picture data.

It should be noted that the monitoring data may include at least one of actual printing time, actual printing times, video image or picture data, and may further include other information related to actual printing conditions, which is not limited herein.

It should be noted that the video image or picture data is information of the environment or paper surface taken when the stamp face of the stamp system is pressed down.

In step 107, the stamp system may be used in an offline working mode, the monitoring data may be stored in the storage module, and the monitoring data may be transmitted to the server when the stamp system establishes communication with the server.

As a further embodiment of the method, the stamp system may be used in an online work mode, the stamp system uploading the monitoring data to the server in real time, e.g., the stamp system uploads the monitoring data to the server once each time it finishes a stamp application; for another example, after the stamp system finishes the set number of times of stamp use, the monitoring data is immediately uploaded to the server once, and the set number of times is not limited; for another example, the stamp system may upload the monitoring data to the server according to a fixed communication cycle, where the communication cycle may be set, and when the monitoring data is not changed in two or more adjacent communication cycles, the monitoring data uploaded to the server may be selected to be uploaded, may also be selected to be uploaded while uploading the non-updated description, and may also be selected to be directly uploaded with the non-updated description.

In the seal stamp authorization method provided by the embodiment of the invention, the authorization code and the identification pattern can be stored in the stamp system in advance, so that the stamp system can be used for offline authorization, in addition, the monitoring data can be uploaded to a server, and the server stores the monitoring data, so that the seal stamp authorization method can be used for inquiring the use condition of the stamp system and counting big data.

Fig. 9 shows an embodiment of a seal impression authorization server for authorizing the use of a seal impression, and as an embodiment of the present application, the seal impression authorization server for the seal 20 further includes: a server 8.

The server is used for generating an authorization code and a corresponding identification pattern according to the application for printing.

The applicant proposes a printing application to the server, and the server generates an authorization code and an identification pattern corresponding to the authorization code according to the printing application, wherein the authorization code is uniquely corresponding to the identification pattern.

Preferably, the server is further configured to generate at least one of a task time and a task number corresponding to the authorization code. Preferably, the server is further configured to receive and store monitoring data, including at least one of: actual impression time, actual impression count, video image or picture data.

Preferably, the server is further configured to establish communication with the stamp according to a PIN code, the server determines the PIN code, and when the PIN code is correct, the server establishes communication with the stamp system, and the stamp system starts to work; when the PIN code is wrong, the stamp system cannot authorize the use, e.g., the server does not establish communication with the stamp system, or the stamp system processing module does not operate, or the stamp system communication module does not operate, or the stamp system printing module does not operate, or the stamp system triggering module does not operate.

As a further embodiment of the present invention, the application for printing includes at least one of an applicant, an authorizer, an application time, an application location, an application file, and a camera use application, the server is further configured to generate a camera task corresponding to the authorization code, the processing module is further configured to control the camera to acquire a video image or picture according to the camera task and upload the video image or picture to the server, and the server is further configured to receive and store the video image or picture data.

The seal authorization server provided by the embodiment of the invention is used for seal authorization, the seal system establishes communication with the server through the communication module, and the server can be connected with the Internet to update the type of the identification pattern.

Fig. 10 is a flowchart of an embodiment of a seal identification method, using a seal authorization server for reverse identification of a seal pattern, as an embodiment of the present application, the seal identification method includes the following steps:

step 201, acquiring the identification pattern.

In step 201, the identification pattern is printed upon stamping, with the seal impression present. The scanning may be obtained by the mobile terminal, or may be obtained by other scanning devices, which is not particularly limited herein.

Step 202, according to the identification pattern, inquiring the application data and/or task data for the server.

In step 202, the identification pattern is uploaded to the server, and the server queries the stored identification pattern to obtain an authorization code and application data for printing corresponding to the identification pattern, where the authorization code and the application data include at least one of an applicant, an authorizer, an application time, an application location, and an application document; and obtaining task data which comprises at least one item of task times and task time.

In step 202, monitoring data may also be obtained, including at least one of actual impression time, actual impression count, video image or picture data.

According to the seal identification method provided by the embodiment of the invention, the server is used for inquiring the seal pattern, the monitoring data, the task data and the seal application data can be obtained according to the inquiry result, and the seal identification method has the functions of inquiring and monitoring the actual seal condition.

Fig. 11 shows an embodiment of a seal authorization and identification system for seal authorization and identification, which, as an embodiment of the present application, includes a seal 20 and a server 8; the stamp system includes: the device comprises an input module 1, a communication module 2, a printing module 3, a triggering module 4, a processing module 5 and a storage module 6.

