KR102328105B1 - Architectural design method - Google Patents

Abstract

In a method for designing a building according to an embodiment of the present invention, a building arrangement providing unit may provide building arrangement information on arrangement of the building on a building target land. A floor number control unit may set the number of basic floors of the building based on the building arrangement information and calculate the number of households, amount of sunshine, and view scores of the building while sequentially increasing or decreasing the number of floors based on the number of basic floors of the building. A result providing unit may determine a number of result floors of the building by calculating the overall score according to the number of households, the amount of sunshine, and the view score. In the method for designing a building according to the present invention, the number of the number of households, the number of basic floors of the building may be set based on the building arrangement information, and the amount of sunlight, and the view score of the building may be calculated while sequentially increasing or decreasing the number of floors based on the number of basic floors of the building, such that the number of result floors of the building may be efficiently calculated.

Description

How to design a building {ARCHITECTURAL DESIGN METHOD}

The present invention relates to a method for designing a building.

In the case of designing a building, determining the number of floors of a building is very complicated because there are many correlation factors to consider between a building and a building, and repeated revision work is essential. Recently, various studies have been made to overcome these difficulties.

(Korea Patent) No. 10-1903653 (Registration Date, 2018.9.21)

The technical task to be achieved by the present invention is to set the basic number of floors of a building based on building layout information, and calculate the number of households, sunlight, and view points of the building while sequentially increasing or decreasing the number of floors based on the basic number of floors of the building. It is to provide a design method of a building that can calculate the number of floors as a result of

In order to solve this problem, in the method of designing a building according to an embodiment of the present invention, the building arrangement providing unit may provide building arrangement information in which the building is arranged on the building target land. The number of floors adjuster sets the basic number of floors of the building based on the building layout information, and sequentially increases or decreases the number of floors based on the basic number of floors of the building, while calculating the number of households, sunlight, and view points of the building. The result providing unit may determine the resulting number of floors of the building by calculating the overall score according to the number of households, the amount of sunlight, and the view score.

In an embodiment, the result providing unit may calculate the overall score by varying a weight applied to each of the number of households, the amount of sunlight, and the view score.

In an embodiment, the first weight applied to the number of households may be greater than a second weight applied to the amount of sunlight and a third weight applied to the view score.

In an embodiment, the overall score provided by the result providing unit may include a Tonggyeong axis score indicating the degree of air passing between the buildings disposed on the building target land.

In one embodiment, the design method of the building may determine the resultant number of floors according to building change information in which the location of the building is changed in an arrangement area corresponding to an area in which the building can be arranged.

In an embodiment, the number of floors control unit sets the basic number of floors according to the building change information, and sequentially increases or decreases the number of floors based on the basic number of floors of the building, while increasing or decreasing the number of households of the building, the amount of sunlight and the view score can be calculated.

In an embodiment, the design method of the building may determine the resulting number of floors according to the building rotation arrangement information generated by rotating the building in the arrangement area.

In an embodiment, the result providing unit may determine the resultant number of floors according to the number of households, the amount of sunlight, and the view score that are scattered according to the building rotation arrangement information.

In an embodiment, the resulting number of floors of some of the buildings may be smaller than the basic number of floors.

In order to solve this problem, the apparatus for designing a building according to an embodiment of the present invention may include a building arrangement providing unit, a floor number control unit, and a result providing unit. The building arrangement providing unit may provide building arrangement information in which the building is arranged on the building target land. The number of floors control unit sets the basic number of floors of the building based on the building arrangement information, and sequentially increases or decreases the number of floors based on the basic number of floors of the building, while calculating the number of households, sunlight, and view points of the building. The result providing unit may determine the resulting number of floors of the building by calculating the overall score according to the number of households, the amount of sunlight and the view score.

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.

In the design method of a building according to the present invention, the number of households, the amount of sunlight and the view score of the building are calculated while setting the basic number of floors of the building based on the building layout information, and sequentially increasing or decreasing the number of floors based on the basic number of floors of the building By doing so, the resultant number of floors of a building can be calculated more efficiently.

