CN112600925B - Fire-fighting micro-station intelligent terminal, service processing method thereof and storage medium - Google Patents

Abstract

The invention provides a fire-fighting micro-station intelligent terminal, a service processing method and a storage medium thereof, wherein the intelligent terminal comprises: a wireless communication module; a fixed telephone communication chip; the application processor is connected with the wireless communication module and the fixed telephone communication chip and is used for establishing communication connection with a remote center system through the wireless communication module or the fixed telephone communication chip; the touch screen is connected with the application processor; the application processor receives alarm condition data sent by the remote center system, and displays an alarm condition processing interface corresponding to the alarm condition data through the touch screen when a user calls through the wireless communication module or the fixed telephone communication chip; and the application processor transmits the operation information fed back by the user to a remote center system through a network. The scheme can carry out services such as police information transmission, receiving, processing, task dispatch and the like on the premise of keeping the basic communication function, so that the fixed intelligent telephone and the PC in the fire-fighting micro station can be combined into one, and resources are saved.

Description

Fire-fighting micro-station intelligent terminal, service processing method thereof and storage medium

Technical Field

The invention relates to the technical field of fire control, in particular to a fire control micro-station intelligent terminal, a service processing method thereof and a storage medium.

Background

Fire-fighting stations, i.e. sites where firefighters work (fight on duty), are public fire-fighting facilities for protecting urban fire safety, and are classified into micro-stations, primary stations, secondary stations, etc. according to the dangerous situation of regional disasters and the scale thereof. At present, most fire-fighting micro stations are only provided with necessary fire-fighting equipment, and are generally built in communities or offices with relatively crude environments such as enterprise fire-fighting control rooms, and are provided with WIFI network environments in part and independent telephone lines in part.

Because the fire-fighting micro-station belongs to small civil organizations in many cases, administrative constitution is loose, if a portable intelligent phone is used for communication, a plurality of programs are required to be additionally configured and installed, and unified management is inconvenient, therefore, in the fire-fighting micro-station, communication is generally carried out by being equipped with a fixed intelligent phone, and then a PC (personal computer) is additionally equipped for carrying out the work of alarm receiving, strength information dispatching, alarm reporting, daily exercise and the like.

However, when the fixed intelligent telephone is used for police rescue, the alarm condition processing and the on-site state cannot be fed back in time, the rescue is not facilitated, the number of fire fighting micro stations is large, and the huge waste of resources can be caused on the basis that PC computers are needed to be equipped. Therefore, a fire-fighting micro-station intelligent terminal capable of carrying out alarm condition transmission, receiving, processing and task dispatching in a standardized manner and feeding back alarm condition processing and on-site state in time when an alarm rescue is carried out on the premise of keeping a basic communication function is needed.

Disclosure of Invention

The invention aims to provide a fire-fighting micro-station intelligent terminal, a service processing method and a storage medium thereof, wherein the terminal can carry out services such as alarm condition transmission, receiving, processing, task dispatch and the like in a standardized manner on the premise of keeping a basic communication function, and can also feed back alarm condition processing and on-site states in time when an alarm is sent out for rescue, thereby being beneficial to smooth rescue and saving resources.

The technical scheme provided by the invention is as follows:

the invention provides a fire-fighting micro-station intelligent terminal, which comprises:

a wireless communication module;

a fixed telephone communication chip;

the application processor is connected with the wireless communication module and the fixed telephone communication chip and is used for establishing communication connection with a remote center system through the wireless communication module or the fixed telephone communication chip;

the touch screen is connected with the application processor;

the application processor receives alarm condition data sent by the remote center system, and displays an alarm condition processing interface corresponding to the alarm condition data through the touch screen when a user communicates through the wireless communication module or the fixed telephone communication chip;

and the application processor sends the operation information fed back by the user through the warning condition processing interface to the remote center system through a network.

