CN110889157A - Wind power plant layout visualization display method and related device - Google Patents

Abstract

The embodiment of the application discloses a visual display method for wind power plant layout, which is used for solving the problem that a user cannot intuitively understand contents to be expressed by wind power plant project engineering design through single two-dimensional design drawing display. The method in the embodiment of the application comprises the following steps: the method comprises the steps of receiving a display request for the layout of the wind power plant, displaying a pre-generated wind power plant layout model corresponding to the display request according to the display request, wherein the wind power plant layout model comprises a three-dimensional terrain model and a wind power plant three-dimensional model deployed in the three-dimensional terrain model, the three-dimensional terrain model reflects geographical environment information of the wind power plant, the wind power plant three-dimensional model reflects information of components of the wind power plant, receiving the display request for a target component of the wind power plant three-dimensional model, and displaying a two-dimensional design drawing of the target component, wherein the two-dimensional design drawing reflects design information of the target component.

Description

Wind power plant layout visualization display method and related device

Technical Field

The embodiment of the application relates to the technical field of power systems, in particular to a visual display method and a relevant device for layout of a wind power plant.

Background

At present, the field of project engineering design of wind power plants is facing innovation of information technology from two dimensions to three dimensions, and the original wind power plant design project mainly takes two-dimensional design drawings as main points. The use of the two-dimensional design drawing has higher requirements on the space thinking ability and the professional knowledge background of a user, the two-dimensional design drawing can meet the requirements of traditional construction personnel and constructors on detailed design materials, but when meeting and propaganda are carried out on wind power plant project engineering design, due to the fact that the faced display user object possibly lacks the professional knowledge background on the two-dimensional design drawing, the independent two-dimensional design drawing display cannot enable the user to intuitively understand the contents to be expressed by the wind power plant project engineering design.

Disclosure of Invention

The embodiment of the application provides a visual display method and a relevant device for wind power plant layout, which are used for solving the problem that a user cannot intuitively understand contents to be expressed by wind power plant project engineering design through single two-dimensional design drawing display.

The first aspect of the embodiment of the application provides a visualization display method for a wind farm, which comprises the following steps:

receiving a display request for a layout of a wind farm;

displaying a pre-generated wind power plant layout model corresponding to the display request according to the display request, wherein the wind power plant layout model comprises a three-dimensional terrain model and a wind power plant three-dimensional model deployed in the three-dimensional terrain model, the three-dimensional terrain model reflects geographical environment information of the wind power plant, and the wind power plant three-dimensional model reflects information of components of the wind power plant;

receiving a display request for a target component of the three-dimensional model of the wind power plant;

displaying a two-dimensional design drawing of the target component part, wherein the two-dimensional design drawing reflects design information of the target component part.

Optionally, the generating manner of the wind farm layout model includes:

acquiring a two-dimensional design drawing of the three-dimensional terrain model, the three-dimensional model of the wind power plant and the component parts of the wind power plant;

establishing an incidence relation between the three-dimensional model of the wind power plant and the three-dimensional terrain model according to the deployment position of the three-dimensional model of the wind power plant in the three-dimensional terrain model;

and establishing an incidence relation between the components of the wind power plant and the two-dimensional design drawing of the components to obtain the wind power plant layout model.

Optionally, the obtaining the three-dimensional terrain model comprises:

acquiring geographic environment information of the location of the wind power plant;

and manufacturing the three-dimensional terrain model according to the geographical environment information of the location of the wind power plant.

Optionally, the obtaining the three-dimensional model of the wind farm includes:

and performing three-dimensional modeling on the components of the wind power plant through building information model software to obtain a three-dimensional model of the wind power plant.

Optionally, the obtaining a two-dimensional design drawing of a component of a wind farm includes:

exporting the components of the three-dimensional model of the wind power plant as a two-dimensional design drawing of the components of the wind power plant through building information model software;

or manufacturing a two-dimensional design drawing of the component parts of the wind power plant.

