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CN-122026597-A - Comprehensive intelligent error-preventing system, forced locking method and remote control locking method

CN122026597ACN 122026597 ACN122026597 ACN 122026597ACN-122026597-A

Abstract

The disclosure relates to the technical field of electric power safety, and in particular provides a comprehensive intelligent error prevention system, a forced locking method and a remote control locking method. The system comprises a user layer, an application layer, a service layer, an integration layer and a resource layer, wherein the user layer is responsible for displaying a core function and receiving specific access requests of users, the comprehensive intelligent error prevention system is divided into a plurality of unit subsystem modules according to the core function and the specific access requests, the unit subsystem modules are respectively used for realizing corresponding functions, the application layer is used for constructing a user interaction interface according to the specific access requests and sending interaction access requests from the service layer through the user interaction interface, the service layer is responsible for sending interaction response results to the application layer according to the interaction access requests, the integration layer is responsible for processing and integrating real-time data from different sources, constructing a database for determining the interaction response results, and the resource layer is responsible for storing corresponding data. The intelligent control system can realize comprehensive and intelligent control on the operation of the power system, effectively prevent electric misoperation and ensure the stable operation of the power system.

Inventors

  • ZHU YUE
  • LI YONG
  • CHAI SHUFENG
  • REN SHAOXIN
  • Xiong Erhu
  • Zou Songyu
  • YANG JINZE
  • YANG ZHIWEN
  • Qi Junfei
  • ZHANG HAINAN

Assignees

  • 国家能源集团国源电力有限公司
  • 国网能源哈密煤电有限公司

Dates

Publication Date
20260512
Application Date
20260109

Claims (10)

  1. 1. The comprehensive intelligent error preventing system is characterized by comprising a user layer, an application layer, a service layer, an integration layer and a resource layer; The user layer is responsible for displaying a core function and receiving a specific access request of a user, and dividing the comprehensive intelligent anti-misoperation system into a plurality of unit subsystem modules according to the core function and the specific access request, wherein each unit subsystem module is respectively used for realizing corresponding functions; The application layer builds a user interaction interface according to the specific access request, and sends an interaction access request from the service layer through the user interaction interface; the service layer sends an interactive response result to the application layer according to the interactive access request; the integration layer is responsible for processing and integrating real-time data from different sources, and constructing a database for determining the interactive response result; the resource layer is responsible for storing information including, but not limited to, the specific access request, the interactive response result, and the database.
  2. 2. The integrated intelligent anti-misoperation system according to claim 1 wherein the user layer is an operation interface of the integrated intelligent anti-misoperation system after starting, and is used for displaying a plurality of functions including but not limited to information overview, anti-misoperation, equipment management, statistical inquiry, system configuration, system management, user logout and program logout, and the display and operation functions of a primary wiring topological graph of power equipment.
  3. 3. The integrated intelligent anti-misoperation system of claim 1, wherein the plurality of unit subsystem modules include, but are not limited to, an integrated intelligent anti-misoperation and control platform for electric synthesis, an anti-misoperation control system for internet of things, an intelligent electronic two-ticket operation control system, an intelligent maintenance isolation locking system, a digital twin anti-misoperation system, a field operation control system, an intelligent lock control management system, an intelligent access control management system, an intelligent ground wire and tool digital management system and a remote intelligent control system.
  4. 4. The integrated intelligent anti-misoperation system according to claim 1 wherein the business layer comprises a plurality of intelligent anti-misoperation servers including, but not limited to, a service application server, a system server and a dispatcher workstation.
  5. 5. The integrated intelligent anti-misoperation system of any one of claims 1 to 4 wherein the integration layer is formed from a plurality of edge intelligent electrical anti-misoperation agent devices, each of which is used to acquire and process data of a deployment area.
  6. 6. A forced locking method applied to the comprehensive intelligent error prevention system as claimed in any one of claims 1 to 5, characterized in that the forced locking method comprises the following steps: Detecting whether an abnormal condition occurs in the power system through the integrated layer; And if the power system is abnormal, triggering an automatic forced locking function of the comprehensive intelligent error prevention system through the user layer.
  7. 7. The forced locking method as claimed in claim 6, wherein after said triggering of the automatic forced locking function of the integrated intelligent anti-misoperation system by the user layer, the forced locking method further comprises: reporting the locking of the power system to the user layer and the integration layer respectively; sending real-time data from different sources to the user layer through the integration layer; And diagnosing and analyzing the abnormality according to real-time data from different sources through the user layer, the application layer and the service layer, and determining abnormality occurrence information and an abnormality recovery strategy.
  8. 8. The positive locking method of claim 7, wherein the positive locking method further comprises: And after the abnormal situation is relieved according to the abnormal occurrence information and the abnormal recovery strategy, the automatic forced locking function is relieved through the user layer.
  9. 9. A remote control locking method applied to the comprehensive intelligent anti-misoperation system according to any one of claims 1 to 5, which is characterized in that the remote control locking method comprises the following steps: Detecting whether an abnormal condition occurs in the power system through the integrated layer; if the power system is abnormal, the abnormal situation is sent to the user layer through the integration layer; generating a remote control operation ticket for remotely controlling locking operation based on the equipment state of the power system through the user layer; and under the condition that the remote control ticket passes the auditing, performing the remote control locking operation on the power system through the user layer.
  10. 10. The remote control lockout method of claim 9, the remote control locking method is characterized by further comprising the following steps: and recording and storing the remote control locking operation through the user layer and the integration layer for subsequent inquiry and audit.

