CN117933949A - Execution method, device, storage medium and processor for power-supply-protection electric sheet - Google Patents

Abstract

The invention discloses an execution method, an execution device, a storage medium and a processor for a power-supply-protecting electrical sheet. The method comprises the following steps: determining the execution state of at least one protection power worksheet; determining the starting execution time of the power-saving work order in response to the execution state being the to-be-executed state, wherein the power-saving work order is used for ensuring the normal operation of the power supply equipment, and the starting execution time is used for indicating the time for starting to execute the power-saving work order; determining at least one target power-saving work order from a plurality of power-saving work orders based on the starting execution time, wherein the target power-saving work order is the power-saving work order of which the current time has reached the starting execution time; and executing the target power-protecting work order at the current moment. The invention solves the technical problem of low execution efficiency of the power-saving work order.

Description

Execution method, device, storage medium and processor for power-supply-protection electric sheet

Technical Field

The invention relates to the technical field of electrician orders, in particular to a method and a device for executing a power-protecting work order, a storage medium and a processor.

Background

After checking the power-supply-protecting work orders, a dispatcher hangs the power-supply-protecting cards on the lines corresponding to the power-supply-protecting work orders in the distribution network automation system, provides power-supply-protecting information for related personnel, and monitors the power-supply-protecting line conditions in real time. And removing the power protection cards of the corresponding power protection lines after the power protection is finished, notifying related personnel, and archiving the power protection and supply electric bill.

The intelligent degree of the power protection module in the current power distribution network technical platform is insufficient, the whole process needs manual operation, a great amount of time of a dispatcher is consumed for processing, and the manual operation of the dispatcher is easy to cause misoperation, so that the technical problem of low execution efficiency of the power protection work order is caused.

Aiming at the technical problem of low execution efficiency of the power-supply protection sheet, no effective solution is proposed at present.

Disclosure of Invention

The embodiment of the invention provides a method, a device, a storage medium and a processor for executing a power-supply-ensured work order, which at least solve the technical problem of low execution efficiency of the power-supply-ensured work order.

According to one aspect of an embodiment of the invention, a method of executing a power supply protection sheet is provided. The method may include: determining the execution state of at least one protection power worksheet; determining the starting execution time of the power-saving work order in response to the execution state being the to-be-executed state, wherein the power-saving work order is used for ensuring the normal operation of the power supply equipment, and the starting execution time is used for indicating the time for starting to execute the power-saving work order; determining at least one target power-saving work order from a plurality of power-saving work orders based on the starting execution time, wherein the target power-saving work order is the power-saving work order of which the current time has reached the starting execution time; and executing the target power-protecting work order at the current moment.

Optionally, executing the target warranty power worksheet at the current time includes: determining first line information in a target power-saving work order, wherein the first line information is used for representing a line needing to be marked; generating line registration application information based on the first line information; and based on the listing application information and the switch state in the line, listing the line to obtain a listing result, wherein the listing result is used for representing whether the listing of the line in the target power-protection work order is successful or not.

Optionally, based on the card-hanging application information and the switch state in the line, the card hanging is carried out on the line to obtain a card-hanging result, including: responding to the result of the listing to be unsuccessful, regenerating the listing application information of the line, and listing the line, wherein the unsuccessful listing is used for representing that at least one line in the target power supply protection bill fails to be listed; the method further comprises the steps of: and responding to the result of the listing as successful listing, and converting the execution state of the target power-supply-maintaining work order into an execution state, wherein the successful listing is used for representing that all lines in the target power-supply-maintaining work order are successfully marked.

Optionally, the method further comprises: determining second line information and end time in the target power-saving work order, wherein the second line information is used for representing a line needing to pick cards; generating the card picking application information of the line based on the second line information and the ending time; and carrying out card picking on the line based on the card picking application information and the switch state in the line to obtain a card picking result, wherein the card picking result is used for representing whether the card picking on the line in the target power-saving work order is successful or not.

Optionally, the method further comprises: responding to the successful card picking result, and converting the execution state of the target power-saving work order into an archiving state, wherein quotation removal is used for representing that all lines in the target power-saving work order are picked successfully; and generating prompt information in response to the unsuccessful card picking result quotation removal, wherein the prompt information is used for prompting the card picking failure of the line.

Optionally, the method further comprises: based on the prompt information, picking a card by using the target object to obtain a card picking result; and responding to the successful card picking result, and converting the execution state of the target power-saving and supplying bill into the archiving state.

Optionally, before determining the execution state of the at least one protection worksheet, the method includes: checking the power-supply-ensured worksheet to obtain a checking result, wherein the checking result is used for representing whether filling of the power-supply-ensured worksheet meets standard conditions or not; determining the execution state of the power-saving sheet in response to the test result being in accordance with the standard condition; and responding to the test result that the standard condition is not met, and returning the power-supply-protecting sheet.

According to an aspect of an embodiment of the present invention, there is provided an execution apparatus for protecting an electrical sheet. The apparatus may include: the first determining unit is used for determining the execution state of at least one security work order; the second determining unit is used for determining the starting execution time of the power-saving work order in response to the execution state being the to-be-executed state, wherein the power-saving work order is used for ensuring the normal operation of the power supply equipment, and the starting execution time is used for indicating the time for starting to execute the power-saving work order; a third determining unit, configured to determine at least one target power-saving work order from a plurality of power-saving work orders based on the start execution time, where the target power-saving work order is a power-saving work order whose current time has reached the start execution time; and the execution unit is used for executing the target security power worksheet at the current moment.

