JP2018137957A - Power system diagram creation device and program - Google Patents

Abstract

PROBLEM TO BE SOLVED: To reduce a workload of a manager of a power system monitoring controller required for generation of system diagram information obtained by combining a plurality of pieces of system diagram information when one power system diagram is converted into the plurality of pieces of system diagram information.SOLUTION: A power system diagram creation device of one embodiment comprises a reading unit, a conversion unit, a detection unit and a creation unit. The reading unit reads a power system diagram recorded in a recording medium. The conversion unit converts the power system diagram read into electronic data in a vector form, and identifies a power system facility represented by a symbol included in the electronic data on the basis of symbol definition information including the symbol for each power system facility. The detection unit detects an interconnection point of a symbol of a bus bar out of symbols of the power system facility included in the electronic data on the basis of a text included in the electronic data. The creation unit connects the interconnection point detected from one electronic data and the interconnection point detected from the other electronic data different from the one electronic data, and generates new electronic data obtained by combining the one electronic data and the other electronic data.SELECTED DRAWING: Figure 1

Description

  Embodiments described herein relate generally to a power system diagram creation device and a program.

  Electric power companies have a history of storing power system diagrams on paper, and even today, power system diagrams may be exchanged on paper. The power system diagram is also used to display the power system diagram on the display screen of the power system monitoring control system that controls the power system. In this case, an administrator of the power system monitoring control system creates a power system diagram in a vector format using a drawing tool or the like.

Japanese Patent Laying-Open No. 2015-194792 JP 2014-64426 A Japanese Patent Laid-Open No. 2006-21101

  However, when creating a power system diagram in a vector format using a drawing tool or the like, the manager of the power system monitoring and control system manually includes the power system diagram while looking at the power system diagram on the paper. Since it is necessary to draw elements such as power system facilities, it takes a lot of time to complete a vector power system diagram, and an incorrect vector system power system diagram that is different from the power system diagram on paper is created. there's a possibility that.

  The power system diagram creation device of the embodiment includes a reading unit, a conversion unit, a detection unit, and a creation unit. The reading unit reads the power system diagram recorded on the recording medium. The conversion unit converts the read power system diagram into electronic data in a vector format, and specifies the power system facility represented by the symbol included in the electronic data based on the symbol definition information including the symbol for each power system facility. A detection part detects the connection point of the symbol of a bus-line among the symbols of the electric power system installation which electronic data contains based on the text which electronic data contains. The creation unit connects the connection point detected from one electronic data to the connection point detected from the other electronic data different from the one electronic data, and the one electronic data and the other electronic data are connected. Create new electronic data that combines the data.

FIG. 1 is a diagram illustrating an example of a functional configuration of the power system monitoring and control device according to the first embodiment. FIG. 2 is a diagram illustrating an example of the flow of a combination process of a plurality of system diagram information by the power system monitoring control device according to the first embodiment. FIG. 3 is a diagram illustrating an example of a reading result of the power system diagram by the power system monitoring control device according to the first embodiment. FIG. 4 is a diagram illustrating an example of a reading result of the power system diagram by the power system monitoring and control device according to the first embodiment. FIG. 5 is a diagram illustrating an example of symbol definition information used for specifying the power system facility represented by the symbol included in the system diagram information in the power system monitoring control device according to the first embodiment. FIG. 6 is a diagram illustrating an example of a result of combining system diagram information by the power system monitoring control device according to the first embodiment. FIG. 7 is a diagram illustrating an example of a flow of editing process of system diagram information by the power system monitoring control device according to the second embodiment. FIG. 8 is a diagram illustrating an example of a flow of output processing of system diagram information by the power system monitoring control device according to the third embodiment.

  Hereinafter, a power system diagram creation apparatus and a power system monitoring and control apparatus to which a program according to the present embodiment is applied will be described with reference to the accompanying drawings.

