CN112464630B - Automatic generation method and system for scheduling instruction ticket - Google Patents

Abstract

The invention provides a method and a system for automatically generating a scheduling instruction ticket, wherein the method comprises the following steps: s1, the client side obtains power outage detail table data and opens the data through word processing software; s2, triggering a scheduling instruction ticket automatic generation function interface for a single or a plurality of records in the power outage and transmission detail table data by a user; s3, generating confirmation information by the automatic generation function interface of the dispatching instruction ticket, and acquiring a confirmation instruction or a modification instruction of a user for the confirmation information, wherein the confirmation information comprises switch ledger information and equipment state required to be operated; and S4, the automatic generation functional interface of the scheduling instruction ticket generates a corresponding scheduling instruction ticket according to the confirmation instruction or the modification instruction. The invention can automatically generate the corresponding dispatching instruction ticket through the automatic generation function interface of the dispatching instruction ticket, has higher input efficiency compared with manual typing, and can effectively avoid human factor errors.

Description

Automatic generation method and system for scheduling instruction ticket

Technical Field

The invention relates to the technical field of power distribution network scheduling, in particular to a method and a system for automatically generating a scheduling instruction ticket.

Background

The power dispatching power-on and power-off operation needs to fill in a dispatching instruction ticket, and at present, a dispatcher needs to manually fill in the dispatching instruction ticket when the power dispatching power-on and power-off operation is needed, so that the problems of low manual typing efficiency and high error possibility exist.

Disclosure of Invention

Accordingly, the present invention is directed to a method and system for automatically generating a scheduling instruction ticket, which overcome or at least partially solve the above-mentioned problems of the prior art.

The invention provides a method for automatically generating a scheduling instruction ticket in a first aspect, which comprises the following steps:

s1, the client side obtains power outage detail table data and opens the data through word processing software;

s2, triggering a scheduling instruction ticket automatic generation function interface for a single or a plurality of records in the power outage and transmission detail table data by a user;

s3, generating confirmation information by the automatic generation function interface of the dispatching instruction ticket, and acquiring a confirmation instruction or a modification instruction of a user for the confirmation information, wherein the confirmation information comprises switch ledger information and equipment state required to be operated;

and S4, the automatic generation functional interface of the scheduling instruction ticket generates a corresponding scheduling instruction ticket according to the confirmation instruction or the modification instruction.

Further, the step of acquiring the power outage detail table data by the client specifically includes the following steps:

s11, the client side sends a data acquisition request to the block chain core server;

s12, the blockchain core server acquires distribution network operation data sent back by the data acquisition micro-service module through the service gateway, and generates power outage detail table data based on the distribution network operation data;

s13, writing the power outage detail table data into the blocks, and adding the blocks into the first block chain;

s14, deploying a distributed micro-service module to the client through the service gateway;

and S15, the distributed micro-service module acquires a first block chain block through the service gateway, analyzes the block to acquire power outage detail table data, and writes the scheduling instruction ticket automatic generation functional interface into local word processing software of the client.

Furthermore, when the data acquisition micro-service module returns real-time distribution network operation data, the block chain core server updates the first block chain, distributes first block chain block data to the distributed micro-service module through the service gateway, and the distributed micro-service module analyzes the first block chain block and updates the local database of the client based on an analysis result.

Further, after the step S4, the method further includes the steps of:

s41, the distributed micro-service module sends the single or multiple records of the triggered dispatching instruction ticket automatic generation function interface and the corresponding dispatching instruction ticket to the service gateway;

s42, after obtaining the record and the corresponding scheduling command ticket through the service gateway, the blockchain core server writes the record and the corresponding scheduling command ticket into the block, and adds the block to the second blockchain.

Further, before the step S41, the method further includes the steps of:

s401, the distributed micro service module sends a request to a block chain core server to acquire a second block chain block, and the second block chain block is analyzed to acquire a history record and corresponding scheduling instruction ticket information;

s402, the scheduling instruction ticket automatic generation function interface matches the triggered single or multiple records with the historical records, compares the scheduling instruction ticket corresponding to the historical record with the scheduling instruction ticket generated this time when the matching is successful, and sends out warning information to a user if the comparison is not passed.

