CN109147253B - Wisdom fire safety pre-judging management linkage platform - Google Patents

Abstract

The invention relates to an intelligent fire safety pre-judging management linkage platform, which applies a thermal infrared detection technology and an MR mixed reality simulation technology to a fire detection and management process, and combines with the traditional smoke detection and electrical data acquisition to ensure that the acquired fire data is more comprehensive and complete.

Description

Wisdom fire safety pre-judging management linkage platform

Technical Field

The invention relates to the technical field of fire safety management, in particular to an intelligent fire safety pre-judging management linkage platform.

Background

In 10.10.2017, the ministry of public security issues guidance suggestions (public extinction [2017] 297) about the comprehensive promotion of intelligent fire-fighting construction, and demands comprehensive utilization of emerging information technologies such as internet of things, linkage calculation, big data and mobile internet, so that the development of intelligent fire-fighting construction is accelerated, a deep fusion and full-coverage social fire prevention and control system of informatization and fire-fighting business work is comprehensively promoted, and the conversion from traditional fire-fighting to modern fire-fighting is realized.

However, the development of intelligent fire fighting is not ideal so far, and as the connections among all levels of systems are not tight, the linkage among the systems is poor, the information acquisition mode is limited, the reliability of the whole system is low, the response speed is low, and the requirement of modern fire fighting cannot be met.

Therefore, how to provide a fire safety linkage platform with high linkage response speed, accurate and complete information acquisition and rich functions becomes a technical problem to be solved urgently by technical personnel in the field.

Disclosure of Invention

The invention aims to solve the technical problem of providing a fire safety linkage platform which is high in linkage response speed, accurate and complete in information acquisition and rich in functions.

The technical scheme for solving the technical problems is as follows: an intelligent fire safety pre-judging management linkage platform, which comprises

The intelligent infrared detection system is used for carrying out hidden danger detection, ignition source position detection and fire spreading direction judgment on a fire occurrence point to obtain real-time fire near-condition information;

the intelligent infrared detection system is connected with the MR simulation fire-fighting hidden danger troubleshooting system, the MR simulation fire-fighting hidden danger troubleshooting system receives real-time fire near-condition information and establishes a mixed reality simulation scene for assisting field commanders to set a rescue scheme to obtain mixed reality simulation scene information;

the field smoke detector collects field smoke concentration information in real time and sends smoke early warning information when the smoke concentration exceeds a standard;

the electric data monitoring system collects current, voltage and temperature information in the strong electricity well, and sends out electric data early warning information when the collected current, voltage and temperature information deviates from preset standard values;

the fire-fighting equipment supervision system monitors fire-fighting equipment in the administrative region in real time, and sends maintenance information automatically generated by the fire-fighting equipment supervision system to an equipment maintenance end server closest to the repair reporting equipment after receiving the repair reporting information;

the GIS map early warning system is connected with the field smoke detector and the electrical data monitoring system, receives smoke early warning information and electrical data early warning information sent by the field smoke detector and the electrical data monitoring system, marks the sending positions of the smoke early warning information and the electrical data early warning information in a map and generates map early warning information;

the system comprises a cloud service platform, an MR simulation fire-fighting hidden danger troubleshooting system, a fire-fighting facility monitoring system and a GIS map early warning system, wherein the MR simulation fire-fighting hidden danger troubleshooting system, the fire-fighting facility monitoring system and the GIS map early warning system are all connected with the cloud service platform, the cloud service platform (7) receives the mixed reality simulation scene information, the map early warning information and the maintenance information, generates scheduling information according to the mixed reality simulation scene information and the map early warning information, generates push information according to the map early warning information, and generates reporting information according to the map early warning information and the maintenance information stored by the fire-fighting facility monitoring system (6); the cloud service platform provides information storage and transceiving services, and periodically creates push information, report information and scheduling information;

the user terminal is connected with the cloud service platform, receives the push information and sends emergency rescue information to the cloud service platform when a fire disaster occurs;

the cloud service platform is connected with the upper management terminal, and the upper management terminal receives the reported information and adjusts a fire-fighting management strategy in time according to the reported information; and

and the cloud service platform is connected with the on-site commanding and regulating terminal, and the on-site commanding and regulating terminal receives the scheduling information. And the field command regulation and control terminal completes the dispatching of the fire fighters and the generation of fire fighting decisions according to the field conditions after receiving the dispatching information.

