KR20120009237A - Support Modeling & Drawing creation system and method - Google Patents

Abstract

PURPOSE: A supporter modeling and manufacturing floor plan creation system are provided to improve work efficiency by enabling a user to effectively modify a floor pan by using a three dimensional floor plan. CONSTITUTION: A terminal(2) creates three dimensional modeling images and upper deck three dimensional modeling images in order to create a manufacturing floor plan from stored basic information. The terminal creates the three dimensional model of supporter material information. The terminal creates two-dimensional floor plan in the supporter three dimensional modeling. The terminal calculates supply information fro the supporter material information within a work area.

Description

Support Modeling & Drawing creation system and method

The present invention relates to a support modeling system for supporting various equipments installed on the upper deck of a ship, and more particularly, to a supporter for designing and fabricated in various forms according to the type, specification, and installation position of the equipment to be installed. To support the support modeling and automatic drawing system for supporting the design of ship upper deck which can reduce the design variables by manual and provide the speed and accuracy of the supporter installation process produced from such modeling. will be.

In general, various types of equipment such as various support blocks for cargo loading are installed on the upper deck of ships, especially in the case of membrane type LNG carriers, the upper deck is complex and connected to a large number of pipes. To achieve.

Various and complicated equipments installed on the upper deck of the ship are supported on the supporter structure from the upper deck of the ship's outer floor for maintenance convenience such as avoiding interference and maintenance of the equipment from the required position and maintaining a certain height. It is configured to be installed.

The supporter structure must also be prepared in various forms in order to support a large number of diverse and complex designs for the upper deck of the specified standard.

Conventionally, the design work for the supporter for design support installed on the upper deck was made by hand by a 2D design drawing by a field worker.

However, the design drawings made by manual work in such a field should draw the design drawings for the supporter structures in advance without the actual equipment installed, and according to the designer's experience and proficiency, many deviations occur in the actual installation. .

As a result, when manufacturing a supporter from such a design drawing and then installing the supporter and the design on the upper deck, a lot of deviation occurs in the manufactured design unlike the design drawing, and thus, the structural change of the supporter structure is inaccurate. Further work, or the rebuilding of new supporter structures, would incur unexpected work processes and costs.

Moreover, for the supporter structure that needs to be manufactured and installed in various numbers in response to various and complicated equipments, the design drawings produced by the field workers sometimes cause differences in the quantity of the supporter structure that is actually needed, and thus the installation work The process time and cost of the was further increased.

On the other hand, the upper deck of the ship may be provided with a so-called camber (convex) raised convexly toward the center line of the ship, this camber structure further added to the difficulty in the manual design of the supporter installed on the upper deck.

Therefore, the present invention is to solve the conventional problems as described above, the purpose of which is to implement the modeling of the supporter for the support of the equipment installed on the upper deck of the vessel based on the 3D model program, and the location, type of equipment installed from this The present invention provides a supporter modeling and automatic production drawing system for supporting equipment for ship upper deck, which can quickly and accurately obtain design information for manufacturing and installing various supporter structures.

The present invention for achieving the problem as described above and to eliminate the conventional drawback is a DB that stores the basic information of the ship including the hull upper deck 3D model, the equipment 3D model installed on the hull upper deck and equipment material information and supporter material information server; And

The upper deck 3D modeling and the design 3D modeling in the work area for generating the production drawings from the vessel basic information stored in the DB server, and the supporter material information of the installed between the upper deck 3D model information and the design 3D model information And a terminal for generating a 3D model, generating and outputting a 2D drawing in the supporter 3D modeling, and processing the calculated information including quantity information of supporter material information in a work area.

At this time, the DB server, the basic information server of the ship including the hull upper deck 3D model, the equipment 3D model installed on the hull upper deck, equipment material information and supporter material information; And a job storage server in which the information processed by the terminal is newly stored.

On the other hand, the present invention includes the steps of loading the basic information of the ship including the hull upper deck 3D model, the equipment 3D model and the equipment material information installed on the hull upper deck in the DB server; Generating, by the terminal, a supporter 3D model matching the hull upper deck 3D model and the equipment 3D model and the equipment material information generated in the work area from the basic information, from the DB server; Generating, by the terminal, a production drawing for the supporter 3D model generated in the work area; The terminal may calculate the quantity information of the supporter 3D model generated in the work area; and the supporter modeling and production drawings may be achieved by the method as described above.

