KR20210064954A - Managing system for factory productiong the modular building and planning the modular building on construction site and and method therefore - Google Patents

Abstract

An object of the present invention is to provide a system and method that can integrally manage construction support at a construction site based on BIM for the factory producing procedure of a modular building and the on-site construction procedure of the modular building. The system for managing the factory producing procedure of the modular building, the on-site construction procedure and on-site construction of the modular building according to the present invention comprises: a unit module extraction part (10); a statement classification part (20); a BIM and statement linkage part (30); a monitoring part (40); and an on-site construction linkage part (60).

Description

Field construction support system of a modular building and its control method {Managing system for factory productiong the modular building and planning the modular building on construction site and and method therefore}

The present invention relates to a system for supporting on-site construction of a modular building and a method therefor, and more particularly, to a modular building that can integrally manage the factory manufacturing procedure of the modular building and the on-site construction procedure of the modular building based on BIM. It relates to an on-site construction support system and a method therefor.

In general, in the field of construction, 'BIM' converts work at each stage of a construction project into digital-based project information by building a three-dimensional model containing information required or usable in the entire process of the construction project. It refers to tools and systems that can be provided, and is an abbreviation for Building Information Modeling (hereinafter, collectively referred to as 'BIM').

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.

Architectural projects based on existing two-dimensional drawings have inherent inefficiencies that come from the passive linkage of numerous fragmented information, manual work, and repetitive tasks, whereas BIM is a system or process that can utilize digital information. Since work can be performed in conjunction, work productivity is improved and the accuracy of results can be secured compared to the existing work method based on two-dimensional drawings.

In addition, the modular building is one of the construction methods, and the factory manufacturing procedure of standardizing and manufacturing unit modules such as walls, floors, roofs, bathrooms, toilets, windows, and doors of the building in advance, and combining the manufactured unit modules with each other in the field. It is a construction method that includes on-site manufacturing procedures.

According to the construction method of such a modular building, the factory manufacturing procedure of prefabricating the unit components of the building occupies approximately 70% of the total process. Since the above-mentioned BIM is applied only to design, the effectiveness of BIM is very high in the factory manufacturing procedure. is lowered

In addition, there are many small-scale, sporadic building projects for modular buildings. As a result, the management of each stage of the modular building process is man-centered and there is no plan to improve work efficiency. In order to find out how much equipment is being put in, each process must be manually checked, so efficiency and accuracy are declining, and a method for improving this is required.

Therefore, there is a constant need to develop a system and method that can manage the factory manufacturing procedure, which accounts for approximately 70% of the manufacturing process of such a modular building, in an integrated manner based on BIM.

On the other hand, as a known technology related to the above BIM, the spatial modeling apparatus using the BIM information management system based on the Segyun of Korean Patent Application Laid-Open No. 10-2010-20060, the BIM of Korean Patent Registration No. 976544, and the Korean Patent Registration Publication No. 1224627 A method for designing a building structure and calculating a quantity using the arc structure BIM is known.

In addition, in the case of an actually designed building, due to physical constraints on the site, the exact intention of the design at the time of design is not reflected during construction at the actual site where it is being constructed, so it is difficult to perform the correct construction process and there are limitations in management. .

The present invention was created to solve the problems of the prior art as described above. A system that can manage the construction support at the construction site in an integrated manner based on the BIM for the factory manufacturing procedure of modular buildings and the on-site construction procedures of modular buildings and methods.

