CN104657493A - Transformer winding state multi-data source database system - Google Patents
Transformer winding state multi-data source database system Download PDFInfo
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- CN104657493A CN104657493A CN201510100279.5A CN201510100279A CN104657493A CN 104657493 A CN104657493 A CN 104657493A CN 201510100279 A CN201510100279 A CN 201510100279A CN 104657493 A CN104657493 A CN 104657493A
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Abstract
The invention relates to a transformer winding state multi-data source database system, which comprises an input module (1), a judging module (2), a format conversion module (3), a receiving and processing module (4), an advanced algorithm module (5), a data separating module (6), a database management module (7) and a database module (8), wherein the input module (1) is respectively connected with the format conversion module (3) and the receiving and processing module (4) through the judging module (2), the format conversion module (3) is connected with the advanced algorithm module (5), the receiving and processing module (4) is connected with the data separating module (6), and the database management module (7) is respectively connected with the advanced algorithm module (5), the data separating module (6) and the database module (8). The transformer winding state multi-data source database system has the advantages that the data source information of transformer windings with different types and different varieties can be processed at high efficiency, and the effective data are extracted, and stored into the database; an query interface is provided for the upper level, so as to facilitate software or a research developer to query the information of the required pictures or data according to the query condition.
Description
Technical field
The present invention relates to slip condition database, in particular, relate to the database technical field of transformer winding state multi-data source.
Background technology
Along with the increase day by day of China's net capacity, capacity of short circuit also constantly increases thereupon, and the operational reliability as the power transformer of electric system nucleus equipment just seems important all the more.Current winding failure has become the main cause of Accident of Transformer, and the accident being gone to pot by winding mechanical stability and cause increases just year by year fast, badly influences the safe operation of transformer and electric system.By up till now, have multiple detection means to Transformer Winding, these detection meanss often all preserve data by the computer of oneself, and data volume is large, but preservation comparatively disperses, and is not easy to the later stage to the inquiry of data and statistics.
Between above-mentioned situation, transformer winding state multi-data source information is concentrated and is saved in database so that later stage inquiry, become a problem anxious to be resolved in this area.
Summary of the invention
The object of the invention is to solve prior art Problems existing, provide a kind of efficient transformer winding state multi-data source database easily, so that software or scientific research personnel judge data according to querying condition.
For realizing above technical purpose, technical scheme of the present invention is:
Transformer winding state multi-data source Database Systems, comprise with lower module:
Load module, for judging that data source that user inputs is the data of which kind of type of transformer, then according to the feature of input data, is further processed the Data dissemination of input to determination module;
Determination module, judges for the data obtained load module, judges that these data enter into format converting module or receiving processing module;
Format converting module, the data for being obtained by load module are input in type belonging to native system, the tractable form of the system that is converted to, and send into advanced algorithm module;
Receiving processing module, is input in type belonging to native system for the data obtained by load module, and sends into data separating resume module;
Advanced algorithm module, carries out advanced algorithm process for the easy processing format data got format converting module conversion, comprises denoising, strengthens operation, and the data after process are input to database management module and finally preserve;
Data separating module, carries out separating treatment for the data transmitted receiving processing module, data message is separated into the data layout of system requirements, and the survey data after process are passed to database management module with corresponding raw data and finally preserve;
Database management module, receives data and primary data information (pdi) that the data that transmit from advanced algorithm module and data separating module transmit respectively, sorts out respectively and send into database module to save;
Database module, receives the data transmitted from database management module, is saved to database and upwards provides various query interface;
Annexation between each module is, load module is connected with format converting module, receiving processing module respectively by determination module; Format converting module and advanced algorithm model calling; Receiving processing module and data separating model calling; Database management module is connected with advanced algorithm module, data separating module, database module respectively;
The workflow of this system is as follows:
1. start, start up system general supply;
2. load module requires user input data and data type, whether be easy processing format by determination module decision data, if the easy processing format of data right and wrong, the transfer algorithm in format converting module is then utilized to transfer input data to tractable form, data being sent in advanced algorithm module utilizes high-level processing algorithm to strengthen targetedly data again, then gives database management module and database module and stored in image data base; If the data of input are easy processing format, then perform 3.;
3. strengthen according to data message feature, enter data in data separating module by receiving processing module, then be the data layout of system requirements by data separating module according to data message Feature Conversion, together give database module by database management module by the data message after advanced algorithm module and data separating module converts and raw data afterwards and stored in image data base; Terminate, workflow exits.
