KR101575721B1 - Apparatus and method for generating digital mock-up - Google Patents

Abstract

The hull and the chair production department can quickly inquire and confirm the blocks, the 3D shapes, 2D drawings and material information required for each block according to the process, and visualize the information necessary for production by utilizing the model shape created in the design A digital mock-up creation technique capable of reducing unnecessary drawings and simplifying drawing information to reduce design load and increase production satisfaction is disclosed. To this end, the digital mock-up generating apparatus according to the present invention includes a data receiving unit for receiving and storing modeling data of a ship designed in a design department and parts of the ship; A display unit for visualizing the modeling data to a user of the production department; And an interface unit for controlling the modeling data to be displayed on the display unit in accordance with the selection of the user.

Description

[0001] APPARATUS AND METHOD FOR GENERATING DIGITAL MOCK-UP [0002]

The present invention enables quick and real-time inquiry and confirmation of blocks, 3D shapes, 2D drawings and material information required for each block according to a process in the hull and equipment production department, and can display information necessary for production And more particularly, to a digital mock-up generating apparatus and method for reducing unnecessary drawings and simplifying drawing information, thereby reducing design load and increasing production satisfaction.

Generally, in order to dry ships and offshore structure, it is necessary to start sales design (design stage) according to the type of ship (quote line, special ship) and size (displacement amount) Step).

Once the sales design is established, detailed design is planned, the purchase schedule is established, and a reference plan is established so that it is linked with the purchase schedule described above.

Once these detailed design and standard plans are established, production plans necessary for production are re-established, and the execution plans necessary for production are established by departments and processes, so that the production is executed in addition to the purchase materials.

Ship design results are managed on the basis of BOM (Bill of Material), but since the BOM structure used in the shipyard expresses the same information in different stages of the design stage and work field, the information from shipbuilding to procurement Is difficult to be integratedly managed.

In shipbuilding, ships are divided into blocks and manufactured either in-house or outsourced by manufacturing partners. As disclosed in [Document 1], a method of linking production schedule and production schedule of a ship is disclosed. According to the above document, the drawing schedule of the design and the block production schedule of the production are linked with each other to establish the production design schedule reflecting the production plan, and the production department can know the operation state of the design.

However, there was no collaborative system to support the production department by establishing a collaborative environment that can quickly inquire and confirm the 3D shapes, 2D drawings and materials information required by the blocks, work drawings, and material information in the production department of the hull and the design department.

In the prior art including the above-described prior art documents, since the collaborative environment between the design department and the production department is insufficient, the design model is somewhat heavy to use the 3D shape necessary for the production operation. It is difficult to manage the standard air, the engineering information of the ship is dispersed in many places, the prevention of the production malfunction due to the design malfunction is insufficient, and the advance planning is delayed due to lack of information on quantity / there is a problem.

[Patent Document 1] Published Korean Patent Application No. 10-2005-0082919 (published on Aug. 24, 2005)

One aspect of the present invention is to construct a collaborative environment that can promptly view / check the 3D shapes, 2D drawings, and material information required for each block, work, and work according to the process in the hull and equipment production department, The present invention provides a collaborative system for the production of a lightweight model-based shipbuilding process capable of reducing unnecessary drawings and simplifying the drawing information by reducing the design load and enhancing the production satisfaction.

In addition, the present invention can replace the conventional physical mock-up, and it is possible to flexibly construct a new design / production information system, thereby securing productivity and technical competitiveness.

According to an aspect of the present invention, there is provided a digital mock-up generating apparatus comprising: a data receiving unit for receiving and storing modeling data of a ship designed in a design department and parts of the ship; A display unit for visualizing the modeling data to a user of the production department; And an interface unit for controlling the modeling data to be displayed on the display unit in accordance with the selection of the user.

At this time, the data receiving unit can receive the modeling data created in the CAD system.

The method may further include a lightweight model generation unit that generates a lightweight model for the ship and parts of the ship to be visualized by the user using the modeling data created in the CAD system.

The lightweight model may further include a lightweight model processing unit for adding the specification information of the designed ship and parts of the ship to the lightweight model to generate a processed lightweight model, wherein the display unit displays the processed lightweight model as modeling data, Can be visualized in response to the selection of "

The authentication unit may determine whether the user is an authenticated user and control the display unit to display modeling data through the display unit when the user is an authenticated user.

In this case, the authentication unit may include a barcode scanner, and may determine whether the user is an authenticated user according to a barcode input of the user.

