KR102020595B1 - System for generating source code used for 3d modeling of permanent drain method and method thereof and record medium recorded with program thereof - Google Patents

Abstract

The present invention relates to a source code generation system used for three-dimensional modeling of a permanent drain method, capable of easily generating a source code, a source code generation method used for three-dimensional modeling of a permanent drain method, and a computer-readable recording medium recorded with a program for performing a source code generation method used for three-dimensional modeling of a permanent drain method. The source code generation system of the present invention comprises: a calculation unit for providing a worker with an interface by operation; and a display unit for displaying the interface on a screen.

Description

A program for performing the source code generation system used for the 3D modeling of the permanent drainage method, the source code generation method used for the 3D modeling of the permanent drainage method, and the source code generation method used for the 3D modeling of the permanent drainage method Written computer-readable recording medium {SYSTEM FOR GENERATING SOURCE CODE USED FOR 3D MODELING OF PERMANENT DRAIN METHOD AND METHOD THEREOF AND RECORD MEDIUM RECORDED WITH PROGRAM THEREOF}

The present invention is a three-dimensional modeling of the permanent drainage method that can easily generate the source code used for the three-dimensional modeling of the permanent drainage method based on the drawing file containing the coordinate values according to the shape of the structure and drainage material two-dimensional model On a computer-readable recording medium having recorded thereon a program for performing the source code generation system used, the source code generation method used for the three-dimensional modeling of the permanent drainage method, and the source code generation method used for the three-dimensional modeling of the permanent drainage method. It is about.

Permanent drain system is a method of forming a drainage path at the bottom of the bottom of the excavated bottom. According to the permanent drainage method, the groundwater induced by the sump is drained to the outside to effectively remove the positive pressure acting on the underground structure. Can be.

In order to verify the feasibility of applying the permanent drainage method, it is necessary to review the design ground level, permeability of each strata, soil wall method, wall and plywood, foundation type, etc. Under no conditions and with a permanent drainage system installed, a review of the positive pressure acting on the foundation for each section should be carried out. If the consideration of positive pressure determines that it is feasible to apply the permanent drainage method, the modeling of the permanent drainage system by numerical method should be carried out.

Modeling of the permanent drainage system by numerical method is generally based on the two-dimensional structure of the ground, but in recent years, three-dimensional modeling has been carried out with the spread of three-dimensional finite element analysis programs for geotechnical engineering such as PLAXIS 3D. It is actively being reviewed. Using three-dimensional modeling, the system can be designed more precisely than two-dimensional modeling.

In order to model the permanent drainage system using a program such as Plaxis 3D, the coordinate values of the feature points for the three-dimensional structure and drainage must be programmed in the same form as the source code. This is a long and cumbersome task even for experienced workers.

As described above, the two-dimensional permanent drainage plan plan is generally created using a two-dimensional program such as CAD, and then the two-dimensional coordinate values of the structure and the drainage are manually extracted from the created two-dimensional permanent drainage plan plan, and then 3 This is done by repetitively entering the source code input window of the phlox 3D program, reflecting the dimensional elements. Source code input as described above takes at least two to four weeks in a typical building, which is inefficient because it takes up a significant portion of the overall system design.

SUMMARY OF THE INVENTION An object of the present invention is to solve the above-mentioned problems, and facilitates the source code used for the three-dimensional modeling of the permanent drainage method based on a drawing file including coordinate values according to the two-dimensional model shape of the structure and the drainage material. Source code generation system used for 3D modeling of permanent drainage method, source code generation method used for 3D modeling of permanent drainage method, and source code generation method used for 3D modeling of permanent drainage method A computer readable recording medium having recorded thereon a program for execution is provided.

