CN112767636A - Fire alarm method, fire alarm device, computer equipment and storage medium - Google Patents

Abstract

The application relates to a fire alarm method, a fire alarm device, computer equipment and a storage medium. The method comprises the following steps: the fire alarm system acquires field information aiming at a target field; if the field information is larger than a preset fire alarm threshold, determining alarm information matched with the field information; acquiring target image data corresponding to field information from an image database in which a plurality of image data are stored in advance; wherein the plurality of image data is used to characterize different fire strategies; and sending the alarm information and the target image data to a team personnel terminal for displaying so that the team personnel terminal can obtain a fire-fighting strategy corresponding to the target image data based on the alarm information and execute fire-fighting treatment on a target site by using the fire-fighting strategy. By adopting the method, the on-site decision of fire treatment can be carried out before the fire reaches the site, so that the efficiency of fire alarm treatment is improved.

Description

Fire alarm method, fire alarm device, computer equipment and storage medium

Technical Field

The application relates to the technical field of electric fire fighting, in particular to a fire fighting alarm method, a fire fighting alarm device, computer equipment and a storage medium.

Background

With the development of the electric fire protection technology, a technology for performing a fire alarm by using visualization has appeared, which enables a team member handling a fire to quickly lock a location of a fire scene and go to the scene for fire protection treatment by displaying a place where the fire occurs and a severity of the fire on a terminal.

In the existing technology for visually executing the fire alarm, only the place where the fire occurs and the severity of the fire are displayed on the processing terminal of the team member, the team member needs to make a site decision for the fire treatment after arriving at the site, for example, a fire fighting tool needs to be used, and the location of the fire fighting tool needs to make a site decision after the team member arrives at the site, so the efficiency of the fire alarm processing is low.

Disclosure of Invention

In view of the above, it is necessary to provide a fire alarm method, an apparatus, a computer device and a storage medium for solving the above technical problems.

A fire alarm method is applied to a fire alarm system, and comprises the following steps:

acquiring field information aiming at a target field;

if the field information is larger than a preset fire alarm threshold value, determining alarm information matched with the field information;

acquiring target image data corresponding to the field information from an image database in which a plurality of image data are stored in advance; wherein the plurality of image data is used to characterize different fire strategies;

and sending the alarm information and the target image data to a team personnel terminal for displaying so that the team personnel terminal obtains a fire fighting strategy corresponding to the target image data based on the alarm information and executes fire fighting treatment on the target site by utilizing the fire fighting strategy.

In one embodiment, the fire protection strategy comprises an escape strategy; the acquiring of the target image data corresponding to the site information from the image database in which a plurality of image data are stored in advance includes: determining a target escape route of the target site according to a preset corresponding relationship between the site and the escape route; acquiring escape route animation matched with the target escape route from the image database as the target image data; the warning information and the target image data are sent to a team personnel terminal to be displayed, so that the team personnel terminal obtains a fire fighting strategy corresponding to the target image data based on the warning information and executes fire fighting treatment on a target site by utilizing the fire fighting strategy, and the method comprises the following steps: and sending the alarm information and the escape route animation to the team personnel terminal for displaying so that the team personnel terminal determines and executes an escape strategy corresponding to the escape route animation according to the alarm information.

In one of the embodiments, the fire strategy further comprises a fire suppression strategy; the acquiring of the target image data corresponding to the site information from the image database in which a plurality of image data are stored in advance includes: acquiring a fire control allocation mechanism corresponding to the field information, and determining fire-fighting equipment corresponding to the fire control allocation mechanism; acquiring a virtual three-dimensional device image matched with the fire fighting device from the image database as the target image data; the warning information and the target image data are sent to a team personnel terminal to be displayed, so that the team personnel terminal obtains a fire fighting strategy corresponding to the target image data based on the warning information and executes fire fighting treatment on a target site by utilizing the fire fighting strategy, and the method comprises the following steps: and sending the alarm information and the virtual three-dimensional equipment image to the team personnel terminal for displaying so that the team personnel terminal determines the fire fighting equipment corresponding to the virtual three-dimensional equipment image based on the alarm information and executes the fire fighting strategy by utilizing the fire fighting equipment.

In one embodiment, the fire alarm threshold includes: a first alarm threshold and a second alarm threshold; the field information comprises: temperature information of the target site and smoke concentration information of the target site; the determining the alarm information matched with the field information comprises: and if the temperature information is greater than the first alarm threshold value or the smoke concentration information is greater than the second alarm threshold value, acquiring alarm information matched with the field information according to the temperature information and the smoke concentration information.

