KR20130054739A - System and method for managing electronic draft of vessel design - Google Patents

Abstract

PURPOSE: A vessel design electronic drawing management system and a method thereof are provided to group and manage parts included in a vessel design drawing with a systematic and systemized method and to supply a convenience function which inquiries parts of a specific group corresponding to necessity of a worker or designates a desired attribute. CONSTITUTION: A 3D vessel design performance unit(110) makes a 3D vessel design electronic drawing through 3D modeling for a vessel. A 3D-2D electronic drawing conversion unit(120) converts the 3D vessel design electronic drawing into a 2D vessel design electronic drawing and generates the 2D vessel design electronic drawing. A graphic attribute connection unit(130) generates data packets which define an identification number field, a layer field, and a graphic attribute field for 3D parts included in the 3D vessel design electronic drawing. The graphic attribute connection unit assigns an indexing number to a data packet. The graphic attribute connection stores the data packets in a layer attribute table by mapping the data packets and identification numbers of 2D parts. [Reference numerals] (110) 3D vessel design performance unit; (120) 3D-2D electronic drawing conversion unit; (130) Graphic attribute connection unit; (140) Layer attribute table; (150) 3D-2D design conversion connection unit

Description

Ship design electronic drawing management system and method {SYSTEM AND METHOD FOR MANAGING ELECTRONIC DRAFT OF VESSEL DESIGN}

The present invention relates to a ship design technology, and more particularly to a ship design electronic drawing management system and method.

Ship design in the shipbuilding industry is a task that must simultaneously carry out complex modeling in various fields such as hull structure, design work model, pipe model, and facility model.

The CAD (Computer Aided Design) program for ship design work creates 3D design drawings by performing 3D modeling on the ships to be built, and then reprocesses the 3D design drawings into 2D design drawings that can be utilized by workers in the field. It is usually implemented in such a way.

As such, the ship is an integrated structure including various types and a large number of parts, and the computer aided design (CAD) program for ship design is a system that requires complex modeling due to the characteristics of the ship, which is an integrated structure.

Therefore, various drawing expressions should be possible according to the design detail of the ship, and intuitive drawing expression functions of various methods are required according to the conditions of the modeling and drawing environment of the ship.

However, in the related art, only parts of the ship design drawings can be distinguished by fragmentary and uniform standards, and there is a problem that satisfactory levels of intuitive and systematic classification rules or group expressions are insufficient.

In addition, in the case of the conventional CAD program for ship design, after reworking the 2D design drawing from the 3D design drawing, it is difficult to be compatible with each other. There is a problem that must be manually reflected on each 2D design drawing.

Korea Patent Registration No. 10-0911501

The present invention has been proposed in order to solve the problems of the prior art as described above, the object of which is to manage and group the parts included in the ship design drawings in a more systematic and systematic manner, according to the needs of the operator It is to provide a ship design electronic drawing management system and method that can provide convenience functions such as searching parts separately or specifying desired properties.

Another object of the present invention is to increase the compatibility between the 3D design drawings and 2D design drawings, if the design changes occur in any one type of ship design electronic drawing management system that can be reflected easily and accurately in the remaining drawings and To provide a way.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are not to be construed as limiting the invention as defined by the appended art. It will be possible.

Ship design electronic drawing management system according to the present invention, 3D ship design performing unit for creating a 3D ship design electronic drawing through the 3D modeling of the vessel; A 3D-2D electronic drawing conversion unit generating one or more 2D ship design electronic drawings by converting the 3D modeled ship design electronic drawing created by the 3D ship design performing unit into 2D; For each of the 3D parts included in the 3D modeled ship design electronic drawing, data packets defining an identification number field, a layer field, and a graphic attribute field are generated, and an indexing number is assigned to each data packet. A graphic property linking unit which maps the identification numbers of the 2D parts included in the ship design electronic drawing and stores them as a layer property table; And if any 3D part is changed in design in the 3D modeled ship design electronic drawing, update the data packet of the design changed 3D part in the layer property table, and index the index number of the design changed 3D part from the layer property table. And a 3D-2D design transformation linkage unit that reflects a design change of a target 2D part in the 2D ship design electronic drawing in response to the searched indexing number.

The ship design electronic drawing management method according to the present invention comprises the steps of creating a 3D ship design electronic drawing through the system 3D modeling of the ship; The system converting the 3D modeled ship design electronic drawing to 2D to generate one or more 2D ship design electronic drawings; The system generates data packets defining an identification number field, a layer field, and a graphic attribute field for each of the 3D parts included in the 3D modeled ship design electronic drawing, and assigns an index number to each data packet, thereby assigning the data packet. Mapping them to identification numbers of 2D parts included in the 2D ship design electronic drawing and storing the same in a layer property table; And if any 3D part is design changed in the 3D modeled ship design electronic drawing, the system updates the data packet of the design changed 3D part in the layer property table, and from the layer property table Retrieving an indexing number and reflecting a design change of a target 2D part in the 2D ship design electronic drawing corresponding to the retrieved indexing number.

