CN108808853B - Power grid alarm signal circulation system based on internet - Google Patents

Abstract

The invention provides an internet-based power grid alarm signal circulation system, which comprises an information closed-loop management service subsystem, a bus and a signal management service subsystem, wherein the information closed-loop management service subsystem is in signal connection with the signal management service subsystem through the bus; the information closed-loop management service subsystem comprises an alarm unit, an information closed-loop management service unit and a database; the alarm unit, the information closed-loop management unit and the database are in signal connection with the information closed-loop management service unit; and the information closed-loop management service unit is in signal connection with the signal management service subsystem through the bus. According to the power grid alarm signal circulation system based on the internet, the whole-process efficient operation of monitoring business based on the information system is realized through whole-process informatization closed-loop management, process tracking and short message reminding, alarm information is optimized, and the working efficiency is greatly improved.

Description

Power grid alarm signal circulation system based on internet

Technical Field

The invention relates to the field of alarm signal processing, in particular to an internet-based power grid alarm signal circulation system.

Background

The structure of a power grid is gradually complicated, a large number of unattended transformer substations are accessed, the quantity of power grid alarm signals is increased, and a dispatching monitor often screens out important alarm information from a large number of signals; for abnormal signals, an operator must be informed of the arrival inspection by telephone, the processing condition of the abnormal signals by the operator is always tracked, and relevant records are made.

Because the amount of power grid alarm signals is increased rapidly, important alarm signals are often transmitted together with redundant information, and after the transformer substation is monitored in a real-time and centralized manner, defects are found and treated and need to be communicated with a patrol telephone, the whole process needs to be closely matched with operation, maintenance, regulation and control, a traditional signal management system is not beneficial to monitoring personnel to work normally, information feedback is not timely, and the working efficiency is low.

Disclosure of Invention

The invention provides an internet-based power grid alarm signal circulation system for overcoming the technical defects of untimely feedback and low working efficiency caused by data mixing in alarm signal circulation and processing in the prior art.

In order to solve the technical problems, the technical scheme of the invention is as follows:

a power grid alarm signal circulation system based on the Internet comprises an information closed-loop management service subsystem, a bus and a signal management service subsystem, wherein the information closed-loop management service subsystem is in signal connection with the signal management service subsystem through the bus.

The information closed-loop management service subsystem comprises an alarm unit, an information closed-loop management service unit and a database; the alarm unit, the information closed-loop management unit and the database are in signal connection with the information closed-loop management service unit; and the information closed-loop management service unit is in signal connection with the signal management service subsystem through the bus.

The information closed-loop management service unit comprises a signal issuing interface, a signal feedback interface and a signal query interface; the signal issuing interface is in signal connection with the alarm unit; the signal feedback interface is in signal connection with the information closed-loop management unit; the signal inquiry interface is in signal connection with the information closed-loop management unit and the bus.

The signal management service subsystem comprises a man-machine interaction unit and a signal management service unit; the human-computer interaction unit is in signal connection with the signal management service unit; the signal management service subsystem is in signal connection with the information closed-loop management service subsystem through the bus.

The man-machine interaction unit is a mobile phone APP.

The alarm unit is used for sending three signals of 'signal sending', 'signal processing' or 'signal confirmation' to the information closed-loop management service unit; the information closed-loop management service unit is used for recording the received signals in a memory management linked list, storing data in a database and scanning whether the signal processing time is overtime or not; the information closed-loop management unit is used for monitoring and processing signals; the signal management service unit inquires data of the information closed-loop management service unit through the bus, feeds back information to the information closed-loop management service unit and sends the data to the man-machine interaction unit; the man-machine interaction unit is used for checking the current signal to be processed, namely the signal to be confirmed, the signal to be fed back and the signal to be eliminated, and feeding back the processed information to the signal management service unit.

In the scheme, after a monitor selects an alarm in a real-time alarm window, the monitor selects 'signal issuing' or 'signal processing', namely, the monitor confirms the alarm and converts the alarm into the 'issued' or 'processed' state; the monitor can also select 'signal confirmation' for the alarm, and the signal is converted into 'undelivered' state at the moment; the information closed-loop management service unit receives 'signal confirmation', 'signal transmission' and 'signal processing' commands of a monitor, records the commands in a memory management linked list of the information closed-loop management service unit, simultaneously stores the commands in a database, and scans whether the signal processing time is overtime or not in real time; the mobile phone APP calls the signal management service unit, a database of the information closed-loop management service unit is inquired from the inquiry interface through the bus, and the signal is returned to the mobile phone APP to be displayed; the inspection personnel check the current signals to be processed through the mobile phone APP, process according to signal classification, and feed back information through the mobile phone APP; and calling the signal management service unit during feedback, passing through the bus and sending the signal to the information closed-loop management service unit, and updating the state of the corresponding signal in the internal memory cry linked list by the information closed-loop management service unit and simultaneously storing the signal in the database.

