CN115631617A - Internet of things fire fighting equipment early warning method and system based on data processing - Google Patents

Abstract

The invention provides an Internet of things fire fighting equipment early warning method and system based on data processing, and relates to the technical field of digital processing, wherein the method comprises the following steps: constructing a fire fighting information distribution map; generating a fire fighting equipment adaptation grade; acquiring a fire-fighting facility adaptation specification set; building a fire-fighting facility dispatching management platform; connecting a fire hydrant pressure monitoring terminal, a spraying pipe network pressure detection terminal and a fire fighting water source liquid level detection terminal, and guiding a real-time monitoring data set into a fire fighting facility dispatching management platform; judging whether to activate a facility early warning signal or not through a fire-fighting facility early warning system; and if the facility early warning signal is activated, packaging and sending the facility early warning signal to an emergency processing column of the fire-fighting facility early warning system. The technical problem of poor state early warning timeliness of the fire fighting equipment of the Internet of things is solved, the fire fighting equipment specification of an intelligent matching target area is achieved, state early warning of the fire fighting equipment of the Internet of things is timely carried out, equipment early warning activation judgment is carried out, and the technical effect of supporting timely maintenance of the fire fighting equipment is provided.

Description

Internet of things fire fighting equipment early warning method and system based on data processing

Technical Field

The invention relates to the technical field of digital processing, in particular to an Internet of things fire fighting equipment early warning method and system based on data processing.

Background

For guarantee basic safety equipment, each corner of scattered distribution, most users do not know the position that fire-fighting equipment put, arranged, if appear handing-over not in place, will lead to fire-fighting equipment to manage, maintain misappropriately, and at present stage, the manual work that fire-fighting equipment exists patrols and examines difficultly, fire-fighting equipment supervises difficult, fire information lag scheduling problem, in time maintains through internet of things and examines fire-fighting equipment, provides support for the safe handling who maintains fire-fighting equipment.

The technical problem that the state early warning timeliness of the Internet of things fire fighting equipment is poor exists in the prior art.

Disclosure of Invention

The application provides the Internet of things fire fighting equipment early warning method and system based on data processing, the technical problem that the state early warning timeliness of the Internet of things fire fighting equipment is poor is solved, the fire fighting equipment specification of an intelligent matching target area is achieved, the state early warning of the Internet of things fire fighting equipment is timely carried out, the equipment early warning activation judgment is carried out, and the technical effect of supporting timely fire fighting equipment maintenance is achieved.

In view of the above problems, the application provides an internet of things fire fighting equipment early warning method and system based on data processing.

The application provides a thing networking fire-fighting equipment early warning method based on data processing in a first aspect, wherein, the method is applied to fire-fighting equipment early warning system, the system and fire hydrant pressure monitoring terminal, spray pipe network pressure detection terminal, fire-fighting water source liquid level detection terminal communication connection, the method includes: constructing a fire fighting information distribution map; generating a fire-fighting facility adaptation grade through the fire-fighting information distribution map; matching the specifications of various fire-fighting facilities according to the fire-fighting facility adaptation grade to obtain a fire-fighting facility adaptation specification set; building a fire-fighting facility dispatching management platform through the fire-fighting information distribution map and the fire-fighting facility adaptation specification set; connecting a fire hydrant pressure monitoring terminal, a spraying pipe network pressure detection terminal and a fire fighting water source liquid level detection terminal, and leading a real-time monitoring data set into the fire fighting facility dispatching management platform; after the real-time monitoring data set is imported into the fire-fighting equipment scheduling management platform, judging whether an equipment early warning signal is activated or not through the fire-fighting equipment early warning system; and if the facility early warning signal is activated, packaging the facility early warning signal and the real-time monitoring data set and sending the packaged facility early warning signal and the real-time monitoring data set to an emergency processing fence of the fire-fighting facility early warning system.

In a second aspect of the present application, a data processing-based internet of things fire fighting equipment early warning system is provided, wherein the system includes: the distribution map building unit is used for building a fire fighting information distribution map; the adaptation grade generation unit is used for generating the adaptation grade of the fire-fighting facilities through the fire-fighting information distribution map; the specification matching unit is used for matching the specifications of various fire-fighting facilities according to the fire-fighting facility adaptation grades to obtain a fire-fighting facility adaptation specification set; the management platform building unit is used for building a fire-fighting facility dispatching management platform through the fire-fighting information distribution map and the fire-fighting facility adaptation specification set; the data import unit is used for connecting a fire hydrant pressure monitoring terminal, a spraying pipe network pressure detection terminal and a fire fighting water source liquid level detection terminal and importing a real-time monitoring data set into the fire fighting facility dispatching management platform; the early warning signal judgment unit is used for judging whether to activate a facility early warning signal or not through a fire-fighting facility early warning system after the real-time monitoring data set is imported into the fire-fighting facility scheduling management platform; and the packaging sending unit is used for packaging and sending the facility early warning signal and the real-time monitoring data set to an emergency processing fence of the fire-fighting facility early warning system if the facility early warning signal is activated.

