CN107666179B - Method and system for updating information of power distribution automation graph-model interaction point table - Google Patents

Abstract

The invention relates to the field of distribution automation, and discloses a method and a system for updating distribution automation graph-model interaction point table information, which are used for accurately verifying each 'three remote' point information under the condition of not influencing the normal operation of a system and realizing the stable transition of an old distribution automation system to a new distribution automation system; the data of the old distribution automation system is copied to the new distribution automation system, and the new distribution automation system is subjected to associated configuration according to a new pattern; the new distribution automation system and the old distribution automation system are connected into the same simulation terminal, and the simulation terminal simultaneously carries out remote control, remote measurement and remote signaling data transmission with the new distribution automation system and the old distribution automation system; and verifying by adopting a data comparison module, positioning a fault position, guiding a user to modify the new distribution automation system, and switching the preposed channel of the old distribution automation system to the new distribution automation system after determining that the two are completely consistent.

Description

Method and system for updating information of power distribution automation graph-model interaction point table

Technical Field

The invention relates to the field of distribution automation, in particular to a method and a system for updating information of a distribution automation graph-model interaction point table.

Background

In order to ensure that a regulation and control operator can accurately and comprehensively monitor real-time operation information of a power grid such as remote signaling and remote measuring of a power distribution station and implement safe and reliable remote control operation on monitoring equipment in the station after the power distribution terminal access work of a power distribution automation system is completed, a mode of carrying out point-by-point actual transmission on a power distribution terminal telecontrol information point table is generally adopted in the process of developing the power distribution terminal access system of each stage of the power distribution automation system so as to verify the working correctness of each link from a main station system to the power distribution terminal.

The GIS system is used as a source of graph model information of the distribution automation system, upgrading and reconstruction can be carried out according to the management requirements of a distribution network, the ID of the graph model after upgrading is different from that of the graph model in the distribution automation system, therefore, after a new graph model of the GIS system is introduced into a master station system, the incidence relation of an original graph model library is rebuilt, in the actual work, the graph model and the distribution equipment complete the work through the close incidence relation, because the line and the graph model are in one-to-one correspondence, when the line changes, the graph model can change along with the line, so that the incidence relation between the graph model and the distribution equipment changes, and the configuration and verification of the incidence relation between the new graph model and the distribution equipment are particularly important. Conventionally, for such a situation, all distribution stations already in operation need to be re-geared to ensure consistency of the drawing library, which results in a significant increase in workload for the relevant workers and also involves a large number of power outages, thereby risking quality service.

Therefore, it is necessary to provide a method and a system for updating the information of the distribution automation graph-model interaction point table, which can make full use of the original results of the operation management work of the distribution automation system, do not affect the normal operation of the system, do not need to transmit field devices one by one, and can accurately verify each 'three remote' point, thereby ensuring the smooth transition between the graph-model library in the new distribution automation system and the old distribution automation system.

Disclosure of Invention

The invention aims to provide a method and a system for updating information of a distribution automation graph-model interaction point table, which can fully utilize the original results of operation management work of a distribution automation system, do not influence the normal operation of the system, do not need to transmit field devices one by one, can accurately verify each 'three remote' point, and ensure the stable transition of a graph-model library in a new distribution automation system and an old distribution automation system.

In order to achieve the above object, the present invention provides a method for updating information of a distribution automation graph-model interaction point table, comprising:

copying data of the old distribution automation system to a new distribution automation system, and performing associated configuration on the new distribution automation system according to a new template;

the new distribution automation system and the old distribution automation system are connected into the same simulation terminal, and the simulation terminal, the new distribution automation system and the old distribution automation system carry out remote control, remote measurement and remote signaling data transmission;

monitoring remote control information, remote measurement information and remote signaling information transmitted between the simulation terminal and the new distribution automation system and between the simulation terminal and the old distribution automation system, verifying the correctness of all data transmitted by the new distribution automation system and the simulation terminal by taking all data transmitted by the old distribution automation system and the simulation terminal as a reference, and when the verification is wrong, positioning the wrong position and indicating a user to modify the new distribution automation system until the two are completely consistent.

