CN112138317A - Intelligent fire fighting system and method - Google Patents

Abstract

The invention discloses an intelligent fire fighting system and a method, wherein the system comprises an intelligent fire fighting cloud platform, an intelligent monitoring system and an execution system, wherein the intelligent fire fighting cloud platform comprises a data service system, an intelligent alarm system and an equipment control system; the intelligent monitoring system comprises a smoke monitoring system consisting of a plurality of smoke sensors, an abnormal temperature monitoring system consisting of a plurality of temperature sensors and an image monitoring system consisting of a plurality of campus monitoring cameras; the method comprises the steps that the data service system receives smoke signals, abnormal temperature signals and video monitoring signals transmitted in the intelligent monitoring system, analyzes and compares the data, judges whether a fire disaster occurs or not, and continues monitoring if the fire disaster does not occur. The execution system can timely react, aim at a fire area at a fixed point and extinguish the fire, and extinguish the fire in the early stage, thereby avoiding the spread and expansion of the fire, having quick response, reducing the potential safety hazard of dormitories and protecting the safety of life and property.

Description

Intelligent fire fighting system and method

Technical Field

The invention relates to the technical field of intelligent fire fighting, in particular to an intelligent fire fighting system and method.

Background

The intelligent fire-fighting system is an intelligent fire-fighting wireless alarm network service system which integrates modern high and new technologies such as a Global Positioning System (GPS), a Geographic Information System (GIS), a wireless mobile communication system (GSM), a computer, a network and the like. The method successfully solves the problem of the construction and coordinated development of public facilities such as telecommunication, building, power supply, transportation and the like; because the fire control command center is networked with user units, the traditional, backward and passive alarm, alarm receiving and alarm dealing modes in the past are changed, the automation of alarm receiving, the intellectualization of alarm dealing, the planning of alarm dealing, the networking of management, the specialization of service and the modernization of science and technology are realized, the intermediate links are greatly reduced, the alarm issuing speed is greatly improved, the convenience, the rapidness, the safety and the reliability are really realized, and the safety of people's lives and properties and the safety of policemen's lives are protected to the maximum extent.

At present, a lot of campus dormitories only have simple fire alarm, fire hydrant and fire extinguisher etc. simple instrument of putting out a fire inside, when students are on class, night, the initial stage is difficult for discovering and in time putting out in the conflagration emergence, causes the conflagration can expand rapidly and spread in the dormitory, especially to the old dormitory of school, the fire control facility distributes incompletely, the potential safety hazard is big, consequently, needs a system that is applicable to campus dormitory fire control, can in time put out the conflagration, protection life and property safety.

Disclosure of Invention

Based on the technical problems in the background art, the invention provides an intelligent fire fighting system and an intelligent fire fighting method.

The invention provides an intelligent fire fighting system which comprises an intelligent fire fighting cloud platform, an intelligent monitoring system and an execution system, wherein the intelligent fire fighting cloud platform comprises a data service system, an intelligent alarm system and an equipment control system;

the intelligent monitoring system comprises a smoke monitoring system consisting of a plurality of smoke sensors, an abnormal temperature monitoring system consisting of a plurality of temperature sensors and an image monitoring system consisting of a plurality of campus monitoring cameras;

the execution system comprises a guide rail, a mobile trolley, a fire water monitor and a telescopic mechanism, wherein the guide rail is installed at the top of a corridor of a dormitory, the mobile trolley moves on the guide rail, the fire water monitor is installed on the mobile trolley through the telescopic mechanism, and the water inlet end of the fire water monitor is installed on a fire hydrant between floors through a hose;

the execution system further comprises an electrical switch for controlling the inside of the dormitory room;

the data service system receives the information transmitted by the intelligent monitoring system, and judges the authenticity of the fire, the place and the size of the fire through analysis;

the intelligent alarm system completes the alarm and early warning of the fire according to the analysis result of the data service system;

and the equipment control system sends a fire extinguishing instruction to the execution system according to the data result of the data service system.

