CN102497033A - Substation operation visualization realization method and system thereof - Google Patents

Abstract

The invention discloses a method for realizing a visualization substation integration information platform. Through setting an IEC61850 protocol converter and an environment host between an integrated substation automation system and a substation video monitoring system, communication and video linkage can be performed between the integrated substation automation system and the substation video monitoring system, wherein the IEC61850 protocol converter and the environment host are connected with each other. The invention also discloses a system for realizing the method. According to the invention, based on electric power industry safety management regulations (a safety I area is allowed to perform one-way data transmission to a safety III area), the safety communication can be performed between the integrated substation automation system and the substation video monitoring system and the video linkage can be further realized so that a user can visually know an operation state of primary equipment in the current substation and visually observe a control action of the primary equipment.

Description

A kind of power transformation operation realization of Visualization method and system

Technical field

The present invention relates to incorporate information platform implementation method of a kind of transformer station and system, relate in particular to the implementation method and the system of a kind of visual transformer station integrated information platform.

Background technology

Comprehensive automation system of transformer substation is realized in-service monitoring, protection and the control to primary equipment, for the user provides a real-time online primary equipment condition monitoring system.And the user can't can not observe the control action to primary equipment more intuitively through the operation conditions of the current transforming plant primary equipment of the visual understanding of comprehensive automation system of transformer substation.

Video monitoring system for substation is browsed for the user has solved in the transformer station the visual of position such as crucial scene, key equipment, escape way.Comprehensive automation system of transformer substation is considered to primary system, is disposed and safe I district; Video monitoring system for substation is considered to the electrical secondary system of the normal operation of auxiliary substation; Disposed and safe III district; Because the needs in the power industry safety management; Forbid existing escape way between safe I district and safe III, so free of data is mutual between comprehensive automation system of transformer substation and video monitoring system for substation, forms two isolated fully systems.

Summary of the invention

The objective of the invention is to, the implementation method and the system of a kind of visual transformer station integrated information platform is provided.This invention is under the situation based on power industry safety management regulation (allowing safe I district to safety III district one-way transmission data); Can make and carry out safe communication between comprehensive automation system of transformer substation and video monitoring system for substation; And further realize video interlink; Make the operation conditions that the user can the current transforming plant primary equipment of visual understanding, and observe control action intuitively to primary equipment.

For solving the problems of the technologies described above; The present invention adopts following technical scheme: a kind of method that realizes visual transformer station integrated information platform; It is characterized in that:, make to communicate between comprehensive automation system of transformer substation and the video monitoring system for substation and carry out video interlink through continuous IEC61850 protocol converter and environment main frame are set between comprehensive automation system of transformer substation and video monitoring system for substation; The IEC61850 protocol converter is realized the communication between comprehensive automation system of transformer substation and the video monitoring system for substation, and the environment main frame is realized the video interlink between comprehensive automation system of transformer substation and the video monitoring system for substation.

In the method for the visual transformer station of aforesaid realization integrated information platform, described IEC61850 protocol converter comprises production module, data buffering module and consumption module; Described environment main frame comprises that environment receiver module, environment sending module, environmental modeling module, environmental analysis module, environment logical node set up module; Video monitoring system for substation comprises transformer station's video monitoring platform, video monitoring system for substation administrative client, DVR and video camera.

In the method for the visual transformer station of aforesaid realization integrated information platform, the method for communicating between described realization comprehensive automation system of transformer substation and the video monitoring system for substation is:

A. utilize the production module to receive the data A that comprehensive automation system of transformer substation produces, and will count A according to storing in the data buffering module;

B. utilize the consumption module from the data buffering module, to extract data, and convert data A into data a based on IEC61850; Convert data a into logical node B then, and send to the environment main frame;

C. utilize the logical node B that obtains among the receiver module receiving step B; Utilize the environment sending module that logical node B is sent to video monitoring system for substation.

