CN113381896A - Substation information protection substation full life cycle dynamic configuration management and control method and system - Google Patents

Substation information protection substation full life cycle dynamic configuration management and control method and system Download PDF

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Publication number
CN113381896A
CN113381896A CN202110719600.3A CN202110719600A CN113381896A CN 113381896 A CN113381896 A CN 113381896A CN 202110719600 A CN202110719600 A CN 202110719600A CN 113381896 A CN113381896 A CN 113381896A
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China
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substation
information protection
configuration
station
network device
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CN202110719600.3A
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CN113381896B (en
Inventor
许家焰
武芳瑛
胡波涛
杨常府
王立鼎
于永旭
叶小峰
王�华
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Beijing Sifang Automation Co Ltd
Beijing Sifang Project Co ltd
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Beijing Sifang Automation Co Ltd
Beijing Sifang Project Co ltd
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    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04LTRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
    • H04L41/00Arrangements for maintenance, administration or management of data switching networks, e.g. of packet switching networks
    • H04L41/08Configuration management of networks or network elements
    • H04L41/0803Configuration setting
    • HELECTRICITY
    • H02GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
    • H02JCIRCUIT ARRANGEMENTS OR SYSTEMS FOR SUPPLYING OR DISTRIBUTING ELECTRIC POWER; SYSTEMS FOR STORING ELECTRIC ENERGY
    • H02J13/00Circuit arrangements for providing remote indication of network conditions, e.g. an instantaneous record of the open or closed condition of each circuitbreaker in the network; Circuit arrangements for providing remote control of switching means in a power distribution network, e.g. switching in and out of current consumers by using a pulse code signal carried by the network
    • H02J13/00006Circuit arrangements for providing remote indication of network conditions, e.g. an instantaneous record of the open or closed condition of each circuitbreaker in the network; Circuit arrangements for providing remote control of switching means in a power distribution network, e.g. switching in and out of current consumers by using a pulse code signal carried by the network characterised by information or instructions transport means between the monitoring, controlling or managing units and monitored, controlled or operated power network element or electrical equipment
    • H02J13/00028Circuit arrangements for providing remote indication of network conditions, e.g. an instantaneous record of the open or closed condition of each circuitbreaker in the network; Circuit arrangements for providing remote control of switching means in a power distribution network, e.g. switching in and out of current consumers by using a pulse code signal carried by the network characterised by information or instructions transport means between the monitoring, controlling or managing units and monitored, controlled or operated power network element or electrical equipment involving the use of Internet protocols
    • HELECTRICITY
    • H02GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
    • H02JCIRCUIT ARRANGEMENTS OR SYSTEMS FOR SUPPLYING OR DISTRIBUTING ELECTRIC POWER; SYSTEMS FOR STORING ELECTRIC ENERGY
    • H02J13/00Circuit arrangements for providing remote indication of network conditions, e.g. an instantaneous record of the open or closed condition of each circuitbreaker in the network; Circuit arrangements for providing remote control of switching means in a power distribution network, e.g. switching in and out of current consumers by using a pulse code signal carried by the network
    • H02J13/00032Systems characterised by the controlled or operated power network elements or equipment, the power network elements or equipment not otherwise provided for
    • H02J13/00034Systems characterised by the controlled or operated power network elements or equipment, the power network elements or equipment not otherwise provided for the elements or equipment being or involving an electric power substation
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04LTRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
    • H04L41/00Arrangements for maintenance, administration or management of data switching networks, e.g. of packet switching networks
    • H04L41/08Configuration management of networks or network elements
    • H04L41/085Retrieval of network configuration; Tracking network configuration history
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04LTRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
    • H04L41/00Arrangements for maintenance, administration or management of data switching networks, e.g. of packet switching networks
    • H04L41/08Configuration management of networks or network elements
    • H04L41/0866Checking the configuration
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04LTRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
    • H04L41/00Arrangements for maintenance, administration or management of data switching networks, e.g. of packet switching networks
    • H04L41/08Configuration management of networks or network elements
    • H04L41/0876Aspects of the degree of configuration automation
    • H04L41/0886Fully automatic configuration
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04LTRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
    • H04L41/00Arrangements for maintenance, administration or management of data switching networks, e.g. of packet switching networks
    • H04L41/14Network analysis or design
    • H04L41/145Network analysis or design involving simulating, designing, planning or modelling of a network
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y04INFORMATION OR COMMUNICATION TECHNOLOGIES HAVING AN IMPACT ON OTHER TECHNOLOGY AREAS
    • Y04SSYSTEMS INTEGRATING TECHNOLOGIES RELATED TO POWER NETWORK OPERATION, COMMUNICATION OR INFORMATION TECHNOLOGIES FOR IMPROVING THE ELECTRICAL POWER GENERATION, TRANSMISSION, DISTRIBUTION, MANAGEMENT OR USAGE, i.e. SMART GRIDS
