CN107871168A - Intelligent substation secondary maintenance safety measure generation method - Google Patents
Intelligent substation secondary maintenance safety measure generation method Download PDFInfo
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- CN107871168A CN107871168A CN201610857046.4A CN201610857046A CN107871168A CN 107871168 A CN107871168 A CN 107871168A CN 201610857046 A CN201610857046 A CN 201610857046A CN 107871168 A CN107871168 A CN 107871168A
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06Q—INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES; SYSTEMS OR METHODS SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES, NOT OTHERWISE PROVIDED FOR
- G06Q10/00—Administration; Management
- G06Q10/20—Administration of product repair or maintenance
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06Q—INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES; SYSTEMS OR METHODS SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES, NOT OTHERWISE PROVIDED FOR
- G06Q50/00—Systems or methods specially adapted for specific business sectors, e.g. utilities or tourism
- G06Q50/06—Electricity, gas or water supply
Abstract
The invention discloses a kind of intelligent substation secondary maintenance safety measure generation method, according to《State Grid Corporation of China's electric power safety working regulation》By the secondary maintenance safety Measures Standard of typical case, secondary maintenance safety measure adaptation semantic base is established;Objective for implementation, the modelling of operation object are carried out to pending transformer station based on SCD file;Objective for implementation example and operation object example defined in SCD file are embodied as according to secondary maintenance safety measure adaptation semantic base and objective for implementation, operation object;According to actual conditions in station, the secondary maintenance safety measure of additions and deletions graphically aided in, the secondary maintenance safety measure execution sequence of adjustment, generation finally can practical application secondary maintenance safety measure.This invention ensures that secondary maintenance safety measure establishment efficiency and integrality, have reserved with SCD file standardization and integrality lifting and the ability of raising efficiency in substation data object model module, have possessed exploitativeness and promotional value.
Description
Technical field
The present invention relates to a kind of intelligent substation secondary maintenance safety measure generation method.
Background technology
Secondary maintenance safety measure put into operation as reply transformer station after the live work such as defect elimination, maintenance, upgrading and reorganization and expansion
The technical guarantee of work, to ensure the equipment of intelligent substation first and second safety and power network stable operation it is significant.Pressure
Plate and loop are the primary operational objects in secondary maintenance safety measure, and are using fiber optic communication and IEC61850 information modelings
Secondary system of intelligent substation in, it is seen that " hardwire " become " optical fiber ", " real terminal " becomes " empty terminal ", " hard
Pressing plate " becomes " soft pressing plate ", and introduces the concept of " maintenance pressing plate ", more crucially all kinds of " soft pressing plates " and " maintenance pressure
Influence of the plate " to interoperation relation between device is also complicated more than normal station, and these new changes are to being engaged in intelligent substation two
The establishment of secondary maintenance safety measure, the staff performed bring very big difficulty.
For above situation, scientific research institution and relevant unit are according to the technical characterstic of intelligent substation in industry, and research is simultaneously
Form the related code of a series of secondary safety measure, specification.
Prior art, which has to arrange for the secondary peace of existing intelligent station maintenance, has that security is low, being easily caused protection, locking etc. by mistake is asked
Topic, it is proposed that using open in flakes, solution cored wire mode separate the secondary electrical circuit in place;Digital channel is disconnected using soft pressing plate is first moved back
The first line of defence is set;Optical fiber is pulled out after utilization and forms obvious breakpoint (or throw maintenance pressing plate and enable intelligent station maintenance mechanism) setting head
The secondary secondary peace of 220kV intelligent stations for pacifying the second defence line arranged point interval interruption maintenance of inspection (or regular inspection) arranges new approaches.
《A kind of process layer debugging plan compared based on secondary circuit file and safety measure generation method》, the method leads to
The difference of secondary circuit in analysis different editions configuration file is crossed, divides testing equipment and the interface of operational outfit, is effectively referred to
Lead the debugging of reconstruction and extension project electrical secondary system and the formulation of safety measure.
