CN110807022B - Method for realizing sequential control operation order interval copying of intelligent substation monitoring system - Google Patents

Abstract

The invention provides a method for realizing interval copying of sequence control operation tickets of an intelligent substation monitoring system. The interval sequential control operation tickets of the same type are generated by a search matching replacement method, so that the construction pressure of engineering personnel is effectively reduced, the joint debugging time caused by configuration errors is shortened, and the construction progress of the engineering is greatly improved; the algorithm is simple to use, the automation degree is high, and the software stability is strong; the method supports batch setting, is simple in configuration operation, and improves the usability and the practicability of sequence control operation software.

Description

Method for realizing sequential control operation order interval copying of intelligent substation monitoring system

Technical Field

The invention relates to the technical field of intelligent substations of power systems, in particular to a sequential control operation order interval copying implementation method of an intelligent substation monitoring system.

Background

In order to ensure the reliability and stability of a one-key sequence control (sequence control) system of the transformer substation, technical specifications and detection specifications of a one-key sequence control function are released in 2018, special one-key sequence control centralized detection is carried out, and the development and application of the sequence control technology of the transformer substation are greatly promoted.

In a one-key sequence control transformation test point project of a transformer substation, it is found that a sequence control operation order (an operation sequence stored in the transformer substation and used for one-key sequence control, which contains an operation object, a current equipment state, a target equipment state, an operation task name, an operation item, an operation condition, a target state and the like, and needs to be debugged and verified before the one-key sequence control function is put into operation) is prefabricated, and the sequence control operation order comprises configuration works such as editing interval equipment state definition, equipment state conditions, equipment state condition logic relations, operation order tasks, operation order steps, operation conditions, confirmation conditions, timeout time, delay time, sequence control locking signals and the like.

Disclosure of Invention

The invention aims to provide a method for realizing interval copying of sequence control operation tickets of an intelligent substation monitoring system, which aims to solve the problems of complex configuration work, time consumption and high error rate of the sequence control operation tickets in the prior art, reduce the construction pressure of engineering personnel, shorten the joint debugging time and improve the construction progress of engineering.

In order to achieve the technical purpose, the invention provides a sequential control operation order interval copying implementation method for an intelligent substation monitoring system, which comprises the following steps:

s1, establishing a transformer substation model database, and carrying out interval uniqueness marking on electric equipment, remote signaling and remote measuring;

s2, creating a template interval sequential control operation order, and configuring an equipment state definition set, equipment state conditions, a sequential control task set, operation steps and operation parameters of the template interval sequential control operation order;

and S3, copying the template interval sequential control operation order by using a search matching replacement method, and automatically generating all configurations of the same type of target interval sequential control operation order.

Preferably, the interval uniqueness marking of the power equipment, the remote signaling and the remote measuring comprises the following contents:

the method comprises the steps of carrying out interval uniqueness configuration on primary equipment and primary equipment analog quantity according to types, carrying out index uniqueness marking on interval semaphore, and carrying out unique ID identification on the primary equipment, the primary equipment analog quantity and the interval semaphore in a whole substation model database.

Preferably, the device state conditions include: power equipment, interval semaphore, equipment analog type, and all conditional and/or logical operational relationships.

Preferably, the operating step parameters include: the operation condition, the confirmation condition, the delay time, the timeout time and the sequence control locking signal parameter of the operation item.

Preferably, all the configurations for automatically generating the same type of target interval sequential control operation tickets include generation of an equipment state definition set, an equipment state condition, a sequential control task set, an operation step and an operation parameter configuration.

Preferably, the specific operation of generating the device state definition set configuration is as follows:

reading an interval Bay1 sequence control operation ticket equipment state definition set, traversing each working state definition parameter, replacing a Bay1 interval ID with a Bay2 interval ID, generating an interval Bay2 sequence control operation ticket working state definition set, and storing the interval Bay2 sequence control operation ticket working state definition set in a transformer substation model database.

