CN111800489B - Wisdom fire control remote monitering system - Google Patents

Abstract

The invention relates to an intelligent fire-fighting remote monitoring system, which belongs to the technical field of fire prevention and control and comprises an Internet of things monitoring and management platform, a hidden danger analysis module, a plurality of monitoring centers, and a monitoring alarm subsystem and a fire-fighting extinguishing module which are connected to the corresponding monitoring centers; the Internet of things monitoring and management platform is used for receiving fire-fighting data uploaded by a plurality of monitoring centers and displaying real-time fire-fighting states of fire-fighting jurisdictions; the hidden danger analysis module is connected to the Internet of things monitoring and management platform and used for analyzing fire fighting data of the Internet of things monitoring and management platform and dividing fire fighting grades of fire fighting jurisdictions; the monitoring center is distributed in the fire-fighting systems of all buildings and used for receiving the monitoring data and the alarm data of the monitoring alarm subsystem; the monitoring alarm subsystem is used for acquiring and sending fire protection monitoring data and alarm information to the monitoring center in real time; fire control fire extinguishing module. The invention has the effect of improving the information interaction among the monitoring centers in the fire-fighting jurisdiction.

Description

Wisdom fire control remote monitering system

Technical Field

The invention relates to the technical field of fire prevention and control, in particular to an intelligent fire-fighting remote monitoring system.

Background

Fire safety management plays an important role in preventing fire accidents, and in urban buildings and workplaces, automatic fire alarm systems and fire-fighting facilities are popularized in harbors, so that fire alarm can be realized to a certain extent.

However, fire-fighting systems of buildings in the existing city are relatively independent, and even if the fire-fighting systems are in the same fire-fighting district, the operation units of all the fire-fighting monitoring centers may be different, so that the monitoring centers are difficult to interconnect and intercommunicate.

Therefore, a new technical solution is needed to solve the above technical problems.

Disclosure of Invention

The invention provides an intelligent fire-fighting remote monitoring system, which aims to improve information interaction among monitoring centers in fire-fighting jurisdictions.

The above object of the present invention is achieved by the following technical solutions:

an intelligent fire-fighting remote monitoring system comprises an Internet of things monitoring management platform, a hidden danger analysis module, a plurality of monitoring centers, and a monitoring alarm subsystem and a fire-fighting extinguishing module which are connected to the corresponding monitoring centers;

the Internet of things monitoring and management platform is used for receiving fire-fighting data uploaded by a plurality of monitoring centers and displaying real-time fire-fighting states of fire-fighting jurisdictions;

the hidden danger analysis module is connected to the Internet of things monitoring and management platform and used for analyzing fire fighting data of the Internet of things monitoring and management platform and dividing fire fighting grades of fire fighting jurisdictions;

the monitoring center is distributed in the fire-fighting systems of all buildings and used for receiving monitoring data and alarm data of the monitoring alarm subsystem;

the monitoring alarm subsystem is used for acquiring and sending fire protection monitoring data and alarm information to a monitoring center in real time;

the fire-fighting module comprises an automatic fire-fighting unit and a fire-fighting material storage unit, and is used for fire-fighting and providing fire-fighting materials.

By adopting the technical scheme, the monitoring alarm subsystem is used for collecting fire protection monitoring data in a fire protection place, the monitoring center is used for receiving the fire protection monitoring data of the monitoring alarm subsystem so as to facilitate fire protection managers to obtain the fire protection situation in the fire protection place, the Internet of things monitoring management platform is used for receiving the data of a plurality of monitoring centers so as to realize monitoring coordination of the fire protection places supervised by the plurality of monitoring centers, so that the fire protection managers of different monitoring centers can know the position of the fire when the fire occurs and take corresponding protective measures according to the relation between the position of the fire and the fire protection place, meanwhile, the Internet of things monitoring management platform can be used for carrying out fire protection on the fire protection situations corresponding to other monitoring centers, and can be used for transferring fire protection materials of other monitoring centers to extinguish fire when needed so as to enhance the communication of each monitoring center in a fire protection jurisdiction, the fire-fighting management system has the advantages that fire-fighting supervision and coordination of fire-fighting materials in the whole fire-fighting jurisdiction are improved, fire-fighting data in the fire-fighting jurisdiction are analyzed by arranging the hidden danger analysis module, so that the fire-fighting grade of the fire-fighting jurisdiction is calculated, and hidden danger investigation is conducted on a fire-fighting place with a high fire-fighting grade.