The second aspect of the invention provides a dispatching instruction ticket automatic generation system, which comprises a client and a dispatching instruction ticket automatic generation function interface,

the client is used for acquiring power-on/off detail table data and opening the power-on/off detail table data through word processing software;

the dispatching instruction ticket automatic generation functional interface is used for generating confirmation information when being triggered by a user to a single record or a plurality of records in the power outage detail table data, acquiring a confirmation instruction or a modification instruction of the user to the confirmation information, wherein the confirmation information comprises switch machine account information and equipment states required to be operated, and generating a corresponding dispatching instruction ticket according to the confirmation instruction or the modification instruction.

Further, the client specifically includes:

the request module is used for initiating a data acquisition request to a block chain core server;

the distributed micro-service module is used for acquiring a first block chain block through the service gateway, analyzing the block to acquire power outage and transmission detail table data, and writing a scheduling instruction ticket automatic generation function interface into local word processing software of the client;

the system further comprises a block chain core server, wherein the block chain core server is used for acquiring distribution network operation data returned by the data acquisition micro-service module through the service gateway, generating power outage detail table data based on the distribution network operation data, writing the power outage detail table data into the block, adding the block into the first block chain, and deploying the distributed micro-service module to the client through the service gateway.

Further, the block chain core server is further configured to update the first block chain when the data acquisition micro-service module returns real-time distribution network operation data, and distribute the first block chain block data to the distributed micro-service module through the service gateway; the distributed micro-service module is further used for updating the local database of the client based on the analysis result after the first block chain block is analyzed.

Further, the distributed micro-service module is also used for sending the single or multiple records of the current triggered scheduling instruction ticket automatic generation functional interface and the corresponding scheduling instruction ticket to the service gateway;

the block chain core server is also used for writing the record and the corresponding scheduling instruction ticket into the block after the record and the corresponding scheduling instruction ticket are obtained through the service gateway, and adding the block into the second block chain.

Furthermore, the distributed microservice module is further configured to initiate a request to the blockchain core server to obtain a second blockchain block, and analyze the second blockchain block to obtain a history record and corresponding scheduling instruction ticket information;

the dispatching instruction ticket automatic generation function interface is further used for matching the triggered single or multiple records with the historical records, comparing the dispatching instruction tickets corresponding to the historical records with the dispatching instruction tickets generated this time when the matching is successful, and sending warning information to a user if the comparison is not passed.

Compared with the prior art, the invention has the beneficial effects that:

according to the automatic generation method and system of the scheduling instruction ticket, a user can acquire power outage and transmission detail table data through a client and open the power outage and transmission detail table data through word processing software, a scheduling instruction ticket automatic generation function interface is triggered by a single or multiple target records in the power outage and transmission detail table, the scheduling instruction ticket automatic generation function interface can generate switch table account information related to a scheduling instruction confirmed by the user and equipment state information required to be operated, the user can modify the information when the information is wrong, the corresponding scheduling instruction ticket can be automatically generated by the scheduling instruction ticket automatic generation function interface when the user confirms that the information is not wrong, the input efficiency is higher compared with manual typing, and errors caused by human factors can be effectively avoided.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is apparent that the drawings in the following description are only preferred embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without inventive efforts.

Fig. 1 is a schematic overall flow chart of an automatic scheduling instruction ticket generation method according to an embodiment of the present invention.

Detailed Description

The principles and features of this invention are described below in conjunction with the following drawings, the illustrated embodiments are provided to illustrate the invention and not to limit the scope of the invention.

Referring to fig. 1, the invention provides an automatic generation method of a scheduling instruction ticket, which specifically includes the following steps:

and S1, the client acquires the power-on/off detail table data and opens the data through word processing software.

The client may be a computer, a mobile terminal, or a server.

And S2, triggering the automatic generation function interface of the dispatching instruction ticket by the user for single or multiple records in the power outage and transmission detail table data.

In some embodiments, the user may trigger the automatic generation function interface of the scheduling instruction ticket by clicking a single record in the stop and power schedule data multiple times; or selecting a plurality of data in the power-off detail table, calling out a shortcut menu by clicking a right mouse button or other methods, selecting a function interface for automatically generating a scheduling instruction ticket in the shortcut menu,

and S3, generating confirmation information by the automatic generation function interface of the dispatching instruction ticket, and acquiring a confirmation instruction or a modification instruction of the user for the confirmation information, wherein the confirmation information comprises switch ledger information and equipment state required to be operated.

