CN113033871A - Intelligent fire-fighting early warning Internet of things system - Google Patents

Abstract

The invention discloses an intelligent fire-fighting early-warning Internet of things system, which comprises a fire-fighting monitoring system, an intelligent evacuation system, a trigger system, a GPS (global positioning system) positioning system, a mobile user side and an intelligent route system, wherein the fire-fighting monitoring system is used for monitoring fire-fighting related information of an urban area, the intelligent evacuation system is used for evacuating people for a fire place, the trigger system is used for monitoring a fire and giving out early warning at the initial stage of the fire, the GPS positioning system is used for sending the positioning of the fire place to the fire-fighting monitoring system, the mobile user side is used for establishing the relation among fire fighters, property managers and traffic polices and simultaneously displaying route information related to the fire place, and the intelligent route system is used for planning a feasible route from a fire center to the fire place; the intelligent fire-fighting early-warning Internet of things system can carry out intelligent evacuation, meanwhile, the smooth running of a fire truck is ensured, and more time is won for fire rescue.

Description

Intelligent fire-fighting early warning Internet of things system

Technical Field

The invention relates to the field of fire-fighting early warning Internet of things systems, in particular to an intelligent fire-fighting early warning Internet of things system.

Background

The fire-fighting early warning system can detect and comprehensively analyze physical quantities such as smoke, flame, temperature heat, combustible gas and the like generated by combustion in the initial stage of a fire through the fire detector, and triggers the alarm after a fire occurrence conclusion is obtained, so that people can find the fire in time and take corresponding measures, and loss is reduced.

Firstly, when the existing intelligent fire-fighting early-warning internet-of-things system is used, after a fire disaster occurs, the fire disaster place can only be manually evacuated, and the evacuation efficiency is low; secondly, when current wisdom fire control early warning thing networking systems was used, the back takes place for the conflagration, can not establish fire fighter, property management personnel and traffic police's three-in-one cooperative relation, and the fire fighter arrives on the way in conflagration emergence place, and the road evacuation is untimely or the fire control passageway is unblocked and all can increase the rescue time, causes bigger loss.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: when the existing intelligent fire-fighting early-warning Internet of things system is used, after a fire disaster occurs, the fire disaster place can only be manually evacuated, and the evacuation efficiency is low; secondly, when current wisdom fire control early warning thing networking systems was used, the back takes place for the conflagration, can not establish fire fighter, property management personnel and traffic police's three-in-one cooperative relation, and the fire fighter arrives on the way in conflagration emergence place, and the road evacuation is untimely or the fire control passageway is unblocked and all can increase the rescue time, causes bigger loss.

The intelligent fire-fighting early-warning Internet of things system comprises a fire-fighting monitoring system, an intelligent evacuation system, a trigger system, a GPS (global positioning system), a mobile user side and an intelligent route system, wherein the intelligent fire-fighting early-warning Internet of things system comprises a fire-fighting monitoring system, an intelligent evacuation system, a trigger system, a GPS (global positioning system) positioning system, a mobile user side and;

the fire fighting monitoring system is used for monitoring fire fighting related information of the urban area;

the intelligent evacuation system is used for evacuating people for a fire place;

the trigger system is used for monitoring a fire and giving out early warning at the initial stage of the fire;

the GPS is used for sending the location of the fire place to the fire monitoring system;

the mobile user side is used for establishing the relation among fire fighters, property management personnel and traffic police, and displaying route information related to a fire place;

the intelligent route system is used to plan a feasible route from a fire center to a fire place.

Preferably, the triggering system comprises a signal processing system, an index analysis system, an alarm, a smoke fire detector, a photosensitive fire detector, a temperature-sensitive fire detector and a combustible gas detector, and corresponding threshold values are arranged in the smoke fire detector, the photosensitive fire detector, the temperature-sensitive fire detector and the combustible gas detector;

preferably, the specific processing steps of the triggering system are as follows:

the method comprises the following steps: the smoke-sensitive fire detector, the light-sensitive fire detector, the temperature-sensitive fire detector and the combustible gas detector respectively detect smoke concentration, fire light, temperature and combustible gas content, and detection indexes are converted from physical signals to electric signals in the signal processing system;

step two: the signal processing system sends the detection indexes to the index analysis system in the form of electric signals, when one index of the detected smoke concentration, the detected fire light, the detected temperature and the detected combustible gas content exceeds a threshold value, the index analysis system comprehensively analyzes the four indexes, if an analysis result meets the condition of fire occurrence, an alarm is triggered to give an alarm, and meanwhile, a fire alarm is sent to the fire monitoring system, the intelligent evacuation system and the GPS positioning system.

