CN103691088A - Corridor firefighting system based on remote feedback data - Google Patents
Corridor firefighting system based on remote feedback data Download PDFInfo
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- CN103691088A CN103691088A CN201310669373.3A CN201310669373A CN103691088A CN 103691088 A CN103691088 A CN 103691088A CN 201310669373 A CN201310669373 A CN 201310669373A CN 103691088 A CN103691088 A CN 103691088A
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Abstract
The invention discloses a corridor firefighting system based on remote feedback data. The corridor firefighting system is mainly composed of a remote monitoring management center and a monitoring terminal arranged on a corridor monitoring point, wherein the remote monitoring management center and the monitoring terminal transmit data through an Ethernet or a GPRS (General Packet Radio Service) wireless communication network or a 3G wireless communication network; the monitoring terminal comprises a microprocessor, and monitoring equipment, emergency firefighting equipment and an alarm which are connected with the microprocessor; the microprocessor is provided with a wireless communication module and a wired Ethernet interface. The corridor firefighting system is simple in structure, low in layout cost and capable of early warning and carrying out emergency firefighting.
Description
Technical field
The invention belongs to fire-fighting equipment field, related to a kind of fire prevention system of setting up for corridor based on long-range feedback data.
Background technology
Along with urban architecture is more and more intensive, cause the performance of ventilating of some buildings very poor, then add high temperature drying weather, some accumulations to have foreign material and the building that has little time to process is just easy to breaking out of fire; The use amount of adding electrical equipment is more and more, and power is also increasing, because circuit is aging or load is excessive, and initiation fire easily.At present, people's fire-fighting consciousness has been strengthened a lot, and building interior has been provided with very much fire protection many; But, once breaking out of fire, the number of casualties or many, accident investigation is found afterwards, and causing a too much major reason of the number of casualties is in the condition of a fire at the beginning, and building corridor is just swallowed up by the condition of a fire, causes people to lose the main thoroughfare of escape.And existing fire prevention system or only have warning function, or be to lay for particular location, and deployment cost is high, is not suitable for laying on a large scale at corridor.In addition, in urban architecture, the place that need to lay corridor fire-fighting is many and mix, the corridor condition of a fire occurring is throughout also not of uniform size, and the fire-fighting resource in city is very limited, if can not form effective management, just can not adopt correct fire protection, may cause the situation of losing the greater for less, the situation that also easily causes fire-fighting improper use to occur, further expand the loss producing because of the condition of a fire.Therefore, on market, be badly in need of a kind of for corridor design and deployment cost lower, the fire extinguishing of can early warning meeting an urgent need again, and can also form to many and numerous and diverse corridor fire-fightings the fire prevention system of effective management.
Summary of the invention
The object of the invention is to for the deficiencies in the prior art, a kind of simple in structure, deployment cost is low, the fire extinguishing of can early warning meeting an urgent need is again processed corridor fire-fighting system based on long-range feedback data is provided.
To achieve these goals, the present invention has adopted following technical scheme:
A corridor fire-fighting system based on long-range feedback data, is mainly comprised of remote monitoring and administration center and the monitoring terminal that is laid in corridor monitoring point; Described remote monitoring and administration center and monitoring terminal carry out transfer of data by Ethernet or GPRS cordless communication network or 3G cordless communication network; Wherein, monitoring terminal comprises microprocessor and coupled monitoring equipment, rapid intervention equipment and alarm; Described microprocessor is provided with wireless communication module and Ethernet wireline interface;
Described monitoring equipment comprises infrared camera, temperature sensor and Smoke Sensor; Described infrared camera is arranged on one end of corridor, the image information of Real-time Collection corridor, and be transferred to microprocessor and carry out analyzing and processing; Described temperature sensor and Smoke Sensor are arranged on top or the both sides of corridor, and fill one group of temperature sensor and Smoke Sensor every 2~4 meter amperes, the temperature information of Real-time Collection corridor and smokescope information, and be transferred to microprocessor and carry out analyzing and processing;
Described rapid intervention equipment comprises spray equipment and the storage tank being connected by water pipe; Described spray equipment comprises water pump and spray head, and the control end of water pump is connected with microprocessor; Described spray head is arranged on top or the both sides of corridor, and fills a spray head every 1~2 meter ampere;
Described microprocessor is mounted with graphics processing unit and data analysis processing unit, when receiving the monitor message that monitoring equipment transmits, first use graphics processing unit to process image information, then data analysis processing unit is again to the image information after processing, temperature information and smokescope information are carried out initial analysis processing, after processing finishes, the result that microprocessor is processed initial analysis, original monitor data sends to remote monitoring and administration center to carry out data storage and further analyzing and processing by cordless communication network or wireline communication network together with the id information of current monitoring point, if the result of analyzing and processing is for the condition of a fire occurs, microprocessor is controlled water pump and is started working, and makes spray head ejection water smoke, the emergency processing of putting out a fire, meanwhile, microprocessor also starts alarm, sends alarm sound, reminds administrative staff to process the corridor condition of a fire or reminds staff's emergency escape,
Described remote monitoring and administration center comprises monitoring database server, WEB server and monitoring software platform; Described monitoring database server connects with WEB server; Monitoring database server is used for storing corridor fire-fighting data and physical location information thereof, for monitoring software platform provides Data support; Monitoring software platform provides corridor fire locating, fire disaster analyzing, fire alarm to show and monitoring state shows; Described remote monitoring and administration center receives first to be put into monitoring database server after the data that monitor terminal transmits and stores, then be further analyzed processing being transferred to monitoring software platform, determine condition of a fire grade, notify fire fighter to take corresponding fire protection.
