CN105914890B - A kind of automation of transformation substations control system - Google Patents

Abstract

The application provides a kind of automation of transformation substations control system, including：First, second control system and virtual measurement and control device；Virtual measurement and control device includes：Vasculum, 104 messages sent for obtaining the telecontrol communication machine in the first control system；Managing main frame, including message processing module (MPM) and multiple virtual measurement and control modules；Analysis result is sent to the virtual measurement and control module to match with 104 messages by message processing module (MPM) for being parsed to collected 104 message of vasculum；Virtual measurement and control device is connected with the station level interchanger of the second control system, it is run by the entity measure and control device of the second control system of virtual measurement and control module simulation, 61850 are carried out with the station level interchanger of the second control system to communicate, and the station level GOOSE message that the MMS messages generated according to analysis result and the entity measure and control device of simulation are subscribed to is sent to the second control system.To ensure the integrality of new, legacy system station level and wall latching logic.

Description

A kind of automation of transformation substations control system

Technical field

The present invention relates to automatic control system technical fields, and in particular to transition is transformed in intelligent substationization in one kind The automation of transformation substations control system of the progress virtual measurement and control in stage.

Background technology

The safe operation of automation equipment in substation, it is particularly significant for the operation of substation or even electric system.With The growth of the automation of transformation substations equipment operation time limit, equipment operating condition can decline year by year, and defect incidence is high, it is difficult to meet The requirement of normal, the safe and stable operation of power grid, security risk is brought to the normal operation of electric system, can not adapt to meet electricity The requirement of net monitoring and regulation and control integral system for a substation's distant place control and remote monitoring.To solve the above problems, power transformation Substation automation system whole station intellectualized reconstruction is gradually unfolded.

Electric substation automation system whole station intellectualized reconstruction need to step by step be carried out according to power failure plan, and transformation process is one A long-term process, to ensure normal operation grid switching operation and accident treatment, reduces the wind of power grid maloperation in transformation process Dangerous, the old and new's monitoring system must have complete wall and station level latching logic in transformation process.Structural control system Interval information access new observing and controlling and backstage, the interval information of non-structural control system access original old observing and controlling and it is old after Interval information is not transformed for platform, equally, the far away dynamic transmission in non-structural control system, and the new telemechanical in structural control system passes It send and interval information has been transformed.The control system being transformed and the control system not being transformed are two independent control systems, and two The communication protocol used inside a control system is different, and in the controls, and wall and station level latching logic are much all It is how to send the information that interval is not transformed to new system to ensure that new, legacy system station level and wall are latched across interval The integrality of logic is the big problem faced in transformation process.

Invention content

In view of this, the embodiment of the present invention provides a kind of automation of transformation substations control system, to ensure the automation of transformation substations The integrality of station level and wall latching logic in new during control system reform, old control system.

To achieve the above object, the embodiment of the present invention provides the following technical solutions：

A kind of automation of transformation substations control system, including：

Virtual measurement and control device, the first control system not being transformed and the second control system being transformed；

The input terminal of the virtual measurement and control device is connected with the scheduling switch in first control system, output end with The station level interchanger of second control system is connected, and the virtual measurement and control device includes：

Vasculum and managing main frame；

The vasculum is connected with the scheduling switch mirror image interface in first control system, for obtaining described 104 messages that telecontrol communication machine in one control system is sent；

The managing main frame includes：

Message processing module (MPM) and multiple virtual measurement and control modules；

The message processing module (MPM) sends out analysis result for being parsed to collected 104 message of the vasculum It is sent to the virtual measurement and control module to match with 104 message；

Virtual measurement and control module, the entity measure and control device operation for simulating the second control system, the interval being modeled are practical Positioned at the first control system, not to be transformed interval, the station level interchanger of the virtual measurement and control module and the second control system into Row 61850 communicates, by the reality of the two point remote signalling MMS messages and the virtual measurement and control module simulation that are generated according to the analysis result The station level GOOSE message that body measure and control device is subscribed to is sent to the station level interchanger of second control system.

