CN111111078B - Fire-fighting training system and method - Google Patents

Abstract

The invention provides a fire-fighting training system and a fire-fighting training method, wherein the fire-fighting training system comprises a training site system, a training personnel system, a trainer system, a main management unit system and a cloud server, the training site system comprises a training path, and start and stop buttons are respectively arranged at the start point and the end point of the training path; a plurality of human body proximity sensors are arranged along the training path, and one side of each human body proximity sensor is provided with a field camera and a broadcast loudspeaker; the training personnel system comprises training wearable equipment, wherein the training wearable equipment comprises a carry-on camera, a heart rate sensor, an acceleration sensor, a gyroscope, a temperature sensor and a timer; the trainer system comprises a trainer-side mobile terminal with a built-in voice function; the main management unit system comprises a webpage platform; the cloud server comprises a database and a communication component; the method is convenient for training personnel, coaches and supervisor units to inquire, call and analyze, thereby improving the efficiency of fire training management and training results.

Description

Fire-fighting training system and method

Technical Field

The invention belongs to the technical field of fire training, and particularly relates to a fire training system and method.

Background

The training level of firefighters is related to public safety and national safety. When the current firefighters train, the time and the score of the firefighting training process are recorded by adopting a manual account recording mode. The method, the device and the system for acquiring, storing and calling the effective fire training data are particularly important to improving the management level of the fire training. Part of the fire training process is recorded by camera monitoring. But conventional video monitoring only passively records the monitoring pictures. The training data can not be queried, called and analyzed anytime and anywhere. Such as to query training videos and performance data of a person at a month of a year. It takes a lot of time for the human to play back the video manually. Lacks a method, a device and a system which can systematically record, store and call the whole fire-fighting training process for personnel, training subjects, time, places and other factors.

Disclosure of Invention

The invention aims to provide a fire training system and a method, which are used for solving the problem that the conventional fire training method is difficult to inquire, call and analyze training personnel and training data thereof by passively recording training videos.

The invention provides the following technical scheme:

the fire-fighting training system comprises a training site system, a training personnel system, a coach system, a supervisor unit system and a cloud server, wherein the training site system comprises a training path, and start and stop buttons are respectively arranged at the start point and the end point of the training path; a plurality of human body proximity sensors are arranged along the training path, one side of each human body proximity sensor is provided with a field camera and a broadcast loudspeaker, and the human body proximity sensors are used for judging that a trainer approaches the current position and starting the field camera, the broadcast loudspeaker at the current position and the field camera and the broadcast loudspeaker at the next position; the field camera is used for recording field video data of the training field in real time, and the broadcast loudspeaker is used for broadcasting broadcast to training personnel; the training personnel system comprises training wearing equipment, wherein the training wearing equipment comprises a portable camera, a heart rate sensor, an acceleration sensor, a gyroscope, a temperature sensor and a timer, and the training wearing equipment is used for recording personal audio-video data, heart rate data, displacement data, direction data, body temperature data and time data of a training personnel in real time respectively; the training system comprises a training side mobile terminal with a built-in voice function, wherein the training side mobile terminal is used for acquiring data from the training field system and the training personnel system for calling and displaying, and realizing voice interaction between training personnel and a training person; the supervisor unit system comprises a webpage platform, wherein the webpage platform is used for acquiring data from the training field system, the training personnel system and the trainer system and checking the data; the cloud server comprises a database and a communication component, wherein the communication component is used for carrying out data interaction with the training site system, the training personnel system, the trainer system and the trainer system, and storing or calling the data in the database.

Further, the training field system further comprises an environment monitoring component, wherein the environment monitoring component comprises a temperature and humidity sensor, an illuminance sensor, an ultraviolet sensor, a snow sensor, a rainfall sensor and an atmospheric pressure sensor and is used for measuring temperature and humidity data, illuminance data, ultraviolet data, snow data, rainfall data and atmospheric pressure data of the training field.

Further, the training personnel system further comprises a training end mobile terminal, wherein the training end mobile terminal is used for acquiring data from the training field system, the training personnel system and the trainer system and checking the data; the training end mobile terminal and the training end mobile terminal are mobile phones, tablet computers or notebook computers.

Further, the trainer system further comprises a field large screen display system, wherein the field large screen display system is used for acquiring data from the training field system and the training personnel system to be called and displayed.

Further, the communication component includes a SOCKET module, a TCP/IP module, a LORA module, a zigbee module, or an NB-IoT module.

Furthermore, the cloud server further comprises a training personnel management module, wherein the training personnel management module is an informatization management module for training personnel, and aims at big data acquisition and time sequence record of physical conditions of the training personnel so as to control and reference the training intensity of the system.

