CN214253388U - Be used for complicated scene visual rescue equipment - Google Patents

Abstract

The utility model relates to the technical field of fire rescue, in particular to a visual rescue device for complex site, which can collect indoor fixed asset information, personnel information, door and window opening and closing states or emergency channel states and fire signals in case of dangerous situations in real time, and then send the collected data to a cloud end through a 4G transmission module under the control of a single chip microcomputer, and the cloud end can monitor the indoor running state in real time after processing and analyzing the data, and construct a three-dimensional and full-coverage fire prevention and control rescue system; the intelligent smoke detector comprises a single chip microcomputer, a radio frequency identification module, a dual-mode Bluetooth module, an ultrasonic radar module, a smoke sensor, a temperature sensing module, a power management module and a cloud processing server.

Description

Be used for complicated scene visual rescue equipment

Technical Field

The utility model relates to a fire rescue's technical field especially relates to a be used for complicated scene visual rescue equipment.

Background

In order to accelerate the deep fusion of modern science and technology and fire-fighting work, the informatization and intelligentization level of the fire-fighting work is comprehensively improved, and the transformation and upgrading of fire prevention and control and fire-fighting emergency rescue work under the informatization condition are realized. The smoke sensor is one of important front-end devices for sensing the fire disaster through intelligent fire fighting, can acquire the scene situation of the fire disaster in real time, master the dynamic and development situation of the fire disaster, and provide three-dimensional support for commanding, rescuing, analyzing, researching and judging the battle object.

At present, on the basis of monitoring the operation state, faults and alarm signals of the traditional automatic fire alarm system, a sensing device which can master the conditions of a security exit and an evacuation channel in real time and three-dimensionally present the fire safety state of the surrounding environment is needed to comprehensively improve the fire safety management level and the fire rescue law enforcement efficiency of social units

SUMMERY OF THE UTILITY MODEL

For solving the technical problem, the utility model provides a can realize disaster information real-time, the accurate of operation object, the visual scene visual rescue equipment that is used for of operation commander.

The utility model discloses a be used for complicated scene visual rescue equipment, include:

the radio frequency identification module is used for identifying the fixed assets which are stuck with labels indoors, reading the information of the fixed assets and sending the information;

the dual-mode Bluetooth module is used for acquiring Bluetooth signals in the surrounding environment and sending the acquired Bluetooth signals;

the ultrasonic radar module is used for acquiring the opening and closing states of the doors and the windows, checking whether the emergency channel is smooth or not, generating the state information of the doors and the windows and the emergency channel according to the ultrasonic signals fed back by the doors and the emergency channel, and sending the state information;

the smoke sensor is used for collecting indoor smoke concentration, judging whether a fire disaster occurs or not, generating a fire disaster signal according to a judgment result and sending the fire disaster signal;

the temperature sensing module is used for sensing the temperature of the ambient environment after the fire disaster occurs, generating a thermodynamic diagram according to the ambient environment temperature and sending the thermodynamic diagram;

the single chip microcomputer is used for receiving fixed asset information sent by the radio frequency identification module, Bluetooth signals sent by the dual-mode Bluetooth module, door and window and emergency channel state information sent by the ultrasonic radar module, fire signals sent by the smoke sensor and thermodynamic diagrams sent by the temperature sensing module;

the single chip microcomputer is provided with a 4G transmission module and respectively sends the received fixed asset information, Bluetooth signals, door and window and emergency channel state information, fire signals and thermodynamic diagrams to the cloud processing server through the 4G transmission module;

and the cloud processing server is used for receiving the fixed asset information, the Bluetooth signals, the door and window and emergency channel state information, the fire signals and the thermodynamic diagram which are sent by the single chip microcomputer through the 4G transmission module, performing data visualization processing on the conditions in the house according to the received information, and displaying the indoor state to the rescue terminal in real time.

Further, the bluetooth signal includes a classic bluetooth signal and a BLE bluetooth signal.

Further, when the single chip microcomputer receives the state information of the door and window and the emergency channel and the fire signal at the same time, the state information of the door and window and the emergency channel and the fire signal are preferentially sent to the cloud end through the 4G transmission module.

Further, still include: the power management module is used for providing power for the single chip microcomputer, supporting a seamless switching mode of 220V and a lithium battery to supply power to the system, and enabling the system to normally work and charge the lithium battery when 220V alternating current exists; after the power failure, the lithium battery is seamlessly switched into the power supply system, and the lithium battery at least maintains the system to work for more than 10 hours.

