KR20220064061A - Intergrated managing system based on the BIM and method therefor - Google Patents

Abstract

The present invention provides a building information management (BIM)-based integrated modular construction operation system capable of extracting a plurality of alternative building models. According to the present invention, the system comprises: a design support module (10) modeling unit architectural components forming a building based on a BIM-based building library and manual to generate each unit module and arranging each of the generated unit modules to generate a building model; a factory manufacturing support module (20) loading the building model modeled in the design support module (10) and connecting a factory manufacturing process and building model objects to monitor all factory manufacturing processes; and an on-site construction management module (30) loading the building model modeled in the design support module (10) to monitor an on-site construction process. The design support module (10) generates alternative building models as many as a preset number of alternatives.

Description

An integrated operating system for modular architecture based on BIM capable of deriving alternative multiple building models and a method therefor {Integrated managing system based on the BIM and method therefor}

The present invention relates to an integrated operating system and method for a modular building based on BIM in the construction field, and more particularly, all steps of design, manufacturing, construction and maintenance of a modular building are integrated based on BIM. It relates to a BIM-based integrated operating system for modular architecture that can be operated and managed, and a method therefor.

In general, in the field of construction, 'BIM' means that in all fields of construction, including architecture, civil engineering, and plant, it is reliable to make decisions during the new construction and life cycle of a building according to the physical or functional characteristics of the building. It is an abbreviation of Building Information Modeling (BIM), which refers to a digital model that provides a valid basis and a business procedure for its creation.

This BIM was generated as the utility and need for an integrated database to manage all stages of construction from architectural design to construction and maintenance were raised, and the value of using integrated data that penetrates the design and construction process was recognized. received and widely used.

In order to create a BIM of a building, a list is created by classifying the building into spatial objects and part objects, which are physical units.

The spatial object refers to an object defining the scope of a space such as a floor, a zone, a room, etc. of a building, and the part object refers to a component of a facility that surrounds the space of the building and supports the function of the space, such as columns, walls, doors, Refers to an object such as a window, and gives properties of each object, such as identification, shape, physical property, and reference, to the spatial object and the part object.

As a known technology related to BIM in the construction field, the BIM information management system based on Korean Patent Application Laid-Open No. 10-2010-20060, a spatial modeling device using BIM of Korean Patent Registration No. 976544, and Korean Patent Registration Publication No. 1224627 A method of designing a building structure and calculating a quantity using the arc structure BIM is known.

On the other hand, modular buildings designed and constructed by the modular construction method, which is one of the recent construction methods, are widely used.

In the modular construction method, the building units such as walls, floors, roofs, bathrooms, toilets, windows, and gates are manufactured with standardized modules in advance, and each modularized component is combined to construct the building. It is a construction method that

However, since the technology for operating and maintaining such a modular building based on BIM has not been developed, there is a need to develop an integrated operating system and operating method based on BIM for modular building, which is increasing day by day.

In addition, in the case of the conventional BIM, only a simulation for a simple setting building model is executed or only comparison of the derivation of individual multiple models is allowed, resulting in problems in design process time and cost.

The present invention was created to solve the problems of the prior art as described above, and by providing a BIM-based integrated operating system and method dedicated for modular construction, It is to operate all stages for construction in an integrated way.

The BIM-based integrated operating system and method for modular building of the present invention for achieving the above technical tasks, based on the library and manual dedicated to the modular building, by modeling the building unit components constituting the building, each unit module is generated A design support module that creates a building model by arranging each of the generated unit modules, loads a building model modeled in the design support module, and connects the factory production process and building model object to control the entire process for factory production It is characterized in that it is configured to include a factory production support module for monitoring, and a site construction management module for monitoring the on-site construction process by loading the building model modeled in the design support module.

That is, according to one aspect of the present invention, the present invention creates each unit module by modeling the building unit components constituting a building based on a BIM-based building dedicated library and manual, and arranges each generated unit module to build a building a design support module 10 for generating a model; a factory production support module 20 for loading a building model modeled in the design support module 10, and monitoring the entire process for factory production by connecting the factory production process and the building model object; a site construction management module 30 for monitoring the site construction process by loading a building model modeled in the design support module 10; It provides an integrated operating system for modular construction, characterized in that it comprises a.

In the integrated operating system for modular construction, the design support module 10 may be configured to interface with a structural analysis program to load a modeled building model to perform structural analysis.

