CN113920682B - Fire alarm information sending method, device and system and fire alarm information acquisition terminal - Google Patents

Abstract

The application relates to a fire alarm information sending method, device and system and a fire alarm information acquisition terminal. The method comprises the following steps: acquiring alarm information in the technical protection alarm system, wherein the alarm information comprises at least one of an alarm address, an alarm type and alarm time; analyzing alarm information, when the alarm type is fire, acquiring corresponding building information based on an alarm address, and matching on-duty personnel information according to alarm time, wherein the building information comprises at least one of a building address, building space coordinate information, a surrounding water source of a building and a traffic image, and the on-duty personnel information comprises at least one of biological information, a name and a contact way of the on-duty personnel; packaging alarm information, building information and attendant information to generate a fire alarm data packet; and sending a fire alarm data packet to the fire alarm condition receiving terminal. By adopting the method of the embodiment of the application, the speed and the normalization of fire alarm sending can be improved.

Description

Fire alarm information sending method, device and system and fire alarm information acquisition terminal

Technical Field

The application relates to the technical field of communication, in particular to a fire alarm information sending method, a fire alarm information sending device, a fire alarm information sending system and a fire alarm information collecting terminal.

Background

According to the regulations of the 'implementation method of fire safety responsibility', a fire safety control room of a high-rise building must arrange a special person on duty for 24 hours, and the responsible daily fire safety inspection work is notified to a fire emergency rescue department at the first time when a fire disaster occurs, and people evacuation and escape work is done. The fire alarm information to be reported mainly comprises the detailed address of fire, the fire position, the fire material, the fire intensity, whether people are trapped, the name of the alarm person, the contact phone and other information.

Currently, when a fire occurs, a person on duty usually acquires fire alarm information according to monitoring equipment in a fire safety control room and performs alarm by dialing an alarm phone. However, the monitoring devices in the fire safety control room are various, fire alarm conditions are not easy to find, when the person on duty alarms, the speed of sending the fire alarm conditions is low, and the normalization of sending the fire alarm conditions is not high.

Disclosure of Invention

Accordingly, in view of the above-mentioned problems, it is necessary to provide a fire alarm information sending method, device, system and fire alarm information collection terminal capable of improving the speed and standardization of fire alarm information sending.

A fire alarm information delivery method, the method comprising:

acquiring alarm information in a technical protection alarm system, wherein the alarm information comprises at least one of an alarm address, an alarm type and alarm time;

analyzing the alarm information, when the alarm type is fire, acquiring corresponding building information based on the alarm address, and matching attendant information according to the alarm time, wherein the building information comprises at least one of a building address, building space coordinate information, a surrounding water source of a building and a traffic image, and the attendant information comprises at least one of biological information, a name and a contact way of an attendant;

packaging the alarm information, the building information and the attendant information to generate a fire alarm data packet;

and sending the fire alarm data packet to a fire alarm receiving terminal.

In one embodiment, the alert information includes a string; after the alarm information in the technical protection alarm system is acquired, before the alarm information is analyzed, the method comprises the steps of;

and caching the character string variable corresponding to the alarm information.

In one embodiment, the parsing the alarm information includes:

and analyzing the cached character string variables corresponding to the alarm information character by character.

In one embodiment, the acquiring the corresponding building information based on the alarm address, and matching the attendant information according to the alarm time, includes:

acquiring building information corresponding to the alarm address based on a pre-stored corresponding relation between the address and the building information;

and matching the person on duty corresponding to the alarm time according to the prestored person on duty corresponding to the person on duty, and determining the information of the person on duty.

In one embodiment, the sending the fire alarm data packet to the fire alarm condition receiving terminal includes:

and sending the fire alarm data packet to a service platform where the fire alarm condition receiving terminal is located.

A fire alarm information delivery device, the device comprising:

the information acquisition module is used for acquiring alarm information in the technical protection alarm system, wherein the alarm information comprises at least one of an alarm address, an alarm type and alarm time;

the information analysis module is used for analyzing the alarm information, when the alarm type is fire, acquiring corresponding building information based on the alarm address, and matching on-duty personnel information according to the alarm time, wherein the building information comprises at least one of a building address, building space coordinate information, a building peripheral water source and a traffic image, and the on-duty personnel information comprises at least one of biological information, a name and a contact way of an on-duty personnel;

the data packet packaging module is used for packaging the alarm information, the building information and the attendant information to generate a fire alarm data packet;

and the data packet sending module is used for sending the fire alarm data packet to the fire alarm condition receiving terminal.

