阅读说明：本技术 消防救援可视化平台 (Fire rescue visual platform ) 是由 王震 金霄 王雷 司岗山 徐金山 郭同书 于 2019-09-27 设计创作，主要内容包括：本发明提供一种消防救援可视化平台,其包括：报警装置、消防中心、中心数据库、第三方数据库；报警装置包括：一键报警终端、火情监测传感器、自动报警终端；消防中心包括：视频监控系统、接警系统、接警坐席、指挥调度坐席、统一安全网关、指挥调度及能效评估中心、边界接入终端、指挥调度屏幕；中心数据库存储有：监控对象基本信息、监控对象周边信息、消防设施信息；第三方数据库通过边界接入终端连接至指挥调度及能效评估中心所在的网络中。本发明能够实现整体协调和调度,能够解决传统消防救援过程中行车路线不准、灾情要素得不到、初始火场情况不明、救灾后方看不清、音视频无法实时传输、初始指挥无后方技术支撑等问题。(The invention provides a fire rescue visualization platform, which comprises: the system comprises an alarm device, a fire-fighting center, a center database and a third-party database; the alarm device includes: the fire monitoring system comprises a one-key alarm terminal, a fire monitoring sensor and an automatic alarm terminal; the fire control center includes: the system comprises a video monitoring system, an alarm receiving seat, a command scheduling seat, a unified security gateway, a command scheduling and energy efficiency evaluation center, a boundary access terminal and a command scheduling screen; the central database stores: basic information of a monitored object, peripheral information of the monitored object and information of fire fighting facilities; and the third-party database is connected to a network where the command scheduling and energy efficiency evaluation center is located through the boundary access terminal. The invention can realize integral coordination and scheduling, and can solve the problems of inaccurate driving route, unavailable disaster condition factors, unclear initial fire scene condition, unclear visibility after disaster relief, incapability of real-time transmission of audio and video, no rear technical support for initial command and the like in the traditional fire rescue process.)

1. A fire rescue visualization platform, comprising: the system comprises an alarm device, a fire-fighting center, a center database and a third-party database;

the alarm device includes: the fire monitoring system comprises a one-key alarm terminal, a fire monitoring sensor and an automatic alarm terminal, wherein the one-key alarm terminal is communicated with a remote fire center, the fire monitoring sensor is in signal transmission with the automatic alarm terminal, and the automatic alarm terminal is communicated with the remote fire center;

the fire center includes: the system comprises a video monitoring system, an alarm receiving system, alarm receiving agents, command scheduling agents, a unified security gateway, a command scheduling and energy efficiency evaluation center, a boundary access terminal and a command scheduling screen, wherein the video monitoring system is arranged in each monitoring area, the alarm receiving system is communicated with the one-key alarm terminal and the automatic alarm terminal, the command scheduling and energy efficiency evaluation center is connected to a network where the video monitoring system and the alarm receiving system, the alarm receiving agents and the command scheduling agents are located through the unified security gateway, and the command scheduling screen is connected to the network where the command scheduling and energy efficiency evaluation center is located;

the central database stores: the command scheduling screen virtually displays a model and a fire condition of the monitored object based on the stored basic information of the monitored object and the picture information acquired by the video monitoring system, and displays water source information and available fire facility information of the periphery of the monitored object based on the stored information of the periphery of the monitored object and the stored information of the fire facility;

and the third-party database is connected to a network where the command scheduling and energy efficiency evaluation center is located through the boundary access terminal.

2. A fire rescue visualization platform as recited in claim 1, wherein the fire monitoring sensors include smoke sensors and temperature sensors.

3. A fire rescue visualization platform as recited in claim 1, wherein the fire center further has an RFID reading device to record a fire truck dispatch.

4. A fire rescue visualization platform as recited in claim 1, further comprising a recent path generation module in the fire engine.

5. A fire rescue visualization platform as recited in claim 1, wherein the central database also stores management data for central fire equipment.

6. A fire rescue visualization platform as recited in claim 1, wherein the fire center further comprises an unmanned aerial vehicle data acquisition front end in communication with the command dispatch and energy efficiency assessment center.

7. A fire rescue visualization platform as recited in claim 1, wherein the fire center further comprises a fire rescue command PAD in communication with the command dispatch and energy efficiency assessment center.

8. A fire rescue visualization platform as recited in claim 1, wherein the incorporation of the network of the head team, the branch team, the big team, and the middle team inside the fire center is in the same network linked with the monitored object in real time.

9. A fire rescue visualization platform as recited in claim 1, wherein the third party database is a weather information database of a weather department.

Technical Field

The invention relates to the technical field of fire rescue, in particular to a fire rescue visual platform.

Background

At present, in the process of fire and fire rescue, people or enterprises usually rely on initiative and fire finding, and call a fire alarm telephone of a command center to inform about relevant conditions, and the center gives an alarm in time according to the initially grasped conditions. However, the above-described fire rescue method lacks overall scheduling and coordination, and has problems that a preliminary situation of a fire cannot be grasped in time, a situation around the fire site is not clear, an optimal path to the fire site is not planned, and the like. Therefore, it is necessary to provide a further solution to the above problems.