1 is a flowchart illustrating a method of designing a building according to embodiments of the present invention.
2 is a view showing a design apparatus for a building according to embodiments of the present invention.
FIG. 3 is a view for explaining building arrangement information used in the design method of the building of FIG. 1 .
4 is a view for explaining the operation of the number of floors control unit included in the design device of the building of FIG. 2 .
5 is a view for explaining a weight applied to the design method of the building of FIG. 1 .
6 is a view for explaining the operation of the result providing unit in the design method of the building of FIG. 1 .
7 is a view for explaining the resultant number of floors of a building derived from the design method of the building of FIG. 1 .
FIG. 8 is a view for explaining an operation of calculating a composite score in consideration of a tubular axis score in the design method of the building of FIG. 1 .
9 is a view for explaining a process of deriving the resultant number of floors of a building using building change information in the building design method of FIG. 1 .
FIG. 10 is a view for explaining a process of deriving the resultant number of floors of a building by using the building rotation arrangement information in the building design method of FIG. 1 .

In the present specification, it should be noted that in adding reference numbers to the components of each drawing, the same numbers are used for the same components even if they are indicated on different drawings as much as possible.

On the other hand, the meaning of the terms described in this specification should be understood as follows.

The singular expression is to be understood as including the plural expression 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 “have” do not preclude the possibility of addition or existence of one or more other features or 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 flowchart illustrating a method of designing a building according to embodiments of the present invention, FIG. 2 is a diagram illustrating an apparatus for designing a building according to embodiments of the present invention, and FIG. 3 is a method of designing a building of FIG. 1 It is a view for explaining the building arrangement information used in , and FIG. 4 is a view for explaining the operation of the number of floors adjusting unit included in the design device of the building of FIG. 2 .

1 to 4 , the apparatus 10 for designing a building according to an embodiment of the present invention may include a building arrangement providing unit 100 , a floor number adjusting unit 200 , and a result providing unit 300 . In the method of designing a building according to an embodiment of the present invention, the building arrangement providing unit 100 may provide the building arrangement information BPI in which the building is arranged in the building target land BA ( S100 ). For example, the building target land (BA) may be land on which buildings are built, and the buildings include the first building (B1), the second building (B2), the third building (B3), and the fourth building (B4). may include

The building arrangement information BPI may include information on positions at which the first building B1 to the fourth building B4 are arranged. For example, the first building B1 may be disposed in the first area R1 of the building target land BA, and the second building B2 may be disposed in the second area R2. In addition, the third building B3 may be disposed in the third area R3 , and the fourth building B4 may be disposed in the fourth area R4 .

The number of floors adjusting unit 200 sets the basic number of floors (BL) of the building based on the building layout information (BPI), and sequentially increases or decreases the number of floors based on the basic number of floors (BL) of the building while increasing or decreasing the number of households ( SN), the amount of sunlight (IJ), and the view score (ZM) can be calculated (S200). For example, the floor number control unit 200 included in the building design device 10 according to the present invention may set the basic number of floors BL to 10 floors. Thereafter, the number of floors adjusting unit 200 increases or decreases the number of floors of each of the first buildings (B1) to the fourth buildings (B4) by one on the basis of ten floors corresponding to the basic number of floors (BL) while increasing or decreasing the number of households of the building (SN), the amount of sunshine (IJ), and the view score (ZM) can be calculated. The amount of sunlight (IJ) for each location of the building target land (BA) may be predetermined based on sunlight-related data provided from the Korea Meteorological Administration, and the view score (ZM) for each location of the building target land (BA) is a building design according to the present invention The device may be preset before operation. For example, first, the number of floors control unit 200 sets the first building B1 to the fourth building B4 based on the number of households (SN) and the amount of sunlight (IJ) based on 10 floors corresponding to the basic number of floors (BL). and a viewpoint score (ZM). Thereafter, the number of floors control unit 200 increases the number of floors of the first building B1 by one and sets it to 11 floors, and the remaining second building B2, the third building B3, and the fourth building B4 By setting the number of floors to 10 corresponding to the basic number of floors (BL), the number of households (SN), the amount of sunlight (IJ), and the view score (ZM) can be calculated. Thereafter, the number of floors adjusting unit 200 increases the number of floors of the second building B2 by one and sets it to 11 floors, and the remaining first building B1, the third building B3, and the fourth building B4 By setting the number of floors to 10 corresponding to the basic number of floors (BL), the number of households (SN), the amount of sunlight (IJ), and the view score (ZM) can be calculated.

The result providing unit 300 may determine the resulting number of floors (RL) of the building by calculating the overall score (TP) according to the number of households (SN), the amount of sunlight (IJ), and the view score (ZM). For example, the result providing unit 300 may calculate the overall score TP by summing the number of households (SN), the amount of sunlight (IJ), and the view score (ZM), and as will be described later, the number of households (SN) , the amount of sunlight (IJ) and the view score (ZM) may be weighted to calculate the overall score (TP).