    • Y04S10/00Systems supporting electrical power generation, transmission or distribution
    • Y04S10/16Electric power substations

Abstract

The invention discloses a substation information protection substation full-life-cycle dynamic configuration management and control method and a system, wherein an information protection substation automatically detects a network device IP of a substation control layer in the full-life-cycle operation process of a substation; the method comprises the following steps that an unconfigured network device dynamically starts a single MMS communication flow calling device model file, dynamically imports the device model file, and newly adds a configuration required by the operation of a security substation; in the configured device, a device model file is called in a single MMS communication flow dynamically due to the failure of abnormal initialization of a device model in the device communication initialization process, if the device communication initialization is successful and the communication is normal, the CRC of the called device model file and the CRC of the last model file check file is changed, and the configuration required by the operation of the information protection substation is updated in an incremental manner; and restarting the information protection substation, sending a configuration change signal to the information protection main station, and informing the information protection main station to call the main station configuration of the information protection substation. The invention improves the automation degree and efficiency of the engineering implementation of the information protection substation by dynamically configuring and controlling the full life cycle of the information protection substation, realizes maintenance-free or less maintenance of the full life cycle of the information protection substation, and reduces the operation and maintenance cost of the information protection substation.

Description

Substation information protection substation full life cycle dynamic configuration management and control method and system
Technical Field
The invention belongs to the technical field of substation protection fault information management system information protection substations, and particularly relates to a substation information protection substation full life cycle dynamic configuration management and control method and system.
Background
The transformer substation protection fault information management system is composed of a letter protection main station and a letter protection substation. And the information protection substation acquires and manages the information of the total-station protection device and uploads the protection information to the information protection main station to realize remote protection information management. When the power grid fails, the power grid failure condition can be timely mastered at the dispatching master station end, information support is provided for failure analysis and decision making, and the lean management level of the transformer substation is improved.
At present, the engineering configuration of the information protection substation adopts a mode of traditional manual tool configuration, except for the engineering configuration and debugging of the first installation of the information protection substation, protection upgrading or new protection during reconstruction and extension of a transformer substation also needs to be updated and modified synchronously by using a configuration tool manually, and the investment of engineering implementation, operation and maintenance labor cost is large. For 110kV and below transformer substations, especially 10kV switching substations, the number of the transformer substations is large, and 10kV protection upgrading and reconstruction are frequent. Usually, the engineering implementation and maintenance of the information protection substation are technically supported by engineering service personnel of an information protection substation manufacturer, and frequent engineering updating can increase the service cost of the information protection substation product and the operation and maintenance management cost of a substation of a power grid company.
Disclosure of Invention
In order to solve the defects in the prior art, the invention aims to provide a method and a system for dynamically configuring and controlling the whole life cycle of an information protection substation of a transformer substation.
The invention adopts the following technical scheme.
A substation information protection substation full life cycle dynamic configuration management and control method comprises the following steps:
step 1, in the whole life cycle operation process of a transformer substation, an information protection substation automatically detects the IP of a station control layer network device according to the automatic detection period time and the IP range of the station control layer network device, and acquires the network device existing in the station control layer;
step 2, acquiring network devices which are not configured by the information protection substation according to the network devices existing in the station control layer detected in the step 1; the information protection substation dynamically starts a single MMS communication flow, calls a network device model file and dynamically adds related configuration required by the operation of the information protection substation;
step 3, in the whole life cycle operation process of the network device configured by the information protection substation, if the device communication initialization fails due to abnormal initialization of the device model, dynamically starting a single MMS communication flow, calling a network device model file, and dynamically increasing the relevant configuration required by the operation of the information protection substation;
and 4, after dynamically configuring the information protection substation according to the step 2 or the step 3, automatically restarting the information protection substation, sending a configuration change signal to the information protection main station, and informing the information protection main station to call the main station configuration and the sub station configuration of the information protection substation.
