阅读说明：本技术 消防事件的处理系统和方法 (Fire event processing system and method ) 是由 孟祥烨 于 2021-09-28 设计创作，主要内容包括：本发明提供了消防事件的处理系统和方法,该系统包括：视频设备维护模块,用于录入消防区域内的至少一个视频设备的视频设备信息；消防设施管理模块,用于录入消防区域内的至少一个消防设施的消防设施信息,并将消防设施与视频设备维护模块录入的视频设备进行关联；其中,每一组相关联的视频设备和消防设施之间的距离最近；热点配置模块,用于将消防设施管理模块关联的每一组视频设备和消防设施进行位置信息配置,得到设施分布信息；消防报警监控模块,用于在外部传感器检测到消防事件时接收报警信号,并将设施分布信息展示给用户,以由用户对该消防事件进行处理。本方案能够提高消防事件的处理效率。(The invention provides a system and a method for processing fire fighting events, wherein the system comprises: the video equipment maintenance module is used for recording video equipment information of at least one video equipment in the fire fighting area; the fire fighting equipment management module is used for recording fire fighting equipment information of at least one fire fighting equipment in the fire fighting area and associating the fire fighting equipment with the video equipment recorded by the video equipment maintenance module; wherein the distance between each group of associated video equipment and the fire-fighting equipment is closest; the hot spot configuration module is used for configuring the position information of each group of video equipment and fire-fighting facilities related to the fire-fighting facility management module to obtain facility distribution information; and the fire-fighting alarm monitoring module is used for receiving an alarm signal when the external sensor detects a fire-fighting event and displaying the facility distribution information to a user so that the user can process the fire-fighting event. This scheme can improve the treatment effeciency of fire incident.)

1. A system for the treatment of a fire event, comprising: the system comprises a video equipment maintenance module, a fire-fighting facility management module, a hotspot configuration module and a fire-fighting alarm monitoring module;

the video equipment maintenance module is used for recording video equipment information of at least one video equipment in the fire fighting area;

the fire fighting equipment management module is used for recording fire fighting equipment information of at least one fire fighting equipment in a fire fighting area and associating the fire fighting equipment with the video equipment recorded by the video equipment maintenance module; wherein the distance between each group of associated video equipment and the fire-fighting equipment is closest;

the hot spot configuration module is used for configuring the position information of each group of video equipment and fire-fighting facilities related to the fire-fighting facility management module to obtain facility distribution information;

and the fire-fighting alarm monitoring module is used for receiving an alarm signal when an external sensor detects a fire-fighting event and displaying the facility distribution information to a user so that the user can process the fire-fighting event.

2. The system of claim 1, further comprising: an alarm rechecking module;

the alarm rechecking module is used for generating alarm information when the external sensor detects a fire-fighting event, and pushing the alarm information to a user so that the user can inquire video data acquired by the video equipment according to the alarm information; wherein, alarm information includes: alarm type and alarm description.

3. The system of claim 1, further comprising: a facility fault management module;

the equipment fault management module is used for updating the state of the fire-fighting equipment to be a fault state when the fire-fighting event is a fire-fighting equipment fault, and generating fault data according to the fault state;

and the fire-fighting alarm monitoring module is used for displaying the fault state to a user according to the fault data so that the user can process the fault of the fire-fighting equipment.

4. The system of claim 1, wherein the facility distribution information comprises: a two-dimensional map within the fire area;

the fire-fighting alarm monitoring module is used for displaying each fire-fighting facility in a corresponding position in the two-dimensional map by a preset icon, and displaying the two-dimensional map with the preset icon to a user when an alarm signal is received; and playing an alarm prompt to the user in a voice broadcast mode.

5. The system according to any one of claims 1 to 4,

the video equipment maintenance module is used for inputting one or more information of an IP address, an equipment site, an equipment area, a user name, a password, a port number and a channel of a camera in the fire fighting area according to the input of a user;

and/or the presence of a gas in the gas,

the video equipment maintenance module is used for regularly acquiring the latest information of the cameras in the fire fighting area according to a preset time interval and introducing the acquired information in batches.