In one embodiment, the obtaining alarm information matched with the field information according to the temperature information and the smoke concentration information includes: acquiring a temperature interval corresponding to the temperature information and a concentration interval corresponding to the smoke concentration information; determining the abnormal grade of the target site according to the temperature interval and the concentration interval; and taking the alarm information corresponding to the abnormal grade as the alarm information matched with the field information based on the corresponding relation between the preset abnormal grade and the alarm information.

In one embodiment, the method further comprises:

responding to an alarm list operation aiming at an alarm list to be operated, which is triggered by the team personnel terminal, acquiring the alarm list to be operated from a pre-generated alarm log and displaying the alarm list on the team personnel terminal; and responding to a query request aiming at the to-be-queried alarm information triggered by the team personnel terminal based on the to-be-queried alarm list, and returning the to-be-queried alarm information from the to-be-queried alarm list to the team personnel terminal for display.

In one embodiment, after the alarm information to be queried is returned from the alarm list to be operated to the team personnel terminal for display, the method further includes: and receiving alarm updating information of the team personnel terminal based on the displayed alarm information to be inquired, and updating the alarm information to be inquired by using the alarm updating information so as to update the alarm log.

A fire alarm device applied to a fire alarm system, the device comprising:

the field information acquisition module is used for acquiring field information aiming at a target field;

the alarm information generation module is used for determining alarm information matched with the field information if the field information is greater than a preset fire alarm threshold value;

the image data acquisition module is used for acquiring target image data corresponding to the field information from an image database in which a plurality of image data are stored in advance; wherein the plurality of image data is used to characterize different fire strategies;

and the warning information processing module is used for sending the warning information and the target image data to a team personnel terminal for displaying so that the team personnel terminal can acquire a fire fighting strategy corresponding to the target image data based on the warning information and execute fire fighting processing on the target site by utilizing the fire fighting strategy.

A computer device comprising a memory storing a computer program and a processor implementing the steps of the above method when executing the computer program.

A computer-readable storage medium, on which a computer program is stored which, when being executed by a processor, carries out the steps of the above-mentioned method.

According to the fire alarm method, the fire alarm device, the computer equipment and the storage medium, the fire alarm system acquires the site information aiming at the target site; if the field information is larger than a preset fire alarm threshold, determining alarm information matched with the field information; acquiring target image data corresponding to field information from an image database in which a plurality of image data are stored in advance; wherein the plurality of image data is used to characterize different fire strategies; and sending the alarm information and the target image data to a team personnel terminal for displaying so that the team personnel terminal can obtain a fire-fighting strategy corresponding to the target image data based on the alarm information and execute fire-fighting treatment on a target site by using the fire-fighting strategy. According to the fire alarm method, different fire strategies can be represented in a visual image data mode, the image is sent to the team personnel terminal, so that the team personnel terminal can execute different fire strategies according to the image, and therefore the site decision of fire treatment can be made before the fire alarm method arrives at the site, and the fire alarm treatment efficiency is improved.

Drawings

FIG. 1 is a diagram of an exemplary implementation of a fire alarm method;

FIG. 2 is a flow diagram of a fire alarm method in one embodiment;

FIG. 3 is a flow diagram illustrating a process of obtaining alarm information matched with field information in one embodiment;

FIG. 4 is a flowchart illustrating displaying warning information to be queried in one embodiment;

FIG. 5 is a flow chart of a fire alarm management method for power storage in an application example;

FIG. 6 is a block diagram of a fire alarm device in one embodiment;

FIG. 7 is a diagram illustrating an internal structure of a computer device according to an embodiment.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the present application is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

The fire alarm method provided by the application can be applied to the application environment shown in FIG. 1. Wherein, the team personnel terminal 101 communicates with the fire alarm system 102 through the network. Specifically, the fire alarm system 102 may collect site information of a certain target site to determine whether an abnormal fire accident occurs, and if an abnormal fire accident occurs, generate corresponding alarm information, and meanwhile, may find target image data used to represent a certain fire policy according to the site information, and return the target image data to the team personnel terminal 101 for display, so that the team personnel terminal 101 may execute the corresponding fire policy through the displayed target image data to perform fire fighting processing of the target site. The team personnel terminal 101 may be, but is not limited to, various personal computers, notebook computers, smart phones, tablet computers, and portable wearable devices, and the fire alarm system 102 may be implemented by an independent server or a server cluster formed by a plurality of servers.

In one embodiment, as shown in fig. 2, a fire alarm method is provided, which is illustrated by applying the method to the fire alarm system 102 in fig. 1, and includes the following steps:

in step S201, the fire alarm system 102 acquires site information for a target site.