The fire alarm condition acquisition terminal comprises a memory and a processor, wherein the memory stores a computer program, and the processor realizes the steps of the fire alarm condition sending method when executing the computer program.

A computer readable storage medium having stored thereon a computer program which when executed by a processor performs the steps of the fire alarm information delivery method described above.

A fire alarm delivery system, the system comprising: the fire alarm condition acquisition terminal and the fire alarm condition receiving terminal are as described above;

the fire alarm condition receiving terminal is used for receiving the fire alarm data packet sent by the fire alarm condition collecting terminal; and analyzing the fire alarm data packet to obtain fire alarm data.

In one embodiment, the fire alarm condition receiving terminal is further configured to display the fire alarm data.

The fire alarm information sending method, the device, the system and the fire alarm information acquisition terminal acquire alarm information in the technical protection alarm system, wherein the alarm information comprises at least one of an alarm address, an alarm type and alarm time; analyzing alarm information, when the alarm type is fire, acquiring corresponding building information based on an alarm address, and matching on-duty personnel information according to alarm time, wherein the building information comprises at least one of a building address, building space coordinate information, a surrounding water source of a building and a traffic image, and the on-duty personnel information comprises at least one of biological information, a name and a contact way of the on-duty personnel; packaging alarm information, building information and attendant information to generate a fire alarm data packet; and sending a fire alarm data packet to the fire alarm condition receiving terminal. By adopting the method of the embodiment of the application, the fire alarm condition can be found in time by acquiring and analyzing the alarm information of the technical protection alarm system, the alarm information, the building information and the information of the on-duty personnel are packaged and then transmitted together, the fire detailed information can be transmitted at one time, and the speed and the standardization of fire alarm condition transmission are effectively improved.

Drawings

FIG. 1 is a diagram of an application environment for a fire alarm signaling method in one embodiment;

FIG. 2 is a flow chart of a method of delivering fire alarm information in one embodiment;

FIG. 3 is a schematic diagram of a method of delivering fire alarm information in one embodiment;

FIG. 4 is a block diagram of a fire alarm system according to one embodiment;

FIG. 5 is an internal block diagram of a fire alarm acquisition terminal in one embodiment;

fig. 6 is an internal structural diagram of a fire alarm condition collection terminal in another embodiment.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the present application will be further described in detail with reference to the accompanying drawings and examples. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the present application.

In one embodiment, the fire alarm information sending method provided by the application can be applied to an application environment as shown in fig. 1. Wherein, this application environment includes: the fire alarm system 100, the fire alarm acquisition terminal 102 and the fire alarm receiving terminal 104. The technical alarm system 100 can communicate with the fire alarm collection terminal 102 through a network or a protocol, and the fire alarm collection terminal 102 can communicate with the fire alarm receiving terminal 104 through a network or a protocol.

The technical protection alarm system 100 may be, but not limited to, a technical protection alarm system of various residential buildings, public buildings, industrial buildings, super high-rise buildings, etc., and the technical protection alarm system 100 may include a technical protection alarm service platform and various subsystems, such as a fire alarm system, a video monitoring system, an intrusion alarm system, an entrance management system, an electronic inspection management system, etc., and when an abnormal situation occurs, such as a fire, an elevator fault, a visitor intruder, etc., the technical protection alarm service platform may receive alarm sub-information generated by the subsystems, thereby generating alarm information, and may transmit the alarm information to the fire alarm condition acquisition terminal 102 in real time. The fire alarm condition acquisition terminal 102 is a terminal independent of the technical alarm system 100, and can further generate a fire alarm data packet with richer information including images and videos based on the alarm information of the technical alarm system 100 after analyzing the alarm information, and send the fire alarm data packet to the fire alarm condition receiving terminal 104.

Specifically, the fire alarm condition acquisition terminal 102 acquires alarm information in the technical alarm system 100, where the alarm information includes at least one of an alarm address, an alarm type and an alarm time; analyzing alarm information, when the alarm type is fire, acquiring corresponding building information based on an alarm address, and matching on-duty personnel information according to alarm time, wherein the building information comprises at least one of a building address, building space coordinate information, a surrounding water source of a building and a traffic image, and the on-duty personnel information comprises at least one of biological information, a name and a contact way of the on-duty personnel; packaging alarm information, building information and attendant information to generate a fire alarm data packet; and sending the fire alarm data packet to the fire alarm condition receiving terminal 104.