In the source code generation system used in the three-dimensional modeling of the permanent drainage method for generating a source code representing a coordinate value according to the shape of the structure and the drainage material in accordance with the present invention, the permanent drainage method Source code generation system used for the three-dimensional modeling of the operation unit for providing an interface to the operator in accordance with the operation; And a display unit for displaying the interface on a screen, wherein the interface provides an input window for inputting information about the structure, information about the drainage material, and information about the model shape, and the calculation unit includes the structure and the drainage material. Generate source code that can be used to generate the three-dimensional model shape of the structure and the drainage on the basis of the information on the drawing file including the coordinate values according to the two-dimensional model shape of the input and the input window, The interface provides a two-dimensional display window for displaying a two-dimensional model shape of the structure and the drainage according to the drawing file, and a three-dimensional display window for displaying a three-dimensional model shape of the structure and the drainage corresponding to the source code. The information on the layer name corresponding to the shape of the two-dimensional model of the structure, The information includes information on the layer name corresponding to the two-dimensional model shape of the drainage material and the positive pressure value, and the information on the model shape includes the two-dimensional reference coordinate value of the model, the model width value, and the model height. A numerical value, a model depth value, and information about a structure depth value, wherein the source code is a file in the form of a PSDLOG extension available in a phlox 3D program, which is a three-dimensional finite element analysis program. Represented in the form of a description executable in the Plaxis 3D program, the source code is used in the three-dimensional modeling of the permanent drainage method, characterized in that when displayed by the Plaxis 3D program displays the results of the three-dimensional modeling Achieved by a source code generation system.

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The purpose is to generate a source code used for the modeling of the permanent drainage method using the source code generation system used for the three-dimensional modeling of the permanent drainage method, the numerical value of the coordinates according to the shape of the two-dimensional model of the structure and drainage A first input step of inputting information on a drawing file including a data into the operation unit; A second input step of inputting information on a structure, information on drainage material, and information on a model shape to the operation unit through an input window provided by the interface; And generating a source code that can be used to generate a three-dimensional model shape of the structure and the drainage material based on the information according to the first input step and the information according to the second input step. And a two-dimensional display window displaying a two-dimensional model shape of the structure and the drainage according to the drawing file, and a three-dimensional display window displaying the three-dimensional model shape of the structure and the drainage corresponding to the source code. Is information on a layer name corresponding to a two-dimensional model shape of the structure, and the information on the drain material includes information on a layer name corresponding to the two-dimensional model shape of the drain material and a positive pressure value. Shape information can be found in the model's two-dimensional reference coordinates, model width values, model height values, model depth values, and structure depth values. The source code is a file in the form of a PSDLOG extension that can be used in a three-dimensional finite element analysis program, Phloxis 3D program, and the source code is always expressed in the form of a description executable in the phlox 3D program. The source code is achieved by the source code generation method used in the three-dimensional modeling of the permanent drainage method, characterized in that when the execution by the phlox 3D program displays the result of the three-dimensional modeling.

The above object is achieved by a computer-readable recording medium having recorded thereon a program for performing a source code generation method used for three-dimensional modeling of a permanent drainage method according to the present invention.

According to the present invention, the source code used for the three-dimensional modeling of the permanent drainage method can be easily generated based on the drawing file including the coordinate values according to the two-dimensional model shape of the structure and the drain. According to this, the working time of the three-dimensional modeling of the permanent drainage method can be significantly reduced.

1 is a configuration diagram of a source code generation system used for three-dimensional modeling of permanent drainage method according to an embodiment of the present invention,
2 illustrates an interface provided according to a source code generation system used for three-dimensional modeling of a permanent drainage method according to an embodiment of the present invention.
FIG. 3 is a diagram illustrating a three-dimensional modeling screen displayed when a source code generated according to a source code generation system used for three-dimensional modeling of a permanent drainage method according to an embodiment of the present invention is executed in a Fluxes 3D program. ,
Figure 4 is a flow chart of the source code generation method used in the three-dimensional modeling of the permanent drainage method according to an embodiment of the present invention,
5 to 8 illustrate screens of a display unit performed according to a source code generation method used for three-dimensional modeling of a permanent drainage method according to an embodiment of the present invention.

Hereinafter, some embodiments of the present invention will be described in detail with reference to the accompanying drawings. In adding reference numerals to the components of each drawing, it should be noted that the same reference numerals are assigned to the same components as much as possible even though they are shown in different drawings.

In the following description of embodiments of the present invention, detailed descriptions of related well-known configurations or functions will be omitted when it is determined that the understanding of the embodiments of the present invention is prevented.

In addition, in describing the components of the embodiments of the present disclosure, terms such as first, second, A, B, (a), and (b) may be used. These terms are only for distinguishing the components from other components, and the nature, order or order of the components are not limited by the terms.

Now, with reference to the accompanying drawings will be described in detail the source code generation system used in the three-dimensional modeling of the permanent drainage method according to an embodiment of the present invention.

