CN106154866A - Power station three-dimensional simulative surveillance method and system - Google Patents
Power station three-dimensional simulative surveillance method and system Download PDFInfo
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- CN106154866A CN106154866A CN201610701059.2A CN201610701059A CN106154866A CN 106154866 A CN106154866 A CN 106154866A CN 201610701059 A CN201610701059 A CN 201610701059A CN 106154866 A CN106154866 A CN 106154866A
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- G05B—CONTROL OR REGULATING SYSTEMS IN GENERAL; FUNCTIONAL ELEMENTS OF SUCH SYSTEMS; MONITORING OR TESTING ARRANGEMENTS FOR SUCH SYSTEMS OR ELEMENTS
- G05B17/00—Systems involving the use of models or simulators of said systems
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Abstract
A kind of power station three-dimensional simulative surveillance method and system, the method includes: obtain the monitoring data that each primary equipment to power station is monitored gathering, to show on primary equipment corresponding in the three-dimensional visual simulation monitoring system of power station respectively for each monitoring data gathered, power station three-dimensional visual simulation monitoring system is set up according to periphery landform geographic information data, power station civil engineering structure information, primary equipment operating standard and the primary equipment scene photograph in power station;Control instruction is issued to primary equipment, gather corresponding primary equipment and perform the service data after control instruction, in the three-dimensional visual simulation monitoring system of power station, the mechanical animation of the primary equipment of correspondence is generated according to the service data gathered, generate the simulation pinup picture of corresponding primary equipment, the service data gathered is shown on corresponding simulation pinup picture.The embodiment of the present invention can carry out effective monitoring intuitively to the contact between equipment for hydroelectric station and operational process, improves the safety of hydroelectric station operation.
Description
Technical field
The present invention relates to power system monitor field, particularly relate to a kind of power station three-dimensional simulative surveillance method and
Plant power station three-dimensional simulative surveillance system.
Background technology
Power station is the integration engineering facility that water can be converted to electric energy, and also known as hydroelectric power plant, it includes for utilizing water to give birth to
The a series of structure of hydropower station producing electric energy and build and the various equipment for hydroelectric station of installing.Power station by high water level water through diversion
System flows into Factory Building and promotes turbine-generator units to send electric energy, more boosted transformator, switchyard and transmission line of electricity etc. are by electric energy
Input electrical network.During hydroelectric station operation, can be affected, therefore, except should be noted that power station by compensating to regulate between different rivers
Maintenance, be monitored power station being also to ensure that the important means that power station is properly functioning.
The mode being monitored power station at present, mostly is two dimension configuration monitoring, and the content shown mostly is single scene
The running status of lower part equipment, it is impossible to the contact between understanding equipment directly perceived and operational process.
Summary of the invention
Based on this, the purpose of the embodiment of the present invention is to provide a kind of power station three-dimensional simulative surveillance method and
Planting power station three-dimensional simulative surveillance system, the contact between equipment for hydroelectric station and operational process can be entered by intuitively
Row effective monitoring, improves the safety of hydroelectric station operation.
For reaching above-mentioned purpose, the embodiment of the present invention by the following technical solutions:
A kind of power station three-dimensional simulative surveillance method, including step:
Obtain each primary equipment to power station and be monitored gathered monitoring data, and respectively monitor data by gather
Show on primary equipment corresponding in the three-dimensional visual simulation monitoring system of power station respectively, described power station three-dimensional artificial
Simulated monitoring system runs according to the periphery landform geographic information data in power station, power station civil engineering structure information, primary equipment
Code and primary equipment scene photograph are set up;
Issue control instruction to primary equipment, gather corresponding primary equipment and perform the operation number after this control instruction
According to, and in the three-dimensional visual simulation monitoring system of described power station, generate the primary equipment of correspondence according to the service data gathered
Machinery animation, and generate the simulation pinup picture of the primary equipment of correspondence, the service data gathered is shown on corresponding simulation pinup picture
Show.
A kind of power station three-dimensional simulative surveillance system, including:
Data monitoring unit, is monitored gathered monitoring data for obtaining each primary equipment to power station, and
To show on primary equipment corresponding in the three-dimensional visual simulation monitoring system of power station respectively for each monitoring data gathered,
Described power station three-dimensional visual simulation monitoring system is according to the periphery landform geographic information data in power station, power station civil engineering structure
Information, primary equipment operating standard and primary equipment scene photograph are set up;
Control unit, for issuing control instruction to primary equipment;
Run lock unit, after gathering the primary equipment execution described control instruction corresponding with described control instruction
Service data, and according to gather service data generate in the three-dimensional visual simulation monitoring system of described power station correspondence one
The mechanical animation of secondary device, and generate the simulation pinup picture of the primary equipment of correspondence, by the service data of collection in corresponding simulation
Show on pinup picture.
