KR20180074864A - The selection system and setting method of heat source equipment according to BIM-based cooling and heating load - Google Patents

Abstract

The present invention relates to a system for setting heat source equipment in accordance with BIM-based cooling and heating loads, capable of improving energy efficiency. The system comprises a BIM program providing simulation of a building; a load application program including a program linking unit, a data linking unit, a data calculating unit, a working table configuring unit, a report configuring unit, and an output unit; and a heat source equipment database providing information on corresponding heat source equipment.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a BIM-based heating and cooling system,

The present invention relates to a system and method for setting a heat source equipment according to a BIM-based cooling and heating load. More specifically, , It is possible to automatically set the heat source equipment installed in the structure according to the result of calculation of the heating load, thereby improving the energy efficiency and selecting the heat source equipment while reducing errors in the energy efficiency due to the installation of accurate heat source equipment The present invention relates to a setting system and a setting method of a heat source equipment according to a BIM-based cooling and heating load.

Generally, as shown in Korean Patent Registration No. 10-1224627, a structure is simulated using a BIM program prior to the actual construction of the structure, so that information necessary for constructing the structure and information for energy saving of the structure can be acquired , The economic effect and the convenience of constructing the structure can be obtained.

In addition, as disclosed in Korean Patent Laid-Open No. 10-2014-0096717, a building energy object can be automatically extracted by using a BIM program to efficiently manage building energy.

In addition, as shown in Korean Patent Registration No. 10-1264409, a structure is simulated by inputting information on a structure through a BIM program, so that it is possible to provide effects on ease of construction and energy saving for the structure Respectively.

However, even if the information about the energy of the structure is obtained through the simulation of the structure using the BIM program as described above and the construction is performed on the structure, the user can directly Therefore, it is necessary to directly search for and apply appropriate heating and cooling equipment, thereby causing an error in the energy saving value due to errors caused by passive operation, or a problem caused by user's fault.

Even if the BIM program acquires information on the cooling and heating loads of the structure to perform energy saving, it only provides information on the cooling and heating loads of the structure, and solves the cooling and heating loads It is inconvenient for the user to directly search for the information.

The present invention can accurately and automatically provide information on the heat source equipment when the information on the cooling and heating load according to the building structure can be accurately applied and calculated during the simulation of the building using the BIM program, It is an object of the present invention to improve the energy efficiency by reducing errors in calculation and equipment setting.

Also, it is an object of the present invention to facilitate the construction and operation of a system by downsizing and simplifying a system for setting the cooling, heating load and heat source equipment of a building.

According to another aspect of the present invention, there is provided a BIM program capable of providing a simulation of a building and a BIM program interworking with the BIM program. A program interlocking unit for forming a module capable of forming a module, a data interlocking unit for forming a module capable of storing data while searching, classifying and calling load data provided by the BIM program, A data operation unit in which a module capable of storing data generated while calculating a load related to energy efficiency is formed in a data interlocking unit, and a work table for simulation of a building linked to the data interlocking unit can be created, modified, A work table forming unit for forming a module having a plurality of modules, A module for generating, controlling, and managing information on the building load through the generated data; a module for outputting, controlling, and managing the data generated by the report forming unit in a file form; And the output information of the heat source equipment based on the information calculated in the load application program linked with the BIM program through the load application program while storing modeling data and information for various types of heat source equipment. And a heat source equipment database provided.

The present invention can accurately calculate and apply loads for cooling and heating according to a building structure, and can automatically extract and set information on the heat source equipment corresponding thereto based on a correctly applied load. Thus, It is possible to improve the energy efficiency by reducing the energy efficiency error due to the selection error of the equipment.

In addition, it is possible to obtain accurate information on the energy efficiency of the building by complementing the error of the information about the cooling and heating load during the simulation of the building. Also, by connecting the heat source equipment database providing data on the heat source equipment, It is possible to conveniently construct, manage, and operate the system for achieving efficiency while miniaturizing the system, thereby providing excellent convenience and economy.

