CN117933908A - Fire control management method - Google Patents

Abstract

The invention relates to the technical field of communication and platform management, in particular to a fire control management method, which comprises the following steps: constructing a fire-fighting Internet of things, and receiving reporting information of a fire-fighting host computer by the fire-fighting Internet of things; constructing a fire data center, monitoring reporting information in the fire-fighting Internet of things in the fire data, classifying and managing the reporting information, and issuing fire-fighting tasks; constructing a fire control management platform, receiving a fire control task issued by a fire control data center by the fire control management platform, and issuing a task notification according to personnel configuration preset in the fire control management platform; the fire control data center and the fire control management platform communicate through the fire control internet of things. According to the invention, the fire-fighting Internet of things is constructed, the fire-fighting Internet of things is utilized to collect the reported information of different fire-fighting hosts, the reported information is delivered to the data center for comprehensive analysis and fire-fighting tasks are distributed, and then the fire-fighting management platform is used for uniformly receiving the tasks and managing registered users, so that the comprehensive management of different fire-fighting systems is realized.

Description

Fire control management method

Technical Field

The invention relates to the technical field of communication and platform management, in particular to a fire control management method.

Background

Through analysis and discovery of various alarm host functions which are put into fire protection at present, interfaces of the hosts to other equipment of respective brands are complete, compatibility is good, compatibility to equipment of different brands is poor, information interaction is difficult to directly carry out among fire protection systems which are mainly formed by different fire protection hosts, corresponding fire protection management systems are independently developed by the fire protection systems, and due to different management operations, the related service units and departments are complex in structure and personnel responsibility allocation are different, so that fire protection management work which needs to be matched across areas and systems is difficult to coordinate.

Therefore, a fire control management method capable of uniformly and comprehensively managing fire control tasks in various areas is needed in the art.

Disclosure of Invention

In order to establish communication between different fire protection systems and achieve unified comprehensive management, in a first aspect of the present invention, a fire protection management method is provided, including: constructing a fire-fighting Internet of things, and receiving reporting information of a fire-fighting host by the fire-fighting Internet of things; building a fire-fighting data center, monitoring reporting information in the fire-fighting Internet of things from the fire-fighting data, classifying and managing the reporting information, and issuing fire-fighting tasks; constructing a fire control management platform, receiving a fire control task issued by the fire control data center by the fire control management platform, and issuing a task notification according to personnel configuration preset in the fire control management platform; the fire control data center and the fire control management platform communicate through the fire control internet of things.

In one or more embodiments, the report information of the fire-fighting host computer received by the fire-fighting internet of things includes: detector alarm information, manual alarm button trigger alarm information, annunciator alarm information, live audio data and/or live video data; all the reported information also comprises position information of the corresponding device; the method further comprises the steps of distributing an identity ID for each fire-fighting host, and adding the identity ID of the fire-fighting host to the reported information when the fire-fighting host reports the information.

In one or more embodiments, the monitoring the reported information in the fire-fighting internet of things from the fire-fighting data, performing classification management on the reported information, and issuing a fire-fighting task includes: monitoring alarm information in the fire-fighting Internet of things, and determining a task type according to the alarm information; acquiring position information and alarm quantity in the alarm information, dividing task areas according to the position information, and confirming task grades according to the alarm quantity; and issuing a fire-fighting task according to the task type, the task area and the task grade.

In one or more embodiments, the methods of the present invention further comprise: sending an account registration request to the fire control management platform, wherein the account registration request comprises an account name, a password and a verification code; logging in an account and editing personal information including name, age, affiliated service unit, department, job position description, jurisdiction and/or remark information; and configuring operation authority and task processing grade for the registered account.

In one or more embodiments, the receiving, by the fire control management platform, a fire control task issued by the fire control data center, and issuing a task notification according to a personnel configuration preset in the fire control management platform, including: extracting a task type, a task area and the task grade in the fire-fighting task; screening job descriptions of registered users according to the task types to obtain a first screening result of the users; screening the jurisdiction area of the registered user in the first screening result according to the task area to obtain a second screening result of the user; and screening the task processing grades of the registered users in the second screening result according to the task grades, and determining the target users to which the fire-fighting task needs to be issued.

