KR20240071067A - Gusset Plate 3D Modeling Automation Program - Google Patents

Abstract

The present invention relates to an automation program that identifies the gusset plate of a ship by type and automatically and accurately models it at the corresponding location during the 3D modeling process when designing a ship.
The purpose of the present invention is to provide a program that identifies gusset plates by type and automatically models them at the corresponding location when modeling a design drawing of a ship into a 3D drawing.
In order to achieve the above object, the gusset plate 3D modeling automation program of the present invention includes the steps of selecting the type of gusset plate to be designed; Inputting values of the thickness of the gusset plate and the angle between the ship structure and the gusset plate according to the selected gusset plate type; calculating the length of the gusset plate using the input value; Characterized in that performing a step of automatically 3D modeling the gusset plate using the input value of the thickness of the gusset plate, the angle between the ship structure and the gusset plate, and the calculated length of the gusset plate.

Description

Gusset Plate 3D Modeling Automation Program {Gusset Plate 3D Modeling Automation Program}

The present invention relates to an automation program for gusset plate modeling, and more specifically, to an automation program that identifies gusset plates by type and automatically and accurately models them at the corresponding location.

The ship design process includes basic design, detailed design, and production design. The design process is carried out sequentially and is largely divided into hull design and outfit design.

The basic design process is generally the drawings required for estimate design and construction. Based on the main performance of the ship determined at the stage before detailed design, specification of the hull structure, main engine in the engine room, arrangement of various equipment, piping system diagram, arrangement of electrical devices, arrangement of deck equipment, navigation equipment, accommodation facilities, etc. It is a decision-making process.

The detailed design process is a process of creating actual construction drawings required for ship construction. The results of the basic design are described in detail on the drawings for each subpart, and overall performance calculations focusing on ship calculations and detailed design of the hull structure are performed. am.

The production design process is the stage of designing complete drawings and detailed drawings for processing members based on the results of detailed design. This is a process in which production information (processing information, work order, method, work drawings showing connection and dimensions of members, etc., detailed attachment drawings of various mechanical equipment, etc.) required for workers and machine operations is accurately derived by focusing on workability and economy. .

The gusset plate modeling program of the present invention is included in the production design process.

Ships are equipped with several reinforcement materials to respond to external forces or stresses. Gusset plate is one of the reinforcing materials used in ships and refers to a steel plate for connecting reinforcement added to the joint of a welded structure.

Conventionally, in the process of modeling the gusset plate portion in a 3D drawing during design, the designer temporarily placed the basic model in a ship design CAD program and then adjusted it by manually moving and rotating it to ensure it was placed in the correct position. When designers manually 3D model gusset plates, it took approximately 10 to 30 minutes per gusset plate point, which resulted in excessive design time. In addition, errors often occurred during the modeling process, which lowered design quality and increased risk of errors. There was a problem of loss due to rework.

The purpose of the present invention is to provide a program that identifies gusset plates by type and automatically models them at the corresponding location when modeling a ship's design drawing as a 3D drawing, thereby enabling standardized modeling automation, improving accuracy, and improving accuracy of the drawing. Malfunctions are prevented and modeling time is reduced.

In order to achieve the above object, according to one embodiment of the present invention, the present invention provides a gusset plate 3D modeling automation program, comprising the steps of selecting a type of gusset plate to be designed; Inputting values of the thickness of the gusset plate and the angle between the ship structure and the gusset plate according to the selected gusset plate type; calculating the length of the gusset plate using the input value; Automatically performing 3D modeling of the gusset plate using the thickness of the gusset plate, the angle between the ship structure and the gusset plate, and the calculated length of the gusset plate.

In the step of selecting the type of gusset plate to be designed, when the designer selects the type of gusset plate, the feature further includes displaying a drawing of the selected gusset plate among drawings of gusset plates pre-stored for each type. .

In the step of calculating the length of the gusset plate, a node is created in the structure of the ship where the gusset plate is to be created, a line segment is created at each node based on the angle of the input gusset plate, and an intersection point at which the created line segment is orthogonal It is characterized by finding, calculating the length from each node to the intersection, storing the calculated length as the length of the gusset plate, and 3D modeling the gusset plate using the calculated value.

As described above, according to the present invention, the type of gusset plate can be selected within the gusset plate 3D modeling automation program, and when specifications appropriate for the type are input, the remaining specifications and dimensions required to design the gusset plate are calculated within the program and the current 3D modeling is performed automatically according to the production design situation. Through this, tasks that had previously been done manually are eliminated, reducing modeling time, increasing work accuracy, and preventing drawing errors.

Figure 1 is a flowchart showing the 3D modeling operation of a gusset plate 3D modeling automation program.
Figure 2 is a diagram showing a screen on which a gusset plate 3D modeling automation program is executed.
FIGS. 3A and 3B are diagrams illustrating a process in which a gusset plate 3D modeling automation program calculates the length of a gusset plate to be designed using values input by a designer.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the attached drawings. The embodiments described below may be modified into various other forms, and the scope of the present invention is not limited to the embodiments described in detail below. The embodiments of the present invention are intended to more completely explain the present invention to those skilled in the art.

The present invention relates to an automated program for modeling a ship's gusset plate during the design process using a ship's CAD program.