According to the scheme of the embodiment of the present invention as above, it is by the periphery landform geography information number according to power station
Imitate according to, the power station three-dimensional set up of power station civil engineering structure information, primary equipment operating standard and primary equipment scene photograph
The monitoring data of each primary equipment gathered are entered in this power station three-dimensional visual simulation monitoring system by true simulated monitoring system
Row display, and after issuing control instruction to primary equipment, gather the primary equipment corresponding with this control instruction and perform this control
Service data after system instruction, and in the three-dimensional visual simulation monitoring system of power station, generate this according to the service data gathered
The mechanical animation of corresponding primary equipment, and generate the simulation pinup picture of corresponding primary equipment, by the service data of collection right
Show on the simulation pinup picture answered, constraint particular device and two dimension configuration can only being monitored can have been jumped out, can be directly perceived
Ground carries out effective monitoring to the contact between equipment for hydroelectric station and operational process, improves the safety of hydroelectric station operation.
Accompanying drawing explanation
Fig. 1 is the schematic flow sheet of the power station three-dimensional simulative surveillance method in an embodiment;
Fig. 2 is the schematic flow sheet setting up power station three-dimensional visual simulation monitoring system in a concrete example;
Fig. 3 is the flow process principle schematic of the power station three-dimensional simulative surveillance method in a concrete application example;
Fig. 4 is the acquisition monitoring data in a concrete example the schematic flow sheet shown;
Fig. 5 is the schematic flow sheet that the process in a concrete example being controlled the hydraulic turbine emulates;
Fig. 6 is the structural representation of the power station three-dimensional simulative surveillance system in an embodiment;
Fig. 7 is the structural representation that the three-dimensional simulation monitoring system in a concrete application example sets up unit.
Detailed description of the invention
For making the purpose of the present invention, technical scheme and advantage clearer, below in conjunction with drawings and Examples, to this
Invention is described in further detail.Should be appreciated that detailed description of the invention described herein only in order to explain the present invention,
Do not limit protection scope of the present invention.
Fig. 1 shows the schematic flow sheet of power station three-dimensional simulative surveillance method in an embodiment.Such as Fig. 1
Shown in, the power station three-dimensional simulative surveillance method in this embodiment includes:
Step S101: obtain each primary equipment to power station and be monitored gathered monitoring data, and by collection
Show on the primary equipment that each monitoring data are corresponding in the three-dimensional visual simulation monitoring system of power station respectively, described water power
Three-dimensional visual simulation monitoring system of standing according to the periphery landform geographic information data in power station, power station civil engineering structure information, one
Secondary device operating standard and primary equipment scene photograph are set up;
Step S102: issue control instruction to primary equipment, after the primary equipment of collection correspondence performs this control instruction
Service data, and according to gather service data generate in the three-dimensional visual simulation monitoring system of described power station correspondence one
The mechanical animation of secondary device, and generate the simulation pinup picture of the primary equipment of correspondence, by the service data of collection in corresponding simulation
Show on pinup picture.
According to the scheme of the embodiment of the present invention as above, it is by the periphery landform geography information number according to power station
Imitate according to, the power station three-dimensional set up of power station civil engineering structure information, primary equipment operating standard and primary equipment scene photograph
The monitoring data of each primary equipment gathered are entered in this power station three-dimensional visual simulation monitoring system by true simulated monitoring system
Row display, and after issuing control instruction to primary equipment, gather the primary equipment corresponding with this control instruction and perform this control
Service data after system instruction, and in the three-dimensional visual simulation monitoring system of power station, generate this according to the service data gathered
The mechanical animation of corresponding primary equipment, and generate the simulation pinup picture of corresponding primary equipment, by the service data of collection right
Show on the simulation pinup picture answered, constraint particular device and two dimension configuration can only being monitored can have been jumped out, can be directly perceived
Ground carries out effective monitoring to the contact between equipment for hydroelectric station and operational process, improves the safety of hydroelectric station operation.