Specifically, the wireless communication module group is composed of a radio frequency module, a baseband chip and a digital baseband processor, and is mainly used for completing telephone communication and data transmission based on sim cards or WIFI networks and obtaining information such as police, disaster, tasks and the like. The wireless communication module group outputs information to the application processor through the RS-485 interface, the output data of the wireless communication module group follows Modbus RTU protocol, and the content of the wireless communication module group comprises off-hook signals, on-hook signals, ringing signals and the like, and service data such as case information, personnel information, site conditions, strength information, strength dispatch information, vehicle dispatch and the like interacted between the micro-station and a remote central system. The data output format uses standard binary coding.

The fixed telephone communication chip mainly completes the telephone communication based on the RJ11 standard telephone interface and realizes the telephone communication based on the wire. The fixed telephone communication chip outputs the signaling of telephone off-hook, on-hook, ringing, etc. to the application processor through the RS-485 interface.

The liquid crystal touch screen mainly completes A/D conversion through a touch screen controller, realizes conversion of user operation into binary data, transmits the binary data to an application processor, and after the application processor processes and feeds back the data, feedback data are formed and transmitted to the liquid crystal screen for display.

In the scheme, the fire-fighting micro-station intelligent terminal product aims to comprehensively consider the possible scenes, and besides the original basic fixed telephone communication chip of the intelligent telephone, a wireless communication module is added, and a system chip system is upgraded. The device hardware is provided with an independent telephone and a 10-inch color touch screen, and the machine body comprises a standard telephone line interface (RJ 11), a Wi-Fi and network line interface (RJ 45), a communication antenna, a SIM card slot, a USB interface and the like. And the Android operating system is carried on the device software, and customized independent business operating software (namely an application processor) is embedded.

According to the intelligent terminal of the fire-fighting micro station, the wireless communication module or the fixed telephone communication chip is arranged, so that communication connection can be established between the intelligent terminal and a remote center system in real time, the intelligent terminal can move at any time, and the functions of the fixed telephone and the mobile telephone are met; meanwhile, by arranging the application processor and the touch screen, when a user communicates through the wireless communication module or the fixed phone communication chip, an alarm condition processing interface corresponding to alarm condition data can be displayed through the touch screen, so that the user can immediately transmit, receive, process, dispatch tasks and other services of the alarm condition, the intelligent terminal can be integrated with a PC computer, and resources are saved; and the operation feedback is uniformly carried out through the alarm condition processing interface, so that the processing of the service is more standardized, and the problems that the processing mode is inconsistent, the later storage, statistics, tracing, big data analysis and the like are not facilitated when the service related work is carried out in different stages of alarm receiving, feedback, task arrangement and the like and in different places such as a micro station, a site and the like are avoided.

Further, the application processor includes:

the acquisition module is used for acquiring alarm condition data sent by the remote center system;

the analysis module is connected with the acquisition module and used for analyzing the alarm condition data and acquiring a new alarm condition corresponding to the alarm condition data;

the processing module is connected with the analysis module;

the display module is connected with the processing module and used for displaying the new alarm condition through the touch screen;

the judging module is connected with the processing module and is used for judging whether a telephone call is incoming or not;

and when the judging module judges that a telephone call is in, and the new alarm condition comprises a calling number acquired by the analysis module for analyzing the incoming call, the processing module jumps the screen of the touch screen to an alarm condition processing interface, and receives and stores service data input by a user through the alarm condition processing interface.

Specifically, in the scheme, the acquisition module can receive the alarm condition data sent by the remote center system, the analysis module can acquire a corresponding new alarm condition, and the touch screen can display the new alarm condition; when a call is incoming, the incoming call is analyzed, the calling number can be acquired, and when the new alarm condition contains the calling number, the screen of the touch screen can directly jump to the alarm condition processing interface, so that the staff can process the new alarm condition.

Further, the processing module is further configured to skip a screen of the touch screen to an active alarm interface when the judging module judges that a call is incoming and the new alarm condition does not include the calling number acquired by the analyzing module for analyzing the incoming call, and receive and store alarm condition data input by a user through the active alarm interface.

Further, the display module is further used for displaying work processing selection options, wherein the work processing selection options comprise alert work options and daily work options;

the processing module jumps the screen of the touch screen to an alarm processing interface when the judging module judges that no telephone call is in and a user selects the alarm working option through the touch screen;

the processing module is also used for jumping the screen of the touch screen to a daily work interface when the user selects the daily work option, and receiving and storing the change and maintenance of the micro-station information by the user through the daily work interface.