Preferably, the simulation terminal is provided with a data comparison module which adopts point table information program matching and automatic communication message comparison, and the data comparison module comprises a visual comparison interface to assist in executing the following steps:

(1) sending a remote control command to a simulation terminal by using a new power distribution automation system and an old power distribution automation system, and monitoring remote control information by using a data comparison module, wherein the remote control information comprises a station address and a point number of a remote control message, and the remote control information of the old power distribution automation system is used as a reference to verify the correctness of the remote control information of the new power distribution automation system;

(2) the remote measuring information and the remote signaling information of the same point are sent to a new distribution automation system and an old distribution automation system through a simulation terminal, the information of the new distribution automation system and the old distribution automation system is displayed in a visual comparison interface by a data comparison module according to the point number sequence of the remote measuring information and the remote signaling information sent by the new distribution automation system and the old distribution automation system respectively, and the point number sequence and the information of the old distribution automation system are used as references to verify the accuracy of the point number sequence and the information of the new distribution automation system.

Preferably, the method further comprises the steps of selecting the standby intervals to carry out on-site check on the information of the power transmission and distribution terminals, and switching the front channels of the master stations of the old power distribution automation system to the new power distribution automation system after the fact that the three remote information of the new power distribution automation system is completely consistent with the three remote information of the old power distribution automation system is confirmed.

Preferably, the spare space information is controlled at the power distribution terminal by a remote signal and a local signal.

In order to achieve the above object, the present invention provides a power distribution automation graph-model interaction point table information updating system, including:

a first unit: the system comprises a data storage module, a data acquisition module, a data transmission module and a data transmission module, wherein the data storage module is used for storing data of an old distribution automation system and data of a new distribution automation system;

a second unit: the simulation terminal is used for accessing the new distribution automation system and the old distribution automation system into the same simulation terminal, and performing remote control, remote measurement and remote signaling data transmission on the simulation terminal, the new distribution automation system and the old distribution automation system;

a third unit: the system comprises a simulation terminal, a new distribution automation system and an old distribution automation system, and is used for monitoring remote control information, remote measurement information and remote communication information transmitted between the simulation terminal and the new distribution automation system and between the simulation terminal and the old distribution automation system, verifying the correctness of all data transmitted by the new distribution automation system and the simulation terminal by taking all data transmitted by the old distribution automation system and the simulation terminal as a reference, and when the verification is wrong, positioning a wrong position and indicating a user to modify the new distribution automation system until the two are completely consistent.

Preferably, the simulation terminal is provided with a data comparison module which adopts point table information program matching and automatic communication message comparison, and the data comparison module comprises a visual comparison interface to assist in executing the following steps:

(1) sending a remote control command to a simulation terminal by using a new power distribution automation system and an old power distribution automation system, and monitoring remote control information by using a data comparison module, wherein the remote control information comprises a station address and a point number of a remote control message, and the remote control information of the old power distribution automation system is used as a reference to verify the correctness of the remote control information of the new power distribution automation system;

(2) the remote measuring information and the remote signaling information of the same point are sent to a new distribution automation system and an old distribution automation system through a simulation terminal, the information of the new distribution automation system and the old distribution automation system is displayed in a visual comparison interface by a data comparison module according to the point number sequence of the remote measuring information and the remote signaling information sent by the new distribution automation system and the old distribution automation system respectively, and the point number sequence and the information of the old distribution automation system are used as references to verify the accuracy of the point number sequence and the information of the new distribution automation system.

Preferably, the method further comprises the steps of selecting the standby intervals to carry out on-site check on the information of the power transmission and distribution terminals, and switching the front channels of the master stations of the old power distribution automation system to the new power distribution automation system after the fact that the three remote information of the new power distribution automation system is completely consistent with the three remote information of the old power distribution automation system is confirmed.

Preferably, the spare space information is controlled at the power distribution terminal by a remote signal and a local signal.

The invention has the following beneficial effects:

the invention provides a method and a system for updating information of a distribution automation graph-model interaction point table.A new distribution automation system and an old distribution automation system are accessed into the same simulation terminal, a data comparison module is adopted to monitor and verify three remote information between the new distribution automation system and the simulation terminal, whether the three remote information is consistent with the three remote information between the old distribution automation system and the simulation terminal or not is judged, if the three remote information is inconsistent with the three remote information, a wrong position is positioned, a user is indicated to modify the new distribution automation system until the three remote information is completely consistent with the three remote information, and then a front channel of the old distribution automation system is switched to the new distribution automation system to complete the updating of the information of the graph-model interaction point table; the method and the system are simple to implement, the original results of the operation management work of the distribution automation system are fully utilized, the normal operation of the system is not influenced, the field devices do not need to be transmitted one by one, the information of each 'three remote' point can be accurately verified, the stable transition from the old graph model library to the new graph model library can be ensured, and the updating of the graph model interaction point table information can be accurately completed.

