KR102089150B1 - Apparatus and method for generating 3d model of power facilities - Google Patents

Abstract

We present an apparatus and method for generating a 3D model of a power facility that enables sharing of a 3D model by generating an XML based power facility 3D standard model including a power facility 3D model, interaction, and a 3D standard model of a power facility. The proposed power facility 3D model generation device manages the power facility 3D standard model generated by the power facility 3D standard model generation module and the power facility 3D standard model generation module that generates the power facility 3D standard model, and the power facility 3D standard model is external. The power facility 3D standard model shared to the terminal includes a sharing module, and the power facility 3D standard model includes a power facility 3D model of the target power facility, an interaction that is a physical property of the target power facility, and a standard system of the power facility 3D model.

Description

Apparatus and method for generating 3D model of electric power equipment {APPARATUS AND METHOD FOR GENERATING 3D MODEL OF POWER FACILITIES}

The present invention relates to an apparatus and method for generating a power facility 3D model, and more specifically, a power facility 3D model for generating and sharing a 3D model of a power facility in a virtual reality (VR) or augmented reality environment. It relates to a generating device and method.

With the proliferation of virtual reality and augmented reality technologies, development of various devices and contents is required. Devices are being developed by leading global companies, and contents are being developed mainly by various small and medium-sized enterprises and venture companies.

In the electric power field, various contents for promotion, education, and maintenance are being developed using virtual reality and augmented reality technologies. In particular, as the effectiveness of virtual space training for substations, underground power lines, and pylons, which are areas where workers are constrained by space, appears to be effective, demand for various content development is expected to increase in the future.

In order to develop VR / AR contents in the electric power field, 3D modeling of electric power equipment is first required.

However, since the development method of virtual environment content is different according to the goal of the content (ie, education, promotion, maintenance, etc.), the developer is developing a new 3D model even if the model is the same, and the properties of the 3D model also depend on the developer. Different.

Accordingly, there is a problem in that the developed 3D model cannot be shared with other content, and the same 3D model is generated repeatedly, resulting in wasted development time and cost.

In order to buffer this, existing commercial development engine companies have developed platforms for exchanging 3D models (Ex, Unity Store, Unreal Marketplace, etc.) and are providing them in the web format.

However, the 3D model used in the power field needs to define various physical properties due to the specificity of the power field, so it is difficult to utilize the general 3D model in which only the appearance is manufactured.

Korean Registered Patent No. 10-0874288 (Name: 3D model of ship and offshore structures and asset management system)

The present invention has been proposed to solve the above-mentioned conventional problems, and it is possible to share the 3D model by generating an XML-based power facility 3D standard model including a power facility 3D model, interaction, and a power facility 3D standard model system. It is an object of the present invention to provide an apparatus and method for generating a 3D model of a power facility.

In order to achieve the above object, the power facility 3D model generating device according to an embodiment of the present invention is a power facility 3D standard model generation module and a power facility 3D standard model generation module generating a power facility 3D standard model. It includes a power module 3D standard model sharing module that manages the standard model and shares the power equipment 3D standard model to external terminals, and the power equipment 3D standard model is the power equipment 3D model of the target power equipment and the physical properties of the target power equipment. Includes a standard framework for interaction and power equipment 3D models.

The power facility 3D standard model generation module creates a power facility 3D standard model by packaging one or more power facility standard assets, and the power facility standard asset is a video, sound, texture, power facility 3D model, power facility 3D standard system and interaction. It can contain. At this time, the power equipment 3D standard model generation module may generate a power equipment standard asset in an XML file format.

The 3D model standard system for power facilities includes a large classification set as one of power generation, transmission, substation, distribution, and communication based on the application field of the target power facility, while the 3D model standard system for power facilities is medium and small classification set based on the target power facilities Further comprising, the middle classification may be set below the large classification, and the small classification may be set below the medium classification.

Interaction is set up under a sub-class of the power facility 3D model standard system, and the power facility 3D standard model generation module sets up the interaction including functions, properties, and visualization information, and the functions are analog gauge, digital display, lamp, meter Real, moving rotation and switch may be included, properties may include information and IoT sensor data, and visualization information may include port and model properties.

The power facility 3D standard model generation module sets interaction based on the GUI, interactions are configured in units of nodes, and the power facility 3D model connected to the nodes of the interaction can operate in a virtual environment by interaction.