Preferably, in above-mentioned automation of transformation substations control system, first control system and second control system Include：

Telecontrol communication machine, scheduling switch, monitoring host computer, station level interchanger, multiple interval measure and control devices and multiple intervals one Secondary device；

The telecontrol communication machine realizes that data communicate by the scheduling switch with scheduling station；

The monitoring host computer and telecontrol communication machine realize number by the station level interchanger and multiple interval measure and control devices According to interaction；

The communication protocol that station level exchange data interacts in described two control systems is different；

The interval measure and control device is connected with interval primary equipment one-to-one correspondence.

Preferably, in above-mentioned automation of transformation substations control system, the managing main frame further includes：

Management module controls the startup of virtual measurement and control module and message processing module (MPM) for foundation user's operation and exits, And monitor the operating status of the virtual measurement and control module and message processing module (MPM).

Preferably, in above-mentioned automation of transformation substations control system, interval measure and control device, prison in second control system Control host and telecontrol communication machine are obtained the station that the virtual measurement and control device is sent by the station level interchanger in second control system Layer GOOSE message and MMS messages are controlled, the connection locking of wall and station level is realized according to the station level GOOSE message.

Preferably, in above-mentioned automation of transformation substations control system, the message processing module (MPM) is specifically used for：

104 reports of the first control system scheduling switch are collected to the vasculum according to 104 resolution files to prestore Text is parsed, and the interval primary equipment location information and analog quantity information that 104 message includes, 104 parsing are obtained File configures for the scheduling forwarding table according to the automation of transformation substations control system.

Preferably, it in above-mentioned automation of transformation substations control system, is built-in with network state in the management module and judges mould Block, for judging that it is whether normal that the MMS of the virtual measurement and control device is serviced.

Based on the above-mentioned technical proposal, automation of transformation substations control system provided in an embodiment of the present invention, passes through virtual measurement and control 104 messages of the control system that acquisition is not transformed for device, by message processing module (MPM) and virtual measurement and control module to 104 report After text processing, carries out 61850 with the station level interchanger of the second control system and communicate, it is double by being generated according to the analysis result The station level GOOSE message that the entity measure and control device of point remote signalling MMS messages and the virtual measurement and control module simulation is subscribed to is sent to The station level interchanger of second control system.To realize to ensure that new, legacy system station level and wall locking are patrolled The integrality collected.

Description of the drawings

In order to more clearly explain the embodiment of the invention or the technical proposal in the existing technology, to embodiment or will show below There is attached drawing needed in technology description to be briefly described, it should be apparent that, the accompanying drawings in the following description is only this The embodiment of invention for those of ordinary skill in the art without creative efforts, can also basis The attached drawing of offer obtains other attached drawings.

Fig. 1 is a kind of structural schematic diagram of automation of transformation substations control system disclosed in the embodiment of the present application；

Fig. 2 is a kind of structural schematic diagram of virtual measurement and control device disclosed in the embodiment of the present application.

Specific implementation mode

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation describes, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.It is based on Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts every other Embodiment shall fall within the protection scope of the present invention.

Fig. 1 is structural representation of a kind of automation of transformation substations control system in transformation process disclosed in the embodiment of the present application Figure；

Multiple subsystems can be divided under the automatic control system for substation, each subsystem is regarded as an independence Control system, referring to Fig. 1, automation of transformation substations control system disclosed in the embodiment of the present application may include：

The sub-control system not being transformed is denoted as the first control system 100；

The sub-control system being transformed is denoted as the second control system 200；

Virtual measurement and control device 300 between first control system, 100 and second control system 200 is set, it is described The input terminal of virtual measurement and control device 300 is connected with the scheduling switch in first control system 100, output end and second is controlled The station level interchanger of system 200 processed is connected, the virtual measurement and control device 300, for being dispatched by first control system 100 Interchanger mirror port reads 104 messages of first control system 100, to 104 message after processing, is transmitted to The station level interchanger of second control system.

By technical solution disclosed in the above embodiments of the present application as it can be seen that the virtual measurement and control device 300 is by original control 104 messages are obtained in system, the virtual measurement and control device 300 is sent to the control being transformed after handling 104 message The station level interchanger of system, second control system is according to through treated the 104 message controls of the virtual measurement and control device 300 The wall and station level latching logic for making second control system, to realize with ensure new, legacy system station level and The integrality of wall latching logic.