Guo Wang companies formulate and issued in succession《State Grid Corporation of China's electric power safety working regulation (power transformation part)》、《Intelligence
Can substation relay protection and power grid security automatics work on the spot security personnel's regulation》.But Regulations are that some are general
Principle or technical requirements.At the scene, it is necessary to which secondary maintainer combines maintenance scene and specific transformer station in real work
The secondary safety measure ticket of design drawing hand woven.Because the secondary maintainer's technical merit in scene is uneven and intelligent power transformation
Stand being continuously increased of O&M maintenance workload, complete hand weaving, the accuracy for checking secondary safety measure ticket and efficiency are
Real work needs can not be met, or even cause some security incidents, so how to ensure intelligent substation secondary maintenance peace
Arrange the integrality of ticket and correctness is to be badly in need of solving the problems, such as in intelligent substation maintenance work.
The content of the invention
The present invention is in order to solve the above problems, it is proposed that a kind of intelligent substation secondary maintenance safety measure generation method,
The present invention combines the parsing of all types of objects in SCD file, is adapted to general rule semanteme, automation generates upkeep operation should
The safety measure sequence of development.
To achieve these goals, the present invention adopts the following technical scheme that:
A kind of intelligent substation secondary maintenance safety measure generation method, comprises the following steps:
(1) according to《State Grid Corporation of China's electric power safety working regulation》By the secondary maintenance safety Measures Standard of typical case, build
Vertical secondary maintenance safety measure adaptation semantic base;
(2) objective for implementation, the modelling of operation object are carried out to pending transformer station based on SCD file;
(3) semantic base is adapted to according to secondary maintenance safety measure to be embodied as in SCD file with objective for implementation, operation object
The objective for implementation example and operation object example of definition;
(4) perform suitable according to actual conditions in station, the secondary maintenance safety measure of additions and deletions, the secondary maintenance safety measure of adjustment
Sequence, generation finally can practical application secondary maintenance safety measure.
In the step (1), secondary maintenance safety measure adaptation semantic base is established, by the various secondary inspections of typical case in code
Repair safety measure and change into the set that can be identified, data basis is provided for adaptation.
In the step (1), specifically include and define Substation Design scheme, maintenance model and objective for implementation and operation pair
As.
In the step (1), define Substation Design scheme need consider voltage class, main wiring mode, relaying configuration,
Sampled form, whether use combining unit and whether use intelligent terminal.
In the step (1), maintenance model will consider to overhaul type and primary equipment power failure range, specifically include whole station and stop
Electricity, voltage class have a power failure, interval has a power failure or do not had a power failure.
In the step (1), the set of the objective for implementation includes power failure range of mark, equipment to be checked, maintenance class
Type, space from start type, starting type of device, purpose interval type and/or destination device type.
In the step (1), the set of the operation object, including objective for implementation, space from start type, starting device class
Type, operation object, purpose interval type and/or destination device type.
In the step (2), SCD file and Substation Design optical cable inventory are parsed, all kinds of objective for implementation are instantiated, had
Body process includes:
(2-1) determine transformer substation voltage grade, design, relaying configuration, sampled form, whether use combining unit with
And whether use intelligent terminal;
All kinds of secondary device types and affiliated interval defined in (2-2) extraction SCD file;
(2-3) parses SCD file, determines the correspondence between any two equipment, similar empty signal is merged
One group of empty signal is formed, defining one group of void signal group turns into an objective for implementation.
In the step (2), it is related to not having the object handles mode of modeling as follows in SCD:
(2-a) is with reference to the manual additional configurations modeling of design drawing, including modeling transformer Ontology and and combining unit
Between electric current, voltage use loop objective for implementation;
(2-b) is with reference to the manual additional configurations modeling of design drawing, including modeling breaker body object and and intelligent terminal
Between blending lock, the objective for implementation of position signalling;
(2-c) establishes a protection device object in each route protection offside, and combines transformer station's actual design feelings
Objective for implementation between condition configuration finishing device.
