CN103683504B - The supervisory control system of transformer substation communication power management module and method for supervising - Google Patents
The supervisory control system of transformer substation communication power management module and method for supervising Download PDFInfo
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- CN103683504B CN103683504B CN201310646304.0A CN201310646304A CN103683504B CN 103683504 B CN103683504 B CN 103683504B CN 201310646304 A CN201310646304 A CN 201310646304A CN 103683504 B CN103683504 B CN 103683504B
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- Y—GENERAL 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
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E60/00—Enabling technologies; Technologies with a potential or indirect contribution to GHG emissions mitigation
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- Y—GENERAL 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
- Y04—INFORMATION OR COMMUNICATION TECHNOLOGIES HAVING AN IMPACT ON OTHER TECHNOLOGY AREAS
- Y04S—SYSTEMS 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
- Y04S10/00—Systems supporting electrical power generation, transmission or distribution
- Y04S10/16—Electric power substations
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Abstract
A kind of supervisory control system of transformer substation communication power management module: comprise the Guangdong Power Grid video and environmental monitoring platform (7) that connect successively, communication protocol module (6), virtual device modules and environment parameter device management module (5), wherein virtual device modules is containing virtual remote signalling EM equipment module and virtual remote-measuring equipment module, described environment parameter device management module (5) is outer is respectively connected with the communication power supply administration module (1) meeting TD/T 13633-200 specification, meet the communication power supply administration module (2) of DL 451-91 specification, meet communication power supply administration module (3) and other monitoring modules (4) of DL/T634.5104-2002 specification.The present invention is different communication power management module with unified interface abstraction, achieves unified monitoring; Under there are abnormal conditions, in the short period of time, platform just can receive alert data, greatly improves the response speed of fault; Easily be integrated into platform, platform uses the method for supervising of general environment parameter just can complete monitoring to communication power supply.
Description
Technical field
The present invention relates to a kind of supervisory control system to transformer substation communication power management module.The invention still further relates to the method adopting described system to carry out the monitoring of transformer substation communication power management module.
Background technology
Along with rolling up of unattended operation transformer station and vigorously implementing of work of increasing efficiency by downsizing payrolls, require that we change conventional management models in the past, be converted to rely on and promote scientific and technological content, improve the efficiency of management, means are turned to realize the operational management modern times, " controlled, control " of keeping the safety in production after guaranteeing Unattended substation or few people on duty, improves constantly operation and management level, and intelligent substationization management has become a kind of inexorable trend.But station communication power supply is in monitoring blind area at present, not yet has system to carry out effective monitoring to communication power supply, if power supply goes wrong in station, long-range the rushing towards in station of the personnel of communication speciality is needed to solve process.Therefore, need to carry out effective monitoring to communication power supply.
In prior art, the transformer substation video of Guangdong Power Grid and environmental monitoring system achieve Real-Time Monitoring to video in transformer station and environmental information (comprising temperature, humidity, wind speed, infrared emission, water logging etc.) and application.But not yet effective monitoring is realized to station communication power supply at present; Meanwhile, the usual independent operating of communication power supply administration module of different manufacturers, not connected, this more causes the difficulty of unified monitoring.
Summary of the invention
First technical problem to be solved by this invention, is just to provide a kind of supervisory control system to transformer substation communication power management module.
Second technical problem to be solved by this invention, is just to provide a kind of method adopting described system to carry out the monitoring of transformer substation communication power management module.
System and method of the present invention, can realize effective monitoring to the communication power supply of different manufacturers in transformer station.
Solve above-mentioned first technical problem, the technical solution used in the present invention is:
A kind of supervisory control system to transformer substation communication power management module, it is characterized in that: comprise the Guangdong Power Grid video and environmental monitoring platform 7 that connect successively, communication protocol module 6, virtual device modules and environment parameter device management module 5, wherein virtual device modules is containing virtual remote signalling EM equipment module and virtual remote-measuring equipment module, described environment parameter device management module 5 respectively outer being connected with meets YD/T 1363.3-2005 specification (communication bureau's (station) power supply, air conditioner environment centralized supervision management system) communication power supply administration module 1, meet the communication power supply administration module 2 of DL 451-91 specification (circulating Telecontrol Protocol), meet communication power supply administration module 3 and other monitoring modules 4 of DL/T634.5104-2002 specification (telecontrol equipment and system 5-104 part).