In step S3, the user needs to confirm the confirmation information generated by the scheduling instruction ticket automatic generation function interface, and if the confirmation information is correct, the user inputs the confirmation instruction, and if the confirmation information is incorrect, the user may input the modification instruction to modify the confirmation information.

And S4, the automatic generation functional interface of the scheduling instruction ticket generates a corresponding scheduling instruction ticket according to the confirmation instruction or the modification instruction.

The scheduling instruction ticket automatically generated by the scheduling instruction ticket automatic generation function interface can be exported and copied so that a user can send the scheduling instruction ticket to other places.

On the basis of the foregoing embodiment, as an example, the step S1 of acquiring the power outage detail table data by the client specifically includes the following steps:

s11, the client side sends a data acquisition request to the block chain core server.

S12, the blockchain core server obtains distribution network operation data returned by the data acquisition micro-service module through the service gateway, and generates power outage and transmission detail table data based on the distribution network operation data.

The data acquisition micro-service module is pre-deployed in a distribution network management system, such as an EMS (energy management system) or other systems, and is used for acquiring distribution network operation data and providing data support for subsequent power outage and transmission scheduling work.

And S13, writing the power-down detail table data into the block, and adding the block into the first block chain.

In the step, the block chain core server writes power-on/power-off detail table data generated based on the distribution network operation data into the block and adds the data into the first block chain, so that on one hand, corresponding power-on/power-off detail data is convenient to query when a scheduling instruction ticket is checked subsequently, and on the other hand, the block chain has the characteristic that the data is difficult to tamper, and the data safety can be effectively guaranteed.

And S14, deploying the distributed micro service module to the client through the service gateway. Before the distributed micro-service module is deployed to a client by a block chain core server, a special communication link which is communicated with the distributed micro-service module is generated by a registration module, deployed client identification information is recorded, when the client initiates a data acquisition request to the block chain core server, the block chain core server firstly matches the client with the recorded client identification information by the registration module, and if the matching is not successful, the distributed micro-service module is deployed to the client.

And S15, the distributed micro-service module acquires a first block chain block through the service gateway, analyzes the block to acquire power outage detail table data, and writes the scheduling instruction ticket automatic generation functional interface into local word processing software of the client.

When the distributed micro-service module is deployed, the block chain core server is connected through the service gateway, the first block chain block is obtained, the block can be analyzed to obtain power outage and power transmission detail table data, meanwhile, the automatic generation function interface of the scheduling instruction ticket is written into local word processing software of the client, the local word processing software has the function of automatically generating the scheduling instruction ticket, and a user can conveniently obtain the automatically generated scheduling instruction ticket through conventional word processing software.

Specifically, when the data acquisition micro-service module returns real-time distribution network operation data, the blockchain core server updates the first blockchain, distributes first blockchain data to the distributed micro-service modules through the service gateway, specifically, acquires dedicated communication links with all the distributed micro-service modules through the registration module, and sends the updated first blockchain to all the distributed micro-service modules through the dedicated communication links by the service gateway. The distributed micro-service module analyzes the first block chain block and updates the local database of the client based on the analysis result, so that the power transmission stopping detail table data of the local database of the client is consistent with the real-time data, and a dispatcher can conveniently make a power transmission stopping dispatching instruction in time.

As an example, after the step S4, the method further includes the steps of:

and S41, the distributed micro-service module sends the single or multiple records of the triggered dispatching instruction ticket automatic generation function interface and the corresponding dispatching instruction ticket to the service gateway.

S42, after obtaining the record and the corresponding scheduling command ticket through the service gateway, the blockchain core server writes the record and the corresponding scheduling command ticket into the block, and adds the block to the second blockchain.

The scheduling instruction tickets generated in the past and the corresponding power-on/off schedule table data records are written into the block and added to the second block chain, so that the data of the historical scheduling instruction tickets can be prevented from being tampered, and convenience is provided for subsequent verification.

