CN112685871B - Lightning protection range simulation method, device, equipment and storage medium - Google Patents

Abstract

The application relates to a lightning protection range simulation method, which comprises the following steps: extracting the information of the lightning rod arranged in the Revit drawing software; based on the information of the lightning rod, calculating the lightning protection range according to the calculation parameters of the lightning protection to obtain a lightning protection calculation result; drawing to obtain a lightning protection model according to the lightning protection calculation parameters and the lightning protection calculation results; loading the lightning protection model into the Revit drawing software, and displaying the three-dimensional protection effect of the lightning protection model by the Revit drawing software. The lightning protection model in the three-dimensional mode is constructed through the lightning protection calculation parameters and the calculation results, and compared with the plane protection range mode corresponding to the protection elevation in the related art, the three-dimensional display of the protection range is realized, so that the result of the protection range is more accurate, and the simulation accuracy of the lightning protection range is effectively improved.

Description

Lightning protection range simulation method, device, equipment and storage medium

Technical Field

The disclosure relates to the technical field of computer software simulation, in particular to a lightning protection scope simulation method, a device, equipment and a storage medium.

Background

With the rising temperature of BIM technology in recent years, the importance of Revit software is gradually displayed, and as a representative of three-dimensional design software, the powerful functions and obvious advantages of Revit software are favored by a plurality of design houses. However, the Revit software only provides drawing of basic primitives, and it is difficult to simulate three-dimensional lightning protection effects in the Revit software according to lightning protection calculation information. In the related art, the lightning protection effect is generally judged by adopting a plane protection range corresponding to the protection elevation, so that the precision of the lightning protection effect is lower.

Disclosure of Invention

In view of this, the disclosure provides a lightning protection range simulation method, which can effectively improve the accuracy of the lightning protection range.

According to an aspect of the present application, there is provided a lightning protection scope simulation method, including:

extracting the information of the lightning rod arranged in the Revit drawing software; wherein the lightning rod information comprises the number of the arranged lightning rods, and the height parameter and the position parameter of each lightning rod;

based on the lightning rod information, calculating the lightning protection range according to the lightning protection calculation parameters to obtain a lightning protection calculation result;

drawing to obtain a lightning protection model according to the lightning protection calculation parameters and the lightning protection calculation results;

loading the lightning protection model into the Revit drawing software, and displaying the three-dimensional protection effect of the lightning protection model by the Revit drawing software.

In one possible implementation manner, based on the lightning rod information, at least one of a rolling ball method and a broken line method is adopted when lightning protection calculation is performed according to lightning protection calculation parameters.

In one possible implementation manner, drawing a lightning protection model according to the lightning protection calculation parameter and the lightning protection calculation result includes:

creating a corresponding family file in the Revit drawing software according to the lightning protection calculation parameters and the lightning protection calculation results; wherein the family file comprises various graphs for drawing the lightning protection model;

and after editing the graphics in the family file, fusing the edited graphics, and drawing to obtain the lightning protection model.

In one possible implementation, the method further includes:

and verifying the lightning protection model based on the Revit drawing software.

In one possible implementation manner, the verifying the lightning protection model based on the Revit drawing software includes:

based on the lightning protection model and the equipment currently required to be protected, respectively extracting first stereo data and second stereo data; the first three-dimensional data comprise a data structure of a three-dimensional figure of the lightning protection model in Revit drawing software, and the second three-dimensional data comprise a data structure of a three-dimensional figure of the equipment in Revit drawing software;

based on a joint operation method in the Revit drawing software, joint operation is carried out on the first stereo data and the second stereo data to obtain joint stereo data;

comparing the surface area in the combined three-dimensional data with the surface area in the first three-dimensional data, and determining that the lightning protection model is reasonable when the surface area in the combined three-dimensional data is the same as the surface area in the first three-dimensional data;

and when the surface area in the combined three-dimensional data is different from the surface area in the first three-dimensional data, determining the rationality of the lightning protection model according to the position relation between the equipment and the lightning protection model.

According to another aspect of the application, there is also provided a lightning protection scope simulation device, including an extraction module, a calculation module, a drawing module and a display module;

the extraction module is configured to extract the information of the lightning rod arranged in the Revit drawing software; wherein the lightning rod information comprises the number of the arranged lightning rods, and the height parameter and the position parameter of each lightning rod;

the calculation module is configured to calculate the lightning protection range according to the lightning protection calculation parameters based on the lightning receiving rod information to obtain a lightning protection calculation result;

the drawing module is configured to draw a lightning protection model according to the lightning protection calculation parameters and the lightning protection calculation results;

the display module is configured to load the lightning protection model into a project file in the Revit drawing software, and the Revit drawing software displays the three-dimensional protection effect of the lightning protection model.