Described other types communication power supply administration module comprises the monitoring module of modbus protocol type;
Described environment parameter equipment control layer completes the management to dissimilar environment parameter equipment: adopt dissimilar communication protocol to gather remote signalling data, telemetry to dissimilar communication power supply administration module; A remote signalling equipment is fictionalized to each remote signalling data, a remote-measuring equipment is fictionalized to each telemetry; Any virtual remote signalling equipment exposes identical interface to upper strata; Equally, any virtual remote-measuring equipment also exposes identical interface to upper strata, realizes the unification of environment parameter equipment abstract, and for platform, all environment parameter equipment is all consistent;
Described communication protocol module: with Platform communication, realizes the interactive communication with the various information of platform;
Described platform and existing Guangdong Power Grid video and environmental monitoring platform, user is by the real-time monitor video of platform and environment parameter (remote signalling data of communication power supply and telemetry are a part for environment parameter).
Solve above-mentioned second technical problem, the technical solution used in the present invention is:
Adopt described system to carry out a method for transformer substation communication power management module monitoring, comprise following steps:
S1 system initialization: determine the remote signalling data list of communication power supply, telemetry list;
S2 is virtual: according to remote signalling data list, each remote signalling data is virtualized into a remote signalling equipment; According to distant
Survey data list, each telemetry is virtualized into a remote-measuring equipment;
Remote signalling list of devices, remote-measuring equipment list are reported platform or by platform active obtaining by S3;
The remote signalling data of S4 timing query communication power supply, and be set to corresponding remote signalling equipment, as the current state of remote signalling equipment; Current state and last state are compared, if change, then this remote signalling equipment sends to platform and reports to the police;
The telemetry of S5 timing query communication power supply, and be set to corresponding remote-measuring equipment, as the currency of remote-measuring equipment; Currency and upper sub-value are compared, when variable quantity exceedes the threshold values of setting, then this remote-measuring equipment sends currency to platform; Meanwhile, judge whether currency reaches alert if, if reached, then send to platform and report to the police.
Described step S1 comprises following sub-step:
S1-1RPU obtains remote signalling data list, telemetry list;
S1-2 monitoring module returns remote signalling data list, telemetry list;
The remote signalling data list of monitoring module, telemetry list are saved in configuration file or other data preservation form by S1-3RPU.
Described step S2 comprises following sub-step:
S2-1RPU preserves form from configuration file or other data and reads remote signalling data list, telemetry list, to each remote signalling data, fictionalizes remote signalling equipment; To each telemetry, fictionalize remote-measuring equipment; Meanwhile, a unique device coding is given to each remote signalling equipment, remote-measuring equipment;
Remote signalling list of devices after virtual, remote-measuring equipment list, initiatively to platform registration, are pushed to platform by S2-2RPU Active Registration pattern: RPU simultaneously; Platform login mode: after platform initiatively logs in RPU, obtains remote signalling list of devices, remote-measuring equipment list to RPU.
Described step S4 comprises following sub-step:
4-1 reads the remote signalling data of monitoring module;
4-2 reads successfully, then forward 4-3 to; Read unsuccessfully, then forward 4-8 to;
Remote signalling data is set to corresponding remote signalling equipment by 4-3, as the current state of remote signalling equipment;
4-4 first time arranges and then forwards 4-6 to; Other forward 4-5 to;
4-5 judges whether the current state of remote signalling equipment changes, and changes and forwards 4-6 to; Other then forward 4-7 to;
4-6 remote signalling equipment sends warning message to platform, comprises current state;
4-7 preserves the current state of remote signalling equipment, is recorded to local data base;
Between 4-8 at regular intervals, 4-1 is forwarded to.