Further, in order to ensure that the virtual measurement and control device 300 can receive 104 message, the above-mentioned reality of the application It applies in technical solution disclosed in example, telecontrol communication machine is provided on the scheduling network switch in first control system 100 and sends 104 The Port Mirroring of message, this mirror port are connected by data connecting line with the virtual measurement and control device.

Wherein, the system building form of first control system 100 and second control system 200 can be identical, Specifically, referring to Fig. 1, the structure of first control system 100 and second control system 200 may include：

Scheduling switch 01, telecontrol communication machine 02, monitoring host computer 03, station level interchanger 04, multiple 05 Hes of interval measure and control device Multiple interval primary equipments 06；

The telecontrol communication machine 02 realizes that the data with the realization of substation scheduling station communicate by the scheduling switch 01；

The monitoring host computer 03 and telecontrol communication machine 02 are realized and multiple interval observing and controlling by the station level interchanger 04 The data interaction of device 04；

Station level interchanger 04 and the monitoring host computer 03 in above-mentioned two control system, telecontrol communication machine 02 and it is multiple it is described between It is different every the data interaction communication protocol of measure and control device 04；

Wherein, the interval measure and control device 05 is connected with the interval primary equipment 06 one-to-one correspondence.

Wherein, communication protocol is to carry out rule, standard or the agreement that the data exchange of communicating pair is established, content packet It includes：Information format, transmission mechanism, synchronous control, fluffing check etc., to constrain, both sides' progress is correct, cooperates in harmony.Without changing The different vendor of substation made uses different proprietary protocols, and it is logical to be all made of international standard IEC61850 for modified substation Believe agreement.

Fig. 2 is a kind of structural schematic diagram of virtual measurement and control device disclosed in the embodiment of the present application；

Specifically, being more clear the working method for getting information about the virtual measurement and control device 300 in order to facilitate user, join See Fig. 2, the virtual measurement and control device 300 at least may include disclosed in the embodiment of the present application：

Vasculum 310 and managing main frame 320, wherein can be used between the vasculum 310 and managing main frame 320 PCIE data lines are attached；

The mirror of the data acquisition interface of the vasculum 310 and the scheduling switch 01 in first control system 100 Picture interface is connected, 104 messages for obtaining the transmission of the telecontrol communication machine 02 in first control system 100；

The managing main frame 320 can be the device of an operation LINUX system or other systems, can at least wrap It includes：

One message processing module (MPM) 321 and multiple virtual measurement and control modules 322；

The message processing module (MPM) 321 will be parsed for being parsed to 310 collected 104 message of the vasculum As a result it is sent in the virtual measurement and control module 322 to match with 104 message, specifically, the message processing module (MPM) 321 exists Get the vasculum 310 transmission 104 messages after, 104 message is parsed to obtain 104 message included Switching value data and analog data, and the switching value data and analog data are sent to and 104 message pair In the virtual measurement and control module 322 answered.

The IP of managing main frame 320 and virtual measurement and control module 322 is set as exchanging with the station level in the second control system 200 04 network segment of machine is consistent.Wherein in above-described embodiment, entity observing and controlling of the simulation of virtual measurement and control module 322 for the second control system fills Operation is set, the interval being modeled is physically located in the first control system, for interval is not transformed.The virtual measurement and control module 322 is pre- The module for simulating the operation of entity measure and control device of configuration, can virtual all producer's observing and controlling, the virtual measurement and control module 322 Complete the function consistent with real measure and control device (interval measure and control device), between each virtual measurement and control module 322 independently of each other, mutually not It influences；Closing can be activated individually according to user demand, can increase, delete the virtual measurement and control module 322.The virtual measurement and control Module 322 can configure system configuration file by user according to the object simulated, including operating in institute in virtual measurement and control module There are IEDName, number, IP and the Starting mode etc. of virtual measurement and control, and places under the file of reference numeral corresponding virtual The mms of control module enables configuration file, ICD model files；

Virtual measurement and control module 322 accesses in the station level interchanger of the second control system 200 described in substation, realization and mistake The data interaction of journey layer and station level.The quantity of the virtual measurement and control module can according to user demand sets itself, such as：One 20 virtual measurement and control modules 322 can be at most arranged in platform virtual measurement and control device 300, you can while simulating 1~20 entity observing and controlling Function between virtual measurement and control module be independently of each other independent of each other；Closing can be activated individually in empty control module, can increase, delete Empty control module.More virtual measurement and control device 300 can access uses parallel simultaneously, more measure and control devices is simulated, to meet The virtual measurement and control demand of whole station.