The dispatcher is a director of power grid operation and accident handling, and has to be responsible for the correctness of the dispatching instruction issued by the dispatcher, and the occurrence of misoperation and mis-dispatching accidents can be prevented only by correctly compiling the dispatching instruction ticket, so that the safe operation of the power grid is ensured. Distribution network wiring mode is complicated, equipment points are many-sided and wide, once a scheduling instruction ticket is wrong, serious consequences can be brought to people, power grids and equipment, higher requirements are provided for a dispatcher, in the prior art, the dispatcher usually makes a scheduling instruction based on personal experience accumulation, and misscheduling can be caused by misjudgment. In order to solve this problem, before step S41, the method further includes the steps of:

s401, the distributed micro service module sends a request to the block chain core server to acquire a second block chain block, and the second block chain block is analyzed to acquire a history record and corresponding scheduling instruction ticket information.

S402, the scheduling instruction ticket automatic generation function interface matches the triggered single or multiple records with the historical records, compares the scheduling instruction ticket corresponding to the historical record with the scheduling instruction ticket generated this time when the matching is successful, and sends out warning information to a user if the comparison is not passed.

When the matching is unsuccessful, the situation that the current power-on/power-off detailed record is the same as or basically similar to the content of the historical record is explained, the scheduling instruction ticket generated this time is not the same as the scheduling instruction ticket corresponding to the historical record, namely the content of the scheduling instruction ticket generated this time is possibly wrong, a warning message is sent to the user to prompt the user to re-confirm the content of the scheduling instruction ticket, and the problem that the scheduling is mistakenly performed due to the fact that the content of the scheduling instruction ticket is not noticed when the generation efficiency of the scheduling instruction ticket is improved is avoided.

Based on the same conception of the above embodiments, another embodiment of the present invention provides an automatic scheduling instruction ticket generating system, which includes a client and an automatic scheduling instruction ticket generating function interface,

the client is used for acquiring power-on/off detail table data and opening the power-on/off detail table data through word processing software.

The dispatching instruction ticket automatic generation functional interface is used for generating confirmation information when being triggered by a user to a single record or a plurality of records in the power outage detail table data, acquiring a confirmation instruction or a modification instruction of the user to the confirmation information, wherein the confirmation information comprises switch machine account information and equipment states required to be operated, and generating a corresponding dispatching instruction ticket according to the confirmation instruction or the modification instruction.

Wherein, the client specifically comprises:

the request module is used for initiating a data acquisition request to the block chain core server.

And the distributed micro-service module is used for acquiring the first block chain block through the service gateway, analyzing the block to acquire power outage detail table data, and writing the scheduling instruction ticket automatic generation function interface into local word processing software of the client.

The system further comprises a block chain core server, wherein the block chain core server is used for acquiring distribution network operation data returned by the data acquisition micro-service module through the service gateway, generating power outage detail table data based on the distribution network operation data, writing the power outage detail table data into the block, adding the block into the first block chain, and deploying the distributed micro-service module to the client through the service gateway.

The block chain core server is also used for updating the first block chain when the data acquisition micro-service module returns real-time distribution network operation data, and distributing the first block chain block data to the distributed micro-service module through the service gateway; the distributed micro-service module is further used for updating the local database of the client based on the analysis result after the first block chain block is analyzed.

As an example, the distributed microservice module is further configured to send the single or multiple records of the currently triggered scheduling instruction ticket automatic generation function interface and the corresponding scheduling instruction ticket to the service gateway;

and the block chain core server is also used for writing the record and the corresponding scheduling instruction ticket into the block after the record and the corresponding scheduling instruction ticket are obtained by the service gateway, and adding the block into the second block chain.

The distributed microservice module is further used for sending a request to the blockchain core server to acquire a second blockchain block, and analyzing the second blockchain block to acquire the history record and corresponding scheduling instruction ticket information.

The dispatching instruction ticket automatic generation function interface is further used for matching the triggered single or multiple records with the historical records, comparing the dispatching instruction tickets corresponding to the historical records with the dispatching instruction tickets generated this time when the matching is successful, and sending warning information to a user if the comparison is not passed.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (4)

