KR102187710B1 - Collaboration System For Production During Process of Vessel's Construction Based Lightweight Model - Google Patents

Abstract

The present invention relates to a collaboration system for the production of a lightweight model-based shipbuilding process, and the collaboration system visualizes a 3D production model using a CAD system, a legacy system, a lightweight model processing system, and a viewer engine, and simplifies and provides drawings. 3D visualization and drawing minimization unit, DM system for integrated management of 3D modeling and production information for realizing a virtual digital shipyard, mobile collaboration system for displaying models and drawings in a mobile environment, providing production information, and visualizing digital shipyards By providing a collaboration environment that uses this collaboration system in the production department, it is possible to quickly inquire/confirm 3D shapes, 2D drawings and material information necessary for the production process, and use the model shape created in the design for production. By visualizing and expressing with appropriate information, unnecessary drawings can be eliminated, and drawing information can be minimized to reduce design load and increase production satisfaction.

Description

Collaboration System For Production During Process of Vessel's Construction Based Lightweight Model}

The present invention is a lightweight 3D model with software and model-related tools so that the production department can quickly search/confirm in real-time information such as blocks, 3D shapes required for work, 2D drawings and material information according to the user's job role. Data format (format), for example, by using Siemens' JT (Jupiter Toolkit), and functionally, user-oriented collaboration functions and convenience functions such as design review, document attachment, and markup for collaboration between design and production By linking the field and “model-drawing-material (BOM)” information, it is possible to quickly access a variety of information necessary for production to establish a collaborative environment between each department, and use the model shape created in the design to build the hull and piping. The present invention relates to a collaboration system for the production of a lightweight model-based shipbuilding process that can reduce unnecessary drawings and simplify drawing information by creating and visualizing information necessary for model production, reducing design load and increasing production satisfaction.

In general, in order to build ships and offshore structures, business design (design stage) is started according to the type (merchant ship, special ship, etc.) and size (displacement) of the ship that has been ordered (estimation stage), and the ship schedule plan (production Step) is established.

Once the business design is established, a detailed design is made and a purchase schedule is established accordingly, and a reference plan is established to link with the purchase schedule again.

When such detailed design and standard plans are established, production design required for production and execution plans required for production are established for each department and process, so that purchase materials are received and production is executed.

The ship design result is managed based on the bill of material (BOM), but the BOM structure used in shipyards expresses the same information in different structures for each design stage and business field, so information from ship construction to procurement (delivery) Is difficult to be integrated and managed.

When building a ship, the ship is divided into blocks and manufactured by itself or through outsourcing of a manufacturing partner. As disclosed in [Document 1], a method of linking the production design schedule and the production schedule of a ship is disclosed. According to the above literature, the production design schedule reflecting the production plan is established by linking the drawing work schedule of the design and the block production schedule of production to each other, and the production department can know the operation status of the design.

However, there was no collaboration system to support the production department by establishing a collaborative environment in which the hull and equipment production departments could quickly search and check real-time information on blocks according to the process, 3D shapes required for work, 2D drawings and material information.

As described above, in the prior art including the prior literature described above, the cooperation environment between the design department and the production department is insufficient, so the design model is somewhat heavy to use the 3D shape required in the production operation, and members/Assy/Block/PE blocks, etc. Configuration information is not provided, management of standard air is difficult, engineering information of the ship is scattered in several places, prevention of production errors due to design errors is insufficient, and pre-planning is delayed due to lack of quantity/time number information. there is a problem.

[Document 1] Korean Patent Laid-Open Patent No. 10-2005-0082919 (published on August 24, 2005)

The present invention has been conceived to solve the above problems, and an object of the present invention is an object of one aspect of the present invention is for each block according to the process in the hull and design production department, 3D shapes required for work, 2D drawings and materials By establishing a collaborative environment that allows quick real-time inquiry/checking of information, etc., and visualizing and providing information necessary for production by utilizing the model shape created in the design, unnecessary drawings are reduced and drawing information is simplified to reduce design load and reduce production. It is to provide a collaboration system for model-based ship design and production that can increase satisfaction.

Another object of the present invention is to provide a collaboration system for model-based ship design and production that provides an integrated production support environment to utilize a consistent 3D lightweight model from design to production.

Another object of the present invention is a model-based ship that provides optimized design/production information for each task, and enables the production department to quickly search/confirm the 3D shape, 2D drawings and material information required for each block according to the process and work. It is to provide a collaboration system for design and production.

