CN111382558A - Test report automatic generation method and system based on power monitoring system - Google Patents

Abstract

The invention discloses an automatic test report generation method and system based on a power monitoring system in the technical field of power software, and aims to solve the technical problems that each link of power primary equipment test report generation in the prior art depends heavily on the professional ability of technical personnel, manual intervention operation is heavy and easy to make mistakes, the test efficiency is not improved, and the reliability of test conclusion is difficult to ensure. The method comprises the following steps: extracting an experimental item data source generated by electric power test equipment; generating a test report template and a test data set template, wherein the test data set template is marked with the association between the automatic value input filling area of the test report template and the data source of the experimental item; calculating an experimental item data source based on the association to obtain experimental item data; writing the test item data into a test data set template to generate a test process data file; and extracting test item data in the test process data file, writing the test item data into an automatic value input filling area in a test report template, and generating a test report.

Description

Test report automatic generation method and system based on power monitoring system

Technical Field

The invention relates to a method and a system for automatically generating a test report based on a power monitoring system, and belongs to the technical field of power software.

Background

The floor area of the test site of the primary electric power equipment is large, the test type site is fixed, and the same test report needs to be recorded in a plurality of sites. The same type of test report generally has the same content structure, except that the test data source and the test parameters are different. In the process of generating the test report, hundreds of data values need to be acquired in one test report, the data acquisition amount is large, the manual processing is long in time consumption, and errors are prone to occurring. Each link generated by a test report depends heavily on the professional ability of a technician, the technician needs to process a series of work such as data query, recording, formula calculation, conclusion analysis, filling and the like, and if any link is manually intervened to make an error, the test needs to be performed again; in the data acquisition process, once data loss and data recording errors occur, the test result is influenced, a completely opposite test conclusion can be caused sometimes, and the data acquisition abnormity is difficult to distinguish manually, so that the test reliability is greatly reduced.

Therefore, in a batched power primary equipment test scene, generating a test report is a heavy, trivial and error-prone matter, and a new way is urgently needed to replace manual intervention, so that the test efficiency and the reliability of test data and conclusions are improved.

Disclosure of Invention

Aiming at the defects of the prior art, the invention aims to provide a method and a system for automatically generating a test report based on a power monitoring system, so as to solve the technical problems that each link generated by a power primary equipment test report in the prior art depends heavily on the professional ability of technical personnel, the manual intervention operation is heavy and easy to make mistakes, the test efficiency is not improved, and the reliability of a test conclusion is difficult to ensure.

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

a test report automatic generation method based on a power monitoring system comprises the following steps:

extracting an experimental item data source generated by electric power test equipment;

generating a test report template and a test data set template, wherein the test report template is provided with at least one data filling area, the data filling area comprises an automatic value input filling area, and the test data set template is marked with the association between the automatic value input filling area and an experimental item data source;

calculating an experimental item data source based on the association to obtain experimental item data;

writing the test item data into a test data set template to generate a test process data file corresponding to the test item;

and extracting the test item data in at least one test process data file, writing the test item data into an automatic value input filling area in a test report template, and generating a test report.

Further, the method for extracting the experimental item data source comprises the following steps:

acquiring an experimental item data source generated by electric power test equipment, and storing the experimental item data source in an SCADA real-time library of an electric power monitoring system;

and extracting the experimental item data source stored in the SCADA real-time base.

Further, the data filling area also comprises a manual value input filling area;

before generating the test process data file corresponding to the experimental item, the method further comprises:

configuring test parameters corresponding to the test items;

writing the test parameters into a test data set template;

before generating the test report, the method further comprises the following steps: and extracting at least one test parameter in the test process data file, and writing the test parameter into a manual value input filling area in the test report template.

Further, the method for generating the test report comprises the following steps:

synchronizing at least one test process data file to a file server of the power monitoring system;

and extracting test item data or/and test parameters of the test process data file in the file server, and correspondingly writing the test item data or/and the test parameters into a data filling area in the test report template to generate a test report.