In the step (2), the specific method of operation object instantiation is the pressure in extraction SCD file and optical cable inventory
Plate, maintenance pressing plate, and establish the incidence relation of pressing plate and objective for implementation.
In the step (2), empty loop and soft pressing plate for definition, defined and searched using desc fuzzy match mode
Rule, the modeling for completing to associate between pressing plate and objective for implementation by search rule.
In the step (3), it is determined that under maintenance scene, the typical secondary maintenance safety measure language of the formalization based on determination
Yi Ku, each objective for implementation of modeled transformer station and operation object are matched one by one.
In the step (3), detailed process includes:
(3-1) clear and definite blackout condition and overhaul of the equipments type;
(3-2) according to equipment to be checked, according to the design attribute of the affiliated transformer station of equipment to be checked, automatic of maintenance model
Allot the typical secondary maintenance safety measure that should be referred to;
(3-3) is according to each objective for implementation and instantiated transformer station's number in the secondary maintenance safety measure semantic base of typical case
Intelligent Matching is carried out according to object;
The operation object and the implementation pair of matched transformer station that (3-4) is associated the instance objects of definition based on keyword
Pressing plate, optical fiber as association are matched.
Beneficial effects of the present invention are:
(1) present invention passes through the typical case of formalization on the basis of being actually needed of secondary maintenance safety measure is fully studied
Safety measure semanteme realizes oneself of intelligent substation safety measure with substation data Object Semanteme adaptation method in SCD file
Dynamic generation, adds low volume data configuration work to SCD file data mining, ensure that secondary maintenance safety measure establishment efficiency and complete
Whole property;
(2) reserved in substation data object model module with SCD file standardization and integrality lifting and
The ability of raising efficiency, possesses exploitativeness and promotional value, it will greatly improves overhaul efficiency, improves the safe operation of power network
It is horizontal.
Brief description of the drawings
Fig. 1 is the workflow diagram of the present invention;
Fig. 2 is the intelligent Matching process flow diagram flow chart of the present invention.
Embodiment:
The invention will be further described with embodiment below in conjunction with the accompanying drawings.
The description of safety measure, which is generally, " extracts on XX line protective devices, connects the straight daylighting of XX circuit combining units
The semanteme such as fibre ", " XX pressing plates are exited in XX protections ".By furtheing investigate visible, the typical peace of abstractness to exemplary secure measure
It is all to describe, it is determined that in voltage class, the transformer station for determining the mode of connection, to exist to a certain certain types of device to arrange content
When carrying out certain service work under specific primary equipment running situation, if Awaiting Overhaul equipment and had between operational outfit mutually
Operative relationship is it is necessary to consider with the contact between certain safety measure isolation, to ensure the safety in operational outfit, typical ticket
It is middle that this contact is defined as objective for implementation.And the specific execution of objective for implementation is, it is necessary to pass through one or more specific operations
Object is completed.In intelligent substation, operation object can be divided into three classes:
1) certain function pressing plate of protection device is exited;
2) the soft pressing plate to be communicated between extractor or hard pressing plate (or loop is in flakes);
3) optical fiber to be communicated between device is pulled out.
So safety measure is exactly the sequential combination of above-mentioned isolation contact object, table 1 illustrates the related reality of device A to be checked
Apply the relation of object and operation object.
The peace of table 1 arranges object signal table
Function pressing plate, soft pressing plate in objective for implementation, operation object all have standard method description in SCD, can be with
Easily pass through microcomputer modelling;In addition, although optical fiber, maintenance pressing plate, the secondary operation object such as in flakes be not in SCD file
Description, but it is all physics, visible, convenient live check at the scene.
Therefore, exemplary secure measure can carry out formalized description, form the semantic rules that computer is appreciated that, then
Maintainer can combine transformer substation voltage grade, the mode of connection, equipment class to be checked when actually working out specific safety measure
The key elements such as type, primary equipment running situation, service work type are instantiated, and the present invention proposes semantic based on SCD file
The intelligent substation secondary maintenance safety measure generation method of adaptation, the i.e. parsing with reference to all types of objects in SCD file, with leading to
It is adapted to rule semantics, the safety measure sequence that generates upkeep operation and should carry out is automated to authorized personnel.
