CN112926951B - Equipment transaction identification method and device - Google Patents

Abstract

The invention discloses a method and a device for identifying equipment transaction, wherein the method comprises the following steps: acquiring service work order data information acquired by a production management system and a power distribution GIS, sorting the service work order data information to generate service work order time related data information, judging whether equipment has abnormal motion during service work order circulation according to the service work order time related data information, if so, displaying a page of the service work order causing the equipment to have abnormal motion, and sending a short message to remind related personnel. The invention identifies the abnormal operation condition of the equipment during the business work order circulation period through the system, thereby ensuring the personal operation safety and the safe and stable operation of the power grid.

Description

Equipment transaction identification method and device

Technical Field

The invention relates to the field of power distribution network scheduling operation services, in particular to a method and a device for identifying equipment transaction.

Background

In order to realize orderly execution of the service work orders, the power supply station and the district office in the basic level need to submit the service work orders and related data to distribution network scheduling audit after multi-layer audit in advance, and line reconstruction can be executed under unified overall planning of distribution network scheduling after the audit is passed. In the actual daily service execution process, due to factors such as temporary change of a line structure or repeated billing of a basic unit due to busy service, the fact that the same line or equipment executes other service work orders during the period of submitting a service work order plan and data to the actual executed service circulation auditing from a basic power supply station and a district office, the line structure during the actual execution of the service work order is inconsistent with the application of the service work order, operation risks exist, and hidden troubles are brought to personal safety and safe and stable operation of a power grid.

The existing method for identifying the abnormal operation of the equipment during the operation of the power distribution network service work order is lack of an effective means to realize real-time identification, the problems are mainly found in the manual time execution process of distribution network scheduling personnel, but the influence is brought to reasonably arranging the transformation of line equipment at the moment, and some equipment is difficult to find.

Therefore, in order to achieve personal operation safety and safe and stable operation of a power grid, and solve the technical problem that the existing method cannot identify whether the equipment of the power distribution network is in abnormal operation or not in the business work order circulation period through an effective means, a method for identifying the equipment abnormal operation is urgently needed to be constructed.

Disclosure of Invention

The invention provides a method and a device for identifying equipment transaction, which solve the technical problem that whether the equipment which belongs to a power distribution network service work order flow period is subjected to transaction cannot be identified by an effective means at present.

In a first aspect, the present invention provides a method for identifying device transaction, including:

acquiring business work order data information acquired by a production management system and a power distribution GIS;

the business work order data information is arranged to generate business work order time correlation data information;

judging whether equipment has abnormal operation during the business work order circulation period according to the business work order time correlation data information;

and displaying a page of the business work order causing the abnormal operation of the equipment and sending a short message to remind related personnel.

Optionally, acquiring the service work order data information collected by the production management system and the distribution GIS includes:

acquiring different data information of different types of the business work orders in a production management system and a power distribution GIS;

and obtaining the subordinate or superior-subordinate relation of the equipment according to the standing book information of the power distribution network equipment and the topological relation of the single line diagram of the distribution network line.

Optionally, the sorting the service work order data information to generate service work order time-related data information includes:

defining a work order which needs to be analyzed whether equipment is abnormal or not in the circulation period as a left work order;

defining the work order which influences the left work order to cause equipment abnormal movement in the period of flow as a right work order;

and defining time periods of the left work order and the right work order to obtain time correlation data information of the service work order.

Optionally, judging whether there is a transaction in the device during the business work order circulation according to the business work order time-related data information includes:

removing the work orders with time period overlapping in the service work order time correlation data information to obtain the left and right correlation work orders after removal;

and judging whether the equipment has abnormal operation during the circulation of the business work order based on the eliminated left and right associated work orders by combining the topological relation of the single line diagram of the distribution network line and the subordinate or superior and inferior relations of the equipment.

Optionally, the determining, based on the eliminated left and right associated work orders, whether there is a transaction in the device during the service work order circulation by combining the distribution network line single line diagram topological relation and the subordinate or superior-inferior relation of the device includes:

judging whether the left and right eliminated associated work orders have the superior-inferior relation or not according to the topological relation of the single line diagram of the distribution network line, the subordinate or superior-inferior relation of the equipment and the eliminated left and right associated work orders;

and if so, determining that the right work order exists in the left work order service during the circulation so as to cause the abnormal operation of the equipment.