In this case, the generating of the supporter 3D model may include: a position designating step of designating a coupling part of the hull upper deck and the design on which the supporter is installed; A supporter type designating step of selecting a plurality of type-specific supporter 3D models that can be matched from basic information about the designated hull upper deck and the equipment; A preview generation step of previewing the supporter 3D model when the supporter type is designated; A 3D model checking step of generating an actual supporter 3D model after the final confirmation of the preview generated supporter 3D model; And a supporter material information defining step of defining and storing material and quantity information about the generated supporter 3D model.

From the above means, the present invention provides a design process for carrying out the manufacturing and installation of the supporter structure that was manually performed by a field worker by using a 3D drawing generation program to quickly and accurately implement modeling and production drawings and quantity calculation. In addition, it is possible to reduce the structural change by predicting the structural change of the supporter caused by interference with other parts in advance, and it is possible to have a flexible design process that actively accepts the requirements of ship owners or design variables that may occur in actual work. Easy modification in the design process has the advantage of improving the work efficiency of the user to produce modeling and manufacturing drawings.

In addition, the present invention reduces the defective rate of parts and installation process caused by the design error, regardless of work experience in the manufacture and installation of the supporter, and automatically generates accurate quantity information for the installation material to reduce the surplus material in the production site Accordingly, it is an invention that can greatly contribute to reducing the work maneuver in the actual ship building process by supplying a quantitative amount of water in a timely manner.

1 is an exemplary view of a supporter modeling and production drawing automatic generation system according to an embodiment of the present invention
2 and 3 is a flow chart showing a supporter modeling and automatic production drawing production method according to an embodiment of the present invention
Figure 4 is an exemplary view showing a state of loading the upper deck 3D model and the design 3D model basic information according to the present invention
5 to 8 are exemplary views showing supporter 3D models for each type that can be matched from basic information on a sieve deck and a garment according to the present invention.

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

The supporter modeling and production drawing automatic generation system according to the present invention supports a design installed on the upper deck of the hull based on the 3D CAD program, a 3D drawing generation program, 3D model generation of the supporter structure for fixing to the hull, and the supporter structure It is to provide a production drawing of the production and calculation of accurate quantity information of the supporter.

That is, referring to FIG. 1, the supporter modeling and production drawing automatic generation system according to an embodiment of the present invention includes a DB server 1 and a terminal 2.

The DB server 1 includes a basic information server 11 and a work storage server 12.

The basic information server 11, the hull upper deck 3D model, and the 3D model of the equipment to be installed on the hull upper deck is stored in advance, specifically, the upper deck structural information according to the type of the vessel, the material for each type of various equipment to be installed correspondingly The basic information of the ship including the information is stored.

The work storage server 12 is used to store newly acquired information processed by the terminal 2 from the basic information.

The terminal 2 retrieves basic information from the basic information server 11, defines a working area for generating a production drawing by applying the imported basic information, and the 3D modeling and design of the upper deck 3 in the working area. 4) Generate 3D modeling, generate a 3D model of the supporter (5) installed between the generated upper deck (3) 3D model information and the design (4) 3D model information, the generated supporter (5) It generates and outputs 2D drawings in 3D modeling and calculates quantity information about supporter material information in the work area. (See FIGS. 5-8)

The supporter 3D model, the 2D production drawing, and the supporter quantity information in the work area generated by the terminal 2 are stored in the work storage server 12 and may be output and used as necessary.

Hereinafter, the supporter modeling and production drawing automatic generation method using the supporter modeling and production drawing automatic generation system according to the present invention will be described.

1 to 3, the supporter modeling and production drawing automatic method for supporting the design of the ship upper deck according to an embodiment of the present invention is first installed on the hull upper deck 3D model and the hull upper deck in the DB server (1) Retrieve the basic information of the ship including equipment 3D model and equipment material information. (S10) step

Subsequently, the terminal 2 searches for the supporter 3D model that is matched based on the hull upper deck 3D model and the design 3D model and the design material information generated in the work area from the basic information, from the DB server 1. As shown in FIG. 3, the supporter 3D model is generated. (S20) step

Thereafter, the terminal 2 generates a 2D production drawing for the supporter 3D model generated in the work area (S30).

At the same time, the terminal 2 calculates quantity information about the supporter 3D model generated in the work area. (S40) step

In step (20), that is, generating the actual supporter 3D model may include a positioning step S201, a supporter type designation step S202, a preview generation step S203, a 3D model checking step S204, and a supporter. Material information defining step (S205) is included.