Wherein, the entity measure and control device is a kind of actual device, which can realize the function of " four is distant ", i.e., distant Letter, telemetering, remote control and remote regulating.Remote signalling：Main includes the position letter of switch in acquisition and Shang Song substations, disconnecting link, main shift Number, external loop alarm signal, ontology signal and protection signal.Telemetering：Complete various of acs measurement and calculating and on It send, such as voltage, electric current, power, power factor (PF), frequency, DC voltage, temperature of oil in transformer, winding temperature.Remote control：Realization is opened It closes, the division of disconnecting link control, the involution etc. of some signals；Remote regulating：The adjustment of main shift.

The virtual measurement and control module is connected with the station level interchanger of second control system, for simulating the second control The entity measure and control device of system is run, and the interval being modeled is physically located in the first control system, described virtual for interval is not transformed Control module 322 is connected with the station level interchanger of second control system 200, for simulating the operation of entity measure and control device, It is communicated for realizing carrying out 61850 with the station level interchanger of the second control system, it is double by being generated according to the analysis result The station level GOOSE message that the entity measure and control device of point remote signalling MMS messages and the virtual measurement and control module simulation is subscribed to is sent to The station level interchanger of second control system.

Wherein, described 61850 be a kind of public communication standard, is that the substation based on universal network communication platform is automatic The unique international standard of change system forms it into the output of a specification by a series of standardization to equipment, it is therefore an objective to allow change The equipment from different manufacturers may be implemented to interoperate in power station automation system, realize the seamless connection of system.

The GOOSE message is a kind of application in real time, for transmitting interval block signal and real-time trip signal.Interchanger Utilize logic blocking information between virtual LAN (VLAN) technical controlling GOOSE message transmission intelligent substation power grid.Pass through Information exchange and supervision interval join blocking function between GOOSE message (object-oriented substation general purpose event) realization device.

When those skilled in the art use automation of transformation substations control system disclosed in the above embodiments of the present application to new, old When control system carries out related commissioning work, principle is：Interval measure and control device 05 in second control system 200 carries out Debugging does not access the monitoring host computer 03, and virtual measurement and control module corresponding with the interval measure and control device 05 322 accesses the prison Host 03 is controlled, and keeps needing the interval measure and control device 05 in the first control system 100 to be replaced to access first control Monitoring host computer 03 in system 100, to ensure that 104 messages in the first control system 100 are normal, then according to 104 report Text tests the simulation control module 322, according to test result to new legacy system carry out state comparison, check telemetering, Whether remote signalling data is normal, is adjusted to the interval measure and control device 05 in second control system 200 according to inspection result； It is accessed in second control system 200 after the entity measure and control device 05 in second control system 200 is debugged Monitoring host computer, virtual measurement and control module corresponding with the interval measure and control device 05 that debugging finishes 322 exit, and are by first control Entity measure and control device 05 in system 100 exits monitoring host computer 03；

Wait for that all interval measure and control devices 05 and the interval transformation of primary equipment 06 in the first control system 100 are completed, and institute Have and be transformed after interval accessed the second control system 200, virtual measurement and control device 300 logs off operation.

Specifically, the interval measure and control device 05, monitoring host computer 03 in herein described second control system 200 and telemechanical Machine 02 is obtained the station level that the virtual measurement and control device is sent by the station level interchanger 04 in second control system 200 GOOSE message realizes the connection locking of wall and station level according to the station level GOOSE message.