6. A fire event processing method based on a fire event processing system is characterized by comprising the following steps:

recording video equipment information of at least one video equipment in the fire fighting area by using a video equipment maintenance module;

recording fire fighting equipment information of at least one fire fighting equipment in a fire fighting area by using a fire fighting equipment management module;

associating the fire-fighting facilities with the video equipment recorded by the video equipment module by using the fire-fighting facility management module; wherein the distance between each group of associated video equipment and the fire-fighting equipment is closest;

performing position information configuration on each group of video equipment and fire-fighting equipment associated with the fire-fighting equipment management module by using a hotspot configuration module to obtain equipment distribution information;

and receiving an alarm signal by using a fire alarm monitoring module when the external sensor detects a fire event, and displaying the facility distribution information to a user so as to process the fire event by the user.

7. The method of claim 6, wherein prior to receiving an alarm signal upon detection of a fire event with an external sensor using a fire alarm monitoring module and presenting the facility distribution information to a user, further comprising:

an alarm rechecking module is used for generating alarm information when an external sensor detects a fire-fighting event; wherein, alarm information includes: alarm type and alarm description;

and pushing the alarm information to a user by using the alarm rechecking module so that the user inquires video data acquired by the video equipment according to the alarm information.

8. The method of claim 6, after receiving an alarm signal when a fire event is detected with an external sensor using a fire alarm monitoring module, further comprising:

updating the state of the fire-fighting equipment to be a fault state when the fire-fighting event is a fire-fighting equipment fault by utilizing an equipment fault management module;

generating fault data according to the fault state by using the facility fault management module;

and displaying the fault state according to the fault data by using the fire-fighting alarm monitoring module so as to process the fault of the fire-fighting equipment by a user.

9. The method of claim 6, wherein the facility distribution information comprises: a two-dimensional map within the fire area;

the receiving of the alarm signal when the external sensor detects a fire event by using the fire alarm monitoring module and the displaying of the facility distribution information to the user includes:

displaying the fire-fighting equipment at a corresponding position in the two-dimensional map by using the fire-fighting alarm monitoring module and a preset icon;

displaying the two-dimensional map with the preset icon to a user by using the fire alarm monitoring module when receiving an alarm signal; and the number of the first and second groups,

and the fire alarm monitoring module is utilized to play an alarm prompt to a user in a voice broadcast mode.

10. The method of any one of claims 6 to 9, wherein entering video equipment information of at least one video equipment in the fire fighting area using a video equipment maintenance module comprises:

the video equipment maintenance module is used for inputting one or more information of IP addresses, equipment places, equipment areas, user names, passwords, port numbers and channels of cameras in the fire fighting area according to input of a user;

and/or the presence of a gas in the gas,

and the video equipment maintenance module is utilized to regularly acquire the latest information of the cameras in the fire fighting area according to a preset time interval, and the acquired information is led in batch.

Technical Field

The invention relates to the technical field of communication and electrical control, in particular to a fire fighting event processing system and method.

Background

Fire safety is the guarantee of economic development and social stability, and many projects all have fire detector and fire-fighting equipment etc. at present to the fire incident risk that exists is dealt with to the answer.

However, in the current fire safety measures, when there is a fire alarm, people are required to go to the site to recheck and determine whether there is a fire, which delays the optimal period of fire extinguishing, thereby causing property loss and casualties. In addition, the fire detector and the fire fighting equipment need to be manually and regularly checked to see whether the equipment is normal or not, real-time detection on the equipment cannot be achieved, whether the equipment is available or not cannot be confirmed when the equipment is really used, and delay risks exist. Therefore, the effect of reducing the safety risk of the existing fire safety measures is poor.

Disclosure of Invention

The invention provides a system and a method for processing a fire event, which can improve the processing efficiency of the fire event.

In a first aspect, an embodiment of the present invention provides a system for processing a fire event, including: the system comprises a video equipment maintenance module, a fire-fighting facility management module, a hotspot configuration module and a fire-fighting alarm monitoring module;

the video equipment maintenance module is used for recording video equipment information of at least one video equipment in the fire fighting area;

the fire fighting equipment management module is used for recording fire fighting equipment information of at least one fire fighting equipment in a fire fighting area and associating the fire fighting equipment with the video equipment recorded by the video equipment maintenance module; wherein the distance between each group of associated video equipment and the fire-fighting equipment is closest;

the hot spot configuration module is used for configuring the position information of each group of video equipment and fire-fighting facilities related to the fire-fighting facility management module to obtain facility distribution information;

and the fire-fighting alarm monitoring module is used for receiving an alarm signal when an external sensor detects a fire-fighting event and displaying the facility distribution information to a user so that the user can process the fire-fighting event.