The collaboration system for model-based ship design and production according to the embodiment of the present invention as described above is a collaboration system for supporting light-weight model-based production work for establishing a collaborative environment by linking the design department and the hull and design production departments. In this case, the collaboration system, CAD system for managing CAD drawings for design; Legacy system for managing old CAD drawings used in previous ship designs; Performs a series of processing processes for generating a lightweight model using the CAD drawing and old CAD drawing information provided from the CAD system and legacy system, and generating a PMI for providing product production information linked to the lightweight model. Lightweight model processing system; And a 3D visualization and drawing minimization unit that visualizes a 3D production model using a viewer engine and simplifies and provides a drawing.

The lightweight model processing system provides order drawings in a lightweight model converter, converted lightweight model, PMI generator, batch algorithm, JT'-PMI that connects and processes lightweight model and production management information (PMI) information, and server-client environment. It characterized in that it comprises a 3D PDF generator for generating DoD (Drawing-On-Demand) (SC) and 3D PDF.

The lightweight model converter generates a lightweight model using the design CAD drawing and the old design drawing information, and the lightweight model manages the generated lightweight model and provides it to the production management information (PMI) generator and the DM system. do.

The PMI generator is characterized in that it collects and processes product production-related information from a legacy system and a batch algorithm, and then provides it to JT'-PMI.

The JT'-PMI connects the lightweight model and production management information (PMI) and provides the result to the DoD (SC), 3D visualization and drawing minimization unit, 3D PDF generator, and mobile collaboration system, respectively. do.

The 3D visualization and drawing minimization unit provides 3D visualization and drawing minimization information through a user interface (UI) module, and such drawing information is a custom viewer linked to the BOM, design review, mounting interference inspection, computational visualization, installation visualization, and process. It characterized in that it includes visualization, labeling, and assembly sequence.

The 3D PDF Generator provides drawing information obtained by simply converting 3D CAD data into 3D PDF, and such drawing information includes a pipe SPOOL drawing and a component assembly.

The collaboration system for supporting production work based on the lightweight model is a DM system that integrates 3D modeling and production information to implement a virtual digital shipyard, displays models and drawings in a mobile environment, provides production information, and provides digital shipyards. It characterized in that it further comprises a mobile collaboration system for visualization.

The DM system receives information applying vBOM Tree and labeling from a lightweight model to a lightweight model, and receives transmission line, stage information, block and transmission tree, and labeling information from the legacy system, and integrates product modeling and production information based on this information. / It is characterized by providing information related to management.

The mobile collaboration system provides information related to model/drawing viewer, production information inquiry, and digital shipyard that can be applied in a mobile environment.

A collaboration system for model-based ship design and production according to another embodiment of the present invention includes: a CAD system for generating and processing CAD drawing data for design; A production management information (PMI) generator that generates production management information (PMI) for providing product production information linked to the lightweight model and provides it to the collaboration system database; In addition to generating a lightweight model using design CAD drawing data input from the CAD system and old CAD drawing data provided from a legacy database, product production information linked to the generated lightweight model is generated in a production management information (PMI) generator. A lightweight model converter for receiving input, labeling the lightweight model, attaching the production management information (PMI), and performing a series of processing processes for storing in a collaboration system database; A collaboration system database for receiving and storing lightweight model data to which labeling and production management information (PMI) are attached from the lightweight model converter; A legacy database that stores and manages old CAD drawing data used in previous ship design and provides it to the collaboration system database; A web service device for connecting the collaboration system database to a data processing device of a design department and a data processing device of a production department by a web service; A 3D model application that provides 3D model data and processing, a management application including a user role management tool, an announcement management tool, an application and log report tool, and a dynamic menu management tool, and a personal setting database, BOM ( Bil Of Material) characterized in that it is configured to include an application framework including an application framework including a viewer application and a dynamic menu application.

The 3D model application provides 3D model data and processing to the design department data processing device, the production department data processing device, and the collaboration system database through a web service device, and interference inspection applications such as 3D model viewer, clearance and check, and simulation applications. And it is comprised of visualization applications.

The management application provides and processes management data to the design department data processing device, the production department data processing device, and the collaboration system database through the web service device.