1 is a block diagram showing a system for setting a heat source equipment according to BIM-based cooling and heating load according to the present invention.
BACKGROUND OF THE INVENTION Field of the Invention [0001] The present invention relates to a BIM-
FIG. 3 is a schematic view showing one step of a method for setting a heat source equipment according to a BIM-based cold and heating load according to the present invention.
4 is a schematic view showing two steps of a method of setting a heat source equipment according to a BIM-based cold and heating load according to the present invention.
5 is a schematic view showing three steps of a method of setting a heat source equipment according to a BIM-based cold and heating load according to the present invention.
6 and 7 are schematic diagrams showing four steps of a method of setting a heat source equipment according to BIM-based cooling and heating load according to the present invention.
8 is a schematic view showing five steps of a method of setting a heat source equipment according to a BIM-based cold and heating load according to the present invention.

In order to achieve the above object, the present invention is as follows.

Hereinafter, the configuration of the present invention will be described in detail with reference to the accompanying drawings.

The heat source equipment setting system 500 according to the BIM-based cold and heating load of the present invention comprises a BIM program 100, a load application program 200 and a heat source equipment database 300 as shown in FIG.

First, the BIM program 100 is a program generally used to provide a 3D simulation service of a building. The BIM program 100 includes modeling data including all information about a building required for 3D simulation, functions used for building simulation, load data, It is self-evident that a database (not shown in the drawings) is formed.

The load application program 200 may be interlocked with the BIM program 100 to further perform functions not provided by the BIM program 100 in the BIM program 100 or may be provided by the BIM program 100 And to perform a supplement to the functions of the present invention.

For example, it is intended to add or supplement a function for an energy load (cold, heating load applied to a building) that affects energy efficiency in calculation of energy efficiency of a building as in the present invention .

To this end, the BIM program 100 may be configured to create, modify, edit, and control functions added or used or supplemented in the BIM program 100 while linking the load application program 200 to the BIM program 100 A program interlocking unit 210 including a module such as a mounting module, a creating module, and an editing module is formed so that the program interlocking unit 210 can be mounted.

In the BIM program 100, data on the progress of the simulation is stored while performing the modeling of the simulation provided for the calculation of the energy efficiency in the simulation of the building and the searching, sorting and calling of the data composed of the load information And a module capable of performing BIM modeling data classification and BIM load data classification can be configured.

That is, the data interlocking unit 220 is formed to be able to use data provided by the BIM program 100 and interworking with each other while storing data to be generated and applied in the load application program 200.

In addition, while calling the data generated by the data interlocking unit 220, data conversion such as conversion of numerical values and the like for load and various information is performed, and a load on the energy efficiency of the building is calculated, A data operation unit 230 that stores information generated in accordance with the load information stored in the data interlock unit 220 and detects whether the load information used in the simulation of the building is suitable or not.

That is, the data operation unit 230 is configured to calculate the cooling / heating load used for the energy efficiency in the simulation of the building, and to determine whether the load data is applicable to the load data and suitability.

In addition, the data operation unit 230 may include a unit conversion module that can convert a unit for load data provided by the BIM program 100 during data operation for cooling and heating loads, a unit conversion module for converting the outdoor unit (ventilation, ventilation) A load calculation module that can perform calculations on the sensible load of a person, a sensible heat of a person, and a latent heat load, and a data suitability determination module.

A module capable of creating, modifying, deleting, and controlling a work table so that load data can be applied while simulating the building through the BIM program 100 and the load application program 200 And a work table construction unit 240. [

Here, the module included in the work table configuration unit 240 includes a generation module capable of generating a work table, a modification module capable of modifying, controlling, and managing a work table, a deletion module capable of deleting a work table, will be.

Meanwhile, a module for extracting various information including information on the energy efficiency of the building on the simulated building to which the data on the cooling / heating load of the building is applied through the work table construction unit 240 And a report constructing unit 250. [0050]

That is, the report construction unit 250 is formed to selectively extract information required for energy efficiency of a building.

In addition, the report construction unit 250 includes a module capable of generating information on a load design standard of a building, a total building load, a building area load, and a building space load.

In addition, a document format editing module and the like can be included so that information extracted through the report construction unit 250 can be easily managed in the form of a document. Through this, a design standard, a building and a section table, , A space table, a space table, and the like.

