KR101380648B1 - Sunshine Analysis Method Using IFC and Web - Google Patents

Abstract

The solar analysis method using the IFC and the web of the present invention comprises the steps of: (a) modeling by designating ID for each element of the building using a BIM tool; (b) converting the modeled BIM into an IFC file; (c) filtering elements necessary for sunshine analysis in the IFC file; (d) generating a file having an extension of bat by storing area information for analyzing the sun of the building and the IFC file name; (e) analyzing the sunlight of the building by executing a file having the extension bat; (f) outputting the result of the sun analysis of the building to the web.

Description

Sunshine Analysis Method Using IFC and Web}

The present invention relates to a solar analysis method using IFC and the web.

In general, building information modeling (BIM) digitizes characteristics of the same meaning as properties (functions, structures, uses) of objects (pillars, slabs, walls, windows, door roofs, The modeling is that the user models the building in 3D at the design stage of the building.

From 2012, BIM will be applied to the public offering and turnkey construction of more than KRW 50 billion from 2012, and it will be possible to reduce the energy consumption by 19.6% and the construction cost by 22.4%. The BIM policy will be strongly promoted.

Therefore, the introduction of BIM in Korea has been greatly increased in most areas of architecture planning, construction, machinery, and electricity starting from the announcement of BIM introduction guidelines in 2010 by the Ministry of Land, Transport and Maritime Affairs and the Public Procurement Service. In the apartment housing division, BIM was applied to the unit household design of A1 block apartment house in Yangju Huecheon district in 2008. In 2009, it was obligatory to apply the BIM before A4 block design in Paju Unjeong district for the first time, In the field, sunshine, landscape, and energy were analyzed using BIM tools.

However, it is difficult to exchange information with other companies because it maintains its own information system by company and organization in applying BIM, and there is no loss of information or program compatibility when exchanging and sharing information in collaboration using BIM. As a result, the loss of building information and the duplication of human and material investments lead to many problems in terms of time and money.

Currently, most BIM-based designs are input to the solar analysis program based on the two-dimensional model in the DXF format and then implemented as a three-dimensional model for analysis. Therefore, if the shape of the model or the location of the building changes, there is a lot of loss in terms of time and humans, such as rewriting the file in a format supported by the solar analysis program, and then performing three-dimensional modeling again using the program's own modeling tool. There is a problem that it is difficult to immediately reflect the analysis contents in the early stage of design.

The present invention has been invented to solve the above problems, an object of the present invention is for the user to directly analyze the sunshine of the building using the web.

Still another object of the present invention is to induce energy-saving design of buildings by performing sunshine analysis by using BIM model in the early stage of design and to reduce time and cost for optimal design.

The solar analysis method using the IFC according to an aspect of the present invention for achieving the above object comprises the steps of: (a) modeling by specifying the ID for each element of the building using the BIM tool; (b) converting the modeled BIM into an IFC file; (c) filtering elements necessary for sunshine analysis in the IFC file; (d) generating a file having an extension of bat by storing area information for analyzing the sun of the building and the IFC file name; (e) analyzing the sunlight of the building by executing a file having the extension bat; (f) outputting the result of the sun analysis of the building to the web.

In addition, the sun analysis method using the web according to another aspect of the present invention for achieving the above object comprises the steps of (a) using the BIM tool to separate the layers, BIM modeling for the reference layer and the entire layer; (b) deleting IDs assigned to all elements and designating IDs for Window elements to be analyzed when performing BIM modeling; (c) storing the BIM model in IFC format to generate an IFC file; (d) accessing and uploading the IFC file to a web site; (e) entering local information into the web site; (f) filtering the building shape data of the IFC file and an ID of an analysis target window; (g) performing sunshine analysis using the filtered IFC file and the area information.

According to the solar analysis method using the IFC and the web according to the present invention, by converting the BIM model into an IFC file, which is a standard neutral format for BIM information exchange, the solar analysis can be performed on the web, so that design changes and the like can be quickly responded.

In the early stage of design, IFC file and local information can be input to analyze the sunshine of the completed building, thus reducing the time and cost for selecting the optimal design plan for the building.

1 is a flow chart illustrating a method of sunshine analysis using IFC according to an embodiment of the present invention.
Figure 2 is an exemplary view showing a state specifying the ID to the BIM model according to an embodiment of the present invention.
3 is an exemplary view showing a state in which a BIM model is stored as an IFC file according to an embodiment of the present invention.
4 is an exemplary view showing a mode of editing a bat file with a text program according to an embodiment of the present invention.
5 is an exemplary view showing a sunshine time analysis table according to an embodiment of the present invention.
6 is an exemplary view showing a sun analysis method using a web according to another embodiment of the present invention.
7 is an exemplary view showing a file creation error on the web after the conversion of the IFC file according to another embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail a method for sunshine analysis using the web according to an embodiment of the present invention.