Preferably, the intelligent evacuation system comprises a building information database, a property monitoring database, an escape route generation module and a voice evacuation module.

Preferably, the specific processing steps of the intelligent evacuation system are as follows:

the method comprises the following steps: after the intelligent evacuation system receives the fire alarm from the triggering system, the escape route generating module calls building information in a building information database and the monitoring of the property monitoring module, comprehensively analyzes and generates a feasible escape route;

step two: after the escape route generating module generates the feasible escape route, the escape route is sent to the mobile user side, and meanwhile the voice evacuation module conducts voice guidance evacuation according to the feasible escape route.

Preferably, the map database, the road monitoring module, the fire fighting route generation module and the positioning sharing module, and the fire fighting monitoring system sends positioning and instructions to the intelligent route system after receiving positioning and fire alarm.

Preferably, the specific processing steps of the intelligent route system are as follows:

the method comprises the following steps: after the intelligent route system receives an instruction of a fire fighting monitoring system, a fire fighting route generating module calls map information in a map database and monitoring of a road monitoring module, and meanwhile, a feasible fire fighting route between a fire disaster place and a fire fighting center is generated by combining positioning comprehensive analysis;

step two: after the fire fighting route generating module generates a feasible fire fighting route, the fire fighters arrive at the fire place according to the generated feasible route, and meanwhile, the positioning sharing module sends the real-time positioning of the fire fighters to the mobile user side.

Compared with the prior art, the invention has the following advantages: according to the intelligent fire-fighting early-warning Internet of things system, the intelligent evacuation system is additionally arranged, after receiving a fire alarm from the trigger system, the escape route generation module calls building information in a building information database and monitoring of the property monitoring module, comprehensive analysis is carried out, a feasible escape route is generated, the escape route generation module generates a feasible escape route, and then the feasible escape route is sent to a mobile user side, meanwhile, the voice evacuation module carries out voice guidance according to the feasible escape route, crowd evacuation is carried out in a manner of being matched with manpower, evacuation efficiency is provided, and casualty amount is reduced;

by additionally arranging an intelligent route system matched with a mobile user terminal, after the intelligent route system receives an instruction of a fire monitoring system, a fire fighting route generating module calls map information in a map database and monitoring of a road monitoring module, and meanwhile, combined with positioning comprehensive analysis, generates a feasible fire fighting route between a fire place and a fire center, after the fire fighting route generating module generates the feasible fire fighting route, a fire fighter arrives at the fire place according to the generated feasible route, and simultaneously a positioning sharing module sends real-time positioning of the fire fighter to the mobile user terminal, in the process, the fire fighter, a property manager and a traffic police establish a cooperative relationship through the mobile user terminal, and a traffic police manages road vehicles according to the feasible fire fighting route, so that the fire fighting vehicles are ensured to be unblocked on the road, and the property manager receives a fire alarm through the mobile user terminal and then checks a fire fighting channel at the first time, the fire fighting access is ensured to be unobstructed, and the firefighters can make a rescue scheme in the picture of the fire occurrence place through the escape route received by the mobile user side, so that the loss caused by the fire is reduced through cooperation of three parts.

Drawings

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

FIG. 2 is a system diagram of a triggering system of the present invention;

fig. 3 is a system diagram of an intelligent evacuation system of the present invention;

fig. 4 is a system diagram of the intelligent routing system of the present invention.

Detailed Description

The following examples are given for the detailed implementation and specific operation of the present invention, but the scope of the present invention is not limited to the following examples.

As shown in fig. 1-4, the intelligent fire-fighting early warning internet of things system includes a fire-fighting monitoring system, an intelligent evacuation system, a trigger system, a GPS positioning system, a mobile client and an intelligent route system;

the fire-fighting monitoring system is used for monitoring fire-fighting related information of the belonged urban area;

the intelligent evacuation system is used for evacuating people for a fire place;

the triggering system is used for monitoring the fire and giving out early warning at the initial stage of the fire;

the GPS positioning system is used for sending the positioning of the fire place to the fire monitoring system;

the mobile user side is used for establishing the relation among fire fighters, property management personnel and traffic police, and displaying route information related to a fire place;

the intelligent route system is used to plan a feasible route from the fire center to the fire place.

