CN111613034A - Fire-fighting monitoring control method and system - Google Patents

Abstract

The invention relates to a fire control monitoring control method and a system, belonging to the technical field of fire control monitoring alarm, wherein the method comprises the steps of obtaining alarm information of fire detection equipment; acquiring on-site fire condition confirmation information of the fire detection equipment for alarming; generating a plurality of fire entries according to the on-site fire confirmation information; matching the plurality of fire entries with entries in a preset decision library, and outputting different decision results according to matching results; wherein, the decision result comprises false alarm, can process, report to the fire control. The fire alarm processing method can judge the fire condition according to the site fire condition and form a decision strategy, standardizes the fire alarm processing program, reduces the pressure of a fire fighting system and reduces the waste phenomenon of fire fighting resources.

Description

Fire-fighting monitoring control method and system

Technical Field

The invention relates to the technical field of fire-fighting monitoring and alarming, in particular to a fire-fighting monitoring control method and system.

Background

Fire alarm systems for fire fighting suffer from false alarm failures, i.e. alarm is not given at all due to fire detectors and other fire detection equipment being polluted or aged and non-similar fire scenes, which results in false alarm information. A fire-fighting duty room is arranged in a general building area and is specially used for managing fire-fighting alarm equipment in the area to which the fire-fighting duty room belongs, so that fire can be found at the first time, and field verification and preliminary fire judgment can be carried out.

In the prior art, after a fire detector and other fire detection equipment give an alarm, a worker in a fire-fighting duty room quickly checks the fire-fighting duty room on site and reports the situation of the fire-fighting duty room to the worker in the fire-fighting duty room, and the worker in the fire-fighting duty room judges the fire condition in cooperation with the worker on site so as to make a decision. The fire condition judgment is carried out by people, certain subjectivity is achieved to a certain degree, and the fire condition is easily judged inaccurately under certain conditions, so that a decision which is not in accordance with standards or wrong is made, and a larger fire condition is caused or the waste of social fire fighting resources is caused.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a fire-fighting monitoring control method and a fire-fighting monitoring control system, which are used for judging fire conditions according to the site fire conditions and forming a decision-making strategy, standardizing a fire alarm handling program, reducing the pressure of a fire-fighting system and reducing the waste phenomenon of fire-fighting resources.

One of the above objects of the present invention is achieved by the following technical solutions: a fire monitoring control method, the method comprising the steps of: acquiring alarm information of fire detection equipment; acquiring on-site fire condition confirmation information of the fire detection equipment for alarming; confirming a plurality of fire condition entries according to the on-site fire conditions; matching the plurality of fire entries with entries in a preset decision library, and outputting different decision results according to matching results; wherein the decision result comprises a false alarm, a processable or fire-fighting report.

By adopting the technical scheme, firstly, the alarm information of fire detection equipment is obtained, the fire condition on the spot is known, then, the authenticity of the fire condition on the spot is confirmed through the spot fire condition confirmation information fed back by the spot, the fire condition entry is determined according to the spot fire condition, the determined fire condition entry can be matched with the entry preset for decision crying and swelling, and the corresponding decision result is output after matching is completed, so that the procedure for handling the fire condition can be normalized and marked according to the fire condition handling procedure, the spot fire condition is automatically judged by a big data mode, and the decision result is automatically output, thereby reducing the error of artificial fire condition judgment, and avoiding causing the out-of-control fire condition or larger fire condition caused by artificial wrong judgment; by outputting correct decisions, advanced decisions can be made for fire departments to warn, such as: when a slight fire occurs, people around the fire directly give an alarm because the specific situation of the fire is unknown, so that the waste of fire-fighting resources is caused, and through the preposed judgment, the fire-fighting resources can be filtered to a greater extent, such as: the fire alarm system has the advantages that the fire alarm system can falsely alarm the fire and the like, the pressure of the fire protection system is reduced, and the waste of fire protection resources is reduced.

The invention in a preferred example may be further arranged to: the alarm information of the fire detection equipment comprises detection equipment state information and detection equipment position information.

