CN112600925A - 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 thereof and a storage medium, wherein the intelligent terminal comprises: a wireless communication module; solidifying the communication chip; the application processor is connected with the wireless communication module and the curing communication chip and is used for establishing communication connection with the remote center system through the wireless communication module or the curing communication chip; the touch screen is connected with the application processor; the application processor receives the alarm situation data sent by the far-end central system, and displays an alarm situation processing interface corresponding to the alarm situation data through the touch screen when a user calls through the wireless communication module or the solidified communication chip; and the application processor sends the operation information fed back by the user to a remote center system through a network. This scheme can be under the prerequisite that keeps basic communication function, carries out services such as alert feelings transmission, receipt, processing, task dispatch to make the fixed smart phone in the little station of fire control and PC computer can unite two into one, be favorable to 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 fighting, in particular to a fire fighting micro-station intelligent terminal, a service processing method thereof and a storage medium.

Background

The fire station, namely the place where firefighters work (on duty and prepare for war), is a public fire protection facility for protecting urban fire safety, and is divided into a micro station, a primary station, a secondary station and the like according to the dangerous conditions of regional disasters and the scale of the dangerous conditions. At present, most fire-fighting micro-stations are only equipped with necessary fire-fighting equipment, and generally are built in relatively crude office spaces of environments such as community or enterprise fire control rooms, and some have WIFI network environment, and some have independent telephone line.

Because the fire-fighting micro-station mostly belongs to small-sized civil organizations and is loose in administrative composition, if a portable smart phone is used for communication, a plurality of programs need to be additionally configured and installed, and unified management is inconvenient to carry out, therefore, in the fire-fighting micro-station, communication is carried out by equipping a fixed smart phone, and then a PC (personal computer) is additionally equipped for work such as receiving and dealing with police, dispatching strength information, reporting police, daily rehearsal and the like.

But use fixed smart phone, when the rescue of going out an police, can not in time feed back alert feelings and handle and on-the-spot state, be unfavorable for the going on of rescue, and the quantity of fire control is little standing more, all need be equipped with the basis of PC computer, can cause the very big waste of resource. Therefore, a fire-fighting micro-station intelligent terminal which can carry out alarm condition transmission, receiving, processing and task dispatching in a standardized manner and can feed back alarm condition processing and field states in time during alarm rescue is needed on the premise of keeping the basic communication function.

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 warning condition transmission, receiving, processing, task dispatching and the like in a standardized manner on the premise of keeping a basic communication function, and can feed back warning condition processing and field states in time when a person goes out for rescue, so that the rescue can be smoothly carried out and resources can be saved.

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;

solidifying the communication chip;

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

the touch screen is connected with the application processor;

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

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

Specifically, the wireless communication module group is composed of a radio frequency module, a baseband chip and a digital baseband processor, and mainly completes telephone communication and data transmission based on a sim card or a WIFI network to acquire information such as alarm, 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 a 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 case information, personnel information, site conditions, force information, force dispatching information, vehicle dispatching and other service data interacted between the micro-station and the remote center system. The data output format adopts standard binary coding.

The fixed-line communication chip mainly completes telephone communication based on wires through an RJ11 standard telephone interface. The fixed telephone communication chip outputs signals of telephone off-hook, on-hook, ringing and the like to the application processor through the RS-485 interface.

The liquid crystal touch screen mainly completes A/D conversion through the touch screen controller, the operation of a user is converted into binary data, the binary data are transmitted to the application processor, and after the application processor processes and feeds back the data, the feedback data are formed and transmitted to the liquid crystal screen to be displayed.

In the scheme, the fire-fighting micro-station intelligent terminal product aims at comprehensively considering the possible scenes, and except for the original basic fixed-line communication chip of the intelligent telephone, a wireless communication module is added, and a system chip system is upgraded. The hardware of the device is provided with an independent telephone and a 10-inch color touch screen, and the body comprises a standard telephone line interface (RJ11), a Wi-Fi and network cable interface (RJ45), a communication antenna, a SIM card slot, a USB interface and the like. The Android operating system is loaded on the equipment software, and customized independent service operating software (namely an application processor) is embedded.