Based on resolving ideas, technical scheme is generally divided into four parts, as shown in Figure 1.
1) the secondary maintenance safety measure formalization of typical case, i.e.,:The secondary maintenance safety measure of various typical cases in code is turned
The semantic rules that chemical conversion computer can identify, basis is provided for semanteme adaptation;
2) substation data objectification, i.e., based on SCD file or optical cable inventory, drawing etc. by the implementation pair of specific transformer station
As, operation object is modeled, this is the data basis of semantic adaptation;
3) semantic rules being adapted to the semanteme of transformer station specific object, i.e., by the general implementation pair in general semantic rules
As the objective for implementation example and operation object example that are embodied as with operation object defined in SCD file.
4) peace arranges the editor of ticket to adjust and check, and entrance is provided to staff, can be according to actual conditions in station, figure
Change the secondary maintenance safety measure of additions and deletions, the secondary maintenance safety measure execution sequence of adjustment of auxiliary, generation finally can practical application
Secondary maintenance safety measure.The check of integrality and succession is provided simultaneously, so as to finally ensure secondary maintenance safety measure
It is overall reliable.
The secondary maintenance safety measure formalization of typical case
The form of the secondary safety measure of typical case is divided into three parts content:
Substation Design schema definition
The design of transformer station mainly considers the key element of following dimension:Voltage class, main wiring mode, relaying configuration,
Sampled form (electronic mutual inductor or routine transformer), whether use combining unit, whether use intelligent terminal.
Maintenance model defines
Maintenance model will consider primary equipment power failure range, and (whole station has a power failure, voltage class has a power failure, interval has a power failure, do not stopped
Electricity), maintenance type (first inspection, routine test, defect elimination upgrade).
Peace arranges objective for implementation and operation object to formalize
In operating standard, in the transformer station of every kind of design, each device type (busbar protective device, line
Line protection device, main transformer protection, combining unit, intelligent terminal, prepared auto restart etc.) it is determined that maintenance model under the safety to be carried out
Measure has all carried out detailed regulation, just needs to combine operating standard here to the objective for implementation and operation object in safety measure
It is identified and models it one by one, objectification.
(1) objective for implementation form turns to:
[power failure range] [equipment to be checked] [maintenance type] { [space from start type] [starting type of device] to [mesh
Interval type] [destination device type] of [objective for implementation semantic]
Objective for implementation semanteme is the logical semantics of objective for implementation, is the keyword of semantic adaptation, following table be route protection with
The objective for implementation semanteme example of bus protection.
Table 2, which is pacified, arranges the semanteme of objective for implementation
(2) operation object form turns to:
[objective for implementation] { [space from start type] [starting type of device] [operation object] or [purpose interval type]
[destination device type] [operation object] }
Substation data object model
The main process of substation data object model is parsing SCD file and Substation Design optical cable inventory, by respectively
Class object instantiates.
Substation Design scheme type determines
Determine that (electronic mutual inductor is conventional mutual for transformer substation voltage grade, design, relaying configuration, sampled form
Sensor), whether using combining unit, whether use intelligent terminal.
Interval and device instantiation
IED Naming conventions during integrator configuration SCD each based on the current country, are extracted all kinds of two defined in SCD file
Secondary device type and affiliated interval.Such as PM represents bus protection, PL represents route protection.