In one possible implementation, the system further includes: an alarm rechecking module;

the alarm rechecking module is used for generating alarm information when the external sensor detects a fire-fighting event, and pushing the alarm information to a user so that the user can inquire video data acquired by the video equipment according to the alarm information; wherein, alarm information includes: alarm type and alarm description.

In one possible implementation, the system further includes: a facility fault management module;

the equipment fault management module is used for updating the state of the fire-fighting equipment to be a fault state when the fire-fighting event is a fire-fighting equipment fault, and generating fault data according to the fault state;

and the fire-fighting alarm monitoring module is used for displaying the fault state to a user according to the fault data so that the user can process the fault of the fire-fighting equipment.

In one possible implementation, the facility distribution information includes: a two-dimensional map within the fire area;

the fire-fighting alarm monitoring module is used for displaying each fire-fighting facility in a corresponding position in the two-dimensional map by a preset icon, and displaying the two-dimensional map with the preset icon to a user when an alarm signal is received; and playing an alarm prompt to the user in a voice broadcast mode.

In one possible implementation form of the method,

the video equipment maintenance module is used for inputting one or more information of an IP address, an equipment site, an equipment area, a user name, a password, a port number and a channel of a camera in the fire fighting area according to the input of a user;

and/or the presence of a gas in the gas,

the video equipment maintenance module is used for regularly acquiring the latest information of the cameras in the fire fighting area according to a preset time interval and introducing the acquired information in batches.

In a second aspect, an embodiment of the present invention provides a method for processing a fire event based on a system for processing a fire event, including:

recording video equipment information of at least one video equipment in the fire fighting area by using a video equipment maintenance module;

recording fire fighting equipment information of at least one fire fighting equipment in a fire fighting area by using a fire fighting equipment management module;

associating the fire-fighting facilities with the video equipment recorded by the video equipment module by using the fire-fighting facility management module; wherein the distance between each group of associated video equipment and the fire-fighting equipment is closest;

performing position information configuration on each group of video equipment and fire-fighting equipment associated with the fire-fighting equipment management module by using a hotspot configuration module to obtain equipment distribution information;

and receiving an alarm signal by using a fire alarm monitoring module when the external sensor detects a fire event, and displaying the facility distribution information to a user so as to process the fire event by the user.

In one possible implementation, before receiving an alarm signal when a fire fighting event is detected by an external sensor using a fire alarm monitoring module and displaying the facility distribution information to a user, the method further includes:

an alarm rechecking module is used for generating alarm information when an external sensor detects a fire-fighting event; wherein, alarm information includes: alarm type and alarm description;

and pushing the alarm information to a user by using the alarm rechecking module so that the user inquires video data acquired by the video equipment according to the alarm information.

In one possible implementation, after receiving the alarm signal when the external sensor detects the fire event by using the fire alarm monitoring module, the method further includes:

updating the state of the fire-fighting equipment to be a fault state when the fire-fighting event is a fire-fighting equipment fault by utilizing an equipment fault management module;

generating fault data according to the fault state by using the facility fault management module;

and displaying the fault state according to the fault data by using the fire-fighting alarm monitoring module so as to process the fault of the fire-fighting equipment by a user.

In one possible implementation, the facility distribution information includes: a two-dimensional map within the fire area;

the receiving of the alarm signal when the external sensor detects a fire event by using the fire alarm monitoring module and the displaying of the facility distribution information to the user includes:

displaying the fire-fighting equipment at a corresponding position in the two-dimensional map by using the fire-fighting alarm monitoring module and a preset icon;

displaying the two-dimensional map with the preset icon to a user by using the fire alarm monitoring module when receiving an alarm signal; and the number of the first and second groups,

and the fire alarm monitoring module is utilized to play an alarm prompt to a user in a voice broadcast mode.

In one possible implementation, the entering, by the video device maintenance module, video device information of at least one video device in the fire fighting area includes:

the video equipment maintenance module is used for inputting one or more information of IP addresses, equipment places, equipment areas, user names, passwords, port numbers and channels of cameras in the fire fighting area according to input of a user;

and/or the presence of a gas in the gas,

and the video equipment maintenance module is utilized to regularly acquire the latest information of the cameras in the fire fighting area according to a preset time interval, and the acquired information is led in batch.