The BOM (Bil Of Material) viewer application includes a 3D model viewer means for displaying a 3D model shape on a monitor based on 3D data for each production block generated by a CAD system; A clearance check means for checking interference when the 3D model is assembled to neighboring blocks based on the 3D data generated for each production block; 3D model simulation means for simulating production blocks based on 3D data for each production block; It consists of a process visualization means that visualizes the production process for each production block and displays it on a monitor.

The collaboration system database stores the lightweight model system data combined with the lightweight model and labeling and production management information (PMI), and provides it to the 3D model application of the application framework to store the 3D model data generated by the 3D model viewer. , The interference detection data generated by the interference detection application is stored, the simulation data generated by the simulation application is stored, and the visualization data generated by the visualization application is provided through the web service device and stored.

The user interface of the collaboration system is displayed on the user computer of the design department or the production department, and the monitor of the mobile terminal, and a notice display unit that displays notices between cooperation departments, links to other websites and personal homepages. By using the 3D model application menu that displays a menu for selecting a 3D model application consisting of sub, Outlook schedule display unit, 3D model viewer, interference test application, simulation application, and visualization application, the 3D model application selected by the user from the 3D model application menu A 3D model display unit that displays the processed 3D model image, a dynamic menu display unit for each role that displays the dynamic menu for each role played by the user, an external application program display unit that displays the contents processed by an embedded external application program, It consists of a BOM-Tree display that displays the hierarchical structure of the material list (BOM).

As described above, according to the present invention, 3D shapes, 2D drawings, and self information required for the production process can be quickly inquired/confirmed, and unnecessary drawings can be displayed by visualizing and expressing information suitable for production using the model shape generated in the design. It is possible to reduce design load and increase production satisfaction by minimizing drawing information.

1 is a block diagram of a collaboration system for the production of a lightweight model-based shipbuilding process according to the present invention.
2 is a view showing the data architecture of a collaboration system for the production of a lightweight model-based shipbuilding process according to the present invention.
3 is a diagram showing a data process of a collaborative system for the production of a shipbuilding process based on a lightweight model according to the present invention.
4 is a block diagram of an inter-departmental collaboration system for the production of a lightweight model-based ship building process according to the present invention.
5A is a block diagram showing a detailed structure of a 3D model application of an application framework according to the present invention.
5B is a block diagram showing a detailed structure of a BOM viewer of an application framework according to the present invention.
6 is a view showing a user interface of a collaboration system for the production of a lightweight model-based ship building process according to the present invention.
7A is a flowchart showing a flow chart for providing a work environment for each user role provided by the inter-departmental collaboration system for the production of a ship building process based on a lightweight model according to the present invention.
Figure 7b is an example of a user role (Role) provided in the inter-departmental collaboration system for the production of a lightweight model-based ship building process according to the present invention.
8A to 8D illustrate an embodiment showing a management tool of a collaboration system for the production of a lightweight model-based ship building process according to the present invention.

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

As can be seen in FIG. 1, a collaboration system (hereinafter, a collaboration system 10) for the production of a light-weight model-based ship building process according to the present invention establishes a collaboration environment in connection with the design department and the hull and equipment production department. The design department plays a role of constructing a design CAD drawing for ship construction in the collaboration system 10, and the hull and equipment production department receives information provided by the collaboration system 10 and can apply it to production work.

The collaboration system for this purpose (10) uses the CAD system (11) that manages CAD drawings for design, the Legacy system (12) that manages the old CAD drawings used in the previous ship design, and the design CAD drawing and the old CAD drawing information. A lightweight model processing system (13) that performs a series of processing processes that generate PMI (Production Management Information) to provide product production information linked to the lightweight model in addition to creating a lightweight model, and 3D production using a viewer engine 3D visualization and drawing minimization unit (14) that visualizes models and simplifies drawings, and DM (Digital Manufacturing) system (15) that integrates and manages 3D modeling and production information to implement a virtual digital shipyard, in a mobile environment It includes a Mobile Collaboration System 16 for displaying models and drawings, providing production information, and visualizing a digital shipyard.

2 is a diagram showing a data architecture of a collaboration system for the production of a lightweight model-based ship building process according to the present invention.

The CAD system 11 provides design CAD drawings, and the Legacy system 12 has a production process drawing/BOM, and 3D visualization and drawing minimization unit 14 for material/schedule/performance/transmission/drawing/worker related information. ).