In one or more embodiments, the methods of the present invention further comprise: creating groups of people in the fire management platform, wherein the groups of people can come from different affiliated service units, departments and/or positions; service descriptions, jurisdictions, and task classes that can be processed are configured for the group of people.

In one or more embodiments, the methods of the present invention further comprise: presetting an offline map in a fire control management platform; dividing jurisdictions in the offline map; assigning a service unit or group of people to the jurisdiction; in response to receiving a fire task, highlighting in the offline map to alert monitoring personnel according to alarm location information in the fire task.

In one or more embodiments, the methods of the present invention further comprise: after the fire-fighting task processing is completed and all local alarms are eliminated, uploading task processing completion information through a local fire-fighting host; the data processing center sends the task processing completion information to a fire control management platform; and in response to the fire management platform receiving the task processing completion information and not finding new alarm information about the local in the fire-fighting internet of things, eliminating highlighting in the offline map.

In one or more embodiments, the methods of the present invention further comprise: and actively checking alarm information of a designated area in the fire-fighting Internet of things through a fire-fighting management platform.

In one or more embodiments, the methods of the present invention further comprise: creating an inspection plan in a fire management platform; allocating an inspection area, inspection content, inspection personnel, supervisor and inspection period to the inspection plan; periodically counting the execution condition of the inspection plan, generating an inspection list and archiving.

The beneficial effects of the invention include: in order to establish communication among different fire-fighting systems and realize unified comprehensive management, the invention provides a method for realizing comprehensive management of different fire-fighting systems by constructing a fire-fighting Internet of things, utilizing the fire-fighting Internet of things to collect reporting information of different fire-fighting hosts, then delivering the reporting information to a data center for comprehensive analysis and distributing fire-fighting tasks, and then uniformly receiving the tasks and managing registered users through a fire-fighting management platform.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings that are necessary for the description of the embodiments or the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the invention and that other embodiments may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a workflow diagram of a fire management method according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of an internet of things module according to an embodiment of the invention;

FIG. 3 is a diagram illustrating a communication network topology of an embodiment of the present invention;

FIG. 4 is a first operator interface diagram of a fire platform according to an embodiment of the present invention;

FIG. 5 is a second interface diagram of a fire platform according to an embodiment of the present invention;

FIG. 6 is a third interface diagram of a fire platform according to an embodiment of the present invention;

FIG. 7 is a fourth interface diagram of a fire platform according to an embodiment of the present invention;

FIG. 8 is a fifth interface diagram of a fire platform according to an embodiment of the present invention;

fig. 9 is a sixth operation interface diagram of the fire platform according to the embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the following embodiments of the present invention will be described in further detail with reference to the accompanying drawings.

It should be noted that, in the embodiments of the present invention, all the expressions "first" and "second" are used to distinguish two entities with the same name but different entities or different parameters, and it is noted that the "first" and "second" are only used for convenience of expression, and should not be construed as limiting the embodiments of the present invention, and the following embodiments are not described one by one.

In order to establish communication among different fire-fighting systems and realize unified comprehensive management, the invention provides a method for realizing comprehensive management of different fire-fighting systems by constructing a fire-fighting Internet of things, utilizing the fire-fighting Internet of things to collect reporting information of different fire-fighting hosts, then delivering the reporting information to a data center for comprehensive analysis and distributing fire-fighting tasks, and then uniformly receiving the tasks and managing registered users through a fire-fighting management platform. The fire protection system of the present invention comprises: fire alarm networking monitored control system, fire control water supply networking monitored control system, electric fire networking monitored control system, trouble electric arc networking monitored control system, fire control video networking monitored control system, stand alone type alarm device networking monitored control system etc. system has formed different fire control systems because of existence mainly different fire control host computers among the above-mentioned fire control systems, and each fire control system has independently developed corresponding fire control management system, because management operation is different, the service unit and the department structure that involve is comparatively complicated, personnel responsibility distribution also different problem, leads to being difficult to realize integrated management. The method aims to solve the problem of comprehensive management of the system. Embodiments of the method of the present invention will be described in more detail below with reference to the accompanying drawings.

