CN211207390U - Visual building fire safety management and fire fighting command system - Google Patents

Abstract

The utility model belongs to the field of fire-fighting command systems and discloses a visual building fire-fighting safety management and fire-fighting command system, which comprises a building fire-fighting facility positioning module, wherein a fireman positioning module is arranged on a mobile terminal, the building fire-fighting facility positioning module is arranged on a fire-fighting facility in a building, a handheld patrol terminal is connected with an information synthesis processing module through wireless communication, and the fireman positioning module is connected with the information synthesis processing module through wireless communication; the fire condition acquisition and identification module is arranged on the body of a fireman; information synthesis processing module is used for combining together building fire control facility position and operation information, on-the-spot condition of a fire and fire fighter position and the three-dimensional perspective model of building, gives on-the-spot command module and distal end command module with information transmission simultaneously the utility model aims at providing a visual building fire control safety control and fire control operation command system, fire control facility in can intelligent, visual, simple and easy management building.

Description

Visual building fire safety management and fire fighting command system

Technical Field

The utility model belongs to fire control command system field specifically is a visual building fire control safety control and fire control operation command system.

Background

With the rapid development of economy in China, large commercial complex buildings, super high-rise buildings and large-space large-span buildings are more and more, new challenges are continuously provided for fire rescue and fire fighting, three-dimensional panorama and a command system cannot be related by the traditional informatization means, a real field scene cannot be provided for fire fighters in the fire extinguishing implementation stage, and therefore the effectiveness of a rescue scheme is limited. How to transmit information of the front line to a fire extinguishing operation commander intuitively and quickly, how to accurately and quickly reach the fire extinguishing operation command underground to a fireman in field operation, and how to feed back the actual implementation of the operation command and the change of the fire field condition to the commander in time so as to realize dynamic, visual and flat command is a new subject faced by people.

The prior art 1 relates to a fire-fighting rescue positioning command system (patent number: Z L201220288086.9) for firemen, which comprises a communication base station, an operation display module, individual terminals, beacons and beacon readers/writers for reading/writing the beacons, wherein the communication base station is in communication connection with the individual terminals, and the problem that blind areas occur in large and complex buildings (such as basements) and communication interruption command is not smooth when fire fighting is carried out can be solved by using the technology.

However, the command system, the operation system or the assistant decision system related to the prior art cannot realize the association between the three-dimensional panorama and the command system, and cannot intuitively display the structure of the on-site building, particularly the situation of a complex building and the on-site fire. Therefore, it is necessary to establish an intelligent, visual, simple and easy building management and fire fighting command system to satisfy the new social requirements for intelligent fire fighting.

SUMMERY OF THE UTILITY MODEL

The utility model aims at above problem, provide a visual building fire control safety control and fire control operation command system, fire control facility in can intelligent, visual, simple accurate management building with carry out simple fire control operation commander.

In order to realize the above purpose, the utility model adopts the technical scheme that: a visual building fire safety management and fire fighting command system comprises a building fire fighting facility positioning module, a handheld inspection terminal, a data storage center, a building three-dimensional perspective modeling module, an information synthesis processing module and a mobile terminal, wherein the mobile terminal is provided with a fireman positioning module, a fire collection and identification module and a signal receiver, the building fire fighting facility positioning module is arranged on a fire fighting facility in a building, and the handheld inspection terminal is connected with the information synthesis processing module through wireless communication and is used for inspecting the daily conditions of the building fire fighting facility, uploading the daily conditions to the information synthesis processing module, synthesizing the daily conditions in the building three-dimensional perspective model through the information synthesis processing module, uploading the daily conditions to the data storage center for storage; the firefighter positioning module is connected with the information synthesis processing module through wireless communication and is used for feeding back the position information of the firefighters; the fire condition acquisition and identification module is arranged on the body of a fireman and used for feeding back the on-site fire condition to the information synthesis processing module; the information synthesis processing module is used for combining the position and the operation information of the building fire-fighting facility, the site fire and the position of a fireman with a three-dimensional perspective model of the building generated by the three-dimensional perspective modeling module of the building through the data storage center, finally feeding back signals to a signal receiver on the mobile terminal, and simultaneously transmitting the information to the site commanding module and the remote commanding module, wherein the site commanding module and the remote commanding module are connected with the signal receiver on the mobile terminal through wireless communication.

