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CN-117695577-B - Intelligent monitoring type fire control centralized control system and method

CN117695577BCN 117695577 BCN117695577 BCN 117695577BCN-117695577-B

Abstract

The invention discloses an intelligent monitoring type fire control centralized control system and method, and relates to the field of fire control. The method comprises the steps of configuring a grid control subsystem through a target control area map, activating a fire control area channel in the grid control subsystem, combining a position feature identification set and a unit responsibility identification set, executing fire control monitoring to obtain a fire control monitoring trace, evaluating fire safety conditions of the position feature identification set according to the fire control monitoring trace, obtaining fire safety levels of a control area, distributing monitoring density based on the fire safety levels of the control area through the fire safety monitoring subsystem, executing hierarchical monitoring to obtain a hierarchical monitoring report, and calling a fire controller according to the hierarchical monitoring report by an interactive fire alarm subsystem to execute fire control. The intelligent fire control safety monitoring system solves the technical problem that fire control safety monitoring is not accurate enough in the prior art, and achieves the intelligent fire control monitoring technical effect.

Inventors

  • YANG CHENGTAI
  • DING JIANWEI

Assignees

  • 浙江乐思达消防电器有限公司

Dates

Publication Date
20260512
Application Date
20231219

Claims (6)

  1. 1. An intelligent monitoring type fire control centralized control system, which is characterized by comprising: the configuration module is used for configuring the grid control subsystem through the target control area map; the monitoring module is used for activating a fire-fighting area channel in the grid control subsystem, and executing fire-fighting monitoring by combining the position feature identification set and the unit responsibility identification set to obtain a fire-fighting monitoring trace; the grade evaluation module is used for evaluating the fire safety condition of the position feature identification set according to the fire monitoring trace and obtaining the fire safety grade of the control area; the grading module is used for distributing monitoring density based on the fire safety grade of the control area through the fire safety monitoring subsystem, performing grading monitoring and obtaining grading monitoring reports; the fire control module is used for interacting with the fire alarm subsystem, calling a fire controller according to the hierarchical monitoring report and executing fire control; Activating fire zone channels in the grid control subsystem, including: the identification module is used for enabling the grid control subsystem to have a one-to-one correspondence of fire control training records and control unit identifications and a one-to-one correspondence of fire accident records and control position identifications; the construction module is used for constructing the fire-fighting area channel, wherein the fire-fighting area channel comprises a position feature analysis sub-channel and a unit responsibility analysis sub-channel; the first training module is used for performing supervised training on the fire accident record and the control position mark through the position feature analysis sub-channel to acquire the position feature mark set; The second training module performs supervised training on the fire control training record and the control unit identifier through the unit responsibility analysis sub-channel to acquire the unit responsibility identifier set; Activating a fire-fighting area channel in the grid control subsystem, combining a position feature identification set and a unit responsibility identification set, executing fire-fighting monitoring, and obtaining a fire-fighting monitoring trace, wherein the system comprises: the matching module is used for matching the position feature identification set and the unit responsibility identification set based on the association features to obtain a real-time monitoring set; The periphery monitoring module is used for extracting a first real-time monitoring index according to the real-time monitoring set, performing fire-fighting periphery monitoring on the first real-time monitoring, and obtaining a first fire-fighting periphery monitoring trace; The real-time monitoring module is used for performing fire-fighting real-time monitoring on the first real-time monitoring index to obtain a first fire-fighting real-time monitoring trace; the trace generation module is used for generating a first firefighting monitoring trace based on the first firefighting peripheral monitoring trace and the first firefighting real-time monitoring trace, and adding the first firefighting monitoring trace to the firefighting monitoring trace.
  2. 2. The system of claim 1, wherein the fire safety condition of the set of location feature identifiers is evaluated based on the fire monitoring trail, and a control zone fire safety level is obtained, the system comprising: the first calculation module is used for calculating hidden danger investigation degree according to the first firefighting peripheral monitoring trace and the first firefighting real-time monitoring trace respectively to generate a first firefighting peripheral hidden danger coefficient and a first firefighting real-time hidden danger coefficient; the second calculation module is used for generating a first fire control monitoring hidden danger coefficient according to the first fire control peripheral hidden danger coefficient and the first fire control real-time hidden danger coefficient, calculating the reciprocal of the first fire control monitoring hidden danger coefficient, generating a first fire control safety coefficient and acquiring a fire control safety level of a first control area; the grade generation module is used for traversing the real-time monitoring set to generate a second control area fire safety grade until an Nth control area fire safety grade, and obtaining the control area fire safety grade.
  3. 3. The system of claim 1, wherein the hierarchical monitoring is performed by a fire safety monitoring subsystem to assign a monitoring density based on the fire safety level of the control area to obtain a hierarchical monitoring report, the system comprising: The density matching module is used for obtaining a first grade based on the fire safety grade of the control area, matching a monitoring density distribution library and obtaining a first distribution monitoring density; The grading monitoring module is used for performing grading monitoring according to the first distribution monitoring density to obtain a first grading monitoring report; The report acquisition module is used for traversing the fire safety level of the control area to obtain a second grade to an N grade, obtaining a second grade monitoring report to an N grade monitoring report, and obtaining the grade monitoring report by combining the first grade monitoring report, wherein N is an integer greater than 1.
  4. 4. The system of claim 1, wherein the interactive fire alarm subsystem invokes a fire controller based on the hierarchical monitoring report, the system comprising: The instruction generation module is used for interacting the fire alarm subsystem, carrying out abnormal alarm analysis on the hierarchical monitoring report and generating a monitoring abnormal instruction; the positioning module is used for positioning the position characteristic identification set according to the monitoring abnormal instruction to obtain a monitoring abnormal position identification; And the calling module is used for matching the fire control controller storage library according to the monitoring abnormal position identification and calling the fire control controller.
  5. 5. The system of claim 1, wherein the system further comprises: The feedback module is used for generating a monitoring density feedback instruction according to the execution result of the fire control controller; and the updating module is used for reassigning the monitoring density of the position characteristic identification set based on the monitoring density feedback indication, executing hierarchical monitoring and updating a hierarchical monitoring report.
  6. 6. An intelligent monitoring type fire control centralized control method is characterized by comprising the following steps: configuring a grid control subsystem through a target control area map; Activating a fire-fighting area channel in the grid control subsystem, and executing fire-fighting monitoring by combining a position feature identification set and a unit responsibility identification set to obtain a fire-fighting monitoring trace; According to the firefighting monitoring trace, evaluating the firefighting safety condition of the position feature identification set, and acquiring firefighting safety level of a control area; distributing monitoring density based on the fire safety grade of the control area through a fire safety monitoring subsystem, and executing hierarchical monitoring to obtain a hierarchical monitoring report; The interactive fire alarm subsystem calls a fire controller according to the hierarchical monitoring report and executes fire control; The grid control subsystem is provided with a one-to-one correspondence between fire control training records and control unit identifiers and a one-to-one correspondence between fire accident records and control position identifiers; constructing the fire-fighting area channel, wherein the fire-fighting area channel comprises a position feature analysis sub-channel and a unit responsibility analysis sub-channel; performing supervised training on the fire accident record and the control position mark through the position feature analysis sub-channel to acquire the position feature mark set; performing supervised training on the fire control training record and the control unit identifier through the unit responsibility analysis sub-channel to acquire the unit responsibility identifier set; Matching the position feature identification set and the unit responsibility identification set based on the association features to obtain a real-time monitoring set; Extracting a first real-time monitoring index according to the real-time monitoring set, and performing fire-fighting peripheral monitoring on the first real-time monitoring to obtain a first fire-fighting peripheral monitoring trace; Performing fire-fighting real-time monitoring on the first real-time monitoring index to obtain a first fire-fighting real-time monitoring trace; and generating a first firefighting monitoring trace based on the first firefighting peripheral monitoring trace and the first firefighting real-time monitoring trace, and adding the first firefighting monitoring trace to the firefighting monitoring trace.