The common portion of first control system, 100 and second control system 200 is first transformed when transformation, such as 220kV mothers Line environment division exits corresponding virtual measurement and control module 322, and common portion puts into operation in the second control system 200.First control at this time There is still a need for reservations for common portion observing and controlling in system 100 processed, and the station level 104 message informations to be given to the first control system is handed over It changes planes, realizes the connection locking at 100 station level of the first control system and interval.Wait for having with common portion in the first control system 100 Observing and controlling is isolated all after the completion of transformation, then by common portion in the first control system 100 in the interval measure and control device 05 of latching relation Device 05 is out of service.Not only it ensure that the integrality of the station level and wall latching logic of the first control system 100, but also realized The integrality of second control system 200 station level and wall latching logic.

The operating status of the managing main frame 320 is managed and is monitored for convenience, referring to Fig. 2, the application is above-mentioned Can also include in managing main frame 320 disclosed in embodiment：

Management module 323, the management module 323 are used to grasp instruction according to the user got by man-machine interactive platform It controls the startup of virtual measurement and control module 322 and message processing module (MPM) 321 and exits, and pass through the man-machine interactive platform and show institute State the operating status of virtual measurement and control module 322 and message processing module (MPM) 321.User can the used man-machine interactive platform check entirely The working condition of virtual measurement and control module described in portion, the working condition for the virtual measurement and control module currently having been turned on, each virtual measurement and control The empty observing and controlling operating condition etc. of each operation in module.

104 message is parsed for convenience, 104 resolution files are stored in the message processing module (MPM) 321, It is described to be specifically used for：

It is parsed according to 104 resolution files, 104 message collected to the vasculum to prestore, obtains described 104 The interval primary equipment location information and analog quantity information that message includes, 104 resolution file be according to the substation from The scheduling forwarding table of dynamic networked control systems configures, can be by 104 resolution files described in extraction in 104 messages that get The switching value information and analog quantity information that 104 messages are included.

In technical solution disclosed in the above embodiments of the present application, foundation is also configured in the virtual measurement and control module 322 SCD (whole station system configuration file) generates the station level GOOSE configuration files of corresponding measure and control device, the GOOSE configuration files Be arranged in a manner of entitled stgoose.cfg be put into reference numeral IED (Intelligent Electronic Device, Intelligent electric power monitoring device) catalogue under.

It is understood that in order to ensure that the virtual measurement and control device 300 is controlled with first control system 100 and second The stability of the data connection state of system 200 processed, management module 323 is built-in with network state judgment module, for judging Whether the MMS services for stating virtual measurement and control device are normal.

For convenience of description, it is divided into various modules when description system above with function to describe respectively.Certainly, implementing this The function of each module is realized can in the same or multiple software and or hardware when application.

Each embodiment in this specification is described in a progressive manner, identical similar portion between each embodiment Point just to refer each other, and each embodiment focuses on the differences from other embodiments.Especially for system or For system embodiment, since it is substantially similar to the method embodiment, so describing fairly simple, related place is referring to method The part of embodiment illustrates.System and system embodiment described above is only schematical, wherein the conduct The unit that separating component illustrates may or may not be physically separated, the component shown as unit can be or Person may not be physical unit, you can be located at a place, or may be distributed over multiple network units.It can root According to actual need that some or all of module therein is selected to achieve the purpose of the solution of this embodiment.Ordinary skill Personnel are without creative efforts, you can to understand and implement.

Professional further appreciates that, unit described in conjunction with the examples disclosed in the embodiments of the present disclosure And algorithm steps, can be realized with electronic hardware, computer software, or a combination of the two, in order to clearly demonstrate hardware and The interchangeability of software generally describes each exemplary composition and step according to function in the above description.These Function is implemented in hardware or software actually, depends on the specific application and design constraint of technical solution.Profession Technical staff can use different methods to achieve the described function each specific application, but this realization is not answered Think beyond the scope of this invention.

The step of method described in conjunction with the examples disclosed in this document or algorithm, can directly be held with hardware, processor The combination of capable software module or the two is implemented.Software module can be placed in random access memory (RAM), memory, read-only deposit Reservoir (ROM), electrically programmable ROM, electrically erasable ROM, register, hard disk, moveable magnetic disc, CD-ROM or technology In any other form of storage medium well known in field.

