CN105205738B - Based on the integrated electric network accident management platform of regulation - Google Patents
Based on the integrated electric network accident management platform of regulation Download PDFInfo
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- CN105205738B CN105205738B CN201510689217.2A CN201510689217A CN105205738B CN 105205738 B CN105205738 B CN 105205738B CN 201510689217 A CN201510689217 A CN 201510689217A CN 105205738 B CN105205738 B CN 105205738B
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Abstract
It is specifically a kind of based on the integrated electric network accident management platform of regulation the present invention relates to electric network accident management technology.The present invention solves the problems, such as that existing electric network accident management platform lacks reasonable network topology structure.Based on the integrated electric network accident management platform of regulation, including several station ends RTU, main Layer 2 switch, standby Layer 2 switch, main front server, standby front server, main database server, standby database server, main monitor terminal, standby monitor terminal, physics isolation net gap, data distribution server, the first bus, the second bus, third bus, the 4th bus, the 5th bus;Wherein, each station end RTU, main Layer 2 switch, standby Layer 2 switch are connect with the 5th bus, and each station end RTU, main Layer 2 switch, standby Layer 2 switch, the 5th bus collectively form bus type topological structure.The present invention is suitable for electric network accident management.
Description
Technical field
It is specifically a kind of flat based on integrated electric network accident management is regulated and controled the present invention relates to electric network accident management technology
Platform.
Background technique
With the continuous expansion of power grid scale, the occurrence frequency of power grid accident gradually rises.Power grid once accident occurs, such as
Fruit cannot correct, in real time, comprehensively be handled, and great security risk certainly will be brought to power grid.Therefore, how to take effectively
Measure is correct, in real time, comprehensively handles power grid accident (including the expansion for reducing scope of power outage, shortening power off time, preventing accident
With sprawling, early restore electricity) be a urgent problem to be solved.Currently, the processing of power grid accident mainly relies on power grid thing
Therefore processing platform is realized.Under prior art conditions, electric network accident management platform is limited by self structure, is existed as follows
Problem: existing electric network accident management platform generally lacks reasonable network topology structure, cause its generally existing fluctuation of service,
Thus the problem of poor reliability, directly affects the correctness of electric network accident management, real-time, comprehensive.Based on this, it is necessary to send out
The completely new electric network accident management platform of bright one kind lacks reasonable network topology structure to solve existing electric network accident management platform
The problem of.
Summary of the invention
The present invention provides to solve the problems, such as that existing electric network accident management platform lacks reasonable network topology structure
One kind is based on the integrated electric network accident management platform of regulation.
The present invention is achieved by the following technical scheme: based on integrated electric network accident management platform is regulated and controled, including
Several station ends RTU, main Layer 2 switch, standby Layer 2 switch, main front server, standby front server, primary database take
Device, standby database server, main monitor terminal, standby monitor terminal, physics isolation net gap, data distribution server, first be engaged in always
Line, the second bus, third bus, the 4th bus, the 5th bus;
Wherein, each station end RTU, main Layer 2 switch, standby Layer 2 switch are connect with the 5th bus, and each station end
RTU, main Layer 2 switch, standby Layer 2 switch, the 5th bus collectively form bus type topological structure;
Main Layer 2 switch, main front server are connect with the first bus, and main Layer 2 switch, main preposition service
Device, the first bus collectively form bus type topological structure;
Standby Layer 2 switch, standby front server are connect with the second bus, and standby Layer 2 switch, standby preposition service
Device, the second bus collectively form bus type topological structure;
It is main front server, standby front server, main database server, standby database server, main monitor terminal, standby
Monitor terminal is connect with third bus, and main front server, standby front server, main database server, standby database
Server, main monitor terminal, standby monitor terminal, third bus collectively form bus type topological structure;
Main front server, main database server, main monitor terminal, physics isolation net gap are connect with the 4th bus,
And main front server, main database server, main monitor terminal, physics isolation net gap, the 4th bus collectively form bus-type
Topological structure;
Data distribution server is connect with physics isolation net gap.