Preferably, the generation of the device state condition configuration specifically operates as follows:

reading all equipment state condition parameters of the interval Bay1, traversing each condition parameter, inquiring the interval Bay2 by the electric equipment type data Dev1 according to the equipment type, positioning the corresponding operating equipment Dev2, and replacing the Dev1 equipment ID by the Dev2 equipment ID; the interval semaphore type Data1 inquires, detects and positions corresponding operation Data2 for an interval Bay2 according to the interval index where the interval semaphore type Data1 is located, and replaces the semaphore ID of the Data1 Data with the semaphore ID of the Data2 Data; the device Analog quantity type data Analog1 finds the primary device Dev1 to which the device Analog quantity type data Analog1 belongs, inquires the interval Bay2 according to the type of the primary device Dev1 and locates the corresponding operating device Dev2, searches the Analog quantity data Analog2 of the device Dev2 with the same Analog quantity type according to the Analog quantity type of the Analog1 data, and replaces the Analog quantity ID of the Analog1 data with the Analog quantity ID of the Analog2 data; the newly generated Bay2 interval working state conditions are stored in a transformer substation model database, and meanwhile, a one-to-one mapping relation Map of the Bay1 interval working state conditions and the Bay2 interval working state conditions ID is established;

reading all the equipment state condition logic relations of the Bay1, analyzing the logic relations, extracting the unique identification ID of each condition, recording the unique identification ID as IDn, inquiring the mapping relation Map, positioning the unique identification ID of the equipment state condition corresponding to the Bay2, recording the unique identification ID as IDm, replacing the IDn with the IDm to generate the operating state condition logic relations of the Bay2, and storing the operating state condition logic relations to the substation model database.

Preferably, the sequence control task set configuration is generated specifically as follows:

reading all sequential control operation ticket task sets at intervals Bay1, traversing each operation ticket task parameter, replacing the Bay1 interval ID with the Bay2 interval ID, updating the task description, generating the sequential control operation ticket task sets at intervals Bay2, and storing the sequential control operation ticket task sets in a transformer substation model database.

Preferably, the operation step configuration is generated as follows:

reading all sequence control operation tickets of the interval Bay1, traversing parameters of each step, inquiring the interval Bay2 and positioning the corresponding primary equipment Dev2 according to the type of the primary equipment Dev1 in the operation type step, and replacing the ID of the Dev1 with the ID of the Dev 2; and (4) keeping the parameter content of the prompt step unchanged, and storing the newly generated Bay2 interval sequential control operation order to a substation model database.

Preferably, the operation parameter configuration is generated as follows:

reading operation conditions, confirmation conditions, delay time, timeout time and sequence control locking signal parameters of all sequence control operation tickets at intervals Bay1, traversing each parameter, inquiring the intervals Bay2 according to the type of the Dev1 by the type of the electric power equipment, positioning corresponding operation equipment Dev2, and replacing the ID of the Dev1 with the ID of the Dev2 equipment; inquiring, detecting and positioning corresponding operation Data2 for an interval Bay2 according to the interval index of the interval semaphore type Data1, and replacing the semaphore ID of the Data1 Data with the semaphore ID of the Data2 Data; the device Analog quantity type data Analog1 finds the primary device Dev1 to which the device Analog quantity type data Analog1 belongs, inquires the interval Bay2 according to the type of the primary device Dev1 and locates the corresponding operating device Dev2, searches the Analog quantity data Analog2 of the same Analog quantity type of the Dev2 device according to the Analog quantity type of the Analog quantity 1 data, and replaces the Analog quantity ID of the Analog quantity 1 data with the Analog quantity ID of the Analog quantity 2 data; and storing the newly created operating conditions, confirmation conditions, delay time, overtime time and sequential control locking signals of the Bay2 interval into a substation model database.

