CN115662165A

CN115662165A - Fire safety cockpit system and fire engine route system guiding method

Info

Publication number: CN115662165A
Application number: CN202211297602.9A
Authority: CN
Inventors: 王梁; 沈兴华; 杜明勇; 陈跃富; 陈青; 金雯俊
Original assignee: Zhejiang Dazhong Technology Co ltd
Current assignee: Zhejiang Dazhong Technology Co ltd
Priority date: 2022-10-22
Filing date: 2022-10-22
Publication date: 2023-01-31

Abstract

The invention relates to the technical field of fire safety, in particular to a fire safety cockpit system and a fire engine route system guiding method.

Description

Fire safety cockpit system and fire engine route system guiding method

Technical Field

Background

When a fire alarm occurs, the fire fighting truck needs to arrive at the site quickly, the route of the fire fighting truck arriving at the site is that the command center sends the command center to the fire fighting truck after big data is collected, a detour mode is adopted in the prior art, namely, a jammed road section is avoided, but the mode can increase the driving distance, and the rescue time is reduced.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a fire safety cockpit system for improving the efficiency of a fire engine reaching the site and a fire engine route system guiding method.

In order to achieve the purpose, the invention provides the following technical scheme:

a fire safety cockpit system, which comprises a command platform, a communication system and a sensing system,

the command platform is used for receiving feedback information of the communication system and the sensing system, making an execution command and feeding the execution command back to a fireman through the communication system,

a communication system having a route system to a destination and a message synchronization system for a rescue scene,

the route system comprises a road monitoring interconnection system, a fire fighting vehicle guide module and a private vehicle avoidance guide module;

the information synchronization system comprises a video transmission module, a voice transmission module, a vital sign transmission module and a rescue site route display module.

A sensing system having a fire-fighting robot; the fire fighting equipment comprises a tactical helmet worn by a fireman, a positioning insole, a handheld terminal and a fire fighting bracelet.

The invention is further configured to: the fire fighting truck guiding module comprises a navigation panel arranged on the fire fighting truck, a road traffic flow real-time feedback interface is arranged in the navigation panel,

the private car avoidance guiding module comprises a dialing early warning module, a navigation reminding module and an on-line interconnection module,

the dialing early warning module is used for dialing a telephone to inform a driver in a vehicle on a fire fighting vehicle passing route that the fire fighting vehicle can avoid by paying attention;

the navigation reminding module is used for jumping out the information to be passed by the fire engine on the mobile phone using the navigation interface,

and the online interconnection module is used for uploading the road condition to the command platform through videos or photos by a private car driver.

The invention is further configured to: fire engine guide module still includes unmanned aerial vehicle, has warning loudspeaker on the unmanned aerial vehicle, and unmanned aerial vehicle passes through to command platform on shooing with road vehicle license plate information.

The invention is further configured to: the monitoring interconnection system comprises a probe on the road, and the probe shoots private house license plate information of the fire truck passing through the running road and uploads the private house license plate information to the command platform.

The invention is further configured to: comprises the following steps of (a) carrying out,

s1, after receiving an alarm by a fire center, determining a route to a place of affairs by a command platform and sending the route to a navigation panel of a fire engine;

s2, the command platform dispatches the monitoring on the fire truck driving road to photograph the private vehicles on the road, and sends data to the communication platform;

the command platform is connected with the mobile phone navigation platform, and synchronizes the information that the private car needs to avoid to the navigation platform for warning the driver,

s3, the command platform sends the unmanned aerial vehicle to further guide the travelling route of the fire-fighting vehicle, the unmanned aerial vehicle gives an early warning to the private car on the travelling route of the fire-fighting vehicle, the private car is photographed while an alarm is sent out, photographing information is sent to the command platform, and the command platform sends data to the communication platform;

and S4, after the driver of the private car receives the information, the private car is guided by the unmanned aerial vehicle to avoid the route of the fire fighting truck, so that the passing road of the fire fighting truck is free of obstacles.

The invention is further configured to: the unmanned aerial vehicle has three, and one of them unmanned aerial vehicle is used for being guided in the place ahead of the fire control car, and two other unmanned aerial vehicles are used for warning the vehicle of traveling to the crossroad both sides that travel respectively, let the vehicle that travels stop, then fly to next intersection of traveling again.

The invention is further configured to: the fire-fighting robot is provided with a smoke sensor, a temperature sensor, a CCD image sensor, an air pressure sensor, a GPS positioning module and an audible and visual alarm module, and each sensor and each module adopt wireless transmission.

Compared with the defects of the prior art, the invention has the beneficial effects that:

by planning the shortest route to the site and informing the road of the running vehicles in advance, the private vehicles can adjust the positions and the routes, and when the fire fighting vehicles pass through the running road section, the private vehicles can pass through the road smoothly, so that the rescue efficiency is improved.

Drawings

FIG. 1 is a schematic view of the present invention;

FIG. 2 is a schematic flow chart of the present invention;

fig. 3 is a fire truck passage scenario.

Detailed Description

Embodiments of the present invention are further described with reference to fig. 1 to 3.

The invention comprises the following steps: a command platform, a communication system and a sensing system,

the route system comprises a road monitoring interconnection system, a fire fighting vehicle guiding module and a private vehicle avoiding guiding module.

The road monitoring interconnection system is a system networked with road traffic, and is used for fire protection and road synchronization.