(First embodiment)
FIG. 1 is a diagram illustrating an example of a functional configuration of the power system monitoring and control device according to the first embodiment. As illustrated in FIG. 1, the power system monitoring and control apparatus according to the present embodiment includes a reading unit 101, a DB creation tool 102, a system DB 103, and a symbol setting input unit 104. The reading unit 101 can read various information such as a power system diagram recorded on a recording medium such as paper. The DB creation tool 102 is a tool for creating a vector-type power system diagram based on the power system diagram read by the reading unit 101. In the present embodiment, the DB creation tool 102 is realized by executing a program stored in a storage medium such as a ROM (Read Only Memory) by a processor such as a CPU (Central Processing Unit) included in the power system monitoring control device. The Specifically, the DB creation tool 102 includes a system diagram creation function unit 102a and a system diagram modification management function unit 102b.

  The system diagram creation function unit 102a (an example of a conversion unit) converts the power system diagram read by the reading unit 101 into system diagram information (an example of electronic data) including symbols and texts expressed in a vector format. In addition, the system diagram creation function unit 102a identifies the power system facility represented by the symbol included in the system diagram information based on the symbol definition information. As a result, it is possible to automatically create vector diagram information in vector format that can be used to control the power system based on the result of reading the power system diagram by the reading unit 101, thereby reducing the time required to create the system diagram information. It is possible to reduce the possibility of creating system diagram information different from the power system diagram. Here, the symbol definition information is information including a symbol for each power system facility.

  In the present embodiment, the system diagram creation function unit 102a obtains the degree of coincidence (similarity) between each symbol included in the system diagram information and the symbol for each power system facility represented by the symbol definition information. Then, the system diagram creation function unit 102a identifies the power system facility represented by the symbol having the highest degree of coincidence as the power system facility represented by the symbol included in the system diagram information. In addition, the system diagram creation function unit 102a associates the system diagram information, each symbol included in the system diagram information, and the power system facility specified for the symbol, and stores them in the system DB 103.

  When the symbols included in the power system diagram read by the reading unit 101 are converted into different symbols (hereinafter referred to as skeleton symbols), the symbol setting input unit 104 converts the symbols included in the read power system diagram. Among them, an input of conversion definition information that associates a symbol to be converted into a skeleton symbol with the skeleton symbol is accepted. Then, the system diagram creation function unit 102a extracts symbols that match the symbols included in the conversion definition information from among the symbols included in the system diagram information, and extracts the extracted symbols as the extracted symbols in the conversion definition information. Convert to associated skeleton symbol.

  The system diagram correction management function unit 102b (an example of a detection unit) is configured so that when one power system diagram is converted into a plurality of system diagram information (in other words, the result of reading one power system diagram is a plurality of power system diagrams). ), The connection point of the bus symbol among the symbols of the power system facilities included in each of the plurality of system diagram information is detected based on the text included in the system diagram information. In the present embodiment, when one power system diagram is converted into a plurality of system diagram information, the system diagram correction management function unit 102b converts the text included in the plurality of system diagram information into a text representing the connection destination of the bus. Based on this, a connection point is detected.

  Then, the system diagram correction management function unit 102b (an example of a creation unit) has a connection point detected from one system diagram information among a plurality of system diagram information and the other system different from the one system diagram information. By connecting the interconnection points detected from the diagram information, new system diagram information (hereinafter referred to as post-combination system diagram information) is created by combining one system diagram information and the other system diagram information. As a result, when one power system diagram is converted into a plurality of system diagram information, the combined system diagram information obtained by combining the plurality of system diagram information is automatically created. When converted into a plurality of system diagram information, it is possible to reduce the work burden on the administrator of the power system monitoring and control device required to create the combined system diagram information. Then, the system diagram correction management function unit 102 b stores the created combined system diagram information in the system DB 103.