In a second aspect, the present invention provides an apparatus for identifying device transaction, including:

the acquisition module is used for acquiring business work order data information acquired by the production management system and the power distribution GIS;

the arrangement module is used for arranging the business work order data information to generate business work order time related data information;

the judging module is used for judging whether equipment has abnormal operation during the business work order circulation according to the business work order time related data information; if yes, executing a display module;

and the display module is used for displaying a page of the business work order causing the abnormal operation of the equipment and sending a short message to remind related personnel.

Optionally, the obtaining module includes:

the acquisition submodule is used for acquiring different data information of different types of the business work orders in the production management system and the distribution GIS;

and the relation submodule is used for obtaining the subordinate or superior-subordinate relation of the equipment according to the standing book information of the power distribution network equipment and the topological relation of the single line diagram of the distribution network line.

Optionally, the collation module comprises:

the left side definition submodule is used for defining the work order which needs to analyze whether equipment transaction exists in the circulation period as a left side work order;

the right side definition submodule is used for defining the work order which influences the left work order to cause equipment abnormal movement in the streaming period as a right side work order;

and the time definition submodule is used for defining time periods of the left work order and the right work order to obtain the time-related data information of the service work orders.

Optionally, the determining module includes:

the eliminating submodule is used for eliminating the work orders with time periods overlapped in the time-related data information of the service work orders to obtain the left and right related work orders after elimination;

and the judging submodule is used for judging whether the equipment has abnormal movement during the circulation of the business work order based on the eliminated left and right associated work orders by combining the topological relation of the single line diagram of the distribution network line and the subordinate or superior and inferior relations of the equipment.

Optionally, the determining sub-module includes:

the judging unit is used for judging whether the left and right related work orders after being eliminated have the superior-inferior relation or not according to the topological relation of the distribution network line single line diagram, the subordinate or superior-inferior relation of the equipment and the left and right related work orders after being eliminated; if yes, executing a determining unit;

the determining unit is configured to determine that the right work order exists in the left work order service during the turnover, which causes the device to perform transaction.

According to the technical scheme, the invention has the following advantages: the invention provides an equipment transaction identification method, which comprises the steps of acquiring service work order data information acquired by a production management system and a power distribution GIS, arranging the service work order data information to generate service work order time-related data information, judging whether equipment has transaction during service work order circulation according to the service work order time-related data information, if so, carrying out page display on a service work order causing the equipment to have transaction and sending a short message to remind related personnel, identifying the transaction condition of the equipment during the service work order circulation through a system, solving the technical problem that whether the equipment during the power distribution network service work order circulation has transaction cannot be identified through an effective means at present, greatly improving the safe and stable operation level of a power grid and the personal safety of field construction workers, and providing support for reliable power utilization of users.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive exercise.

Fig. 1 is a flowchart of a first embodiment of a method for identifying device transaction according to the present invention;

fig. 2 is a flowchart illustrating a second embodiment of a method for identifying device transaction according to the present invention;

fig. 3 is a block diagram of an embodiment of an apparatus for identifying device transaction according to the present invention.

Detailed Description

The embodiment of the invention provides a method and a device for identifying equipment transaction, which are used for solving the technical problem that whether the equipment which belongs to a power distribution network service work order circulation period is subjected to transaction cannot be identified by an effective means at present.

In order to make the objects, features and advantages of the present invention more obvious and understandable, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the embodiments described below 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.

In a first embodiment, referring to fig. 1, fig. 1 is a flowchart of a first method for identifying device transaction according to a first embodiment of the present invention, including:

step S101, acquiring service work order data information acquired by a production management system and a power distribution GIS;

step S102, the business work order data information is arranged to generate business work order time correlation data information;

step S103, judging whether the equipment has abnormal movement during the business work order circulation period according to the business work order time correlation data information;

and step S104, if so, displaying a page of the business worksheet causing the abnormal operation of the equipment and sending a short message to remind related personnel.