The input module is used for inputting an authorization code; the communication module is used for receiving an identification pattern; the printing module is used for printing an identification pattern corresponding to the authorization code; the trigger module is used for generating an electric trigger signal; the processing module is used for identifying the authorization code, starting the communication module and collecting the sensing signal; driving the printing module according to the electrical trigger signal; the storage module is used for storing at least one of the following task data: task times, task time, authorization codes and identification patterns; the processing module is further used for calling the task data.

The server is used for generating an authorization code and a corresponding identification pattern according to the application for printing; the authorization code is used for generating at least one of task time and task times corresponding to the authorization code; and also for receiving and storing monitoring data, including at least one of: actual printing time and actual printing times; and the system is also used for establishing communication with the stamp system according to the PIN code.

The applicant sends a print application to the server, and the server receives print application data, wherein the print application data comprises at least one of the following items: the applicant, the authorizer, the application place, the application time, the application position, the application times and the application document need to be stated that the application data also includes other data related to the use of the stamp, such as a camera application. The server examines and approves the application of the applicant, and the server can also generate the task times and/or the task time corresponding to the authorization code by generating the authorization code and the identification pattern corresponding to the authorization code. The applicant inputs the authorization code to the input module of the stamp system, when the stamp system is in an online working mode, the stamp system transmits the authorization code to the server and receives the identification pattern generated by the server, the processor drives the printing module to synchronously print the identification pattern when the stamp face is pressed down, and the online authorization use process of the stamp system is completed. The processor can also print the identification pattern which is less than or equal to the task times within a set time range according to the task times and the task time.

The applicant inputs the authorization code to an input module of the stamp system, when the stamp system is in an offline working mode, the server sends an identification pattern to the stamp system in advance to be stored in the storage module, and the stamp system calls the identification pattern of the storage module according to the authorization code to drive the printing module to synchronously print the identification pattern when a stamp is pressed down, so that an offline authorization use process of the stamp system is completed.

Fig. 12 is a diagram illustrating an embodiment of a seal identification system including a mobile terminal, which has a function of reverse identification of a seal pattern, and includes a stamp system 20, a server 8, and a mobile terminal 9; the stamp system includes: the device comprises an input module 1, a communication module 2, a printing module 3, a triggering module 4, a processing module 5 and a storage module 7.

The input module is used for inputting an authorization code; the communication module is used for receiving an identification pattern; the printing module is used for printing an identification pattern corresponding to the authorization code; the trigger module is used for generating an electric trigger signal; the processing module is used for identifying the authorization code, starting the communication module and collecting the electric trigger signal; driving the printing module according to the electrical trigger signal; the storage module is used for storing at least one of the following task data: task times, task time, authorization codes and identification patterns; the processing module is further used for calling the task data.

The server is used for generating an authorization code and a corresponding identification pattern according to the application for printing; the authorization code is used for generating at least one of task time and task times corresponding to the authorization code; and also for receiving and storing monitoring data, including at least one of: actual printing time and actual printing times; and the system is also used for establishing communication with the stamp system according to the PIN code.

The mobile terminal is used for scanning the identification pattern; the server is further used for searching at least one of the following according to the identification pattern: task data, monitoring data, application data.

The mobile terminal sends the scanned identification pattern to a server, the server searches and inquires in an authorized identification pattern according to the identification pattern to obtain task data or monitoring data or application data for printing corresponding to the identification pattern, and the task data or the monitoring data or the application data for printing are returned to the mobile terminal, and the mobile terminal can display and store returned information. The task data includes: at least one of task times, task time, authorization codes and identification patterns; the monitoring data comprises: at least one of actual print time, actual print times, video image or picture data; the application data comprises: the applicant, the name of the application document, the content of the application document, the position of the application stamp, the time of application, the place of application are equal to the data related to the stamp application.

The mobile terminal may be a mobile phone, a computer, a scanner, and the like, and is not particularly limited herein.

The mobile terminal scans the identification pattern and transmits the identification pattern to a processing module of the stamp system, the processing module uploads the identified identification pattern to the server, and the server searches and queries to obtain at least one of the following items according to the stored tasks: the system comprises task data, monitoring data and print application data, wherein the task data comprises at least one of task time, task times and camera use tasks, the monitoring data comprises at least one of actual print time, actual print times, video images or picture data, and the print application data comprises at least one of an applicant, an authorizer, application time, an application place, an application file, an application position and a camera use application.

The seal authorization recognition system provided by the embodiment of the invention has the functions of application authorization for seal use and reverse recognition of seal patterns, can perform closed-loop monitoring on the seal authorization process, the seal use process and the seal use result, and meanwhile, the server stores monitoring data and can be used for big data statistical analysis.

