CN111494835A - Ground-air stereoscopic emergency rescue method for grain department - Google Patents

Abstract

The invention relates to a ground-air stereoscopic emergency rescue method for a grain department, which is characterized in that the ground-air stereoscopic emergency rescue method for the grain department is started by sending an alarm and information through a granary subsystem, a granary fire prediction map is obtained by comprehensive information of a ground-air stereoscopic emergency rescue platform, fire isolation belts are divided according to granary fire prediction and granary distribution and facility distribution inside the granary, rescue personnel inside the granary are concentrated in strength rescue, and important precaution is carried out on a heavy spot area and an area which is easy to cause a secondary fire; according to the method, data of a ground rescue system and an air rescue system are issued according to the prediction of the fire of a grain depot, the ground rescue system and the air rescue system are respectively used for ground rescue and air rescue, the ground rescue system synthesizes data to obtain a rescue route map for entering, and the air rescue system synthesizes data to obtain a flight route map and a helicopter entering route map for commanding air rescue force rescue; can cooperate with the personnel outside to enter the field for quick and effective rescue.

Description

Ground-air stereoscopic emergency rescue method for grain department

Technical Field

The invention belongs to the technical field of intelligent grain depots, and particularly relates to a ground-air stereoscopic emergency rescue method for a grain department.

Background

For a long time, the national grain storage condition is not obviously improved since the country is built, most grain warehouses still adopt an original storage mode, and most grain warehouses are only limited to carry out manual on-site detection on temperature and humidity due to the technology, fund and the like, and an efficient detection method for grain storage quantity is not available. With the continuous improvement of the national agricultural industry policy and the application and popularization of modern scientific technology in agricultural production, the total grain yield of China continuously breaks through the new high history. Under such a large situation, the national investment builds a large modern grain depot, a plurality of grain depots are arranged in the grain depot, the grain depots have wide occupied area, large scale, large number of granaries and large capacity, and the factors bring new problems to the normal operation of the grain depot.

The grain depot is generally configured in an area far away from a downtown area, the rescue force is weak, along with the development of the intelligent construction of the grain depot, the number of workers in the grain depot is gradually reduced, more workers are replaced by modern mechanical equipment and systems, and the number of field rescuers which can be relied on in case of a disaster is limited, so that the grain depot needs to be assisted by a more efficient rescue method and is matched with field personnel to enter the field for quick and effective rescue.

Disclosure of Invention

The invention aims to solve the problems and provide a ground-air stereoscopic emergency rescue method for a grain department, which can be matched with the field personnel to enter the field for quick and effective rescue.

The invention realizes the purpose through the following technical scheme:

a ground-air stereoscopic emergency rescue method for a grain department comprises the following steps:

the granary subsystem detects dangerous situations according to data such as granary temperature, smoke concentration and the like, and sends out an alarm and data to the subsystem management platform in a communication mode when the dangerous situations occur;

secondly, the subsystem management platform receives alarms and data sent by the granary subsystems, and if more than two granary subsystems send alarms simultaneously, the subsystem management platform sends the alarms and data to the ground-air three-dimensional emergency rescue platform and starts the ground-air three-dimensional emergency rescue;

thirdly, the ground-air stereoscopic emergency rescue platform sends a request to the meteorological system, and the meteorological system feeds back meteorological data to the ground-air stereoscopic emergency rescue platform; the ground-air stereoscopic emergency rescue platform synthesizes meteorological data, predicts the fire spreading direction through the data of the granary subsystem which gives out an alarm, synthesizes the granary distribution diagram data to plan a fire isolation belt according to the fire spreading direction, and obtains a granary fire prediction diagram;

fourthly, the centralized rescue force isolates the fire according to the fire isolation belt;

fifthly, the ground-air stereoscopic emergency rescue platform sends the data to a ground rescue system and an air rescue system;

the ground rescue system gives an alarm to a fire-fighting unit through a fire-fighting alarm unit, and the fire-fighting processing unit processes grain depot data to obtain a fire-fighting facility distribution map; a fire fighting channel distribution diagram is obtained through a road information processing unit, a ground rescue system synthesizes the fire fighting channel distribution diagram, a fire fighting facility distribution diagram and a grain depot fire prediction diagram to obtain a final rescue road diagram, data such as the rescue road diagram and the like are sent to a rescue command vehicle and a rescue vehicle through a mobile communication network, and the rescue command vehicle and the rescue vehicle carry out rescue according to the rescue road diagram;

and seventhly, the air rescue system collects military and civil air control information through an air control data processing unit, the environment information processing unit processes a grain depot fire prediction map, the real-time information processing unit processes meteorological data and unit data, the air rescue system synthesizes the military and civil air control information and the meteorological data to obtain a helicopter flight route map, a helicopter approach route map is obtained according to the grain depot fire prediction map, the helicopter arrives at a grain depot according to the helicopter flight route map, and the helicopter performs approach rescue according to the helicopter approach route map.

