CN112381241A - Auxiliary system and method for lean investigation of anti-accident measures of transformer substation - Google Patents

Abstract

The invention relates to the technical field of power system safety, and provides a lean troubleshooting auxiliary system for anti-accident measures of a transformer substation and a method thereof, wherein the system comprises at least one server, and the server is deployed in a web server and is mainly used for generating, publishing and managing task information; the mobile terminal is arranged on a mobile device and is mainly used for receiving task information of the issuing server and inquiring data information for guiding the investigation work; the client is deployed on a workstation with a browser function and performs data interaction with the server through a B/S architecture, and the client is used for establishing communication connection for the data interaction between the mobile terminal and the server; the method is used for improving the hidden danger troubleshooting efficiency, reducing the working strength and the operation difficulty of operation and inspection personnel, ensuring that the anti-accident measures of the transformer substation are effectively executed, and ensuring the operation safety of the transformer substation.

Description

Auxiliary system and method for lean investigation of anti-accident measures of transformer substation

Technical Field

The invention relates to the technical field of power system safety, in particular to a lean troubleshooting auxiliary system and method for anti-accident measures of a transformer substation.

Background

The potential hazard investigation of anti-accident measures of the transformer substation is one of the main measures for preventing and controlling the operation risk of the transformer substation, each power grid company makes a series of anti-accident measures and management systems of the transformer substation, and the potential hazard investigation of the anti-accident measures of the transformer substation becomes an important work which needs to be carried out regularly by operation and inspection personnel.

At present, in the working process of troubleshooting of potential hazards of anti-accident measures of a transformer substation, a series of processes such as formulation of a working plan, development of field work, recording of a potential hazard troubleshooting process, filling of a form, summary report, data archiving and arrangement of a subsequent potential hazard processing plan are independently completed by operation and inspection personnel or managers step by step, and the work related to filling, archiving and managing of a large amount of paper data is lack of efficient closed-loop management. In addition, the success of the on-site hidden danger troubleshooting work completely depends on the personal professional quality of the operation and inspection personnel, and the familiarity and the understanding degree of the anti-accident measures, so that the operation and inspection personnel are required to put more energy into continuously learning and updating the knowledge of the equipment principle, the accident case, the anti-accident measures, the management system and the like.

With the continuous expansion of the scale of a power grid in China, the number of transformer substations and operating equipment thereof is rapidly increased, the workload of troubleshooting potential hazards of anti-accident measures of the transformer substations is multiplied, and the problems that a task plan of a traditional potential hazard troubleshooting method is lack of platform management, the quality control capability of an inspection process is limited, support materials in the inspection process are insufficient, the tracking management is lack of a potential hazard rectification period and the like are gradually highlighted, so that the efficiency and the quality of potential hazard troubleshooting are influenced.

Therefore, the patent provides a lean troubleshooting auxiliary system and a lean troubleshooting auxiliary method for anti-accident measures of the transformer substation, and the beneficial troubleshooting auxiliary system and the lean troubleshooting auxiliary method for the anti-accident measures of the transformer substation improve the hidden danger troubleshooting efficiency, reduce the working strength and the operation difficulty of operation and inspection personnel, ensure that the anti-accident measures of the transformer substation are effectively executed, and ensure the operation safety of the transformer substation through the matched use of the management platform and the mobile operation terminal.

Disclosure of Invention

Solves the technical problem

Aiming at the defects of the prior art, the invention provides a lean troubleshooting auxiliary system and a lean troubleshooting auxiliary method for anti-accident measures of a transformer substation, which are used for improving the hidden danger troubleshooting efficiency, reducing the working strength and the operation difficulty of operation and inspection personnel, ensuring the effective execution of the anti-accident measures of the transformer substation and ensuring the operation safety of the transformer substation.

Technical scheme

In order to achieve the purpose, the invention is realized by the following technical scheme:

a lean troubleshooting auxiliary system for anti-accident measures of a transformer substation comprises at least one server, wherein the server is deployed in a web server and is mainly used for generating, publishing and managing task information;

the mobile terminal is arranged on a mobile device and is mainly used for receiving task information of the issuing server and inquiring data information for guiding the investigation work;

the client is deployed on a workstation with a browser function and performs data interaction with the server through a B/S architecture, and the client is used for establishing communication connection for the data interaction between the mobile terminal and the server; the mobile equipment is connected with the workstation through a data line, and the client side is provided with an authorization authentication gateway for the accessed mobile equipment;

and the web server and the workstation are respectively accessed to the electric power integrated data network through a firewall.