It is to 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 above description is only an example of the present invention, and is not intended to limit the present invention. Various modifications and alterations to this invention will become apparent to those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the scope of the claims of the present invention.

Claims (24)

1. A stamp system, a stamp surface including a design for stamp, the stamp system further comprising: the printing system comprises an input module, a communication module, a printing module, a triggering module and a processing module;

the input module is used for inputting an authorization code;

the communication module is used for receiving an identification pattern;

the printing module is used for printing an identification pattern corresponding to the authorization code;

the trigger module is used for converting the mechanical pressure into an electric trigger signal;

the processing module is used for identifying the authorization code, collecting the electric trigger signal and driving the printing module.

2. The stamp system of claim 1, further comprising: a camera;

the processing module is also used for driving the camera and acquiring video images or pictures.

3. The stamp system of claim 1, wherein the communication module is further configured to download an authorization code corresponding to the identification pattern.

4. The stamp system of claim 1,

the communication module is further configured to receive the number of tasks corresponding to the authorization code;

and the processing module is also used for detecting the actual printing times, comparing the actual printing times with the task times and driving the printing module according to the comparison result.

5. The stamp system of claim 1,

the communication module is further configured to receive a task time corresponding to the authorization code;

and the processing module is also used for detecting the actual printing time, comparing the actual printing time with the task time and driving the printing module according to the comparison result.

6. The stamp system of claim 2, wherein said communication module is further adapted to transmit said video image or picture data.

7. The stamp system according to any one of claims 1 to 6,

the input module is also used for inputting a PIN code;

and when the PIN code is wrong, the processing module does not work.

8. The stamp system according to any one of claims 1-6, wherein the communication module is further adapted to upload at least one of the following monitoring data: actual impression time, actual impression count, video image or picture data.

9. The stamp system according to any one of claims 1 to 6, wherein the communication module employs a WIFI communication technology or a cellular communication technology.

10. The stamp system according to any one of claims 1 to 6, further comprising: a storage module;

the storage module is used for storing at least one of the following task data: task times, task time, authorization codes and identification patterns;

the processing module is further used for calling the task data.

11. The stamp system according to any one of claims 1 to 6, further comprising: a limiting component;

the limiting component is positioned between the stamping surface and the printing module and used for mechanically connecting the stamping surface and the printing module, fixing the positions of the stamping surface and the printing module and limiting the distance between the stamping surface and the printing module.

12. The stamp system according to any one of claims 1 to 6, wherein the processing module is connected to the printing module by wireless communication; the printing modules correspond to the printing surfaces one by one.

13. A stamp authorization method using the stamp system according to any one of claims 1 to 12, comprising the steps of:

inputting an authorization code to the stamp system;

and printing an identification pattern corresponding to the authorization code when the seal is generated.

14. The seal authorization method according to claim 13, wherein prior to the step of inputting an authorization code into the seal, the method further comprises:

sending the application data to the server;

and generating task data by the server, wherein the task data comprises an authorization code and an identification pattern corresponding to the task.

15. The seal impression authorization method according to any one of claims 13 to 14, wherein before the step of monitoring the stamp face pressure and printing an identification pattern corresponding to the authorization code when stamped, the method further comprises:

and downloading the identification pattern from a server in real time according to the authorization code.

16. A seal authorization method according to any of claims 13 to 14, wherein after the step of inputting an authorization code to the stamp system, the method further comprises:

downloading, by the server, at least one of: task time, task times and camera use task.

17. A seal authorization method according to any of claims 13 to 14, the method further comprising:

uploading monitoring data to a server, including at least one of: actual impression time, actual impression count, video image or picture data.

18. A stamp authorization server for the stamp system according to any one of claims 1 to 12, further comprising: a server;

the server is used for generating an authorization code and a corresponding identification pattern according to the application for printing.

19. The seal authorization server according to claim 18, wherein the server is further configured to generate at least one of a task time and a number of tasks corresponding to the authorization code.

20. The seal authorization server of claim 18, wherein the server is further configured to receive and store monitoring data comprising at least one of: actual impression time, actual impression count, video image or picture data.

21. The seal authorization server of claim 18, wherein the server is further configured to establish communication with the stamp system based on a PIN code.

22. A signature recognition method using the server according to any one of claims 18 to 21, comprising:

acquiring the identification pattern;

and inquiring the application data and/or task data for printing from the server according to the identification pattern.

23. An seal identification system comprising the stamp system of any one of claims 1 to 12 and the server of any one of claims 18 to 21.

24. The seal authorization identification system according to claim 23, wherein the system further comprises: a mobile terminal;

the mobile terminal is used for scanning the identification pattern;

the server is further used for searching at least one of the following according to the identification pattern: task data, monitoring data, application data.

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