In the integrated operating system for modular construction, the design support module 10 may be configured to review the structural stability of a modeled building model using a structural review program.

In the integrated operating system for modular construction, the design support module 10 may be configured to calculate the construction cost by deriving a statement of construction cost of a building in connection with a quantity calculation program.

In the integrated operation system for the modular building, it may be configured to further include a maintenance module that transmits the maintenance information input according to the BIM-based manual to the maintenance system of the corresponding building and utilizes it for the maintenance of the corresponding building. .

According to another aspect of the present invention, the present invention creates each unit module by modeling the building unit components constituting a building based on a BIM-based building dedicated library and manual, and arranges the generated unit modules to create a building model design support procedure for generating (S10); A factory manufacturing support procedure (S20) for loading a building model modeled in the design support module 10, and monitoring the entire process for factory manufacturing by connecting the factory manufacturing process and the building model object; On-site construction management procedure for monitoring the on-site construction process by loading the building model modeled in the design support module 10 (S30); It provides an integrated operating method for modular construction, characterized in that it comprises a.

In the integrated operation method for the modular building, the design support procedure (S10) is, when the step of setting the basic plan of the modular building (S11) and the step of setting the basic plan of the modular building (S11) are completed, the BIM-based building only generating each unit module by modeling the unit components constituting the building based on the library and the manual (S12); When the unit module creation step (S12) is completed, modeling the entire building to the actual design level to generate a building model (S13); It may be configured to include

In the integrated operating method for modular construction, the design support procedure (S10) may further include a step (S14) of interfacing with a structural analysis program to conduct a structural review of the building model.

In the integrated operation method for modular construction, the design support procedure (S10) is a step of calculating the construction cost by deriving a statement of construction cost for the building model in connection with the quantity calculation program when the structure review (S14) is carried out ( S15); It may be configured to further include.

In the integrated operation method for modular construction, the factory production support procedure (S20) loads the result file of the building model generated in the design support procedure (S10) (S21), sets the number of modules (S22) , after setting the process (S23). When the number and process of modules are set, it may be simulated (S24), established an overall production plan (S25), and configured to monitor the process for factory production (S25).

According to another aspect of the present invention, the present invention generates each unit module by modeling the building unit components constituting the building based on the BIM-based building dedicated library and manual, and arranging the generated unit modules to build the building a design support module 10 for generating a model; a factory production support module 20 for loading a building model modeled in the design support module 10, and monitoring the entire process for factory production by connecting the factory production process and the building model object; and a site construction management module 30 for monitoring the on-site construction process by loading a building model modeled in the design support module 10, and the design support module 10 includes a plurality of preset alternatives. It provides an integrated operating system for modular architecture, characterized in that it creates an alternative building model of

In the integrated operation method for modular construction, the design support module 10 includes a module unit BIM library sub-module 10-1, and the BIM-based building dedicated library includes the module unit BIM library sub-module 10 -1), and the BIM-based building-only library includes building unit components such as floor, outer, inner, single, two combined, three combined, and the size of the unit and the properties including materials used. It may be a library in units of modular units based on a modifiable BIM parametric.

In the integrated operation method for modular construction, the design support module 10 includes a modular planning design sub-module 10-2, and the modular planning design sub-module 10-2 includes the module unit BIM library sub By loading the module unit BIM library selected from the BIM-based building-only library of the module 10-1, a building model and an alternative building model of the preset number of alternatives may be generated.

In the integrated operation method for modular construction, the design support module 10 integrates design data of the building model and the alternative building model and converts a file format to execute structural analysis and structural stability verification It may also include a module 10-3.

In the integrated operation method for modular construction, the structural analysis sub-module (10-3) includes: a structural analysis connection data integration sub-module (10-3a) for integrating design data of the building model and the alternative building model; Structural analysis link data conversion sub-module 10 that converts the design data of the building model and the alternative building model integrated in the structural analysis link data integration sub-module 10-3a into conversion data in a form capable of structural analysis -3b) and a structural analysis linkage execution submodule (10-3c) for executing structural analysis on the building model and the alternative building model with the converted data converted in the structural analysis linkage data conversion submodule (10-3b); , it may include a structural analysis linkage verification submodule (10-3d) for executing structural stability verification of the building model and the alternative building model executed in the structural analysis linkage execution submodule (10-3c).