Furthermore, the building three-dimensional perspective modeling module is used for virtually establishing a building basic structure, and emphasizes building basic characteristics of staircase positions, walkway widths and building sizes.

Furthermore, be provided with electron two-dimensional code label on the building fire control facility orientation module, be provided with two-dimensional code scanning device on the handheld inspection terminal.

Furthermore, the building fire-fighting equipment positioning module is connected with the information synthesis processing module through wireless communication, and the information synthesis processing module combines the position of the building fire-fighting equipment with the three-dimensional perspective model of the building and uploads the combined position to the data storage center.

Further, fire collection and identification module is including being fixed in miniature camera machine and the fire recognition module on the fire fighter's fire helmet, fire recognition module is infrared image intelligent recognition device, and through the map distribution of analysis image, the severity of fire is seen out to intelligent video identification.

Furthermore, the building three-dimensional perspective modeling module is connected with the information synthesis processing module through a data storage center, and the data storage center is used for storing building three-dimensional model information.

The utility model has the advantages that: the utility model provides a visual building fire control safety control and fire control operation command system, can be intelligent, visual, simple accurate management fire control facility in the building with carry out simple fire control operation commander.

1. The utility model can intuitively and visually master the position and the operation condition of the fire-fighting facilities of the building; the system can monitor and guide the performance of building fire-fighting operators in real time; the states of evacuation channels and safe exits in the building can be clearly reflected, and the positions and vital signs of firemen can be accurately reflected; the fire behavior change in the building can be mastered in time, the synthetic result can be displayed on terminals such as a mobile phone, a tablet and a computer, the fire safety situation of the building can be known in time, and the visualization and flattening command and dispatch are facilitated.

2. The utility model discloses building fire control safety control and fire control operation commander's visualization. By means of AR technology, positioning technology, three-dimensional modeling technology, communication technology and software synthesis technology, the virtual reality display is carried out on the building, all information and dynamic change processes of fire fighting are visually known, and scientific decision command and operation command flattening are facilitated; the command level is reduced, the command transmission error is avoided, point-to-point command is realized, unnecessary intermediate links and personnel are simplified, the command execution efficiency is improved, and the command time is greatly shortened.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic view of the flow of the command of the utility model for fire fighting.

The text labels in the figures are represented as: 1. a building fire fighting equipment positioning module; 2. a handheld inspection terminal; 3. a data storage center; 4. a mobile terminal; 41. a firefighter positioning module; 42. a fire condition acquisition and identification module; 43. a signal receiver; 5. an information synthesis processing module; 6. building a three-dimensional perspective modeling module; 7. a field command module; 8. and a remote command module.

Detailed Description

In order to make the technical solution of the present invention better understood, the present invention is described in detail below with reference to the accompanying drawings, and the description of the present invention is only exemplary and explanatory, and should not be construed as limiting the scope of the present invention.

As shown in fig. 1-2, the specific structure of the present invention is: a visual building fire safety management and fire fighting command system comprises a building fire fighting facility positioning module 1, a handheld inspection terminal 2, a data storage center 3, a building three-dimensional perspective modeling module 6, an information synthesis processing module 5 and a mobile terminal 4, wherein the mobile terminal 4 is provided with a fireman positioning module 41, a fire collection and identification module 42 and a signal receiver 43, the building fire fighting facility positioning module 1 is arranged on a fire fighting facility in a building, and the handheld inspection terminal 2 is connected with the information synthesis processing module 5 through wireless communication and is used for inspecting the daily conditions of the building fire fighting facility, uploading the daily conditions to the information synthesis processing module 5, synthesizing the conditions in a building three-dimensional perspective model through the information synthesis processing module 5 and uploading the conditions to the data storage center 3 for storage; the fireman positioning module 41 is connected with the information synthesis processing module 5 through wireless communication and is used for feeding back the position information of the fireman; the fire collecting and identifying module 42 is arranged on the body of the fireman and is used for feeding back the on-site fire to the information synthesis processing module 5; the information synthesis processing module 5 is used for combining the building fire-fighting facility position and operation information, the site fire and the fireman position with the building three-dimensional perspective model generated by the building three-dimensional perspective modeling module 6 through the data storage center 3, finally feeding back signals to the signal receiver 43 on the mobile terminal 4, simultaneously transmitting the information to the site commanding module 7 and the remote commanding module 8, and the site commanding module 7 and the remote commanding module 8 are connected with the signal receiver 43 on the mobile terminal 4 through wireless communication.