In the design method of a building according to the present invention, the basic number of floors (BL) of the building is set based on the building layout information (BPI), and the number of floors is sequentially increased or decreased based on the basic number of floors (BL) of the building while increasing or decreasing the number of floors. By calculating the number of households (SN), the amount of sunlight (IJ), and the view score (ZM), the resulting number of floors (RL) of a building can be calculated more efficiently.

FIG. 5 is a view for explaining a weight applied to the design method of the building of FIG. 1 , and FIG. 6 is a view for explaining the operation of the result providing unit in the design method of the building of FIG. 1 .

1 to 6 , the result providing unit 300 may calculate the overall score TP by varying the weight applied to each of the number of households (SN), the amount of sunshine (IJ), and the view score (ZM). . For example, the plurality of weights may include a first weight W1, a second weight W2, and a third weight W3, and the first weight W1 is a weight applied to the number of households SN. , and the second weight W2 may be applied to the amount of sunlight IJ. Also, the third weight W3 may be applied to the view score ZM.

In an embodiment, the first weight W1 applied to the number of households SN is higher than the second weight W2 applied to the amount of sunlight IJ and the third weight W3 applied to the view score ZM. can be large For example, the first weight W1 applied to the number of households SN may be 2, the second weight W2 applied to the amount of sunshine IJ may be 0.5, and applied to the view score ZM. The third weight W3 to be used may be 1. In this case, the first weight W1 may be greater than the second weight W2 and the third weight W3. In designing a building, the weight applied to the number of households (SN) may be the largest since the number of households (SN) of a building is directly related to sales revenue.

The result providing unit 300 may calculate the overall score TP by varying the weight applied to each of the number of households SN, the amount of sunshine IJ, and the view score ZM. For example, the first weight W1 applied to the number of households SN may be 2, the second weight W2 applied to the amount of sunshine IJ may be 0.5, and applied to the view score ZM. The third weight W3 to be used may be 1.

For example, at the first time T1 , the number of floors adjusting unit 200 increases the number of floors of the first building B1 by one from the basic number of floors BL and sets it to 11 floors, and the remaining second building B2 , the number of floors of the third building (B3) and the fourth building (B4) is 10 floors corresponding to the basic number of floors (BL), and the number of households (SN), sunlight (IJ), and view score (ZM) can be calculated. In this case, the number of generations SN may be 100, and the amount of sunshine IJ may be 100. Also, the viewing point ZM may be 80. When the number of households (SN) is 100, the amount of sunlight (IJ) is 100, and the view score (ZM) is 80, the first weight is given to each of the number of households (SN), the amount of sunlight (IJ), and the view score (ZM) When (W1), the second weight W2, and the third weight W3 are applied, the total score TP may be 330.

After the first time (T1) at a second time (T2), the number of floors control unit 200 increases the number of floors of the second building (B2) by one from the basic number of floors (BL) and sets it to 11 floors, and the rest of the first building (B1), the third building (B3), and the fourth building (B4) have 10 floors corresponding to the basic number of floors (BL) to calculate the number of households (SN), sunlight (IJ), and view score (ZM). can In this case, the number of generations SN may be 90, and the amount of sunshine IJ may be 110. Also, the viewing score ZM may be 90. When the number of households (SN) is 90, the amount of sunlight (IJ) is 110, and the view score (ZM) is 90, the first weight is given to each of the number of households (SN), the amount of sunlight (IJ), and the view score (ZM) When (W1), the second weight W2, and the third weight W3 are applied, the total score TP may be 325.

In addition, after the second time (T2) at the third time (T3), the number of floors control unit 200 increases the number of floors of the third building (B3) by one from the basic number of floors (BL) and sets it to 11 floors, and the remaining The number of floors of the 1st building (B1), the 2nd building (B2) and the 4th building (B4) is 10 floors corresponding to the basic number of floors (BL). can be calculated. In this case, the number of generations SN may be 110, and the amount of sunshine IJ may be 100. Also, the viewing point ZM may be 100. When the number of households (SN) is 110, the amount of sunlight (IJ) is 100, and the view score (ZM) is 100, the first weight is given to each of the number of households (SN), the amount of sunlight (IJ), and the view score (ZM) When (W1), the second weight W2, and the third weight W3 are applied, the total score TP may be 370.