Wherein, above-mentioned power station three-dimensional visual simulation monitoring system can be believed previously according to the periphery landform geography in power station
Breath data, power station civil engineering structure information, primary equipment operating standard and primary equipment scene photograph are set up.Shown in Fig. 2
The schematic flow sheet setting up power station three-dimensional visual simulation monitoring system in one concrete application example.As in figure 2 it is shown,
In this application example, the mode setting up power station three-dimensional visual simulation monitoring system includes:
Step S201: obtain the periphery landform geographic information data in power station, power station civil engineering structure information, primary equipment
Operating standard and primary equipment scene photograph;
Step S202: according to described periphery landform geographic information data, described power station civil engineering structure information, uses and presets
Three-dimensional modeling mode, builds power station internal structure, primary equipment threedimensional model, it is thus achieved that power station standard three-dimensional model;
Step S203: according to described primary equipment photo site, described power station civil engineering structure information, described water power is set
The simulation pinup picture of each primary equipment stood in standard three-dimensional model, making material and baking shade;
Step S204: according to described primary equipment operating standard, each in the standard three-dimensional model of described power station is set
The operation logic animation of secondary device;
Step S205: load described power station standard three-dimensional model, described simulation pinup picture, make material, bakee shade with
And the described operation logic animation of each primary equipment, according to the described power station standard three-dimensional model loaded, described simulation pinup picture,
Make material, bakee shade and the described operation logic animation of each primary equipment, the three-dimensional that power station is monitored by configuration
Analogue simulation monitoring system;
Step S206: the three-dimensional visual simulation monitoring system of configuration is issued, it is thus achieved that described power station three-dimensional artificial
Simulated monitoring system.
Wherein, when above-mentioned steps S202 is built power station internal structure, primary equipment threedimensional model, in power station
Portion's structure and primary equipment threedimensional model block position, face of deleting can be carried out and process, with improve the later stage run time operation speed
Degree.
Additionally, the simulation patch of each primary equipment arranged in above-mentioned steps S203 in the standard three-dimensional model of described power station
When figure, making material and baking shade, the model shade to the primary equipment in threedimensional model, pinup picture can be baked into, with
Improve speed of service when later stage system is run.
Based on this, Fig. 3 shows the stream of power station three-dimensional simulative surveillance method in a concrete application example
Journey principle schematic.In the concrete application example shown in Fig. 3, be combine set up power station three-dimensional visual simulation monitoring system with
And the overall process carrying out power station three-dimensional simulative surveillance is illustrated.
As shown in Figure 3, it is necessary first to gather the periphery landform geographic information data in power station, power station civil engineering structure letter
Breath, primary equipment operating standard and primary equipment scene photograph.Wherein, the periphery landform geographic information data in power station, can
To obtain from GIS (Geographic Information System, GIS-Geographic Information System) system.Above-mentioned power station civil engineering knot
Structure information, can obtain based on power station civil engineering structure drawing, this power station civil engineering structure drawing, can be that directly scanning is existing
The power station structural drawings of paper obtain, it is also possible to be to be introduced directly into the power station civil engineering structure drawing related in related software
Information acquisition.Above-mentioned primary equipment operating standard, the e-file that can be introduced directly into relevant primary equipment operating standard obtains
, above-mentioned primary equipment scene photograph, can be that the primary equipment to power station is taken pictures and obtained the scene of corresponding primary equipment
After photo, obtain after the scene photograph of these primary equipments is imported.
Then, by relevant 3 d modeling software, according to above-mentioned periphery landform geographic information data, described power station soil
Build structural information, use and preset three-dimensional modeling mode, build power station internal structure, primary equipment threedimensional model, it is thus achieved that water power
Stand standard three-dimensional model, and according to described primary equipment photo site, described power station civil engineering structure information, described water power is set
The simulation pinup picture of each primary equipment stood in standard three-dimensional model, making material and baking shade, according to described primary equipment
Operating standard, arranges the operation logic animation of each primary equipment in the standard three-dimensional model of described power station.Then load described
Power station standard three-dimensional model, described simulation pinup picture, making material, baking shade and the described operation logic of each primary equipment
Animation, according to the described power station standard three-dimensional model loaded, described simulation pinup picture, makes material, baking shade and each
The described operation logic animation of secondary device, the three-dimensional visual simulation monitoring system that power station is monitored by configuration;And will configuration
Three-dimensional visual simulation monitoring system issue, it is thus achieved that described power station three-dimensional visual simulation monitoring system.Art technology
Personnel it is understood that the three-dimensional visual simulation monitoring system issued herein, actually one can be mutual contain intelligence
The overall three-dimensional artificial monitoring system of outside landform, internal structure and the primary equipment in energy power station.
It is understood that in order to carry out three-dimensional modeling, the periphery landform geographic information data in above-mentioned power station, water
Power station civil engineering structure information, primary equipment operating standard and primary equipment scene photograph can be introduced into concrete three-dimensional and build
In mould software, it is also possible to be by the staff of three-dimensional modeling combine reality modeling need to exercise again use.Three-dimensional modeling
Software can use any software that can carry out three-dimensional modeling, and the embodiment of the present invention not form to 3 d modeling software is done to be had
Body limits.Correspondingly, it will be understood by those skilled in the art that and carry out the process of three-dimensional modeling based on the relevant information obtained
Can by use any possible in the way of information, be not specifically limited at this.
