CN116362695B

CN116362695B - Scheduling end operation management method, system, equipment and medium

Info

Publication number: CN116362695B
Application number: CN202310628359.2A
Authority: CN
Inventors: 宋惠宇; 林彦楷; 黄晓光; 陈钢; 李健波; 邓超; 陈林; 杨国庆; 陈浩东; 张俊华; 李达扬; 叶伟铨; 张艳静
Original assignee: Jiangmen Power Supply Bureau of Guangdong Power Grid Co Ltd
Current assignee: Jiangmen Power Supply Bureau of Guangdong Power Grid Co Ltd
Priority date: 2023-05-31
Filing date: 2023-05-31
Publication date: 2023-08-18
Anticipated expiration: 2043-05-31
Also published as: CN116362695A

Abstract

The invention discloses a scheduling end operation management method, a scheduling end operation management system, scheduling end operation management equipment and a scheduling end operation management medium. When the confirmation data corresponding to the operation item sequence is received, the operation item corresponding to the minimum value of the operation item number in the operation item sequence is used as an initial operation item. And checking by adopting the initial operation item and the key operation item to generate intermediate checking data. And executing an initial operation item based on the intermediate checking data and the preset checking data, and generating equipment state data. And constructing a configuration report corresponding to the operation ticket based on the first check result corresponding to the equipment state data and the second check result obtained through the power grid dispatching intelligent command platform. All operation items can be completed by only inputting a password for confirming operation, so that the operation efficiency is greatly improved, and the requirements of a dispatching end on safety and operation efficiency for realizing comprehensive remote control are met.

Description

Scheduling end operation management method, system, equipment and medium

Technical Field

The invention relates to the technical field of power grid dispatching, in particular to a dispatching end operation management method, a dispatching end operation management system, dispatching end operation management equipment and dispatching end operation management medium.

Background

With the continuous development of society, the requirements of users on power supply quality are higher and higher. In order to ensure safe and stable power supply, the power system continuously enhances the stability of the power grid, and power equipment is also increased year by year. In the face of the ever-increasing power equipment, a power dispatcher not only needs to carry out power cut and transmission operation in work, but also processes abnormal signals and emergency defects generated by the equipment, so that the safety risk of misoperation exists, and the breakdown of a normal power grid can be caused by one-time misoperation, so that the safety of a power system is seriously endangered.

In recent years, in order to improve the operation efficiency, slow down, improve the operation security, reduce the operation burden of a dispatcher, the intelligent and digital development of dispatching business is advanced, and the requirement of a dispatching terminal for comprehensively remotely controlling equipment is proposed. The intelligent command platform for power grid dispatching realizes network command for equipment operation, eliminates a telephone command mode which is easy to make mistakes, and improves the dispatching safety of operation. However, the network command form of the intelligent command platform for power grid dispatching still needs a dispatcher to compare the equipment state of the dispatching automation system, the operation is repeated and confirmed item by item, and in the power-off and power-on operation of the equipment, the dispatcher needs to repeatedly check the equipment state, so that the work efficiency is low and the safety is still to be improved.

At present, in order to improve the efficiency of equipment operation, the scheduling end operation management method uses scheduling end programming operation to perform equipment operation, the programming operation has multiple checking technologies such as equipment state checking, five-prevention locking checking and the like, but the programming operation still needs manual intervention for many times, and the operation efficiency is low.

Disclosure of Invention

The invention provides a scheduling end operation management method, a scheduling end operation management system, scheduling end operation management equipment and a scheduling end operation medium, and solves the technical problems that the scheduling end operation management method uses scheduling end programming operation to perform equipment operation, manual intervention is still needed for many times, and the operation efficiency is low.

The invention provides a scheduling end operation management method, which is applied to a scheduling automation system, and comprises the following steps:

when an operation ticket is received, performing operation item identification on the operation ticket to generate an operation item sequence and a plurality of key operation items;

when the confirmation data corresponding to the operation item sequence is received, an operation item corresponding to the minimum value of the operation item number in the operation item sequence is used as an initial operation item;

checking by adopting the initial operation item and the key operation item to generate intermediate checking data;

executing the initial operation item according to the intermediate checking data and the preset checking data to generate equipment state data;

And constructing a configuration report corresponding to the operation ticket according to the first check result corresponding to the equipment state data and the second check result obtained through the power grid dispatching intelligent command platform.

Optionally, the dispatch automation system includes an information storage center; the step of identifying the operation items of the operation ticket when the operation ticket is received and generating an operation item sequence and a plurality of key operation items comprises the following steps:

when an operation ticket is received, the operation ticket is subjected to operation item identification through the power grid dispatching intelligent command platform, and a plurality of operation items are generated;

numbering the operation items according to the operation sequence to generate operation items;

performing sequence construction on all the operation items according to the number sequence to generate an operation item sequence;

and selecting the operation items containing preset key fields in the operation item sequence through the information storage center, and generating a plurality of key operation items.

