KR102556271B1 - Architectural design system using shape - Google Patents

Abstract

An architectural design system using a figure according to an embodiment of the present invention may include a figure arrangement unit, an adjustment unit, and a structure unit. The figure arranging unit may arrange a plurality of figures in a building area where buildings are to be placed. The adjusting unit may adjust the size of the figures according to the building regulations including the spacing of the buildings. The structure unit may determine a building structure corresponding to the shapes of buildings included in each of the figures.
The architectural design system according to the present invention proceeds with a rough design of the building area to be built using a plurality of figures, and then determines the building structure corresponding to the shape of the buildings included in each of the figures to determine the architectural design. It can reduce the time and cost required.

Description

Architectural design system using figures {ARCHITECTURAL DESIGN SYSTEM USING SHAPE}

The present invention relates to an architectural design system using figures.

In the process of architectural design, the architectural design is repeatedly modified due to design limitations, and such repetitive modifications can act as a factor increasing architectural design time and cost. Recently, various studies are being conducted to solve this problem.

(Korean Registered Patent) No. 10-2476264 (registration date, 2022.12.06)

The technical problem to be achieved by the present invention is to proceed with the rough design of the architectural area to be built using a plurality of figures, and then, by determining the building structure corresponding to the shape of the buildings included in each of the figures, It is to provide an architectural design system that can reduce the time and cost required.

In order to solve this problem, an architectural design system using figures according to an embodiment of the present invention may include a figure arrangement unit, an adjustment unit, and a structure unit. The figure arranging unit may arrange a plurality of figures in a building area where buildings are to be placed. The control unit may adjust the size of the figures according to the building regulations including the spacing of the buildings. The structure unit may determine a building structure corresponding to the shape of the buildings included in each of the figures.

In one embodiment, the figure arranging unit may include a shape determining unit and a reference unit. The shape determining unit may determine the shapes of the figures. The reference unit may provide a reference line corresponding to a criterion for determining positions where the plurality of figures are to be arranged in the building area.

In one embodiment, the figure arranging unit may further include a number determining unit. The number determining unit may determine the number of figures to be disposed on the reference line.

In one embodiment, the control unit may further include a size control unit and a determination unit. The size control unit may adjust the size of the figures. The determination unit may determine whether an overlapping area corresponding to an overlapping area between the figures occurs and provide a determination result.

In one embodiment, the determination unit may include a reference line determination unit. The reference line determiner may determine whether the figures corresponding to the overlapping area are the figures arranged on the same reference line, and provide a reference line result.

In one embodiment, the determination unit may include a location moving unit and a reference line moving unit. When the result of the reference line corresponds to the result of the first reference line, the position moving unit may move the positions of the figures disposed on the same reference line. The reference line movement unit may increase the distance between the reference lines when the reference line result corresponds to the first reference line result.

In one embodiment, the structural unit may include a candidate unit and a selection unit. The candidate unit may provide candidate structures for the building structure that match each of the plurality of figures. The selector may select one of the candidate structures as the building structure.

In one embodiment, the structure unit may further include a region divider. The area divider may divide the plurality of figures into a plurality of division areas when an overlapping area is disposed between the plurality of figures.

In one embodiment, the structure unit may further include a region selection unit and a selection arrangement unit. The area selection unit may select a selection area corresponding to some of the plurality of section areas. The selection arranging unit may arrange the building structure in the selection area.

In one embodiment, the control unit may further include a correction unit. The modifying unit may re-determine the shapes of the figures when the centers of the figures are included in the overlapping area.

In addition to the technical problems of the present invention mentioned above, other features and advantages of the present invention will be described below, or will be clearly understood by those skilled in the art from such description and description.

According to the present invention as described above, there are the following effects.

The architectural design system according to the present invention proceeds with a rough design of the building area to be built using a plurality of figures, and then determines the building structure corresponding to the shape of the buildings included in each of the figures to determine the architectural design. It can reduce the time and cost required.