In one possible implementation, the drawing module includes a family file creation sub-module and an editing processing sub-module;

the group file creation sub-module is configured to create a corresponding group file in the Revit drawing software according to the lightning protection calculation parameters and the lightning protection calculation results; wherein the family file comprises various graphs for drawing the lightning protection model;

and the editing processing submodule is configured to edit the graphics in the family file, then fuse the edited graphics and draw the fused graphics to obtain the lightning protection model.

In one possible implementation, the device further comprises a verification module;

the verification module is configured to verify the lightning protection model based on the Revit drawing software.

According to another aspect of the present application, there is also provided a lightning protection scope simulation apparatus including:

a processor;

a memory for storing processor-executable instructions;

wherein the processor is configured to implement any of the methods described above when executing the executable instructions.

According to an aspect of the present application there is also provided a non-transitory computer readable storage medium having stored thereon computer program instructions which, when executed by a processor, implement a method as described in any of the preceding.

According to the lightning protection range simulation method, the three-dimensional display effect of the lightning protection model is achieved by combining the Revit drawing software with the lightning protection range calculation, so that the protection range of the lightning protection model is more visual. And, through the lightning protection calculation parameter and the lightning protection model of calculation result construction three-dimensional mode, compared with the plane protection scope mode that uses the protection elevation to correspond in the correlation technique, realized the three-dimensional demonstration of protection scope to make the result of protection scope more accurate, this accuracy of lightning protection scope simulation that has also effectively improved.

Other features and aspects of the present disclosure will become apparent from the following detailed description of exemplary embodiments, which proceeds with reference to the accompanying drawings.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate exemplary embodiments, features and aspects of the present disclosure and together with the description, serve to explain the principles of the disclosure.

FIG. 1 is a flow chart of a lightning protection range simulation method according to an embodiment of the application;

FIG. 2 is a process diagram of a lightning protection range simulation method according to another embodiment of the application;

FIG. 3 shows a system architecture diagram corresponding to the lightning protection scope simulation method of the present application;

FIG. 4 is a schematic view showing the effect of the lightning protection model simulated in the lightning protection scope simulation method of the present application;

FIG. 5 shows a block diagram of a lightning protection range simulation device according to an embodiment of the application;

fig. 6 shows a block diagram of the lightning protection scope simulation apparatus according to an embodiment of the present application.

Detailed Description

Various exemplary embodiments, features and aspects of the disclosure will be described in detail below with reference to the drawings. In the drawings, like reference numbers indicate identical or functionally similar elements. Although various aspects of the embodiments are illustrated in the accompanying drawings, the drawings are not necessarily drawn to scale unless specifically indicated.

The word "exemplary" is used herein to mean "serving as an example, embodiment, or illustration. Any embodiment described herein as "exemplary" is not necessarily to be construed as preferred or advantageous over other embodiments.

In addition, numerous specific details are set forth in the following detailed description in order to provide a better understanding of the present disclosure. It will be understood by those skilled in the art that the present disclosure may be practiced without some of these specific details. In some instances, methods, means, elements, and circuits well known to those skilled in the art have not been described in detail in order not to obscure the present disclosure.

Fig. 1 shows a flow chart of the lightning protection scope simulation method of the present application. Referring to fig. 1, the lightning protection range simulation method of the present application includes: step S100, extracting the information of the lightning rod arranged in the Revit drawing software. Here, it should be explained that the lightning rod information includes the number of the arranged lightning rods and the height parameter and the position parameter of each lightning rod. It will be understood by those skilled in the art that the lightning rod may be a lightning rod, and the number of the lightning rods may be one or more than two, which is not specifically limited herein.

Meanwhile, it is also pointed out that the arrangement of the lightning rod in the application is arranged according to the actual design requirement in the drawing in the Revit drawing software.

After the corresponding lightning rod information is extracted, step S200 may be executed, and based on the extracted lightning rod information, the lightning protection range is calculated according to the lightning protection calculation parameters, so as to obtain a corresponding lightning protection calculation result. Here, the lightning protection calculation may be a rolling ball method or a broken line method. The calculation parameters on which the different calculation methods are based may be different. Meanwhile, the rolling ball method and the fold line method are conventional technical means in the field, so that detailed calculation process of the step is not repeated.

