CN213518340U - Nuclear power plant full-operation-value operation and training system - Google Patents

Abstract

The disclosure belongs to the technical field of nuclear power maintenance, and particularly relates to a full-operation-value operation and training system for a nuclear power plant. In the disclosure, data sharing and data transmission are performed between the model server and the virtual reality server, so that data of the model server can be synchronized to each virtual device in a virtual reality scene of the virtual reality server; in addition, the trainees can interact with the virtual reality scene through virtual reality hardware to realize the operation of virtual equipment in the virtual reality scene, so that the trainees can be trained in a more vivid three-dimensional environment, the accuracy of the virtual equipment corresponding to the local position, state and process parameter change of the operation can be ensured, and the training quality and the learning efficiency of the trainees are effectively improved.

Description

Nuclear power plant full-operation-value operation and training system

Technical Field

The utility model belongs to the technical field of nuclear power fortune dimension, concretely relates to full running value operation of nuclear power plant and training system.

Background

In the related technology, a simulation platform of a nuclear power plant adopts a full-simulation mode to realize simulation modeling of each process System of a nuclear power plant unit and a DCS (Distributed Control System), can simulate operation of different working conditions and different transient units of the nuclear power plant, accurately calculates parameters of each link and equipment of the nuclear power plant, and provides information and parameters for operating each System of the nuclear power plant by a field operator.

However, the nuclear power plant simulation platform has a single interface, and cannot provide an operation scene of each element device of the nuclear power plant for a field operator, so that more vivid and effective training needs to be provided for students.

SUMMERY OF THE UTILITY MODEL

In order to overcome the problems in the related art, a nuclear power plant full-operation-value operation and training system is provided.

According to an aspect of an embodiment of the present disclosure, there is provided a nuclear power plant full operation value operation and training system including: the system comprises a training management workstation subsystem, a virtual interaction demonstration subsystem and a model server;

the virtual interaction demonstration subsystem comprises a virtual reality server and a plurality of groups of virtual reality hardware, the virtual reality servers are respectively connected with the virtual reality hardware, the virtual reality server is used for operating a virtual reality platform, each virtual reality hardware generates operation data when being operated, and the virtual reality server can acquire the operation data from the virtual reality hardware;

the simulation system comprises a model server, a nuclear power plant simulation platform, a virtual reality server and a data processing system, wherein the model server is used for operating the nuclear power plant simulation platform, the nuclear power plant simulation platform can generate operation data, the operation data is used for representing process parameters and simulation conditions of equipment or instruments in a nuclear power plant, the virtual reality server is connected with the model server, and the virtual reality server can acquire the operation data generated by the model server;

the training management workstation subsystem comprises a three-dimensional server and display equipment, the three-dimensional server is connected with the virtual reality server, the three-dimensional server can synchronize data of a virtual reality platform of the virtual reality server into the three-dimensional server, and a virtual reality scene of the synchronized virtual reality platform is displayed through the connected display equipment.

In one possible implementation, the training management workstation subsystem further comprises: microphones, each set of virtual reality hardware comprising: a handset;

the three-dimensional server is connected with the microphone and used for acquiring voice data acquired by the microphone and sending the voice data to the virtual reality server;

and the virtual reality server sends the received voice data to the receivers of each group of virtual reality hardware, so that each receiver plays the received voice data.

In one possible implementation, each set of virtual reality hardware includes: a virtual reality display device.

In one possible implementation, the virtual reality display device includes: any one or more of virtual reality glasses, projection devices, or display screens.

In one possible implementation, each set of virtual reality hardware further includes: virtual reality interaction equipment.

In one possible implementation, the virtual reality interaction device includes: one or more of a data glove, a data handle, a motion capture device.

In one possible implementation, each set of virtual reality hardware further includes: a plurality of positioning devices;

the positioning devices are fixed on the limbs of the trainee and used for collecting data representing the activity state of the limbs of the trainee.

In one possible implementation, the training management workstation subsystem further comprises: a data server;

the three-dimensional server is connected with the data server, the data server is connected with the virtual reality server, and the three-dimensional server performs data synchronization with the virtual reality server through the data server.