The target site refers to a site where a fire alarm needs to be performed, the site may be an electric power warehouse for storing electric power material equipment, the site information refers to information in the target site, such as temperature and humidity of the site, and a placement mode of the equipment in the target site, and the site information may be acquired by information acquisition equipment installed in the target site, such as a camera and a temperature sensor, and transmitted to the fire alarm system 102, so that the fire alarm system 102 may obtain site information for the target site.

Step S202, if the field information is larger than the preset fire alarm threshold, the fire alarm system 102 determines the alarm information matched with the field information.

The fire alarm threshold is an alarm threshold set for monitoring a fire accident that may occur in a target site, and if the site information detected by the fire alarm system 102 is greater than the set fire alarm threshold, for example, when the temperature detected by the fire alarm system 102 is higher than a preset temperature threshold, the fire alarm system 102 may determine that a fire may occur in the target site, so that an alarm signal matched with the site information of the accident site may be generated, for example, the alarm signal may carry the site location information of the accident site, so as to remind relevant personnel to perform corresponding fire fighting processing on the site location of the fire that occurs.

Step S203, the fire-fighting alarm system 102 acquires target image data corresponding to the field information from an image database in which a plurality of image data are stored in advance; wherein the plurality of image data is used to characterize different fire strategies.

Meanwhile, after the fire alarm system 102 determines that a fire may occur in a target site, target image data corresponding to site information may be read from an image database, where a plurality of different image data are stored in advance in the image database and respectively correspond to different fire policies, for example, a fire animation mode may be used to indicate that a fire occurs in the target site, people may need to be evacuated, and an escape route may also be displayed to guide field personnel to find an escape route and the like. Therefore, in this step, the fire alarm system 102 may determine a corresponding fire policy according to the site information of the target site, and find image data representing the fire policy from the image database according to the fire policy as target image data.

Step S204, the fire-fighting alarm system 102 sends the alarm information and the target image data to the team personnel terminal 101 for display, so that the team personnel terminal 101 obtains a fire-fighting strategy corresponding to the target image data based on the alarm information, and executes fire-fighting processing on a target site by using the fire-fighting strategy.

Finally, the fire protection warning system 102 may send the warning information obtained in step S202 and the target image data obtained in step S203 to the team personnel terminal 101 for display, where the team personnel terminal 101 is a terminal used by team personnel, and the team personnel may be related personnel performing fire protection treatment on the fire in the target site, and after the team personnel terminal 101 displays the warning information, the team personnel may determine the target site from the warning information and may find a corresponding fire protection policy through the displayed target image data, so as to reach the target site and perform the fire protection policy, thereby implementing the fire protection treatment on the target site. Or after the team personnel terminal 101 directly obtains the fire protection strategy from the target image data, the corresponding fire protection processing is carried out through the fire protection equipment installed on the target site.

In the fire alarm method, the fire alarm system 102 acquires site information for a target site; if the field information is larger than a preset fire alarm threshold, determining alarm information matched with the field information; acquiring target image data corresponding to field information from an image database in which a plurality of image data are stored in advance; wherein the plurality of image data is used to characterize different fire strategies; and sending the alarm information and the target image data to the team personnel terminal for displaying so that the team personnel terminal 101 obtains a fire protection strategy corresponding to the target image data based on the alarm information and executes fire protection processing on the target site by using the fire protection strategy. According to the fire alarm method, different fire strategies can be represented in a visual image data mode, the image is sent to the team personnel terminal 101, so that the team personnel terminal 101 can execute different fire strategies according to the image, the scene decision of fire treatment can be carried out before the scene is reached, and the fire alarm treatment efficiency is improved.

In one embodiment, the fire fighting strategy comprises an escape strategy; step S203 may further include: the fire-fighting alarm system 102 determines a target escape route of a target site according to a preset corresponding relationship between the site and the escape route; acquiring escape route animation matched with a target escape route from an image database as target image data; step S204 may further include: the fire fighting alarm system 102 sends the alarm information and the escape route animation to the team personnel terminal 101 for displaying, so that the team personnel terminal 101 determines and executes the escape strategy corresponding to the escape route animation according to the alarm information.

The escape route animation is an animation for indicating a route for escaping from a fire scene, is matched with an escape route in an actual target scene, and can be preset in an image database. Specifically, after the field information detected by the fire alarm system 102 is greater than the predetermined fire alarm threshold, the escape route of the target field may be found first as the target escape route, and the corresponding relationship between the field and the escape route may be predetermined and generally may be determined by the field location information. After the fire alarm system 102 obtains the target escape route, the escape route animation matched with the obtained target escape route can be found from the image database and sent to the team personnel terminal 101 as target image data for display. The team personnel terminal 101 can execute a corresponding escape strategy according to the displayed escape route animation and the escape route corresponding to the escape route animation.