In the method for the visual transformer station of aforesaid realization integrated information platform, the method for the video interlink between described realization comprehensive automation system of transformer substation and the video monitoring system for substation is:

D. utilize the environment receiver module to receive the data object data model D of the expression interaction relation of video monitoring system for substation foundation;

E. utilize data model D that environmental modeling module establishment step D obtains set up interlock bivariate table model R (Src_Do, Camera, Camera_Pos, Action);

F. utilize the environment receiver module to receive the logical node B that the IEC61850 protocol converter sends;

G. utilize the environmental analysis module that the Src_Do of logical node B in bivariate table model R searched, if find, then utilize the environment logical node to set up module according to Camera among the bivariate table model R, Camera_Pos, Action create interlock logical node G; Otherwise video interlink finishes;

H. utilize the environment sending module logical node G that will link to send to transformer station's video monitoring platform, the logical node G that will link simultaneously sends to DVR, sends cradle head control by DVR and orders to corresponding video camera;

I. transformer station's video monitoring platform logical node G that will link sends to the video monitoring system for substation administrative client;

J. the video monitoring system for substation administrative client is had access to the video camera real-time video through transformer station's video monitoring platform.

In the method for the visual transformer station of aforesaid realization integrated information platform, described steps A and step B are specially:

A. utilize the network receiver module to receive network event from comprehensive automation system of transformer substation;

B. utilize the network event processing module to handle network event; If the Accept incident receives and new the connection puts into event queue; If the Write incident increases and writes counting; If the Read incident reads the data in the network, and with storage to the data buffering module.

C. utilize data read module from the data buffering module, to read pending data;

D. utilize data processing module to handle the data that are read.

E. utilize the protocol type of agreement judge module judgment data, obtain the protocol type of these data;

F. utilize protocol type and given this kind agreement and the mapping table of IEC61850 of these data that translation module obtains according to step e, translation obtains the data f of these data based on IEC61850;

G. the data f that utilizes the data judge module to obtain according to the rule analysis step f of IEC61850, specified data f is analog acquisition value or switch acquisition value;

H. if data f is the analog acquisition value, utilize model building module it to be set up data object model H according to the rule of IEC61850; Be specially the data object oriented is added I, II, the suffix sequence number of III is represented three kinds of different data object models of middling speed message (three grades) of 1a tripping operation (one-level), 1b control command (secondary) and measured value; If data f is the switch acquisition value, utilize model building module it to be set up data object model h according to the rule of IEC61850; Be specially the data object oriented is added i, ii, the suffix sequence number of iii is represented three kinds of different data object models of middling speed message (three grades) of 1a tripping operation (one-level), 1b control command (secondary) and measured value;

I. utilize the self-checking alarming module to adopt general inputoutput data object to set up self-checking alarming object model I or self-checking alarming object model i through model building module data object model H among the step h or data object model h;

J. utilizing the functional analysis module that step h is obtained self-checking alarming object model I that data object model H and step I obtain or step h obtains the self-checking alarming object model i that data object model h and step I obtain and analyzes; Be specially; Utilize the functional analysis module that middling speed message (three grades) the data object numerical value of tripping operation (one-level) data object of the 1a among the self-checking alarming object model I and measured value is judged; If above-mentioned two numerical value have one at least not in preset range; Produce the tripartite relationship table of action alarm source, target action device id, type of action; Utilize model building module that the tripartite relationship table is set up the data object model J of expression action, otherwise processing finish; Utilize the functional analysis module that middling speed message (three grades) the data object numerical value of tripping operation (one-level) data object of the 1a among the self-checking alarming object model i and measured value is judged; If above-mentioned two numerical value have at least one to be not equal to preset value; Produce the tripartite relationship table of action alarm source, target action device id, type of action; Utilize model building module that the tripartite relationship table is set up the data object model j of expression action, otherwise processing finish;

K. utilize logical node to set up module and will represent that the data object model J of action sets up logical node K and will represent that maybe the data object model j that moves sets up logical node k;

1. utilize sending module that logical node K or logical node k are provided with the transmission order, send it to the environment main frame.

A kind of system that realizes aforementioned visual transformer station integrated information platform method comprises the comprehensive automation system of transformer substation, IEC61850 protocol converter, environment main frame and the video monitoring system for substation that link to each other successively.

In the system of the aforementioned visual transformer station of aforesaid realization integrated information platform method; Described IEC61850 protocol converter comprises production module, data buffering module and the consumption module that links to each other successively; The production module is also connecting comprehensive automation system of transformer substation, and the consumption module is also connecting video monitoring system for substation.