According to another aspect of the embodiments of the present invention, there is also provided a computer-readable storage medium including a stored program, where the program when executed by a processor controls a device in which the storage medium is located to perform a method according to the embodiments of the present invention.

According to another aspect of the embodiment of the present invention, there is also provided a processor, where the processor is configured to execute a program, and the program executes the method in the embodiment of the present invention.

According to another aspect of the embodiments of the present invention, there is also provided a computer program product comprising a computer program which, when executed by a processor, implements the method of the embodiments of the present invention.

In the embodiment of the invention, the execution state of at least one protection work order is determined; determining the starting execution time of the power-saving work order in response to the execution state being the to-be-executed state, wherein the power-saving work order is used for ensuring the normal operation of the power supply equipment, and the starting execution time is used for indicating the time for starting to execute the power-saving work order; determining at least one target power-saving work order from a plurality of power-saving work orders based on the starting execution time, wherein the target power-saving work order is the power-saving work order of which the current time has reached the starting execution time; and executing the target power-protecting work order at the current moment. That is, the embodiment of the present invention may determine the execution state of at least one power-protecting work order, if the execution state of the power-protecting work order is the to-be-executed state, determine the start execution time of the power-protecting work order, then determine at least one target power-protecting work order from a plurality of power-protecting work orders according to the determined start execution time, and finally execute the target power-protecting work order at the current time. Because at least one target power-protecting work order is determined from a plurality of power-protecting work orders according to the starting execution time of the power-protecting work orders, and then the target power-protecting work orders are executed at the current time, the technical problem of low execution efficiency of the power-protecting work orders is solved, and the technical effect of improving the execution efficiency of the power-protecting work orders is achieved.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the invention and do not constitute a limitation on the invention. In the drawings:

FIG. 1 is a flow chart of a method of executing a power protection sheet according to an embodiment of the present invention;

FIG. 2 is a flow chart of another method of executing a power protection sheet according to an embodiment of the present invention;

Fig. 3 is a schematic diagram of an execution device for protecting an electrical sheet according to an embodiment of the present invention.

Detailed Description

In order that those skilled in the art will better understand the present invention, a technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in which it is apparent that the described embodiments are only some embodiments of the present invention, not all embodiments. 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, shall fall within the scope of the invention.

It should be noted that the terms "first," "second," and the like in the description and the claims of the present invention and the above figures are used for distinguishing between similar objects and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used may be interchanged where appropriate such that the embodiments of the invention described herein may be implemented in sequences other than those illustrated or otherwise described herein. Furthermore, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

Example 1

According to an embodiment of the present invention, there is provided a method of executing a power supply protection sheet, it being noted that in the flowchart of the drawings, steps shown therein may be executed in a computer system such as a set of computer executable instructions, and that although a logical order is shown in the flowchart, in some cases steps shown or described may be executed in an order different from that shown or described herein.

The following describes a method for executing the power-supply-protecting sheet according to the embodiment of the present invention.

Fig. 1 is a flowchart of a method for executing a power protection sheet according to an embodiment of the present invention, as shown in fig. 1, the method may include the steps of:

Step S101, determining an execution state of at least one protection power worksheet.

In the technical solution provided in the above step S101 of the present invention, the execution state of at least one protection power worksheet may be determined. The power-supply-protecting work order is used for ensuring the continuity and stability of power supply during maintenance or construction, and the power-supply-protecting work order can be simply called a work order. The execution state may be a to-be-executed state, an executing state, and an archiving state, and the execution state is merely exemplified herein and is not particularly limited.

Optionally, the power protection worksheet is applied by a power supply substation and checked by an security department. The power-protecting work order generally comprises information such as a main power supply line, an auxiliary power supply line, a power-protecting place, a power-protecting reason, a power-protecting type, a power-protecting starting time, a power-protecting ending time and the like which need power-protecting.

Step S102, determining the starting execution time of the power-saving work order in response to the execution state being the to-be-executed state, wherein the power-saving work order is used for ensuring the normal operation of the power supply equipment, and the starting execution time is used for indicating the time for starting to execute the power-saving work order.

In the technical solution provided in the above step S102 of the present invention, after determining the execution state of the power-saving work order, if the execution state is the to-be-executed state, the start execution time of the power-saving work order needs to be determined. The execution start time may be referred to as a start execution time, or an execution start time, simply referred to as a start time.

Optionally, if the execution state of the power-supply-ensured work order is the to-be-executed state, determining the starting execution time of the power-supply-ensured work order by using the distribution network automation system.

Step S103, determining at least one target power-protecting work order from a plurality of power-protecting work orders based on the starting execution time, wherein the target power-protecting work order is the power-protecting work order of which the current time has reached the starting execution time.