One or more technical solutions provided in the present application have at least the following technical effects or advantages:

because the fire fighting information distribution map is constructed; generating a fire-fighting facility adaptation grade through a fire-fighting information distribution map; matching various fire-fighting equipment specifications through the fire-fighting equipment adaptation grade to obtain a fire-fighting equipment adaptation specification set; building a fire-fighting facility scheduling management platform; connecting a fire hydrant pressure monitoring terminal, a spraying pipe network pressure detection terminal and a fire fighting water source liquid level detection terminal, and guiding a real-time monitoring data set into a fire fighting facility dispatching management platform; judging whether to activate a facility early warning signal or not through a fire-fighting facility early warning system; and if the facility early warning signal is activated, packaging the facility early warning signal and the real-time monitoring data set and sending the packaged data set to an emergency processing column of the fire-fighting facility early warning system. The intelligent matching method and the intelligent matching system have the advantages that the fire fighting equipment specification of the intelligent matching target area is achieved, the state early warning of the Internet of things fire fighting equipment is timely carried out, the equipment early warning activation judgment is carried out, and the technical effect of supporting the timely maintenance of the fire fighting equipment is achieved.

Drawings

Fig. 1 is a schematic flow chart of a data processing-based internet of things fire fighting equipment early warning method according to the present application;

fig. 2 is a schematic flow chart of a synthetic fire protection information distribution map of the data processing-based internet of things fire protection facility early warning method according to the present application;

fig. 3 is a schematic flow chart of generating a fire fighting equipment adaptation grade according to the data processing-based internet of things fire fighting equipment early warning method;

fig. 4 is a schematic structural diagram of an internet of things fire fighting equipment early warning system based on data processing.

Description of reference numerals: the system comprises a distribution map construction unit 11, an adaptation grade generation unit 12, a specification matching unit 13, a management platform construction unit 14, a data import unit 15, an early warning signal judgment unit 16 and a packaging and sending unit 17.

Detailed Description

The Internet of things fire fighting equipment early warning method and system based on data processing solve the technical problem that state early warning timeliness of Internet of things fire fighting equipment is poor, achieve intelligent matching of fire fighting equipment specifications of a target area, timely conduct state early warning of the Internet of things fire fighting equipment, conduct equipment early warning activation judgment, and provide support technical effects for timely fire fighting equipment maintenance.

Example one

As shown in fig. 1, the application provides an internet of things fire-fighting equipment early warning method based on data processing, wherein the method is applied to a fire-fighting equipment early warning system, the system is in communication connection with a fire hydrant pressure monitoring terminal, a spray pipe network pressure detection terminal and a fire fighting water source liquid level detection terminal, and the method comprises the following steps:

step S100: constructing a fire fighting information distribution map;

further, as shown in fig. 2, a fire information distribution map is constructed, and the step S100 includes:

step S110: acquiring map information of a target area;

step S120: acquiring the distribution characteristics of the fire-fighting facilities and the fire-fighting units of the Internet of things;

step S130: and taking the distribution characteristics of the fire-fighting units as a center, and synthesizing a fire-fighting information distribution map through the distribution characteristics of the fire-fighting facilities of the Internet of things and the target area map information.

Specifically, constructing a fire fighting information distribution map specifically includes: in a target area, obtaining target area map information, wherein the target area map information comprises; the fire-fighting facilities (the fire-fighting facilities are Internet of things fire-fighting equipment, and can be fire-fighting apparatuses such as a heptafluoropropane fire extinguishing device, a carbon dioxide fire extinguisher, a dry powder fire extinguisher, an acid foam reducing fire extinguisher and other related fire-fighting special equipment, or fire hydrant, water hose and water gun distribution information, fire-fighting unit (a unit which undertakes a fire-fighting rescue task in a target area) distribution information, route traffic information and other related position distribution information, and a fire-fighting information distribution map is synthesized on the basis of the fire-fighting facility distribution information, the fire-fighting unit distribution information and the route traffic information; performing feature distribution extraction (feature distribution extraction, namely extraction of distribution features of position information) based on the fire fighting information distribution map, and acquiring distribution features of the internet of things fire fighting facilities (fire fighting facility distribution information extraction) and fire fighting unit distribution features (fire fighting unit distribution information extraction); and combining position distribution information on the basis of the target area map information by taking the distribution characteristics of the fire-fighting units as the center and the distribution characteristics of the fire-fighting facilities of the Internet of things as the sub-center to synthesize a fire-fighting information distribution map which is a subsequent data processing basis.