1 is a flowchart illustrating a sunshine analysis method using IFC according to an embodiment of the present invention, FIG. 2 is an exemplary view showing an ID designation in a BIM model according to an embodiment of the present invention, and FIG. 3. 4 is an exemplary view showing a BIM model stored as an IFC file according to an embodiment of the present invention, and FIG. 4 is an exemplary view showing a text file edited as a bat file according to an embodiment of the present invention. 5 is an exemplary view showing a sunshine time analysis table according to an embodiment of the present invention.

Hereinafter, a flowchart illustrating a solar analysis method using IFC illustrated in FIG. 1 will be described in detail.

Step 1100 deletes the basic ID of the BIM 100 tool assigned to all objects when modeling the BIM 100 as shown in FIG. 2 and sets the ID 300 to the Window elements that are the targets of the building analysis. Specify. The window element to be analyzed selects a window that can be representative of each generation.

In step 1200, as shown in FIG. 3, the BIM 100 model is stored in an IFC format so that a modeling using another type of BIM tool can be analyzed on the web. The IFC (Industry Foundation Classes) is an international standard neutral format created for smooth information exchange because information exchange between the BIM 100 tools is impossible.

In step 1300, elements necessary for sunshine analysis, such as a wall, a roof, and a window, are extracted from the elements of the IFC file. The VC ++ 1005 and TNO_IFC Engine DLL modules are used to extract elements needed for sunshine analysis from IFC files.

In step 1400, an IFC file name from which elements required for sunshine analysis are extracted in step 1300, and local information for sunshine analysis are input and stored.

In addition, the local information inputs the latitude and longitude of the region directly, the time zone, the angle measured in the counterclockwise direction with the + x-axis as 0 ° on the model layout. When the user enters the latitude and longitude of the relevant region, the latitude and longitude are converted into decimal numbers on the web site, and the northern latitude angle on the model layout is measured counterclockwise with a + x axis of 0 °. In the layout of the statue, the true north is expressed as 90 degrees.

In operation 1500, the IFC file name and the local information stored in operation 1400 are converted into a file having an extension of bat. The file whose extension is bat can be edited using a text program as shown in FIG.

In step 1600, when the file having the bat extension generated in step 1500 is executed, the sun analysis is started in the Windows command window. The sunshine analysis uses a point analysis method having a short analysis time by analyzing the sunshine time at the representative point of the analysis target window 200 whether the sun's trajectory and the building's shielding. The point analysis method calculates the position of the calculation point of the window and extracts the ID 300 of the analysis target window 200 for distinguishing the window to perform sun analysis.

In addition, when performing sunshine analysis, it is analyzed based on the winter solstice day (December 21), which has the lowest solar altitude of the year, and the analysis is performed only by entering latitude and longitude among local information.

In step 1700, when the sun analysis is completed in step 1600, the sun analysis result value 400 is automatically executed and output to the web. As shown in FIG. 5, the sunshine analysis result value 400 is output as a total sunshine time and a continuous sunshine time by dividing each window element designated with the ID 300 in the sunshine analysis result table on the web. In addition, how the sunshine time is distributed is represented by a bar graph 500, and the background of the total sunshine time and the continuous sunshine time is filled with the analysis target window 200 which does not satisfy the current legal sunshine time limit. . If the background of the total sunshine time and continuous sunshine time is not filled with color, or if the background of one of the total sunshine time and continuous sunshine time is filled with color, it can be said that the sunshine time limit is satisfied, and the total sunshine time and If all of the continuous sunshine hours were filled with color, it could be said that the sunshine time limit was not satisfied for the window element to be analyzed.

In the following description of the sun analysis method using the web according to another embodiment of the present invention using the same reference numerals for the same configuration as the sun analysis method using the IFC according to the above-described embodiment, a detailed description thereof Is omitted.

FIG. 6 is a flowchart illustrating a method of analyzing sunlight using a web according to another exemplary embodiment of the present invention, and FIG. 7 is a view illustrating a file generation error on a web after IFC file conversion according to another exemplary embodiment of the present invention. It is also.

Hereinafter, a flowchart illustrating a method of analyzing sun using the web illustrated in FIG. 6 will be described in detail.

In step 2100, the user divides the floors of the building using the BIM 100, and models the BIM 100 with respect to the reference floor or the entire floor of the building.