1. A method for automatically generating a scheduling instruction ticket is characterized by comprising the following steps:

s1, the client side obtains power outage detail table data and opens the data through word processing software;

s2, triggering a scheduling instruction ticket automatic generation function interface for a single or a plurality of records in the power outage and transmission detail table data by a user;

s3, generating confirmation information by the automatic generation function interface of the dispatching instruction ticket, and acquiring a confirmation instruction or a modification instruction of a user for the confirmation information, wherein the confirmation information comprises switch ledger information and equipment state required to be operated;

s4, the automatic generation function interface of the dispatching instruction ticket generates a corresponding dispatching instruction ticket according to the confirmation instruction or the modification instruction;

the method for acquiring the power outage and transmission detail table data by the client specifically comprises the following steps:

s11, the client side sends a data acquisition request to the block chain core server;

s12, the blockchain core server acquires distribution network operation data sent back by the data acquisition micro-service module through the service gateway, and generates power outage detail table data based on the distribution network operation data;

s13, writing the power outage detail table data into the blocks, and adding the blocks into the first block chain;

s14, deploying a distributed micro-service module to the client through the service gateway;

s15, the distributed micro-service module acquires a first block chain block through the service gateway, analyzes the block to acquire power outage detail table data, and writes a scheduling instruction ticket automatic generation function interface into local word processing software of the client;

after the step S4, the method further includes the steps of:

s41, the distributed micro-service module sends the single or multiple records of the triggered dispatching instruction ticket automatic generation function interface and the corresponding dispatching instruction ticket to the service gateway;

s42, after obtaining the record and the corresponding scheduling instruction ticket through the service gateway, the block chain core server writes the record and the corresponding scheduling instruction ticket into the block and adds the block into the second block chain;

before the step S41, the method further includes the steps of:

s401, the distributed micro service module sends a request to a block chain core server to acquire a second block chain block, and the second block chain block is analyzed to acquire a history record and corresponding scheduling instruction ticket information;

s402, the scheduling instruction ticket automatic generation function interface matches the triggered single or multiple records with the historical records, compares the scheduling instruction ticket corresponding to the historical record with the scheduling instruction ticket generated this time when the matching is successful, and sends out warning information to a user if the comparison is not passed.

2. The automatic generation method of the scheduling instruction ticket as claimed in claim 1, wherein when the data collection micro service module returns real-time distribution network operation data, the blockchain core server updates the first blockchain, and distributes the first blockchain data to the distributed micro service module through the service gateway, and the distributed micro service module analyzes the first blockchain block and updates the client local database based on the analysis result.

3. An automatic generation system of a scheduling instruction ticket is characterized by comprising a client and an automatic generation function interface of the scheduling instruction ticket,

the client is used for acquiring power-on/off detail table data and opening the power-on/off detail table data through word processing software;

the dispatching instruction ticket automatic generation functional interface is used for generating confirmation information and acquiring a confirmation instruction or a modification instruction of a user for the confirmation information when the user triggers a single record or a plurality of records in the power outage detail form data, wherein the confirmation information comprises switch machine account information and equipment states requiring operation, and a corresponding dispatching instruction ticket is generated according to the confirmation instruction or the modification instruction;

the client specifically includes:

the request module is used for initiating a data acquisition request to a block chain core server;

the distributed micro-service module is used for acquiring a first block chain block through the service gateway, analyzing the block to acquire power outage and transmission detail table data, and writing a scheduling instruction ticket automatic generation function interface into local word processing software of the client;

the system also comprises a block chain core server, wherein the block chain core server is used for acquiring distribution network operation data returned by the data acquisition micro-service module through a service gateway, generating power outage detail table data based on the distribution network operation data, writing the power outage detail table data into the block, adding the block into a first block chain, and deploying the distributed micro-service module to the client through the service gateway;

the distributed micro-service module is also used for sending the single or multiple records of the current triggered scheduling instruction ticket automatic generation function interface and the corresponding scheduling instruction ticket to the service gateway;

the block chain core server is also used for writing the record and the corresponding scheduling instruction ticket into a block after the record and the corresponding scheduling instruction ticket are obtained through the service gateway, and adding the block into a second block chain;

the distributed micro-service module is also used for initiating a request to the block chain core server to acquire a second block chain block, and analyzing the second block chain block to acquire a history record and corresponding scheduling instruction ticket information;

the dispatching instruction ticket automatic generation function interface is further used for matching the triggered single or multiple records with the historical records, comparing the dispatching instruction tickets corresponding to the historical records with the dispatching instruction tickets generated this time when the matching is successful, and sending warning information to a user if the comparison is not passed.

4. The system according to claim 3, wherein the blockchain core server is further configured to update the first blockchain when the data acquisition micro-service module returns real-time distribution network operation data, and distribute the first blockchain data to the distributed micro-service module through the service gateway; the distributed micro-service module is further used for updating the local database of the client based on the analysis result after the first block chain block is analyzed.

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