Step S200: generating a fire fighting facility adaptation grade through the fire fighting information distribution map;

further, as shown in fig. 3, the generating a fire fighting equipment adaptation level through the fire fighting information distribution map, and the step S200 further includes:

step S210: performing route planning through the fire protection information distribution map and the fire protection unit distribution characteristics to obtain a route planning set;

step S220: performing alarm response statistics through the route planning set to synthesize a route-response function;

step S230: acquiring a response time length set through the route-response function;

step S240: and generating a fire fighting facility adaptation grade through the distribution characteristics of the internet of things fire fighting facilities in the fire fighting information distribution map and the response time length set.

Specifically, generating a fire fighting equipment adaptation grade through the fire fighting information distribution map specifically includes: performing route planning through the fire protection information distribution map and the fire protection unit distribution characteristics, wherein the route planning is the route planning (the route planning with the shortest distance from the fire protection unit to the position of the high-risk fire hazard) of the fire protection unit and each high-risk fire hazard position (the high-risk fire hazard position usually has large-scale intensive personnel places, flammable and explosive hazardous articles places and units, underground public buildings or underground traffic engineering and other related position places), and integrating each result of the route planning to obtain a route planning set; performing alarm response statistics (timing is started when a fire unit gives an alarm and timing is finished when the fire unit reaches a corresponding high-risk fire position) through the route planning set, wherein the abscissa and the ordinate of the coordinate system respectively represent a distance corresponding to the route planning and time of the alarm response statistics, inputting the distance of the route planning set pair and the time of the alarm response statistics into the coordinate system for data statistics, fitting data points after statistics are finished, synthesizing a route-response function, extracting the time of the alarm response through the route-response function, and acquiring a response time set; through the internet of things fire-fighting equipment distribution characteristics in the fire-fighting information distribution map and the response time length set, the self-extinguishing time of a user is calculated (the time from the user to the emergency fire-fighting equipment is counted through the internet of things fire-fighting equipment distribution characteristics, the self-extinguishing time is the time information of the response time length set minus the time from the user to the emergency fire-fighting equipment), and the self-extinguishing time is used for generating a fire-fighting equipment adaptation grade (the specification of the fire-fighting equipment adaptation grade needs to be consistent with the corresponding fire extinguisher type, the self-extinguishing time is long, correspondingly, under the condition that the specification of the equipped fire-fighting equipment is consistent, the quantity of the fire-fighting equipment is increased).

Step S300: matching the specifications of various fire-fighting facilities according to the fire-fighting facility adaptation grade to obtain a fire-fighting facility adaptation specification set;

step S400: building a fire fighting facility scheduling management platform through the fire fighting information distribution map and the fire fighting facility adaptation specification set;

step S500: connecting a fire hydrant pressure monitoring terminal, a spraying pipe network pressure detection terminal and a fire fighting water source liquid level detection terminal, and leading a real-time monitoring data set into the fire fighting facility dispatching management platform;

specifically, various fire-fighting equipment specifications are matched through the fire-fighting equipment adaptation grade (particularly, the fire hydrant, the water hose and the water gun do not need to be matched in specification, and only the fire-fighting water quantity needs to be matched, the fire extinguisher equipment specification meets the unified standard, the number of the fire-fighting equipment needs to be matched, illustratively, the fire-fighting equipment adaptation grade is one grade, the fire-fighting water quantity can be 20 cubes, and the number of the fire-fighting equipment is two; performing data association binding through the fire fighting information distribution map and the fire fighting facility adaptation specification set, and building a fire fighting facility scheduling management platform; carry out data acquisition through fire hydrant pressure monitoring terminal, spray pipe network pressure detection terminal, fire control water source liquid level detection terminal, acquire the real-time supervision data set, the real-time supervision data set includes fire hydrant pressure monitoring data, spray pipe network pressure detection data and fire control water source liquid level detection data, connects fire hydrant pressure monitoring terminal, sprays pipe network pressure detection terminal, fire control water source liquid level detection terminal, imports the real-time supervision data set fire control facility dispatch management platform, with the leading-in fire control facility dispatch management platform of on-the-spot real-time data, for carrying out real-time early warning to thing networking fire control facility abnormal state and provide the basis.