According to the technical scheme, in the fire event processing system provided by the scheme, firstly, the video equipment information recorded into the fire fighting area by the video equipment maintenance module and the fire fighting information recorded into the fire fighting equipment by the fire fighting equipment management module are considered, and the fire fighting equipment and the video equipment are associated. And then, the hotspot configuration module configures the position information of the associated fire-fighting facilities and video equipment to obtain facility distribution information, so that when a fire-fighting event occurs, the fire-fighting alarm monitoring module can display the facility distribution information to a user, and the user can process the fire-fighting event according to the facility distribution information. Therefore, according to the scheme, the fire fighting equipment and the video equipment are associated, the position information is configured for each associated equipment group, when a fire fighting event occurs, the user can accurately know the situation of the whole fire fighting area through displaying the equipment distribution information configured with the position information to the user, and then the position where the fire fighting event occurs is accurately determined, so that corresponding measures can be taken for the fire fighting event in time, and the processing efficiency of the fire fighting event is improved.

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

FIG. 1 is a schematic diagram of a system for handling a fire event according to one embodiment of the present invention;

fig. 2 is a flowchart of a method for processing a fire event by the system for processing a fire event according to an embodiment of the present invention.

Detailed Description

The fire safety is the guarantee of economic development and social stability. At present, a plurality of projects are provided with fire detectors and fire fighting equipment, but when a fire alarm occurs, people need to go to the site for recheck to confirm whether the fire really exists or not, so that the optimal period of fire extinguishment can be delayed, and property loss and casualties are caused. In addition, the fire detector and the fire fighting equipment need to be manually and regularly checked to see whether the fire detector and the fire fighting equipment are normal or not, real-time detection on the equipment cannot be achieved, whether the equipment is available or not cannot be confirmed when the fire detector and the fire fighting equipment are really used, and the risk of delaying the processing of fire fighting events exists.

Based on this, the scheme considers that the configuration information of the video equipment and the fire fighting facilities is configured, and the information in the fire fighting area is displayed to the user according to the configured position information when the fire fighting event occurs, so that the fire fighting event can be confirmed and correspondingly processed.

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer and more complete, the technical solutions in the embodiments of the present invention will be described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention, and based on the embodiments of the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative efforts belong to the scope of the present invention.

As shown in fig. 1, an embodiment of the present invention provides a system for processing a fire fighting event, which may include: the system comprises a video equipment maintenance module 101, a fire-fighting facility management module 102, a hot spot configuration module 103 and a fire-fighting alarm monitoring module 104;

the video equipment maintenance module 101 is used for recording video equipment information of at least one video equipment in the fire fighting area;

a fire fighting equipment management module 102, configured to enter fire fighting equipment information of at least one fire fighting equipment in a fire fighting area, and associate the fire fighting equipment with the video equipment entered by the video equipment maintenance module 101; wherein the distance between each group of associated video equipment and the fire-fighting equipment is closest;

the hot spot configuration module 103 is configured to configure location information of each group of video devices and fire-fighting equipment associated with the fire-fighting equipment management module 102 to obtain equipment distribution information;

and a fire alarm monitoring module 104 for receiving an alarm signal when the external sensor detects a fire event and displaying the facility distribution information to a user for the user to process the fire event.

In the processing system of a fire event provided in the present embodiment, first, the video device information entered into the fire area by the video device maintenance module 101 and the fire protection information entered into the fire protection facility by the fire protection facility management module 102 are considered, and the fire protection facility and the video device are associated. Then, the hotspot configuration module 103 configures the location information of the associated fire-fighting equipment and video equipment to obtain the equipment distribution information, so that when a fire-fighting event occurs, the fire-fighting alarm monitoring module 104 can display the equipment distribution information to the user, and the user can process the fire-fighting event according to the equipment distribution information. Therefore, according to the scheme, the fire fighting equipment and the video equipment are associated, the position information is configured for each associated equipment group, when a fire fighting event occurs, the user can accurately know the situation of the whole fire fighting area through displaying the equipment distribution information configured with the position information to the user, and then the position where the fire fighting event occurs is accurately determined, so that corresponding measures can be taken for the fire fighting event in time, and the processing efficiency of the fire fighting event is improved.