The on-site construction support system and method of a modular building of the present invention for achieving the above technical task, load the BIM model of the modular building, journal the loaded BIM model for each unit module, and divide each journaled unit module by type The grouping BIM unit module extraction unit, and the detailed statement of the modular building provided by the designer of the modular building are loaded and the loaded statement is classified by type, and divided into the factory production and field production details required for the factory production procedure and the on-site production procedure BIM unit module grouped by type from the BIM unit module extracting unit and the factory production statement and field production statement classified by the statement classification unit are delivered to the factory production sequence and the on-site production sequence. BIM and statement linkage that calculates the quantity and detail information of unit components that make up the modular building and calculates detailed work type information including work time information, input manpower information, and equipment information for each work type according to the calculated quantity and detail information A monitoring unit that lists the quantity and detail information and detailed work type information calculated by the department and the BIM and statement linkage unit, and displays the real-time work status of the work type on the display means when the list is selected, and in the modular building The temporary facility BIM library and interference factor BIM library for Korea, the on-site construction schedule of the modular building provided by the designer of the modular building, and the unit module grouped by type from the unit module extraction unit 10 and the statement classification unit 20 Modular including a field construction linkage unit 60 for calculating on-site construction plan information including on-site construction temporary plans and on-site construction joint plans for constructing each unit module on-site using the factory production statement and on-site production statement It consists of a construction site support system for a building and its method.

In the on-site construction support system of the modular building, the BIM model used by the unit module extraction unit 10 may be created by a BIM design computer program for designing the BIM.

In the on-site construction support system of the modular building, the statement information used by the statement classification unit 20 may be information provided by a designer of the modular building and stored in the database 50 .

In the on-site construction support system of the modular building, the detailed work type information calculated by the BIM and statement linkage unit 30 may include work time information, input manpower information, and equipment information.

In the on-site construction support system of the modular building, the monitoring unit 40 can capture important matters in the work situation by work type monitored in real time, and provide it to the worker of the work and the work station for each process to provide quality You can also support management.

In the on-site construction support system of the modular building, the monitoring unit 40 provides a user interface screen, but the BIM and statement linkage unit 30 in the left area (A) of the user interface screen calculates the factory The quantity and detail information of the unit modules constituting the modular building required in the manufacturing procedure and the on-site manufacturing procedure and detailed work type information for each work type are displayed, and the monitoring unit 40 is provided in the central area (B) of the user interface screen It may be provided with a configuration in which the real-time work status of the corresponding work type is displayed, and a selection menu of the overall factory production status is displayed in the right area (C) of the user interface screen.

In the on-site construction support system of the modular building, the on-site construction link unit 60 includes: a temporary facility BIM library and an interfering element BIM library for the modular building, a field construction schedule of a modular building provided by a designer of the modular building, and the Using the unit module grouped by type from the unit module extraction unit 10 and the factory-made statement and field-made statement classified by the statement classification unit 20, field hypothesis used to construct each unit module in the field The on-site construction temporary plan linking unit 61 for calculating on-site temporary facility type information and on-site temporary facility location information for the facility, and on-site construction for calculating on-site construction work plan information for the process sequence of constructing each unit module in the field A process hypothesis planning linkage unit 63 may be provided.

According to another aspect of the present invention, in the management method performed by the system for managing the factory manufacturing procedure of the modular building and the field construction procedure of the modular building, the BIM model of the modular building is loaded (S11) , a unit module extraction step (S1) of journaling the loaded BIM model for each unit module (S12), and grouping each journaled unit module by type (S13); A statement of loading the statement of the modular building provided by the designer of the modular building (S21), classifying the loaded statement by type, and dividing it into a statement of factory production and a statement of on-site production required for the factory production procedure and on-site production procedure (S22) classification step (S2); In the unit module extraction step (S1), the unit module grouped by type and the factory production statement and field production statement classified in the statement classification step (S2) are delivered (S31), and the received unit module and factory production sequence BIM and statement linkage step of calculating the quantity and detail information of unit modules constituting the modular building required in the field production procedure (S32), and calculating detailed work type information for each work type according to the calculated quantity and detail information (S33) (S3); A monitoring step of listing the quantity, detail information, and detailed work type information calculated in the BIM and statement linkage step (S3) (S41), and displaying the real-time work status of the work type on the display means when the list is selected (S42) (S4); Temporary facility BIM library and interference element BIM library for the modular building, the field construction process table of the modular building provided by the designer of the modular building, and the unit module grouped by type from the unit module extraction unit 10 and the statement classification unit 20 ), the site construction plan information including the on-site construction temporary plan and on-site construction joint plan for constructing each unit module on-site using the factory production statement and on-site statement On-site construction linkage step (S5); provides a method for controlling the on-site construction support system of a modular building, characterized in that it is configured to include.