Preferably, a plurality of be equipped with the data transmission layer between surveillance center and the thing networking control management platform, the data transmission layer includes the switch with surveillance center one-to-one, the switch is equipped with the serial number with surveillance center one-to-one.

Through adopting above-mentioned technical scheme, through setting up the data transmission layer, utilize the switch to realize carrying out the information interaction between surveillance center and the thing networking control management platform, through the serial number that sets up the switch, when the thing networking control management platform received the fire control data of switch conveying, the serial number that shows corresponding switch, thereby the supervisor knows corresponding surveillance center according to the switch serial number.

Preferably, the monitoring and alarming subsystem comprises:

the monitoring data acquisition unit comprises a plurality of fire-fighting hosts, a plurality of fire-fighting loops connected with the fire-fighting hosts and a plurality of fire-fighting monitoring devices which are distributed and installed in a fire-fighting place;

and the alarm unit is used for receiving the control signal of the fire-fighting host and sending out an alarm signal.

Through adopting above-mentioned technical scheme, gather the fire control condition in the fire control place through setting up the control data acquisition unit, through setting up alarm unit, when the abnormal conditions takes place, send alarm signal through alarm unit and indicate.

Preferably, the fire control supervisory equipment includes fixed electronic cloud platform that sets up in the fire place and sets up the camera on electronic cloud platform, electronic cloud platform is connected with the surveillance center and is controlled the motion in order to change the shooting angle of camera by the surveillance center.

Through adopting above-mentioned technical scheme, through setting up electronic cloud platform and making electronic cloud platform be connected with surveillance center to thereby make surveillance center can be when the conflagration takes place, thereby change the shooting angle of camera through the motion of control electronic cloud platform, so that when the conflagration takes place, the camera can shoot towards the conflagration emergence point or shoot according to the required angle of fire control managers.

Preferably, the fire-fighting hosts are sequentially coded, the fire-fighting hosts and the monitoring center are respectively provided with a transparent transmission unit, the transparent transmission units are arranged in one-to-one correspondence with the fire-fighting hosts, the transparent transmission units are provided with address codes corresponding to the fire-fighting hosts, and the monitoring center establishes a mapping relation between the codes and the address codes.

By adopting the technical scheme, through setting up the unvarnished transmission unit, different fire engine probably adopt different communication protocol because of different manufacturers, through setting up the unvarnished transmission unit that has the one-to-one correspondence rather than serial number, the information that the fire engine transmitted to the surveillance center all passes through the unvarnished transmission unit, when not carrying out any change to the information, thereby the surveillance center knows the communication protocol of the fire engine that the unvarnished transmission unit is connected through obtaining the address code of unvarnished transmission unit fast, thereby shorten the surveillance center and judge and look for the analytic protocol corresponding with fire engine communication protocol, thereby improve the speed that the surveillance center acquireed fire engine transmission information.

Preferably, the monitoring center includes fire alarm forwarding unit, fire alarm forwarding unit is used for the conflagration to judge, fire alarm reports to the police and uploads fire alarm information to thing networking control management platform.

Through adopting above-mentioned technical scheme, through setting up fire alarm forwarding unit, carry out communication connection with surveillance center and fire alarm to when the conflagration of being convenient for takes place, the fire alarm information that surveillance center can send to the fire alarm is more comprehensive, so that do more preparation work in order to deal with the condition of a fire before the fire alarm goes out police.

Preferably, the fire alarm forwarding unit comprises a plurality of fire alarm buttons and a plurality of alarm terminals which are distributed and installed in a fire place;

the fire alarm button is used for providing fire alarm information for a fire finder to send to a fire alarm, and the fire alarm information comprises a fire alarm condition, a fire place, a fire grade and a fire type;

the alarm terminal is used for confirming the fire in the fire management personnel site, the alarm terminal generates confirmation alarm information and forwards the confirmation alarm information to the fire alarm, and the confirmation alarm information comprises a fire alarm condition, a fire place, an alarm unit, an alarm personnel contact mode, a fire site condition, a fire grade and a fire type.

Through adopting above-mentioned technical scheme, through setting up fire alarm button, the arbitrary conflagration finder of the condition of a fire of being convenient for discover can both in time report to the police to the fire, set up alarm terminal and be convenient for the control warning subsystem and send alarm signal after, when the fire control managers is carrying out the scene and confirms that alarm signal is triggered by the conflagration, can report to the police to the fire through alarm terminal fast when improving alarm efficiency to provide more alarm information.