Furthermore, the cloud server further comprises a data management system, wherein the data management system is a system for managing a training personnel management module and a database, the data management system is used for realizing background summarization, data addition, deletion, modification and check of the two modules and corresponding big data collection and calculation functions, and meanwhile, tasks, personnel and scene real-time data in training occasions are summarized according to training requirements and communicated with the training personnel system.

A fire training method comprising the steps of:

s1, a fire department imports a training program into a database of a cloud server for training personnel, coaches and supervisor units to check; s2, a trainer checks a training plan through a training terminal mobile terminal and selects and informs corresponding training personnel to perform fire-fighting training tasks; s3, a training person wears the training wearing equipment and enters the training path of the training site, and the training person is located at the starting point of the training path; s4, detecting a training person by a first human body proximity sensor on the training path, and starting a first site camera and a broadcast loudspeaker; s5, a trainer observes the field video data through the mobile terminal at the training end to send out a start instruction, and a trainer hears the start instruction from the first broadcast loudspeaker, touches a start-stop button of the starting point and starts training; s6, training personnel continuously trigger human body proximity sensors at corresponding positions on a training path, activate field cameras and broadcast speakers at the corresponding positions, upload field video data at different positions to a cloud server in real time, synchronize the field video data to a training end mobile terminal of a trainer, and receive training instructions of the trainer; the site video data and the instruction data are backed up and uploaded to a database in real time; s7, training wearable equipment worn by a training person collects personal audio and video data, heart rate data, displacement data, direction data, body temperature data and time data of the training person in real time, and backups the personal audio and video data, the heart rate data, the displacement data, the direction data, the body temperature data and the time data in real time and uploads the personal audio and video data, the heart rate data, the displacement data, the direction data, the body temperature data and the time data to a database; s8, the environment monitoring component collects temperature and humidity data, illuminance data, ultraviolet data, snow data, rainfall data and atmospheric pressure data of the training field in real time, and backups and uploads the data to the database in real time; s9, a trainer calls training data in a display database from a cloud server in real time through a training terminal; the instruction of pause, termination, ending or retraining is sent out through the mobile terminal at the training end; the instruction of pause, termination, ending or retraining is sent out through the mobile terminal at the training end; s10, after a training person reaches a training path end point, touching a start-stop button of the end point, and collecting and storing all training data of the training person in a database by a data management system in a cloud server; s11, a trainer evaluates training personnel through a training side mobile terminal aiming at the training and keeps the training personnel in a database; s12, the training personnel check all training data of all training personnel through the training terminal mobile terminal; s13, the supervisor unit checks all training data of all training staff through the webpage platform.

The beneficial effects of the invention are as follows:

the invention relates to a fire training system and a fire training method, which comprise five aspects of a cloud server, a training field system, a training personnel system, a trainer system and a main management unit system, wherein the training process is commanded, recorded and checked in an omnibearing manner; training personnel information, training site information and coach information are summarized, and the training personnel, coach and supervisor unit three parties are convenient to inquire, call and analyze, so that the efficiency of fire training management and training results are improved.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention. In the drawings:

FIG. 1 is a schematic diagram of the structure of the present invention;

fig. 2 is a flow chart of the method of the present invention.

Detailed Description

As shown in fig. 1, a fire training system comprises a training site system, a training personnel system, a trainer system, a supervisor unit system and a cloud server,

the training site system comprises a training path, and start and stop buttons are respectively arranged at the start point and the end point of the training path; a plurality of human body proximity sensors are arranged along the training path, one side of each human body proximity sensor is provided with a field camera and a broadcast loudspeaker, and each human body proximity sensor is used for judging that a trainer approaches the current position and starting the field camera, the broadcast loudspeaker at the current position and the field camera and the broadcast loudspeaker at the next position; the field camera is used for recording field video data of the training field in real time, and the broadcast loudspeaker is used for broadcasting broadcast to training personnel; the training field system further comprises an environment monitoring component, wherein the environment monitoring component comprises a temperature and humidity sensor, an illuminance sensor, an ultraviolet sensor, a snow amount sensor, a rainfall sensor and an atmospheric pressure sensor and is used for measuring temperature and humidity data, illuminance data, ultraviolet data, snow amount data, rainfall data and atmospheric pressure data of the training field.

The training personnel system comprises training wearing equipment, wherein the training wearing equipment comprises a portable camera, a heart rate sensor, an acceleration sensor, a gyroscope, a temperature sensor and a timer, and the training wearing equipment is used for recording personal audio-video data, heart rate data, displacement data, direction data, body temperature data and time data of a training personnel in real time respectively; the training personnel system further comprises a training end mobile terminal, wherein the training end mobile terminal is used for acquiring data from the training site system, the training personnel system and the trainer system and checking the data; the training end mobile terminal and the training end mobile terminal are mobile phones, tablet computers or notebook computers.