The video transmission module is used for transmitting the video of the site to the command platform.

The speech transmission module is used for communication between the firemen and the command platform and communication between the firemen.

The vital sign transmission module is used for monitoring the physical condition of the firefighter, such as heart rate and respiration.

The rescue site route display module is used for commanding the platform to send a site plane graph, a trapped person route graph and an escape passage route graph.

The fire-fighting robot is provided with a smoke sensor, a temperature sensor, a CCD image sensor, an air pressure sensor, a GPS positioning module and an audible and visual alarm module, and the sensors and the modules are in wireless transmission.

The tactical helmet is provided with a camera for exchanging pictures with the command platform in real time.

The location shoe-pad can send the position of fire fighter, realizes accurate location, and it is exactly fire fighter health and shape trace in addition, convenient rescue, if the fire fighter falls down, can the very first time alarm.

The handheld terminal is used for receiving signals and instructions and detecting temperature. The fire-fighting bracelet is used for being matched with the vital sign transmission module to realize dynamic monitoring on a fireman.

The fire engine guiding module comprises a navigation panel arranged on the fire engine, a road traffic flow real-time feedback interface is arranged in the navigation panel,

the private car avoidance guiding module comprises a dialing early warning module, a navigation reminding module and an online interconnection module.

The dialing early warning module is used for calling drivers in the vehicles on the fire fighting vehicle passing route to inform that the fire fighting vehicles avoid the fire fighting vehicle passing route.

A call to the driver in the vehicle is made through 114.

The navigation reminding module is used for jumping out of information to be passed by the fire fighting truck on a mobile phone using a navigation interface, and the navigation platform is a Gaode map or a Baidu map.

The online interconnection module is used for uploading the road condition to a command platform through videos or pictures by a private car driver.

The driver uploads the pictures and videos of the scene to the command platform at the first time through the WeChat applet, and the pictures and videos are automatically analyzed by the command platform to contact the nearest traffic police to deal with the accident and ensure the passing.

Fire engine guide module still includes unmanned aerial vehicle, has warning loudspeaker on the unmanned aerial vehicle, and unmanned aerial vehicle is through shooing to reach command platform with road vehicle license plate information upload.

The monitoring interconnection system comprises a probe on the road, and the probe shoots information of a private house vehicle license plate of the fire fighting vehicle passing through the running road and uploads the information to the command platform.

The fire engine route system guiding method comprises the following steps:

s1, after receiving the alarm, the fire-fighting center determines that the route to the incident place is generated to a navigation panel of the fire truck by a command platform,

s2, the command platform dispatches the monitoring on the fire truck driving road to photograph the private vehicles on the road, and sends data to the communication platform; the communication platform is a 114 hot line.

The command platform is in butt joint with the mobile phone navigation platform, and information that the private car needs to avoid is synchronized to the navigation platform for warning a driver; the navigation platform is a Gaode map or a Baidu map.

The unmanned aerial vehicle has three, and one of them unmanned aerial vehicle is used for being guided in the place ahead of the fire control car, and two other unmanned aerial vehicles are used for warning the vehicle of traveling to the crossroad both sides that travel respectively, let the vehicle that travels stop, then fly to next intersection of traveling again.

When the unmanned aerial vehicle serving as a guide reaches a rescue place, the unmanned aerial vehicle can perform picture synchronization firstly, and can warn the scene to further evacuate people or occupy vehicles in a fire fighting channel.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and those skilled in the art should be able to make general changes and substitutions within the technical scope of the present invention.

Claims

1. A fire safety cockpit system which characterized in that: comprises a command platform, a communication system and a sensing system,

the information synchronization system comprises a video transmission module, a voice transmission module, a vital sign transmission module and a rescue site route display module,

2. A fire safety cockpit system of claim 1 where: the fire engine guiding module comprises a navigation panel arranged on the fire engine, a road traffic flow real-time feedback interface is arranged in the navigation panel,

3. A fire safety cockpit system of claim 2 wherein: fire engine guide module still includes unmanned aerial vehicle, has warning loudspeaker on the unmanned aerial vehicle, and unmanned aerial vehicle passes through to command platform on shooing with road vehicle license plate information.

4. A fire safety cockpit system of claim 1 where: the monitoring interconnection system comprises a probe on the road, and the probe shoots private house license plate information of the fire truck passing through the running road and uploads the private house license plate information to the command platform.

5. A fire engine route system guiding method is characterized in that: comprises the following steps of (a) carrying out,

s1, after receiving the alarm, the fire-fighting center determines a route to a place of affairs and sends the route to a navigation panel of a fire truck,

s2, the command platform dispatches the monitoring on the fire truck driving road to photograph private vehicles on the road, and data are sent to the communication platform;

6. The fire engine route system guidance method of claim 5, wherein: the unmanned aerial vehicle has three, and one of them unmanned aerial vehicle is used for being guided in the place ahead of the fire control car, and two other unmanned aerial vehicles are used for warning the vehicle of traveling to the crossroad both sides that travel respectively, let the vehicle that travels stop, then fly to next intersection of traveling again.

7. A fire safety cockpit system of claim 1 where: the fire-fighting robot is provided with a smoke sensor, a temperature sensor, a CCD image sensor, an air pressure sensor, a GPS positioning module and an audible and visual alarm module, and each sensor and each module adopt wireless transmission.