CN105512213B - Based on one secondary device status information visual presentation method of configuration file and the intelligent substation of G language - Google Patents

Abstract

The present invention relates to intelligent substation operation and maintenance technical operation field more particularly to a kind of based on one secondary device status information visual presentation method of configuration file and the intelligent substation of G language, intelligent substation of this method suitable for using 61850 standard of IEC.The present invention automatically generates primary equipment main wiring diagram and interval wiring diagram according to intelligent substation configuration file; pass through association intelligent terminal, combining unit and protective device; by one secondary device organic connections of substation and visual presentation; the application field of expanded configuration file; graphically intuitively to show topological relation and status information between a secondary device; facilitate equipment operation maintenance, the security management and control for promoting intelligent substation is horizontal.

Description

It can based on configuration file and one secondary device status information of the intelligent substation of G language Depending on changing methods of exhibiting

Technical field

The present invention relates to intelligent substation operation and maintenance technical operation fields, more particularly to one kind to be based on configuration file and G The one secondary device status information visual presentation method of intelligent substation of language, this method are suitable for marking using IEC 61850 Quasi- intelligent substation.

Background technique

Intelligent substation is the substation based on unified standard, Unified Communication model, and transforming plant primary equipment and topology are closed System, secondary device and circuit connection exist by SCL language description and configuration with the format of expandable mark language XML file, Form substation's normalization configuration file SSD and substation configuration description file SCD.At present for the application of configuration file, mainly Secondary device and the substation configuration description file SCD of circuit connection establish the description of secondary device function using configuration file SCD and return Road connection, and configuration file carries out dress and commissioning test under configuration file to practical secondary device according to this.

G language is a kind of plain text language for following XML standard based on label, expresses power equipment with patterned way With the relevant information of power grid, supports efficient access electric power graphs and model interaction data, support the electric power between not homologous ray The interaction of figure and model interaction data, and the compatible basic drawing format of SVG.

For substation normative description file SSD, effective application is not yet received at present, has research using scalable Vector graphics SVG is based on SSD and realizes the building of primary system main wiring diagram, but since the figure in SSD file without primary equipment is sat Information is marked, therefore is easy to happen primary equipment coordinate when actually editing primary system main wiring diagram and repeats, graphics overlay influences Primary system main electrical scheme map generalization；In addition, the main wiring diagram according to generation is currently without the further application of development, it is main former Because treating primary system and secondary device respectively when being application, primary system and secondary device are not combined, both once System main wiring diagram describes secondary device and circuit contacts no correlativity, one secondary device of intelligent substation gradually Under fusion, the status that is constantly progressive of technology, need a kind of new method by one secondary device organic connections of substation and visualization It shows, the application field of expanded configuration file, graphically intuitively to show topological relation and status information between a secondary device, Facilitate equipment operation maintenance, the security management and control for promoting intelligent substation is horizontal.

Summary of the invention

For the above the deficiencies in the prior art, the present invention provides based on configuration file and the intelligent substation of G language one Secondary device status information visual presentation method.

The technical solution of the present invention is as follows:

Based on one secondary device status information visual presentation method of configuration file and the intelligent substation of G language, including Following steps:

Step (I)

SCD and SSD file are parsed using XML parser, loads SCD and SSD file content using tree structure；

Step (II)

The Topology connection for analyzing transforming plant primary equipment obtains transformer, voltage etc. that substation in configuration file describes The facility informations such as grade and interval；The tie point that primary equipment terminal is connected to is searched, and writes down the terminal in tie point；

Step (III)

Search the exterior connection point of line segregation and each side interval of main transformer；

Step (IV)

Determine line segregation and each side interval connection type of main transformer；

Step (V)

According to line segregation determined by the number of bus tie point and step (IV) and each side interval wiring shape of main transformer Formula determines the bus mode of connection；

Step (VI)

According to the type and its Topology connection of each equipment in being spaced in step (IV), the topological characteristic character at interval is generated String；

Step (VII)

Using the topological template characteristic code at the topological characteristic text string generation interval being spaced in step (VI), between G language In partiting template library search with the corresponding partiting template of topological template characteristic code at the interval, utilize the interval template generation It is spaced main wiring diagram；

Step (VIII)

It transfers and is respectively spaced main wiring diagram in step (VII), create bus pel, generate primary equipment main wiring diagram；

Step (IX)

The incidence relation for analyzing first and second equipment room, by the breaker disconnecting link state and Current Voltage of secondary device acquisition Status information is mapped to primary equipment main wiring diagram, and the status information of secondary device is mapped to the interval master in step (VII) Wiring diagram；

Step (X)

The first and second equipment real time information of each interval is monitored, is shown in real time on the primary equipment main wiring diagram in step (IX) Show disconnecting link location status, current-voltage sampling information and the protective device status information at interval of each breaker.