According to the scheme, the intelligent terminal of the fire-fighting micro-station can be in communication connection with a remote center system in real time by arranging the wireless communication module or the solidified communication chip, so that the intelligent terminal can move at any time, and the functions of fixed telephones and mobile phones are met; meanwhile, by arranging the application processor and the touch screen, when a user calls through the wireless communication module or the solidified communication chip, the alarm processing interface corresponding to the alarm data can be displayed through the touch screen, so that the user can immediately perform services such as alarm transmission, receiving, processing, task dispatching and the like, the intelligent terminal can be integrated with a PC (personal computer), and resources can be saved; and operation feedback is uniformly carried out through the alarm condition processing interface, so that the processing of the service can be more standardized, and the problem that the processing modes are inconsistent and are not beneficial to subsequent storage, statistics, traceability, big data analysis and the like in different stages of alarm receiving, feedback, task arrangement and the like and during service-related work in different places such as a micro-station, a field and the like is avoided.

Further, the application processor includes:

the acquisition module is used for acquiring the warning situation data sent by the remote center system;

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

the judging module is connected with the processing module and is used for judging whether a call is incoming;

and when the judging module judges that a call is incoming and the new alarm condition comprises a calling number acquired by analyzing the incoming call by the analyzing module, the processing module skips 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 alarm data sent by the remote center system can be received through the acquisition module, the corresponding new alarm can be obtained through the analysis module, and the new alarm can be displayed through the touch screen; when a call is incoming, the incoming call is analyzed, the calling number can be obtained, and when a new alarm condition comprises the calling number, the screen of the touch screen can directly jump to an alarm condition processing interface, so that a worker can process the new alarm condition.

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

Further, the display module is further configured to display a work processing selection option, where the work processing selection option includes an alert work option and a daily work option;

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

and 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 comprises:

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

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

and a fixed telephone line interface is arranged on the solidified communication chip and is used for carrying out wired communication of the intelligent terminal.

Furthermore, an ethernet interface and a WiFi module are arranged on the application processor, and are respectively used for wired and wireless network connection of the application processor;

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

and the application processor is also provided with a USB slot for storing the warning situation data input by the user through the warning situation 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 situation 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 the network.

Further, when the user communicates, displaying an alarm processing interface corresponding to the alarm data, specifically including the steps of:

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

judging whether a call is incoming;

if a call is incoming, analyzing the incoming call to acquire a calling number, and jumping the screen of the touch screen to an alarm condition processing interface when the new alarm condition comprises the calling number;

and if no telephone incoming call exists, jumping the screen of the touch screen to an alarm processing interface when the user selects alarm work through the touch screen.

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

The intelligent terminal for the fire-fighting micro-station, the service processing method thereof and the storage medium provided by the invention have the following beneficial effects that:

1. according to the scheme, the wireless communication module or the solidified 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 fixed telephones and mobile phones are met;

2. according to the scheme, the application processor and the touch screen are arranged, so that when a user calls through the wireless communication module or the solidified communication chip, the alarm processing interface corresponding to the alarm data can be displayed through the touch screen, the user can immediately perform services such as alarm transmission, receiving, processing, task dispatching and the like, the intelligent terminal can be integrated with a PC (personal computer), and resources are saved;

3. the scheme uniformly carries out operation feedback through the alarm condition processing interface, can enable the processing of the service to be more standardized, and avoids the problem that the processing modes are inconsistent in different stages of alarm receiving, feedback, task arrangement and the like and when service related work is carried out in different places such as a micro station, a field and the like, which is not beneficial to storage, statistics, traceability, big data analysis and the like afterwards.

Drawings

The foregoing features, technical features, advantages and embodiments of the present invention will be further explained in the following detailed description of the preferred embodiments, which is to be read in connection with the accompanying drawings.

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

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

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

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

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

Reference numbers in the figures: 1-a wireless communication module; 2-curing the 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-a judgment module; 36-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 be made with reference to the accompanying drawings. It is obvious that the drawings in the following description are only some examples of the invention, and that for a person skilled in the art, other drawings and embodiments can be derived from them without inventive effort.

For the sake of simplicity, the drawings only schematically show the parts relevant to the present invention, and they do not represent the actual structure as a product. In addition, in order to make the drawings concise and understandable, components having the same structure or function in some of the drawings are only schematically illustrated or only labeled. In this document, "one" means not only "only one" but also a case of "more than one".

Example 1

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

Preferably, the wireless communication module 1 is provided with an SIM card slot and a communication antenna for performing wireless communication of the intelligent terminal; and a fixed line interface is arranged on the curing communication chip 2 and is used 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 wired and wireless network connection of the application processor 3; the application processor 3 is also connected with a telephone and a camera which are 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 and copying or storing the alarm data input by the user through the alarm processing interface.