Further, the application processor further includes:

and the communication connection module is used for establishing connection with the remote center system at fixed time, and arranging the data stored by the processing module into a message in a preset format and sending the message to the remote center system.

Further, the wireless communication module is provided with a SIM card slot and a communication antenna for wireless communication of the intelligent terminal;

and the fixed telephone communication chip is provided with a fixed telephone line interface for carrying out wired communication of the intelligent terminal.

Further, the application processor is provided with an Ethernet interface and a WiFi module which are respectively used for carrying out wired and wireless network connection of the application processor;

the application processor is also connected with a telephone and a camera, and is respectively used for collecting the voice and the picture of the user;

the application processor is also provided with a USB slot for storing alarm condition data input by a user through the alarm condition processing interface.

In addition, the invention also provides a service processing method based on the intelligent terminal of the fire-fighting micro station, which is characterized by comprising the following steps:

establishing communication connection with a remote center system and acquiring alarm condition data sent by the remote center system;

displaying an alarm condition processing interface corresponding to the alarm condition data when a user calls;

and sending the operation information fed back by the user through the warning condition processing interface to the remote center system through a network.

Further, the alert condition processing interface corresponding to the alert condition data is displayed when the user is talking, and the method specifically comprises the following steps:

analyzing the alarm condition data, and displaying a new alarm condition corresponding to the alarm condition data through a touch screen;

judging whether a telephone call is incoming;

if the incoming call is received, analyzing the incoming call, acquiring a calling number, and skipping the screen of the touch screen to an alarm condition processing interface when the new alarm condition contains the calling number;

if no call is in, when the user selects the alarm condition work through the touch screen, the screen of the touch screen is jumped to an alarm condition processing interface.

In addition, the invention also provides a storage medium, at least one instruction is stored in the storage medium, and the instruction is loaded and executed by a processor to realize the operation executed by the fire fighting micro station intelligent terminal service processing method.

The intelligent terminal of the fire-fighting micro station, the service processing method and the storage medium thereof have at least the following beneficial effects:

1. according to the scheme, the wireless communication module or the fixed phone communication chip is arranged, so that communication connection can be established with a remote center system in real time, the intelligent terminal can move at any time, and the functions of the fixed phone and the mobile phone are met;

2. according to the scheme, the application processor and the touch screen are arranged, so that when a user is in communication through the wireless communication module or the fixed phone communication chip, an alarm condition processing interface corresponding to alarm condition data is displayed through the touch screen, and the user can immediately transmit, receive, process, dispatch tasks and other services of the alarm condition, so that the intelligent terminal and the PC can be combined into a whole, and resources are saved;

3. the scheme uniformly feeds back the operation through the alarm condition processing interface, so that the service processing is more standardized, and the problems that the processing mode is inconsistent, the later storage, statistics, tracing, big data analysis and the like are not facilitated when the service related work is carried out in different stages of alarm receiving, feedback, task arrangement and the like and in different places such as a micro station, a site and the like are avoided.

Drawings

The above features, technical features, advantages and implementation modes of the present invention will be further described in the following description of preferred embodiments with reference to the accompanying drawings in a clear and understandable manner.

FIG. 1 is a schematic diagram of the overall structure of an intelligent terminal according to an embodiment of the present invention;

FIG. 2 is a schematic diagram of an application processor module according to an embodiment of the present invention;

FIG. 3 is an overall flow diagram of an embodiment of the present invention;

FIG. 4 is a schematic flow chart of another embodiment of the present invention;

fig. 5 is a schematic diagram of service processing according to an embodiment of the present invention.

Reference numerals in the drawings: 1-a wireless communication module; 2-a fixed telephone communication chip; 3-an application processor; 4-a touch screen; 31-a communication connection module; 32-an acquisition module; 33-an analysis module; 34-a display module; 35-judging module; 36-a processing module.

Detailed Description

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the following description will explain the specific embodiments of the present invention with reference to the accompanying drawings. It is evident that the drawings in the following description are only examples of the invention, from which other drawings and other embodiments can be obtained by a person skilled in the art without inventive effort.