Further, the data filling area is a data cell, the data cell of the manual value-input filling area includes a manual value-input cell, and the data cell of the automatic value-input filling area includes at least one of a time cell, a trigger cell and a formula cell.

Further, the associated markup language is an extensible markup language.

Further, the generation method of the test data set template comprises the following steps:

and generating a test data set template by adopting the association between the automatic value input filling area and the test item data source or/and the association between the manual value input filling area and the test parameters.

Further, the generation method of the test report template comprises the following steps:

acquiring a historical test report;

and deleting the data in the data filling area in the historical test report to generate a test report template.

In order to achieve the purpose, the invention also provides an automatic test report generation system based on the power monitoring system, which comprises the power monitoring system, and an acquisition terminal and an operation terminal which are respectively in communication connection with the power monitoring system, wherein the power monitoring system is provided with an SCADA real-time library, and the power monitoring system acquires an experiment item data source generated by power test equipment through the acquisition terminal and stores the experiment item data source in the SCADA real-time library; the operation terminal is provided with:

the test report modeling module: the system comprises a data acquisition module, a data processing module and a data processing module, wherein the data acquisition module is used for generating a test report template and a test data set template, the test report template is provided with at least one data filling area, the data filling area comprises an automatic value input filling area, and the test data set template is marked with the association between the automatic value input filling area and an experiment item data source;

the calculation processing module: the system comprises a data acquisition module, a data storage module, a data acquisition module and a data storage module, wherein the data acquisition module is used for acquiring experiment item data stored in an SCADA real-time library, operating the experiment item data sources based on the association to acquire experiment item data, and writing the experiment item data into an experiment data set template to generate an experiment process data file corresponding to the experiment item;

the test report output module: the method is used for extracting the test item data in at least one test process data file, writing the test item data into the automatic value input filling area in the test report template and generating the test report.

Furthermore, the collection terminals are not less than one and are deployed in the corresponding test item field, and each collection terminal comprises a dosing device and a collection device which are respectively connected with the power test equipment.

Further, the data filling area also comprises a manual value input filling area, and the system also comprises a test parameter configuration module which is used for configuring test parameters corresponding to the test items;

the calculation processing module is also used for writing the test parameters into a test data set template;

the test report output module is also used for extracting at least one test parameter in the test process data file and writing the test parameter into an artificial input value filling area in the test report template.

Further, the electric power monitored control system still is equipped with file server, experimental report output module includes:

a process data synchronization submodule: the file server is used for synchronizing at least one test process data file to the power monitoring system;

and a test report generation submodule: the test data acquisition module is used for extracting test item data or/and test parameters of the test process data file in the file server, correspondingly writing the test item data or/and the test parameters into a data filling area in the test report template, and generating a test report.

Compared with the prior art, the invention has the following beneficial effects: the method and the system perform networking communication on the metering equipment and the collecting device of the power equipment test by using the power monitoring system, the metering equipment, the collecting device and the power monitoring system are communicated through protocol conversion, the communication data is uniformly managed by the SCADA real-time library, and the communication data sent by the collecting terminal of each test item field is uniformly collected to be used as an experiment item data source; the operation terminals located in each test item field respectively extract corresponding test item data sources in the SCADA real-time base to generate test process data files of the test items; and synchronizing the test process data files of all the experimental items to generate a complete test report. The method and the system generate the test report, and enhance the reliability of data besides manually adjusting and confirming the test parameters; after the primary product test report of the same type is modeled, modeling is not needed, the test report template and the test data set template can be repeatedly used, the consistency and the accuracy of the test report are ensured, repeated labor is reduced, the test time is shortened, and the test efficiency is obviously improved in the scene of batch test; the process test data are recorded by using the test process data file, so that the test records can be traced and inquired conveniently, the manual management of historical data is saved, and the waste of paper is reduced; the test report generation process does not need paper record, and paperless management of a test site is realized.

Drawings

FIG. 1 is a schematic block diagram of an embodiment of the system of the present invention;

FIG. 2 is a schematic diagram of the operation of the test report modeling module in an embodiment of the system of the present invention;

FIG. 3 is a schematic flow chart of an embodiment of the method of the present invention.

