CN113920672A - Fire prevention monitoring system, method and medium capable of automatically analyzing safety route - Google Patents

Abstract

The invention discloses a fire prevention monitoring system, a method and a medium capable of automatically analyzing a safety route, which are applied to a space to be prevented and controlled, wherein the system comprises the following components: the monitoring and configuring module and the fire prevention processing module; the monitoring configuration module is used for acquiring circuit distribution information in the space to be prevented and controlled and configuring monitoring equipment in the space to be prevented and controlled based on the circuit distribution information; the fire prevention processing module is used for calling the monitoring equipment to detect the fire condition of the space to be prevented and controlled, and the fire prevention processing module executes escape route planning operation or alarm operation based on the fire condition; the intelligent fire detection system can intelligently detect fire and reasonably plan a safe escape route according to the current fire environment, and is extremely convenient and fast.

Description

Fire prevention monitoring system, method and medium capable of automatically analyzing safety route

Technical Field

The invention relates to the technical field of security protection, in particular to a fire prevention monitoring system, a method and a medium capable of automatically analyzing a safety route.

Background

The fire prevention monitored control system that adopts in the security protection system that has now only can carry out fire alarm, can't come rational planning out safe conflagration route of fleing according to current all ring edge borders, lacks to some extent in the function, can't accomplish intelligent help conflagration victim and flee, has certain limitation.

Disclosure of Invention

The invention mainly solves the problem that a fire protection monitoring system adopted in the existing security system can only carry out fire alarm and cannot reasonably plan a safe fire escape route according to the current surrounding environment.

In order to solve the technical problems, the invention adopts a technical scheme that: there is provided a fire monitoring system capable of automatically analyzing a safe route, which is applied to a space to be protected and controlled, the system including:

the monitoring and configuring module and the fire prevention processing module;

the monitoring configuration module is used for acquiring circuit distribution information in the space to be prevented and controlled and configuring monitoring equipment in the space to be prevented and controlled based on the circuit distribution information;

the fire prevention processing module is used for calling the monitoring equipment to detect the fire condition of the space to be prevented and controlled, and the fire prevention processing module executes escape route planning operation or alarm operation based on the fire condition.

As an improved solution, the monitoring configuration module includes: the device comprises a pipeline information acquisition module and an equipment installation module;

the pipeline information acquisition module is used for accessing building information of the space to be prevented and controlled, and the pipeline information acquisition module extracts the circuit distribution information from the building information;

the equipment installation module is used for setting the installation position of the monitoring equipment according to the circuit distribution information.

As an improved solution, the fire protection processing module comprises: a condition monitoring module and a measure execution module; a time sequence setting program is configured in the condition monitoring module and used for setting a detection time period; a fire level setting program is configured in the measure execution module and used for setting a fire level judgment reference;

the condition monitoring module is used for calling the monitoring equipment installed in the space to be prevented and controlled every other detection time period to acquire the fire condition;

the measure execution module is used for setting a fire level according to the fire situation and the fire level judgment reference, and the measure execution module executes the escape route planning operation or the alarm operation according to the fire level.

As an improved solution, the monitoring device comprises: calling response equipment, image detection equipment, temperature sensing equipment, humidity sensing equipment and information integration equipment; a template setting program is configured in the information integration equipment, and the template setting program is used for configuring a fire condition filling template;

the calling response equipment is used for responding to calling of the condition monitoring module and respectively sending a first signal, a second signal and a third signal to the image detection equipment, the temperature sensing equipment and the humidity sensing equipment;

the image detection device is used for acquiring a space image of the space to be prevented and controlled after receiving the first signal;

the temperature sensing equipment is used for capturing space temperature information of the space to be prevented and controlled after receiving the second signal;

the humidity sensing equipment is used for capturing space humidity information of the space to be prevented and controlled after receiving the third signal;

the information integration equipment is used for filling the space image, the space temperature information and the space humidity information into the fire condition filling template to obtain the fire condition.

As an improvement, the measure execution module includes: the system comprises a level setting module, a fire situation positioning module, a route planning module and an alarm module;

the level setting module is used for extracting fire image reference, temperature threshold reference and humidity threshold reference in the fire level judgment reference; the level setting module judges whether a first fire matched with the fire image reference exists in the space image or not; if yes, the level setting module sets the fire level as a first-level fire; if the fire disaster level is not the first-level fire disaster level, the level setting module judges whether the space temperature information and the space humidity information are respectively matched with the temperature threshold value reference and the humidity threshold value reference, if so, the level setting module sets the fire disaster level as the first-level fire disaster level, and if not, the level setting module sets the fire disaster level as the second-level fire disaster level;

the fire positioning module is used for acquiring spatial image identification information in the building information and judging the fire position of the fire condition based on the spatial image identification information and the spatial image;

the route planning module is used for executing the escape route planning operation according to the fire position when the fire level is the first-level fire;

and the alarm module is used for executing the alarm operation according to the fire position when the fire level is the second-level fire.