In addition, by examining data and modification methods generated and applied through the linkage of the BIM program 100 and the load application program 200, it is possible to determine whether or not data and modification methods are properly applied, The information extracted by the report construction unit 250 is extracted again while interworking with the simulation and the load data of the building through the operation unit 230 so that accurate information can be obtained.

The output unit 260 includes a module for outputting, controlling, and managing the information of the building extracted through the report construction unit 250 by various types of documents and methods.

That is, the output unit 260 is formed of various output forms such as Excel, PDF, and Hangul, or the like, and is formed to easily manage information about the building.

It is a matter of course that the load application program 200 is formed with a control system capable of controlling each of the above-described components and simultaneously controlling the heat source equipment database 300 to be described later.

In addition, the load application program 200 is compatible with the BIM program 100 and can operate in the BIM program 100.

The heat source equipment database 300 is connected to the load application program 200 and loads the BIM program 100 through the load application program 200 on the basis of the load information calculated in the load application program 200 , 3D modeling of heat source equipment suitable for heating load, capacity of heat source equipment, and the like.

Here, the heat source equipment database 300 may include a modeling module for providing 3D modeling of various types of heat source equipment (air conditioner, heating equipment, etc.) and equipment information data for storing information about each equipment .

For example, it means that all information about the heat source equipment is included, such as the air conditioner required for cooling and heating, the performance, capacity, image, operating mode, etc. of the heating device.

Also, the heat source equipment database 300 may be stored in the BIM program 100 or the load application program 200 while being located on a separate web server, not included in the BIM program 100 or the load application program 200. [ The load application program 200 and the load application program 200 by preventing the BIM program 100 and the load application program 200 from becoming heavy and large and complicated by providing information requested by the BIM program 100, 200 and the like.

In the meantime, the program interlocking unit 210, the data interlocking unit 220, the data operation unit 230, and the report constructing unit 250 formed in the load application program 200 are provided with the heat source equipment provided in the heat source equipment database 300 It is self-evident that a module capable of sorting, controlling, calculating, selecting, storing, and controlling data is formed.

For example, in the program interlocking unit 210, a module capable of utilizing information on 3D modeling provided in the heat source equipment database 300 and a module capable of storing information are formed. In the data interlocking unit 220, A device classifying module capable of performing classification on the equipment is formed and the data calculating unit 230 is provided with a data classification unit 230 for performing calculations on loads for cooling, heating and heat source equipment, pipeline loss load, safety factor, A heat source equipment module capable of storing information on the module and the heat source equipment, and the like, and a setting module for setting the heat source equipment for each area or space in the report construction unit 250 is formed.

In other words, the load application program 200 can calculate, extract, classify, apply, and store information on the heat source equipment utilized in the heat source equipment database 300, in addition to the module capable of processing information on the cooling and heating load on the building The module can be formed.

A setting method according to a preferred embodiment of the present invention having the above-described configuration will now be described.

First, as shown in FIG. 2, a design is prepared for a building to perform a simulation of the building (S10)

For example, prepare and design a simulation using the BIM program (100) while preparing information such as the height and width of the building, the number of indoor offices, and the number of windows.

3, a load application program 200 to be linked with the BIM program 100 is executed while a system for functions to be used in conjunction with the BIM program 100 is created and loaded into the load application program 200 The program is interlocked with the BIM program 100 through the formed program interlocking unit 210.

Then, the functions created in the load application program 200 are added to the BIM program 100.

For example, when a function such as a load calculation set or load calculation confirmation information made up of a formula or information capable of performing load calculation in the BIM program 100 is generated in the load application program 200, Is displayed in an icon on the BIM program 100 while being interlocked with the BIM program 100 through the BIM program 100. [

In addition, it refers to a form in which a function generated in the load application program 200 is loaded while selecting the function addition using the BIM program 100.

That is, the function generated in the load application program 200 is compatible with the BIM program 100 through the program interlocking unit 210 and can perform the corresponding function.

If the function to be used is added or supplemented on the BIM program 100 as described above, the control system of the load application program 200 is easily compatible with the BIM program 100, And controls and manages each configuration of the load application program 200 so as to be smoothly used.