Detailed Description

The invention 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 invention is not limited thereby.

It should be noted that in the description of the present invention, the terms "front", "rear", "left", "right", "upper", "lower", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of describing the present invention but do not require that the present invention must be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. As used in the description of the present invention, the terms "front," "back," "left," "right," "up," "down" and "in" refer to directions in the drawings, and the terms "inner" and "outer" refer to directions toward and away from, respectively, the geometric center of a particular component.

The technical idea of the method and the system of the invention is as follows: because the communication of the equipment in the power industry supports communication protocols of international standards, the metering equipment And the collecting device of the power equipment test can be subjected to networking communication, the metering equipment And the collecting device are communicated with the power monitoring system through protocol conversion, the power monitoring system is the specific application of a Data Acquisition And monitoring Control System (SCADA) in the power industry, the communication Data is uniformly managed by the SCADA real-time base, And the communication Data sent by the collecting terminal of each test item field is uniformly acquired to serve as an experiment item Data source; the operation terminals located in each test item field respectively extract corresponding test item data sources in the SCADA real-time base to generate test process data files of the test items; and synchronizing the test process data files of all the experimental items to generate a complete test report.

Based on the technical idea, a specific embodiment of the invention provides an automatic test report generation system based on an electric power monitoring system, as shown in fig. 1, the system is a schematic composition diagram of an embodiment of the system, and includes an acquisition terminal, a main network and an operation terminal which are sequentially in communication connection, the acquisition terminal is provided with a plurality of groups and distributed in each test item field, and each group of the acquisition terminal includes a dosing device and an acquisition device which are respectively connected with an electric power test device; the main network, namely the power monitoring system is provided with an SCADA real-time library and a file server; the operation terminals are computers provided with power monitoring system software, the operation terminals are distributed in each test item field, and on the basis of establishing hardware connection between the computers and the power monitoring system, the power monitoring system software is utilized to realize SCADA real-time library data sharing and file synchronization functions.

The operation terminal is deployed based on the software of the power monitoring system and comprises:

the test report modeling module: the method is used for generating a test report template and a test data set template, in the embodiment, the test report template adopts an EXCEL file format, and the test data set template adopts an XML file format, and is specifically shown in fig. 2, which is an operation schematic diagram of a test report modeling module in the embodiment of the system of the present invention;

(1) the test report template refers to a file obtained by deleting data in a data filling area in a historical test report. The test report template is usually edited and generated manually and then stored in a computer for later use, the test report template with the same equipment test type can be reused, and the generation of the test report is essentially the process of writing data into a data filling area in the test report template. The data filling area in the test report template in the EXCEL format comprises a manual value-losing cell, a time-type cell, a trigger-type cell and a formula-type cell, and specifically comprises the following steps:

manual value-input cell: the final generated test report does not participate in the data calculation of the collected information, calculation parameters, usually by manual input or confirmation, such as: the method comprises the following steps of (1) testing a tester, an engineering name, a sample number, a rated collection ratio and a current ratio difference coefficient;

time type cell: during the test, a plurality of time section numerical value type cells are collected for the same SCADA real-time library measuring point, such as: protection current and temperature in a direct current transformer temperature rise test;

trigger type cell: the test data acquisition trigger condition is a cell except for time, and comprises manual click trigger and electric quantity judgment automatic trigger, such as: the basic accuracy test of the current transformer is carried out, when the A-phase current is required to be acquired and the three-phase current deviation value is 10% of the rated current, the acquisition condition is triggered to be that the A-phase current is increased to 10% of the rated current;

formula item cell: self-defining a formula cell, wherein the formula expression editing form is the same as an insertion function in EXCEL, the formula calculation range comprises a cell value in the current test item, the formula item cell supports numerical formula calculation and logic formula calculation, and a numerical value and a logic judgment result (qualified or unqualified) are respectively output;

in this embodiment, since the data in the manual value-input cell needs to be manually input or confirmed, it can be defined as a manual value-input filling area; the data in the time type cell, the trigger type cell and the formula item cell are automatically generated based on the experiment item data source, so that the time type cell, the trigger type cell and the formula item cell can be defined as an automatic value input filling area.