Described step S5 comprises following sub-step:
5-1 reads the telemetry of monitoring module;
5-2 reads and successfully then forwards 5-3 to; Read unsuccessfully, then forward 5-10 to;
Telemetry is set to corresponding remote-measuring equipment by 5-3, as the currency of remote-measuring equipment;
5-4 first time arranges and then forwards 5-6 to; Other forward 5-5 to;
5-5 and upper sub-value contrast, and whether variable quantity exceedes the threshold values of setting, if exceeded, then forward 5-6 to; Other forward 5-7 to;
5-6 remote-measuring equipment sends currency in the mode sending environment parameter data to platform;
5-7 judges that currency has not lower than lower limit threshold values, or higher than upper limit threshold values, if so, then need to report to the police, forward 5-8 to, other forward 5-9 to;
5-8 remote-measuring equipment sends warning message to platform, according to the order of severity of warning message, distinguishes general alarm and serious warning;
5-9 preserves the currency of remote-measuring equipment, and is recorded to local data base;
Between 5-10 at regular intervals, as 5 seconds, 5-1 is forwarded to.
Beneficial effect: the present invention, by the communication power supply administration module effective integration of existing for Guangdong Power Grid Corporation transformer substation video and environmental monitoring system and different manufacturers, realizes the monitoring to dissimilar communication power supply, cost is low, easily realize, and has following characteristics:
(1) different manufacturers, dissimilar communication power supply administration module with unified interface abstraction, achieve the unified monitoring to communication power supply;
(2), under there are abnormal conditions, in the short period of time, platform just can receive alert data, greatly improves the response speed of fault;
(3) be easily integrated into platform, platform uses the method for supervising of general environment parameter (temperature, humidity etc.) just can complete monitoring to communication power supply.
Accompanying drawing explanation
Fig. 1 is system configuration schematic diagram of the present invention;
Fig. 2 is remote signalling data processing procedure figure;
Fig. 3 is Telemetering Data Processing procedure chart.
Embodiment
Supervisory control system to transformer substation communication power management module of the present invention, comprise the Guangdong Power Grid video and environmental monitoring platform 7 that connect successively, communication protocol module 6, virtual device modules and environment parameter device management module 5, wherein virtual device modules is containing virtual remote signalling EM equipment module and virtual remote-measuring equipment module, environment parameter device management module 5 respectively outer being connected with meets YD/T 1363.3-2005 specification (communication bureau's (station) power supply, air conditioner environment centralized supervision management system) communication power supply administration module 1, meet the communication power supply administration module 2 of DL 451-91 specification (circulating Telecontrol Protocol), meet the monitoring module that the communication power supply administration module 3 of DL/T634.5104-2002 specification (telecontrol equipment and system 5-104 part) and other monitoring modules 4-comprise modbus protocol type.
Each functions of modules:
Border amount equipment control layer: complete the management to dissimilar environment parameter equipment: adopt dissimilar communication protocol to gather remote signalling data, telemetry to dissimilar communication power supply administration module; A remote signalling equipment is fictionalized to each remote signalling data, a remote-measuring equipment is fictionalized to each telemetry; Any virtual remote signalling equipment exposes identical interface to upper strata; Equally, any virtual remote-measuring equipment also exposes identical interface to upper strata, realizes the unification of environment parameter equipment abstract, and for platform, all environment parameter equipment is all consistent;
Communication protocol module: with Platform communication, realizes the interactive communication with the various information of platform;
Platform and existing Guangdong Power Grid video and environmental monitoring platform, user is by the real-time monitor video of platform and environment parameter (remote signalling data of communication power supply and telemetry are a part for environment parameter).