In the system of the aforementioned visual transformer station of aforesaid realization integrated information platform method; Described production module comprises continuous network receiver module and network event processing module; The network receiver module also connects comprehensive automation system of transformer substation and data buffering module, and the network event processing module also connects the data buffer module; The consumption module comprises data read module and the data processing module that links to each other successively, and data read module also connects the data buffer module, and data processing module also connects video monitoring system for substation; Data processing module comprises agreement judge module, translation module, data judge module and the model building module that links to each other successively; Model building module is also connecting self-checking alarming module, functional analysis module and logical node and is setting up module, and logical node is set up module and also connected sending module; The agreement judge module is also connecting data read module, and sending module is also connecting video monitoring system for substation; The data buffering module comprises data storage module; Data storage module is connecting data management module, module, spatial constraints module and production capacity limiting module are expanded in the space; Data storage module is also connecting production module and consumption module, and the production capacity limiting module is connecting the network receiver module.

In the system of the aforementioned visual transformer station of aforesaid realization integrated information platform method, described environment main frame comprises that successively the environment receiver module, environmental analysis module, the environment logical node that link to each other set up module and environment sending module; The environment receiver module is also connecting environmental modeling module, IEC61850 protocol converter and video monitoring system for substation, and the environmental analysis module is also connecting the environmental modeling module, and the environment sending module is also connecting video monitoring system for substation.

In the system of the aforementioned visual transformer station of aforesaid realization integrated information platform method, described video monitoring system for substation comprises video monitoring system for substation administrative client, transformer station's video monitoring platform, DVR and the video camera that links to each other successively; Transformer station's video monitoring platform also is being connected the environment main frame with DVR.

Compared with prior art; The present invention adopts technique scheme; Under situation, make and to carry out safe communication between comprehensive automation system of transformer substation and video monitoring system for substation, and further realize video interlink based on power industry safety management regulation (allowing safe I district) to safety III district one-way transmission data; Make the operation conditions that the user can the current transforming plant primary equipment of visual understanding, and observe control action intuitively to primary equipment.

Description of drawings:

Fig. 1 is a system configuration sketch map of the present invention;

Fig. 2 is a communication flow diagram of the present invention;

Fig. 3 is a video interlink flow chart of the present invention;

Fig. 4 is the flow chart that data of the present invention are produced;

Fig. 5 is the flow chart of data consumption of the present invention;

Fig. 6 is the flow chart of data processing of the present invention;

Fig. 7 is the protocol converter structural representation among the present invention.

Reference numeral:

The 1-comprehensive automation system of transformer substation, 2-IEC61850 protocol converter, 3-environment main frame, 4-video monitoring system for substation, 5-production module; 6-data buffering module, 7-consumes module, 8-environment receiver module, 9-environmental analysis module, 10-environment logical node is set up module; 11-environment sending module, 12-environmental modeling module, 13-video monitoring system for substation administrative client, 14-transformer station video monitoring platform, 15-DVR; The 16-video camera, 17-network receiver module, 18-network event processing module, 19-data read module, 20-data processing module; 21-agreement judge module, 22-translation module, 23-data judge module, 24-model building module, 25-self-checking alarming module; 26-functional analysis module, the 27-logical node is set up module, 28-sending module, 29-data storage module; The 30-data management module, module, 32-spatial constraints module, 33-production capacity limiting module are expanded in the 31-space.

Below in conjunction with accompanying drawing and embodiment the present invention is further described, but not as the foundation to the present invention's restriction.

Embodiment

Embodiment.

A kind of method that realizes visual transformer station integrated information platform; As shown in Figures 2 and 3; Through continuous IEC61850 protocol converter and environment main frame are set between comprehensive automation system of transformer substation and video monitoring system for substation, make to communicate between comprehensive automation system of transformer substation and the video monitoring system for substation and carry out video interlink; The IEC61850 protocol converter is realized the communication between comprehensive automation system of transformer substation and the video monitoring system for substation, and the environment main frame is realized the video interlink between comprehensive automation system of transformer substation and the video monitoring system for substation.The IEC61850 protocol converter comprises production module, data buffering module and consumption module; Described environment main frame comprises that environment receiver module, environment sending module, environmental modeling module, environmental analysis module, environment logical node set up module; Video monitoring system for substation comprises transformer station's video monitoring platform, video monitoring system for substation administrative client, DVR and video camera.