After the calculation results of the lightning protection are obtained, the lightning protection model is drawn according to the lightning protection calculation parameters and the lightning protection calculation results through step S300. And then, through step S400, the drawn lightning protection model is loaded into Revit drawing software, and the three-dimensional protection effect of the lightning protection model is displayed by the Revit drawing software.

Therefore, the lightning protection range simulation method combines the Revit drawing software with the lightning protection range calculation to realize the three-dimensional display effect of the lightning protection model, so that the protection range of the lightning protection model is more visual. And, through the lightning protection calculation parameter and the lightning protection model of calculation result construction three-dimensional mode, compared with the plane protection scope mode that uses the protection elevation to correspond in the correlation technique, realized the three-dimensional demonstration of protection scope to make the result of protection scope more accurate, this accuracy of lightning protection scope simulation that has also effectively improved.

In one possible implementation manner, since the lightning protection scope simulation method of the application combines with the Revit drawing software, the three-dimensional creation of the lightning protection model can be performed based on the Revit drawing software when the lightning protection model is drawn.

When the three-dimensional creation of the lightning protection model is created based on the Revit drawing software, the three-dimensional creation can be realized in the following way. That is, first, based on the lightning protection calculation parameters (the calculation parameters may be determined according to a specifically adopted calculation manner) and the lightning protection calculation result, a corresponding family file is created in the Revit drawing software. Wherein, the family file comprises various graphics for drawing the lightning protection model. Such as: curves, lines, rectangles, dots, etc. And then, editing the graphics in the family file, fusing the edited various images, and drawing to obtain the lightning protection model. Here, it should be noted that the operation of editing the graphics in the family file may include stretching, lofting, fusing, and the like. Among other things, those skilled in the art will appreciate that stretching, lofting, and fusing are operations that are persisted in the Revit drawing software. Therefore, the lightning protection range simulation method provided by the application is edited by directly using the operation of solid storage in the Revit drawing software, so that the development difficulty of the simulation method is effectively reduced, and the lightning protection range simulation method provided by the application is easier to realize.

After the drawn lightning protection model is drawn, the obtained lightning protection model can be loaded into the Revit drawing software for display. When the three-dimensional display method is used for displaying, the lightning protection model can be loaded into a project file in the Revit drawing software, and then the three-dimensional display of the protection scope of the lightning protection model is realized by running the project file. The operation is simple and easy to realize.

Further, referring to fig. 2 and fig. 3, in the lightning protection scope simulation method of the present application, after the lightning protection model is drawn and created, and the three-dimensional display of the protection scope is performed by the Revit drawing software, in order to ensure the arrangement rationality of the lightning receiving rod, a step of verifying the lightning protection model based on the Revit drawing software may be further included. Wherein, when checking the lightning protection model, the following method can be used for realizing.

First, based on a lightning protection model and equipment currently required to be protected, first stereo data and second stereo data are respectively extracted. The first three-dimensional data comprises a data structure of a three-dimensional figure of a lightning protection model in the Revit drawing software, and the second three-dimensional data comprises a data structure of a three-dimensional figure of equipment in the Revit drawing software. Meanwhile, it should be noted that the number of the devices to be protected currently may be one or more. When the number of the devices to be protected is plural, the second stereo data of each device can be obtained in a way of extracting one by one, and then verification is performed one by one for each device. In addition, it should be noted that the equipment to be protected currently may be electrical equipment, buildings, pipelines, etc., and is not limited herein.

And then, based on a joint operation method in Revit drawing software, carrying out joint operation on the first stereo data and the second stereo data to obtain joint stereo data. Here, it should be noted that the joint operation method in the Revit drawing software is a sol-related calculation method provided in the Revit drawing software. The combined operation method is also fixedly stored in Revit drawing software, so that the development difficulty of the lightning protection range simulation method is further reduced, and the development efficiency is improved.

After the joint stereo data is obtained, the surface area in the joint stereo data can be compared with the surface area in the first stereo data. When the surface area in the combined three-dimensional data is the same as the surface area in the first three-dimensional data, the lightning protection model can be determined to be reasonable, and the equipment to be protected currently is in the protection range of the lightning protection model.