The fire alarm condition collection terminal 102 and the fire alarm condition receiving terminal 104 may be, but not limited to, various personal computers, notebook computers, smart phones, tablet computers, portable wearable devices, etc., and the fire alarm condition collection terminal 102 and the fire alarm condition receiving terminal 104 may also be servers, which may be implemented by using independent servers or a server cluster formed by a plurality of servers.

In one embodiment, as shown in fig. 2, a fire alarm information sending method is provided, and the fire alarm information sending method is applied to the fire alarm information collection terminal 102 in fig. 1 for illustration, and includes the following steps:

step S202, alarm information in the technical protection alarm system is acquired, wherein the alarm information comprises at least one of an alarm address, an alarm type and alarm time.

The technical protection is technical safety protection in the category of social public safety, and is a safety protection measure by adopting modern scientific and technical means, wherein the modern scientific and technical means mainly comprise sensor technology, electronic technology, computer technology, communication technology and the like. The technical protection alarm system comprises a subsystem formed by various safety precautions, and can generate alarm information when the subsystem has abnormal conditions. Taking the building field as an example, the technical protection alarm system can specifically comprise various subsystems, such as a fire alarm system, a video monitoring system, an intrusion alarm system, an entrance management system, an electronic inspection management system, a parking garage management system, a visitor management system, an elevator management system, an emergency call system, an explosion-proof safety inspection system and the like. In the event of an abnormal condition, such as a fire, elevator failure, illegal intrusion, etc., the subsystem may generate alarm sub-information.

The subsystem can comprise a plurality of types of technical probes, the technical probes can comprise sensors, detectors and the like, unique device codes and position codes of the positions of the unique device codes are arranged in the technical probes, and the subsystem mainly comprises related technical probes, a transmission system and an alarm controller and can be mutually communicated. Specifically, the video monitoring system comprises a camera, a transmission system and a controller. The camera transmits video or image signals to the controller through a coaxial video cable, a network cable, an optical fiber and other transmission systems, and the controller sends the video or image signals to the technical protection alarm service platform. Meanwhile, an operator in the technical protection alarm service platform can send out instructions, and the controller is used for controlling the actions of the upper, lower, left and right of the cameras or the focusing and zooming operation, or the controller is used for realizing the switching among multiple cameras. The technical protection alarm service platform is a service platform which can be used for receiving, forwarding and displaying various information in the technical protection alarm system, can be a server and can be understood as a control center of a building.

The intrusion alarm technology is an important technical means applied to crime activities such as illegal intrusion detection and illegal theft prevention, and the intrusion alarm system mainly comprises an intrusion detector, a transmission system and an alarm controller. The intrusion detector comprises a microwave infrared detector, a switch type detector, a vibration detector and the like. When the intrusion detector detects an intruder, intrusion alarm sub-information is generated and is transmitted to the alarm controller through the transmission system, the alarm controller sends out audible and visual alarm after identification and judgment, and the alarm controller can also control the on-site lamplight to be turned on or control a camera in the video monitoring system to start shooting images or video recording, and the intrusion alarm sub-information is transmitted to the technical protection alarm service platform.

In one embodiment, the fire consists essentially of smoldering, incipient, total fire, and decay phases. The smoldering stage is a fire source incubation period, no open fire is generated, a large amount of smoke is generated, the initial stage is a local open fire, the room temperature is increased, the whole ignition stage is violent combustion, the room temperature is increased rapidly, and the decay stage is a stage of complete burnout of combustible substances. Since fire is one of the most frequent and common major hazards threatening public safety and social development, not found in time can have serious consequences. Therefore, the technical protection probe of the fire alarm system is a plurality of types of sensors, such as a temperature sensor, a smoke sensor, a humidity sensor, a gas sensor and the like, and each sensor is internally provided with a unique device code and a position code of the position. When a fire disaster occurs, the temperature sensor, the smoke sensor, the gas sensor and the like can detect the abnormal state of the environment, can convert the physical quantities such as smoke, heat, flame and the like generated by combustion into electric signals through the sensor, namely fire disaster warning sub-information, and is transmitted to the warning controller through the transmission system, and the warning controller transmits the fire disaster warning sub-information to the technical protection warning service platform and can also control the camera in the video monitoring system to shoot fire disaster images and videos. The fire alarm sub-information mainly comprises device codes and position codes of sensors, fire images, videos and the like. The technical protection alarm service platform obtains time information through a network, and generates alarm information based on fire alarm sub-information, fire images, videos and the like according to a manufacturer protocol of the sensor. The alarm information of the technical protection alarm system can comprise at least one of an alarm address, an alarm type and alarm time. The technical protection alarm service platform can also send alarm information of the technical protection alarm system.

