CN113409007A - Automatic analysis system and method for feeder line-to-power supply scene - Google Patents

Abstract

The invention discloses a system and a method for automatically analyzing a feeder line-to-power supply scene, which automatically analyze the switch state and the switch listing information of each feeder line of a target transfer-out device according to the target transfer-out device input by a user, generate and display corresponding execution conditions, remark fields and a transfer scheme, replace the original manual analysis mode, provide great intuition and operation convenience, and solve the technical problems that the analysis of the transfer-to-power supply scene among feeder lines of the existing power grid needs to depend on the specialty and experience of an analyst and the analysis efficiency is low.

Description

Automatic analysis system and method for feeder line-to-power supply scene

Technical Field

The invention relates to the technical field of power distribution network line monitoring, in particular to a system and a method for automatically analyzing a power supply scene of a feeder line.

Background

With the increasing complexity of the power grid structure, the power supply conversion situation between lines is more complex, the number of substations and power supply lines of power distribution under all levels of voltage is increased, and when the power grid line equipment is suddenly damaged due to faults or severe weather such as typhoon and thunderstorm occurs in an area, the main network operation line or equipment can be failed and power failure can be caused, and one to a plurality of substation and bus accident power failure events can also be caused. Generally, tens of power distribution network feeders of a transformer substation in normal operation of a power grid supply power to customers, and if a large-range power failure accident occurs in a region, hundreds of power distribution network feeders are powered off at the same time, so that the condition of power transfer between power grid lines needs to be analyzed. However, as the situation of transferring power between lines is more complicated, the current manual analysis of the execution situation of transferring power by feeder lines requires not only the expertise and experience of analysts, but also the efficiency is low.

Disclosure of Invention

The invention provides a system and a method for automatically analyzing a power supply switching scene of a feeder line, which are used for solving the technical problems that the analysis of the power supply switching scene among feeder lines of the existing power grid needs to depend on the specialty and the experience of an analyst and the analysis efficiency is low.

In view of this, the first aspect of the present invention provides an automatic analysis system for a feeder-to-power scenario, including:

the acquisition module is used for acquiring feeder line batch transfer information of the target transfer-out equipment, wherein the feeder line batch transfer information comprises transfer-out feeder line information, a transfer-out scheme and transfer-in feeder line information;

the state analysis module is used for analyzing the switch state and the switch listing information of each feeder line of the target transfer-out equipment according to the feeder line batch transfer information of the target transfer-out equipment;

and the result display module is used for generating corresponding execution conditions or remark fields according to the switch states and the switch listing information, calling preset transfer schemes corresponding to the execution conditions or the remark fields, and displaying the batch transfer information, the switch states, the switch listing information, the execution conditions, the remark fields and the corresponding preset transfer schemes of the feeder lines.

Optionally, an input module is further included;

and the input module is used for acquiring the information of the target transfer-out equipment input by the user when the user clicks the preset analysis key, wherein the information of the target transfer-out equipment comprises an equipment name and an ID.

Optionally, the switch state includes closing and opening, and the switch hang tag information includes quitting operation, fault, maintenance or line maintenance, power supply switching, cold standby, non-debugging, irrigation and drainage, power conservation, important users, reclosing quitting, and live working.

Optionally, the execution condition or remark field corresponding to the switch state and the switch listing information includes:

when the switch state is open:

if the switch listing information is quit operation, the execution condition is corresponding to 'original quit operation';

if the switch listing information is a fault, the execution condition is corresponding to 'original fault';

if the switch listing information is maintenance or line maintenance, the execution condition is corresponding to 'original maintenance';

if the switch listing information is power supply conversion, the execution condition is corresponding to 'original power conversion';

if the switch listing information is cold standby, the execution condition is corresponding to 'original standby';

if the switch listing information is not debugged, the execution condition is correspondingly debugged;

if the switch listing information is reclosing exit or live working, the remark field is correspondingly reclosing exit or live working;

when the switch state is closing:

if the switch listing information is power supply transfer, the execution condition is corresponding to 'partial power supply transfer';

if the information of the switch listing is irrigation and drainage, power conservation or an important user, the remark field is irrigation and drainage, power conservation or an important user.