The effects provided in the summary of the invention are only the effects of the embodiments, not all of the effects of the invention, and one of the above technical solutions has the following advantages or beneficial effects:

compared with the prior art, the method has the advantages that the equipment at intervals of the transformer substation and remote signaling and remote measuring data are marked in advance to be unique, the template interval sequential control operation order is configured manually, and all configuration works of the target interval sequential control operation orders of the same type are generated fully automatically by using a search matching replacement method according to the template interval sequential control operation order. The interval sequential control operation tickets of the same type are generated by a search matching replacement method, so that the construction pressure of engineering personnel is effectively reduced, the joint debugging time caused by configuration errors is shortened, and the construction progress of the engineering is greatly improved; the algorithm is simple to use, the automation degree is high, and the software stability is strong; the method supports batch setting, is simple in configuration operation, and improves the usability and the practicability of sequence control operation software.

Drawings

Fig. 1 is a flowchart of a method for implementing interval replication of sequence control operation tickets of an intelligent substation monitoring system according to an embodiment of the present invention;

FIG. 2 is a schematic diagram of a process for creating a template interval sequential operation order according to an embodiment of the present invention;

fig. 3 is a schematic diagram illustrating a generation flow of device state conditions and operation parameter configurations provided in an embodiment of the present invention.

Detailed Description

In order to clearly explain the technical features of the present invention, the present invention is explained in detail by the following embodiments and the accompanying drawings. The following disclosure provides many different embodiments, or examples, for implementing different features of the invention. To simplify the disclosure of the present invention, specific example components and arrangements are described below. Furthermore, the present invention may repeat reference numerals and/or letters in the various examples. This repetition is for the purpose of simplicity and clarity and does not in itself dictate a relationship between the various embodiments and/or configurations discussed. It should be noted that the components illustrated in the figures are not necessarily drawn to scale. Descriptions of well-known components and processing techniques and procedures are omitted so as to not unnecessarily limit the invention.

The following describes in detail a method for implementing sequential control operation order interval replication of an intelligent substation monitoring system according to an embodiment of the present invention with reference to the accompanying drawings.

As shown in fig. 1, the embodiment of the invention discloses a method for implementing interval replication of sequence control operation tickets of an intelligent substation monitoring system, which comprises the following steps:

s1, establishing a transformer substation model database, and carrying out interval uniqueness marking on electric power equipment, remote signaling and remote measuring;

s2, creating a template interval sequential control operation order, and configuring an equipment state definition set, equipment state conditions, a sequential control task set, operation steps and operation parameters of the template interval sequential control operation order;

and S3, copying the template interval sequential control operation order by using a search matching replacement method, and automatically generating all the configurations of the same type of target interval sequential control operation orders.

According to the embodiment of the invention, the uniqueness marking is carried out on the equipment at intervals of the transformer substation and the remote signaling and remote measuring data in advance, the template interval sequential control operation tickets are manually configured, and all configuration works of the target interval sequential control operation tickets of the same type are generated fully automatically by using a search matching replacement method according to the template interval sequential control operation tickets. The implementation steps are described in detail below.

S1, a substation model database is established, and interval uniqueness marking is carried out on power equipment, remote signaling and remote measuring.

The method comprises the steps of establishing a transformer substation model database, carrying out interval uniqueness configuration on primary equipment and primary equipment analog quantity according to types, carrying out index uniqueness marking on interval semaphore, and carrying out unique ID identification on the primary equipment, the primary equipment analog quantity and the interval semaphore in the whole transformer substation model database. The interval uniqueness configuration of the primary equipment and the analog quantity of the primary equipment according to types is specifically as follows: the primary equipment types corresponding to the same type interval need to be consistent with the analog quantity of the primary equipment; the index uniqueness marking of the interval semaphore specifically includes: interval indexes of interval semaphores corresponding to the same type of intervals need to be consistent; the specific steps of carrying out unique ID identification on the primary equipment, the analog quantity of the primary equipment and the interval semaphore in the whole transformer substation model database are as follows: the device, the analog quantity and the semaphore are ID-identified.

S2, creating a template interval sequential control operation order, and configuring an equipment state definition set, equipment state conditions, a sequential control task set, operation steps and operation parameters of the template interval sequential control operation order, as shown in FIG. 2.