The power facility 3D standard model generation module creates a 3D standard model of a power facility with a folder structure, and the folder structure is classified into large, medium, and small categories, and each folder contains video, sound, texture, and power facilities of the power facility 3D standard model. 3D models, power facility 3D standard systems and interaction resources can be stored.

The power facility 3D model generation device according to an embodiment of the present invention further includes a power content development support module that supports a power content development environment using a power facility 3D standard model managed by the power facility 3D standard model sharing module to an external terminal. You can.

In order to achieve the above object, a method for generating a 3D model of a power facility according to an embodiment of the present invention is a method for generating a 3D model of a power facility using a 3D model generator for generating power facilities, generating a 3D model of a power facility corresponding to a target power facility Step of establishing the standard system of the power facility 3D model of the power facility 3D model based on the target power facility, setting the interaction of the power facility 3D model based on the target power facility, the power facility 3D model, the power facility 3D And generating a power facility standard asset including a model standard scheme and interaction, and packaging one or more power facility standard assets to generate a power facility 3D standard model.

In the step of establishing the standard system for power equipment 3D model, based on the application field of the target power equipment, the standard system for power equipment 3D model including large, medium, and small categories, which is set as one of power generation, transmission, substation, distribution, and communication, is set, The middle classification may be set below the large classification, and the small classification may be set below the medium classification.

 In the step of setting the interaction, the interaction is set under the sub-class of the power facility 3D model standard system, and the interaction including the functions, properties and visualization information of the power facility 3D model is set, but the functions are analog gauge, digital display device, Lamps, materials, movement rotations and switches may be included, attributes may include information and IoT sensor data, and visualization information may include port and model attributes. In the step of setting the interaction, the interaction is set based on the GUI, the interaction is configured in units of nodes, and the power facility 3D model connected to the node of the interaction can operate in the virtual environment by the interaction.

In the step of generating a standard facility for power facilities, a standard facility for power facilities including video, sound, and texture may be generated, but a standard facility for power facilities in XML file format may be generated.

In the step of generating the 3D standard model of the power facility, the 3D standard model of the power facility having a folder structure is created, and the folder structure is classified into large, medium, and small categories, and each folder includes video, sound, and texture of the 3D standard model of the power facility, The power facility 3D model, the power facility 3D standard system, and interaction resources may be stored.

According to the present invention, the power facility 3D model generation apparatus and method generate a power facility standard asset including a power facility 3D model, an interaction and a power facility 3D standard model system, and package it to generate a power facility 3D standard model, Since it is possible to define various physical properties due to the specificity of the power field, it is possible to utilize the 3D model produced in the power field and the general field.

In addition, the power equipment 3D model generating apparatus and method generate the power equipment 3D standard model based on XML, so that the 3D model can be easily shared with other content, thereby preventing duplicate generation of the same 3D model, resulting in development period and cost There is an effect that can be minimized.

In addition, the 3D model generating device and method for power facilities have an effect of utilizing the existing 3D model authoring technology (3D Max, Maya, etc.) as it is, rather than using a separate manufacturing technique (tool) in the production of the 3D model of the power facility.

In addition, the power facility 3D model generating device and method do not define properties / functions separately in the power facility 3D model, but instead generate power facility 3D standard models by adding properties / functions to the power facility 3D model based on the existing virtual reality development engine. There is an effect that a content developer can modify in a desired form.

In addition, the power facility 3D model generating device and method provide an effect of utilizing an existing virtual reality development engine because a virtual reality development engine that utilizes the 3D standard model of the power facility is provided in the form of a plug-in instead of separately.

In addition, the power facility 3D model generating device and method share the web based on the power facility 3D standard model so that various contents can be utilized, so that in virtual reality content development, it is possible to develop content within a short period of time with minimal modification of the power facility 3D model. have.

In addition, the 3D model generating device and method for power facilities can be developed in various contents through the 3D standard model of power facilities, thereby providing various services to power workers and power consumers through the production of various VR contents such as education, training, and operation in the power field. Since this is possible, it has the effect of contributing to the improvement of overall satisfaction and service improvement of the electric power industry.