In one implementation manner, the video device in this embodiment may include a camera or other devices capable of performing video monitoring and recording. For example, when recording video device information of at least one video device in a fire fighting area, the video device maintenance module 101 may record information such as an IP address of a camera in the fire fighting area, a device location of the camera, a device area where the camera is located, a user name and a password for authentication, and a port number and a channel of the camera according to input of a user. That is, the present embodiment may enter one or more pieces of information of the camera in a manner of manual input. In addition, in another implementation manner, the video device maintenance module 101 may periodically acquire the latest information of the cameras in the fire fighting area according to a preset time interval, and then import the acquired information in batch. Therefore, the embodiment provides a plurality of camera information input modes for the user, and the user can select the camera information according to actual requirements.

For example, when a large number of cameras are registered, after the cameras are added into the fire fighting area, the user can select a mode of acquiring camera information at regular time for batch import, so that the information entry efficiency is higher. Or when the information of the camera is updated, the recorded camera information can be updated in time by a mode of acquiring the camera information at regular time. For another example, the user can automatically obtain the information through the video service function of the internet of things platform, can also automatically obtain the information through the Haikang security platform, and the background regularly obtains the latest information of the video equipment through the timer and conducts data import.

In this embodiment, when entering the information of the fire fighting equipment of at least one fire fighting equipment in the fire fighting area, the fire fighting equipment management module 102 may enter information including addition, deletion, modification, and query of the fire fighting equipment, which supports the number, name, type, brand, date of use, validity period, and belonging fire fighting area of the fire fighting equipment. An expiration time may be set for the facility, and the fire protection facility management module 102 automatically prompts the user to perform maintenance on the fire protection facility upon a critical expiration of the facility. And simultaneously, the configuration of the associated camera is supported, and the video is popped up for use during fire alarm monitoring. Certainly, when the information of the fire-fighting facilities is input, all the fire-fighting related facilities in the fire-fighting area can be statistically sorted according to the fire-fighting facility introduction template, then the fire-fighting related facilities are introduced in batches through the fire-fighting facility management function, and each facility is associated with the camera information closest to the facility.

In one possible implementation, the system for processing a fire fighting event may further include: an alarm rechecking module; the alarm rechecking module is used for generating alarm information when the external sensor detects a fire-fighting event, and pushing the alarm information to a user so that the user can inquire video data acquired by the video equipment according to the alarm information; wherein, alarm information includes: alarm type and alarm description.

Because in practical application, events such as false alarm and the like often occur, in the embodiment, the fire-fighting event is considered to be rechecked when the fire-fighting event occurs, namely, when an alarm occurs, so that the processing accuracy of the fire-fighting event can be improved.

For example, the system detects an alarm signal of the equipment in real time through the sensor, receives the alarm signal when the alarm occurs, generates alarm information by calling an alarm rechecking module interface, pushes the information to an attendant through a message pushing function, the attendant can visually see the alarm type and the alarm description by checking the alarm information, and a user further rechecks the alarm according to a field checking result, judges whether the alarm is a true alarm or not and updates the alarm state. And after the accident treatment is finished, the user can record the treatment personnel and treatment measures of the accident through the alarm processing module, analyze and investigate the reason of the accident and absorb experience for teaching and training.

In this embodiment, the alarm rechecking module is used for inquiring and checking the alarm information, and the alarm information can be displayed through the main interface of the fire alarm monitoring module 104, and the alarm information may include an alarm number, an alarm time, an alarm location, a rechecking result, an alarm level, an alarm type, a rechecking description, and the like. Whether the processed alarm is in compliance, scoring and comment or not can be recorded, the uncompleted alarm can be clicked to carry out message pushing to remind relevant responsible persons, and the system automatically carries out red-marking and top-displaying on the overtime unchecked alarm and the like.

In one possible implementation, the system for processing a fire fighting event may further include: a facility fault management module; then the process of the first step is carried out,

the equipment fault management module is used for updating the state of the fire-fighting equipment into a fault state when the fire-fighting event is a fire-fighting equipment fault, and generating fault data according to the fault state;

and the fire alarm monitoring module 104 is used for displaying the fault state to a user according to the fault data so that the user can process the fire fighting equipment fault.