Referring to fig. 1, a workflow of a fire control management method according to an embodiment of the invention is shown, including: step S1, constructing a fire-fighting Internet of things, and receiving reporting information of a fire-fighting host by the fire-fighting Internet of things; s2, constructing a fire-fighting data center, monitoring reported information in the fire-fighting Internet of things in the fire-fighting data, classifying and managing the reported information, and issuing fire-fighting tasks; s3, constructing a fire control management platform, receiving a fire control task issued by a fire control data center by the fire control management platform, and issuing a task notification according to personnel configuration preset in the fire control management platform; the fire control data center and the fire control management platform communicate through the fire control internet of things.

Specifically, the inventor establishes a foundation for the scheme of the invention by connecting with each fire alarm host manufacturer, wherein each manufacturer is provided with an independent internet of things module. The implementation basis of the step S1 is to add an internet of things wireless communication module, namely an internet of things module, for all fire-fighting hosts, wherein the internet of things wireless communication module is used for realizing near-field communication between terminals to construct a communication subnet and physical access and communication of the communication subnet and a wide area network (such as the Internet), and the communication mode comprises radio frequency communication and baseband communication. The Internet of things module is a component part of the Internet of things terminal and is an independent functional block for data communication of the terminal. The module has its own processor and operating system. A typical construction of an internet of things module is shown in fig. 2.

In an optional implementation manner, the data center of the invention can adopt a fire-fighting cloud data processing center, which is called fire-fighting cloud for short, and the fire-fighting host can also be in communication connection with the user information transmission device through the internet of things module for uploading task processing conditions and other information locally for users. Referring to fig. 3, a communication network topology structure of an internet of things of an embodiment of the present invention is shown, wherein a fire alarm host is the fire host of the present invention, an internet of things data acquisition communication device is an exchange, and a user information transmission device may be a smart phone or a tablet computer or a dedicated radio frequency communication device, which may communicate with the fire host through radio frequency communication, or may directly communicate with a fire cloud through mobile data.

In some embodiments, a fire management method of the present invention further comprises the operations of:

1) Under the condition that an alarm exists on the site and the fire-fighting host computer does not upload alarm information to the transmission equipment, an emergency fire alarm can be sent to the data center through human intervention;

2) Supporting automatic restarting and connecting to a platform after power failure;

3) The delay time for receiving the fire alarm of the fire alarm controller can be set according to the site situation, so that unnecessary false alarm is avoided;

4) The system has the function of automatic switching between main power and standby power;

5) A main and standby power monitoring and fault alarm prompting function;

6) A communication line fault detection function;

7) And (5) a system self-checking function.

In a further embodiment, the report information of the fire-fighting host computer received by the fire-fighting internet of things includes: detector alarm information, manual alarm button trigger alarm information, annunciator alarm information, live audio data and/or live video data; all the reported information also comprises position information of the corresponding device; in addition, the method also comprises the steps of distributing the identity ID for each fire-fighting host, and adding the identity ID of the fire-fighting host for the reported information when the fire-fighting host reports the information.

Specifically, when the fire-fighting host and various sensors are arranged, the position information of the corresponding sensors and the fire-fighting host can be stored together, and when the corresponding sensors generate alarm information, the alarm information can be reported to the fire-fighting host together with the position information, or the fire-fighting host adds the position information and the ID of the fire-fighting host to the corresponding alarm information, so that the alarm information is associated with the fire-fighting host, and the data management and the alarm positioning by a data center are convenient to follow.

In a further embodiment, monitoring the report information in the fire-fighting internet of things from the fire-fighting data, performing classification management on the report information, and publishing the fire-fighting task includes: monitoring alarm information in the fire-fighting Internet of things, and determining a task type according to the alarm information; acquiring position information and alarm quantity in the alarm information, dividing task areas according to the position information, and confirming task grades according to the alarm quantity; and issuing a fire-fighting task according to the task type, the task area and the task grade.