In operation 2200, when the BIM 100 is modeled, the default ID of the BIM 100 tool is deleted and the ID 300 is assigned to the Window elements to be analyzed. The window element to be analyzed selects the analysis target window 200 that can be representative of each generation.

In step 2300, the BIM 100 model is stored in an IFC format, which is a standard neutral format.

In operation 2400, the BIM 100 modeling is stored in the IFC format in operation 2300 to generate an IFC file.

In step 2500, the IFC file is uploaded to a web site and stored. Also, as illustrated in FIG. 7, a file generation error after the IFC file conversion is checked on the web.

In step 2600, the area information to be subjected to the solar analysis is input to the web site. The local information is automatically linked with the Google map latitude and longitude.

For example, when a web site is accessed, the map screen is displayed in conjunction with the web site and Google Map. If you search for the location of the building you want to analyze in the map screen, the building will be displayed on the Google Map, and when the user clicks on the building or area, the latitude and longitude of the area you want to analyze automatically will be displayed. It is entered in the input box.

In addition, when inputting the area information in detail, the user directly inputs the latitude and longitude of the corresponding area, the time zone, and the north latitude angle on the model arrangement in the counterclockwise direction with the + x axis as 0 °. When the user inputs the latitude and longitude of the relevant region, the latitude and longitude are converted into decimal numbers on the web site, and the northern latitude angle on the model layout is measured counterclockwise with the + x axis as 0 °. In the arrangement of the images, the true north is entered as 90 degrees.

And, since the area information is analyzed in the command window, the area information is converted into a file having a bat and stored. The file whose extension is bat can be edited using a text program.

Step 2700 filters and extracts elements necessary for sunshine analysis such as walls, roofs, windows, etc. from the IFC file. In addition, the sunshine analysis checks the amount of sunshine and the amount of sunshine that flows through the window to determine whether the sunshine is infringed, so the ID 300 of the analysis target window 200 is extracted from the ID 300 assigned to the BIM 100 in step 2200. do.

Step 2800 analyzes the sun using the IFC file filtered in step 2700 and the local information input to the web site in step 2600. The sunshine analysis analyzes the sunshine time by the sun trajectory and the shielding of the building at the representative point of the analysis target window 200, and uses a point analysis method with a short analysis time.

In step 2900, the sun analysis result value 400 of the building analyzed in step 2800 is divided for each element ID 300 of the building so as to be identified by the user, and outputted in the shape of the bar graph 500.

In the above described the solar analysis method using the IFC and the web according to an embodiment of the present invention, the spirit of the present invention is not limited to the embodiments presented herein. Those skilled in the art, who understands the spirit of the present invention, can readily suggest other embodiments by adding, changing, deleting, adding, or the like of components within the scope of the same idea, I would say.

100: BIM
200: analysis target window
300: ID
400: Result
500: bar graph

Claims (10)

(a) modeling by designating an ID for each element of the building using a BIM tool;
(b) converting the modeled BIM into an IFC file;
(c) filtering elements necessary for sunshine analysis in the IFC file;
(d) generating a file having an extension of bat by storing area information for analyzing the sun of the building and the IFC file name;
(e) analyzing the sunlight of the building by executing a file having the extension bat;
(f) outputting the result of the sun analysis of the building to the web;
The BIM tool deletes the base ID assigned to every element when the BIM modeling and specifies the ID for the Window element to be analyzed.
The file with the extension bat can be edited using a text program.
The sunshine analysis uses a point analysis method with a short analysis time by analyzing the sunshine time from the representative point of the analysis window to whether the sun's trajectory and the building's shielding,
The solar analysis result value of the building is divided into the ID specified in the BIM model for sunshine and continuous sunshine time, characterized in that outputted by the IFC.
The method according to claim 1,
The BIM tool is a sun analysis method using IFC, characterized in that for supporting the IFC format.
delete delete delete delete (a) classifying the layers using BIM tools and performing BIM modeling on the reference layer and the entire layer;
(b) deleting IDs assigned to all elements and designating IDs for Window elements to be analyzed when performing BIM modeling;
(c) storing the BIM model in IFC format to generate an IFC file;
(d) accessing and uploading the IFC file to a web site;
(e) entering local information into the web site;
(f) filtering the building shape data of the IFC file and an ID of an analysis target window;
(g) performing sunshine analysis using the filtered IFC file and the local information;
The website has a model viewer that can check whether there is a model generation error before uploading the IFC file,
The local information is linked with the Google map to enter the latitude and longitude,
The sun analysis is a sun analysis method using the web, characterized in that the point analysis method using a short analysis time by analyzing the sunshine time from the representative point of the analysis target window to whether or not the shield of the building.


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