Advantageous Effects of the present invention is:
1) the present invention adopts the data acquisition technology that load module 1 and several data interface concurrent run, and has very strong adaptability to several data input format;
2) advanced algorithm module 5 uses the special advanced algorithm carrying out strengthening for Transformer Winding data, is convenient to process Transformer Winding data targetedly;
3) data separating module 6 adopts data separating technology targetedly, and from Transformer Winding data, mask data facilitates Users'Data Analysis;
4) achieve the database of the multiple management of multiple detection means, realize the management of Transformer Winding data.
Below in conjunction with the drawings and specific embodiments, the present invention is further explained.
Accompanying drawing explanation
Fig. 1 is each module diagram of transformer winding state multi-data source database of the present invention;
Fig. 2 is transformer winding state database system data of the present invention input process flow diagram.
Embodiment
Transformer winding state multi-data source Database Systems, the present invention includes with lower module:
Load module 1, for judging that data source that user inputs is the data of which kind of type of transformer, then according to the feature of input data, is further processed the Data dissemination of input to determination module;
Determination module 2, judges for the data obtained load module, judges that these data enter into format converting module or receiving processing module;
Format converting module 3, the data for being obtained by load module are input in type belonging to native system, the tractable form of the system that is converted to, and send into advanced algorithm module;
Receiving processing module 4, is input in type belonging to native system for the data obtained by load module, and sends into data separating resume module;
Advanced algorithm module 5, carries out advanced algorithm process for the easy processing format data got format converting module conversion, comprises denoising, strengthens operation, and the data after process are input to database management module and finally preserve;
Data separating module 6, carries out separating treatment for the data transmitted receiving processing module, data message is separated into the data layout of system requirements, and the survey data after process are passed to database management module with corresponding raw data and finally preserve;
Database management module 7, receives data and primary data information (pdi) that the data that transmit from advanced algorithm module and data separating module transmit respectively, sorts out respectively and send into database module to save;
Database module 8, receives the data transmitted from database management module, is saved to database and upwards provides various query interface;
Annexation between each module is, load module 1 is connected with format converting module 3, receiving processing module 4 respectively by determination module 2; Format converting module 3 is connected with advanced algorithm module 5; Receiving processing module 4 is connected with data separating module 6; Database management module 7 is connected with advanced algorithm module 5, data separating module 6, database module 8 respectively;
The workflow of this system is as follows:
1. start, start up system general supply;
2. load module 1 requires user input data and data type, whether be easy processing format by determination module 2 decision data, if the easy processing format of data right and wrong, the transfer algorithm in format converting module 3 is then utilized to transfer input data to tractable form, data being sent in advanced algorithm module 5 utilizes high-level processing algorithm to strengthen targetedly data again, then gives database management module 7 and database module 8 and stored in image data base; If the data of input are easy processing format, then perform 3.;
3. strengthen according to data message feature, enter data in data separating module 6 by receiving processing module 4, then be the data layout of system requirements by data separating module 6 according to data message Feature Conversion, together give database module 8 by database management module 7 by the data message after advanced algorithm module and data separating module converts and raw data afterwards and stored in image data base; Terminate, workflow exits.
Modules working condition is as follows: after software systems are run, load module 1 waits the input of pending data at any time, determination module 2, format converting module 3, receiving processing module 4, advanced algorithm module 5, data separating module 6, database management module 7, these eight modular concurrent of database module 8 run, when user is to system input data, whether load module 1 needs format conversion to judge through determination module 2 to these data, as format conversion need be carried out, this Data dissemination is changed to format converting module 3, data are carried out conversion in format converting module 3 to arrange, transformation result is given advanced algorithm module 5 to process, this module in charge uses a series of high-level processing algorithm to carry out data enhancing etc. to it according to the characteristic of data and processes and give database management module 7 and annotate label finally stored in database.
These eight modules of load module 1 in present system, determination module 2, format converting module 3, receiving processing module 4, advanced algorithm module 5, data separating module 6, database management module 7, database module 8 all can adopt prior art module, also can adopt the module of designed, designed.