Further, fire strategies also include fire fighting strategies; step S203 may further include: the fire-fighting alarm system 102 acquires a fire-fighting allocation mechanism corresponding to the field information and determines fire-fighting equipment corresponding to the fire-fighting allocation mechanism; acquiring a virtual three-dimensional device image matched with the fire fighting device from an image database as target image data; step S204 may further include: the fire alarm system 102 sends the alarm information and the virtual three-dimensional device image to the team personnel terminal for displaying, so that the team personnel terminal determines the fire fighting device corresponding to the virtual three-dimensional device image based on the alarm information and executes a fire extinguishing strategy by using the fire fighting device.

The fire control deployment mechanism is a deployment strategy for indicating how to deploy fire fighting equipment installed in a target site, and because different fire causes are different in solution, the adopted fire control deployment mechanism is correspondingly different, so that the fire control deployment mechanism in this embodiment needs to correspond to site information. For example, the target site a needs to adopt the fire control deployment mechanism a to extinguish a fire, and can adopt the type a fire extinguisher to extinguish a fire, and the target site B can adopt the fire control deployment mechanism B to extinguish a fire due to the change of the site information, that is, the type B fire extinguisher may be used to extinguish a fire, so that the fire alarm system 102 needs to determine the corresponding fire fighting equipment after determining the fire control deployment mechanism.

After the fire fighting alarm system 102 obtains the fire fighting equipment, the virtual three-dimensional equipment image matched with the fire fighting equipment to be used can be found from the image database in which the virtual three-dimensional images corresponding to different fire fighting equipment are stored in advance, and the virtual three-dimensional equipment image is sent to the team personnel terminal 101 as target image data to be displayed, and the team personnel terminal 101 can execute a corresponding fire extinguishing strategy according to the displayed virtual three-dimensional equipment image and the fire fighting equipment corresponding to the virtual three-dimensional equipment image.

In this embodiment, the fire protection policy may include an escape policy and a fire protection policy, where the escape policy may be implemented by displaying an escape route animation stored in the image database on the team personnel terminal 101, the fire protection policy may be implemented by displaying a virtual three-dimensional device image stored in the image database on the team personnel terminal 101, and the escape policy and the fire protection policy are implemented by displaying the image, so that the efficiency of executing the escape policy and the fire protection policy may be improved, and the efficiency of processing a fire protection alarm may be improved.

In one embodiment, the fire alarm threshold comprises: a first alarm threshold and a second alarm threshold; field information, including: temperature information of the target site and smoke concentration information of the target site; step S202 may further include: if the temperature information is greater than the first alarm threshold value or the smoke concentration information is greater than the second alarm threshold value, the fire fighting alarm system 102 acquires alarm information matched with the field information according to the temperature information and the smoke concentration information.

The first alarm threshold is a temperature threshold set for reflecting a fire accident that may occur in a target site, and the second alarm threshold is a smoke concentration threshold set for reflecting a fire accident that may occur in a target site, when temperature information detected by the fire alarm system 102 is greater than the first alarm threshold, that is, when a temperature of the target site is higher than a set temperature, or when smoke concentration information detected by the fire alarm system 102 is greater than the second alarm threshold, that is, when a smoke concentration of the target site is greater than a set smoke concentration, the fire alarm system 102 may determine that a fire may occur in the target site, and determine corresponding alarm information according to the collected temperature information and the smoke concentration information.

Further, as shown in fig. 3, the fire alarm system 102 obtains alarm information matched with the field information according to the temperature information and the smoke concentration information, and may further include:

step S301, the fire alarm system 102 obtains a temperature interval corresponding to the temperature information and a concentration interval corresponding to the smoke concentration information.

The temperature interval is an interval for indicating a range in which the temperature is located, the temperature interval may be preset by a user, the number of the temperature intervals may be multiple, and the temperature intervals are respectively used for indicating temperature information in different ranges, the concentration interval is an interval for indicating a range in which the smoke concentration is located, and the number of the concentration intervals may also be multiple, and the temperature intervals are respectively used for indicating smoke concentration information in different ranges. Specifically, the fire alarm system 102 may determine a temperature interval corresponding to the temperature information and a concentration interval corresponding to the smoke concentration information from the plurality of temperature intervals and the concentration intervals according to the obtained temperature information and the obtained smoke concentration information.

Step S302, the fire alarm system 102 determines the abnormal level of the target site according to the temperature interval and the concentration interval.

