KR100848820B1 - A presentation system and method for construction criterion with 3d mass - Google Patents

Abstract

A system and a method for representing construction criterion with 3D(Dimensional) mass are provided to enable an architect to design a building easily by representing a building area/height permitted to a site in a 3D mode based on various kinds of rules. A database unit(100) includes a construction plan database(110), a constructs rule database(120), and a geographic information database(130). An input unit(200) is connected to the database unit, and detects input received from the outside to store construction plan information of a building to the construction plan and rule databases. A central processor(300) outputs a 2D or 3D geographic image to an output unit(400) by using geographic information stored in the geographic information database, outputs the building on the geographic image in a 3D mode by matching the geographic information with the construction plan information, and displays a 3D mass comprising extended border lines and faces, which are formed based on a permitted construction area according to construction criterion of the building, on the geographic image by matching the construction rule information with the construction plan information.

Description

{A Presentation System and Method for Construction Criterion with 3D Mass}

The present invention relates to a building reference representation system and method using a three-dimensional mass. More specifically, in a three-dimensional building standard representation system and method that makes it easier to design a building by expressing the area and height in which the building can be located in various dimensions on the business site in various dimensions. It is about.

In designing a building, engineering design according to the shape, height, ground conditions, etc. of the building itself is the most important, but in the business site on which the building is built, the business site in accordance with adjacent lands, adjacent roads, regions, districts, etc. Since the area and height where buildings can be located inside are limited by various laws and regulations, it is also very important to adjust the design of the location and shape to satisfy these regulations. In the Building Law, various regulations such as minimum and maximum spacing and height between buildings are defined according to the type of the area to which the land belongs, and all the various provisions of such building law must be satisfied before the construction work begins. I can receive it. Of course, if the building law is in violation of the building law, the building owner or the construction coordinator will receive various disadvantages. Therefore, it is well known that at the design stage of the building, it is very important to check not only the completeness of the engineering design but also the design of the building codes.

Conventionally, in designing a building, a person has manually checked whether a position, height, etc., which are limited by a building method, are properly set. However, in the case of a business site in which a single building is completed, since the number of legal regulations applied is relatively small, such a manual work can be easily confirmed by humans, but a business site, that is, an apartment, to which various standards are applied is applied. In the case of a business site in which a large number of buildings are arranged, such as a complex, the difficulty of such a work is dramatically increased, and thus, the time and cost required to confirm such building standards have been greatly consumed. In addition, as described above, in the case of complex buildings, building standards check is a difficult task to be solved by manpower, so mistakes often occur. In such a case, the construction plan needs to be redone due to the application of wrong standards. It was also very likely to occur.

In the course of building construction, various studies have been conducted in order to easily avoid various limitations caused by other buildings and structures in the construction planning stage in advance.

In Korean Patent Application No. 2004-0070452 (Publication 2006-0021628, "Underground buried 3-D display method", hereinafter prior art 1), the construction work can be carried out without damaging the buried material when excavation work, ground work, etc. Disclosed is a technique. The prior art 1 uses data obtained by performing a binarization process on a two-dimensional planar image using drawing data in which actual buried items such as water pipes, gas pipes, telecommunications, electric wire cables, and possessive pipes are displayed. The specific slices are derived from the slices, and the derived objects are clustered to express the shape of the underground works in three dimensions. That is, the above technique is to obtain the three-dimensional image by processing the drawing data of the buried material, if there is only the drawing data, no other calculation work is required. However, in order to meet the building standard as described above, not only the appearance of the building is considered but also various standards are applied depending on the type of the site on which the building is constructed, the type of the adjacent land, the type of the building itself, and the like. Calculation work is essential. Therefore, if using the prior art 1, it is possible to create a three-dimensional shape by using the drawing data of the building, but in order to confirm whether the three-dimensional shape thus made meets the building standards, it must also undergo a complicated calculation process by human resources. However, the above problems cannot be solved.

Japanese Patent Application No. 2002-089967 (Publication 2003-288613, "Three-dimensional model generation system and method and computer program", hereinafter, prior art 2) discloses a technique for obtaining an accurate appearance shape of a building. Briefly describing the prior art 2, in the building and road map, after obtaining the height information for the designated building area, and generates a building model based on the elevation data mapped to the height information for each observation point on the base plane 3 Primary basic model generation system. The prior art 2 is a system for making a three-dimensional map, generally, in order to make a two-dimensional map in the air over the air, satellite observation, etc., and made a map based on the results, but to create a three-dimensional map At this time, it is a system to solve the problem that the appearance of the building cannot be accurately formed only by the observation of the air in the case of a building (for example, pyramid shape) where the shape of the building is difficult to infer the actual appearance from the shape of the base. Similar to the prior art 1, the prior art 2 has the advantage that it is easy to generate the appearance of the building in three dimensions, but in order to know whether each building meets the building standards, it is required to go through a complicated calculation process by manpower The problem cannot be solved.