In the scheme, the alarm unit calls a signal issuing interface in the operations of signal confirmation, signal issuing and signal processing, and the information closed-loop management service unit receives the signal and records the related information of the signal in a memory queue in a unique id mode and stores the related information in a database; "signal confirmation": the method comprises the steps that an interface is called and then recorded in an undelivered linked list, the interface is only used for processing signal overtime judgment and modifying an alarm state after overtime, and signals in the state do not participate in closed-loop management; "signal issuing" and "signal processing": after calling an interface, firstly searching whether the signal exists in a linked list without issued signals according to the alarm time, the alarm keywords and the alarm class name (the combination of the three attributes is a unique index), and if so, deleting the information of the signal; and meanwhile, searching whether the signal exists in the down signaling linked list, if so, not processing, and if not, adding the signal to the down signaling linked list.

In the scheme, when the polling personnel feeds back the signal processing condition and the monitor confirms the processed signal or the deleted signal for the second time, the polling personnel need to call an information feedback interface; when the patrol personnel feeds back the signal processing condition through the mobile phone app, the signal processing condition is transmitted to the information closed-loop management service unit through the bus in a crossing mode, the information closed-loop management service unit updates the state of the corresponding signal in the internal memory crying chain table, the state of the corresponding signal comprises the feedback personnel, the feedback time, the feedback information, the feedback state and the like, and meanwhile the feedback information is stored in the database.

In the scheme, the information closed-loop management unit and the mobile phone APP inquire the issued signal or the processed signal by calling a signal inquiry interface; the mobile phone APP calls the signal management service unit to inquire the issued signals, the signal management service unit passes through an inquiry interface of the information closed-loop management service unit through a bus, and the information closed-loop management service unit returns the inquired issued signals to the signal management service unit through the bus so as to return the inquired issued signals to the mobile phone APP for display; the information closed-loop management unit calls a signal query interface of the information closed-loop management service unit, and the information closed-loop management service unit returns the issued and processed signals queried to the information closed-loop management unit for a monitor to monitor and process.

In the scheme, the information closed-loop management service unit regularly scans whether the signal processing time is overtime; setting repeated reminding time for the non-issued signals, and displaying the overtime signals on the top through an alarm unit after the management service judges that the signals are overtime, so as to prompt a monitor to follow up the signals as soon as possible; and setting repeated reminding time for the issued non-feedback, processed non-filing signals, and displaying the overtime signals on the top of the information closed-loop management unit after judging that the signals are overtime, so as to prompt a monitor to follow up the signals for processing as soon as possible.

In the scheme, the monitor realizes the functions of confirming, issuing and receiving power transformation feedback, filing and the like of the power grid warning signal through the monitoring information closed-loop management system, the whole process is processed in an informationization mode, and the traditional means such as telephone communication and the like are not needed, so that the signal processing efficiency is improved; the processing condition of the power grid alarm signal can be tracked and reminded by the short message at any time through the information closed-loop management window, the risk potential hazards of 'missed confirmation, missed notification and delayed treatment' of the alarm information are technically eliminated by combining the functions of signal confirmation and overtime processing reminding, and the intrinsic safety of the monitoring service is realized.

In the scheme, the power transformation operation personnel receive the power grid alarm signal issued by the scheduling monitor through the mobile phone app, follow-up signal treatment and feedback are both guided by the power transformation operation personnel, the system automatically tracks and records the signals without manual recording of the scheduling monitor, and the full-flow efficient operation of the monitoring service is realized.

Compared with the prior art, the technical scheme of the invention has the beneficial effects that:

according to the power grid alarm signal circulation system based on the internet, the whole-process efficient operation of monitoring business based on the information system is realized through whole-process informatization closed-loop management, process tracking and short message reminding, alarm information is optimized, and the working efficiency is greatly improved.

Drawings

Fig. 1 is a schematic flow chart of a power grid alarm signal circulation system based on the internet.