Objective for implementation instantiates
SCD file is parsed, correspondence, including GOOSE transmitting-receivings and SV transmitting-receivings between any two device be present, all define
Objective for implementation between device be present, then merge similar empty signal to form one group of empty signal, define one group of empty letter
Number composition is an objective for implementation, and packet refers to following table according to the matching keyword in semantic:
Table pacifies the semantic rules for arranging objective for implementation to extract
It is related to not having the object handles mode of modeling as follows in SCD:
1. electric current, voltage transformer:With reference to the manual additional configurations modeling of design drawing, including modeling transformer Ontology
And electric current, the voltage between combining unit use loop objective for implementation;
2. breaker:With reference to the modeling of design drawing manual additional configurations, including modeling breaker body object and with intelligence
The objective for implementation such as blending lock, position signalling between terminal;
3. route protection offside protection device:Default treatment, a protection device is established in each route protection offside
Object, and the objective for implementation between transformer station's actual design situation configuration finishing device is combined, such as this side electric current, switch position
Put, far jump.
Operation object instantiates
SCD file and pressing plate in optical cable inventory, maintenance pressing plate are extracted, and establishes associating for pressing plate and objective for implementation
System.According to the search rule that empty loop and soft pressing plate to empty terminal and the semanteme of soft pressing plate, are defined in No. 1396 texts.For using
General semantics are (such as:Logical node is GGIO, DO SPCS) the empty loop that defines and soft pressing plate, using desc fuzzy matching side
Formula defines search rule, the modeling for completing to associate between pressing plate and objective for implementation by search rule, in indivedual SCD files
Pressing plate name is lack of standardization, the situation for causing modeling to fail, and supports human configuration adjustment.
With the instantiation of objective for implementation, the instantiation of operation object there is also the object handles situation for not having modeling in SCD,
Processing mode is as follows:
Optical fiber circuit and fiber port, can be by importing the supplement modeling of optical cable inventory, including route protection and offside protection
Between optical fibre channel;
Loop between electric current, voltage transformer and combining unit is in flakes:With reference to the manual additional configurations modeling of design drawing;
Rule is adapted to the semanteme of object
Determined under maintenance scene as shown in Fig. 2 rule is adapted to the semanteme of object, the typical case of the formalization based on determination
Secondary maintenance safety measure semantic rules, each objective for implementation of modeled transformer station and operation object are matched one by one
Process.
Select some equipment to be checked of some transformer station, maintenance model, i.e., a clear and definite blackout condition and equipment are set
Overhaul type.
According to equipment to be checked, according to the design attribute of the affiliated transformer station of equipment to be checked (including voltage class, main electrical scheme
Mode etc.), maintenance model Auto-matching go out the typical secondary maintenance safety measure semantic rules that should be referred to.
The semantic adaptation of objective for implementation is carried out based on semantic rules, adaptation method is according to each objective for implementation in semantic rules
Logical semantics carry out intelligent Matching with instantiated substation data object.For example, during typical case's peace is arranged:" [circuit
Protection] to [start failure protection] of [bus protection] " matching is " [protection of PL2201 Mount Tais golden circuit] to [PM2202II# buses guarantor
Shield] [start failure protection].
The semantic adaptation of operation object is carried out based on semantic rules, i.e., is associated the instance objects defined in semantic rules
Pressing plate, the optical fiber that operation object associates with matched transformer station's objective for implementation are matched, and matching is carried out based on keyword.
For example, the operation object that objective for implementation associates in semantic rules is " connection [circuit combining unit] in extraction [route protection]
[straight daylighting is fine] " matching is " connection [ML2201 circuits combining unit] in extraction [protection of PL2201 Mount Tais golden circuit]
[AOB1688-005 optical fiber] ".
In adaptation procedure, transformer station's number can not be matched as there is objective for implementation defined in semantic rules or operation object
Prompting is provided according to the situation of object.
Peace arranges ticket editor to adjust and check
After completing semantic adaptation, work is automatically generated to the safety measure of the service work and completed, staff can
Each safety measure is adjusted and edited with the situation according to adaptation, especially the semantic rules not matched will be subject to
Processing, integrity check can be provided in editing process and timing is checked by manually adding New Measure.
Whether integrity check is complete based on the safety measure after substation data object modelization verification final adjustment
Consider all objective for implementation.
Timing verifies the operator precedence level dynamic adaptation based on objective for implementation, and the rule of adaptation carries from operating standard
Take.When timing mistake occurs in secondary maintenance safety measure, prompting is provided.