For the sake of simplicity of the drawing, the parts relevant to the present invention are shown only schematically in the figures, which do not represent the actual structure thereof as a product. Additionally, in order to simplify the drawing for ease of understanding, components having the same structure or function in some of the drawings are shown schematically with only one of them, or only one of them is labeled. Herein, "a" means not only "only this one" but also "more than one" case.

Example 1

In one embodiment of the present invention, as shown in fig. 1, the present invention provides a fire-fighting micro-station intelligent terminal, which includes a wireless communication module 1, a fixed phone communication chip 2, an application processor 3, and a touch screen (in this case, a liquid crystal touch screen) 4.

Preferably, the wireless communication module 1 is provided with a SIM card slot and a communication antenna for wireless communication of the intelligent terminal; the fixed telephone communication chip 2 is provided with a fixed telephone line interface for carrying out wired communication of the intelligent terminal.

Further preferably, the application processor 3 is provided with an ethernet interface and a WiFi module, which are respectively used for performing wired and wireless network connection of the application processor 3; the application processor 3 is also connected with a telephone and a camera, and is respectively used for collecting the voice and the picture of the user; the application processor 3 is also provided with a USB slot for inserting a USB flash disk, copying or storing alert condition data input by a user through an alert condition processing interface.

The application processor 4 is connected with the wireless communication module 1 and the fixed telephone communication chip 2 and is used for establishing communication connection with a remote center system through the wireless communication module 1 or the fixed telephone communication chip 2; the touch screen 4 is connected to the application processor 3.

Specifically, the wireless communication module group is composed of a radio frequency module, a baseband chip and a digital baseband processor, and is mainly used for completing telephone communication and data transmission based on sim cards or WIFI networks and obtaining information such as police, disaster, tasks and the like. The wireless communication module group outputs information to the application processor through the RS-485 interface, the output data of the wireless communication module group follows Modbus RTU protocol, and the content of the wireless communication module group comprises off-hook signals, on-hook signals, ringing signals and the like, and service data such as case information, personnel information, site conditions, strength information, strength dispatch information, vehicle dispatch and the like interacted between the micro-station and a remote central system. The data output format uses standard binary coding.

The fixed telephone communication chip mainly completes the telephone communication based on the RJ11 standard telephone interface and realizes the telephone communication based on the wire. The fixed telephone communication chip outputs the signaling of telephone off-hook, on-hook, ringing, etc. to the application processor through the RS-485 interface.

The liquid crystal touch screen mainly completes A/D conversion through a touch screen controller, realizes conversion of user operation into binary data, transmits the binary data to an application processor, and after the application processor processes and feeds back the data, feedback data are formed and transmitted to the liquid crystal screen for display.

The application processor 3 receives alarm condition data sent by the remote center system, and displays an alarm condition processing interface corresponding to the alarm condition data through the touch screen 4 when a user calls through the wireless communication module 1 or the fixed phone communication chip 2; the application processor 3 sends the operation information fed back by the user through the alarm processing interface to the remote center system through the network.

In the scheme, the fire-fighting micro-station intelligent terminal product aims to comprehensively consider the possible scenes, and besides the original basic fixed telephone communication chip of the intelligent telephone, a wireless communication module is added, and a system chip system is upgraded. The device hardware is provided with an independent telephone and a 10-inch color touch screen, and the machine body comprises a standard telephone line interface (RJ 11), a Wi-Fi and network line interface (RJ 45), a communication antenna, a SIM card slot, a USB interface and the like. And the Android operating system is carried on the device software, and customized independent business operating software (namely an application processor) is embedded.