The invention has the beneficial effects that: the thermal infrared detection technology and the MR mixed reality simulation technology are applied to the fire fighting detection and management process, the traditional smoke detection and electrical data acquisition are matched to enable the acquired fire fighting data to be more comprehensive and complete, the whole platform links the fire scene with the user terminal, the superior management terminal and the scene commanding and regulating terminal, the linkage of the platform is stronger, the coverage is wider, and the effects of high linkage response speed and accurate and complete information acquisition are achieved.

On the basis of the technical scheme, the invention can be further improved as follows.

Further, the intelligent infrared detection system comprises

The building structure nondestructive testing module comprises a first thermal infrared detector, a first intelligent dome camera type monitor and a first processor, wherein the first thermal infrared detector is used for detecting the temperature of a bearing part of a building structure, the first intelligent dome camera type monitor is used for shooting a field video picture, the first thermal infrared detector and the first intelligent dome camera type monitor are both connected with the first processor, the first processor is used for judging whether the bearing strength of the building structure is in a safe range according to the temperature information of the bearing part of the building structure, and when the temperature of the bearing part of the building structure is higher than a temperature threshold value, strength early warning information is sent out;

the liquid storage tank hidden danger detection module comprises a second thermal infrared detector, a second intelligent ball type monitor and a second processor, the second thermal infrared detector detects the temperature information of the liquid storage tank on site, the second intelligent ball type monitor shoots a video picture on site, the second thermal infrared detector and the second intelligent ball type monitor are both connected with the second processor, the second processor determines the liquid level of the liquid storage tank according to the temperature information of the liquid storage tank, and judges whether the liquid storage tank has an explosion hidden danger or not according to the temperature of the liquid storage tank and the liquid level information;

the fire source detection module comprises a third thermal infrared detector, a third intelligent ball type monitor and a third processor, the third thermal infrared detector detects the temperature in a fire occurrence area, the third intelligent ball type monitor shoots a scene video picture, the third thermal infrared detector and the third intelligent ball type monitor are both connected with the third processor, and the third processor determines the highest temperature point in the fire occurrence area and takes the highest temperature point as the position of a fire source;

the fire spreading direction judging module comprises a fourth thermal infrared detector, a fourth intelligent ball type monitor and a fourth processor, the fourth thermal infrared detector detects the temperature of hot smoke gas flow in a fire occurrence area, the fourth intelligent ball type monitor shoots a field video picture, the fourth thermal infrared detector and the fourth intelligent ball type monitor are both connected with the fourth processor, and the fourth processor judges the flowing direction of the hot smoke gas flow by analyzing the temperature difference of the hot smoke gas flow to obtain fire spreading direction information;

the first processor, the second processor, the third processor and the fourth processor are all connected with the central processor, and the central processor analyzes and processes the received information to generate real-time fire condition information; and

and the wireless communication module is connected with the central processing unit and used for receiving the fire disaster approximate condition information and sending the fire disaster approximate condition information to the MR simulation fire-fighting hidden danger troubleshooting system.

The intelligent infrared detection system provided by the invention can well realize detection of fire hazards and judge the position and real-time condition of the hidden danger source in time, so that measures are taken as soon as possible to control the fire condition, the effect of fire condition pre-judgment and investigation is achieved through fire hazard detection, and fire rescue is implemented more safely by fire fighters in cooperation with MR mixed reality simulation technology.