Adopt described system to carry out the method for transformer substation communication power management module monitoring, comprise following steps:
S1 system initialization: determine the remote signalling data list of communication power supply, telemetry list; Specifically comprise following sub-step:
S1-1RPU (end processing unit of standing) obtains remote signalling data list, telemetry list;
S1-2 monitoring module returns remote signalling data list, telemetry list;
The remote signalling data list of monitoring module, telemetry list are saved in configuration file or other data preservation form by S1-3RPU;
S2 system starts virtual: according to remote signalling data list, each remote signalling data is virtualized into a remote signalling equipment; According to telemetry list, each telemetry is virtualized into a remote-measuring equipment; Specifically comprise following sub-step:
S2-1RPU preserves form from configuration file or other data and reads remote signalling data list, telemetry list, to each remote signalling data, fictionalizes remote signalling equipment; To each telemetry, fictionalize remote-measuring equipment; Meanwhile, a unique device coding is given to each remote signalling equipment, remote-measuring equipment;
Remote signalling list of devices after virtual, remote-measuring equipment list, initiatively to platform registration, are pushed to platform by S2-2RPU Active Registration pattern: RPU simultaneously; Platform login mode: after platform initiatively logs in RPU, obtains remote signalling list of devices, remote-measuring equipment list to RPU;
S3 system cloud gray model: remote signalling list of devices, remote-measuring equipment list are reported platform or by platform active obtaining;
The remote signalling data of S4 timing query communication power supply, and be set to corresponding remote signalling equipment, as the current state of remote signalling equipment; Current state and last state are compared, if change, then this remote signalling equipment sends to platform and reports to the police (with reference to figure 3), specifically comprises following sub-step: (with reference to figure 2):
4-1 reads the remote signalling data of monitoring module;
4-2 reads successfully, then forward 4-3 to; Read unsuccessfully, then forward 4-8 to;
Remote signalling data is set to corresponding remote signalling equipment by 4-3, as the current state of remote signalling equipment;
4-4 first time arranges and then forwards 4-6 to; Other forward 4-5 to;
4-5 judges whether the current state of remote signalling equipment changes, and changes and forwards 4-6 to; Other then forward 4-7 to;
4-6 remote signalling equipment sends warning message to platform, comprises current state;
4-7 preserves the current state of remote signalling equipment, is recorded to local data base;
The 5 second time of 4-8 interval, forward 4-1 to;
The telemetry of S5 timing query communication power supply, and be set to corresponding remote-measuring equipment, as the currency of remote-measuring equipment; Currency and upper sub-value are compared, when variable quantity exceedes the threshold values of setting, then this remote-measuring equipment sends currency to platform; Meanwhile, judge whether currency reaches alert if, if reached, then send to platform and report to the police (with reference to figure 3), specifically comprise following sub-step:
5-1 reads the telemetry of monitoring module;
5-2 reads and successfully then forwards 5-3 to; Read unsuccessfully, then forward 5-10 to;
Telemetry is set to corresponding remote-measuring equipment by 5-3, as the currency of remote-measuring equipment;
5-4 first time arranges and then forwards 5-6 to; Other forward 5-5 to;
5-5 and upper sub-value contrast, and whether variable quantity exceedes the threshold values of setting, if exceeded, then forward 5-6 to; Other forward 5-7 to;
5-6 remote-measuring equipment sends currency in the mode sending environment parameter data to platform;
5-7 judges that currency has not lower than lower limit threshold values, or higher than upper limit threshold values, if so, then need to report to the police, forward 5-8 to, other forward 5-9 to;
5-8 remote-measuring equipment sends warning message to platform, according to the order of severity of warning message, distinguishes general alarm and serious warning;
5-9 preserves the currency of remote-measuring equipment, and is recorded to local data base;
Between 5-10 at regular intervals, as 5 seconds, 5-1 is forwarded to.
Claims (5)
1. the method adopting the supervisory control system of transformer substation communication power management module to carry out the monitoring of transformer substation communication power management module, described supervisory control system comprises the Guangdong Power Grid video and environmental monitoring platform (7) that connect successively, communication protocol module (6), virtual device modules and environment parameter device management module (5) wherein virtual device modules contain virtual remote signalling EM equipment module and virtual remote-measuring equipment module, described environment parameter device management module (5) is outer is respectively connected with the communication power supply administration module (1) meeting YD/T1363.3-2005 specification, meet the communication power supply administration module (2) of DL 451-91 specification, meet communication power supply administration module (3) and other monitoring modules (4) of DL/T634.5104-2002 specification, described environment parameter device management module (5) completes the management to dissimilar environment parameter equipment: adopt dissimilar communication protocol to gather remote signalling data, telemetry to dissimilar communication power supply administration module, a remote signalling equipment is fictionalized to each remote signalling data, a remote-measuring equipment is fictionalized to each telemetry, any virtual remote signalling equipment exposes identical interface to upper strata, equally, any virtual remote-measuring equipment also exposes identical interface to upper strata, realizes the unification of environment parameter equipment abstract, and for platform, all environment parameter equipment is all consistent, described communication protocol module (6): with Platform communication, realizes the interactive communication with the various information of platform, described platform and existing Guangdong Power Grid video and environmental monitoring platform, user is by the real-time monitor video of platform and environment parameter,
It is characterized in that: described method comprises following steps:
S1 system initialization: determine the remote signalling data list of communication power supply, telemetry list;
S2 system starts virtual: according to remote signalling data list, each remote signalling data is virtualized into a remote signalling equipment; According to telemetry list, each telemetry is virtualized into a remote-measuring equipment;
Remote signalling list of devices, remote-measuring equipment list are reported platform or by platform active obtaining by S3;
The remote signalling data of S4 timing query communication power supply, and be set to corresponding remote signalling equipment, as the current state of remote signalling equipment; Current state and last state are compared, if change, then this remote signalling equipment sends to platform and reports to the police;
The telemetry of S5 timing query communication power supply, and be set to corresponding remote-measuring equipment, as the currency of remote-measuring equipment; Currency and upper sub-value are compared, when variable quantity exceedes the threshold values of setting, then this remote-measuring equipment sends currency to platform; Meanwhile, judge whether currency reaches alert if, if reached, then send to platform and report to the police.