According to the intelligent terminal of the fire-fighting micro station, the wireless communication module or the fixed telephone communication chip is arranged, so that communication connection can be established between the intelligent terminal and a remote center system in real time, the intelligent terminal can move at any time, and the functions of the fixed telephone and the mobile telephone are met; meanwhile, by arranging the application processor and the touch screen, when a user communicates through the wireless communication module or the fixed phone communication chip, an alarm condition processing interface corresponding to alarm condition data can be displayed through the touch screen, so that the user can immediately transmit, receive, process, dispatch tasks and other services of the alarm condition, the intelligent terminal can be integrated with a PC computer, and resources are saved; and the operation feedback is uniformly carried out through the alarm condition processing interface, so that the processing of the service is more standardized, and the problems that the processing mode is inconsistent, the later storage, statistics, tracing, big data analysis and the like are not facilitated when the service related work is carried out in different stages of alarm receiving, feedback, task arrangement and the like and in different places such as a micro station, a site and the like are avoided.

Example 2

In one embodiment of the present invention, as shown in fig. 2, the application processor 3 includes an acquisition module 32, an analysis module 33, a display module 34, a judgment module 35, and a processing module 36 on the basis of embodiment 1.

The acquisition module 32 is configured to acquire alert data sent by the remote central system.

Specifically, when the remote center system gives an alarm, each fire-fighting micro-station intelligent terminal can send a connection request to the remote center system at regular time according to the content in the configuration file, and a request field should indicate parameters such as a request data format type, a request time interval and the like; after the remote center system receives the connection request, the remote center system receives alarm condition data; judging whether the alarm condition data is complete standard data; if yes, analyzing alarm condition data; if not, a request for reacquiring the warning condition data is sent to the remote center system.

After the remote center system receives the connection request, the intelligent terminal can receive alarm condition data sent by the remote center system; in order to ensure the completeness and accuracy of the warning condition data, judging whether the warning condition data is complete standard data or not, if so, analyzing the warning condition data and storing corresponding warning condition information in a sqlite database; if the alarm condition data is not analyzed, the request is terminated and the corresponding condition is recorded.

The analyzing module 33 is connected to the acquiring module 32, and is configured to analyze the alarm condition data, and acquire a new alarm condition corresponding to the alarm condition data.

The processing module 36 is connected with the analyzing module 33, and the display module 34 is connected with the processing module 36 and is used for displaying the new alarm condition through the touch screen 4.

Specifically, when the touch screen displays a new warning condition corresponding to warning condition data, the touch screen can adopt high-brightness display, and adopts forms of ringing, vibration and the like to remind a worker in the fire-fighting micro station of the new warning condition.

The judging module 35 is connected with the processing module 36 and is used for judging whether a telephone call is incoming; the processing module 36 is configured to skip the screen of the touch screen 4 to the alert processing interface when the judging module 35 judges that there is an incoming call and the new alert includes the analysis module 33 analyzing the calling number acquired by the incoming call, and receive and store the service data input by the user through the alert processing interface.

By storing various alarm condition data, the management of the fire fighting micro station can be facilitated. In addition, in the scheme, the local storage is adopted for storage, so that a worker can check related information when no network exists.

In addition, the processing module 36 is further configured to skip the screen of the touch screen 4 to the active alarm interface when the judging module 35 judges that there is an incoming call and the new alarm condition does not include the calling number acquired by the analysis module 33 for analyzing the incoming call; and receiving and storing alarm condition data input by the user through the active alarm interface. Specifically, if the new alarm condition does not include the calling number, it indicates that the incoming call is not an alarm condition sent by the remote center system, but another new alarm condition, at this time, the screen of the touch screen jumps to the active alarm interface, and the staff can input corresponding alarm condition data through the active alarm interface, so as to process or send to the remote center system later.

Example 3

In one embodiment of the present invention, the display module 34 is further configured to display a work process selection option, including a police work option and a daily work option, on the basis of embodiment 2.

The processing module 36 jumps the screen of the touch screen 4 to the alert processing interface when the judging module 35 judges that no call is incoming and the user selects alert work through the touch screen 4

The processing module 36 is further configured to skip the screen of the touch screen 4 to the daily work interface when the user selects the daily work option, and receive and store the modification and maintenance of the micro station information by the user through the daily work interface.