Specifically, line segregation and each side interval of main transformer connect including 3/2 breaker connection interval, double-bus in step (IV) Line interval and single bus scheme interval；It is divided between 3/2 breaker connection with 3 breakers and 2 bus tie points Interval；The interval with 1 breaker and 2 bus tie points is divided between the double bus scheme；Between the single bus scheme It is divided into the interval with 1 breaker and 1 bus tie point.

Specifically, in step (V) mode of connection include 3/2 breaker connection, double bus scheme, double female double section wirings, Double female single section wirings, single bus scheme and single-trunk segmental wiring.

Specifically, step (VI) includes following sub-step:

Step (VI-1)

Equipment in interval is set as node by each equipment out of bus tie point recursive traversal interval, and label is each The node type of node；

Step (VI-2)

It is successively node serial number by traversal from each node of root node recursive traversal；

Step (VI-3)

By node type and node serial number combination to generate topological characteristic character string.

Specifically, partiting template is DL/T 1230-2013 " electric system figure description rule between G language in step (VII) Model " specified between partiting template；When there is no topological template characteristic code corresponding with interval in the template library of G language interval When partiting template, generate with the corresponding partiting template of topological template characteristic code at interval and will it is described between partiting template be stored in partiting template Library.

Beneficial effects of the present invention: the present invention automatically generates primary equipment main wiring diagram according to intelligent substation configuration file With interval wiring diagram, by association intelligent terminal, combining unit and protective device, by one secondary device organic connections of substation and It visualizes, the application field of expanded configuration file, graphically intuitively to show topological relation and shape between a secondary device State information, facilitates equipment operation maintenance, and the security management and control for promoting intelligent substation is horizontal.

Detailed description of the invention

Fig. 1 is flow chart of the invention.

Fig. 2 is the schematic diagram of step (VI) in embodiment.

Fig. 3 is to be spaced main wiring diagram in embodiment obtained by step (VII).

Specific embodiment

Embodiment realizes the visualization exhibition of one secondary device status information of intelligent substation using technical solution of the present invention Show, comprising the following steps:

Step (I)

SCD and SSD file are parsed using XML parser, loads SCD and SSD file content using tree structure.

Step (II)

The Topology connection for analyzing transforming plant primary equipment obtains transformer, voltage etc. that substation in configuration file describes The facility informations such as grade and interval；The tie point that primary equipment terminal is connected to is searched, and writes down the terminal in tie point.

Step (III)

The exterior connection point for searching line segregation and each side interval of main transformer, is denoted as bus tie point Mn.

Step (IV)

Line segregation and each side interval connection type of main transformer are determined according to following principle: will have 3 breakers and 2 mothers The interval of line connection point is defined as 3/2 breaker connection interval；Interval with 1 breaker and 2 bus tie points is determined Justice is double bus scheme interval；Interval with 1 breaker and 1 bus tie point is defined as single bus scheme interval； Other situations are defined as exception.

Step (V)

According to line segregation determined by the number of bus tie point and step (IV) and each side interval wiring shape of main transformer Formula determines the bus mode of connection.The mode of connection includes 3/2 breaker connection, double bus scheme, double female double section wirings, double female lists Section wiring, single bus scheme and single-trunk segmental wiring.

Step (VI)

According to the type and its Topology connection of each equipment in being spaced in step (IV), the topological characteristic character at interval is generated String.Step (VI) includes following sub-step:

Step (VI-1)

Equipment in interval is set as node by each equipment out of bus tie point recursive traversal interval, and label is each The node type of node.Node type is identified with single-letter, such as alphabetical ' O ' indicates that bus tie point, ' L ' indicate route " IFL ", ' K ' indicates breaker " CBR ".

Step (VI-2)

It is successively node serial number by traversal from each node of root node recursive traversal, node serial number is from 2 start recordings.

Step (VI-3)

By node type and node serial number combination to generate topological characteristic character string, the brotgher of node is placed on to the flower of same level-one In bracket.It is illustrated in figure 2 the generating process schematic diagram of the topological characteristic character string at the interval bus PT, the topological characteristic at the interval Character string is " O2- { G3- { D4, P5, V6 }, D7 } ".

Step (VII)

Using the topological template characteristic code at the topological characteristic text string generation interval being spaced in step (VI), between G language In partiting template library search with the corresponding partiting template of topological template characteristic code at the interval, using between the interval template generation Every main wiring diagram, as shown in Figure 3.Partiting template is rule in DL/T 1230-2013 " electric system figure Description standard " between G language Partiting template between fixed；When in the template library of G language interval be not present and the corresponding partiting template of topological template characteristic code at interval When, generate with the corresponding partiting template of topological template characteristic code at interval and will it is described between partiting template be stored in partiting template library.