1 is a view for explaining an apparatus for generating a power facility 3D model according to an embodiment of the present invention.
2 to 17 are views for explaining a 3D standard model generating module of the power facility of FIG. 1.
18 is a diagram for explaining a 3D standard model sharing module for power facilities of FIG. 1.
19 and 20 are views for explaining the power content development support module of FIG. 1.
21 is a flowchart illustrating a method for generating a 3D model of a power facility according to an embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings, the most preferred embodiment of the present invention will be described in detail so that those skilled in the art to which the present invention pertains can easily implement the technical spirit of the present invention. . First, when adding reference numerals to the components of each drawing, it should be noted that the same components have the same reference numerals as possible even though they are displayed on different drawings. In addition, in describing the present invention, when it is determined that detailed descriptions of related well-known structures or functions may obscure the subject matter of the present invention, detailed descriptions thereof will be omitted.

Hereinafter, a power facility 3D model generating device according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings. 1 is a view for explaining an apparatus for generating a power facility 3D model according to an embodiment of the present invention. 2 to 17 are diagrams for explaining the 3D standard model generating module of the power facility of FIG. 1, FIG. 18 is a view for explaining the 3D standard model of the power facility sharing module of FIG. 1, and FIGS. 19 and 20 are diagrams 1 is a diagram for explaining a module for supporting power content development.

Referring to Figure 1, the power facility 3D model generating apparatus according to an embodiment of the present invention is the power facility 3D standard model generation module 100, the power facility 3D standard model sharing module 200 and the power content development support module 300 It includes.

Here, the power facility 3D standard model generation module 100, the power facility 3D standard model sharing module 200, and the power content development support module 300 are illustrated as being configured as one device, but are not limited thereto. It can consist of separate devices or servers.

The power facility 3D standard model generation module 100 generates a power facility 3D standard model 500 corresponding to the target power facility. The power facility 3D standard model generation module 100 generates the power facility 3D standard model 500, which is a 3D model that packages the power facility standard asset 400 (Asset) of the target power facility. Here, the packaging is a video 410, sound 420, texture 430, power equipment 3D model 440, interaction 450, and power equipment 3D model standard system, which are components constituting the power equipment standard asset 400. (460) means the integrated process. The power facility standard asset 400 refers to a form in which attributes, functions, and visualization information are given to a 3D model produced by a commercial tool, and the power facility standard asset 400 corresponds to one power facility. The power facility 3D standard model 500 may be composed of one or more power facility standard assets 400.

2, the power facility 3D standard model generation module 100 includes a video 410, a sound 420, a texture 430, a power facility 3D model 440, an interaction 450 related to a target power facility, and A power facility standard asset 400 including the power facility 3D model standard system 460 is generated. The power facility standard asset 400 includes a power facility 3D model, video, sound 420, a 3D model definition format of the virtual reality development engine, and an XML file defining the power facility 3D standard model 500. The power facility standard asset 400 is generated through packaging and is configured to be shared and reused. The functions of the power facility standard asset 400 can be set to a total of 9 types such as movement, rotation, switch, lamp, port (power flow), and can provide interaction of the power facility 3D model 440 in virtual reality. It is configured to.

The power facility 3D standard model generation module 100 generates a power facility 3D model 440 corresponding to the target power facility. The power facility 3D standard model generation module 100 generates a power facility 3D model 440 corresponding to the target power facility using a commercial tool. Here, the power facility 3D model 440 is produced through a commercial tool such as 3D Max, Maya, and is an example of a 3D model having a file format such as FBX, 3DS, and OBJ.

The power facility 3D standard model generation module 100 sets the power facility 3D model standard system 460 of the power facility 3D model 440 based on the target power facility. Here, the power facility 3D model standard system 460 is used to secure diversity, uniformity, uniformity, and reusability of the power facility 3D model 440 used for various contents for education, training, and operation based on virtual reality in the power field. It is a set system. The power facility 3D model standard system 460 is a system defined to support the generation of properties (information), functions (animation), etc. in the power facility 3D model 440 used for virtual reality-based content in the power field. . The power facility 3D model standard system 460 is defined as an XML file format capable of storing information and functions of the power facility 3D model 440 and the power facility 3D model 440 so that it can be used in the virtual reality development engine.

The power system 3D model standard system 460 is a system that analyzes power systems of a power system and classifies them into specific standards. The power system 3D model standard system 460 defines power facilities by classifying them into large, medium, and small categories. 3 to 8, the large classification is classified into the power generation, transmission, substation, distribution, and communication fields, and the middle classification and the small classification are set under the large classification according to the characteristics of power facilities.