As a further optimization scheme of the invention, the ground-air stereoscopic emergency rescue platform is also connected with a grain depot database. Necessary information such as grain depot construction drawings can be called from the grain depot database.

As a further optimization scheme of the invention, the rescue command vehicle and the rescue vehicle are in wireless communication to form a ground local area network. And conducting command and communication of ground rescue through a ground local area network.

As a further optimization scheme of the invention, the helicopters are wirelessly communicated to form an air local area network, and data are shared through the air local area network.

As a further optimization scheme of the invention, the ground-air stereoscopic emergency rescue platform carries out voice communication command on rescuers through the IP emergency dispatching desk and the interphone.

A rescue system of a ground-air stereoscopic emergency rescue method for a grain department comprises a ground-air stereoscopic emergency rescue platform, an air rescue system, a ground rescue system and a subsystem management platform, wherein the ground-air stereoscopic emergency rescue platform is connected with the air rescue system, the ground rescue system and the subsystem management platform, the subsystem management platform is connected with a plurality of granary subsystems distributed in all granaries, the granary subsystems are connected with a temperature sensor, an air speed sensor, a smoke concentration sensor, a loudspeaker and a video monitor in each granary, the temperature sensor, the air speed sensor, the smoke concentration sensor and the loudspeaker respectively detect temperature, air speed and smoke concentration data and upload the data to the granary subsystems, and the video monitor shoots granary video data and uploads the data to the granary subsystems.

As a further optimization scheme of the invention, the ground-air stereoscopic emergency rescue platform comprises an IP emergency dispatching desk, a meteorological processing unit, a granary distribution processing unit and a communication processing unit, wherein the IP emergency dispatching desk is connected with a plurality of interphones, the meteorological processing unit is connected with a meteorological system, and the communication processing unit is used for communicating with a subsystem management platform, a ground rescue system and an air rescue system.

As a further optimization scheme of the air rescue system, the air management data processing unit processes information called from military control and civil aviation control databases, the environment information processing unit processes grain depot data sent from a ground-air stereoscopic emergency rescue platform, and the real-time information processing unit processes meteorological data sent by the ground-air stereoscopic emergency rescue platform.

The invention has the beneficial effects that:

1) according to the invention, the granary subsystem sends an alarm and information to start ground-air stereoscopic emergency rescue, the ground-air stereoscopic emergency rescue platform synthesizes information to obtain a granary fire prediction map, fire isolation belts are divided according to granary fire prediction and granary distribution and facility distribution in the granary, rescue workers in the granary are concentrated to rescue with strength, and important prevention is carried out on important areas and areas which are easy to cause secondary fire;

2) the method comprises the steps of issuing data of a ground rescue system and an air rescue system according to the prediction of the fire of a grain depot, wherein the ground rescue system and the air rescue system are respectively used for ground rescue and air rescue, the ground rescue system synthesizes the data to obtain a rescue route map for entering, and the air rescue system synthesizes the data to obtain a flight route map and a helicopter entering route map to command air rescue force for rescue;

3) the invention can uniformly command and dispatch the ground-air rescue force of the outfield and can cooperate with the outfield personnel to enter the outfield for quick and effective rescue.

Drawings

Fig. 1 is a schematic structural diagram of a rescue system of a grain department ground-air stereoscopic emergency rescue method according to a first embodiment of the invention;

fig. 2 is a schematic structural diagram of a ground-air stereoscopic emergency rescue platform according to a first embodiment of the invention.

Detailed Description

The present application will now be described in further detail with reference to the drawings, it should be noted that the following detailed description is given for illustrative purposes only and is not to be construed as limiting the scope of the present application, as those skilled in the art will be able to make numerous insubstantial modifications and adaptations to the present application based on the above disclosure.

Example one

A ground-air stereoscopic emergency rescue method for a grain department comprises the following steps:

the granary subsystem detects dangerous situations according to data such as granary temperature, smoke concentration and the like, and sends out an alarm and data to the subsystem management platform in a communication mode when the dangerous situations occur;

secondly, the subsystem management platform receives alarms and data sent by the granary subsystems, and if more than two granary subsystems send alarms simultaneously, the subsystem management platform sends the alarms and data to the ground-air three-dimensional emergency rescue platform and starts the ground-air three-dimensional emergency rescue;

thirdly, the ground-air stereoscopic emergency rescue platform sends a request to the meteorological system, and the meteorological system feeds back meteorological data to the ground-air stereoscopic emergency rescue platform; the ground-air stereoscopic emergency rescue platform synthesizes meteorological data, predicts the fire spreading direction through the data of the granary subsystem which gives out an alarm, synthesizes the granary distribution diagram data to plan a fire isolation belt according to the fire spreading direction, and obtains a granary fire prediction diagram;

