KR20090020017A - Method for predicting and evaluating environment property of house - Google Patents

Abstract

A house environment performance estimation evaluation method is provided to supply an optimum housing construction specifications through estimation analysis for environment performance estimation elements of area corresponding to internal or external environment conditions initially proposed for a housing area which will be constructed. According to information which is stored in a storage unit of a computer having a display unit and inputted, an arrangement CAD program for comprehensively analyzing environmental performance of a house which will be constructed is installed. A project for predicting and evaluating the environmental performance of the house is generated by driving the arrangement CAD program. Internal and external analysis environment about the house are set according to the proposed information based on the project information. Performance by environmental parameter of the house is analyzed based on the set internal and external environmental information. By synthesizing the analysis result for the performance by environmental parameter of the house, an environmental analysis integration report of the house is generated.

Description

Method for predicting and evaluating environment property of house

The present invention relates to a method for predicting and evaluating the environmental performance of a house. More specifically, the optimal house is predicted by analyzing the sunshine, view, ventilation, and privacy of the complex according to the proposed internal and external environmental conditions for the housing complex to be built. The present invention relates to a method for predicting and evaluating environmental performance of a house from which architectural design can be derived.

The rapid urbanization following industrial development has led to the construction of large group residential complexes such as apartments, centering on large cities, and the desire for a pleasant living environment is increasing due to the improvement of the overall living standard.

In general, in the construction of an apartment, the entire complex is often carried out as a single construction project. At this time, the characteristics of the complex included in the building project are determined by building components such as the number of houses, ballast water, the number of households, the performance of the complex and the layout, the presence and type of convenience facilities, and the heating method.

In particular, the environmental performance of the complex and its layout has a significant impact on the estimation of the sale price of the housing complex to be built, the residential environment and the sale price by generation. At this time, the factors that have a significant impact on the environmental performance evaluation according to the layout of the housing complex, such as sunlight, view, ventilation, and privacy.

Previously, instead of separately evaluating the environmental performance of the housing complex, the layout of the housing complex was designed based on the information determined according to the recommended environmental performance. As such, when designing the housing complex layout information designed based on the determined information, the optimum layout design condition of the housing complex may be changed by the surrounding geographical conditions including the housing complex to be constructed.

Therefore, the optimal layout design of the complex for the environmental performance evaluation factors according to the layout of the housing complex is required in consideration of the housing complex to be constructed and the surrounding geographical environment. At this time, since the optimal layout design of the complex is variable according to the evaluation factors of the housing environment performance such as sunlight, view, ventilation, and privacy, it is necessary to derive the optimal layout design through various layout simulation processes before the layout design of the housing complex.

An object of the present invention for solving the above problems, through the predictive analysis of the environmental performance evaluation factors of the complex according to the internal and external environmental conditions proposed for the housing complex to be built in the early stage of the design to determine the optimal housing construction design It is to provide a method and a recording medium for predicting the environmental performance of a house that can be provided.

Home environment performance prediction evaluation method according to an embodiment of the present invention for achieving the above object, comprehensively analyzes the environmental performance of the house to be built according to the information stored and stored in the storage means of the computer provided with the display means Developing and installing a batch CAD program for generating a project; driving the batch CAD program to generate a project for predicting and evaluating the environmental performance of the house; and building the program according to the proposed information based on the project information. Setting the external and internal analysis environment for the house, analyzing the performance for each environmental element of the house based on the set external and internal environment information, and analyzing the results of the performance for each environmental element of the house Generating an integrated report of environmental analysis of the house.

The setting of the analysis environment may include: retrieving a topographic map of the area in which the house to be built is included from a geographic information drawing stored in the storage means; two-dimensional and / or three-dimensional including elevations based on contours of the retrieved topographic map. Creating a topography of the building, an external building environment setting step of generating an exterior building of the housing to be built using a map file including information on the floors of the buildings distributed in the area corresponding to the topographic map, and the proposal And an internal building environment setting step of generating the house in the complex according to the information.

The external building environment setting step may further include setting an arrangement of the housing complexes in the map file, and setting an orientation for the map file including the arranged housing complexes.

The internal building environment setting step may include registering and generating a unit for a building of the house, registering and generating a core for the building of the house connected to the unit, and connecting the core. And further creating a building for the building of the house connected to the unit.

In the environmental performance analysis step, the sun, view, ventilation, and privacy for the housing complex is analyzed.