Disclosure of Invention

The invention aims to provide a fire rescue visual platform to overcome the defects in the prior art.

In order to achieve the above object, the present invention provides a fire rescue visualization platform, which includes: the system comprises an alarm device, a fire-fighting center, a center database and a third-party database;

the alarm device includes: the fire monitoring system comprises a one-key alarm terminal, a fire monitoring sensor and an automatic alarm terminal, wherein the one-key alarm terminal is communicated with a remote fire center, the fire monitoring sensor is in signal transmission with the automatic alarm terminal, and the automatic alarm terminal is communicated with the remote fire center;

the fire center includes: the system comprises a video monitoring system, an alarm receiving system, alarm receiving agents, command scheduling agents, a unified security gateway, a command scheduling and energy efficiency evaluation center, a boundary access terminal and a command scheduling screen, wherein the video monitoring system is arranged in each monitoring area, the alarm receiving system is communicated with the one-key alarm terminal and the automatic alarm terminal, the command scheduling and energy efficiency evaluation center is connected to a network where the video monitoring system and the alarm receiving system, the alarm receiving agents and the command scheduling agents are located through the unified security gateway, and the command scheduling screen is connected to the network where the command scheduling and energy efficiency evaluation center is located;

the central database stores: the command scheduling screen virtually displays a model and a fire condition of the monitored object based on the stored basic information of the monitored object and the picture information acquired by the video monitoring system, and displays water source information and available fire facility information of the periphery of the monitored object based on the stored information of the periphery of the monitored object and the stored information of the fire facility;

and the third-party database is connected to a network where the command scheduling and energy efficiency evaluation center is located through the boundary access terminal.

As an improvement of the fire rescue visualization platform, the fire monitoring sensor comprises a smoke sensor and a temperature sensor.

As an improvement of the fire rescue visualization platform, the fire center is also provided with an RFID reading device for recording the dispatching condition of the fire truck.

As an improvement of the fire rescue visualization platform, the fire truck further comprises a nearest path generation module.

As an improvement of the fire rescue visualization platform, the central database also stores management data of central fire-fighting equipment.

As an improvement of the fire rescue visualization platform, the fire center further comprises an unmanned aerial vehicle data acquisition front end which is communicated with the command scheduling and energy efficiency evaluation center.

As an improvement of the fire rescue visualization platform, the fire center further comprises a fire rescue command PAD which is communicated with the command scheduling and energy efficiency evaluation center.

As an improvement of the fire rescue visual platform, the network in which the head team, the branch team, the big team and the middle team in the fire center are located is integrated in the same network linked with the monitoring object in real time.

As an improvement of the fire rescue visualization platform, the third-party database is a meteorological information database of a meteorological department.

Compared with the prior art, the invention has the beneficial effects that: the fire rescue visual platform can realize integral coordination and scheduling, and can solve the problems that a driving route is not accurate, disaster situation factors cannot be obtained, the condition of an initial fire scene is not clear, the rear part of a fire rescue is not clear, audio and video cannot be transmitted in real time, no rear technical support is available for initial command, no real-time recording is available in a fighting process, no audio and video basis is available for war evaluation and the like in the traditional fire rescue process.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments described in the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a block diagram of a fire rescue visualization platform according to an embodiment of the present invention.

Detailed Description

The present invention is described in detail with reference to the embodiments shown in the drawings, but it should be understood that these embodiments are not intended to limit the present invention, and those skilled in the art should understand that functional, methodological, or structural equivalents or substitutions made by these embodiments are within the scope of the present invention.

The invention provides a fire rescue visualization platform, which comprises: the system comprises an alarm device, a fire-fighting center, a center database and a third-party database;

the alarm device includes: the fire monitoring system comprises a one-key alarm terminal, a fire monitoring sensor and an automatic alarm terminal, wherein the one-key alarm terminal is communicated with a remote fire center, the fire monitoring sensor is in signal transmission with the automatic alarm terminal, and the automatic alarm terminal is communicated with the remote fire center;

the fire center includes: the system comprises a video monitoring system, an alarm receiving system, alarm receiving agents, command scheduling agents, a unified security gateway, a command scheduling and energy efficiency evaluation center, a boundary access terminal and a command scheduling screen, wherein the video monitoring system is arranged in each monitoring area, the alarm receiving system is communicated with the one-key alarm terminal and the automatic alarm terminal, the command scheduling and energy efficiency evaluation center is connected to a network where the video monitoring system and the alarm receiving system, the alarm receiving agents and the command scheduling agents are located through the unified security gateway, and the command scheduling screen is connected to the network where the command scheduling and energy efficiency evaluation center is located;

the central database stores: the command scheduling screen virtually displays a model and a fire condition of the monitored object based on the stored basic information of the monitored object and the picture information acquired by the video monitoring system, and displays water source information and available fire facility information of the periphery of the monitored object based on the stored information of the periphery of the monitored object and the stored information of the fire facility;

and the third-party database is connected to a network where the command scheduling and energy efficiency evaluation center is located through the boundary access terminal.