According to the ship design electronic drawing management system and method of the present invention, the parts included in the ship design drawings are grouped and managed in a more systematic and systemized manner, according to the needs of the operator to look up the parts of a specific group separately or desired properties A convenience function such as designation can be provided.

In addition, by increasing the compatibility between the 3D design drawings and the 2D design drawings, if a design change occurs in any one kind of drawings can be easily and accurately reflected in the remaining drawings.

1 is a block diagram of a ship design electronic drawing management system according to an embodiment of the present invention.
2 is a flow chart of a ship design electronic drawing management method according to an embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail a ship design electronic drawing management system and method according to a preferred embodiment of the present invention.

1 is a block diagram of a ship design electronic drawing management system according to an embodiment of the present invention.

Referring to FIG. 1, a ship design electronic drawing management system according to an embodiment of the present invention may include a 3D ship design performing unit 110, a 3D-2D electronic drawing conversion unit 120, a graphic attribute interlocking unit 130, and a layer. An attribute table 140 and a 3D-2D design transformation linkage 150.

The 3D ship design performing unit 110 creates a 3D ship design electronic drawing through 3D modeling of the ship. To this end, the 3D ship design execution unit 110 provides a drawing creation screen such as a CAD program for ship design so that an operator can give / enter basic information about the design of a specific ship, and use the corresponding information By performing 3D modeling of the ship, a 3D ship design electronic drawing is produced.

The 3D-2D electronic drawing converter 120 converts the 3D modeled ship design electronic drawing created by the 3D ship design performing unit 110 into 2D to generate one or more 2D ship design electronic drawings. The 2D ship design electronic drawing generated by the 3D-2D electronic drawing converting unit 120 is a drawing of a manufacturing drawing, an installation drawing, etc. for use by the worker in the field.

The graphic property interlocking unit 130 generates data packets defining an identification number field, a layer field, and a graphic property field for each of the 3D parts included in the 3D modeled ship design electronic drawing through the 3D ship design execution unit 110. do. Indexing numbers are assigned to each data packet, and the data packets are mapped to identification numbers of 2D parts included in the 2D ship design electronic drawing and stored in the layer attribute table 140.

The 3D parts included in the 3D modeled ship design electronic drawing are grouped in layers, and graphic properties are set for each layer.

To this end, the graphic property interlocking unit 130 defines a layer class (a specific range of layers) or layers that can be commonly used in 3D modeled ship design electronic drawings and 2D ship design electronic drawings, and parts The application rules of the layer can be set according to the type of these. In this case, the graphic property interlocking unit 130 may automatically define a default layer of the corresponding part upon generation of a new part according to the application rule of the set layer. Alternatively, within the scope of the layer class in which the worker is defined, the layers of each part can be defined in detail.

In addition, the graphic property interlocking unit 130 may add / remove a specific part, or change the color, style, transparency, You can change graphical properties such as Hide.

When any 3D part is changed in the 3D modeled ship design electronic drawing, the 3D-2D design conversion linkage unit 150 updates the data packet of the changed design 3D part in the layer property table 140, and the layer property table After retrieving the indexing number of the changed 3D part from 140, the design change of the target 2D part is reflected in the 2D ship design electronic drawing corresponding to the retrieved indexing number.

In addition, when an arbitrary 2D part is changed in the 2D ship design electronic drawing, the 3D-2D design transformation linkage unit 150 updates the data packet of the 2D part that has been changed in the layer attribute table 140 and the layer attribute is changed. After retrieving the indexing number of the modified 2D part from the table 140, the design change of the target 3D part is reflected in the 3D modeled ship design electronic drawing corresponding to the retrieved indexing number.

2 is a flow chart of a ship design electronic drawing management method according to an embodiment of the present invention.

First, the operator performs 3D modeling of the vessel through the 3D vessel design performing unit 110 of the vessel design electronic drawing management system to create a 3D vessel design electronic drawing (S110).

Next, the graphic property interlocking unit 130 designates a layer of each of the 3D parts included in the 3D modeled ship design electronic drawing and groups the 3D parts in layer units (S120). In addition, for each of the layers of the 3D modeled ship design electronic drawing, graphic properties are set and stored for each layer (S130).

Next, the 3D-2D electronic drawing converting unit 120 converts the 3D modeled ship design electronic drawing to 2D to generate one or more 2D ship design electronic drawings to be provided to the workers in the field (S140).