A lean troubleshooting auxiliary method for anti-accident measures of a transformer substation comprises the following operation steps on one executing side of a server side:

the server generates task information through a task generating module;

after receiving a request for acquiring task information sent by a client, sending the task information to the client;

acquiring a task progress form uploaded by a client, and comparing and checking the task progress form with the generated task information;

and generating a check result and feeding the check result back to the client.

A lean troubleshooting auxiliary method for anti-accident measures of a transformer substation comprises the following operation steps on one executing side of a mobile terminal:

establishing data connection between the mobile terminal and the client through a data line;

acquiring and storing task information in a client;

acquiring input information and generating a task progress form;

and uploading the task progress form to the client.

Furthermore, the server is internally provided with a permission management module: the system authority is used for creating a system user and setting system authority of the user, wherein the system authority comprises three levels of authorities of a system administrator, a common administrator and a common user from large to small; and a data storage module: storing and managing the data uploaded by the client to provide data service support for the system; and a task generation module: the task information is used for making and generating task information; and a task management module: the task information is formulated, issued, tracked, inquired and collected and displayed; and a task summary module: and generating a file by using the task processing information fed back by the mobile terminal, and providing material data for quality control and process support of the inspection process.

Furthermore, a database is arranged in the data storage module, the database stores data materials for guiding the investigation work and mainly comprises documents of inspection processes, hidden danger processing methods, regulations, execution standards and operation specifications, the system administrator can update data of the database and generate corresponding version numbers, and the mobile terminal can query the database offline.

Furthermore, after the mobile device provided with the mobile terminal is connected with the client, the acquisition module of the client automatically reads the version number of the database in the mobile terminal, compares the version number with the version number of the database in the server, and prompts updating by the mobile terminal when the version number is lower than the version number of the database in the client.

Furthermore, a form design module is arranged in the mobile terminal and is used for conveniently manufacturing various types of working forms through the mobile terminal.

Furthermore, the generation mode of the task information comprises independent generation and modularized generation, and the task information mainly comprises a hidden danger checking flow task and a hidden danger processing flow task.

Furthermore, when the mobile terminal establishes data connection with the client through the data line, the authorization information center is required to inquire and confirm the authorization state of the mobile terminal to be connected, and the authorized mobile terminal can be connected with the client.

Furthermore, the mobile terminal can also generate a troubleshooting problem form and a task information evaluation form according to the input information, wherein the troubleshooting problem form is used for summarizing the problems found in the process of troubleshooting and giving early warning and prompting; the task information evaluation form is used for evaluating and objectively scoring the tasks to be investigated countervailing one by one.

Advantageous effects

The invention provides a lean troubleshooting auxiliary system and a lean troubleshooting auxiliary method for anti-accident measures of a transformer substation, and compared with the prior art, the lean troubleshooting auxiliary system has the following beneficial effects:

1. the management efficiency is high. Through the cooperation of the management platform consisting of the server and the client and the mobile operation terminal, the server of the management platform realizes scientific formulation, distribution, automatic downloading and uploading, progress tracking and closed-loop management of hidden danger troubleshooting tasks, improves the problem of high delay in the process of transmitting information by paper files and telephones in the prior art in an information sharing mode, closely links people of different specialties and levels together through the management platform, and effectively improves the high efficiency and comprehensiveness of hidden danger troubleshooting management.

2. The professional is strong. The mobile terminal provides latest standard regulation inquiry, electronic work order record and automatic inspection and evaluation for the operation and inspection personnel, and as an intelligent auxiliary tool, the mobile terminal provides quicker, more professional and more accurate anti-accident measure retrieval and hidden danger investigation guidance for the operation and inspection personnel; the working intensity and the operation difficulty of operation and inspection personnel are reduced, the anti-accident measures of the transformer substation are effectively and accurately executed, and the operation safety of the transformer substation is guaranteed.