Selecting a certain template interval Bay1, creating a sequential control operation order equipment state definition set, storing the sequential control operation order equipment state definition set to a transformer substation model database, wherein the working state definition follows DL/T961-2005 power grid scheduling standard terms, and defining the interval working state by adopting an exhaustion method.

And editing the conditions of the equipment state, including the power equipment, the interval semaphore, the equipment analog quantity type and the AND/or logical operation relation of all the conditions, and storing the conditions to a substation model database. The and/or logic operation relation of all the conditions means that the condition defined by the interval working state of the sequence control operation order is completely met under the default condition, and when the substation has a non-commissioning standby line participating in interval state calculation of the sequence control operation order, only part of the conditions need to be met, so that the and/or logic operation relation of all the conditions needs to be defined.

And selecting a template interval Bay1, creating a sequence control operation order task set, setting task description, and storing the task description in a transformer substation model database.

Editing each sequence control operation ticket, adding operation steps of remote control, soft pressing plate switching, prompting and the like, setting parameters of an operation condition, a confirmation condition, delay time, overtime time, sequence control locking signals and the like of a certain operation project, and storing the parameters in a substation model database. The confirmation condition is double confirmation, that is, when the equipment is remotely operated, at least two different principles or different source indications are correspondingly changed, and all the indications are correspondingly changed at the same time, the equipment can be confirmed to be operated and aligned, and whether the confirmation condition is completely met is judged according to the change condition of the condition before and after the operation of the sequence control step and the logical relationship of the confirmation condition.

And S3, copying the template interval sequential control operation order by using a search matching replacement method, and automatically generating all the configurations of the same type of target interval sequential control operation orders.

The Bay2 of the same type as the Bay1 is selected, and the Bay copy manner is enabled to create the sequence operation ticket.

Reading an interval Bay1 sequence control operation ticket equipment state definition set, traversing each working state definition parameter, replacing a Bay1 interval ID with a Bay2 interval ID, generating an interval Bay2 sequence control operation ticket working state definition set, and storing the interval Bay2 sequence control operation ticket working state definition set in a transformer substation model database.

As shown in fig. 3, reading all the device state condition parameters of the Bay1, traversing each condition parameter, inquiring the Bay2 by the power device type data Dev1 according to the device type, positioning the corresponding operating device Dev2, and replacing the Dev1 device ID with the Dev2 device ID; the interval semaphore type Data1 inquires, detects and positions corresponding operation Data2 for an interval Bay2 according to the interval index where the interval semaphore type Data1 is located, and replaces the semaphore ID of the Data1 Data with the semaphore ID of the Data2 Data; the device Analog quantity type data Analog1 finds the primary device Dev1 to which the device Analog quantity type data Analog1 belongs, inquires the interval Bay2 according to the type of the primary device Dev1 and locates the corresponding operating device Dev2, searches the Analog quantity data Analog2 of the device Dev2 with the same Analog quantity type according to the Analog quantity type of the Analog1 data, and replaces the Analog quantity ID of the Analog1 data with the Analog quantity ID of the Analog2 data; and storing the newly generated Bay2 interval working state conditions to a substation model database, and simultaneously establishing a one-to-one mapping relation Map of the Bay1 interval working state conditions and the Bay2 interval working state conditions ID.

Reading all equipment state condition logic relations of an interval Bay1, analyzing the logic relations, extracting each condition unique identification ID and recording the condition unique identification ID as IDn, inquiring a mapping relation Map, positioning the equipment state condition unique identification ID corresponding to the Bay2 interval and recording the equipment state condition unique identification ID as IDm, replacing the IDn with the IDm to generate a Bay2 interval working state condition logic relation, and storing the Bay2 interval working state condition logic relation to a substation model database.

Reading all sequential control operation ticket task sets at intervals of Bay1, traversing each operation ticket task parameter, replacing the Bay1 interval ID with the Bay2 interval ID, updating the task description, generating the sequential control operation ticket task set at intervals of Bay2, and storing the sequential control operation ticket task set in a transformer substation model database.