In a concrete application example, any possible above-mentioned three-dimensional of three-dimensional graphics renderer engine implementation can be used to imitate
True simulated monitoring system, the form of three-dimensional graphics renderer engine is not specifically limited by the embodiment of the present invention.
When combining three-dimensional graphics renderer engine implementation above-mentioned three-dimensional visual simulation monitoring system, in the reality of said method
In running, described power station standard three-dimensional model, described simulation pinup picture, system can be loaded by three-dimensional graphics renderer engine
Make material, bakee shade and the described operation logic animation of each primary equipment;And described three-dimensional graphics renderer can be passed through
Engine will be carried out on primary equipment corresponding in the three-dimensional visual simulation monitoring system of power station respectively for each monitoring data gathered
Display;Can also by described three-dimensional graphics renderer engine according to gather service data at described power station three-dimensional visual simulation
Monitoring system generates the mechanical animation of primary equipment of correspondence, and generates the simulation pinup picture of the primary equipment of correspondence, will gather
Service data show on corresponding simulation pinup picture.
In above process, described power station mark can be set with the material of the real scene equipment in power station as reference
The simulation pinup picture of each primary equipment in quasi-three-dimensional model, making material and baking shade, the true field in power station here
The material of scape equipment, can be power station is carried out actual investigation after record after obtain, it is also possible to once set based on above-mentioned
Standby scene photograph determines, it is also possible to be to combine power station civil engineering structure information to determine.
When the above-mentioned operation logic animation arranging each primary equipment, except foundation primary equipment operating standard, the most also
Can be configured in conjunction with the operation principle of each primary equipment.
Power station standard three-dimensional model, the described simulation pinup picture made in loading, make material, bakee shade and each
After the described operation logic animation of primary equipment, according to load described power station standard three-dimensional model, described simulation pinup picture,
Make material, bakee shade and the described operation logic animation of each primary equipment, the three-dimensional that power station is monitored by configuration
During analogue simulation monitoring system, can be in combination with the needs of application in hydropower station flow process, in the three-dimensional visual simulation monitoring of configuration
System is added relevant monitoring module and relevant control module, to realize the emulation mould to whole hydropower station flow process
Intend.
In a concrete example, combining three-dimensional graphics renderer engine implementation above-mentioned three-dimensional visual simulation monitoring system it is
Example, above-mentioned three-dimensional graphics renderer engine can include monitoring module and control module.
The three-dimensional visual simulation monitoring system of configuration is being issued, it is thus achieved that described power station three-dimensional visual simulation monitors
After system, data can be gathered on primary equipment by programmable logic controller (PLC), it is thus achieved that above-mentioned monitoring data, then pass through
The monitoring module of three-dimensional graphics renderer engine shows on the corresponding primary equipment in three-dimensional visual simulation monitoring system.
Further, it is also possible to issue control instruction by the control module of three-dimensional graphics renderer engine to each primary equipment, real
Time control corresponding primary equipment and run, then on primary equipment, is gathered primary equipment execution by programmable logic controller (PLC)
Data after this control instruction, it is thus achieved that above-mentioned service data, are then shown by the monitoring module of three-dimensional graphics renderer engine
On corresponding primary equipment in three-dimensional visual simulation monitoring system, and in three-dimensional visual simulation monitoring system, generate correspondence
The mechanical animation of primary equipment, and generate the simulation pinup picture of the primary equipment of correspondence, by the service data that gathers corresponding
Show on simulation pinup picture, it is achieved action while three-dimensional virtual scene and reality scene.
The above-mentioned monitoring data mentioned and service data, can include watt metering data and electromotor single fighter data,
Naturally in conjunction with being actually needed, it is also possible to include other kinds of data.Here electromotor single fighter data, specifically can refer to every
Data on individual generator body, watt metering data can be each single monomotor group data sum.
Accordingly, the acquisition during Fig. 4 shows a concrete example monitors data the schematic flow sheet shown.Concrete at this
In example, it is to illustrate as a example by combining three-dimensional graphics renderer engine implementation above-mentioned three-dimensional visual simulation monitoring system.
As shown in Figure 4, after the issue of above-mentioned three-dimensional visual simulation monitoring system, running, programmable logic controller (PLC) can
To gather data on primary equipment by serial ports or Ethernet, data here can be used to monitoring, statistics single fighter
And all unit gross generations, specifically can be gathered by the sensor being arranged on primary equipment (generating set).At this tool
In body example, the data gathered can include watt metering data, electromotor single fighter data etc..
The data that programmable logic controller (PLC) collects can be stored in real time data server, in subsequent process
Apply.
