CN115273376B - Real-time monitoring and processing method for dangerous case in large-range fire scene - Google Patents

Abstract

The invention relates to the field of fire scene dangerous case monitoring and processing, in particular to a large-range fire scene dangerous case real-time monitoring and processing method, which comprises the following steps: collecting position information of a rescue unit entering a fire scene; acquiring real-time fire situation data of a fire scene by using the position information of the rescue unit; the fire scene fire condition real-time data is utilized to carry out mobilization processing on rescue units, the situation of the fire scene is better mastered based on the positions of all rescue units in the fire scene, and meanwhile, the problem that areas with higher risks are preferentially solved, so that real-time monitoring of the fire scene by personnel outside the scene is ensured, the areas with high risks in the fire scene are preferentially processed, the situation that the fire scene is out of control due to spreading is avoided, and the casualties are reduced.

Description

Real-time monitoring and processing method for dangerous case in large-range fire scene

Technical Field

The invention relates to the field of fire scene dangerous case monitoring and processing, in particular to a large-range fire scene dangerous case real-time monitoring and processing method.

Background

In the fire rescue, the personnel that cause that lack the control to the scene of a fire condition lose the condition and take place occasionally, simultaneously because the rescue task is urgent, the whole condition of the scene of a fire can't be mastered in real time to the rescue personnel who gets into the scene of a fire, the scene of a fire situation information of first hand can't be mastered after the rescue personnel that same scene of a fire indicates outside the scene of a fire also, the rescue personnel who gets into the scene of a fire wear image transmission equipment can carry out the monitoring of the real-time condition, but the high condition of scene of a fire temperature is complicated, there is the defect in the transmission of image signal, can't know the scene of a fire situation and just can't make most effective and safe command signal, therefore how to command the rescue personnel after the rescue personnel gets into the scene of a fire information safely and stably to carry out the command and move and become the problem that needs to solve urgently.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a real-time monitoring and processing method for dangerous cases in a large-range fire scene, which is used for judging the situations in the fire scene in real time according to the positions of rescue units in the fire scene and carrying out mobilizing processing on the rescue units in the fire scene according to the situations.

In order to achieve the purpose, the invention provides a real-time monitoring and processing method for dangerous cases in a large-range fire scene, which comprises the following steps:

collecting position information of rescue units entering a fire scene;

acquiring fire scene real-time data by using the position information of the rescue unit;

and carrying out mobilization processing on the rescue unit by using the fire scene real-time data.

Preferably, the acquiring of the real-time fire data in the fire scene by using the position information of the rescue unit comprises:

and acquiring fire scene fire real-time data based on a preset fire scene dangerous situation standard by utilizing the position information of the rescue unit.

Further, the preset fire scene dangerous case standard comprises the following steps:

when 4 to 6 rescue units gather, the gathering position is in a low fire scene dangerous case;

when 6 to 10 rescue units gather, the gathering position is in a medium fire place dangerous case;

when 10 or more rescue units gather, the gathering position is a high fire scene dangerous case.

Preferably, the step of using the real-time data of the fire in the fire scene to maneuver the rescue unit comprises the following steps:

acquiring the number of fire scene dangerous situation positions in the fire scene by using the fire scene real-time data;

obtaining a fire scene dangerous case real-time monitoring result by using the number of the fire scene dangerous case positions;

and carrying out mobilization processing on the rescue unit by utilizing the fire scene dangerous case real-time monitoring result.

Further, obtaining a fire scene dangerous case real-time monitoring result by using the number of the fire scene dangerous case positions comprises:

judging whether fire scene dangerous situation positions exist in the fire scene basic rescue range, if so, obtaining a to-be-processed monitoring result of the fire scene basic rescue range by using the number of the fire scene dangerous situation positions, and if not, carrying out monitoring processing;

and using the monitoring result to be processed in the fire scene basic rescue range as a fire scene dangerous case real-time monitoring result.

Further, obtaining the to-be-processed monitoring result of the fire scene basic rescue range by using the number of the fire scene dangerous case positions comprises:

when 1-3 low fire scene dangerous cases exist in the fire scene basic rescue range, the area where the fire scene basic rescue range is located is a low risk area;

when 4 or more low fire scene dangerous cases exist in the fire scene basic rescue range, the area where the fire scene basic rescue range is located is a medium-fire dangerous area;

when 1 or more medium fire scene dangerous cases exist in the fire scene basic rescue range, the area where the fire scene basic rescue range is located is a medium fire scene dangerous area;

when 2 or more medium fire scene dangerous cases exist in the fire scene basic rescue range, the area where the fire scene basic rescue range is located is a high-risk area.