Optionally, the result display module displays the batch transshipment information, the switch state, the switch listing information, the execution condition, the remark field and the corresponding preset transshipment scheme of the feeder line according to the preset priority order;

the preset priority level comprises the following steps from high to low: the method comprises the following steps of quitting operation, fault, overhaul or line overhaul, power supply transfer, cold standby, non-debugging, reclosing quit, live working, drainage and irrigation, important users and power conservation, wherein the reclosing quit, the live working, the drainage and irrigation, the important users and the power conservation have the same priority.

The second aspect of the present invention provides an automatic analysis method for a scenario of switching feeder line to power supply, including:

obtaining batch transferring information of the feeder of the target transferring-out device, wherein the batch transferring information of the feeder comprises transferring-out feeder information, a transferring-out scheme and transferring-in feeder information;

analyzing the on-off state and the on-off listing information of each feeder line of the target transfer-out equipment according to the feeder line batch transfer information of the target transfer-out equipment;

and generating a corresponding execution condition or remark field according to the switch state and the switch listing information, calling a preset transfer scheme corresponding to the execution condition or remark field, and displaying the batch transfer information, the switch state, the switch listing information, the execution condition, the remark field and the corresponding preset transfer scheme of the feeder line.

Optionally, before obtaining the batch forwarding information of the feeder line of the target forwarding-out device, the method further includes;

when a user clicks a preset analysis key, target transfer-out device information input by the user is acquired, and the target transfer-out device information comprises a device name and an ID.

Optionally, the switch state includes closing and opening, and the switch hang tag information includes quitting operation, fault, maintenance or line maintenance, power supply switching, cold standby, non-debugging, irrigation and drainage, power conservation, important users, reclosing quitting, and live working.

Optionally, the execution condition or remark field corresponding to the switch state and the switch listing information includes:

when the switch state is open:

if the switch listing information is quit operation, the execution condition is corresponding to 'original quit operation';

if the switch listing information is a fault, the execution condition is corresponding to 'original fault';

if the switch listing information is maintenance or line maintenance, the execution condition is corresponding to 'original maintenance';

if the switch listing information is power supply conversion, the execution condition is corresponding to 'original power conversion';

if the switch listing information is cold standby, the execution condition is corresponding to 'original standby';

if the switch listing information is not debugged, the execution condition is correspondingly debugged;

if the switch listing information is reclosing exit or live working, the remark field is correspondingly reclosing exit or live working;

when the switch state is closing:

if the switch listing information is power supply transfer, the execution condition is corresponding to 'partial power supply transfer';

if the information of the switch listing is irrigation and drainage, power conservation or an important user, the remark field is irrigation and drainage, power conservation or an important user.

Optionally, when batch supply transferring information, a switch state, switch listing information, an execution condition, a remark field and a corresponding preset supply transferring scheme of the feeder line are displayed, displaying according to a preset priority order;

the preset priority level comprises the following steps from high to low: the method comprises the following steps of quitting operation, fault, overhaul or line overhaul, power supply transfer, cold standby, non-debugging, reclosing quit, live working, drainage and irrigation, important users and power conservation, wherein the reclosing quit, the live working, the drainage and irrigation, the important users and the power conservation have the same priority.