In the method for controlling the on-site construction support system of the modular building, the monitoring step (S4) may capture important matters in the real-time monitoring work situation for each work type, and provide it to the worker of the work and the work station for each process to support quality control.

In the method for controlling the on-site construction support system of the modular building, the on-site construction link step (S5) includes a temporary facility BIM library and an interfering element BIM library for the modular building, a field construction process table of a modular building provided by a designer of the modular building And by using the unit module grouped by type from the unit module extraction unit 10, and the factory-made statement and field-made statement classified in the statement classification unit 20, each unit module is used for construction in the field. The on-site temporary facility type information and the on-site temporary facility location information for the on-site temporary facility are calculated by the on-site construction temporary plan link unit 61, the on-site construction temporary plan connection step (S51), and the process sequence of constructing each unit module on-site On-site construction work plan information for the on-site construction process may be calculated by the hypothesis planning link unit 63 .

According to another aspect of the present invention, the present invention may provide a computer-readable storage medium in which a computer program for performing the method for controlling the on-site construction support system of the modular building is recorded.

The on-site construction support system and method of a modular building of the present invention as described above has the effect of being able to manage the factory manufacturing procedure, which occupies approximately 70% of the entire process of the modular building, in an integrated manner based on BIM.

In addition, since the input cost of the modular building, manpower, equipment, etc. are expressed in connection with the statement, the process and cost can be managed in an integrated manner.

In addition, it is possible to immediately check the important matters for each type of work and deliver it to each person in charge who performs the factory production procedure and the on-site production procedure, thereby supporting the building quality management of the modular building.

In addition, the manager can compare the BIM model with the actual work situation in real time, so that the process progress can be managed quickly and accurately.

1 is a block diagram of the on-site construction support system of the present invention modular building;
2 is an example of a user interface screen provided by the monitoring unit of the on-site construction support system of the modular building of the present invention;
3 is a flowchart of a factory production management method of a modular building of the present invention;
4 is a modified configuration diagram of the on-site construction support system of the present invention modular building;
5 is a modified flowchart of the factory production management method of the modular building of the present invention;
6 is a modified configuration diagram of the detailed configuration of the on-site construction support system of the present invention modular building;
7 is another example of the user interface screen provided by the monitoring unit of the on-site construction support system of the modular building of the present invention.

Hereinafter, the configuration and operation of the BIM-based integrated operating system for modular construction of the present invention and the method thereof 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 specification, those of ordinary skill in the art to which the present invention pertains have the meaning commonly understood, and the gist of the present invention in the following description and accompanying drawings Detailed descriptions of well-known functions and configurations that may be unnecessarily obscure will be omitted.

1 is a block diagram of the on-site construction support system of the modular building of the present invention.

The on-site construction support system (1) of the modular building of the present invention (hereinafter, abbreviated as factory production management system) loads the BIM model of the modular building and journals the loaded BIM model for each unit module, The unit module extraction unit 10 for grouping by type, loading the statement of the modular building provided by the designer of the modular building, and classifying the loaded statement by type, the statement of factory production and on-site production necessary for the factory production procedure and the on-site production procedure The statement classification unit 20 divided into minute statements and the unit module grouped by type from the unit module extraction unit 10 and the factory production statement and field production statement classified by the statement classification unit 20 are delivered It calculates the quantity and detail information of the unit modules constituting the modular building required in the factory manufacturing procedure and the on-site manufacturing procedure, and includes work time information, input manpower information, and equipment information for each work type according to the calculated quantity and detailed information. BIM and statement linkage unit 30 that calculates detailed work type information, and lists the quantity and detail information and detailed work type information calculated by the BIM and statement linkage unit 30, and when the list is selected, real-time work of the work type It includes a monitoring unit 40 for displaying the situation on the display means. In addition, in some cases, as a component for supporting on-site construction planning at the construction site, the temporary facility BIM library and interfering element BIM library for the modular building, the on-site construction schedule of the modular building provided by the designer of the modular building, and the unit module On-site construction hypothesis planning and on-site construction in which each unit module is constructed in the field using the unit modules grouped by type from the extraction unit 10 and the factory production breakdown and field production breakdown classified by the statement classification unit 20 It may further include an on-site construction linkage unit 60 for calculating on-site construction plan information including a co-authorship plan.