By adopting the technical scheme, when the fire detection equipment alarms, the state of the fire detection equipment can be directly known, such as: the working state and the alarm state of the fire detector can be obtained, and meanwhile, the specific position of the detection equipment can be obtained, so that accurate position information of the fire is provided for quick fire checking and subsequent fire alarm.

The invention in a preferred example may be further arranged to: and forming fire fighting alarm information by the fire situation position information and the fire situation entries according to the decision result of 'fire reporting' output, and sending the fire fighting alarm information to a fire department.

By adopting the technical scheme, when the decision result is 'fire alarm', the system can automatically contact the fire department, and meanwhile, the accurate position information of the fire and the fire entry obtained by confirming the on-site fire are sent to the fire department, so that a basis is provided for the fire department to prepare before giving an alarm, and the system is favorable for preparing materials before giving an alarm and improving the fire extinguishing quality after the fire department reaches the fire position.

The invention in a preferred example may be further arranged to: the on-site fire confirmation information is from at least one exclusive mobile device and/or crowd alarm information of a fire department, and the on-site fire confirmation information at least comprises one of text information or voice information.

By adopting the technical scheme, the confirmation of the on-site fire information can come from fire-fighting duty room personnel carrying exclusive mobile equipment and also can be a fire department receiving crowd alarm information, and the purpose is that the on-site fire information can be known more accurately and more quickly, so that a basis is provided for decision output.

The invention in a preferred example may be further arranged to: the fire entry includes alarm confirmation or false alarm, smoke condition, flame condition, whether to alarm fire, and special fire condition.

The invention in a preferred example may be further arranged to: the steps of matching a plurality of fire entries with entries in a preset decision library and outputting different decision results according to matching results comprise: when the fire condition entry matching at least comprises a false alarm, outputting the false alarm; when the fire condition entry matching at least comprises 'alarm confirmation and no need of alarm', the output can be processed; and when the fire condition entries are matched and at least comprise 'alarm confirmation and fire alarm needing to be reported', outputting fire alarm.

The second purpose of the invention is realized by the following technical scheme: a fire monitoring control system, the system comprising: the first acquisition module is used for acquiring alarm information of the fire detection equipment; the second acquisition module is used for acquiring on-site fire condition confirmation information of the fire detection equipment for alarming; the vocabulary entry generating module is used for generating a plurality of fire vocabulary entries according to the on-site fire confirmation information; the decision output module is used for matching the plurality of fire terms with terms in a preset decision library and outputting different decision results according to matching results; wherein the decision result comprises a false alarm, a processable or fire-fighting report.

The invention in a preferred example may be further arranged to: the alarm information of the fire detection equipment comprises detection equipment state information and detection equipment position information.

The invention in a preferred example may be further arranged to: the system further comprises: and the fire alarm module is used for forming fire alarm information by the fire position information and the fire entries according to the decision result of 'fire alarm' output and sending the fire alarm information to the fire department.

The invention in a preferred example may be further arranged to: the fire condition entries comprise alarm confirmation or false alarm, smoke condition, flame condition, whether to alarm fire or not and special fire condition; the decision output module outputs a false alarm when the fire condition entry matching at least comprises the false alarm; when the matching of the fire condition entries at least comprises 'alarm confirmation and no need of fire alarm', the output can be processed; and when the fire condition entry matching at least comprises 'alarm confirmation and fire alarm needing to be reported', outputting fire alarm.

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

1. the method can judge the fire according to the scene fire and automatically form a decision-making strategy, standardizes the disposal procedure of the fire, provides a practical basis for fire fighting through the preposed fire judgment, reduces the pressure of a fire fighting system and reduces the waste phenomenon of fire fighting resources.

2. The invention can provide detailed fire position information and site fire information for fire departments when performing fire alarm, provides more detailed and accurate information for fire alarm, and is beneficial to the improvement of the working quality of fire alarm.

Drawings

Fig. 1 shows a method step flow diagram of a fire monitoring control method according to an embodiment of the present disclosure.

Fig. 2 illustrates a flow chart of further method steps of a fire monitoring control method according to an embodiment of the present disclosure.

Fig. 3 illustrates a system block diagram of a fire monitoring control system according to an embodiment of the present disclosure.