The triggering system comprises a signal processing system, an index analysis system, an alarm, a smoke fire detector, a photosensitive fire detector, a temperature-sensing fire detector and a combustible gas detector, and corresponding threshold values are arranged in the smoke fire detector, the photosensitive fire detector, the temperature-sensing fire detector and the combustible gas detector;

the specific processing steps of the trigger system are as follows:

the method comprises the following steps: the smoke-sensitive fire detector, the light-sensitive fire detector, the temperature-sensitive fire detector and the combustible gas detector respectively detect smoke concentration, fire light, temperature and combustible gas content, and detection indexes are converted from physical signals to electric signals in the signal processing system;

step two: the signal processing system sends the detection indexes to the index analysis system in the form of electric signals, when one index of the detected smoke concentration, the detected fire light, the detected temperature and the detected combustible gas content exceeds a threshold value, the index analysis system comprehensively analyzes the four indexes, if an analysis result meets the condition of fire occurrence, an alarm is triggered to give an alarm, and meanwhile, a fire alarm is sent to the fire monitoring system, the intelligent evacuation system and the GPS positioning system.

The intelligent evacuation system comprises a building information database, a property monitoring database, an escape route generation module and a voice evacuation module.

The intelligent evacuation system comprises the following specific processing steps:

the method comprises the following steps: after the intelligent evacuation system receives the fire alarm from the triggering system, the escape route generating module calls building information in a building information database and the monitoring of the property monitoring module, comprehensively analyzes and generates a feasible escape route;

step two: after the escape route generating module generates the feasible escape route, the escape route is sent to the mobile user side, and meanwhile the voice evacuation module conducts voice guidance evacuation according to the feasible escape route.

The intelligent fire fighting system comprises a map database, a road monitoring module, a fire fighting route generating module and a positioning sharing module, and the fire fighting monitoring system sends positioning and instructions to the intelligent route system after receiving positioning and fire alarm.

The intelligent route system comprises the following specific processing steps:

the method comprises the following steps: after the intelligent route system receives an instruction of a fire fighting monitoring system, a fire fighting route generating module calls map information in a map database and monitoring of a road monitoring module, and meanwhile, a feasible fire fighting route between a fire disaster place and a fire fighting center is generated by combining positioning comprehensive analysis;

step two: after the fire fighting route generating module generates a feasible fire fighting route, the fire fighters arrive at the fire place according to the generated feasible route, and meanwhile, the positioning sharing module sends the real-time positioning of the fire fighters to the mobile user side.

In summary, when the invention is used, firstly, the smoke-sensitive fire detector, the light-sensitive fire detector, the temperature-sensitive fire detector and the combustible gas detector in the system are triggered to respectively detect smoke concentration, fire light, temperature and combustible gas content, the detection indexes are converted from physical signals to electric signals in the signal processing system, the signal processing system sends the detection indexes to the index analysis system in the form of electric signals, when one index of the detected smoke concentration, fire light, temperature and combustible gas content exceeds a threshold value, the index analysis system carries out comprehensive analysis on the four indexes, if the analysis result meets the condition of fire occurrence, an alarm is triggered to alarm, meanwhile, a fire alarm is sent to the fire monitoring system, the intelligent evacuation system and the GPS positioning system, and then the intelligent evacuation system cooperates with manual work to evacuate people in the place of fire occurrence, meanwhile, an escape route is sent to a mobile user terminal, a GPS positioning system is used for positioning and sending a fire place to a fire monitoring system of a fire center, the fire monitoring system is used for sending positioning and instructions to an intelligent route system after receiving positioning and fire alarm, the intelligent route system is combined with the positioning to generate a feasible fire route between the fire place and the fire center, a fire fighter gives out an alarm according to the feasible fire route, in the process, the fire fighter, a property manager and a traffic police establish a cooperation relationship through the mobile user terminal, the traffic police manage road vehicles according to the feasible fire route to ensure that a fire engine is unblocked on a road, a property manager checks a fire channel at the first time after receiving the fire alarm through the mobile user terminal to ensure that the fire channel is unblocked, and the fire fighter sets a rescue scheme in a picture of the fire place through the escape route received in the mobile user terminal, the three parts are matched to reduce the loss caused by fire.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In the description of the present invention, "a plurality" means at least two, e.g., two, three, etc., unless specifically limited otherwise.