The lightweight model processing system 13 is a lightweight model converter (for example, JT (Jupiter Toolkit) Translator), a converted lightweight model (for example, Jimes' JT (Jupiter Toolkit)), and a production management information (PMI) generator. , Batch algorithm, JT'-PMI that connects and processes lightweight models and production management information (PMI), DoD (Drawing-On-Demand) (SC) that provides custom drawings in server-client environments, and 3D PDF creation Equipped with a 3D PDF Generator (Generator) for.

A lightweight model converter (e.g., Jimes' JT (Jupiter Toolkit) Translator) creates a lightweight model using the design CAD drawing and old design drawing information, and creates a lightweight model (e.g., Siemens' JT (Jupiter Toolkit) )) manages the generated lightweight model and provides it to the production management information (PMI) generator and the DM system (15, DMS). The production management information (PMI) generator collects and processes product production-related information from the legacy system and batch algorithm, and provides it to JT'-PMI. JT'-PMI connects a lightweight model (e.g., Siemens' JT (Jupiter Toolkit)) and production management information (PMI) and converts the result into DoD (SC), 3D visualization and drawing minimization (14), 3D PDF It provides to the generator (Generator) and the mobile collaboration system 16, respectively.

The 3D visualization and drawing minimization unit 14 provides 3D visualization and drawing minimization information through a user interface (UI) module, and such drawing information is a custom viewer linked to the bill of material (BOM), design review, and Mounting interference inspection, computational visualization, installation visualization, process visualization, labeling, assembly sequence, etc.

The 3D PDF Generator provides drawing information obtained by easily converting 3D CAD data into 3D PDF, such as pipe SPOOL drawings and Component Ass'y.

The DM system (15, DMS) is provided with information by applying vBOM Tree and labeling to a lightweight model from a lightweight model (for example, Jimes' JT (Jupiter Toolkit)), and receiving transmission line, stage information, block and transmission line information from the legacy system. Tree, labeling information is provided. The DM system 15 (DMS) provides information related to product modeling and production information integration/management based on the provided information.

The mobile collaboration system 16 provides information related to a model/drawing viewer, production information inquiry, and digital shipyard that can be applied in a mobile environment.

3 is a diagram showing a data process of a collaborative system for the production of a shipbuilding process based on a lightweight model according to the present invention.

The overall data process of the lightweight model-based collaboration system 10 is largely divided into Project Connector, vBOM-Translator, JT(PMI)-Translator, and Upload.

Project Connector extracts element information from CAD (model), Legacy DB, and SAP (drawing), respectively. It separates from CAD (model) into coordinates, shape, and data extraction, and transfers the shape and data extracted attributes to vBOM-Translator, respectively. Also, BLK Tree, STAGE, etc. are transferred from Legacy DB to vBOM-Translator. Provides BOM and schedule information in SAP (drawing).

vBOM-Translator generates E-BOM Parsing (structural model, production model) and M-BOM Parsing (production model) by pre-processing based on each element received, and delivers it to JT (PMI)-Translator, and JT (PMI) -Translator applies color to PMI (LABEL) for E-BOM Parsing and PMI (LABEL) for M-BOM Parsing, and Item Create (structure information) and E for PMI (LABEL) corresponding to E-BOM. -BOM Create(scripts) is created to establish the E-BOM system of the Upload Collaboration System DB (e.g., Siemens' TC (Teamcenter)), and BLK Mono-JT (shape information) is created, and then Upload File Server Save it to.

Also, by creating Item Create (structure information) and M-BOM Create (scripts) for PMI (LABEL) corresponding to M-BOM, the M-BOM system of the Upload Collaboration System DB (e.g. Siemens' TC (Teamcenter)) PANEL-JT/SPOOL-JT (minimizing drawings) and BLK Mono-JT (installation visualization) generated by sequential processing in Per-Part JT (shape information) and PMI (DIM, SYMB) are uploaded. After saving to File Sever, the lightweight model extracted from this File Sever can be visualized on the screen indicated by properties, M-BOM system, E-BOM system, schedule, and BOM. In addition, after creating DM-JT' from File Server Provided to DMS. Mobile and 3D-PDF are linked to a collaboration system DB (eg, Siemens' TC (Teamcenter)).

According to the present invention as described above, a variety of information for performing a production process operation may be provided by connecting to the collaboration system 10 in the hull and equipment production department. Through this, process visualization linked to Bill of Material (BOM), assembly (production) process/interference verification, virtual field verification in digital environment, minimizing drawing information, linking information between design information and 3D model, lead time through production schedule data In addition, difficult processes, workers and equipment allocation can be optimized.