The method for identifying equipment transaction provided by the embodiment of the invention comprises the steps of acquiring service work order data information acquired by a production management system and a power distribution GIS, arranging the service work order data information to generate service work order time-related data information, judging whether equipment transaction occurs during service work order circulation according to the service work order time-related data information, if so, displaying a page of a service work order causing the equipment transaction and sending a short message to remind relevant personnel, and identifying the transaction condition of the equipment during the service work order circulation through a system.

In a second embodiment, referring to fig. 2, fig. 2 is a flowchart illustrating a method for identifying device transaction according to the present invention, including:

step S201, acquiring different data information of different types of service work orders in a production management system and a distribution GIS;

it should be noted that the types of the service work orders include a comprehensive power failure service work order, a transfer power supply service work order, a reclosing service work order, and a fault tripping service work order.

In the embodiment of the invention, the working personnel obtain different data information according to different types of business work orders.

In specific reality, for the comprehensive power failure service, data information such as a power failure order number, a work order state, a work order application date, an approved power failure starting time, an approved power failure ending time, a power failure operation starting time and a power failure operation ending time is obtained based on a service work order;

for the power transfer service of whether the service is recovered to be yes or not, acquiring data information such as work order equipment, a power transfer order number, a work order state, a work order application date, a batch copy roll-out starting time, a batch copy roll-out ending time, a batch copy recovery ending time, execution power transfer starting time, execution power transfer ending time, execution recovery ending time and the like based on a service work order;

for the power transfer service whether the service is recovered to be negative or not, acquiring data information such as work order equipment, a power transfer order number, a work order state, a work order application date, a batch transfer starting time, a batch transfer ending time, an execution power transfer starting time, an execution power transfer ending time and the like based on a service work order;

for the reclosing service, acquiring data information such as work order equipment, a reclosing order number, a work order state, a work order application date, batch and repeat reclosing exit time, batch and repeat reclosing entry time, reclosing exit execution time, reclosing entry execution time and the like based on a service work order;

for the fault tripping service, data information such as work order equipment, a fault order number, fault tripping time, fault type, switch power restoration time, power restoration time and full-line user power restoration time is acquired based on a service work order.

Step S202, obtaining subordinate or superior-subordinate relation of equipment according to the standing book information of the power distribution network equipment and the topological relation of the distribution network line single line diagram;

in the embodiment of the invention, the subordinate or superior-inferior relation of the equipment is obtained according to the standing book information of the power distribution network equipment and the topological relation of the distribution network line single line diagram, and the subordinate or superior-inferior relation of the equipment is used for judging whether the equipment has abnormal motion during the business work order circulation.

Step S203, defining the work order which needs to analyze whether equipment transaction exists in the circulation period as a left work order;

in the embodiment of the invention, the work order which needs to analyze whether equipment is abnormal during circulation is defined as a left work order, the left work order needs to be subjected to time period definition, and the left work order and the right work order need to be subjected to different time period definition.

Step S204, defining the work order which influences the left work order to cause equipment abnormal movement in the streaming period as a right work order;

in the embodiment of the invention, the work order which influences the left work order to cause equipment abnormal movement in the streaming process is defined as the right work order, the right work order needs to be subjected to time period definition, and the left work order and the right work order need to be subjected to different time period definition.

Step S205, defining time periods of the left work order and the right work order to obtain time-related data information of the service work order;

in the embodiment of the present invention, time period definitions are performed on the left work order and the right work order to obtain the time-related data information of the service work orders, and the time periods required to be defined by different types of service work orders are different, and the time period definitions performed on the left work order and the right work order are also different.