Next, the graphic property interlocking unit 130 defines data for the identification number field, the layer field, and the graphic property field for each of the 3D parts included in the 3D modeled ship design electronic drawing through the 3D ship design execution unit 110. Generate packets. Then, by assigning an index number to each data packet, the corresponding data packets are mapped to identification numbers of 2D parts included in the 2D ship design electronic drawing and stored in the layer attribute table 140 (S150).

Subsequently, when any 3D part is changed in design in the 3D modeled ship design electronic drawing (S160), the 3D-2D design transformation linkage unit 150 updates the data packet of the 3D part that has been changed in the layer property table 140. (S170). After retrieving the indexing number of the 3D part that has been changed from the layer property table 140, the design change of the target 2D part is reflected in the 2D ship design electronic drawing corresponding to the retrieved indexing number (S180).

Similarly, if any 2D part is changed in design in the 2D ship design electronic drawing (S160), the 3D-2D design conversion interlocking unit 150 updates the data packet of the 2D part changed in design in the layer attribute table 140. (S170). After retrieving the indexing number of the 2D part that has been changed from the layer property table 140, the design change of the target 3D part is reflected in the 3D modeled ship design electronic drawing corresponding to the retrieved indexing number (S180).

As such, grouping of the corresponding parts may be performed by designating a layer class or a layer for the parts included in the 3D modeled ship design electronic drawing and the 2D ship design electronic drawing.

In addition, data packets defining fields such as an identification number, a layer, and a graphic property are generated for the parts in the electronic drawing, and indexing numbers are assigned to each data packet so that 3D / 2D parts can be interoperated with each other. By implementing 140), if a design change occurs in either of the 3D / 2D ship design electronic drawings, it can be easily and accurately reflected automatically in the remaining drawings.

Configuration of the ship design electronic drawing management system and method according to the present invention is not limited to the above-described embodiment can be carried out in various modifications within the scope of the technical idea of the present invention.

110: 3D Ship Design Execution Unit
120: 3D-2D electronic drawing converter
130: graphic property linkage
140: layer property table
150: 3D-2D design transformation linkage

Claims (4)

3D vessel design execution unit for creating a 3D vessel design electronic drawing through the 3D modeling of the vessel;
A 3D-2D electronic drawing conversion unit generating one or more 2D ship design electronic drawings by converting the 3D modeled ship design electronic drawing created by the 3D ship design performing unit into 2D;
For each of the 3D parts included in the 3D modeled ship design electronic drawing, data packets defining an identification number field, a layer field, and a graphic attribute field are generated, and an indexing number is assigned to each data packet. A graphic property linking unit which maps the identification numbers of the 2D parts included in the ship design electronic drawing and stores them as a layer property table; And
If any 3D part is changed in the 3D modeled ship design electronic drawing, the data packet of the changed design 3D part is updated in the layer property table, and the indexing number of the changed design 3D part is retrieved from the layer property table. And a 3D-2D design conversion linkage unit reflecting a design change of a target 2D part in the 2D ship design electronic drawing corresponding to the retrieved indexing number.
The method of claim 1, wherein the 3D-2D design conversion linkage,
If any 2D part is changed in the 2D ship design electronic drawing, the data packet of the changed design 2D part is updated in the layer property table, and the indexing number of the designed changed 2D part is retrieved from the layer property table. Ship design electronic drawing management system, characterized in that for reflecting the design change of the target 3D part in the 3D modeled ship design electronic drawing corresponding to the retrieved indexing number.
The system creating a 3D ship design electronic drawing through 3D modeling of the ship;
The system converting the 3D modeled ship design electronic drawing to 2D to generate one or more 2D ship design electronic drawings;
The system generates data packets defining an identification number field, a layer field, and a graphic attribute field for each of the 3D parts included in the 3D modeled ship design electronic drawing, and assigns an index number to each data packet, thereby assigning the data packet. Mapping them to identification numbers of 2D parts included in the 2D ship design electronic drawing and storing the same in a layer property table; And
If any 3D part is modified in the 3D modeled ship design electronic drawing, the system updates the data packet of the changed design 3D part in the layer property table and indexes the designed changed 3D part from the layer property table. And retrieving a design change of a target 2D part in the 2D ship design electronic drawing in response to the retrieved indexing number.
The method of claim 3,
If any 2D part is changed in the 2D ship design electronic drawing, the data packet of the changed design 2D part is updated in the layer property table, and the indexing number of the designed changed 2D part is retrieved from the layer property table. And reflecting a design change of a target 3D part in the 3D modeled ship design electronic drawing corresponding to the retrieved indexing number.

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