Meanwhile, in the present invention, it is possible to implement a computer-readable code on a computer-readable recording medium. The computer-readable recording medium includes all types of recording devices that store data that can be read by a computer system.

In addition, the computer-readable recording medium can be distributed over a computer system connected through a network, and stored and executed as computer-readable codes in a distributed manner.

4 is a block diagram of an inter-departmental collaboration system for the production of a lightweight model-based ship building process according to the present invention.

The inter-departmental collaboration system (hereinafter, inter-departmental collaboration system, 20) for the production of the lightweight model-based ship building process according to the present invention is linked with the design department data processing device 30 and the hull and design production department data processing device 40 Thus, geometric information of ship products, information related to product design and production are stored in the collaboration system database 24, and a collaboration environment is established in which each department can access and obtain information when necessary.

The design department data processing device 30 plays a role of constructing information necessary for design, such as two-dimensional and three-dimensional design CAD drawings for ship construction, in the inter-departmental collaboration system 20, and the data processing device of the hull and design production department ( 40) is provided with information on the production process, such as the 3D solid model, the length, volume, weight, and center of gravity of the welding field, provided from the collaboration system database 23 of the inter-departmental collaboration system 20 and applied to the production work. I can.

The inter-departmental collaboration system 20 includes a CAD system 21 for generating and processing CAD drawing data for design; A PMI generator 23 that generates PMI (Production Management Information) for providing product production information linked to the lightweight model and provides it to the collaboration system database 24; Product production information linked to the generated lightweight model while generating a lightweight model using design CAD drawing data input from the CAD system 21 and old CAD drawing data provided from a legacy database 25 A lightweight model converter 22 that receives input from the PMI generator 23, labels the lightweight model, attaches the PMI (product production management information), and performs a series of processing processes to store it in the collaboration system database 24 Wow; A collaboration system database 24 for receiving and storing lightweight model data to which labeling and PMI (product production management information) are attached from the lightweight model converter 22; A legacy database 25 that stores and manages old CAD drawing data used in the previous ship design and provides it to the collaboration system database 24; A web service device 26 connecting the collaboration system database 24 to the design department data processing device 30 and the production department data processing device 40 by a web service; A 3D model application (27a) that provides 3D model data and processing, a management application (27b) including a user role management tool, an announcement management tool, an application and log report tool, and a dynamic menu management tool, It is configured to include an application framework 27 including a personal setting database 27c, a bill of material (BOM) viewer application 27d, and a dynamic menu application 27e.

Here, the 3D model application 27a provides 3D model data and processing to the design department data processing device 30, the production department data processing device 40, and the collaboration system database 24 through the web service device 26, It includes a 3D model viewer, interference inspection application such as clearance and check, a simulation application, and a visualization application.

The 3D model application 27a includes a 3D visualization application that visualizes a 3D production model using a 3D model viewer engine and simplifies and provides drawings, a drawing minimization unit, a simulation application, and 3D modeling to implement a virtual digital shipyard. can do.

The management application 27b provides and processes management data to the design department data processing device 30, the production department data processing device 40, and the collaboration system database 24 through the web service device 26.

The personal setting database 27c provides personal setting data to the design department data processing device 30, the production department data processing device 40, and the collaboration system database 24 through the web service device 26 and processed data. Save it.

The design department data processing device 30 serves to build a design CAD drawing for ship construction in the collaboration system 20, and includes a plurality of personal computers and server computers constituting the design department, and the web service It is a data processing device such as a computer that reads and processes design-related data of the lightweight model from the collaboration system database 24 through the device 26 and stores it in the collaboration system database 24.

The production department data processing device 40 receives information provided by the collaboration system 20 and applies it to production work, and includes a plurality of personal computers and server computers constituting the hull and design production departments, and the web It is a data processing device such as a computer that reads the design-related data of the lightweight model from the collaboration system database 24 through the service device 26, applies it to the production process, and stores the applied data in the collaboration system database 24.

The CAD system 21 generates and processes CAD drawing data for design and provides it to the lightweight model converter 22, and the Legacy database 25 has production process drawings/BOMs, and materials/schedule/performance/transmission/drawings /Provides worker-related information to the collaboration system database (24).