Further, in the step 1,
the IP range of the station control layer network device comprises a preset device IP range and an operating device IP range; the preset device IP range is the range of the IP section set by the station control layer network; the operating device IP range is the station control layer network device IP automatically detected in the whole life cycle operating process of the information protection substation, and comprises a configured network device IP which can be accessed to the information protection substation and an unconfigured network device IP which cannot be accessed to the information protection substation.
Further, in the step 1,
the automatic detection cycle time comprises a fast detection cycle time and a slow detection cycle time;
the IP range of the network device in the rapid detection period comprises other IPs of all IPs in the IP range of the preset device IP range and all IPs in the IP range of the operation device; the fast detection period is used for detecting a network device of a new access station control layer;
the IP range of the network device in the slow detection period comprises all IP filtering operation device IP ranges of the preset device IP range and all other configured IP; and the slow detection period is used for detecting whether the unconfigured network device which cannot be accessed to the information protection substation can be dynamically configured for access.
Further, the rapid detection cycle time is in minutes and can be configured as 1 minute by default; the slow probe cycle time is in hours and can be configured by default to 24 hours.
Further, the step 3 further comprises the steps of,
if the device communication initialization is successful, the device model file is automatically called after the communication is normal, the comparison with the last model file is carried out, whether the CRC of the device model file changes or not is checked, and if the CRC changes, the relevant configuration required by the operation of the dynamic incremental information protection substation is carried out.
Further, the dynamic add/delta letter protection substation has the relevant configuration required for operation,
dynamically importing a network device model file, and dynamically adding real-time library configuration, preposed access configuration and main and sub-station configuration required by the operation of an incremental information protection substation;
the real-time library configuration is the operation configuration of the information protection substation system; the preposed access configuration is communication configuration of the information protection substation and the network device MMS; the main sub-station configuration is a communication configuration of the information protection sub-station and the information protection main station 103.
Further, in the step 4,
when the information protection substation is dynamically configured, the configuration change identifier in the configuration of the main substation and the sub substation is modified to be 1, and after the information protection substation is restarted, the identifier is recognized and a configuration change signal is sent to the information protection main station; and after the information protection sub-station sends the configuration change signal, modifying the configuration change identifier in the configuration of the main sub-station to be 0.
A substation information protection substation full life cycle dynamic configuration management and control system comprises a dynamic configuration management module, a model configuration management module, a front access MMS communication module and a real-time library module;
the dynamic configuration management module is used for automatically detecting the IP of the network device of the station control layer and acquiring the network device existing in the station control layer; informing a front-end access MMS communication module to start a single MMS communication flow calling network device model file, responding to a calling model file result returned by the front-end access MMS communication module, and starting a model configuration management module to newly introduce a model file of an unconfigured device; or responding to the model change notice of the front access MMS communication module, starting the model configuration management module to incrementally import the model file of the configured device;
the model configuration management module is used for importing model files of unconfigured network devices and automatically adding real-time library configuration, front access configuration and main and sub station configuration of the information protection substation; importing a model file of a configured device, and automatically updating the real-time library configuration, the preposed access configuration and the main and sub-station configuration of the information protection substation in an incremental manner;
the front access MMS communication module is used for communicating with a network device MMS and acquiring various information of the processing device; responding to a command of automatically detecting the calling device model file by the dynamic configuration management module, and returning a command result after calling the device model file; actively calling the device model file with the abnormal model and calling the device model file after the communication is normal to check the CRC (cyclic redundancy check) file to change, and informing the dynamic configuration management module to start a model dynamic incremental process;
and the real-time library module is used for providing real-time library configuration operation by the model configuration management module, is connected with the front access MMS communication module and other operation modules of the information protection substation, and is used for real-time data management.