As an improvement, the route planning module comprises: the system comprises a fire fighting channel inspection module, an external scene inspection module, a route generation module, a user information acquisition module and a route sending module;

the escape route planning operation is realized through the mutual cooperation among the fire fighting access patrol module, the external scene patrol module, the route generation module, the user information acquisition module and the route sending module:

the fire fighting channel inspection module is used for acquiring fire fighting channel position information in the building information and detecting a first blocking condition of a fire fighting channel in the space to be prevented and controlled based on the fire fighting channel position information;

the external scene inspection module is used for acquiring spatial position information in the building information and detecting a second blockage condition of an environmental route outside the space to be prevented and controlled based on the spatial position information;

the route generation module is used for setting a plurality of interior safety channels in the fire fighting channel position information according to the fire situation position and the first blocking condition, and the route generation module creates a plurality of interior safety channel information respectively matched with the interior safety channels according to the fire fighting channel position information; the route generation module sets a plurality of outfield safety channels in the spatial position information according to the fire position and the second blockage condition; the route generation module creates a plurality of external field safety channel information respectively matched with the external field safety channels according to the spatial position information; the route generation module is also used for integrating the information of the plurality of internal field safety channels and the information of the plurality of external field safety channels to obtain information of a plurality of escape routes;

the user information acquisition module is used for accessing a user database of the space to be prevented and controlled and extracting a plurality of user communication addresses from the user database;

the route sending module is used for packaging the escape route information into first escape information and sending the first escape information to the user communication addresses.

As an improved solution, the alarm module includes: the system comprises a management terminal information acquisition module, an alarm information generation module and an alarm information sending module; a management address setting program is configured in the management terminal information acquisition module, and the management address setting program is used for setting a management terminal communication address matching table; the alarm information generation module is configured with an information editing program; the warning information sending module is connected with a wireless transmission module, and the wireless transmission module comprises: the Bluetooth transmission module and the network transmission module;

the alarm operation is realized through the mutual cooperation among the management terminal information acquisition module, the alarm information generation module and the alarm information sending module:

the management terminal information acquisition module is used for screening out a first management terminal address matched with the space to be prevented and controlled from the management terminal communication address matching table; the warning information generating module is used for calling the information editing program to create fire warning information according to the fire position; the alarm information sending module is used for calling the wireless transmission module to send the fire alarm information to a to-be-prevented and controlled space management terminal matched with the first management terminal address.

As an improved solution, the space to be controlled includes: campus, hospital, community, and bank.

The invention also provides a fire protection monitoring method of the fire protection monitoring system capable of automatically analyzing the safety route, which comprises the following steps:

an information acquisition step:

acquiring the circuit distribution information in the space to be prevented and controlled;

the equipment configuration step:

configuring the monitoring equipment in the space to be prevented and controlled based on the circuit distribution information;

and a fire detection step:

calling the monitoring equipment to detect the fire condition of the space to be prevented and controlled;

fireproof treatment:

and executing the escape route planning operation or the warning operation based on the fire condition.

The invention also provides a computer-readable storage medium having stored thereon a computer program which, when being executed by a processor, carries out the steps of the method of fire monitoring.

The invention has the beneficial effects that:

1. the fire-prevention monitoring system capable of automatically analyzing the safe route can realize intelligent fire detection through the mutual matching of the monitoring configuration module and the fire-prevention processing module, reasonably plan the safe escape route according to the current fire environment, and intelligently navigate the route to a user at a mobile end.

2. The fire prevention monitoring method can realize intelligent fire detection, reasonably plans a safe escape route according to the current fire environment, can intelligently navigate the route to a user at a mobile end, has ingenious logic, is extremely convenient and fast, has diversified functions, makes up the defects of the prior art, and has extremely high product competitiveness and market value.

3. The computer-readable storage medium can realize the cooperation of the guiding monitoring configuration module and the fire prevention processing module, further realize intelligent fire detection, reasonably plan a safe escape route according to the current fire environment, is extremely convenient and fast, has diversified functions, makes up the defects of the prior art, has extremely high product competitiveness and market value, and effectively improves the operability of the fire prevention monitoring method.

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, and it is obvious that the drawings in the following description are some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without creative efforts.

Fig. 1 is an architecture diagram of a fire monitoring system capable of automatically analyzing a safe route according to embodiment 1 of the present invention;

FIG. 2 is a flow chart of a fire monitoring method according to embodiment 2 of the present invention;

fig. 3 is a schematic specific flowchart of the fire protection monitoring method according to embodiment 2 of the present invention.

Detailed Description

The following detailed description of the preferred embodiments of the present invention, taken in conjunction with the accompanying drawings, will make the advantages and features of the invention easier to understand by those skilled in the art, and thus will clearly and clearly define the scope of the invention.

