CN105549551A - Interaction method of three-dimensional virtual power station and operation data - Google Patents

Abstract

The present invention provides an interaction method of a three-dimensional virtual power station and operation data. The method comprises the following steps: S1, receiving data, and performing buffer memory, management and coordination of data in the virtual power plant and the operation data through a transferring interface; S2, sending the operation data, receiving the operation data and performing a three-dimensional visualization through the virtual power plant, providing a user interface and receiving a user instruction; S3, feeding back the user instruction, performing buffer memory, management and coordination of the data of the communication module of the virtual power plant through the transferring interface; and S4, feeding a changing application. The interaction method of a three-dimensional virtual power station and operation data is domestically initiated to be implemented in a server and a work station hardware system in a computer software mode, wherein through adoption of a real-time operation system, the system is able to realize two-way data transmission of data in a multi-task mode, and is able to perform visualization of operation data of a nuclear power station with a friendly user interface.

Description

The exchange method of a kind of three-dimensional power station and service data

Technical field

The present invention relates to three-dimensional emulation and field of virtual reality, be specifically related in three-dimensional power station, import the exchange method with the reality system service data of practical significance, what make virtual scene has practical significance alternately.

Background technology

Three-dimensional power station (also known as digital plant) is the three-dimensional model based on power plant, in layout and the computer software and hardware system of functionally power plant being carried out to total digitalization analog simulation, has merged computer graphics and infotech.Except obtaining 3-D geometric model from design data, three-dimensional power station also needs the service data in power station as input, thus realizes the digitalized artificial function in power station, and O&M, research, displaying etc. for real power station provide the service of actual value.

Power station service data relates to multi-specialized multitask, two kinds of approach are generally had to obtain, one is the design analyzer (simulator) by power station, obtains the data of all kinds of each node that power station is run, another kind of then be the true service data collection from actual power plant.The data obtained by these two kinds of approach, can drive the overall operation in virtual power station as the input in three-dimensional power station; And for design analyzer, mutual from virtual power station to design analyzer of steering order can also be realized, i.e. Two-way Feedback.The three-dimensional power station of building like this, can show the dynamic perfromance of power plant in visual system ground, provides strong checking, assessment, decision making approach to the design of power plant and O&M.

Summary of the invention

The present invention is directed to the deficiencies in the prior art, propose the exchange method of a kind of three-dimensional power station and service data.

The exchange method of three-dimensional power station and service data, comprises the following steps:

S1, first receives data: the service data gathering actual power plant, and actual power plant operationally, can carry out periodic sampling to the crucial operating point of key equipment, is used for as the display of control center and decision-making provide support; Gather the service data of power plant design analyzer; Simulated the operation of in fact bed rearrangement power plant multisystem by multiple analysis software, detailed service data can be produced during the course;

Then by middle converting interface, buffer memory, management, coordination are carried out to the data in virtual plant and service data: passage is deployed in the communication module of Data Source end, set up with the data reception module in middle converting interface that the input and output of data variable are corresponding to be shown, within each Data Update cycle, constantly receive data, carry out buffer memory, management; Virtual plant is built on virtual emulation platform, at the communication module of virtual plant On-premise, according to the operation needs of simulated environment, sends request of data to middle converting interface; Request of data in virtual plant can change according to demand, needs the data variable obtained to differ, sometimes needs the buffer memory historical data of variable to carry out displaying time variable;

S2, first sends service data: the data stored in database send toward virtual plant application end by middle converting interface; Middle converting interface processes the request sent from virtual plant end communication module in each cycle, according to input/output variable correspondence table, service data is passed to virtual plant application end;

Then, virtual plant receives service data and carries out three-dimensional visualization, provides user interface, receives user instruction: virtual plant is by under the graph technologies such as virtual reality, the emulation platform built based on d engine, is used for providing user interface on foreground; User's health check-up that it provides is three-dimensional interactive formula, and running background data are presented to user with the mode visible of two-dimentional panel and three-dimensional model; By peripheral hardware, user's input can be accepted again, and input instruction is fed back, embody interactivity;

S3, first feedback user instruction;

Then, then buffer memory, management, coordination is carried out by the data of middle converting interface to virtual plant end communication module: passage is deployed in the communication module of Data Source end, set up with the data reception module in middle converting interface that the input and output of data variable are corresponding to be shown, within each Data Update cycle, constantly receive data, carry out buffer memory, management; Virtual plant is built on virtual emulation platform, at the communication module of virtual plant On-premise, according to the operation needs of simulated environment, sends request of data to middle converting interface; Request of data in virtual plant can change according to demand, needs the data variable obtained to differ, sometimes needs the buffer memory historical data of variable to carry out displaying time variable;

S4, feedback change application: communication module write command being passed to service data source terminal, service data end also can carry out instruction analysis, authority setting operation afterwards, determines whether performing this execution; If write command is performed, the running status of power plant is also changed, and in the face of the request of data that virtual plant sends, up-to-date service data is again issued, thus relies on the transfer Interface realization two-way real-time, interactive of power plant's service data and virtual plant.