At this time, the modeling data includes a WSD (Work Sequence Diagram) for the ship and parts of the ship, and the display unit can visualize the WSD in an animation format to the user corresponding to the selection of the user .

At this time, the modeling data may include at least one of dimension information, labeling information, and angle necessary for manufacturing the ship and parts of the ship.

In this case, the interface unit may include an operation recognition sensor that recognizes the operation of the user, and may control to change and output the modeling data visualized on the display unit in response to the operation recognized by the operation recognition sensor .

According to another aspect of the present invention, there is provided a digital mock-up method comprising: receiving and storing modeling data of a ship and components of a ship designed in a design department; Visualizing the modeling data to a user of a production department; And controlling so that modeling data visualized on the display unit corresponding to the selection of the user is changed and output.

At this time, in the receiving and storing step, the modeling data created in the CAD system is received, and the lightweight model for the ship and parts of the ship to be visualized to the user using the modeling data created in the CAD system And a step of generating the second data.

The method of claim 1, further comprising the step of: adding specification information on the designed vessel and parts of the vessel to the lightweight model to generate a processed lightweight model, wherein the visualizing step comprises: It can be visualized corresponding to the user's selection.

In this case, it may further include determining whether the user is an authenticated user, and controlling the modeling data to be visible when the user is an authenticated user.

At this time, in the step of controlling the visualization, it is possible to determine whether or not the user is authenticated using a barcode scanner.

At this time, the modeling data includes a WSD (Work Sequence Diagram) for the ship and parts of the ship, and in the visualizing step, the WSD is visualized to the user in an animation format corresponding to the user's selection can do.

At this time, the modeling data may include at least one of dimension information, labeling information, and angle necessary for manufacturing the ship and parts of the ship.

At this time, in the controlling step, the operation of the user can be recognized using the operation recognition sensor, and the modeling data can be controlled so as to be output in accordance with the recognized operation of the user.

As described above, according to the present invention, it is possible to quickly inquire / check the 3D shape, 2D drawing, and subject information required for the production process, visualize and display unnecessary drawings by using the model shape generated in the design, And minimize the drawing information, thereby reducing the design load and increasing the production satisfaction. Thus, according to the present invention, a model visualization and simulation environment can be established to provide a close collaboration environment between the design department and the production department.

In addition, the present invention proposes a digital mock-up instead of a physical mock-up, so that a new design / production information system can be flexibly constructed to secure productivity and technical competitiveness. Accordingly, the present invention can reduce the manufacturing cost and duration of the physical mock-up. According to the present invention,

In particular, the present invention can provide a digital mock-up prior to assembly and production of a special ship having a small amount of conventional production, thereby establishing a flexible collaborative environment between the design department and the production department.

1 is a block diagram showing a configuration of a digital mock-up production apparatus according to the present invention.
FIG. 2 is a block diagram showing the configuration of a display unit in a digital mock-up growth apparatus according to the present invention in more detail.
3 is a view showing an example of a digital mock-up realized by the digital mock-up production apparatus according to the present invention.
4 is a view for explaining another example of digital mock up realized by the digital mock-up production apparatus according to the present invention.
5 is a flowchart illustrating a digital mock-up method according to the present invention.

The present invention will now be described in detail with reference to the accompanying drawings. Hereinafter, a repeated description, a known function that may obscure the gist of the present invention, and a detailed description of the configuration will be omitted. Embodiments of the present invention are provided to more fully describe the present invention to those skilled in the art. Accordingly, the shapes and sizes of the elements in the drawings and the like can be exaggerated for clarity.

Hereinafter, the configuration and operation of a digital mock-up production apparatus according to an embodiment of the present invention will be described.

1 is a block diagram showing a configuration of a digital mock-up production apparatus according to the present invention. FIG. 2 is a block diagram showing the configuration of a display unit in a digital mock-up growth apparatus according to the present invention in more detail.

1, a digital mock-up production apparatus 100 according to the present invention includes a data receiving unit 110, a lightweight model generating unit 120, a lightweight model processing unit 130, an authentication unit 140, a display unit 150 And an interface unit 160. The interface unit 160 may be an interface unit.

The data receiving unit 110 receives and stores modeling data of a ship designed by a design department and parts of the ship. At this time, the data receiving unit 110 can receive the modeling data created in the CAD system. The data receiving unit 110 may receive the design CAD drawing and the old CAD drawing information together.