The abnormal level is used to indicate the severity of the fire at the target site, and generally speaking, the greater the severity of the fire, the higher the temperature at the target site, and the higher the smoke concentration at the target site, so that by setting the correspondence between the temperature range and the concentration range and the abnormal level, the abnormal level at the target site can be found by the correspondence after the fire alarm system 102 obtains the temperature range and the concentration range.

For example, the fire alarm system 102 is preset with an abnormal level a, an abnormal level B, an abnormal level C, and an abnormal level D, where the abnormal level a corresponds to the temperature section a and the concentration section a, the abnormal level B corresponds to the temperature section a and the concentration section B, the abnormal level C corresponds to the temperature section B and the concentration section a, and the abnormal level D corresponds to the temperature section B and the concentration section B, and when the fire alarm system 102 determines that the target site is in the temperature section a and the concentration section B, the abnormal level of the target site can be determined to be the abnormal level C.

Step S303, the fire alarm system 102 uses the alarm information corresponding to the abnormal level as the alarm information matched with the field information based on the preset corresponding relationship between the abnormal level and the alarm information.

Finally, the fire alarm system 102 may obtain corresponding alarm information according to a preset corresponding relationship between the abnormal level and the alarm information, for example, for the alarm information with a high abnormal level, more prominent text display may be performed compared to the alarm information with a low abnormal level, the prominence of text display may be represented by the text size and the text color of the alarm information, and the alarm information corresponding to the abnormal level is used as the alarm information matched with the field information.

In the above embodiment, the fire alarm system 102 may find the alarm information matched with the target site according to the temperature information and the smoke concentration information of the target site, may directly determine the abnormal level of the target site by using the temperature range and the concentration range corresponding to the temperature information and the smoke concentration information of the target site, and may set different alarm information according to different abnormal levels to reflect different severity degrees of fire in the target site, and as the team personnel terminal 101 may obtain the fire-fighting policy based on the alarm information and then perform the fire-fighting process, the team personnel terminal 101 may perform the priority process on the target site with a high abnormal level by displaying different alarm information, thereby improving the rationality of the fire-fighting process.

In one embodiment, as shown in fig. 4, the fire alarm method may further include:

step S401, in response to an alarm list operation for the alarm list to be operated triggered by the team personnel terminal 101, the fire fighting alarm system 102 acquires the alarm list to be operated from the alarm log generated in advance and displays the alarm list on the team personnel terminal 101.

The team personnel can also check the alarm information of each target site in real time in a mode of communication between the team personnel terminal 101 and the fire alarm system 102, when the team personnel need to check the alarm information in a certain alarm list, the corresponding alarm list operation can be triggered in a mode of clicking the alarm list on the team personnel terminal 101, at the moment, the alarm list can be used as an alarm list to be operated, and the team personnel terminal 101 can also send the alarm list operation aiming at the alarm list to be operated to the fire alarm system 102, so that the fire alarm system 102 obtains the alarm list to be operated from an alarm log in which a plurality of alarm lists are stored in advance and returns the alarm list to the display equipment on the team personnel terminal 101 for display.

Step S402, the fire fighting alarm system 102 responds to the inquiry request aiming at the alarm information to be inquired triggered by the team personnel terminal 101 based on the alarm list to be operated, and the alarm information to be inquired is returned to the team personnel terminal 101 from the alarm list to be operated and displayed.

Then, the team personnel can select the alarm information to be queried to be viewed from the alarm list displayed on the team personnel terminal 101, so that a query request for the alarm information to be queried is triggered on the team personnel terminal 101, the team personnel terminal 101 can send the obtained query request to the fire protection alarm system 102, the fire protection alarm system 102 responds to the query request, and the alarm information to be queried is returned to the team personnel terminal 101 from the alarm list to be operated to be displayed.

In addition, after step S402, the method may further include: the fire alarm system 102 receives alarm update information of the team personnel terminal 101 based on the displayed alarm information to be queried, and updates the alarm information to be queried by using the alarm update information so as to update the alarm log.

If the team personnel terminal 101 needs to update the displayed alarm information to be queried, for example, a fire in a target site has been extinguished, and an abnormality has been processed to recover the security state and clear the alarm information, the team personnel can send the alarm update information for updating to the fire alarm system 102 through the team personnel terminal 101 for the displayed alarm information to be queried, and the fire alarm system 102 can update the alarm information to be queried by using the alarm update information, update the alarm log of the system, and synchronously update the alarm abnormality of each module in the fire alarm system 102.