(2) The test data set template refers to a relation set file generated by adopting an extensible markup language (XML) for the association between the row and column information of the data cells in the EXCEL format test report template and the data source of the experimental items, so that the test data set template is marked with the association between the automatic value input filling area and the data source of the experimental items. The test data set template adopts a two-layer framework of 'test item-cell', and the style is as follows:

the first level is a test item level GROUP layer and comprises a test item name, test starting time, test item latest updating time and a tester;

the second level is 4 cell sub-level layers, which are respectively:

a manual input cell FIXSET layer comprising: the cell refers to row and column, cell name, data type and numerical value;

a time cell DATASET layer comprising: the cells refer to rows and columns, the names of the cells, the acquisition time, the out-of-limit range, the SCADA library OID, the field values, the data types, the coefficients, the offsets and the values;

a triggered cell waiiteset layer comprising: cell designation row, column, cell name, out-of-limit range, trigger group number, trigger group name, SCADA library OID, field value, data type, coefficient, offset, value;

a formulaic cell format layer, comprising: the cells refer to rows, columns, cell names, formula expressions, out-of-limit ranges, values.

A test parameter configuration module: for configuring the test parameters corresponding to the test items, i.e. for completing the input or confirmation of the relevant test parameters.

The calculation processing module: the system is used for extracting experimental item data sources stored in an SCADA real-time base and manually input experimental parameters; calculating the experimental item data source based on the correlation between the automatic value-input filling area marked in the experimental data set template and the experimental item data source to obtain experimental item data; and writing the test item data and the test parameters into a test data set template to generate a test process data file corresponding to the test item.

The test report output module: the automatic value input filling area is used for extracting the test item data and the test parameters in each test process data file, writing the test item data and the test parameters into the automatic value input filling area in the test report template and generating a test report. The test report output module is composed of the following two submodules:

a process data synchronization submodule: the file server is used for synchronizing the data files of the test processes to the power monitoring system;

and a test report generation submodule: the test item data and the test parameters of the test process data file in the file server are extracted and correspondingly written into the automatic value input filling area and the manual value input filling area in the test report template to generate a test report.

Based on the above technical idea, the specific embodiment of the present invention further provides an automatic test report generation method based on an electric power monitoring system, the method of the present invention is implemented based on the system of the present invention, as shown in fig. 3, which is a schematic flow diagram of an embodiment of the method of the present invention, and the method includes the following steps:

step 1, the acquisition terminal and the operation terminal of each test item field are respectively in communication connection with a background computer of the power monitoring system, the acquisition terminal is respectively connected with a metering device and an acquisition device of the power test equipment, and the operation terminal is a computer provided with power monitoring system software. This is a one-off operation, and if it is completed, step 1 is skipped and step 2 is directly entered.

Step 2, editing and generating a test report template in an EXCEL format by a test report modeling module in a computer of each test item field, wherein the basic process is as follows: and (4) leading the data into a historical test report, and then deleting the data in the data filling area. The data cells of the data filling area in the test report template comprise manual value-losing cells, time-type cells, trigger-type cells and formula-type cells. And (3) the test report template corresponds to the equipment test type, and if the test report template is finished, the step 2 is skipped, and the step 3 is directly carried out.

Step 3, a test report modeling module in each test item field computer edits and generates a test data set template in an XML format, and the basic process is as follows: based on the EXCEL format test report template, the automatic value-input filling area is marked by the extensible markup language to be associated with the data source of the test item, and then the manual value-input filling area is marked to be associated with the test parameters. If the process is finished, step 3 is skipped and step 4 is directly entered.