The second aspect of the embodiment of the present application provides a visual display device of wind farm, including:

the system comprises a first receiving unit, a second receiving unit and a control unit, wherein the first receiving unit is used for receiving a display request for the layout of the wind power plant;

the first display unit is used for displaying a pre-generated wind power plant layout model corresponding to the display request according to the display request, wherein the wind power plant layout model comprises a three-dimensional terrain model and a wind power plant three-dimensional model deployed in the three-dimensional terrain model, the three-dimensional terrain model reflects geographical environment information of the wind power plant, and the wind power plant three-dimensional model reflects information of components of the wind power plant;

the second receiving unit is used for receiving a display request of a target component of the three-dimensional model of the wind power plant;

and the second display unit is used for displaying a two-dimensional design drawing of the target component, wherein the two-dimensional design drawing reflects the design information of the target component.

Optionally, the wind farm visualization display device further includes:

the acquiring unit is used for acquiring the three-dimensional terrain model, the three-dimensional model of the wind power plant and a two-dimensional design drawing of a component of the wind power plant;

the first establishing unit is used for establishing an incidence relation between the three-dimensional model of the wind power plant and the three-dimensional terrain model according to the deployment position of the three-dimensional model of the wind power plant in the three-dimensional terrain model;

and the second establishing unit is used for establishing an incidence relation between the component parts of the wind power plant and the two-dimensional design drawing of the component parts to obtain the wind power plant layout model.

Optionally, when the obtaining unit obtains the three-dimensional terrain model, the obtaining unit is specifically configured to:

acquiring geographic environment information of the location of the wind power plant;

and manufacturing the three-dimensional terrain model according to the geographical environment information of the location of the wind power plant.

Optionally, when the obtaining unit obtains the three-dimensional model of the wind farm, the obtaining unit is specifically configured to:

and performing three-dimensional modeling on the components of the wind power plant through building information model software to obtain a three-dimensional model of the wind power plant.

Optionally, when the obtaining unit obtains a two-dimensional design drawing of a component of a wind farm, the obtaining unit is specifically configured to:

exporting the components of the three-dimensional model of the wind power plant as a two-dimensional design drawing of the components of the wind power plant through building information model software;

or manufacturing a two-dimensional design drawing of the component parts of the wind power plant.

A third aspect of the embodiments of the present application provides a visual display device of a wind farm, including:

the system comprises a processor, a memory, a bus and input and output equipment;

the processor is connected with the memory and the input and output equipment;

the bus is respectively connected with the processor, the memory and the input and output equipment;

the processor performs the method of any of the preceding first aspects.

A fourth aspect of embodiments of the present application provides a computer storage medium having instructions stored therein, which when executed on a computer, cause the computer to perform the method of any one of the preceding first aspects.

A fifth aspect of embodiments of the present application provides a computer program product, which when executed on a computer causes the computer to perform the method according to any one of the preceding first aspects.

According to the technical scheme, the embodiment of the application has the following advantages:

in the embodiment of the application, the three-dimensional design model of the wind power plant, the two-dimensional design drawing of the components of the wind power plant and the three-dimensional terrain model are associated, a three-dimensional scene-based main display mode is adopted, meanwhile, auxiliary association display of the two-dimensional design drawing is considered, and the problem that a user cannot intuitively understand the content to be expressed by the project engineering design of the wind power plant due to single two-dimensional design drawing display is solved.

Drawings

Fig. 1 is a schematic flow chart of a wind farm visualization display method in an embodiment of the present application;

fig. 2 is another schematic flow chart of a wind farm visualization display method in the embodiment of the present application;

fig. 3 is a schematic structural diagram of a visual display device of a wind farm in an embodiment of the present application;

FIG. 4 is another schematic structural diagram of a visual display device of a wind farm in the embodiment of the present application;

fig. 5 is another schematic structural diagram of the wind farm visualization display device in the embodiment of the present application.