The data linking unit 230 extracts information on a load that can acquire information on the energy efficiency of the building from the BIM program 100 through the data interlocking unit 230 formed in the load application program 200, (S20)

For example, through the BIM program 100, the type, material, thickness, thermal conductivity, and the like of the building, such as the area and volume of the building space and volume, the family, and the structure of the building such as a window or a ceiling or beam, Heat, resistance, heat flow rate, etc., address, location, hardness humidity, temperature, solar radiation, daylight hours, summary of buildings and space, number of people, ventilation, ventilation air, And extracts all the information on the building and stores the extracted data on the data interworking unit 230.

In addition, in the BIM program 100, the area and volume of a building's space and area included in a modeling data module, the structure of a building such as a family, a window or a ceiling or beam, and the type, material, Heat resistance, heat transfer rate, etc., address, location, and humidity, and so on.

That is, the data is stored in the data interlocking unit 230 of the load application program 200 while fetching all the function data necessary for the simulation of the building on the BIM program 100.

Meanwhile, as shown in FIG. 4, while the functions necessary for the building simulation are stored in the data interlocking unit 230 of the load application program 200, operations for applying the load data of the buildings required for the simulation of the building are performed So that the work table can be generated through the work table construction unit 240.

For example, it refers to creating a work table for inputting the above-described load data to be applied at the time of simulation on the BIM program 100.

After the work table is created through the work table construction unit 240 of the load application program 200, the data structure of the building linked to the building being simulated by the BIM program 100 through the report construction unit 250 230 to receive the data and apply the information to the simulation.

In other words, the data is simulated on the BIM program 100 while sorting, selecting, and calling various data about buildings stored in the data linking unit 230 through the report composing unit 250 of the load application program 200 It refers to creating, modifying, extracting and applying contents of load data of a building while applying it to a building.

Then, the load data related to the building is applied and extracted by the load design reference module, the building overall load module, the building area load module, and the building space load module included in the report construction part 250.

Therefore, the information about the load applied to the building by the above-mentioned module or the like is extracted separately.

5, when the information of each module constituting the report construction unit 250 is applied to the simulation of the building, the data construction unit 230 builds the report construction unit 250 on the building based on the extracted information. The necessary load data is applied and calculated so that it can be confirmed in the form of a document (S30)

In detail, in the BIM program 100, a simulation of a building structure (a structure such as a height, an area, and a window) is performed, and in the work table configuration unit 240 of the load application program 200, The work table for applying the load data in the simulation is generated, and the work table for the load design reference module, the building overall load module, the building area load module, and the building space load module included in the report construction unit 250 The information related to the load data is extracted and applied to the simulation of the building.

Then, the data operation unit 230 of the load application program 200 applies the load data on the structure of the building during the simulation of the building, and computes the cooling and heating loads corresponding thereto.

For example, it is possible to calculate a unit conversion mode included in the data operation unit 230, an outside air load calculation module capable of performing calculations on loads of the outside air (ventilation, ventilation) of buildings, sensible heat of a person, The unit and the numerical value of the load are converted into the unit and numerical value currently used by the unit conversion module through the human load operation module and the influence of the building itself is calculated by the outside air load operation module and the human load operation module Extracting data on the environment affecting the outside of the building, such as air flow and ventilation, rather than giving, it is possible to determine the effect or latent heat (the amount of heat required to change the state of the object without changing the object temperature) (The amount of heat required to change only the temperature while there is no change in the state of the object) It will speak.

Accordingly, the load data for the building being simulated is extracted, applied and controlled through the data operation unit 230 as described above, and the load information corresponding to the situation of the building is transmitted to the report construction unit 250. [

In this case, before data is output through the report construction unit 250 by calculating the cooling and heating load of the building through the data operation unit 230, And the data is applied to the heating and cooling loads of the building.

Thereafter, when the application to the load data and the error in the result do not occur, a report is constructed through the report construction unit 250 and the corresponding information is stored in the data interlocking unit. When the error occurs, the data linking unit 220 deletes the information on the work table generated through the work table configuring unit 240 and the load data applied to the work table while deleting and controlling the extraction of the report currently being created The user can reload the data through the data associating unit 230 and the report generating unit 250 by applying the load data again while generating the new work table through the work table configuring unit 240 .

