KR102280344B1 - Manufacturing method of irregularly panel for using 3d printing - Google Patents

Abstract

The present invention relates to a method of producing an atypical panel using 3D printing that can reduce the production time of the atypical panel by minimizing the path when 3D printing the atypical panel for constructing the wall of an atypical structure in the field of indoor construction.
To this end, the method for producing an atypical panel using 3D printing includes a first atypical panel having an inner portion and an outer portion, and a second atypical panel having an inner portion and an outer portion while being spaced apart from the first atypical panel and having an inner portion and an outer portion, and using 3D printing and outputting the first atypical panel and the second atypical panel at the same time, and minimizing an output path in outputting the first atypical panel and the second atypical panel.

Description

Atypical panel production method using 3D printing {MANUFACTURING METHOD OF IRREGULARLY PANEL FOR USING 3D PRINTING}

The present invention relates to a method for producing atypical panels using 3D printing.

In recent years, the case of finishing the outer surface of a building with a panel of various materials such as iron, aluminum, or glass is increasing.

And, as such a building is composed of a complex geometric shape, the shape of such a panel is also produced in an irregular atypical curved shape according to the shape of the building.

In other words, designs using irregularities are being made in various places recently and are receiving a lot of attention. Through this, various buildings and public facilities are being manufactured, and although they are implemented through various technologies, it is difficult to actually implement them because many problems appear in the construction method.

The implementation of the atypical design as described above requires the production of an atypical panel or finishing material, but since it is very different from the regular production method, it takes too much time and cost for production, and there is a problem in economic terms.

In the production part for the realization of the conventional atypical design, the atypical panel is basically produced through a number of fixings such as CNC machining of finishing materials, shape processing, and joint production, but a lot of time and effort is required in the production of the atypical panel.

Recently, attempts have been made to produce atypical panels using a 3D printer in order to overcome the above problems, but the effect is insignificant.

That is, in the conventional atypical panel, as shown in FIGS. 1 and 2 , the atypical panel 100 may be fixed to the wall through a connection member. When the amorphous panel 100 is output as a single using a 3D printer, an overhang portion A is generated on the upper portion of the atypical panel 100, making production impossible. The overhang portion (A) is a portion to be output in the air without a lower support when the atypical panel 100 is output.

The method of outputting the atypical panel 100 in the planar direction is inefficient because the curved plane becomes an overhang with no space to be supported and is output in the air, so a support such as a support or a formwork is required at the bottom.

In addition, when outputting the atypical panel 100 as a single unit as described above, the output is output off-axis due to a narrow output bottom (B). Accordingly, there is a problem in that the amorphous panel 100 easily falls.

The method of outputting the atypical panel 100 at a right angle to the plane is efficient because it only needs to support the overhang portion (A) of the frame because it is supported from the bottom, but output in the case of a sudden change in the curved surface of the plane and a sharp deviation of the center of gravity There is a disadvantage that the atypical panel 100 may fall during the process.

Therefore, since it is difficult to produce the atypical panel 100 as described above, productivity is lowered, and the time and cost for producing the amorphous panel 100 are excessively consumed.

Republic of Korea Patent Publication No. 10-1914525 (Title of the invention: 3D printing system and method for a control point-based atypical exterior panel that can be separated by work type, published on April 09, 2018) Republic of Korea Patent Publication No. 10-1911405 (Title of the invention: MPF-based atypical exterior panel 3D printing system and method, published on 04. 09. 2018)

The present invention was created in consideration of the above points, and 3D printing is designed to reduce the production time of atypical panels by minimizing the path when 3D printing an atypical panel for constructing a wall surface of an atypical structure in the field of indoor construction An object of the present invention is to provide a method for producing an atypical panel using

According to a preferred embodiment for achieving the above object of the present invention, the method for producing an atypical panel using 3D printing according to the present invention is a first atypical panel having an inner part and an outer part, and the first atypical panel and the first atypical panel are arranged at a predetermined interval and a second atypical panel having an inner part and an outer part while simultaneously outputting the first atypical panel and the second atypical panel using 3D printing, and in outputting the first atypical panel and the second atypical panel minimizing non-output paths.

In outputting the first atypical panel and the second atypical panel, the minimum value of the non-output path may be obtained, and the first atypical panel and the second atypical panel may be arranged and output simultaneously according to the minimum value.

The minimum value of the non-output path is set to a coordinate value according to the arrangement method of the first atypical panel and the second atypical panel, and the first atypical panel and the second atypical panel through an algorithm according to the coordinate value can be placed

The first atypical panel and the second atypical panel are arranged symmetrically in a shape in which the inner portion of the first atypical panel and the inner portion of the second atypical panel face each other, so that the output path can be minimized while simultaneously outputting.

The first atypical panel and the second atypical panel are disposed in the same direction in a shape in which the inner portion of the first atypical panel and the outer portion of the second atypical panel face each other, so that the output path may be minimized while simultaneously outputting.

The first atypical panel and the second atypical panel are disposed in the same direction in a shape in which an outer portion of the first atypical panel and an inner portion of the second atypical panel face each other, so that an output path may be minimized while simultaneously outputting.