According to the technical scheme, the embodiment of the invention has the following advantages:

the invention provides an automatic analysis system for a power supply scene transferred by a feeder line, which comprises: the acquisition module is used for acquiring feeder line batch transfer information of the target transfer-out equipment, wherein the feeder line batch transfer information comprises transfer-out feeder line information, a transfer-out scheme and transfer-in feeder line information; the state analysis module is used for analyzing the switch state and the switch listing information of each feeder line of the target transfer-out equipment according to the feeder line batch transfer information of the target transfer-out equipment; and the result display module is used for generating corresponding execution conditions or remark fields according to the switch states and the switch listing information, calling preset transfer schemes corresponding to the execution conditions or the remark fields, and displaying the batch transfer information, the switch states, the switch listing information, the execution conditions, the remark fields and the corresponding preset transfer schemes of the feeder lines. The automatic analysis system for the feeder line-to-power supply scene provided by the invention can automatically analyze the switch state and the switch listing information of each feeder line of the target transfer-out equipment according to the target transfer-out equipment input by a user, generate and display the corresponding execution condition, remark field and transfer scheme, replaces the original manual analysis mode, provides great intuition and operation convenience, and solves the technical problems that the analysis of the transfer-to-power supply scene among the feeder lines of the existing power grid needs to depend on the specialty and experience of an analyst and the analysis efficiency is low.

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 are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments described in the present invention, and it is obvious for those skilled in the art to obtain other drawings according to these drawings.

Fig. 1 is a schematic structural diagram of an automatic analysis system for a feeder line-to-power scenario provided in an embodiment of the present invention;

fig. 2 is an execution block diagram of an automatic analysis system for a feeder-to-power scenario provided in an embodiment of the present invention;

fig. 3 is a schematic flow chart of an automatic analysis method for a feeder line to power supply scenario provided in an embodiment of the present invention.

Detailed Description

In order to make the technical solutions of the present invention better understood, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

For easy understanding, please refer to fig. 1 and fig. 2, the present invention provides an embodiment of a method for automatically analyzing a scenario of feeder line to power supply, including:

the acquisition module is used for acquiring feeder line batch transfer information of the target transfer-out equipment, wherein the feeder line batch transfer information comprises transfer-out feeder line information, a transfer-out scheme and transfer-in feeder line information;

the state analysis module is used for analyzing the switch state and the switch listing information of each feeder line of the target transfer-out equipment according to the feeder line batch transfer information of the target transfer-out equipment;

and the result display module is used for generating corresponding execution conditions or remark fields according to the switch states and the switch listing information, calling preset transfer schemes corresponding to the execution conditions or the remark fields, and displaying the batch transfer information, the switch states, the switch listing information, the execution conditions, the remark fields and the corresponding preset transfer schemes of the feeder lines.

In the invention, a user can input equipment (such as a main transformer and a bus thereof) information needing to transfer a load out, namely target transfer-out equipment information, on a system interface through an input module according to actual requirements, then a preset analysis key is clicked, the input module responds when the preset analysis key is clicked to acquire the target transfer-out equipment information input by the user, the target transfer-out equipment information comprises an equipment name and an ID (identity), so that corresponding associated information, namely feeder line batch transfer information of the target transfer-out equipment, is conveniently indexed in a database, and the feeder line batch transfer information comprises transfer-out feeder line information, a transfer-out scheme and transfer-in feeder line information.

The switch states of the feeders are divided into two types of switch-on and switch-off, the switch hang tag information is divided into multiple types such as operation quitting, fault, overhaul or line overhaul, power supply transferring, cold standby, non-debugging, drainage and irrigation, power conservation, important users, reclosing quitting, live working and the like, and the switch-off state and the switch-on state respectively correspond to multiple different switch hang tag information.