In the technical solution provided in the above step S103 of the present invention, after determining the start execution time of the power-saving work order, at least one target power-saving work order may be determined from a plurality of power-saving work orders according to the start execution time of the power-saving work order, so as to achieve the purpose of determining the power-saving work order that at least one current time has reached the start execution time.

Optionally, in the power-saving work order with the execution state being the to-be-executed state, the power-saving work order with the starting execution time is judged by using the distribution network automation system. Wherein, the distribution network automation system can be simply called a system. For example, in a to-be-executed power-protection work order, the system judges that the work order of the power-protection work order execution start time has been reached.

Step S104, executing the target protection work order at the current moment.

In the technical solution provided in the above step S104 of the present invention, after determining at least one target power-protecting work order from a plurality of power-protecting work orders, the target power-protecting work order needs to be executed at the current moment.

Optionally, determining the line information corresponding to the target power-protecting work order according to the information recorded in the target power-protecting work order, and sending the listing information by using the distribution network automation system according to the line information, so as to ensure the validity of the corresponding line in the target power-protecting work order according to the listing information.

Step S101 to step S104 of the invention are carried out to determine the execution state of at least one power-saving work order; determining the starting execution time of the power-saving work order in response to the execution state being the to-be-executed state, wherein the power-saving work order is used for ensuring the normal operation of the power supply equipment, and the starting execution time is used for indicating the time for starting to execute the power-saving work order; determining at least one target power-saving work order from a plurality of power-saving work orders based on the starting execution time, wherein the target power-saving work order is the power-saving work order of which the current time has reached the starting execution time; and executing the target power-protecting work order at the current moment. That is, the embodiment of the present invention may determine the execution state of at least one power-protecting work order, if the execution state of the power-protecting work order is the to-be-executed state, determine the start execution time of the power-protecting work order, then determine at least one target power-protecting work order from a plurality of power-protecting work orders according to the determined start execution time, and finally execute the target power-protecting work order at the current time. Because at least one target power-protecting work order is determined from a plurality of power-protecting work orders according to the starting execution time of the power-protecting work orders, and then the target power-protecting work orders are executed at the current time, the technical problem of low execution efficiency of the power-protecting work orders is solved, and the technical effect of improving the execution efficiency of the power-protecting work orders is achieved.

The above-described method of this embodiment is further described below.

As an optional embodiment, step S104, executing the target protection power worksheet at the current time includes: determining first line information in a target power-saving work order, wherein the first line information is used for representing a line needing to be marked; generating line registration application information based on the first line information; and based on the listing application information and the switch state in the line, listing the line to obtain a listing result, wherein the listing result is used for representing whether the listing of the line in the target power-protection work order is successful or not.

In this embodiment, first line information for representing a line to be branded in the target power-saving work order may be determined first, then, according to the first line information, branding application information of the line may be generated, and finally, branding may be performed on the line according to the obtained branding application information and the switch state in the line, so as to obtain a branding result for representing whether or not the branding on the line in the target power-saving work order is successful.

Alternatively, the first line information may be used to characterize the line on which the card needs to be placed. The information about the application for the registration may be information about the application for the registration on the line on which the registration is to be performed by using the distribution network automation system.

For example, in the power-saving sheet with the execution state being the to-be-executed state, after the system determines that the power-saving sheet reaches the execution start time, the system packages the lines needing to be put on a card in the power-saving sheet, and sends a card-putting application to the master station of the distribution network automation system. When a main station of the distribution network automation system receives a card hanging application, judging the on-off state of a 10 kilovolt (kV) station of a corresponding line, and automatically hanging a power-saving card to obtain a result of successful card hanging or failed card hanging.

As an optional embodiment, based on the application information of the card and the switch state in the line, the card is put on the line, and the card putting result is obtained, including: responding to the result of the listing to be unsuccessful, regenerating the listing application information of the line, and listing the line, wherein the unsuccessful listing is used for representing that at least one line in the target power supply protection bill fails to be listed; the method further comprises the steps of: and responding to the result of the listing as successful listing, and converting the execution state of the target power-supply-maintaining work order into an execution state, wherein the successful listing is used for representing that all lines in the target power-supply-maintaining work order are successfully marked.

In this embodiment, after the result of the listing is obtained, if the result of the listing is successful, the execution state of the target warranty power ticket may be converted into the in-execution state. For example, after receiving the listing information, the master station of the distribution network automation system converts the execution state of the power-saving electrical sheet into the execution state if all lines included in the power-saving electrical sheet are successfully listed, and the master station of the distribution network automation system sends An Jian the power-saving completion information to related personnel of a power-saving substation.

Optionally, if the result of the listing is unsuccessful, the listing application information of the line needs to be regenerated, and the line needs to be listed. Wherein unsuccessful card hanging may be referred to as a card hanging failure.

Optionally, if the result of the listing is unsuccessful, generating first line information; transmitting the first line information to a master station of an automatic distribution network system, and counting the transmission times; comparing the transmission times with a transmission times threshold value to obtain a comparison result; generating failure information in response to the comparison result that the transmission times are greater than or equal to a transmission times threshold, wherein the failure information is used for representing that a line fails to hang up; based on the failure information, the target object is utilized to carry out the listing on the line, and the result of the listing is that the listing is successful.

Optionally, in response to the comparison result being that the number of transmissions is less than the threshold number of transmissions, obtaining a result of the listing as successful.