In the figure, 20, a fire monitoring control system; 201. a first acquisition module; 202. a second acquisition module; 203. an entry generation module; 204. a decision output module; 205. a fire alarm module; 30. a fire department system.

Detailed Description

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

Fig. 1 shows a method step flow diagram of a fire monitoring control method according to an embodiment of the present disclosure. As shown in fig. 1, the method comprises the steps of:

s101, acquiring alarm information of fire detection equipment; s102, acquiring on-site fire condition confirmation information of the fire detection equipment for alarming; step S103, generating a plurality of fire entries according to the on-site fire confirmation information; step S104, matching the plurality of fire entries with entries in a preset decision library, and outputting different decision results according to matching results; wherein the decision result comprises a false alarm, a processable or fire-fighting report.

In step S101, specifically, the fire detection device may employ other sensing devices capable of having fire detection capability, such as an automatic fire detector, a flame detector, a standalone smoke detector, and the like. When the fire detection equipment encounters a suspected fire condition, namely smoke and/or flame exceed preset values, an alarm is sent out and transmitted to a fire-fighting duty room in a corresponding area. The fire-fighting duty room can monitor the alarm information of the fire detection equipment in real time, and can know the working state information and the specific position information of the fire detection equipment. The working state of the fire detection equipment comprises the body state of the fire detection equipment and the collected field concentration data such as smoke; the specific location information indicates a specific location of an area where the alarm fire detection device is located, and in one example, the alarm fire detection device is located in "XXX way, XXX number, department store, 5-story, southeast area". The specific position of the specific fire detection equipment can be known by establishing an identity database of the fire detection equipment, wherein 'identity information' of each fire detection equipment in the region to which the specific fire detection equipment belongs is stored in the identity database, and each fire detection equipment can be specifically established with a unique code when being installed and is bound with the specific position of the fire detection equipment.

In step S102, specifically, the fire detection device can find the fire for the first time, and then it is necessary to confirm the fire on the site and feed back the site fire confirmation information. The on-site fire confirmation information can be that the on-duty personnel in the fire-fighting on-duty room quickly reaches the specific position of the fire detection equipment to confirm the on-site fire, and reports the on-site fire to the manager in the fire-fighting on-duty room in the form of telephone and the like, and the manager arranges the fire information; after the on-site fire occurs, people on the site can contact a fire-fighting duty room through telephones and the like to report the on-site fire; after the on-site fire occurs, people nearby or nearby can quickly contact the fire department, so that the on-site fire confirmation information can come from the telephone or information of the fire center; preferably, the fire-fighting attendant can be provided with at least one exclusive mobile device, which can be a portable device such as a mobile phone and the like, and the fire-fighting APP software installed on the mobile device can be used for shooting, recording, inputting characters, carrying out voice communication and the like on the scene fire, and transmitting the scene fire to the fire-fighting attendant at least in the form of voice or characters; certainly, the exclusive mobile device can be configured at fixed points according to actual requirements, for example, in some fire key areas, the device can be specifically configured, and special people can be arranged to manage, so that on-site fire confirmation information is provided at the first time, and a basis is provided for quick decision.

In step S103, specifically, the fire entry word may be quickly generated according to the on-site fire confirmation information, and the fire entry word may include contents of alarm confirmation, false alarm, smoke condition, flame condition, whether to report a fire alarm, a special fire, and the like. Moreover, the fire entry is a keyword or phrase that can be set in advance according to various fire scenes, for example: if a fire occurs in a region where a 5-floor costume of a skyscraper is sold, the fire entry may include "high-floor fire", "alarm confirmation", "dense smoke", "heavy fire", "alarm required", "large amount of textiles", and the like. Of course, fuzzy recognition can be performed on the fire confirmation information, such as: the statement comprises that the smoke is more in site and can be automatically identified as dense smoke; under the condition of using the exclusive mobile equipment, the fire entry of the common field fire identification of each fire scene can be set in advance in the exclusive mobile equipment for a fire attendant or a field specially-assigned person to select, so that the field fire confirmation information can be provided quickly.