Accordingly, the present invention has been made to solve the problems of the prior art as described above, the object of the present invention is to automatically generate the area and height in which the building can be located in the site according to the conditions of the business site prescribed by the Building Act The present invention provides a building reference expression system and method using a three-dimensional mass that enables a user to easily check whether a building is designed according to building standards.

Building reference expression system using a three-dimensional mass of the present invention for achieving the above object, the building plan database 110, the building plan information is stored, the building reference information according to the building law and related regulations are stored A database 100 including a building reference database 120 and a geographic information database 130 in which geographic information is stored; The input detection means 200 is connected to the database 100 and detects an input from the outside so that the design plan information of the building is stored in the building plan database 110 and the building reference information is stored in the building reference database 120. ); And outputting a geographic image two-dimensionally or three-dimensionally to the output means 400 using the geographical information stored in the geographical information database 130, and the geographical information stored in the geographical information database 130 and the building plan database. Matching the design plan information stored in the 110 to output the building three-dimensionally on the geographic image of the output means 400, the building reference information stored in the building reference database 120 and the building plan database 110 A central processing unit 300 matching the design plan information stored in the 3D structure to indicate a 3D mass of a completion possible range according to a building standard of the corresponding building on a geographic image in which the 3-dimensionally expressed building is displayed; Characterized in that comprises a.

At this time, the three-dimensional mass in the case of the building plan in which a plurality of buildings that are independent of each other is disposed on the adjacent site is a building standard mass is generated for a plurality of buildings, or a single unit of construction consisting of a plurality of identical buildings If the plan is characterized in that the same reference mass is generated a single dog for a single building.

In addition, the design plan information is characterized by including the presence or absence of adjacent land, the presence and distance of adjacent roads, the region and district of the site, the presence or absence of a known presence in the site, the building height. In addition, the building reference information is characterized in that it includes the adjacent site conditions, adjacent road conditions, the area and district of the site, the notice in the site, the sunshine conditions including mining and human intervals, altitude restrictions.

In addition, the building reference expression method using the three-dimensional mass of the present invention, in the building reference expression method using the building reference expression system as described above, a) the building reference database 120 according to the building method and related regulations Building reference information is stored in advance; b) pre-store geographic information in the geographic database (130); c) storing design plan information of a building in the building plan database 110 through the input detection means 200; d) the central processing means (300) outputting a geographic image in two or three dimensions to the output means (400) using geographic information stored in the geographic information database (130); e) the central processing unit 300 matches the geographic information stored in the geographic information database 130 with the design plan information stored in the building plan database 110 to construct a building on the geographic image of the output means 400. Output three-dimensionally; f) Geographic image showing the three-dimensional representation of the building by the central processing means 300 matching the building reference information stored in the building reference database 120 and the design plan information stored in the building plan database 110 Displaying a completion possible range based on a building standard of the corresponding building on a three-dimensional mass; Characterized in that comprises a.

As described above, according to the present invention, since the three-dimensional mass according to the area and height in which the building can be located in the business site is automatically generated and visually represented according to the provisions of the building law, the user can correctly configure the building according to the building standard. There is a big effect that makes it intuitively easy to see if it is designed. Of course, according to this, there is also an effect that can be blocked in advance in advance the errors that may occur in the layout and planning of the building. In addition, according to the present invention, since the operation of confirming whether the building meets the building standards is greatly simplified compared to the conventional manual work, a large effect that the resources such as time, manpower, and cost required for such work can be greatly saved. have.

Hereinafter, a building reference expression system and method using a three-dimensional mass according to the present invention having the configuration as described above will be described in detail with reference to the accompanying drawings.

The two prior arts described above are intended to generate a three-dimensional model for a building (facilities) in use. However, the present invention is a system for supporting an efficient building design by providing a building model according to the ground conditions as a shape model to facilitate the design of a new building (facilities) from the construction drawing to the project site for the building (facilities) under construction. Therefore, the purpose or application of the prior art is different. The present invention is described in more detail below.

1 is a schematic system diagram of a building reference expression system using a three-dimensional mass of the present invention. As shown, the building reference expression system of the present invention includes a database 100, an input detection means 200, a central processing means 300, and an output means 400.