The BIM model used by the unit module extraction unit 10 is created by a known computer program for BIM design that designs BIM based on a library and manual dedicated to buildings, and classifies buildings into spatial objects and part objects, which are physical units. It is made into a list.

The space object is an object defining the scope of space such as a floor, a zone, a room, etc. of a building, and the part object surrounds the space of the building and supports the function of the space, such as columns, walls, doors, windows, etc. It is an object, and properties for each object such as identification, shape, physical properties, and reference are given to these spatial and part objects.

The unit module extraction unit 10 loads the BIM model consisting of the spatial objects and the part objects listed as described above, and based on the BIM model, the walls, floors, roofs, bathrooms, toilets, windows, It is divided into unit modules such as gates, stairs, elevators, electrical equipment, gas equipment, water equipment, etc., and each of the journalized unit modules is grouped by each type of architecture, structure, and equipment.

The statement classification unit 20 loads the statement information of the modular building, which is information provided from the designer of the modular building and stored in the database 50, and according to the loaded statement information, the factory production statement necessary for the factory production procedure, and on-site production It is divided into the details of on-site production required for the procedure.

For example, as the statement of factory production, the input materials required for the production of unit modules such as walls or roofs using raw materials, basic processing of raw materials, and operation of raw materials, production time, number of input personnel, equipment required for production, etc. historical information is available.

In addition, for example, as the statement of field production, the transport of the manufactured unit module, the foundation work for the unit module construction, the input materials required for the unit module construction, the construction time, the number of input manpower, the equipment required for construction, the site disturbance Information on details such as water, site specifics, etc. may be mentioned.

The BIM and statement link unit 30 transmits unit modules grouped by type from the unit module extraction unit 10 and factory-made statement information and field-made statement information classified by the statement classification unit 20 . Based on the received and received statement information, the quantity and detail information of the unit modules constituting the modular building required in the factory production procedure and the on-site production procedure are calculated, and according to the calculated quantity and detailed information, work time information and input for each work type Calculation of detailed work information including manpower information and equipment information.

The monitoring unit 40 lists the quantity and detail information and detailed work type information calculated by the BIM and statement linkage unit 30, and when the list is selected, the real-time work status of the work type is displayed on a display means such as a monitor. By doing this, the entire process of factory production is monitored in real time.

At this time, the manager monitors the work status for each work type displayed on the monitoring unit 40 in real time, and captures important matters in the BIM model by immediately inputting text, etc. By providing it to the station, it is possible to support quality control in the factory production sequence.

On the other hand, the data calculated or used in the unit module extraction unit 10, the statement classification unit 20, the BIM and statement linkage unit 30 and the monitoring unit 40 are stored in the database 50 linked thereto. and updated.

On the other hand, the on-site construction support system of the modular building of the present invention may further include an on-site construction linkage unit 60, which is a component for on-site construction planning support at the construction site, Temporary facility BIM library and interference element BIM library for the modular building, the field construction process table of the modular building provided by the designer of the modular building, and the unit module grouped by type from the unit module extraction unit 10 and the statement classification unit 20 ), it is possible to calculate on-site construction plan information including on-site construction temporary plans and on-site construction joint plans for constructing each unit module on-site by using the factory production statement and on-site production statement classified in ).

More specifically, the on-site construction linkage unit 60 includes an on-site construction temporary plan linkage unit 61 and an on-site construction process hypothesis plan linkage section 63 . The on-site construction link unit 60 is a temporary facility BIM library and interference element BIM library for a modular building, a field construction process table of a modular building provided by a designer of the modular building, and a unit module grouped by type from the unit module extraction unit 10 By using the detailed statement for factory production and the statement for on-site production classified by the statement classification unit 20, site construction plan information is calculated.