Then, three-dimensional graphics renderer engine reads the data of real time data server storage, and the data genaration that will gather
Show after pinup picture that the relevant position at corresponding primary equipment shows.
In Fig. 5 as a example by the hydraulic turbine is controlled, it is shown that three-dimensional virtual scene is imitative with reality scene action simultaneously
The schematic flow sheet of true process.In this concrete example, it is to combine three-dimensional graphics renderer engine implementation above-mentioned three-dimensional artificial mould
Illustrate as a example by intending monitoring system.
As it is shown in figure 5, after issuing in above-mentioned three-dimensional visual simulation monitoring system, running, this three-dimensional visual simulation monitors
After system receives the start-up command of the hydraulic turbine by the human-computer interaction interface of the computer equipment at place, this start-up command can turn
Being dealt into the programmable logic controller (PLC) of correspondence, programmable logic controller (PLC) can send start-up command according to this instruction to the hydraulic turbine,
The start-up command start operating that the hydraulic turbine can send based on programmable logic controller (PLC).
During hydraulic turbine start operating, programmable logic controller (PLC) gathers the phase in hydraulic turbine start operation process
Closing service data, such as rotational speed of water turbine, the relevant service data gathered can store in real time data server.
Three-dimensional graphics renderer engine reads the data of real time data server storage, according to the service data gathered described
Power station three-dimensional visual simulation monitoring system generates the mechanical animation of the hydraulic turbine, makes power station three-dimensional visual simulation monitoring system
In the hydraulic turbine produce the animation effect that impeller rotates, the simulation hydraulic turbine rotates, and generates the simulation pinup picture of the hydraulic turbine, will gather
Service data show on corresponding simulation pinup picture.
Based on thought same as mentioned above, the embodiment of the present invention also provides for a kind of power station three-dimensional simulative surveillance
System.Fig. 6 shows the structural representation of power station three-dimensional simulative surveillance system in an embodiment.
As shown in Figure 6, the power station three-dimensional simulative surveillance system in this embodiment includes:
Data monitoring unit 601, is monitored gathered monitoring data for obtaining each primary equipment to power station,
And will show on primary equipment corresponding in the three-dimensional visual simulation monitoring system of power station respectively for each monitoring data gathered
Showing, described power station three-dimensional visual simulation monitoring system is according to the periphery landform geographic information data in power station, power station civil engineering
Structural information, primary equipment operating standard and primary equipment scene photograph are set up;
Control unit 602, for issuing control instruction to primary equipment;
Run lock unit 603, perform described control instruction for gathering the primary equipment corresponding with described control instruction
Service data afterwards, and in the three-dimensional visual simulation monitoring system of described power station, generate correspondence according to the service data gathered
The mechanical animation of primary equipment, and generate the simulation pinup picture of the primary equipment of correspondence, by the service data that gathers corresponding
Show on simulation pinup picture.
According to the scheme of the embodiment of the present invention as above, it is by the periphery landform geography information number according to power station
Imitate according to, the power station three-dimensional set up of power station civil engineering structure information, primary equipment operating standard and primary equipment scene photograph
The monitoring data of each primary equipment gathered are entered in this power station three-dimensional visual simulation monitoring system by true simulated monitoring system
Row display, and after issuing control instruction to primary equipment, gather the primary equipment corresponding with this control instruction and perform this control
Service data after system instruction, and in the three-dimensional visual simulation monitoring system of power station, generate this according to the service data gathered
The mechanical animation of corresponding primary equipment, and generate the simulation pinup picture of corresponding primary equipment, by the service data of collection right
Show on the simulation pinup picture answered, constraint particular device and two dimension configuration can only being monitored can have been jumped out, can be directly perceived
Ground carries out effective monitoring to the contact between equipment for hydroelectric station and operational process, improves the safety of hydroelectric station operation.
In a concrete example, as shown in Figure 6, the power station three-dimensional simulative surveillance system in this embodiment also may be used
To include:
Three-dimensional simulation monitoring system sets up unit 600, is used for setting up described power station three-dimensional visual simulation monitoring system.
Fig. 7 showing, the three-dimensional simulation monitoring system in a concrete application example sets up the structural representation of unit.