In other words, it accurately converts and applies units and numerical values for cold and heating loads, which have an influence on energy efficiency in simulation of buildings, and accurately classifies, extracts, calls, computes load data according to structure and type of building So that accurate information on the energy efficiency of the building can be obtained.

Meanwhile, through the above-described process, the load unit of the building, the zone, and the space type are converted through the data of the occupancy rate of the building type, the space type, and the like, and the load data such as the outside air value are accurately applied without error, An aggregate table, a space-specific calculation table, and the like, and is output by the output unit 260 while being generated in the form of a commonly used document format or a file format.

On the other hand, as shown in FIG. 6, among the information of the cooling and heating loads and buildings calculated through the data operation unit 230 and the suitability of the information, the information such as the area name, the space name, the number of spaces, the area, the volume, So that the cooling and heating loads are extracted through the report construction unit 250 while checking the work table generated in the work table construction unit 240 so as to confirm the information (S40).

Herein, in order to acquire the information on the cooling and heating load according to the building structure, the information related to the heat source equipment is further extracted from the work table generated by the work table construction unit 240.

In addition, as shown in FIG. 7, in extracting information on the cooling / heating load of the building, the cooling / heating load for the building, as well as the heating / Such as performance, through the output unit 260 while extracting information about various heat source equipment.

A safety factor calculation module, a pipeline loss load calculation module, and a preheating load calculation module, which are included in the data operation unit 230 formed in the load application program 200 and perform calculation on the self load of the heat source equipment, To extract information about the heat source equipment.

Then, information on the heat source equipment corresponding to the modules is extracted as shown in FIG.

Then, based on the information about the heat source equipment calculated in the data operation unit 230, a series of information on various types of heat source equipment stored in the heat source equipment database 300 and corresponding to the values calculated by the data operation unit 230 To the load application program 200 through the program interlocking unit 210 and the data interlocking unit 220 of the load application program 200 while the information about the heat source equipment of the load application program 200 is extracted from the heat source equipment database 300, Information about the heat source equipment together with the 3D modeling is output through the report constructing unit 250 and stored in the data interlocking unit 220.

That is, the information including the load on the heat source equipment used according to the structure of the building and the cooling and heating load according to the structure of the building, and the heat source equipment used according to the cooling and heating load are outputted through the report construction unit 250, Is transmitted from the heat source equipment database 300 to the load application program 200 so that visual confirmation is possible.

Further, in order to extract information about the heat source equipment, additional numerical values may be provided so as to provide more margin than the values calculated by the data operation unit 230 so as to supplement the self- To be calculated.

For example, if the capacity of the heat source equipment required for the cooling and heating loads calculated according to the structure of the building is 10 Kw and the heat source equipment having the capacity of 10 Kw is used in the building, One or more heat source devices are displayed so as to set a heat source device having a numerical value about 10% higher than the numerical value calculated by the data operation section 230 in order to prevent energy efficiency from being lowered, To make it happen.

This is because, in general, when the heat source equipment such as air conditioner and heating is operated, the maintenance and operation stop, and the aging of the heat source equipment and various environment, the capacity or performance indicated on the heat source equipment can not be fully exhibited, The energy efficiency can be lowered when the heat source equipment is set according to the numerical values calculated by the operation unit 230. Therefore, it is necessary to set a margin higher than a certain value in order to prevent reduction in energy efficiency.

Although the numerical value added to the numerical value computed by the data operation unit 230 has a margin of 10% in the present invention, it is obvious that the numerical value can be variously set according to the purpose or convenience of the user.

That is, in extracting the information about the heat source equipment, the data operation unit 230 adds a certain value according to the own load of the heat source equipment and outputs information about a plurality of heat source equipment corresponding thereto.

In addition, it is desirable to output information on a plurality of heat source equipments similar to the above numerical values while setting the most suitable heat source equipments.

Therefore, the information of the heat source equipment corresponding to the heat source equipment database 300 is extracted based on the information of the heat source equipment according to the load of the building calculated in the BIM program 100 and the load application program 200, 200) to be controlled, managed, stored, and extracted.