Preferably, the monitoring center is further connected with a maintenance service subsystem, when the monitoring alarm subsystem breaks down, the monitoring center sends failure information to the maintenance service subsystem, the maintenance service subsystem distributes corresponding workers and feeds back maintenance progress information and maintenance result information to the monitoring center, and the monitoring center uploads the maintenance result information to the internet of things monitoring and management platform.

By adopting the technical scheme, the maintenance service subsystem is arranged, when the monitoring alarm subsystem breaks down, the monitoring center can timely send the failure information to the maintenance service subsystem, and meanwhile, the monitoring center can timely acquire maintenance result information, so that fire management personnel can timely acquire the maintenance condition of the failure.

Preferably, the maintenance service subsystem comprises a maintenance terminal, the maintenance terminal is used for uploading maintenance result information, and the maintenance result information comprises a fault reason and photo information before and after maintenance.

By adopting the technical scheme, the maintenance terminal is arranged, so that maintenance service subsystem workers can conveniently and timely acquire and upload maintenance state information in the maintenance process.

Preferably, the monitoring center is further provided with a supervision unit, and the supervision unit is used for receiving maintenance progress information of the maintenance service subsystem and sending prompt information to the maintenance service subsystem to prompt maintenance service subsystem workers to timely handle abnormal conditions of the monitoring alarm subsystem.

Through adopting above-mentioned technical scheme, through setting up the supervision unit for when the maintenance progress can be looked over in real time to the surveillance center, can also in time supervise the staff who maintains the service subsystem and maintain when the maintenance is stagnated, supervise the maintenance work of maintaining the service subsystem through supervising the unit, in order to improve fault handling's efficiency.

In conclusion, the beneficial technical effects of the invention are as follows:

1. the Internet of things monitoring and management platform is arranged to connect the plurality of monitoring centers, so that the relation among the fire-fighting places corresponding to the monitoring centers in the fire-fighting jurisdiction is improved, and the fire-fighting supervision and the allocation of fire-fighting materials in the fire-fighting jurisdiction are improved;

2. setting; by arranging the hidden danger analysis module, the fire fighting monitoring data of each monitoring center in the fire fighting jurisdiction are analyzed and summarized to obtain a corresponding fire fighting grade, so that the potential safety hazards of the fire fighting grade with high safety risk can be discharged conveniently, and the fire fighting hidden danger of the fire fighting jurisdiction is reduced;

3. through setting up the maintenance service subsystem, be connected surveillance center and maintenance service subsystem, when the monitoring alarm subsystem breaks down, go wrong information to the maintenance service subsystem through the surveillance center, carry out the fault maintenance by the corresponding staff of maintenance service subsystem distribution, maintenance person sends maintenance photo and maintenance result to the surveillance center through the maintenance service subsystem simultaneously, be convenient for fire control managers knows the fault reason and whether the trouble is handled and is accomplished, can supervise the maintenance condition of the staff of maintenance service subsystem through the surveillance center through the fire control managers, in order to improve fault handling efficiency.

Drawings

FIG. 1 is a block diagram of the overall architecture of an embodiment of the present application;

FIG. 2 is a partial block diagram of the embodiment of the present application, which mainly shows the connection relationship between the monitoring center and the monitoring and alarming subsystem and the fire fighting module;

fig. 3 is a partial structural block diagram of the embodiment of the present application, which mainly shows a connection relationship between a monitoring center and an internet of things monitoring management platform.

In the figure: 1. an Internet of things monitoring and management platform; 2. a hidden danger analysis module; 3. a monitoring center; 31. a fire alarm forwarding unit; 311. a fire alarm button; 312. an alarm terminal; 32. a supervision unit; 4. a monitoring alarm subsystem; 41. a monitoring data acquisition unit; 411. a fire-fighting host; 412. a fire-fighting circuit; 413. a fire monitoring device; 414. a transparent transmission unit; 42. an alarm unit; 5. a fire fighting module; 51. an automatic fire extinguishing unit; 52. a fire-fighting material storage unit; 54. a monitoring unit; 6. a maintenance service subsystem; 61. maintaining the terminal; 7. a data transport layer; 71. a switch.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Referring to fig. 1, the intelligent fire-fighting remote monitoring system disclosed by the invention comprises an internet of things monitoring and management platform 1, a hidden danger analysis module 2, a plurality of monitoring centers 3, and a monitoring alarm subsystem 4 and a fire-fighting module 5 which are connected to the corresponding monitoring centers 3, wherein the internet of things monitoring and management platform 1 is connected to the centers of fire-fighting units in fire-fighting jurisdictions, and the plurality of monitoring centers 3 are respectively arranged in each building in the fire-fighting jurisdiction to monitor fire-fighting in each monitoring area.