As shown in Figure 2, realize that the method for communicating between comprehensive automation system of transformer substation and the video monitoring system for substation is:

A. utilize the production module to receive the data A that comprehensive automation system of transformer substation produces, and will count A according to storing in the data buffering module;

B. utilize the consumption module from the data buffering module, to extract data, and convert data A into data a based on IEC61850; Convert data a into logical node B then, and send to the environment main frame;

C. utilize the logical node B that obtains among the receiver module receiving step B; Utilize the environment sending module that logical node B is sent to video monitoring system for substation.

As shown in Figure 3, realize that the method for the video interlink between comprehensive automation system of transformer substation and the video monitoring system for substation is:

D. utilize the environment receiver module to receive the data object data model D of the expression interaction relation of video monitoring system for substation foundation;

E. utilize data model D that environmental modeling module establishment step D obtains set up interlock bivariate table model R (Src_Do, Camera, Camera_Pos, Action);

F. utilize the environment receiver module to receive the logical node B that the IEC61850 protocol converter sends;

G. utilize the environmental analysis module that the Src_Do of logical node B in bivariate table model R searched, if find, then utilize the environment logical node to set up module according to Camera among the bivariate table model R, Camera_Pos, Action create interlock logical node G; Otherwise video interlink finishes;

H. utilize the environment sending module logical node G that will link to send to transformer station's video monitoring platform, the logical node G that will link simultaneously sends to DVR, sends cradle head control by DVR and orders to corresponding video camera;

I. transformer station's video monitoring platform logical node G that will link sends to the video monitoring system for substation administrative client;

J. the video monitoring system for substation administrative client is had access to the video camera real-time video through transformer station's video monitoring platform.

Like Fig. 4-shown in Figure 6, steps A and step B are specially:

A. utilize the network receiver module to receive network event from comprehensive automation system of transformer substation;

B. utilize the network event processing module to handle network event; If the Accept incident receives and new the connection puts into event queue; If the Write incident increases and writes counting; If the Read incident reads the data in the network, and with storage to the data buffering module; More than two steps for data production;

C. utilize data read module from the data buffering module, to read pending data;

D. utilize data processing module to handle the data that are read; More than two steps for data consumption;

E. utilize the protocol type of agreement judge module judgment data, obtain the protocol type of these data;

F. utilize protocol type and given this kind agreement and the mapping table of IEC61850 of these data that translation module obtains according to step e, translation obtains the data f of these data based on IEC61850;

G. the data f that utilizes the data judge module to obtain according to the rule analysis step f of IEC61850, specified data f is analog acquisition value or switch acquisition value;

H. if data f is the analog acquisition value, utilize model building module it to be set up data object model H according to the rule of IEC61850; Be specially the data object oriented is added I, II, the suffix sequence number of III is represented three kinds of different data object models of middling speed message (three grades) of 1a tripping operation (one-level), 1b control command (secondary) and measured value; If data f is the switch acquisition value, utilize model building module it to be set up data object model h according to the rule of IEC61850; Be specially the data object oriented is added i, ii, the suffix sequence number of iii is represented three kinds of different data object models of middling speed message (three grades) of 1a tripping operation (one-level), 1b control command (secondary) and measured value;

I. utilize the self-checking alarming module to adopt general inputoutput data object to set up self-checking alarming object model I or self-checking alarming object model i through model building module data object model H among the step h or data object model h;

J. utilizing the functional analysis module that step h is obtained self-checking alarming object model I that data object model H and step I obtain or step h obtains the self-checking alarming object model i that data object model h and step I obtain and analyzes; Be specially; Utilize the functional analysis module that middling speed message (three grades) the data object numerical value of tripping operation (one-level) data object of the 1a among the self-checking alarming object model I and measured value is judged; If above-mentioned two numerical value have one at least not in preset range; Produce the tripartite relationship table of action alarm source, target action device id, type of action; Utilize model building module that the tripartite relationship table is set up the data object model J of expression action, otherwise processing finish; Utilize the functional analysis module that middling speed message (three grades) the data object numerical value of tripping operation (one-level) data object of the 1a among the self-checking alarming object model i and measured value is judged; If above-mentioned two numerical value have at least one to be not equal to preset value; Produce the tripartite relationship table of action alarm source, target action device id, type of action; Utilize model building module that the tripartite relationship table is set up the data object model j of expression action, otherwise processing finish;