Detailed Description

The embodiment of the application provides a visual display method and a related device for a wind power plant, which can realize a three-dimensional scene submission mode, simultaneously give consideration to the associated display of a two-dimensional design drawing, and solve the problem that the display of the two-dimensional design drawing alone cannot enable a user to intuitively understand the content to be expressed by the project engineering design of the wind power plant.

The visual display method for the wind power plant in the embodiment of the application can be displayed through a display screen of computer equipment, can also be displayed through projection equipment, and can also be other equipment for realizing display, and is not particularly limited herein.

Referring to fig. 1, an embodiment of a wind farm visualization display method provided by the present application includes:

101. receiving a layout display request of a wind power plant;

in the embodiment of the application, a layout display request for the wind farm needs to be received before the layout of the wind farm is displayed, so that the display is determined to be needed, and the layout display of the wind farm is not provided generally when the layout of the wind farm is not required to be displayed.

102. Displaying a pre-generated wind power plant layout model corresponding to the display request according to the display request, wherein the wind power plant layout model comprises a three-dimensional terrain model and a wind power plant three-dimensional model deployed in the three-dimensional terrain model, the three-dimensional terrain model reflects geographical environment information of the wind power plant, and the wind power plant three-dimensional model reflects information of components of the wind power plant;

after receiving the layout display request for the wind farm in step 101, the corresponding wind farm layout model may be displayed according to the layout display request information of the wind farm, where the wind farm layout model is a pre-generated model, and the model includes a three-dimensional terrain model reflecting geographic environment information of a location of the wind farm, and a wind farm three-dimensional model deployed in the three-dimensional terrain model and reflecting information of components of the wind farm.

103. Receiving a display request for a target component of a three-dimensional model of a wind power plant;

in the process of displaying the wind farm layout model in step 102, a display request for a specific component of the three-dimensional model of the wind farm may be received, where the specific component specified by the received display request is called a target component.

104. And displaying a two-dimensional design drawing of the target component, wherein the two-dimensional design drawing reflects the design information of the target component.

After receiving the display request for the target component in step 103, the two-dimensional design drawing of the corresponding target component may be displayed according to the display request for the target component, where the two-dimensional design drawing is a pre-generated drawing, and the two-dimensional design drawing of the target component translates the design information of the target component.

In the embodiment of the application, the three-dimensional design model of the wind power plant, the two-dimensional design drawing of the components of the wind power plant and the three-dimensional terrain model are associated, a three-dimensional scene-based main display mode is adopted, meanwhile, auxiliary association display of the two-dimensional design drawing is considered, and the problem that a user cannot intuitively understand the content to be expressed by the project engineering design of the wind power plant due to single two-dimensional design drawing display is solved.

Referring to fig. 2, the present application provides another embodiment of a wind farm visualization display method, including:

201. acquiring geographic environment information of the location of a wind power plant;

in order to make a three-dimensional terrain model in a wind power plant layout model, the three-dimensional terrain model reflects geographical environment information of a wind power plant, and at the moment, the geographical environment information of the location of the wind power plant needs to be obtained. The method for acquiring the geographic environment information comprises the steps of acquiring the geographic environment information, sending the unmanned aerial vehicle to take an aerial photograph of the location of the wind power plant to acquire the aerial photograph information of the geographic environment of the location of the wind power plant, surveying and mapping the geographic environment of the location of the wind power plant by using a satellite to acquire the geographic environment information of the location of the wind power plant, directly surveying and mapping the geographic environment of the location of the wind power plant to acquire the geographic environment information of the location of the wind power plant, and specifically acquiring the geographic environment information of the location of the wind power plant without limitation.

202. Manufacturing a three-dimensional terrain model according to geographic environment information of the location of a wind power plant;

according to the geographic environment information of the location of the wind farm obtained in step 201, a three-dimensional terrain model reflecting the geographic environment information of the location of the wind farm can be made, for example: the three-dimensional terrain model can be obtained by processing the geographic environment information of the location of the wind power plant through a Geographic Information System (GIS).