Specific work process is as follows: characteristic (including the Temporal Data, dynamic of each station end RTU acquisition power grid accident
Data, steady state data), and collected characteristic is uploaded to the 5th bus.Main Layer 2 switch is total by access the 5th
Line obtains characteristic, and the characteristic that will acquire is uploaded to the first bus.Main front server is total by access first
Line obtains characteristic, and the characteristic that will acquire while being uploaded to third bus and the 4th bus.Primary database service
Device obtains characteristic by the 4th bus of access, and stores to the characteristic got.Main monitor terminal passes through visit
It asks that the 4th bus obtains characteristic, and the characteristic got is shown.Physics isolation net gap passes through access the 4th
Bus obtains characteristic, and the characteristic that will acquire is issued to data distribution server.Data distribution server docking
The characteristic received is issued, and electric network accident management is achieved in.In the process, if before main Layer 2 switch or master
Server fail is set, then characteristic, and the feature that will acquire are obtained by the 5th bus of access for Layer 2 switch
Data are uploaded to the second bus.Standby front server obtains characteristic, and the feature that will acquire by the second bus of access
Data are uploaded to third bus.Main database server obtains characteristic by access third bus, and to the spy got
The characteristic that sign data are stored, while will acquire is uploaded to the 4th bus.Main monitor terminal is total by access third
Line obtains characteristic, and shows to the characteristic got.If main database server breaks down, standby number
Characteristic is obtained by access third bus according to library server, and the characteristic got is stored.If main prison
Control terminal breaks down, then obtains characteristic by access third bus for monitor terminal, and to the characteristic got
It is shown.
It is of the present invention integrated based on regulating and controlling compared with existing electric network accident management platform based on the above process
Electric network accident management platform constitutes first using each station end RTU, main Layer 2 switch, standby Layer 2 switch, the 5th bus
A bus type topological structure constitutes second bus-type topology using main Layer 2 switch, main front server, the first bus
Structure constitutes third bus type topological structure using standby Layer 2 switch, standby front server, the second bus, using master
Front server, standby front server, main database server, standby database server, main monitor terminal, standby monitor terminal,
Third bus constitutes the 4th bus type topological structure, eventually using main front server, main database server, main monitoring
End, physics isolation net gap, the 4th bus constitute the 5th bus type topological structure, by utilizing bus type topological structure knot
Structure is simple, required transmission medium is few, the failure of non-stop layer node, any node not will cause the whole network paralysis, reliability
Height is easy to the advantages of expanding, and has reasonable network topology structure, thus effectively enhances the correct of electric network accident management
It is property, real-time, comprehensive, so that the safe and stable operation of power grid be effectively ensured.
The present invention solves the problems, such as that existing electric network accident management platform lacks reasonable network topology structure, is applicable in
In electric network accident management.
Detailed description of the invention
Fig. 1 is structural schematic diagram of the invention.
Specific embodiment
Based on the integrated electric network accident management platform of regulation, including several station ends RTU, main Layer 2 switch, standby two
Layer switch, main front server, standby front server, main database server, standby database server, main monitor terminal,
Standby monitor terminal, physics isolation net gap, data distribution server, the first bus, the second bus, third bus, the 4th bus, the
Five buses;
Wherein, each station end RTU, main Layer 2 switch, standby Layer 2 switch are connect with the 5th bus, and each station end
RTU, main Layer 2 switch, standby Layer 2 switch, the 5th bus collectively form bus type topological structure;
Main Layer 2 switch, main front server are connect with the first bus, and main Layer 2 switch, main preposition service
Device, the first bus collectively form bus type topological structure;
Standby Layer 2 switch, standby front server are connect with the second bus, and standby Layer 2 switch, standby preposition service
Device, the second bus collectively form bus type topological structure;
It is main front server, standby front server, main database server, standby database server, main monitor terminal, standby
Monitor terminal is connect with third bus, and main front server, standby front server, main database server, standby database
Server, main monitor terminal, standby monitor terminal, third bus collectively form bus type topological structure;
Main front server, main database server, main monitor terminal, physics isolation net gap are connect with the 4th bus,
And main front server, main database server, main monitor terminal, physics isolation net gap, the 4th bus collectively form bus-type
Topological structure;
Data distribution server is connect with physics isolation net gap.