Further, the deployment processing of the rescue unit by utilizing the real-time monitoring result of the fire scene dangerous case comprises the following steps:

and judging whether a medium risk area or a high risk area exists in the fire scene, if so, preferentially carrying out the transfer processing of the medium risk area or the high risk area on the rescue unit, and otherwise, carrying out the rescue processing in sequence.

Further, the preferentially mobilizing a rescue unit in a risk area or a high risk area includes:

when a high-risk area exists in a fire scene, judging whether a low-fire-scene dangerous case exists in a fire scene basic rescue range of the high-risk area, if so, mobilizing rescue units with low-fire-scene dangerous cases to perform assistance, and otherwise, mobilizing other rescue units.

Further, the rescue organization for mobilizing the low fire scene dangerous case for carrying out rescue comprises:

and judging whether high fire scene dangerous cases exist in the high-risk area, if so, transferring rescue units of the low fire scene dangerous cases to preferentially reinforce the high fire scene dangerous cases, and otherwise, averagely distributing the high fire scene dangerous cases to the medium fire scene dangerous cases by using the rescue units of the low fire scene dangerous cases.

Further, the performing other rescue unit mobilization process includes:

when adjacent low-risk areas exist in the high-risk areas, the high-risk areas are rescued by rescue units of the adjacent low-risk areas;

when the high risk area has an adjacent medium risk area, judging whether the adjacent medium risk area only has a low fire scene dangerous case, if so, using a rescue unit of the adjacent medium risk area to reinforce the high risk area, otherwise, not carrying out reinforcement processing;

and when the adjacent low risk area or the adjacent medium risk area does not exist in the high risk area, performing reinforcement processing on the high risk area by using rescue units outside the fire scene.

Compared with the closest prior art, the invention has the following beneficial effects:

the position through rescue unit in the scene of a fire judges the condition of the fire in the scene of a fire, the whole condition of the scene of a fire is judged to the position of the scattered fire of region in the scene of a fire of integration simultaneously, and move the enhancement to rescue unit according to the whole condition, the regional preferential solution that has higher risk, guaranteed the real-time supervision of off-site personnel to the scene of a fire in the scene of a fire promptly, again to the regional preferential processing of high risk in the scene of a fire, the situation that has avoided the fire to spread the result in is out of control, the condition that reduces the casualties takes place.

Drawings

Fig. 1 is a flow chart of a real-time monitoring and processing method for dangerous situations in a wide-range fire scene provided by the invention.

Detailed Description

The following provides a more detailed description of embodiments of the present invention, with reference to the accompanying drawings.

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

Example 1:

the invention provides a real-time monitoring and processing method for dangerous cases in a large-scale fire scene, which comprises the following steps of:

step 1: collecting position information of rescue units entering a fire scene;

and 2, step: acquiring fire scene real-time data by using the position information of the rescue unit;

and 3, step 3: and carrying out mobilization processing on the rescue unit by using the fire scene real-time data.

In the embodiment, the method for monitoring and processing the dangerous case in the large-range fire scene in real time utilizes the Bluetooth AOA technology to obtain the position information of the rescue unit entering the fire scene, the Bluetooth chip is small and is low in influence of environmental conditions, and meanwhile, the positioning accuracy can reach 1-2 m.

In the embodiment, a real-time monitoring and processing method for dangerous situations in a large-scale fire scene is provided, and rescue units are fire-fighting related personnel participating in rescue.

The step 2 specifically comprises the following steps:

2-1: and acquiring fire scene fire real-time data based on a preset fire scene dangerous situation standard by utilizing the position information of the rescue unit.

The step 2-1 specifically comprises:

2-1-1: when 4 to 6 rescue units gather, the gathering position is in a low fire scene dangerous case;

2-1-2: when 6 to 10 rescue units gather, the gathering position is in a medium fire place dangerous case;

2-1-3: when 10 or more rescue units gather, the gathering position is a high fire scene dangerous case.