The application processor 4 is connected with the wireless communication module 1 and the solidified communication chip 2 and is used for establishing communication connection with a remote center system through the wireless communication module 1 or the solidified 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 mainly completes telephone communication and data transmission based on a sim card or a WIFI network to acquire information such as alarm, 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 a 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 case information, personnel information, site conditions, force information, force dispatching information, vehicle dispatching and other service data interacted between the micro-station and the remote center system. The data output format adopts standard binary coding.

The fixed-line communication chip mainly completes telephone communication based on wires through an RJ11 standard telephone interface. The fixed telephone communication chip outputs signals of telephone off-hook, on-hook, ringing and the like to the application processor through the RS-485 interface.

The liquid crystal touch screen mainly completes A/D conversion through the touch screen controller, the operation of a user is converted into binary data, the binary data are transmitted to the application processor, and after the application processor processes and feeds back the data, the feedback data are formed and transmitted to the liquid crystal screen to be displayed.

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

In the scheme, the fire-fighting micro-station intelligent terminal product aims at comprehensively considering the possible scenes, and except for the original basic fixed-line communication chip of the intelligent telephone, a wireless communication module is added, and a system chip system is upgraded. The hardware of the device is provided with an independent telephone and a 10-inch color touch screen, and the body comprises a standard telephone line interface (RJ11), a Wi-Fi and network cable interface (RJ45), a communication antenna, a SIM card slot, a USB interface and the like. The Android operating system is loaded on the equipment software, and customized independent service operating software (namely an application processor) is embedded.

According to the scheme, the intelligent terminal of the fire-fighting micro-station can be in communication connection with a remote center system in real time by arranging the wireless communication module or the solidified communication chip, so that the intelligent terminal can move at any time, and the functions of fixed telephones and mobile phones are met; meanwhile, by arranging the application processor and the touch screen, when a user calls through the wireless communication module or the solidified communication chip, the alarm processing interface corresponding to the alarm data can be displayed through the touch screen, so that the user can immediately perform services such as alarm transmission, receiving, processing, task dispatching and the like, the intelligent terminal can be integrated with a PC (personal computer), and resources can be saved; and operation feedback is uniformly carried out through the alarm condition processing interface, so that the processing of the service can be more standardized, and the problem that the processing modes are inconsistent and are not beneficial to subsequent storage, statistics, traceability, big data analysis and the like in different stages of alarm receiving, feedback, task arrangement and the like and during service-related work in different places such as a micro-station, a field and the like is avoided.

Example 2

In an embodiment of the present invention, as shown in fig. 2, on the basis of embodiment 1, the application processor 3 includes an obtaining module 32, an analyzing module 33, a displaying module 34, a determining module 35, and a processing module 36.

The obtaining module 32 is used for obtaining the warning situation data sent by the remote center system.

Specifically, when the remote center system issues an alarm condition, each intelligent terminal of the fire-fighting micro-station can regularly send a connection request to the remote center system according to the content in the configuration file, and the request field should indicate the type of the requested data format, the request time interval and other parameters; after the remote center system receives the connection request, receiving the warning situation data sent by the remote center system; judging whether the alarm condition data is complete standard data or not; if the judgment result is yes, analyzing the alarm situation data; if not, sending a re-acquisition request of the warning situation data to the remote center system.

After the remote center system receives the connection request, the intelligent terminal can receive the warning situation data sent by the remote center system; in order to ensure the completeness and accuracy of the alarm condition data, whether the alarm condition data is complete standard data needs to be judged, if so, the alarm condition data is analyzed, and corresponding alarm condition information is stored in a sqlite database; if the judgment result is no, sending a request for acquiring the alarm data again to the remote center system, and if the alarm data acquired continuously for several times cannot be analyzed, terminating the request and recording the corresponding situation.

And the analysis module 33 is connected with the acquisition module 32 and is used for analyzing the alarm situation data and acquiring a new alarm situation corresponding to the alarm situation data.

The processing module 36 is connected with the analysis module 33, and the display module 34 is connected with the processing module 36, and is used for displaying new warning situations through the touch screen 4.

Specifically, when the touch screen displays a new warning condition corresponding to the warning condition data, the high-brightness display can be adopted, and the ringing, the vibration and other forms are adopted to remind workers in the fire-fighting micro-station that the new warning condition exists.

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

Through various alert situation data of storage, the management of fire control little station can be convenient for. In addition, in the scheme, the storage adopts local storage, so that the staff can check the related information even in the absence of a network.