3. Is safe and convenient. All professional data, task plans, data recording, personnel communication and information transmission are completed in the system, the whole service system runs in a network security area of the power system, has a safe network isolation environment and a perfect network security strategy, and realizes portable application of the mobile terminal on the basis of meeting the network security requirement of the power system, thereby being convenient for application in troubleshooting of hidden dangers of all parts of the power system.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic block diagram of the present invention;

FIG. 2 is a hardware organization diagram of the present invention;

FIG. 3 is a flow chart of the system for different administrative rights of the present invention;

FIG. 4 is a flowchart illustrating the operation of the troubleshooting assistance method of the present invention on the server side;

fig. 5 is a flowchart illustrating the operation of the troubleshooting assistance method of the present invention on the mobile terminal side.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present 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.

Example (b):

a lean troubleshooting auxiliary system for anti-accident measures of a transformer substation refers to fig. 2 and comprises at least one server, wherein the server is deployed in a web server and is mainly used for generating, publishing and managing task information;

the mobile terminal is arranged on a mobile device and is mainly used for receiving task information of the issuing server and inquiring data information for guiding the investigation work;

and the client is deployed on a workstation with a browser function and performs data interaction with the server through a B/S architecture, and the client is used for establishing communication connection for the data interaction between the mobile terminal and the server.

The web server and the workstation are respectively connected to the electric power integrated data network through the firewall.

In the embodiment, the system adopting the B/S architecture does not need to be specially installed, only a Web browser is needed, a user can access the specified webpage address through the browser to log in the client, and can interact with the server by sending the HTTP request without downloading, updating and other operations on the client, so that the requirement of connection with the extranet Internet is further avoided.

The mobile equipment is connected with the workstation through a data line, and the client side is provided with an authorization authentication gateway for the accessed mobile equipment; the mobile terminal is a special terminal device which is authorized by a network information security management department and forbidden to be connected with an external network or used for other purposes by a related management system, and other unauthorized terminal devices cannot be connected with the client. All professional data, task plans, data recording, personnel communication and information transmission are completed in the system, and the whole service system operates in a network security area of the power system and has a safe network isolation environment and a perfect network security strategy.

Referring to fig. 1, in the present embodiment, a web server of a managed platform is deployed in a web server, and the web server is installed in a communication room of an electric power system construction unit. The workstation of the client adopts a III-area office computer of a unit user, and the user accesses the specified webpage address through a browser to log in the client. The network positions of the web server and the office computer in the area III related to the system are both positioned in the network security area III of the power system, and the web server and the office computer in the area III are respectively accessed into the power integrated data network through the nearby physical firewall devices.

The special mobile device is used for being carried by a user, the mobile device is connected with a III-area office computer with a client through a data line, and the special mobile terminal app arranged on the mobile device is used for completing downloading, uploading and other services.

Referring to fig. 2, the server in this embodiment is internally provided with a rights management module: the system authority is used for creating system users and distributing system authorities of set users, and the system authorities comprise three levels of authorities of a system administrator, a common administrator and a common user from large to small; and the authority management module adopts long character mixed coding, encryption storage and transmission aiming at the user password.

And a data storage module: storing and managing the data uploaded by the client and providing data service support for the system;

and a task generation module: the task information is used for making and generating task information; and a task management module: the task information is formulated, issued, tracked, inquired and collected and displayed; for example, the method comprises the steps of task planning, task progress inquiry, team task completion summary, historical task inquiry, task personnel allocation and the like.

And a task summary module: and generating a file by using the task processing information fed back by the mobile terminal, and providing material data for quality control and process support of the inspection process.

The data storage module is provided with a database, the database stores data materials for guiding the troubleshooting work, the data materials mainly comprise inspection processes, hidden danger processing methods, regulations, execution standards and operation standard documents, a system administrator can update data of the database and generate corresponding version numbers, and the mobile terminal can query the database in an off-line mode. After the mobile equipment provided with the mobile terminal is connected with the client, the acquisition module of the client automatically reads the version number of the database in the mobile terminal, compares the version number with the version number of the database in the server, and prompts a user to perform one-key updating when the version number is lower than the version number of the database in the client. The mobile terminal is used for inquiring the database to provide latest standard regulation inquiry, electronic work order record and automatic inspection evaluation for the operation and inspection personnel, and the mobile terminal is used as an intelligent auxiliary tool to provide quicker, more professional and more accurate anti-accident measure retrieval and hidden danger investigation guidance for the operation and inspection personnel.