When the switch state is open:

if the switch listing information is quit operation, the execution condition is corresponding to 'original quit operation', namely, under the brake separating state, when the switch listing is 'quit operation listing', the corresponding feeder line transfer scene is 'original quit operation', and a preset transfer scheme corresponding to the 'original quit operation' scene can be called from the database under the brake separating state;

if the switch listing information is a fault, the execution condition is corresponding to an original fault, namely, in a switching-off state, when the switch listing is a fault listing, the corresponding feeder line scene is an original fault, and a preset switching scheme corresponding to the original fault scene in the switching-off state can be called from the database;

if the switch hang tag information is overhaul or line overhaul, the execution condition is corresponding to 'original overhaul', namely in a brake-off state, when the switch hang tag is 'overhaul or line overhaul tag', the corresponding feeder line scene is 'original overhaul', and a preset transfer scheme corresponding to the 'original overhaul' scene in the brake-off state can be called from the database;

if the switch listing information is power supply transfer, the execution condition is corresponding to 'original power transfer', namely, under the switching-off state, when the switch listing is the 'power supply transfer listing', the corresponding feeder line scene is 'original power transfer', and a preset power transfer scheme corresponding to the 'original power transfer' scene can be called from the database under the switching-off state;

if the switch hang tag information is cold standby, the execution condition is corresponding to 'original standby', namely, under the switching-off state, when the switch hang tag is 'cold standby', the corresponding feeder line scene is 'original standby', and a preset switching scheme corresponding to the 'original standby' scene under the switching-off state can be called from the database;

if the switch hang tag information is not debugged, the execution condition is correspondingly 'not debugged', namely, in the brake-off state, when the switch hang tag is 'cold spare tag', the corresponding feeder line scene is 'not debugged', and a preset transfer scheme corresponding to the 'not debugged' scene can be called from the database in the brake-off state;

if the switch listing information is reclosing exit or live working, the remark field is corresponding to reclosing exit or live working, namely in a switching-off state, when the switch listing is a reclosing exit or live working board, the corresponding feeder scene is reclosing exit or live working, and a preset switching scheme corresponding to the reclosing exit or live working scene can be called from the database in the switching-off state;

when the switch state is closing:

if the switch listing information is power supply transfer, the execution condition is corresponding to 'partial power supply transfer', namely, in a closing state, when the switch listing is a 'power supply transfer listing', the corresponding feeder line scene is 'partial power supply transfer', and a preset power supply transfer scheme corresponding to the 'partial power supply transfer' scene in the closing state can be called from the database;

if the information of the switch hanging plate is drainage and irrigation, power conservation or an important user, the remark field is 'drainage and irrigation', 'power conservation' or an important user ', namely in a closing state, when the switch hanging plate is a' drainage and irrigation, power conservation or an important user plate ', the corresponding feeder line scene is' drainage and irrigation ',' power conservation 'and an important user', and the preset transfer scheme corresponding to the 'drainage and irrigation', 'power conservation' or 'important user' scene can be called from the database in the closing state.

In one embodiment, the result display module displays the batch supply information, the switch state, the switch listing information, the execution condition, the remark field and the corresponding preset supply scheme of the feeder line according to a preset priority sequence, wherein the preset priority sequence is as follows from high to low: the method comprises the following steps of quitting operation, fault, overhaul or line overhaul, power supply transfer, cold standby, non-debugging, reclosing quit, live working, drainage and irrigation, important users and power conservation, wherein the reclosing quit, the live working, the drainage and irrigation, the important users and the power conservation have the same priority.

The automatic analysis system for the feeder line-to-power supply scene provided by the invention can automatically analyze the switch state and the switch listing information of each feeder line of the target transfer-out equipment according to the target transfer-out equipment input by a user, generate and display the corresponding execution condition, remark field and transfer scheme, replaces the original manual analysis mode, provides great intuition and operation convenience, and solves the technical problems that the analysis of the transfer-to-power supply scene among the feeder lines of the existing power grid needs to depend on the specialty and experience of an analyst and the analysis efficiency is low.