Description

Intelligent monitoring type fire control centralized control system and method Technical Field The invention relates to the field of fire protection, in particular to an intelligent monitoring type fire protection centralized control system and method. Background Fire safety is a significant problem in today's society that is not negligible for every city, every community, every building. With the progress of urban construction, high-rise buildings, large commercial complexes, densely populated areas and the like are continuously emerging, and the risk of fire is also increased. The traditional fire control monitoring system often has the problems of untimely response, limited monitoring range, low management efficiency and the like, and cannot meet the requirements of modern cities on fire safety. In addition, with the improvement of people's security consciousness about fire protection, intelligent and centralized management of fire protection systems is becoming more and more important. Most of the existing fire control systems are independent or regional monitoring, lack centralized and intelligent management, and are difficult to realize timely and accurate fire monitoring and early warning. Disclosure of Invention The embodiment of the application provides an intelligent monitoring type fire control centralized control system and method, which solve the technical problem that fire safety monitoring is not accurate enough in the prior art. In view of the above problems, the embodiment of the application provides an intelligent monitoring type fire control centralized control system and method. In a first aspect of the embodiment of the present application, there is provided an intelligent monitoring type fire control centralized control system, the system comprising: the configuration module is used for configuring the grid control subsystem through the target control area map; the monitoring module is used for activating a fire-fighting area channel in the grid control subsystem, and executing fire-fighting monitoring by combining the position feature identification set and the unit responsibility identification set to obtain a fire-fighting monitoring trace; the grade evaluation module is used for evaluating the fire safety condition of the position feature identification set according to the fire monitoring trace and obtaining the fire safety grade of the control area; the grading module is used for distributing monitoring density based on the fire safety grade of the control area through the fire safety monitoring subsystem, performing grading monitoring and obtaining grading monitoring reports; and the fire control module is used for interacting with the fire alarm subsystem, calling a fire controller according to the hierarchical monitoring report and executing fire control. In a second aspect of the embodiment of the present application, there is provided an intelligent monitoring type fire control centralized control method, the method comprising: configuring a grid control subsystem through a target control area map; Activating a fire-fighting area channel in the grid control subsystem, and executing fire-fighting monitoring by combining a position feature identification set and a unit responsibility identification set to obtain a fire-fighting monitoring trace; According to the firefighting monitoring trace, evaluating the firefighting safety condition of the position feature identification set, and acquiring firefighting safety level of a control area; distributing monitoring density based on the fire safety grade of the control area through a fire safety monitoring subsystem, and executing hierarchical monitoring to obtain a hierarchical monitoring report; And the interactive fire alarm subsystem calls a fire controller according to the hierarchical monitoring report and executes fire control. One or more technical schemes provided by the application have at least the following technical effects or advantages: Firstly, a grid control subsystem is configured through a target control area map, a control area is divided into a plurality of grids, and each grid corresponds to one fire control area channel. Next, fire area channels in the grid control subsystem are activated and fire monitoring is performed in combination with the location feature identification set and the unit responsibility identification set. Through the information, each fire-fighting area channel can be monitored in real time, and monitoring marks are recorded. Based on the monitoring trails, the fire safety condition of the location feature identification set may be further evaluated. By analyzing the monitoring data, the fire risk level of each area can be determined, so that the fire safety level of the control area is obtained. In order to realize the hierarchical monitoring, monitoring density is distributed according to the fire safety level through a fire safety monitoring subsystem. By hierarchical monitoring, more