1 is a block diagram of a source code generation system used in the three-dimensional modeling of the permanent drainage method according to an embodiment of the present invention, Figure 2 is used in the three-dimensional modeling of the permanent drainage method according to an embodiment of the present invention 3 illustrates an interface provided according to a source code generation system, and FIG. 3 illustrates a source code generated by a source code generation system used for three-dimensional modeling of a permanent drainage method according to an embodiment of the present invention. 3D modeling screen displayed when the program is executed.

As shown in FIG. 1, the source code generation system 100 used in the 3D modeling of the permanent drainage method according to an embodiment of the present invention is stored with the operation unit 110, the display unit 120, and the input unit 130. The unit 140 is included.

The calculation unit 110 performs a calculation so that a program for executing the source code generation method S100 used in the three-dimensional modeling of the permanent drainage method according to an embodiment of the present invention installed in the storage unit 140 to be described later is executed. In this regard, the CPU may be defined as a CPU (Central Processing Unit) or a computing unit including a CPU and a motherboard on which the CPU is installed. The operation unit 110 is electrically connected to the display unit 120, the input unit 130, and the storage unit 140, which will be described later. According to the operation of the operation unit 110 described above, an interface may be provided to the operator as a result of the program execution.

The display unit 120 expresses an interface for displaying a program execution result and a calculation result of the operation unit 110, an input window for inputting various data to be input to the operation unit 110, and the like. It is electrically connected and can be provided as a general monitor.

The input unit 130 converts a physical operation of an operator into an electrical signal so that various signals and data are input to the operation unit 110 so that the interface can be manipulated. The input unit 130 is provided with a mouse, a keyboard, and the like.

Storage unit 140 is a program for performing the source code generation method used in the three-dimensional modeling of the permanent drainage method according to an embodiment of the present invention and a variety of data related thereto is stored, HDD (Hard Disk Drive) It is provided with a storage device such as a solid state drive (SSD). The program installed in the storage unit 140 is operated through the command of the operation unit 110 described above to provide an operator with an interface for checking the operation and execution results.

Here, as shown in FIG. 2, the interface provides an input window for inputting information about the structure, information about the drainage material, and information about the model shape.

Here, the information about the structure may include information about a layer name corresponding to the shape of the 2D model of the structure.

Here, the information on the drainage may include information on the name of the layer corresponding to the shape of the two-dimensional model of the drainage, and a positive pressure value applied to the drainage.

Here, the information about the model shape may include information about the reference coordinate value, model width, model height, model depth, and structure depth of the model.

The model reference coordinate value refers to the two-dimensional reference point at which the expression of the model starts when the three-dimensional modeling is performed, and the model width, the model height, and the model depth refers to the size of the entire model when the two-dimensional modeling is performed. The depth information means the information about the depth from the ground plane of the structure to which the drainage is to be installed on the bottom.

Through the interface, the operator reads a drawing file (e.g., a file with the extension DXF) containing coordinate values according to the shape of the two-dimensional model of the structure and the drainage, as shown in FIG. And, after inputting the information about the drainage, and the information on the model shape in the input window, and inputs the Export command, the calculation unit 110 is a two-dimensional drawing of the coordinates of the two-dimensional model shape of the structure from the layer name of the structure From the file, extract the coordinates of the 2D model shape of the drainage from the layer name of the drainage from the 2D drawing file, and reflect the positive pressure value applied to the drainage. Source code that can be used to create three-dimensional model geometries of structures and drainage by setting reference coordinates and total volume regions (ie, structures and drainage) It generates a coordinate value is reflected in the source code) of the 3-D model shape.

In this case, the generated source code may be, for example, a file having a P3DLOG extension type that can be used in a Flixis 3D program, and the function and format used in the source code may be a type that can be used in the Flixis 3D program.

Then, when the operator loads the generated P3DLOG file of extension in the Plaxis 3D program, the source code of the form that can be used to shape the three-dimensional model of the structure and drainage is displayed in the command window of the Plaxis 3D program. Then, when the operator executes the source code generated in the Plaxis 3D program, as shown in Figure 3, the result of the three-dimensional modeling is displayed.

According to the source code generation system 100 used for the three-dimensional modeling of the permanent drainage method according to an embodiment of the present invention as described above, the three-dimensional model shape of the structure and the drainage in the 3D program itself, such as a phlox 3D program There is no need to manually input the coordinates according to the source code is automatically generated in the command window reflecting the coordinate values according to the shape of the three-dimensional model of the structure and drainage, it is possible to significantly reduce the three-dimensional modeling work time .