Reading all sequence control operation tickets of the interval Bay1, traversing parameters of each step, inquiring the interval Bay2 and positioning the corresponding primary equipment Dev2 according to the type of the primary equipment Dev1 in the operation type step, and replacing the ID of the Dev1 with the ID of the Dev 2; and (4) keeping the parameter content of the prompt step unchanged, and storing the newly generated Bay2 interval sequential control operation order to a substation model database.

Reading parameters such as operating conditions, confirmation conditions, delay time, overtime time and sequence control locking signals of all sequence control operation tickets at intervals Bay1, traversing each parameter, inquiring the intervals Bay2 according to the type of the equipment by the type of the electric equipment and positioning corresponding operating equipment Dev2, and replacing the ID of the Dev1 equipment by the ID of the Dev2 equipment; inquiring, detecting and positioning corresponding operation Data2 for an interval Bay2 according to the interval index of the interval semaphore type Data1, and replacing the semaphore ID of the Data1 Data with the semaphore ID of the Data2 Data; the device Analog quantity type data Analog1 finds the primary device Dev1 to which the device Analog quantity type data Analog1 belongs, inquires the interval Bay2 according to the type of the primary device Dev1 and locates the corresponding operating device Dev2, searches the Analog quantity data Analog2 of the same Analog quantity type of the Dev2 device according to the Analog quantity type of the Analog quantity 1 data, and replaces the Analog quantity ID of the Analog quantity 1 data with the Analog quantity ID of the Analog quantity 2 data; and storing the newly created operating conditions, confirmation conditions, delay time, overtime time and sequence control locking signals of the Bay2 interval into a substation model database.

And when the operation is finished, prompting that the interval sequential control operation ticket is copied and finished.

The above description is intended to be illustrative of the preferred embodiment of the present invention and should not be taken as limiting the invention, but rather, the intention is to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the invention.

Claims (7)

1. An implementation method for interval replication of sequential control operation tickets of an intelligent substation monitoring system is characterized by comprising the following steps:

s1, establishing a transformer substation model database, and carrying out interval uniqueness marking on electric equipment, remote signaling and remote measuring;

s2, creating a template interval sequential control operation order, and configuring an equipment state definition set, equipment state conditions, a sequential control task set, operation steps and operation parameters of the template interval sequential control operation order;

s3, copying the template interval sequential control operation order by using a search matching replacement method, and automatically generating all configurations of the same type of target interval sequential control operation order, wherein the configurations include generation of an equipment state definition set, equipment state conditions, a sequential control task set, operation steps and operation parameter configuration;

the specific operation of generating the device state definition set configuration is as follows:

reading an interval Bay1 sequence control operation ticket equipment state definition set, traversing each working state definition parameter, replacing a Bay1 interval ID with a Bay2 interval ID, generating an interval Bay2 sequence control operation ticket working state definition set, and storing the interval Bay2 sequence control operation ticket working state definition set in a transformer substation model database;

the specific operation of generating the device state condition configuration is as follows:

reading all equipment state condition parameters of the Bay1, traversing each condition parameter, inquiring the Bay2 by the power equipment type data Dev1 according to the equipment type, positioning the corresponding operating equipment Dev2, and replacing the Dev1 equipment ID by the Dev2 equipment ID; inquiring, detecting and positioning corresponding operation Data2 for an interval Bay2 according to the interval index of the interval semaphore type Data1, and replacing the semaphore ID of the Data1 Data with the semaphore ID of the Data2 Data; the device Analog quantity type data Analog1 finds the primary device Dev1 to which the device Analog quantity type data Analog1 belongs, inquires the interval Bay2 according to the type of the primary device Dev1 and locates the corresponding operating device Dev2, searches the Analog quantity data Analog2 of the device Dev2 with the same Analog quantity type according to the Analog quantity type of the Analog1 data, and replaces the Analog quantity ID of the Analog1 data with the Analog quantity ID of the Analog2 data; the newly generated Bay2 interval working state conditions are stored in a transformer substation model database, and meanwhile, a one-to-one mapping relation Map of the Bay1 interval working state conditions and the Bay2 interval working state conditions ID is established;

reading all the equipment state condition logic relations of the Bay1, analyzing the logic relations, extracting the unique identification ID of each condition, recording the unique identification ID as IDn, inquiring the mapping relation Map, positioning the unique identification ID of the equipment state condition corresponding to the Bay2, recording the unique identification ID as IDm, replacing the IDn with the IDm to generate the operating state condition logic relations of the Bay2, and storing the operating state condition logic relations to the substation model database.