2. method according to claim 1, is characterized in that: described step S1 comprises following sub-step:
S1-1 RPU obtains remote signalling data list, telemetry list;
S1-2 monitoring module returns remote signalling data list, telemetry list;
The remote signalling data list of monitoring module, telemetry list are saved in configuration file or other data preservation form by S1-3 RPU.
3. method according to claim 1, is characterized in that: described step S2 comprises following sub-step:
S2-1 RPU preserves form from configuration file or other data and reads remote signalling data list, telemetry list, to each remote signalling data, fictionalizes remote signalling equipment; To each telemetry, fictionalize remote-measuring equipment; Meanwhile, a unique device coding is given to each remote signalling equipment, remote-measuring equipment;
Remote signalling list of devices after virtual, remote-measuring equipment list, initiatively to platform registration, are pushed to platform by S2-2 RPU Active Registration pattern: RPU simultaneously; Platform login mode: after platform initiatively logs in RPU, obtains remote signalling list of devices, remote-measuring equipment list to RPU.
4. method according to claim 1, is characterized in that: described step S4 comprises following sub-step:
4-1 reads the remote signalling data of monitoring module;
4-2 reads successfully, then forward 4-3 to; Read unsuccessfully, then forward 4-8 to;
Remote signalling data is set to corresponding remote signalling equipment by 4-3, as the current state of remote signalling equipment;
4-4 first time arranges and then forwards 4-6 to; Other forward 4-5 to;
4-5 judges whether the current state of remote signalling equipment changes, and changes and forwards 4-6 to; Other then forward 4-7 to;
4-6 remote signalling equipment sends warning message to platform, comprises current state;
4-7 preserves the current state of remote signalling equipment, is recorded to local data base;
The 5 second time of 4-8 interval, forward 4-1 to.
5. method according to claim 1, is characterized in that: described step S5 comprises following sub-step:
5-1 reads the telemetry of monitoring module;
5-2 reads and successfully then forwards 5-3 to; Read unsuccessfully, then forward 5-10 to;
Telemetry is set to corresponding remote-measuring equipment by 5-3, as the currency of remote-measuring equipment;
5-4 first time arranges and then forwards 5-6 to; Other forward 5-5 to;
5-5 and upper sub-value contrast, and whether variable quantity exceedes the threshold values of setting, if exceeded, then forward 5-6 to; Other forward 5-7 to;
5-6 remote-measuring equipment sends currency in the mode sending environment parameter data to platform;
5-7 judges that currency has not lower than lower limit threshold values or higher than upper limit threshold values, and if so, then need to report to the police, forward 5-8 to, other forward 5-9 to;
5-8 remote-measuring equipment sends warning message to platform, according to the order of severity of warning message, distinguishes general alarm and serious warning;
5-9 preserves the currency of remote-measuring equipment, and is recorded to local data base;
The 5 second time of 5-10 interval, forward 5-1 to.
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Address after: 510080 Dongfeng East Road, Dongfeng, Guangdong, Guangzhou, Zhejiang Province, No. 8 Patentee after: ELECTRIC POWER RESEARCH INSTITUTE, GUANGDONG POWER GRID CO., LTD. Address before: 510080 Dongfeng East Road, Dongfeng, Guangdong, Guangzhou, Zhejiang Province, No. 8 Patentee before: Electrical Power Research Institute of Guangdong Power Grid Corporation |