Step (VIII)

It transfers and is respectively spaced main wiring diagram in step (VII), create bus pel, generate primary equipment main wiring diagram.According to Each voltage class Down Highway connection point information and mode of connection creation bus pel simultaneously adjust bus relative position.Transfer each interval Each interval is laid out according to following principle after main wiring diagram and adjusts each voltage class relative position:

1) bus section spaced horizontal position is between two buses；

2) the high/medium/low pressure side of main transformer is located at interval at bus close to main transformer side；

3) main transformer equipment pel is located at the discharge of entire main wiring diagram central horizontal；High-pressure side is located on main transformer entirely master and connects The upper left side of line chart；Medium voltage side is located at the lower section of main transformer；Low-pressure side is located at the upper right side of entire main wiring diagram；

4) the non-master changing distance on bus should be placed in connected bus side according to parallel bus relative position.

Step (IX)

The incidence relation for analyzing first and second equipment room, by the breaker disconnecting link state and Current Voltage of secondary device acquisition Status information is mapped to primary equipment main wiring diagram, and the status information of secondary device is mapped to the interval master in step (VII) Wiring diagram, the specific method is as follows:

1) it is saved by the LNode under breaker and disconnecting link (ConductingEquipment that type is " CBR " and " DIS ") The information that point provides finds the intelligent terminal IED and corresponding logical device, logical node of respective associated.If lnClass is XCBR/XSWI, then the data object Pos under the logical node describes the location information of this breaker, disconnecting link, by traversing this The process layer GOOSE data set of intelligent terminal IED can find the breaker, which GOOSE item the position signal of disconnecting link is by Mesh provides.

220kV outgoing line interval in following example, compartment name are " 2211 ", and type is " CBR ", associated intelligent terminal IED is IL2201A, ldInst RPIT, lnClass XCBR.Search RPIT's according to IL2201A/RPIT/XCBR.pos GOOSE data set finds corresponding GOOSE entry and maps to circuit breaker position.

<ConductingEquipment name="2211" type="CBR">

<SubEquipment name=" A " desc=" A phase " phase=" A ">

<LNode iedName="IL2201A" ldInst="RPIT" prefix="Q0A" lnClass="XCBR" lnInst="1"/>

</SubEquipment>

<SubEquipment name=" B " desc=" B phase " phase=" B ">

<LNode iedName="IL2201A" ldInst="RPIT" prefix="Q0B" lnClass="XCBR" lnInst="1"/>

</SubEquipment>

<SubEquipment name=" C " desc=" C phase " phase=" C ">

<LNode iedName="IL2201A" ldInst="RPIT" prefix="Q0C" lnClass="XCBR" lnInst="1"/>

</SubEquipment>

……….

</ConductingEquipment>

2) it is provided by the LNode node under PT, CT the ConductingEquipment of " VTR " and " CTR " (type for) Information find corresponding combining unit IED and corresponding logical device, logical node.If lnClass is TVTR or TCTR, Amp data object under TVTR under Vol data object and TCTR respectively describes voltage, current sampling data.

3) protective device IED associated by the interval can be found by the logical node Bay/LNode under each interval and be somebody's turn to do Each logical node of IED, these logical nodes describe which defencive function is this protective device provide.It is protected as follows with route For shield, under Bay node, interval name and interval description is given, is spaced under logical node and gives PL2201A route protection Included logical node and its instance number, as differential protection logical node PDIF, distance protection logical node PDIS, overcurrent are protected Logical node PTOC etc. is protected, interval and protective device, the protective device function in interval can be associated in this way.

</Bay>

<Bay name=" 2211 " desc=" 220kV route protection ">

<LNode iedName="PL2201A" ldInst="PROT" prefix="" lnClass="PDIF" lnInst="1"/>

<LNode iedName="PL2201A" ldInst="PROT" prefix="" lnClass="PDIS" lnInst="1"/>

<LNode iedName="PL2201A" ldInst="PROT" prefix="" lnClass="PTOC" lnInst="1"/>

………

</Bay>

Step (X)

The first and second equipment real time information of each interval is monitored, is shown in real time on the primary equipment main wiring diagram in step (IX) Show disconnecting link location status, current-voltage sampling information and the protective device status information at interval of each breaker, specific method It is as follows:

1) receive process layer intelligent terminal GOOSE message

The circuit breaker position GOOSE signal found using step (IX), each switch cutter of real-time display on main wiring diagram Gate position state.

2) receive process layer combining unit SV message

The Current Voltage SV sample information found using step (IX), the real-time display on main wiring diagram.

