KR102333600B1 - Buiding placement device of preventing sunshine damage - Google Patents

Abstract

According to an embodiment of the present invention, a building placement device comprises a multigenerational skyline merger unit and a building placement unit. The multigenerational skyline merger unit can generate generational skylines corresponding to the sunshine time at which the sunshine is enjoyed from fanlights included in the houses of a target building, and can produce a merged skyline by merging the generational skylines of the houses included in the target building. The building placement unit can determine the arrangement of a new building built around the target building based on the merged skyline. The building placement device can produce the generational skylines corresponding to the sunshine time at which the sunshine is enjoyed from the fanlights included in the houses of the target building, can merge the generational skylines of the houses included in the target building, can create the merged skyline, and can arrange the new building, thereby minimizing damage to the right to sunshine in the target building.

Description

Building arrangement device to prevent damage from sunlight {BUIDING PLACEMENT DEVICE OF PREVENTING SUNSHINE DAMAGE}

The present invention relates to a building arrangement device for preventing damage from sunlight.

When a new building is built, sunlight damage may occur to existing buildings due to the new building. As described above, various studies are being conducted in recent years to prevent sunlight damage to existing buildings caused by new buildings.

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

The technical problem to be achieved by the present invention is to generate household skylines corresponding to the amount of sunlight available from the skylight included in the households of the target building, and merge the household skylines of the households included in the target building to create a merged skyline and to provide a building arrangement device that can minimize sunlight damage to the target building by arranging the new building.

In order to solve this problem, the building arrangement apparatus according to an embodiment of the present invention may include a multi-generational skyline merging unit and a building arrangement unit. The multi-generational skyline merging unit generates household skylines corresponding to the amount of sunlight available from the skylight included in the households of the target building, and merges the household skylines of the households included in the target building to create a merged skyline can do. The building arrangement unit may determine the arrangement of a new building to be built around the target building based on the merged skyline.

In one embodiment, the household skylines are determined according to the surrounding environment including existing buildings already built around the target building, and the width of the household skyline may increase as the distance from the target building increases. have.

In one embodiment, the operation mode of the building arrangement device may include a first operation mode and a second operation mode. In the first operation mode, the building arrangement unit may arrange the new building at a height lower than the merged skyline. In the second operation mode, the building arrangement unit may arrange the new building based on the merged skyline and the number of sunlight hours corresponding to a predetermined time.

In one embodiment, the building arrangement unit may arrange the new building by adjusting the distance from the target building to the new building, the number of floors and the rotation angle of the new building.

In an embodiment, when the building arrangement unit arranges the new building according to the first operation mode, the household skylines of the households included in the target building may be maintained.

In an embodiment, the number of reception limit solar hours may include a first reception limit sunlight time and a second reception limit sunlight time. The first sunlight limit may be a time corresponding to the minimum standard for the total number of hours of sunshine among the first predetermined time intervals. The second sunlight limit may be a time corresponding to a minimum standard for a time that can be continuously sunny among a second predetermined time interval.

In an embodiment, the building arrangement unit may further include a determination unit. After arranging the new building, the determination unit may compare the daylight hours of the households included in the target building with the first water reception limit sunlight hours and the second water reception limit sunlight hours to provide a comparison result.

In one embodiment, the building arrangement unit increases the number of floors of the new building when the daylight hours of the households included in the target building are greater than the first number of hours of sunlight and the second number of hours of sunlight. can do it

In one embodiment, the building arrangement unit when the sunlight time of the households included in the target building is greater than any one of the first water reception limit sunlight time and the second water reception limit solar time, the The number of floors can be increased.

In an embodiment, the building arrangement unit reduces the number of floors of the new building when the daylight hours of the households included in the target building are smaller than the first number of hours of sunlight and the second number of hours of sunlight. can do it

In an embodiment, the building arrangement unit is the new building from the target building when the daylight hours of the households included in the target building are smaller than the first number of sunlight hours and the second number of hours of sunlight. By increasing the distance to the new building can be arranged.