In step S104, specifically, different decision results can be provided according to different fire entries. Firstly, a decision base is required to be established, and the decision base comprises a plurality of decision results matched according to the fire terms. After a fire occurs, a plurality of fire entries are generated according to the on-site fire confirmation information, the generated fire entries are matched with entries in a preset decision-making library, the matching can be incomplete matching, and in order to ensure that a decision-making result is normally output, the fire-making library generally comprises several key fire entries of 'false alarm', 'alarm confirmation', 'fire alarm does not need to be reported', 'fire alarm needs to be reported'.

Specifically, when the entry of "false alarm" is generated according to the fire confirmation information, it indicates that the field confirmation is performed, and the alarm belongs to the false alarm, and the output decision result is: and false alarm, namely, the fire-fighting duty room and the field fire-fighting duty personnel can perform silencing and resetting on the fire detection equipment for alarming according to conditions, and can contact a maintenance unit in time to perform equipment maintenance when equipment fails.

When the entry of 'alarm confirmation, no need of fire alarm' is generated according to the fire confirmation information, the alarm is confirmed on site, the alarm belongs to real alarm, but the fire on site is smaller and can be handled without moving firemen, the fire-fighting on-duty room can be matched with the fire-fighting on-duty person to quickly handle the fire, and the fire is reported to the fire department according to the situation in time, and the waste of fire-fighting resources can be reduced by adopting the mode, such as: the method can quickly confirm the fire, and timely inform the fire department or actively inquire the fire department to determine whether the firefighter is on the move or not, thereby greatly reducing the fire fighting pressure and reducing the waste of fire fighting resources.

When the terms of alarm confirmation and fire alarm needing to be reported are generated according to the fire confirmation information, the fact that the alarm belongs to real alarm after field confirmation is shown, the field fire is large, the alarm cannot be processed by self, the fire fighting force needs to be generated, and a decision result for reporting fire fighting is output.

Fig. 2 illustrates a flow chart of further method steps of a fire monitoring control method according to an embodiment of the present disclosure. As shown in fig. 2, the method further includes step S105 of forming fire alarm information by the fire position information and the plurality of fire entries according to the decision result output as "fire alarm" and sending the fire alarm information to the fire department. In step S105, specifically, after the decision result of "fire alarm" is output in step S104, the fire-fighting duty room will quickly send alarm information to the fire department to request fire-fighting to give an alarm.

The fire alarm of the fire-fighting duty room can be an alarm through an artificial telephone, and can also be a fire alarm message sent to a fire department. The fire fighting alarm information is formed by the fire situation position information and the generated fire situation entries. The fire-fighting duty room system is in communication connection with the fire department system, and according to the decision result of 'fire alarm' output, the fire-fighting alarm information can be automatically arranged and sent, or the fire-fighting alarm is carried out by adopting a voice robot technology. In one example, a fire detection device of a certain area of a department store gives an alarm, the position of the fire detection device is determined to be in a clothing sales area of XXX road, XXX number, department store, 5 layers and southeast, fire condition terms formed by field confirmation information can comprise alarm confirmation, dense smoke, intense fire, fire alarm needing to be reported and a large number of textiles, a system of a fire-fighting duty room automatically generates fire-fighting alarm information, the content is 'fire alarm, needs to be issued, XXX road, XXX number, department store, 5 layers and southeast clothing sales area, dense smoke and intense fire are accumulated with a large number of textiles', the fire department can quickly and clearly determine the fire position, the field condition, special fire condition and the like after receiving the alarm, and accordingly rescue equipment can be reasonably and quickly prepared.

Fig. 3 shows a system block diagram of the fire monitoring control system 20 according to an embodiment of the present disclosure. As shown in fig. 3, the system is communicatively connected to a fire department system 30 to enable rapid communication of mutual information. The system comprises a first acquisition module 201, a first processing module and a second processing module, wherein the first acquisition module is used for acquiring alarm information of fire detection equipment; a second obtaining module 202, configured to obtain on-site fire condition confirmation information of a fire detecting device that alarms; the vocabulary entry generating module 203 is used for generating a plurality of fire vocabulary entries according to the on-site fire confirmation information; the decision output module 204 is used for matching the plurality of fire terms with terms in a preset decision library and outputting different decision results according to matching results; wherein, the decision result comprises false alarm, can process, report to the fire control.