The first atypical panel and the second atypical panel are arranged symmetrically in a shape in which the outer part of the first atypical panel and the outer part of the second atypical panel face each other, so that the output path can be minimized while simultaneously outputting.

A connection support may be provided between the first atypical panel and the second atypical panel, so that the first atypical panel and the second atypical panel may be output in a state in which they are connected to each other.

According to the method for producing an atypical panel using 3D printing according to the present invention, the production process can be reduced by minimizing the path during 3D printing during the production of the amorphous panel, so that the atypical panel can be produced more economically.

In addition, in outputting the atypical panel using 3D printing, the output time is reduced by minimizing the non-output path, and when the atypical panel is output, two atypical panels are output simultaneously while forming a pair, thereby improving productivity.

1 is a view showing a wall surface of a general atypical panel.
FIG. 2 is a diagram illustrating a state in which an atypical panel is output as a single unit using a 3D printer.
3 is a diagram illustrating an arrangement state of an atypical panel produced using 3D printing according to an embodiment of the present invention.
4 is a diagram illustrating a state in which two atypical panels are connected and outputted according to an embodiment of the present invention.
5 is a diagram illustrating a process for minimizing a non-output path during 3D printing of an amorphous panel according to an embodiment of the present invention.

Hereinafter, an embodiment of a method for producing an atypical panel using 3D printing according to the present invention will be described with reference to the accompanying drawings. At this time, the present invention is not limited or limited by the examples. In addition, in describing the present invention, detailed descriptions of well-known functions or configurations may be omitted in order to clarify the gist of the present invention.

3 is a view illustrating an arrangement state of an atypical panel produced using 3D printing according to an embodiment of the present invention. 4 is a diagram illustrating a state in which two atypical panels are connected and outputted according to an embodiment of the present invention.

3 and 4, the method for producing an atypical panel using 3D printing according to the present invention includes a first atypical panel 10 having an inner portion 10a and an outer portion 10b, the first atypical panel 10 and It includes a second atypical panel 20 having an inner portion 20a and an outer portion 20b while being spaced apart, and using 3D printing the first atypical panel 10 and the second atypical panel 20 are simultaneously output, and in outputting the first atypical panel 10 and the second atypical panel 20, minimizing an output path.

That is, two or more atypical panels can be output using 3D printing. This can minimize the time required for the production of the atypical panel by minimizing the path when printing the atypical panel.

In the method for producing an atypical panel using 3D printing according to the present invention, the first atypical panel 10 and the second atypical panel 20 support each other by simultaneously outputting at least two atypical panels in a vertical direction on a plane. will be output as

Accordingly, in order to support each other, the first atypical panel 10 and the second atypical panel 20 can simultaneously output two atypical panels in a state in which they are connected to each other through a support that can be removed later.

In this embodiment, in outputting the first atypical panel 10 and the second atypical panel 20, the minimum value of the non-output path is obtained, and according to the minimum value, the first atypical panel 10 and the By disposing the second atypical panel 20, it can be output simultaneously.

The minimum value of the non-output path is set to a coordinate value according to the arrangement method of the first atypical panel 10 and the second atypical panel 20, and through an algorithm according to the coordinate value, the first atypical panel ( 10) and the second atypical panel 20 may be disposed.

That is, the atypical panel production method using 3D printing is a method for minimizing the non-output path of 3D printing, and the path of the output nozzle is changed depending on which direction the atypical panel is placed and printed, and the inside of the atypical panel is filled. As for the path, the movement path is determined according to the shape of the panel, and the path for moving the layers of the two panels may be determined according to the arrangement of the two panels.

Therefore, in order to improve the output speed of 3D printing, it is possible to minimize the non-output path by minimizing the path of the output nozzle moving between the atypical panel and the amorphous panel. This optimization algorithm is applied to optimize the output order and arrangement of the atypical panel that minimizes the non-output path. The non-output path becomes a path that moves between the atypical panel and the atypical panel, and this can be determined by the distance (interval) between the two atypical panels.

In this embodiment, the arrangement of the first atypical panel 10 and the second atypical panel 20 to minimize the non-output path of 3D printing may exist in various ways. Due to the three-dimensional irregularity, the plane of each layer continuously changes depending on the layer, and even if the gap between the first atypical panel 10 and the second atypical panel 20 is narrow due to the current layer during 3D printing, the distance in the upper layer is It is desirable to design considering the overall spacing because the .

The arrangement state of the first atypical panel 10 and the second atypical panel 20 may exist in four types.

First, as shown in FIG. 3A , the inner portion 10a of the first atypical panel 10 and the inner portion 20a of the second atypical panel 20 face each other. The atypical panel 10 and the second amorphous panel 20 are arranged symmetrically so that the output path can be minimized while simultaneously outputting.

Second, as shown in (b) of FIG. 3 , the inner portion 10a of the first atypical panel 10 and the outer portion 20b of the second atypical panel 20 face each other. The atypical panel 10 and the second atypical panel 20 may be disposed in the same direction to minimize the non-output path and simultaneously output.