Referring to fig. 2, the monitoring alarm subsystem 4 is configured to collect and send fire monitoring data and alarm information to the monitoring center 3 in real time. Specifically, the fire alarm subsystem is front-end fire fighting equipment, and it includes:

the monitoring data collecting unit 41 comprises a plurality of fire-fighting hosts 411, a plurality of fire-fighting loops 412 connected to the fire-fighting hosts 411, and a plurality of fire-fighting monitoring devices 413 distributed and installed at fire-fighting sites. In particular, fire protection circuit 412 is comprised of a number of fire protection components including, but not limited to, combustible gas detectors, temperature sensors, smoke sensors, and fire water system detection sensors such as water pressure detectors and water level detectors. Each monitored object in the monitored area is monitored in real time through the fire-fighting element, the fire-fighting element uploads the monitored fire-fighting monitoring data to the fire-fighting host 411, and the fire-fighting host 411 receives and analyzes the monitoring data of the fire-fighting element.

Referring to fig. 2, because there are more than one fire-fighting host 411 in the monitoring data acquisition unit 41, and different fire-fighting hosts 411 may be different according to different manufacturers, communication modes between the different fire-fighting hosts 411 and the monitoring center 3, in order to improve the resolution rate of information sent by the monitoring center 3 to the fire-fighting hosts 411, the fire-fighting hosts 411 are sequentially encoded, a transparent transmission unit 414 is arranged between each fire-fighting host 411 and the monitoring, the transparent transmission unit 414 is arranged in one-to-one correspondence with the fire-fighting host 411, and the transparent transmission unit 414 is provided with an address code corresponding to the number of the fire-fighting host 411, and the number of the fire-fighting host 411 in this embodiment is the same as the number of the. The communication mode of the fire-fighting host 411 is known in advance, the communication mode of the fire-fighting host 411 is bound with the address code of the transparent transmission unit 414, the monitoring center 3 establishes a mapping relation between the code and the address code, when the transparent transmission unit 414 transmits information to the monitoring center 3, the transparent transmission unit 414 transmits the address code to the monitoring center 3, the monitoring center 3 rapidly obtains the number and the communication mode of the fire-fighting host 411 corresponding to the transparent transmission unit 414 according to the address number transmitted by the transparent transmission unit 414, and analyzes the information by adopting an analysis mode adaptive to the fire-fighting host 411, so that the time spent by the analysis mode of the monitoring center 3 in adapting to the fire-fighting host 411 is shortened, and the analysis efficiency is improved.

Referring to fig. 2, the fire monitoring apparatus 413 includes an electric pan/tilt fixed in a fire place and a camera disposed on the electric pan/tilt, and the electric pan/tilt is connected to the monitoring center 3 and is controlled by the monitoring center 3 to move so as to change a shooting angle of the camera. The camera mainly comprises a high-definition camera and a thermal imaging camera, and the high-definition camera is mainly used for shooting a scene video in a fire-fighting place to realize shooting and monitoring of a scene of a fire disaster, so that the fire disaster grade is judged in an auxiliary manner; the thermal imaging camera is mainly used for collecting the temperature of each place in a fire-fighting place, the judgment of the position information of a fire ignition point is realized through temperature difference, and the camera in the embodiment adopts a fireproof camera so as to adapt to a fire scene. The monitoring center 3 judges fire information in the fire control production after analyzing the monitoring data and the alarm data, and when a fire happens, the monitoring center 3 adjusts the shooting angle of the camera by controlling the electric holder so that the shooting direction of the camera faces the ignition point.

Referring to fig. 2, the alarm unit 42 is configured to receive a control signal of the fire-fighting main unit 411 and send an alarm signal. When the monitoring data is analyzed by the fire-fighting host 411 and exceeds the corresponding preset range, namely the monitoring data is abnormal information, the fire-fighting host 411 automatically sends a control signal to the alarm unit 42, the alarm unit 42 receives the control signal and sends an alarm signal, and meanwhile, the fire-fighting host 411 sends alarm data to the monitoring center 3, so that a fire manager of the monitoring center 3 can timely receive the alarm signal. The abnormal information may be caused by fire-fighting abnormality such as fire, and may also be false information due to failure of the fire-fighting element itself, so that after the alarm unit 42 sends out the alarm signal, it needs to be confirmed by the fire-fighting manager on site.