Lightweight model converter (e.g., Jimes' JT (Jupiter Toolkit) Translator) (22) uses the design CAD drawing provided by the CAD system 21 and the old design and production drawing information to provide a lightweight model (e.g., Creates Jimes' JT (Jupiter Toolkit)), and adds Labeling Meta information provided by the PMI generator 23 to the created lightweight model (eg, Jimes' JT (Jupiter Toolkit)) Thus, the lightweight model data combined with labeling and production management information (PMI) is provided to the collaboration system database 24 and stored.

The production management information (PMI) generator 23 combines production management information (PMI, drawing information) with the combined information of the lightweight model and labeling output from the lightweight model converter 22 and provides it to the collaboration system database 24. .

The collaboration system database 24 stores the lightweight model system data combined with the lightweight model and labeling and production management information (PMI), and provides it to the 3D model application 27a of the application framework 27 by a 3D model viewer. The generated 3D model data is stored, the interference detection data generated by the interference detection application is stored, the simulation data generated by the simulation application is stored, and the visualization data generated by the visualization application is transferred to the web service device 26 It is provided through and stored.

FIG. 5A shows a detailed structure of a 3D model application of an application framework according to the present invention, and FIG. 5B shows a detailed structure of a BOM viewer of an application framework according to the present invention.

The 3D model application 27a of the application framework 27 according to the present invention includes a 3D model viewer means 271 for displaying a 3D model shape on a monitor based on 3D data for each production block generated by the CAD system 21; A clearance check means 272 for checking interference when the 3D model is assembled to neighboring blocks based on the 3D data generated for each production block; 3D model simulation means 273 for simulating production blocks based on 3D data for each production block; It is configured to include a process visualization means 274 for visualizing the production process for each production block and displaying it on a monitor.

The BOM viewer 27d of the application framework 27 according to the present invention displays the material item in the shape of a 3D model on the monitor when a material item corresponding to the user's role is clicked on the material list (BOM). A custom viewer 275; A design review (276) displaying the external design of the material item on a monitor; A mounting interference test (277) for checking interference with a neighboring block when mounted on a neighboring block of the material item; An installation diagram visualization (278) for visualizing the installation state of the material item and displaying it on a monitor; A process visualization (279) for visualizing the production process of the material item and displaying it on a monitor; An assembly flow 230 for displaying the assembly process of the material item on the monitor; And a pipe spool drawing viewer 231 that displays the pipe spool of the corresponding material item on a monitor.

Therefore, according to the present invention, 3D shape and 2D CAD data can be checked in the corresponding item of the material list by linking the 3D shape to the 2D CAD data and the material list (BOM). You can search, search and filter 2D CAD data.

6 is a view showing a user interface of a collaboration system for the production of a lightweight model-based ship building process according to the present invention.

The user interface according to the present invention is displayed on the monitor of the user computer or mobile terminal of the design department or production department, and a notice display unit (①) that displays notices between cooperation departments, other websites, personal homepages, etc. Link linkage unit (②), Outlook schedule display unit (③), 3D model viewer, interference detection application, simulation application, visualization application, etc. 3D model display unit (⑤) that displays 3D model images processed by the 3D model application selected in the 3D model application menu (④), dynamic menu display unit by role (⑤) that displays dynamic menus for each role played by the user, and embeds The external application display unit (⑥) that displays the contents processed by the (emmbed) external application program, and the BOM-Tree display unit (⑦) that displays the hierarchical structure of the bill of material (BOM). It consists of a Right Panel display (⑧) that lists and displays design information and production information by item, and a Bottom Panel display (⑨) that displays material list (BOM) information.

7A is a flowchart showing a flow chart for providing work environments for each user role provided by the inter-departmental collaboration system for the production of a light-weight model-based ship building process according to the present invention, and FIG. 7B shows a light-weight model-based ship according to the present invention. An example of the user role provided by the inter-departmental collaboration system for the production of the drying process is shown.

Execute AD check (Is it the user's PC?) in step S1, and if it is the user's own PC (Personal Computer), proceed to step S2 to execute automatic login and determine whether the user has multiple roles in step S5. do.

If it is not the user's personal computer (PC) as a result of the determination in step S1, the company proceeds to step S3 and executes enterprise portal account authentication to enter the ID and password, and proceeds to step S4 to check if it is a valid account, and if valid, proceed to step S5. Proceed, and if not valid, repeat step S3.