On the other hand, a computer-readable recording medium that records a program for predicting and evaluating home environment performance for achieving the above object is stored in a storage means of a computer having a display means installed on a PC side and provided to the proposed information. A computer readable recording medium recording a batch cad program for comprehensively analyzing the environmental performance of a house to be constructed, the method comprising: generating a project for predicting and evaluating the environmental performance of the house by running the batch cad program. 1 module; A second module for setting an external and internal analysis environment for the house to be built according to the proposed information based on the project information; A third module that analyzes performance of each environmental element of the house based on the set external and internal environmental information; And a fourth module for generating an integrated environmental analysis report of the home by synthesizing the analysis results of the performance of the environmental elements of the home.

According to the present invention, it is possible to derive an optimal house building design by predicting and analyzing the sunshine, view, ventilation, and privacy of the complex according to the proposed internal and external environmental conditions for the house to be built.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. It should be noted that the same elements in the figures are represented by the same numerals wherever possible. In addition, detailed descriptions of well-known functions and configurations that may unnecessarily obscure the subject matter of the present invention will be omitted.

1 is a block diagram showing an example of a computer equipped with a recording medium having recorded thereon a program for carrying out the present invention.

In the present invention, the program recorded on the recording medium is a program for evaluating the prediction of the residential environment performance.

As shown, the computer for home environment performance prediction evaluation has a CPU 110, a display unit 120, a communication unit 130, an audio output unit 140, a memory 150, and a key input unit 160. .

The CPU 110 controls the overall operation of the computer, and performs a control operation for evaluating the residential environment performance according to an embodiment of the present invention.

The display unit 120 displays the overall operating state information of the computer under the control of the CPU 110 through the screen, and displays the information generated during the process for the home environment performance prediction evaluation according to the embodiment of the present invention. Display through.

The communicator 130 performs short-range and / or long-range internet communication in a wired and / or wireless manner under the control of the CPU 110.

The audio output unit 140 outputs an audio signal through a speaker under the control of the CPU 110, processes a digital signal input from the outside, and provides the digital signal to the CPU 110.

The memory 150 stores an operating program (OS) 151 for controlling the operation of the computer under the control of the CPU 110. According to an embodiment of the present invention, the memory 150 includes an environmental performance evaluation program 153 for evaluating a residential environment performance analysis, map data 155 including housing and surrounding information for housing environmental performance evaluation, and a housing environment. The analysis result data 157 which is a performance evaluation result is included and stored. In the present embodiment, the environmental performance evaluation program 153 is an add-on program that is added to Archi CAD, which is a batch CAD program, to perform a function for evaluating the environmental performance of a housing complex.

The key input unit 160 includes a plurality of keys for inputting a command for controlling the overall operation of the computer to the CPU 110. In the home environment performance analysis and evaluation operation through the plurality of keys, according to an embodiment of the present invention. The command is received and transmitted to the CPU 110.

According to an embodiment of the present invention, the computer includes a project generation unit 210, an analysis environment setting unit 220, an environment analysis unit 230, and a report generation unit 240 for evaluating the environmental performance of the house. It is composed.

The project generator 210 generates the project contents of the housing complex for environmental analysis according to a command input from the user through the key input unit 160 with respect to the driven environmental performance evaluation program 153.

The analysis environment setting unit 220 sets an external and internal analysis environment for the housing complex to be built based on a command input based on the proposed information based on the generated project information.

The environment analyzer 230 analyzes the performance of each of the environmental elements of the house according to the input command based on the set external and internal environment information. The environmental factors of the house analyzed here are sunlight, vista, gout, and privacy.

The report generator 240 generates an integrated environmental analysis report of the house by synthesizing the analysis result of the performance of the environmental elements of the house according to the input command.

Hereinafter, a process of evaluating environmental performance by a computer for evaluating a residential environment performance having the configuration and features as shown in FIG. 1 will be described in detail.

Therefore, by predicting and analyzing environmental performance evaluation factors such as the sun, view, ventilation, and privacy of the complex according to the proposed internal and external environmental conditions for the housing complex to be built, an optimal housing construction design can be derived.

FIG. 2 is a flowchart illustrating a step-by-step method for predicting and evaluating environmental performance of a home using a computer for evaluating home environment performance of FIG. 1 according to a preferred embodiment of the present invention.