  In addition, when the system diagram correction management function unit 102b acquires an instruction to edit the system diagram information from the external device, the system diagram correction management function unit 102b deletes or adds at least one of symbols and text included in the system diagram information according to the edit instruction Execute editing such as correction. This eliminates the need to create a corrected power system diagram when editing system diagram information, thus facilitating editing of system diagram information. Here, the systematic diagram correction management function unit 102b obtains an editing instruction that instructs deletion, addition, correction, etc. on at least one of the symbol and text included in the system diagram information. Then, when editing the symbol or text included in the system diagram information, the system diagram correction management function unit 102b associates the system diagram information before editing with the system diagram information after editing in association with the edited system diagram information. Difference information with respect to the figure information is stored in the system DB 103. Further, when editing the symbol included in the system diagram information, the system diagram correction management function unit 102b stores the symbol included in the system diagram information stored in the system DB 103 based on the edited system diagram information. The correspondence relationship with the power system facility specified for the symbol is changed.

  In the present embodiment, the power system monitoring and control apparatus uses an index (for example, a symbol name, hereinafter referred to as a symbol index) that allows identification of a symbol included in the system diagram information, and the symbol assigned by the client. An index table that associates an index that can be identified (hereinafter referred to as a client-side symbol index) is stored. When the editing instruction including the client-side symbol index of the symbol to be edited is acquired, the systematic diagram correction management function unit 102b refers to the index table and is associated with the client-side symbol index included in the acquired editing instruction. Specify the symbol index. Next, the systematic diagram correction management function unit 102b performs editing such as deletion, addition, and correction on a symbol identified by the identified symbol index among symbols included in the system diagram information.

  Next, a combination process of a plurality of system diagram information by the power system monitoring control device according to the present embodiment will be described with reference to FIG. FIG. 2 is a diagram illustrating an example of the flow of a combination process of a plurality of system diagram information by the power system monitoring control device according to the first embodiment.

  First, the reading unit 101 reads a power system diagram recorded on a recording medium (step S201). Then, the reading unit 101 outputs the reading result of the power system diagram to the DB creation tool 102 (step S202).

  When the reading result of the power system diagram is input from the reading unit 101, the system diagram creation function unit 102a included in the DB creation tool 102 converts the reading result of the power system diagram into system diagram information represented in a vector format. (Step S203). Next, the system diagram creation function unit 102a identifies the power system facility represented by the symbol included in the system diagram information based on the symbol definition information (step S204).

  3 and 4 are diagrams illustrating examples of reading results of the power system diagram by the power system monitoring control device according to the first embodiment. FIG. 5 is a diagram illustrating an example of symbol definition information used for specifying the power system facility represented by the symbol included in the system diagram information in the power system monitoring control device according to the first embodiment. The reading unit 101 normally reads a power system diagram for each substation. Next, the system diagram creation function unit 102a converts the read power system diagram (see FIGS. 3 and 4) into system diagram information in a vector format. Further, the system diagram creation function unit 102a identifies the power system facility represented by the symbol included in the system diagram information in the vector format based on the symbol definition information.

  In the present embodiment, the symbol definition information is information including symbols for each power system facility (for example, circuit breaker CB, switch SW, bus L, transformer TR) as shown in FIG. The system diagram creation function unit 102a obtains the degree of coincidence between each symbol included in the symbol definition information and the symbol included in the system diagram information in the vector format. Then, the system diagram creation function unit 102a represents the power system facility represented by the symbol having the highest degree of coincidence with the symbol included in the system diagram information among the symbols included in the symbol definition information, as represented by the symbol included in the system diagram information. Identified as power system equipment. The system diagram creation function unit 102a repeats the above processing for all symbols included in the system diagram information, and specifies the power system facility represented by all the symbols included in the system diagram information.