Alternatively, the transmission number threshold may be a preset value, for example, 3 times, which is only illustrated herein, and the value of the transmission number threshold is not particularly limited. The target object may be a person for manual operation, such as a dispatcher, etc., and is merely illustrated herein without specific limitation.

For example, if any line fails to hang up, the line to be hung up is packaged, and the line to be hung up is sent to the master station of the distribution network automation system again. Meanwhile, counting whether the number of times of transmission is more than or equal to 3, if so, the master station of the distribution network automation system transmits a line result of unsuccessful automatic listing to the system, the system pops up a prompt box to prompt a dispatcher, the line in the power supply protection work order is automatically marked with information of failure, so that the dispatcher executes manual listing, after the manual listing is completed, the system clicks the prompt box to complete information, the system judges that the listing is completed, and the power supply protection work order is transferred to an executing state; if not, the fact that all lines contained in the power-supply protection worksheet are successfully hung up is indicated.

As an alternative embodiment, the method further comprises: determining second line information and end time in the target power-saving work order, wherein the second line information is used for representing a line needing to pick cards; generating the card picking application information of the line based on the second line information and the ending time; and carrying out card picking on the line based on the card picking application information and the switch state in the line to obtain a card picking result, wherein the card picking result is used for representing whether the card picking on the line in the target power-saving work order is successful or not.

In this embodiment, the second line information and the end time in the target power-saving and supplying policy may be determined first, then, based on the second line information and the end time, the card-picking application information of the line is generated, and finally, according to the obtained card-picking application information and the switch state in the line, card picking is performed on the line, so as to achieve the purpose of obtaining the card-picking result.

Alternatively, the end time may be a preset value, which may be referred to as an end time. The card picking application information is used for representing the card picking application of picking the card on the line needing to be picked by using the distribution network automation system.

Optionally, in the power-preserving work order with the executing state being the executing state, the distribution network automation system scans the maintenance work and the live work order in the current system at regular time every day.

For example, in the power-saving work order with the executing state being the executing state, the system firstly scans the maintenance work and the live work order in the current system regularly every day, and sends the related information including the line to the related applicant and the schedule current value shift. If the line belongs to the protection line, attention is paid to whether the working condition is satisfied.

For another example, the system judges the power-saving and supplying work order which reaches the execution ending time, and searches whether other work orders in execution contain the line one by one for all lines contained in the work order, if other work orders which are inconsistent with the current work order bundling time contain the line, the line is removed, then all lines contained in the work order are continuously judged, the line needing to be picked up is packed, a card picking application is sent to a master station of the distribution network automation system, after the master station of the distribution network automation system receives the card picking application of the system, the switch state in a 10kV station of the corresponding line is judged, and the power-saving and supplying work order is automatically removed, so that quotation removal success or card picking failure results are obtained.

As an alternative embodiment, the method further comprises: responding to the successful card picking result, and converting the execution state of the target power-saving work order into an archiving state, wherein quotation removal is used for representing that all lines in the target power-saving work order are picked successfully; and generating prompt information in response to the unsuccessful card picking result quotation removal, wherein the prompt information is used for prompting the card picking failure of the line.

In this embodiment, after the card picking result is obtained, if the card picking result is that the card picking is successful, the execution state of the target warranty work order may be converted into the archiving state; if the pick result is unsuccessful, a prompt message may be generated to prompt the line quotation removal to fail.

Optionally, the prompt message may convey the card picking failure information of the line to the target object through a prompt box.

For example, after receiving the card picking information, the master station of the distribution network automation system converts the execution state of the power-saving electrical sheet to the archiving state if all lines included in the power-saving electrical sheet are successfully picked, and the system sends the power-saving completion information to personnel related to the security supervision and the power-saving branch office.

As an alternative embodiment, the method further comprises: based on the prompt information, picking a card by using the target object to obtain a card picking result; and responding to the successful card picking result, and converting the execution state of the target power-saving and supplying bill into the archiving state.

In this embodiment, when the result of the picking is unsuccessful and the prompt message is generated, the line is picked by the target object according to the prompt message so as to obtain the result of the picking, and if the result of the picking is successful at this time, the execution state of the target power-saving work order can be converted into the filing state. Wherein the target object may perform a manual hand off of the line.

For example, the master station of the distribution network automation system sends the line result of unsuccessful automatic picking to the system, the system pops up a prompt box to prompt the dispatcher about failure information of automatic picking of the line in the power-saving work order, the dispatcher can execute manual picking, and after quotation removal is completed, the system judges that the picking is completed completely by clicking the prompt box of the human-computer interface of the system, and then the work order is transferred to archiving, and the system sends power-saving completion information to the personnel related to the safety supervision and the power-saving branch office.

As an alternative embodiment, before determining the execution state of the at least one guaranteed power worksheet, the method includes: checking the power-supply-ensured worksheet to obtain a checking result, wherein the checking result is used for representing whether filling of the power-supply-ensured worksheet meets standard conditions or not; determining the execution state of the power-saving sheet in response to the test result being in accordance with the standard condition; and responding to the test result that the standard condition is not met, and returning the power-supply-protecting sheet.