In this embodiment, it may also be implemented that an alarm is given when a fire-fighting facility fails, fault data is generated by the facility fault management module, and the fire-fighting alarm monitoring module 104 displays the fault state to a user, so that the user can process the facility fault. Therefore, the scheme can find the fault of the fire-fighting equipment in time and maintain the fire-fighting equipment in time, and the loss of the fire-fighting equipment caused by the fact that the fault cannot be used when the fire-fighting equipment is required to be used is avoided.

For example, for the case of a fire-fighting facility failure, the background system detects a fire-fighting facility state signal in real time through a timer, and when a failure occurs, the system calls a facility failure management module interface to update the facility state to a failure state, and generates failure data according to the failure state. Further, the fire alarm monitoring module 104 monitors the information query interface of the facility fault management module in real time through a timer, and when there is a fault, the facility status icon in the fire alarm monitoring module 104 is updated synchronously, that is, the icon is updated to be in a fault status. When the repairmen repairs the corresponding facilities, the system starts a reset signal after detecting the signal, calls the facility fault management module interface again, and updates the equipment state to be normal.

Of course, the facility fault management module can also realize the editing of fault information, such as the functions of adding, deleting, modifying, inquiring and detailing the fault records of the fire-fighting facilities. The fire-fighting equipment fault record information comprises equipment numbers, fault types, fault descriptions, repairable or not, fault finding time, fault finding personnel, fault reasons, fault processing measures, fault processing results and the like.

It is noted that the implementation function of the facility fault management module may be one of the implementation functions of the fire protection facility management module 102, or may be independent of the fire protection facility management module 102, i.e., the implemented functions are not crossed.

In one possible implementation, the facility distribution information includes: a two-dimensional map within the fire area;

the fire-fighting alarm monitoring module 104 is used for displaying each fire-fighting facility in a corresponding position of a preset icon in a two-dimensional map, and displaying the two-dimensional map with the preset icon to a user when an alarm signal is received; and playing an alarm prompt to the user in a voice broadcast mode.

In this embodiment, the facility distribution information obtained by the hotspot configuration module 103 performing location information configuration on fire-fighting facilities and video equipment may include a two-dimensional map in a fire-fighting area, so that when a fire-fighting event occurs, the two-dimensional map may be displayed to a user through the fire-fighting alarm monitoring module 104, so that the user can determine the source of the alarm signal in time and perform corresponding handling, thereby improving the processing efficiency of the fire-fighting event.

For example, the hot spot configuration module 103 sets the fire-fighting equipment and the video equipment on a two-dimensional map according to the actual positions, stores X, Y axis coordinates of the map where the fire-fighting equipment and the video equipment are located, displays all hot spot information on a main interface, and supports manual position identification in a fire-fighting area map. Therefore, the fire alarm monitoring function can display a two-dimensional map of the whole fire area, all fire-fighting facilities and video equipment are displayed on the main interface of the fire alarm monitoring module 104 in an icon mode, the mouse moves to the position above the icon to display relevant information of the facilities, a video picture can be popped up by clicking the video icon, and the steering, the amplification and the reduction of the camera can be controlled. Each icon may correspond to three states of a facility, such as: normal state, fault state, alarm state, etc.

Therefore, in the scheme, the fire alarm monitoring module 104 can monitor fire-related facilities in real time through the timer, and when an alarm occurs, the fire alarm monitoring module 104 is displayed in a rolling manner above the main interface and prompts the user through voice broadcasting. The facility icons in the two-dimensional map are changed into the icons in the alarm state, meanwhile, the alarm place monitoring picture is popped up, rechecking operation and camera steering, zooming and amplifying functions can be carried out by clicking the full screen, and the historical alarm information can be displayed in a rolling mode through the right lower list.

As shown in fig. 2, an embodiment of the present invention provides a method for processing a fire event based on a system for processing a fire event, which may include the following steps:

step 201: recording video equipment information of at least one video equipment in a fire fighting area by using a video equipment maintenance module 101;

step 202: entering, with the fire protection equipment management module 102, fire protection equipment information for at least one fire protection equipment in the fire protection area;

step 203: associating the fire-fighting equipment with the video equipment recorded by the video equipment module by using the fire-fighting equipment management module 102; wherein the distance between each group of associated video equipment and the fire-fighting equipment is closest;

step 204: performing position information configuration on each group of video equipment and fire-fighting equipment associated with the fire-fighting equipment management module 102 by using the hotspot configuration module 103 to obtain equipment distribution information;

step 205: the fire alarm monitoring module 104 receives an alarm signal when an external sensor detects a fire event and presents facility distribution information to a user for processing of the fire event by the user.