As shown, first, a program for evaluating the environmental performance of a house is developed by a user and installed in a memory 150 which is a storage medium (S100).

Thereafter, the CPU 110 of the computer drives the environmental performance evaluation program 153 to evaluate the environmental performance according to the input command, and generates a project for analyzing the environmental performance (S200).

When the project is generated, the CPU 110 controls the analysis environment setting unit 220 to generate an external and internal analysis environment for the housing complex to be built based on a command input based on the proposed information based on the project information generated. Set (S300).

When the external and internal environment of the housing complex for environmental analysis evaluation is set, the CPU 110 controls the environmental analyzer 230 to sunshine, view, and ventilate based on the external and internal environmental information set according to a command input. And analyzes the home environment performance for privacy (S400).

When the environmental analysis is completed, the CPU 110 controls the report generation unit 240 to generate an integrated analysis report of the environmental analysis of the house by synthesizing the analysis result for the performance of each environmental element according to the command input (S500). .

Detailed processes of each step of FIG. 2 will be described below.

3 to 5 are diagrams showing an example of a process of generating a project for environmental analysis through the project generation step (S200) of FIG.

As shown, when the environmental performance evaluation program 153 is executed, the CPU 110 drives a program (batch CAD program) for environmental performance evaluation as shown in FIG. 3 and displays it on the screen. The CPU 110 displays, on the screen, the analysis main palette 300 which is an environmental performance evaluation menu for predicting housing performance provided in a menu tool of a program driven according to an input command. In this case, the analysis main palette 300 includes a project 310, a complex, a layout CAD, an environment analysis, and an analysis report item. The function of each menu item will be described later in the process of performing environmental performance analysis prediction evaluation.

When the analysis main palette 300 is selected to generate a project, the CPU 110 displays a project setting window to be set corresponding to the project menu 310 as shown in FIG. 3. The project information set at this time includes the project name of the housing estate to be analyzed and evaluated, the file name of the project name, the location of the housing estate, the area classification, and the main purpose information.

When the overview menu 311 included in the project menu 310 is selected to generate a project, the CPU 110 displays a project information input window as shown in FIG. 4. Thereafter, after the information on each item is input and selected and the save menu 312 is selected, the CPU 110 inputs and displays the input and selected information in the project setting window as shown in FIG. Create a project for

6 to 25 are views illustrating an example of an analysis environment setting process through the analysis environment setting step S300 of FIG. 2.

FIG. 6 is a flow chart listing each process of the analysis environment setting step S300 of FIG. 2 in more detail.

First, the CPU 110 searches for the topographic map including the topographic map of the housing complex to be built according to the input command from the map data 155 (S320). Thereafter, the CPU 110 generates and transforms the searched topographical map into two-dimensional and / or three-dimensional terrain according to the input command (S340).

When the terrain generation for the searched topographic map is completed, the CPU 110 sets the external environment and the internal environment of the housing complex using the map file according to the input command (S360, S380).

7 and 8 illustrate a process of performing the topographical search step S320 of FIG. 6 according to an embodiment of the present invention.

When the jar peripheral menu 320 of the analysis main palette 300 is selected, the CPU 110 displays a setting window set corresponding to the jar peripheral menu 320 on the screen as shown in FIG. 7. At this time, if the drawing search menu 321 of the terrain and the external building menu is selected, the CPU 110 displays an input window for drawing search as shown in FIG. At this time, the CPU 110 designates a folder path in which the geographic information drawing 'DWG' file is stored according to the input command, and displays information such as an area name or a main building name. Thereafter, when the search menu 322 is selected, the CPU 110 searches for an area map corresponding to the input information. At this time, the retrieved topographic map file is used when generating the topography and surrounding buildings.

9 to 12 illustrate a process of performing the terrain generation step S340 of FIG. 6 according to an exemplary embodiment of the present invention.

The terrain is created using Archi CAD's Add-on program called Archi Terra.