When the surface area in the combined three-dimensional data is different from the surface area in the first three-dimensional data, the rationality of the lightning protection model can be determined according to the position relation between the equipment and the lightning protection model. Such as: when the equipment to be protected is positioned below the protection range corresponding to the lightning protection model, the equipment is possibly installed underground, so that the equipment can be considered to be positioned in the protection range of the lightning protection model. Otherwise, the device can be determined not to be in the protection range of the lightning protection model and cannot be protected, which indicates that the currently arranged lightning receiving rod is unreasonable, has a bug and needs to be rearranged. Meanwhile, when the lightning protection model is determined to be unreasonable, prompt information of verification errors can be sent out, and meanwhile, the prompt information is positioned at the position of unprotected equipment, so that a designer is effectively reminded, and the intelligent lightning protection range simulation method is also enabled.

In order to more clearly illustrate the verification process of the lightning protection model in the lightning protection scope simulation method of the present application, the following description will be given by way of example.

Referring to fig. 4, an effect diagram of a lightning protection model simulated by the lightning protection range simulation method of the present application is shown. It should be noted that, the protection range effect chart displayed by the Revit drawing software includes the lightning rod 001, the lightning protection model 002, and the device objects (i.e., the device a003a, the device B003B, the device C003C, and the device D003D) that need to be protected. In this embodiment, the devices currently required to be protected include four, device a, device B, device C, and device D, respectively. When the lightning protection model 002 in this embodiment is verified, the solid data information (i.e., the second stereoscopic data) of the device a, the device B, the device C, and the device D can be extracted, respectively. At the same time, the solid data information (i.e., the first stereo data) of the lightning protection range corresponding to the lightning protection model 002 is also extracted. And judging the equipment A, the equipment B, the equipment C and the equipment D one by one according to the sol related calculation method provided by the Revit drawing software.

For example, the device a is described. The method comprises the steps of carrying out joint operation on Solid data of equipment A and Solid data of a lightning protection range corresponding to a lightning protection model, obtaining joint Solid data (namely joint three-dimensional data) of the lightning protection range corresponding to the equipment A and the lightning protection model after joint operation, comparing the surface area of the joint Solid data with the surface area of the Solid data of the lightning protection range of the lightning protection model, if the surface areas are the same, considering the equipment A to be completely in the protection range, and if the surface areas are different, checking the position relation between the equipment A and the protection range, if the position of the equipment A is below the protection range, considering the equipment A to be in the protection range, otherwise, considering the equipment to be incapable of being protected, prompting verification error information, and positioning to an equipment graph.

Similarly, the judging manner of the device B, the device C and the device D is the same as or similar to that of the device a, so that the repetition is not repeated.

Therefore, according to the lightning protection range simulation method, the Revit drawing software is combined with lightning protection calculation, and the lightning protection model is accurately created by simulating the protection range generated by calculation parameters and calculation results, so that the accurate, visual and rapid three-dimensional display of the lightning protection range is achieved. Meanwhile, the protected object can be checked according to the created lightning protection model, so that the working efficiency of a designer is greatly improved, redundant operation in the drawing process is reduced, and the precision of lightning protection design is further improved.

It should be noted that, although the lightning protection scope simulation method of the present application is described by taking fig. 4 as an example, those skilled in the art will understand that the present disclosure should not be limited thereto. In fact, the user can flexibly set the method steps according to personal preference and/or actual application scene, so long as three-dimensional display of the lightning protection scope can be realized.

Correspondingly, the application further provides a lightning protection range simulation device based on the lightning protection range simulation method. Because the working principle of the lightning protection range simulation device provided by the application is the same as or similar to that of the lightning protection range simulation method provided by the application, the description is omitted here.

Referring to fig. 5, the lightning protection range simulation device 100 of the present application includes an extraction module 110, a calculation module 120, a drawing module 130, and a display module 140. Wherein the extraction module 110 is configured to extract the lightning rod information arranged in the Revit cartography software. Here, it is to be noted that the lightning rod information includes the number of the arranged lightning rods and the height parameter and the position parameter of each lightning rod. The calculation module 120 is configured to calculate the lightning protection range according to the lightning protection calculation parameters based on the lightning rod information, so as to obtain a lightning protection calculation result. Here, the calculation module 120 may use a rolling ball method or a fold line method when calculating the lightning protection range. Therefore, the calculation module 120 can directly call the corresponding algorithm to calculate, and the calculation is convenient and quick.