The step 3 specifically comprises:

3-1: acquiring the number of fire scene dangerous situation positions in the fire scene by using the fire scene real-time data;

3-2: obtaining a fire scene dangerous case real-time monitoring result by using the number of the fire scene dangerous case positions;

3-3: and carrying out mobilization processing on rescue units by using the real-time monitoring result of the fire scene dangerous case.

The step 3-2 specifically comprises the following steps:

3-2-1: judging whether fire scene dangerous situation positions exist in the fire scene basic rescue range, if so, obtaining a to-be-processed monitoring result of the fire scene basic rescue range by using the number of the fire scene dangerous situation positions, and if not, carrying out monitoring processing;

3-2-2: and using the monitoring result to be processed in the fire scene basic rescue range as a fire scene dangerous case real-time monitoring result.

In the embodiment, the fire scene dangerous case real-time monitoring and processing method has a fire scene basic rescue range of 200-400 square meters.

The step 3-2-1 specifically comprises:

3-2-1-1: when 1-3 low fire scene dangerous cases exist in the fire scene basic rescue range, the area where the fire scene basic rescue range is located is a low risk area;

3-2-1-2: when 4 or more low fire scene dangerous cases exist in the fire scene basic rescue range, the area where the fire scene basic rescue range is located is a medium-fire dangerous area;

3-2-1-3: when 1 or more medium fire scene dangerous cases exist in the fire scene basic rescue range, the area where the fire scene basic rescue range is located is a medium fire scene dangerous area;

3-2-1-4: when 2 or more medium fire scene dangerous cases exist in the fire scene basic rescue range, the area where the fire scene basic rescue range is located is a high-risk area.

The step 3-3 specifically comprises the following steps:

3-3-1: and judging whether a medium risk area or a high risk area exists in the fire field, if so, preferentially performing the transfer processing on the medium risk area or the high risk area in the rescue unit, and otherwise, performing the rescue processing in sequence.

The step 3-3-1 specifically comprises:

3-3-1-1: when a high-risk area exists in a fire scene, judging whether a low-fire-scene dangerous case exists in a fire scene basic rescue range of the high-risk area, if so, mobilizing rescue units with low-fire-scene dangerous cases to perform assistance, and otherwise, mobilizing other rescue units.

The step 3-3-1-1 specifically comprises:

3-3-1-1-1: and judging whether high fire scene dangerous cases exist in the high-risk area, if so, invoking rescue units of the low fire scene dangerous cases to preferentially reinforce the high fire scene dangerous cases, and otherwise, averagely distributing the high fire scene dangerous cases to the medium fire scene dangerous cases by utilizing the rescue units of the low fire scene dangerous cases.

3-3-1-1-2: when adjacent low-risk areas exist in the high-risk areas, the high-risk areas are rescued by rescue units of the adjacent low-risk areas;

3-3-1-1-3: when the high risk area has an adjacent medium risk area, judging whether the adjacent medium risk area only has a low fire scene dangerous case, if so, using a rescue unit of the adjacent medium risk area to reinforce the high risk area, otherwise, not carrying out reinforcement processing;

3-3-1-1-4: and when the adjacent low risk area or the adjacent medium risk area does not exist in the high risk area, performing reinforcement processing on the high risk area by using rescue units outside the fire scene.

In the embodiment, the real-time monitoring and processing method for the fire scene dangerous case in the large range comprises the steps of firstly determining the fire scene dangerous case through a rescue unit, secondly determining a risk area through the fire scene dangerous case, and then monitoring each risk area in the fire scene in real time, and increasing the assistance and allocating.

As will be appreciated by one skilled in the art, embodiments of the present invention may be provided as a method, system, or computer program product. Accordingly, the present invention may take the form of an entirely hardware embodiment, an entirely software embodiment or an embodiment combining software and hardware aspects. Furthermore, the present invention may take the form of a computer program product embodied on one or more computer-usable storage media (including, but not limited to, disk storage, CD-ROM, optical storage, and the like) having computer-usable program code embodied therein.