In the embodiment, the power-saving work order can be checked to obtain a check result for representing whether filling of the power-saving work order meets the standard condition, and if the check result meets the standard condition, the execution state of the power-saving work order can be determined; if the test result is not in accordance with the standard condition, the power-saving work order can be rolled back, so that the target object can receive the rolled-back power-saving work order. For example, when determining the power-preserving work order to be executed, the system automatically checks whether the power-preserving work order is filled in correctly, if the power-preserving work order is not checked, the system returns the power-preserving work order to the applicant, and informs the applicant of the return reason according to the automatic check result of the system; otherwise, the execution state of the power-supply-keeping sheet is transferred to the state to be executed.

Alternatively, the standard condition may be that the standard condition is that whether the filling of the power supply and protection sheet is normal or not is automatically checked by using the distribution network automation system. For example, by using an automatic verification unit in the distribution network automation system, the contents of the power supply and protection bill need to be verified include: the power supply content bar is not blank; the power supply protection reason column is not blank; the power supply place is not blank; the power-saving work order reaches the approval time earlier than the power-saving starting time; the power-saving end time minus the power-saving start time is longer than 6 months, and the power-saving type must be long-term; the power-protecting line comprises a power-protecting place, and is selected as a main power supply, and a line of the opposite-side ring network is selected as an auxiliary power supply; when the power supply place is switched, the line is selected as auxiliary power supply, and the opposite-side ring network line is selected as main power supply.

In this embodiment, the execution state of at least one power-protecting work order may be determined first, if the execution state of the power-protecting work order is a to-be-executed state, the start execution time of the power-protecting work order may be determined, then, according to the determined start execution time, at least one target power-protecting work order is determined from a plurality of power-protecting work orders, and finally, the target power-protecting work order is executed at the current time. Because at least one target power-protecting work order is determined from a plurality of power-protecting work orders according to the starting execution time of the power-protecting work orders, and then the target power-protecting work orders are executed at the current time, the technical problem of low execution efficiency of the power-protecting work orders is solved, and the technical effect of improving the execution efficiency of the power-protecting work orders is achieved.

Example 2

The technical solution of the embodiment of the present invention will be illustrated in the following with reference to a preferred embodiment.

The dispatching of the power-protecting work orders comprises receiving the power-protecting work orders, wherein the power-protecting work orders are applied by a power-supplying branch office and checked by an security supervision department and generally comprise information such as main power supply, auxiliary power supply lines, power-protecting places, power-protecting reasons, power-protecting types, power-protecting starting time and finishing time of power-protecting. After checking the power supply, the dispatcher hangs the power supply protection cards on the corresponding lines in the distribution network automation system, informs relevant personnel of the power supply protection information, and monitors the power supply protection line conditions in real time. And removing the power protection cards of the corresponding power protection lines after the power protection ends, notifying related personnel, and archiving the work orders.

The intelligent degree of the power protection module in the current power distribution network technical platform is insufficient, the whole process needs manual operation, a great amount of time of a dispatcher is consumed for processing, and the manual operation of the dispatcher is easy to cause misoperation, so that the technical problem of low execution efficiency of the power protection work order is caused.

Therefore, in order to solve the above-mentioned problems, the present invention provides a method for executing a power-protecting work order, which can determine the execution state of at least one power-protecting work order, if the execution state of the power-protecting work order is the to-be-executed state, determine the start execution time of the power-protecting work order, then determine at least one target power-protecting work order from a plurality of power-protecting work orders according to the determined start execution time, and finally execute the target power-protecting work order at the current time. Because at least one target power-protecting work order is determined from a plurality of power-protecting work orders according to the starting execution time of the power-protecting work orders, and then the target power-protecting work orders are executed at the current time, the technical problem of low execution efficiency of the power-protecting work orders is solved, and the technical effect of improving the execution efficiency of the power-protecting work orders is achieved.

Fig. 2 is a flowchart of another implementation method of a power protection sheet according to an embodiment of the present invention, as shown in fig. 2, the flowchart mainly includes the following steps:

Step S201, judging whether the automatic checking unit checks the work order to be received.

In this embodiment, when determining the power-preserving sheet to be executed, an automatic verification unit in the system automatically verifies whether the power-preserving sheet is properly filled, and if the verification is not passed, step S202 is executed; if the check has passed, step S203 is performed.

Optionally, by using an automatic verification unit in the distribution network automation system, the contents of the power supply and protection bill need to be verified include: the power supply content bar is not blank; the power supply protection reason column is not blank; the power supply place is not blank; the power-saving work order reaches the approval time earlier than the power-saving starting time; the power-saving end time minus the power-saving start time is longer than 6 months, and the power-saving type must be long-term; the power-protecting line comprises a power-protecting place, and is selected as a main power supply, and a line of the opposite-side ring network is selected as an auxiliary power supply; when the power supply place is switched, the line is selected as auxiliary power supply, and the opposite-side ring network line is selected as main power supply.

Step S202, returning the power supply guarantee sheet to the applicant.

In this embodiment, if the verification is not passed, the system rolls back the power supply policy to the applicant and informs the applicant of the reason for roll-back based on the result of the automatic verification of the system.