The 3D modeling, image, model name, heat source method, type of heat source equipment, and the like of the heat source equipment provided in the heat source equipment database 300 at the time of outputting information about the heat source equipment through the report configuration unit 250 and the output unit 260, All information about the heat source equipment such as manufacturer, size, weight, allocation area, heat output, power consumption, power source and energy source can be output.

Then, the information about the heat source equipment according to the structure of the building, which is simulated as described above, is extracted, generated, and output, and is stored in the data interlocking unit 220 of the load application program 200.

That is, the data of the building structure in which the simulation is performed, the data of the cooling and heating load corresponding thereto, and the data of the heat source equipment according to the cooling and heating load are stored in the data interlocking unit 220.

Here, the load application program 200 and the heat source equipment database 300 are separated from each other and connected to each other through a communication network to transmit data to each other.

This can prevent the system from being expanded by storing information on the heat source equipment stored in the heat source equipment database 300 in the load application program 200. However, since the data capacity for the heat source equipment is large, When the data on the heat source equipment is present on the load application program 200, the load application program 200 becomes heavy and a problem such as a speed decrease occurs, so that malfunction and error of the load application program 200 The data of the heat source equipment is separately stored in the heat source equipment database 300 and the data is transmitted and applied through the communication network in order to prevent the heat source equipment.

By storing data on the heat source equipment in the heat source equipment database 300 as described above, it is possible to prevent malfunction of the load application program 200 and obtain information on energy efficiency according to the cooling and heating load .

The data interlocking unit 220 of the load application program 200 may be configured to store information of only the heat source equipment calculated and extracted in the load application program 200 among the various types of heat source equipment stored in the heat source equipment database 300 So as to optimize storage stability.

When the information about the heat source equipment stored in the heat source equipment database 300 is transmitted to the load application program 200 and then outputted and outputted, as shown in FIG. 8, the load application program 200 The information about the heat source equipment for each space or zone of the building is transmitted to the BIM program 100 in which the current building is simulated through the formed program interlocking unit 210 and the data interlocking unit 220, So that the information is applied to the structure being constructed. (S50)

Meanwhile, as the building is simulated through the BIM program 100, the cooling and heating load according to the structure of the building and data on the heat source equipment for the load are extracted through the load application program 200, The building is applied to the BIM program 100 being simulated with respect to the building to complete the data on the building under simulation and the data is sent back to the program interlocking unit 210 and the data interlocking unit 220 of the load application program 200 (S60), and transmits the data to the load application program (200), and outputs the data to a file format or a document format through the report unit (250) and the output unit (260)

The information on the cooling and heating loads according to the building structure in the simulation of the building is supplemented through the load application program 200 through the BIM program 100, the load application program 200 and the heat source equipment database 300 It is possible to acquire information of accurate heat source equipment according to information of accurate cooling and heating load, thereby improving the energy efficiency of the building.

In addition, since a large amount of data for all the heat source devices is stored in the load application program 200 and connected to another web without extracting and processing, only the data necessary for building building is extracted and stored, It is possible to prevent a decrease in the speed of the load application program 200, a malfunction, and an error of the data, thereby improving the accuracy of data generated in the load application program 200.

The BIM-based cooling / heating load calculation system 500 automatically and easily obtains accurate and accurate information on the data on the cooling / heating load according to the building structure and on the heat / So that it is possible to improve the energy efficiency of buildings and provide excellent economical efficiency and convenience.

In addition, the system for cooling and heating buildings can be constructed in a simple manner without enlarging the size of the building, thereby making it possible to provide a lightweight, simple construction, a reduction in the management cost, and convenience.

Although the present invention has been described in connection with what is presently considered to be the most practical and preferred embodiment, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It is obvious to those who have knowledge of.