Step S600: after the real-time monitoring data set is imported into the fire-fighting facility scheduling management platform, judging whether a facility early warning signal is activated or not through the fire-fighting facility early warning system;

step S700: and if the facility early warning signal is activated, packaging the facility early warning signal and the real-time monitoring data set and sending the packaged facility early warning signal and the real-time monitoring data set to an emergency processing fence of the fire-fighting facility early warning system.

Further, after the real-time monitoring data set is imported into the fire fighting equipment scheduling management platform, whether an equipment early warning signal is activated is judged by the fire fighting equipment early warning system, and the step S600 includes:

step S610: carrying out fire emergency information statistics in real time to obtain fire emergency real-time information;

step S620: based on the fire emergency real-time information, after a user determines a fire task, fire demand information is sent out;

step S630: the fire fighting demand information is sent to the fire fighting facility scheduling management platform, and a user fire fighting scheme is synthesized;

step 640: generating a facility state synchronous updating instruction through the fire-fighting facility early warning system, wherein the priority of the facility state synchronous updating instruction is higher than that of a facility early warning signal;

step S650: synthesizing facility state mark information through the facility state synchronous updating instruction;

step S660: and synchronously sending the user fire protection scheme and the facility state mark information to a user terminal.

Specifically, after the real-time monitoring data set is imported into the fire fighting equipment scheduling management platform, the fire fighting equipment early warning system compares a fire fighting equipment adaptation specification set in the fire fighting equipment scheduling management platform with the real-time monitoring data set (if fire water source liquid level detection data is compared with the fire water amount, whether the actual fire water amount meets the fire water amount is judged), whether facility early warning signals are activated is judged, the real-time monitoring data sets are compared with data one by one, if one is not met, the facility early warning signals are activated, the facility early warning signals and the real-time monitoring data set are packaged and sent to an emergency processing fence of the fire fighting equipment early warning system, and support is provided for early warning of the state of the Internet of things fire fighting equipment in time.

Further specifically, before the state of the fire-fighting equipment of the internet of things is early warned, if a fire accident occurs, the priority of the instruction task needs to be determined, which specifically includes: carrying out fire emergency information statistics in real time to obtain fire emergency real-time information, wherein the fire emergency real-time information comprises relevant fire emergency information such as incoming call help information of a fire department, alarm signals of smoke alarm equipment and the like; based on the fire emergency real-time information, after a user determines a fire task (the user determines a fire accident position, fire accident fire source point information and fire accident point environment information to avoid the occurrence of false alarm), fire demand information is sent, wherein the fire demand information comprises the fire accident position, the fire accident fire source point information and the fire accident point environment information; sending the fire-fighting demand information to the fire-fighting facility scheduling management platform to synthesize a user fire-fighting scheme, wherein the user fire-fighting scheme is an emergency fire-fighting scheme which is spontaneously carried out under the condition that the user protects the self safety; generating a facility state synchronous updating instruction through the fire-fighting facility early warning system, wherein the priority of the facility state synchronous updating instruction is higher than that of a facility early warning signal; sending the real-time monitoring data set to a fire-fighting facility early warning system in real time through the facility state synchronous updating instruction, performing associated binding of various fire-fighting facilities and the real-time monitoring data set, and synthesizing facility state mark information; and synchronously sending the user fire protection scheme and the facility state mark information to a user terminal to provide support for spontaneous emergency fire protection of the user.

Further, the fire fighting demand information is sent to the fire fighting equipment scheduling management platform to synthesize a user fire fighting scheme, where step S630 includes:

step S631: building a fire fighting facility applicable model;

step S632: after the fire fighting demand information is sent to the fire fighting equipment scheduling management platform, the fire fighting demand information is input into the fire fighting equipment applicable model, and a fire fighting applicable equipment set is obtained;

step S633: and synthesizing a user fire protection scheme through the fire protection information distribution map and the fire protection applicable facility set.

Specifically, on the basis of historical data of the fire fighting equipment early warning system, historical fire fighting demand information and historical fire fighting equipment use information in the historical data are used as training data, a bp network model is used as a model basis, the training data are input to the input end of the bp network model for fitting training, and after the output of the model tends to be stable, a model suitable for the fire fighting equipment is determined; after the fire fighting demand information is sent to the fire fighting equipment scheduling management platform, the fire fighting demand information is input into the fire fighting equipment applicable model, and fire fighting applicable equipment is output, wherein the fire fighting applicable equipment meets various fire fighting equipment of the fire fighting demand information, is integrated with the fire fighting applicable equipment, and outputs a fire fighting applicable equipment set; and performing data merging on the fire protection information distribution map and the fire protection applicable facility set to synthesize and generate a user fire protection scheme, determining proper fire protection equipment for a user, and avoiding the safety problem caused by misuse of the fire protection equipment due to lack of relevant knowledge for using the fire protection equipment by the user.