The on-site construction temporary planning linkage unit 61 calculates on-site temporary facility type information and on-site temporary facility location information or interference information for on-site temporary facilities used to construct each unit module in the field. In the case of modular architecture, when considering the entire process from manufacturing to construction, the factory manufacturing process in the factory accounts for about 50 to 80% of the total process, and on-site construction accounts for the rest of the process. Shortening the on-site construction period and managing construction quality are no less important than the factory manufacturing process in the factory. In other words, it is possible to minimize the process cost by shortening the construction period through the management of the on-site construction state, and through the management of the on-site construction state, the quality completeness of the entire process through the prevention of quality damage and quality maintenance after the Confucius manufacturing process of the modular building can be rapidly promoted, and the present invention can achieve a predetermined purpose and accompany the effect thereof by providing a system and method that support the on-site construction plan of a modular building through such BIM.

The on-site temporary facility type information includes specific information on the type and number of temporary facilities required to construct a modular building in the field. For example, type information of on-site temporary facilities used at the construction site may include type information of temporary fences, material yards, material processing plants, cranes, lift cars, etc., and quantity information about the number or number of them. .

In addition, the site temporary facility location information indicates a location in which the mentioned on-site temporary facility is disposed. In some cases, a configuration in which real-time location information is updated by using IOT or the like for major facilities among temporary on-site facilities may be taken. That is, the system 1 of the present invention has a temporary facility communication terminal unit 80 disposed in the field temporary facility, and its information is transmitted to the system 1 through the communication unit 90 installed in the field, and the system ( 1) may form a real-time support structure of on-site construction support by receiving it through the system communication unit 70 and updating the on-site temporary facility location information for the on-site temporary facility.

The on-site construction process hypothesis planning link unit 63 calculates on-site construction construction plan information for the process sequence of constructing each unit module on-site by using the above information. The on-site construction process plan information calculated by the on-site construction process hypothesis planning linkage unit 63 may be displayed and monitored on the designer side through the terminal, or may be transmitted to the actual construction site side and displayed on the construction site, etc. Various implementations are possible.

In addition, the on-site construction linkage unit 60 may further include a site construction plan GUI unit 65 along with the on-site construction temporary plan linkage unit 61 and the on-site construction process temporary plan linkage unit 63 ( see Fig. 6). The on-site construction planning GUI unit 65 displays the information calculated by the on-site construction temporary plan linking unit 61 and the on-site construction process temporary planning linking unit 63, and selects and aggregates them in a graphical user interface method to obtain a predetermined site It may be possible to perform execution of a simulation linking construction information.

As shown in FIG. 7 , the calculated on-site temporary facility type information, on-site temporary facility location information or interference information, and the calculated on-site construction process plan information may be displayed and monitored on the designer side through the terminal, and the actual construction site Various implementations are possible, such as taking a configuration that is transmitted to the side and displayed on the construction site. That is, the divided arrangement configuration displayed on the display unit 2 may be arranged, and the display screen includes, for example, a total of three BIM and construction-related simulation display parts (Wa), an on-site construction schedule display part (Wb), It is composed of on-site temporary facility and interfering element search part (Wc), each of which displays BIM and construction-linked simulation information, displays information about on-site construction schedule, and is a search window for searching for on-site temporary facilities and interfering elements. A region can be provided.

The on-site construction manager may search for and select an element from the on-site temporary facility and interfering element search part (Wc) and drag it to the BIM and construction-related simulation display part (Wa) to perform a predetermined simulation task. On-site temporary facilities, such as lifting equipment such as large cranes, may be set to schedule and plan location changes on the site construction process table display part (Wb) according to the date and time of information that needs to be changed. The on-site construction temporary planning linkage unit 61 and the on-site construction process temporary plan linkage unit 63 are provided with information on the working radius and risk range through the information and BIM information of on-site temporary facilities of lifting equipment such as large cranes. Problems such as possible interference during the location movement or construction work may be automatically checked and displayed.