1 is a diagram illustrating an architectural design system using figures according to embodiments of the present invention.
FIG. 2 is a diagram for explaining the operation of a figure arranging unit and adjusting unit included in the architectural design system of FIG. 1 .
FIG. 3 is a diagram illustrating an example of a figure arranging unit included in the architectural design system of FIG. 1 .
FIG. 4 is a diagram illustrating an example of a control unit included in the architectural design system of FIG. 1 .
FIG. 5 is a diagram illustrating an example of a determination unit included in the control unit of FIG. 4 .
6 and 7 are diagrams for explaining the operation of the determination unit of FIG. 5 .
FIG. 8 is a diagram illustrating an example of a structure included in the architectural design system of FIG. 1 .
9 and 10 are diagrams for explaining the operation of a structural unit included in the architectural design system of FIG. 1 .
FIG. 11 is a diagram illustrating another example of a structural part included in the architectural design system of FIG. 1 .
12 and 13 are views for explaining another example of a control unit included in the building design system of FIG. 1 .

In this specification, it should be noted that in adding reference numerals to components of each drawing, the same components have the same numbers as much as possible even if they are displayed on different drawings.

Meanwhile, the meaning of terms described in this specification should be understood as follows.

Singular expressions should be understood as including plural expressions, unless the context clearly defines otherwise, and the scope of rights should not be limited by these terms.

It should be understood that terms such as "comprise" or "having" do not preclude the presence or addition of one or more other features, numbers, steps, operations, components, parts, or combinations thereof.

Hereinafter, preferred embodiments of the present invention designed to solve the above problems will be described in detail with reference to the accompanying drawings.

1 is a diagram showing an architectural design system using figures according to embodiments of the present invention, FIG. 2 is diagrams for explaining the operation of a figure arranging unit and a control unit included in the architectural design system of FIG. 1, and FIG. is a diagram showing an example of a figure arranging unit included in the architectural design system of FIG. 1 .

Referring to FIGS. 1 to 3 , the architectural design system 10 using a figure according to an embodiment of the present invention may include a figure arranging unit 100 , an adjusting unit 200 and a structure unit 300 . The figure arranging unit 100 may arrange a plurality of figures DH in the building area GR where buildings are to be placed. For example, the plurality of figures DH may be various figures DH including a circle, a rectangle, and a rhombus.

In one embodiment, the figure arranging unit 100 may include a shape determining unit 110 and a reference unit 120 . The reference unit 120 may provide a reference line RL corresponding to a criterion for determining a location where the plurality of figures DH are to be disposed in the building area GR. The reference line RL may be determined according to a user input, and there may be a plurality of reference lines RL. For example, the reference line RL included in the building area GR may include a first reference line RL1 and a second reference line RL2. Positions at which the figures DH are disposed along the first reference line RL1 may be the first position P1 , the second position P2 , the third position P3 , and the fourth position P4 . Positions at which the figures DH are disposed along the second reference line RL2 may be the fourth position P4 and the fifth position P5. A location where a figure is to be placed may be a location where a building will be later placed.

The shape determining unit 110 may determine the shapes MY of the figures DH. For example, circular figures may be disposed at the first to fourth positions P1 to P4 disposed along the first reference line RL1, and a fifth position disposed along the second reference line RL2. A rectangular shape may be disposed at the position P5 and the sixth position P6. The shape MY of the figures DH may be determined according to a user input, and figures to be arranged in the building area GR may be recommended according to a recommendation algorithm in the system.

In one embodiment, the figure arranging unit 100 may further include a number determining unit 130 . The number determiner 130 may determine the number DN of figures to be disposed on the reference line RL. For example, as shown in FIG. 2 , the reference line RL may include a first reference line RL1 and a second reference line RL2. The number determining unit 130 may determine the number DN of figures to be disposed on the first reference line RL1 as 4, and may determine the number DN of figures to be disposed on the second reference line RL2 as 2. can The number of figures (DN) determined by the number determiner 130 may be determined according to a user input or may be recommended according to a system recommendation algorithm.

4 is a view showing an example of a control unit included in the architectural design system of FIG. 1, FIG. 5 is a view showing an example of a determination unit included in the control unit of FIG. 4, and FIGS. 6 and 7 are views of the decision unit of FIG. These are drawings for explaining the operation of the unit.

Referring to FIGS. 1 to 7 , the control unit 200 may adjust the size DA of the figures DH according to building regulations including the spacing between buildings. In one embodiment, the control unit 200 may further include a size control unit 210 and a determination unit 220. The size controller 210 may adjust the size DA of the figures DH. For example, between the first building BD1 to be located at the first location P1 and the second building BD2 to be located at the second location P2, a certain distance between buildings may be determined by building regulations. . The size adjusting unit 210 determines the size DA of the figure disposed at the first position P1 within a range in which the distance between the first building BD1 and the second building BD2 satisfies building regulations, and The size DA of the figure disposed at the second position P2 may be increased.