Preferably, in described step S3, virtual plant system with user interaction process, the user instruction received, according to the difference of user instruction, back-end data feedback is also different; The service data of existing classification is inquired about, proposes demand data, converting interface response in wait; If user instruction is not only digital independent demand, and require the demand application writing data; In this case, virtual plant end needs to send write command, modifies to service data, thus reaches the object changing power plant's running status.

Preferably, have employed power plant design analyzer in service data source terminal.

Preferably, virtual plant adopts virtual reality applications software Virtools to build, and utilizes C Plus Plus to complete the exploitation of middle converting interface.

Preferably, described unwanted element descriptor comprises independent point, line segment.

Compared with prior art, the present invention has following beneficial effect:

1, the exchange method of three-dimensional power station provided by the invention and service data, is domestic initiation, implements in server and word station hardware system with computer software form.This system adopts real time operating system, realizes the bidirectional data transfers of data, and can carry out the visual of nuclear power station operation data in three-dimensional model scene with multitask mode, and user interface is friendly.

Accompanying drawing explanation

Fig. 1 is the schematic flow sheet meeting the three-dimensional power station of the preferred embodiment of the present invention and the exchange method of service data.

Embodiment

For enabling above-mentioned purpose of the present invention, feature and advantage become apparent more, and below in conjunction with the drawings and specific embodiments, the present invention is further detailed explanation.

As shown in Figure 1, the exchange method of three-dimensional power station and service data, comprises the following steps:

S1, first receives data: the service data gathering actual power plant, and actual power plant operationally, can carry out periodic sampling to the crucial operating point of key equipment, is used for as the display of control center and decision-making provide support; Gather the service data of power plant design analyzer; Simulated the operation of in fact bed rearrangement power plant multisystem by multiple analysis software, detailed service data can be produced during the course;

Then by middle converting interface, buffer memory, management, coordination are carried out to the data in virtual plant and service data: passage is deployed in the communication module of Data Source end, set up with the data reception module in middle converting interface that the input and output of data variable are corresponding to be shown, within each Data Update cycle, constantly receive data, carry out buffer memory, management; Virtual plant is built on virtual emulation platform, at the communication module of virtual plant On-premise, according to the operation needs of simulated environment, sends request of data to middle converting interface; Request of data in virtual plant can change according to demand, needs the data variable obtained to differ, sometimes needs the buffer memory historical data of variable to carry out displaying time variable;

S2, first sends service data: the data stored in database send toward virtual plant application end by middle converting interface; Middle converting interface processes the request sent from virtual plant end communication module in each cycle, according to input/output variable correspondence table, service data is passed to virtual plant application end;

Then, virtual plant receives service data and carries out three-dimensional visualization, provides user interface, receives user instruction: virtual plant is by under the graph technologies such as virtual reality, the emulation platform built based on d engine, is used for providing user interface on foreground; User's health check-up that it provides is three-dimensional interactive formula, and running background data are presented to user with the mode visible of two-dimentional panel and three-dimensional model; By peripheral hardware, user's input can be accepted again, and input instruction is fed back, embody interactivity;

S3, first feedback user instruction;

Then, then buffer memory, management, coordination is carried out by the data of middle converting interface to virtual plant end communication module: passage is deployed in the communication module of Data Source end, set up with the data reception module in middle converting interface that the input and output of data variable are corresponding to be shown, within each Data Update cycle, constantly receive data, carry out buffer memory, management; Virtual plant is built on virtual emulation platform, at the communication module of virtual plant On-premise, according to the operation needs of simulated environment, sends request of data to middle converting interface; Request of data in virtual plant can change according to demand, needs the data variable obtained to differ, sometimes needs the buffer memory historical data of variable to carry out displaying time variable;

S4, feedback change application: communication module write command being passed to service data source terminal, service data end also can carry out instruction analysis, authority setting operation afterwards, determines whether performing this execution; If write command is performed, the running status of power plant is also changed, and in the face of the request of data that virtual plant sends, up-to-date service data is again issued, thus relies on the transfer Interface realization two-way real-time, interactive of power plant's service data and virtual plant.

Preferably, in described step S3, virtual plant system with user interaction process, the user instruction received, according to the difference of user instruction, back-end data feedback is also different; The service data of existing classification is inquired about, proposes demand data, converting interface response in wait; If user instruction is not only digital independent demand, and require the demand application writing data; In this case, virtual plant end needs to send write command, modifies to service data, thus reaches the object changing power plant's running status.