Further, the management and control system further comprises a master station 103 communication module, which is used for communicating with the information-protecting master station by adopting a 103 protocol;
and restarting the information protection substation after the dynamic configuration is completed, wherein the information protection substation is normally communicated with the information protection main station through the main substation 103 communication module, sends a configuration change signal to the information protection main station and informs the information protection main station to call the main-substation configuration.
Furthermore, the management and control system also comprises a real-time alarm module, an operator interface module and a history module;
the real-time alarm module is used for displaying real-time alarms;
the operator interface module is used for user interface operation management;
and the history module is used for storing and inquiring the history data.
Compared with the prior art, the invention has the advantages that the automation degree and efficiency of the engineering implementation of the information protection substation are improved by dynamically configuring and controlling the whole life cycle of the information protection substation, the maintenance-free or less maintenance of the whole life cycle of the information protection substation is realized, and the operation and maintenance cost of the information protection substation is reduced. Meanwhile, the link of manual intervention of the information protection substation engineering is reduced, and the accuracy of engineering configuration can be improved. After the protection of the substation is upgraded or newly added, the protection can be automatically and quickly accessed and sent to the information-protected main station, the consistency of the main station and the sub station on the management of the protection devices in the substation can be ensured, and the lean management level of the substation is further improved.
Drawings
FIG. 1 is a flow chart of a dynamic configuration management and control method for a substation information protection substation in a full life cycle;
fig. 2 is a structural diagram of a substation information protection substation full life cycle dynamic configuration management and control system of the present invention.
Detailed Description
The present application is further described below with reference to the accompanying drawings. The following examples are only for illustrating the technical solutions of the present invention more clearly, and the protection scope of the present application is not limited thereby.
As shown in fig. 1, the method for dynamically configuring and controlling the whole life cycle of the substation information protection substation specifically includes the following steps:
step 1, in the whole life cycle operation process of a transformer substation, an information protection substation automatically detects the IP of a substation control layer network device of the transformer substation according to the automatic detection period time and the IP range of the substation control layer network device, and detects the network devices existing in the substation control layer of the transformer substation;
in this embodiment, the station control layer network device IP of the substation is automatically detected according to the automatic detection cycle time and the range of the station control layer network device IP, and specifically, after the automatic detection cycle time is reached, the station control layer network device IP is traversed through protocols such as PING and TCP to detect the network devices existing in the station control layer.
The station control layer network device IP range comprises a preset device IP range and an operating device IP range. The IP range of the preset device is the range of the IP section set by the station control layer network, and the automatic detection process only detects the IP in the IP range of the preset device. The operation device IP range is the station control layer network device IP which is automatically detected in the whole life cycle operation process of the information protection substation, and comprises a configured network device IP which can be accessed to the information protection substation and an unconfigured network device IP which can not be accessed to the information protection substation.
And the IP range of the operation device is maintained and managed by an IP table of the operation device, the IP range comprises the network device IPs which are automatically detected in the whole life cycle operation process of the information protection substation, and each network device IP corresponds to a configured or non-configured result. The information protection substation automatically detects the IP range of the traversing device to be the IP after the IP range of the IP filtering operation device is preset, so that frequent IP operation on the network device of the station control layer can be avoided, and the safe operation of the operation equipment of the transformer substation is ensured.
The automatic probing cycle time includes a fast probing cycle time and a slow probing cycle time. The rapid detection cycle time is in minutes, can be configured as 1 minute by default, can rapidly start an automatic detection process, and can discover a network device of a new access station control layer in time. The slow detection cycle time is in hours, can be configured for 24 hours by default, can start an automatic detection process for a long time, and can detect whether an unconfigured network device which cannot be accessed to the information protection substation can be dynamically configured for access again.
Automatically detecting the substation control layer network device IP of the transformer substation, specifically, the quickly detected device IP comprises other IPs of all IPs in the range of all IP filtering operation devices in the preset device IP range; the device IP of the slow detection comprises all IP filtering operation devices of the preset device IP range and all other configured IPs of the IP range.
