CN110830766B - Method and device for automatically configuring and correcting interval picture of transformer substation monitoring system - Google Patents

Abstract

The invention provides a method and a device for automatically configuring and correcting interval pictures of a transformer substation monitoring system, and belongs to the technical field of transformer substation automation. The configuration method comprises the following steps: collecting interval IDs to which interval pictures belong; when configuring the interval picture, acquiring an interval ID to which a data signal to be configured belongs; judging whether the interval ID of the data signal to be configured is consistent with the interval ID of the interval picture, and if so, configuring the data signal to be configured into the interval picture; otherwise, the data signal to be configured is forbidden to be configured into the interval picture. When the interval picture is configured, the to-be-configured signal is configured in the interval picture only when the interval ID to which the to-be-configured data signal belongs is consistent with the interval ID to which the interval picture belongs, so that the data signals of other interval pictures are effectively prevented from being configured in the interval picture, the problem of data signal mis-configuration in the interval picture is solved, and the accuracy of data signal configuration in the interval picture is improved.

Description

Method and device for automatically configuring and correcting interval picture of transformer substation monitoring system

Technical Field

The invention relates to a method and a device for automatically configuring and correcting interval pictures of a transformer substation monitoring system, and belongs to the technical field of transformer substation automation.

Background

As more and more substation monitoring systems are put into operation, the substation monitoring systems have exposed to a number of problems, wherein faulty operations due to misconfigurations of data signals in the bay screens occasionally occur. The main reason for the mis-configuration of the data signals in the interval pictures is that the data signals in the interval pictures are generally manually configured by engineering personnel, the manual configuration is difficult to avoid that the data signals in other intervals are mis-configured to the interval, if the data signals are directly put into operation without carrying out a comprehensive point-to-point test before the operation and the operation, the mis-configuration of the data signals can cause that other interval devices are mis-operated, so that serious consequences are brought, and economic losses are generated.

Although the method of automatically generating the interval picture can greatly reduce the probability of misarrangement of the data signals in the interval picture, most of the automatically generated interval pictures need manual adjustment in the later period, and the situation of misarrangement of the data signals in the interval picture still exists.

Disclosure of Invention

The invention aims to provide a method and a device for automatically configuring interval pictures of a transformer substation monitoring system, which are used for solving the problem of data signal mis-configuration in the interval pictures; the invention also provides a method and a device for automatically correcting the interval picture of the transformer substation monitoring system, which are used for solving the problem that the interval picture is easy to have wrongly configured data signals.

In order to achieve the purpose, the invention provides a method for automatically configuring an interval picture of a transformer substation monitoring system, which comprises the following steps:

collecting interval IDs to which interval pictures belong;

when configuring the interval picture, acquiring an interval ID to which a data signal to be configured belongs;

judging whether the interval ID of the data signal to be configured is consistent with the interval ID of the interval picture, and if so, configuring the data signal to be configured into the interval picture; otherwise, the data signal to be configured is forbidden to be configured into the interval picture.

The configuration method has the advantages that: when the interval picture is configured, the data signal to be configured to the corresponding interval picture is checked by comparing the interval ID to which the data signal to be configured belongs with the interval ID to which the interval picture belongs, and the signal to be configured is configured to the interval picture only when the interval ID to which the data signal to be configured belongs is consistent with the interval ID to which the interval picture belongs, so that the data signal of other interval pictures is effectively prevented from being configured to the interval picture, the problem of mis-configuration of the data signal in the interval picture is solved, and the accuracy of data signal configuration in the interval picture is improved.

In order to realize the collection of the interval ID to which the interval picture belongs, the interval ID to which the interval picture belongs is further collected in a configuration file of the interval picture.

The invention also provides a method for automatically correcting the interval picture of the transformer substation monitoring system, which comprises the following steps:

collecting interval IDs to which interval pictures belong;

collecting interval ID of each data signal in the interval picture;

respectively judging whether the interval ID of each data signal in the interval picture is consistent with the interval ID of the interval picture, if so, retaining the corresponding data signal; and if the interval pictures are inconsistent, deleting the corresponding data signals to correct the interval pictures.