The technical solution of the fire rescue visualization platform of the present invention is illustrated below with reference to a specific embodiment.

As shown in fig. 1, the fire rescue visualization platform of the present embodiment includes: alarm device 1, fire control center 2, central database 3, third party's database 4.

The alarm device 1 includes: one key alarm terminal 11, fire monitoring sensor 12, automatic alarm terminal 13, one key alarm terminal 11 communicates with long-range fire control center 2, fire monitoring sensor 12 with automatic alarm terminal 13 signal transmission, automatic alarm terminal 13 communicates with long-range fire control center 2. In this embodiment, the one-key alarm terminal 11 and the automatic alarm terminal 13 are smart phones or PADs or the like loaded with relevant software.

The fire monitoring sensor 12 includes a smoke sensor and a temperature sensor. Therefore, after a fire alarm occurs, an enterprise can manually alarm by one key quickly, and can automatically alarm according to the information of the smoke sensor and the temperature sensor, so that the fire condition can be found at the first time, and the linkage and quick response of an alarm enterprise are realized.

The fire center 2 can give an instruction to each firefighter to command each person, and includes: video monitoring system 21, alarm receiving system 22, alarm receiving agent 23, command and dispatch agent 24, unified security gateway 25, command and dispatch and energy efficiency evaluation center 26, border access terminal 27, and command and dispatch screen 28.

The video monitoring system 21 is arranged in each monitoring area, so that the scene situation when a fire disaster occurs can be conveniently collected, and the problems that disaster situation elements cannot be obtained, the situation of an initial fire scene is not clear, the situation behind the fire disaster is not clear, and audio and video cannot be transmitted in real time are solved. The alarm receiving system 22 is in communication with the one-touch alarm terminal 11 and the automatic alarm terminal 13. The command dispatching and energy efficiency evaluation center 26 is connected to the video monitoring system 21, the alarm receiving system 22 and the network where the alarm receiving seat 23 and the command dispatching seat 24 are located through the unified security gateway 25. The command scheduling and the energy efficiency evaluation can provide post-combat support so as to solve the problems that no rear technical support exists in the initial command and no real-time record exists in the combat process. The command dispatch screen 28 is connected to the network in which the command dispatch and energy efficiency assessment center 26 is located.

Meanwhile, the fire center 2 is also provided with an RFID reading device for recording the dispatching condition of the fire truck, so that the fire truck can be dispatched in a unified manner. The fire fighting truck also comprises a nearest path generation module which can generate an optimal path to reach a fire place, so that the problem of inaccurate driving routes in the traditional fire rescue process is solved. In addition, the fire center 2 further comprises an unmanned aerial vehicle data acquisition front end and a fire rescue command PAD, wherein the unmanned aerial vehicle data acquisition front end is communicated with the command scheduling and energy efficiency evaluation center 26, and the fire rescue command PAD is communicated with the command scheduling and energy efficiency evaluation center 26 to realize rear technical support.

In addition, the merging of the network in which the head team, the branch team, the big team and the middle team in the fire center 2 are located and the same network in which the monitoring objects are linked in real time. Therefore, the general team, the branch team, the big team, the middle team and the enterprise five-level real-time linkage are realized, the information exchange is more convenient and efficient, and the information real-time sharing and the resource unified scheduling are facilitated.

The central database 3 stores: the command scheduling screen 28 virtually displays a model and a fire situation of the monitored object based on the stored basic information of the monitored object and the picture information acquired by the video monitoring system 21, and displays water source information and available fire facility information around the monitored object based on the stored information of the monitored object and the stored information of the fire facility. Therefore, the fire fighting center 2 can immediately search the relevant information of the fire catching enterprise, including the location of fire catching, the type of the material on fire catching, all available water sources near the fire catching place, fire fighting facilities and the like, so as to realize the visualization of fire rescue. In addition, the central database 3 also stores management data of central fire-fighting equipment, so that the fire-fighting equipment can be uniformly dispatched. When the model is displayed, a three-dimensional building model is automatically generated according to the CAD drawing of the building.

The third-party database 4 is connected to the network where the command and dispatch and energy efficiency evaluation center 26 is located through the border access terminal 27. In this embodiment, the third-party database 4 is a weather information database of a weather department, so that the fire-fighting center 2 can obtain real-time weather data.

In conclusion, the fire rescue visualization platform can realize overall coordination and scheduling, and can solve the problems that a driving route is not accurate, disaster situation factors are not obtained, the initial fire scene condition is not clear, the disaster relief rear part is not clear, audio and video cannot be transmitted in real time, the initial command has no rear technical support, the fighting process has no real-time recording, the fighting assessment has no audio and video basis and the like in the traditional fire rescue process.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.