Further, the temperature threshold range of the bearing part of the building structure is 350-400 ℃. The bearing part of the building structure is generally built by a steel structure, the bearing strength of the steel structure is greatly reduced when the heated temperature of the steel structure is increased, the bearing strength of the steel structure begins to be reduced when the surface temperature of the steel structure reaches 300 ℃, and the steel structure completely loses the bearing capacity when the temperature exceeds 600 ℃, so that the temperature threshold value is set to ensure that the bearing strength of the bearing part of the building structure is within a safety range, and when the temperature threshold value exceeds the range, early warning information is sent to remind relevant personnel of spraying water for cooling.

Further, the MR simulation fire-fighting hidden danger troubleshooting system comprises a VR scene construction module, an AR scene construction module, a mixed reality scene construction module and a wearable mobile interaction device,

the VR scene construction module is connected with the wireless communication module, receives the fire near situation information and constructs and generates an immersive scene according to the fire near situation information,

the AR scene construction module is connected with the wireless communication module, the AR scene construction module is combined with the real scene construction to generate an augmented reality scene according to the fire near condition information,

the VR scene construction module and the AR scene construction module are both connected with the mixed reality scene construction module, the mixed reality scene construction module fuses the immersive scene and the augmented reality scene to construct and generate a mixed reality simulation scene,

the mixed reality scene building module is connected with the wearable mobile interaction device, the wearable mobile interaction device presents the mixed reality simulation scene to a wearer in real time, and the mixed reality scene building module is further connected with the cloud service platform.

The beneficial effects of adopting above-mentioned further scheme are that utilize VR technique simulation fire block hidden danger local firing, the real "scene of fire" VR fire control is rebuild in the simulation, the application calculates 3D modeling technique, artificial intelligence, the enhancement body such as reputation hot photoelectricity is felt and augmented reality AR technique, can easily establish out VR + AR's mixed reality simulation scene, and carry out mixed man-machine interaction rehearsal through wearable mobile interaction equipment, make the fire scene more visual and visualization, MR simulation fire control hidden danger investigation system has realized the high simulation of fire scene through the mode of establishing mixed reality emulation scene simultaneously, the ability of fire fighter's processing emergent fire incident has been promoted in mixed reality emulation scene, fire education and fire prevention control's purpose has been reached.

Further, the push information comprises real-time fire information of the area where the user is located, fire safety popularization information and fire frequent area early warning information. The user terminal can utilize WeChat, a pc platform, short messages and other APP software to achieve the task of acquiring and sending the fire-fighting information.

Further, the reported information comprises fire information of each area, real-time fire processing state information and fire fighting equipment information of the area with the frequent fire.

Further, the superior management terminal comprises a server of a fire fighter transfer department, a server of a fire fighting equipment management department and a server of a fire fighting information supervision department. The higher-level supervision department can more scientifically configure fire-fighting resources through the information uploaded in real time, and realize the basification and the orderliness of fire-fighting management.

Drawings

FIG. 1 is a schematic diagram of an overall structure of an intelligent fire safety pre-judging management linkage platform according to the present invention;

FIG. 2 is a schematic structural diagram of an intelligent infrared detection system in the intelligent fire safety pre-judging management linkage platform according to the present invention;

FIG. 3 is a schematic structural diagram of an MR simulation fire-fighting hidden danger troubleshooting system in the intelligent fire-fighting safety pre-judging management linkage platform of the invention.

In the drawings, the components represented by the respective reference numerals are listed below:

1. an intelligent infrared detection system, 101, a building structure nondestructive detection module, 111, a first thermal infrared detector, 121, a first intelligent dome-shaped monitor, 131, a first processor, 102, a liquid storage tank hidden danger detection module, 112, a second thermal infrared detector, 122, a second intelligent dome-shaped monitor, 132, a second processor, 103, an ignition source detection module, 113, a third thermal infrared detector, 123, a third intelligent dome-shaped monitor, 133, a third processor, 104, a fire spreading direction determination module, 114, a fourth thermal infrared detector, 124, a fourth intelligent dome-shaped monitor, 134, a fourth processor, 105, a central processing unit, 106, a wireless communication module, a 2, an MR simulation fire hazard troubleshooting system, 201, a VR scene construction module, 202, an AR scene construction module, 203, a mixed reality scene construction module, 204, a wearable mobile interaction device, 3. the system comprises an on-site smoke detector, 4 an electrical data monitoring system, 5 a GIS map early warning system, 6 a fire-fighting facility monitoring system, 7 a cloud service platform, 8 a user terminal, 9 a superior management terminal, 10 an on-site command and regulation terminal.