In one embodiment, the building arranging unit, when the sunlight time of the households included in the target building is less than the first water reception limit solar time and the second water reception limit solar time, the rotation angle of the new building It is possible to arrange the new building by adjusting.

In one embodiment, the multi-generation skyline merging unit before the building arranging unit arranges the new building, the sunlight time is smaller than the first number of sunlight hours and the second number of sunlight hours less than the target The household skylines corresponding to the households included in the building may be excluded from the merged skyline.

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 building arrangement apparatus according to the present invention, generation skylines corresponding to the amount of sunlight available from the skylight included in the households of the target building are generated, and the household skylines of the households included in the target building are merged to form a merged skyline. By creating and arranging a new building, it is possible to minimize sunlight damage to the target building.

1 is a view showing a building arrangement apparatus according to embodiments of the present invention.
2 to 5 are diagrams for explaining a household skyline applied to the building arrangement device of FIG. 1 .
6 is a view showing a merged skyline used in the building arrangement device of FIG. 1 .
FIG. 7 is a view for explaining an operation mode of the building arrangement apparatus of FIG. 1 .
FIG. 8 is a view for explaining a first operation mode among operation modes of the building arrangement apparatus of FIG. 1 .
9 is a view for explaining a second operation mode among the operation modes of the building arrangement apparatus of FIG. 1 .
FIG. 10 is a view showing an example of a building arrangement unit included in the building arrangement apparatus of FIG. 1 .
11 to 13 are views for explaining the rearrangement of a new building according to a second operation mode among the operation modes of the building arrangement apparatus 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 view showing a building arrangement apparatus according to embodiments of the present invention, FIGS. 2 to 5 are views for explaining a household skyline applied to the building arrangement apparatus of FIG. 1 , and FIG. 6 is the building arrangement of FIG. 1 It is a diagram showing the merged skyline used in the arrangement device.

1 to 6 , the building arrangement apparatus 10 according to an embodiment of the present invention may include a multi-generation skyline merging unit 100 and a building arrangement unit 200 . The multi-generational skyline merging unit 100 may generate household skylines corresponding to the sunshine hours IJT from the skylight included in the households of the target building OB. For example, the previously built existing buildings may include a first building B1 , a second building B2 , and a third building B3 . The first building B1 among the first buildings B1 to B3 may be the target building OB. The target building OB may be a building selected by the building arrangement device 10 according to the present invention in order to determine sunlight damage among existing buildings already built.

The target building OB may be a target building for which sunlight damage is to be reduced by using the building arrangement device 10 according to the present invention. For example, the first building B1 corresponding to the target building OB may include a plurality of households. The plurality of new generations included in the first building B1 may include a first generation S1 , a second generation S2 , and a third generation S3 . The number of floors and arrangement of skylights in the first generation S1 to the third generation included in the target building OB may be different from each other.

As the sun moves from the skylight of the household included in the target building OB, the household skyline may be formed in the form of a sector in the form of a sector as shown in FIGS. In addition, the generation skyline can be created by designating the date and time according to the user's selection, or fixing the date and time. For example, the household skyline formed from the skylight included in the first generation S1 of the first building B1 corresponding to the target building OB may be the first generation skyline SCL1, and the target building The generation skyline formed from the skylight included in the second generation S2 of the first building B1 corresponding to (OB) may be the second generation skyline SCL2. In addition, the household skyline may be formed in the same manner in the skylights included in other households of the first building B1 corresponding to the target building OB.

2 to 4 , for example, the first generation S1 may be disposed on the first floor, and the second generation S2 may be disposed on the second floor. The height of the first generation S1 may be a first height H1, the height of the second generation S2 may be a second height H2, and the first height H1 is greater than the second height H2. can be low In this case, due to a height difference between the first generation S1 and the second generation S2 , the first generation skyline SCL1 and the second generation skyline SCL2 may be formed differently.