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

Example 3

In an embodiment of the present invention, on the basis of embodiment 2, the display module 34 is further configured to display a work process selection option, where the work process selection option includes an alert work option and a daily work option.

When the judging module 35 judges that there is no incoming call and the user selects the alert operation through the touch screen 4, the processing module 36 jumps the screen of the touch screen 4 to the alert processing interface

The processing module 36 is further configured to jump 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 user's change and maintenance of the information of the micro-station through the daily work interface.

Specifically, when a worker processes a task, the worker can select 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 situations such as site situations, personnel dispatching and force dispatching; when the staff selects the daily work option, the screen of the touch screen can directly jump to the daily work interface, and the case information, the staff information, the field condition, the strength information, the strength dispatching information, the vehicle dispatching and other service data 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, and the communication connection module 31 is configured to establish a connection with the remote center 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 center system. The data stored by the processing module 36 includes data for changing and maintaining the information of the micro-station by the user through the daily working interface, business data input by the user through the alarm processing interface, alarm data input by the user through the active alarm interface, and the like.

Example 4

An embodiment of the present invention, as shown in fig. 3 to fig. 5, provides a service processing method for an intelligent terminal of a fire-fighting micro-station, including the steps of:

and S1, establishing communication connection with the remote center system and acquiring the warning situation data sent by the remote center system.

Preferably, the establishing of the communication connection with the remote center system and the obtaining of the alarm data sent by the remote center system specifically include the steps of:

and S11, sending a connection request to the remote center system at regular time when the remote center system sends an alarm condition.

Specifically, when the remote center system needs to issue an alarm, each intelligent terminal of the fire-fighting micro-station can regularly send a connection request to the remote center system according to the content in the configuration file, and the request field should indicate the type of the requested data format and the request time interval and other parameters.

And S12, after the remote center system receives the connection request, receiving the warning situation data sent by the remote center system.

And S13, judging whether the warning situation data is complete standard data.

And S14, if yes, analyzing the alarm situation data.

And S15, if the judgment result is no, sending a re-acquisition request of the alarm situation data to the remote center system.

After the remote center system receives the connection request, the intelligent terminal can receive the warning situation data sent by the remote center system; in order to ensure the completeness and accuracy of the alarm condition data, whether the alarm condition data is complete standard data needs to be judged, if so, the alarm condition data is analyzed, and corresponding alarm condition information is stored in a sqlite database; if the judgment result is no, sending a request for acquiring the alarm data again to the remote center system, and if the alarm data acquired continuously for several times cannot be analyzed, terminating the request and recording the corresponding situation.

And S2, displaying an alarm condition processing interface corresponding to the alarm condition data when the user communicates.

Preferably, when the user communicates, the method for displaying the alarm processing interface corresponding to the alarm data specifically includes:

and 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 the warning condition data, the high-brightness display can be adopted, and the ringing, the vibration and other forms are adopted to remind workers in the fire-fighting micro-station that the new warning condition exists.

And S22, judging whether a call is received.

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.

And S23, if the call is incoming, analyzing the incoming call to acquire the calling number, and jumping the screen of the touch screen to the alarm condition processing interface when the new alarm condition contains the calling number.

And S24, if no telephone call exists, jumping the screen of the touch screen to an alarm processing interface when the user selects alarm work through the touch screen.

Preferably, after jumping to the alert processing interface, the method further includes the following steps:

and S25, receiving and storing the alarm data input by the user through the alarm processing interface.

Through various alert situation data of storage, the management of fire control little station can be convenient for. In addition, in the scheme, the storage adopts local storage, so that the staff can check the related information even in the absence of a network.

And S3, sending the operation information fed back by the user through the warning situation processing interface to the remote center system through the network.

The intelligent terminal of little station of fire control of this scheme, through establishing communication connection with distal end central system, can receive the alert feelings data that distal end central system sent, thereby can show the new alert feelings that correspond with alert feelings data through the touch-sensitive screen, when the phone calls in, the analytic incoming call, acquire calling number, when containing calling number in the new alert feelings, the screen of touch-sensitive screen can directly jump to alert feelings processing interface, so that the staff carries out the processing of new alert feelings, when no phone calls in, the staff also can select alert feelings work through the touch-sensitive screen, make the screen of touch-sensitive screen jump to alert feelings processing interface, so that the staff initiatively carries out the processing of new alert feelings. The scheme can carry out services such as alarm transmission, receiving, processing, task dispatching 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 integrated into a whole, and resources are saved; and operation feedback is uniformly carried out through the alarm condition processing interface, so that the processing of the service can be more standardized, and the problem that the processing modes are inconsistent and are not beneficial to subsequent storage, statistics, traceability, big data analysis and the like in different stages of alarm receiving, feedback, task arrangement and the like and during service-related work in different places such as a micro-station, a field and the like is avoided.