Detailed Description

The principles and features of this invention are described below in conjunction with the following drawings, which are set forth by way of illustration only and are not intended to limit the scope of the invention.

As shown in FIG. 1, the embodiment discloses an intelligent fire safety pre-judging management linkage platform, which comprises

The intelligent infrared detection system 1 is used for carrying out hidden danger detection, ignition source position detection and fire spreading direction judgment on a fire occurrence point by the intelligent infrared detection system 1 to obtain real-time fire near-condition information;

the system comprises an MR simulation fire-fighting hidden danger troubleshooting system 2, an intelligent infrared detection system 1 and the MR simulation fire-fighting hidden danger troubleshooting system 2, wherein the MR simulation fire-fighting hidden danger troubleshooting system 2 receives real-time fire near-condition information and establishes a mixed reality simulation scene for assisting field commanders to set a rescue scheme to obtain mixed reality simulation scene information;

the field smoke detector 3 is used for acquiring field smoke concentration information in real time and sending smoke early warning information when the smoke concentration exceeds the standard;

the electric data monitoring system 4 is used for acquiring current, voltage and temperature information in the strong electricity well, and sending electric data early warning information when the acquired current, voltage and temperature information deviates from preset standard values;

the fire-fighting equipment supervision system 6 is used for monitoring fire-fighting equipment in the administrative region in real time, and sending automatically generated maintenance information to an equipment maintenance end server closest to repair reporting equipment after receiving the repair reporting information;

the GIS map early warning system 5 is characterized in that the field smoke detector 3 and the electrical data monitoring system 4 are connected with the GIS map early warning system 5, the GIS map early warning system 5 receives smoke early warning information and electrical data early warning information sent by the field smoke detector 3 and the electrical data monitoring system 4, marks the sending positions of the smoke early warning information and the electrical data early warning information in a map, and generates map early warning information;

the cloud service platform 7, the MR simulation fire-fighting hidden danger troubleshooting system 2, the fire-fighting facility supervision system 6 and the GIS map early warning system 5 are all connected with the cloud service platform 7, the cloud service platform 7 receives mixed reality simulation scene information, map early warning information and maintenance information, generates scheduling information according to the mixed reality simulation scene information and the map early warning information, generates push information according to the map early warning information, and generates reporting information according to the map early warning information and the maintenance information stored by the fire-fighting facility supervision system 6; the cloud service platform 7 provides information storage and transceiving services, and periodically creates push information, report information and scheduling information;

the user terminal 8 and the cloud service platform 7 are connected with the user terminal 8, and the user terminal 8 receives the push information and sends emergency rescue information to the cloud service platform when a fire disaster occurs;

the upper management terminal 9 and the cloud service platform 7 are connected with the upper management terminal 9, and the upper management terminal 9 receives the reported information and adjusts the fire-fighting management strategy in time according to the reported information; and

and the field commanding and regulating terminal 10 and the cloud service platform 7 are connected with the field commanding and regulating terminal 10, and the field commanding and regulating terminal 10 receives scheduling information. And the field command and control terminal completes the movement of the fire fighters and the generation of fire fighting decisions according to the field conditions after receiving the scheduling information, thereby assisting the field fire fighters to complete the field fire rescue work.