Although embodiments of the present invention have been shown and described above, it is understood that the above embodiments are exemplary and should not be construed as limiting the present invention, and that variations, modifications, substitutions and alterations can be made to the above embodiments by those of ordinary skill in the art within the scope of the present invention.

Claims (7)

1. The intelligent fire-fighting early-warning Internet of things system is characterized by comprising a fire-fighting monitoring system, an intelligent evacuation system, a trigger system, a GPS (global positioning system) positioning system, a mobile user side and an intelligent route system;

the fire fighting monitoring system is used for monitoring fire fighting related information of the urban area;

the intelligent evacuation system is used for evacuating people for a fire place;

the trigger system is used for monitoring a fire and giving out early warning at the initial stage of the fire;

the GPS is used for sending the location of the fire place to the fire monitoring system;

the mobile user side is used for establishing the relation among fire fighters, property management personnel and traffic police, and displaying route information related to a fire place;

the intelligent route system is used to plan a feasible route from a fire center to a fire place.

2. The intelligent fire-fighting early warning internet of things system according to claim 1, characterized in that: the triggering system comprises a signal processing system, an index analysis system, an alarm, a smoke fire detector, a photosensitive fire detector, a temperature-sensing fire detector and a combustible gas detector, and corresponding threshold values are arranged inside the smoke fire detector, the photosensitive fire detector, the temperature-sensing fire detector and the combustible gas detector.

3. The intelligent fire-fighting early warning internet of things system according to claim 2, characterized in that: the specific processing steps of the trigger system are as follows:

the method comprises the following steps: the smoke-sensitive fire detector, the light-sensitive fire detector, the temperature-sensitive fire detector and the combustible gas detector respectively detect smoke concentration, fire light, temperature and combustible gas content, and detection indexes are converted from physical signals to electric signals in the signal processing system;

step two: the signal processing system sends the detection indexes to the index analysis system in the form of electric signals, when one index of the detected smoke concentration, the detected fire light, the detected temperature and the detected combustible gas content exceeds a threshold value, the index analysis system comprehensively analyzes the four indexes, if an analysis result meets the condition of fire occurrence, an alarm is triggered to give an alarm, and meanwhile, a fire alarm is sent to the fire monitoring system, the intelligent evacuation system and the GPS positioning system.

4. The intelligent fire-fighting early warning internet of things system according to claim 1, characterized in that: the intelligent evacuation system comprises a building information database, a property monitoring database, an escape route generation module and a voice evacuation module.

5. The intelligent fire-fighting early warning internet of things system according to claim 4, wherein: the intelligent evacuation system comprises the following specific processing steps:

the method comprises the following steps: after the intelligent evacuation system receives the fire alarm from the triggering system, the escape route generating module calls building information in a building information database and the monitoring of the property monitoring module, comprehensively analyzes and generates a feasible escape route;

step two: after the escape route generating module generates the feasible escape route, the escape route is sent to the mobile user side, and meanwhile the voice evacuation module conducts voice guidance evacuation according to the feasible escape route.

6. The intelligent fire-fighting early warning internet of things system according to claim 1, characterized in that: the fire fighting monitoring system receives positioning and fire alarm and then sends positioning and instructions to the intelligent route system.

7. The intelligent fire-fighting early warning internet of things system according to claim 6, wherein: the intelligent route system comprises the following specific processing steps:

the method comprises the following steps: after the intelligent route system receives an instruction of a fire fighting monitoring system, a fire fighting route generating module calls map information in a map database and monitoring of a road monitoring module, and meanwhile, a feasible fire fighting route between a fire disaster place and a fire fighting center is generated by combining positioning comprehensive analysis;

step two: after the fire fighting route generating module generates a feasible fire fighting route, the fire fighters arrive at the fire place according to the generated feasible route, and meanwhile, the positioning sharing module sends the real-time positioning of the fire fighters to the mobile user side.

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