The slow detection period is used for detecting the IP of the station control layer network device, so that the problem that the network device cannot be accessed to the information protection substation due to the fact that the IP is detected before is solved, and the information protection substation can be dynamically configured and accessed to the network device through the slow detection period in order to meet application scenes that the IP is redistributed to other network devices which can be accessed to the information protection substation in the reconstruction and extension process of a transformer substation for use or the IP device is reconstructed to support calling device model files and the like. Meanwhile, in view of safe operation of the transformer substation operation equipment, frequent IP operation on the station control layer network device is avoided, and the IP of the device is automatically detected and operated by adopting a slow detection period.
Step 2, acquiring network devices which are not configured by the information protection substation according to the network devices existing in the station control layer detected in the step 1; for the network devices which are not configured by the information protection substation, the information protection substation dynamically starts a single MMS communication process with each network device which is not configured, and calls a CID model file of the network device; dynamically adding relevant configuration required by the operation of the information protection substation;
in this embodiment, the CID model file of the network device is dynamically invoked with each unconfigured network device in a single MMS communication process, and specifically, after the information protection substation temporarily establishes an MMS communication connection with each unconfigured device once, the CID model file of the network device is directly invoked, and then the communication connection is disconnected.
The CID model file of the network device is called by adopting the current mature IEC-61850 standard MMS communication protocol to realize dynamic configuration, and the implementation effect is optimal. The present invention may also be implemented for the earlier 103 communication protocol that supports device configuration calls.
And dynamically adding relevant configuration required by the operation of the information protection substation, specifically, dynamically importing a called network device CID model file, and dynamically adding real-time library configuration, front access configuration and main substation configuration required by the operation of the information protection substation.
In this embodiment, the real-time library configuration is an operation configuration of the information protection substation system; the preposed access configuration is communication configuration of the information protection substation and the network device MMS; the main sub-station configuration is a communication configuration of the information protection sub-station and the information protection main station 103.
The information protection substation only accesses the protection device, when the network device CID model file is imported and analyzed, the logic device capable of analyzing the network device CID model has PROT, the judgment device is the protection device, or the IEDNAME initial letter of the CID model specification is P, and the judgment device is the protection device.
Step 3, for the network devices configured by the information protection substation, carrying out device communication initialization in the whole life cycle operation process; if the device communication initialization fails due to the abnormal initialization of the device model, dynamically starting a single MMS communication flow, calling a model file of the device, and dynamically increasing relevant configuration required by the operation of the information protection substation;
if the device communication initialization is successful and the communication is normal, automatically calling a device model file, comparing the device model file with the last model file, checking the CRC change of the device model file, and if the CRC changes, dynamically increasing the relevant configuration required by the operation of the information protection substation;
the method comprises the steps of dynamically inputting a new model of a network device, and dynamically configuring a real-time library, a front access configuration and a main sub-station of the network device of the incremental information protection substation. The configuration modification due to model update usually includes parameter modification, four-remote information name modification, four-remote information point addition and four-remote information point deletion.
In this embodiment, the dynamic increment considers two schemes to solve the problem that the engineering configuration after the device model changes is automatically updated in the operation process of the information protection substation.
In the first scheme, in the communication initialization process of the device, whether the current operation model of the device is consistent with the preposed access configuration of the device is checked, the device model is called again after the communication initialization fails due to the abnormality of the device model, and the device can normally communicate with the device again only after the automatic incremental configuration.
And secondly, making up for possible missed judgment on the change of the device model in the first scheme, calling the device model file once after the communication of the device is normal, calculating a CRC32 bit check code of the newly called model file and a CRC32 bit check code of the last called model file, comparing whether the CRC32 bit check codes of the two model files are the same, if not, indicating that the model file is changed and the configuration is possibly changed, and executing an automatic increment configuration process of the device.
The function of normally checking the device CID model file can be communicated by the two devices of the on-off scheme through configuration, namely, the device model file is called and whether the file CRC is changed or not is checked.
Step 4, after the information protection substation is dynamically configured according to the step 2 or the step 3, automatically restarting an application program of the information protection substation system, and sending a configuration change signal to the information protection main station after the main station and the sub station communicate normally to inform the information protection main station to call the main station and the sub station configuration of the information protection substation;
after the information protection substation is dynamically configured, automatically restarting an application program of the information protection substation system to enable the latest configuration of the information protection substation to be effective, enabling the information protection substation to normally communicate with the device again, and enabling the information protection substation to normally communicate with the main station again.