Referring to fig. 2, the intelligent infrared detection system 1 comprises

The building structure nondestructive testing module 101 is characterized in that the building structure nondestructive testing module 101 comprises a first thermal infrared detector 111, a first intelligent dome camera type monitor 121 and a first processor 131, the first thermal infrared detector 111 detects the temperature of a bearing part of a building structure, the first intelligent dome camera type monitor 121 shoots a field video picture, the first thermal infrared detector 111 and the first intelligent dome camera type monitor 121 are both connected with the first processor 131, the first processor 131 judges whether the bearing strength of the bearing part of the building structure is in a safe range according to the temperature information of the bearing part of the building structure, and when the temperature of the bearing part of the building structure is higher than a temperature threshold value, strength early warning information is sent out;

the liquid storage tank hidden danger detection module 102 is characterized in that the liquid storage tank hidden danger detection module 102 comprises a second thermal infrared detector 112, a second intelligent dome camera type monitor 122 and a second processor 132, the second thermal infrared detector 112 detects on-site liquid storage tank temperature information, the second intelligent dome camera type monitor 122 shoots on-site video pictures, the second thermal infrared detector 112 and the second intelligent dome camera type monitor 122 are both connected with the second processor 132, the second processor 132 determines the liquid level of the liquid storage tank according to the liquid storage tank temperature information, and judges whether the liquid storage tank has an explosion hidden danger or not according to the liquid storage tank temperature and the liquid level information;

the fire source detection module 103, the fire source detection module 103 includes a third thermal infrared detector 113, a third smart ball type monitor 123 and a third processor 133, the third thermal infrared detector 113 detects the temperature in the fire occurrence area, the third smart ball type monitor 123 shoots a scene video picture, the third thermal infrared detector 113 and the third smart ball type monitor 123 are both connected with the third processor 133, and the third processor 133 determines the point with the highest temperature in the fire occurrence area and takes the point as the position of the fire source;

the fire spreading direction determining module 104, the fire spreading direction determining module 104 includes a fourth thermal infrared detector 114, a fourth smart ball type monitor 124 and a fourth processor 134, the fourth thermal infrared detector 114 detects the temperature of hot smoke gas flow in a fire occurrence area, the fourth smart ball type monitor 124 shoots a scene video picture, the fourth thermal infrared detector 114 and the fourth smart ball type monitor 124 are both connected with the fourth processor 134, and the fourth processor 134 judges the flow direction of the hot smoke gas flow by analyzing the temperature difference of the hot smoke gas flow to obtain fire spreading direction information;

the central processing unit 105, the first processing unit 131, the second processing unit 132, the third processing unit 133 and the fourth processing unit 134 are all connected with the central processing unit 105, and the central processing unit 105 analyzes and processes the received information to generate real-time fire condition information; and

and the wireless communication module 106 is connected with the central processing unit 105, and the wireless communication module 106 receives the fire disaster approximate condition information and sends the fire disaster approximate condition information to the MR simulation fire-fighting hidden danger troubleshooting system 2.

Referring to fig. 3, the MR simulated fire hazard troubleshooting system 2 includes a VR scene building module 201, an AR scene building module 202, a mixed reality scene building module 203, and a wearable mobile interaction device 204,

the VR scene construction module 201 is connected with the wireless communication module 106, the VR scene construction module 201 receives the fire near situation information, constructs and generates an immersive scene according to the fire near situation information,

the AR scene constructing module 202 is connected with the wireless communication module 106, the AR scene constructing module 202 generates an augmented reality scene according to the fire near condition information and by combining with the real scene construction,

the VR scene construction module 201 and the AR scene construction module 202 are both connected with the mixed reality scene construction module 203, the mixed reality scene construction module 203 fuses the immersive scene and the augmented reality scene to construct and generate a mixed reality simulation scene,

the mixed reality scene building module 203 is connected with the wearable mobile interaction device 204, the wearable mobile interaction device 204 presents the mixed reality simulation scene to the wearer in real time, and the mixed reality scene building module 203 is further connected with the cloud service platform 7.

In some embodiments, the MR simulated fire hazard troubleshooting system 2 may be slightly adjusted to provide a fire simulated exercise service for the user, and the fire education concept is popularized through the fire exercise process to provide technical support for the fire prevention work.

Specifically, the push information comprises real-time fire information, fire safety popularization information and fire frequent area early warning information of the area where the user is located.

Specifically, the reported information includes fire information of each area, real-time fire handling state information and fire equipment information of the area with the frequent fire.