Specifically, determining a specific application scenario of the task type according to the alarm information, for example, when the alarm is performed as a temperature super-threshold alarm reported by a temperature sensor, determining the task type as a fire alarm task; when the water level reported by the water level gauge exceeds the threshold value, judging the task type as a flood control task; when the high-voltage circuit breaking alarm exists, judging the task type as a power grid task, and the like. From the foregoing, the invention can realize the fire alarm networking monitoring system, the fire water supply networking monitoring system, the electric fire networking monitoring system, the fault arc networking monitoring system, the fire video networking monitoring system, the independent alarm equipment networking monitoring system and other systems, and can judge the type of the fire task according to the type of the sensor in the corresponding system and the key words of the main alarm information.

In a further embodiment, the method of the present invention further comprises: sending an account registration request to a fire control management platform, wherein the account registration request comprises an account name, a password and a verification code; logging in an account and editing personal information, wherein the personal information comprises name, age, affiliated service units, departments, positions, position descriptions, jurisdiction and/or remark information; and configuring operation authority and task processing grade for the registered account.

As shown in fig. 4, in an alternative implementation of a fire platform, the user login process includes: logging in an access address of a fire-fighting platform; the platform can be logged in for access by inputting the correct account name, password and verification code; after logging in the platform, the right upper corner [ personal information ] can be clicked, and editing personal information and changing login access passwords can be entered; and clicking on the upper right corner [ help ], the entry help page may be opened, viewing the study user instruction manual.

In some embodiments, the fire management platform of the present invention also allows the platform to be logged in with the identity of the platform administrator and perform the following operations:

Personnel role maintenance

The platform can be reasonably configured according to actual conditions, and the main role allocation is provided as follows:

The creation channel of the above table is optional such as "service management-department organization-personnel management".

In another alternative embodiment, the platform manager can log in the fire control management platform for personnel role maintenance

Creation department mechanism

Referring to fig. 5, in the left tree table, a specific node is selected, and clicking [ adding ] is performed, so that a sub-mechanism and a department basic information can be added.

Personnel account configuration

With continued reference to fig. 5, a specific node is selected in the left tree table, and the tab is switched to "organization personnel", so that a new personnel account number for the department can be added. In an alternative embodiment, after the personnel are newly added, the account number is automatically registered, and the account number can be directly used, and the local gate can be configured with the personnel account number of the present level, and also can be configured with the personnel account number of the lower level.

Service unit viewing

Referring to fig. 5, a specific node is selected in the left tree table, and the tab is switched to the service unit, so that the service unit information of the department can be checked; in an alternative embodiment, the unit information of the service corresponding to the current level and the subordinate mechanism can be checked in the list, including the service authority information, and the details of the service units can be checked by clicking on a single-position link.

Service grouping

With continued reference to fig. 5, clicking on the "personnel management-management group" enters a service person who can create a service group, configure the group, for subsequent service management. Specifically, the person management operation may include the following sub-operations;

Creating service packets

Clicking [ adding ] on the personnel management interface to add service groups for the mechanism of the hierarchy.

Configuring grouping personnel

And selecting a specific group in the left tree table of the personnel management interface, and switching the tab to 'personnel configuration', so that service personnel can be configured for the group. In an alternative implementation, a default grouping may be set, i.e., users grouped for configuration personnel are all divided into default groupings.

Construction of service units

The login platform clicks on the service management-service unit to enter, and can create and manage the service units in the administered area.

Newly adding a service unit:

clicking the networking unit-unit management-unit list to enter, clicking the upper right corner of the list [ adding ], and then adding the service unit. In an alternative embodiment, units are automatically associated if they already exist when they are added.

Department organization hierarchy partitioning configuration

And logging in the platform, clicking a service management-department organization to enter, and constructing an organization of the group industry department on the left tree table. By constructing the extension mechanism of the group industry department, the hierarchy of the division mechanism can be configured, basic information of the department, management personnel and service units governed by the checking department are created, and concrete service management with high area coverage is realized.

File data construction

The institution may build service profiles within the institution as needed. So as to facilitate the development of subsequent service work and service management; clicking on "data management-archive management" goes in, clicking on top of the left tree table [ add classification ], and then adding a classification of service archive for the organization. After the addition of the classification is completed, a specific classification node is selected in the tree table, and the document is added for the classification by clicking [ adding the document ]. In an alternative embodiment, document management is divided into two types, namely a shared archive and a department archive, and documents added under the shared archive can be viewed at the upper and lower levels; documents added under department files are only viewable at this level. The added documents under the shared document can be modified by adding the hierarchy, and other hierarchies can only be checked and cannot be modified.