In the description of the present invention, it should be noted that the described embodiments of the present invention are a part of the embodiments of the present invention, and not all embodiments; all other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified and limited, the terms "space to be controlled", "monitoring configuration module", "fire prevention processing module", "circuit distribution information", "monitoring device", "fire situation", "escape route planning operation", "alarm operation", "pipeline information acquisition module", "device installation module", "construction information", "monitoring device installation position", "situation monitoring module", "measure execution module", "timing setting program", "detection period", "fire level setting program", "fire level judgment reference", "fire level", "image detection device", "temperature sensing device", "humidity sensing device", "information integration device", "template setting program", "fire situation filling template", "space image"), "space temperature information", "space humidity information", "level setting module", "fire positioning module", "route planning module", "alarm module", "fire image reference", "temperature threshold reference", "humidity threshold reference", "first-stage fire", "second-stage fire", "fire position", "fire passage inspection module", "outside inspection module", "route generation module", "user information acquisition module", "route transmission module", "fire passage position information", "blocking condition", "space position information", "environment route", "inside safety passage information", "outside safety passage information", "escape route information", "user database", "user communication address", "escape information", "management side information acquisition module", and, The "alarm information generation module", "alarm information transmission module", "management address setting program", "management side communication address matching table", "information editing program", "wireless transmission module", "bluetooth transmission module", "network transmission module", "management side address", "fire alarm information", and "to-be-controlled space management side" should be understood in a broad sense. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

In the description of the present invention, it should be noted that AI (Artificial Intelligence) is artificial intelligence.

Example 1

The embodiment provides a fire monitoring system capable of automatically analyzing a safe route, as shown in fig. 1, including: the monitoring and configuring module and the fire prevention processing module; the system is applied to spaces to be prevented and controlled, and the spaces to be prevented and controlled are spaces needing fire prevention and control, including but not limited to public places or private places such as campuses, banks, communities, hospitals and the like;

correspondingly, in the fire-prevention monitoring system capable of automatically analyzing the safe route, a monitoring configuration module is used for acquiring circuit distribution information in the space to be prevented and controlled and configuring monitoring equipment in the space to be prevented and controlled based on the circuit distribution information; in the fire-prevention monitoring system capable of automatically analyzing the safe route, a fire-prevention processing module is used for calling the monitoring equipment to detect the fire condition of the space to be prevented and controlled, and the fire-prevention processing module executes escape route planning operation or alarm operation based on the fire condition; in this embodiment, the monitoring configuration module provides basic monitoring equipment for the system, and the fire prevention processing module is a key module for the system to implement route planning and fire prevention detection;

specifically, the monitoring configuration module includes: the device comprises a pipeline information acquisition module and an equipment installation module; the equipment installation module is internally provided with a plurality of monitoring equipment; the pipeline information acquisition module is used for accessing building information of the space to be prevented and controlled, and the pipeline information acquisition module extracts the circuit distribution information from the building information; in this embodiment, the building information is all construction and decoration information of the space to be prevented and controlled, which includes but is not limited to: waterway laying information, circuit laying information, space house type information and the like; the device installation module is configured to set installation positions of monitoring devices according to the circuit distribution information, in this embodiment, the installation positions of the monitoring devices exist in a list form, and include position information of a plurality of monitoring devices that can be installed in a space to be controlled, and models, in-place states, and the like of the monitoring devices corresponding to the position information; correspondingly, the circuit distribution information is the circuit laying information, and the uninterrupted power supply required for meeting the monitoring equipment is obtained according to the consideration aspect of the circuit laying information; meanwhile, in the embodiment, the number of the monitoring devices is not limited, the more the monitoring devices are, the better the monitoring devices are, the more the monitoring devices are, the better the all-around fire monitoring effect is.

Specifically, the fireproof treatment module includes: a condition monitoring module and a measure execution module; a time sequence setting program is configured in the condition monitoring module and used for setting a detection time period; a fire level setting program is configured in the measure execution module and used for setting a fire level judgment reference; in the present embodiment, the detection time period is set to 1s, and the detection time period is specifically set using a scene, and it is conceivable that the detection time period is specifically set according to a specific type of the space to be controlled, for example: if the space to be prevented and controlled is a campus, setting of a detection time period can be carried out according to the frequency of fire source use in the campus, and if the space to be prevented and controlled is a gas station, real-time detection is required, so that protection monitoring with highest safety is achieved; the condition monitoring module is used for calling the monitoring equipment installed in the space to be prevented and controlled every other detection time period to acquire the fire condition; in this embodiment, the calling of the condition monitoring module is limited to only the monitoring devices installed in the space to be controlled, and the monitoring devices installed in the space to be controlled are all in a powered-on working state; the measure execution module is used for setting a fire level according to the fire situation and the fire level judgment reference, and executing the escape route planning operation or the alarm operation according to the fire level; in the embodiment, the fire level determination criterion is set according to the index of the fire prevention and control center, specifically including but not limited to an image criterion of the fire intensity at the time of fire occurrence, a temperature criterion in the space at the time of fire occurrence, and a humidity criterion in the space at the time of fire occurrence; with the above reference, the specific level and state of the fire can be judged more accurately, and then effective measures are taken, meanwhile, invalid fire prevention is prevented, and resource waste is avoided.