Preferably, the smoke sensors of the smoke monitoring system are sequentially installed on a wall of the dormitory, and the temperature sensors of the abnormal temperature monitoring system are sequentially installed on the wall of the dormitory.

Preferably, the data service system comprises a data analysis module, a data comparison module, an information recording module and a data transmission module.

Preferably, the intelligent alarm system comprises an audible and visual alarm arranged on site, a school security room telephone, a fire alarm telephone and telephone information of a dormitory management department, and further comprises a communication module based on a communication network.

Preferably, the intelligent alarm system further comprises telephone information of students and telephone information of student instructors and class officers, which are accommodated in the dormitory.

Preferably, the equipment control system comprises a controller and an equipment monitoring module installed inside the execution system, wherein the equipment monitoring module comprises the geographical position, the starting and stopping state, the maintenance information record, the inspection record and the fire water pressure information of equipment inside the execution system.

Preferably, the execution system further comprises a camera and a window breaker which are installed at the end part of the fire water monitor.

Preferably, the smoke sensor, the temperature sensor and the campus monitoring camera are all equipped with fireproof storage batteries.

Preferably, the execution system is provided with a fireproof storage battery pack and a fireproof wireless communication module.

The invention provides a using method of an intelligent fire fighting system, which comprises the following steps:

s1: the data service system receives the smoke signal, the abnormal temperature signal and the video monitoring signal transmitted in the intelligent monitoring system, analyzes and compares the data, judges whether a fire disaster occurs or not, continues monitoring if the fire disaster does not occur, and sends a signal to the intelligent alarm system and the equipment control system if the fire disaster occurs;

s2: the intelligent alarm system receives the fire signal, and the communication module sends a fire alarm call to a campus security room, a fire brigade and a dormitory management in time to inform the occurrence of fire and the scale of the fire;

s3: the equipment control system receives a fire signal, the execution system is controlled to be started in time, the mobile trolley drives the fire water monitor to move to the interior of a room where the fire happens, the telescopic mechanism drives the fire water monitor to extend forwards, the window breaker breaks window glass on the door, the fire water monitor extends into the inner wall of the room to emit fire water, fire extinguishing operation is conducted on the interior of the room, meanwhile, a room power supply in a fire occurrence range is controlled, and fire spreading caused by high-temperature damage of electric wires is avoided;

s4: the camera arranged at the end of the fire water monitor monitors the interior of a room, transmits video information to the data service system, provides fire fighters with a view to know fire scene information, provides data for the fire fighters and provides convenience for the wounded personnel;

s5: the intelligent alarm system sends fire information to dormitory accommodation personnel, informs the personnel of evacuation in time, avoids fire injury expansion, avoids external personnel from entering fire and causing secondary injury, simultaneously counts the number and positions of students according to feedback information of the students, feeds the number and the positions of the students back to teachers of schools in time, knows the information of the students and avoids untimely treatment of the wounded;

s6: if the fire extinguishing is finished, the execution system resets and feeds back the information to the data service system to inform the fire scene information, so that fire fighters enter into the investigation and the tail sweeping;

s7: when the execution system can not extinguish the fire, the information is fed back to the data service system to inform the scale information of the fire, so that the fire fighters can react in time, and the fire is prevented from being expanded;

s8: and an information recording module in the data service system records the fire finding process and the fire extinguishing process in detail and provides data analysis.

The beneficial effects of the invention are as follows:

the system can be built according to the campus server, and an intelligent monitoring system and an execution system in the system are convenient to install in a dormitory, so that the improvement on the dormitory building of the school is simple and convenient, and the building is easy to build;

the fire disaster condition in the dormitory can be identified, intelligent identification is carried out aiming at the abnormal condition, the fire disaster condition is judged in time, the execution system can react in time after confirming that the fire disaster occurs, the fire disaster area is fixed at a certain point to carry out aiming fire extinguishing, the fire disaster area is extinguished in the early stage of the fire disaster, the spread and expansion of the fire disaster are avoided, the reaction is rapid, the safety hidden danger of the dormitory is reduced, and the life and property safety is protected;

the intelligent alarm system can send out fire information to the dormitory lodging personnel, in time informs personnel to evacuate, avoids fire injury to enlarge, and avoids outside personnel to get into the conflagration and now cause secondary injury, simultaneously, according to student's feedback information, statistics student number and position, in time feed back to the teacher of school, know student information, avoid the wounded to cure untimely.