The present invention will be described in further detail below with reference to the accompanying drawings.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this application, illustrate embodiments of the invention and, together with the description, serve to explain the invention and not to limit the invention. In the drawings:

fig. 1 is a schematic workflow diagram of a preferred embodiment of the present invention.

Detailed Description

The embodiments of the invention will be described in detail below with reference to the drawings, but the invention can be implemented in many different ways as defined and covered by the claims.

Example 1

Referring to fig. 1, the present embodiment provides a method for updating information of a distribution automation graph-model interaction point table, including the following steps:

copying data of the old distribution automation system to a new distribution automation system, and performing associated configuration on the new distribution automation system according to a new template;

the new distribution automation system and the old distribution automation system are connected into the same simulation terminal, and the simulation terminal, the new distribution automation system and the old distribution automation system carry out remote control, remote measurement and remote signaling data transmission;

monitoring remote control information, remote measurement information and remote signaling information transmitted between the simulation terminal and the new distribution automation system and between the simulation terminal and the old distribution automation system, verifying the correctness of all data transmitted by the new distribution automation system and the simulation terminal by taking all data transmitted by the old distribution automation system and the simulation terminal as a reference, and when the verification is wrong, positioning the wrong position and indicating a user to modify the new distribution automation system until the two are completely consistent.

Specifically, for example, when a certain in-service device is used, firstly, data of an old distribution automation system is copied to a new distribution automation system, then, a new graph model of the GIS system is imported into the new distribution automation system, and the new distribution automation system re-associates and configures the distribution devices in the library according to the new graph model of the GIS system. And then, the old distribution automation system and the new distribution automation system are accessed into the same simulation terminal.

Specifically, telemetering simulation test data and remote signaling simulation test data of the same point are sent to a new distribution automation system and an old distribution automation system through a simulation terminal, wherein the telemetering simulation test data covers all remote measuring points in a system station, and the remote signaling simulation test data covers all remote signaling points in the system station. Then, a remote measuring point table and a section information table thereof, a remote signaling point table and an alarm event data table are derived from a dispatcher interface of the new distribution automation system, and all the derived information and data are processed into a file in a standard format to be compared by an event processing module of the new distribution automation system according to the standard and the requirement of transmission comparison, preferably, the file is in a format of 'CSV', and the file comprises all the remote measuring information and the remote signaling information which need to be verified and are contained in the new distribution automation system. And exporting the files in the standard format to be compared of the old power distribution automation in the same way.

Further, the data comparison module acquires the files in the standard format to be compared in the new distribution automation system and the files in the standard format to be compared in the old distribution automation system through the telecontrol channel, and presents all the information contained in the files in the standard formats of the two parties in a visual interface according to the order of the point numbers of the information contained in the files in the standard formats of the two parties. It should be noted that the telecontrol channel is a communication channel connecting the new distribution automation system and the simulation terminal, and the old distribution automation system and the simulation terminal.

And then, the data comparison module automatically judges the correctness of the information of the new distribution automation system by taking the information of the old distribution automation system presented in the visual interface as a reference, specifically, the verified information content comprises a telemetering point number, a telemetering coefficient, a telemetering description, a telemetering point number, a telemetering description and a telemetering alarm type, if an error occurs, the data comparison module gives an error prompt on the visual interface, locates an error point, and then instructs a user to correct the error point so as to ensure that the telemetering information of the new distribution automation system is completely consistent with the telemetering information and the telemetering information of the old distribution automation system, and generates detailed comparison information into logs in an EXCEL form for storage after all information is compared and compared.

In addition, before comparing the new distribution automation system with the old distribution automation system, the respective remote control sequence is confirmed, then the respective remote control sequence operation table is edited and printed out, and the remote control instruction is issued to the corresponding control point of the simulation terminal in the respective remote control interface according to the sequence of the respective remote control sequence operation table, and the message monitoring module in the data comparison function module monitors and records the remote control instruction of the new distribution automation system and the old distribution automation system through the switch mirror interface.

And then the message monitoring module sends the result to the message analysis module, the message analysis module stores the remote control instruction, the remote control instruction is analyzed to obtain specific message data, the specific message data is analyzed into a plaintext event, the specific information of the two parties is compared by the data comparison module, the comparison result is displayed in a visual interface, and when the comparison result is wrong, a user can correct the error point in the new distribution automation system according to the comparison result so as to ensure that the remote control information of the new distribution automation system is completely consistent with the remote control information of the old distribution automation system.