K. utilize logical node to set up module and will represent that the data object model J of action sets up logical node K and will represent that maybe the data object model j that moves sets up logical node k;

L. utilize sending module that logical node K or logical node k are provided with the transmission order, send it to the environment main frame, above e-l step is the content of deal with data.

Communication between complex automatic system and protocol conversion apparatus realizes through serial ports or network mode.Before realizing communication, must define protocol type in advance, represent 101 agreements like 0x00,0x02 representes 104 agreements etc.

The serial communication mapping table is set up process:

Must specify on the com port of complex automatic system access protocol conversion equipment before the complex automatic system access protocol conversion equipment; So just bound the relation between protocol type and com port; The protocol library array of index is carried out in foundation according to the string slogan; Set up the relation between protocol library and serial ports, after this in the communication process, the data that receive on every com port are from then on all called the agreement of binding and are carried out protocol translation.

The network communication mapping table is set up process:

Complex automatic system is initiated registration to protocol conversion apparatus earlier; Inform which kind of agreement protocol conversion apparatus will use realize exchanges data; After protocol conversion apparatus receives the register requirement of comprehensive automation; The SOCKET of expression communication link is (unique in a Process Extents; This is the operating system decision) and the protocol type binding, setting up with SOCKET is the communication storehouse array of index, after this data of every this SOCKET communication all adopt the agreement of binding to carry out data translation in the communication process.

A kind of system that realizes aforementioned visual transformer station integrated information platform method, as shown in Figure 1, comprise the comprehensive automation system of transformer substation 1, IEC61850 protocol converter 2, environment main frame 3 and the video monitoring system for substation 4 that link to each other successively.Environment main frame 3 comprises that successively the environment receiver module 8, environmental analysis module 9, the environment logical node that link to each other set up module 10 and environment sending module 11; Environment receiver module 8 is also connecting environmental modeling module 12, IEC61850 protocol converter 2 and video monitoring system for substation 4, and environmental analysis module 9 is also connecting environmental modeling module 12, and environment sending module 11 is also connecting video monitoring system for substation 4.Video monitoring system for substation 4 comprises video monitoring system for substation administrative client 13, transformer station's video monitoring platform 14, DVR 15 and the video camera 16 that links to each other successively; Transformer station's video monitoring platform 14 also is being connected environment main frame 3 with DVR 15.

As shown in Figure 7, IEC61850 protocol converter 2 comprises production module 5, data buffering module 6 and the consumption module 7 that links to each other successively, and production module 5 is also connecting comprehensive automation system of transformer substation 1, and consumption module 7 is also connecting video monitoring system for substation 4.Production module 5 comprises continuous network receiver module 17 and network event processing module 18, and network receiver module 17 also connects comprehensive automation system of transformer substation 1 and data buffering module 6, and network event processing module 18 also connects data buffer module 6; Consumption module 7 comprises the data read module 19 and data processing module 20 that links to each other successively, and data read module 18 also connects data buffer module 6, and data processing module 20 also connects video monitoring system for substation 4; Data processing module 20 comprises agreement judge module 21, translation module 22, data judge module 23 and the model building module 24 that links to each other successively; Model building module 24 is also connecting self-checking alarming module 25, functional analysis module 26 and logical node and is setting up module 27, and logical node is set up module 27 and also connected sending module 28; Agreement judge module 21 is also connecting data read module 19, and sending module 28 is also connecting video monitoring system for substation 4; Data buffering module 6 comprises data storage module 29; Data storage module 29 is connecting data management module 30, module 31, spatial constraints module 32 and production capacity limiting module 33 are expanded in the space; Data storage module 29 is also connecting production module 5 and consumption module 7, and production capacity limiting module 33 is connecting network receiver module 17.