Further, the embodiment of the present application further includes:

step S634: after the user fire-fighting scheme and the facility state mark information are synchronously sent to a user terminal, selecting a fire-fighting scheme to obtain a user screening fire-fighting scheme;

step S635: sending an alarm reminding instruction to the Internet of things fire fighting facilities corresponding to the user screening fire fighting scheme;

step 636: through the alarm reminding device of the fire fighting facility of the Internet of things and the alarm reminding instruction, the equipment is positioned and reminded, and an equipment positioning alarm is sent out.

Particularly, after the fire incident takes place, for quick location fire-fighting equipment, can carry out the equipment location through alarm reminding device and remind, specifically include: after the user fire protection scheme and the facility state mark information are synchronously sent to a user terminal, the user selects a fire protection scheme (the user is advised to preferentially select equipment without facility state marks, the existence marks can be determined by the facility state mark information whether to select the equipment with the facility state marks, in short, whether the actual fire protection water quantity meets the fire protection water quantity is judged under the condition that no other inflammable matters exist around, if the actual fire protection water quantity is not lower than 80% of the fire protection water quantity, the equipment with the facility state marks with the fire protection water quantity can be selected in consideration), and the user screened fire protection scheme is obtained; sending an alarm reminding instruction to the Internet of things fire-fighting facilities corresponding to the user screening fire-fighting scheme, wherein the alarm reminding instruction is a control early warning instruction; and sending the alarm reminding instruction to an alarm reminding device of the Internet of things fire-fighting facility, wherein the alarm reminding device can be a buzzer or other related alarm devices, and the alarm reminding device carries out equipment positioning reminding and sends out equipment positioning alarm to support the fire-fighting equipment required by quick positioning.

Further, after the facility early warning signal and the real-time monitoring data set are packaged and sent to the emergency treatment fence of the fire-fighting facility early warning system, the embodiment of the application further includes:

step S810: packaging the facility early warning signal and the real-time monitoring data set, sending the packaged facility early warning signal and the real-time monitoring data set to an emergency processing fence of the fire fighting facility early warning system, then maintaining the fire fighting facilities of the Internet of things, and synthesizing processed marking information after the maintenance of the fire fighting facilities of the Internet of things is finished;

step S820: sending the processed mark information to a fire hydrant pressure monitoring terminal, a spraying pipe network pressure detection terminal and a fire fighting water source liquid level detection terminal, and updating the data of the real-time monitoring data set to obtain a first monitoring data set;

step S830: acquiring a normal state monitoring data set through a historical monitoring data set;

step S840: and acquiring a maintenance result of the fire fighting equipment through the normal state monitoring data set and the first monitoring data set.

Specifically, the determining whether the task of the emergency processing gird needs to be cleared includes: after the facility early warning signal and the real-time monitoring data set are packaged and sent to an emergency processing fence of the fire-fighting facility early warning system, the maintenance of the fire-fighting facilities of the Internet of things is carried out (the maintenance of the fire-fighting facilities of the Internet of things is simple, namely equipment with facility state marks of fire-fighting water amount can supplement the fire-fighting water amount in time), and after the maintenance of the fire-fighting facilities of the Internet of things is finished, processed mark information is synthesized; sending the processed mark information to a fire hydrant pressure monitoring terminal, a spraying pipe network pressure detection terminal and a fire fighting water source liquid level detection terminal, acquiring data after the maintenance of the fire fighting facility of the Internet of things through the fire hydrant pressure monitoring terminal, the spraying pipe network pressure detection terminal and the fire fighting water source liquid level detection terminal, and updating the data of the real-time monitoring data set to obtain a first monitoring data set; performing data occurrence frequency statistics through a historical monitoring data set to obtain a normal monitoring data set, wherein the normal monitoring data set is the mode of each data index in the historical monitoring data set; comparing the normal state monitoring data set with the first monitoring data set to obtain a maintenance result of the fire-fighting equipment, wherein if the normal state monitoring data set is consistent with the first monitoring data set in comparison, the maintenance result of the fire-fighting equipment is a task which is passed and corresponds to the real-time monitoring data set in the tasks of the emergency treatment barrier to be cleared; if the normal monitoring data set is inconsistent with the first monitoring data set in comparison, the maintenance result of the fire-fighting equipment does not pass, the task corresponding to the real-time monitoring data set in the task of the emergency processing gird does not need to be cleared, and support is provided for ensuring the real-time performance of the task in the emergency processing gird.