Detailed Description

The drawings are for illustrative purposes only and are not to be construed as limiting the patent;

for the purpose of better illustrating the embodiments, certain features of the drawings may be omitted, enlarged or reduced, and do not represent the size of an actual product;

it will be understood by those skilled in the art that certain well-known structures in the drawings and descriptions thereof may be omitted.

The technical solution of the present invention is further described below with reference to the accompanying drawings and examples.

Example 1

As shown in fig. 1, a power grid alarm signal circulation system based on the internet includes an information closed-loop management service subsystem, a bus and a signal management service subsystem, wherein the information closed-loop management service subsystem is in signal connection with the signal management service subsystem through the bus.

More specifically, the information closed-loop management service subsystem comprises an alarm unit, an information closed-loop management service unit and a database; the alarm unit, the information closed-loop management unit and the database are in signal connection with the information closed-loop management service unit; and the information closed-loop management service unit is in signal connection with the signal management service subsystem through the bus.

More specifically, the information closed-loop management service unit comprises a signal issuing interface, a signal feedback interface and a signal query interface; the signal issuing interface is in signal connection with the alarm unit; the signal feedback interface is in signal connection with the information closed-loop management unit; the signal inquiry interface is in signal connection with the information closed-loop management unit and the bus.

More specifically, the signal management service subsystem comprises a human-computer interaction unit and a signal management service unit; the human-computer interaction unit is in signal connection with the signal management service unit; the signal management service subsystem is in signal connection with the information closed-loop management service subsystem through the bus.

More specifically, the man-machine interaction unit is a mobile phone APP.

More specifically, the alarm unit is used for sending three signals, namely 'signal issuing', 'signal processing' or 'signal confirmation', to the information closed-loop management service unit; the information closed-loop management service unit is used for recording the received signals in a memory management linked list, storing data in a database and scanning whether the signal processing time is overtime or not; the information closed-loop management unit is used for monitoring and processing signals; the signal management service unit inquires data of the information closed-loop management service unit through the bus, feeds back information to the information closed-loop management service unit and sends the data to the man-machine interaction unit; the man-machine interaction unit is used for checking the current signal to be processed, namely the signal to be confirmed, the signal to be fed back and the signal to be eliminated, and feeding back the processed information to the signal management service unit.

In the specific implementation process, after a monitor selects an alarm in a real-time alarm window, the monitor selects 'signal issuing' or 'signal processing', namely, the monitor confirms the alarm and converts the alarm into the 'issued' or 'processed' state; the monitor can also select 'signal confirmation' for the alarm, and the signal is converted into 'undelivered' state at the moment; the information closed-loop management service unit receives 'signal confirmation', 'signal transmission' and 'signal processing' commands of a monitor, records the commands in a memory management linked list of the information closed-loop management service unit, simultaneously stores the commands in a database, and scans whether the signal processing time is overtime or not in real time; the mobile phone APP calls the signal management service unit, a database of the information closed-loop management service unit is inquired from the inquiry interface through the bus, and the signal is returned to the mobile phone APP to be displayed; the inspection personnel check the current signals to be processed through the mobile phone APP, process according to signal classification, and feed back information through the mobile phone APP; and calling the signal management service unit during feedback, passing through the bus and sending the signal to the information closed-loop management service unit, and updating the state of the corresponding signal in the internal memory cry linked list by the information closed-loop management service unit and simultaneously storing the signal in the database.

In the specific implementation process, the alarm unit calls a signal issuing interface in the operations of signal confirmation, signal issuing and signal processing, and the information closed-loop management service unit receives the information and records the related information of the signal in a memory queue in a unique id mode and stores the information in a database; "signal confirmation": the method comprises the steps that an interface is called and then recorded in an undelivered linked list, the interface is only used for processing signal overtime judgment and modifying an alarm state after overtime, and signals in the state do not participate in closed-loop management; "signal issuing" and "signal processing": after calling an interface, firstly searching whether the signal exists in a linked list without issued signals according to the alarm time, the alarm keywords and the alarm class name (the combination of the three attributes is a unique index), and if so, deleting the information of the signal; and meanwhile, searching whether the signal exists in the down signaling linked list, if so, not processing, and if not, adding the signal to the down signaling linked list.

In the specific implementation process, when the polling personnel feeds back the signal processing condition and the monitor confirms the processed signal or the deleted signal for the second time, the polling personnel need to call an information feedback interface; when the patrol personnel feeds back the signal processing condition through the mobile phone app, the signal processing condition is transmitted to the information closed-loop management service unit through the bus in a crossing mode, the information closed-loop management service unit updates the state of the corresponding signal in the internal memory crying chain table, the state of the corresponding signal comprises the feedback personnel, the feedback time, the feedback information, the feedback state and the like, and meanwhile the feedback information is stored in the database.