And 4, sequentially starting the test contents of each test item field according to the sequence of the test item 1, the test item 2 and the test item 3. Taking the test item 1 as an example, firstly, acquiring a data source of the test item 1 generated by the power test equipment through an acquisition terminal of a test item 1 field by the power monitoring system, and storing the data source in an SCADA real-time library of the power monitoring system; then, extracting an experimental item 1 data source stored in an SCADA real-time base by a calculation processing module in a computer in the experimental item 1 field; then, firstly, the test parameters of the test item 1 are configured through a test parameter configuration module in a test item 1 field computer, namely, the input and the confirmation of the test parameters are completed through manual intervention, and then the calculation processing module in the test item 1 field computer calculates the data source of the test item 1 according to the association between the automatic value input filling area marked by the test data set template of the test item 1 and the data source of the test item 1 to obtain the data of the test item 1; and then, a calculation processing module in a computer at the site of the test item 1 writes the test parameters of the test item 1 and the data of the test item 1 into a test data set template of the test item 1 to generate a test process data file of the test item 1. Finally, judging whether the test content of the test item 1 is completely finished, if the test content of the test item 1 is completely finished, synchronizing the test process data file of the test item 1 to a file server by a process data synchronization submodule in a computer in the field of the test item 1, acquiring, storing, extracting and operating a data source of the test item 2 according to the steps to generate a test process data file of the test item 2, synchronizing the test process data file of the test item 2 to the file server by the process data synchronization submodule in the computer in the field of the test item 2, and so on; and if the test content of the test item 1 is not completely finished, acquiring, storing, extracting and operating the data sources of the rest test items 1, updating the test process data file of the test item 1 by using the generated data of the rest test items 1 until the test content of the test item 1 is completely finished, generating a final test process data file of the test item 1, and synchronizing the final test process data file to the file server.

Step 5, judging whether all the test items are finished, if not, developing the test contents of the rest test item fields according to the step 4; and if the test items are completely finished, extracting the test item data and the test parameters in the test procedure data files of the test items in the file server, correspondingly writing the test item data and the test parameters into a data filling area in the test report template in the EXCEL format, and generating the test report in the EXCEL format.

The method and the system perform networking communication on the metering equipment and the collecting device of the power equipment test by using the power monitoring system, the metering equipment, the collecting device and the power monitoring system are communicated through protocol conversion, the communication data is uniformly managed by the SCADA real-time library, and the communication data sent by the collecting terminal of each test item field is uniformly collected to be used as an experiment item data source; the operation terminals located in each test item field respectively extract corresponding test item data sources in the SCADA real-time base to generate test process data files of the test items; and synchronizing the test process data files of all the experimental items to generate a complete test report. The method and the system generate the test report, and enhance the reliability of data besides manually adjusting and confirming the test parameters; after the primary product test report of the same type is modeled, modeling is not needed, the test report template and the test data set template can be repeatedly used, the consistency and the accuracy of the test report are ensured, repeated labor is reduced, the test time is shortened, and the test efficiency is obviously improved in the scene of batch test; the process test data are recorded by using the test process data file, so that the test records can be traced and inquired conveniently, the manual management of historical data is saved, and the waste of paper is reduced; the test report generation process does not need paper record, and paperless management of a test site is realized. In conclusion, the method and the system have the advantages of high efficiency, economy and convenience, and have the expandability of the type access of the new test equipment.

The above description is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, several modifications and variations can be made without departing from the technical principle of the present invention, and these modifications and variations should also be regarded as the protection scope of the present invention.

Claims (12)

1. A test report automatic generation method based on a power monitoring system is characterized by comprising the following steps:

extracting an experimental item data source generated by electric power test equipment;

generating a test report template and a test data set template, wherein the test report template is provided with at least one data filling area, the data filling area comprises an automatic value input filling area, and the test data set template is marked with the association between the automatic value input filling area and an experimental item data source;

calculating an experimental item data source based on the association to obtain experimental item data;

writing the test item data into a test data set template to generate a test process data file corresponding to the test item;

and extracting the test item data in at least one test process data file, writing the test item data into an automatic value input filling area in a test report template, and generating a test report.