Specifically, when a worker processes a task, the worker can display a work selection option through the touch screen, wherein the work selection option comprises a warning situation work option and a daily work option, and when the worker selects the warning situation work option, the screen of the touch screen can directly jump to a warning situation processing interface, so that the worker can conveniently feed back the situations of site situations, personnel dispatch, strength dispatch and the like; when a worker selects daily work options, the screen of the touch screen can directly jump to a daily work interface, and service data such as case information, personnel information, site conditions, strength information, strength dispatch information, vehicle dispatch and the like stored in the fire-fighting micro station can be changed and maintained through the daily work interface.

Preferably, the application processor further includes a communication connection module 31, where the communication connection module 31 is configured to establish a connection with the remote central system at regular time, and arrange the data stored in the processing module 36 into a message in a predetermined format, and send the message to the remote central system. The data stored in the processing module 36 includes modification and maintenance data of the micro-station information through the daily work interface by the user, service data input by the user through the alarm condition processing interface, alarm condition data input by the user through the active alarm interface, and the like.

Example 4

As shown in fig. 3 to 5, the invention provides a service processing method of a fire-fighting micro-station intelligent terminal, which comprises the following steps:

s1, establishing communication connection with a remote center system, and acquiring alarm condition data sent by the remote center system.

Preferably, the method establishes communication connection with a remote center system and acquires alarm condition data sent by the remote center system, and specifically includes the steps of:

and S11, when the remote center system gives an alarm, a connection request is sent to the remote center system at regular time.

Specifically, when the remote center system needs to send out an alarm, each fire-fighting micro-station intelligent terminal can send a connection request to the remote center system at regular time according to the content in the configuration file, and the request field should indicate parameters such as the request data format type, the request time interval and the like.

S12, after the remote center system receives the connection request, the alarm condition data sent by the remote center system is received.

S13, judging whether the alarm condition data are complete standard data.

And S14, if the judgment is yes, analyzing the alarm condition data.

And S15, if the judgment is negative, sending a request for reacquiring the warning condition data to the remote center system.

After the remote center system receives the connection request, the intelligent terminal can receive alarm condition data sent by the remote center system; in order to ensure the completeness and accuracy of the warning condition data, judging whether the warning condition data is complete standard data or not, if so, analyzing the warning condition data and storing corresponding warning condition information in a sqlite database; if the alarm condition data is not analyzed, the request is terminated and the corresponding condition is recorded.

S2, displaying an alarm condition processing interface corresponding to the alarm condition data when the user is talking.

Preferably, when the user calls, a warning condition processing interface corresponding to the warning condition data is displayed, which specifically includes:

s21, analyzing the warning condition data, and displaying a new warning condition corresponding to the warning condition data through the touch screen.

Specifically, when the touch screen displays a new warning condition corresponding to warning condition data, the touch screen can adopt high-brightness display, and adopts forms of ringing, vibration and the like to remind a worker in the fire-fighting micro station of the new warning condition.

S22, judging whether a telephone call is incoming.

Specifically, the incoming call can be dialed to the intelligent terminal of the fire-fighting micro station by a remote center system or an external person through a fixed telephone number and a mobile telephone number.

S23, if the incoming call is received, the incoming call is analyzed, the calling number is obtained, and when the new alarm condition contains the calling number, the screen of the touch screen is jumped to the alarm condition processing interface.

S24, if no call is in, when the user selects the alarm condition work through the touch screen, the screen of the touch screen is jumped to an alarm condition processing interface.

Preferably, after the screen of the touch screen is jumped to the alert processing interface, the method further comprises the steps of:

s25, receiving and storing alarm condition data input by the user through an alarm condition processing interface.

By storing various alarm condition data, the management of the fire fighting micro station can be facilitated. In addition, in the scheme, the local storage is adopted for storage, so that a worker can check related information when no network exists.

S3, transmitting the operation information fed back by the user through the warning condition processing interface to the remote center system through a network.