In the specific implementation, different types of service work orders need different defined time periods, and the left side work order and the right side work order also have different defined time periods;

in a particular implementation, the time period made for the left work order is defined as follows:

and for the comprehensive power failure service work order, if the work order state is to be executed or in execution, defining the left time period as the time from the work order application date to the current analysis time point. If the work order state is ended, defining the left time period as the work order application date to the power recovery operation ending time;

and for the power transfer service work order, if the work order state is to be executed and in execution, the left time period is defined as the time from the work order application date to the current analysis time point. If the work order state is ended, if yes, defining the left time period as the time from the work order application date to the execution recovery end time; if the work order is not restored, the left time section is defined as the time from the work order application date to the end time of power supply transfer execution;

for reclosing lock on-off service, if the work order state is to be executed and in execution, the left time period is defined as the time from the work order application date to the current analysis time point. If the work order state is ended, the left time period is defined as the time from the work order application date to the time for switching on the reclosure

The time period made for the right work order is defined as follows:

for the comprehensive power failure service work order, if the work order state is to be executed or in execution, the right time period is defined from the start time of approved power failure to the end time of approved power failure. If the work order state is ended, defining the right time period as the time from the power failure operation starting time to the power failure operation ending time;

for the power supply transfer service work order, if the work order state is to be executed and in execution, and whether the work order state is recovered to be yes, the right time period is defined as the time from the start time of batch transfer to the end time of batch recovery; for whether to return to no, the right-side time period is defined as the batch out start time to the batch out end time. If the work order state is ended, if yes, defining the right time period as the time from the power supply starting execution to the power recovery ending execution; if the power supply is not restored, defining the right time section as the power supply transferring starting time to the power supply transferring ending time;

for the reclosing on/off service, if the work order state is to be executed and in execution, the right time period is defined as the time from the time of batch reclosing on for repeated quitting to the time of batch reclosing on for repeated putting. If the work order state is ended, defining the right time period as the execution time of the quit reclosing switch to the execution time of the input reclosing switch;

for fault trip service, the right time period is defined as: fault trip time.

Step S206, eliminating the work orders with time periods overlapped in the time-related data information of the service work order to obtain the left and right related work orders after elimination;

it should be noted that, the determining whether there is time period overlap in the time periods of the left and right work orders includes the following specific rules:

if the right work order time period associated with the left work order line is completely within the left time period, the left and right work order time periods are considered to be overlapped; if the right work order time period is from 10 month 25 days in 2020 to 10 month 26 days in 2020, and the left work order time period is from 10 year 23 days in 2020 to 10 month 28 days in 2020, the right work order time period is completely in the left work order time period;

the time of the second half part of the right work order time period associated with the left work order line is overlapped with that of the left work order, and the left work order time period and the right work order time period are considered to be overlapped; if the right work order time period is from 10 and 25 days in 2020 to 26 days in 2020 and the left work order time period is from 26 days in 2020 to 28 days in 2020 and 10 months, the second half of the right work order time period overlaps with the left work order time;

the time of the front half part of the right work order related to the left work order line is overlapped with the time of the left work order, and the time periods of the left and right work orders are considered to be overlapped; if the right-side work order time period is from 10 and 25 days in 2020 to 26 days in 10 and 2020, and the left-side work order time period is from 10 and 23 days in 2020 to 25 days in 10 and 2020, the first half of the right-side work order time period overlaps with the left-side work order time.

In the embodiment of the invention, the work orders with overlapped time periods in the time-related data information of the service work orders are removed, and the left and right related work orders after being removed are obtained.

In a specific reality, for a comprehensive power failure work order, the work order application remarks or power failure equipment fields contain descriptions such as 'single', 'transformer transformation', 'no electronic handover is involved', or 'no electronic handover is needed', and the like, which indicate that the work order is only single distribution transformation power failure, has no influence on a circuit structure, and is removed from a left work order and a right work order without participating in statistical analysis;

if the power transfer work order is recovered to be yes, and the execution power transfer starting time and the execution recovery ending time are not empty, and the work order is removed from the right side of the corresponding work order within the time period from the execution power transfer starting time to the execution recovery ending time; if the time period of the right-side power conversion and supply business work order is from 10 month 25 days in 2020 to 10 month 26 days in 2020, and the time period of the left-side work order is from 10 month 23 days in 2020 to 10 month 28 days in 2020, the left and right work orders are subjected to rejection analysis;

and for the reclosing work order, if the work order state is to be executed and in execution, the time from the time when the batch quits reclosing to the time when the batch input reclosing is in the left time period, the work order is removed from the right side of the corresponding work order. If the work order state is executed, the work order is removed from the right side of the corresponding work order when the execution time of the reclosing quit till the input time of the reclosing input is in the time period of the left side; if the time period of the right reclosing service work order is from 10 month 25 day in 2020 to 10 month 26 day in 2020, and the time period of the left reclosing service work order is from 10 month 23 day in 2020 to 10 month 28 day in 2020, the left and right work orders are subjected to rejection analysis;