Hereinafter, with reference to the accompanying drawings, it will be described in detail the source code generation method used in the three-dimensional modeling of the permanent drainage method according to an embodiment of the present invention.

Figure 4 is a flow chart of the source code generation method used in the three-dimensional modeling of the permanent drainage method according to an embodiment of the present invention, Figures 5 to 8 is a three-dimensional permanent drainage method according to an embodiment of the present invention The screen of the display unit performed according to the source code generation method used for modeling is shown.

As shown in Figure 4, the source code generation method (S100) used in the three-dimensional modeling of the permanent drainage method according to an embodiment of the present invention is the first input step (S110) and the second input step (S120) and Generation step S130 is included.

First, when a drawing file including coordinate values according to the two-dimensional model shape of the structure and the drainage as shown in FIG. 5 is created, first input steps S110 to S130 are sequentially performed. .

The first input step (S110) is a step in which information about a drawing file including coordinate values according to the shape of a structure and a drainage material is input to the operation unit 110. An operator manipulates an interface through the input unit 130. This is done by loading a two-dimensional drawing file into the program. When the 2D drawing file is loaded by the first input step S110, as shown in FIG. 6, the 2D drawing file is displayed on the top of the interface.

The second input step S120 is a step in which information about the structure, information on the drainage material, and information on the model shape are input to the operation unit 110 through an input window provided by the interface, and the operator inputs the input unit 130. By manipulating the interface via (see FIG. 6).

On the other hand, in the second input step (S120), information on the plurality of geologic formations on which the structure is to be installed, that is, information on the depth, physical properties, etc., and information about the borehole, such as a buried layer, weathered soil layer, weathered rock layer, coastal rock layer, hard rock layer, etc. Also, it may be input by an operator in an input window provided through an interface.

Generation step (S130) is to generate a source code that can be used to generate the three-dimensional model shape of the structure and drainage based on the information according to the first input step (S110) and the information according to the second input step (S120) As a step, when the operator inputs the Export command provided on the interface, it is implemented according to the operation of the operation unit 110.

According to the generation step (S130), the calculation unit 110 extracts the coordinates of the two-dimensional model shape of the structure from the layer name of the structure from the two-dimensional drawing file, the coordinates of the two-dimensional model shape of the drainage from the layer name of the drainage 3D model shape creation of structure and drainage material by extracting from 2D drawing file and reflecting positive pressure value applied to drainage material and setting reference coordinate and total volume area of 3D model from information about model shape Generate source code (that is, source code reflecting coordinate values according to the shape of the three-dimensional model of the structure and drainage material) that can be used.

On the other hand, the source code generated here will also reflect the information about the depth and physical properties of the buried layer, weathered soil layer, weathered rock layer, soft rock layer, hard rock layer, etc. input in the above-mentioned second input step (S120) and borehole information. Can be.

The source code generated according to the generation step described above may be, for example, a file having a P3DLOG extension type that can be used in a Flixis 3D program, and the functions and formats used in the source code may be a type available to the Flixis 3D program.

After the generation step (S130), when the operator loads the generated P3DLOG file of the extension form in the Plaxis 3D program, as shown in Figure 7, the shape of the three-dimensional model of the structure and drainage in the command window of the Flexis 3D program The source code of the type that can be used is displayed. Then, when the operator executes the source code generated in the Plaxis 3D program, as shown in Figure 8, the result of the three-dimensional modeling is displayed.

Source code generation method used in the three-dimensional modeling of the permanent drainage method according to an embodiment of the present invention including the first input step (S110), the second input step (S120) and the generation step (S130) as described above According to (S100), the coordinate values according to the three-dimensional model shape of the structure and the drainage in the command window without having to manually input the coordinates according to the three-dimensional model shape of the structure and the drainage in the 3D program itself, such as the Plaxis 3D program. Since the reflected source code is automatically generated, the 3D modeling work time can be greatly reduced.

On the other hand, the program for performing the source code generation method (S100) used in the three-dimensional modeling of the permanent drainage method according to an embodiment of the present invention can be recorded on a computer-readable recording medium, such a recording medium is a floppy disk It may be provided as a USB (Universal Serial Bus) storage device, a CD-ROM, a hard disk drive (HDD), a solid state drive (SSD) installed in a computer or a server.

In the above description, all elements constituting the embodiments of the present invention are described as being combined or operating in combination, but the present invention is not necessarily limited to the embodiments. That is, within the scope of the present invention, all of the components may be selectively operated in combination with one or more.