Specifically, the monitoring device includes: calling response equipment, image detection equipment, temperature sensing equipment, humidity sensing equipment and information integration equipment; a template setting program is configured in the information integration equipment, and the template setting program is used for configuring a fire condition filling template; specifically, the call responding device is configured to respond to the call of the condition monitoring module, and send a first signal, a second signal, and a third signal to the image detection device, the temperature sensing device, and the humidity sensing device, respectively; in this embodiment, the response device is called as a signal transceiver, and then the transceiving conversion of the signal or the dispersive propagation of the signal is performed; the image detection device is used for acquiring a space image of the space to be prevented and controlled after receiving the first signal; in this embodiment, the image detection device is a full wide-angle industrial camera, and the spatial image is all real-time image information about the space to be prevented and controlled that can be captured by the image detection device; the temperature sensing equipment is used for capturing space temperature information of the space to be prevented and controlled after receiving the second signal; in this embodiment, the temperature sensing device is a temperature sensor, and correspondingly, the space temperature information is real-time temperature information in the space to be controlled; the humidity sensing equipment is used for capturing space humidity information of the space to be prevented and controlled after receiving the third signal; in this embodiment, the humidity sensing device is a humidity sensor, and the space humidity information is real-time humidity information in the space to be controlled; in this embodiment, the plurality of pieces of real-time information acquired by the device are all based on the setting of the detection time period, so as to realize real-time operation; the information integration equipment is used for filling the space image, the space temperature information and the space humidity information into the fire condition filling template to obtain the fire condition; correspondingly, the detection of information in different aspects is carried out according to various types of equipment, so that the fire condition in the space to be prevented and controlled can be judged accurately, inerrably and comprehensively, namely whether a fire disaster happens in the space to be prevented and controlled is detected, and then corresponding measures are taken, and the intelligent control system is extremely intelligent.

Specifically, the measure execution module includes: the system comprises a level setting module, a fire situation positioning module, a route planning module and an alarm module; the level setting module is used for extracting fire image reference, temperature threshold reference and humidity threshold reference in the fire level judgment reference; the level setting module judges whether a first fire matched with the fire image reference exists in the space image or not; in this embodiment, the fire image reference is a judgment reference of the fire size displayed in an imaging form, and if the fire image reference exists, it indicates that a large fire exists, so the level setting module sets the fire level as a first-level fire, which indicates that extinguishing cannot be performed in a short time and people need to be evacuated; if the fire disaster is not existed, further fire disaster hidden condition judgment is needed according to the temperature and the humidity, so that the level setting module judges whether the space temperature information and the space humidity information are respectively matched with the temperature threshold value reference and the humidity threshold value reference, if so, the level setting module shows that the influence of the space temperature and the humidity caused by the fire disaster reaches the level of people needing evacuation although the fire disaster of the current fire disaster does not reach the judgment reference, so that the level setting module sets the fire disaster level as a first-level fire disaster, if not, the fire disaster can be controlled at present and does not reach the level of people needing evacuation, so the level setting module sets the fire disaster level as a second-level fire disaster, and the second-level fire disaster is a fire disaster which is more conventional, easy to extinguish and difficult to diffuse into a larger fire disaster; correspondingly, in this embodiment, if the determination criterion is adjusted, the corresponding level determination logic also needs to be adaptively changed, but any change does not exceed the logic concept in this embodiment; specifically, the fire locating module is configured to obtain spatial image identification information in the building information, where the spatial image identification information is identification information of a plurality of spaces in the building information, which exist in the form of images and pictures, in the space to be prevented and controlled; the fire positioning module judges the fire position of the fire condition based on the spatial image identification information and the spatial image; correspondingly, the fire position of a specific fire condition can be analyzed by comparing the identifier with the space image, and the fire position comprises but is not limited to the place, space, floor or specific position of the fire condition; specifically, the route planning module is configured to, when the fire level is the first-level fire, perform the escape route planning operation according to the fire position; specifically, the alarm module is configured to execute the alarm operation according to the fire position when the fire level is the second-level fire.

Specifically, the route planning module includes: the system comprises a fire fighting channel inspection module, an external scene inspection module, a route generation module, a user information acquisition module and a route sending module; in the embodiment, the fire fighting access patrol module adopts a patrol robot; the external scene inspection module adopts an unmanned aerial vehicle; the route generation module is compiled based on a navigation system; the user information acquisition module and the route sending module are devices, modules or chips integrating information acquisition, information packaging and information transmission functions;

the escape route planning operation is realized through the mutual cooperation among the fire fighting access patrol module, the external scene patrol module, the route generation module, the user information acquisition module and the route sending module:

specifically, the fire fighting access patrol module is used for acquiring fire fighting access position information in the building information and detecting a first blocking condition of a fire fighting access in the space to be prevented and controlled based on the fire fighting access position information; in this embodiment, the fire fighting access position information is specific information of the fire fighting access in the building information in the space to be prevented and controlled; for example: the space to be controlled is a community, and the fire passage position information is the position of a safety fire door at the center of each floor of each house in the community; therefore, the inspection robot can be used for intelligently inspecting the fire fighting access, so that the painted route is prevented from being planned during route planning, and the safety of a user is further endangered; the external scene inspection module is used for acquiring spatial position information in the building information and detecting a second blockage condition of an environmental route outside the space to be prevented and controlled based on the spatial position information; in this embodiment, not only the route planning inside the space to be controlled but also the corresponding route planning outside the space to be controlled when the fire is too large are considered; the space position information is GPS positioning information matched with all roads, places and peripheries in the area where the space to be prevented and controlled is located; by means of the control of the unmanned aerial vehicle, the situation of route blockage outside the space to be prevented and controlled can be looked around, and a data base is made for a subsequent safe escape route; correspondingly, the unmanned aerial vehicle and the inspection robot both adopt the unmanned aerial vehicle and the inspection robot with wireless control functions, so that the intelligence and the applicability of the system are further improved;

the route generation module is used for setting a plurality of interior safety channels in the fire fighting channel position information according to the fire situation position and the first blocking condition, and the route generation module creates a plurality of interior safety channel information respectively matched with the interior safety channels according to the fire fighting channel position information; correspondingly, the route generation module needs to design a route avoiding fire position so as to ensure the safety of a user; the information of the plurality of interior safety channels is the safety fire fighting channels which can escape from the fire position; the route generation module sets a plurality of outfield safety channels in the spatial position information according to the fire position and the second blockage condition; the route generation module creates a plurality of external field safety channel information respectively matched with the external field safety channels according to the spatial position information; the outfield safety channel is a safe driving route which avoids the position of fire and can not be influenced by the fire in the space to be prevented and controlled outside the space to be prevented and controlled; the information of the internal/external field safety channels is the specific names and the specific positions of the plurality of safety fire fighting channels and the plurality of safety driving routes; for example: a second-floor fire passage of the first house and XXX avenue XX in the south of the district; the route generation module is also used for integrating the information of the plurality of internal field safety channels and the information of the plurality of external field safety channels to obtain information of a plurality of escape routes; the escape route information is a plurality of escape route schemes which are formed by matching and combining a plurality of pieces of internal field safety channel information and a plurality of pieces of external field safety channel information; for example: descending from the common stairs of the first house to the third floor, entering from a fire passage of the third floor until the first floor leaves the house, driving to an entrance guard along the main road of the cell, and driving by XX meters towards the XX street of the south of the cell; the user information acquisition module is used for accessing a user database of the space to be prevented and controlled and extracting a plurality of user communication addresses from the user database; in this embodiment, the user database is related address information, relative information and communication address information of a group who carries out life or work in the space to be prevented and controlled, which is set up when the space to be prevented and controlled is created; the communication address includes but is not limited to a mobile phone number, a mailbox or a WeChat of the user; the route sending module is used for packaging the escape route information into first escape information and sending the first escape information to the user communication addresses; correspondingly, first escape information is finally sent to the user through the route sending module, the first escape information is safe escape route information, and the safe escape route information simultaneously comprises an escape prompt for the user, so that the user who is not in the space to be prevented and controlled can prompt the user who is in the space to be prevented and controlled; correspondingly, the target sending address of the first escape information comprises but is not limited to a plurality of user communication addresses, and also can comprise an emergency contact communication address which is registered by a user database and matched with the user;

correspondingly, it is conceivable that, a big data analysis module may be added in the escape route planning operation, and then the road condition information inside and outside the space to be prevented and controlled is collected every day, and then the time consumed for running of each part route inside and outside the space to be prevented and controlled is analyzed, including: walking, running, driving and the like, and then reasonably planning an escape route with the optimal time according to the time data and the route distance data; meanwhile, it is also conceivable to design an intelligent AI algorithm system to calculate the fire spreading time and the safe escaping time of all users, and further to calculate the fire spreading time and the safe escaping time of all users

Reasonably planning the escape time point or time period of each user according to the running time, the escape route with the optimal time, the fire spreading time and the safe escape time of all users, and then sequentially informing the users of orderly fire prevention and escape by adopting the communication addresses, further avoiding fire, reducing the uncertainty factor when the fire occurs and improving the success rate of fire prevention and control; correspondingly, it is also conceivable that the information is finally converted into a data packet which can be communicated with navigation software of a user mobile phone end, so that when the user opens the data packet, the user can automatically jump to a navigation interface, and the user is guided to escape from a fire thread through automatic navigation, thereby further making up the defects of the prior art and improving the safety quality of social life.