In this embodiment, when the information protection substation is dynamically configured, the configuration change identifier in the configuration of the main substation is modified to be 1. After the information protection substation and the main station normally communicate again, the identification is recognized, and a configuration change signal is firstly sent to the information protection main station, so that the purpose of informing the information protection main station to call the main station and the sub station of the information protection substation for configuration is achieved. After the information protection sub-station sends the configuration change signal, the configuration change identifier in the configuration of the main sub-station is modified to be 0, and the phenomenon that the next time the information protection sub-station is normally restarted to send the configuration change signal to the information protection main station by mistake is avoided.
As shown in fig. 2, the substation information protection substation full life cycle dynamic configuration management and control system includes a dynamic configuration management module, a model configuration management module, a pre-access MMS communication module, a real-time library module, a real-time alarm module, an operator interface module, a master and slave station 103 communication module, and a history library module.
The dynamic configuration management module is used for automatically detecting the IP of the station control layer network device and acquiring the network device existing in the station control layer of the transformer substation; informing a front-end access MMS communication module to start a single MMS communication flow calling device model file, responding to a calling model file result returned by the front-end access MMS communication module, and starting a model configuration management module to newly introduce a model file of an unconfigured device; or responding to the model change notice of the pre-access MMS communication module, and starting the model configuration management module to incrementally import the model file of the configured device.
The model configuration management module is used for importing model files of unconfigured devices and automatically adding real-time library configuration, front access configuration and main and sub station configuration of the information protection substation; and importing the model file of the configured device, and automatically and incrementally updating the relevant configuration of the network device of the information protection substation, including real-time library configuration, front access configuration and main and sub-station configuration.
The front access MMS communication module is used for communicating with the device MMS and acquiring and processing various information of the device; responding to a command of automatically detecting the calling device model file by the dynamic configuration management module, and returning a command result after calling the device model file; and actively calling the abnormal device model file of the model and calling the device model file after the communication is normal to check the CRC change of the file, and informing the dynamic configuration management module to start the dynamic incremental process of the model.
And the real-time library module is used for providing real-time library configuration operation by the model configuration management module, is connected with the front access MMS communication module and other operation modules of the information protection substation, and is used for real-time data management.
And the real-time alarm module is used for displaying the alarm in real time.
And the operator interface module is used for user interface operation management.
And the main substation 103 communication module is used for communicating with the information protection main station by adopting a 103 protocol.
And the history module is used for storing and inquiring the history data.
The specific embodiment is as follows:
based on the conventional information protection substation, the dynamic configuration management module, the modification model configuration management module and the front access MMS communication module are added on the basis of the existing modules of the information protection substation, so that the full life cycle dynamic configuration management and control function of the information protection substation is realized.
The dynamic configuration management module is designed as a dynamic library module, and is directly loaded and operated by a front access MMS communication module, and the two modules adopt a process-to-process communication mode to exchange commands.
The dynamic configuration management module adopts two modes of rapid periodic detection and slow periodic detection, and sequentially carries out PING operation on the IP according to the preset device IP range and the device IP range obtained by the operating device IP range to detect the network device IP of the station control layer. And after the automatic detection is finished, detecting a new device IP, updating an operation device IP table, and informing the front access MMS communication module to call a device model file.
After receiving the command of calling the device model file notified by the dynamic configuration management module, the front access MMS communication module sequentially starts the single MMS communication flow to call the device model file, and after all the device model files are called, the calling result is returned to the dynamic configuration management module.
And after the dynamic configuration management module receives the result of successful calling of the model file, starting the model configuration management module to import the model file of the unconfigured device, and automatically adding the real-time library configuration, the front access configuration and the main and sub-station configuration of the information protection substation. And after the dynamic newly-added configuration of the dynamic configuration management module is completed, updating the result of the running device IP table and restarting the application program of the information protection substation system.
And during the operation process of the preposed access MMS communication module or after the preposed access MMS communication module is restarted, the preposed access MMS communication module is in communication connection with the device again, the communication initialization process verifies that the device model is unsuccessfully initialized, and the device model file with abnormal model is called again in a single MMS communication process. And after all the abnormal device model files of the models are called, informing the dynamic configuration management module to start a dynamic incremental configuration process.