The correction method has the beneficial effects that: the data signals configured in the corresponding interval picture are checked by comparing the interval ID to which the data signals belong in the interval picture with the interval ID to which the interval picture belongs, and the interval picture is corrected by deleting the data signals inconsistent with the interval ID to which the interval picture belongs, so that the data signals in the interval picture belong to the interval, and the problem that the data signals which are configured wrongly easily exist in the interval picture is solved.

In order to avoid that the data signal error of the interval is deleted as the signal error of other intervals, the method further improves the accuracy of interval picture correction, and further comprises the following steps:

when the interval ID to which the data signal belongs is judged to be inconsistent with the interval ID to which the interval picture belongs, prompt information whether correction is needed or not is sent to a user;

when receiving the information that the user confirms the correction, the data signal that is not consistent with the interval ID to which the interval picture belongs is deleted.

Further, the interval screen is corrected when the interval screen is opened, when the interval screen arrangement is finished to save, or periodically.

The invention also provides a device for automatically configuring the interval picture of the transformer substation monitoring system, which comprises an interval ID acquisition module and an interval picture configuration module; the interval ID acquisition module is used for: acquiring an interval ID to which an interval picture belongs, and acquiring an interval ID to which a data signal to be configured belongs when the interval picture is configured; the interval picture configuration module is used for: judging whether the interval ID of the data signal to be configured is consistent with the interval ID of the interval picture, and if so, configuring the data signal to be configured into the interval picture; otherwise, the data signal to be configured is forbidden to be configured into the interval picture.

The configuration device has the advantages that: when the interval picture is configured, the data signal to be configured to the corresponding interval picture is checked by comparing the interval ID to which the data signal to be configured belongs with the interval ID to which the interval picture belongs, and the signal to be configured is configured to the interval picture only when the interval ID to which the data signal to be configured belongs is consistent with the interval ID to which the interval picture belongs, so that the data signal of other interval pictures is effectively prevented from being configured to the interval picture, the problem of mis-configuration of the data signal in the interval picture is solved, and the accuracy of data signal configuration in the interval picture is improved.

In order to realize the acquisition of the interval ID to which the interval picture belongs, further, the interval ID acquisition module is configured to acquire the interval ID to which the interval picture belongs in a configuration file of the interval picture.

The invention also provides an automatic interval picture correction device of the transformer substation monitoring system, which comprises an interval ID acquisition module and an interval picture correction module; the interval ID acquisition module is used for: acquiring interval IDs to which interval pictures belong and acquiring the interval IDs to which each data signal in the interval pictures belong; the interval picture correction module is used for: respectively judging whether the interval ID of each data signal in the interval picture is consistent with the interval ID of the interval picture, if so, retaining the corresponding data signal; and if the interval pictures are inconsistent, deleting the corresponding data signals to correct the interval pictures.

The correction device has the beneficial effects that: the data signals configured in the corresponding interval picture are checked by comparing the interval ID to which the data signals belong in the interval picture with the interval ID to which the interval picture belongs, and the interval picture is corrected by deleting the data signals inconsistent with the interval ID to which the interval picture belongs, so that the data signals in the interval picture belong to the interval, and the problem that the data signals which are configured wrongly easily exist in the interval picture is solved.

In order to avoid that the data signal error of the current interval is regarded as the signal error deletion of other intervals, the accuracy of interval picture correction is further improved, and further, the interval picture correction module is further configured to: when the interval ID to which the data signal belongs is judged to be inconsistent with the interval ID to which the interval picture belongs, prompt information whether correction is needed or not is sent to a user; when receiving the information that the user confirms the correction, the data signal that is not consistent with the interval ID to which the interval picture belongs is deleted.

Further, the interval screen correction module is used for correcting the interval screen when the interval screen is opened, when the interval screen configuration is finished and the storage is finished, or periodically.