Example 2

For easy understanding, please refer to fig. 3, an embodiment of the method for automatically analyzing a feeder line to power supply scenario provided in the present invention includes:

step 101, obtaining feeder line batch transfer information of a target transfer-out device, wherein the feeder line batch transfer information comprises transfer-out feeder line information, a transfer-out scheme and transfer-in feeder line information;

102, analyzing the switch state and the switch listing information of each feeder line of the target transfer-out equipment according to the feeder line batch transfer information of the target transfer-out equipment;

103, generating a corresponding execution condition or remark field according to the switch state and the switch listing information, calling a preset transfer scheme corresponding to the execution condition or remark field, and displaying the batch transfer information, the switch state, the switch listing information, the execution condition, the remark field and the corresponding preset transfer scheme of the feeder line.

The user can input information of equipment (such as a main transformer and a bus thereof) needing to transfer the load out, namely target transfer-out equipment information, on a system interface according to actual requirements, then click a preset analysis key, respond when the preset analysis key is clicked, and obtain the target transfer-out equipment information input by the user, wherein the information of the target transfer-out equipment comprises an equipment name and an ID (identity), so that corresponding associated information, namely feeder line batch transfer information of the target transfer-out equipment is conveniently indexed in a database, and the feeder line batch transfer information comprises transfer-out feeder line information, a transfer-out scheme and transfer-in feeder line information.

The switch states of the feeders are divided into two types of switch-on and switch-off, the switch hang tag information is divided into multiple types such as operation quitting, fault, overhaul or line overhaul, power supply transferring, cold standby, non-debugging, drainage and irrigation, power conservation, important users, reclosing quitting, live working and the like, and the switch-off state and the switch-on state respectively correspond to multiple different switch hang tag information.

When the switch state is open:

if the switch listing information is quit operation, the execution condition is corresponding to 'original quit operation', namely, under the brake separating state, when the switch listing is 'quit operation listing', the corresponding feeder line transfer scene is 'original quit operation', and a preset transfer scheme corresponding to the 'original quit operation' scene can be called from the database under the brake separating state;

if the switch listing information is a fault, the execution condition is corresponding to an original fault, namely, in a switching-off state, when the switch listing is a fault listing, the corresponding feeder line scene is an original fault, and a preset switching scheme corresponding to the original fault scene in the switching-off state can be called from the database;

if the switch hang tag information is overhaul or line overhaul, the execution condition is corresponding to 'original overhaul', namely in a brake-off state, when the switch hang tag is 'overhaul or line overhaul tag', the corresponding feeder line scene is 'original overhaul', and a preset transfer scheme corresponding to the 'original overhaul' scene in the brake-off state can be called from the database;

if the switch listing information is power supply transfer, the execution condition is corresponding to 'original power transfer', namely, under the switching-off state, when the switch listing is the 'power supply transfer listing', the corresponding feeder line scene is 'original power transfer', and a preset power transfer scheme corresponding to the 'original power transfer' scene can be called from the database under the switching-off state;

if the switch hang tag information is cold standby, the execution condition is corresponding to 'original standby', namely, under the switching-off state, when the switch hang tag is 'cold standby', the corresponding feeder line scene is 'original standby', and a preset switching scheme corresponding to the 'original standby' scene under the switching-off state can be called from the database;

if the switch hang tag information is not debugged, the execution condition is correspondingly 'not debugged', namely, in the brake-off state, when the switch hang tag is 'cold spare tag', the corresponding feeder line scene is 'not debugged', and a preset transfer scheme corresponding to the 'not debugged' scene can be called from the database in the brake-off state;

if the switch listing information is reclosing exit or live working, the remark field is corresponding to reclosing exit or live working, namely in a switching-off state, when the switch listing is a reclosing exit or live working board, the corresponding feeder scene is reclosing exit or live working, and a preset switching scheme corresponding to the reclosing exit or live working scene can be called from the database in the switching-off state;

when the switch state is closing:

if the switch listing information is power supply transfer, the execution condition is corresponding to 'partial power supply transfer', namely, in a closing state, when the switch listing is a 'power supply transfer listing', the corresponding feeder line scene is 'partial power supply transfer', and a preset power supply transfer scheme corresponding to the 'partial power supply transfer' scene in the closing state can be called from the database;

if the information of the switch hanging plate is drainage and irrigation, power conservation or an important user, the remark field is 'drainage and irrigation', 'power conservation' or an important user ', namely in a closing state, when the switch hanging plate is a' drainage and irrigation, power conservation or an important user plate ', the corresponding feeder line scene is' drainage and irrigation ',' power conservation 'and an important user', and the preset transfer scheme corresponding to the 'drainage and irrigation', 'power conservation' or 'important user' scene can be called from the database in the closing state.