And during the operation process of the preposed access MMS communication module or after the preposed access MMS communication module is restarted, the communication is connected with the device again, the communication is successfully initialized, the communication is normal, and when the function of checking the CID model file of the device is started, the model file of the device is called and whether the CRC check code is changed or not is checked. After all the device model files are called and checked, if the changed model files are checked, the dynamic configuration management module is informed to start the dynamic incremental configuration process.
And after receiving the dynamic increment configuration command, the dynamic configuration management module starts the model configuration management module to incrementally import the model file of the configured device, and updates the real-time library configuration, the preposed access configuration and the main and sub-station configuration of the device of the information protection substation. And after the dynamic incremental configuration of the dynamic configuration management module, restarting the application program of the information protection substation system.
And after the communication module of the main sub-station 103 is normally communicated with the information protection main station, the configuration change signal is automatically sent to the information protection main station to inform the information protection main station to call the configuration of the main sub-station.
The real-time library module, the real-time alarm module, the operator interface module, the main sub-station 103 communication module and the history module are existing general modules of the information protection substation and are not further described in the embodiment.
Compared with the prior art, the invention has the advantages that the automation degree and efficiency of the engineering implementation of the information protection substation are improved by dynamically configuring and controlling the whole life cycle of the information protection substation, the maintenance-free or less maintenance of the whole life cycle of the information protection substation is realized, and the operation and maintenance cost of the information protection substation is reduced. Meanwhile, the link of manual intervention of the information protection substation engineering is reduced, and the accuracy of engineering configuration can be improved. After the protection of the substation is upgraded or newly added, the protection can be automatically and quickly accessed and sent to the information-protected main station, the consistency of the main station and the sub station on the management of the protection devices in the substation can be ensured, and the lean management level of the substation is further improved.
The present applicant has described and illustrated embodiments of the present invention in detail with reference to the accompanying drawings, but it should be understood by those skilled in the art that the above embodiments are merely preferred embodiments of the present invention, and the detailed description is only for the purpose of helping the reader to better understand the spirit of the present invention, and not for limiting the scope of the present invention, and on the contrary, any improvement or modification made based on the spirit of the present invention should fall within the scope of the present invention.

Claims (10)

1. A substation information protection substation full life cycle dynamic configuration management and control method is characterized by comprising the following steps:
step 1, in the whole life cycle operation process of a transformer substation, an information protection substation automatically detects the IP of a station control layer network device according to the automatic detection period time and the IP range of the station control layer network device, and acquires the network device existing in the station control layer;
step 2, acquiring network devices which are not configured by the information protection substation according to the network devices existing in the station control layer detected in the step 1; the information protection substation dynamically starts a single MMS communication flow, calls a network device model file and dynamically adds related configuration required by the operation of the information protection substation;
step 3, in the whole life cycle operation process of the network device configured by the information protection substation, if the device communication initialization fails due to abnormal initialization of the device model, dynamically starting a single MMS communication flow, calling a network device model file, and dynamically increasing the relevant configuration required by the operation of the information protection substation;
and 4, after dynamically configuring the information protection substation according to the step 2 or the step 3, automatically restarting the information protection substation, sending a configuration change signal to the information protection main station, and informing the information protection main station to call the main station configuration and the sub station configuration of the information protection substation.
2. The substation information protection substation full-life-cycle dynamic configuration management and control method according to claim 1, wherein in the step 1,
the IP range of the station control layer network device comprises a preset device IP range and an operating device IP range; the preset device IP range is the range of the IP section set by the station control layer network; the operating device IP range is the station control layer network device IP automatically detected in the whole life cycle operating process of the information protection substation, and comprises a configured network device IP which can be accessed to the information protection substation and an unconfigured network device IP which cannot be accessed to the information protection substation.