메뉴가 입력됨에 따라, 지형 등고선이 드로잉 되어있는 ‘DXF’ 파일을 선택하고 선택된 DXF 파일에 대해 [Import DXF file] 창이 나타나면 이곳에서 등고선이 드로잉 되어있는 층(Layer)을 선택한다. 이에 따라, 도 9의 화면에 표시되는 도면이 나타나면, 아키 테라 팔레트(323)에서

메뉴(outline settings)가 선택된 후 입력되는 명령에 따라 2차원 또는 3차원으로 지형을 생성하기 위한 범위를 선택한다. When [Others>ArchiTerra> Show ArchiTerra Palette] is selected in the main menu of the program, the CPU 110 displays the Aquiterra palette 323 as shown in FIG. CPU 110 is located at the top right

As the menu is entered, select the 'DXF' file where the terrain contours are drawn, and the [Import DXF file] window appears for the selected DXF file. Select the layer where the contours are drawn. Accordingly, when the drawing displayed on the screen of FIG. 9 appears, the aquiterra palette 323

After the menu is selected, the range for generating the terrain in 2D or 3D is selected according to a command inputted.

메뉴(325)(지형변환)가 선택되면, CPU(110)는 도 11에 도시된 바와 같이 지형 설정 창(325a)을 표시한다. 이때 ‘Show Triangles(3차원 보기’ 메뉴가 선택되고 다른 값은 기본설정을 유지한 후 ok 메뉴(325b)가 선택되면, CPU(110)는 구동중인 프로그램을 통해 도 12와 같이 3차원의 지형(326)을 생성한다. Later on in the ArchiTerra Palette (323)

When the menu 325 (terrain conversion) is selected, the CPU 110 displays the terrain setting window 325a as shown in FIG. At this time, if the 'Show Triangles' menu is selected and other values remain the default setting, and the ok menu 325b is selected, the CPU 110 uses a running program as shown in FIG. 326).

When looking at the cross section of the terrain generated in the present embodiment, the start point and the end point of the place where the section is to be viewed are selected in two dimensions, the end point is selected again, and then the direction is selected. You can generate cross sections.

When the terrain generation is completed, the CPU 110 closes the Akiterra palette window 323 for setting the environment required for the environmental performance evaluation of the housing complex by the user according to the input command.

13 to 15 are diagrams illustrating a process of performing the external environment setting step S360 of FIG. 6 according to an embodiment of the present invention.

When the external building creation menu 327 is selected in the only peripheral menu 320 of the analysis main palette 300, the CPU 110 performs a process for generating a building within the selected range on the selection button. Since the CPU 110 does not have information about the floor of the surrounding building in "DXF" but is in "DWG", the CPU 110 searches for a "DWG" file in order to obtain information necessary for creating an external building. At this time, according to the input command, the CPU 110 selects the 'DWG' file having the same name as the file in which the terrain was created in the search window and inserts the 'DWG' file in the selected location that is identical to the terrain in the setting window to perform mutual mapping. Let's do it.

Accordingly, as illustrated in FIG. 13, the exterior building 327a is modeled and arranged using only one library. In the 'DWG' file, the floor of the external building is displayed, and the CPU 110 generates the external building 327a using this floor information as shown in FIG. 14, and the height of one floor is 2900 [mm] as a default value. do. In this embodiment, if you want to create the entire external building at once, it takes too much time and computer resources, you have to set the desired area.

After that, the CPU 110 loads the layout according to the input command. In this case, the operation is performed on the upper layer to facilitate the operation. To change a layer, simply double click on it in the Navigator.

The layout is also worked on ArchiCAD in the same way as in the topographic map, with care in setting the units. In other words, merge the selected 'DWG' file and set the drawing unit to [ mm ] in the setting window.

In some cases, the north direction of the layout must be checked to adjust the rotation angle of the entire layout. Since the north side is at 12 o'clock, the north side of the map should be adjusted to the north side if the layout is not the same. Just set the layout to ghost and go back to the terrain view.

If you want to compare before and after the development in the analysis of the sun or view of the external building, the pre-development buildings should be designated in the menu 320 around the complex. That is, the CPU 110 selects the buildings to be lost after the layout of the buildings created as the exterior building according to the input command, and selects the designation button as the building before development to move to a specific layer.

In solar analysis, the sun's path must be calculated, so the orientation of the area being analyzed is important. Therefore, the CPU 110 sets the orientation of the analysis target region as shown in FIG. 15 according to the input command. In Archi CAD, the default setting of the upper part of the work screen (90 degrees when looking to the right of 0 degrees) is set to north by default. Most of the topographic maps also work in this direction, but if the analysis is based only on the layout, the north-facing map should be set to north, because the layout is often not upward.