In this embodiment, the team personnel can check the alarm information and update the alarm information in real time through the team personnel terminal 101, so that the real-time interaction of data between the fire alarm system 102 and the team personnel terminal 101 is realized, and the real-time performance of the alarm information interaction is improved.

In an application example, as shown in fig. 5, there is also provided a power storage fire alarm management method, which specifically includes the following steps:

(1) triggering an alarm on site: the platform system senses field information such as field temperature, smoke concentration and the like through monitoring equipment, if the detected field information is larger than a program set value, an abnormal grade is triggered on a system interface, and alarm information is popped up and sent to terminals of team personnel;

(2) linkage of the safety management module: if the field information detected by the platform system is larger than the program set value, the safety management module of the platform system is linked at the same time, the alarm data of the safety management module is updated, a corresponding safety alarm log is generated, and then the safety management module can trigger fire animation and escape route animation to be sent to terminals of team personnel as module safety strategies;

(3) linkage of the fire-fighting management module: after the field information detected by the platform system is larger than the program set value, the fire-fighting management module of the platform system is linked to update the alarm data of the fire-fighting management module and generate a corresponding safety alarm log, and then the fire-fighting management module can carry out matching of a fire-fighting allocation mechanism, so that the taking mode of the fire-fighting equipment and the interaction mode of the 3D fire-fighting equipment which is recommended to be displayed are recommended to be sent to terminals of teams as module fire-fighting strategies;

(4) treating by team personnel: after the team personnel receive the alarm information through the terminal, the team personnel can realize field decision according to the module safety strategy returned by the safety management module and the module fire-fighting strategy returned by the fire-fighting management module by combining with the actual field situation, carry out field processing, and can check the current alarm information from the alarm log in the alarm management module of the platform system in a mode of operating alarm column information, wherein the alarm log can be generated when the field information detected by the platform system is greater than the set value of a program.

(5) And (3) updating alarm information: after the field fire treatment is finished, the team personnel can process the alarm information through the terminal, the processed field information and the processed abnormal information are compared, if the situation that the treatment is finished is determined, the daily state can be closed in the alarm management module through the terminal and the alarm information is updated, and after the abnormal information of the alarm management module is updated, the alarm data of the associated safety management module and the fire protection management module can be updated at the same time.

The electric power storage fire alarm management method provided by the application example can realize annular processing of system safety alarm, thereby improving the processing efficiency and the processing scientificity of fire alarm.

It should be understood that although the various steps in the flow charts of fig. 2-5 are shown in order as indicated by the arrows, the steps are not necessarily performed in order as indicated by the arrows. The steps are not performed in the exact order shown and described, and may be performed in other orders, unless explicitly stated otherwise. Moreover, at least some of the steps in fig. 2-5 may include multiple steps or multiple stages, which are not necessarily performed at the same time, but may be performed at different times, which are not necessarily performed in sequence, but may be performed in turn or alternately with other steps or at least some of the other steps.

In one embodiment, as shown in fig. 6, there is provided a fire alarm device applied to a fire alarm system, including: a field information acquisition module 601, an alarm information generation module 602, an image data acquisition module 603 and an alarm information processing module 604, wherein:

a field information acquiring module 601, configured to acquire field information for a target field;

the warning information generating module 602 is configured to determine warning information matched with the field information if the field information is greater than a preset fire warning threshold;

an image data obtaining module 603, configured to obtain target image data corresponding to the field information from an image database in which a plurality of image data are stored in advance; wherein the plurality of image data is used to characterize different fire strategies;

and the alarm information processing module 604 is configured to send the alarm information and the target image data to the team personnel terminals for displaying, so that the team personnel terminals obtain the fire protection policy corresponding to the target image data based on the alarm information and perform fire protection processing on the target site by using the fire protection policy.

In one embodiment, the fire fighting strategy comprises an escape strategy; the image data acquisition module 603 is further configured to determine a target escape route of the target site according to a preset correspondence between the site and the escape route; acquiring escape route animation matched with a target escape route from an image database as target image data; the alarm information processing module 604 is further configured to send the alarm information and the escape route animation to the team personnel terminal for displaying, so that the team personnel terminal determines and executes an escape strategy corresponding to the escape route animation according to the alarm information.

In one embodiment, the fire strategy further comprises a fire suppression strategy; the image data obtaining module 603 is further configured to obtain a fire control deployment mechanism corresponding to the field information, and determine a fire control device corresponding to the fire control deployment mechanism; acquiring a virtual three-dimensional device image matched with the fire fighting device from an image database as target image data; the alarm information processing module 604 is further configured to send the alarm information and the virtual three-dimensional device image to a team personnel terminal for displaying, so that the team personnel terminal determines a fire fighting device corresponding to the virtual three-dimensional device image based on the alarm information, and executes a fire extinguishing strategy by using the fire fighting device.