The training system comprises a training side mobile terminal with a built-in voice function, wherein the training side mobile terminal is used for acquiring data from the training field system and the training personnel system for calling and displaying, and realizing voice interaction between training personnel and a training person; the trainer system also comprises a field large screen display system, wherein the field large screen display system is used for acquiring data from the training field system and the training personnel system for calling and displaying.

The main management unit system comprises a webpage platform, wherein the webpage platform is used for acquiring data from a training field system, a training personnel system and a trainer system and checking the data;

the cloud server comprises a database and a communication component, wherein the communication component is used for carrying out data interaction with a training field system, a training personnel system, a trainer system and storing or calling the data in the database; the communication component comprises a SOCKET module, a TCP/IP module, a LORA module, a zigbee module or an NB-IoT module, the cloud server further comprises a training personnel management module, the training personnel management module is an informatization management module for training personnel, and big data acquisition and time sequence record of physical conditions of the training personnel are aimed at for the system to control and reference training intensity; the cloud server further comprises a data management system, wherein the data management system is a system for managing a training personnel management module and a database, the data management system is used for realizing background summarization, data addition, deletion and improvement, and corresponding big data collection and calculation functions of the two modules, and meanwhile, tasks, personnel and scene real-time data in training occasions are summarized according to training requirements and communicated with a training personnel system.

A fire training method comprising the steps of:

s1, a fire department imports a training program into a database of a cloud server for training personnel, coaches and supervisor units to check;

s2, a trainer checks a training plan through a training terminal mobile terminal and selects and informs corresponding training personnel to perform fire-fighting training tasks;

s3, a training person wears the training wearing equipment and enters the training path of the training site, and the training person is located at the starting point of the training path;

s4, detecting a training person by a first human body proximity sensor on the training path, and starting a first site camera and a broadcast loudspeaker;

s5, a trainer observes the field video data through the mobile terminal at the training end to send out a start instruction, and a trainer hears the start instruction from the first broadcast loudspeaker, touches a start-stop button of the starting point and starts training;

s6, training personnel continuously trigger human body proximity sensors at corresponding positions on a training path, activate field cameras and broadcast speakers at the corresponding positions, upload field video data at different positions to a cloud server in real time, synchronize the field video data to a training end mobile terminal of a trainer, and receive training instructions of the trainer; the site video data and the instruction data are backed up and uploaded to a database in real time;

s7, training wearable equipment worn by a training person collects personal audio and video data, heart rate data, displacement data, direction data, body temperature data and time data of the training person in real time, and backups the personal audio and video data, the heart rate data, the displacement data, the direction data, the body temperature data and the time data in real time and uploads the personal audio and video data, the heart rate data, the displacement data, the direction data, the body temperature data and the time data to a database;

s8, the environment monitoring component collects temperature and humidity data, illuminance data, ultraviolet data, snow data, rainfall data and atmospheric pressure data of the training field in real time, and backups and uploads the data to the database in real time;

s9, a trainer calls training data in a display database from a cloud server in real time through a training terminal; the instruction of pause, termination, ending or retraining is sent out through the mobile terminal at the training end;

s10, after a training person reaches a training path end point, touching a start-stop button of the end point, and collecting and storing all training data of the training person in a database by a data management system in a cloud server;

s11, a trainer evaluates training personnel through a training side mobile terminal aiming at the training and keeps the training personnel in a database;

s12, the training personnel check all training data of all training personnel through the training terminal mobile terminal;

s13, the supervisor unit checks all training data of all training staff through the webpage platform.

The foregoing description is only a preferred embodiment of the present invention, and the present invention is not limited thereto, but it is to be understood that modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art, although the present invention has been described in detail with reference to the foregoing embodiments. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (6)

1. A fire training method, comprising the steps of:

s1, a fire department imports a training program into a database of a cloud server for training personnel, coaches and supervisor units to check;

s2, a trainer checks a training plan through a training terminal mobile terminal and selects and informs corresponding training personnel to perform fire-fighting training tasks;

s3, a training person wears the training wearing equipment and enters the training path of the training site, and the training person is located at the starting point of the training path;

s4, detecting a training person by a first human body proximity sensor on the training path, and starting a first site camera and a broadcast loudspeaker;

s5, a trainer observes the field video data through the mobile terminal at the training end to send out a start instruction, and a trainer hears the start instruction from the first broadcast loudspeaker, touches a start-stop button of the starting point and starts training;