Specifically, the upper management terminal 9 includes a fire fighter commissioning department server, a fire equipment management department server, and a fire information monitoring department server.

The wisdom fire safety control management linkage platform that this embodiment provided is applied to fire control detection and management in-process with hot infrared detection technique and MR mixed reality analog-to-analog technique, cooperate traditional smog to survey, electric data gathers the fire control data that makes the collection more comprehensive complete, whole platform with on-the-spot and user terminal of conflagration, higher level management terminal, four aspects of on-the-spot commander regulation and control terminal link together, make the linkage nature of platform stronger, the coverage is wider, it is fast to have reached linkage response speed, the accurate complete effect of information acquisition.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (6)

1. An intelligent fire safety pre-judging management linkage platform is characterized by comprising

The intelligent infrared detection system (1) is used for carrying out hidden danger detection, ignition source position detection and fire spreading direction judgment on a fire occurrence point to obtain real-time fire near-condition information;

the system comprises an MR simulation fire-fighting hidden danger troubleshooting system (2), an intelligent infrared detection system (1) and the MR simulation fire-fighting hidden danger troubleshooting system (2), wherein the MR simulation fire-fighting hidden danger troubleshooting system (2) receives real-time fire near-condition information and establishes a mixed reality simulation scene for assisting field commanders to set a rescue scheme to obtain mixed reality simulation scene information;

the on-site smoke detector (3) collects on-site smoke concentration information in real time and sends smoke early warning information when the smoke concentration exceeds a standard;

the electric data monitoring system (4) is used for acquiring current, voltage and temperature information in the strong electric well, and sending electric data early warning information when the acquired current, voltage and temperature information deviate from preset standard values;

the fire-fighting equipment supervision system (6) monitors fire-fighting equipment in the administrative region in real time, sends maintenance information automatically generated by the fire-fighting equipment supervision system to an equipment maintenance end server closest to the repair reporting equipment after receiving the repair reporting information, and meanwhile stores the maintenance information in a classified manner;

the field smoke detector (3) and the electrical data monitoring system (4) are connected with the GIS map early warning system (5), the GIS map early warning system (5) receives smoke early warning information and electrical data early warning information sent by the field smoke detector (3) and the electrical data monitoring system (4), marks the sending positions of the smoke early warning information and the electrical data early warning information in a map, and generates map early warning information;

the system comprises a cloud service platform (7), wherein the MR simulation fire-fighting hidden danger troubleshooting system (2), a fire-fighting facility supervision system (6) and a GIS map early warning system (5) are connected with the cloud service platform (7), the cloud service platform (7) receives the mixed reality simulation scene information, the map early warning information and the maintenance information, generates scheduling information according to the mixed reality simulation scene information and the map early warning information, generates push information according to the map early warning information, and generates reporting information according to the map early warning information and the maintenance information stored by the fire-fighting facility supervision system (6);

the cloud service platform (7) is connected with the user terminal (8), and the user terminal (8) receives the push information and sends emergency rescue information to the cloud service platform when a fire disaster occurs;

the cloud service platform (7) is connected with the upper management terminal (9), and the upper management terminal (9) receives the reported information and adjusts a fire-fighting management strategy in time according to the reported information; and

the cloud service platform (7) is connected with the on-site commanding and regulating terminal (10), and the on-site commanding and regulating terminal (10) receives the scheduling information;

the intelligent infrared detection system (1) comprises

The building structure nondestructive testing module (101) comprises a first thermal infrared detector (111), a first intelligent dome camera type monitor (121) and a first processor (131), wherein the first thermal infrared detector (111) detects the temperature of a bearing part of the building structure, the first intelligent dome camera type monitor (121) shoots a field video picture, the first thermal infrared detector (111) and the first intelligent dome camera type monitor (121) are both connected with the first processor (131), the first processor (131) judges whether the bearing strength of the bearing part of the building structure is in a safe range according to the temperature information of the bearing part of the building structure, and when the temperature of the bearing part of the building structure is higher than a temperature threshold value, strength early warning information is sent out;