2. The method for realizing interval copy of the sequence control operation order of the intelligent substation monitoring system according to claim 1, wherein the interval uniqueness marking of the power equipment, the remote signaling and the remote measuring comprises the following steps:

the method comprises the steps of carrying out interval uniqueness configuration on primary equipment and primary equipment analog quantity according to types, carrying out index uniqueness marking on interval semaphore, and carrying out unique ID identification on the primary equipment, the primary equipment analog quantity and the interval semaphore in a whole substation model database.

3. The method for achieving interval replication of sequence control operation tickets of an intelligent substation monitoring system according to claim 1, wherein the device state conditions comprise: power equipment, interval semaphore, equipment analog type, and all conditional and/or logical operational relationships.

4. The method for achieving interval replication of the sequence control operation tickets of the intelligent substation monitoring system according to claim 1, wherein the operation step parameters comprise: the operation condition, the confirmation condition, the delay time, the timeout time and the sequence control locking signal parameter of the operation item.

5. The method for realizing interval replication of sequence control operation tickets of the intelligent substation monitoring system according to claim 1, wherein the sequence control task set configuration is generated specifically as follows:

reading all sequential control operation ticket task sets at intervals Bay1, traversing each operation ticket task parameter, replacing the Bay1 interval ID with the Bay2 interval ID, updating the task description, generating the sequential control operation ticket task sets at intervals Bay2, and storing the sequential control operation ticket task sets in a transformer substation model database.

6. The intelligent substation monitoring system sequence control operation order interval copy realization method according to claim 1, characterized in that the specific operation of the configuration generation in the operation step is as follows:

reading all sequential control operation ticket steps of the interval Bay1, traversing each step parameter, inquiring the interval Bay2 according to the type of the primary equipment Dev1 and positioning the corresponding primary equipment Dev2 by the operation type step, and replacing the ID of the Dev1 by the ID of the Dev 2; and (4) keeping the parameter content of the prompt step unchanged, and storing the newly generated Bay2 interval sequential control operation order to a substation model database.

7. The method for achieving interval replication of sequence control operation tickets of the intelligent substation monitoring system according to claim 1, wherein the operation parameter configuration is generated specifically as follows:

reading operation conditions, confirmation conditions, delay time, timeout time and sequence control locking signal parameters of all sequence control operation tickets at intervals Bay1, traversing each parameter, inquiring the intervals Bay2 according to the type of the Dev1 by the type of the electric power equipment, positioning corresponding operation equipment Dev2, and replacing the ID of the Dev1 with the ID of the Dev2 equipment; the interval semaphore type Data1 inquires, detects and positions corresponding operation Data2 for an interval Bay2 according to the interval index where the interval semaphore type Data1 is located, and replaces the semaphore ID of the Data1 Data with the semaphore ID of the Data2 Data; the device Analog quantity type data Analog1 finds the primary device Dev1 to which the device Analog quantity type data Analog1 belongs, inquires the interval Bay2 according to the type of the primary device Dev1 and locates the corresponding operating device Dev2, searches the Analog quantity data Analog2 of the same Analog quantity type of the Dev2 device according to the Analog quantity type of the Analog quantity 1 data, and replaces the Analog quantity ID of the Analog quantity 1 data with the Analog quantity ID of the Analog quantity 2 data; and storing the newly created operating conditions, confirmation conditions, delay time, overtime time and sequential control locking signals of the Bay2 interval into a substation model database.

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