KR20110077481A - Insulation 3d cad modeling, drawing creation and bom extraction automation system in shipbuilding industries - Google Patents

Abstract

PURPOSE: A system and a method for automatically generating the 3D CAD modeling, drawing, and material list of in-ship insulation are provided to supply the fixed quantity of materials at the proper time. CONSTITUTION: A database server(1) stores the basic information of a ship including a basic 3D model and insulation material information. A terminal(2) defines a fire-prevention space within a working area in the ship with the application of the basic information. The terminal performs the 3D insulation modeling of the ship with the application of the basic information and the 3D volume of the fire-prevention space. The terminal outputs the information of the ship in the 3D insulation modeling. The terminal produces material information about the generated 3D insulation model.

Description

INSULATION 3D CAD MODELING, DRAWING CREATION AND BOM EXTRACTION AUTOMATION SYSTEM IN SHIPBUILDING INDUSTRIES}

The present invention relates to a three-dimensional CAD modeling and drawing of the in-ship insulation, and to a system and method for automatically generating a quantity list. More specifically, the vessel design is manufactured by the insulation three-dimensional modeling using the basic information of the vessel stored in the database server. It can prevent malfunction due to interference when modeling equipment such as pipe, duct, duct, cable, etc., and it is possible to reduce the drawing time by automatically marking the insulation symbol from the 3D model on the drawing, and also to accurately 3D CAD modeling and drawing of in-ship insulation, system and method for automatically generating list of quantities, which can automatically generate quantity, working area and weight calculation to reduce surplus material in production site and supply time quantity accordingly. It is about.

In the related art, there was a hassle of applying a quantity list to a drawing produced and manufactured separately to prepare a drawing according to an insulation of a vessel and a quantity list according thereto.

In particular, material information of insulation, which determines various heat dissipation, sound insulation, and heat insulation in working areas requiring fire protection structures such as ship accommodation spaces and engine rooms, is obtained by using SOLAS RULE information. There was a hassle to find and apply one by one. In addition, in order to calculate the quantity, work area and weight information of materials installed in the vessel even if the drawings are applied according to the solar rules, the list was manually made and calculated based on the calculation. Therefore, it is difficult to calculate the quantity, work area, and weight information of a proper material, and a problem frequently arises that an error occurs in the calculation information.

Since working with two-dimensional drawings, there is a hassle of writing material information in the drawings every time a drawing is created. For example, even if a 3D model is created and converted into a 2D drawing, there is a problem in that the information of the material must be described every time since there is no material information in the 2D drawing.

Therefore, there is a problem that it is difficult to timely supply the quantity of the quantity according to the production of the ship due to the production of creeping or error.

The present invention has been made to solve the above problems, by using the basic information of the vessel stored in the database server to design the vessel design insulated three-dimensional modeling, malfunctions due to interference when modeling the design of the equipment such as pie, duct, cable To reduce the drawing time by automatically marking the insulation symbol from the 3D model on the drawing, and to automatically generate accurate quantity, work area and weight calculation of the insulation and related installation materials. The purpose of the present invention is to provide a 3D CAD modeling and drawing of the in-ship insulation that can reduce the surplus material and supply the quantity of quantity in a timely manner.

An object of the present invention is to provide a basic three-dimensional model, and a database server that stores the basic information of the ship, including the insulation (Insulation) material information of heat radiation, sound insulation and insulation; And a fire space 3D volume definition for defining a fire space in a work area by applying basic information, an insulation 3D modeling of a vessel to which the basic information and the fire space 3D volume definition are applied, and an insulation 3D modeling. 3D CAD modeling and drawing of in-ship insulation, comprising: a terminal for processing, including generating a drawing for outputting information of the ship, and calculating quantity information for calculating quantity information for the generated insulation 3D model; This is achieved by a system for automatically generating quantity lists.

The database server may further include: a basic information server including basic three-dimensional models and insulation material information of heat radiation, sound insulation, and thermal insulation; And a job storage server for storing data processed from the terminal.

The basic information server may include the type of ship according to SOLAS RULE, the structural information according to the type of the ship, and the insulation material information of the ship according to the type of the ship.

On the other hand, an object of the present invention, the basic three-dimensional model, the step of retrieving the basic information of the ship including the insulation (insulation) material information of heat dissipation, soundproofing and heat insulation in the database server; and the terminal by applying the basic information in the ship Defining a fire space 3D volume for defining a fire space in the work area; and Insulation 3D modeling of the vessel to which the terminal applied the basic information and the fire space 3D volume definition; And, In the insulation 3D modeling of the terminal A drawing generation step of outputting information of the; And a quantity information calculating step of calculating quantity information on the generated three-dimensional model of the terminal; and is achieved by a three-dimensional CAD modeling and drawing of an in-ship insulation, and a method of automatically generating a quantity list.

In addition, the three-dimensional volume definition step of fire protection space designates a deck level for creating an internal fire space of a ship, a rule type designation for designating a type of a ship to be applied to the fire space, and codes a fire space according to the solar rules. Designating a fire protection code to specify a fire protection code, specifying a fire protection boundary to set a boundary of the fire protection space, customizing a fire protection protection item to automatically designate a fire protection item after automatic recognition of a design program in the fire space, and a shape to be output to the terminal. It can include a representation or shape removal designation.