203. Three-dimensional modeling is carried out on the components of the wind power plant through building information model software to obtain a three-dimensional model of the wind power plant;

in order to manufacture a three-dimensional model of a wind power plant in a wind power plant layout model, the three-dimensional model of the wind power plant reflects information of components of the wind power plant, at the moment, the components of the wind power plant need to be modeled, the wind power plant generally comprises a booster station part and a fan part, the booster station comprises a great number of devices, and the fan comprises a great number of components. And modeling the wind power plant component parts one by using building information model software to obtain three-dimensional models of the component parts, and then assembling the three-dimensional models to obtain the wind power plant three-dimensional model. The three-dimensional model of the wind power plant can be modeled in three dimensions by Building Information Modeling (BIM).

204. Exporting the components of the three-dimensional model of the wind power plant to a two-dimensional design drawing of the components of the wind power plant through building information model software;

after the three-dimensional model of the wind farm is owned, the component parts of the wind farm can be exported by using Building Information Modeling (BIM) to obtain a two-dimensional design drawing of the component parts of the wind farm, wherein the two-dimensional design drawing of the component parts of the wind farm reflects the design information of the component parts of the wind farm. The two-dimensional design drawing can meet the requirements of traditional construction personnel and constructors on detailed design parameters.

205. Manufacturing a two-dimensional design drawing of a component of the wind power plant;

in order to make a two-dimensional design drawing of a component of a wind farm in a wind farm layout model, a professional two-dimensional design software can be used for designing and drawing the component of the wind farm, for example, the component of the wind farm is designed and drawn through a Computer Aided Design (CAD) software, so as to make the two-dimensional design drawing of the component of the wind farm, and the two-dimensional design drawing can meet the requirements of traditional constructors and constructors on detailed design parameters. .

206. According to the deployment position of the three-dimensional model of the wind power plant in the three-dimensional terrain model, establishing an incidence relation between the three-dimensional model of the wind power plant and the three-dimensional terrain model;

after the three-dimensional terrain model is obtained in step 202 and the three-dimensional model of the wind farm is obtained in step 203, the deployment position of the wind farm can be determined in the three-dimensional terrain model, and the incidence relation between the three-dimensional model of the wind farm and the deployment position is established, so that the three-dimensional model of the wind farm can be accurately positioned in the three-dimensional terrain model.

207. Establishing an incidence relation between the components of the wind power plant and a two-dimensional design drawing of the components to obtain a wind power plant layout model;

after the three-dimensional model of the wind farm is obtained in step 203 and the two-dimensional design drawing of the component of the wind farm is obtained in step 204 or step 205, each component may be determined in the three-dimensional model of the wind farm, and the two-dimensional design drawing association relationship of the corresponding component may be set for each component. If the step 206 and the step have completed the setting of the association relationship, the wind power plant layout model can be obtained.

208. Uploading the wind power plant layout model to a server;

after the wind farm layout model is obtained in step 207, the wind farm layout model may be uploaded to a server and an access link generated. The uploading server of the wind power plant layout model is used for remotely accessing the wind power plant layout model, and the wind power plant layout model of the uploading server can access the access link through a web or a specified client so as to enrich the display mode of the wind power plant layout model.

209. Receiving a display request for a layout of a wind farm;

after step 207 or step 208, in the embodiment of the present application, a layout display request for the wind farm needs to be received before displaying the layout of the wind farm, where the layout display request for the wind farm may be received through a specified client or web, so as to determine that the display is needed, and when the layout of the wind farm is not required to be displayed, the layout display for the wind farm is not generally provided.

210. Displaying a pre-generated wind power plant layout model corresponding to the display request according to the display request, wherein the wind power plant layout model comprises a three-dimensional terrain model and a wind power plant three-dimensional model deployed in the three-dimensional terrain model, the three-dimensional terrain model reflects geographical environment information of the wind power plant, and the wind power plant three-dimensional model reflects information of components of the wind power plant;

after receiving the layout display request for the wind farm in step 209, the corresponding wind farm layout model may be displayed according to the layout display request information of the wind farm, where the wind farm layout model is the model generated in step 207, and in this step, if the request received in step 209 is received by a specified client, the display is performed at the client, and if the wind farm layout model in the server is accessed through a web page, the display is performed at the web page.