In one embodiment, the alarm information of the technical protection alarm system is transmitted in the form of a character string, and the alarm information can be a character string variable. The character string variable refers to a variable for storing a character constant, and the value of the character string variable is the character constant, namely a single character. The alarm information may be communicated based on a serial port, such as an asynchronous transfer standard interface communication, etc. Specifically, it may be an RS-232 serial port. The RS-232 serial port is a serial communication interface which is commonly used at present. Since there is more than one sensor in an abnormal state in the building at the time of fire occurrence, the "#" splitter can be used to distinguish the positions and types of different sensors in the alarm information.

And S204, analyzing alarm information, and when the alarm type is fire, acquiring corresponding building information based on the alarm address, and matching on-duty personnel information according to the alarm time, wherein the building information comprises at least one of a building address, building space coordinate information, a building surrounding water source and a traffic image, and the on-duty personnel information comprises at least one of biological information, a name and a contact mode of the on-duty personnel.

In one embodiment, after the alarm information in the technical protection alarm system is acquired, the method further comprises: and caching the character string variable corresponding to the alarm information so as to prevent the alarm information from being lost, and analyzing the character string variable corresponding to the cached alarm information one by one when analyzing the alarm information.

In one embodiment, when the alarm information is analyzed, the position and the type of the sensor can be determined through address codes or device codes in the alarm information, so that whether the sensor is fire or not can be determined according to the position and the type of the sensor, and whether the sensor is fire or not can be determined according to images and videos in the alarm information. For example, when the type of sensor includes a temperature sensor, a gas sensor, or a smoke sensor, a large amount of smoke, fire, or the like appears in the image and video, the type of alarm information is determined to be fire.

In one embodiment, when the type of alarm information is fire, it is necessary to determine the building information of the building where the fire occurs, so that the fire fighting and rescue command center rapidly dispatches the power to handle the fire alarm. The building information corresponding to the alarm address can be acquired based on the corresponding relation between the pre-stored address and the building information, and the building information comprises at least one of building address, building space coordinate information, building surrounding water source and traffic image. The building address refers to a place where a building is located, and needs to be specific to a province, a city (county), a district, a street name, a district name, a building number, a unit number and the like where the building is located. The building space coordinate information refers to position information of a plane rectangular coordinate system in a drawing of a building so as to evacuate surrounding masses when the fire is large. The surrounding water source of the building refers to the water source information of the surrounding of the building, which is closer to the surrounding of the building and mainly comprises government water supply, fire water pools, natural water sources, fire standby water sources and the like, and the traffic image refers to road images, real-time traffic images and the like of the surrounding of the building, so that continuous rescue support is provided. In particular, since the building address, the building space coordinate information and the building surrounding water source are basically unchanged, the building surrounding water source can be determined based on the stored historical information, and since the traffic image is changed in real time, the real-time communication determination can be performed with the traffic guidance and dispatching system.

In one embodiment, when the alarm information type is fire, the information of the on-duty personnel of the building where the fire occurs is also required to be determined, and the on-duty personnel can assist in evacuating people in the building in advance by contacting with the on-duty personnel. The on-duty personnel information can be determined according to the on-duty time corresponding to the prestored on-duty personnel, the on-duty personnel can be a hall on-duty personnel of a building, the on-duty personnel can also be a floor on-duty personnel of a fire disaster occurrence position, and the on-duty personnel information comprises at least one of biological information, names and contact modes of the on-duty personnel. Specifically, the biological information of the person on duty mainly includes a face image, fingerprint information, and the like. The attendant information may also include location information of the attendant when the fire occurred.

And S206, packaging the alarm information, the building information and the attendant information to generate a fire alarm data packet.