And step S203, packaging the lines needing to be hung and sending the lines to the master station.

In this embodiment, if the check passes, the execution state of the power policy is transferred to the state to be executed. And after the system determines that the power-saving and supplying electrical sheet with the execution state being the to-be-executed state reaches the power-saving and supplying electrical sheet with the execution starting time, packaging the lines needing to be hung in the power-saving and supplying electrical sheet, and sending a hanging application to a main station of the distribution network automation system.

Step S204, the master station receives a card hanging application and automatically hangs cards.

In this embodiment, when the master station of the distribution network automation system receives the application for listing, the switch state in the 10 kv station of the corresponding line is judged, and the power-saving card is automatically suspended, and step S205 is executed.

Step S205, judging whether the card hanging is successful.

In this embodiment, after the result of the hang tag is obtained. If the listing is successful, executing step S206; if the deal fails, step S207 is performed.

And step S206, the master station of the distribution network automation system sends An Jian the power supply completion information to related personnel of the power supply substation.

In this embodiment, after receiving the listing information, the master station of the distribution network automation system converts the execution state of the power-saving electrical sheet to the execution state if all lines included in the power-saving electrical sheet are successfully listed, and the master station of the distribution network automation system sends An Jian the power-saving completion information to related personnel of the power-saving substation.

Step S207, the information feedback system without the card hanging is used for transmitting the master station again.

In this embodiment, if any line fails to deal, the non-deal information feedback system may send the application information to the master again.

Step S208, judging whether the application times are more than 3 times.

In this embodiment, it may be determined whether the number of applications is greater than 3, and if so, step S209 is performed; if not, step S204 is performed.

Step S209, reminding a dispatcher to carry out manual listing.

In this embodiment, the dispatcher is alerted to make a manual listing and will complete the information feedback system.

Optionally, the master station of the distribution network automation system sends the line result of unsuccessful automatic listing to the system, the system pops up a prompt box to prompt the dispatcher, and the information of the failure of automatic listing of the line in the power supply protection work order is prompted, so that the dispatcher executes manual listing, after the manual listing is completed, the prompt box clicks the completion information on the human-computer interface of the system, the system judges that the listing is completed, and the power supply protection work order is transferred to an executing state.

And step S210, picking up the cards of the lines in the power-maintaining work order based on the ending time.

In the embodiment, the system judges the power-saving and supplying bill which reaches the execution ending time, and searches whether other work bills in execution contain the line one by one for all lines contained in the work bill, if other work bills which are inconsistent with the current work bill bundle time contain the line, the line is removed, and then all lines contained in the work bill are continuously judged in sequence, the line needing to be picked is packed, a card picking application is sent to a master station of the distribution network automation system, after the master station of the distribution network automation system receives the card picking application of the system, the switch state in a 10kV station of the corresponding line is judged, and the power-saving and supplying bill is automatically removed to obtain the result of quotation removal success or card picking failure.

Optionally, in the power-saving work order with the executing state being the executing state, the system firstly scans the maintenance work and the live work order in the current system regularly every day, and sends the related information containing the line to the related applicant and the schedule current value shift. If the line belongs to the protection line, attention is paid to whether the working condition is satisfied.

Step S211, the master station receives a card picking application and automatically picks cards.

In this embodiment, the card may be automatically picked up by receiving a card picking application at the master station.

Step S212, judging whether the card picking is successful.

In this embodiment, it may be judged whether quotation removal is successful, and if the picking is successful, step S213 is performed; if the card picking fails, step S214 is performed.

Step S213, the execution state of the power-saving work order is converted into the archiving state.

In this embodiment, after receiving the card picking information, the master station of the distribution network automation system converts the execution state of the power-saving electrical sheet into the archiving state if all lines included in the power-saving electrical sheet are successfully picked, and the system sends power-saving completion information to personnel related to the security supervision and the power-saving branch office.

Step S214, the non-card-picking information feedback system sends the application information to the system again.

In this embodiment, if the card picking fails, the non-card picking information is fed back to the system and the application information is sent again to the system.

Step S215, judging whether the application times are more than 3 times.

In this embodiment, it may be determined whether the number of applications is greater than 3. If so, step S216 is performed. If not, step S211 is performed.

Step S216, reminding a dispatcher to manually pick the cards.

In this embodiment, the master station of the distribution network automation system sends the line result of unsuccessful automatic picking to the system, the system pops up a prompt box to prompt the dispatcher about failure information of automatic picking of the line in the power-saving work order, the dispatcher can execute manual picking, and after quotation removal is completed, the system clicks the prompt box to complete information on the human-computer interface of the system, the system judges that the picking is complete, and then the work order is transferred to archiving, and the system sends power-saving completion information to relevant personnel of the security supervision and power supply branch office.

In this embodiment, environmental data for characterizing a field environment in which an operation needs to be performed on the power distribution network may be acquired first, then, data of a target object in the environmental data, data of a target device, and background data are separated, so as to achieve the purpose of acquiring a separation result, and finally, according to the separation result and constraint conditions, security constraint on the environmental data may be implemented, so as to determine a target distance of the power distribution network. The data contained in the environmental data are separated to obtain the separation result, and the environmental data are safely restrained according to the separation result and the constraint condition, so that the aim of determining the target distance of the power distribution network is fulfilled, the technical problem that the safe distance of the power distribution network cannot be effectively determined is solved, and the technical effect that the safe distance of the power distribution network can be effectively determined is realized.