The building design apparatus 10 according to the present invention may calculate the overall score TP while sequentially increasing or decreasing the number of floors in the same manner. In addition, the building design device 10 according to the present invention may determine the resulting number of floors (RL) based on the overall score (TP), and based on each of the number of households (SN), the amount of sunlight (IJ) and the view score (ZM) It is also possible to determine the resulting number of layers (RL).

7 is a view for explaining the resultant number of floors of a building derived from the design method of the building of FIG. 1, and FIG. 8 is the operation of calculating the overall score in consideration of the traversal axis score in the design method of the building of FIG. 1 It is a drawing for

1 to 8 , the overall score TP provided by the result providing unit 300 may include a traversal axis score indicating the degree of air passage between buildings disposed on the building target land BA.

For example, the Tonggyeong axis score may be determined according to the air flow (AF) moving between the third building (B3) and the fourth building (B4), and as the air flow (AF) is excellent, the Tonggyeong axis score is can increase At the first time (T1), the number of floors control unit 200 increases the number of floors of the first building (B1) by 1 from the basic number of floors (BL) and sets it to 11 floors, and the remaining second building (B2) and the third building When the number of floors of (B3) and the fourth building (B4) is set to 10 floors corresponding to the basic number of floors (BL), the overall score may be 100, and in this case, the overall score (TP) may be 430 . After the first time (T1), at a second time (T2), the number of floors control unit 200 increases the number of floors of the second building (B2) by one from the basic number of floors (BL) and sets it to 11 floors, and the rest of the first building If the number of floors of (B1), the third building (B3) and the fourth building (B4) is set to 10 floors corresponding to the basic number of floors (BL), the overall score may be 90, and in this case, the overall score ( TP) may be 415. In addition, after the second time (T2) at the third time (T3), the number of floors control unit 200 increases the number of floors of the third building (B3) by one from the basic number of floors (BL) and sets it to 11 floors, If the number of floors of the first building (B1), the second building (B2), and the fourth building (B4) is set to 10 floors corresponding to the basic number of floors (BL), the overall score may be 80, and in this case, the total The score TP may be 450.

9 is a diagram for explaining a process of deriving the resultant number of floors of a building using building change information in the building design method of FIG. 1, and FIG. It is a diagram for explaining the process of deriving the resulting number of floors.

1 to 10 , the design method of a building may determine the resulting number of floors (RL) according to the building change information (BCI) in which the location of the building is changed in the arrangement area corresponding to the area in which the building can be arranged. For example, the plurality of buildings may include a first building B1 , a second building B2 , a third building B3 , and a fourth building B4 . The area in which the first building B1 may be disposed may be the first arrangement area PR1 , and the area in which the second building B2 may be disposed may be the second arrangement area PR2 . Also, the area in which the third building B3 can be disposed may be the third arrangement area PR3 , and the area in which the fourth building B4 may be disposed may be the fourth arrangement area PR4 .

For better building design, a position at which the first building B1 is disposed in the first arrangement area PR1 may be changed from the first location P1 to the second location P2 . When the location at which the first building B1 is disposed is changed from the first location P1 to the second location P2, building change information BCI in which the location of the first building B1 is changed may be generated. In this case, the building arrangement providing unit 100 may provide the building change information (BCI) to the number of floors adjusting unit 200 .

In an embodiment, the number of floors control unit 200 sets the basic number of floors (BL) according to the building change information (BCI), and sequentially increases or decreases the number of floors based on the basic number of floors (BL) of the building while increasing or decreasing the number of floors. The number of households (SN), the amount of sunshine (IJ), and the view score (ZM) can be calculated. For example, the number of floors adjusting unit 200 may perform the same operation of the number of floors adjusting unit 200 as described in FIGS. 1 to 8 according to the building change information BCI in which the location of the first building B1 is changed. have.

In an embodiment, the method for designing a building may determine the resulting number of floors RL according to the building rotation layout information BRI generated by rotating the building in the layout area. For example, the first building B1 may be rotated by the first angle D1 in the first arrangement area PR1 for better building design. When the first building B1 is rotated by the first angle D1, the building rotation arrangement information BRI in which the angle of the first building B1 is changed may be generated. In this case, the building arrangement providing unit 100 may provide the building rotation arrangement information (BRI) to the number of floors adjusting unit 200 . The number of floors adjusting unit 200 may perform the same operation of the number of floors adjusting unit 200 as described with reference to FIGS. 1 to 8 according to the building rotation arrangement information (BRI).