In addition, the terms "comprise", "comprise" or "having" described above mean that the corresponding component may be inherent unless specifically stated otherwise, and thus excludes other components. It should be construed that it may further include other components instead. All terms, including technical and scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art unless otherwise defined. Terms used generally, such as terms defined in a dictionary, should be interpreted to coincide with the contextual meaning of the related art, and shall not be interpreted in an ideal or excessively formal sense unless explicitly defined in the present invention.

In addition, the above description is merely illustrative of the technical idea of the present invention, and those skilled in the art to which the present invention pertains may various modifications and changes without departing from the essential characteristics of the present invention.

Therefore, the embodiments disclosed in the present invention are not intended to limit the technical idea of the present invention but to describe the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The protection scope of the present invention should be interpreted by the following claims, and all technical ideas within the equivalent scope should be interpreted as being included in the scope of the present invention.

100: source code generation system used for the three-dimensional modeling of the permanent drainage method according to an embodiment of the present invention
110: calculation unit
120: display unit
130: input unit
140: storage unit
S100: source code generation method used in the three-dimensional modeling of the permanent drainage method according to an embodiment of the present invention
S110: first input step
S120: second input step
S130: creation step

Claims (5)

In the source code generation system used for the three-dimensional modeling of the permanent drainage method for generating a source code representing the coordinate values according to the shape of the structure and the drainage material,
Source code generation system used for the three-dimensional modeling of the permanent drainage method,
A calculation unit providing an interface to a worker according to the calculation; And
It includes a display unit for displaying the interface on the screen,
The interface is,
It provides an input window for inputting information about the structure, information about the drainage material, and information about the model shape.
The calculation unit,
Generate source code that can be used to generate the three-dimensional model shape of the structure and the drainage based on the information on the drawing file including the coordinate values according to the two-dimensional model shape of the structure and the drainage, and the information input to the input window ,
The interface is,
It provides a two-dimensional display window for displaying the two-dimensional model shape of the structure and the drainage according to the drawing file and a three-dimensional display window for displaying the three-dimensional model shape of the structure and the drainage corresponding to the source code,
Information about the structure,
Contains information about the layer name corresponding to the two-dimensional model shape of the structure,
Information about the drainage,
Information on the layer name corresponding to the shape of the drainage two-dimensional model, and positive pressure value,
The information on the model shape,
Contains information about the model's two-dimensional reference coordinates, model widths, model heights, model depths, and structure depths,
The source code is,
It is a file in PSDLOG extension format that can be used in the phlox 3D program, a three-dimensional finite element analysis program.
Always source code is
Represented in a form executable in the phlox 3D program,
The source code is,
Source code generation system used for the three-dimensional modeling of the permanent drainage method, characterized in that when executed by the phlox 3D program display the results of the three-dimensional modeling. delete delete In the method for generating the source code used for the modeling of the permanent drainage method using the source code generation system used for the three-dimensional modeling of the permanent drainage method,
A first input step of inputting information on a drawing file including coordinate values according to the shape of the structure and the drainage material to the calculation unit;
A second input step of inputting information on a structure, information on drainage material, and information on a model shape to the operation unit through an input window provided by an interface; And
A generation step of generating a source code that can be used to generate a three-dimensional model shape of the structure and the drainage based on the information according to the first input step and the information according to the second input step,
The interface is,
It provides a two-dimensional display window for displaying the two-dimensional model shape of the structure and the drainage according to the drawing file and a three-dimensional display window for displaying the three-dimensional model shape of the structure and the drainage corresponding to the source code,
Information about the structure,
Information about the layer name corresponding to the 2-dimensional model shape of the structure,
Information about the drainage,
Information on the layer name corresponding to the shape of the drainage two-dimensional model, and positive pressure value,
The information on the model shape,
Contains information about the model's two-dimensional reference coordinates, model widths, model heights, model depths, and structure depths,
The source code is,
It is a file in the form of PSDLOG extension that can be used in the phlox 3D program, a three-dimensional finite element analysis program.
Always source code is
Represented in a form executable in the phlox 3D program,
The source code is,
Source code generation method used for the three-dimensional modeling of the permanent drainage method, characterized in that when the execution by the phlox 3D program displays the result of the three-dimensional modeling. A computer-readable recording medium having recorded thereon a program for performing a method for generating a source code used for three-dimensional modeling of a permanent drainage method according to claim 4.

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