In one embodiment, the fire alarm threshold comprises: a first alarm threshold and a second alarm threshold; field information, including: temperature information of the target site and smoke concentration information of the target site; the alarm information generating module 602 is further configured to, if the temperature information is greater than a first alarm threshold, or the smoke concentration information is greater than a second alarm threshold, obtain alarm information matched with the field information according to the temperature information and the smoke concentration information.

In an embodiment, the alarm information generating module 602 is further configured to obtain a temperature interval corresponding to the temperature information and a concentration interval corresponding to the smoke concentration information; determining the abnormal grade of a target site according to the temperature interval and the concentration interval; and taking the alarm information corresponding to the abnormal grade as the alarm information matched with the field information based on the corresponding relation between the preset abnormal grade and the alarm information.

In one embodiment, the fire alarm device further comprises: the alarm information feedback module is used for responding to alarm list operation aiming at the alarm list to be operated and triggered by the team personnel terminal, acquiring the alarm list to be operated from a pre-generated alarm log and displaying the alarm list on the team personnel terminal; and responding to a query request aiming at the to-be-queried alarm information triggered by the team personnel terminal based on the to-be-operated alarm list, and returning the to-be-queried alarm information from the to-be-operated alarm list to the team personnel terminal for displaying.

In one embodiment, the fire alarm device further comprises: and the alarm information updating module is used for receiving alarm updating information of the team personnel terminal based on the displayed alarm information to be inquired, and updating the alarm information to be inquired by utilizing the alarm updating information so as to update the alarm log.

For specific limitations of the fire alarm device, reference may be made to the above limitations of the fire alarm method, which are not described herein again. All or part of the modules in the fire alarm device can be realized by software, hardware and a combination thereof. The modules can be embedded in a hardware form or independent from a processor in the computer device, and can also be stored in a memory in the computer device in a software form, so that the processor can call and execute operations corresponding to the modules.

In one embodiment, a computer device is provided, which may be a fire alarm system, the internal structure of which may be as shown in fig. 7. The computer device includes a processor, a memory, and a network interface connected by a system bus. Wherein the processor of the computer device is configured to provide computing and control capabilities. The memory of the computer device comprises a nonvolatile storage medium and an internal memory. The non-volatile storage medium stores an operating system, a computer program, and a database. The internal memory provides an environment for the operation of an operating system and computer programs in the non-volatile storage medium. The database of the computer device is used for storing alarm information. The network interface of the computer device is used for communicating with an external terminal through a network connection. The computer program is executed by a processor to implement a fire alarm method.

Those skilled in the art will appreciate that the architecture shown in fig. 7 is merely a block diagram of some of the structures associated with the disclosed aspects and is not intended to limit the computing devices to which the disclosed aspects apply, as particular computing devices may include more or less components than those shown, or may combine certain components, or have a different arrangement of components.

In one embodiment, a computer device is further provided, which includes a memory and a processor, the memory stores a computer program, and the processor implements the steps of the above method embodiments when executing the computer program.

In an embodiment, a computer-readable storage medium is provided, on which a computer program is stored which, when being executed by a processor, carries out the steps of the above-mentioned method embodiments.

It will be understood by those skilled in the art that all or part of the processes of the methods of the embodiments described above can be implemented by hardware instructions of a computer program, which can be stored in a non-volatile computer-readable storage medium, and when executed, can include the processes of the embodiments of the methods described above. Any reference to memory, storage, database or other medium used in the embodiments provided herein can include at least one of non-volatile and volatile memory. Non-volatile Memory may include Read-Only Memory (ROM), magnetic tape, floppy disk, flash Memory, optical storage, or the like. Volatile Memory can include Random Access Memory (RAM) or external cache Memory. By way of illustration and not limitation, RAM can take many forms, such as Static Random Access Memory (SRAM) or Dynamic Random Access Memory (DRAM), among others.

The technical features of the above embodiments can be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the above embodiments are not described, but should be considered as the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present application, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the concept of the present application, which falls within the scope of protection of the present application. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (10)

1. A fire alarm method is applied to a fire alarm system, and comprises the following steps:

acquiring field information aiming at a target field;

if the field information is larger than a preset fire alarm threshold value, determining alarm information matched with the field information;

acquiring target image data corresponding to the field information from an image database in which a plurality of image data are stored in advance; wherein the plurality of image data is used to characterize different fire strategies;

and sending the alarm information and the target image data to a team personnel terminal for displaying so that the team personnel terminal obtains a fire fighting strategy corresponding to the target image data based on the alarm information and executes fire fighting treatment on the target site by utilizing the fire fighting strategy.