In the specific implementation process, the information closed-loop management unit and the mobile phone APP inquire the issued signals or the processed signals by calling a signal inquiry interface; the mobile phone APP calls the signal management service unit to inquire the issued signals, the signal management service unit passes through an inquiry interface of the information closed-loop management service unit through a bus, and the information closed-loop management service unit returns the inquired issued signals to the signal management service unit through the bus so as to return the inquired issued signals to the mobile phone APP for display; the information closed-loop management unit calls a signal query interface of the information closed-loop management service unit, and the information closed-loop management service unit returns the issued and processed signals queried to the information closed-loop management unit for a monitor to monitor and process.

In the specific implementation process, the information closed-loop management service unit regularly scans whether the signal processing time is overtime; setting repeated reminding time for the non-issued signals, and displaying the overtime signals on the top through an alarm unit after the management service judges that the signals are overtime, so as to prompt a monitor to follow up the signals as soon as possible; and setting repeated reminding time for the issued non-feedback, processed non-filing signals, and displaying the overtime signals on the top of the information closed-loop management unit after judging that the signals are overtime, so as to prompt a monitor to follow up the signals for processing as soon as possible.

In the specific implementation process, a monitor realizes the functions of confirming, issuing and receiving power transformation feedback, filing and the like of a power grid warning signal through a monitoring information closed-loop management system, the whole process is processed in an informationization mode, and the traditional means such as telephone communication and the like are not needed, so that the signal processing efficiency is improved; the processing condition of the power grid alarm signal can be tracked and reminded by the short message at any time through the information closed-loop management window, the risk potential hazards of 'missed confirmation, missed notification and delayed treatment' of the alarm information are technically eliminated by combining the functions of signal confirmation and overtime processing reminding, and the intrinsic safety of the monitoring service is realized.

In the specific implementation process, the power transformation operator receives a power grid alarm signal issued by a scheduling monitor through the mobile phone app, subsequent signal treatment and feedback are both guided by the power transformation operator, the system automatically tracks and records the signals without manual recording of the scheduling monitor, and the full-flow efficient operation of the monitoring service is realized.

It should be understood that the above-described embodiments of the present invention are merely examples for clearly illustrating the present invention, and are not intended to limit the embodiments of the present invention. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. Any modification, equivalent replacement, and improvement made within the spirit and principle of the present invention should be included in the protection scope of the claims of the present invention.

Claims (2)

1. The utility model provides a power grid alarm signal circulation system based on internet which characterized in that: the system comprises an information closed-loop management service subsystem, a bus and a signal management service subsystem, wherein the information closed-loop management service subsystem is in signal connection with the signal management service subsystem through the bus;

the information closed-loop management service subsystem comprises an alarm unit, an information closed-loop management service unit and a database; the alarm unit, the information closed-loop management unit and the database are in signal connection with the information closed-loop management service unit; the information closed-loop management service unit is in signal connection with the signal management service subsystem through the bus;

the information closed-loop management service unit comprises a signal issuing interface, a signal feedback interface and a signal query interface; the signal issuing interface is in signal connection with the alarm unit; the signal feedback interface is in signal connection with the information closed-loop management unit; the signal query interface is in signal connection with the information closed-loop management unit and the bus;

the signal management service subsystem comprises a man-machine interaction unit and a signal management service unit; the human-computer interaction unit is in signal connection with the signal management service unit; the signal management service subsystem is in signal connection with the information closed-loop management service subsystem through the bus;

the alarm unit is used for sending three signals of 'signal issuing', 'signal processing' or 'signal confirmation' to the information closed-loop management service unit;

the information closed-loop management service unit is used for recording the received signals in a memory management linked list, storing data in a database and scanning whether the signal processing time is overtime or not;

the information closed-loop management unit is used for monitoring and processing signals;

the signal management service unit inquires data of the information closed-loop management service unit through the bus, feeds back information to the information closed-loop management service unit and sends the data to the man-machine interaction unit;

the man-machine interaction unit is used for checking the current signal to be processed, namely the signal to be confirmed, the signal to be fed back and the signal to be eliminated, and feeding back the processed information to the signal management service unit.

2. The internet-based power grid alarm signal circulation system according to claim 1, wherein: the man-machine interaction unit is a mobile phone APP.

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