In addition, the data server can be connected with the model server and used for acquiring and storing the data of the model server. It should be noted that the data server can also be integrated in any one of the three-dimensional service, the virtual reality server or the model, thereby reducing the redundancy of the system equipment.

In one possible implementation, the three-dimensional server and the display device include: one or more display screens.

The beneficial effect of this disclosure lies in: in the disclosure, data sharing and data transmission are performed between the simulation server and the virtual reality server, so that data of the simulation server can be synchronized to each virtual device in a virtual reality scene of the virtual reality server; in addition, the trainees can interact with the virtual reality scene through virtual reality hardware to realize the operation of virtual equipment in the virtual reality scene, so that the trainees can be trained in a more vivid three-dimensional environment, the accuracy of the virtual equipment corresponding to the local position, state and process parameter change of the operation can be ensured, and the training quality and the learning efficiency of the trainees are effectively improved.

Drawings

FIG. 1 is a schematic diagram illustrating a nuclear plant full operation value operation and training system according to an exemplary embodiment.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a schematic diagram illustrating a nuclear plant full operation value operation and training system according to an exemplary embodiment. As shown in fig. 1, the nuclear power plant full operation value operation and training system may include: the system comprises a training management workstation subsystem, a virtual interaction demonstration subsystem and a model server.

In the embodiment of the present disclosure, a server may represent a computer device that provides computing or application services for a client (e.g., a terminal such as a personal computer, a smart phone, an ATM, and even a large device such as another server). The server may be, for example, an IA architecture server or a RISC architecture server, and the type of the server is not limited in the embodiments of the present disclosure.

The virtual interaction demonstration subsystem comprises a virtual reality server and a plurality of groups of virtual reality hardware, the plurality of groups of virtual reality servers are respectively connected with the virtual reality hardware, the virtual reality server is used for operating a virtual reality platform, each virtual reality hardware generates operation data when being operated, and the virtual reality server can acquire the operation data from the plurality of groups of virtual reality hardware;

the simulation system comprises a model server, a virtual reality server and a simulation system, wherein the model server is used for operating a nuclear power plant simulation platform, the nuclear power plant simulation platform can generate operation data, the operation data is used for representing process parameters and simulation conditions of equipment or instruments in a nuclear power plant, the virtual reality server is connected with the model server, and the virtual reality server can acquire the operation data generated by the model server; the virtual reality server can simulate the scene of the virtual reality platform according to the acquired running data and the operation data.

For example, a user may interact with a virtual valve through a virtual handle in a virtual reality scene, a virtual reality server may determine, according to an operation gesture of opening and closing the valve by the user, an opening value (an example of operation data) of the valve corresponding to the operation gesture, and transmit the operated opening value of the virtual valve to a simulation server in real time through a communication program, the simulation server may determine, according to the received opening value, a parameter (an example of operation data) of a local position and a state of the valve and send the parameter to the virtual reality server, and the virtual reality server may update the position and the state of the valve in the virtual reality scene according to the received parameter.

The training management workstation subsystem comprises a three-dimensional server and display equipment, the three-dimensional server is connected with the virtual reality server, the three-dimensional server can synchronize data of a virtual reality platform of the virtual reality server into the three-dimensional server, and a virtual reality scene of the synchronized virtual reality platform is displayed through the connected display equipment. For example, the three-dimensional server and the display device may include: one or more display screens. The instructor may view the trainee's training process through one or more display screens.

In the disclosure, data sharing and data transmission are performed between the simulation server and the virtual reality server, so that data of the simulation server can be synchronized to each virtual device in a virtual reality scene of the virtual reality server; in addition, the trainees can interact with the virtual reality scene through virtual reality hardware to realize the operation of virtual equipment in the virtual reality scene, so that the trainees can be trained in a more vivid three-dimensional environment, the accuracy of the virtual equipment corresponding to the local position, state and process parameter change of the operation can be ensured, and the training quality and the learning efficiency of the trainees are effectively improved.

In one possible implementation, the training management workstation subsystem further comprises: microphones, each set of virtual reality hardware comprising: a handset; the three-dimensional server is connected with the microphone and used for acquiring voice data acquired by the microphone and sending the voice data to the virtual reality server; and the virtual reality server sends the received voice data to the receivers of each group of virtual reality hardware, so that each receiver plays the received voice data. For example, instructors may issue voice commands or prompts to students through microphones during the course of viewing training.