3. The substation information protection substation full-life-cycle dynamic configuration management and control method according to claim 2, wherein in the step 1,
the automatic detection cycle time comprises a fast detection cycle time and a slow detection cycle time;
the IP range of the network device in the rapid detection period comprises other IPs of all IPs in the IP range of the preset device IP range and all IPs in the IP range of the operation device; the fast detection period is used for detecting a network device of a new access station control layer;
the IP range of the network device in the slow detection period comprises all IP filtering operation device IP ranges of the preset device IP range and all other configured IP; and the slow detection period is used for detecting whether the unconfigured network device which cannot be accessed to the information protection substation can be dynamically configured for access.
4. The substation information protection substation full-life-cycle dynamic configuration management and control method according to claim 3,
the rapid detection cycle time is in minutes and can be configured as 1 minute by default; the slow probe cycle time is in hours and can be configured by default to 24 hours.
5. The substation information protection substation full-life-cycle dynamic configuration management and control method according to claim 1, wherein the step 3 further comprises,
if the device communication initialization is successful, the device model file is automatically called after the communication is normal, the comparison with the last model file is carried out, whether the CRC of the device model file changes or not is checked, and if the CRC changes, the relevant configuration required by the operation of the dynamic incremental information protection substation is carried out.
6. The substation information protection substation full-life-cycle dynamic configuration management and control method according to claim 1, characterized in that the dynamic new increment/increment information protection substation is operated in the required relevant configuration,
dynamically importing a network device model file, and dynamically adding real-time library configuration, preposed access configuration and main and sub-station configuration required by the operation of an incremental information protection substation;
the real-time library configuration is the operation configuration of the information protection substation system; the preposed access configuration is communication configuration of the information protection substation and the network device MMS; the main sub-station configuration is a communication configuration of the information protection sub-station and the information protection main station 103.
7. The substation information protection substation full-life-cycle dynamic configuration management and control method according to claim 6, wherein in the step 4,
when the information protection substation is dynamically configured, the configuration change identifier in the configuration of the main substation and the sub substation is modified to be 1, and after the information protection substation is restarted, the identifier is recognized and a configuration change signal is sent to the information protection main station; and after the information protection sub-station sends the configuration change signal, modifying the configuration change identifier in the configuration of the main sub-station to be 0.
8. A substation information protection substation full life cycle dynamic configuration management and control system is characterized by comprising a dynamic configuration management module, a model configuration management module, a front access MMS communication module and a real-time library module;
the dynamic configuration management module is used for automatically detecting the IP of the network device of the station control layer and acquiring the network device existing in the station control layer; informing a front-end access MMS communication module to start a single MMS communication flow calling network device model file, responding to a calling model file result returned by the front-end access MMS communication module, and starting a model configuration management module to newly introduce a model file of an unconfigured device; or responding to the model change notice of the front access MMS communication module, starting the model configuration management module to incrementally import the model file of the configured device;
the model configuration management module is used for importing model files of unconfigured network devices and automatically adding real-time library configuration, front access configuration and main and sub station configuration of the information protection substation; importing a model file of a configured device, and automatically updating the real-time library configuration, the preposed access configuration and the main and sub-station configuration of the information protection substation in an incremental manner;
the front access MMS communication module is used for communicating with a network device MMS and acquiring various information of the processing device; responding to a command of automatically detecting the calling device model file by the dynamic configuration management module, and returning a command result after calling the device model file; actively calling the device model file with the abnormal model and calling the device model file after the communication is normal to check the CRC (cyclic redundancy check) file to change, and informing the dynamic configuration management module to start a model dynamic incremental process;
and the real-time library module is used for providing real-time library configuration operation by the model configuration management module, is connected with the front access MMS communication module and other operation modules of the information protection substation, and is used for real-time data management.
9. The substation information protection substation full-life-cycle dynamic configuration management and control system according to claim 8, characterized in that the management and control system further comprises a master substation 103 communication module for communicating with the information protection master station using a 103 protocol;
and restarting the information protection substation after the dynamic configuration is completed, wherein the information protection substation is normally communicated with the information protection main station through the main substation 103 communication module, sends a configuration change signal to the information protection main station and informs the information protection main station to call the main-substation configuration.
10. The substation information protection substation full-life-cycle dynamic configuration management and control system according to claim 8, further comprising a real-time alarm module, an operator interface module, and a history module;
the real-time alarm module is used for displaying real-time alarms;
the operator interface module is used for user interface operation management;
and the history module is used for storing and inquiring the history data.
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