In the integrated operation method for modular construction, the design support module 10 includes a module unit construction cost calculation sub-module 10-4, and the module unit construction cost calculation sub-module 10-4 includes: the structural analysis The cost calculation may be executed by loading the building model and the alternative building model that is executed in the link execution sub-module 10-3c and the safety verification is executed in the structural analysis link verification sub-module 10-3d.

In the integrated operation method for modular construction, the design support module 10 includes a building finish selection sub-module 10-5, and the building finish selection sub-module 10-5 includes: Calculating the module unit construction cost A preset rate is given to the building model and the alternative building model loaded in the sub-module 10-4, the BIM-based building dedicated library, and the building unit components constituting the building model and the alternative building model, , according to the preset rate, the building model and the alternative building model, the BIM-based building dedicated library, and the building model and the building unit components constituting the alternative building model and the corresponding construction cost may be compared and displayed.

In the integrated operation method for modular construction, the design support module 10 includes the module unit VR model house sub-module 10-6, and the module unit VR model house sub-module 10-6 includes: By loading a module according to the preset rate selected in the building finish selection sub-module 10-5, the final model of each unit module to be used for the building model and the alternative building model is displayed in a preset virtual space to be selectable You can also run

In the integrated operation method for modular construction, the design support module 10 includes a lift plan support sub-module 10-7, and the lift plan support sub-module 10-7 includes: the module unit VR model By loading the building model and the alternative building model for the final model of each unit module finally selected in the house sub-module 10-6, a center of gravity point for weight calculation and lifting may be displayed.

In the integrated operation method for modular construction, a result output sub-module 10-8 for displaying and outputting the result of the design support module 10 may be included.

The effects of the BIM-based integrated operating system for modular construction and the method of the present invention having the above configuration are as follows.

The present invention enables integrated operation and management of the entire process of design, production, construction and maintenance of a modular building based on BIM, thereby reducing the time and cost required for modeling, manufacturing, and construction of a modular building.

In addition, since the design, manufacture, and construction of a modular building can be operated based on BIM, it is possible to improve the reliability of the design and manufacture of the modular building by securing analytical accuracy.

In addition, the design support module of the integrated operating system for modular architecture of the present invention can enable a more three-dimensional selection to customers and designers through the provision of a building model and an alternative building model.

1 is a block diagram of an integrated operating system for modular construction of the present invention;
2 is a detailed view of an integrated operating system for modular construction of the present invention;
3 is a flowchart of an integrated operating method for modular construction of the present invention;
4A to 4C are views for explaining each step of the design support procedure of the integrated operating method for modular construction of the present invention;
5 is a view for explaining each step of the factory production support procedure of the integrated operating method for modular construction of the present invention;
6 is a view for explaining the on-site construction support procedure of the integrated operation method for modular construction of the present invention.
7 is a block diagram of an integrated operating system for modular construction according to another embodiment of the present invention;

Hereinafter, the configuration and operation of the BIM-based integrated operating system for modular construction and the method of the present invention will be described in detail with reference to the drawings.

However, the disclosed drawings are provided as examples to sufficiently convey the spirit of the present invention to those skilled in the art. Accordingly, the present invention is not limited to the drawings presented below and may be embodied in other aspects.

In addition, unless there is another definition in the terms used in the present invention, those of ordinary skill in the art to which the present invention pertains have the meaning commonly understood, and in the following description and accompanying drawings, the gist of the present invention Detailed descriptions of well-known functions and configurations that may be unnecessarily obscure will be omitted.

1 is a block diagram of an integrated operating system for modular construction of the present invention.

The present invention is a BIM-based integrated operating system for modular architecture that systemizes the design, factory production, on-site construction and maintenance stages of the entire life cycle of a modular building project using the BIM model, and allows the building manager to manage the construction project of the modular building. It is a kind of platform that can be managed efficiently.

The integrated operating system for modular construction of the present invention includes each dedicated module for performing design, factory production, on-site construction and maintenance.

Specifically, the integrated operating system for modular construction of the present invention is configured to include a design support module 10 , a factory production support module 20 , and a field construction support module 30 .

The design support module 10 models the building unit components such as walls, floors, roofs, bathrooms, toilets, windows, and doors that make up the building based on the BIM-based building library and manual to model each unit module. Created, place each generated unit module, use Parametric to model the entire building at the actual design level, create a building model, and export directly to a well-known structural analysis program such as MAIDAS. After completing the structural analysis through the interface that can EXPORT, output), the completed structural analysis is fed back to secure the structural stability of the modeled building model using known structural review programs such as NavisWorks, It is a module that can calculate the construction cost by deriving a statement of construction cost of a building in connection with the linked quantity calculation program.