The power facility 3D standard model generation module 100 sets the power facility 3D model standard system 460 in XML format so that the packaged power facility standard asset 400 and the power facility 3D standard model 500 can be reused. do.

The power facility 3D standard model generation module 100 sets a physical interaction 450 of the power facility 3D model 440 based on the target power facility. The interaction 450 means a physical property of the 3D model 440 of a power facility in a virtual environment.

Referring to FIG. 9, the interaction 450 is set below the power facility 3D model standard system 460. The interaction 450 includes power facility information including function, attribute, and visualization information. The interaction 450 includes detailed information set under each power facility information (ie, function, attribute, and visualization information). Features include analog gauges, digital displays, lamps, materials, movement rotation and switches, attributes include information and IoT sensor data, and visualization information includes port and model attributes.

The power facility 3D standard model generation module 100 may provide an interaction editor for setting the interaction 450 of the power facility standard asset 400. At this time, the type of interaction 450 that can be set through the interaction editor is as shown in FIG. 10.

The interaction editor configures the interaction 450 on a node-by-node basis, and each node has a characteristic function to operate in connection with the power facility 3D model 440, and the function of the power facility is set according to the connection of the nodes.

The interaction editor includes a node editor window to define nodes. The node editor window is composed of an independent node-based editor window in the virtual reality development engine, and can be added as an add-on function of the existing virtual reality development engine. Through this, the power facility 3D standard model generation module 100 can intuitively set the interaction 450 of the 3D model through a GUI-based interaction editor, unlike the conventional that defines the properties of the 3D model based on text such as a script language. You can.

Referring to FIG. 11, the node editor window defines the power facility 3D model 440 as a reference node, and generates interaction 450 information to be defined as each node. The node editor window sets the property value by connecting the interaction 450 nodes with a line (edge) based on the power facility 3D model 440 node. For example, referring to FIGS. 12 and 13, an analog gauge node is a node capable of expressing information (power value) delivered to a port on an analog gauge attached to a power facility. That is, it can be set and modified on the GUI screen).

The power facility 3D standard model generation module 100 generates the power facility standard asset 400 in XML format. As an example, referring to FIG. 14, the power facility 3D standard model generation module 100 creates information related to the power facility 3D model 440, the power facility 3D model standard system 460, and the interaction 450 in XML format. Generates a power asset standard asset 400.

15 to 17, the power facility 3D standard model generation module 100 packages (packages) one or more power facility standard assets 400 to generate a power facility 3D standard model 500. The power facility 3D standard model generation module 100 classifies (categorizes) the power facility standard asset 400 based on the power facility 3D standard system to generate a power facility 3D standard model 500 having a folder structure. At this time, the folder structure is structured in accordance with the classification (category) definition of the power system 3D model standard system 460. The folder structure is classified into large, medium, and small categories, and various resources (data or information) are stored in each folder. Resources constituting the 3D standard model 500 for the power facility are 3D model, MP4 (video 410), Prefab (interaction 450 operation function), sound (.mp4), texture 430, XML (power facility 3D) Model standard system 460) and the like. The power facility 3D standard model generation module 100 proceeds the package in a state in which a resource structure composed of a folder structure is prepared as the power facility 3D standard model 500 and one is integrated into a file format.

The power facility 3D standard model sharing module 200 manages the power facility 3D standard model 500. The power facility 3D standard model sharing module 200 manages resources such as 3D models, VR models, power facility standard assets 400 for supporting virtual reality content production in the power field, and manages content to provide to users Perform a function.

The power facility 3D standard model sharing module 200 shares the power facility 3D standard model 500 based on the web. The power facility 3D standard model sharing module 200 shares the power facility 3D standard model 500 generated in the power facility 3D standard model generation module 100 to other developers based on the web.

The power facility 3D standard model sharing module 200 provides a user authentication, a user convenience function, and a manager convenience function to share the power facility 3D standard model 500 based on the web (see FIG. 18).

The power facility 3D standard model sharing module 200 mainly manages the power facility 3D standard model 500 and the power facility 3D model standard system 460 and accesses data (read / write / delete, etc.) according to the user's authority. Limit it.