Inspection item configuration

And (4) logging in the platform, clicking the security check-check configuration to enter, and then performing check project configuration and check plan management. Specifically, the inspection plan management further includes the following sub-operations:

1) Inspection item configuration

① Unit type configuration

The tab is switched to 'check item configuration', and the check type can be newly added by clicking [ add ] above the left tree table. Different examination items are operatively configured corresponding to different unit types in the tree table.

② Inspection item configuration

Clicking [ add group ] can configure a large check item. And selecting the big item, clicking the right side [ + ], and adding a small item corresponding to the big item, wherein the small item is required to be configured with corresponding examination content and examination result options.

2) Inspection plan management

Clicking the security check-check configuration-check plan management to enter, clicking the left tree table [ add ], and then configuring a periodic security check plan for the mechanism.

In an alternative embodiment, when a plan is configured, a main inspector is selected, and the jurisdiction unit of the main inspector is directly screened according to the correspondence of the inspector after the main inspector is selected; after the plan is generated, corresponding periodic plan tasks are generated regularly according to the nature of the plan.

Introduction of early warning and monitoring items

Referring to fig. 6, various fire-fighting early-warning networking monitoring systems are installed in the fire-fighting unit, various fire-fighting data can be effectively collected, and remote fire real-time early-warning monitoring management-! The main early warning monitoring projects applied to fireproof building units at present are shown in the following diagram.

The various fire protection systems which can be comprehensively managed according to the invention will be briefly described below:

① Automatic fire alarm networking monitoring system

The remote network monitoring system is mainly applied to key fireproof units, and is used for realizing remote network monitoring of automatic fire alarming by installing an information transmission device (or data acquisition communication equipment) on a fire-fighting host, acquiring alarming information such as fire alarm, fault and the like reported by the host and uploading the alarming information to a data center.

② Fire control water supply networking monitored control system

The intelligent fire-fighting water supply system is mainly applied to key fire-fighting units, and is characterized in that water pressure and water level analog quantity data acquisition devices are installed at positions such as a fire-fighting water pump, a tail-end water test valve and a fire-fighting water tank of a building to acquire analog quantity data information such as water pressure and water level of a fire-fighting water supply system and upload the analog quantity data information to a data center, so that remote networking monitoring of fire-fighting water supply is realized.

③ Electrical fire networking monitoring system

The intelligent electric fire monitoring system can be applied to electric safety management of key and general fireproof units, and can be used for realizing remote networking monitoring of electric safety electric fires by installing an electric fire detector and a data acquisition communication module on important electric lines such as a distribution box and acquiring analog quantity data information such as leakage current and temperature of the electric lines and uploading the analog quantity data information to a data center.

④ Fault arc networking monitoring system

The method is mainly applied to a unit place with larger electric load, and the fault arc monitoring device is arranged on a corresponding electric circuit to collect fault arc alarm information and upload the fault arc alarm information to a data center so as to realize remote networking monitoring of the fault arc of the electric circuit.

⑤ Fire control video networking monitored control system

The intelligent fire control system is mainly applied to a fire control room and a fire protection channel of a key fire protection unit and a general fire protection unit, and is characterized in that an IP camera is installed at a corresponding position, and camera information is configured to a platform, so that fire control video remote networking monitoring is realized, and video linkage site viewing is realized when an alarm occurs.

⑥ Independent alarm equipment networking monitoring system

The independent alarm networking monitoring equipment is mainly applied to small places and public places, and areas (such as special or expanded parts of warehouses and the like) where the automatic fire alarm equipment is not installed in key fireproof units, and has functions similar to those of the automatic fire alarm system of the key fireproof units. Mainly comprises the following steps:

independent smoke sensing detection alarm: detecting smoke alarm in the surrounding environment, uploading detected alarm information through data acquisition communication equipment, and realizing remote networking monitoring of smoke sensing detection;

wireless gas leakage detection alarm: detecting surrounding environment gas leakage alarm, uploading detected alarm information through data acquisition communication equipment, and realizing remote networking monitoring of gas leakage detection;

Wireless manual alarm button alarm: the wireless manual alarm button is arranged at a proper position, a fire disaster occurs nearby, the manual alarm button is pressed, and alarm information can be uploaded through the data acquisition communication equipment, so that wireless manual alarm remote networking monitoring is realized.