Example 3

According to the embodiment of the invention, an execution device for protecting an electrical sheet is provided. It should be noted that the execution device of the power-supply-protection sheet may be used to execute the execution method of the power-supply-protection sheet in embodiment 1.

Fig. 3 is a schematic diagram of an execution device for protecting an electrical sheet according to an embodiment of the present invention. As shown in fig. 3, an execution apparatus 300 for protecting a power worksheet may include: a first determination unit 301, a second determination unit 302, a third determination unit 303, and an execution unit 304.

A first determining unit 301 is configured to determine an execution state of at least one protection worksheet.

And a second determining unit 302, configured to determine, in response to the execution state being a to-be-executed state, a start execution time of the power-protection work order, where the power-protection work order is used to ensure normal operation of the power supply device, and the start execution time is used to indicate a time when the power-protection work order starts to be executed.

And a third determining unit 303, configured to determine at least one target power-protecting work order from the multiple power-protecting work orders based on the start execution time, where the target power-protecting work order is the power-protecting work order whose current time has reached the start execution time.

And the execution unit 304 is used for executing the target security work order at the current moment.

Optionally, the execution unit 304 includes: the determining module is used for determining first line information in the target power-saving work order, wherein the first line information is used for representing a line needing to be hung; the generation module is used for generating the line registration application information based on the first line information; and the acquisition module is used for carrying out the listing on the line based on the listing application information and the switch state in the line to obtain a listing result, wherein the listing result is used for representing whether the listing on the line in the target power-saving work order is successful or not.

Optionally, the obtaining module further includes: the first generation submodule is used for responding to the fact that the listing is unsuccessful, regenerating listing application information of the line and listing the line, wherein the unsuccessful listing is used for representing that at least one line in the target power supply protection electrical bill fails to be listed; and the first conversion sub-module is used for converting the execution state of the target power-supply-keeping work order into the execution state in response to the successful listing result, wherein the successful listing is used for representing that all lines in the target power-supply-keeping work order are successfully marked.

Optionally, the obtaining module may further include: the determining submodule is used for determining second line information and end time in the target power-saving work order, wherein the second line information is used for representing a line needing to be picked; the second generation sub-module is used for generating the card picking application information of the line based on the second line information and the ending time; the first acquisition sub-module is used for picking the line based on the card picking application information and the switch state in the line to obtain a card picking result, wherein the card picking result is used for representing whether the card picking of the line in the target power-saving work order is successful or not.

Optionally, the obtaining module may further include: the second conversion sub-module is used for converting the execution state of the target power-saving work order into an archiving state in response to the successful card picking result, wherein quotation removal is used for representing that all lines in the target power-saving work order are picked; and the third generation sub-module is used for generating prompt information in response to the unsuccessful card picking result quotation removal, wherein the prompt information is used for prompting the card picking failure of the line.

Optionally, the acquiring module may include: the second acquisition sub-module is used for picking the line by utilizing the target object based on the prompt information to obtain a picking result; and the third conversion sub-module is used for converting the execution state of the target power-supply-keeping sheet into the filing state in response to the successful card picking result.

Optionally, the apparatus may further include: the checking unit is used for checking the power-saving work orders to obtain checking results, wherein the checking results are used for representing whether filling of the power-saving work orders meets standard conditions or not; a fourth determining unit for determining an execution state of the power-supply-protecting sheet in response to the inspection result being in accordance with the standard condition; and the rollback unit is used for rolling back the power supply protection bill in response to the fact that the test result does not accord with the standard condition.

In this embodiment, the execution state of at least one guaranteed power worksheet is determined by a first determination unit; determining, by the second determining unit, a start execution time of the power-saving work order in response to the execution state being a to-be-executed state, where the power-saving work order is used to ensure normal operation of the power supply device, and the start execution time is used to indicate a time when the power-saving work order starts to be executed; determining at least one target power-saving work order from a plurality of power-saving work orders based on the starting execution time through a third determining unit, wherein the target power-saving work order is the power-saving work order of which the current time has reached the starting execution time; the execution unit executes the target power-supply-protecting work order at the current moment, so that the technical problem of low execution efficiency of the power-supply-protecting work order is solved, and the technical effect of improving the execution efficiency of the power-supply-protecting work order is realized.

Example 4

According to an embodiment of the present invention, there is also provided a computer-readable storage medium including a stored program, wherein the program is executed by a processor to control a device in which the readable storage medium is located to execute the execution method of the power-supply-protecting sheet in embodiment 1.

Example 5

According to an embodiment of the present invention, there is further provided a processor for running a program, where the program executes the execution method of the power protection policy in embodiment 1.

Example 6

According to an embodiment of the present invention, there is also provided a computer program product, including a computer program, which when executed by a processor implements the method for executing the power protection sheet in embodiment 1 of the present invention.

The foregoing embodiment numbers of the present invention are merely for the purpose of description, and do not represent the advantages or disadvantages of the embodiments.