Application case
The present invention have chosen the double set configurations of 220kV double bus schemes mode, protection device, using traditional transformer+merging
One transformer station's case of the design of unit+intelligent terminal, with heads of the route protection PL2203 under the blackout condition of interval
Exemplified by inspection, illustrate that peace arranges the implementation process of establishment.
1) the secondary maintenance safety measure formalization of typical case
" first inspection (maintenance of the A4 classes) work of route protection only considers in line segregation primary equipment power-off condition regulation in code
Lower progress, take double set " route protection+combining unit+intelligent terminal " stoppage in transit maintenance models ".Specific maintenance safety measure shape
It is as shown in table 3 that formula, which turns to semantic rules,.
The peace of table 3 arranges semantic rules example
2) safety measure after semantic adaptation
Safety measure after the adaptation of table 4
Although above-mentioned the embodiment of the present invention is described with reference to accompanying drawing, model not is protected to the present invention
The limitation enclosed, one of ordinary skill in the art should be understood that on the basis of technical scheme those skilled in the art are not
Need to pay various modifications or deformation that creative work can make still within protection scope of the present invention.
Claims (10)
1. a kind of intelligent substation secondary maintenance safety measure generation method, it is characterized in that:Comprise the following steps:
(1) according to《State Grid Corporation of China's electric power safety working regulation》By the secondary maintenance safety Measures Standard of typical case, two are established
Secondary maintenance safety measure is adapted to semantic base;
(2) objective for implementation, the modelling of operation object are carried out to pending transformer station based on SCD file;
(3) semantic base is adapted to according to secondary maintenance safety measure to be embodied as defined in SCD file with objective for implementation, operation object
Objective for implementation example and operation object example;
(4) according to actual conditions in station, the secondary maintenance safety measure of additions and deletions, the secondary maintenance safety measure execution sequence of adjustment are raw
Into finally can practical application secondary maintenance safety measure.
2. a kind of intelligent substation secondary maintenance safety measure generation method as claimed in claim 1, it is characterized in that:The step
Suddenly in (1), secondary maintenance safety measure adaptation semantic base is established, the secondary maintenance safety measure of various typical cases in code is converted
Into the set that can be identified, data basis is provided for adaptation.
3. a kind of intelligent substation secondary maintenance safety measure generation method as claimed in claim 1, it is characterized in that:The step
Suddenly in (1), the set of the objective for implementation includes power failure range of mark, equipment to be checked, maintenance type, space from start class
Type, starting type of device, purpose interval type and/or destination device type.
4. a kind of intelligent substation secondary maintenance safety measure generation method as claimed in claim 1, it is characterized in that:The step
Suddenly in (1), the set of the operation object, including objective for implementation, space from start type, starting type of device, operation object, mesh
Interval type and/or destination device type.
5. a kind of intelligent substation secondary maintenance safety measure generation method as claimed in claim 1, it is characterized in that:The step
Suddenly in (2), SCD file and Substation Design optical cable inventory is parsed, all kinds of objective for implementation are instantiated, detailed process includes:
(2-1) determine transformer substation voltage grade, design, relaying configuration, sampled form, whether using combining unit and being
It is no to use intelligent terminal;
All kinds of secondary device types and affiliated interval defined in (2-2) extraction SCD file;
(2-3) parses SCD file, determines the correspondence between any two equipment, similar empty signal is merged to be formed
One group of empty signal, defining one group of void signal group turns into an objective for implementation.
6. a kind of intelligent substation secondary maintenance safety measure generation method as claimed in claim 1, it is characterized in that:The step
Suddenly in (2), it is related to not having the object handles mode of modeling as follows in SCD:
(2-a) is with reference to the modeling of design drawing manual additional configurations, including modeling transformer Ontology and between combining unit
Electric current, voltage use loop objective for implementation;
(2-b) is with reference to the modeling of design drawing manual additional configurations, including modeling breaker body object and between intelligent terminal
Blending lock, the objective for implementation of position signalling;
(2-c) establishes a protection device object in each route protection offside, and combines transformer station's actual design situation and match somebody with somebody
Put the objective for implementation between finishing device.