Parametric used in the actual design level modeling process by the design support module 20 is all coordinates and change management that are provided by Revit, one of the BIM-based building information modeling software. Refers to the relationships between model elements, and these relationships are created either directly by the user while working or automatically by the software.

At this time, a number or a characteristic defining the kind of relationship between model elements is called a parameter, and working with these in software is parametric.

Therefore, if parametric is used, it is possible to have the basic advantages of coordination and productivity provided by BIM-based building information modeling.

As an example of the relationship between the coordinates provided by Revit and all model elements that enable change management, the edge of the floor or roof of a building is related to the outer wall, so when the outer wall is moved, the floor or roof is connected is maintained as Thus, in this case, the parameter is either an association or a concatenation.

The factory production support module 20 is. It is a part that loads the building model modeled in the design support module 10 and monitors the entire process of the factory manufacturing by connecting the factory manufacturing process and the building model object.

The on-site construction management module 30 loads the building model modeled in the design support module 10, and adds models such as site obstacles, site specifics, and lifting equipment, and monitors the site construction process. part

On the other hand, although not shown, it may further include a maintenance module, wherein the maintenance module exports the maintenance information input according to the manual and transmits it to the maintenance system of the building so that the building manager can maintain the building It is a part that can be used for

The integrated operating system for modular construction of the present invention configured as described above will be described in more detail.

Figure 2 is a detailed view of the present invention the integrated operating system for modular construction.

Referring to the drawings, the design support module 10 refers to the parametric, library, and manual of the BIM-based building information modeling software as described above, in the architectural field, civil engineering field, and MEP field (Mechanical, Electrical and plumbing, mechanical, electrical and plumbing) and structural field output files are created (the drawing shows that the .RVT file that is the result of the REVIT program is created), and design and integration of the output files in each field, specification, Creates an integrated result file that can generate design drawings, structural drawings, structures (Erection), shop (SHOP), individual products, and structural invoices.

In this case, the design support module 10 may interface with a known structural analysis program such as MIDAS to load a building model modeled in the design support module 10 to perform structural analysis.

In addition, the integrated result file (in the case of REVIT program, the integrated result file with extension NWD, NWC, IFC) generated by designing and integrating the result files of each field by the design support module 10 is fed back to NavisWorks ), etc., can be used to review the structural stability, interference, coherence, constructability, etc. of the model completed building model, and the integrated result file is the factory production support module 20 and on-site construction support It is transmitted to the module 30 and utilized in each module.

The factory production support module 10 loads a building model modeled in the design support module 10 and performs modular building project support, production management support, and construction management support.

3 is a flowchart of an integrated operating method for a modular building according to the present invention.

Referring to the drawings, the integrated operation method for modular construction of the present invention, like the above-described integrated operation system for modular construction, uses a BIM model to perform the design, factory production, on-site construction and maintenance stages, which are the entire life cycle of a modular construction project, As a method for systematizing and efficiently managing the building project of a modular building, it is configured including a design support procedure (S10), a factory production support procedure (S20), and a field construction support procedure (S30).

The design support procedure (S10) is based on the library and manual dedicated to the modular building, modeling the building unit components such as walls, floors, roofs, bathrooms, toilets, windows, and doors to create each unit module and , to create a building model by arranging each created unit module and modeling the entire building at the actual design level using parametric, and exporting it directly to a well-known structural analysis program such as MAIDAS. After completing the structural analysis through the interface that can output) It is a procedure that can calculate the construction cost by deriving a statement of construction cost of the building in connection with the quantity calculation program.

Specifically, the design support procedure (S10), as shown in Fig. 4a, includes the step of setting a basic plan of the modular building (S11). The step S11 is a procedure of completing the setting of the floor as the uppermost floor, the reference floor, or the lowermost floor, determining the number of modules, and setting the outer or inner floor of the building.

When the step (S11) of setting the basic plan of the modular building is completed, the building unit components such as walls, floors, roofs, bathrooms, toilets, windows, and gates that make up the building are based on the BIM-based building library and manual. A step (S12) of generating each unit module by modeling is performed.