Drawings

FIG. 1 is a flow chart of an interval screen automatic configuration method in an embodiment of the configuration method of the present invention;

FIG. 2 is a flowchart of an interval frame automatic correction method in an embodiment of the correction method of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

The embodiment of the configuration method comprises the following steps:

as shown in fig. 1, the method for automatically configuring an interval screen of a substation monitoring system (interval screen automatic configuration method for short) in this embodiment includes the following steps:

collecting interval IDs to which interval pictures belong;

when configuring the interval picture, acquiring an interval ID to which a data signal to be configured belongs;

judging whether the interval ID to which the data signal to be configured belongs is consistent with the interval ID to which the interval picture belongs, and if so, configuring the data signal to be configured into the interval picture; otherwise, the data signal to be configured is forbidden to be configured into the interval picture.

In the method for automatically configuring the interval picture in this embodiment, when the interval picture is configured, the data signal to be configured to the corresponding interval picture is checked by comparing the interval ID to which the data signal to be configured belongs with the interval ID to which the interval picture belongs, and only when the interval ID to which the data signal to be configured belongs is consistent with the interval ID to which the interval picture belongs, the data signal to be configured is configured to the interval picture, so that the data signal of other interval pictures is effectively prevented from being configured to the interval picture, the problem of mis-configuration of the data signal in the interval picture is solved, and the accuracy of configuration of the data signal in the interval picture is improved.

In this embodiment, the interval ID to which the interval picture belongs is stored in the configuration file of the corresponding interval picture, and the interval ID to which the interval picture belongs is collected from the configuration file of the corresponding interval picture when the interval picture is configured; as another embodiment, the interval ID to which the interval picture belongs may be saved in another file according to actual needs, as long as it is ensured that the interval ID to which the interval picture belongs can be collected.

For example, when the substation monitoring system creates an interval screen, the configuration file of the interval screen stores the interval ID to which the interval screen belongs, and the interval ID is recorded as ID 0; when the configuration tool is used for configuring the interval picture, when a data signal is configured (for example, a remote control point is selected to drag into the interval picture), the configuration tool collects an interval ID, recorded as ID1, to which the data signal belongs; comparing the ID0 with the ID1, and if the ID0 and the ID1 are consistent, the interval ID belonging to the interval picture is matched with the interval ID belonging to the data signal, and the data signal is configured in the interval picture; otherwise, the interval ID of the interval picture is not matched with the interval ID of the data signal, and the data signal is forbidden to be configured in the interval picture.

The embodiment of the correction method comprises the following steps:

as shown in fig. 2, the method for automatically correcting an interval screen of a substation monitoring system (interval screen automatic correction method for short) in the present embodiment includes the following steps:

collecting interval IDs to which interval pictures belong;

collecting interval ID of each data signal in the interval picture;

respectively judging whether the interval ID of each data signal in the interval picture is consistent with the interval ID of the interval picture; if the data signals are consistent, the corresponding data signals are reserved;

when the interval ID to which the data signal belongs is judged to be inconsistent with the interval ID to which the interval picture belongs, sending prompt information whether to need correction to a user;

when receiving the information that the user confirms the correction, the data signal that is not consistent with the interval ID to which the interval picture belongs is deleted.

In the interval picture automatic correction method of the embodiment, the configured data signals in the corresponding interval picture are checked by comparing the interval ID to which the data signals belong in the interval picture with the interval ID to which the interval picture belongs, and the interval picture is corrected by deleting the data signals inconsistent with the interval ID to which the interval picture belongs, so that the data signals in the interval picture belong to the interval, and therefore, the problem that the data signals in the interval picture are mistakenly configured in the interval picture is solved, and the interval picture is corrected only after the correction information is confirmed by a user, so that the situation that the data signals in the interval are mistakenly deleted as signals in other intervals can be avoided, and the accuracy of interval picture correction is further improved; as another embodiment, on the premise of ensuring the accuracy of the correction of the interval screen, when it is determined that the interval ID to which the data signal belongs does not coincide with the interval ID to which the interval screen belongs, the data signal which does not coincide with the interval ID to which the interval screen belongs may be deleted to correct the interval screen, so as to improve the efficiency of the correction of the interval screen.