According to the intelligent terminal of the fire-fighting micro-station, communication connection is established with the remote center system, alarm condition data sent by the remote center system can be received, so that a new alarm condition corresponding to the alarm condition data can be displayed through the touch screen, when a call is incoming, an incoming call is analyzed, a calling number is acquired, when the new alarm condition contains the calling number, a screen of the touch screen can directly jump to an alarm condition processing interface so that a worker can process the new alarm condition, and when no call is incoming, the worker can select alarm condition work through the touch screen, so that the screen of the touch screen jumps to the alarm condition processing interface so that the worker can actively process the new alarm condition. The scheme can carry out services such as alarm condition transmission, receiving, processing, task dispatch and the like on the premise of keeping the basic communication function, so that a fixed intelligent telephone and a PC (personal computer) in the fire-fighting micro station can be combined into a whole, and resources are saved; and the operation feedback is uniformly carried out through the alarm condition processing interface, so that the processing of the service is more standardized, and the problems that the processing mode is inconsistent, the later storage, statistics, tracing, big data analysis and the like are not facilitated when the service related work is carried out in different stages of alarm receiving, feedback, task arrangement and the like and in different places such as a micro station, a site and the like are avoided.

Example 5

In one embodiment of the present invention, as shown in fig. 5, on the basis of embodiment 1, if there is an incoming call, the incoming call is parsed, and after the calling number is obtained, the method further includes the steps of:

s41, if the new alarm condition does not contain the calling number, the screen of the touch screen is jumped to the active alarm interface.

S42, receiving and storing alarm condition data input by a user through an active alarm interface.

Specifically, the telephone call can be dialed to the intelligent terminal of the fire-fighting micro station by a remote center system or an external person through a fixed telephone number and a mobile telephone number, and the intelligent terminal of the fire-fighting micro station rings so as to remind a worker, and after the worker is off-hook, the incoming call is analyzed to obtain a calling number. If the new alarm condition does not contain the calling number, the incoming call is indicated to be not the alarm condition sent by the remote center system, but another new alarm condition, at the moment, the screen of the touch screen jumps to the active alarm interface, and the staff can input corresponding alarm condition data through the active alarm interface so as to process or send the alarm condition data to the remote center system.

Preferably, the method analyzes the warning condition data, displays a new warning condition corresponding to the warning condition data through the touch screen, and further comprises:

displaying a work selection option through a touch screen, wherein the work selection option comprises a warning condition work option and a daily work option; when the user selects the alert condition work option, the screen of the touch screen jumps to the alert condition processing interface.

When the user selects a daily work option, the screen of the touch screen jumps to a daily work interface; the modification and maintenance of the micro-station information by the user through the daily work interface is received and stored.

When a worker processes a task, the worker can display a work selection option through the touch screen, wherein the work selection option comprises an alert work option and a daily work option, and when the worker selects the alert work option, the screen of the touch screen can directly jump to an alert processing interface, so that the worker can conveniently feed back the situations such as site situation, personnel dispatch, strength dispatch and the like; when a worker selects daily work options, the screen of the touch screen can directly jump to a daily work interface, and service data such as case information, personnel information, site conditions, strength information, strength dispatch information, vehicle dispatch and the like stored in the fire-fighting micro station can be changed and maintained through the daily work interface.

Example 6

In addition, the invention also provides a storage medium, at least one instruction is stored in the storage medium, and the instruction is loaded and executed by a processor to realize the operation executed by the service processing method of the intelligent terminal of the fire fighting micro station in any one of the embodiments 1-2. For example, the computer readable storage medium may be Read Only Memory (ROM), random Access Memory (RAM), compact disk read only memory (CD-ROM), magnetic tape, floppy disk, optical data storage device, etc. They may be implemented in program code that is executable by a computing device such that they may be stored in a memory device for execution by the computing device, or they may be separately fabricated into individual integrated circuit modules, or a plurality of modules or steps in them may be fabricated into a single integrated circuit module. Thus, the present invention is not limited to any specific combination of hardware and software.

It should be noted that the above embodiments can be freely combined as needed. The foregoing is merely a preferred embodiment of the present invention and it should be noted that modifications and adaptations to those skilled in the art may be made without departing from the principles of the present invention, which are intended to be comprehended within the scope of the present invention.