Preferably, have employed power plant design analyzer in service data source terminal.

Preferably, virtual plant adopts virtual reality applications software Virtools to build, and utilizes C Plus Plus to complete the exploitation of middle converting interface.

Preferably, described unwanted element descriptor comprises independent point, line segment.

Compared with prior art, the present invention has following beneficial effect:

1, the exchange method of three-dimensional power station provided by the invention and service data, is domestic initiation, implements in server and word station hardware system with computer software form.This system adopts real time operating system, realizes the bidirectional data transfers of data, and can carry out the visual of nuclear power station operation data in three-dimensional model scene with multitask mode, and user interface is friendly.

In this instructions, each embodiment adopts the mode of going forward one by one to describe, and what each embodiment stressed is the difference with other embodiments, between each embodiment identical similar portion mutually see.For system disclosed in embodiment, owing to corresponding to the method disclosed in Example, so description is fairly simple, relevant part illustrates see method part.

Those skilled in the art can use distinct methods to realize described function to each specifically should being used for, but this realization should not thought and exceeds scope of the present invention.

Obviously, those skilled in the art can carry out various change and modification to invention and not depart from the spirit and scope of the present invention.Like this, if these amendments of the present invention and modification belong within the scope of the claims in the present invention and equivalent technologies thereof, then the present invention is also intended to comprise these change and modification.

Claims (4)

1. an exchange method for three-dimensional power station and service data, is characterized in that, comprises the following steps:

S1, first receives data: the service data gathering actual power plant, and actual power plant operationally, can carry out periodic sampling to the crucial operating point of key equipment, is used for as the display of control center and decision-making provide support; Gather the service data of power plant design analyzer; Simulated the operation of in fact bed rearrangement power plant multisystem by multiple analysis software, detailed service data can be produced during the course;

Then by middle converting interface, buffer memory, management, coordination are carried out to the data in virtual plant and service data: passage is deployed in the communication module of Data Source end, set up with the data reception module in middle converting interface that the input and output of data variable are corresponding to be shown, within each Data Update cycle, constantly receive data, carry out buffer memory, management; Virtual plant is built on virtual emulation platform, at the communication module of virtual plant On-premise, according to the operation needs of simulated environment, sends request of data to middle converting interface; Request of data in virtual plant can change according to demand, needs the data variable obtained to differ, sometimes needs the buffer memory historical data of variable to carry out displaying time variable;

S2, first sends service data: the data stored in database send toward virtual plant application end by middle converting interface; Middle converting interface processes the request sent from virtual plant end communication module in each cycle, according to input/output variable correspondence table, service data is passed to virtual plant application end;

Then, virtual plant receives service data and carries out three-dimensional visualization, provides user interface, receives user instruction: virtual plant is by under the graph technologies such as virtual reality, the emulation platform built based on d engine, is used for providing user interface on foreground; User's health check-up that it provides is three-dimensional interactive formula, and running background data are presented to user with the mode visible of two-dimentional panel and three-dimensional model; By peripheral hardware, user's input can be accepted again, and input instruction is fed back, embody interactivity;

S3, first feedback user instruction;

Then, then buffer memory, management, coordination is carried out by the data of middle converting interface to virtual plant end communication module: passage is deployed in the communication module of Data Source end, set up with the data reception module in middle converting interface that the input and output of data variable are corresponding to be shown, within each Data Update cycle, constantly receive data, carry out buffer memory, management; Virtual plant is built on virtual emulation platform, at the communication module of virtual plant On-premise, according to the operation needs of simulated environment, sends request of data to middle converting interface; Request of data in virtual plant can change according to demand, needs the data variable obtained to differ, sometimes needs the buffer memory historical data of variable to carry out displaying time variable;

S4, feedback change application: communication module write command being passed to service data source terminal, service data end also can carry out instruction analysis, authority setting operation afterwards, determines whether performing this execution; If write command is performed, the running status of power plant is also changed, and in the face of the request of data that virtual plant sends, up-to-date service data is again issued, thus relies on the transfer Interface realization two-way real-time, interactive of power plant's service data and virtual plant.

2. as claimed in claim 1, it is characterized in that, in described step S3, virtual plant system with user interaction process, the user instruction received, according to the difference of user instruction, back-end data feedback is also different; The service data of existing classification is inquired about, proposes demand data, converting interface response in wait; If user instruction is not only digital independent demand, and require the demand application writing data; In this case, virtual plant end needs to send write command, modifies to service data, thus reaches the object changing power plant's running status.

3. as claimed in claim 1, it is characterized in that, have employed power plant design analyzer in service data source terminal.

4. as claimed in claim 1, it is characterized in that, virtual plant adopts virtual reality applications software Virtools to build, and utilizes C Plus Plus to complete the exploitation of middle converting interface.