7. a kind of intelligent substation secondary maintenance safety measure generation method as claimed in claim 1, it is characterized in that:The step
Suddenly in (2), the specific method of operation object instantiation is built to extract SCD file and pressing plate, maintenance pressing plate in optical cable inventory
The incidence relation of vertical pressing plate and objective for implementation.
8. a kind of intelligent substation secondary maintenance safety measure generation method as claimed in claim 1, it is characterized in that:The step
Suddenly in (2), empty loop and soft pressing plate for definition, search rule is defined using desc fuzzy match mode, passes through lookup
Rule completes the modeling associated between pressing plate and objective for implementation.
9. a kind of intelligent substation secondary maintenance safety measure generation method as claimed in claim 1, it is characterized in that:The step
Suddenly in (3), it is determined that under maintenance scene, the typical secondary maintenance safety measure semantic base of the formalization based on determination, match one by one
To the modeled each objective for implementation of transformer station and operation object.
10. a kind of intelligent substation secondary maintenance safety measure generation method as claimed in claim 1, it is characterized in that:It is described
In step (3), detailed process includes:
(3-1) clear and definite blackout condition and overhaul of the equipments type;
(3-2) according to equipment to be checked, according to the design attribute of the affiliated transformer station of equipment to be checked, maintenance model Auto-matching goes out
The typical secondary maintenance safety measure that should be referred to;
(3-3) is according to each objective for implementation and instantiated substation data pair in the secondary maintenance safety measure semantic base of typical case
As carrying out intelligent Matching;
(3-4) is closed the operation object that the instance objects of definition associate and matched transformer station's objective for implementation based on keyword
Pressing plate, the optical fiber of connection are matched.
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108931972A (en) * | 2018-06-25 | 2018-12-04 | 国电南瑞科技股份有限公司 | A kind of substation secondary device condition intelligent diagnostic method based on model-driven |
CN112949271A (en) * | 2021-02-07 | 2021-06-11 | 国网安徽省电力有限公司宣城供电公司 | Maintenance safety measure analysis method and system |
Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN101510076A (en) * | 2009-03-20 | 2009-08-19 | 西安交大辰方科技有限公司 | Method for auto-generating safety describing statement of electronic operation order |
CN105069697A (en) * | 2015-07-31 | 2015-11-18 | 河北省电力建设调整试验所 | Intelligent transformer station maintenance strategy automatic identification system and method |
CN105790441A (en) * | 2016-05-02 | 2016-07-20 | 国家电网公司 | Intelligent transformer substation relay protection inspection system |
CN105914892A (en) * | 2016-06-16 | 2016-08-31 | 国网福建省电力有限公司 | Secondary maintenance safety measure ticket system and realization method thereof |
-
2016
- 2016-09-27 CN CN201610857046.4A patent/CN107871168A/en active Pending
Patent Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN101510076A (en) * | 2009-03-20 | 2009-08-19 | 西安交大辰方科技有限公司 | Method for auto-generating safety describing statement of electronic operation order |
CN105069697A (en) * | 2015-07-31 | 2015-11-18 | 河北省电力建设调整试验所 | Intelligent transformer station maintenance strategy automatic identification system and method |
CN105790441A (en) * | 2016-05-02 | 2016-07-20 | 国家电网公司 | Intelligent transformer substation relay protection inspection system |
CN105914892A (en) * | 2016-06-16 | 2016-08-31 | 国网福建省电力有限公司 | Secondary maintenance safety measure ticket system and realization method thereof |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108931972A (en) * | 2018-06-25 | 2018-12-04 | 国电南瑞科技股份有限公司 | A kind of substation secondary device condition intelligent diagnostic method based on model-driven |
CN112949271A (en) * | 2021-02-07 | 2021-06-11 | 国网安徽省电力有限公司宣城供电公司 | Maintenance safety measure analysis method and system |
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