fourthly, the centralized rescue force isolates the fire according to the fire isolation belt;

fifthly, the ground-air stereoscopic emergency rescue platform sends the data to a ground rescue system and an air rescue system;

the ground rescue system gives an alarm to a fire-fighting unit through a fire-fighting alarm unit, and the fire-fighting processing unit processes grain depot data to obtain a fire-fighting facility distribution map; a fire fighting channel distribution diagram is obtained through a road information processing unit, a ground rescue system synthesizes the fire fighting channel distribution diagram, a fire fighting facility distribution diagram and a grain depot fire prediction diagram to obtain a final rescue road diagram, data such as the rescue road diagram and the like are sent to a rescue command vehicle and a rescue vehicle through a mobile communication network, and the rescue command vehicle and the rescue vehicle carry out rescue according to the rescue road diagram;

and seventhly, the air rescue system collects military and civil air control information through an air control data processing unit, the environment information processing unit processes a grain depot fire prediction map, the real-time information processing unit processes meteorological data and unit data, the air rescue system synthesizes the military and civil air control information and the meteorological data to obtain a helicopter flight route map, a helicopter approach route map is obtained according to the grain depot fire prediction map, the helicopter arrives at a grain depot according to the helicopter flight route map, and the helicopter performs approach rescue according to the helicopter approach route map.

Preferably, the ground-air stereoscopic emergency rescue platform is further connected with a grain depot database. Necessary information such as grain depot construction drawings can be called from the grain depot database.

Preferably, the rescue command vehicle and the rescue vehicle are in wireless communication to form a ground local area network. And conducting command and communication of ground rescue through a ground local area network.

Preferably, the helicopters are wirelessly communicated to form an air local area network, and data are shared through the air local area network.

Preferably, the ground-air stereo emergency rescue platform carries out voice communication command on rescue personnel through the IP emergency dispatching desk and the interphone.

According to the invention, the granary subsystem sends an alarm and information to start ground-air stereoscopic emergency rescue, the ground-air stereoscopic emergency rescue platform synthesizes the information to obtain a granary fire prediction map, fire isolation belts are divided according to granary fire prediction and granary distribution and facility distribution in the granary, rescue workers in the granary are concentrated to rescue with strength, and important prevention is carried out on important areas and areas which are easy to cause secondary fire.

The method comprises the steps of issuing data of a ground rescue system and an air rescue system according to the prediction of the fire of a grain depot, wherein the ground rescue system and the air rescue system are respectively used for ground rescue and air rescue, the ground rescue system synthesizes the data to obtain a rescue route map for entering, and the air rescue system synthesizes the data to obtain a flight route map and a helicopter entering route map to command air rescue force for rescue.

Example two

As shown in fig. 1-2, the invention further provides a rescue system of the ground-air stereoscopic emergency rescue method for the grain department, which comprises a ground-air stereoscopic emergency rescue platform, an air rescue system, a ground rescue system and a subsystem management platform, wherein the ground-air stereoscopic emergency rescue platform is connected with the air rescue system, the ground rescue system and the subsystem management platform, the subsystem management platform is connected with a plurality of grain bin subsystems distributed in each grain bin, the grain bin subsystems are connected with a temperature sensor, an air speed sensor, a smoke concentration sensor, a loudspeaker and a video monitor in each grain bin, the temperature sensor, the air speed sensor, the smoke concentration sensor and the loudspeaker respectively detect temperature, air speed and smoke concentration data and upload the data to the grain bin subsystems, and the video monitor shoots the video data of the grain bins and uploads the video data to the grain bin subsystems.

The ground-air stereoscopic emergency rescue platform comprises an IP emergency dispatching desk, a weather processing unit, a granary distribution processing unit and a communication processing unit, wherein the IP emergency dispatching desk is connected with a plurality of interphones, the weather processing unit is connected with a weather system, and the communication processing unit is used for communicating with a subsystem management platform, a ground rescue system and an air rescue system.

The air rescue system comprises an air traffic control data processing unit, an environment information processing unit and a real-time information processing unit, wherein the air traffic control data processing unit processes information called from a military control database and a civil aviation control database, the environment information processing unit processes grain depot data sent from the ground-air stereoscopic emergency rescue platform, and the real-time information processing unit processes meteorological data sent by the ground-air stereoscopic emergency rescue platform.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the present invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention.