The database 100 is divided into sub-databases. First, the building plan database 110 stores design plan information of a building for construction in which an actual construction is to be performed. The design plan information of the building is information of the shape of the building, and is three-dimensional information such as the shape, length, width, and height of the building. The building standard database 120 stores building reference information according to building laws and related regulations. For example, the distance from the adjacent land boundary to the building is, according to Article 80-2 of the Building Act Enforcement Decree, more than 1 meter but not more than 6 meters and less than 6 meters or less, Row houses are more than 1.5 meters and less than 6 meters, and multi-family houses are more than 1 meter and less than 6 meters. Since the building standard information is collectively inputted, it is possible to easily search and grasp various building standards for the corresponding building by knowing only what kind of specific building. In addition, the geographic information database 130 stores the geographic information near the area where the construction is performed along with the three-dimensional image. Accordingly, information stored in the building plan database 110, the building reference database 120, and the geographic information database 130 may be stored in the 3D shape modeling language based on a 3D shape modeling language such as VRML. Matching each other by inserting them as variables of the basic three-dimensional shape generating function provided provides the ability to display buildings on a map and also display building reference limits.

The input detecting means 200 is connected to the database 100 so that the user can store the building design information in the building plan database 110 or the building reference information in the building reference database 120. Means for detecting input of information from, of course, general input detection means such as a keyboard, a mouse and the like. Since the building standard information is of course defined in the Building Law, it will hardly change, but it is desirable to enable the input and correction of the building standard information in case changes occur, such as a revision of the law.

The central processing unit 300 processes the information stored in the database 100 and outputs the processed information to the output unit 400. First, a geographic image is generated two-dimensionally or three-dimensionally by using the information stored in the geographical information database 130, and the design is input to the building plan database 110 three-dimensionally on the three-dimensional geographic image. By matching the building by the plan information with the information stored in the geographic information database 130, it is displayed three-dimensionally on the output three-dimensional geographic image. Next, the construction possible range according to the building standard of the three-dimensional building represented by the building standard information stored in the building standard database 120 is represented as a three-dimensional mass.

Here is a simple example: If the building is designated as a 'multi-family house' in the building plan database 110, the building should be separated by more than 1 meter and less than 6 meters from the boundary line of the surrounding adjacent site. Therefore, the central processing unit 300 is connected to the point of 1 meter from the boundary of the adjacent land to set the column shape, and the appropriate height corresponding to the sixth floor (since 'multi-family house' should be six stories or less in height) It is to cut at the height position to form a mass. As long as the building enters the mass formed as described above, it can be intuitively understood that the building satisfies the distance condition from the boundary of the adjacent site.

In the above-described example, only one criterion (distance from adjacent ground) is used for the sake of simplicity, but it is well known that various criteria are applied in the case of a real building. It is already pointed out that the problem of the prior art is difficult to check. However, as described above, according to the present invention, since the central processing means 300 automatically calculates the completion possible range in consideration of all the various standards, the user can easily and easily violate the building standards. Intuitively determine whether or not.

Fig. 2 shows an embodiment according to the system of the present invention for setting such criteria as design plan information. As shown in the drawing, it is preferable to shorten the processing time by outputting a two-dimensional map image. In the embodiment of Fig. 2, the area is set to consider that the building law standard according to the administrative area is changed, the boundary division is set so that the boundary division can be considered, the road width is set, and the presence of adjacent land is checked. You can also enter an altitude limit so that you can set an appropriate height limit.

3 and 4 illustrate embodiments of the mass calculated by the central processing unit 300 as described above. 3 is an example of the building reference mass, and is used in the case of a building plan in which a plurality of buildings independent of each other are disposed on adjacent land. That is, as shown in FIG. 3, a single dog is generated for a plurality of buildings, and the arrangement may be completed while satisfying an external standard by simply placing the plurality of buildings inside the building reference mass. . 4 is an example of the reference mass, which is used in the case of a building unit plan consisting of a plurality of identical buildings, that is, for example, an apartment complex plan. That is, as shown in Figure 4 is to create a single dog for a single building, so that each building of the apartment is arranged in a range that does not deviate from the building standards.

FIG. 5 shows an example of examining the layout plan of an apartment complex utilizing the mass by the system of the present invention. As shown in FIG. 5 (A), for the first apartment complex layout plan, by visually confirming that the part indicated by the ellipse deviates from the building reference mass when referring to the completion possible range indicated by the building reference mass, FIG. 5. It is easy to see that the layout plan in (A) is inconsistent with the building code. Therefore, as shown in FIG. 5B, when all the buildings enter the building reference mass by adjusting the layout of each apartment of the apartment (that is, by modifying the design plan information), the layout plan that does not deviate from the building method is completed.

Fig. 6 shows in a simplified flow chart a method of expressing building criteria using the system of the present invention as described above.

First, building reference information according to a building law and related regulations is stored in the building reference database 120, and geographic information is stored in the geographic information database 130 in advance (S101). The order in which the building standard information or geographic information is stored first is not important.