Specifically, the alarm module includes: the system comprises a management terminal information acquisition module, an alarm information generation module and an alarm information sending module; a management address setting program is configured in the management terminal information acquisition module, and the management address setting program is used for setting a management terminal communication address matching table; in this embodiment, the management-side communication address matching table is a data set in which contact ways of property sides or management sides of a plurality of different types of spaces to be prevented and controlled are recorded; correspondingly, the contact information also includes but is not limited to a telephone or a mailbox, etc.; the alarm information generation module is configured with an information editing program; the warning information sending module is connected with a wireless transmission module, and the wireless transmission module comprises: the Bluetooth transmission module and the network transmission module; the space to be prevented and controlled comprises: campus, hospital, community, and bank;

the alarm operation is realized through the mutual cooperation among the management terminal information acquisition module, the alarm information generation module and the alarm information sending module:

the management terminal information acquisition module is used for screening out a first management terminal address matched with the space to be prevented and controlled from the management terminal communication address matching table; the first management address is a contact telephone of a manager or an emergency alarm person of the space to be prevented and controlled; correspondingly, the first management terminal address includes but is not limited to a contact telephone of a district control department of the space to be controlled; the warning information generating module is used for calling the information editing program to create fire warning information according to the fire position; the fire alarm information includes, for example: if a fire exists in the XX layer southward position, please go to the process immediately; the alarm information sending module is used for calling the wireless transmission module to send the fire alarm information to a to-be-prevented and controlled space management terminal matched with the first management terminal address.

Through the fire prevention monitoring system of a but automatic analysis safety route that this embodiment described, can dispose module and fire prevention processing module's mutually supporting through the control, and then realize intelligent carrying on fire detection to rationally plan out safe route of fleing according to current conflagration environment, all functions are integrated as an organic whole, very big improvement people social life's security, improved people's sense of safety, further improved the success rate of conflagration prevention and control, have high practical prospect and social value.

Example 2

The embodiment provides a fire monitoring method of a fire monitoring system capable of automatically analyzing a safe route, as shown in fig. 2 and 3, including the following steps:

s100, information acquisition:

step S100 specifically includes:

s110, acquiring the circuit distribution information in the space to be prevented and controlled;

specifically, the building information of the space to be controlled is accessed, and the pipeline information acquisition module extracts the circuit distribution information from the building information.

S200, equipment configuration:

step S200 specifically includes:

s210, configuring the monitoring equipment in the space to be prevented and controlled based on the circuit distribution information;

specifically, the installation position of the monitoring device is set according to the circuit distribution information, and the monitoring device is configured in the space to be prevented and controlled based on the installation position of the monitoring device.

S300, fire detection:

step S300 specifically includes:

s310, calling the monitoring equipment to detect the fire condition of the space to be prevented and controlled;

specifically, a detection time period is set, and the monitoring equipment installed in the space to be prevented and controlled is called every other detection time period to acquire the fire condition; therefore, calling the second equipment every other detection time period to acquire the fire condition;

furthermore, a calling response device, an image detection device, a temperature sensing device, a humidity sensing device and an information integration device are configured in the monitoring device; configuring a template setting program, and calling the template setting program to configure a fire situation filling template; calling the calling response equipment to respond to the calling every other detection time period, and respectively sending a first signal, a second signal and a third signal to the image detection equipment, the temperature sensing equipment and the humidity sensing equipment through the calling response equipment; after the image detection equipment receives the first signal, acquiring a space image of the space to be prevented and controlled; after the temperature sensing equipment receives the second signal, capturing space temperature information of the space to be prevented and controlled; after the humidity sensing equipment receives the third signal, capturing space humidity information of the space to be prevented and controlled; and filling the space image, the space temperature information and the space humidity information into the fire condition filling template to obtain the fire condition.

S400, fireproof treatment:

step S400 specifically includes:

and S410, executing the escape route planning operation or the alarming operation based on the fire situation.

Specifically, a fire level judgment standard is set; setting a fire level according to the fire situation and the fire level judgment reference, and executing the escape route planning operation or the alarm operation according to the fire level;

further, extracting a fire image reference, a temperature threshold reference and a humidity threshold reference in the fire level judgment reference; judging whether a first fire matched with the fire image reference exists in the space image or not; if yes, setting the fire level as a first-class fire; if not, judging whether the space temperature information and the space humidity information are respectively matched with the temperature threshold value reference and the humidity threshold value reference, if so, setting the fire level as a first-level fire, and if not, setting the fire level as a second-level fire; acquiring spatial image identification information in the building information, and judging the fire position of the fire condition based on the spatial image identification information and the spatial image; when the fire level is the first-level fire, executing the escape route planning operation according to the fire position; when the fire level is the second-level fire, executing the alarm operation according to the fire position;

still further, the escape route planning operation includes: configuring a fire fighting channel inspection module, an external scene inspection module, a route generation module, a user information acquisition module and a route sending module; calling the fire fighting channel inspection module to acquire fire fighting channel position information in the building information, and detecting a first blocking condition of a fire fighting channel in the space to be prevented and controlled based on the fire fighting channel position information; calling the external scene inspection module to obtain spatial position information in the building information, and detecting a second blocking condition of an environmental route outside the space to be prevented and controlled based on the spatial position information; calling the route generation module to set a plurality of interior safety channels in the fire fighting channel position information for the fire situation position and the first blocking condition, and calling the route generation module to create a plurality of interior safety channel information respectively matched with the plurality of interior safety channels according to the fire fighting channel position information; calling the route generation module to set a plurality of outfield safety channels in the spatial position information according to the fire position and the second blockage condition; calling the route generation module to create a plurality of external field safety channel information respectively matched with the external field safety channels according to the spatial position information; calling the route generation module to integrate the information of the plurality of internal field safety channels and the information of the plurality of external field safety channels to obtain information of a plurality of escape routes; calling the user information acquisition module to access a user database of the space to be prevented and controlled, and extracting a plurality of user communication addresses from the user database; calling the route sending module to package the escape route information into first escape information, and sending the first escape information to the user communication addresses;