In summary, the internet of things fire fighting equipment early warning method and system based on data processing provided by the application have the following technical effects:

because the fire fighting information distribution map is constructed; generating a fire-fighting facility adaptation grade through a fire-fighting information distribution map; matching various fire-fighting equipment specifications through the fire-fighting equipment adaptation grade to obtain a fire-fighting equipment adaptation specification set; building a fire-fighting facility scheduling management platform; connecting a fire hydrant pressure monitoring terminal, a spraying pipe network pressure detection terminal and a fire fighting water source liquid level detection terminal, and guiding a real-time monitoring data set into a fire fighting facility dispatching management platform; judging whether to activate a facility early warning signal or not through a fire-fighting facility early warning system; if the facility early warning signal is activated, the facility early warning signal and the real-time monitoring data set are packaged and sent to an emergency processing fence of a fire fighting facility early warning system.

After the user fire-fighting scheme and the facility state mark information are synchronously sent to the user terminal, the fire-fighting scheme is selected to obtain a user screening fire-fighting scheme; sending an alarm reminding instruction to the Internet of things fire fighting facilities corresponding to the user screening fire fighting scheme; through the alarm reminding device of the fire-fighting facilities of the Internet of things and the alarm reminding instruction, the equipment is located and reminded, the equipment location alarm is sent out, and support is provided for the fire-fighting equipment required by quick location.

After the facility early warning signal and the real-time monitoring data set are packaged and sent to an emergency processing fence of the fire-fighting facility early warning system, the maintenance of the fire-fighting facilities of the Internet of things is carried out, and processed mark information is synthesized; updating the data of the real-time monitoring data set to obtain a first monitoring data set; acquiring a normal state monitoring data set through a historical monitoring data set; and acquiring a maintenance result of the fire fighting equipment through the normal state monitoring data set and the first monitoring data set. And support is provided for ensuring the real-time performance of the task in the emergency treatment stall.

Example two

Based on the same inventive concept as the internet of things fire-fighting equipment early warning method based on data processing in the foregoing embodiment, as shown in fig. 4, the application provides an internet of things fire-fighting equipment early warning system based on data processing, wherein the system includes:

the distribution map building unit 11, the distribution map building unit 11 is used for building a fire fighting information distribution map;

an adaptation level generation unit 12, wherein the adaptation level generation unit 12 is configured to generate a fire fighting equipment adaptation level through the fire fighting information distribution map;

the specification matching unit 13 is used for matching the specifications of various fire-fighting facilities according to the fire-fighting facility adaptation grades to obtain a fire-fighting facility adaptation specification set;

the management platform building unit 14 is used for building a fire-fighting facility dispatching management platform through the fire-fighting information distribution map and the fire-fighting facility adaptation specification set;

the data import unit 15 is used for connecting a fire hydrant pressure monitoring terminal, a spraying pipe network pressure detection terminal and a fire fighting water source liquid level detection terminal, and importing a real-time monitoring data set into the fire fighting equipment dispatching management platform;

the early warning signal judgment unit 16, the early warning signal judgment unit 16 is configured to judge whether to activate a facility early warning signal through a fire fighting facility early warning system after the real-time monitoring data set is imported into the fire fighting facility scheduling management platform;

and the packaging sending unit 17 is used for sending the facility early warning signal and the real-time monitoring data set to an emergency processing column of the fire-fighting facility early warning system in a packaging manner if the facility early warning signal is activated.

Further, the system comprises:

the map information acquisition unit is used for acquiring map information of a target area;

the distribution characteristic acquisition unit is used for acquiring the distribution characteristics of the fire-fighting facilities of the Internet of things and the distribution characteristics of the fire-fighting units;

and the distribution map synthesis unit is used for synthesizing a fire fighting information distribution map by taking the fire fighting unit distribution characteristics as a center and through the Internet of things fire fighting facility distribution characteristics and the target area map information.

Further, the system comprises:

the route planning unit is used for planning a route through the fire protection information distribution map and the fire protection unit distribution characteristics to obtain a route planning set;

the alarm response statistical unit is used for carrying out alarm response statistics through the route planning set and synthesizing a route-response function;

a response time length obtaining unit, configured to obtain a response time length set through the route-response function;

and the adaptation grade generation unit is used for generating a fire fighting facility adaptation grade through the distribution characteristics of the fire fighting facilities of the internet of things in the fire fighting information distribution map and the response time length set.