Include as it is shown in fig. 7, the three-dimensional simulation monitoring system in this concrete application example sets up unit 600:
Data acquisition module 6001, for obtaining the periphery landform geographic information data in power station, power station civil engineering structure
Information, primary equipment operating standard and primary equipment scene photograph;
Three-dimensional modeling module 6002, for according to described periphery landform geographic information data, described power station civil engineering structure
Information, uses and presets three-dimensional modeling mode, build power station internal structure, primary equipment threedimensional model, it is thus achieved that power station standard
Threedimensional model, and according to described primary equipment photo site, described power station civil engineering structure information, described power station standard is set
The simulation pinup picture of each primary equipment in threedimensional model, making material and baking shade;
Cartoon setting module 6003, for according to described primary equipment operating standard, arranges described power station standard three-dimensional
The operation logic animation of each primary equipment in model;
Load-on module 6004, is used for loading described power station standard three-dimensional model, described simulation pinup picture, making material, baking
Roasting shade and the described operation logic animation of each primary equipment, according to the described power station standard three-dimensional model loaded, described
Simulation pinup picture, making material, baking shade and the described operation logic animation of each primary equipment, power station is supervised by configuration
The three-dimensional visual simulation monitoring system of control;
Release module 6005, issues for the three-dimensional visual simulation monitoring system configured by described load-on module, obtains
Obtain described power station three-dimensional visual simulation monitoring system.
Wherein, three-dimensional modeling module 6002 is when building power station internal structure, primary equipment threedimensional model, to power station
Internal structure and primary equipment threedimensional model block position, face of deleting can be carried out and process, with improve the later stage run time operation
Speed.
Additionally, the simulation of each primary equipment that three-dimensional modeling module 6002 is in arranging described power station standard three-dimensional model
When pinup picture, making material and baking shade, the model shade to the primary equipment in threedimensional model, pinup picture can be baked into,
To improve speed of service when later stage system is run.
It is understood that in order to carry out three-dimensional modeling, the periphery landform geographic information data in above-mentioned power station, water
Power station civil engineering structure information, primary equipment operating standard and primary equipment scene photograph can be introduced into concrete three-dimensional and build
In mould software, it is also possible to be by the staff of three-dimensional modeling combine reality modeling need to exercise again use.Three-dimensional modeling
Software can use any software that can carry out three-dimensional modeling, and the embodiment of the present invention not form to 3 d modeling software is done to be had
Body limits.Correspondingly, it will be understood by those skilled in the art that and carry out the process of three-dimensional modeling based on the relevant information obtained
Can by use any possible in the way of information, be not specifically limited at this.
In a concrete application example, any possible above-mentioned three-dimensional of three-dimensional graphics renderer engine implementation can be used to imitate
True simulated monitoring system, the form of three-dimensional graphics renderer engine is not specifically limited by the embodiment of the present invention.
When combining three-dimensional graphics renderer engine implementation above-mentioned three-dimensional visual simulation monitoring system, load-on module 600 is permissible
Load described power station standard three-dimensional model, described simulation pinup picture by described three-dimensional graphics renderer engine, make material, baking
Shade and the described operation logic animation of each primary equipment, data monitoring unit 601 can pass through described three-dimensional graphics renderer
Engine will be carried out on primary equipment corresponding in the three-dimensional visual simulation monitoring system of power station respectively for each monitoring data gathered
Display, run lock unit 602 can by described three-dimensional graphics renderer engine according to collection service data at described water power
Three-dimensional visual simulation monitoring system of standing generates the mechanical animation of the primary equipment of correspondence, and generates the mould of the primary equipment of correspondence
Intend pinup picture, the service data gathered is shown on corresponding simulation pinup picture.
The above-mentioned monitoring data mentioned and service data, can include watt metering data and electromotor single fighter data,
Naturally in conjunction with being actually needed, it is also possible to include other kinds of data.Here electromotor single fighter data, specifically can refer to every
Data on individual generator body, watt metering data can be each single monomotor group data sum.
Other technologies feature unlisted in the power station three-dimensional simulative surveillance system of the present embodiment, can be with above-mentioned
Identical in the three-dimensional simulative surveillance method of power station, repeats the most in detail at this.
Each technical characteristic of embodiment described above can combine arbitrarily, for making description succinct, not to above-mentioned reality
The all possible combination of each technical characteristic executed in example is all described, but, as long as the combination of these technical characteristics is not deposited
In contradiction, all it is considered to be the scope that this specification is recorded.
Embodiment described above only have expressed the several embodiments of the present invention, and it describes more concrete and detailed, but also
Can not therefore be construed as limiting the scope of the patent.It should be pointed out that, come for those of ordinary skill in the art
Saying, without departing from the inventive concept of the premise, it is also possible to make some deformation and improvement, these broadly fall into the protection of the present invention
Scope.Therefore, the protection domain of patent of the present invention should be as the criterion with claims.