still further, the alert operation includes: the system comprises a configuration management terminal information acquisition module, an alarm information generation module and an alarm information sending module; configuring a management address setting program in the management terminal information acquisition module, and calling the management address setting program to set a management terminal communication address matching table; configuring an information editing program in the alarm information generation module; the alarm information sending module is connected with a wireless transmission module; calling the management terminal information acquisition module to screen out a first management terminal address matched with the space to be prevented and controlled from the management terminal communication address matching table; calling the alarm information generation module to create fire alarm information according to the fire position through the information editing program; and calling the alarm information sending module to send the fire alarm information to a to-be-prevented and controlled space management terminal matched with the first management terminal address through the wireless transmission module.

According to the fire prevention monitoring method described in the embodiment, intelligent fire detection can be realized, a safe escape route can be reasonably planned according to the current fire environment, all functions are integrated into a whole, the safety of people's social life is greatly improved, the safety sense of people is improved, the success rate of fire prevention and control is further improved, and the fire prevention monitoring method has a very high practical prospect and social value.

Example 3

The present embodiments provide a computer-readable storage medium comprising:

the storage medium is used for storing computer software instructions for implementing the fire protection monitoring method described in embodiment 2, and includes a program for executing the fire protection monitoring method; specifically, the executable program may be embedded in the fire monitoring system capable of automatically analyzing the safety route according to embodiment 1, so that the fire monitoring system capable of automatically analyzing the safety route may implement the fire monitoring method according to embodiment 2 by executing the embedded executable program.

Furthermore, the computer-readable storage medium of the present embodiments may take any combination of one or more readable storage media, where a readable storage medium includes an electronic, optical, electromagnetic, infrared, or semiconductor system, apparatus, or device, or any combination thereof.

Different from the prior art, the fireproof monitoring system, the method and the medium capable of automatically analyzing the safe route can be used for intelligently detecting fire through the system, reasonably planning a safe escape route according to the current fire environment, correspondingly and intelligently navigating the route to a user at a mobile end, all functions are integrated into a whole, the system is extremely convenient and fast, the functions are diversified, ingenious operation logic is provided for the system through the method, the defects of the prior art are finally overcome, and the system has extremely high product competitiveness and market value.

The numbers of the embodiments disclosed in the embodiments of the present invention are merely for description, and do not represent the merits of the embodiments.

It will be understood by those skilled in the art that all or part of the steps of implementing the above embodiments may be implemented by hardware, and a program that can be implemented by the hardware and can be instructed by the program to be executed by the relevant hardware may be stored in a computer readable storage medium, where the storage medium may be a read-only memory, a magnetic or optical disk, and the like.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes performed by the present specification and drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (10)

1. A fire monitoring system capable of automatically analyzing a safe route, which is applied to a space to be protected and controlled, the system comprising: the monitoring and configuring module and the fire prevention processing module;

the monitoring configuration module is used for acquiring circuit distribution information in the space to be prevented and controlled and configuring monitoring equipment in the space to be prevented and controlled based on the circuit distribution information;

the fire prevention processing module is used for calling the monitoring equipment to detect the fire condition of the space to be prevented and controlled, and the fire prevention processing module executes escape route planning operation or alarm operation based on the fire condition.

2. A fire monitoring system capable of automatically analyzing a safe route according to claim 1, wherein the monitoring configuration module comprises: the device comprises a pipeline information acquisition module and an equipment installation module;

the pipeline information acquisition module is used for accessing building information of the space to be prevented and controlled, and the pipeline information acquisition module extracts the circuit distribution information from the building information;

the equipment installation module is used for setting the installation position of the monitoring equipment according to the circuit distribution information.

3. A fire monitoring system capable of automatically analyzing a safe route according to claim 2, wherein the fire protection processing module comprises: a condition monitoring module and a measure execution module; a time sequence setting program is configured in the condition monitoring module and used for setting a detection time period; a fire level setting program is configured in the measure execution module and used for setting a fire level judgment reference;

the condition monitoring module is used for calling the monitoring equipment installed in the space to be prevented and controlled every other detection time period to acquire the fire condition;

the measure execution module is used for setting a fire level according to the fire situation and the fire level judgment reference, and the measure execution module executes the escape route planning operation or the alarm operation according to the fire level.