A lean troubleshooting auxiliary method for anti-accident measures of a transformer substation refers to FIG. 4: the execution side of the server side comprises the following operation steps:

s11: the server generates task information through a task generating module;

s12: after receiving a request for acquiring task information sent by a client, sending the task information to the client;

s13: acquiring a task progress form uploaded by a client, and comparing and checking the task progress form with the generated task information;

s14: and generating a check result and feeding the check result back to the client.

Wherein, in step S11: the server generates task information through a task generating module; the generation mode of the task information comprises independent generation and modularized generation, and the task information mainly comprises a hidden danger checking flow task and a hidden danger processing flow task. The independently generated mode can generate single or multiple independent checking process tasks and processing process tasks. The modular generation schema may perform the generation of multiple consecutive, associated inspection flow tasks or process flow tasks.

A lean troubleshooting auxiliary method for anti-accident measures of a transformer substation refers to the following steps: the mobile terminal execution side comprises the following operation steps:

s21: establishing data connection between the mobile terminal and the client through a data line;

s22: acquiring and storing task information in a client;

s23: acquiring input information and generating a task progress form;

s24: and uploading the task progress form to the client.

In step S23, the mobile terminal generates a task progress form according to the information entered by the user, and a form designer is provided inside the mobile terminal, so that the form designer can conveniently make various types of work forms through the mobile terminal. The mobile terminal can also generate a troubleshooting problem form and a task information evaluation form according to the input information, and the troubleshooting problem form is used for summarizing the problems found in the countermeasures troubleshooting process and giving early warning and prompting; the task information evaluation form is used for evaluating and objectively scoring the tasks to be checked in a countermeasure mode item by item, and the scientificity of the service end plan task information is improved through a reverse scoring mechanism.

Referring to fig. 3: the specific process of the user executing the patent system by using a system administrator, a common administrator and a common user is as follows:

a system administrator:

a system administrator enters a system management page through a web server or a workstation in the manner of administrator identity, and can execute the following operations to make the system ready in the early stage:

1. and the system administrator uniformly performs operations such as account registration, password modification, authority distribution and the like on the reported users according to departments and functions of the users.

2. And the system administrator uniformly authorizes the information center of the reported mobile terminals.

3. The system administrator maintains the data of the specification, the regulation, the measure, the plan and the like stored in the system, and updates the file when a new version of the file is released.

The general administrator:

the system is responsible for the management work of the hidden danger troubleshooting task and mainly executes the following operations:

1. the manager logs in the web server side through the workstation of the web server with an individual account.

2. The management personnel manage the tasks of the team, and the management personnel comprise: the method comprises the steps of task planning, task progress inquiry, team task completion summary, historical task inquiry, task personnel allocation and the like.

3. And the manager publishes the established task plan in the system, and only the client with the corresponding team and personnel authority can receive and view the relevant information of the task.

4. And the manager checks the task progress forms submitted by all the clients of the team.

5. And the manager evaluates and marks the completion conditions of the task progress forms submitted by all the clients of the team.

6. And the management personnel processes the remaining problems of the task progress form submitted by the client and brings the problems into the consideration range of the next task planning.

General user (i.e. the health staff):

the operation and inspection staff mainly carry the mobile equipment and carry out the troubleshooting operation according to the downloaded task information, and the process mainly executes the following operations:

1. and the inspection personnel log in the client side with the personal account through the browser of the office computer in the area III.

2. The inspection personnel manage personal tasks, comprising: and issuing task plan confirmation, personal task progress inquiry, personal historical task inquiry and the like.

3. The operation and inspection personnel connect the terminal equipment authorized by the information center to the office computer in the area III through the data line, open the special mobile operation terminal app on the terminal equipment, the client deployed on the office computer in the area III can automatically perform authorization verification on the terminal equipment, and the client can be successfully connected only through the verified equipment.

4. And the operation personnel downloads the tasks to the mobile terminal through the operation of the client.

5. After the mobile device is successfully connected, the client automatically checks the database version of the special mobile terminal app, and when the version is lower than the client database version, the client prompts the user to finish updating by one key.

6. The user can also manually check whether the version of the client database and the version of the special mobile operation terminal app database are consistent with the version of the web server database.

7. And (4) the operation and inspection personnel hold the terminal equipment and carry out lean investigation tasks of the anti-accident measures of the transformer substation on the site according to the app prompt of the special mobile operation terminal.

8. And the operation and inspection personnel can directly complete the filling of the task progress form according to the prompt of the special mobile operation terminal app in the task process.