First, Figure 1 is a flowchart showing the 3D modeling operation of the gusset plate 3D modeling automation program according to an embodiment of the present invention.

The operation of the gusset plate 3D modeling automation program according to an embodiment of the present invention will be described with reference to FIG. 1.

As shown in FIG. 1, the gusset plate 3D modeling automation program according to an embodiment of the present invention performs a step (S110) in which the type of gusset plate to be designed is selected by the designer.

Figure 2 is a diagram showing a screen on which a gusset plate 3D modeling automation program is executed.

As shown in FIG. 2, the designer can select the type of gusset plate to be designed in the gusset plate 3D modeling automation program 200 (210).

For example, the gusset plate 3D model automation program according to an embodiment of the present invention provides RPA, RPB, RPC, RPC_2, RPD_1, RPD_2, RPD_3, and RPD_4 as types of gusset plates that can be designed.

As shown in Figure 2, the step of selecting the type of gusset plate to be designed according to an embodiment of the present invention is when the designer selects the type of gusset plate, the selected gusset plate drawings are pre-stored for each type. It further includes displaying (220) a drawing of the gusset plate.

For example, if a designer selects the RPA type as the type of gusset plate to be designed, the drawing of the RPA type gusset plate is displayed in the gusset plate 3D modeling automation program.

Next, as shown in FIG. 2, the gusset plate 3D modeling automation program according to an embodiment of the present invention determines the thickness of the gusset plate, which is a basic specification, and the thickness of the ship structure and the gusset plate according to the gusset plate type selected by the designer. A step (S120) in which the angle value is input is performed.

For example, when the gusset plate drawing of the RPA type selected by the designer is displayed in the gusset plate 3D modeling automation program, the designer can specify the thickness of the gusset plate and the thickness of the ship structure and the gusset plate, which are the basic specifications required to design the gusset plate of the corresponding RPA type. You can directly enter the angle value (230).

Next, the gusset plate 3D modeling automation program according to an embodiment of the present invention performs a step (S130) of calculating the length of the gusset plate using the input value.

Figure 3 is a diagram illustrating a process in which a gusset plate 3D modeling automation program calculates the length of a gusset plate to be designed using values input by a designer.

In the step of calculating the length of the gusset plate using the value input by the designer, the gusset plate 3D modeling automation program according to an embodiment of the present invention creates a node in the structure of the ship where the gusset plate is to be created.

The gusset plate 3D modeling automation program according to an embodiment of the present invention creates line segments starting from each node based on the angle of the input gusset plate, and finds an intersection where the generated line segments are orthogonal.

The gusset plate 3D modeling automation program according to an embodiment of the present invention calculates the length from each node to the intersection and stores the calculated length as the length of the gusset plate.

Next, the gusset plate 3D modeling automation program according to an embodiment of the present invention is a gusset plate calculated using the thickness of the gusset plate input by the designer, the value of the angle between the ship structure and the gusset plate, and the input value. A step (S140) of automatically 3D modeling the gusset plate is performed using the length of .

In this way, standardized modeling automation is possible by automatically 3D modeling the gusset plate using the 3D modeling automation program of the gusset plate of the present invention, which improves accuracy, prevents malfunctions in drawings, and reduces modeling time. .

The gusset plate 3D modeling automation program of the present invention is not limited to the above-described embodiments, and can be implemented with various modifications within the scope permitted by the technical idea of the present invention. The embodiments disclosed in the present invention are not intended to limit the technical idea of the present invention, but are for explanation, and the technical idea of the present invention is not limited by these embodiments. The scope of protection of the present invention shall be interpreted in accordance with the claims below, and all technical matters within the equivalent scope shall be construed as being included in the scope of rights of the present invention.

S110: Step where gusset plate is selected
S120: Step in which the values of the thickness of the gusset plate and the angle between the ship structure and the gusset plate are input.
S130: Calculating the specifications of the gusset plate
S140: Steps to 3D model the gusset plate
200: Gusset plate 3D modeling program
210: Select gusset plate type
220: Drawing of selected gusset plate
230: Enter specifications of selected gusset plate

Claims (3)

In the gusset plate 3D modeling automation program,
A step in which the type of gusset plate to be designed is selected by the designer;
Inputting values of the thickness of the gusset plate and the angle between the ship structure and the gusset plate by a designer according to the type of the selected gusset plate;
calculating the length of the gusset plate using the input value;
Values of the thickness of the gusset plate and the angle between the ship structure and the gusset plate input by the designer;
A gusset plate 3D modeling automation program, characterized in that automatically performing 3D modeling of the gusset plate using the length of the gusset plate calculated using the input value. According to paragraph 1,
The steps for choosing the type of gusset plate to design are:
Once the designer selects the type of gusset plate:
A gusset plate 3D modeling automation program further comprising displaying a drawing of the selected gusset plate among drawings of gusset plates pre-stored for each type. According to paragraph 1,
The step of calculating the length of the gusset plate is,
Create a node on the ship's structure where a 3D modeled gusset plate will be created,
Create a line segment at each node based on the angle of the input gusset plate,
Find the intersection point where the generated line segments are orthogonal,
A gusset plate 3D modeling automation program further comprising calculating the length from each node to the intersection and storing the calculated length as the length of the gusset plate.