It should be noted that when the above-mentioned remote measurement information, remote signaling information, and remote control information, that is, "three remote" information comparison is performed, the normal operation of the old distribution automation system is not affected, and the manpower and material resources in the actual operation are saved.

Further, the staff selects the spare interval to check the information of the power transmission and distribution terminal on site. Specifically, the spare intervals are controlled by remote signals at the power distribution terminals. Alternatively, the standby interval on-board power distribution terminal information may also be controlled by an on-site signal. It should be noted that the remote signal refers to a command for controlling the standby interval, which is sent by the new distribution terminal and the old distribution terminal; in-situ signaling refers to the operation of a spare interval by a worker at the on-site distribution equipment. It is worth pointing out that in practical cases the standby interval is a standby switch that is already set up in relation to the user but is not wired to the user, so controlling the standby interval does not affect the normal user supply.

And after the 'three remote' information in the new distribution automation system is completely consistent with the 'three remote' information in the old distribution automation system, switching the front channel of the old distribution automation system to the new distribution automation system to complete the updating of the graph-model interaction point table information.

Example 2

Corresponding to the above method embodiments, this embodiment discloses a power distribution automation graph-model interaction point table information updating system, which includes:

a first unit: the system comprises a data storage module, a data acquisition module, a data transmission module and a data transmission module, wherein the data storage module is used for storing data of an old distribution automation system and data of a new distribution automation system;

a second unit: the simulation terminal is used for accessing the new distribution automation system and the old distribution automation system into the same simulation terminal, and performing remote control, remote measurement and remote signaling data transmission on the simulation terminal, the new distribution automation system and the old distribution automation system;

a third unit: the system comprises a simulation terminal, a new distribution automation system and an old distribution automation system, and is used for monitoring remote control information, remote measurement information and remote communication information transmitted between the simulation terminal and the new distribution automation system and between the simulation terminal and the old distribution automation system, verifying the correctness of all data transmitted by the new distribution automation system and the simulation terminal by taking all data transmitted by the old distribution automation system and the simulation terminal as a reference, and when the verification is wrong, positioning a wrong position and indicating a user to modify the new distribution automation system until the two are completely consistent.

The specific processing procedures of the above units can refer to the above method embodiments, and are not described again.

As described above, the invention provides a method and a system for updating information of a distribution automation graph-model interaction point table, wherein a new distribution automation system and an old distribution automation system are accessed to the same simulation terminal, a data comparison module is adopted to monitor and verify the three-remote information between the new distribution automation system and the simulation terminal, whether the three-remote information is consistent with the three-remote information between the old distribution automation system and the simulation terminal or not is judged, if the three-remote information is inconsistent with the three-remote information between the old distribution automation system and the simulation terminal, an error place is positioned, relevant parameters in the new distribution automation system are modified, and then a front channel of the old distribution automation system is switched to the new distribution automation system to complete the updating of the information of the graph-model; the method and the system are simple to implement, the original results of the operation management work of the distribution automation system are fully utilized, the normal operation of the system is not influenced, the field devices do not need to be transmitted one by one, the information of each 'three remote' point can be accurately verified, the stable transition from the old graph model library to the new graph model library can be ensured, and the updating of the graph model interaction point table information can be accurately completed.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (4)

1. A method for updating information of a distribution automation graph-model interaction point table is characterized by comprising the following steps:

copying data of the old distribution automation system to a new distribution automation system, and performing associated configuration on the new distribution automation system according to a new template;

the new distribution automation system and the old distribution automation system are connected into the same simulation terminal, and the simulation terminal, the new distribution automation system and the old distribution automation system carry out remote control, remote measurement and remote signaling data transmission; the method comprises the steps of issuing remote control instructions to corresponding control points of the simulation terminal according to the sequence of respective remote control sequence operation tables;

monitoring remote control information, remote measurement information and remote signaling information transmitted between the simulation terminal and the new distribution automation system and between the simulation terminal and the old distribution automation system, wherein the monitoring monitors and records remote control instructions of the new distribution automation system and the old distribution automation system through a switch mirror image port, verifies the correctness of all data transmitted by the new distribution automation system and the simulation terminal by taking all data transmitted by the old distribution automation system and the simulation terminal as a reference, and when the verification is wrong, positions where the errors occur are located and a user is instructed to modify the new distribution automation system until the two are completely consistent;

selecting spare intervals to carry out on-site check on the information of the power distribution and transmission terminal, and switching the pre-positioned channel of the master station of the old power distribution automation system to the new power distribution automation system after confirming that the three remote information of the new power distribution automation system is completely consistent with the three remote information of the old power distribution automation system; wherein, the standby interval is a standby switch which is already provided with relevant settings and is not connected to a user; the standby interval power distribution terminal information can be controlled through a remote signal and a local signal; the remote signal refers to a command for controlling the standby interval, which is sent by the new power distribution terminal and the old power distribution terminal; in-situ signaling refers to the operation of a spare interval by a worker at the on-site distribution equipment.