  Further, in the present embodiment, the system diagram creation function unit 102a specifies text located in the vicinity of the symbol in the system diagram information as the name (symbol name) of the symbol. For example, as shown in FIG. 3, the system diagram creation function unit 102a identifies the text “Q5201” located near the circuit breaker symbol CB1 as the symbol name of the symbol CB1. The system diagram creation function unit 102a includes other symbols (breaker symbols CB2, CB3, CB4, CB5, CB6, switch symbols SW1, SW2, SW3, SW4, SW5, SW6, SW7, SW8, SW9, SW10, transformer Similarly, the symbol names of the symbols TR1 and TR2 and the bus symbols L1 and L2) are specified. Furthermore, in this embodiment, as shown in FIG. 3, the system diagram creation function unit 102a selects the text “AOOOO substation” located in the center and upper part of the system diagram information from the text included in the system diagram information. It is detected as the name of the substation (substation name) provided with the power system represented by the system diagram information. Similarly, for the system diagram information shown in FIG. 4, the system diagram creation function unit 102a specifies the symbol name of the symbol included in the system diagram information and detects the substation name included in the system diagram information.

  Returning to FIG. 2, upon obtaining an editing instruction from the external device, the system diagram correction management function unit 102b edits a symbol or text included in the system diagram information, such as deletion, addition, and correction, according to the editing instruction. Is executed (step S205). The system diagram correction management function unit 102b also converts one power system diagram into a plurality of system diagram information (in other words, the result of reading one power system diagram spans a plurality of power system diagrams. Case), a connection point included in each of the plurality of system diagram information is detected. Next, the system diagram correction management function unit 102b, based on the text included in the plurality of system diagram information, the interconnection point detected from one of the system diagram information and the one of the system diagram information After combining the connection point detected from the other system diagram information different from the system diagram information with a new symbol such as a line, and combining the one system diagram information and the other system diagram information System diagram information is created (step S206).

  FIG. 6 is a diagram illustrating an example of a result of combining system diagram information by the power system monitoring control device according to the first embodiment. In this embodiment, the system diagram correction management function unit 102b displays the text indicating the connection destination of the bus among the symbols included in the system diagram information (for example, the text “B0000 substation bus L1” and “B0000 substation” shown in FIG. 3). No. bus L2 ", and the text" A0000 substation bus L1 "and" A0000 substation bus L2 ") shown in FIG. Next, as shown in FIGS. 3 and 4, the system diagram correction management function unit 102b uses the ends of the symbols L1 and L2 that are located in the vicinity of the extracted text and identified as busbars as busbars of other substations. Are detected as connection points P1 and P2.

  Thereafter, as shown in FIG. 6, the system diagram correction management function unit 102b, based on the extracted text, detects the connection points P1 and P2 detected from one system diagram information (system diagram information shown in FIG. 3). The interconnection points P1 and P2 detected from the other system diagram information (system diagram information shown in FIG. 4) are connected by a line, and the one system diagram information and the other system diagram information are combined. Create the combined system diagram information. Specifically, as shown in FIG. 6, the system diagram correction management function unit 102b uses the connection point P1 included in the system diagram information shown in FIG. 3 and the connection point P1 included in the system diagram information shown in FIG. 4. The connected system diagram information is created by connecting the connection point P2 included in the system diagram information shown in FIG. 3 and the connection point P2 included in the system diagram information shown in FIG. In the present embodiment, the system diagram correction management function unit 102b creates a combined system diagram information by connecting the connection points included in one system diagram information and the connection points included in the other system diagram information with a line. However, the present invention is not limited to this. For example, the connection point included in one system diagram information and the connection point included in the other system diagram information are directly connected to create post-combination system diagram information. You may do it.

  Returning to FIG. 2, when the reading result of one power system diagram extends over a plurality of power system diagrams, the system diagram correction management function unit 102b stores the created combined system diagram information in the system DB 103 (step S207). ). Further, the system diagram correction management function unit 102b applies to the system diagram information in which the reading result of one power system diagram does not extend over a plurality of power system diagrams and is converted into the vector format by the system diagram creation function unit 102a. If the editing is not executed, the system diagram information converted into the vector format by the system diagram creation function unit 102a is stored in the system DB 103 as it is. Further, when editing the system diagram information, the system diagram correction management function unit 102 b stores the edited system diagram information and difference information in the system DB 103.