As a result of the determination of step S5, if a plurality of roles is provided, one role is selected from among the plurality of roles, and if the determination of step S5 does not have a plurality of roles, immediately step S7. Proceed to to proceed to, prepare the work environment provision for each role and initialize the system.

In step S8, information related to the 3D model application assigned to the role is received from the collaboration system database 23, and the process proceeds to step S9 to provide the assigned 3D model application to the user's data processing device.

In addition, in step S10, external application program information allocated to a role is received from the collaboration system database 23, and a dynamic menu is constructed in step S11, and an execution environment of the external application program is provided in step S12.

As described above, a work environment is provided for each user's role, so that a 3D lightweight model can be used from design to production by a collaboration system for the production of a ship building process based on a lightweight model according to the present invention.

8A to 8D illustrate an embodiment showing a management tool of a collaboration system for the production of a lightweight model-based ship building process according to the present invention.

As shown in Fig. 8A, when the role of the user changes as the design and production process proceeds, the role management tool lists up the changed roles and provides a 3D model application provided according to the user's role. Change.

As shown in Fig. 8B, the notice management tool selects and registers the role of the target to be notified, so that all users who play the registered role at each set time (for example, 5 minutes) are set. Automatically notify notices within time.

As shown in FIG. 8C, the application, log, and report tool may display a bar graph visually expressing the use frequency and the use rate for each application.

The dynamic menu management tool is designed to be as shown in Fig. 8D.

As described above, although a preferred embodiment of the present invention has been described, the present invention is not limited to a specific preferred embodiment, and the present invention is not departing from the gist of the present invention claimed in the claims. Anyone with the knowledge of, of course, various modifications can be implemented, and such modifications may be included within the technical scope of the claims.

10: Collaborative system for the production of lightweight model-based shipbuilding processes
11: CAD system
12: Legacy system
13: Lightweight model processing system
14: 3D visualization and drawing minimization section
15: DM system
16: mobile collaborative processing system
20: collaboration system between departments 21: CAD system
22: lightweight model converter 23: PMI generator
24: Collaborative system database 25: Legacy database
26: web service device 27: application framework

Claims (16)