In one embodiment, when the alarm information, the building information and the attendant information are packaged to generate the fire alarm data packet, the packaging format can be packaged according to the convention in the message interface specification of the message access layer of China Mobile 5G industry, namely, the interface specification V1.0.3, and the fire alarm data packet can be transmitted based on the internet hypertext HTTP1.1 protocol-RFC 2616-Chinese version protocol.

In one embodiment, since the alarm information, the building information and the attendant information may include various types of information such as fire images, videos, positions, etc., an extensible markup language format may be used when the information is packaged, so as to solve the data variability between the information. Among these, the extensible markup language (Extensible Markup Language, XML) is a computer language that allows users to mark data, defining data types.

In one embodiment, the fire alarm data packet may be a rich media communication based data packet. Specifically, the fire alarm data packet may be a rich media sms, and may be used for rich media communication. The rich media communication (Rich Communication Suite, RCS) is a 5G-based communication scheme that merges services such as voice, video, status bars, and location. The rich media short message is established on the basis of the common text short message, can send multimedia information such as images, videos and the like, is integrated with various mobile communication standard protocols, and does not need to install any plug-in or update a terminal. Because the fire alarm data packet comprises various types of information such as fire images, videos, positions and the like, the speed of fire alarm sending can be greatly improved based on rich media communication.

And step S208, a fire alarm data packet is sent to the fire alarm condition receiving terminal.

In one embodiment, the fire alarm condition receiving terminal may be a terminal or a server for receiving the fire alarm condition, may be a user terminal, may also be a fire extinguishing and rescue command center terminal, and the like. The fire alarm condition receiving terminal can analyze the fire alarm data packet, display the analyzed fire alarm data on a display interface of the fire alarm condition receiving terminal, and send out an alarm prompt, wherein the alarm prompt can be an audible and visual prompt. The display interface of the terminal can comprise various controls, such as controls of events, characters, pictures, videos and the like, and corresponding specific information is displayed through the controls.

Specifically, a fire alarm data packet is sent to a service platform where the fire alarm receiving terminal is located, and the fire alarm data packet is sent to the fire alarm receiving terminal through the service platform. The service platform can be a message of an operator, namely a platform (Massage as a Platform, maaP), and a plurality of registered service numbers including a user terminal number and a fire-fighting, fire-fighting and rescue command center terminal number are prestored in the service platform. And the service platform sends a fire alarm data packet to the fire alarm condition receiving terminal based on the service number.

In the fire alarm information sending method, the alarm information in the technical alarm system is obtained, and the alarm information comprises at least one of an alarm address, an alarm type and alarm time; analyzing alarm information, when the alarm type is fire, acquiring corresponding building information based on an alarm address, and matching on-duty personnel information according to alarm time, wherein the building information comprises at least one of a building address, building space coordinate information, a surrounding water source of a building and a traffic image, and the on-duty personnel information comprises at least one of biological information, a name and a contact way of the on-duty personnel; packaging alarm information, building information and attendant information to generate a fire alarm data packet; and sending a fire alarm data packet to the fire alarm condition receiving terminal. By adopting the method of the embodiment of the application, the fire alarm condition can be found in time by acquiring and analyzing the alarm information of the technical protection alarm system, the alarm information, the building information and the on-duty personnel information are packaged and then are transmitted together, the fire detailed information which can be transmitted once can be transmitted, the speed and the normalization of fire alarm condition transmission are effectively improved, and the method is beneficial to a fire extinguishing and rescue command center to rapidly dispatch the force to handle the fire alarm condition.

In order to make the objects, technical solutions and advantages of the present application more apparent, the present application will be further described in detail with reference to the accompanying drawings and one of the specific embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the present application.