The lightweight model generation unit 120 generates a lightweight model for the ship and parts of the ship to be visualized by the user using the modeling data created in the CAD system. At this time, the lightweight model generation unit 120 can generate the lightweight model using the design CAD drawing and the old CAD drawing information.

The lightweight model processing unit 130 adds the specification information of the ship and the parts of the ship to the lightweight model to generate a processed lightweight model.

The authentication unit 140 determines whether the user is an authorized user and controls the display unit 150 to display modeling data through the display unit when the user is an authenticated user. At this time, the authentication unit 140 includes a barcode scanner, and can determine whether the user is an authenticated user according to the barcode input of the user. In addition, a barcode scanner can be used to recognize an operator's pass or to look up drawings (with bar codes, etc.).

The display unit 150 visualizes the modeling data to the user of the production department. At this time, the modeling data visualized through the display unit 150 may be a lightweight model generated through the lightweight model generation unit 120 and the lightweight model processing unit 130.

2, the display unit 150 may include a model display unit 151, a detailed information display unit 152, and a WSD display unit 153. [ The model display unit 151 may separately store data on the outline and interconnection relationship of the designed ship and parts of the ship, and display the data to the user. The detailed information display unit 152 stores data on at least one of dimension information, labeling information, and angle of the designed ship and parts of the ship, and can visualize the information according to a user's selection. The WSD display unit 153 stores a WSD (Work Sequence Diagram) for assembling and manufacturing procedures of the ship and parts of the ship, and can visualize the WSD in an animation format to the user in response to a user's selection.

In addition, the display unit 150 provides 3D visualization and drawing minimization information through a UI module, such as a custom viewer associated with the BOM, design review, mounting interference inspection, computerized visualization, installation visualization, process visualization, labeling , Assembly sequence, and the like. In addition, the information thereof can be converted and supplied to the user as a file in PDF format.

The interface unit 160 controls the modeling data to be displayed on the display unit 150 in accordance with the user's selection. The interface unit 160 includes an operation recognition sensor for recognizing the operation of the user and controls the display unit 150 to visualize the modeling data corresponding to the operation recognized by the operation recognition sensor . Through this, it is possible to review the model using the motion recognition sensor or to use other information so that the operator can easily input (considering the operator who mainly uses gloves).

Hereinafter, an example of a digital mock-up realized by the digital mock-up production apparatus according to the present invention will be described.

3 is a view showing an example of a digital mock-up realized by the digital mock-up production apparatus according to the present invention. 4 is a view for explaining another example of digital mock up realized by the digital mock-up production apparatus according to the present invention.

Referring to FIG. 3, a 3D DMU (a) is displayed and provided so that a DMU can perform a function in place of a PMU utilized in production of a ship. At the top of the screen (b), the task bar necessary for the operation of the program can be displayed. In addition, on the left side (e) of the screen, an assembly tree of a portion to be displayed is provided, thereby facilitating access to upper and lower assemblies. The BOM information of the DMU is displayed at the lower end (d) of the screen, and the member attribute information for the model is displayed at the right screen (c). Accordingly, information such as member names, diameters, angles, dimensions, and the like are directly expressed on the model so that information necessary for production can be intuitively understood even when viewed from a model. Referring to FIG. 4, the pages opened by the operator are listed on the left navigation panel and linked to the intra-company network system (messenger, notice). When the operator selects a block, the corresponding block is displayed. Then, after selecting the work line, the operator selects the left V button (1) and executes the design review (10) by the subordinate execution button below. In accordance with the subordinate button (3) / Block / system (30). When the 'W' button 2 on the right side is selected, the WSD 20 can be displayed.

Hereinafter, a digital mock-up method according to the present invention will be described.

5 is a flowchart illustrating a digital mock-up method according to the present invention. The digital mock-up production method according to the present invention is related to the operation of the digital mock-up production apparatus according to Fig. 1, and the same technical idea is shared, so that a duplicate description will be omitted.

Referring to FIG. 5, a digital mock-up method according to the present invention first receives and stores modeling data of a ship designed in a design department and parts of the ship (S110). At this time, in step S110, the modeling data created in the CAD system can be received.

Then, a lightweight model for the ship and parts of the ship to be visualized to the user is created using the modeling data created in the CAD system (S120).

After that, specification information on the designed ship and parts of the ship are added to the lightweight model to generate a processed lightweight model (S130).

Then, it is determined whether the user is an authenticated user (S140).

If it is determined in step S140 that the user is an authenticated user, the processed lightweight model may be visualized as the modeling data in response to the user's selection (S150).