Preferably, the building three-dimensional perspective modeling module 6 is used for virtually establishing a building basic structure, and emphasizes building basic characteristics of staircase positions, walkway widths and building sizes.

Preferably, the building fire fighting equipment positioning module 1 is provided with an electronic two-dimensional code tag, and the handheld patrol terminal 2 is provided with a two-dimensional code scanning device; the electronic two-dimensional code tag technology is adopted, real-time information of the building fire-fighting facilities is collected, key parameter information of each facility is contained in the electronic tag, the electronic tag is mainly used for displaying the running state of the fire-fighting facilities, and the fire-fighting facilities mainly comprise fire hydrants, smoke detectors, temperature detectors, water spraying systems, fire extinguishers, emergency lamps and the like.

Preferably, the building fire-fighting equipment positioning module 1 is connected with the information synthesis processing module 5 through wireless communication, and the information synthesis processing module 5 combines the building fire-fighting equipment position with the building three-dimensional perspective model and uploads the combined position to the data storage center 3; based on the electronic two-dimensional code label information of each fire-fighting facility and the position information fed back by the positioning module, the positioning module realizes effective acquisition and management of the position and the operation condition of the fire-fighting facility.

Preferably, the fire collection and identification module 42 comprises a miniature camera and a fire identification module fixed on a fire helmet of a firefighter, wherein the fire identification module is an infrared image intelligent identification device, and the severity of the fire is identified through analysis of the map distribution of images and intelligent video.

Preferably, the building three-dimensional perspective modeling module 3 is connected with the information synthesis processing module 5 through a data storage center 3, and the data storage center 3 is used for storing building three-dimensional model information.

Preferably, the mobile terminal 4 includes a mobile phone, a tablet, and a specific patrol terminal, which are installed with supporting software.

Preferably, the information synthesis processing module 5 combines the position and operation information of the fire-fighting facility of the building, the position of a fire fighter entering the building, the fire scene condition acquired by the miniature camera, the severity of the fire and the building three-dimensional model information provided by the data storage center 3, and displays the information on the signal receiver 43, the site commanding module 7 and the remote commanding module 8 by an AR (augmented reality) display, so that the fire scene and the fire-fighting facility of the building are intelligently simulated, an accurate scheme is provided for the fire fighter to accurately and rapidly process the fire, and the fire extinguishing efficiency is improved.

When in specific use, the system is divided into two parts for application in practical use:

in daily fire safety management of a building, the position and the operation condition of a building fire facility are transmitted to an information synthesis processing module 5 through a building fire facility positioning module 1 and a handheld inspection terminal 2 and combined with a building three-dimensional perspective model provided by a data storage center 3 to form a continuously updated building three-dimensional perspective model which is stored in the data storage center 3, and an on-duty room of a unit to which the building belongs can be monitored, a building fire attendant inspects each fire facility at random through the handheld inspection terminal 2 and scans codes to confirm and complete inspection, and feeds results back to the on-duty room of the unit to which the building belongs.

Secondly, when the building is in fire once, after a fire commander arrives at the site, the mobile terminal 4 is connected with the information synthesis processing module 5 of the building through wireless communication, and the remote commander module is connected with the information synthesis processing module 5 of the building through wireless communication; then, the mobile terminal 4 is connected with the on-site commanding module 7 and the remote commanding module 8 through wireless communication, at the moment, the position and the operation condition of the building fire-fighting facility enter the interior to be subjected to fire-fighting rescue, the fire fighter positioning module 41 and the fire condition acquisition and identification module 42 are combined with a building three-dimensional perspective model provided by the data storage center 3 through the information synthesis processing module 5 to form a virtual image of a fire scene and transmit the virtual image back to the signal receiver 43, the on-site commanding module 7 and the display of the remote commanding module 8 to display, the fire condition development direction is judged in real time, and the fire-fighting on-site commander and the remote commanding center commander can visually grasp all information of buildings, personnel, facilities, fire conditions and the like at any time, so that the flat commanding in the.