Example 5

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

and S41, if the new alarm condition does not contain the calling number, jumping the screen of the touch screen to an active alarm interface.

And S42, receiving and storing the alarm situation data input by the user through the active alarm interface.

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

Preferably, analyze the alert situation data to show the new alert situation that the alert situation data corresponds through the touch-sensitive screen, still include:

displaying work selection options through a touch screen, wherein the work selection options comprise an alarm work option and a daily work option; and when the user selects the warning work option, jumping to a warning processing interface by the screen of the touch screen.

When the user selects the daily work option, the screen of the touch screen jumps to a daily work interface; and receiving and storing the change and maintenance of the micro-station information by the user through a daily work interface.

When the worker processes the task, the worker can select the work selection options displayed by the touch screen, wherein the work selection options comprise 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 dispatching, strength dispatching and the like; when the staff selects the daily work option, the screen of the touch screen can directly jump to the daily work interface, and the case information, the staff information, the field condition, the strength information, the strength dispatching information, the vehicle dispatching and other service data stored in the fire-fighting micro-station can be changed and maintained through the daily work interface.

Example 6

In addition, the present invention further provides a storage medium, where at least one instruction is stored, and the instruction is loaded and executed by a processor to implement the operation performed by the intelligent terminal service processing method for a fire-fighting micro-station according to any one of embodiments 1-2. For example, the computer readable storage medium may be a read-only memory (ROM), a random-access memory (RAM), a compact disc read-only memory (CD-ROM), a magnetic tape, a floppy disk, an optical data storage device, and the like. They may be implemented in program code that is executable by a computing device such that it may be stored in a memory device and executed by the computing device, or they may be separately fabricated into various integrated circuit modules, or multiple modules or steps thereof 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 necessary. The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection 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;

solidifying the communication chip;

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

the touch screen is connected with the application processor;

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

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

2. The intelligent fire control micro-station terminal as claimed in claim 1, wherein the application processor comprises:

the acquisition module is used for acquiring the warning situation data sent by the remote center system;

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

the judging module is connected with the processing module and is used for judging whether a call is incoming;

and when the judging module judges that a call is incoming and the new alarm condition comprises a calling number acquired by analyzing the incoming call by the analyzing module, the processing module skips 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 intelligent fire-fighting micro-station terminal as claimed in claim 2, wherein: the processing module is also used for skipping the screen of the touch screen to an active alarm interface when the judging module judges that the incoming call exists and the new alarm does not contain the calling number acquired by the incoming call analyzed by the analyzing module, and receiving and storing the alarm data input by the user through the active alarm interface.

4. The intelligent fire-fighting micro-station terminal as claimed in claim 2, wherein: the display module is also used for displaying work processing selection options, and the work processing selection options comprise an alert work option and a daily work option;

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

and 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 intelligent fire control micro-station terminal as claimed in claim 2, wherein the application processor further comprises:

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

6. The intelligent fire-fighting micro-station terminal as claimed in claim 1, wherein: the wireless communication module is provided with an SIM card slot and a communication antenna and is used for carrying out wireless communication of the intelligent terminal;

and a fixed telephone line interface is arranged on the solidified communication chip and is used for carrying out wired communication of the intelligent terminal.

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

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

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

8. A service processing method based on the intelligent fire-fighting micro-station terminal as claimed in any one of claims 1 to 7, characterized by comprising the steps of:

establishing communication connection with a remote center system, and acquiring alarm situation 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 the network.

9. The service processing method of the intelligent terminal of the fire-fighting micro-station according to claim 8, wherein the alarm processing interface corresponding to the alarm data is displayed when the user makes a call, and specifically comprises the following steps:

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

judging whether a call is incoming;

if a call is incoming, analyzing the incoming call to acquire a calling number, and jumping the screen of the touch screen to an alarm condition processing interface when the new alarm condition comprises the calling number;

and if no telephone incoming call exists, jumping the screen of the touch screen to an alarm processing interface when the user selects alarm work through the touch screen.

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

Images