Optionally, the dispatching automation system comprises power grid basic information, an instruction database and an operation file module; the step of checking by adopting the initial operation item and the key operation item to generate intermediate checking data comprises the following steps:

Comparing the initial operation items with the key operation items respectively to generate a first comparison result;

if the first comparison result is the same, performing operation signal check by adopting the initial operation item and the power grid basic information to generate initial check data;

if the first comparison results are different, the initial operation item is used as initial check data;

and calling the operation file module through the instruction database to check the equipment state of the initial check data, and generating intermediate check data.

Optionally, the step of adopting the instruction database to call the operation file module to perform device state check on the initial check data and generate intermediate check data includes:

calling the operation file module through an instruction database to carry out checking type identification on the initial operation item, and determining a plurality of checking operations corresponding to the initial operation item;

and sequentially checking the equipment state of the equipment corresponding to the initial checking data according to the operation sequence of the checking operation, and generating intermediate checking data.

Optionally, the step of executing the initial operation item according to the intermediate checking data and the preset checking data to generate device state data includes:

When the intermediate checking data is preset checking data, executing the initial operation item through the instruction database to generate equipment state data;

when the intermediate checking data is not preset checking data, acquiring operation confirmation data of the intermediate checking data;

and when the operation confirmation data is a preset operation threshold value, executing the initial operation item through the instruction database in a jumping manner, and generating equipment state data.

Optionally, the step of constructing the configuration report corresponding to the operation ticket according to the first checking result corresponding to the equipment state data and the second checking result obtained by the power grid dispatching intelligent command platform includes:

comparing the first check result corresponding to the equipment state data with a second check result obtained through the power grid dispatching intelligent command platform to generate a second comparison result;

when the second comparison result is the same, comparing the operation item number corresponding to the initial operation item with the number corresponding to the operation item sequence to generate a third comparison result;

if the third comparison result is different, taking an operation item corresponding to the next number of the operation item numbers as the initial operation item, and skipping to execute the step of checking by adopting the initial operation item and the key operation item to generate intermediate check data;

And if the third comparison result is the same, constructing a configuration report corresponding to the operation ticket by adopting all operation data corresponding to the second comparison result through the power grid dispatching intelligent command platform.

The invention also provides a scheduling end operation management system which is applied to a scheduling automation system, wherein the system comprises:

the operation item sequence and key operation item generation module is used for identifying operation items of the operation ticket when the operation ticket is received, and generating an operation item sequence and a plurality of key operation items;

the initial operation item determining module is used for taking an operation item corresponding to the minimum value of the operation item numbers in the operation item sequence as an initial operation item when confirmation data corresponding to the operation item sequence is received;

the intermediate checking data generation module is used for checking by adopting the initial operation item and the key operation item to generate intermediate checking data;

the equipment state data generation module is used for executing the initial operation item according to the intermediate check data and the preset check data to generate equipment state data;

and the configuration report construction module is used for constructing a configuration report corresponding to the operation ticket according to the first check result corresponding to the equipment state data and the second check result obtained through the power grid dispatching intelligent command platform.

Optionally, the scheduling automation system includes an information storage center, and the operation item sequence and key operation item generating module includes:

the operation item generation module is used for identifying operation items of the operation ticket through the power grid dispatching intelligent command platform when the operation ticket is received, and generating a plurality of operation items;

the operation item generation module is used for numbering the operation items according to the operation sequence respectively to generate operation items;

the operation item sequence generation module is used for carrying out sequence construction on all the operation items according to the number sequence to generate an operation item sequence;

and the key operation item generation module is used for selecting the operation items containing preset key fields in the operation item sequence through the information storage center to generate a plurality of key operation items.

The invention also provides an electronic device, which comprises a memory and a processor, wherein the memory stores a computer program, and the computer program when executed by the processor causes the processor to execute the steps for realizing the scheduling end operation management method according to any one of the above.

The present invention also provides a computer-readable storage medium having stored thereon a computer program which, when executed, implements a scheduling end operation management method as any one of the above.

From the above technical scheme, the invention has the following advantages:

the invention generates an operation item sequence and a plurality of key operation items by identifying the operation items of the operation ticket when the operation ticket is received. When the confirmation data corresponding to the operation item sequence is received, the operation item corresponding to the minimum value of the operation item number in the operation item sequence is used as an initial operation item. And checking by adopting the initial operation item and the key operation item to generate intermediate checking data. And executing an initial operation item according to the intermediate checking data and the preset checking data to generate equipment state data. And constructing a configuration report corresponding to the operation ticket according to the first check result corresponding to the equipment state data and the second check result obtained through the power grid dispatching intelligent command platform. The scheduling end operation management method solves the technical problems that the scheduling end programming operation is used for equipment operation, manual intervention is still needed for many times, and the operation efficiency is low. Establishing a DICP and OCS mutual checking mechanism. On the premise that the security of 'machine prevention' is guaranteed, a guardian or a responsible person on duty can finish all operation items by only inputting a password for confirming operation once, so that the operation efficiency is greatly improved. The requirements of the dispatching end on safety and operation efficiency are met, and a solid foundation is laid for the intelligentization and digitization of power grid construction.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions of the prior art, the drawings which are used in the description of the embodiments or the prior art will be briefly described, it being obvious that the drawings in the description below are only some embodiments of the invention, and that other drawings can be obtained from these drawings without inventive faculty for a person skilled in the art.