⑦ Other monitoring systems

Besides the early warning networking monitoring system, more networking monitoring such as fire protection power supply, fireproof separation and the like can be expanded.

In a further embodiment, the fire-fighting management platform receives a fire-fighting task issued by the fire-fighting data center and issues a task notification according to a personnel configuration preset in the fire-fighting management platform, including: extracting a task type, a task area and a task grade in a fire-fighting task; screening job descriptions of registered users according to task types to obtain a first screening result of the users; screening the jurisdiction area of the registered user in the first screening result according to the task area to obtain a second screening result of the user; and screening the task processing grades of the registered users in the second screening result according to the task grades, and determining the target users to which the fire-fighting tasks need to be issued. It should be noted that the screening sequence in the above embodiment is not limited to the solution of the present invention, and the screening sequence in the above embodiment is only convenient to understand.

In a further embodiment, the method of the present invention further comprises: creating groups of people in the fire management platform, wherein the groups of people can come from different affiliated service units, departments and/or positions; the service description, jurisdiction, and task level that can be handled are configured for the group of people.

In a further embodiment, the method of the present invention further comprises: presetting an offline map in a fire control management platform; dividing jurisdictions in an offline map; assigning service units or groups of people to jurisdictions; in response to receiving the fire task, highlighting in the offline map to alert the monitoring personnel according to alarm location information in the fire task. Specifically, the specific implementation manner of this embodiment is as follows:

Logging in the fire control management platform with the identity of the platform manager, then entering into the map monitoring under the security monitoring, please refer to fig. 7, and then the following configuration can be performed according to the monitoring authority:

① Centering position

On the map, the mouse points to the central position, and the central position is positioned by clicking [ mouse right button ], so that the map is used for displaying, and when a unit generates an alarm condition, a rescue path can be automatically planned according to the central positioning, thereby facilitating rapid rescue.

② Acousto-optic client configuration

Clicking the upper right area of the page, popping up an acousto-optic client dialog box, downloading an installation client, and setting to start and stop the acousto-optic client; after successful installation, and when the state of the audible and visual alarm is normal, the button is displayed as follows. When an alarm occurs, the computer terminal automatically receives the push of the sound alarm; clicking to stop the sound alarm.

③ Lower level unit alarm condition monitoring configuration

After checking the check box "including lower level", the units managed by the lower level organization can be monitored on the map.

④ Fault warning condition monitoring configuration

After checking the "fault" check box, the unit for reporting "fault" is displayed on the map. Wherein the fire alarm is higher in priority than the fault.

Centralized early warning monitoring application

① Alarm condition

After the unit installs the fire early warning networking monitoring equipment, the fire early warning networking monitoring equipment automatically reports the fire early warning networking monitoring equipment to a service platform after the warning condition occurs! The reported alarm condition types comprise: fire, malfunction, event.

② Receiving alert

Service platform alarm receiving

Alarm sound alert: under the condition of normal sound-light communication, after a fire alarm or a fault occurs, the computer end receives the sound alarm of the fire alarm and the fault, and clicks [ silencing ] to stop sound reminding;

Map monitoring alarm: clicking the safety monitoring-map monitoring, and receiving the monitoring alarm condition in a map entering mode can rapidly locate the position of the alarm unit. Clicking an icon of an alarm unit, and entering a fire alarm fault list of the unit to process alarm conditions;

Real-time alarm list alarm reception: clicking the safety monitoring-real-time alarming to enter an alarm list for checking, and managing fire alarms, faults, events and historical alarm conditions of all units.

③ Handling alert conditions

Service platform nuclear police: the central attendant carries out the nuclear police with the units or related personnel through the telephone and clicks (processes) to enter the details of the police through the map or the list, and can process the police. The fire alarm is handled as shown in fig. 8.