In this way, after all the information that can be a reference is stored in advance, the design plan information of the building required for practical use is stored (S102). The design planning information of the building is of course input and stored by means of the input detection means 200, that is, a keyboard, a mouse and the like.

Thereafter, the central processing unit 300 first outputs the geographic image in two or three dimensions to the output unit 400 using the geographical information stored in the geographic information database 130 (S103).

The central processing means 300 matches the geographic information stored in the geographic information database 130 and the design plan information stored in the building plan database 110 on the output image, so that the output means 400 may be used. The building is three-dimensionally output on the geographic image, and also matched the building reference information stored in the building reference database 120 and the design plan information stored in the building plan database 110 to express the three-dimensional building On the displayed geographic image, the construction possible range according to the building standard of the corresponding building is represented as a 3D mass (S104).

Of course, the three-dimensional mass may be outputted first and the building may be outputted therein so that the building enters the construction possible range represented by the three-dimensional mass. In other words, the order in which the building and the three-dimensional mass are output first is not important.

The present invention is not limited to the above-described embodiments, and the scope of application of the present invention is not limited to those of ordinary skill in the art to which the present invention pertains without departing from the gist of the present invention as claimed in the claims. Of course, various modifications can be made.

1 is a system diagram of a building reference representation system using a three-dimensional mass of the present invention.

2 is an exemplary reference setting by the system of the present invention.

Figure 3 is an illustration of the building reference mass by the system of the present invention.

Figure 4 is an illustration of the same reference mass by the system of the present invention.

5 is a mass utilization example by the system of the present invention.

6 is a method flow diagram of the present invention.

Claims (5)

A database including a building plan database 110 in which design plan information of a building is stored, a building reference database 120 in which building reference information according to a building law and related regulations are stored, and a geographic information database 130 in which geographic information is stored. 100; The input detection means 200 is connected to the database 100 and detects an input from the outside so that the design plan information of the building is stored in the building plan database 110 and the building reference information is stored in the building reference database 120. ); And Outputs a geographic image in two or three dimensions to the output means 400 using the geographic information stored in the geographic information database 130, and the geographic information stored in the geographic information database 130 and the building plan database ( Matching the design plan information stored in 110 to output the building three-dimensionally on the geographic image of the output means 400, the building reference information stored in the building reference database 120 and the building plan database 110 An extension line of the boundary line and extension planes of the boundary plane formed on the geographic image in which the three-dimensionally expressed building is matched by matching the design plan information stored in the building are based on the completion possible range according to the building standard of the corresponding building. A central processing unit 300 represented by a three-dimensional mass having a three-dimensional solid shape; Building reference expression system using a three-dimensional mass, characterized in that comprises a. The method of claim 1, wherein the three-dimensional mass In the case of a building plan in which a plurality of buildings independent of each other are disposed on adjacent lands, a single dog is generated for a plurality of buildings, and is based on the common completion range of the plurality of buildings that are placed on adjacent lands and can be regarded as a single bundle. It is a building reference mass of a three-dimensional solid shape formed by the extension of the boundary line and the extension surface of the boundary surface formed by each; In the case of a single unit building plan consisting of a plurality of identical buildings, a single dog is generated for a single building, and the three-dimensionally formed extension line of the boundary line and the extension planes of the boundary surface are formed based on the completion range of the building. A building reference expression system using a three-dimensional mass, characterized in that the three-dimensional shape of the same reference mass. The method of claim 1, wherein the design plan information An architectural reference expression system using three-dimensional masses, including the presence of adjacent land, the presence and distance of adjacent roads, the area and district types of the land, the presence or absence of a known presence in the land, and the height of the building. The method of claim 1, wherein the building reference information An architectural reference expression system using three-dimensional masses comprising adjacent site conditions, adjacent road conditions, area and districts of the site, notices in the site, sunshine conditions including mining and human intervals, and altitude restrictions. In the building reference expression method using the building reference expression system according to any one of claims 1 to 4, a) storing, in advance, building reference information according to building codes and related regulations in the building reference database 120; b) pre-store geographic information in the geographic database (130); c) storing design plan information of a building in the building plan database 110 through the input detection means 200; d) the central processing means (300) outputting a geographic image in two or three dimensions to the output means (400) using geographic information stored in the geographic information database (130); e) the central processing unit 300 matches the geographic information stored in the geographic information database 130 with the design plan information stored in the building plan database 110 to construct a building on the geographic image of the output means 400. Output three-dimensionally; f) Geographic image showing the three-dimensional representation of the building by the central processing means 300 matching the building reference information stored in the building reference database 120 and the design plan information stored in the building plan database 110 Outputting a building completion range corresponding to the site conditions and building standards with respect to the building as a three-dimensional reference mass; Building reference expression method using a three-dimensional mass, characterized in that comprises a.

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