9. And after the lean troubleshooting task of the anti-accident measure of the transformer substation is completed, the operation and inspection personnel return to the office to repeat the 3 rd operation of the section, and the terminal equipment is successfully connected to the client.

10. And uploading the task progress form to the client for inspection and confirmation by the operation of the client by the operation staff.

11. And the operation and inspection personnel submit the task progress form to the web server through the operation of the client, wait for the check result of the server and complete the task.

12. After the tasks are submitted, the operation and inspection personnel can inquire the evaluation scoring condition of the submitted tasks through the client.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, 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 identical elements in a process, method, article, or apparatus that comprises the element.

The above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention. Spirit and scope.

Claims (10)

1. The utility model provides a transformer substation anti-accident measure lean investigation auxiliary system which characterized in that includes:

the server is deployed in the web server and is mainly used for generating, publishing and managing task information;

the mobile terminal is arranged on a mobile device and is mainly used for receiving task information issued by the server and inquiring data information for guiding the investigation work;

the client is deployed on a workstation with a browser function, one side of the client performs data interaction with the server through a B/S framework, the other side of the client performs data connection with the mobile equipment through a data line, and the client is provided with an authorization authentication gateway for accessing the mobile equipment;

and the web server and the workstation are respectively accessed to the electric power integrated data network through a firewall.

2. The lean troubleshooting auxiliary system for the anti-accident measure of the transformer substation of claim 1 is characterized in that the service end is internally provided with:

the authority management module: the system authority management system is used for creating a system user and setting the system authority of the user;

a data storage module: storing and managing the data uploaded by the client to provide data service support for the system;

a task generation module: the task information is used for making and generating task information;

a task management module: the task information is formulated, issued, tracked, inquired and collected and displayed;

a task summarizing module: and generating a file by using the task processing information fed back by the mobile terminal, and providing material data for quality control and process support of the inspection process.

3. The transformer substation anti-accident measure lean investigation auxiliary system according to claim 2, wherein a database is arranged in the data storage module, the database stores data for guiding investigation, the system administrator can update the database and generate a corresponding version number, and the mobile terminal can query the database offline.

4. The transformer substation anti-accident measure lean investigation auxiliary system according to claim 3, wherein after the mobile device equipped with the mobile terminal is connected with the client, the acquisition module of the client automatically reads the version number of the database in the mobile terminal, compares the version number with the version number of the database in the server, and prompts updating when the version number is lower than the version number of the database in the client.

5. The transformer substation anti-accident measure lean investigation auxiliary system according to claim 1, wherein a form design module is arranged inside the mobile terminal, and the form design module is used for facilitating various types of work forms to be made through the mobile terminal.

6. A lean investigation auxiliary method for anti-accident measures of a transformer substation is characterized by comprising the following operation steps:

the server generates task information through a task generating module;

after receiving a request for acquiring task information sent by a client, sending the task information to the client;

acquiring a task progress form uploaded by a client, and comparing and checking the task progress form with the generated task information;

and generating a check result and feeding the check result back to the client.

7. A lean investigation auxiliary method for anti-accident measures of a transformer substation is characterized by comprising the following operation steps:

establishing data connection between the mobile terminal and the client through a data line;

acquiring and storing task information in a client;

acquiring input information and generating a task progress form;

and uploading the task progress form to the client.

8. The lean troubleshooting auxiliary method for the anti-accident measures of the transformer substation as recited in claim 6, wherein a generation mode of the task information includes independent generation and modularized generation, and the task information mainly includes a hidden danger inspection flow task and a hidden danger processing flow task.

9. The lean troubleshooting assistance method for anti-accident measures of a substation according to claim 7, wherein when the mobile terminal establishes data connection with the client through a data line, firstly, the authorization state of the mobile terminal to be connected needs to be inquired and confirmed through an authorization information center, and the authorized mobile terminal can be connected with the client only after the authorized mobile terminal is confirmed.

10. The lean troubleshooting auxiliary method for the anti-accident measures of the transformer substation according to claim 7, wherein the mobile terminal can further generate a troubleshooting problem form and a task information evaluation form according to the input information, wherein the troubleshooting problem form is used for summarizing problems found in a troubleshooting process and giving an early warning and a prompt; the task information evaluation form is used for evaluating and objectively scoring the tasks to be investigated countervailing one by one.

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