FIG. 1 is a flowchart illustrating steps of a method for managing operations of a scheduling end according to a first embodiment of the present invention;

fig. 2 is a flowchart of a scheduling end operation management method according to a second embodiment of the present invention;

FIG. 3 is a block diagram illustrating a second embodiment of a scheduling automation system;

fig. 4 is a flow chart of a scheduling end operation management method according to a second embodiment of the present invention;

fig. 5 is a block diagram of a scheduling end operation management system according to a third embodiment of the present invention.

Detailed Description

The embodiment of the invention provides a scheduling end operation management method, a scheduling end operation management system, scheduling end operation management equipment and a scheduling end operation medium, which are used for solving the technical problems that the scheduling end operation management method uses scheduling end programming operation to perform equipment operation, manual intervention is still needed for many times, and the operation efficiency is low.

The scheduling end programming operation has various checking functions, but the checking functions are all implemented by taking a DICP (digital computer graphics processing) as a command end, an OCS (scheduling automation system) as an execution end, when the scheduling end programming operation is operated, an operator sends an operation instruction to the OCS through the DICP, when the scheduling end programming operation is operated to key steps such as opening and closing, a guardian is required to input a password to confirm the execution, and after the operation is finished, the DICP checks an operation result. The existing operation flow still has the following problems:

1. after the operation item is executed, only the DICP is used for checking the operation result, and once the system is abnormal, misoperation can occur, so that the equipment state still needs to be confirmed manually after the operation item is executed.

2. For common operations, at least 6 key operations of the operation task are to be completed, that is, at least 6 password confirmations are required to be input by the guardian to complete the operation task. The operation efficiency is restricted, and the requirement of the dispatching end for realizing comprehensive remote control cannot be met.

3. The guardian and the person on duty responsible person can carry out guardian password input, the guardian and the person on duty responsible person who cannot forcedly operate the ticket can carry out password input, and the person on duty responsible person can easily become single operation under the condition that the dispatcher is unconscious, so that potential safety hazards exist.

According to the invention, the intelligent checking of the equipment state is realized by establishing the DICP and OCS two system data transmission channels, and the equipment state is checked by mutual checking and comparison among the systems, so that the operation safety is improved. And (3) setting a third party password input locking logic, wherein only a guardian or a person responsible for duty can input the password to confirm in the operation, so that the third party personnel is forbidden to input the password, and the single operation and the non-guardian operation are prevented. And the bottom data transmission logic is modified, the manual intervention times are reduced, the automatic command issuing and command resetting of the intelligent robot are completed, and the operating efficiency of equipment is liberated. Finally, the safety and efficiency of the dispatching operation can meet the requirement of comprehensive remote control of a dispatching end.

In order to make the objects, features and advantages of the present invention more comprehensible, the technical solutions in the embodiments of the present invention are described in detail below with reference to the accompanying drawings, and it is apparent that the embodiments described below are only some embodiments of the present invention, but not all embodiments of the present invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1, fig. 1 is a flowchart illustrating a scheduling end operation management method according to an embodiment of the present invention.

The first embodiment of the invention provides a scheduling end operation management method, which is applied to a scheduling automation system, and comprises the following steps:

and 101, when an operation ticket is received, identifying the operation ticket into an operation item, and generating an operation item sequence and a plurality of key operation items.

In the embodiment of the invention, when the operation ticket is received, the operation ticket is identified by the power grid dispatching intelligent command platform to generate a plurality of operation items. The operation items are numbered according to the operation sequence, the operation items are generated, and all the operation items are constructed in sequence according to the number sequence, so that the operation item sequence is generated. And selecting operation items containing preset key fields in the operation item sequence through the information storage center, and generating a plurality of key operation items.

Step 102, when receiving the confirmation data corresponding to the operation item sequence, using the operation item corresponding to the minimum operation item number in the operation item sequence as the initial operation item.

In the embodiment of the invention, before starting operation, the OCS compulsorily requires a guardian or a duty responsible person to input a password, confirms that all operation items are correct, generates confirmation data, and permits the DICP to execute intelligent operation of the robot. And the operation item corresponding to the minimum value of the operation item numbers in the operation item sequence is used as an initial operation item, namely the first operation item to be executed is determined.

And 103, checking by adopting the initial operation item and the key operation item to generate intermediate checking data.

In an embodiment of the invention, the dispatching automation system comprises power grid basic information, an instruction database and an operation file module. And comparing the initial operation items with the key operation items respectively to generate a first comparison result. If the first comparison result is the same, performing operation signal checking by adopting the initial operation item and the power grid basic information, and generating initial checking data. And if the first comparison results are different, taking the initial operation item as initial check data. And calling an operation file module through the instruction database to check the equipment state of the initial check data, and generating intermediate check data.