The power facility 3D standard model sharing module 200 is constructed as a virtual environment content resource management, upload and download technology base environment. The power facility 3D standard model sharing module 200 sets access control authority for each account based on an encryption and security system to various users. The power facility 3D standard model sharing module 200 provides the power facility 3D standard model 500, the power facility standard asset 400, and the like to the user based on the base environment and access control authority for each account.

The power facility 3D standard model sharing module 200 configures a home screen that provides the power facility 3D standard model 500, and allows a user to intuitively search the power facility 3D standard model 500 through the home screen. , It provides a page to check the search window and detailed attributes.

The power content development support module 300 provides an environment for developers to develop power content using the power facility 3D standard model 500. The developer downloads the power facility 3D standard model 500 through the power content development support module 300 and then modifies or reuses it through the editor to develop power content.

The power content development support module 300 utilizes the power facility 3D standard model 500 generated based on the power facility 3D standard system, so that the content creator can conveniently and quickly produce virtual reality content in the power field. The model 500 is placed in a virtual space and supports a production environment including node connection and model management. That is, the power content development support module 300 supports the production of power virtual reality content using the power facility 3D standard model 500 of the power facility 3D standard system. The power content development support module 300 deploys a power facility 3D standard model 500 in a virtual space, and creates an environment for quickly and easily developing power virtual reality content through node connection and power facility standard asset management 400. Apply.

The power content development support module 300 provides an integrated development environment for power facilities to conveniently manage content specialized for power facilities, and connects input / output ports between power facilities through the power facility 3D standard model 500 It provides functions to exchange data between power facilities.

19 and 20, the power content development support module 300 determines the electrical characteristics (capacity, input / output number and type, etc.) of the power facility 3D standard model 500 based on the power facility 3D model standard system 460. Including it can be connected to the edge between the nodes (Edge). The power content development support module 300 may implement power flow in a virtual space through connection between nodes.

Hereinafter, a method for generating a power facility 3D model according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings. 21 is a flowchart illustrating a method for generating a 3D model of a power facility according to an embodiment of the present invention.

The power facility 3D model generation device generates a power facility 3D model 440 corresponding to the target power facility (S100). The power facility 3D model generating device generates a power facility 3D model 440 corresponding to the target power facility using a commercial tool. Here, the power facility 3D model 440 is produced through a commercial tool such as 3D Max, Maya, and is an example of a 3D model having a file format such as FBX, 3DS, and OBJ.

The power facility 3D model generating device sets the power facility 3D model standard system 460 of the power facility 3D model 440 based on the target power facility (S200). Here, the power facility 3D model standard system 460 is used to secure diversity, uniformity, uniformity, and reusability of the power facility 3D model 440 used for various contents for education, training, and operation based on virtual reality in the power field. It is a set system. The power facility 3D model standard system 460 is a system defined to support the generation of properties (information), functions (animation), etc. in the power facility 3D model 440 used for virtual reality-based content in the power field. . The power facility 3D model standard system 460 is defined as an XML file format capable of storing information and functions of the power facility 3D model 440 and the power facility 3D model 440 so that it can be used in the virtual reality development engine.

The power system 3D model standard system 460 is a system that analyzes power systems of a power system and classifies them into specific standards. The 3D model generator for power facilities is defined by classifying the power facilities into large, medium, and small categories. At this time, the large classification is classified into the power generation, transmission, substation, distribution, and communication fields, and the middle classification and small classification are set under the large classification according to the characteristics of power facilities.

The power facility 3D model generating device sets the interaction 450 of the power facility 3D model 440 based on the target power facility (S300). The power facility 3D model generating device sets the interaction 450 of the power facility 3D model 440 through a GUI-based editor. The interaction 450 means a physical property of the 3D model 440 of a power facility in a virtual environment. The interaction 450 is established below the power facility 3D model standard system 460. In the power facility 3D model generation device, the interaction 450 includes power facility information including functions, attributes, and visualization information. The power facility 3D model generation device sets up an interaction 450 that includes functions including analog gauges, digital displays, lamps, materials, movement rotation and switches. The apparatus for generating a 3D model of a power facility sets an interaction 450 including properties including information and IoT sensor data. The apparatus for generating a 3D model of a power facility sets an interaction 450 including visualization information including a port and model attributes.

The power facility 3D model generating device generates a power facility standard asset 400 including a power facility 3D model 440, a power facility 3D model standard system 460, and an interaction 450 (S400). The power facility 3D model generating device includes a power facility standard including a video 410, a sound 420, a texture 430, a power facility 3D model 440, a power facility 3D model standard system 460, and an interaction 450. The asset 400 is generated in XML format.