Referring to fig. 2, in order to guarantee the timeliness of putting out a fire when a fire occurs, the fire-fighting module 5 includes an automatic fire-fighting unit 51 connected to the fire-fighting host 411 and a fire-fighting material storage unit 52 distributed in a fire-fighting site, and when the fire-fighting host 411 analyzes monitoring data transmitted by fire detectors such as a combustible gas detector, a temperature sensor and a smoke sensor to obtain that the monitoring data exceeds a corresponding preset range, the fire-fighting host 411 controls the automatic fire-fighting unit 51 to put out a fire. The automatic fire extinguishing unit 51 is mainly a spraying fire extinguishing system and a gas fire extinguishing system, and the fire fighting host 411 controls the automatic fire extinguishing unit 51 to start according to abnormal information. The fire-fighting material storage unit 52 mainly comprises a fire-fighting cabinet, a fire hydrant cabinet and fire-fighting equipment arranged in the fire-fighting cabinet and the fire hydrant cabinet, such as fire helmets, fire-fighting protective clothing, protective boots, breaking tools, various fire extinguishers, water hoses, water tanks and the like, and when a fire occurs, fire fighting personnel can obtain the fire-fighting equipment in the fire-fighting material storage unit 52 and carry out fire-fighting operation; meanwhile, in order to ensure that the fire fighting equipment in the fire fighting material storage unit 52 is kept sufficient and can be timely supplemented after being taken, the monitoring unit 54 is arranged between the fire fighting material storage unit 52 and the monitoring center 3, the monitoring unit 54 monitors the fire fighting equipment in the fire fighting material storage unit 52, and the monitoring data are timely sent to the monitoring center 3 after the fire fighting material in the fire fighting material storage unit 52 is taken.

Referring to fig. 2 and 3, the monitoring center 3 is configured to receive monitoring data and alarm data of the monitoring alarm subsystem 4. For the fire control manager who makes things convenient for surveillance center 3 to upload the on-the-spot confirmation result and report the condition of a fire, surveillance center 3 includes fire alarm forwarding unit 31, and fire alarm forwarding unit 31 is used for the conflagration to judge, the fire alarm is reported to the police and uploads alarm information to thing networking control management platform 1. The fire judgment comprises the judgment of the fire grade and the fire type; in order to facilitate reporting of the fire alarm by any natural person in the monitored area, the fire forwarding unit 31 includes a plurality of fire alarm buttons 311 and a plurality of alarm terminals 312 which are distributed and installed in the fire place, and the fire alarm information is divided into fire alarm information and confirmation alarm information.

Referring to fig. 3, a fire alarm button 311 for providing a fire finder to send fire alarm information including a fire alarm condition, a fire place, a fire class, and a fire type to a fire alarm. When a fire disaster occurs in a fire-fighting jurisdiction and the monitoring alarm subsystem 4 cannot timely sense and alarm, a natural person who finds the fire disaster can report the alarm condition to a fire alarm through the fire alarm button 311 arranged in a fire-fighting place, the corresponding fire alarm button 311 is preset with a fire place, and the fire alarm information is uploaded to the fire alarm and is simultaneously uploaded to the monitoring center 3. In order to reduce the occurrence of the situation of a lie alarm, portrait acquisition equipment is installed around the position where the fire alarm button 311 is arranged, the portrait acquisition equipment is a 360-degree circumferential camera, when the fire alarm button 311 is pressed down to be triggered, the monitoring center 3 controls the start of the portrait acquisition equipment and shoots the position of the fire alarm button 311 and the periphery of the fire alarm button to acquire character information of a person triggered by the fire alarm button 311, and when the fire alarm is in the lie alarm, the portrait acquisition equipment is called to acquire alarm information to serve as a basis for punishing the lie alarm in the later period.

Referring to fig. 3, the alarm terminal 312 is configured for a fire manager to confirm a fire in the field, and the alarm terminal 312 generates confirmation alarm information and forwards the confirmation alarm information to a fire alarm, where the confirmation alarm information includes a fire alarm condition, a fire place, an alarm unit, an alarm person contact manner, a fire field condition, a fire class, and a fire type. The alarm terminal 312 is provided with a GPS positioning device and connected to the monitoring center 3, and is provided with a login interface, so that a fire manager authorized by the monitoring center 3 needs to login its own account ID before using the fire manager, and the account ID contains personal information, contact phone, corresponding post and other information corresponding to the fire manager. When the alarm unit 42 sends out an alarm signal, the alarm terminal 312 receives the alarm signal and displays a confirmation interface, the confirmation interface displays two button icons of "fire alarm" and "fault", when the fire manager confirms that the fire is a fire after site confirmation, the fire manager selects the button icon of "fire alarm", the alarm terminal 312 interacts with the monitoring center 3 and uploads confirmation alarm information according to the position of the fire manager as the closest fire occurrence point. When the fire manager confirms the failure, the fire manager selects the "failure" button icon.