And 104, executing an initial operation item according to the intermediate checking data and the preset checking data to generate equipment state data.

In the embodiment of the invention, when the intermediate checking data is preset checking data, the initial operation item is executed through the instruction database to generate the equipment state data. And when the intermediate checking data is not the preset checking data, acquiring operation confirmation data of the intermediate checking data. When the operation confirmation data is a preset operation threshold value, the step of executing the initial operation item through the instruction database and generating equipment state data is skipped.

And 105, constructing a configuration report corresponding to the operation ticket according to the first check result corresponding to the equipment state data and the second check result obtained through the power grid dispatching intelligent command platform.

In the embodiment of the invention, the first check result corresponding to the equipment state data is compared with the second check result obtained through the power grid dispatching intelligent command platform, and a second comparison result is generated. And when the second comparison result is the same, comparing the number of the operation items corresponding to the initial operation item with the number corresponding to the operation item sequence, and generating a third comparison result. And if the third comparison result is different, taking the operation item corresponding to the next number of the operation item numbers as an initial operation item, and skipping to execute the step of checking by adopting the initial operation item and the key operation item to generate intermediate checking data. And if the third comparison results are the same, constructing a configuration report corresponding to the operation ticket by adopting operation data corresponding to all the second comparison results through the power grid dispatching intelligent command platform.

In the embodiment of the invention, the operation item sequence and the plurality of key operation items are generated by identifying the operation items of the operation ticket when the operation ticket is received. When the confirmation data corresponding to the operation item sequence is received, the operation item corresponding to the minimum value of the operation item number in the operation item sequence is used as an initial operation item. And checking by adopting the initial operation item and the key operation item to generate intermediate checking data. And executing an initial operation item according to the intermediate checking data and the preset checking data to generate equipment state data. And constructing a configuration report corresponding to the operation ticket according to the first check result corresponding to the equipment state data and the second check result obtained through the power grid dispatching intelligent command platform. The scheduling end operation management method solves the technical problems that the scheduling end programming operation is used for equipment operation, manual intervention is still needed for many times, and the operation efficiency is low. Establishing a DICP and OCS mutual checking mechanism. On the premise that the security of 'machine prevention' is guaranteed, a guardian or a responsible person on duty can finish all operation items by only inputting a password for confirming operation once, so that the operation efficiency is greatly improved. The requirements of the dispatching end on safety and operation efficiency are met, and a solid foundation is laid for the intelligentization and digitization of power grid construction.

Referring to fig. 2, fig. 2 is a flowchart illustrating a scheduling end operation management method according to a second embodiment of the present invention.

The dispatching automation system shown in fig. 3 comprises an instruction database, power grid basic information, an operation file module, an information storage center, a configuration report module and a standard encryption software package, wherein the power grid basic information, the operation file module, the information storage center and the configuration report module are respectively connected with the instruction database.

The instruction database is used for coordinating the whole equipment operation process, the information storage center is used for receiving and recording all operation items, the power grid basic information and the operation file module are called to operate the operation items item by item and check operation results, the code of a guardian or a person responsible on duty is checked by the standard encryption software package before operation, the code of the operation equipment is checked, and finally the operation results are fed back through the configuration report module.

And recording the equipment state and the power grid tide condition by using power grid basic information, wherein the power grid basic information at least comprises a regional power grid wiring diagram, equipment information and equipment operation specifications. The equipment information comprises equipment type, equipment opening and closing state, whether equipment can be remotely controlled, equipment name and number and electrification condition of the equipment. The equipment operation specification comprises equipment opening and closing operation logic, an inter-equipment operation logic sequence and bus voltage loss studying and judging.

The operation file module is used for operation project safety check and operation result comparison, and comprises equipment state check, five-prevention check, contemporaneous state check, tide check, check type discrimination and operation termination. The operation abnormal termination comprises verification failure termination, equipment abnormal termination, result abnormal termination and manual forced termination.

The information storage center is used for storing basic information of the operation ticket, including operation information of all operation items, operation sequence, operators, guardianship persons, duty responsible persons and the like of the operation ticket. And carrying out backup storage and operation analysis on the operation items, and identifying key operation items and non-key operation items.

The configuration report module is used for transmitting an operation instruction to the OCS, feeding back an operation result of the OCS to the DICP, feeding back the operation result to the instruction database, and finally outputting a configuration report.

The standard encryption software package is used for recording all personnel with operation qualification and corresponding operation passwords thereof, recording operation codes of each device, and checking the operation device and confirming the operation start during operation.

The second embodiment of the present invention provides another scheduling end operation management method, which is applied to a scheduling automation system, and the method includes:

And 201, when an operation ticket is received, identifying the operation items of the operation ticket through the power grid dispatching intelligent command platform, and generating a plurality of operation items.

In the embodiment of the invention, when any equipment starts power-on and power-off operation, operation items of operation tickets corresponding to the equipment are identified through the power grid dispatching intelligent command platform DICP, and a plurality of operation items corresponding to the equipment operation tickets are obtained.

Step 202, the operation items are respectively numbered according to the operation sequence, and the operation items are generated.