In the foregoing embodiments of the present invention, the descriptions of the embodiments are emphasized, and for a portion of this disclosure that is not described in detail in this embodiment, reference is made to the related descriptions of other embodiments.

In the several embodiments provided in the present invention, it should be understood that the disclosed technology may be implemented in other manners. The above-described embodiments of the apparatus are merely exemplary, and the division of units may be a logic function division, and there may be another division manner in actual implementation, for example, multiple units 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 through some interfaces, units or modules, or may be in electrical or other forms.

The units described as separate parts may or may not be physically separate, and parts displayed as units may or may not be physical units, may be located in one place, or may be distributed over a plurality of 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 invention 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, comprising 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 method of the various embodiments of the present invention. And the aforementioned storage medium includes: a usb disk, a Read-Only Memory (ROM), a random access Memory (RAM, random Access Memory), a removable hard disk, a magnetic disk, or an optical disk, or other various media capable of storing program codes.

The foregoing is merely a preferred embodiment of the present invention and it should be noted that modifications and adaptations to those skilled in the art may be made without departing from the principles of the present invention, which are intended to be comprehended within the scope of the present invention.

Claims (11)

1. A method of executing a power protection sheet, comprising:

Determining the execution state of at least one protection power worksheet;

Determining the starting execution time of the power-saving work order in response to the execution state being a to-be-executed state, wherein the power-saving work order is used for ensuring the normal operation of power supply equipment, and the starting execution time is used for indicating the time for starting to execute the power-saving work order;

Determining at least one target power-protecting work order from a plurality of power-protecting work orders based on the starting execution time, wherein the target power-protecting work order is the power-protecting work order of which the current time has reached the starting execution time;

And executing the target power-maintaining work order at the current moment.

2. The method of claim 1, wherein executing the target warranty work order at the current time comprises:

determining first line information in the target power-saving work order, wherein the first line information is used for representing a line needing to be hung;

Generating the listing application information of the line based on the first line information;

And based on the listing application information and the switch state in the line, listing the line to obtain a listing result, wherein the listing result is used for representing whether the listing of the line in the target power-guaranteeing work order is successful or not.

3. The method of claim 2, wherein the listing of the line based on the listing application information and the switch status in the line, results in a listing result, comprises:

Responding to the result of the listing to be unsuccessful in listing, regenerating the listing application information of the line, and listing the line, wherein the unsuccessful listing is used for representing that at least one line in the target power-guaranteeing work order fails in listing;

The method further comprises the steps of: and responding to the result of the listing to be successful, and converting the execution state of the target power-supply-maintaining work order into an execution state, wherein the success of the listing is used for representing that all the lines in the target power-supply-maintaining work order are successfully listed.

4. A method according to claim 3, characterized in that the method further comprises:

determining second line information and end time in the target power-saving work order, wherein the second line information is used for representing a line needing to pick cards;

generating quotation removal application information of the line based on the second line information and the ending time;

And picking the circuit based on the quotation removal application information and the switch state in the circuit to obtain a picking result, wherein the quotation removal result is used for representing whether the picking of the circuit in the target power-guaranteeing work order is successful or not.

5. The method according to claim 4, wherein the method further comprises:

In response to the quotation removal result being quotation removal successful, converting the execution state of the target warranty power worksheet into an archiving state, wherein the quotation removal is successfully used for representing that all the lines in the target warranty power worksheet are picked;

And generating prompt information in response to the result quotation removal that quotation removal is unsuccessful, wherein the prompt information is used for prompting that the card picking of the line fails.

6. The method of claim 5, wherein the method further comprises:

based on the prompt information, picking the line by using a target object to obtain the picking result;

and in response to the quotation removal result being that the quotation removal is successful, converting the execution state of the target security work order into an archiving state.

7. The method of claim 1, comprising, prior to determining the execution status of the at least one warranty work order:

the power-supply-protection electrical sheet is checked to obtain a check result, wherein the check result is used for representing whether filling of the power-supply-protection electrical sheet meets standard conditions or not;

Determining the execution state of the power-supply-protecting sheet in response to the test result being in accordance with the standard condition;

And responding to the test result that the standard condition is not met, and returning the power-supply-protecting electric bill.

8. An execution device for a power supply protection sheet, comprising:

the first determining unit is used for determining the execution state of at least one security work order;

A second determining unit, configured to determine, in response to the execution state being a to-be-executed state, a start execution time of the power-protection worksheet, where the power-protection worksheet is used to ensure normal operation of a power supply device, and the start execution time is used to indicate a time when the power-protection worksheet starts to be executed;

A third determining unit, configured to determine at least one target power-saving worksheet from a plurality of power-saving worksheets based on the start execution time, where the target power-saving worksheet is the power-saving worksheet that has reached the start execution time at the current time;

and the execution unit is used for executing the target power-preserving work order at the current moment.

9. A computer readable storage medium, characterized in that the computer readable storage medium comprises a stored program, wherein the program, when run by a processor, controls a device in which the storage medium is located to perform the method of any one of claims 1 to 7.

10. A processor for running a program, wherein the program when run performs the method of any one of claims 1 to 7.

11. A computer program product comprising computer instructions which, when executed by a processor, implement the method of any one of claims 1 to 7.