2. The method for automatically generating the test report based on the power monitoring system as claimed in claim 1, wherein the method for extracting the data source of the test item comprises the following steps:

acquiring an experimental item data source generated by electric power test equipment, and storing the experimental item data source in an SCADA real-time library of an electric power monitoring system;

and extracting the experimental item data source stored in the SCADA real-time base.

3. The method of claim 1, wherein the data filling area further comprises a manual value input filling area;

before generating the test process data file corresponding to the experimental item, the method further comprises:

configuring test parameters corresponding to the test items;

writing the test parameters into a test data set template;

before generating the test report, the method further comprises the following steps: and extracting at least one test parameter in the test process data file, and writing the test parameter into a manual value input filling area in the test report template.

4. The method for automatically generating the test report based on the power monitoring system as claimed in claim 3, wherein the method for generating the test report comprises:

synchronizing at least one test process data file to a file server of the power monitoring system;

and extracting test item data or/and test parameters of the test process data file in the file server, and correspondingly writing the test item data or/and the test parameters into a data filling area in the test report template to generate a test report.

5. The method as claimed in claim 3, wherein the data filling area is a data cell, the data cell of the manual value-input filling area includes a manual value-input cell, and the data cell of the automatic value-input filling area includes at least one of a time cell, a trigger cell, and a formula cell.

6. The method of claim 3, wherein the associated markup language is extensible markup language.

7. The method of claim 6, wherein the method of generating the test data set template comprises:

and generating a test data set template by adopting the association between the automatic value input filling area and the test item data source or/and the association between the manual value input filling area and the test parameters.

8. The method for automatically generating the test report based on the power monitoring system as claimed in claim 1, wherein the method for generating the test report template comprises:

acquiring a historical test report;

and deleting the data in the data filling area in the historical test report to generate a test report template.

9. A test report automatic generation system based on a power monitoring system is characterized by comprising the power monitoring system, and an acquisition terminal and an operation terminal which are respectively in communication connection with the power monitoring system, wherein the power monitoring system is provided with an SCADA real-time library, and the power monitoring system acquires an experiment item data source generated by power test equipment through the acquisition terminal and stores the experiment item data source in the SCADA real-time library; the operation terminal is provided with:

the test report modeling module: the system comprises a data acquisition module, a data processing module and a data processing module, wherein the data acquisition module is used for generating a test report template and a test data set template, the test report template is provided with at least one data filling area, the data filling area comprises an automatic value input filling area, and the test data set template is marked with the association between the automatic value input filling area and an experiment item data source;

the calculation processing module: the system comprises a data acquisition module, a data storage module, a data acquisition module and a data storage module, wherein the data acquisition module is used for acquiring experiment item data stored in an SCADA real-time library, operating the experiment item data sources based on the association to acquire experiment item data, and writing the experiment item data into an experiment data set template to generate an experiment process data file corresponding to the experiment item;

the test report output module: the method is used for extracting the test item data in at least one test process data file, writing the test item data into the automatic value input filling area in the test report template and generating the test report.

10. The system for automatically generating the test report based on the power monitoring system as claimed in claim 9, wherein the collection terminal is not less than one and is deployed in the corresponding test item field, and each collection terminal comprises a dosing device and a collection device which are respectively connected with the power test device.

11. The system of claim 9, wherein the data filling area further comprises a manual value input filling area, and the system further comprises a test parameter configuration module for configuring test parameters corresponding to the test items;

the calculation processing module is also used for writing the test parameters into a test data set template;

the test report output module is also used for extracting at least one test parameter in the test process data file and writing the test parameter into an artificial input value filling area in the test report template.

12. The system of claim 9, wherein the power monitoring system is further provided with a file server, and the test report output module comprises:

a process data synchronization submodule: the file server is used for synchronizing at least one test process data file to the power monitoring system;

and a test report generation submodule: the test data acquisition module is used for extracting test item data or/and test parameters of the test process data file in the file server, correspondingly writing the test item data or/and the test parameters into a data filling area in the test report template, and generating a test report.

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