In one embodiment, as shown in fig. 3, a schematic diagram of a fire alarm information sending method is shown, which includes: the technical protection alarm system, the fire alarm condition acquisition terminal, the operator MaaP service platform and the fire alarm condition receiving terminal comprise the following specific steps:

the fire alarm condition acquisition terminal acquires alarm information in the technical protection alarm system based on an RS-232 serial port, wherein the alarm information comprises at least one of an alarm address, an alarm type and alarm time;

the fire alarm condition acquisition terminal caches the character string variable corresponding to the alarm information, analyzes the character string variable corresponding to the cached alarm information one by one, acquires corresponding building information based on the alarm address when the alarm type is fire, and matches on-duty personnel information according to the alarm time, wherein the building information comprises at least one of a building address, building space coordinate information, a building peripheral water source and a traffic image, and the on-duty personnel information comprises at least one of biological information, names and contact modes of on-duty personnel; packaging the alarm information, the building information and the attendant information to generate an RCS fire alarm data packet;

the fire alarm condition acquisition terminal sends an RCS fire alarm data packet to an operator maaP service platform where the fire alarm condition receiving terminal is located;

the fire alarm condition receiving terminal receives and analyzes the fire alarm data packet to obtain fire alarm data, the fire alarm data is displayed on a display interface of the fire alarm condition receiving terminal, and an alarm prompt is sent out.

It should be understood that, although the steps in the flowchart of fig. 2 are shown in sequence as indicated by the arrows, the steps are not necessarily performed in sequence as indicated by the arrows. The steps are not strictly limited to the order of execution unless explicitly recited herein, and the steps may be executed in other orders. Moreover, at least a portion of the steps in fig. 2 may include a plurality of steps or stages, which are not necessarily performed at the same time, but may be performed at different times, and the order of the steps or stages is not necessarily sequential, but may be performed in rotation or alternatively with at least a portion of the steps or stages in other steps or other steps.

In one embodiment, as shown in fig. 4, there is provided a fire alarm information transmission apparatus, comprising: an information acquisition module 410, an information parsing module 420, a data packet encapsulation module 430, and a data packet transmission module 440, wherein:

an information obtaining module 410, configured to obtain alarm information in the technical protection alarm system, where the alarm information includes at least one of an alarm address, an alarm type, and an alarm time;

the information analysis module 420 is configured to analyze the alarm information, obtain corresponding building information based on the alarm address when the alarm type is fire, and match attendant information according to the alarm time, where the building information includes at least one of a building address, building space coordinate information, a surrounding water source of a building, and a traffic image, and the attendant information includes at least one of biological information, a name, and a contact of an attendant;

the data packet packaging module 430 is configured to package the alarm information, the building information, and the attendant information to generate a fire alarm data packet;

and the data packet sending module 440 is configured to send the fire alarm data packet to a fire alarm condition receiving terminal.

In one embodiment, the fire alarm information transmission device further comprises:

and the storage module is used for caching the character string variable corresponding to the alarm information.

In one embodiment, the information parsing module 420 includes the following elements:

and the character string analysis unit is used for analyzing the cached character string variables corresponding to the alarm information one by one.

The building information determining unit is used for acquiring building information corresponding to the alarm address based on the corresponding relation between the pre-stored address and the building information;

the attendant information determining unit is used for matching the attendant corresponding to the alarm time according to the prestored attendant time corresponding to the attendant, and determining attendant information.

In one embodiment, the packet transmission module 440 includes the following elements:

and the data packet sending unit is used for sending the fire alarm data packet to a service platform where the fire alarm condition receiving terminal is located.

The specific limitation of the fire alarm information transmitting device can be referred to the limitation of the fire alarm information transmitting method hereinabove, and the detailed description thereof will be omitted. All or part of the modules in the fire alarm information sending device can be realized by software, hardware and a combination thereof. The modules can be embedded in or independent of a processor in the fire alarm condition acquisition terminal in a hardware form, and can also be stored in a memory in the fire alarm condition acquisition terminal in a software form, so that the processor can conveniently call and execute the operations corresponding to the modules.

In one embodiment, a fire alarm condition acquisition terminal is provided, and an internal structure diagram thereof can be shown in fig. 5. The fire alarm condition acquisition terminal comprises a processor, a memory and a network interface which are connected through a system bus. The processor of the fire alarm condition acquisition terminal is used for providing calculation and control capabilities. The memory of the fire alarm condition acquisition terminal comprises a nonvolatile storage medium and an internal memory. The non-volatile storage medium stores an operating system, computer programs, and a database. The internal memory provides an environment for the operation of the operating system and computer programs in the non-volatile storage media. The database of the fire alarm condition acquisition terminal is used for storing fire alarm information data. The network interface of the fire alarm condition acquisition terminal is used for communicating with an external terminal through network connection. The computer program when executed by the processor implements a fire alarm information delivery method.