for the fault tripping work order, if the fault type is an instantaneous fault or the fault type is a permanent fault, and the switch power restoration time, the power restoration time and the power restoration time of the whole line user are not null work orders, the right work order analysis is not included;

if the switching-in line and the switching-out line of the right side switching-in power supply are both in the equipment range of the left work order, the switching-in power supply work order is removed from the right side corresponding to the left work order of the reclosing service; if the right transfer power supply related transfer line is Jin Cheng line A, the transfer line is Jinsheng line B, and the left reclosing service work order related line is Jin Cheng line A and Jinsheng line B, removing and analyzing the left and right work orders;

if the left-side business work order content has related work orders, the line reconstruction work is completed by matching a plurality of related business work orders, and the work orders related to the left-side business work order are not included in the right-side work order of the left-side business work order for analysis.

Step S207, based on the eliminated left and right associated work orders, judging whether the equipment has abnormal operation during the circulation of the service work orders by combining the topological relation of the distribution network line single line diagram and the subordinate or superior-inferior relation of the equipment;

in an optional embodiment, the determining, based on the eliminated left and right associated work orders, whether there is a transaction in the device during the service work order circulation by combining the distribution network line single line diagram topological relation and the subordinate or superior-inferior relation of the device includes:

judging whether the left and right eliminated associated work orders have the superior-inferior relation or not according to the topological relation of the single line diagram of the distribution network line, the subordinate or superior-inferior relation of the equipment and the eliminated left and right associated work orders;

and if so, determining that the right work order exists in the left work order service during the circulation so as to cause the abnormal operation of the equipment.

In the embodiment of the invention, whether the equipment has abnormal motion during the circulation of the business work orders is judged based on the eliminated left and right associated work orders by combining the topological relation of the single line diagram of the distribution network line and the subordinate or superior and inferior relations of the equipment, and if the eliminated left and right associated work orders have the work orders with the superior and inferior relations, the right work order in the business of the left work order during the circulation is determined to cause the abnormal motion of the equipment.

In a concrete reality, whether equipment contained in the left and right related work orders has a superior-inferior relation or not is analyzed based on a topological relation of a distribution GIS single line diagram, and if the superior-inferior relation exists, the fact that the right work order exists in the left work order during a service flow conversion period indicates that the equipment is in abnormal motion. If the left work order operation range is 'an industrial line main line #1 tower 1T1 switch rear-section line', and the right work order operation range is 'an industrial line main line #10 tower 10T1 switch rear-section line', the left and right work orders are considered to have a relationship of upper and lower levels;

and for the fact that the work order on the left side is the reclosing service, if the working range associated on the right side has the superior-inferior relation, but in the latter section, the record is not included as a rank that whether other transactions of the line exist during the work order circulation is yes or not. If the work order operation range of the left reclosing service is 'an industrial line main line #1 tower 1T1 switch', and the work order operation range of the right reclosing service is 'an industrial line main line #10 tower 10T1 rear-section line', although the left and right work orders have the relationship of upper and lower levels, the left and right work orders do not include whether other abnormal actions exist in the line during the work order circulation period or not;

for the right-side work order which is associated with the left-side work order by taking the line as a dimension, if the time periods of the left side and the right side are overlapped, and the construction ranges of the left-side and the right-side associated work orders after being removed have the superior-inferior relation, the fact that the right-side work order exists in the business circulation period of the left-side work order causes the abnormal motion of the equipment to be caused, and influences are brought to the line structure transformation.

And S208, if so, performing page display on the business work order causing the abnormal operation of the equipment and sending a short message to remind related personnel.

In the embodiment of the invention, the left work order of the abnormal device in the intelligent analysis business work order circulation period of the patent is counted and output, and the page display is carried out. The display field content is: the work order number, the work order type, the work order state, the unit to which the work order belongs, the work order associated order line graph, the work order related range, the work order application date, the work order repeating operation starting time, the work order repeating operation ending time, the associated work order number, the right work order application date, the right work order repeating operation starting time and the right work order repeating operation ending time.