Further, the system comprises:

the emergency real-time information acquisition unit is used for carrying out fire emergency information statistics in real time and acquiring fire emergency real-time information;

the fire fighting demand information sending unit is used for sending fire fighting demand information after a user determines a fire fighting task based on the fire fighting emergency real-time information;

the fire fighting demand information sending unit is used for sending the fire fighting demand information to the fire fighting facility scheduling management platform to synthesize a user fire fighting scheme;

a facility state synchronous updating instruction generating unit, configured to generate a facility state synchronous updating instruction through the fire-fighting facility early warning system, where a priority of the facility state synchronous updating instruction is higher than a facility early warning signal;

a facility state flag information synthesizing unit for synthesizing facility state flag information by the facility state synchronization update instruction;

and the facility state mark information sending unit is used for synchronously sending the user fire protection scheme and the facility state mark information to the user terminal.

Further, the system comprises:

the applicable model building unit is used for building an applicable model of the fire fighting facility;

the applicable facility set acquisition unit is used for transmitting the fire fighting demand information to the fire fighting facility scheduling management platform, inputting the fire fighting demand information into the fire fighting facility applicable model and acquiring a fire fighting applicable facility set;

and the user fire-fighting scheme synthesis unit is used for synthesizing a user fire-fighting scheme through the fire-fighting information distribution map and the fire-fighting applicable facility set.

Further, the system comprises:

the screening fire-fighting scheme acquisition unit is used for selecting a fire-fighting scheme after synchronously sending the user fire-fighting scheme and the facility state mark information to a user terminal, and acquiring the user screening fire-fighting scheme;

the alarm reminding instruction sending unit is used for sending an alarm reminding instruction to the Internet of things fire-fighting facilities corresponding to the user screening fire-fighting scheme;

and the equipment positioning reminding unit is used for carrying out equipment positioning reminding and sending out equipment positioning alarm through an alarm reminding device of the fire-fighting facility of the Internet of things and the alarm reminding instruction.

Further, the system comprises:

the processed mark information synthesis unit is used for packaging and sending the facility early warning signal and the real-time monitoring data set to an emergency processing fence of the fire-fighting facility early warning system, then carrying out maintenance on the fire-fighting facilities of the Internet of things, and synthesizing the processed mark information after the maintenance of the fire-fighting facilities of the Internet of things is finished;

the data updating unit is used for sending the processed mark information to a fire hydrant pressure monitoring terminal, a spraying pipe network pressure detection terminal and a fire fighting water source liquid level detection terminal, updating the data of the real-time monitoring data set and acquiring a first monitoring data set;

the system comprises a normal state monitoring data set acquisition unit, a data processing unit and a data processing unit, wherein the normal state monitoring data set acquisition unit is used for acquiring a normal state monitoring data set through a historical monitoring data set;

and the fire fighting equipment maintenance result acquisition unit is used for acquiring a fire fighting equipment maintenance result through the normal state monitoring data set and the first monitoring data set.

The specification and drawings are merely illustrative of the present application, and various modifications and combinations can be made thereto without departing from the spirit and scope of the application. Such modifications and variations of the present application are within the scope of the claims of the present application and their equivalents, and it is intended that the present application include such modifications and variations.

Claims (8)

1. The Internet of things fire fighting equipment early warning method based on data processing is characterized by being applied to a fire fighting equipment early warning system, wherein the system is in communication connection with a fire hydrant pressure monitoring terminal, a spraying pipe network pressure detection terminal and a fire fighting water source liquid level detection terminal, and the method comprises the following steps:

constructing a fire fighting information distribution map;

generating a fire-fighting facility adaptation grade through the fire-fighting information distribution map;

matching various fire-fighting equipment specifications through the fire-fighting equipment adaptation grade to obtain a fire-fighting equipment adaptation specification set;

building a fire-fighting facility dispatching management platform through the fire-fighting information distribution map and the fire-fighting facility adaptation specification set;

connecting a fire hydrant pressure monitoring terminal, a spraying pipe network pressure detection terminal and a fire fighting water source liquid level detection terminal, and leading a real-time monitoring data set into the fire fighting facility dispatching management platform;

after the real-time monitoring data set is imported into the fire-fighting facility scheduling management platform, judging whether a facility early warning signal is activated or not through the fire-fighting facility early warning system;

and if the facility early warning signal is activated, packaging the facility early warning signal and the real-time monitoring data set and sending the packaged facility early warning signal and the real-time monitoring data set to an emergency processing fence of the fire-fighting facility early warning system.