And a drawing module 130 configured to draw a lightning protection model based on the lightning protection calculation parameters and the lightning protection calculation result. And the display module 140 is configured to load the lightning protection model into the Revit drawing software, and display the three-dimensional protection effect of the lightning protection model by the Revit drawing software.

In one possible implementation, the drawing module 130 includes a family file creation sub-module and an editing processing sub-module. The system comprises a group file creation sub-module, a lightning protection calculation module and a lightning protection calculation module, wherein the group file creation sub-module is configured to create a corresponding group file in Revit drawing software according to lightning protection calculation parameters and lightning protection calculation results; wherein, the family file comprises various graphics for drawing the lightning protection model. And the editing processing sub-module is configured to edit the graphics in the family file, then fuse the edited graphics, and draw the graphics to obtain the lightning protection model.

In one possible implementation, a verification module 150 is also included. Wherein, the verification module 150 is configured to verify the lightning protection model based on the collision checking function in the Revit drawing software.

Specifically, the verification module 150 includes a data extraction sub-module, a joint operation sub-module, a first comparison sub-module, and a second comparison sub-module (not shown in the figure). The data extraction sub-module is configured to extract first three-dimensional data and second three-dimensional data respectively based on the lightning protection model and equipment which needs to be protected currently; the first three-dimensional data comprises a data structure of a three-dimensional figure of a lightning protection model in the Revit drawing software, and the second three-dimensional data comprises a data structure of a three-dimensional figure of equipment in the Revit drawing software. And the joint operation sub-module is configured to perform joint operation on the first stereo data and the second stereo data based on a joint operation method in Revit drawing software to obtain joint stereo data. And the first comparison submodule is configured to compare the surface area in the combined three-dimensional data with the surface area in the first three-dimensional data, and determine that the lightning protection model is reasonable when the surface area in the combined three-dimensional data is the same as the surface area in the first three-dimensional data. And the second comparison submodule is configured to determine the rationality of the lightning protection model according to the position relation between the equipment and the lightning protection model when the surface area in the combined three-dimensional data is different from the surface area in the first three-dimensional data.

Still further in accordance with another aspect of the present disclosure, there is also provided a lightning protection scope simulation apparatus 200. Referring to fig. 6, the lightning protection scope simulation device 200 of the embodiment of the present disclosure includes a processor 210 and a memory 220 for storing instructions executable by the processor 210. Wherein the processor 210 is configured to implement any of the lightning protection scope simulation methods described above when executing the executable instructions.

Here, it should be noted that the number of processors 210 may be one or more. Meanwhile, in the lightning protection scope simulation apparatus 200 of the embodiment of the present disclosure, an input device 230 and an output device 240 may be further included. The processor 210, the memory 220, the input device 230, and the output device 240 may be connected by a bus, or may be connected by other means, which is not specifically limited herein.

The memory 220 is a computer-readable storage medium that can be used to store software programs, computer-executable programs, and various modules, such as: the lightning protection scope simulation method of the embodiment of the disclosure corresponds to a program or a module. The processor 210 performs various functional applications and data processing of the lightning protection scope simulation device 200 by running software programs or modules stored in the memory 220.

The input device 230 may be used to receive an input digital or signal. Wherein the signal may be a key signal generated in connection with user settings of the device/terminal/server and function control. The output means 240 may comprise a display device such as a display screen.

According to another aspect of the present disclosure, there is also provided a non-transitory computer readable storage medium having stored thereon computer program instructions which, when executed by the processor 210, implement any of the lightning protection scope simulation methods described in the foregoing.

The foregoing description of the embodiments of the present disclosure has been presented for purposes of illustration and description, and is not intended to be exhaustive or limited to the embodiments disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art without departing from the scope and spirit of the various embodiments described. The terminology used herein was chosen in order to best explain the principles of the embodiments, the practical application, or the technical improvement of the technology in the marketplace, or to enable others of ordinary skill in the art to understand the embodiments disclosed herein.