  Thus, according to the power system monitoring and control apparatus according to the first embodiment, when one power system diagram is converted into a plurality of system diagram information, the combined system that combines the plurality of system diagram information. Since the diagram information is automatically created, when one power system diagram is converted into a plurality of system diagram information, the workload of the manager of the power system monitoring and control device required to create the combined system diagram information is reduced. Can be reduced.

(Second Embodiment)
This embodiment detects the difference between the previous system diagram information converted from the power system diagram before correction and the system diagram information after conversion from the corrected power system diagram, and according to the detected difference, It is an example of editing the previous system diagram information. In the following description, description of the same configuration as that of the first embodiment is omitted.

  FIG. 7 is a diagram illustrating an example of a flow of editing process of system diagram information by the power system monitoring control device according to the second embodiment. In the present embodiment, when a read instruction for the corrected power system diagram is input from the operation unit included in the power system monitoring control device, the reading unit 101 reads the corrected power system diagram (step S701). Then, the reading unit 101 outputs the read result of the corrected power system diagram to the DB creation tool 102 (step S702).

  When the read result of the corrected power system diagram is input from the reading unit 101, the system diagram creation function unit 102a included in the DB creation tool 102 converts the read result of the corrected power system diagram into a system diagram in a vector format. The information is converted into information (hereinafter referred to as subsequent system diagram information) (step S703). Next, the system diagram creation function unit 102a identifies the power system facility represented by the symbol included in the subsequent system diagram information based on the symbol definition information (step S704).

  Next, the system diagram correction management function unit 102b includes the substation name in the text included in the subsequent system diagram information, the power system facility specified for each symbol included in the subsequent system diagram information, and the subsequent system diagram. Based on at least one of the symbols specified as the power system facility among the symbols included in the information, system diagram information converted from the power system diagram before correction from the system DB 103 (hereinafter referred to as previous system diagram information and Read) (step S705). The system diagram correction management function unit 102b detects a difference between the read system diagram information and the subsequent system diagram information. Then, the system diagram correction management function unit 102b edits the read system diagram information based on the detected difference (step S706). Thereafter, the systematic diagram correction management function unit 102b associates difference information between the previous system diagram information before editing and the previous system diagram information after editing in the system DB 103 in association with the previous system diagram information after editing. save.

  As described above, according to the power system monitoring and control apparatus according to the second embodiment, when the power system diagram is corrected, the system only needs to read the corrected power system diagram by the reading unit 101. Since the diagram information can be corrected, the system diagram information can be easily corrected.

(Third embodiment)
The present embodiment is an example in which the system diagram information after editing or the system diagram information before editing is switched and output in accordance with the difference information stored in the system DB 103. In the following description, description of the same configuration as that of the second embodiment is omitted.

  FIG. 8 is a diagram illustrating an example of a flow of output processing of system diagram information by the power system monitoring control device according to the third embodiment. In the present embodiment, the system diagram correction management function unit 102b receives the system diagram information after editing from the system DB 103 when an output instruction of the power system diagram before editing is input from the operation unit of the power system monitoring control device. And the difference information stored in association with the system diagram information is read (step S801). Then, the system diagram correction management function unit 102b restores the system diagram information before editing based on the read system diagram information and difference information after editing (step S802). Then, the system diagram correction management function unit 102b outputs the restored system diagram information before editing (step S803). Further, the system diagram correction management function unit 102b can return the restored system diagram information to the edited system diagram information in accordance with an editing instruction acquired from an external device. Furthermore, the systematic diagram correction management function unit 102b associates the restored system diagram information (that is, the system diagram information before editing) with the read difference information and stores them in the system DB 103.

  After that, when an output instruction for the edited power system diagram is input from the operation unit of the power system monitoring control device, the system diagram correction management function unit 102b receives the system diagram information before editing from the system DB 103, and The difference information stored in association with the system diagram information is read out. Then, the system diagram correction management function unit 102b restores the edited system diagram information based on the read system diagram information and the difference information before editing. Then, the system diagram correction management function unit 102b outputs the restored system diagram information before editing.