In one embodiment, when batch feeder transfer information, switch states, switch listing information, execution conditions, remark fields and corresponding preset transfer schemes are displayed, the batch feeder transfer information, the switch states, the switch listing information, the execution conditions, the remark fields and the corresponding preset transfer schemes are displayed according to a preset priority sequence, and the preset priorities are as follows in sequence from high to low: the method comprises the following steps of quitting operation, fault, overhaul or line overhaul, power supply transfer, cold standby, non-debugging, reclosing quit, live working, drainage and irrigation, important users and power conservation, wherein the reclosing quit, the live working, the drainage and irrigation, the important users and the power conservation have the same priority.

The method for automatically analyzing the power supply switching scene of the feeder line can automatically analyze the switch state and the switch listing information of each feeder line of the target transfer-out equipment according to the target transfer-out equipment input by a user, generate and display the corresponding execution condition, remark field and power supply switching scheme, replace the original manual analysis mode, provide great intuition and operation convenience, and solve the technical problems that the analysis of the power supply switching scene among the feeder lines of the existing power grid needs to depend on the specialty and experience of an analyst and the analysis efficiency is low.

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

Claims (10)

1. An automatic analysis system for a feeder line-to-power scene is characterized by comprising:

the acquisition module is used for acquiring feeder line batch transfer information of the target transfer-out equipment, wherein the feeder line batch transfer information comprises transfer-out feeder line information, a transfer-out scheme and transfer-in feeder line information;

the state analysis module is used for analyzing the switch state and the switch listing information of each feeder line of the target transfer-out equipment according to the feeder line batch transfer information of the target transfer-out equipment;

and the result display module is used for generating corresponding execution conditions or remark fields according to the switch states and the switch listing information, calling preset transfer schemes corresponding to the execution conditions or the remark fields, and displaying the batch transfer information, the switch states, the switch listing information, the execution conditions, the remark fields and the corresponding preset transfer schemes of the feeder lines.

2. The feeder-to-power scenario automatic analysis system of claim 1, further comprising an input module;

and the input module is used for acquiring the information of the target transfer-out equipment input by the user when the user clicks the preset analysis key, wherein the information of the target transfer-out equipment comprises an equipment name and an ID.

3. The system for automatically analyzing a scene of power supply from a feeder line to a feeder line according to claim 1, wherein the switch state comprises switching on and switching off, and the information of the switch tag comprises quitting operation, failure, maintenance or line maintenance, power supply switching, cold standby, non-debugging, drainage and irrigation, power conservation, important users, quitting of reclosing, and live working.

4. The system for automatically analyzing a scenario of switching from a feeder line to a power supply according to claim 3, wherein the execution condition or remark field corresponding to the switch state and the switch listing information comprises:

when the switch state is open:

if the switch listing information is quit operation, the execution condition is corresponding to 'original quit operation';

if the switch listing information is a fault, the execution condition is corresponding to 'original fault';

if the switch listing information is maintenance or line maintenance, the execution condition is corresponding to 'original maintenance';

if the switch listing information is power supply conversion, the execution condition is corresponding to 'original power conversion';

if the switch listing information is cold standby, the execution condition is corresponding to 'original standby';

if the switch listing information is not debugged, the execution condition is correspondingly debugged;

if the switch listing information is reclosing exit or live working, the remark field is correspondingly reclosing exit or live working;

when the switch state is closing:

if the switch listing information is power supply transfer, the execution condition is corresponding to 'partial power supply transfer';

if the information of the switch listing is irrigation and drainage, power conservation or an important user, the remark field is irrigation and drainage, power conservation or an important user.