Drawings

FIG. 1 is a schematic diagram of a logic structure of an intelligent fire fighting system and method according to the present invention;

FIG. 2 is a schematic diagram of the logic structure of an alarm system of the intelligent fire fighting system and method according to the present invention;

FIG. 3 is a schematic diagram of a logic structure of an intelligent monitoring system of the intelligent fire fighting system and method according to the present invention;

fig. 4 is a schematic structural diagram of an execution system of the intelligent fire fighting system and the method according to the present invention.

In the figure: 1, an intelligent fire-fighting cloud platform, a 101 data service system, a 102 intelligent alarm system and a 103 equipment control system;

2, an intelligent monitoring system, a 201 smoke monitoring system, a 202 abnormal temperature monitoring system and a 203 image monitoring system;

3, an execution system, 301 guide rails, 302 moving trolleys, 303 fire water cannons, 304 telescopic mechanisms, 305 cameras and 306 window breakers.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Referring to fig. 1-4, an intelligent fire fighting system comprises an intelligent fire fighting cloud platform 1, an intelligent monitoring system 2 and an execution system 3, wherein the intelligent fire fighting cloud platform 1 comprises a data service system 101, an intelligent alarm system 102 and an equipment control system 103;

the intelligent monitoring system 2 comprises a smoke monitoring system 201 consisting of a plurality of smoke sensors, an abnormal temperature monitoring system 202 consisting of a plurality of temperature sensors and an image monitoring system 203 consisting of a plurality of campus monitoring cameras;

the execution system 3 comprises a guide rail 301, a mobile trolley 302, a fire water monitor 303 and a telescopic mechanism 304, wherein the guide rail 301 is installed at the top of a corridor of a dormitory, the mobile trolley 302 moves on the guide rail 301, the fire water monitor 303 is installed on the mobile trolley 302 through the telescopic mechanism 304, and the water inlet end of the fire water monitor 303 is installed on an inter-floor fire hydrant through a hose;

the execution system 3 also comprises electrical switches controlling the inside of the dormitory rooms;

the data service system 101 receives the information transmitted by the intelligent monitoring system 2, and judges the authenticity of the fire, the place and the size of the fire through analysis;

the intelligent alarm system 102 completes the alarm and early warning of the fire according to the analysis result of the data service system 101;

the equipment control system 103 sends a fire extinguishing instruction to the execution system 3 according to the data result of the data service system 101.

In the present invention, the smoke sensors of the smoke monitoring system 201 are sequentially installed on the wall of the dormitory, and the temperature sensors of the abnormal temperature monitoring system 202 are sequentially installed on the wall of the dormitory.

In the invention, the data service system 101 comprises a data analysis module, a data comparison module, an information recording module and a data transmission module.

In the present invention, the intelligent alarm system 102 includes an audible and visual alarm, a school security room telephone, a fire alarm telephone, and telephone information of a dormitory management place, which are disposed on site, and further includes a communication module based on a communication network.

In the present invention, the intelligent alarm system 102 further includes telephone information of students and telephone information of student instructors and class officers who are staying in the dormitory.

In the invention, the equipment control system 103 comprises a controller and an equipment monitoring module arranged in the execution system 3, wherein the equipment monitoring module comprises the geographical position, the starting and stopping state, the maintenance information record, the inspection record and the fire water pressure information of the equipment in the execution system 3.

In the present invention, the execution system 3 further includes a camera 305 and a window breaker 306 mounted at the end of the fire monitor 303.

In the present invention, the smoke sensor, temperature sensor and campus surveillance camera 305 are all equipped with a fire-proof battery.