Claims (10)

1. method that realizes visual transformer station integrated information platform; It is characterized in that:, make to communicate between comprehensive automation system of transformer substation and the video monitoring system for substation and carry out video interlink through continuous IEC61850 protocol converter and environment main frame are set between comprehensive automation system of transformer substation and video monitoring system for substation; The IEC61850 protocol converter is realized the communication between comprehensive automation system of transformer substation and the video monitoring system for substation, and the environment main frame is realized the video interlink between comprehensive automation system of transformer substation and the video monitoring system for substation.

2. the method for the visual transformer station of realization according to claim 1 integrated information platform is characterized in that, described IEC61850 protocol converter comprises production module, data buffering module and consumption module; Described environment main frame comprises that environment receiver module, environment sending module, environmental modeling module, environmental analysis module, environment logical node set up module; Video monitoring system for substation comprises transformer station's video monitoring platform, video monitoring system for substation administrative client, DVR and video camera.

3. the method for the visual transformer station of realization according to claim 2 integrated information platform is characterized in that the method for communicating between described realization comprehensive automation system of transformer substation and the video monitoring system for substation is:

A. utilize the production module to receive the data A that comprehensive automation system of transformer substation produces, and will count A according to storing in the data buffering module;

B. utilize the consumption module from the data buffering module, to extract data, and convert data A into data a based on IEC61850; Convert data a into logical node B then, and send to the environment main frame;

C. utilize the logical node B that obtains among the receiver module receiving step B; Utilize the environment sending module that logical node B is sent to video monitoring system for substation.

4. realization according to claim 3 transformer station integrated information platform visualization method is characterized in that the method for the video interlink between described realization comprehensive automation system of transformer substation and the video monitoring system for substation is:

D. utilize the environment receiver module to receive the data object data model D of the expression interaction relation of video monitoring system for substation foundation;

E. utilize data model D that environmental modeling module establishment step D obtains set up interlock bivariate table model R (Src_Do, Camera, Camera_Pos, Action);

F. utilize the environment receiver module to receive the logical node B that the IEC61850 protocol converter sends;

G. utilize the environmental analysis module that the Src_Do of logical node B in bivariate table model R searched, if find, then utilize the environment logical node to set up module according to Camera among the bivariate table model R, Camera_Pos, Action create interlock logical node G; Otherwise video interlink finishes;

H. utilize the environment sending module logical node G that will link to send to transformer station's video monitoring platform, the logical node G that will link simultaneously sends to DVR, sends cradle head control by DVR and orders to corresponding video camera;

I. transformer station's video monitoring platform logical node G that will link sends to the video monitoring system for substation administrative client;

J. the video monitoring system for substation administrative client is had access to the video camera real-time video through transformer station's video monitoring platform.

5. realization according to claim 3 transformer station integrated information platform visualization method is characterized in that described steps A and step B are specially:

A. utilize the network receiver module to receive network event from comprehensive automation system of transformer substation;

B. utilize the network event processing module to handle network event; If the Accept incident receives and new the connection puts into event queue; If the Write incident increases and writes counting; If the Read incident reads the data in the network, and with storage to the data buffering module.

C. utilize data read module from the data buffering module, to read pending data;

D. utilize data processing module to handle the data that are read.

E. utilize the protocol type of agreement judge module judgment data, obtain the protocol type of these data;

F. utilize protocol type and given this kind agreement and the mapping table of IEC61850 of these data that translation module obtains according to step e, translation obtains the data f of these data based on IEC61850;

G. the data f that utilizes the data judge module to obtain according to the rule analysis step f of IEC61850, specified data f is analog acquisition value or switch acquisition value;

H. if data f is the analog acquisition value, utilize model building module it to be set up data object model H according to the rule of IEC61850; Be specially the data object oriented is added I, II, the suffix sequence number of III is represented three kinds of different data object models of middling speed message (three grades) of 1a tripping operation (one-level), 1b control command (secondary) and measured value; If data f is the switch acquisition value, utilize model building module it to be set up data object model h according to the rule of IEC61850; Be specially the data object oriented is added i, ii, the suffix sequence number of iii is represented three kinds of different data object models of middling speed message (three grades) of 1a tripping operation (one-level), 1b control command (secondary) and measured value;