Referring to fig. 1 and 3, in order to ensure timely processing of a fault, the monitoring center 3 is further connected with a maintenance service subsystem 6, when the monitoring alarm subsystem 4 breaks down, the monitoring center 3 sends fault information to the maintenance service subsystem 6, the maintenance service subsystem 6 distributes corresponding staff and feeds back maintenance progress information and maintenance result information to the monitoring center 3, and the monitoring center 3 uploads the maintenance result information to the internet of things monitoring management platform 1.

Specifically, the alarm terminal 312 has a shooting function, and when the fire manager confirms on site that the alarm signal sent by the alarm unit 42 is caused by a failure of a component of the monitoring alarm subsystem 4 and selects a "failure" button icon, the alarm terminal 312 sends failure information to the maintenance service subsystem 6 and stores the failure information in the monitoring center 3. The failure information includes text information edited by the fire manager according to field observation and collected video picture information, when the fire manager selects the "failure" button icon, the alarm terminal 312 automatically jumps out of the shooting interface, the fire manager can shoot a picture and/or video of the failure position and edit the text for uploading, and then the fire manager manually and actively turns off the alarm unit 42, so that the alarm unit 42 does not send out an alarm signal any more.

Referring to fig. 3, after the maintenance service subsystem 6 receives the fault information, the maintenance service subsystem 6 automatically distributes the fault information to corresponding staff according to the information of the staff on duty, the staff receives the information and receives the distribution task to become a maintenance staff for the fault processing, and meanwhile, the maintenance service subsystem 6 enters a maintenance progress monitoring mode and shares and uploads the maintenance progress information to the internet of things monitoring and management platform 1. In order to facilitate the maintenance personnel to record the record of the maintenance process, the fault reason and the like during field maintenance, the maintenance service subsystem 6 comprises a maintenance terminal 61, the maintenance terminal 61 is used for uploading maintenance result information, and the maintenance result information comprises the fault reason and the photo information before and after maintenance.

Referring to fig. 3, in order to facilitate the fire-fighting management personnel to supervise the maintenance progress, the monitoring center 3 is provided with a supervising unit 32, the supervising unit 32 is used for receiving the maintenance progress information of the maintenance service subsystem 6 and sending prompt information to the maintenance service subsystem 6, when the worker of the maintenance service subsystem 6 does not respond in time and handles the post-hang fault, the fire-fighting management personnel sends the prompt information to the maintenance service subsystem 6 through the supervising unit 32 to prompt the maintenance service subsystem 6 worker to handle the abnormal condition of the monitoring alarm subsystem 4 in time, so that the fault handling efficiency is improved, and the normal operation of the monitoring alarm subsystem 4 is ensured.

Referring to fig. 1 and 3, the internet of things monitoring and management platform 1 is configured to receive fire-fighting data uploaded by the plurality of monitoring centers 3 and display a real-time fire-fighting state of a fire-fighting jurisdiction, so as to conveniently perform overall supervision on each fire-fighting unit in the fire-fighting jurisdiction. Meanwhile, the internet of things monitoring and management platform 1 can automatically send the fire condition to each monitoring center 3 connected with the monitoring center when a fire disaster occurs, so that each monitoring center 3 is prompted to pay attention to the fire change and the distance between the fire disaster and the fire-fighting place where the monitoring center 3 is located, fire managers of the monitoring centers 3 can pay attention to the fire condition in the same fire-fighting jurisdiction, and fire-fighting measures and emergency measures corresponding to the fire change and the fire disaster are made according to the two distances, so that fire-fighting supervision in the whole fire-fighting jurisdiction is improved. When the fire-fighting materials at the fire place are insufficient, the Internet of things monitoring and management platform 1 sends a deployment instruction to one or more monitoring centers 3 which are closest to the Internet of things monitoring and management platform so as to improve the coordination management and control of the fire-fighting materials in the fire-fighting jurisdiction.