In the invention, the execution system 3 is provided with a fireproof storage battery pack and a fireproof wireless communication module.

A use method of an intelligent fire fighting system comprises the following steps:

the first step is as follows: the data service system 101 receives the smoke signal, the abnormal temperature signal and the video monitoring signal transmitted in the intelligent monitoring system 2, analyzes and compares the data, judges whether a fire occurs, continues monitoring if the fire does not occur, and sends a signal to the intelligent alarm system 102 and the equipment control system 103 if the fire occurs;

the second step is that: the intelligent alarm system 102 receives the fire signal, and the communication module sends a fire alarm call to the campus security room, the fire brigade and the dormitory management in time to inform the occurrence of the fire and the scale of the fire;

the third step: the equipment control system 103 receives a fire signal, controls the execution system 3 to be opened in time, the mobile trolley 302 drives the fire water monitor 303 to move into a room where a fire happens, the telescopic mechanism 304 drives the fire water monitor 303 to extend forwards, the window breaker 306 breaks window glass on a door, the fire water monitor 303 extends into the inner wall of the room to emit fire water, the interior of the room is subjected to fire extinguishing operation, and meanwhile, a room power supply in a fire-happening range is controlled, so that the fire spreading caused by high-temperature damage of electric wires is avoided;

the fourth step: the camera 305 installed at the end of the fire monitor 303 monitors the interior of a room, transmits video information to the data service system 101, provides information for fire fighters to check and know fire scene information, provides data for the fire fighters, and provides convenience for treating wounded persons;

the fifth step: the intelligent alarm system 102 sends fire information to dormitory accommodation personnel, timely informs the personnel of evacuation, avoids expansion of fire injury, avoids external personnel from entering fire and causing secondary injury, simultaneously counts the number and positions of students according to feedback information of the students, timely feeds the number and the positions of the students back to teachers of schools, knows the information of the students and avoids untimely treatment of the wounded;

and a sixth step: if the fire extinguishing is finished, the execution system 3 resets and feeds back the information to the data service system 101 to inform fire scene information, so that fire fighters enter investigation and tail clearance;

the seventh step: when the execution system 3 cannot extinguish the fire, the information is fed back to the data service system 101 to inform the data service system of the scale information of the fire, so that the fire fighters can react in time, and the fire is prevented from being expanded;

and finally: an information recording module in the data service system 101 records the fire discovery process and the fire extinguishing process in detail, and provides data analysis.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be able to cover the technical scope of the present invention and the equivalent alternatives or modifications according to the technical solution and the inventive concept of the present invention within the technical scope of the present invention.

Claims (10)

1. The intelligent fire fighting system is characterized by comprising an intelligent fire fighting cloud platform (1), an intelligent monitoring system (2) and an execution system (3), wherein the intelligent fire fighting cloud platform (1) comprises a data service system (101), an intelligent alarm system (102) and an equipment control system (103);

the intelligent monitoring system (2) comprises a smoke monitoring system (201) composed of a plurality of smoke sensors, an abnormal temperature monitoring system (202) composed of a plurality of temperature sensors and an image monitoring system (203) composed of a plurality of campus monitoring cameras;

the execution system (3) comprises a guide rail (301), a mobile trolley (302), a fire water monitor (303) and a telescopic mechanism (304), the guide rail (301) is installed at the top of a corridor of a dormitory, the mobile trolley (302) moves on the guide rail (301), the fire water monitor (303) is installed on the mobile trolley (302) through the telescopic mechanism (304), and the water inlet end of the fire water monitor (303) is installed on a fire hydrant between floors through a hose;

the execution system (3) further comprises an electrical switch controlling the inside of the dormitory room;

the data service system (101) receives the information transmitted by the intelligent monitoring system (2), and judges the authenticity of the fire, the place and the size of the fire through analysis;

the intelligent alarm system (102) completes the alarm and early warning of the fire according to the analysis result of the data service system (101);

the equipment control system (103) sends a fire extinguishing instruction to the execution system (3) according to the data result of the data service system (101).