Description

Comprehensive intelligent error-preventing system, forced locking method and remote control locking method Technical Field The disclosure relates to the technical field of electric power safety, in particular to a comprehensive intelligent error prevention system, a forced locking method and a remote control locking method. Background With the rapid development of electric power systems, the complexity and safety requirements for the operation of electric equipment are increasing. The traditional anti-misoperation locking system has a plurality of defects when dealing with complex operation and large-scale equipment management, and is difficult to meet the requirements of a modern power system. Disclosure of Invention The present disclosure has been made in view of the above-described problems. The disclosure provides a comprehensive intelligent error prevention system, a forced locking method and a remote control locking method. According to one aspect of the present disclosure, there is provided an integrated intelligent anti-misoperation system including a user layer, an application layer, a service layer, an integration layer, and a resource layer; The user layer is responsible for displaying a core function and receiving a specific access request of a user, and dividing the comprehensive intelligent anti-misoperation system into a plurality of unit subsystem modules according to the core function and the specific access request, wherein each unit subsystem module is respectively used for realizing corresponding functions; The application layer builds a user interaction interface according to the specific access request, and sends an interaction access request from the service layer through the user interaction interface; the service layer sends an interactive response result to the application layer according to the interactive access request; the integration layer is responsible for processing and integrating real-time data from different sources, and constructing a database for determining the interactive response result; the resource layer is responsible for storing information including, but not limited to, the specific access request, the interactive response result, and the database. According to another aspect of the present disclosure, there is provided a forced locking method applied to an integrated intelligent anti-error system according to an embodiment of the present disclosure, the forced locking method including: Detecting whether an abnormal condition occurs in the power system through the integrated layer; And if the power system is abnormal, triggering an automatic forced locking function of the comprehensive intelligent error prevention system through the user layer. In yet another aspect of exemplary embodiments of the present disclosure, there is provided a remote control locking method applied to an integrated intelligent anti-error system according to an embodiment of the present disclosure, the remote control locking method including: Detecting whether an abnormal condition occurs in the power system through the integrated layer; if the power system is abnormal, the abnormal situation is sent to the user layer through the integration layer; generating a remote control operation ticket for remotely controlling locking operation based on the equipment state of the power system through the user layer; and under the condition that the remote control ticket passes the auditing, performing the remote control locking operation on the power system through the user layer. In yet another aspect of exemplary embodiments of the present disclosure, a computer-readable storage medium is provided, on which a computer program is stored, which, when executed by a processor, implements the method described in exemplary embodiments of the present disclosure. In yet another aspect of the exemplary embodiments of the present disclosure, a computer program product is provided, comprising a computer program which, when executed by a processor, implements the method described in the exemplary embodiments of the present disclosure. As will be described in detail below, according to the comprehensive intelligent anti-misoperation system, the forced locking method and the remote control locking method of the embodiment of the disclosure, in the comprehensive intelligent anti-misoperation system, a user layer is responsible for displaying a core function and receiving specific access requests of users, the comprehensive intelligent anti-misoperation system is divided into a plurality of unit subsystem modules according to the core function and the specific access requests, each unit subsystem module is respectively used for realizing corresponding functions, an application layer is used for constructing a user interaction interface according to the specific access requests and sending the interaction access requests to a service layer through the user interaction interface, the service layer is used for se