Performing short message reminding on work order contents of abnormal equipment during the intelligent analysis of the business work order flow period to remind related personnel; the data related to the identified left and right work orders are sent by short messages, and short message sending reminding is not carried out any more even if the data related to the identified left and right work orders still exist in subsequent analysis after each sending;

the short message content template is as follows: [ work order affiliated district ] the [ work order affiliated power supply station ] [ work order type ] the work order ([ work order number ], [ work order state ]) the work order date [ work order application date ], the batch operation end time [ work order batch operation end time ], the [ transformer substation ] the work order affiliated has other business work orders during the work order execution period from the work order start date, the work order is [ other operation work order type ] business ([ other operation order number ]), the work order operation time [ work order batch operation start time ].

The method for identifying equipment transaction provided by the embodiment of the invention comprises the steps of acquiring business work order data information acquired by a production management system and a power distribution GIS, arranging the business work order data information to generate business work order time related data information, judging whether equipment has transaction during business work order circulation according to the business work order time related data information, if so, carrying out page display on the business work orders causing the equipment to have transaction and sending short messages to remind related personnel, and identifying the transaction condition of the equipment during the business work order circulation through a system, so that the technical problem that whether the equipment during the business work order circulation of a power distribution network has transaction cannot be identified by an effective means at present is solved, the safe and stable operation level of the power grid and the personal safety of field construction workers are greatly improved, and the reliable power utilization of users is supported.

Referring to fig. 3, fig. 3 is a block diagram of an apparatus for identifying device transaction according to an embodiment of the present invention, including:

the acquisition module 101 is used for acquiring business work order data information acquired by a production management system and a power distribution GIS;

the arranging module 102 is configured to arrange the service work order data information to generate service work order time-related data information;

the judging module 103 is configured to judge whether there is a transaction in the device during the business work order flow according to the business work order time-related data information; if yes, the display module 104 is executed;

the display module 104 is configured to perform page display on the business work order that causes the device to be abnormal, and send a short message to remind relevant people.

In an optional embodiment, the obtaining module 101 includes:

the acquisition submodule is used for acquiring different data information of different types of the business work orders in the production management system and the distribution GIS;

and the relation submodule is used for obtaining the subordinate or superior-subordinate relation of the equipment according to the standing book information of the power distribution network equipment and the topological relation of the single line diagram of the distribution network line.

In an alternative embodiment, the collation module 102 includes:

the left side definition submodule is used for defining the work order which needs to analyze whether equipment transaction exists in the circulation period as a left side work order;

the right side definition submodule is used for defining the work order which influences the left work order to cause equipment abnormal movement in the streaming period as a right side work order;

and the time definition submodule is used for defining time periods of the left work order and the right work order to obtain time-related data information of the service work orders.

In an optional embodiment, the determining module 103 includes:

the eliminating submodule is used for eliminating the work orders with time periods overlapped in the time-related data information of the service work orders to obtain the left and right related work orders after elimination;

and the judging submodule is used for judging whether the equipment has abnormal movement during the circulation of the business work order based on the eliminated left and right associated work orders by combining the topological relation of the single line diagram of the distribution network line and the subordinate or superior and inferior relations of the equipment.

In an optional embodiment, the determining sub-module includes:

the judging unit is used for judging whether the left and right eliminated associated work orders have the superior-inferior relation or not according to the topological relation of the distribution network line single line diagram, the subordinate or superior-inferior relation of the equipment and the eliminated left and right associated work orders; if yes, executing a determining unit;

the determining unit is configured to determine that during the transition, the right work order exists in the left work order service, which results in a transaction of the device.

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

In the embodiments provided in the present application, it should be understood that the method and apparatus disclosed in the present invention can be implemented in other ways. For example, the above-described apparatus embodiments are merely illustrative, and for example, the division of the units is only one type of logical functional division, and other divisions may be realized in practice, for example, multiple units or components may be combined or integrated into another system, or some features may be omitted, or not executed. In addition, the shown or discussed mutual coupling or direct coupling or communication connection may be an indirect coupling or communication connection through some interfaces, devices or units, and may be in an electrical, mechanical or other form.