In an embodiment of the invention, the dispatch automation system includes an information storage center. And the power grid dispatching intelligent command platform DICP transmits all operation items to the information storage center of the OCS at one time for storage backup. The information storage center assigns a number to each operation in the operation order of the operation ticket when storing the operation items. The numbering is given so that operations can be performed in strict order of numbering at the time of operation, and the occurrence of skip and miss operations is prevented. The number is given according to the operation sequence of all the operation items, and the information storage center marks the last operation item.

And 203, constructing the sequence of all the operation items according to the number sequence to generate an operation item sequence.

In the embodiment of the invention, the operation item sequence is constructed by sequencing all the operation items according to the number sequence.

Step 204, selecting an operation item including a preset key field in the operation item sequence by the information storage center, and generating a plurality of key operation items.

In the embodiment of the invention, the information storage center stores the set operation keyword library, such as words of on, off, pull-open and the like. The information storage center compares each operation item in the operation item sequence with the keyword library before the operation starts, finds out the operation item with the key field, and uses the operation item as the key operation item.

Step 205, when receiving the confirmation data corresponding to the operation item sequence, using the operation item corresponding to the minimum operation item number in the operation item sequence as the initial operation item.

In the embodiment of the present invention, the implementation process of step 205 is similar to that of step 102, and will not be repeated here.

And 206, checking by adopting the initial operation item and the key operation item to generate intermediate checking data.

Further, the dispatch automation system includes grid base information, an instruction database, and an operation file module, and step 206 may include the following sub-steps S11-S14:

S11, comparing the initial operation items with the key operation items respectively to generate a first comparison result.

And S12, if the first comparison result is the same, performing operation signal check by adopting the initial operation item and the power grid basic information, and generating initial check data.

And S13, if the first comparison results are different, taking the initial operation item as initial check data.

S14, calling an operation file module through the instruction database to check the equipment state of the initial check data, and generating intermediate check data.

In the embodiment of the invention, whether the initial operation item is a key operation item is judged, if so, the operation item is an operation item which influences the state of the equipment after operation. Analyzing the instructions needed by the initial operation items, acquiring key information such as closing, opening, XX switch, XX disconnecting link and the like, and acquiring basic information such as legacy abnormal signals, equipment states, system power flow and the like of the XX station from basic information of a power grid after the instruction database receives the information (the information can be automatically updated in real time in the system), so that manual operation is not needed. And performing operation signal check by adopting the initial operation item and the power grid basic information to generate initial check data. If not, the operation item is an operation item which does not influence the state of the equipment after operation, and the initial operation item is taken as initial checking data. And then, calling an operation file module through an instruction database to further check the initial check data, namely checking the equipment state corresponding to the initial operation item, and generating intermediate check data.

Further, step S14 may include the following substeps S141-S142:

s141, calling an operation file module through an instruction database to carry out checking type identification on the initial operation item, and determining a plurality of checking operations corresponding to the initial operation item.

S142, sequentially checking the device states of the devices corresponding to the initial checking data according to the operation sequence of the checking operation, and generating intermediate checking data.

In the embodiment of the invention, the check type is judged firstly during operation, and the security check required to be carried out is judged. Such as: the equipment state check, the five-prevention check and the abnormal signal check are general check, and all operations need to be performed in the check. And the synchronous state check and the tide check are the safety check which is selected and used only when the switch is operated. The sequence exists among the checks: 1. checking the state of equipment; 2. checking five prevention; 3. checking abnormal signals; 4. checking tide; 5. and checking the synchronous state. The system immediately terminates the operation when the equipment state check and the five-prevention check are highest in level and abnormal; the system judges the level of the abnormal signal (the level of the abnormal signal is set in advance in the mobilization automation system) after checking the abnormal signal, if the signal is a primary signal, the system immediately stops operation, and if other levels of abnormal signals are the same, an operator is required to confirm that the abnormal signal does not influence the operation; when the tide checking and the contemporaneous state checking detect the abnormality, the operator is required to confirm that the abnormality does not affect the operation or continue the operation after the operator eliminates the abnormality. And then sequentially checking the equipment state of the equipment corresponding to the initial checking data according to the operation sequence of the checking operation, and constructing intermediate checking data by adopting all the obtained checking structures.

Step 207, executing an initial operation item according to the intermediate checking data and the preset checking data, and generating equipment state data.

Further, step 207 may include the following substeps S21-S23:

s21, when the intermediate checking data is preset checking data, the initial operation item is executed through the instruction database, and equipment state data are generated.

S22, when the intermediate checking data is not the preset checking data, acquiring operation confirmation data of the intermediate checking data.

S23, when the operation confirmation data is a preset operation threshold value, executing the initial operation item through the instruction database in a jumping mode, and generating equipment state data.

The preset check data refers to that before each operation item is operated, no operation-related primary signal appears in the OCS.

The preset operation threshold is an instruction for confirming that the operation item is continuously executed by an operator.