In one possible implementation, before receiving an alarm signal when a fire event is detected by an external sensor using the fire alarm monitoring module 104 and presenting facility distribution information to a user, the method further includes:

an alarm rechecking module is used for generating alarm information when an external sensor detects a fire-fighting event; wherein, alarm information includes: alarm type and alarm description;

and pushing the alarm information to a user by using an alarm rechecking module so that the user inquires video data acquired by the video equipment according to the alarm information.

In one possible implementation, after receiving the alarm signal when the external sensor detects the fire event by using the fire alarm monitoring module 104, the method further includes:

updating the state of the fire-fighting equipment to be a fault state when the fire-fighting event is a fire-fighting equipment fault by utilizing an equipment fault management module;

generating fault data according to the fault state by using a facility fault management module;

the fire alarm monitoring module 104 is utilized to display the fault status according to the fault data so as to process the fire fighting equipment fault by the user.

In one possible implementation, the facility distribution information includes: a two-dimensional map within the fire area;

receiving an alarm signal when an external sensor detects a fire event with fire alarm monitoring module 104 and presenting facility distribution information to a user, including:

displaying the corresponding positions of the fire-fighting facilities in the two-dimensional map by using a fire-fighting alarm monitoring module 104 according to preset icons;

displaying the two-dimensional map with the preset icon to a user by using the fire alarm monitoring module 104 when receiving the alarm signal; and the number of the first and second groups,

and playing an alarm prompt to the user in a voice broadcast mode by using the fire alarm monitoring module 104.

In one possible implementation, the entering, by the video device maintenance module 101, video device information of at least one video device in the fire fighting area includes:

the video equipment maintenance module 101 is used for inputting one or more information of IP addresses, equipment places, equipment areas, user names, passwords, port numbers and channels of cameras in the fire fighting area according to the input of the user;

in one possible implementation, the entering, by the video device maintenance module 101, video device information of at least one video device in the fire fighting area includes:

the video equipment maintenance module 101 is used for regularly acquiring the latest information of the cameras in the fire fighting area according to a preset time interval and introducing the acquired information in batches.

It should be noted that the method for processing a fire event based on the system for processing a fire event and the system for processing a fire event are based on the same inventive concept, and for related description, reference is made to the related description of the system for processing a fire event, which is not repeated herein.

An embodiment of the present invention further provides a computer-readable storage medium, on which a computer program is stored, and when the computer program is executed in a computer, the computer is caused to execute the method in any embodiment of the present invention.

The present specification also provides a computing device comprising a memory and a processor, wherein the memory stores executable code, and the processor executes the executable code to implement the method in any embodiment of the present disclosure.

The invention also provides a computer program product comprising a computer program which, when executed by a processor, performs the method of any of the embodiments described above.

It is to be understood that the illustrated structure of the embodiment of the present invention does not constitute a specific limitation to each device of the processing system of the fire fighting event. In other embodiments of the description, the devices of the fire event processing system may include more or fewer components than illustrated, or some components may be combined, some components may be split, or a different arrangement of components. The illustrated components may be implemented in hardware, software, or a combination of software and hardware.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising a" does not exclude the presence of other similar elements in a process, method, article, or apparatus that comprises the element.

Those of ordinary skill in the art will understand that: all or part of the steps for realizing the method embodiments can be completed by hardware related to program instructions, the program can be stored in a computer readable storage medium, and the program executes the steps comprising the method embodiments when executed; and the aforementioned storage medium includes: various media that can store program codes, such as ROM, RAM, magnetic or optical disks.

Those skilled in the art will recognize that, in one or more of the examples described above, the functions described in this document may be implemented in hardware, software, hardware, or any combination thereof. When implemented in software, the functions may be stored on or transmitted over as one or more instructions or code on a computer-readable medium.

The above-mentioned embodiments, the purpose, technical solutions and advantages of the present disclosure have been described in further detail, and it should be understood that the above-mentioned embodiments are only illustrative of the present disclosure and are not intended to limit the scope of the present disclosure, and any modification, equivalent replacement, or improvement made on the technical solutions of the present disclosure should be included in the scope of the present disclosure.