Further, the radio frequency identification module is an RFID radio frequency identification module.

Further, the dual-mode bluetooth module is an ET11 dual-mode bluetooth module.

Further, the ultrasonic radar module is an SR04 radar module.

Further, the smoke sensor is a four-signal smoke alarm.

Compared with the prior art, the beneficial effects of the utility model are that: the system comprises a radio frequency identification module, a dual-mode Bluetooth module, an ultrasonic radar module, a smoke sensor and a temperature sensing module, wherein the radio frequency identification module, the dual-mode Bluetooth module, the ultrasonic radar module, the smoke sensor and the temperature sensing module are used for respectively acquiring indoor fixed asset signals, Bluetooth signals, ultrasonic signals and fire signals in real time, can provide informatization support for fire risk research and judgment, fire-fighting rescue command and leader command decision, build an urban fire-fighting remote monitoring system, perfect system alarm linkage, and can identify and feed back the current safe exit and evacuation channel states in real time in a fire environment to provide a more optimized path for rescue; the disaster condition information real-time, the operation object precision and the operation command visualization can be realized.

Drawings

Fig. 1 is a logic flow diagram of the present invention.

Detailed Description

The following detailed description of the embodiments of the present invention is provided with reference to the accompanying drawings and examples. The following examples are intended to illustrate the invention, but are not intended to limit the scope of the invention.

A visual rescue device for a complex site comprises a radio frequency identification module, a singlechip and a signal processing module, wherein the radio frequency identification module is used for collecting indoor fixed asset signals and transmitting the asset signals to the singlechip; the dual-mode Bluetooth module is used for collecting various Bluetooth signals around the module and transmitting the collected Bluetooth signals to the single chip microcomputer; the single chip microcomputer analyzes and rearranges the received fixed asset information and the Bluetooth signals, and uploads the data to a cloud processing server for storage; after the cloud processing server processes and analyzes the data, the conditions of indoor personnel and assets can be monitored in real time; the ultrasonic radar module is used for acquiring the opening and closing states of doors and windows or whether an emergency channel is unblocked in a dangerous case and transmitting the collected ultrasonic signals to the single chip microcomputer; the smoke sensor is used for collecting whether a fire disaster occurs indoors or not and transmitting a collected fire disaster signal to the single chip microcomputer; the single chip microcomputer analyzes and judges the received smoke data and the ultrasonic radar data, and if the two alarm signals are triggered, the two types of data are uploaded preferentially; after the cloud processing server processes and analyzes the data, the specific position of the current fire can be obtained in real time and a rescue path can be formulated; after the machine is started, the single chip sends a scanning starting instruction to the radio frequency identification module, the radio frequency identification module starts to enter a scanning mode, and the single chip stores and processes data scanned by the radio frequency identification module; the control method of the single chip microcomputer to the dual-mode Bluetooth module comprises the following steps: meanwhile, the single chip sends a scanning starting instruction to the dual-mode Bluetooth module, the dual-mode Bluetooth module starts to enter a scanning mode, and the single chip stores and processes data scanned by the dual-mode Bluetooth module; the single chip microcomputer detects the level of the ultrasonic radar module, and when the ultrasonic radar module detects that the channel is closed, the single chip microcomputer immediately sends a channel closing alarm signal; the single chip microcomputer detects a signal of the smoke sensor, and when the smoke sensor sends out a fire alarm signal, the single chip microcomputer immediately sends out a fire alarm signal; through the arrangement, indoor fixed asset signals, Bluetooth signals, ultrasonic signals and fire signals are respectively collected in real time through the radio frequency identification module, the dual-mode Bluetooth module, the ultrasonic radar module, the smoke sensor and the temperature sensing module, so that informationized support can be provided for fire risk research and judgment, fire-fighting rescue command and leader command decision, an urban fire-fighting remote monitoring system is built, system alarm linkage is perfected, the current safe exit and evacuation channel states can be identified and fed back in real time in a fire environment, and a more optimized path is provided for rescue; the disaster condition information real-time, the operation object precision and the operation command visualization can be realized.

As a preferred technical solution, the bluetooth signal includes a classic bluetooth signal and a BLE bluetooth signal.