5. The system for automatically analyzing a scenario of switching feeder to power supply according to claim 4, wherein the result display module displays the batch switching feeder information, the switch status, the switch listing information, the execution condition, the remark field and the corresponding preset switching scheme according to a preset priority order;

the preset priority level comprises the following steps from high to low: the method comprises the following steps of quitting operation, fault, overhaul or line overhaul, power supply transfer, cold standby, non-debugging, reclosing quit, live working, drainage and irrigation, important users and power conservation, wherein the reclosing quit, the live working, the drainage and irrigation, the important users and the power conservation have the same priority.

6. A method for automatically analyzing a scene of switching feeder line to power supply is characterized by comprising the following steps:

obtaining batch transferring information of the feeder of the target transferring-out device, wherein the batch transferring information of the feeder comprises transferring-out feeder information, a transferring-out scheme and transferring-in feeder information;

analyzing the on-off state and the on-off listing information of each feeder line of the target transfer-out equipment according to the feeder line batch transfer information of the target transfer-out equipment;

and generating a corresponding execution condition or remark field according to the switch state and the switch listing information, calling a preset transfer scheme corresponding to the execution condition or remark field, and displaying the batch transfer information, the switch state, the switch listing information, the execution condition, the remark field and the corresponding preset transfer scheme of the feeder line.

7. The method for automatically analyzing a scenario of feeder-to-power transfer according to claim 6, further comprising, before obtaining batch feeder-to-power transfer information of a target transfer-out device;

when a user clicks a preset analysis key, target transfer-out device information input by the user is acquired, and the target transfer-out device information comprises a device name and an ID.

8. The method for automatically analyzing a scene of power supply from a feeder line according to claim 7, wherein the switch state comprises switching on and switching off, and the information of the switch tag comprises quitting operation, failure, maintenance or line maintenance, power supply switching, cold standby, non-debugging, drainage and irrigation, power conservation, important users, reclosing quitting and live working.

9. The automatic analysis method for feeder-to-power scenes according to claim 8, wherein the execution condition or remark field corresponding to the switch state and the switch listing information comprises:

when the switch state is open:

if the switch listing information is quit operation, the execution condition is corresponding to 'original quit operation';

if the switch listing information is a fault, the execution condition is corresponding to 'original fault';

if the switch listing information is maintenance or line maintenance, the execution condition is corresponding to 'original maintenance';

if the switch listing information is power supply conversion, the execution condition is corresponding to 'original power conversion';

if the switch listing information is cold standby, the execution condition is corresponding to 'original standby';

if the switch listing information is not debugged, the execution condition is correspondingly debugged;

if the switch listing information is reclosing exit or live working, the remark field is correspondingly reclosing exit or live working;

when the switch state is closing:

if the switch listing information is power supply transfer, the execution condition is corresponding to 'partial power supply transfer';

if the information of the switch listing is irrigation and drainage, power conservation or an important user, the remark field is irrigation and drainage, power conservation or an important user.

10. The method for automatically analyzing a scenario of switching feeder to power supply according to claim 9, wherein when batch switching feeder information, switch status, switch listing information, execution conditions, remark fields and corresponding preset switching schemes are displayed, the batch switching feeder information, the switch status, the switch listing information, the execution conditions, the remark fields and the corresponding preset switching schemes are displayed according to a preset priority order;

the preset priority level comprises the following steps from high to low: the method comprises the following steps of quitting operation, fault, overhaul or line overhaul, power supply transfer, cold standby, non-debugging, reclosing quit, live working, drainage and irrigation, important users and power conservation, wherein the reclosing quit, the live working, the drainage and irrigation, the important users and the power conservation have the same priority.

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