The multi-generational skyline merging unit 100 may generate a merged skyline BSL by merging household skylines of generations included in the target building OB. For example, the first building B1 corresponding to the target building OB may include a plurality of households. The plurality of new generations included in the first building B1 may include a first generation S1 , a second generation S2 , and a third generation S3 . The skyline corresponding to the first generation S1 may be the first generation skyline SCL1 , and the skyline corresponding to the second generation S2 may be the second generation skyline SCL2 . Also, the skyline corresponding to the third generation S3 may be the third generation skyline SCL3 . The multi-generation skyline merging unit 100 may first merge the first-generation skyline SCL1 and the second-generation skyline SCL2. In this case, when the multi-generation skyline merging unit 100 views the generation skyline based on the third direction D3, the first generation skyline SCL1 and the second generation skyline SCL2 overlap each other. For example, the merged skyline BSL may be formed by using a lower generation skyline among the first generation skyline SCL1 and the second generation skyline SCL2 . In addition, the multi-generation skyline merging unit 100 uses the existing generation skyline for a portion in which the first-generation skyline SCL1 and the second-generation skyline SCL2 do not overlap to form a merged skyline (BSL). can be formed For example, if the non-overlapping portion is an area where the original first generation skyline SCL1 is disposed, the first generation skyline SCL1 may be used for the corresponding portion of the merged skyline BSL. Generation skylines of other households included in the target building OB may also be merged in the same manner to form a final merged skyline BSL.

The building arrangement unit 200 may determine the arrangement BP of the new building NB to be built around the target building OB based on the merged skyline BSL. For example, the building arrangement unit 200 may determine the arrangement BP of the new building NB according to the operation mode of the building arrangement apparatus 10 according to the present invention to be described below.

In an embodiment, the household skylines may be determined according to a surrounding environment including existing buildings already built around the target building OB. For example, existing buildings already built around the target building OB may include the second building B2 and the third building B3 . The surrounding environment may include a topographical feature disposed around the second building B2 , the third building B3 , and the target building OB. As the distance from the target building OB increases, the width of the household skyline may increase. For example, when the second generation skyline SCL2 is viewed in the third direction D3, the distance from the first building B1 corresponding to the target building OB to the first location P1 is It may be smaller than the distance from the first building B1 to the second location P2. Here, the width of the second generation skyline SCL2 at the first location P1 may be the first width W1, and the width of the second generation skyline SCL2 at the second location P2 is It may be the second width W2. In this case, the first width W1 may be smaller than the second width W2 .

In the building arrangement apparatus 10 according to the present invention, household skylines corresponding to the available sunlight time (IJT) are generated from the skylight included in the households of the target building OB, and included in the target building OB. By merging household skylines of generations to generate a merged skyline (BSL) and arranging a new building (NB), it is possible to minimize sunlight damage to the target building (OB).

FIG. 7 is a view for explaining an operation mode of the building arrangement apparatus of FIG. 1 , and FIG. 8 is a view for explaining a first operation mode among the operation modes of the building arrangement apparatus of FIG. 1 .

1 to 8 , the operation mode of the building arrangement device 10 may include a first operation mode M1 and a second operation mode M2. In the first operation mode M1 , the building arrangement unit 200 may arrange the new building NB at a height lower than the merged skyline BSL. For example, the previously built existing buildings may include a first building B1 , a second building B2 , and a third building B3 . The first building B1 among the first buildings B1 to B3 may be the target building OB. Among the operation modes of the building arrangement device 10 , the first operation mode M1 may be used to absolutely preserve the sunlight of the target building OB. In the first operation mode (M1), the new building (NB) is arranged higher than the merged skyline (BSL) so that the sunlight of the target building (OB) is not violated. can be a mode. In the building arrangement unit 200 included in the building arrangement device 10 according to the present invention, the new building NB is disposed higher than the merged skyline BSL, so that the sunlight of the target building OB is not violated. In order to prevent this, the number of floors, location, and rotation angle of the new building (NB) can be adjusted.