In one embodiment, the result providing unit 300 may determine the resulting number of floors (RL) according to the number of households (SN), the amount of sunlight (IJ), and the view score (ZM) calculated according to the building rotation arrangement information (BRI). have.

In an embodiment, the resultant number of floors RL of some of the buildings may be smaller than the basic number of floors BL. For example, the resultant number of floors RL according to the overall score TP may be smaller than 10 floors corresponding to the basic number of floors BL. The plurality of buildings may include a first building B1, a second building B2, a third building B3, and a fourth building B4. As a result of the operation of the building design device 10 according to the present invention, the resultant number of floors RL of the first building B1 may be 9 stories. In this case, the resultant number of floors RL of the first building B1 may be smaller than 10 floors corresponding to the basic number of floors BL.

The apparatus 10 for designing a building according to an embodiment of the present invention may include a building arrangement providing unit 100 , a floor number adjusting unit 200 , and a result providing unit 300 . The building arrangement providing unit 100 may provide building arrangement information (BPI) in which a building is arranged on the building target land (BA). The number of floors control unit 200 sets the basic number of floors (BL) of the building based on the building layout information (BPI), and sequentially increases or decreases the number of floors based on the basic number of floors (BL) of the building while increasing or decreasing the number of households ( SN), the amount of sunshine (IJ), and the view score (ZM) can be calculated. The result providing unit 300 may determine the resulting number of floors (RL) of the building by calculating the overall score (TP) according to the number of households (SN), the amount of sunlight (IJ), and the view score (ZM).

In the design method of a building according to the present invention, the basic number of floors (BL) of the building is set based on the building layout information (BPI), and the number of floors is sequentially increased or decreased based on the basic number of floors (BL) of the building while increasing or decreasing the number of floors. By calculating the number of households (SN), the amount of sunlight (IJ), and the view score (ZM), the resulting number of floors (RL) of a building can be calculated more efficiently.

10: building design device 100: building layout providing unit
200: number of floors control unit 300: result providing unit

Claims (10)

providing, by a building arrangement providing unit, building arrangement information in which a building is placed on a building target land;
Calculating the number of households, the amount of sunlight and the view score of the building while the number of floors adjusting unit sets the basic number of floors of the building based on the building arrangement information, and sequentially increases or decreases the number of floors based on the basic number of floors of the building; and
Comprising the step of the result providing unit calculating the overall score according to the number of households, the amount of sunlight and the view score to determine the resultant number of floors of the building,
The overall score provided by the result providing unit is a design method of a building, characterized in that it includes a traversal axis score indicating the degree of air passing between the buildings disposed on the building target land. According to claim 1,
The design method of a building, characterized in that the result providing unit calculates the overall score by varying the weight applied to each of the number of households, the amount of sunlight, and the view score. 3. The method of claim 2,
The first weight applied to the number of households is larger than the second weight applied to the amount of sunlight and the third weight applied to the view score. delete 4. The method of claim 3,
The design method of the building is,
A method of designing a building, characterized in that the resultant number of floors is determined according to the building change information in which the location of the building is changed in an arrangement area corresponding to an area in which the building can be arranged. 6. The method of claim 5,
The number of floors control unit,
Design of a building, characterized in that by setting the basic number of floors according to the building change information, and calculating the number of households, the amount of sunlight, and the view score of the building while sequentially increasing or decreasing the number of floors based on the basic number of floors of the building Way. 7. The method of claim 6,
The design method of the building is,
A method of designing a building, characterized in that the resultant number of floors is determined according to the building rotation arrangement information generated by rotating the building in the arrangement area. 8. The method of claim 7,
The design method of a building, characterized in that the result providing unit determines the number of floors according to the number of households, the amount of sunlight, and the view score that are scattered according to the building rotation arrangement information. 9. The method of claim 8,
The resultant number of floors of some of the buildings is a design method of a building, characterized in that it is smaller than the basic number of floors. a building arrangement providing unit providing information on the arrangement of a building in which a building is to be placed on the target land;
a floor number control unit that sets the basic number of floors of the building based on the building layout information, and calculates the number of households, sunlight, and view points of the building while sequentially increasing or decreasing the number of floors based on the basic number of floors of the building; and
Comprising a result providing unit for determining the resulting number of floors of the building by calculating the overall score according to the number of households, the amount of sunlight and the view score,
The overall score provided by the result providing unit is a design device for a building, characterized in that it includes a traversal axis score indicating the degree of air passing between the buildings disposed on the building target land.

Images