In a collaboration system for the production of a lightweight model-based shipbuilding process to establish a collaborative environment by linking the design department and the hull and design production department,
The collaboration system,
CAD system for managing CAD drawings for design;
Legacy system for managing old CAD drawings used in previous ship designs;
A series of production management information (PMI) for providing product production information linked to the lightweight model as well as creating a lightweight model using design CAD drawings and old CAD drawing information provided from the CAD system and legacy system. A lightweight model processing system that performs a processing process;
Includes; a 3D visualization and drawing minimization unit that visualizes a 3D production model using a viewer engine and simplifies and provides a drawing,
The lightweight model processing system is a lightweight model converter, a converted lightweight model, a production management information (PMI) generator, a batch algorithm, a JT'-PMI that connects and processes the lightweight model and production management information (PMI), in a server-client environment. A collaboration system for the production of a lightweight model-based shipbuilding process, characterized by having a DoD (Drawing-On-Demand) (SC) providing custom drawings and a 3D PDF Generator to generate 3D PDF. delete The method of claim 1,
The lightweight model converter generates a lightweight model using the design CAD drawing and the old design drawing information, and the lightweight model manages the generated lightweight model and provides it to the production management information (PMI) generator and the DM system. A collaboration system for the production of lightweight model-based shipbuilding processes. The method of claim 3,
The production management information (PMI) generator is a collaboration system for the production of a lightweight model-based ship building process, characterized in that after collecting and processing product production-related information from a legacy system and a batch algorithm, respectively, and providing it to JT'-PMI. The method of claim 4,
The JT'-PMI connects lightweight model and production management information (PMI) information, and provides the result to DoD (SC), 3D visualization and drawing minimization unit, 3D PDF generator, and mobile collaboration system, respectively. Collaborative system for the production of lightweight model-based shipbuilding processes. The method of claim 5,
The 3D visualization and drawing minimization unit provides 3D visualization and drawing minimization information through a user interface (UI) module, and such drawing information is a custom viewer linked to the BOM, design review, mounting interference inspection, computational visualization, installation visualization, and process. Collaboration system for the production of a lightweight model-based shipbuilding process, characterized in that it includes visualization, labeling, and assembly sequence. The method of claim 5,
The 3D PDF Generator provides drawing information obtained by simply converting 3D CAD data into 3D PDF. Such drawing information includes a pipe SPOOL drawing and a component assembly. Collaborative system for production. The method of claim 1,
It further includes a DM system for integrated management of 3D modeling and production information for realizing a virtual digital shipyard, and a mobile collaboration system for displaying models and drawings, providing production information, and visualizing digital shipyards in a mobile environment. Collaborative system for the production of lightweight model-based shipbuilding processes. The method of claim 8,
The DM system receives information applying vBOM Tree and labeling from a lightweight model to a lightweight model, and receives transmission line, stage information, block and transmission tree, and labeling information from the legacy system, and integrates product modeling and production information based on this information. / Collaboration system for the production of a lightweight model-based ship building process, characterized in that providing information related to management. The method of claim 8,
The mobile collaboration system is a collaboration system for the production of a lightweight model-based shipbuilding process that provides information related to a model/drawing viewer, a production information inquiry, and a digital shipyard that can be applied in a mobile environment. A CAD system for generating and processing CAD drawing data for design;
A production management information (PMI) generator that generates production management information (PMI) for providing product production information linked to the lightweight model and provides it to the collaboration system database;
The lightweight model is generated by using the design CAD drawing data input from the CAD system and the old CAD drawing data provided from the legacy database, and product production information linked to the generated lightweight model is input from the PMI generator. A lightweight model converter that performs a series of processing processes for labeling and storing the production management information (PMI) in a database of a collaboration system;
A collaboration system database for receiving and storing lightweight model data to which labeling and production management information (PMI) are attached from the lightweight model converter;
A legacy database that stores and manages old CAD drawing data used in previous ship design and provides it to the collaboration system database;
A web service device for connecting the collaboration system database to a data processing device of a design department and a data processing device of a production department by a web service;
A 3D model application that provides 3D model data and processing, a management application including a user role management tool, an announcement management tool, an application and log report tool, and a dynamic menu management tool, and a personal setting database, BOM ( Bil Of Material) A collaborative system for the production of a lightweight model-based shipbuilding process comprising an application framework including an application framework including a viewer application and a dynamic menu application. The method of claim 11,
The 3D model application provides 3D model data and processing to the design department data processing device, the production department data processing device, and the collaboration system database through a web service device, and interference inspection applications such as 3D model viewer, clearance and check, and simulation applications. And a collaboration system for the production of a lightweight model-based shipbuilding process that includes visualization applications. The method of claim 11,
The management application is a collaboration system for the production of a lightweight model-based shipbuilding process that provides and processes management data to a design department data processing device, a production department data processing device, and a collaboration system database through a web service device. The method of claim 11,
The BOM (Bil Of Material) viewer application includes a 3D model viewer means for displaying a 3D model shape on a monitor based on 3D data for each production block generated by a CAD system; A clearance check means for checking interference when the 3D model is assembled to neighboring blocks based on the 3D data generated for each production block; 3D model simulation means for simulating production blocks based on 3D data for each production block; A collaboration system for the production of a lightweight model-based shipbuilding process, which includes a process visualization means that visualizes the production process for each production block and displays it on a monitor. The method of claim 11,
The collaboration system database stores the lightweight model system data combined with the lightweight model and labeling and production management information (PMI), and provides it to the 3D model application of the application framework to store the 3D model data generated by the 3D model viewer. , Lightweight model-based ship construction that stores the interference detection data generated by the interference detection application, stores the simulation data generated by the simulation application, and receives and stores the visualization data generated by the visualization application through a web service device Collaborative system for the production of the process. The method of claim 11,
The user interface of the collaboration system is displayed on the user computer of the design department or the production department, and the monitor of the mobile terminal, and a notice display unit that displays notices between cooperation departments, links to other websites and personal homepages. By using the 3D model application menu that displays a menu for selecting a 3D model application consisting of sub, Outlook schedule display unit, 3D model viewer, interference test application, simulation application, and visualization application, the 3D model application selected by the user from the 3D model application menu A 3D model display unit that displays the processed 3D model image, a dynamic menu display unit for each role that displays the dynamic menu for each role played by the user, an external application program display unit that displays the contents processed by an embedded external application program, A collaboration system for the production of a lightweight model-based shipbuilding process, which includes a BOM-Tree display that displays the hierarchical structure of the material list (BOM).

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