211. Receiving a display request for a target component of a three-dimensional model of a wind power plant;

in the process of displaying the wind farm layout model in step 210, a display request for a specific component of the three-dimensional model of the wind farm may be received, where the specific component specified by the received display request is called a target component. The display request in this step may be a display request for the target component sent by a mouse, touch, voice, or the like, and the specific request form is not limited again.

212. And displaying a two-dimensional design drawing of the target component, wherein the two-dimensional design drawing reflects the design information of the target component.

After receiving the display request for the target component in step 211, the two-dimensional design drawing of the corresponding target component may be displayed according to the display request for the target component, where the two-dimensional design drawing is the two-dimensional design drawing of the target component obtained in step 204 or step 205.

It should be noted that, in the embodiment of the present application, there is no sequential execution relationship between steps 201 and 203, between steps 201 and 205, and between steps 203 and 205, and the execution may be performed simultaneously or not simultaneously, which is not limited herein.

In the embodiment of the application, the obtained three-dimensional design model of the wind power plant and the two-dimensional design drawing of the component parts of the wind power plant are associated with the three-dimensional terrain model, a three-dimensional scene-based main display mode is adopted, meanwhile, auxiliary association display with the two-dimensional design drawing can be accepted, and the problem that a user cannot intuitively understand the content to be expressed by the project engineering design of the wind power plant due to independent two-dimensional design drawing display is solved.

The above description is given for the visual display method of the wind farm in the embodiment of the present application, and the following description is given for the visual display device of the wind farm in the embodiment of the present application, please refer to fig. 3, where the present application provides an embodiment of the visual display device of the wind farm, including:

a first receiving unit 301, configured to receive a display request for a layout of a wind farm;

a first display unit 302, configured to display, according to the display request, a pre-generated wind farm layout model corresponding to the display request, where the wind farm layout model includes a three-dimensional terrain model and a wind farm three-dimensional model deployed in the three-dimensional terrain model, the three-dimensional terrain model reflects information of a geographic environment where the wind farm is located, and the wind farm three-dimensional model reflects information of components of the wind farm;

a second receiving unit 303, configured to receive a display request for a target component of the three-dimensional model of the wind farm;

a second displaying unit 304, configured to display a two-dimensional design drawing of the target component, where the two-dimensional design drawing reflects design information of the target component.

In the embodiment of the present application, the operation performed by the wind farm visualization display device is similar to the operation in fig. 1, and is not described herein again.

In the embodiment of the application, the three-dimensional design model of the wind power plant, the two-dimensional design drawing of the components of the wind power plant and the three-dimensional terrain model are associated, a three-dimensional scene-based main display mode is adopted, meanwhile, auxiliary association display of the two-dimensional design drawing is considered, and the problem that a user cannot intuitively understand the content to be expressed by the project engineering design of the wind power plant due to single two-dimensional design drawing display is solved.

Referring to fig. 4, the present application provides another embodiment of a visual display device for a wind farm, including:

a first receiving unit 401, configured to receive a display request for a layout of a wind farm;

a first display unit 402, configured to display, according to the display request, a pre-generated wind farm layout model corresponding to the display request, where the wind farm layout model includes a three-dimensional terrain model and a wind farm three-dimensional model deployed in the three-dimensional terrain model, the three-dimensional terrain model reflects information of a geographic environment where the wind farm is located, and the wind farm three-dimensional model reflects information of components of the wind farm;

a second receiving unit 403, configured to receive a display request for a target component of the three-dimensional model of the wind farm;

a second displaying unit 404, configured to display a two-dimensional design drawing of the target component, where the two-dimensional design drawing reflects design information of the target component.