In one embodiment, a fire alarm condition acquisition terminal is provided, and the internal structure diagram of the fire alarm condition acquisition terminal can be shown in fig. 6. The fire alarm condition acquisition terminal comprises a processor, a memory, a communication interface, a display screen and an input device which are connected through a system bus. The processor of the fire alarm condition acquisition terminal is used for providing calculation and control capabilities. The memory of the fire alarm condition acquisition terminal comprises a nonvolatile storage medium and an internal memory. The non-volatile storage medium stores an operating system and a computer program. The internal memory provides an environment for the operation of the operating system and computer programs in the non-volatile storage media. The communication interface of the fire alarm condition acquisition terminal is used for carrying out wired or wireless communication with an external terminal, and the wireless mode can be realized through WIFI, an operator network, NFC (near field communication) or other technologies. The computer program when executed by the processor implements a fire alarm information delivery method. The display screen of the fire alarm condition acquisition terminal can be a liquid crystal display screen or an electronic ink display screen, the input device of the fire alarm condition acquisition terminal can be a touch layer covered on the display screen, can also be a key, a track ball or a touch pad arranged on the shell of the fire alarm condition acquisition terminal, and can also be an external keyboard, a touch pad or a mouse and the like.

It will be appreciated by those skilled in the art that the structures shown in fig. 5 and 6 are merely block diagrams of portions of structures associated with aspects of the present application and are not intended to limit the fire detection terminals to which aspects of the present application may be applied, and that a particular fire detection terminal may include more or fewer components than shown, or may combine certain components, or may have a different arrangement of components.

In one embodiment, a fire alarm condition acquisition terminal is provided, including a memory and a processor, wherein the memory stores a computer program, and the processor implements the following steps when executing the computer program:

acquiring alarm information in a technical protection alarm system, wherein the alarm information comprises at least one of an alarm address, an alarm type and alarm time;

analyzing the alarm information, when the alarm type is fire, acquiring corresponding building information based on the alarm address, and matching attendant information according to the alarm time, wherein the building information comprises at least one of a building address, building space coordinate information, a surrounding water source of a building and a traffic image, and the attendant information comprises at least one of biological information, a name and a contact way of an attendant;

packaging the alarm information, the building information and the attendant information to generate a fire alarm data packet;

and sending the fire alarm data packet to a fire alarm receiving terminal.

In one embodiment, a computer readable storage medium is provided having a computer program stored thereon, which when executed by a processor, performs the steps of:

acquiring alarm information in a technical protection alarm system, wherein the alarm information comprises at least one of an alarm address, an alarm type and alarm time;

analyzing the alarm information, when the alarm type is fire, acquiring corresponding building information based on the alarm address, and matching attendant information according to the alarm time, wherein the building information comprises at least one of a building address, building space coordinate information, a surrounding water source of a building and a traffic image, and the attendant information comprises at least one of biological information, a name and a contact way of an attendant;

packaging the alarm information, the building information and the attendant information to generate a fire alarm data packet;

and sending the fire alarm data packet to a fire alarm receiving terminal.

In one embodiment, a fire alarm system is provided, the system comprising: the fire alarm condition acquisition terminal and the fire alarm condition receiving terminal.

The fire alarm condition receiving terminal is used for receiving the fire alarm data packet sent by the fire alarm condition collecting terminal; and analyzing the fire alarm data packet to obtain fire alarm data.

The fire alarm condition receiving terminal is also used for displaying the fire alarm data.

The specific limitation regarding the fire alarm information delivery system may be referred to as the above limitation regarding the fire alarm information delivery method and the fire alarm information delivery device, and will not be repeated herein.

Those skilled in the art will appreciate that implementing all or part of the above described methods may be accomplished by way of a computer program stored on a non-transitory computer readable storage medium, which when executed, may comprise the steps of the embodiments of the methods described above. Any reference to memory, storage, database, or other medium used in embodiments provided herein may include at least one of non-volatile and volatile memory. The nonvolatile Memory may include Read-Only Memory (ROM), magnetic tape, floppy disk, flash Memory, optical Memory, or the like. Volatile memory can include random access memory (Random Access Memory, RAM) or external cache memory. By way of illustration, and not limitation, RAM can be in the form of a variety of forms, such as static random access memory (Static Random Access Memory, SRAM) or dynamic random access memory (Dynamic Random Access Memory, DRAM), and the like.