Next, when the unit module creation step (S12) is completed, the entire building is modeled at the actual design level to generate a building model (S13), and directly exported to a known structural analysis program such as MAIDAS (EXPORT, Structural review is performed through an interface that can output) (S14).

And, when the structure review is carried out, the construction cost is calculated by deriving a statement of construction cost for the building model by linking the known quantity calculation program (S15).

The factory production support procedure (S20) is a procedure of loading the building model modeled in the design support procedure (S10), and monitoring the entire process for factory production by connecting the factory manufacturing process and the building model object.

Specifically, as shown in FIG. 5, the result file of the building model generated in the design support procedure (S10) (in the case of the REVIT program, the integrated result file with extension NWD, NWC, IFC) is loaded (S21), Set the number of modules (S22), and set the process (S23).

Then, when the number of modules and processes are set, they are simulated (S24), an overall production plan is established (S25), and then the process for factory production is monitored (S25).

If the schedule of the process is changed (S26), the process is reset by returning to the step of setting the process (S23).

On the other hand, Figure 5 shows an example of a user interface screen for factory production support provided by the integrated operating system for modular construction of the present invention in order to perform the factory production support procedure (S20).

The on-site construction management procedure (S30) is to load the building model modeled in the design support procedure (S10), add models such as site obstacles, site specifics, and lifting equipment, and monitor the site construction process is the sequence

6 shows an example of a user interface screen for on-site construction management provided by the integrated operating system for modular construction of the present invention in order to perform the on-site construction management procedure (S30).

On the other hand, it may further include the maintenance procedure of the building, and the maintenance procedure is by exporting the maintenance information input according to the manual and transmitting it to the maintenance system of the building, so that the building manager is responsible for the maintenance of the building. This is the procedure to make use of it.

On the other hand, the design support module in the previous embodiment is made centered on the design of a single building model, but may be implemented in the form of a component for enhancing customer satisfaction according to the needs of the owner and the rapid change of the design environment. . That is, according to another aspect of the present invention, as shown in FIG. 7 , the integrated operating system for modular construction of the present invention includes a design support module 10 , a factory production support module 20 , and a field construction management module 30 . And, the design support module 10 creates each unit module by modeling the building unit components constituting the building based on the BIM-based building dedicated library and manual, and arranging the generated unit modules to create a building model And, the factory production support module 20 loads the building model modeled in the design support module 10, connects the factory production process and the building model object to monitor the entire process for factory production, and the on-site construction management module ( 30) is the same as in the previous embodiment, but the configuration for monitoring the on-site construction process by loading the modeled building model in the design support module 10 is the same as in the previous embodiment, but the design support module 10 in this embodiment is a plurality of preset alternatives By generating as many alternative building models as possible, a plurality of alternative building models in addition to a single building model can be generated to increase the choice of customers.

More specifically, the design support module 10 includes a module unit BIM library sub-module 10-1, and a BIM-based building dedicated library is provided in the module unit BIM library sub-module 10-1.

At this time, the BIM-based building-only library is a BIM parametric-based modular unit library, and the BIM-based building-only library includes building unit components such as floor, outer, inner, single, two combined, three combined. Thus, it is possible to change the characteristics including the size of the unit and the materials used, and through these changes and modifications, it is possible to implement a variety of selections quickly and quickly through the modification and selection of the unit components.

In addition, the design support module 10 includes a modular planning design sub-module 10-2, and the modular planning design sub-module 10-2 is a BIM-based building of the module unit BIM library sub-module 10-1. By loading the module unit BIM library selected from the dedicated library, a building model and an alternative building model of the preset number of alternatives are generated. That is, the modular planning design sub-module 10-2 arbitrarily draws the core part of the building on the construction project site, that is, on an arbitrary site or expected site, and arranges the module in arbitrary planes and elevations to compose the scalpel of the entire building, By selecting the architectural exterior finish, it is possible to display the modeling appearance of the building at the level of the planned design, the number of preset alternatives, in this embodiment, about 3 to 5 alternative building models as architectural design alternatives can be displayed, providing visible information to the customer By doing this, it is possible to minimize the gap between the design and the finished building after the final construction is completed, thereby increasing customer satisfaction and reliability with customers.

In addition, the design support module 10 includes a structural analysis sub-module 10-3, which integrates the design data of the building model and the alternative building model and converts the file format to Execute structural analysis and structural stability verification.