When the interval screen is opened, or when the interval screen configuration is finished and the storage is finished, or periodically, the interval screen can be corrected by using the interval screen automatic correction method of the embodiment. In the correction process, after all data signals in the interval picture are judged to be finished, a prompt message is sent to a user in a unified mode to prompt the user whether to correct the interval picture, the prompt message contains all judged data signals which are inconsistent with the interval ID of the interval picture, the user can check all judged inconsistent data signals once after receiving the prompt message, and after the user confirms that the data signals need to be corrected, the correction of the interval picture can be finished once, so that the operation times of the user are saved, and the efficiency is improved; of course, it is also possible to send a prompt message to the user every time a data signal inconsistent with the interval ID to which the interval picture belongs is found, so that the user can confirm in time, and correct the interval picture in time after the user confirms.

For example, when the configuration tool is used to open the interval screen, whether the interval IDs to which all the configured data signals belong in the interval screen are consistent with the interval ID to which the interval screen belongs is automatically determined, and when the interval ID to which the data signal belongs is determined to be inconsistent with the interval ID to which the interval screen belongs, prompt information whether correction is required is sent to the user, and after the information for confirming correction is received, all the data signals in the interval screen which are inconsistent with the interval ID to which the interval screen belongs are deleted.

Configuration device embodiment:

the embodiment provides an automatic configuration device for an interval picture of a transformer substation monitoring system, which comprises an interval ID acquisition module and an interval picture configuration module, wherein the two modules are matched with each other to realize an automatic configuration method for the interval picture of the transformer substation monitoring system, and the method is described in detail in the configuration method embodiment and is not repeated herein.

In this embodiment, the interval ID acquisition module is configured to: acquiring an interval ID to which an interval picture belongs, and acquiring an interval ID to which a data signal to be configured belongs when the interval picture is configured; the interval picture configuration module is used for: judging whether the interval ID to which the data signal to be configured belongs is consistent with the interval ID to which the interval picture belongs, and if so, configuring the data signal to be configured into the interval picture; otherwise, the data signal to be configured is forbidden to be configured into the interval picture.

The detailed implementation of the functions of the modules is described in detail in the configuration method embodiment, and will not be described here too much.

Correction apparatus embodiment:

the embodiment provides an interval picture automatic correction device for a transformer substation monitoring system, which comprises an interval ID acquisition module and an interval picture correction module, wherein the two modules are matched with each other to realize an interval picture automatic correction method for the transformer substation monitoring system, the method is described in detail in the correction method embodiment, and details are not repeated here.

In this embodiment, the interval ID acquisition module is configured to: acquiring interval IDs to which interval pictures belong and acquiring the interval IDs to which each data signal in the interval pictures belong; the interval picture correction module is used for: respectively judging whether the interval ID of each data signal in the interval picture is consistent with the interval ID of the interval picture, if so, retaining the corresponding data signal; when the interval ID to which the data signal belongs is judged to be inconsistent with the interval ID to which the interval picture belongs, sending prompt information whether to need correction to a user; when receiving the information that the user confirms the correction, the data signal that is not consistent with the interval ID to which the interval picture belongs is deleted.

The detailed implementation of the functions of the modules is described in detail in the embodiment of the modification method, and will not be described here too much.

In this embodiment, the interval picture correction module corrects the interval picture only after receiving the information that the user confirms to correct, so that the situation that the data signal of the interval is mistakenly deleted as the signal of other intervals can be avoided, and the accuracy of interval picture correction is further improved; as another embodiment, on the premise of ensuring the accuracy of the interval picture correction, when determining that the interval ID to which the data signal belongs is not consistent with the interval ID to which the interval picture belongs, the interval picture correction module may delete the data signal that is not consistent with the interval ID to which the interval picture belongs to correct the interval picture, so as to improve the efficiency of the interval picture correction.

As will be appreciated by one skilled in the art, embodiments of the present application may be provided as a method, system, or computer program product. Accordingly, the present application may take the form of an entirely hardware embodiment, an entirely software embodiment or an embodiment combining software and hardware aspects. Furthermore, the present application may take the form of a computer program product embodied on one or more computer-usable storage media (including, but not limited to, disk storage, CD-ROM, optical storage, and the like) having computer-usable program code embodied therein.