Alarm condition processing result shows that:

fire alarm: false alarm, test, fire demonstration, real fire alarm;

Failure: false alarm, test, general processing, service application;

When the processing is 'service application', after 'service type' is selected, the system automatically generates a service application task, and the service application task can be tracked and checked in 'fire service-service acceptance';

Event: false alarm, test and general processing.

In a further embodiment, the method of the present invention further comprises: after the fire-fighting task processing is completed and all local alarms are eliminated, uploading task processing completion information through a local fire-fighting host; the data processing center sends the task processing completion information to the fire control management platform; and in response to the fire management platform receiving the task processing completion information and no new alarm information about the local is found in the fire Internet of things, eliminating highlighting in the offline map.

In a further embodiment, the method of the present invention further comprises: and actively checking alarm information of a designated area in the fire-fighting Internet of things through the fire-fighting management platform. Specifically, the specific implementation manner of the embodiment includes:

equipment operation monitoring

1) Gateway networking on-line monitoring

The early warning monitoring system accessed by each unit is configured with a corresponding networking gateway, and whether the gateway is on line can be checked through the networking gateway so as to ensure that the networking of the early warning monitoring system is normal;

Clicking the security monitor-gateway status into the gateway monitor page can monitor all gateway networking online conditions,

More specifically, clicking on the [ detail ] of the gateway list operation field may view the detail information of the gateway, including: basic information can be used for checking the related conditions of the fire-fighting equipment accessed by the gateway; the gateway history can be checked for online and offline conditions; the monitoring record can check the historical conditions of the gateway for monitoring fire alarm, faults and the like.

2) Real-time data monitoring

The real-time data monitoring mainly comprises the access of each unit: fire control water supply analog real-time data, electric fire analog real-time data and the like;

clicking the safety monitoring-real-time data to enter a real-time data monitoring page can monitor the acquired analog real-time data information.

Clicking the back side of the list (trend graph), the operation trend of the acquired analog data can be checked.

Clicking on the top of the list [ chart monitoring ] may switch to chart form monitoring.

In an alternative embodiment, in addition to platform monitoring, the relevant personnel are connected to the mobile terminal by: clicking the security monitoring-gateway to check the real-time monitoring analog quantity data and the grid on-line state.

Fire video monitoring application

Referring to fig. 9, after the unit fire video is accessed to the platform, the unit video may be invoked by the "fire video" to perform remote video monitoring management, which specifically includes:

1) Fire control video remote monitoring

Clicking the security monitoring-video monitoring to enter a video monitoring page, and remotely monitoring a unit through a video:

In a further embodiment, the method of the present invention further comprises: creating an inspection plan in a fire management platform; allocating an inspection area, inspection content, inspection personnel, supervisor and inspection period for the inspection plan; periodically counting the execution condition of the inspection plan, generating an inspection list and archiving;

video operation: monitoring unit videos through the cradle head and multi-screen switching operation, and performing operations such as voice intercom;

video screenshot: clicking the screen capture button can patrol and check screen capture management.

2) Fire control video alarm linkage

When a fire alarm occurs in a unit, the fire alarm details are linked with the field video to carry out video viewing.

The foregoing is an exemplary embodiment of the present disclosure, but it should be noted that various changes and modifications could be made herein without departing from the scope of the disclosure as defined by the appended claims. The functions, steps and/or actions of the method claims in accordance with the disclosed embodiments described herein need not be performed in any particular order. Furthermore, although elements of the disclosed embodiments may be described or claimed in the singular, the plural is contemplated unless limitation to the singular is explicitly stated.

It should be understood that as used herein, the singular forms "a", "an", and "the" are intended to include the plural forms as well, unless the context clearly supports the exception. It should also be understood that "and/or" as used herein is meant to include any and all possible combinations of one or more of the associated listed items.

The foregoing embodiment of the present invention has been disclosed with reference to the number of embodiments for the purpose of description only, and does not represent the advantages or disadvantages of the embodiments.