Positioning step (S201) is to designate the place where the supporter is installed, if the installation position for the hull upper deck 3 and the outfit 4 is matched with the basic information of the specified hull upper deck 3 and the outfit (4) A supporter 3D model is generated from the supporter 5 material information.

The supporter type designation step (S202) allows the user to designate the supporter 3D model from the supporter 3D models for each type that can be matched after the installation place is designated. This allows a selective design that takes into account ambient interference or exceptions by the owner's order.

In the preview generation step (S203), when the location and type of the supporter 3D model are determined at the corresponding installation location, the preview generation step (S203) is performed before the final model generation through the preview. Of course, in such a situation, it is possible to correct the return to the supporter type designation step S202 and the position designation step S201.

3D model confirmation step (S204) checks the generated supporter 3D model through the above-described steps and after the final confirmation that there are no modifications are stored in the server for work storage 12.

The supporter material information defining step S205 defines the material information and the quantity information of the supporter 3D models generated in the work area through the above-described steps and stores them in the work storage server 12.

The supporter material information corresponds to unit parts such as frames, brackets, and fastening members constituting the supporter in consideration of the manufacturing process, and the quantity information refers to the amount of materials required in the work area including each supporter unit part in consideration of installation work. do.

The information specified in each step described above uses basic information stored in the DB server 1, and the terminal 2 designates and calculates basic information.

2D production drawing for the production and installation of the supporter (5) for supporting the design (4) installed on the hull upper deck (3) using the basic information of the vessel stored in the DB server (1) as described above for the production and installation Easily output the output, reduce the structural change of the supporter due to the surrounding interference during on-site manufacturing and installation work, calculate the exact quantity and work area required, reduce the surplus material that can occur in the field and reduce the production cost accordingly Therefore, it is possible to supply the correct quantity in the right place at the right time and shorten the installation process.

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 in the appended claims and their equivalents. Of course, such modifications are within the scope of the claims.

(1): DB server
(11): Basic Information Server
(12): Work storage server
(2): terminal
(3): hull upper deck
(4): Design
(5): Supporter

Claims (4)

A DB server (1) storing a basic information of a ship including a hull upper deck 3D model, a 3D model of a garment installed on the hull upper deck, and equipment material information and supporter material information; And
The upper deck 3D modeling and the design 3D modeling in the work area for generating the production drawings from the vessel basic information stored in the DB server, and the supporter material information of the installed between the upper deck 3D model information and the design 3D model information And a terminal (2) for generating a 3D model, generating and outputting a 2D drawing in the supporter 3D modeling, and processing the calculated amount information for the supporter material information in the work area. Supporter modeling and production drawing automatic generation system for support. The method of claim 1,
The DB server (1) includes a basic information server (11) of a ship including a hull upper deck 3D model, a 3D model of equipment installed on the hull upper deck, equipment material information and supporter material information; And
Support work modeling and production drawing automatic generation system for supporting the design of the ship upper deck, characterized in that it comprises a; server for storing the work newly processed information from the terminal. Loading basic information of the ship including the hull upper deck 3D model, the outfit 3D model and the outfit material information installed on the hull upper deck in the DB server (S10);
Generating, by the terminal, a supporter 3D model matched based on the hull upper deck 3D model and the equipment 3D model and the equipment material information generated in the work area from the basic information from the DB server (S20);
Generating a production drawing of the supporter 3D model generated in the work area by the terminal (S30); And
And calculating, by the terminal, quantity information on the supporter 3D model generated in the work area (S40). Supporter modeling and production drawing automatic generation method for supporting a design for a ship upper deck, comprising: a. The method of claim 3,
Generating the supporter 3D model (S20), a positioning step (S201) for designating a coupling portion of the hull upper deck and the design on which the supporter is installed;
A supporter type designation step (S202) of selecting a plurality of type-specific supporter 3D models that can be matched from basic information on a specified hull upper deck and design items;
A preview generation step (S203) of generating a preview of the supporter 3D model when the supporter type is designated;
3D model confirmation step (S204) of generating a real supporter 3D model after the final confirmation of the preview generated supporter 3D model, and
Supporter modeling and production drawing automatic generation method for supporting the design of the upper deck of the ship characterized in that it comprises a supporter material information defining step (S205) for defining and storing material and quantity information for the generated supporter 3D model.

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