In the second operation mode M2, the building arrangement unit 200 may place the new building NB based on the merged skyline BSL and the number-of-daylight hours LST corresponding to a predetermined time. . For example, the LST may be a minimum daylight hour determined according to a user designation or predetermined according to a building-related regulation. The existing buildings built in the past may include a first building B1 , a second building B2 , and a third building B3 . The first building B1 among the first buildings B1 to B3 may be the target building OB. Among the operation modes of the building arrangement device 10 , the second operation mode M2 may be used to arrange the new building NB to meet the LST standard of the target building OB. . In the second operation mode (M2), the new building (NB) is placed higher than the merged skyline (BSL) so that even if the sunlight of the target building (OB) is violated, it is necessary to meet the LST standard. It may be a mode used to place a new building (NB). The building arrangement unit 200 included in the building arrangement device 10 according to the present invention is within a range that meets the number of hours of sunlight (LST) standard even if the new building NB is placed higher than the merged skyline BSL. You can adjust the number of floors, location, and rotation angle of the new building (NB) in .

In one embodiment, the building arrangement unit 200 may arrange the new building NB by adjusting the distance from the target building OB to the new building NB, the number of floors and the rotation angle of the new building NB. have.

In an embodiment, when the building arrangement unit 200 arranges the new building NB according to the first operation mode M1 , the skylines of households of households included in the target building OB may be maintained. . For example, as shown in FIG. 8 , when the new building NB having the third height H3 is disposed at the third location, the new building NB may be in contact with the merged skyline BSL. have. In the first operation mode M1, the building arrangement unit 200 may be used to absolutely preserve the sunlight of the target building OB, and merge to place the new building NB closer to the target building OB. The new building NB may be arranged so that the height of the new building NB is lower than the third height H3 so as not to invade the skyline BSL. In this case, when the new building NB is disposed according to the first operation mode M1 , the skylines of households of households included in the target building OB may not be changed.

FIG. 9 is a view for explaining a second operation mode among the operation modes of the building arrangement apparatus of FIG. 1 , and FIG. 10 is a view showing an example of a building arrangement unit included in the structure arrangement apparatus of FIG. 1 .

Referring to FIGS. 1 to 10 , according to an embodiment, the reception limit solar time LST may include a first reception limit solar time LST1 and a second reception limit solar time LST2 . The maximum number of hours of sunlight (LST) may be determined by a user designation or may be the minimum number of hours of sunlight predetermined in accordance with building regulations. The first sunlight limit time LST1 may be a time corresponding to the minimum standard for the total number of hours of sunlight among the first predetermined time intervals. For example, the first time interval may be a time interval from 8:00 am to 16:00 pm. The first sunlight limit LST1 may be 4 hours corresponding to the minimum standard for the total number of hours of sunshine during the time interval from 8:00 am to 16:00 pm. In this case, the first sunlight limit LST1 may be 4 hours.

The second water reception limit sunlight time LST2 may be a time corresponding to the minimum standard for the continuous sunlight available time among the second predetermined time intervals. For example, the second time interval may be a time interval from 9:00 am to 15:00 pm. The second water reception limit solar time LST2 may be 3 hours corresponding to the minimum standard for the continuous sunshine time during the time interval from 9:00 am to 15:00 pm. In this case, the second sunlight limit LST2 may be 3 hours.

In an embodiment, the building arrangement unit 200 may further include a determination unit 210 . After arranging the new building NB, the determination unit 210 determines the solar time IJT of the households included in the target building OB as the first reception limit solar time LST1 and the second reception limit solar time. Comparison with (LST2) can provide a comparison result (CR). For example, the building arrangement apparatus 10 according to the present invention may re-calculate the daylight hours IJT of the households included in the target building OB after arranging the new building NB. The first water reception limit solar time LST1 may be 4 hours, and the second water reception limit solar time LST2 may be 3 hours. After the determination unit 210 included in the building arrangement unit 200 arranges the new building NB, the sunlight time (IJT) of the households included in the target building (OB), the first limit of sunlight time (LST1) ) may provide a comparison result (CR) based on 4 hours corresponding to the second water limit and 3 hours corresponding to the second limit of sunlight (LST2).