More specifically, the structural analysis sub-module 10-3 includes the structural analysis linkage data integration submodule 10-3a, the structural analysis linkage data conversion submodule 10-3b, and the structural analysis linkage execution submodule 10 -3c) and a structural analysis linkage verification sub-module 10-3d.

First, the structural analysis connection data integration sub-module 10-3a integrates the design data of the building model and the alternative building model, and the design data integration is the same as described in the previous embodiment.

After the integration process in the structural analysis-linked data integration sub-module 10-3a is completed, data conversion in the structural analysis-linked data conversion sub-module 10-3b may be performed. That is, the structural analysis-linked data conversion sub-module 10-3b converts the design data of the building model and the alternative building model integrated in the structural analysis connection data integration sub-module 10-3a into conversion data in a form capable of structural analysis. By converting the format to form a ready state for structural analysis, it is possible to enhance interoperability with the existing structural analysis programs, for example, structural analysis programs such as MIDAS.

The conversion data executed in the structural analysis linkage data conversion submodule 10-3b is utilized, and the structural analysis for the building model and the alternative building model is executed in the structural analysis linkage execution submodule 10-3c. That is, the structural analysis linkage execution submodule 10-3c executes structural analysis on the building model and the alternative building model with the converted data converted in the structural analysis linkage data conversion submodule 10-3b, as described above. Structural analysis can be performed on a building model and an alternative building model through an existing structural analysis program, for example, a structural analysis program such as MIDAS.

Then, after the structural analysis in the structural analysis linkage execution submodule 10-3c is completed, the structural analysis linkage verification submodule 10-3d is the building model executed in the structural analysis linkage execution submodule 10-3c and structural stability verification of alternative building models.

The structural analysis linkage verification sub-module 10-3d may be executed through a conventional structural verification program, for example, a safety verification program such as the above-described NavisWorks.

In addition, the design support module 10 includes a module unit construction cost calculation sub-module 10-4, and the module unit construction cost calculation sub-module 10-4 is executed in the structural analysis linkage execution sub-module 10-3c The cost calculation is executed by loading the structural analysis linkage verification sub-module (10-3d) and the safety verification-executed building model and the alternative building model.

That is, the module unit construction cost calculation sub-module 10-4 loads the architectural design alternative of the modular planning design module 20 that has finished the structural review in the structural analysis linkage module 30, and the integration (quantity calculation) of each module is performed. Thus, it is divided into quantity by module type, total module quantity, factory production quantity, and on-site construction quantity and presented in a quantity breakdown table. If you input the unit price that is arbitrarily provided in the quantity breakdown table, you can calculate the cost in the quantity breakdown table item. .

On the other hand, the design support module 10 according to another embodiment of the present invention may include a building finish selection sub-module 10-5, and the building finish selection sub-module 10-5 is a module unit construction cost calculation. A preset rate is given to the building model and the alternative building model loaded in the sub-module 10-4, the BIM-based building library and the building model, and the building unit components constituting the alternative building model, the preset rate Accordingly, it is possible to compare and display the building model and the alternative building model, the BIM-based building exclusive library, and the building unit components constituting the building model and the alternative building model and the corresponding construction cost.

That is, the module unit construction cost calculation sub-module 10-4 displays the architectural design alternative and the module unit BIM library and the construction cost in the BIM viewer and the construction cost table, and changes the quality of the construction finish to select the modules A, B, C, etc. By displaying by 3-5 grades, models and construction costs can be compared at a preset rate, that is, by grade, allowing the owner and designer to make a three-dimensional selection for each building unit component and module considering cost and quality.

In addition, the design support module 10 includes a module unit VR model house sub-module 10-6, and the module unit VR model house sub-module 10-6 is a building finish selection sub-module 10-5. By loading the module according to the selected preset rate, the final model of each unit module to be used for the building model and the alternative building model may be displayed and executed in a preset virtual space to be selectable.

That is, the module unit VR model house sub-module 10-6 includes an image engine that loads the grade-specific modules at the preset rate selected in the building finish selection sub-module 10-5 and implements them in a virtual space. , it is possible to provide a VR room as an actual physical space for implementation in such a virtual space, and only programmatically output images in the form of VR or AR through a headset or glasses to enable customers or designers to visually perceive and make it possible to finally select the building finish for each construction unit module.