The determination unit 220 may determine whether or not an overlapping region JR corresponding to an overlapping region between the figures DH occurs and may provide a determination result PR. For example, as shown in FIG. 6 , a first figure DH1 may be disposed at a first position P1 along a first reference line RL1, and a second figure DH1 at a second position P2 ( DH2) may be placed. In this case, an overlapping region JR corresponding to an overlapping region may occur between the first figure DH1 and the second figure DH2. In this case, the determination unit 220 may provide a determination result PR indicating that an overlapping region JR has occurred between the first figure DH1 and the second figure DH2. As shown in FIG. 7 in the same manner, a fourth figure DH4 may be disposed at a fourth position P4 along the first reference line RL1 and a fifth position along the second reference line RL2 ( A fifth figure DH5 may be disposed in P5). In this case, an overlapping region JR corresponding to an overlapping region may occur between the fourth figure DH4 and the fifth figure DH5. In this case, the determination unit 220 may provide a determination result PR indicating that an overlapping region JR has occurred between the fourth and fifth figures DH4 and DH5.

In one embodiment, the determination unit 220 may include a reference line determination unit 221 . The reference line determiner 221 may determine whether the figures DH corresponding to the overlapping area JR are figures DH disposed on the same reference line RL, and provide a reference line result RR. there is. The baseline result RR may include a first baseline result RR1 and a second baseline result RR2. For example, as shown in FIG. 6 , the overlapping region JR may be an area created by overlapping the first and second figures DH1 and DH2, and the figures corresponding to the overlapping region JR (DH) may be the first figure DH1 and the second figure DH2. The first figure DH1 and the second figure DH2 may be disposed on the same reference line RL, the first reference line RL1. In this case, the reference line determiner 221 may provide a first reference line result RR1 indicating that the first figure DH1 and the second figure DH2 are disposed on the same reference line RL. Also, as shown in FIG. 7 , the overlapping area JR may be an area created by overlapping the fourth and fifth figures DH4 and DH5, and the figures DH corresponding to the overlapping area JR ) may be the fourth figure DH4 and the fifth figure DH5. The fourth figure DH4 and the fifth figure DH5 may be disposed on the first reference line RL1 and the second reference line RL2, respectively. In this case, the reference line determiner 221 may provide a second reference line result indicating that the fourth figure DH4 and the fifth figure DH5 are not disposed on the same reference line RL.

In one embodiment, the determination unit 220 may include a location moving unit 222 and a reference line moving unit 223 . When the reference line result RR corresponds to the first reference line result RR1, the position moving unit 222 may move the positions DP of the figures DH disposed on the same reference line RL. For example, when the reference line result RR is the first reference line result RR1, the position moving unit 222 moves the first position P1 where the first figure DH1 is located to the second figure DH2. It may be further disposed along the first reference line RL1 from the second location P2 where it is located.

The reference line moving unit 223 may increase the distance RLD between the reference lines when the reference line result RR corresponds to the first reference line result RR1. For example, when the reference line result RR is the second reference line result, the reference line moving unit 223 moves the fifth position P5 where the fifth figure DH5 is located to the second position where the fourth figure DH4 is located. In order to be further away from the fourth position P4, the second reference line RL2 may be further away from the first reference line RL1.

8 is a view showing an example of a structural unit included in the architectural design system of FIG. 1, FIGS. 9 and 10 are views for explaining the operation of the structural unit included in the architectural design system of FIG. 1, and FIG. It is a drawing showing another example of a structural part included in the architectural design system of

Referring to FIGS. 1 to 11 , the structure unit 300 may determine a building structure GS corresponding to a shape MY of buildings included in each of the figures DH. In one embodiment, the structure unit 300 may include a candidate unit 310 and a selection unit 320 . The candidate unit 310 may provide candidate structures HG for the building structure GS that match each of the plurality of figures DH. For example, the plurality of figures DH may be circular or quadrangular. Candidate structures HG for a circular shape may be buildings having a polygonal shape (MY) of pentagon or more, and candidate structures HG for a quadrangle may be buildings having a rectangular shape (MY).

The selector 320 may select one of the candidate structures HG as the building structure GS. For example, the building structure GS selected for the circular first figure DH1 disposed at the first position P1 may be the first building BD1 of the octagonal shape MY, and the fifth position The building structure GS selected for the fifth figure DH5 of the square shape MY arranged in (P5) may be the fifth building BD5 of the square shape MY.