In an embodiment, the number of sunlight hours may include a plurality of sunlight hours. The plurality of water reception limit solar hours may include a first water reception limit solar time to an Nth water reception limit solar time (N is a natural number equal to or greater than 2). For example, the user selects a first number of reception limit sunlight hours to a third reception limit sunlight time, and "the first reception limit sunlight hours or the second reception limit sunlight hours or the third reception limit sunlight hours" When set as follows, the building arrangement device according to the present invention may arrange a new building to satisfy at least one of the first number of hours of sunlight to the third of the maximum number of hours of sunlight. In addition, if the user sets something like "(first water reception limit solar time and second water reception limit solar time) or third water reception limit sunlight time", the building arrangement device satisfies the first water reception limit sunlight time In this case, the new building can be arranged so that it must always satisfy the second water reception limit solar time or satisfy the third water reception limit solar time regardless of the first water reception limit solar time or the second water reception limit solar time.

In one embodiment, there may be a plurality of target buildings applied to the building arrangement apparatus according to the present invention. The target building may include a first building, a second building, and a third building. The user may select a target building and household to be applied to the building arrangement device according to the present invention. For example, the user may operate the building arrangement device according to the present invention by selecting No. 302 of the second building, and may partially select and operate No. 304 and No. 102 of the third building.

In an embodiment, the number of sunlight hours may be designated for each target building and each household included in the target building. For example, if there is an elementary school and an apartment building to the north of a new building, the standard of the water reception limit for the elementary school may be to secure two consecutive hours of sunlight from 9:00 a.m. to 1:00 p.m., and The standard of the limit of exposure may be to secure two consecutive hours of sunlight from 9:00 am to 3:00 pm. As such, depending on the various buildings, the criteria for the range of the number of persons may be different.

In one embodiment, when the conditions of the number of people limit sunlight hours are satisfied, the building arrangement device may edit the shape of the land on which the new building is disposed and the arrangement of the new building. Here, the arrangement of the new building may include adjusting the number of floors of the new building, moving the new building, rotating the new building, changing the overall shape of the new building, and changing the partial shape of the new building. The partial shape change of the new building may be implemented with an oblique line so that the high-rise part of the new building does not fall on the limit of the number of people in the skyline. Also, here, the shape of the site may include adjusting the height of the terrain where the new building is located. In particular, improvement of floor area ratio, improvement of the number of households, improvement of the ratio of skylights included in buildings to south-facing, improvement of the ratio of using similar planes, and partial highest height in the same building in editing the layout of new buildings and the shape of the site To reduce the difference, when multiple buildings are included, it can be aimed at arranging so that the distance between the buildings is uniform in the view from the top. In addition, the above goals may be partially or preferentially reflected according to the user's preference.

11 to 13 are views for explaining the rearrangement of a new building according to a second operation mode among the operation modes of the building arrangement apparatus of FIG. 1 .

1 to 13 , the building arrangement unit 200 determines that the sunlight time IJT of the households included in the target building OB is a first maximum sunlight time LST1 and a second maximum sunlight time (LST1). LST2), the number of floors of the new building (NB) can be increased. For example, the building arrangement unit 200 may arrange the new building NB at the third location. The height of the new building NB disposed at the third location may be the fourth height H4. In this case, the daylight hours IJT of the households included in the target building OB may be recalculated. Thereafter, the determination unit 210 included in the building arrangement unit 200 calculates the total number of hours of sunshine during the time interval from 8:00 am to 16:00 pm calculated from the calculated solar time (IJT) and the first number of hours. It can be compared with 4 hours corresponding to the time of daylight (LST1). In addition, the determination unit 210 included in the building arrangement unit 200 is a time interval that can be continuously sunshine during the time interval from 9:00 am to 15:00 pm calculated from the again calculated solar time (IJT) and the second number of hours. It can also be compared with 3 hours corresponding to the daylight hours (LST2). As a result of comparing the sunlight time (IJT) and the water reception limit sunlight time (LST), the sunlight time (IJT) of the households included in the target building (OB) is the first limit of sunlight (LST1) and the second limit of sunlight (LST1). When it is greater than the daylight time LST2, the building arrangement unit 200 may increase the number of floors of the new building NB. In this case, the height of the new building NB may be a fifth height H5.