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 on a plurality of network units. Some or all of the units can be selected according to actual needs to achieve the purpose of the solution of the embodiment.

In addition, functional units in the embodiments of the present invention may be integrated into one processing unit, or each unit may exist alone physically, or two or more units are integrated into one unit. The integrated unit can be realized in a form of hardware, and can also be realized in a form of a software functional unit.

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

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 (2)

1. A method for identifying device transaction is characterized by comprising the following steps:

the method for acquiring the business work order data information acquired by the production management system and the power distribution GIS comprises the following steps: acquiring different data information of different types of business work orders in a production management system and a power distribution GIS; obtaining the subordinate or superior-subordinate relation of the equipment according to the standing book information of the power distribution network equipment and the topological relation of the single line diagram of the distribution network line;

the business work order data information is arranged to generate business work order time correlation data information, and the method comprises the following steps: defining a work order which needs to be analyzed whether equipment is abnormal or not in the circulation period as a left work order; defining the work order which influences the left work order to cause equipment transaction during the circulation as a right work order; defining time periods of the left work order and the right work order to obtain time correlation data information of the service work orders;

judging whether the equipment has abnormal operation during the business work order circulation period according to the business work order time associated data information, comprising the following steps:

removing the work orders with time periods overlapping in the time-related data information of the service work orders to obtain the left and right related work orders after removal; and (c) a second step of,

based on the eliminated left and right associated work orders, and by combining the topological relation of the single line diagram of the distribution network line and the subordinate or superior-inferior relation of the equipment, whether the equipment has abnormal operation during the circulation of the business work orders is judged, which specifically comprises the following steps: judging whether the left and right side correlation work orders after being eliminated have the superior-inferior relation or not according to the topological relation of the distribution network line single line diagram, the subordinate or superior-inferior relation of the equipment and the left and right side correlation work orders after being eliminated; if yes, determining that the right work order exists in the left work order service during the circulation period, causing the equipment to be abnormal, performing page display on the service work order causing the equipment to be abnormal, and sending a short message to remind relevant personnel.

2. An apparatus for recognizing device transaction, comprising:

the acquisition module is used for acquiring business work order data information acquired by the production management system and the power distribution GIS;

the arrangement module is used for arranging the business work order data information to generate business work order time related data information;

the judging module is used for judging whether equipment has abnormal operation during the business work order circulation according to the business work order time related data information; if yes, executing a display module;

the display module is used for displaying a page of the business work order causing the abnormal operation of the equipment and sending a short message to remind related personnel;

the acquisition module includes:

the acquisition submodule is used for acquiring different data information of different types of the business work orders in the production management system and the distribution GIS;

the relation submodule is used for obtaining the subordinate or superior-subordinate relation of the equipment according to the standing book information of the power distribution network equipment and the topological relation of the single line diagram of the distribution network line;

the collation module includes:

the left side definition submodule is used for defining the work order which needs to analyze whether equipment transaction exists in the circulation period as a left side work order;

the right side definition submodule is used for defining the work order which influences the left work order to cause equipment abnormal movement in the streaming period as a right side work order;

the time definition submodule is used for defining time periods of the left work order and the right work order to obtain service work order time correlation data information;

the judging module comprises:

the eliminating submodule is used for eliminating the work orders with time periods overlapped in the time-related data information of the service work orders to obtain the left and right related work orders after elimination;

the judging submodule is used for judging whether the equipment has abnormal movement during the circulation of the service work order based on the rejected left and right associated work orders by combining the topological relation of the distribution network line single line diagram and the subordinate or superior-subordinate relation of the equipment;

the judgment sub-module includes:

the judging unit is used for judging whether the left and right eliminated associated work orders have the superior-inferior relation or not according to the topological relation of the distribution network line single line diagram, the subordinate or superior-inferior relation of the equipment and the eliminated left and right associated work orders; if yes, executing a determining unit;

the determining unit is configured to determine that the right work order exists in the left work order service during the turnover, which causes the device to perform transaction.

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