At least two or more of the BIM and construction link simulation display part (Wa), the on-site construction process table display part (Wb), and the on-site temporary facility and interference element search part (Wc) are linked, so that when any one data changes, the other You can take a structure that is automatically applied and changed. That is, when changes occur in the on-site construction process table display part (Wb), the change is automatically applied to the BIM and construction-linked simulation display part (Wa).

2 shows an example of a user interface screen provided by the monitoring unit 40 of the on-site construction support system of the modular building of the present invention.

Referring to the drawings, in the left area (A) of the user interface screen, the quantity and detail information of the unit modules constituting the modular building required in the factory manufacturing procedure and the field manufacturing procedure calculated by the BIM and statement linkage unit 30, and Detailed work type information such as work time information, input manpower information, and equipment information for each work type is displayed.

In addition, in the central area (B) of the user interface screen, the real-time work status of the corresponding work type provided by the monitoring unit 40 is displayed.

In the right area (C) of the user interface screen, a selection menu (current process name, current production rate, production rate versus plan, current process plan, current process progress, current process end, overall process plan) that can see the overall factory production status , overall process progress, overall process completion, progress compared to plan, location, person in charge) are displayed.

Accordingly, the administrator can monitor the progress of the process for each module of the modular building in real time through the user interface screen.

3 is a flowchart of a factory manufacturing management method of a modular building.

Referring to the drawings, the factory production management method of the modular building of the present invention is performed by the above-described on-site construction support system of the modular building, and the BIM model of the modular building and the statement of the modular building are interconnected to link the factory of the modular building It is a management method that can monitor the production status in real time, and may include the following steps in addition to the steps described above.

1) Unit module extraction step (S1)

The unit module extraction step (S1), loading the BIM model of the modular building (S11), journaling the loaded BIM model for each unit module (S12), and grouping each journalized unit module by type (S13) is a step

2) Statement classification step (S2)

In the statement classification step (S2), the statement of the modular building provided by the designer of the modular building is loaded (S21), and the loaded statement is classified by type, and the statement of factory production and on-site production necessary for the factory production procedure and the on-site production procedure It is a step of classifying into minute statements (S22).

As the above factory production statement, it contains information such as raw material import, basic processing of raw materials, input materials necessary for manufacturing unit modules such as walls and roofs using raw materials, production time, number of input personnel, equipment required for production, etc. can

As the statement of on-site production, transport of the manufactured unit module, foundation work for unit module construction, input materials required for unit module construction, construction time, number of input manpower, equipment required for construction, site obstacles, site specific matters, etc. history information can be found.

3) BIM and statement linkage step (S3)

In the BIM and statement linking step (S3), the unit module grouped by type in the unit module extraction step (S1) and the factory production statement and field production statement classified in the statement classification step (S2) are delivered ( S31), calculate the quantity and detail information of the received unit module and the unit modules constituting the modular building required in the factory manufacturing procedure and on-site manufacturing procedure (S32), and according to the calculated quantity and detailed information, work time information for each work type , is a step of calculating (S33) detailed work type information including input manpower information and equipment information.

4) Monitoring step (S4)

Lists the quantity and detail information and detailed work type information calculated in the BIM and statement link step (S3) (S41), and when the list is selected, displays the real-time work status of the work type on the display means (S42). , a user interface screen as shown in FIG. 2 is provided.

At this time, the work situation for each work type is monitored in real time by the manager, and important matters can be captured by inputting text in the BIM model immediately in the BIM model. As described above, it is possible to support quality control in the process of factory production by providing

Therefore, according to the on-site construction support system and method for the modular building of the present invention configured as described above, it is possible to manage the factory manufacturing procedure, which occupies approximately 70% of the entire process of the modular building, integratedly based on BIM. .

On the other hand, in the case of another example of the present invention, the on-site construction linkage step (S5) may be further provided (refer to FIG. 5). Here, redundant descriptions of steps S1 to S4 described above are omitted and replaced with the above description.