Claims (10)

1. The utility model provides a little station intelligent terminal of fire control which characterized in that includes:

a wireless communication module;

a fixed telephone communication chip;

the application processor is connected with the wireless communication module and the fixed telephone communication chip and is used for establishing communication connection with a remote center system through the wireless communication module or the fixed telephone communication chip;

the touch screen is connected with the application processor;

the application processor receives alarm condition data sent by the remote center system, and displays an alarm condition processing interface corresponding to the alarm condition data through the touch screen when a user communicates through the wireless communication module or the fixed telephone communication chip;

and the application processor sends the operation information fed back by the user through the warning condition processing interface to the remote center system through a network.

2. The fire micro station intelligent terminal according to claim 1, wherein the application processor comprises:

the acquisition module is used for acquiring alarm condition data sent by the remote center system;

the analysis module is connected with the acquisition module and used for analyzing the alarm condition data and acquiring a new alarm condition corresponding to the alarm condition data;

the processing module is connected with the analysis module;

the display module is connected with the processing module and used for displaying the new alarm condition through the touch screen;

the judging module is connected with the processing module and is used for judging whether a telephone call is incoming or not;

and when the judging module judges that a telephone call is in, and the new alarm condition comprises a calling number acquired by the analysis module for analyzing the incoming call, the processing module jumps the screen of the touch screen to an alarm condition processing interface, and receives and stores service data input by a user through the alarm condition processing interface.

3. The fire micro-station intelligent terminal according to claim 2, wherein: the processing module is further used for jumping the screen of the touch screen to an active alarm interface when the judging module judges that a telephone call is in, and the new alarm condition does not contain the calling number acquired by the analysis module for analyzing the incoming call, and receiving and storing alarm condition data input by a user through the active alarm interface.

4. The fire micro-station intelligent terminal according to claim 2, wherein: the display module is also used for displaying work processing selection options, wherein the work processing selection options comprise alert work options and daily work options;

the processing module jumps the screen of the touch screen to an alarm processing interface when the judging module judges that no telephone call is in and a user selects the alarm working option through the touch screen;

the processing module is also used for jumping the screen of the touch screen to a daily work interface when the user selects the daily work option, and receiving and storing the change and maintenance of the micro-station information by the user through the daily work interface.

5. The fire micro station intelligent terminal of claim 2, wherein the application processor further comprises:

and the communication connection module is used for establishing connection with the remote center system at fixed time, and arranging the data stored by the processing module into a message in a preset format and sending the message to the remote center system.

6. The fire micro-station intelligent terminal according to claim 1, wherein: the wireless communication module is provided with a SIM card slot and a communication antenna for wireless communication of the intelligent terminal;

and the fixed telephone communication chip is provided with a fixed telephone line interface for carrying out wired communication of the intelligent terminal.

7. The fire micro-station intelligent terminal according to claim 1, wherein: the application processor is provided with an Ethernet interface and a WiFi module which are respectively used for carrying out wired and wireless network connection of the application processor;

the application processor is also connected with a telephone and a camera, and is respectively used for collecting the voice and the picture of the user;

the application processor is also provided with a USB slot for storing alarm condition data input by a user through the alarm condition processing interface.

8. A service processing method based on the intelligent terminal of the fire fighting micro station according to any one of claims 1 to 7, comprising the steps of:

establishing communication connection with a remote center system and acquiring alarm condition data sent by the remote center system;

displaying an alarm condition processing interface corresponding to the alarm condition data when a user calls;

and sending the operation information fed back by the user through the warning condition processing interface to the remote center system through a network.

9. The service processing method of the intelligent terminal of the fire-fighting micro station according to claim 8, wherein the displaying of the alert processing interface corresponding to the alert data during the call of the user specifically comprises the steps of:

analyzing the alarm condition data, and displaying a new alarm condition corresponding to the alarm condition data through a touch screen;

judging whether a telephone call is incoming;

if the incoming call is received, analyzing the incoming call, acquiring a calling number, and skipping the screen of the touch screen to an alarm condition processing interface when the new alarm condition contains the calling number;

if no call is in, when the user selects the alarm condition work through the touch screen, the screen of the touch screen is jumped to an alarm condition processing interface.

10. A storage medium, characterized by: the storage medium has at least one instruction stored therein, which is loaded and executed by a processor to implement operations performed by the service processing method of the fire micro station intelligent terminal of any one of claims 8 to 9.

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