Those of ordinary skill in the art will appreciate that: the above discussion of any embodiment is merely exemplary and is not intended to imply that the scope of the disclosure of embodiments of the invention, including the claims, is limited to such examples; combinations of features of the above embodiments or in different embodiments are also possible within the idea of an embodiment of the invention, and many other variations of the different aspects of the embodiments of the invention as described above exist, which are not provided in detail for the sake of brevity. Therefore, any omission, modification, equivalent replacement, improvement, etc. of the embodiments should be included in the protection scope of the embodiments of the present invention.

Claims (10)

1. A fire management method, comprising:

constructing a fire-fighting Internet of things, and receiving reporting information of a fire-fighting host by the fire-fighting Internet of things;

Building a fire-fighting data center, monitoring reporting information in the fire-fighting Internet of things from the fire-fighting data, classifying and managing the reporting information, and issuing fire-fighting tasks;

constructing a fire control management platform, receiving a fire control task issued by the fire control data center by the fire control management platform, and issuing a task notification according to personnel configuration preset in the fire control management platform;

The fire control data center and the fire control management platform communicate through the fire control internet of things.

2. The fire control management method according to claim 1, wherein the report information of the fire control host computer received by the fire control internet of things comprises:

Detector alarm information, manual alarm button trigger alarm information, annunciator alarm information, live audio data and/or live video data;

all the reported information also comprises position information of the corresponding device;

The method further comprises the steps of distributing an identity ID for each fire-fighting host, and adding the identity ID of the fire-fighting host to the reported information when the fire-fighting host reports the information.

3. The fire control management method according to claim 2, wherein monitoring the reported information in the fire control internet of things from the fire control data, performing classification management on the reported information, and issuing a fire control task comprises:

monitoring alarm information in the fire-fighting Internet of things, and determining a task type according to the alarm information;

acquiring position information and alarm quantity in the alarm information, dividing task areas according to the position information, and confirming task grades according to the alarm quantity;

and issuing a fire-fighting task according to the task type, the task area and the task grade.

4. A fire management method according to claim 3, wherein the method further comprises:

sending an account registration request to the fire control management platform, wherein the account registration request comprises an account name, a password and a verification code;

Logging in an account and editing personal information including name, age, affiliated service unit, department, job position description, jurisdiction and/or remark information;

And configuring operation authority and task processing grade for the registered account.

5. The fire control management method according to claim 4, wherein the receiving, by the fire control management platform, the fire control task issued by the fire control data center, and issuing a task notification according to a personnel configuration preset in the fire control management platform, comprises:

Extracting a task type, a task area and the task grade in the fire-fighting task;

screening job descriptions of registered users according to the task types to obtain a first screening result of the users;

screening the jurisdiction area of the registered user in the first screening result according to the task area to obtain a second screening result of the user;

And screening the task processing grades of the registered users in the second screening result according to the task grades, and determining the target users to which the fire-fighting task needs to be issued.

6. The fire management method of claim 1, further comprising:

Creating groups of people in the fire management platform, wherein the groups of people can come from different affiliated service units, departments and/or positions;

service descriptions, jurisdictions, and task classes that can be processed are configured for the group of people.

7. The fire management method of claim 6, further comprising:

Presetting an offline map in a fire control management platform;

Dividing jurisdictions in the offline map;

Assigning a service unit or group of people to the jurisdiction;

in response to receiving a fire task, highlighting in the offline map to alert monitoring personnel according to alarm location information in the fire task.

8. The fire management method of claim 7, further comprising:

after the fire-fighting task processing is completed and all local alarms are eliminated, uploading task processing completion information through a local fire-fighting host;

The data processing center sends the task processing completion information to a fire control management platform;

And in response to the fire management platform receiving the task processing completion information and not finding new alarm information about the local in the fire-fighting internet of things, eliminating highlighting in the offline map.

9. The fire management method of claim 1, further comprising:

and actively checking alarm information of a designated area in the fire-fighting Internet of things through a fire-fighting management platform.

10. The fire management method of claim 1, further comprising:

Creating an inspection plan in a fire management platform;

allocating an inspection area, inspection content, inspection personnel, supervisor and inspection period to the inspection plan;

Periodically counting the execution condition of the inspection plan, generating an inspection list and archiving.