2. The distribution automation graph-model interaction point list information updating method according to claim 1, wherein the simulation terminal is provided with a data comparison module for performing program matching of point list information and automatic comparison of communication messages, and the data comparison module comprises a visual comparison interface to assist in performing the following steps:

(1) sending a remote control command to a simulation terminal by using a new power distribution automation system and an old power distribution automation system, and monitoring remote control information by using a data comparison module, wherein the remote control information comprises a station address and a point number of a remote control message, and the remote control information of the old power distribution automation system is used as a reference to verify the correctness of the remote control information of the new power distribution automation system;

(2) the remote measuring information and the remote signaling information of the same point are sent to a new distribution automation system and an old distribution automation system through a simulation terminal, the information of the new distribution automation system and the old distribution automation system is displayed in a visual comparison interface by a data comparison module according to the point number sequence of the remote measuring information and the remote signaling information sent by the new distribution automation system and the old distribution automation system respectively, and the point number sequence and the information of the old distribution automation system are used as references to verify the accuracy of the point number sequence and the information of the new distribution automation system.

3. A distribution automation graph-model interaction point table information updating system is characterized by comprising:

a first unit: the system comprises a data storage module, a data acquisition module, a data transmission module and a data transmission module, wherein the data storage module is used for storing data of an old distribution automation system and data of a new distribution automation system;

a second unit: the simulation terminal is used for accessing the new distribution automation system and the old distribution automation system into the same simulation terminal, and performing remote control, remote measurement and remote signaling data transmission on the simulation terminal, the new distribution automation system and the old distribution automation system; the method comprises the steps of issuing remote control instructions to corresponding control points of the simulation terminal according to the sequence of respective remote control sequence operation tables;

a third unit: the system comprises a simulation terminal, an old distribution automation system, a switch mirror image port, a new distribution automation system, a simulation terminal, a switch mirror image port, a remote control information acquisition module, a remote monitoring module and a remote monitoring module, wherein the simulation terminal is used for monitoring remote control information, remote monitoring information and remote signaling information transmitted between the simulation terminal and the old distribution automation system, the monitoring monitors and records remote control instructions of the new distribution automation system and the old distribution automation system through the switch mirror image port, the correctness of all data transmitted by the new distribution automation system and the simulation terminal is verified by taking all data transmitted by the old distribution automation system and the simulation terminal as a reference, and when the verification is wrong, a wrong position is positioned and a user is;

selecting spare intervals to carry out on-site check on the information of the power distribution and transmission terminal, and switching the pre-positioned channel of the master station of the old power distribution automation system to the new power distribution automation system after confirming that the three remote information of the new power distribution automation system is completely consistent with the three remote information of the old power distribution automation system; wherein, the standby interval is a standby switch which is already provided with relevant settings and is not connected to a user; the information of the standby interval on the power transmission and distribution terminal can be controlled through a remote signal and a local signal, and the remote signal refers to a command for controlling the standby interval, which is sent by a new power distribution terminal and an old power distribution terminal; in-situ signaling refers to the operation of a spare interval by a worker at the on-site distribution equipment.

4. The distribution automation graph-model interaction point list information updating system according to claim 3, wherein the simulation terminal is provided with a data comparison module for performing program matching of point list information and automatic comparison of communication messages, the data comparison module comprises a visual comparison interface to assist in performing the following steps:

(1) sending a remote control command to a simulation terminal by using a new power distribution automation system and an old power distribution automation system, and monitoring remote control information by using a data comparison module, wherein the remote control information comprises a station address and a point number of a remote control message, and the remote control information of the old power distribution automation system is used as a reference to verify the correctness of the remote control information of the new power distribution automation system;

(2) the remote measuring information and the remote signaling information of the same point are sent to a new distribution automation system and an old distribution automation system through a simulation terminal, the information of the new distribution automation system and the old distribution automation system is displayed in a visual comparison interface by a data comparison module according to the point number sequence of the remote measuring information and the remote signaling information sent by the new distribution automation system and the old distribution automation system respectively, and the point number sequence and the information of the old distribution automation system are used as references to verify the accuracy of the point number sequence and the information of the new distribution automation system.

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