In the embodiment of the invention, in order to prevent the robot from continuing to operate in abnormal conditions, the robot has an abnormal signal detection function, and before each operation item is operated, an abnormal signal in the OCS is detected. When the primary signal related to the operation does not exist, the initial operation item is executed through the instruction database, so that the equipment state data corresponding to the operation ticket is obtained. When a primary signal related to operation occurs, the operation is automatically stopped. And (3) enabling the operator to confirm whether the operation can be continued or not, and if so, jumping to execute the step of executing the initial operation item through the instruction database to generate the equipment state data. Otherwise, an operation of the device is received.

And step 208, constructing a configuration report corresponding to the operation ticket according to the first check result corresponding to the equipment state data and the second check result obtained through the power grid dispatching intelligent command platform.

Further, step 208 may include the following substeps S31-S34:

s31, comparing the first check result corresponding to the equipment state data with a second check result obtained through the power grid dispatching intelligent command platform to generate a second comparison result.

And S31, when the second comparison result is the same, comparing the number of the operation items corresponding to the initial operation item with the number corresponding to the operation item sequence, and generating a third comparison result.

And S33, if the third comparison results are different, taking the operation item corresponding to the next number of the operation item numbers as an initial operation item, and skipping to execute the step of checking by adopting the initial operation item and the key operation item to generate intermediate checking data.

And S34, if the third comparison result is the same, constructing a configuration report corresponding to the operation ticket by adopting operation data corresponding to all the second comparison results through the power grid dispatching intelligent command platform.

In the embodiment of the invention, after the configuration report module feeds back the equipment state data to the DICP, the instruction database initiates a mutual checking instruction, and at the moment, the operation file module simultaneously sends out an instruction for checking the equipment state to the OCS and the DICP, and after checking, a checking result is fed back. And comparing the first checking result corresponding to the equipment state data with a second checking result obtained through the power grid dispatching intelligent command platform to generate a second comparison result. And the operation file module verifies whether the checking results of the mutual checking instructions are consistent or not, and feeds back the checking results to the instruction database. And checking the state of the equipment, namely checking whether the current state of the equipment is always equal to the target state. Such as: the operation item is to turn off the switch A, the switch state is changed into an off state after the operation is finished, at the moment, the OCS and the DICP can check the state of the switch A, only when the check results of the OCS and the DICP are that the switch A is at the off position, the check is passed, and when one check result is abnormal, the operation is terminated. And when the checking results are correct and consistent, judging whether the operation item number corresponding to the initial operation item is the last item, namely, comparing the operation item number corresponding to the initial operation item with the number corresponding to the operation item sequence, and generating a third comparison result. When the initial operation item is not the last item, taking the operation item corresponding to the next number of the operation item number as the initial operation item, skipping to execute the step of checking by adopting the initial operation item and the key operation item to generate intermediate checking data, and executing the next operation item. When the initial operation item is the last item, configuration reports, backfilling operation time and other information are exported through DICP, and the power grid basic information is updated, namely, the operation data corresponding to all second comparison results are adopted through the power grid dispatching intelligent command platform, so that the configuration reports corresponding to the operation tickets are constructed.

In the embodiment of the present invention, as shown in fig. 4, any device starts a power-off operation, and the dicop first sends all operation items of an operation ticket to a dispatching automation system (OCS) for storage backup and operation analysis, i.e. stores the operation items in an information storage center, and assigns numbers. And acquiring the confirmation data corresponding to the operation item sequence, and confirming that one-key sequential control is started even if the operator or guardian inputs a password. And analyzing the operation content of the initial operation item. And inquiring the state of the target equipment, confirming that the state of the equipment is normal, executing an operation file module, and performing multiple security check, namely checking by adopting the initial operation item and the key operation item, so as to generate intermediate check data. When the intermediate check data is not the preset check data, the operator or guardian confirms whether the operation can be continued. When the intermediate checking data is preset checking data, the initial operation item is executed through the instruction database, and the equipment state data, namely the OCS executing operation instruction, is generated. The OCS checks the equipment state, namely, the equipment state data is checked through the OCS, and a first check result is generated. The DICP checking device state is the second checking result obtained through the power grid dispatching intelligent command platform. And comparing the checking result of the DICP and the OCS, and ending the operation if the checking result does not pass. If the comparison results are correct and consistent, judging whether all operations are completed, if so, completing configuration report, updating power grid basic information, and ending the operations. If not, taking the operation item corresponding to the next number of the operation item number as an initial operation item, and jumping to execute the step of checking by adopting the initial operation item and the key operation item to generate intermediate checking data, namely taking the operation item corresponding to the next number of the operation item number as the initial operation item, and jumping to execute the step of analyzing the operation content of the initial operation item. By establishing an information storage center to uniformly process all operation items, the reading and analyzing efficiency of the operation items is improved. And establishing a DICP and OCS mutual checking mechanism, and synchronously checking, abnormal signal checking and other security checking technologies and improving the operation security. On the premise that the security of machine prevention is guaranteed, a dispatcher can complete all operation items by only inputting a password once to confirm operation, so that manual intervention is reduced, and the operation efficiency is improved.