In one embodiment, the structure unit 300 may further include a region divider 330 . When the overlapping area JR is disposed between the plurality of figures DH, the area divider 330 may divide the plurality of figures DH into a plurality of division areas. For example, as shown in FIG. 6 , the division areas classified by the area divider 330 may be a first division area DRE1, a second division area DRE2, and a third division area DRE3. . The first section area DRE1 may be an area obtained by subtracting the overlapping area JR from the first figure DH1, and the second section area DRE2 may be the overlapping area JR. Also, the third division area DRE3 may be an area obtained by subtracting the overlapping area JR from the second figure DH2.

In one embodiment, the structure unit 300 may further include a region selection unit 340 and a selection and arrangement unit 350 . The area selector 340 may select a selection area SRE corresponding to some of the plurality of section areas. For example, the area selector 340 may select an area in which a building can be constructed among the first to third compartment areas DRE1 to DRE3 as the selection area SRE. Here, the area in which the building can be built may be the first section area DRE1 and the third section area DRE3.

The selection and arrangement unit 350 may arrange the building structure GS in the selection area SRE. For example, the selection and arrangement unit 350 selects the shape MY of a building that may be included in the first division area DRE1 and the third division area DRE3, and sets the building structure GS to the first division area ( DRE1) and the third division area DRE3.

12 and 13 are views for explaining another example of a control unit included in the building design system of FIG. 1 .

Referring to FIGS. 1 to 13 , in one embodiment, the control unit 200 may further include a correction unit 260 . The correction unit 260 may re-determine the shape MY of the figures DH when the centers of the figures DH are included in the overlapping area JR. For example, as shown in FIG. 13 , the figures DH corresponding to the overlapping region JR may be the first figure DH1 and the second figure DH2, and the first position P1 and The second position P2 may be included in the overlapping area JR. In this case, when a building is constructed using a portion other than the overlapping area JR, the building area may be too small. In order to overcome this problem, when the center of the figures DH is included in the overlapping area JR, the correction unit 260 changes the shape MY of the figures DH to secure a wider building area. can be reset.

The architectural design system 10 according to the present invention proceeds with a rough design for the building area (GR) to be built using a plurality of figures (DH), and then, included in each of the figures (DH) By determining the building structure (GS) corresponding to the shape (MY) of the buildings, the time and cost required for architectural design can be reduced.

10: architectural design system 100: figure placement unit
200: control unit 300: structural unit

Claims (10)

a figure arranging unit for arranging a plurality of figures in a building area where buildings are to be placed;
an adjusting unit that adjusts the sizes of the figures according to building laws including the spacing of the buildings; and
A structural unit for determining a building structure corresponding to the shape of the buildings included in each of the figures,
The figure placement unit,
a shape determining unit that determines shapes of the figures; and
A reference unit providing a reference line corresponding to a reference for determining positions where the plurality of figures are to be arranged in the building area;
the controller,
a size control unit for adjusting the size of the figures; and
Further comprising a determination unit determining whether an overlapping area corresponding to an overlapping area between the figures occurs and providing a determination result;
The judge,
a position moving unit for moving the positions of the figures disposed on the same reference line when the figures corresponding to the overlapping area are disposed on the same reference line;
and a reference line movement unit for increasing a distance between the reference lines when the figures corresponding to the overlapping area are disposed on different reference lines. delete According to claim 1,
The figure placement unit,
The architectural design system using figures characterized in that it further comprises a number determining unit for determining the number of figures to be disposed on the reference line. delete According to claim 3,
The judge,
and a reference line determination unit determining whether the figures corresponding to the overlapping area are the figures arranged on the same reference line and providing a reference line result. delete According to claim 5,
The structural part,
a candidate unit providing candidate structures for the building structure that match each of the plurality of figures; and
and a selection unit for selecting one of the candidate structures as the building structure. According to claim 7,
The structural part,
and an area divider dividing the plurality of figures into a plurality of division areas when an overlapping area is disposed between the plurality of figures. According to claim 8,
The structural part,
an area selector for selecting a selection area corresponding to some of the plurality of section areas; and
The architectural design system using figures, characterized in that it further comprises a selection and arrangement unit for arranging the building structure in the selection area. According to claim 9,
The controller,
and a correction unit for re-determining shapes of the figures when the centers of the figures are included in the overlapping area.