The power equipment 3D model generating apparatus packages one or more power equipment standard assets 400 to generate a power equipment 3D standard model 500 (S500). The power equipment 3D model generating device classifies (categorizes) the power equipment standard asset 400 based on the power equipment 3D standard system to generate a power equipment 3D standard model 500 having a folder structure. At this time, the folder structure is structured in accordance with the classification (category) definition of the power system 3D model standard system 460. The folder structure is classified into large, medium, and small categories, and various resources (data or information) are stored in each folder. Resources constituting the 3D standard model 500 for the power facility are 3D model, MP4 (video 410), Prefab (interaction 450 operation function), sound (.mp4), texture 430, XML (power facility 3D) Model standard system 460) and the like. The power facility 3D model generating device proceeds with the package in a state where the resource structure composed of the folder structure is prepared as the power facility 3D standard model 500, and one is integrated into a file format.

As described above, the power facility 3D model generation apparatus and method generate a power facility standard asset including a power facility 3D model, an interaction and a power facility 3D standard model system, and package it to generate a power facility 3D standard model, Since it is possible to define various physical properties due to the specificity of the power field, it is possible to utilize the 3D model produced in the power field and the general field.

In addition, the power equipment 3D model generating apparatus and method generate the power equipment 3D standard model based on XML, so that the 3D model can be easily shared with other content, thereby preventing duplicate generation of the same 3D model, resulting in development period and cost There is an effect that can be minimized.

In addition, the 3D model generating device and method for power facilities have an effect of utilizing the existing 3D model authoring technology (3D Max, Maya, etc.) as it is, rather than using a separate manufacturing technique (tool) in the production of the 3D model of the power facility.

In addition, the power facility 3D model generating device and method do not define properties / functions separately in the power facility 3D model, but instead generate power facility 3D standard models by adding properties / functions to the power facility 3D model based on the existing virtual reality development engine. There is an effect that a content developer can modify in a desired form.

In addition, the power facility 3D model generating device and method provide an effect of utilizing an existing virtual reality development engine because a virtual reality development engine that utilizes the 3D standard model of the power facility is provided in the form of a plug-in instead of separately.

In addition, the power facility 3D model generating device and method share the web based on the power facility 3D standard model so that various contents can be utilized, so that in virtual reality content development, it is possible to develop content within a short period of time with minimal modification of the power facility 3D model. have.

In addition, the 3D model generating device and method for power facilities can be developed in various contents through the 3D standard model of power facilities, thereby providing various services to power workers and power consumers through the production of various VR contents such as education, training, and operation in the power field. Since this is possible, it has the effect of contributing to the improvement of overall satisfaction and service improvement of the electric power industry.

The preferred embodiment according to the present invention has been described above, but it can be modified in various forms, and those skilled in the art can make various modifications and modifications without departing from the claims of the present invention. It is understood that it can be practiced.

100: power equipment 3D standard model generation module
200: Power facility 3D standard model sharing module
300: power content development support module
400: standard equipment for power facilities 410: video
420: sound 430: texture
440: Electric Power Equipment 3D Model 450: Interaction
460: Power Equipment 3D Model Standard System 500: Power Equipment 3D Standard Model

Claims (20)