I. utilize the self-checking alarming module to adopt general inputoutput data object to set up self-checking alarming object model I or self-checking alarming object model i through model building module data object model H among the step h or data object model h;

J. utilizing the functional analysis module that step h is obtained self-checking alarming object model I that data object model H and step I obtain or step h obtains the self-checking alarming object model i that data object model h and step I obtain and analyzes; Be specially; Utilize the functional analysis module that middling speed message (three grades) the data object numerical value of tripping operation (one-level) data object of the 1a among the self-checking alarming object model I and measured value is judged; If above-mentioned two numerical value have one at least not in preset range; Produce the tripartite relationship table of action alarm source, target action device id, type of action; Utilize model building module that the tripartite relationship table is set up the data object model J of expression action, otherwise processing finish; Utilize the functional analysis module that middling speed message (three grades) the data object numerical value of tripping operation (one-level) data object of the 1a among the self-checking alarming object model i and measured value is judged; If above-mentioned two numerical value have at least one to be not equal to preset value; Produce the tripartite relationship table of action alarm source, target action device id, type of action; Utilize model building module that the tripartite relationship table is set up the data object model j of expression action, otherwise processing finish;

K. utilize logical node to set up module and will represent that the data object model J of action sets up logical node K and will represent that maybe the data object model j that moves sets up logical node k;

L. utilize sending module that logical node K or logical node k are provided with the transmission order, send it to the environment main frame.

6. a system that realizes aforementioned visual transformer station integrated information platform method is characterized in that: comprise the comprehensive automation system of transformer substation (1), IEC61850 protocol converter (2), environment main frame (3) and the video monitoring system for substation (4) that link to each other successively.

7. the system of the aforementioned visual transformer station of realization according to claim 6 integrated information platform method; It is characterized in that: described IEC61850 protocol converter (2) comprises production module (5), data buffering module (6) and the consumption module (7) that links to each other successively; Production module (5) is also connecting comprehensive automation system of transformer substation (1), and consumption module (7) is also connecting video monitoring system for substation (4).

8. the system of the aforementioned visual transformer station of realization according to claim 7 integrated information platform method; It is characterized in that: described production module (5) comprises continuous network receiver module (17) and network event processing module (18); Network receiver module (17) also connects comprehensive automation system of transformer substation (1) and data buffering module (6), and network event processing module (18) also connects data buffer module (6); Consumption module (7) comprises data read module (19) and the data processing module (20) that links to each other successively, and data read module (18) also connects data buffer module (6), and data processing module (20) also connects video monitoring system for substation (4); Data processing module (20) comprises agreement judge module (21), translation module (22), data judge module (23) and the model building module (24) that links to each other successively; Model building module (24) is also connecting self-checking alarming module (25), functional analysis module (26) and logical node and is setting up module (27), and logical node is set up module (27) and also connected sending module (28); Agreement judge module (21) is also connecting data read module (19), and sending module (28) is also connecting video monitoring system for substation (4); Data buffering module (6) comprises data storage module (29); Data storage module (29) is connecting data management module (30), module (31), spatial constraints module (32) and production capacity limiting module (33) are expanded in the space; Data storage module (29) is also connecting production module (5) and consumption module (7), and production capacity limiting module (33) is connecting network receiver module (17).

9. the system of the aforementioned visual transformer station of realization according to claim 6 integrated information platform method is characterized in that: described environment main frame (3) comprises that successively the environment receiver module (8), environmental analysis module (9), the environment logical node that link to each other set up module (10) and environment sending module (11); Environment receiver module (8) is also connecting environmental modeling module (12), IEC61850 protocol converter (2) and video monitoring system for substation (4); Environmental analysis module (9) is also connecting environmental modeling module (12), and environment sending module (11) is also connecting video monitoring system for substation (4).

10. the system of the aforementioned visual transformer station of realization according to claim 6 integrated information platform method is characterized in that: described video monitoring system for substation (4) comprises video monitoring system for substation administrative client (13), transformer station's video monitoring platform (14), DVR (15) and the video camera (16) that links to each other successively; Transformer station's video monitoring platform (14) also is being connected environment main frame (3) with DVR (15).

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