In an embodiment, the building arrangement unit 200 determines that the daylight hours (IJT) of the households included in the target building OB are a first maximum sunlight time (LST1) and a second maximum sunlight time (LST2). If it is larger than any one of the above, it is possible to increase the number of floors of the new building NB. For example, when the sunlight time (IJT) is less than 4 hours corresponding to the first water reception limit solar time (LST1) and greater than 3 hours corresponding to the second water reception limit sunlight time (LST2), the building arrangement unit (200) can increase the number of floors of the new building (NB). In addition, even when the sunlight time (IJT) is greater than 4 hours corresponding to the first water reception limit solar time (LST1) and less than 3 hours corresponding to the second water reception limit sunlight time (LST2), the building arrangement part ( 200) may increase the number of floors of the new building NB.

In an embodiment, the building arrangement unit 200 determines that the daylight hours (IJT) of the households included in the target building OB are a first maximum sunlight time (LST1) and a second maximum sunlight time (LST2). If it is smaller, the number of floors of the new building NB may be reduced. For example, when the sunlight time (IJT) is less than 4 hours corresponding to the first water reception limit solar time (LST1) and less than 3 hours corresponding to the second water reception limit sunlight time (LST2), the building arrangement unit (200) can reduce the number of floors of the new building (NB).

In an embodiment, the building arrangement unit 200 determines that the daylight hours (IJT) of the households included in the target building OB are a first maximum sunlight time (LST1) and a second maximum sunlight time (LST2). In a smaller case, the new building NB may be disposed by increasing the distance from the target building OB to the new building NB. For example, when the sunlight time (IJT) is less than 4 hours corresponding to the first water reception limit solar time (LST1) and less than 3 hours corresponding to the second water reception limit sunlight time (LST2), the building arrangement unit Reference numeral 200 moves the new building NB from the third position to the fourth position to increase the distance from the target building OB to the new building NB to be disposed.

In an embodiment, the building arrangement unit 200 determines that the daylight hours (IJT) of the households included in the target building OB are a first maximum sunlight time (LST1) and a second maximum sunlight time (LST2). In a smaller case, the new building NB may be arranged by adjusting the rotation angle of the new building NB. For example, when the heights of the corners of the new building NB are different, the condition for the limit of sunlight LST may be satisfied by rotating and disposing the new building NB.

In one embodiment, the multi-generation skyline merging unit 100 includes the first solar time limit (LST1) and the sunlight time (IJT) before the building arrangement unit 200 places the new building (NB). The skylines of households corresponding to the households included in the target building OB smaller than the second limit of sunlight LST2 may be excluded from the merged skyline BSL. For example, if the sunlight hours do not meet the first water exposure limit solar time (LST1) and the second water exposure limit solar time (LST2) before placing the new building (NB), the new building (NB) is installed. Even if it is deployed, it cannot meet the LST. Therefore, before the building arrangement unit 200 arranges the new building NB, the sunlight time is less than the first sunlight limit (LST1) and the second limit sunlight time (LST2). Target building (OB) Generation skylines corresponding to the generations included in may be excluded from the merged skyline (BSL).

In the building arrangement device 10 according to the present invention, household skylines corresponding to the amount of sunlight available from the skylight included in the households of the target building OB are generated, and the households of the households included in the target building OB are generated. By merging skylines to create a merged skyline (BSL), and arranging a new building (NB), it is possible to minimize sunlight damage to the target building (OB).