2. The method of claim 1, wherein the constructing a fire information distribution map comprises:

acquiring map information of a target area;

acquiring the distribution characteristics of the fire-fighting facilities and the fire-fighting units of the Internet of things;

and taking the distribution characteristics of the fire-fighting units as a center, and synthesizing a fire-fighting information distribution map through the distribution characteristics of the fire-fighting facilities of the Internet of things and the target area map information.

3. The method of claim 2, wherein the generating a fire fighting equipment adaptation level from the fire fighting information distribution map further comprises:

carrying out route planning through the fire fighting information distribution map and the fire fighting unit distribution characteristics to obtain a route planning set;

performing alarm response statistics through the route planning set to synthesize a route-response function;

acquiring a response time length set through the route-response function;

and generating a fire fighting facility adaptation grade through the distribution characteristics of the fire fighting facilities of the internet of things in the fire fighting information distribution map and the response time length set.

4. The method of claim 1, wherein determining whether to activate a fire warning signal by the fire warning system after importing the real-time monitoring dataset into the fire management platform further comprises:

carrying out fire emergency information statistics in real time to obtain fire emergency real-time information;

based on the fire emergency real-time information, after a user determines a fire fighting task, sending fire fighting demand information;

sending the fire-fighting demand information to the fire-fighting facility scheduling management platform to synthesize a user fire-fighting scheme;

generating a facility state synchronous updating instruction through the fire-fighting facility early warning system, wherein the priority of the facility state synchronous updating instruction is higher than that of a facility early warning signal;

synthesizing facility state mark information through the facility state synchronous updating instruction;

and synchronously sending the user fire-fighting scheme and the facility state mark information to a user terminal.

5. The method of claim 4, wherein the fire demand information is sent to the fire-fighting equipment dispatch management platform to compose a user fire-fighting scheme, the method further comprising:

building a fire-fighting facility applicable model;

after the fire fighting demand information is sent to the fire fighting equipment scheduling management platform, the fire fighting demand information is input into the fire fighting equipment applicable model, and a fire fighting applicable equipment set is obtained;

and synthesizing a user fire protection scheme through the fire protection information distribution map and the fire protection applicable facility set.

6. The method of claim 5, wherein the method further comprises:

after the user fire-fighting scheme and the facility state mark information are synchronously sent to a user terminal, selecting a fire-fighting scheme to obtain a user screening fire-fighting scheme;

sending an alarm reminding instruction to the Internet of things fire fighting facilities corresponding to the user screening fire fighting scheme;

through the alarm reminding device of the fire-fighting facilities of the Internet of things and the alarm reminding instruction, the equipment is positioned and reminded, and an equipment positioning alarm is sent out.

7. The method of claim 1, wherein after the packaging the facility warning signal with the real-time monitoring data set is sent to an emergency processing column of the fire-fighting facility warning system, the method further comprises:

packaging and sending the facility early warning signal and the real-time monitoring data set to an emergency processing fence of the fire-fighting facility early warning system, maintaining the fire-fighting facilities of the Internet of things, and synthesizing processed marking information after the maintenance of the fire-fighting facilities of the Internet of things is finished;

sending the processed mark information to a fire hydrant pressure monitoring terminal, a spraying pipe network pressure detection terminal and a fire fighting water source liquid level detection terminal, and updating the data of the real-time monitoring data set to obtain a first monitoring data set;

acquiring a normal state monitoring data set through a historical monitoring data set;

and acquiring a maintenance result of the fire fighting equipment through the normal state monitoring data set and the first monitoring data set.

8. The utility model provides a thing networking fire service early warning system based on data processing which characterized in that, the system includes:

the distribution map building unit is used for building a fire fighting information distribution map;

the adaptation grade generation unit is used for generating the adaptation grade of the fire-fighting facilities through the fire-fighting information distribution map;

the specification matching unit is used for matching the specifications of various fire-fighting facilities according to the fire-fighting facility adaptation grade to obtain a fire-fighting facility adaptation specification set;

the management platform building unit is used for building a fire-fighting facility dispatching management platform through the fire-fighting information distribution map and the fire-fighting facility adaptation specification set;

the data import unit is used for connecting a fire hydrant pressure monitoring terminal, a spraying pipe network pressure detection terminal and a fire fighting water source liquid level detection terminal and importing a real-time monitoring data set into the fire fighting facility dispatching management platform;

the early warning signal judgment unit is used for judging whether to activate a facility early warning signal or not through a fire-fighting facility early warning system after the real-time monitoring data set is imported into the fire-fighting facility scheduling management platform;

and the packaging sending unit is used for packaging and sending the facility early warning signal and the real-time monitoring data set to an emergency processing fence of the fire fighting facility early warning system if the facility early warning signal is activated.

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