When the orientation table menu 328 of the other element item is selected in the peripheral menu 320 of the main analysis palette 300, the CPU 110 designates a position and a north direction in which to place the orientation on the work plane as shown in FIG. To arrange the orientation table 328a.

16 to 25 are views illustrating a process of performing the internal environment setting step S380 of FIG. 6 according to an embodiment of the present invention.

In the present embodiment, the internal environment setting step of FIG. 6 includes only internal unit registration, core registration, and Dong addition process.

16 and 17 illustrate a unit registration process in the internal environment setting step S380 of FIG. 6 according to an embodiment of the present invention.

In the present embodiment, if a CAD setting menu (not shown) is selected among the menus included in the analysis main palette 300 before setting the internal environment, the CPU 110 may determine the unit and the core of the unit and the core according to the input command. Set the default value for creation and set the material color for each part.

Here, the type of the default value for the generation of the unit and the core may include high-rise starting layer, high-rise layer height, low-rise layer height, base end height, and slab thickness information. In addition, the type of each part for setting the material color for each part may include exterior walls, slabs, roofs, complex sites, roads in the complex, additional facilities, parks, mountains, rivers, and external buildings.

In order to set up the internal environment, the CPU 110 draws and selects the land boundary as a poly line according to the input command, and then selects the [Internal Environment-Earth Border-Add] menu from the layout CAD menu 330. Select a site within the selected polyline as a site for internal configuration.

Hereinafter, a process of registering a unit and a core to be disposed therein will be described. There are some things to keep in mind when working. First, check the level of the complex in which the building is to be placed, and pay attention to the layout so that the apartment is not buried under the ground after the building. Second, the location of the living room window when the unit is registered specifies the exact position to be drawn on the interior wall. In addition, privacy observation points designate points outside the walls, model roof sculptures in detail, and do not generate symmetry during unit storage unless the polylines are symmetrically drawn about the Y axis. Third, when adding copper, the earth boundary line is registered as a polyline consisting of straight lines only before adding copper.

The first thing to do in order to model only the interior of the CPU 110 according to the input command is to just make my site. In the case of complex land, only the land area in the complex uses the characteristics of Architare to set the Z value of the node to '0'.

The CPU 110 models the internal site according to the input command and configures only the internal units. Each wing of the apartment house divides the slab and the exterior wall and draws the unit and the core by a polyline and draws a line. Thereafter, when the unit registration menu 331 is selected from the batch CAD menu 330 item according to the input command, the CPU 110 sequentially registers the essential elements of the component registration item in the unit registration window 332. Enter each information and set the name in the folder designated in advance according to the selection of the save menu (333) and save. The CPU 110 basically adds the strings of 'S' (alone), '-L' (left) and '-R' (right) to the unit name according to the unit library name. Save it.

18 and 19 are diagrams illustrating a core registration process in the internal environment setting step S380 of FIG. 6 according to an embodiment of the present invention.

As shown, when the core registration menu 341 is selected in the batch CAD menu 330 item, the CPU 110 sequentially orders the essential elements of the component registration item in the core registration window 342. After registration, each information is input and stored according to the selection of the storage menu 343. At this time, the core information is stored in a predetermined folder (unit is stored). Also, the CPU 110 basically stores the core library name by adding a string of 'C' to the name of the connected unit. After registering the units and cores that will make up the complex in this way, the process of combining and creating them is performed.

20 to 25 are diagrams illustrating an additional process of the internal environment setting step S380 of FIG. 6 according to an embodiment of the present invention.

In FIG. 20, when the additional menu 351 is selected from the Dong list among the batch CAD menus 330, the CPU 110 displays the copper making window 352 as shown in FIG. 21. . At this time, the CPU 110 selects a folder in which the library is specified in advance by selecting [Folder] of the [Apatra-Library Folder] according to the input command, and inputs the selection of the core addition menu 353.

Accordingly, the CPU 110 displays the core and unit selection window 354 of the apartment house, selects the set core and unit of the apartment house according to the input command, and selects the core and unit of the apartment house according to the selection of the storage menu 355. The core and the unit are added to the copper making window 356 as follows. Thereafter, the CPU 110 inputs information of each unit according to a command input from the copper making window 356 as shown in FIG. 23, and arranges the copper 358 as shown in FIG. 24 as the batch menu 357 is selected. do. Copper added in the present embodiment may be displayed in two or three dimensions. 25 shows an additional copper 329 displayed in three dimensions.