Claims (1)
1. transformer winding state multi-data source Database Systems, is characterized in that, comprise with lower module:
Load module (1), for judging that data source that user inputs is the data of which kind of type of transformer, then according to the feature of input data, is further processed the Data dissemination of input to determination module;
Determination module (2), judges for the data obtained load module, judges that these data enter into format converting module or receiving processing module;
Format converting module (3), the data for being obtained by load module are input in type belonging to native system, the tractable form of the system that is converted to, and send into advanced algorithm module;
Receiving processing module (4), is input in type belonging to native system for the data obtained by load module, and sends into data separating resume module;
Advanced algorithm module (5), carries out advanced algorithm process for the easy processing format data got format converting module conversion, comprises denoising, strengthens operation, and the data after process are input to database management module and finally preserve;
Data separating module (6), data for transmitting receiving processing module carry out separating treatment, data message is separated into the data layout of system requirements, and the survey data after process are passed to database management module with corresponding raw data and finally preserve;
Database management module (7), receives data and primary data information (pdi) that the data that transmit from advanced algorithm module and data separating module transmit respectively, sorts out respectively and send into database module to save;
Database module (8), receives the data transmitted from database management module, is saved to database and upwards provides various query interface;
Annexation between each module is, load module (1) is connected with format converting module (3), receiving processing module (4) respectively by determination module (2); Format converting module (3) is connected with advanced algorithm module (5); Receiving processing module (4) is connected with data separating module (6); Database management module (7) is connected with advanced algorithm module (5), data separating module (6), database module (8) respectively;
The workflow of system is as follows:
1. start, start up system general supply;
2. load module (1) requires user input data and data type, whether be easy processing format by determination module (2) decision data, if the easy processing format of data right and wrong, the transfer algorithm in format converting module (3) is then utilized to transfer input data to tractable form, data being sent in advanced algorithm module (5) utilizes high-level processing algorithm to strengthen targetedly data again, then gives database management module (7) and database module (8) and stored in image data base; If the data of input are easy processing format, then perform 3.;
3. strengthen according to data message feature, enter data in data separating module (6) by receiving processing module (4), then be the data layout of system requirements by data separating module (6) according to data message Feature Conversion, together give database module (8) by database management module (7) by the data message after advanced algorithm module and data separating module converts and raw data afterwards and stored in image data base; Terminate, workflow exits.
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| Application Number | Priority Date | Filing Date | Title |
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| CN201510100279.5A CN104657493A (en) | 2015-03-06 | 2015-03-06 | Transformer winding state multi-data source database system |
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| CN201510100279.5A CN104657493A (en) | 2015-03-06 | 2015-03-06 | Transformer winding state multi-data source database system |
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Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN105719093A (en) * | 2016-01-26 | 2016-06-29 | 云南电网有限责任公司电力科学研究院 | Icing monitoring multi-data-source processing method and system of large unmanned plane |
Citations (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN101709995A (en) * | 2009-12-24 | 2010-05-19 | 浙江大学 | Methods for vibration online monitoring and fault diagnosis of power transformer |
| CN102609513A (en) * | 2012-02-07 | 2012-07-25 | 云南电力试验研究院(集团)有限公司电力研究院 | Multi-data-source database system for condition monitoring of electric transmission and transformation equipment |
| CN103217579A (en) * | 2012-12-28 | 2013-07-24 | 富阳市供电局 | On-line monitoring system of transformer winding |
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2015
- 2015-03-06 CN CN201510100279.5A patent/CN104657493A/en active Pending
Patent Citations (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN101709995A (en) * | 2009-12-24 | 2010-05-19 | 浙江大学 | Methods for vibration online monitoring and fault diagnosis of power transformer |
| CN102609513A (en) * | 2012-02-07 | 2012-07-25 | 云南电力试验研究院(集团)有限公司电力研究院 | Multi-data-source database system for condition monitoring of electric transmission and transformation equipment |
| CN103217579A (en) * | 2012-12-28 | 2013-07-24 | 富阳市供电局 | On-line monitoring system of transformer winding |
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN105719093A (en) * | 2016-01-26 | 2016-06-29 | 云南电网有限责任公司电力科学研究院 | Icing monitoring multi-data-source processing method and system of large unmanned plane |
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Application publication date: 20150527 |
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