Referring to fig. 5, fig. 5 is a block diagram illustrating a scheduling end operation management system according to a third embodiment of the present invention.

The third embodiment of the present invention provides a scheduling end operation management system, which is applied to a scheduling automation system, and the system includes:

the operation item sequence and key operation item generating module 501 is configured to, when receiving an operation ticket, identify an operation item of the operation ticket, and generate an operation item sequence and a plurality of key operation items.

The initial operation item determining module 502 is configured to, when receiving the confirmation data corresponding to the operation item sequence, use an operation item corresponding to the minimum value of the operation item numbers in the operation item sequence as an initial operation item.

The intermediate checking data generating module 503 is configured to perform checking by using the initial operation item and the key operation item, and generate intermediate checking data.

The device state data generating module 504 is configured to execute an initial operation item according to the intermediate check data and the preset check data, and generate device state data.

The configuration report construction module 505 is configured to construct a configuration report corresponding to the operation ticket according to the first check result corresponding to the equipment status data and the second check result obtained by the power grid dispatching intelligent command platform.

Optionally, the dispatch automation system includes an information storage center, and the operation item sequence and key operation item generation module 501 includes:

The operation item generation module is used for identifying the operation items of the operation ticket through the power grid dispatching intelligent command platform when the operation ticket is received, so as to generate a plurality of operation items;

the operation item generation module is used for numbering operation items according to the operation sequence respectively to generate operation items;

the operation item sequence generation module is used for carrying out sequence construction on all operation items according to the number sequence to generate an operation item sequence;

the key operation item generation module is used for selecting operation items containing preset key fields in the operation item sequence through the information storage center to generate a plurality of key operation items.

Optionally, the dispatching automation system includes a grid base information, an instruction database, and an operation file module, and the intermediate checking data generating module 503 includes:

the first comparison result generation module is used for comparing the initial operation items with the key operation items respectively to generate a first comparison result.

And the initial check data first generation module is used for checking the operation signals by adopting the initial operation items and the power grid basic information if the first comparison results are the same, so as to generate initial check data.

And the initial check data second generation module is used for taking the initial operation item as initial check data if the first comparison results are different.

And the intermediate checking data generation sub-module is used for carrying out equipment state checking on the initial checking data by calling the operation file module through the instruction database to generate intermediate checking data.

Optionally, the intermediate check data generation sub-module may perform the steps of:

the method comprises the steps of calling an operation file module through an instruction database to carry out checking type identification on an initial operation item, and determining a plurality of checking operations corresponding to the initial operation item;

Optionally, the device state data generation module 504 includes:

the device state data first generation module is used for generating device state data by executing initial operation items through the instruction database when the intermediate check data is preset check data.

And the operation confirmation data acquisition module is used for acquiring the operation confirmation data of the intermediate check data when the intermediate check data is not the preset check data.

And the second generation module of the equipment state data is used for jumping to execute the step of executing the initial operation item through the instruction database to generate the equipment state data when the operation confirmation data is a preset operation threshold value.

Optionally, the configuration report building module 505 includes:

the second comparison result generation module is used for comparing the first check result corresponding to the equipment state data with the second check result obtained through the power grid dispatching intelligent command platform to generate a second comparison result.

And the third comparison result generation module is used for comparing the number of the operation item corresponding to the initial operation item with the number corresponding to the operation item sequence when the second comparison result is the same, so as to generate a third comparison result.

And if the third comparison result is different, taking the operation item corresponding to the next number of the operation item numbers as an initial operation item, and skipping to execute the step of checking by adopting the initial operation item and the key operation item to generate intermediate checking data.

And the configuration report second construction submodule is used for constructing a configuration report corresponding to the operation ticket by adopting operation data corresponding to all second comparison results through the power grid dispatching intelligent command platform if the third comparison results are the same.

The embodiment of the invention also provides electronic equipment, which comprises: a memory and a processor, the memory storing a computer program; the computer program, when executed by a processor, causes the processor to perform the scheduling end operation management method of any one of the embodiments described above.

The memory may be an electronic memory such as a flash memory, an EEPROM (electrically erasable programmable read only memory), an EPROM, a hard disk, or a ROM. The memory has memory space for program code to perform any of the method steps described above. For example, the memory space for the program code may include individual program code for implementing the various steps in the above method, respectively. The program code can be read from or written to one or more computer program products. These computer program products comprise a program code carrier such as a hard disk, a Compact Disc (CD), a memory card or a floppy disk. The program code may be compressed, for example, in a suitable form. The code, when executed by a computing processing device, causes the computing processing device to perform the steps in the scheduling end operation management method described above.

The embodiment of the invention also provides a computer readable storage medium, on which a computer program is stored, which when executed by a processor, implements the scheduling end operation management method according to any of the above embodiments.

It will be clear to those skilled in the art that, for convenience and brevity of description, specific working procedures of the above-described systems, apparatuses and units may refer to corresponding procedures in the foregoing method embodiments, which are not repeated herein.