5 is a modified example of a flowchart of a method for managing factory production of a modular building.

Referring to the drawings, the factory production management method of the modular building of the present invention is performed by the above-described on-site construction support system of the modular building, and the BIM model of the modular building and the statement of the modular building are interconnected to link the factory of the modular building In addition to monitoring the production status in real time, it provides a support method necessary for performing on-site construction planning, and may include the following steps in addition to the steps described above.

5) On-site construction linkage step (S5)

Temporary facility BIM library and interference element BIM library for the modular building, the field construction process table of the modular building provided by the designer of the modular building, and the unit module grouped by type from the unit module extraction unit 10 and the statement classification unit 20 ), the site construction plan information including the on-site construction temporary plan and on-site construction joint plan for constructing each unit module on-site using the factory production statement and on-site statement Step S5.

More specifically, in the on-site construction link step (S5), the temporary facility BIM library and interference element BIM library for the modular building, the on-site construction process table of the modular building provided by the designer of the modular building, and the unit module extraction unit 10 from Information is calculated using the unit modules grouped by type and the factory-made statement and field-made statement classified by the statement classification unit 20 .

The on-site construction linkage step (S5) includes an on-site construction temporary plan linkage step (S51) and an on-site construction process temporary plan linkage step linkage step (S53). In the on-site construction temporary plan link step (S51), on-site temporary facility type information and on-site temporary facility location information for on-site temporary facilities used to construct each unit module in the field are calculated by the on-site construction temporary plan linkage unit 61 take the configuration In the on-site construction process temporary plan link step S53, on-site construction work plan information for the process sequence of constructing each unit module on-site is calculated by the on-site construction process temporary plan linkage unit 63 .

* Explanation of symbols for the main parts of the drawing *
10; unit module extraction unit
20; statement classification department
30; BIM and Statement Linkage Department
40; monitoring department
50; database
60: on-site construction linkage
70: system communication unit
80: temporary facility communication terminal unit
90: field communication department

Claims (11)