The technical features of the above embodiments may be arbitrarily combined, and all possible combinations of the technical features in the above embodiments are not described for brevity of description, however, as long as there is no contradiction between the combinations of the technical features, they should be considered as the scope of the description.

The above examples merely represent a few embodiments of the present application, which are described in more detail and are not to be construed as limiting the scope of the invention. It should be noted that it would be apparent to those skilled in the art that various modifications and improvements could be made without departing from the spirit of the present application, which would be within the scope of the present application. Accordingly, the scope of protection of the present application is to be determined by the claims appended hereto.

Claims (10)

1. A fire alarm information delivery method, the method comprising:

acquiring alarm information in a technical protection alarm system, wherein the alarm information comprises at least one of an alarm address, an alarm type and alarm time;

analyzing the alarm information, when the alarm type is fire, acquiring prestored building information from a fire alarm condition acquisition terminal based on the alarm address, and matching prestored attendant information in the fire alarm condition acquisition terminal according to the alarm time, wherein the building information comprises at least one of a building address, building space coordinate information, a building peripheral water source and a traffic image, and the attendant information comprises at least one of biological information, a name and a contact way of an attendant;

packaging the alarm information, the building information and the attendant information to generate a fire alarm data packet, wherein the fire alarm data packet is a data packet based on rich media communication;

and sending the fire alarm data packet to a fire alarm receiving terminal.

2. The fire alarm information transmission method according to claim 1, wherein the alarm information includes a character string; after the alarm information in the technical protection alarm system is acquired, before the alarm information is analyzed, the method comprises the steps of;

and caching the character string variable corresponding to the alarm information.

3. The fire alarm information transmission method according to claim 2, wherein the analyzing the alarm information includes:

and analyzing the cached character string variables corresponding to the alarm information character by character.

4. The fire alarm information transmission method according to claim 1, wherein the acquiring pre-stored building information from the fire alarm information acquisition terminal based on the alarm address, and matching pre-stored attendant information in the fire alarm information acquisition terminal according to the alarm time, comprises:

acquiring building information corresponding to the alarm address based on the corresponding relation between the address pre-stored by the fire alarm condition acquisition terminal and the building information;

and matching the on-duty personnel corresponding to the alarm time according to the on-duty time corresponding to the on-duty personnel stored in advance by the fire alarm condition acquisition terminal, and determining the information of the on-duty personnel.

5. The fire alarm information transmission method according to claim 1, wherein the transmitting the fire alarm data packet to the fire alarm condition receiving terminal comprises:

and sending the fire alarm data packet to a service platform where the fire alarm condition receiving terminal is located.

6. A fire alarm information delivery device, the device comprising:

the information acquisition module is used for acquiring alarm information in the technical protection alarm system, wherein the alarm information comprises at least one of an alarm address, an alarm type and alarm time;

the information analysis module is used for analyzing the alarm information, when the alarm type is fire, acquiring prestored building information from a fire alarm condition acquisition terminal based on the alarm address, and matching prestored attendant information in the fire alarm condition acquisition terminal according to the alarm time, wherein the building information comprises at least one of a building address, building space coordinate information, a surrounding water source of a building and a traffic image, and the attendant information comprises at least one of biological information, a name and a contact way of an attendant;

the data packet packaging module is used for packaging the alarm information, the building information and the attendant information to generate a fire alarm data packet, wherein the fire alarm data packet is a data packet based on rich media communication;

and the data packet sending module is used for sending the fire alarm data packet to the fire alarm condition receiving terminal.

7. A fire alarm condition acquisition terminal comprising a memory and a processor, the memory storing a computer program, characterized in that the processor, when executing the computer program, implements the steps of the fire alarm condition transmission method according to any one of claims 1 to 5.

8. A computer readable storage medium having stored thereon a computer program, characterized in that the computer program, when executed by a processor, implements the steps of the fire alarm signaling method of any of claims 1 to 5.

9. A fire alarm system, the system comprising: the fire alarm condition collection terminal of claim 7, and a fire alarm condition reception terminal;

the fire alarm condition receiving terminal is used for receiving the fire alarm data packet sent by the fire alarm condition collecting terminal; and analyzing the fire alarm data packet to obtain fire alarm data.

10. The fire alarm information delivery system of claim 9, wherein the fire alarm condition receiving terminal is further configured to display the fire alarm data.

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