In the several embodiments provided in the present application, it should be understood that the disclosed systems, devices, and methods may be implemented in other manners. For example, the apparatus embodiments described above are merely illustrative, e.g., the division of elements is merely a logical functional division, and there may be additional divisions of actual implementation, e.g., multiple elements or components may be combined or integrated into another system, or some features may be omitted, or not performed. Alternatively, the coupling or direct coupling or communication connection shown or discussed with each other may be an indirect coupling or communication connection via some interfaces, devices or units, which may be in electrical, mechanical or other form.

The units described as separate units may or may not be physically separate, and units shown as units may or may not be physical units, may be located in one place, or may be distributed over a plurality of network units. Some or all of the units may be selected according to actual needs to achieve the purpose of the solution of this embodiment.

In addition, each functional unit in the embodiments of the present application may be integrated in one processing unit, or each unit may exist alone physically, or two or more units may be integrated in one unit. The integrated units may be implemented in hardware or in software functional units.

The integrated units, if implemented in the form of software functional units and sold or used as stand-alone products, may be stored in a computer readable storage medium. Based on such understanding, the technical solution of the present invention may be embodied in essence or a part contributing to the prior art or all or part of the technical solution in the form of a software product stored in a storage medium, including several instructions for causing a computer device (which may be a personal computer, a server, or a network device, etc.) to perform all or part of the steps of the methods of the embodiments of the present invention. And the aforementioned storage medium includes: a U-disk, a removable hard disk, a Read-Only Memory (ROM), a random access Memory (RAM, random Access Memory), a magnetic disk, or an optical disk, or other various media capable of storing program codes.

The above embodiments are only for illustrating the technical solution of the present invention, and are not limiting; although the invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present invention.

Claims

1. A method for managing operations of a scheduling end, which is applied to a scheduling automation system, the method comprising:

constructing a configuration report corresponding to the operation ticket according to a first check result corresponding to the equipment state data and a second check result obtained through a power grid dispatching intelligent command platform;

the dispatching automation system comprises power grid basic information, an instruction database and an operation file module; the step of checking by adopting the initial operation item and the key operation item to generate intermediate checking data comprises the following steps:

calling the operation file module through an instruction database to check the equipment state of the initial check data, and generating intermediate check data;

the step of constructing a configuration report corresponding to the operation ticket according to the first checking result corresponding to the equipment state data and the second checking result obtained by the power grid dispatching intelligent command platform comprises the following steps:

2. The scheduling end operation management method according to claim 1, wherein the scheduling automation system comprises an information storage center; the step of identifying the operation items of the operation ticket when the operation ticket is received and generating an operation item sequence and a plurality of key operation items comprises the following steps:

3. The scheduling end operation management method according to claim 1, wherein the step of performing device state check on the initial check data by calling the operation file module through the instruction database to generate intermediate check data includes:

4. The scheduling end operation management method according to claim 1, wherein the step of executing the initial operation item according to the intermediate check data and the preset check data and generating the device state data includes:

5. A scheduling end operation management system, applied to a scheduling automation system, the system comprising:

the configuration report construction module is used for constructing a configuration report corresponding to the operation ticket according to a first check result corresponding to the equipment state data and a second check result obtained through the power grid dispatching intelligent command platform;

the dispatching automation system comprises power grid basic information, an instruction database and an operation file module; the intermediate checking data generating module comprises:

the first comparison result generation module is used for comparing the initial operation items with the key operation items respectively to generate a first comparison result;

The first generation module of the initial check data is used for checking operation signals by adopting the initial operation items and the power grid basic information if the first comparison results are the same, so as to generate the initial check data;

the second generation module of initial check data is used for taking the initial operation item as initial check data if the first comparison results are different;

the intermediate checking data generation sub-module is used for calling the operation file module through the instruction database to check the equipment state of the initial checking data so as to generate intermediate checking data;

the configuration report construction module comprises:

the second comparison result generation module is used for comparing the first check result corresponding to the equipment state data with a second check result obtained through the power grid dispatching intelligent command platform to generate a second comparison result;

the third comparison result generation module is used for comparing the number of the operation item corresponding to the initial operation item with the number corresponding to the operation item sequence when the second comparison result is the same, so as to generate a third comparison result;

a first configuration report constructing sub-module, configured to take an operation item corresponding to the next number of the operation item numbers as the initial operation item if the third comparison result is different, and skip and execute the step of checking by adopting the initial operation item and the key operation item to generate intermediate checking data;

And the configuration report second construction submodule is used for constructing a configuration report corresponding to the operation ticket by adopting all operation data corresponding to the second comparison result through the power grid dispatching intelligent command platform if the third comparison result is the same.

6. The scheduling end operation management system of claim 5, wherein the scheduling automation system comprises an information storage center, and wherein the sequence of operation items and key operation item generation module comprises:

7. An electronic device comprising a memory and a processor, wherein the memory stores a computer program that, when executed by the processor, causes the processor to perform the steps of the scheduling end operation management method of any one of claims 1 to 4.

8. A computer-readable storage medium having stored thereon a computer program, wherein the computer program when executed implements the scheduling end operation management method according to any one of claims 1 to 4.