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

The principles and embodiments of the present invention have been explained herein using specific examples, which are presented only to assist in understanding the methods and their core concepts. The foregoing is only a preferred embodiment of the present invention, and it should be noted that there are objectively infinite specific structures due to the limited character expressions, and it will be apparent to those skilled in the art that a plurality of modifications, decorations or changes can be made without departing from the principle of the present invention, and the above technical features can be combined in a proper manner; the application of these modifications, variations or combinations, or the application of the concepts and solutions of the present invention in other contexts without modification, is not intended to be considered as a limitation of the present invention.

Claims (6)

1. A visual building fire safety management and fire fighting command system is characterized by comprising a building fire fighting facility positioning module (1), a handheld inspection terminal (2), a data storage center (3), a building three-dimensional perspective modeling module (6), an information synthesis processing module (5) and a mobile terminal (4), the mobile terminal (4) is provided with a fireman positioning module (41), a fire collecting and identifying module (42) and a signal receiver (43), the building fire-fighting facility positioning module (1) is arranged on fire-fighting facilities in a building, the hand-held patrol terminal (2) is connected with the information synthesis processing module (5) through wireless communication, the system is used for checking the daily conditions of the building fire-fighting facilities, uploading the daily conditions to the information synthesis processing module (5), synthesizing the daily conditions in the three-dimensional perspective model of the building through the information synthesis processing module (5), and uploading the daily conditions to the data storage center (3) for storage; the firefighter positioning module (41) is connected with the information synthesis processing module (5) through wireless communication and is used for feeding back the position information of the firefighters; the fire condition acquisition and identification module (42) is arranged on the body of a fireman and used for feeding back the on-site fire condition to the information synthesis processing module (5); the information synthesis processing module (5) is used for combining the position and the operation information of a building fire-fighting facility, the site fire and the position of a fireman with a building three-dimensional perspective model generated by the building three-dimensional perspective modeling module (6) through the data storage center (3), finally feeding signals back to a signal receiver (43) on the mobile terminal (4), simultaneously transmitting the information to the site commanding module (7) and the remote commanding module (8), and connecting the site commanding module (7) and the remote commanding module (8) with the signal receiver (43) on the mobile terminal (4) through wireless communication.

2. The visual building fire safety management and fire fighting command system as claimed in claim 1, wherein the building three-dimensional perspective modeling module (6) is used for virtually establishing a building basic structure, and emphasizes building basic features such as staircase positions, walkway widths and building sizes.

3. The visual building fire safety management and fire fighting command system according to claim 1, wherein an electronic two-dimensional code tag is arranged on the building fire fighting equipment positioning module (1), and a two-dimensional code scanning device is arranged on the handheld patrol terminal (2).

4. The visual building fire safety management and fire fighting command system according to claim 1, wherein the building fire fighting equipment positioning module (1) is connected with the information synthesis processing module (5) through wireless communication, and the information synthesis processing module (5) combines the building fire fighting equipment position with the building three-dimensional perspective model and uploads the combined position to the data storage center (3).

5. The visual building fire safety management and fire fighting command system as claimed in claim 1, wherein the fire collection and identification module (42) comprises a miniature camera and a fire identification module fixed on a fire helmet of a fireman, the fire identification module is an infrared image intelligent identification device, and the severity of the fire is intelligently identified through analysis of the map distribution of the images and intelligent video.

6. The visual building fire safety management and fire fighting command system according to claim 1, wherein the building three-dimensional perspective modeling module (6) is connected with the information synthesis processing module (5) through a data storage center (3), and the data storage center (3) is used for storing building three-dimensional model information.

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