Claims (7)

1. The lightning protection range simulation method is characterized by comprising the following steps of:

extracting the information of the lightning rod arranged in the Revit drawing software; wherein the lightning rod information comprises the number of the arranged lightning rods, and the height parameter and the position parameter of each lightning rod;

based on the lightning rod information, calculating the lightning protection range according to the lightning protection calculation parameters to obtain a lightning protection calculation result;

drawing to obtain a lightning protection model according to the lightning protection calculation parameters and the lightning protection calculation results;

loading the lightning protection model into the Revit drawing software, and displaying the three-dimensional protection effect of the lightning protection model by the Revit drawing software;

further comprises:

checking the lightning protection model based on the Revit drawing software;

wherein, based on the Revit drawing software, the verification of the lightning protection model includes:

based on the lightning protection model and the equipment currently required to be protected, respectively extracting first stereo data and second stereo data; the first three-dimensional data comprise a data structure of a three-dimensional figure of the lightning protection model in Revit drawing software, and the second three-dimensional data comprise a data structure of a three-dimensional figure of the equipment in Revit drawing software;

based on a joint operation method in the Revit drawing software, joint operation is carried out on the first stereo data and the second stereo data to obtain joint stereo data;

comparing the surface area in the combined three-dimensional data with the surface area in the first three-dimensional data, and determining that the lightning protection model is reasonable when the surface area in the combined three-dimensional data is the same as the surface area in the first three-dimensional data;

and when the surface area in the combined three-dimensional data is different from the surface area in the first three-dimensional data, determining the rationality of the lightning protection model according to the position relation between the equipment and the lightning protection model.

2. The method according to claim 1, wherein the calculation of the lightning protection range is performed based on the lightning rod information according to the lightning protection calculation parameters by at least one of a rolling ball method and a broken line method.

3. The method of claim 1, wherein drawing a lightning protection model from the lightning protection calculation parameters and the lightning protection calculation results comprises:

creating a corresponding family file in the Revit drawing software according to the lightning protection calculation parameters and the lightning protection calculation results; wherein the family file comprises various graphs for drawing the lightning protection model;

and after editing the graphics in the family file, fusing the edited graphics, and drawing to obtain the lightning protection model.

4. The lightning protection range simulation device is characterized by comprising an extraction module, a calculation module, a drawing module and a display module;

the extraction module is configured to extract the information of the lightning rod arranged in the Revit drawing software; wherein the lightning rod information comprises the number of the arranged lightning rods, and the height parameter and the position parameter of each lightning rod;

the calculation module is configured to calculate the lightning protection range according to the lightning protection calculation parameters based on the lightning receiving rod information to obtain a lightning protection calculation result;

the drawing module is configured to draw a lightning protection model according to the lightning protection calculation parameters and the lightning protection calculation results;

the display module is configured to load the lightning protection model into a project file in the Revit drawing software, and the Revit drawing software displays the three-dimensional protection effect of the lightning protection model;

the system also comprises a verification module;

the verification module is configured to verify the lightning protection model based on the Revit drawing software;

the verification module comprises a data extraction sub-module, a joint operation sub-module, a first comparison sub-module and a second comparison sub-module; the data extraction sub-module is configured to extract first three-dimensional data and second three-dimensional data respectively based on the lightning protection model and equipment which needs to be protected currently; the first three-dimensional data comprises a data structure of a three-dimensional figure of a lightning protection model in the Revit drawing software, and the second three-dimensional data comprises a data structure of a three-dimensional figure of equipment in the Revit drawing software; the joint operation sub-module is configured to perform joint operation on the first stereo data and the second stereo data based on a joint operation method in Revit drawing software to obtain joint stereo data; the first comparison submodule is configured to compare the surface area in the combined three-dimensional data with the surface area in the first three-dimensional data, and determine that the lightning protection model is reasonable when the surface area in the combined three-dimensional data is the same as the surface area in the first three-dimensional data; and the second comparison submodule is configured to determine the rationality of the lightning protection model according to the position relation between the equipment and the lightning protection model when the surface area in the combined three-dimensional data is different from the surface area in the first three-dimensional data.

5. The apparatus of claim 4, wherein the drawing module comprises a family file creation sub-module and an editing processing sub-module;

the group file creation sub-module is configured to create a corresponding group file in the Revit drawing software according to the lightning protection calculation parameters and the lightning protection calculation results; wherein the family file comprises various graphs for drawing the lightning protection model;

and the editing processing submodule is configured to edit the graphics in the family file, then fuse the edited graphics and draw the fused graphics to obtain the lightning protection model.

6. A lightning protection range simulation device, comprising:

a processor;

a memory for storing processor-executable instructions;

wherein the processor is configured to implement the method of any one of claims 1 to 4 when executing the executable instructions.

7. A non-transitory computer readable storage medium having stored thereon computer program instructions, which when executed by a processor, implement the method of any of claims 1 to 4.