In one possible implementation, each set of virtual reality hardware includes: a virtual reality display device. For example, a virtual reality display device includes: any one or more of virtual reality glasses, projection devices, or display screens.

In one possible implementation, each set of virtual reality hardware further includes: virtual reality interaction equipment. For example, a virtual reality interaction device includes: one or more of a data glove, a data handle, a motion capture device.

In one possible implementation, each set of virtual reality hardware further includes: a plurality of positioning devices; a plurality of positioning devices are fixed to the limbs of the trainee and used for collecting data representing the activity state of the limbs of the trainee.

Having described embodiments of the present disclosure, the foregoing description is intended to be exemplary, not exhaustive, and not limited to the disclosed embodiments. Many modifications and variations will be apparent to those of ordinary skill in the art without departing from the scope and spirit of the described embodiments. The terms used herein were chosen in order to best explain the principles of the embodiments, the practical application, or technical improvements to the techniques in the marketplace, or to enable others of ordinary skill in the art to understand the embodiments disclosed herein.

Claims (9)

1. A nuclear power plant full operation value operation and training system, comprising: the system comprises a training management workstation subsystem, a virtual interaction demonstration subsystem and a model server;

the virtual interaction demonstration subsystem comprises a virtual reality server and a plurality of groups of virtual reality hardware, the virtual reality servers are respectively connected with the virtual reality hardware, the virtual reality server is used for operating a virtual reality platform, each virtual reality hardware generates operation data when being operated, and the virtual reality server can acquire the operation data from the virtual reality hardware;

the simulation system comprises a model server, a nuclear power plant simulation platform, a virtual reality server and a data processing system, wherein the model server is used for operating the nuclear power plant simulation platform, the nuclear power plant simulation platform can generate operation data, the operation data is used for representing process parameters and simulation conditions of equipment or instruments in a nuclear power plant, the virtual reality server is connected with the model server, and the virtual reality server can acquire the operation data generated by the model server;

the training management workstation subsystem comprises a three-dimensional server and display equipment, the three-dimensional server is connected with the virtual reality server, the three-dimensional server can synchronize data of a virtual reality platform of the virtual reality server into the three-dimensional server, and a virtual reality scene of the synchronized virtual reality platform is displayed through the connected display equipment.

2. The nuclear power plant full operation value operations and training system of claim 1, wherein the training management workstation subsystem further comprises: microphones, each set of virtual reality hardware comprising: a handset;

the three-dimensional server is connected with the microphone and used for acquiring voice data acquired by the microphone and sending the voice data to the virtual reality server;

and the virtual reality server sends the received voice data to the receivers of each group of virtual reality hardware, so that each receiver plays the received voice data.

3. The nuclear power plant full-operation-value operation and training system of claim 1, wherein each set of virtual reality hardware comprises: a virtual reality display device.

4. The nuclear power plant full operation value operation and training system according to claim 3, wherein the virtual reality display device comprises: any one or more of virtual reality glasses, projection devices, or display screens.

5. The nuclear power plant full-operation-value operation and training system of claim 1, wherein each set of virtual reality hardware further comprises: virtual reality interaction equipment.

6. The nuclear power plant full operation value operation and training system according to claim 5, wherein the virtual reality interaction device comprises: one or more of a data glove, a data handle, a motion capture device.

7. The nuclear power plant full-operation-value operation and training system of claim 1, wherein each set of virtual reality hardware further comprises: a plurality of positioning devices;

the positioning devices are fixed on the limbs of the trainee and used for collecting data representing the activity state of the limbs of the trainee.

8. The nuclear power plant full operation value operations and training system of claim 1, wherein the training management workstation subsystem further comprises: a data server;

the three-dimensional server is connected with the data server, the data server is connected with the virtual reality server, and the three-dimensional server performs data synchronization with the virtual reality server through the data server.

9. The nuclear power plant full-operation-value operations and training system of claim 1, wherein the three-dimensional server and display device comprises: one or more display screens.

Images