3) each protective device MMS message of station level is received

Interval is double-clicked on main wiring diagram to monitor page monitoring and protection devices type real time status information in real time into interval, wrapped The soft pressing plates real-time status such as monitoring receives pressing plate, GOOSE receives pressing plate, GOOSE transmission pressing plate, function pressing plate are included, according to each Every the iedName of protective device, each entry in protective device MMS message in dsRelayEna data set is traversed, reads and shows Show the function pressing plate, GOOSE output pressing plate, GOOSE input pressing plate, SV pressing plate input state of protective device.Monitor SV, GOOSE The information such as chain rupture alarm, device abnormality alarming, protection starting/movement, according to the iedName of each interval protective device, traversal is protected Each entry in protection unit MMS message in dsWarning and dsAlarm, dsCommstate data set, reads and shows protection All kinds of warning information such as device exception, communication disconnection, PT/CT broken string；DsTripInfo data set is traversed, protection act letter is obtained Breath.

Above embodiment is merely a preferred embodiment of the present invention, and the simultaneously exhaustion of the feasible implementation of non-present invention.For this It is any apparent to made by it under the premise of without departing substantially from the principle of the invention and spirit for skilled person Change, should all be contemplated as falling within claims of the invention.

Claims (5)

1. it is a kind of based on one secondary device status information visual presentation method of configuration file and the intelligent substation of G language, Be characterized in that itself the following steps are included:

Step (I)

SCD and SSD file are parsed using XML parser, loads SCD and SSD file content using tree structure；

Step (II)

The Topology connection for analyzing transforming plant primary equipment, obtain transformer, voltage class that substation in configuration file describes and Spacing devices information；The tie point that primary equipment terminal is connected to is searched, and writes down the terminal in tie point；

Step (III)

Search the exterior connection point of line segregation and each side interval of main transformer；

Step (IV)

Determine line segregation and each side interval connection type of main transformer；

Step (V)

It is true according to line segregation determined by the number of bus tie point and step (IV) and each side interval connection type of main transformer Determine the bus mode of connection；

Step (VI)

According to the type and its Topology connection of each equipment in being spaced in step (IV), the topological characteristic character string at interval is generated；

Step (VII)

Using the topological template characteristic code at the topological characteristic text string generation interval being spaced in step (VI), in G language interval mould In plate library search with the corresponding partiting template of topological template characteristic code at the interval, utilize the interval template generation interval Main wiring diagram；

Step (VIII)

It transfers and is respectively spaced main wiring diagram in step (VII), create bus pel, generate primary equipment main wiring diagram；

Step (IX)

The incidence relation for analyzing first and second equipment room, the breaker disconnecting link state and Current Voltage state that secondary device is acquired Information MAP is mapped to the interval main electrical scheme in step (VII) to primary equipment main wiring diagram, by the status information of secondary device Figure；

Step (X)

The first and second equipment real time information of each interval is monitored, real-time display is each on the primary equipment main wiring diagram in step (IX) Disconnecting link location status, current-voltage sampling information and the protective device status information at interval of breaker.

2. according to claim 1 can based on configuration file and one secondary device status information of the intelligent substation of G language Depending on changing methods of exhibiting, it is characterised in that in step (IV) line segregation and each side interval of main transformer include 3/2 breaker connection interval, Double bus scheme interval and single bus scheme interval；It is divided between 3/2 breaker connection with 3 breakers and 2 buses The interval of tie point；The interval with 1 breaker and 2 bus tie points is divided between the double bus scheme；It is described single female The interval with 1 breaker and 1 bus tie point is divided between line wiring.

3. according to claim 1 can based on configuration file and one secondary device status information of the intelligent substation of G language Depending on changing methods of exhibiting, it is characterised in that the mode of connection includes 3/2 breaker connection, double bus scheme, double points of double mothers in step (V) Section wiring, double female single section wirings, single bus scheme and single-trunk segmental wiring.

4. according to claim 1 can based on configuration file and one secondary device status information of the intelligent substation of G language Depending on changing methods of exhibiting, it is characterised in that step (VI) includes following sub-step:

Step (VI-1)

Each equipment out of bus tie point recursive traversal interval, is set as node for the equipment in interval, marks each node Node type；

Step (VI-2)

It is successively node serial number by traversal from each node of root node recursive traversal；

Step (VI-3)

By node type and node serial number combination to generate topological characteristic character string.

5. according to claim 1 can based on configuration file and one secondary device status information of the intelligent substation of G language Depending on changing methods of exhibiting, it is characterised in that partiting template is DL/T 1230-2013 " figure of power system between the G language in step (VII) Shape Description standard " specified between partiting template；When there is no the topological template characteristic code phases with interval in the template library of G language interval When corresponding partiting template, generate with interval corresponding partiting template of topological template characteristic code and will be described between partiting template deposit Enter to be spaced template library.