Further illustrate, described microprocessor is processed image information, is specially: adopt motion detection algorithm eliminate redundancy image, Texture Synthesis carries out image fault reparation.
As a further improvement on the present invention, above-described microprocessor is also connected with a standby power supply device, and described standby power supply device is mainly comprised of a switching device shifter and a charging device, guarantees the continual work of microprocessor.
As a further improvement on the present invention, above-described microprocessor is also connected with a manual alarm.
Advantage of the present invention:
Simple in structure, deployment cost is low; The fire extinguishing of can early warning meeting an urgent need is again processed.The hardware device price adopting is all lower, on market, be also easy to buy and obtain, in addition, by microprocessor, control rapid intervention equipment, can be when there is the condition of a fire, can carry out timely emergency processing measure, avoid the condition of a fire to spread fast and cause the out of use situation of corridor to occur, this is also for personnel's safe escape provides the valuable time.
2. safe and reliable, stable.Monitoring equipment comprises camera and inductor, gets final product real-time image acquisition information and induction information, and this provides enough data for microprocessor carries out explication de texte, can effectively avoid fire prevention system error starting.
3. remote supervisory, is adequately and reasonably used fire-fighting resource.When there is the corridor condition of a fire, monitor terminal is outside the fire extinguishing of meeting an urgent need is processed, also monitor data is sent to remote monitoring and administration center, supervision center is further analyzed according to the data that transmit, according to analysis result, fire-fighting resource is assigned, carry out initiatively, the reasonable fire-fighting resource of effectively using.
Accompanying drawing explanation
Fig. 1 is structured flowchart of the present invention.
The specific embodiment
Below in conjunction with accompanying drawing, the present invention is further described.
Embodiment 1:
As shown in the figure, a kind of corridor fire-fighting system based on long-range feedback data, is mainly comprised of remote monitoring and administration center and the monitoring terminal that is laid in corridor monitoring point; Described remote monitoring and administration center and monitoring terminal carry out transfer of data by Ethernet or GPRS cordless communication network or 3G cordless communication network; Wherein, monitoring terminal comprises microprocessor and coupled monitoring equipment, rapid intervention equipment and alarm; Described microprocessor is provided with wireless communication module and Ethernet wireline interface;
Described monitoring equipment comprises infrared camera, temperature sensor and Smoke Sensor; Described infrared camera is arranged on one end of corridor, the image information of Real-time Collection corridor, and be transferred to microprocessor and carry out analyzing and processing; Described temperature sensor and Smoke Sensor are arranged on top or the both sides of corridor, and fill one group of temperature sensor and Smoke Sensor every 2~4 meter amperes, the temperature information of Real-time Collection corridor and smokescope information, and be transferred to microprocessor and carry out analyzing and processing;
Described rapid intervention equipment comprises spray equipment and the storage tank being connected by water pipe; Described spray equipment comprises water pump and spray head, and the control end of water pump is connected with microprocessor; Described spray head is arranged on top or the both sides of corridor, and fills a spray head every 1~2 meter ampere;
Described microprocessor is mounted with graphics processing unit and data analysis processing unit, when receiving the monitor message that monitoring equipment transmits, first use graphics processing unit to process image information, then data analysis processing unit is again to the image information after processing, temperature information and smokescope information are carried out initial analysis processing, after processing finishes, the result that microprocessor is processed initial analysis, original monitor data sends to remote monitoring and administration center to carry out data storage and further analyzing and processing by cordless communication network or wireline communication network together with the id information of current monitoring point, if the result of analyzing and processing is for the condition of a fire occurs, microprocessor is controlled water pump and is started working, and makes spray head ejection water smoke, the emergency processing of putting out a fire, meanwhile, microprocessor also starts alarm, sends alarm sound, reminds administrative staff to process the corridor condition of a fire or reminds staff's emergency escape,
Described remote monitoring and administration center comprises monitoring database server, WEB server and monitoring software platform; Described monitoring database server connects with WEB server; Monitoring database server is used for storing corridor fire-fighting data and physical location information thereof, for monitoring software platform provides Data support; Monitoring software platform provides corridor fire locating, fire disaster analyzing, fire alarm to show and monitoring state shows; Described remote monitoring and administration center receives first to be put into monitoring database server after the data that monitor terminal transmits and stores, then be further analyzed processing being transferred to monitoring software platform, determine condition of a fire grade, notify fire fighter to take corresponding fire protection.