The present application is described with reference to flowchart illustrations and/or block diagrams of methods, apparatus (systems) and computer program products according to embodiments of the application. It will be understood that each flow and/or block of the flow diagrams and/or block diagrams, and combinations of flows and/or blocks in the flow diagrams and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable data processing apparatus to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing apparatus, create means for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing apparatus to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including instruction means which implement the function specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be loaded onto a computer or other programmable data processing apparatus to cause a series of operational steps to be performed on the computer or other programmable apparatus to produce a computer implemented process such that the instructions which execute on the computer or other programmable apparatus provide steps for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solutions of the present invention and not for limiting the same, and although the present invention is described in detail with reference to the above embodiments, those of ordinary skill in the art should understand that: modifications and equivalents may be made to the embodiments of the invention without departing from the spirit and scope of the invention, which is to be covered by the claims.

Claims (10)

1. A method for automatically configuring interval pictures of a transformer substation monitoring system is characterized by comprising the following steps:

collecting interval IDs to which interval pictures belong;

when configuring the interval picture, acquiring an interval ID to which a data signal to be configured belongs;

judging whether the interval ID of the data signal to be configured is consistent with the interval ID of the interval picture, and if so, configuring the data signal to be configured into the interval picture; otherwise, the data signal to be configured is forbidden to be configured into the interval picture.

2. The automatic configuration method for the transformer substation monitoring system bay screen according to claim 1, wherein the bay ID to which the bay screen belongs is collected in a configuration file of the bay screen.

3. A method for automatically correcting interval pictures of a transformer substation monitoring system is characterized by comprising the following steps:

collecting interval IDs to which interval pictures belong;

collecting interval ID of each data signal in the interval picture;

respectively judging whether the interval ID of each data signal in the interval picture is consistent with the interval ID of the interval picture, if so, retaining the corresponding data signal; and if the interval pictures are inconsistent, deleting the corresponding data signals to correct the interval pictures.

4. The automatic correction method for the transformer substation monitoring system interval picture according to claim 3, characterized in that the method further comprises:

when the interval ID to which the data signal belongs is judged to be inconsistent with the interval ID to which the interval picture belongs, prompt information whether correction is needed or not is sent to a user;

when receiving the information that the user confirms the correction, the data signal that is not consistent with the interval ID to which the interval picture belongs is deleted.

5. The method according to claim 3 or 4, wherein the interval screen is modified when the interval screen is opened, when the interval screen configuration is finished and the storage is finished, or periodically.

6. A transformer substation monitoring system interval picture automatic configuration device is characterized by comprising an interval ID acquisition module and an interval picture configuration module; the interval ID acquisition module is used for: acquiring an interval ID to which an interval picture belongs, and acquiring an interval ID to which a data signal to be configured belongs when the interval picture is configured; the interval picture configuration module is used for: judging whether the interval ID of the data signal to be configured is consistent with the interval ID of the interval picture, and if so, configuring the data signal to be configured into the interval picture; otherwise, the data signal to be configured is forbidden to be configured into the interval picture.

7. The automatic configuration device of the substation monitoring system bay screen according to claim 6, wherein the bay ID collection module is configured to collect the bay ID to which the bay screen belongs in a configuration file of the bay screen.

8. An interval picture automatic correction device of a transformer substation monitoring system is characterized by comprising an interval ID acquisition module and an interval picture correction module; the interval ID acquisition module is used for: acquiring interval IDs to which interval pictures belong and acquiring the interval IDs to which each data signal in the interval pictures belong; the interval picture correction module is used for: respectively judging whether the interval ID of each data signal in the interval picture is consistent with the interval ID of the interval picture, if so, retaining the corresponding data signal; and if the interval pictures are inconsistent, deleting the corresponding data signals to correct the interval pictures.

9. The substation monitoring system interval picture automatic correction device of claim 8, wherein the interval picture correction module is further configured to: when the interval ID to which the data signal belongs is judged to be inconsistent with the interval ID to which the interval picture belongs, prompt information whether correction is needed or not is sent to a user; when receiving the information that the user confirms the correction, the data signal that is not consistent with the interval ID to which the interval picture belongs is deleted.

10. The substation monitoring system interval screen automatic correction device according to claim 8 or 9, wherein the interval screen correction module is configured to correct an interval screen when the interval screen is opened, when the interval screen configuration is finished to be stored, or periodically.

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