26 to 48 are views illustrating examples of an environmental analysis process of a housing complex through the environmental performance analysis step S400 of each environmental element of FIG. 2.

FIG. 26 is a detailed flowchart illustrating an environmental performance analysis step S400 of each environmental element of FIG. 2. As shown, the CPU 110 controls the environment analyzer 230 to analyze the sunlight of the set housing environment (S420). The CPU 110 controls the environment analyzer 230 to analyze the view of the environment of the set housing complex (S440). The CPU 110 controls the environment analyzer 230 to analyze the ventilation of the environment of the set housing complex (S450). The CPU 110 controls the environment analyzer 230 to analyze the privacy of the set housing complex environment (S460).

27 to 37 are diagrams showing in detail each process according to the sun analysis step (S420) of Figure 26 according to an embodiment of the present invention.

For environment analysis, you need to set up the environment correctly in ArchiCAD. To this end, when the setting menu 361 at the bottom right of the main analysis palette 300 is selected, the CPU 110 displays the environment setting window 362 as shown in FIG. 28. At this time, the CPU 110 sequentially sets each item such as sunshine, view, etc. according to an input command, and changes and stores program settings necessary for environmental analysis according to selection of a storage menu.

In the present embodiment, as shown in the environment setting window 362 of FIG. 28, the sun analysis method may use any one of a point sun analysis method (Point method) and a surface sun analysis method (Area method). . The point sunshine analysis method calculates when sunlight shines based on the center point of the living room, and the surface sunshine analysis method calculates when sunlight shines on more than 50% of the living room window area. That's the way.

As shown in FIG. 29, when only the sun analysis menu 364 of the sun analysis items of the environment analysis menu 360 is selected in the main analysis palette 300, the CPU 110 opens the sun analysis window 364a as shown in FIG. 30. Display. At this time, if the user selects a house to analyze the sunlight of the set housing complex and then the analysis start menu 364b is selected, the CPU 110 controls the environment analyzer 230 to perform the sun analysis of the selected house. In the present embodiment, the sunshine analysis is performed by any one of a point sunshine analysis method or a surface sunshine analysis method for each building and lake of the housing complex.

When the sun analysis is completed, the CPU 110 displays the sun analysis results for the housing complex for each lake as shown in FIG. 31. The solar analysis result information includes the satisfaction of the continuous sunshine time and the continuous sunshine time for each winter and lake, the satisfaction of the total sunshine time and the total sunshine time, and the graph.

32 to 34 are views illustrating a sunshine spectrum generation process for the sunshine analysis results. As shown in FIG. 32, when the sun spectrum menu 366 is selected from the sun analysis menu of the tool menu in FIG. 32, the CPU 110 displays the sun analysis result spectrum window 366a. At this time, after selecting each setting of the spectrum classification and analysis value expression criteria and selecting the spectrum generation menu 366b, the CPU 110 generates a three-dimensional sunshine spectrum 367 for the corresponding building of the housing complex as shown in FIG. And display.

35 to 37 are views illustrating a process of generating the bottom sun degree of the complex. As shown, if the bottom sun menu 368 is selected after selecting the area a for generating the bottom sun, the CPU 110 displays the bottom sun image generating window 368a. In this case, when the confirmation menu 368b is selected after checking the corresponding setting information, the CPU 110 generates and displays the bottom sun degree 369 for the selected area a as shown in FIG. 37.

38 to 40 are diagrams showing in detail each process according to the view analysis step (S440) of FIG. 26 according to an embodiment of the present invention.

As shown, when only the view analysis 371 of the view analysis item is selected in the environment analysis menu 360 of the main analysis palette 300, the CPU 110 opens the view analysis window 372 as shown in FIG. 39. Display. At this time, if the landscape analysis start menu 373 is selected after the copper and the lake for the landscape analysis are selected, the CPU 373 analyzes the landscape for the selected copper and lake as shown in FIG. 40 and displays the result information.

The view analysis of this embodiment sets the horizontal angle, the vertical angle, the height, and the distance for the view, and analyzes the view for each ridge and lake of the house. At this time, the horizontal angle set for the view analysis is set to 110 ° to 130 °, the vertical angle is 55 ° to 65 °, the height is 450m to 550m, and the distance is set to 450m to 550m. Preferably, the horizontal angle set only for viewing analysis is set to 120 °, the vertical angle is 60 °, the height is 500m, and the distance is 500m.