Described microprocessor is processed image information, is specially: adopt motion detection algorithm eliminate redundancy image, Texture Synthesis carries out image fault reparation.
Embodiment 2:
The difference of the present embodiment and embodiment 1 is: described microprocessor is also connected with a standby power supply device, and described standby power supply device is mainly comprised of a switching device shifter and a charging device, guarantees the continual work of microprocessor.
Embodiment 3:
The difference of the present embodiment and embodiment 1 is: described microprocessor is also connected with a manual alarm.
Embodiment 4:
The difference of the present embodiment and embodiment 1 is: described microprocessor is also connected with respectively a standby power supply device and a manual alarm.
Claims (4)
1. the corridor fire-fighting system based on long-range feedback data, is mainly comprised of remote monitoring and administration center and the monitoring terminal that is laid in corridor monitoring point; Described remote monitoring and administration center and monitoring terminal carry out transfer of data by Ethernet or GPRS cordless communication network or 3G cordless communication network; It is characterized in that: monitoring terminal comprises microprocessor and coupled monitoring equipment, rapid intervention equipment and alarm; Described microprocessor is provided with wireless communication module and Ethernet wireline interface;
Described monitoring equipment comprises infrared camera, temperature sensor and Smoke Sensor; Described infrared camera is arranged on one end of corridor, the image information of Real-time Collection corridor, and be transferred to microprocessor and carry out analyzing and processing; Described temperature sensor and Smoke Sensor are arranged on top or the both sides of corridor, and fill one group of temperature sensor and Smoke Sensor every 2~4 meter amperes, the temperature information of Real-time Collection corridor and smokescope information, and be transferred to microprocessor and carry out analyzing and processing;
Described rapid intervention equipment comprises spray equipment and the storage tank being connected by water pipe; Described spray equipment comprises water pump and spray head, and the control end of water pump is connected with microprocessor; Described spray head is arranged on top or the both sides of corridor, and fills a spray head every 1~2 meter ampere;
Described microprocessor is mounted with graphics processing unit and data analysis processing unit, when receiving the monitor message that monitoring equipment transmits, first use graphics processing unit to process image information, then data analysis processing unit is again to the image information after processing, temperature information and smokescope information are carried out initial analysis processing, after processing finishes, the result that microprocessor is processed initial analysis, original monitor data sends to remote monitoring and administration center to carry out data storage and further analyzing and processing by cordless communication network or wireline communication network together with the id information of current monitoring point, if the result of analyzing and processing is for the condition of a fire occurs, microprocessor is controlled water pump and is started working, and makes spray head ejection water smoke, the emergency processing of putting out a fire, meanwhile, microprocessor also starts alarm, sends alarm sound, reminds administrative staff to process the corridor condition of a fire or reminds staff's emergency escape,
Described remote monitoring and administration center comprises monitoring database server, WEB server and monitoring software platform; Described monitoring database server connects with WEB server; Monitoring database server is used for storing corridor fire-fighting data and physical location information thereof, for monitoring software platform provides Data support; Monitoring software platform provides corridor fire locating, fire disaster analyzing, fire alarm to show and monitoring state shows; Described remote monitoring and administration center receives first to be put into monitoring database server after the data that monitor terminal transmits and stores, then be further analyzed processing being transferred to monitoring software platform, determine condition of a fire grade, notify fire fighter to take corresponding fire protection.
2. the corridor fire-fighting system based on long-range feedback data according to claim 1, it is characterized in that: described microprocessor is processed image information, be specially: adopt motion detection algorithm eliminate redundancy image, Texture Synthesis carries out image fault reparation.
3. the corridor fire-fighting system based on long-range feedback data according to claim 1 and 2, it is characterized in that: described microprocessor is also connected with a standby power supply device, described standby power supply device is mainly comprised of a switching device shifter and a charging device, guarantees the continual work of microprocessor.
4. the corridor fire-fighting system based on long-range feedback data according to claim 1 and 2, is characterized in that: described microprocessor is also connected with a manual alarm.
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