s6, training personnel continuously trigger human body proximity sensors at corresponding positions on a training path, activate field cameras and broadcast speakers at the corresponding positions, upload field video data at different positions to a cloud server in real time, synchronize the field video data to a training end mobile terminal of a trainer, and receive training instructions of the trainer; the site video data and the instruction data are backed up and uploaded to a database in real time;

s7, training wearable equipment worn by a training person collects personal audio and video data, heart rate data, displacement data, direction data, body temperature data and time data of the training person in real time, and backups the personal audio and video data, the heart rate data, the displacement data, the direction data, the body temperature data and the time data in real time and uploads the personal audio and video data, the heart rate data, the displacement data, the direction data, the body temperature data and the time data to a database;

s8, the environment monitoring component collects temperature and humidity data, illuminance data, ultraviolet data, snow data, rainfall data and atmospheric pressure data of the training field in real time, and backups and uploads the data to the database in real time;

s9, a trainer calls training data in the display database from the cloud server in real time through the training side mobile terminal, and sends out a pause, termination, ending or retraining instruction through the training side mobile terminal;

s10, after a training person reaches a training path end point, touching a start-stop button of the end point, and collecting and storing all training data of the training person in a database by a data management system in a cloud server;

s11, a trainer evaluates training personnel through a training side mobile terminal aiming at the training and keeps the training personnel in a database;

s12, the training personnel check all training data of all training personnel through the training terminal mobile terminal;

s13, checking all training data of all training staff by a supervisor unit through a webpage platform;

wherein the fire training method is realized by a fire training system, the fire training system comprises a training site system, a training personnel system, a trainer system, a supervisor unit system and a cloud server,

the training site system comprises a training path, and start and stop buttons are respectively arranged at the start point and the end point of the training path; a plurality of human body proximity sensors are arranged along the training path, one side of each human body proximity sensor is provided with a field camera and a broadcast loudspeaker, and the human body proximity sensors are used for judging that a trainer approaches the current position and starting the field camera, the broadcast loudspeaker at the current position and the field camera and the broadcast loudspeaker at the next position; the field camera is used for recording field video data of the training field in real time, and the broadcast loudspeaker is used for broadcasting broadcast to training personnel;

the training personnel system comprises training wearing equipment, wherein the training wearing equipment comprises a portable camera, a heart rate sensor, an acceleration sensor, a gyroscope, a temperature sensor and a timer, and the training wearing equipment is used for recording personal audio-video data, heart rate data, displacement data, direction data, body temperature data and time data of a training personnel in real time respectively;

the training system comprises a training side mobile terminal with a built-in voice function, wherein the training side mobile terminal is used for acquiring data from the training field system and the training personnel system for calling and displaying, and realizing voice interaction between training personnel and a training person;

the supervisor unit system comprises a webpage platform, wherein the webpage platform is used for acquiring data from the training field system, the training personnel system and the trainer system and checking the data;

the cloud server comprises a database and a communication component, wherein the communication component is used for carrying out data interaction with the training site system, the training personnel system, the coach system and the main pipe unit system and storing or calling the data in the database;

the training personnel system further comprises a training end mobile terminal, wherein the training end mobile terminal is used for acquiring data from the training site system, the training personnel system and the trainer system and checking the data; the training end mobile terminal and the training end mobile terminal are mobile phones, tablet computers or notebook computers.

2. The fire training method of claim 1, wherein the training field system further comprises an environmental monitoring component comprising a temperature and humidity sensor, an illuminance sensor, an ultraviolet sensor, a snow amount sensor, a rain amount sensor, and an atmospheric pressure sensor for measuring temperature and humidity data, illuminance data, ultraviolet data, snow amount data, rain amount data, and atmospheric pressure data of the training field.

3. The fire training method of claim 1, wherein the trainer system further comprises a field large screen display system for retrieving data from the training field system and the trainee system for recall display.

4. The fire training method of claim 1, wherein the communication component comprises a socks module, a TCP/IP module, a LORA module, a zigbee module, or an NB-IoT module.

5. The fire training method according to claim 1, wherein the cloud server further comprises a training personnel management module, the training personnel management module is an informationized management module for training personnel, and the training personnel is used for acquiring big data and time sequence records of physical conditions for controlling and referencing training intensity of the system.

6. The fire training method according to claim 5, wherein the cloud server further comprises a data management system, the data management system is a system for managing a training personnel management module and a database, and the data management system is used for performing background summarization, data addition, deletion and correction, and corresponding big data collection calculation functions on the training personnel management module and the database, and simultaneously summarizing real-time data of tasks, personnel and scenes in a training session according to training requirements, and communicating with the coach system.