  As described above, according to the power system monitoring control device according to the third embodiment, the administrator of the power system monitoring control device only inputs an output instruction of the system diagram information before editing or the system diagram information after editing. Thus, the system diagram information before editing and the system diagram information after editing can be easily confirmed.

  As described above, according to the first to third embodiments, when one power system diagram is converted into a plurality of system diagram information, the combined system diagram information obtained by combining the plurality of system diagram information is Since it is automatically created, when one power system diagram is converted into a plurality of system diagram information, it is possible to reduce the work burden on the administrator of the power system monitoring and control device required to create post-combination system diagram information.

  The program executed by the power system monitoring and control apparatus of the present embodiment is an installable format or executable format file, which is a CD-ROM, flexible disk (FD), CD-R, DVD (Digital Versatile Disk). For example, the recording medium may be recorded on a computer-readable recording medium.

  Furthermore, the program executed by the power system monitoring and control apparatus of the present embodiment may be provided by being stored on a computer connected to a network such as the Internet and downloaded via the network. Moreover, you may comprise so that the program run with the electric power system monitoring control apparatus of this embodiment may be provided or distributed via networks, such as the internet.

  The program executed by the power system monitoring and control device of the present embodiment has a module configuration including the above-described units (DB creation tool 102), and as actual hardware, the CPU reads and executes the program from the ROM. As a result, the above-described units are loaded on the main storage device, and the DB creation tool 102 is generated on the main storage device.

  Although several embodiments of the present invention have been described, these embodiments are presented by way of example and are not intended to limit the scope of the invention. These novel embodiments can be implemented in various other forms, and various omissions, replacements, and changes can be made without departing from the scope of the invention. These embodiments and modifications thereof are included in the scope and gist of the invention, and are included in the invention described in the claims and the equivalents thereof.

101 Reading unit 102 DB creation tool 102a System diagram creation function unit 102b System diagram correction management function unit 103 System DB
104 Symbol setting input section

Claims (5)

A reading unit for reading a power system diagram recorded on a recording medium;
A converter that converts the read power system diagram into electronic data in a vector format and identifies a power system facility represented by a symbol included in the electronic data based on symbol definition information including a symbol for each power system facility; ,
Based on the text included in the electronic data, a detection unit that detects an interconnection point of the symbol of the bus among the symbols of the power system facility included in the electronic data;
The connection point detected from one of the electronic data and the connection point detected from the other electronic data different from the one electronic data are connected, and the one electronic data and the other electronic data are connected. A creation unit that creates new electronic data combining the electronic data of
A power system diagram creation device comprising:   2. The power system diagram creation device according to claim 1, wherein the creation unit further edits at least one of the symbol and the text included in the electronic data in response to an instruction to edit at least one of the symbol and the text.   The creating unit further detects a difference between the electronic data before conversion from the power system diagram before correction and the electronic data after conversion from the power system diagram after correction, and the detected difference The power system diagram creation device according to claim 1, wherein the previous electronic data is edited according to the above. A storage unit for storing difference information between the electronic data before editing and the electronic data after editing;
4. The power system diagram creation device according to claim 2, wherein the creation unit switches and outputs the electronic data after editing or the electronic data before editing according to the difference information stored in the storage unit. 5. Computer
A power system diagram read from a recording medium is converted into electronic data in vector format, and a power system facility specified by a symbol included in the electronic data is specified based on symbol definition information including a symbol for each power system facility And
Based on the text included in the electronic data, a detection unit that detects an interconnection point of the symbol of the bus among the symbols of the power system facility included in the electronic data;
The connection point detected from one of the electronic data and the connection point detected from the other electronic data different from the one electronic data are connected, and the one electronic data and the other electronic data are connected. A creation unit that creates new electronic data combining the electronic data of
Program to function as.

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