When it is implemented, the station end RTU uses JY-RTU6640 type RTU;The main Layer 2 switch, standby Layer2 switching
Machine is all made of S5700S-28P-LI type Layer 2 switch;The main front server, standby front server, primary database service
Device, standby database server, data distribution server are all made of HP ProLiant DL580 G8 type server;The main monitoring
Terminal, standby monitor terminal are all made of 720 type minicomputer of IBM Power;The physics isolation net gap uses ViGap300 type net
Lock.
Claims (1)
1. one kind is based on the integrated electric network accident management platform of regulation, it is characterised in that: including several station ends RTU, main two
Layer switch, standby Layer 2 switch, main front server, standby front server, main database server, standby database service
Device, main monitor terminal, standby monitor terminal, physics isolation net gap, data distribution server, the first bus, the second bus, third are total
Line, the 4th bus, the 5th bus;
Wherein, each station end RTU, main Layer 2 switch, standby Layer 2 switch are connect with the 5th bus, and each station end RTU,
Main Layer 2 switch, standby Layer 2 switch, the 5th bus collectively form bus type topological structure;
Main Layer 2 switch, main front server are connect with the first bus, and main Layer 2 switch, main front server,
One bus collectively forms bus type topological structure;
Standby Layer 2 switch, standby front server connects with the second bus, and standby Layer 2 switch, for front server, the
Two lines bus collectively forms bus type topological structure;
Main front server, standby front server, main database server, standby database server, main monitor terminal, standby monitoring
Terminal is connect with third bus, and main front server, standby front server, main database server, standby database service
Device, main monitor terminal, standby monitor terminal, third bus collectively form bus type topological structure;
Main front server, main database server, main monitor terminal, physics isolation net gap are connect with the 4th bus, and main
Front server, main database server, main monitor terminal, physics isolation net gap, the 4th bus collectively form bus-type topology
Structure;
Data distribution server is connect with physics isolation net gap;
The station end RTU uses JY-RTU6640 type RTU;The main Layer 2 switch, standby Layer 2 switch are all made of S5700S-
28P-LI type Layer 2 switch;The main front server, standby front server, main database server, standby database service
Device, data distribution server are all made of HP ProLiant DL580 G8 type server;The main monitor terminal, standby monitor terminal
It is all made of 720 type minicomputer of IBM Power;The physics isolation net gap uses ViGap300 type gateway;
The characteristic of each station end RTU acquisition power grid accident, and collected characteristic is uploaded to the 5th bus;Main two
Layer switch obtains characteristic by the 5th bus of access, and the characteristic that will acquire is uploaded to the first bus;Before master
Set server and characteristic obtained by the first bus of access, and the characteristic that will acquire and meanwhile be uploaded to third bus with
4th bus;Main database server obtains characteristic by the 4th bus of access, and carries out to the characteristic got
Storage;Main monitor terminal obtains characteristic by the 4th bus of access, and shows to the characteristic got;Physics
Isolation gap obtains characteristic by the 4th bus of access, and the characteristic that will acquire is issued to data publication service
Device;Data distribution server issues the characteristic received, is achieved in electric network accident management;In the process,
If main Layer 2 switch or main front server break down, feature is obtained by the 5th bus of access for Layer 2 switch
Data, and the characteristic that will acquire is uploaded to the second bus;Standby front server obtains feature by the second bus of access
Data, and the characteristic that will acquire is uploaded to third bus;Main database server is obtained special by access third bus
Data are levied, and the characteristic that the characteristic got is stored, while will acquire is uploaded to the 4th bus;Main prison
Control terminal obtains characteristic by access third bus, and shows to the characteristic got;If primary database
Server fail then obtains characteristic by access third bus for database server, and to the feature got
Data are stored;If main monitor terminal breaks down, characteristic is obtained by access third bus for monitor terminal,
And the characteristic got is shown.
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CN204231028U (en) * | 2014-11-28 | 2015-03-25 | 国家电网公司 | Intelligent grid data dispatching remote online diagnosis and analysis device |
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CN204231028U (en) * | 2014-11-28 | 2015-03-25 | 国家电网公司 | Intelligent grid data dispatching remote online diagnosis and analysis device |
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