Types of view analysis result items include perforation rate, land, mountain, river, park, building> 500m, opening rate, and disturbance rate information. Each information is expressed as a percentage.

41 to 45 are views illustrating in detail each process according to the ventilation analysis step (S460) of Figure 26 according to an embodiment of the present invention.

As shown, when the Ventilation Analysis (Cubic Export) menu 381 of the ventilation analysis item is selected in the environment analysis menu 360 of the main analysis palette 300, the CPU 110 enters the information analysis window 382 for ventilation analysis ). At this time, if the cell information recalculation menu 383 is selected after setting the information for each ventilation analysis, the CPU 110 performs the ventilation analysis of the complex as shown in FIG. 42 and displays the result information 384. do.

In the present embodiment, based on the ventilation analysis result, air flow information 385 in the complex may be represented as shown in FIG. 43, and wind speed information 386 in the complex may be represented as shown in FIG. 44. Similarly, the ventilation pressure information 387 in the complex may be displayed.

46 to 48 are diagrams illustrating each processing procedure according to the privacy analysis step S480 of FIG. 26 according to an exemplary embodiment of the present invention.

As shown, for privacy analysis of the complex, when the privacy menu 391 of the privacy analysis item is selected in the environment analysis menu 360 of the analysis main palette 300, the CPU 110 analyzes the privacy as shown in FIG. Display window 392. In this case, if the privacy analysis start menu 393 is selected after selecting the copper and the lake for privacy analysis, the CPU 110 analyzes the privacy of the selected copper and the lake and displays the result information as shown in FIG. The privacy result information may include privacy grade, calculated value, and maximum infringement generation (lake) information among 10 grades classified by each household (lake).

49 to 53 are views illustrating examples of an analysis result report generation process through the analysis result report generation step S500 of FIG. 2.

As shown, when the analysis report menu 410 is selected in the main analysis palette 300, the CPU 110 displays a menu including selection items required for the report. At this time, if the report generation menu 411 is selected after the items for the report are selected, the CPU 110 generates an environment analysis report for the selected items based on the environment analysis result as shown in FIG. Save the analysis report of the items and display the guidance message 412.

Meanwhile, when the generation report generation menu 421 is selected to generate the analysis report for each generation as illustrated in FIG. 51, the CPU 110 displays the generation report window 422 as illustrated in FIG. 52. At this time, if the report generation menu 423 is selected after the copper and the lake (generation) for generating the report are selected, the CPU 110 generates an environmental analysis report for each selected household and stores the result information in the Excel file 425. do.

In the above, specific preferred embodiments of the present invention have been illustrated and described. However, the present invention is not limited to the above-described embodiments, and any person having ordinary skill in the art to which the present invention pertains may make various modifications and equivalents without departing from the gist of the present invention attached to the claims. Other implementations may be possible. Therefore, the true technical protection scope of the present invention should be defined only by the appended claims.

1 is a block diagram showing an example of a computer having a recording medium having recorded thereon a program for implementing the present invention;

2 is a flowchart illustrating a step-by-step method for evaluating the environmental performance of a house using a computer for evaluating the residential environment performance of FIG. 1 according to a preferred embodiment of the present invention;

3 to 5 are views illustrating an example of a process of generating a project for environmental analysis through the project generation step of FIG.

6 to 25 are detailed views illustrating an example of an analysis environment setting process through the analysis environment setting step of FIG. 2;

26 to 48 are detailed views illustrating an example of an environmental analysis process of a housing complex through the environmental performance analysis for each environmental element of FIG. 2; and

49 to 53 are views illustrating examples of an analysis result report generation process through the analysis result report generation step of FIG. 2.