In the system for managing the factory production procedure of modular buildings and on-site construction procedures and on-site construction of modular buildings,
a unit module extraction unit 10 for loading the BIM model of the modular building, journaling the loaded BIM model for each unit module, and grouping each journaled unit module by type;
A statement classification unit (20) that loads the statement of the modular building provided by the designer of the modular building, classifies the loaded statement by type, and divides it into a factory production statement and a field production statement necessary for the factory production procedure and the on-site production procedure;
The unit module grouped by type from the unit module extracting unit 10 and the factory production statement and field production statement classified by the statement classification unit 20 are delivered, and the modular required in the factory production procedure and the field production procedure BIM and statement linkage unit 30 for calculating the quantity and detail information of the unit modules constituting the building, and calculating detailed work type information for each work type according to the calculated quantity and detail information;
a monitoring unit 40 that lists the quantity and detail information and detailed work type information calculated by the BIM and statement link unit 30, and displays the real-time work status of the work type on the display means when the list is selected;
Temporary facility BIM library and interference element BIM library for the modular building, the field construction process table of the modular building provided by the designer of the modular building, and the unit module grouped by type from the unit module extraction unit 10 and the statement classification unit 20 ), the on-site construction linkage unit (60) that calculates on-site construction plan information including on-site construction temporary plans and on-site construction joint plans for constructing each unit module on-site using the factory production statement and on-site production portion statement (60) to
On-site construction support system of a modular building, characterized in that it comprises.
The method of claim 1,
The BIM model used by the unit module extraction unit 10 is a field construction support system of a modular building, characterized in that it is created by a computer program for BIM design that designs the BIM.
The method of claim 1,
The statement information used by the statement classification unit 20 is information stored in the database 50 provided by the designer of the modular structure.
The method of claim 1,
The detailed work type information calculated by the BIM and statement linkage unit 30 is a field construction support system for a modular building, characterized in that it includes work time information, input manpower information, and equipment information.
The method of claim 1,
The monitoring unit 40,
On-site construction support system for a modular building, characterized in that it is possible to capture important matters in the real-time monitoring work situation by work type, and provides it to the worker of the corresponding work and the work station for each process to support quality management.
The method of claim 1,
The monitoring unit 40,
Provide a user interface screen, but in the left area (A) of the user interface screen, the quantity of unit modules constituting the modular building required in the factory production procedure and the field production procedure calculated by the BIM and statement linkage unit 30 and Details information and detailed work information for each work type are displayed,
In the central area (B) of the user interface screen, the real-time work situation of the corresponding work type provided by the monitoring unit 40 is displayed,
On-site construction support system of a modular building, characterized in that the selection menu of the overall factory production status is displayed in the right area (C) of the user interface screen.
The method of claim 1,
The on-site construction linkage unit 60 includes:
Temporary facility BIM library and interference element BIM library for the modular building, the field construction process table of the modular building provided by the designer of the modular building, and the unit module grouped by type from the unit module extraction unit 10 and the statement classification unit 20 ), using the statement of factory production and the statement of on-site production,
A site construction temporary plan linking unit 61 for calculating site temporary facility type information and site temporary facility location information for on-site temporary facilities used to construct each unit module in the field;
On-site construction support system for a modular building, characterized in that it comprises a site construction process temporary plan link unit 63 for calculating on-site construction work plan information for the process sequence of constructing each unit module on-site.
In the management method performed by the system for managing the factory production procedure of the modular building and the on-site construction procedure of the modular building,
A unit module extraction step (S1) of loading the BIM model of the modular building (S11), journaling the loaded BIM model for each unit module (S12), and grouping each journaled unit module by type (S13);
A statement of loading the statement of the modular building provided by the designer of the modular building (S21), classifying the loaded statement by type, and dividing it into a statement of factory production and a statement of on-site production required for the factory production procedure and on-site production procedure (S22) classification step (S2);
In the unit module extraction step (S1), the unit module grouped by type and the factory production statement and field production statement classified in the statement classification step (S2) are delivered (S31), and the received unit module and factory production sequence BIM and statement linkage step of calculating the quantity and detail information of unit modules constituting the modular building required in the field production procedure (S32), and calculating detailed work type information for each work type according to the calculated quantity and detail information (S33) (S3);
A monitoring step of listing the quantity, detail information, and detailed work type information calculated in the BIM and statement linkage step (S3) (S41), and displaying the real-time work status of the work type on the display means when the list is selected (S42) (S4);
Temporary facility BIM library and interference element BIM library for the modular building, the field construction process table of the modular building provided by the designer of the modular building, and the unit module grouped by type from the unit module extraction unit 10 and the statement classification unit 20 ), the site construction plan information including the on-site construction temporary plan and on-site construction joint plan for constructing each unit module on-site using the factory production statement and on-site statement On-site construction linkage step (S5)
On-site construction support system control method of a modular building, characterized in that it comprises a.
According to claim 8, wherein the monitoring step (S4),
An on-site construction support system control method for a modular building, characterized in that it is possible to capture important matters in the real-time monitoring work situation for each work type, and provides it to the worker of the corresponding work and the work station for each process to support quality management.
10. The method of claim 9, wherein the on-site construction link step (S5),
Temporary facility BIM library and interference element BIM library for the modular building, the field construction process table of the modular building provided by the designer of the modular building, and the unit module grouped by type from the unit module extraction unit 10 and the statement classification unit 20 ), using the statement of factory production and the statement of on-site production,
A site construction temporary plan link step (S51) in which on-site temporary facility type information and on-site temporary facility location information for the site temporary facility used to construct each unit module in the field are calculated by the site construction temporary plan link unit 61;
The on-site construction support system control method of a modular building, characterized in that the on-site construction work plan information for the process sequence of constructing each unit module on-site is calculated by the on-site construction process hypothesis planning link unit 63.
A storage medium readable by a computer in which a computer program for performing the control method of the on-site construction support system of the modular building of any one of claims 9 or 10 is recorded.

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