The system further comprises a fire alarm module 205, which is used for forming fire alarm information by the fire position information and the fire entries according to the decision result of 'fire alarm' output and sending the fire alarm information to the fire department.

While the foregoing embodiments and various modifications of the method described in the embodiments are also applicable to the fire monitoring control system 20, the method of implementing the fire monitoring control system 20 in the embodiments will be apparent to those skilled in the art from the foregoing detailed description of the fire monitoring control method, and therefore, for the sake of brevity of description, will not be described in detail herein.

Through the above description of the embodiments, those skilled in the art will clearly understand that the present invention may be implemented by means of software plus a necessary hardware platform, and may also be implemented by software or hardware entirely. With this understanding in mind, all or part of the technical solutions of the present invention that contribute to the background can be embodied in the form of a software product, which can be stored in a storage medium, such as a ROM/RAM, a magnetic disk, an optical disk, etc., and includes several instructions for causing a computer device (which can be a personal computer, a server, or a network device, etc.) to execute the methods of the embodiments or some parts of the embodiments of the present invention.

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 (10)

1. A fire-fighting monitoring control method is characterized by comprising the following steps:

acquiring alarm information of fire detection equipment;

acquiring on-site fire condition confirmation information of the fire detection equipment for alarming;

confirming a plurality of fire condition entries according to the on-site fire conditions;

matching the plurality of fire entries with entries in a preset decision library, and outputting different decision results according to matching results; wherein the decision result comprises a false alarm, a processable or fire-fighting report.

2. A fire monitoring control method as recited in claim 1, wherein the alarm information of the fire detection device includes detection device status information, location information of the detection device.

3. A fire monitoring control method as claimed in claim 2, characterized in that the fire location information and the plurality of fire entries form fire alarm information to be sent to the fire department according to the decision result of "fire alarm" output.

4. A fire monitoring control method as recited in any of claims 1-3 wherein the on-site fire confirmation message is from at least one dedicated mobile device and/or crowd alarm messages from the fire department, the on-site fire confirmation message including at least one of text messages or voice messages.

5. A fire monitoring control method as recited in claim 4 wherein the fire entry includes an alarm confirmation or false alarm, a smoke condition, a flame condition, whether a fire alarm is being reported, a special fire condition.

6. A fire monitoring control method as claimed in claim 5, wherein the step of matching a plurality of fire entries with entries in a predetermined decision library and outputting different decision results according to the matching results comprises:

when the fire condition entry matching at least comprises a false alarm, outputting the false alarm;

when the fire condition entry matching at least comprises 'alarm confirmation and no need of alarm', the output can be processed;

and when the fire condition entries are matched and at least comprise 'alarm confirmation and fire alarm needing to be reported', outputting fire alarm.

7. A fire monitoring control system, the system comprising:

the first acquisition module (201) is used for acquiring alarm information of the fire detection equipment;

the second acquisition module (202) is used for acquiring the on-site fire condition confirmation information of the fire detection equipment for alarming;

the vocabulary entry generating module (203) is used for generating a plurality of fire vocabulary entries according to the on-site fire confirmation information;

the decision output module (204) is used for matching the plurality of fire terms with terms in a preset decision library and outputting different decision results according to matching results; wherein the decision result comprises a false alarm, a processable or fire-fighting report.

8. A fire monitoring control system as recited in claim 7, wherein the alarm information of the fire detection device includes detection device status information, location information of the detection device.

9. A fire monitoring control system as claimed in claim 7 or 8, further comprising:

and the fire alarm module (205) is used for forming fire alarm information by the fire position information and the fire entries according to the decision result of 'fire alarm' output and sending the fire alarm information to the fire department.

10. A fire monitoring control system as claimed in claim 9, wherein the fire entry includes an alarm confirmation or false alarm, a smoke condition, a flame condition, whether a fire alarm is being reported, a special fire condition; the decision output module (204) outputs a false alarm when the fire condition vocabulary entry matching at least comprises the false alarm; when the matching of the fire condition entries at least comprises 'alarm confirmation and no need of fire alarm', the output can be processed; and when the fire condition entry matching at least comprises 'alarm confirmation and fire alarm needing to be reported', outputting fire alarm.

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