Claims (18)

Installing a batch CAD program for comprehensively analyzing the environmental performance of a house to be built according to the information input and stored in a storage means of a computer equipped with display means; Generating a project for predicting and evaluating the environmental performance of the house by driving the batch CAD program; Setting up external and internal analysis environments for the house to be built according to the proposed information based on the project information; Analyzing performance of each environmental element based on the set external and internal environmental information; And Synthesizing the analysis results for the performance of the environmental elements of the house and generating an integrated environmental analysis report of the house. The method of claim 1, In the project generation step, the project name of the house, the storage file name of the project name, the site location of the house, the area classification, according to the input command through the analysis main palette provided in the menu tool of the batch CAD program driven; A method for predicting and evaluating environmental performance of a house, wherein main use information is set. The method of claim 2, The analyzing environment setting step, Retrieving a topographic map of an area in which the house to be built is included from a geographic information drawing stored in the storage means; Generating a two-dimensional and / or three-dimensional terrain including a contour based elevation for the retrieved topographic map; An external building environment setting step of generating an external building of a house to be built by using a map file including information on the floors of buildings distributed in an area corresponding to the topographical map; And And an internal building environment setting step of generating the house in the complex according to the proposed information. The method of claim 3, wherein The external building environment setting step, Setting the housing arrangement of the house in the map file; And And setting a bearing on the map file including the housing complex arranged therein. The method according to claim 3 or 4, The internal building environment setting step, Registering and generating a unit for the building of the house; Registering and generating a core for the building of the house connected to the unit; And And further generating copper for the building of the house connected to the unit to which the core is connected. The method of claim 1, The environmental performance analysis step, Analyzing sunlight for the housing complex; Analyzing a view of the housing complex; Analyzing the ventilation of the housing complex; And And at least one of analyzing the privacy of the housing complex. The method of claim 6, In the complex sun analysis step, the continuous sunlight time and total sunshine time for each building and lake of the house is analyzed to indicate whether sunlight is satisfied. The method of claim 7, wherein The only sunshine analysis step is, The method of claim 1, further comprising the step of spectrally displaying the amount of sunshine for each building and lake of the house according to the sunshine analysis result. The method of claim 7, wherein The only sunshine analysis step is, And analyzing and generating a floor sun degree generated by each of the housing complexes according to the sunshine conditions. The method of claim 6, In the above-mentioned view analysis step, a horizontal angle, a vertical angle, a height, and a distance for the view are set, and the environmental performance prediction evaluation method of the house is characterized by analyzing the view for each building and lake. The method of claim 10, Wherein the horizontal angle is 110 ° to 130 °, the vertical angle is 55 ° to 65 °, the height is 450m to 550m, and the distance is set to a value within 450m to 550m. The method of claim 6, The ventilation analysis step, the environment of the house characterized in that the analysis of the air flow, wind speed, and ventilation pressure information in the housing complex by setting the area, season, wind direction, and wind speed information where the housing complex is located Performance prediction evaluation method. The method of claim 6, The privacy analysis step, characterized in that to analyze the privacy infringement according to the mutual view of each building and the lake in the housing complex divided into a plurality of grades according to the degree, and select the maximum infringement lake information for each lake How to assess the environmental performance of a house. The method of claim 1, The generating of the environmental analysis integrated report may include: a batch report for the complex of the house including an item corresponding to a command selected for the report based on the analysis result, or an analysis report for each complex and lake of the house. Environmental performance prediction evaluation method of the house, characterized in that for generating. The method of claim 14, The report includes at least one item of a public overview, a construction summary, a comprehensive environmental analysis result, a fare analysis table, a generation analysis table, a term definition, and analysis setting information about the housing complex to be constructed. Method for evaluating environmental performance prediction. The method of claim 7, wherein The continuous sunshine time and the total sunshine time analysis, a point sunshine analysis method that calculates when the sunlight shines on the basis of the center point of the living room, and when the sunlight shines over the reference area of the living room window area A method for predicting and predicting environmental performance of a house, characterized in that it is performed by at least one of the surface sunshine analysis methods calculated by daylight hours. A computer readable program having a batch CAD program for comprehensively analyzing the environmental performance of a house to be built according to the proposed information stored in a storage means of a computer provided with the display means as described in claim 1 and installed on the PC side. In the recording medium, A first module for generating a project for predicting and evaluating the environmental performance of the house by driving the batch CAD program; A second module for setting an external and internal analysis environment for the house to be built according to the proposed information based on the project information; A third module that analyzes performance of each environmental element of the house based on the set external and internal environmental information; And And a fourth module for generating an integrated environmental analysis report of the home by synthesizing the analysis results of the performance of the environmental elements of the home. The method of claim 17, The third module, A sun analysis module for analyzing sun light for the housing complex; View analysis module for analyzing the view of the housing complex; Ventilation analysis module for analyzing the ventilation of the housing complex; And And at least one of a privacy analysis module for analyzing privacy of the housing complex.

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