10: building arrangement device 100: multi-generation skyline merging unit
200: building arrangement unit 210: judgment unit

Claims (17)

Generation skylines corresponding to the amount of sunlight available from the skylight included in the households of the selected target building among previously built buildings, and merging the household skylines of the households included in the target building to create a merged skyline a multi-generation skyline merging unit that generates
Comprising a building arrangement unit for determining the arrangement of a new building to be built around the target building based on the merged skyline,
The operation mode of the building arrangement apparatus including the multi-generational skyline merging unit and the building arrangement unit includes a first operation mode and a second operation mode,
In the first operation mode, the building arrangement unit arranges the new building at a height lower than the merged skyline,
In the second operation mode, the building arrangement unit arranges the new building based on the merged skyline and the number of sunlight hours corresponding to a predetermined time,
The water reception limit solar time includes a first reception limit sunlight time and a second reception limit sunlight time,
The first number of sunlight hours is a time corresponding to the minimum standard for the total number of hours of sunshine among the first predetermined time intervals,
The second maximum number of sunlight hours is a time corresponding to the minimum standard for continuous sunlight among the second predetermined time intervals. According to claim 1,
The household skylines are determined according to the surrounding environment including existing buildings already built around the target building, and the width of the household skyline increases as the distance from the target building increases. . delete 3. The method of claim 2,
The building arrangement unit is a building arrangement device, characterized in that the arrangement of the new building by adjusting the distance from the target building to the new building, the number of floors and the rotation angle of the new building. 5. The method of claim 4,
When the building arrangement unit arranges the new building according to the first operation mode, the household skylines of the households included in the target building are maintained. delete 6. The method of claim 5,
The building arrangement unit,
After arranging the new building, further comprising a determination unit providing a comparison result by comparing the daylight hours of the households included in the target building with the first water reception limit solar time and the second water reception limit solar time Building arrangement device, characterized in that. 8. The method of claim 7,
The building arrangement unit,
When the sunlight time of the households included in the target building is greater than the first number of sunlight hours and the second number of hours of sunlight, the building arrangement device, characterized in that for increasing the number of floors of the new building. 8. The method of claim 7,
The building arrangement unit,
When the daylight hours of the households included in the target building are greater than any one of the first water reception limit solar time and the second water reception limit sunlight hours, the building arrangement, characterized in that the number of floors of the new building is increased Device. 8. The method of claim 7,
The building arrangement unit,
When the daylight hours of the households included in the target building are smaller than the first water reception limit solar time and the second water reception limit sunlight hours, the building arrangement device, characterized in that it reduces the number of floors of the new building. 8. The method of claim 7,
The building arrangement unit,
When the daylight hours of the households included in the target building are less than the first water reception limit solar time and the second water reception limit solar time, the distance from the target building to the new building is increased to create the new building. Building arrangement device, characterized in that the arrangement. 8. The method of claim 7,
The building arrangement unit,
When the daylight hours of the households included in the target building are smaller than the first water reception limit solar time and the second water reception limit solar time, the new building is arranged by adjusting the rotation angle of the new building A building arrangement device with 8. The method of claim 7,
The multi-generation skyline merging unit,
The household skyline corresponding to the households included in the target building in which the daylight hours are smaller than the first number of hours of sunlight and the second number of hours of sunlight before the building arranging unit arranges the new building A building arrangement device, characterized in that it excludes them from the merged skyline. 3. The method of claim 2,
The number of sunlight hours includes a plurality of sunlight hours, and a part of the plurality of sunlight hours is selectively used according to a user's selection. According to claim 1,
The target building is a building arrangement device, characterized in that the plurality. 15. The method of claim 14,
The number of sunlight hours is a building arrangement device, characterized in that set for each household included in the target building and the target building. 15. The method of claim 14,
When the conditions of the number of people limit sunlight hours are satisfied, the building arrangement device edits the shape of the site on which the new building is placed and the arrangement of the new building.

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