the liquid storage tank hidden danger detection module (102) comprises a second thermal infrared detector (112), a second intelligent ball type monitor (122) and a second processor (132), the second thermal infrared detector (112) detects temperature information of the liquid storage tank on site, the second intelligent ball type monitor (122) shoots video pictures on site, the second thermal infrared detector (112) and the second intelligent ball type monitor (122) are both connected with the second processor (132), the second processor (132) determines the liquid level of the liquid storage tank according to the temperature information of the liquid storage tank, and judges whether the liquid storage tank has an explosion hidden danger or not according to the temperature and the liquid level information of the liquid storage tank;

the fire source detection module (103) comprises a third thermal infrared detector (113), a third intelligent dome-shaped monitor (123) and a third processor (133), the third thermal infrared detector (113) detects the temperature in a fire occurrence area, the third intelligent dome-shaped monitor (123) shoots a scene video picture, the third thermal infrared detector (113) and the third intelligent dome-shaped monitor (123) are both connected with the third processor (133), and the third processor (133) determines the point with the highest temperature in the fire occurrence area and takes the point as the position of the fire source;

the fire spreading direction judging module (104) comprises a fourth thermal infrared detector (114), a fourth intelligent ball type monitor (124) and a fourth processor (134), the fourth thermal infrared detector (114) detects the temperature of hot smoke gas flow in a fire occurrence area, the fourth intelligent ball type monitor (124) shoots a scene video picture, the fourth thermal infrared detector (114) and the fourth intelligent ball type monitor (124) are both connected with the fourth processor (134), and the fourth processor (134) judges the flowing direction of the hot smoke gas flow by analyzing the temperature difference of the hot smoke gas flow to obtain fire spreading direction information;

the first processor (131), the second processor (132), the third processor (133) and the fourth processor (134) are all connected with the central processor (105), and the central processor (105) analyzes and processes the received information to generate real-time fire near-condition information; and

the central processing unit (105) is connected with the wireless communication module (106), and the wireless communication module (106) receives the fire disaster approximate condition information and sends the fire disaster approximate condition information to the MR simulation fire-fighting hidden danger troubleshooting system (2).

2. The intelligent fire safety pre-judgment management linkage platform as claimed in claim 1, wherein the temperature threshold of the bearing part of the building structure is in the range of 350-400 ℃.

3. The intelligent fire safety pre-judgment management linkage platform according to claim 1, wherein the MR simulation fire hazard troubleshooting system (2) comprises a VR scene construction module (201), an AR scene construction module (202), a mixed reality scene construction module (203) and a wearable mobile interaction device (204),

the VR scene construction module (201) is connected with the wireless communication module (106), the VR scene construction module (201) receives the fire near condition information and constructs and generates an immersive scene according to the fire near condition information,

the AR scene construction module (202) is connected with the wireless communication module (106), the AR scene construction module (202) generates an augmented reality scene according to the fire near-condition information and in combination with real scene construction,

the VR scene construction module (201) and the AR scene construction module (202) are both connected with the mixed reality scene construction module (203), the mixed reality scene construction module (203) fuses the immersive scene and the augmented reality scene to construct and generate a mixed reality simulation scene,

the mixed reality scene building module (203) is connected with the wearable mobile interaction device (204), the wearable mobile interaction device (204) presents the mixed reality simulation scene to a wearer in real time, and the mixed reality scene building module (203) is further connected with the cloud service platform (7).

4. The intelligent fire safety pre-judging management linkage platform according to any one of claims 1-3, wherein the push information includes real-time fire information, fire safety popularization information and fire frequent region early warning information of the user's region.

5. The intelligent fire safety pre-judging management linkage platform according to any one of claims 1-3, wherein the reported information includes fire information of each area, real-time fire handling status information and fire equipment information of a fire-prone area.

6. The intelligent fire safety pre-judgment management linkage platform according to any one of claims 1 to 3, wherein the upper management terminal (9) comprises a fire fighter deployment department server, a fire fighting equipment management department server and a fire information supervision department server.

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