Optionally, the wind farm visualization display device further includes:

an obtaining unit 405, configured to obtain the three-dimensional terrain model, the three-dimensional wind farm model, and a two-dimensional design drawing of a component of the wind farm;

a first establishing unit 406, configured to establish an association relationship between the three-dimensional model of the wind farm and the three-dimensional terrain model according to a deployment position of the three-dimensional model of the wind farm in the three-dimensional terrain model;

and a second establishing unit 407, configured to establish an association relationship between the component of the wind farm and the two-dimensional design drawing of the component, so as to obtain the wind farm layout model.

Optionally, when acquiring the three-dimensional terrain model, the acquiring unit 405 specifically includes:

acquiring geographic environment information of the location of the wind power plant;

and manufacturing the three-dimensional terrain model according to the geographical environment information of the location of the wind power plant.

Optionally, when the obtaining unit 405 obtains the three-dimensional model of the wind farm, the obtaining unit specifically includes:

and performing three-dimensional modeling on the components of the wind power plant through building information model software to obtain a three-dimensional model of the wind power plant.

Optionally, when the obtaining unit 405 obtains the two-dimensional design drawing of the component of the wind farm, the obtaining unit specifically includes:

exporting the components of the three-dimensional model of the wind power plant as a two-dimensional design drawing of the components of the wind power plant through building information model software;

or manufacturing a two-dimensional design drawing of the component parts of the wind power plant.

In the embodiment of the present application, the operation performed by the wind farm visualization display device is similar to the operation in fig. 2, and is not described herein again.

In the embodiment of the application, the obtained three-dimensional design model of the wind power plant and the two-dimensional design drawing of the component parts of the wind power plant are associated with the three-dimensional terrain model, a three-dimensional scene-based main display mode is adopted, meanwhile, auxiliary association display with the two-dimensional design drawing can be accepted, and the problem that a user cannot intuitively understand the content to be expressed by the project engineering design of the wind power plant due to independent two-dimensional design drawing display is solved.

Another embodiment of the visual display device for a wind farm is described below, with reference to fig. 5, which specifically includes:

the wind farm visualization display device 500 may include one or more Central Processing Units (CPUs) 501 and a memory 505, where one or more applications or data are stored in the memory 505. Memory 505 may be volatile storage or persistent storage, among others. The program stored in memory 505 may include one or more modules, each of which may include a series of instructional operations on a wind farm visualization. Still further, the central processor 501 may be configured to communicate with the memory 505 to execute a series of instruction operations in the memory 505 on the wind farm visualization display 500. The wind farm visualization presentation apparatus 500 may also include one or more power supplies 502, one or more wired or wireless network interfaces 503, one or more input-output interfaces 504, and/or one or more operating systems, such as Windows Server, Mac OS X, Unix, Linux, FreeBSD, etc. The central processing unit 501 may perform the operations in the embodiments shown in fig. 1 to fig. 2, which are not described herein again.

It is clear to those skilled in the art that, for convenience and brevity of description, the specific working processes of the above-described systems, apparatuses and units may refer to the corresponding processes in the foregoing method embodiments, and are not described herein again.

In the several embodiments provided in the present application, it should be understood that the disclosed system, apparatus and method may be implemented in other manners. For example, the above-described apparatus embodiments are merely illustrative, and for example, the division of the units is only one logical division, and other divisions may be realized in practice, for example, a plurality of units or components may be combined or integrated into another system, or some features may be omitted, or not executed. In addition, the shown or discussed mutual coupling or direct coupling or communication connection may be an indirect coupling or communication connection through some interfaces, devices or units, and may be in an electrical, mechanical or other form.

In addition, functional units in the embodiments of the present application may be integrated into one processing unit, or each unit may exist alone physically, or two or more units are integrated into one unit. The integrated unit can be realized in a form of hardware, and can also be realized in a form of a software functional unit.