Through the digital mock up technique according to the present invention, a collaborative environment is established in cooperation with the design department, the hull and the chair production department. The design department is responsible for building the design CAD drawings for the ship building in the collaboration system, and the hull and the chair production department can be applied to the production work by receiving the information provided by the collaboration system.

Meanwhile, the present invention can be embodied as computer-readable code on a computer-readable recording medium. A computer-readable recording medium includes all kinds of recording apparatuses in which data that can be read by a computer system is stored.

The computer readable recording medium may also be distributed over a networked computer system and stored and executed as computer readable code in a distributed manner.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

100; Digital Mock-up Production Equipment
110; Data receiving section
120; Lightweight model generation unit
130; Lightweight model machining part
140; Authentication unit
150; Display portion
160; The interface unit

Claims (17)

A data receiving unit for receiving and storing modeling data of a ship designed by a design department and parts of the ship;
A lightweight model generating unit for receiving the modeling data from the data receiving unit and lightening the lightweight model to generate a lightweight model for the ship and parts of the ship;
A lightweight model processing unit that receives the lightweight model from the lightweight model generation unit and adds specification information about the ship and the parts of the ship to generate a processed lightweight model;
A display unit that receives the processed lightweight model from the lightweight model processing unit and visualizes the processed lightweight model to a user of the production unit; And
And an interface unit configured to control the lightweight model to be changed and output so as to be displayed on the display unit corresponding to the selection of the user,
The interface unit may include a screen for displaying the processed lightweight model with a WSD (Work Sequence Diagram) for assembling and manufacturing the parts of the ship and the ship, a screen for displaying an assembly tree of the processed lightweight model, And a screen for displaying member attribute information for the machining lightweight model are visualized at the same time. The method according to claim 1,
Wherein the data receiving unit receives the modeling data created in the CAD system. delete The method according to claim 1,
Wherein the display unit visualizes the machining lightweight model as modeling data corresponding to the user's selection. The method according to claim 1,
Further comprising an authentication unit for determining whether the user is an authorized user and controlling the display unit to display modeling data through the display unit when the user is an authenticated user. The method of claim 5,
Wherein the authentication unit comprises a barcode scanner and determines whether the user is an authenticated user according to a barcode input of the user. The method according to claim 1,
Wherein the display unit visualizes the WSD in an animation format to the user corresponding to the selection of the user. The method according to claim 1,
Wherein the modeling data includes at least one of dimension information, labeling information, and angle necessary for manufacturing the ship and parts of the ship. The method according to claim 1,
The interface unit includes:
And an operation recognizing sensor for recognizing an operation of the user, wherein the control unit controls the modeling data to be displayed on the display unit in accordance with an operation recognized by the operation recognizing sensor. Receiving and storing modeling data of a ship designed in a design department and parts of the ship;
Generating a lightweight model for the ship and the parts of the ship by weighting the modeling data;
Adding specification information on the ship and parts of the ship to the lightweight model to generate a machining lightweight model;
Visualizing the processed lightweight model stored in the data receiving unit by a display unit to a user of a production department; And
And controlling the display unit to change and output the processed lightweight model that is displayed on the display unit corresponding to the selection of the user,
The visualization may include a display screen displaying the processed lightweight model as a WSD (Work Sequence Diagram) for assembling and manufacturing procedures of the ship and parts of the ship, a screen displaying an assembly tree of the processed lightweight model A screen for displaying the BOM information of the light weight model and a screen for displaying member attribute information for the light weight model are visualized at the same time. The method of claim 10,
Wherein the receiving and storing step receives the modeling data created in the CAD system. The method of claim 11,
Wherein the visualizing step visualizes the processed lightweight model as modeling data corresponding to the user's selection. The method of claim 10,
Further comprising the step of: determining whether the authentication unit authenticates the user, and controlling the modeling data to be visible when the user is an authenticated user. 14. The method of claim 13,
The step of controlling the visualization includes:
And determining whether the user is authenticated using a barcode scanner. The method of claim 10,
Wherein the visualizing step visually displays the WSD in an animation format to the user corresponding to the selection of the user. The method of claim 10,
Wherein the modeling data includes at least one of dimension information, labeling information, and angle necessary for manufacturing the ship and parts of the ship. The method of claim 10,
In the controlling step,
Recognizing the operation of the user by using a motion recognition sensor, and controlling and outputting the modeling data in accordance with the recognized operation of the user.

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