Claims (10)
1. a power station three-dimensional simulative surveillance method, it is characterised in that include step:
Obtain each primary equipment to power station and be monitored gathered monitoring data, and each monitoring data difference that will gather
Show on primary equipment corresponding in the three-dimensional visual simulation monitoring system of power station, described power station three-dimensional visual simulation
Monitoring system is according to the periphery landform geographic information data in power station, power station civil engineering structure information, primary equipment operating standard
And the foundation of primary equipment scene photograph;
Issue control instruction to primary equipment, gather corresponding primary equipment and perform the service data after this control instruction, and
In the three-dimensional visual simulation monitoring system of described power station, the machinery of the primary equipment of correspondence is generated according to the service data gathered
Animation, and generate the simulation pinup picture of the primary equipment of correspondence, the service data gathered is shown on corresponding simulation pinup picture.
Power station the most according to claim 1 three-dimensional simulative surveillance method, it is characterised in that described power station is three-dimensional
The mode of setting up of analogue simulation monitoring system includes:
Obtain the periphery landform geographic information data in power station, power station civil engineering structure information, primary equipment operating standard and
Primary equipment scene photograph;
According to described periphery landform geographic information data, described power station civil engineering structure information, use and preset three-dimensional modeling mode,
Build power station internal structure, primary equipment threedimensional model, it is thus achieved that power station standard three-dimensional model;
According to described primary equipment photo site, described power station civil engineering structure information, described power station standard three-dimensional mould is set
The simulation pinup picture of each primary equipment in type, making material and baking shade;
According to described primary equipment operating standard, the operation arranging each primary equipment in the standard three-dimensional model of described power station is former
Reason animation;
Load described power station standard three-dimensional model, described simulation pinup picture, make material, baking shade and each primary equipment
Described operation logic animation, according to the described power station standard three-dimensional model loaded, described simulation pinup picture, makes material, baking
Shade and the described operation logic animation of each primary equipment, the three-dimensional visual simulation monitoring that power station is monitored by configuration is
System;
The three-dimensional visual simulation monitoring system of configuration is issued, it is thus achieved that described power station three-dimensional visual simulation monitoring system.
Power station the most according to claim 2 three-dimensional simulative surveillance method, it is characterised in that:
When building power station internal structure, primary equipment threedimensional model, to power station internal structure and primary equipment three-dimensional mould
The position of blocking of type carries out deleting face process.
Power station the most according to claim 2 three-dimensional simulative surveillance method, it is characterised in that:
The simulation pinup picture of each primary equipment in described power station standard three-dimensional model is set, making material and baking shade
Time, the model shade of the primary equipment in threedimensional model is baked into pinup picture.
5. according to the power station three-dimensional simulative surveillance method described in Claims 1-4 any one, it is characterised in that institute
State monitoring data or described service data includes: watt metering data, electromotor single fighter data.
6. a power station three-dimensional simulative surveillance system, it is characterised in that including:
Data monitoring unit, is monitored gathered monitoring data for obtaining each primary equipment to power station, and will adopt
Each monitoring data of collection show on the primary equipment of correspondence respectively in the three-dimensional visual simulation monitoring system of power station, described
Power station three-dimensional visual simulation monitoring system is believed according to periphery landform geographic information data, the power station civil engineering structure in power station
Breath, primary equipment operating standard and primary equipment scene photograph are set up;
Control unit, for issuing control instruction to primary equipment;
Run lock unit, perform the fortune after described control instruction for gathering the primary equipment corresponding with described control instruction
Row data, and in the three-dimensional visual simulation monitoring system of described power station, generate once setting of correspondence according to the service data gathered
Standby mechanical animation, and generate the simulation pinup picture of the primary equipment of correspondence, by the service data of collection at corresponding simulation pinup picture
Upper display.
Power station the most according to claim 6 three-dimensional simulative surveillance system, it is characterised in that also include:
Three-dimensional simulation monitoring system sets up unit, is used for setting up described power station three-dimensional visual simulation monitoring system;
Described three-dimensional simulation monitoring system is set up unit and is included:
Data acquisition module, for obtaining the periphery landform geographic information data in power station, power station civil engineering structure information, once
Equipment operating standard and primary equipment scene photograph;
Three-dimensional modeling module, for according to described periphery landform geographic information data, described power station civil engineering structure information, uses
Preset three-dimensional modeling mode, build power station internal structure, primary equipment threedimensional model, it is thus achieved that power station standard three-dimensional model,
And according to described primary equipment photo site, described power station civil engineering structure information, described power station standard three-dimensional model is set
In each primary equipment simulation pinup picture, make material and bakee shade;
Cartoon setting module, for according to described primary equipment operating standard, is arranged in the standard three-dimensional model of described power station
The operation logic animation of each primary equipment;
Load-on module, be used for loading described power station standard three-dimensional model, described simulation pinup picture, make material, bakee shade with
And the described operation logic animation of each primary equipment, according to the described power station standard three-dimensional model loaded, described simulation pinup picture,
Make material, bakee shade and the described operation logic animation of each primary equipment, the three-dimensional that power station is monitored by configuration
Analogue simulation monitoring system;
Release module, issues for the three-dimensional visual simulation monitoring system configured by described load-on module, it is thus achieved that described water
Power station three-dimensional emulation simulated monitoring system.