Referring to fig. 1 and 3, the internet of things monitoring and management platform 1 is provided with a data transmission layer 7 with the monitoring center 3, the monitoring center 3 uploads fire-fighting data to the internet of things management platform through the data transmission layer 7, and meanwhile, the monitoring center can issue instructions through the data transmission layer 7. For the supervisor who makes things convenient for thing networking control management platform 1 can correspond fire control data with surveillance center 3 fast, data transmission layer 7 includes the switch 71 with surveillance center 3 one-to-one, and switch 71 is equipped with the serial number with surveillance center 3 one-to-one, and when thing networking control management platform 1 received the fire control data of switch 71 conveying, the serial number of demonstration corresponding switch 71, thereby the supervisor learns corresponding surveillance center 3 according to switch 71 serial number. The fire-fighting data comprises fire alarm information, fault information and maintenance result information corresponding to the fault information, and the Internet of things monitoring and management platform 1 records the fire-fighting data and displays the fire-fighting state of each building in a fire-fighting jurisdiction.

Referring to fig. 1 and 3, the internet of things monitoring and management platform 1 is connected with a hidden danger analysis module 2, the hidden danger analysis module 2 is connected with the internet of things monitoring and management platform 1 and acquires fire alarm information of the internet of things monitoring and management module for analysis, so that the fire occurrence frequency of each building (fire unit) is obtained, and the fire fighting grades of the corresponding buildings are divided; and then integrating the fire occurrence frequency of all buildings in the fire-fighting jurisdiction to classify the fire-fighting grade of the fire in the fire-fighting jurisdiction. Hidden danger analysis module 2 uploads the division result of conflagration fire-fighting class to thing networking control management platform 1, and thing networking control management platform 1 shows the conflagration fire-fighting class one-to-one that each building corresponds, and it is bigger to define conflagration fire-fighting class numerical value in this embodiment, and the conflagration risk is higher. When the fire fighting level of the fire in the district exceeds the safety range, the monitoring and management platform 1 of the Internet of things gives out a warning signal; when the fire fighting level of the building exceeds the safety range, the internet of things monitoring and management platform 1 sends a fire fighting instruction to the corresponding monitoring center 3 so as to prompt or assign a fire fighting manager of the corresponding monitoring center 3 to carry out fire fighting modification.

The specific implementation process of the embodiment: when the alarm unit 42 sends out an alarm signal, the monitoring center 3 receives the alarm data, the fire manager performs on-site confirmation according to the alarm data prompt, when the fire alarm is confirmed, the fire manager operates the alarm terminal 312, the alarm terminal 312 performs information interaction with the monitoring center 3 and confirms the alarm information uploading according to the position of the fire manager as the closest fire occurrence point; when the failure is confirmed, the fire-fighting manager operates the alarm terminal 312, the alarm terminal 312 sends failure information to the maintenance service subsystem 6 and uploads the failure information to the monitoring center 3, and the maintenance service subsystem 6 assigns maintenance personnel to perform failure processing and uploads maintenance result information. The Internet of things monitoring and management platform 1 receives fire-fighting data uploaded by each monitoring center 3 and displays the fire-fighting state of a fire-fighting jurisdiction in real time according to the fire-fighting data, the hidden danger analysis module 2 acquires information of the Internet of things monitoring and management platform 1 in real time and analyzes fire alarm information, so that the fire fighting level of each building in the fire-fighting jurisdiction and the overall fire fighting level of the fire-fighting jurisdiction are obtained, the fire fighting level is uploaded to the Internet of things monitoring and management platform 1, the Internet of things monitoring and management platform 1 issues an instruction to the monitoring centers 3 according to the fire fighting level, fire safety hidden dangers are screened, and the fire safety level in the fire-fighting jurisdiction is improved.

The embodiments of the present invention are preferred embodiments of the present invention, and the scope of the present invention is not limited by these embodiments, so: all equivalent changes made according to the structure, shape and principle of the invention are covered by the protection scope of the invention.