Third, as shown in FIG. 3C , the first amorphous panel 10 has an outer portion 10b and an inner portion 20a of the second atypical panel 20 facing each other. The atypical panel 10 and the second atypical panel 20 may be disposed in the same direction to minimize the non-output path and simultaneously output.

Fourth, as shown in (d) of FIG. 3 , the outer portion 10b of the first atypical panel 10 and the outer portion 20b of the second atypical panel 20 face each other. The atypical panel 10 and the second amorphous panel 20 are arranged symmetrically so that the output path can be minimized while simultaneously outputting.

In addition, a connection support 30 is provided between the first atypical panel 10 and the second atypical panel 20 so that the first atypical panel 10 and the second atypical panel 20 are connected to each other state can be output. The connection support 30 is removed after the output of the irregular panel. A plurality of connection supports 30 may be disposed between the first atypical panel 10 and the second atypical panel 20 .

5 is a diagram illustrating a process for minimizing a non-output path during 3D printing of an amorphous panel according to an embodiment of the present invention.

5, in order to obtain the total sum of the intervals between the first atypical panel 10 and the second atypical panel 20, eight coordinates (A1, A2, A3, A4, B1, B2, B3, B4) is required, and the path of the method of outputting all of the first atypical panel 10 and then proceeding to the second atypical panel 20 for output may be (A2-B1) or (B4-A3) .

After outputting one side of the first atypical panel 10 and outputting all of the second atypical panel 20 by going to the second atypical panel 20, outputting the remaining surface of the first atypical panel 10 The path can be (A2-B1)+(B4-A3).

It is preferable to perform 3D printing in consideration of both cases because it is not known which path is the minimum depending on the layer of the amorphous panel. In addition, since the coordinate points change when the direction of the atypical panel is changed, all four arrangement states of the atypical panel must be considered.

A limiting condition in the production method of the atypical panel is that the atypical panel must not overlap, and a certain interval must be provided between the atypical panel and the atypical panel for output quality.

Therefore, through the production method of the atypical panel using 3D printing, the production process can be reduced by minimizing the path during 3D printing during the production of the amorphous panel, so that the atypical panel can be produced more economically.

In addition, in outputting the atypical panel using 3D printing, the output time is reduced by minimizing the non-output path, and when the atypical panel is output, two atypical panels are output simultaneously while forming a pair, thereby improving productivity.

In the foregoing, the present invention has been shown and described in connection with preferred embodiments for illustrating the principles of the present invention, but the present invention is not limited to the construction and operation as so shown and described. Rather, it will be apparent to those skilled in the art that many changes and modifications may be made to the present invention without departing from the spirit and scope of the appended claims.

10: first atypical panel 10a: inner part
10b: outer part 20: second irregular panel
20a: inner part 20b: outer part
30: connection support 100: irregular panel

Claims (8)

A method of producing atypical panels using 3D printing. A first atypical panel having an inner portion and an outer portion, and a second atypical panel having an inner portion and an outer portion while being spaced apart from the first atypical panel and having an inner portion,
The first atypical panel and the second atypical panel are simultaneously output using 3D printing, and the step of minimizing the non-output path in outputting the first atypical panel and the second atypical panel,
The first atypical panel and the second atypical panel are simultaneously output in a direction perpendicular to a plane, and the first atypical panel and the second atypical panel are output in a way that supports each other,
In outputting the first atypical panel and the second atypical panel, the minimum value of the non-output path is obtained, and the first atypical panel and the second atypical panel are arranged and output simultaneously according to the minimum value,
The minimum value of the non-output path is set to a coordinate value according to the arrangement method of the first atypical panel and the second atypical panel, and the first atypical panel and the second atypical panel through an algorithm according to the coordinate value place,
The path for filling the inside of the first atypical panel and the second atypical panel is determined according to the shape of the panel, and the path for moving the layers of the two panels is determined according to the arrangement of the two panels A method for producing atypical panels using 3D printing, characterized in that. delete delete The method of claim 1,
The first atypical panel and the second atypical panel are arranged symmetrically in a shape in which the inner portion of the first atypical panel and the inner portion of the second atypical panel face each other, so that the output path is minimized while simultaneously outputting A method of producing atypical panels using 3D printing. The method of claim 1,
The first atypical panel and the second atypical panel are arranged in the same direction in a shape in which the inner part of the first atypical panel and the outer part of the second atypical panel face each other, so that the output path is minimized while simultaneously outputting A method of producing atypical panels using 3D printing. The method of claim 1,
The first atypical panel and the second atypical panel are arranged in the same direction in a shape in which the outer part of the first atypical panel and the inner part of the second atypical panel face each other, so that the output path is minimized and output at the same time A method of producing atypical panels using 3D printing. The method of claim 1,
The first atypical panel and the second atypical panel are arranged symmetrically in a shape in which the outer part of the first atypical panel and the outer part of the second atypical panel face each other, so that the output path is minimized while simultaneously outputting A method of producing atypical panels using 3D printing. The method of claim 1,
A method for producing an atypical panel using 3D printing, characterized in that a connection support is provided between the first atypical panel and the second atypical panel, and the first atypical panel and the second atypical panel are output in a state in which they are connected to each other.

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