A power facility 3D standard model generation module for generating a power facility 3D standard model;
A power facility 3D standard model sharing module that manages the power facility 3D standard model generated in the power facility 3D standard model generation module and shares the power facility 3D standard model to an external terminal; And
Includes a power content development support module that downloads the power facility 3D standard model provided from the power facility 3D standard model sharing module and supports an external terminal in a power content development environment that can be modified or reused through an editor.
The power facility 3D standard model includes a power facility 3D model of a target power facility, an interaction that is a physical property of the target power facility, and a power facility 3D model standard system,
The power facility 3D standard model generation module includes a node editor window for setting a property value of the power facility 3D standard model by connecting a node of the power facility 3D standard model to an edge based on a GUI, and the node connected to the edge is Power facility 3D model generating device to realize power flow in virtual space. According to claim 1,
The power facility 3D standard model generation module generates a power facility 3D standard model by packaging one or more power facility standard assets,
The power equipment standard asset is a power equipment 3D model generating device including video, sound, texture, power equipment 3D model, power equipment 3D standard system and interaction. According to claim 2,
The power equipment 3D standard model generating module is a power equipment 3D model generating device for generating the power equipment standard asset in XML file format. According to claim 1,
The power facility 3D model standard system is a power facility 3D model generating apparatus including a large category set as one of power generation, transmission, substation, distribution, and communication based on the application field of the target power facility. According to claim 4,
The power facility 3D model standard system further includes a medium classification and a small classification set based on the target power facility, the medium classification is set below the large classification, and the small classification is a power facility 3D model generation device set below the medium classification . The method of claim 5,
The interaction is an apparatus for generating a 3D model of a power facility set under a sub-class of the standard system of the 3D model of the power facility. According to claim 1,
The power facility 3D standard model generation module sets an interaction including functions, attributes, and visualization information,
The function includes an analog gauge, a digital display device, a lamp, a material, a movement rotation and a switch, the property includes IoT sensor data, and the visualization information includes a port and a model property. . According to claim 1,
The power facility 3D standard model generation module sets the interaction based on a GUI, the interaction is configured in units of nodes, and the power facility 3D model connected to the node of the interaction is a power facility 3D operating in a virtual environment by the interaction. Model generation device. According to claim 1,
The power facility 3D standard model generation module generates a power facility 3D standard model having a folder structure,
The folder structure is classified into large, medium, and small categories, and each folder includes a video, sound, texture, power facility 3D model, power facility 3D standard system, and power facility 3D model generation device that stores resources for interaction. . delete In the method for generating a 3D model of a power facility using a 3D model generator for generating power,
Generating a power facility 3D model corresponding to the target power facility;
Setting a power system 3D model standard system of the power facility 3D model based on the target power facility;
Setting an interaction of a 3D model of a power facility based on the target power facility;
Generating a power equipment standard asset including the power equipment 3D model, the power equipment 3D model standard system, and the interaction;
Packaging one or more of the power facility standard assets to generate a power facility 3D standard model; And
Downloading the 3D standard model of the power facility, including the step of supporting a power content development environment that can be modified or reused through an editor to an external terminal.
The step of generating the 3D standard model of the power facility includes setting a property value by connecting a node of the 3D standard model of the power facility as an edge based on a GUI by a node editor window, and the node connected to the edge is a virtual space. A 3D model generating method for power facilities that implements power flow in a system. The method of claim 11,
In the step of setting the power facility 3D model standard system, the power facility for setting the power facility 3D model standard system including a large classification set to one of power generation, transmission, substation, distribution, and communication based on the application field of the target power facility How to create a 3D model. The method of claim 12,
In the step of setting the power facility 3D model standard system, the power facility 3D model standard system further comprising a medium classification and a small classification based on the target power facility is set, and the medium classification is set below the large classification, and the The sub-classification is a method for generating a 3D model of a power facility set under the middle class. The method of claim 13,
In the step of setting the interaction of the power facility 3D model, a method for generating a power facility 3D model for setting the interaction under a sub-class of the power facility 3D model standard system. The method of claim 11,
In the step of setting the interaction of the power facility 3D model, a method of generating a power facility 3D model for setting an interaction including functions, properties, and visualization information of the power facility 3D model. The method of claim 15,
The function includes an analog gauge, a digital display, a lamp, a material, a movement rotation and a switch, the attribute includes IoT sensor data, and the visualization information includes a port and model attribute. . The method of claim 11,
In the step of setting the interaction of the power facility 3D model, the interaction is set based on a GUI, the interaction is configured in units of nodes, and the power facility 3D model connected to the node of the interaction operates in a virtual environment by the interaction. How to create a 3D model of a power facility. The method of claim 11,
In the step of generating the standard equipment for power equipment, a method for generating a power equipment 3D model for generating a standard equipment for power equipment further comprising video, sound, and texture. The method of claim 11,
In the step of generating the power facility standard asset, a method for generating a power facility 3D model for generating the power facility standard asset in an XML file format. The method of claim 11,
In the step of generating the 3D standard model of the power equipment, a 3D standard model of the power equipment having a folder structure is generated,
The folder structure is classified into large, medium, and small categories, and each folder includes a video, sound, texture, power facility 3D model, power facility 3D standard system, and interaction resource resources for each power facility 3D standard model. .

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