Claims (8)

1. A ground-air stereoscopic emergency rescue method for a grain department is characterized by comprising the following steps: the method comprises the following steps:

the granary subsystem detects dangerous situations according to data such as granary temperature, smoke concentration and the like, and sends out an alarm and data to the subsystem management platform in a communication mode when the dangerous situations occur;

secondly, the subsystem management platform receives alarms and data sent by the granary subsystems, and if more than two granary subsystems send alarms simultaneously, the subsystem management platform sends the alarms and data to the ground-air three-dimensional emergency rescue platform and starts the ground-air three-dimensional emergency rescue;

thirdly, the ground-air stereoscopic emergency rescue platform sends a request to the meteorological system, and the meteorological system feeds back meteorological data to the ground-air stereoscopic emergency rescue platform; the ground-air stereoscopic emergency rescue platform synthesizes meteorological data, predicts the fire spreading direction through the data of the granary subsystem which gives out an alarm, synthesizes the granary distribution diagram data to plan a fire isolation belt according to the fire spreading direction, and obtains a granary fire prediction diagram;

fourthly, the centralized rescue force isolates the fire according to the fire isolation belt;

fifthly, the ground-air stereoscopic emergency rescue platform sends the data to a ground rescue system and an air rescue system;

the ground rescue system gives an alarm to a fire-fighting unit through a fire-fighting alarm unit, and the fire-fighting processing unit processes grain depot data to obtain a fire-fighting facility distribution map; a fire fighting channel distribution diagram is obtained through a road information processing unit, a ground rescue system synthesizes the fire fighting channel distribution diagram, a fire fighting facility distribution diagram and a grain depot fire prediction diagram to obtain a final rescue road diagram, data such as the rescue road diagram and the like are sent to a rescue command vehicle and a rescue vehicle through a mobile communication network, and the rescue command vehicle and the rescue vehicle carry out rescue according to the rescue road diagram;

and seventhly, the air rescue system collects military and civil air control information through an air control data processing unit, the environment information processing unit processes a grain depot fire prediction map, the real-time information processing unit processes meteorological data and unit data, the air rescue system synthesizes the military and civil air control information and the meteorological data to obtain a helicopter flight route map, a helicopter approach route map is obtained according to the grain depot fire prediction map, the helicopter arrives at a grain depot according to the helicopter flight route map, and the helicopter performs approach rescue according to the helicopter approach route map.

2. The ground-air stereoscopic emergency rescue method for the grain department according to claim 1, characterized in that: the ground-air stereoscopic emergency rescue platform is also connected with a grain depot database.

3. The ground-air stereoscopic emergency rescue method for the grain department according to claim 1, characterized in that: the rescue command vehicle and the rescue vehicle are in wireless communication to form a ground local area network.

4. The ground-air stereoscopic emergency rescue method for the grain department according to claim 1, characterized in that: the helicopters are in wireless communication to form an air local area network, and data are shared through the air local area network.

5. The ground-air stereoscopic emergency rescue method for the grain department according to claim 1, characterized in that: the ground-air stereoscopic emergency rescue platform carries out voice communication command on rescue workers through the IP emergency dispatching desk and the interphone.

6. A rescue system of a ground-air stereoscopic emergency rescue method of a grain department as claimed in any one of claims 1 to 5, characterized in that: the system comprises a ground-air stereoscopic emergency rescue platform, an air rescue system, a ground rescue system and a subsystem management platform, wherein the ground-air stereoscopic emergency rescue platform is connected with the air rescue system, the ground rescue system and the subsystem management platform, the subsystem management platform is connected with a plurality of granary subsystems distributed in each granary, the granary subsystems are connected with a temperature sensor, an air speed sensor, a smoke concentration sensor, a loudspeaker and a video monitor in each granary, the temperature sensor, the air speed sensor, the smoke concentration sensor and the loudspeaker respectively detect temperature, air speed and smoke concentration data and upload the data to the granary subsystems, and the video monitor shoots granary video data and uploads the data to the granary subsystems.

7. The rescue system of the grain department ground-air stereoscopic emergency rescue method according to claim 6, characterized in that: the ground-air stereoscopic emergency rescue platform comprises an IP emergency dispatching desk, a meteorological processing unit, a granary distribution processing unit and a communication processing unit, wherein the IP emergency dispatching desk is connected with a plurality of interphones, the meteorological processing unit is connected with a meteorological system, and the communication processing unit is used for communicating with a subsystem management platform, a ground rescue system and an air rescue system.

8. The rescue system of the grain department ground-air stereoscopic emergency rescue method according to claim 6, characterized in that: the air rescue system comprises an air traffic control data processing unit, an environment information processing unit and a real-time information processing unit, wherein the air traffic control data processing unit processes information called from a military control database and a civil aviation control database, the environment information processing unit processes grain depot data sent from a ground-air stereoscopic emergency rescue platform, and the real-time information processing unit processes meteorological data sent by the ground-air stereoscopic emergency rescue platform.

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