2. An intelligent fire fighting system according to claim 1, characterized in that the smoke sensors of the smoke monitoring system (201) are in turn mounted on the walls of the dormitory and the temperature sensors of the abnormal temperature monitoring system (202) are in turn mounted on the walls of the dormitory.

3. The intelligent fire fighting system of claim 1, wherein the data service system (101) comprises a data analysis module, a data comparison module, an information recording module, and a data transmission module.

4. The intelligent fire fighting system of claim 1, wherein the intelligent alarm system (102) comprises an audible and visual alarm, a school security room telephone, a fire alarm telephone, and dormitory management telephone information arranged on site, and further comprises a communication module based on a communication network.

5. The intelligent fire fighting system of claim 1, wherein the intelligent alarm system (102) further comprises telephone information of students and telephone information of student coaches and class officers, who are resident in a dormitory.

6. The intelligent fire fighting system according to claim 1, wherein the equipment control system (103) comprises a controller and an equipment monitoring module installed inside the execution system (3), and the equipment monitoring module comprises the geographical position, the start-stop state, the maintenance information record, the inspection record and the fire water pressure information of the equipment inside the execution system (3).

7. An intelligent fire fighting system according to claim 1, characterized in that the execution system (3) further comprises a camera (305) and a window breaker (306) mounted at the end of the fire monitor (303).

8. An intelligent fire fighting system as defined in claim 1, wherein the smoke sensor, temperature sensor and campus monitoring camera (305) are equipped with fireproof batteries.

9. An intelligent fire fighting system according to claim 1, characterized in that the executive system (3) is equipped with a fire-proof battery pack and a fire-proof wireless communication module.

10. The use method of the intelligent fire fighting system according to any one of claims 1 to 9, characterized by comprising the following steps:

s1: the data service system (101) receives the smoke signal, the abnormal temperature signal and the video monitoring signal transmitted in the intelligent monitoring system (2), analyzes and compares the data, judges whether a fire disaster occurs or not, continues monitoring if the fire disaster does not occur, and sends a signal to the intelligent alarm system (102) and the equipment control system (103) if the fire disaster occurs;

s2: the intelligent alarm system (102) receives the fire signal, and the communication module sends a fire alarm call to a campus security room, a fire brigade and a dormitory management in time to inform the occurrence of the fire and the scale of the fire;

s3: the equipment control system (103) receives a fire signal, the execution system (3) is controlled to be opened in time, the mobile trolley (302) drives the fire water monitor (303) to move to the inside of a room where a fire happens, the telescopic mechanism (304) drives the fire water monitor (303) to extend forwards, the window breaker (306) breaks window glass on a door, the fire water monitor (303) stretches into the inner wall of the room to emit fire water to extinguish the inside of the room, meanwhile, a room power supply in a fire occurrence range is controlled, and fire spreading caused by high-temperature damage of electric wires is avoided;

s4: a camera (305) arranged at the end part of the fire water monitor (303) monitors the interior of a room, transmits video information to a data service system (101), provides information for fire fighters to check and know fire scene information, provides data for the fire fighters and provides convenience for treating wounded persons;

s5: the intelligent alarm system (102) sends out fire information to dormitory accommodation personnel, informs the personnel of evacuation in time, avoids fire damage expansion, avoids external personnel from entering a fire and causing secondary damage, simultaneously counts the number and positions of students according to feedback information of the students, feeds the number and the positions of the students back to a teacher of a school in time, knows student information and avoids untimely treatment of the injured personnel;

s6: if the fire extinguishing is finished, the execution system (3) resets and feeds back the information to the data service system (101) to inform the information of the fire scene, so that fire fighters enter into troubleshooting and tail sweeping;

s7: when the execution system (3) cannot extinguish the fire, the fire is fed back to the data service system (101) to inform the scale information of the fire, so that the fire fighters can react in time, and the fire is prevented from being expanded;

s8: an information recording module in the data service system (101) records the fire discovery process and the fire extinguishing process in detail and provides data analysis.

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