The present invention is described with reference to flowchart illustrations and/or block diagrams of methods, apparatus (systems), and computer program products according to embodiments of the application. It will be understood that each flow and/or block of the flow diagrams and/or block diagrams, and combinations of flows and/or blocks in the flow diagrams and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable data processing apparatus to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing apparatus, create means for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing apparatus to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including instruction means which implement the function specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be loaded onto a computer or other programmable data processing apparatus to cause a series of operational steps to be performed on the computer or other programmable apparatus to produce a computer implemented process such that the instructions which execute on the computer or other programmable apparatus provide steps for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solutions of the present invention and not for limiting the same, and although the present invention is described in detail with reference to the above embodiments, those of ordinary skill in the art should understand that: modifications and equivalents may be made to the embodiments of the invention without departing from the spirit and scope of the invention, which is to be covered by the claims.

Claims (1)

1. A real-time monitoring and processing method for dangerous cases in a large-range fire scene is characterized by comprising the following steps:

step 1, collecting position information of a rescue unit entering a fire scene;

step 2, acquiring real-time fire situation data of a fire scene by using the position information of the rescue unit;

2-1, acquiring fire scene real-time data based on a preset fire scene dangerous situation standard by utilizing the position information of the rescue unit;

2-1-1, when 4 to 6 rescue units gather, the gathering position is in a low fire scene dangerous case;

2-1-2, when 6 to 10 rescue units gather, the gathering position is in a medium fire place dangerous case;

2-1-3, when more than 10 rescue units gather, the gathering position is in a high fire scene dangerous case;

step 3, using the fire scene real-time data to mobilize a rescue unit;

3-1, acquiring the number of fire scene dangerous situation positions in the fire scene by using the fire scene real-time data;

3-2, obtaining a fire scene dangerous case real-time monitoring result by using the number of the fire scene dangerous case positions;

3-2-1, judging whether fire scene dangerous situation positions exist in a fire scene basic rescue range, if so, obtaining a to-be-processed monitoring result of the fire scene basic rescue range by using the number of the fire scene dangerous situation positions, and if not, not performing monitoring processing;

3-2-1-1, when 1-3 low fire scene dangerous cases exist in the fire scene basic rescue range, the area where the fire scene basic rescue range is located is a low risk area;

3-2-1-2, when 4 or more low fire scene dangerous cases exist in the fire scene basic rescue range, the area where the fire scene basic rescue range is located is a medium fire dangerous area;

3-2-1-3, when 1 or more medium fire scene dangerous cases exist in the fire scene basic rescue range, the area where the fire scene basic rescue range is located is a medium fire scene dangerous area;

3-2-1-4, when 2 or more medium fire scene dangerous cases exist in the fire scene basic rescue range, the area where the fire scene basic rescue range is located is a high risk area;

3-2-2, using the monitoring result to be processed in the fire scene basic rescue range as a fire scene dangerous case real-time monitoring result;

3-3, carrying out mobilization processing on the rescue unit by utilizing the fire scene dangerous case real-time monitoring result;

3-3-1, judging whether a medium risk area or a high risk area exists in the fire scene, if so, preferentially performing the transfer processing on the medium risk area or the high risk area of the rescue unit, otherwise, performing the rescue processing in sequence;

3-3-1-1, when a high-risk area exists in a fire scene, judging whether a low-fire-scene dangerous case exists in a fire scene basic rescue range of the high-risk area, if so, mobilizing rescue units with low-fire-scene dangerous cases to reinforce, and if not, mobilizing other rescue units;

3-3-1-1-1: judging whether high fire scene dangerous cases exist in the high-risk area, if so, moving rescue units of the low fire scene dangerous cases to preferentially reinforce the high fire scene dangerous cases, and otherwise, averagely distributing the high fire scene dangerous cases to the medium fire scene dangerous cases by using the rescue units of the low fire scene dangerous cases;

3-3-1-1-2: when adjacent low-risk areas exist in the high-risk areas, rescue units of the adjacent low-risk areas are utilized to reinforce the high-risk areas;

3-3-1-1-3: when the high risk area has an adjacent middle risk area, judging whether the adjacent middle risk area only has a low fire scene dangerous case, if so, using a rescue unit of the adjacent middle risk area to reinforce the high risk area, otherwise, not carrying out reinforcement processing;

3-3-1-1-4: and when the high-risk area does not have an adjacent low-risk area or an adjacent medium-risk area, performing rescue processing on the high-risk area by using a rescue unit outside the fire scene.

Images