Claims (7)

1. The utility model provides an wisdom fire control remote monitering system which characterized in that: the system comprises an Internet of things monitoring and management platform (1), a hidden danger analysis module (2), a plurality of monitoring centers (3), and a monitoring alarm subsystem (4) and a fire-fighting and fire-extinguishing module (5) which are connected with the corresponding monitoring centers (3);

the Internet of things monitoring and management platform (1) is used for receiving fire-fighting data uploaded by a plurality of monitoring centers (3) and displaying real-time fire-fighting states of fire-fighting jurisdictions;

the hidden danger analysis module (2) is connected to the Internet of things monitoring and management platform (1) and is used for analyzing fire-fighting data of the Internet of things monitoring and management platform (1) and dividing fire-fighting grades of fire in a fire-fighting jurisdiction;

the monitoring center (3) is distributed in the fire-fighting system of each building and is used for receiving the monitoring data and the alarm data of the monitoring alarm subsystem (4);

the monitoring alarm subsystem (4) is used for acquiring and sending fire protection monitoring data and alarm information to the monitoring center (3) in real time;

the fire-fighting module (5) comprises an automatic fire-fighting unit (51) and a fire-fighting material storage unit (52) and is used for fire-fighting and providing fire-fighting materials;

a data transmission layer (7) is arranged between the monitoring centers (3) and the Internet of things monitoring management platform (1), the data transmission layer (7) comprises switches (71) which are in one-to-one correspondence with the monitoring centers (3), and the switches (71) are provided with numbers which are in one-to-one correspondence with the monitoring centers (3);

wherein the monitoring alarm subsystem (4) comprises:

the monitoring data acquisition unit (41) comprises a plurality of fire-fighting hosts (411), a plurality of fire-fighting loops (412) connected with the fire-fighting hosts (411) and a plurality of fire-fighting monitoring devices (413) which are distributed and installed in a fire-fighting place;

the fire-fighting hosts (411) are sequentially coded, the fire-fighting hosts (411) and the monitoring center (3) are respectively provided with a transparent transmission unit (414), the transparent transmission units (414) are arranged in one-to-one correspondence with the fire-fighting hosts (411), the transparent transmission units (414) are provided with address codes corresponding to the numbers of the fire-fighting hosts (411), and the monitoring center (3) establishes a mapping relation between the codes and the address codes;

and the alarm unit (42) is used for receiving the control signal of the fire-fighting host (411) and sending out an alarm signal.

2. The intelligent fire-fighting remote monitoring system according to claim 1, characterized in that: fire control supervisory equipment (413) are including fixed setting up in the electronic cloud platform in fire control place and setting up the camera on electronic cloud platform, electronic cloud platform is connected with surveillance center (3) and is controlled the shooting angle of motion in order to change the camera by surveillance center (3).

3. The intelligent fire-fighting remote monitoring system according to claim 1, characterized in that: the monitoring center (3) comprises a fire alarm forwarding unit (31), and the fire alarm forwarding unit (31) is used for fire judgment, fire alarm and uploading fire alarm information to the Internet of things monitoring management platform (1).

4. The intelligent fire-fighting remote monitoring system according to claim 3, characterized in that: the fire alarm forwarding unit (31) comprises a plurality of fire alarm buttons (311) and a plurality of alarm terminals (312) which are distributed and installed in a fire-fighting place;

the fire alarm button (311) is used for providing fire discoverers to send fire alarm information to a fire alarm, and the fire alarm information comprises fire alarm conditions, fire places, fire grades and fire types;

the alarm terminal (312) is used for confirming the fire in the fire manager field, the alarm terminal (312) generates confirmation alarm information and forwards the confirmation alarm information to a fire alarm, and the confirmation alarm information comprises a fire alarm condition, a fire place, an alarm unit, an alarm personnel contact mode, a fire field condition, a fire grade and a fire type.

5. The intelligent fire-fighting remote monitoring system according to claim 1, characterized in that: the utility model discloses a monitoring center, including monitoring center (3), monitoring alarm subsystem (4), monitoring center (3) still is connected with maintenance service subsystem (6), when monitoring alarm subsystem (4) broke down, monitoring center (3) send fault information to maintenance service subsystem (6), maintenance service subsystem (6) distribution corresponds the staff and feeds back maintenance progress information and maintenance result information to monitoring center (3), monitoring center (3) upload maintenance result information to thing networking monitoring management platform (1).

6. The intelligent fire-fighting remote monitoring system according to claim 5, characterized in that: the maintenance service subsystem (6) comprises a maintenance terminal (61), the maintenance terminal (61) is used for uploading maintenance result information, and the maintenance result information comprises failure reasons and photo information before and after maintenance.

7. The intelligent fire-fighting remote monitoring system according to claim 6, characterized in that: the monitoring center (3) is further provided with a supervision unit (32), and the supervision unit (32) is used for receiving maintenance progress information of the maintenance service subsystem (6) and sending prompt information to the maintenance service subsystem (6) to prompt a worker of the maintenance service subsystem (6) to timely handle abnormal conditions of the monitoring alarm subsystem (4).

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