Power station the most according to claim 7 three-dimensional simulative surveillance system, it is characterised in that:
Described three-dimensional modeling module is when building power station internal structure, primary equipment threedimensional model, to power station internal structure
Carry out deleting face process with the position of blocking of primary equipment threedimensional model.
Power station the most according to claim 7 three-dimensional simulative surveillance system, it is characterised in that:
The described three-dimensional modeling module simulation pinup picture of each primary equipment in described power station standard three-dimensional model is set, making
When material and baking shade, the model shade of the primary equipment in threedimensional model is baked into pinup picture.
10. according to the power station three-dimensional simulative surveillance system described in claim 6 to 9 any one, it is characterised in that institute
State monitoring data or described service data includes: watt metering data, electromotor single fighter data.
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Cited By (10)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106530136A (en) * | 2016-12-01 | 2017-03-22 | 中广核工程有限公司 | 3D display monitoring method and system for real-time production information of nuclear power station |
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Citations (8)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103645716A (en) * | 2013-12-16 | 2014-03-19 | 国家电网公司 | Method and device for data processing in transformer station switching system |
CN104103088A (en) * | 2014-07-19 | 2014-10-15 | 国家电网公司 | Three-dimensional display of internal structure of transformer substation and three-dimensional animation demonstration method of working principle |
CN104166892A (en) * | 2014-06-19 | 2014-11-26 | 国家电网公司 | Engineering management and control method and system based on three-dimensional design system |
CN104167818A (en) * | 2014-08-20 | 2014-11-26 | 深圳供电局有限公司 | Intelligent remote inspection system in linkage with GIS substation integrated automation system and method |
US20150104767A1 (en) * | 2012-03-08 | 2015-04-16 | Schlumberger Technology Corporation | Computer-Based Method for 3D Simulation of Oil and Gas Operations |
CN104616124A (en) * | 2015-03-06 | 2015-05-13 | 重庆大学 | Real-time issuing method and system of safe and economic operation state of thermal power plant |
CN104637555A (en) * | 2014-09-12 | 2015-05-20 | 中广核工程有限公司 | Intelligent monitoring method and intelligent monitoring system based on nuclear power station unit |
CN105869470A (en) * | 2015-05-28 | 2016-08-17 | 国家电网公司 | Extra-high voltage transformer station operation simulation method and system |
-
2016
- 2016-08-22 CN CN201610701059.2A patent/CN106154866B/en active Active
Patent Citations (8)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US20150104767A1 (en) * | 2012-03-08 | 2015-04-16 | Schlumberger Technology Corporation | Computer-Based Method for 3D Simulation of Oil and Gas Operations |
CN103645716A (en) * | 2013-12-16 | 2014-03-19 | 国家电网公司 | Method and device for data processing in transformer station switching system |
CN104166892A (en) * | 2014-06-19 | 2014-11-26 | 国家电网公司 | Engineering management and control method and system based on three-dimensional design system |
CN104103088A (en) * | 2014-07-19 | 2014-10-15 | 国家电网公司 | Three-dimensional display of internal structure of transformer substation and three-dimensional animation demonstration method of working principle |
CN104167818A (en) * | 2014-08-20 | 2014-11-26 | 深圳供电局有限公司 | Intelligent remote inspection system in linkage with GIS substation integrated automation system and method |
CN104637555A (en) * | 2014-09-12 | 2015-05-20 | 中广核工程有限公司 | Intelligent monitoring method and intelligent monitoring system based on nuclear power station unit |
CN104616124A (en) * | 2015-03-06 | 2015-05-13 | 重庆大学 | Real-time issuing method and system of safe and economic operation state of thermal power plant |
CN105869470A (en) * | 2015-05-28 | 2016-08-17 | 国家电网公司 | Extra-high voltage transformer station operation simulation method and system |
Non-Patent Citations (1)
Title |
---|
万元: "水电站智能运行仿真培训平台研究及应用", 《湖南电力》 * |
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CN112231812A (en) * | 2020-10-15 | 2021-01-15 | 乌江渡发电厂 | Intelligent ventilation control method and system for underground powerhouse of hydropower station |
CN112231812B (en) * | 2020-10-15 | 2022-12-09 | 乌江渡发电厂 | Intelligent ventilation control method and system for underground powerhouse of hydropower station |
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