As an optimal technical scheme, when the single chip microcomputer receives the state information of the door and window and the emergency channel and the fire signal at the same time, the state information of the door and window and the emergency channel and the fire signal are preferentially sent to the cloud end through the 4G transmission module.

As a preferred technical scheme, the system further comprises a power management module, wherein the power management module is used for providing power for the single chip microcomputer and supporting a seamless switching mode of 220V and a lithium battery to supply power to the system, and the system can normally work and charge the lithium battery when 220V alternating current exists; after the power failure, the lithium battery is seamlessly switched into the power supply system, and the lithium battery at least maintains the system to work for more than 10 hours.

As a preferred technical solution, the radio frequency identification module is an RFID radio frequency identification module.

As a preferred technical solution, the dual-mode bluetooth module is an ET11 dual-mode bluetooth module.

As a preferable technical solution, the ultrasonic radar module is an SR04 radar module.

As a preferred technical scheme, the smoke sensor is a four-letter smoke alarm.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications and variations can be made without departing from the technical principle of the present invention, and these modifications and variations should also be regarded as the protection scope of the present invention.

Claims (8)

1. Rescue apparatus for complex site visualization, characterized in that it comprises:

the radio frequency identification module is used for identifying the fixed assets which are stuck with labels indoors, reading the information of the fixed assets and sending the information;

the dual-mode Bluetooth module is used for acquiring Bluetooth signals in the surrounding environment and sending the acquired Bluetooth signals;

the ultrasonic radar module is used for acquiring the opening and closing states of the doors and the windows, checking whether the emergency channel is smooth or not, generating the state information of the doors and the windows and the emergency channel according to the ultrasonic signals fed back by the doors and the emergency channel, and sending the state information;

the smoke sensor is used for collecting indoor smoke concentration, judging whether a fire disaster occurs or not, generating a fire disaster signal according to a judgment result and sending the fire disaster signal;

the temperature sensing module is used for sensing the temperature of the ambient environment after the fire disaster occurs, generating a thermodynamic diagram according to the ambient environment temperature and sending the thermodynamic diagram;

the single chip microcomputer is used for receiving fixed asset information sent by the radio frequency identification module, Bluetooth signals sent by the dual-mode Bluetooth module, door and window and emergency channel state information sent by the ultrasonic radar module, fire signals sent by the smoke sensor and thermodynamic diagrams sent by the temperature sensing module;

the single chip microcomputer is provided with a 4G transmission module and respectively sends the received fixed asset information, Bluetooth signals, door and window and emergency channel state information, fire signals and thermodynamic diagrams to the cloud processing server through the 4G transmission module;

and the cloud processing server is used for receiving the fixed asset information, the Bluetooth signals, the door and window and emergency channel state information, the fire signals and the thermodynamic diagram which are sent by the single chip microcomputer through the 4G transmission module, performing data visualization processing on the conditions in the house according to the received information, and displaying the indoor state to the rescue terminal in real time.

2. The rescue apparatus for complex field visualization of claim 1, wherein the Bluetooth signal comprises a classic Bluetooth signal and a BLE Bluetooth signal.

3. The visual rescue apparatus for the complex site as claimed in claim 1, wherein when the single chip microcomputer receives the state information of the door and window and the emergency channel and the fire signal at the same time, the state information of the door and window and the emergency channel and the fire signal are preferentially sent to the cloud through the 4G transmission module.

4. A rescue apparatus for visualization of a complex scene as claimed in claim 1, further comprising:

the power management module is used for providing power for the single chip microcomputer, supporting a seamless switching mode of 220V and a lithium battery to supply power to the system, and enabling the system to normally work and charge the lithium battery when 220V alternating current exists; after the power failure, the lithium battery is seamlessly switched into the power supply system, and the lithium battery at least maintains the system to work for more than 10 hours.

5. The rescue apparatus for complex site visualization of claim 1, wherein the radio frequency identification module is an RFID radio frequency identification module.

6. The rescue apparatus for complex site visualization of claim 1, wherein the dual-mode bluetooth module is an ET11 dual-mode bluetooth module.

7. Rescue apparatus for complex site visualization as claimed in claim 1, characterized in that the ultrasonic radar module is an SR04 radar module.

8. Rescue apparatus for visualization of a complex scene as claimed in claim 1, characterized in that the smoke sensor is a four-letter smoke alarm.

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