4. A fire monitoring system for automatically analyzing a safe route according to claim 3, wherein the monitoring device comprises: calling response equipment, image detection equipment, temperature sensing equipment, humidity sensing equipment and information integration equipment; a template setting program is configured in the information integration equipment, and the template setting program is used for configuring a fire condition filling template;

the calling response equipment is used for responding to calling of the condition monitoring module and respectively sending a first signal, a second signal and a third signal to the image detection equipment, the temperature sensing equipment and the humidity sensing equipment;

the image detection device is used for acquiring a space image of the space to be prevented and controlled after receiving the first signal;

the temperature sensing equipment is used for capturing space temperature information of the space to be prevented and controlled after receiving the second signal;

the humidity sensing equipment is used for capturing space humidity information of the space to be prevented and controlled after receiving the third signal;

the information integration equipment is used for filling the space image, the space temperature information and the space humidity information into the fire condition filling template to obtain the fire condition.

5. The fire monitoring system capable of automatically analyzing a safe route according to claim 4, wherein the measure performing module comprises: the system comprises a level setting module, a fire situation positioning module, a route planning module and an alarm module;

the level setting module is used for extracting fire image reference, temperature threshold reference and humidity threshold reference in the fire level judgment reference; the level setting module judges whether a first fire matched with the fire image reference exists in the space image or not; if yes, the level setting module sets the fire level as a first-level fire; if the fire disaster level is not the first-level fire disaster level, the level setting module judges whether the space temperature information and the space humidity information are respectively matched with the temperature threshold value reference and the humidity threshold value reference, if so, the level setting module sets the fire disaster level as the first-level fire disaster level, and if not, the level setting module sets the fire disaster level as the second-level fire disaster level;

the fire positioning module is used for acquiring spatial image identification information in the building information and judging the fire position of the fire condition based on the spatial image identification information and the spatial image;

the route planning module is used for executing the escape route planning operation according to the fire position when the fire level is the first-level fire;

and the alarm module is used for executing the alarm operation according to the fire position when the fire level is the second-level fire.

6. The fire monitoring system of claim 5, wherein the routing module comprises: the system comprises a fire fighting channel inspection module, an external scene inspection module, a route generation module, a user information acquisition module and a route sending module;

the escape route planning operation is realized through the mutual cooperation among the fire fighting access patrol module, the external scene patrol module, the route generation module, the user information acquisition module and the route sending module:

the fire fighting channel inspection module is used for acquiring fire fighting channel position information in the building information and detecting a first blocking condition of a fire fighting channel in the space to be prevented and controlled based on the fire fighting channel position information;

the external scene inspection module is used for acquiring spatial position information in the building information and detecting a second blockage condition of an environmental route outside the space to be prevented and controlled based on the spatial position information;

the route generation module is used for setting a plurality of interior safety channels in the fire fighting channel position information according to the fire situation position and the first blocking condition, and the route generation module creates a plurality of interior safety channel information respectively matched with the interior safety channels according to the fire fighting channel position information; the route generation module sets a plurality of outfield safety channels in the spatial position information according to the fire position and the second blockage condition; the route generation module creates a plurality of external field safety channel information respectively matched with the external field safety channels according to the spatial position information; the route generation module is also used for integrating the information of the plurality of internal field safety channels and the information of the plurality of external field safety channels to obtain information of a plurality of escape routes;

the user information acquisition module is used for accessing a user database of the space to be prevented and controlled and extracting a plurality of user communication addresses from the user database;

the route sending module is used for packaging the escape route information into first escape information and sending the first escape information to the user communication addresses.

7. The fire monitoring system capable of automatically analyzing a safe route according to claim 6, wherein the alarm module comprises: the system comprises a management terminal information acquisition module, an alarm information generation module and an alarm information sending module; a management address setting program is configured in the management terminal information acquisition module, and the management address setting program is used for setting a management terminal communication address matching table; the alarm information generation module is configured with an information editing program; the warning information sending module is connected with a wireless transmission module, and the wireless transmission module comprises: the Bluetooth transmission module and the network transmission module;

the alarm operation is realized through the mutual cooperation among the management terminal information acquisition module, the alarm information generation module and the alarm information sending module:

the management terminal information acquisition module is used for screening out a first management terminal address matched with the space to be prevented and controlled from the management terminal communication address matching table; the warning information generating module is used for calling the information editing program to create fire warning information according to the fire position; the alarm information sending module is used for calling the wireless transmission module to send the fire alarm information to a to-be-prevented and controlled space management terminal matched with the first management terminal address.

8. A fire monitoring system capable of automatically analyzing a safe route according to claim 7, wherein the space to be protected includes: campus, hospital, community, and bank.

9. A fire monitoring method of a fire monitoring system capable of automatically analyzing a safe route according to any one of the preceding claims, comprising the steps of:

an information acquisition step:

acquiring the circuit distribution information in the space to be prevented and controlled;

the equipment configuration step:

configuring the monitoring equipment in the space to be prevented and controlled based on the circuit distribution information;

and a fire detection step:

calling the monitoring equipment to detect the fire condition of the space to be prevented and controlled;

fireproof treatment:

and executing the escape route planning operation or the warning operation based on the fire condition.

10. A computer-readable storage medium, characterized in that a computer program is stored on the computer-readable storage medium, which computer program, when being executed by a processor, carries out the steps of the fire monitoring method as claimed in claim 9.

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