It should also be noted that, herein, relational terms such as first and second and the like are used merely to one Entity or operation are distinguished with another entity or operation, without necessarily requiring or implying between these entities or operation There are any actual relationship or orders.Moreover, the terms "include", "comprise" or its any other variant are intended to contain Lid non-exclusive inclusion, so that the process, method, article or equipment including a series of elements is not only wanted including those Element, but also include other elements that are not explicitly listed, or further include for this process, method, article or equipment Intrinsic element.In the absence of more restrictions, the element limited by sentence "including a ...", it is not excluded that There is also other identical elements in process, method, article or equipment including the element.

The foregoing description of the disclosed embodiments enables those skilled in the art to implement or use the present invention. Various modifications to these embodiments will be apparent to those skilled in the art, as defined herein General Principle can be realized in other embodiments without departing from the spirit or scope of the present invention.Therefore, of the invention It is not intended to be limited to the embodiments shown herein, and is to fit to and the principles and novel features disclosed herein phase one The widest range caused.

Claims (6)

1. a kind of automation of transformation substations control system, which is characterized in that including：

Virtual measurement and control device, the first control system not being transformed and the second control system being transformed；

The input terminal of the virtual measurement and control device is connected with the scheduling switch in first control system, output end and second The station level interchanger of control system is connected, and the virtual measurement and control device includes：

Vasculum and managing main frame；

The vasculum is connected with the scheduling switch mirror image interface in first control system, for obtaining first control 104 messages that telecontrol communication machine in system processed is sent；

The managing main frame includes：

Message processing module (MPM) and multiple virtual measurement and control modules；

Analysis result is sent to by the message processing module (MPM) for being parsed to collected 104 message of the vasculum The virtual measurement and control module to match with 104 message；

Virtual measurement and control module, the entity measure and control device operation for simulating the second control system, the interval being modeled is physically located in First control system, for interval is not transformed, the station level interchanger of the virtual measurement and control module and the second control system carries out 61850 communications, by the entity of the two point remote signalling MMS messages and the virtual measurement and control module simulation that are generated according to the analysis result The station level GOOSE message that measure and control device is subscribed to is sent to the station level interchanger of second control system.

2. automation of transformation substations control system according to claim 1, which is characterized in that

First control system and second control system include：

Telecontrol communication machine, scheduling switch, monitoring host computer, station level interchanger, multiple interval measure and control devices and multiple intervals are once set It is standby；

The telecontrol communication machine realizes that data communicate by the scheduling switch with scheduling station；

The monitoring host computer and telecontrol communication machine realize that data are handed over by the station level interchanger and multiple interval measure and control devices Mutually；

Station level interchanger and the monitoring host computer, telecontrol communication machine and multiple interval measure and control devices in above-mentioned two control system Data interaction communication protocol it is different；

The interval measure and control device is connected with interval primary equipment one-to-one correspondence.

3. automation of transformation substations control system according to claim 1, which is characterized in that the managing main frame further includes：

Management module controls the startup of virtual measurement and control module and message processing module (MPM) for foundation user's operation and exits, and supervises Depending on the operating status of the virtual measurement and control module and message processing module (MPM).

4. automation of transformation substations control system according to claim 2, which is characterized in that in second control system It is spaced measure and control device, monitoring host computer and telecontrol communication machine and the virtual survey is obtained by the station level interchanger in second control system The station level GOOSE message and MMS messages that device is sent are controlled, realizes that wall and station are controlled according to the station level GOOSE message The connection locking of layer.

5. automation of transformation substations control system according to claim 1, which is characterized in that the message processing module (MPM) is specific For：

104 messages according to 104 resolution files the first control system scheduling switch collected to the vasculum to prestore It is parsed, obtains the interval primary equipment location information and analog quantity information that 104 message includes, the 104 parsing text Part configures for the scheduling forwarding table according to the automation of transformation substations control system.

6. automation of transformation substations control system according to claim 3, which is characterized in that be built-in in the management module Network state judgment module, for judging that it is whether normal that the MMS of the virtual measurement and control device is serviced.