On the other hand, the design support module 10 according to another exemplary embodiment of the present invention includes a lifting plan support sub-module 10-7, wherein the lifting plan support sub-module 10-7 is a module unit VR model house sub-module. By loading each building model and an alternative building model for the final model of each unit module finally selected in (10-6), a center of gravity point for weight calculation and lifting may be displayed.

In addition, it may include a result output sub-module 10-8 for displaying and outputting the result of the design support module 10.

* Explanation of symbols for the main parts of the drawing *
10; design support module
20; Factory production support module
30; On-site construction support module

Claims (10)

A design support module 10 for generating each unit module by modeling the building unit components constituting a building based on a BIM-based building dedicated library and manual, and arranging the generated unit modules to create a building model;
a factory production support module 20 for loading a building model modeled in the design support module 10, and monitoring the entire process for factory production by connecting the factory production process and the building model object;
and a site construction management module (30) for monitoring the site construction process by loading the building model modeled in the design support module (10);
The design support module (10) is an integrated operating system for modular construction, characterized in that it generates an alternative building model as many as a plurality of preset alternative numbers.
The method of claim 1,
The design support module 10 includes a module unit BIM library sub-module 10-1,
The BIM-based building dedicated library is provided in the module unit BIM library sub-module 10-1,
The BIM-based building-only library includes building unit components such as floor, outer, inner, single, two-combination, three-combination, and the like. An integrated operating system for modular construction, characterized in that it is a library of modular units.
3. The method of claim 2,
The design support module 10 includes a modular planning design sub-module 10-2,
The modular planning design sub-module 10-2,
Modular building, characterized in that by loading the module unit BIM library selected from the BIM-based building-only library of the module unit BIM library sub-module (10-1) to generate a building model and an alternative building model of the preset number of alternatives Integrated operating system.
4. The method of claim 3,
The design support module 10,
Integrated operating system for modular architecture comprising a structural analysis sub-module (10-3) for integrating the design data of the building model and the alternative building model and converting the file format to execute structural analysis and structural stability verification .
5. The method of claim 4,
The structural analysis sub-module 10-3 includes:
Structural analysis connection data integration sub-module (10-3a) for integrating the design data of the building model and the alternative building model;
Structural analysis link data conversion sub-module ( 10-3b) and;
A structural analysis linkage execution submodule (10-3c) for executing structural analysis on the building model and the alternative building model with the converted data converted in the structural analysis linkage data conversion submodule (10-3b);
For modular construction, comprising a structural analysis linkage verification submodule (10-3d) for executing structural stability verification of the building model and the alternative building model executed in the structural analysis linkage execution submodule (10-3c) Integrated operating system.
6. The method of claim 5,
The design support module 10 includes a module unit construction cost calculation sub-module 10-4,
The module unit construction cost calculation sub-module 10-4 includes:
It is characterized in that the cost calculation is executed by loading the building model and the alternative building model that is executed in the structural analysis linkage execution sub-module 10-3c and the safety verification is executed in the structural analysis linkage verification submodule 10-3d Integrated operating system for modular construction.
7. The method of claim 6,
The design support module 10 includes a building finish selection sub-module 10-5,
The building finish selection sub-module (10-5) is:
The building model and the alternative building model and the BIM-based building dedicated library loaded in the module unit construction cost calculation sub-module 10-4, and the building unit components constituting the building model and the alternative building model in advance A set rate is given, and the building model and the alternative building model, the BIM-based building exclusive library, and the building unit components constituting the building model and the alternative building model and the corresponding construction cost are compared and displayed according to the preset rate. Integrated operating system for modular construction, characterized in that.
8. The method of claim 7,
The design support module 10 includes the module unit VR model house sub-module 10-6,
The module unit VR model house sub-module (10-6) is:
By loading a module according to the preset rate selected in the building finish selection sub-module 10-5, the final model of each unit module to be used for the building model and the alternative building model is displayed in a preset virtual space to be selectable An integrated operating system for modular construction, characterized in that it runs.
9. The method of claim 8,
The design support module 10 includes a lifting plan support sub-module 10-7,
The lifting plan support sub-module (10-7) is:
Loading each of the building model and the alternative building model for the final model of each unit module finally selected in the module unit VR model house sub-module (10-6) to display the center of gravity for weight calculation and lifting Features an integrated operating system for modular construction.
10. The method according to any one of claims 2 to 9,
The integrated operating system for modular construction, characterized in that it includes a result output sub-module (10-8) for displaying and outputting the result of the design support module (10).

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