2. The method of claim 1, wherein the fire fighting strategy comprises an escape strategy;

the acquiring of the target image data corresponding to the site information from the image database in which a plurality of image data are stored in advance includes:

determining a target escape route of the target site according to a preset corresponding relationship between the site and the escape route;

acquiring escape route animation matched with the target escape route from the image database as the target image data;

the warning information and the target image data are sent to a team personnel terminal to be displayed, so that the team personnel terminal obtains a fire fighting strategy corresponding to the target image data based on the warning information and executes fire fighting treatment on a target site by utilizing the fire fighting strategy, and the method comprises the following steps:

and sending the alarm information and the escape route animation to the team personnel terminal for displaying so that the team personnel terminal determines and executes an escape strategy corresponding to the escape route animation according to the alarm information.

3. The method of claim 2, wherein the fire fighting strategy further comprises a fire fighting strategy;

the acquiring of the target image data corresponding to the site information from the image database in which a plurality of image data are stored in advance includes:

acquiring a fire control allocation mechanism corresponding to the field information, and determining fire-fighting equipment corresponding to the fire control allocation mechanism;

acquiring a virtual three-dimensional device image matched with the fire fighting device from the image database as the target image data;

the warning information and the target image data are sent to a team personnel terminal to be displayed, so that the team personnel terminal obtains a fire fighting strategy corresponding to the target image data based on the warning information and executes fire fighting treatment on a target site by utilizing the fire fighting strategy, and the method comprises the following steps:

and sending the alarm information and the virtual three-dimensional equipment image to the team personnel terminal for displaying so that the team personnel terminal determines the fire fighting equipment corresponding to the virtual three-dimensional equipment image based on the alarm information and executes the fire fighting strategy by utilizing the fire fighting equipment.

4. The method of claim 1, wherein the fire alarm threshold comprises: a first alarm threshold and a second alarm threshold; the field information comprises: temperature information of the target site and smoke concentration information of the target site;

the determining the alarm information matched with the field information comprises:

and if the temperature information is greater than the first alarm threshold value or the smoke concentration information is greater than the second alarm threshold value, acquiring alarm information matched with the field information according to the temperature information and the smoke concentration information.

5. The method according to claim 4, wherein the obtaining the alarm information matched with the field information according to the temperature information and the smoke concentration information comprises:

acquiring a temperature interval corresponding to the temperature information and a concentration interval corresponding to the smoke concentration information;

determining the abnormal grade of the target site according to the temperature interval and the concentration interval;

and taking the alarm information corresponding to the abnormal grade as the alarm information matched with the field information based on the corresponding relation between the preset abnormal grade and the alarm information.

6. The method according to any one of claims 1 to 5, further comprising:

responding to an alarm list operation aiming at an alarm list to be operated, which is triggered by the team personnel terminal, acquiring the alarm list to be operated from a pre-generated alarm log and displaying the alarm list on the team personnel terminal;

and responding to a query request aiming at the to-be-queried alarm information triggered by the team personnel terminal based on the to-be-queried alarm list, and returning the to-be-queried alarm information from the to-be-queried alarm list to the team personnel terminal for display.

7. The method according to claim 6, wherein after the alarm information to be queried is returned from the alarm list to be operated to the team personnel terminal for display, the method further comprises:

and receiving alarm updating information of the team personnel terminal based on the displayed alarm information to be inquired, and updating the alarm information to be inquired by using the alarm updating information so as to update the alarm log.

8. A fire alarm device, for use in a fire alarm system, the device comprising:

the field information acquisition module is used for acquiring field information aiming at a target field;

the alarm information generation module is used for determining alarm information matched with the field information if the field information is greater than a preset fire alarm threshold value;

the image data acquisition module is used for acquiring target image data corresponding to the field information from an image database in which a plurality of image data are stored in advance; wherein the plurality of image data is used to characterize different fire strategies;

and the warning information processing module is used for sending the warning information and the target image data to a team personnel terminal for displaying so that the team personnel terminal can acquire a fire fighting strategy corresponding to the target image data based on the warning information and execute fire fighting processing on the target site by utilizing the fire fighting strategy.

9. A computer device comprising a memory and a processor, the memory storing a computer program, wherein the processor implements the steps of the method of any one of claims 1 to 7 when executing the computer program.

10. A computer-readable storage medium, on which a computer program is stored, which, when being executed by a processor, carries out the steps of the method of any one of claims 1 to 7.

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