100: BIM program
200: Load application
210: Program Interlocking Unit 220: Data Interlocking Unit
230: Data operation unit 240: Operation table configuration unit
250: Report construction part 260: Output part
300: Heat source equipment database
500: BIM-based cooling and heating load calculation system

Claims (7)

A BIM program 100 that can provide a simulation of the building;
A program interlocking unit 210 for interlocking with the BIM program 100 and editing a service to be further used in the BIM program 100 and forming a module to be loaded in the BIM program 100, A data interlocking unit 220 for forming a module capable of storing data while searching for, classifying and calling load data provided by the program 100; an interface unit 220 for calling and converting data generated by the data interlocking unit 220, A data operation unit 230 in which a module capable of storing the generated data in the data interlock unit 220 is formed, and a work table for simulating the building is generated in conjunction with the data interlock unit 220. [ A work table configuring unit 240 in which a module capable of modifying, deleting, and controlling data is formed; information on the building load is generated through data generated in the work table configuring unit 240; An output unit 260 in which a module capable of outputting, controlling, and managing data generated in the report forming unit 250 in a file form is formed, (200);
Modeling data and information for various kinds of heat source equipments are stored and information about the heat source equipments based on the information calculated in the load application program 200 is interlocked with the BIM program 100 through the load application program 200 A heat source equipment database 300 providing the heat source equipment;
Which is characterized by the BIM-based cooling and heating load.
The system according to claim 1, wherein the heat source device database (300) is provided with the program interlock part (210), the data interlock part (220), the data operation part (230) and the report form part (250) formed in the load application program And a module capable of classifying, controlling, calculating, selecting, storing, and controlling data of the heat source equipment based on the BIM-based cooling and heating load.
2. The method of claim 1, wherein the heat source equipment database (300) is separated from the heat source equipment database (300) by a separate communication network and is formed to be linked with the BIM program (100) Setting system of heat source equipment according to load.
BIM-based heat source equipment based on BIM-based cooling and heating load using a heat source database that provides information on the heat source equipment and the load application program to link the BIM program and the building load information to the BIM program for building simulation In the method,
(S10) of controlling the load application program so that the load application program to be used in the BIM program can be created, interlocked and loaded into the BIM program through the program interlocking unit while preparing the building design using the BIM program, ;
A load interworking part of the load application program and a load interworking part for storing the load calculation information provided by the BIM program through a data interlocking part of the load application program, (S20) for constructing, modifying, extracting and applying information on the building load module based on the building load data while generating and controlling the table;
The report construction part of the load application verifies whether the building load module is properly applied when generating data on the building load, and at the same time, converts the building load data through the data operation part, The information on the load of the building calculated based on the information calculated by the report construction part of the load application program and the information on the energy efficiency of the building corresponding to the information on the building are generated in the form of a document, (S30);
In the data of the work table related to the building load applied and extracted in the report construction part of the third step (S30), the area name, space name, space number, area, Information on the heat source equipment calculated according to the cooling and heating load is extracted from the heat source equipment database through the safety factor calculation module, the pipeline loss load calculation module and the preheating load calculation module of the data operation unit of the load application program And generates and manages a list of heat source equipment in a report construction unit based on the information of the heat source equipment extracted from the heat source equipment database, (S40) of outputting the data through the output unit;
(S50) of transmitting and applying the information of the heat source equipment extracted from the heat source equipment database through the report construction unit of the load application program to the BIM program through the program interlocking unit so as to be applicable to the building under simulation;
(S60) the information of the heat source equipment according to the information of the building, the cold, the load information, and the cold and load information applied to the BIM program is generated and controlled by the report configuration unit of the load application program and output by the output unit;
The method of setting the heat source equipment according to the BIM-based cooling and heating load,
The method as claimed in claim 4, wherein, in the third step (S30), the load data is used and extracted from a unit conversion module for load data, an outdoor load calculation module, and a human load calculation module integrated with sensible heat and latent heat load through a data operation unit Wherein the BIM-based cold / heating load calculation method is characterized in that the calculation of the building load is performed while being stored in the data interlocking unit.
5. The method of claim 4, wherein in the third step (S30), the suitability of the application of the load information to the building is checked through the data operation unit of the load application program, and when the load information is properly applied, (BIM) -based cooler which is characterized in that it performs the load calculation continuously and saves it in the data linkage part, and when the information about the load is not applied properly, it is performed again from the second step (S20) , Heating load calculation setting method.
The method as claimed in claim 4, wherein the step (S40) further comprises setting and calculating a numerical value of a load (loss rate) of the heat source equipment itself when extracting information about the heat source equipment, The method of setting the heat source equipment according to

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