The integrated unit, if implemented in the form of a software functional unit and sold or used as a stand-alone product, may be stored in a computer readable storage medium. Based on such understanding, the technical solution of the present application may be substantially implemented or contributed to by the prior art, or all or part of the technical solution may be embodied in a software product, which is stored in a storage medium and includes instructions for causing a computer device (which may be a personal computer, a server, or a network device) to execute all or part of the steps of the method according to the embodiments of the present application. And the aforementioned storage medium includes: a U-disk, a removable hard disk, a read-only memory (ROM), a Random Access Memory (RAM), a magnetic disk or an optical disk, and various other media capable of storing program codes.

Claims (9)

1. A visual display method for layout of a wind power plant is characterized by comprising the following steps:

receiving a display request for a layout of a wind farm;

displaying a pre-generated wind power plant layout model corresponding to the display request according to the display request, wherein the wind power plant layout model comprises a three-dimensional terrain model and a wind power plant three-dimensional model deployed in the three-dimensional terrain model, the three-dimensional terrain model reflects geographical environment information of the wind power plant, and the wind power plant three-dimensional model reflects information of components of the wind power plant;

receiving a display request for a target component of the three-dimensional model of the wind power plant;

displaying a two-dimensional design drawing of the target component part, wherein the two-dimensional design drawing reflects design information of the target component part.

2. The visualization display method for the layout of the wind farm according to claim 1, wherein the generation manner of the wind farm layout model comprises:

acquiring a two-dimensional design drawing of the three-dimensional terrain model, the three-dimensional model of the wind power plant and the component parts of the wind power plant;

establishing an incidence relation between the three-dimensional model of the wind power plant and the three-dimensional terrain model according to the deployment position of the three-dimensional model of the wind power plant in the three-dimensional terrain model;

and establishing an incidence relation between the components of the wind power plant and the two-dimensional design drawing of the components to obtain the wind power plant layout model.

3. The visualization display method for the layout of the wind farm according to claim 2, wherein the obtaining of the three-dimensional terrain model comprises:

acquiring geographic environment information of the location of the wind power plant;

and manufacturing the three-dimensional terrain model according to the geographical environment information of the location of the wind power plant.

4. The visualization display method for the layout of the wind farm according to claim 2, wherein the obtaining of the three-dimensional model of the wind farm comprises:

and performing three-dimensional modeling on the components of the wind power plant through building information model software to obtain a three-dimensional model of the wind power plant.

5. The visualization display method for the layout of the wind farm according to claim 2, wherein the obtaining of the two-dimensional design drawing of the component parts of the wind farm comprises:

exporting the components of the three-dimensional model of the wind power plant as a two-dimensional design drawing of the components of the wind power plant through building information model software;

or manufacturing a two-dimensional design drawing of the component parts of the wind power plant.

6. The utility model provides a visual display device of wind-powered electricity generation field overall arrangement which characterized in that includes:

the system comprises a first receiving unit, a second receiving unit and a control unit, wherein the first receiving unit is used for receiving a display request for the layout of the wind power plant;

the first display unit is used for displaying a pre-generated wind power plant layout model corresponding to the display request according to the display request, wherein the wind power plant layout model comprises a three-dimensional terrain model and a wind power plant three-dimensional model deployed in the three-dimensional terrain model, the three-dimensional terrain model reflects geographical environment information of the wind power plant, and the wind power plant three-dimensional model reflects information of components of the wind power plant;

the second receiving unit is used for receiving a display request of a target component of the three-dimensional model of the wind power plant;

and the second display unit is used for displaying a two-dimensional design drawing of the target component, wherein the two-dimensional design drawing reflects the design information of the target component.

7. The utility model provides a visual display device of wind-powered electricity generation field overall arrangement which characterized in that includes:

the system comprises a processor, a memory, a bus and input and output equipment;

the processor is connected with the memory and the input and output equipment;

the bus is respectively connected with the processor, the memory and the input and output equipment;

the processor performs the method of any one of claims 1 to 5.

8. A computer storage medium having stored therein instructions that, when executed on a computer, cause the computer to perform the method of any one of claims 1 to 5.

9. A computer program product, characterized in that the computer program product, when executed on a computer, causes the computer to perform the method according to any of claims 1 to 5.

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