In addition, the insulation three-dimensional modeling step includes a designation of a fire space for designating a fire space to a basic three-dimensional model, and a fire protection for automatically determining a fire class suitable for a solar rule by automatically recognizing fire space information adjacent to the designated fire space. Automatic determination of grades, designation of three-dimensional hull panels to generate insulation three-dimensional modeling by applying hull panels, and automatic correction and determination of boundaries of insulation by automatically recognizing the intersection of fire space and hull panels. Designation of work zones that assign work zones to the underlying three-dimensional model, automatic recognition of hull members within the boundaries of the insulation, and creation of insulated three-dimensional models that automatically enclose all hull members; It may include the installation-related material information definition for defining the information that the material of the installation is installed.

In the drawing generation step, the drawing view may be retrieved from a database server to automatically display an insulation symbol, a drawing use designation suitable for the intended use, and the information may be retrieved from an insulation three-dimensional model to obtain a line type or Automatic notation, including hatching type, label, fire code, ceiling code, deck covering code, fire door rating, wall panel symbol and inner wall symbol, draft stop symbol, non slip Non Slip) May contain symbols, special lines, and constructions of special hatches.

In addition, the quantity information calculation step includes cutting the insulation three-dimensional model in standard units, pins, washers, rivets, GAL'V sheets, color sheets, perforated sheets, aluminum tapes, T-bars and channel sections. Automatic generation of installation-related material information, including all production-related quantities and weights in the specified block and deck levels, automatic calculation of working area, and insulation and spray types of mold or mineral wool (Mineral Wool, Rock Wool) types. It may include automatic generation of a quantity-specific quantity list of the insulation quantity and the amount of insulation-related quantity of the installation, and storing the generated quantity list in an Excel file.

As described above, the three-dimensional CAD modeling, drawing, and quantity list generation system of the in-ship insulation according to the embodiment of the present invention, by applying the three-dimensional modeling of the insulation in the ship, interference when modeling the equipment such as pie, duct, cable It is possible to prevent a malfunction due to, and to reduce the drawing creation time by automatically marking the insulation symbol in the drawing from the three-dimensional model. In addition, by automatically generating accurate quantities, work area and weight calculation for the insulation and associated installation materials, there is an advantage that can reduce the surplus material in the production site and accordingly supply the quantity of the quantity in a timely manner.

An object of the present invention is to provide a basic three-dimensional model and a database server (1) storing basic information of a ship including insulation material information of heat radiation, sound insulation and insulation; And a fire space 3D volume definition for defining a fire space in a work area by applying basic information, an insulation 3D modeling of a vessel to which the basic information and the fire space 3D volume definition are applied, and an insulation 3D modeling. 3D CAD of in-ship insulation, comprising: a terminal (2) for processing a drawing including outputting information of the ship and generating quantity information for calculating quantity information for the generated insulation three-dimensional model; Modeling and drawing, the quantity list is achieved by the automatic generation system.

The database server 1 further includes: a basic information server 11 including basic three-dimensional models and insulation material information of heat radiation, sound insulation, and thermal insulation; And a job storage server 12 for storing data processed from the terminal.

In addition, the basic information server 11 may include the type of ship according to SOLAS RULE, the structural information according to the type of the ship, and the insulation material information of the ship according to the type of the ship.

On the other hand, an object of the present invention, the step of loading the basic information of the ship including the basic three-dimensional model and insulation material information of heat radiation, sound insulation and insulation in the database server (S10); and, the terminal (2) Fire protection space 3D volume definition step (20) for defining the fire protection space in the work zone in the vessel by applying the basic information; And the insulation of the vessel to which the terminal 2 applied the basic information and the definition of fire space three-dimensional volume A three-dimensional modeling step 30; and a drawing generation step 40 in which the terminal 2 outputs information of the ship in the insulation three-dimensional modeling; And a quantity information calculation step (50) of calculating quantity information on the insulation three-dimensional model generated by the terminal (2); 3D CAD modeling and drawing of the in-ship insulation, and a method of automatically generating a quantity list It is also achieved by

In addition, the fire space three-dimensional volume definition step 20 includes a deck level designation for creating an internal fire space of a ship, a rule type designation for designating a type of a ship to be applied to the fire space, and a fire according to a solar rule. Fire protection code designation that assigns a code to the space, Fire protection boundary designation that sets the boundary of the fire protection space, Fire protection item customization to allow the user to designate a fire protection item after automatic recognition of the equipment program in the fire space, It may include a shape representation or shape removal designation to be output.

In addition, the insulation three-dimensional modeling step 30, the designation of the fire space to assign the fire space to the basic three-dimensional model, and automatically recognizes the fire space information adjacent to the specified fire space to automatically determine the fire class suitable for the solar rules. Automatically determine the fire class to determine, designate 3D hull panel to generate insulation 3D modeling by applying the hull panel, and automatically recognize the boundary of insulation by automatically detecting the intersection of fire space and hull panel. Determination, designation of the work area that assigns the work area to the underlying three-dimensional model, automatic recognition of the hull members within the boundary of the insulation, and creation of an insulated three-dimensional model that automatically generates an insulation three-dimensional model that encloses all the hull members; For example, it may include an installation-related material information definition for defining information on which the material of insulation is installed.

In addition, the drawing generation step 40 retrieves information from the database server 1 to designate a drawing view for automatically displaying an insulation symbol, designate a drawing purpose suitable for the intended use, and obtain information from the insulation three-dimensional model. Automatic notation and draft stop including line type or hatching type, label, fire code, sealing code, deck covering code, fire door rating, wall panel symbol and inner wall symbol ) Symbols, non slip symbols, special lines, and constructions of special hatching.

In addition, the quantity information calculation step 50, cutting the insulation three-dimensional model in the standard unit, pins, washers, rivets, plating sheets (GAL'V Sheet), color sheets, perforated sheets, aluminum tape, T-bar and Automatic generation of installation-related material information, including channel sections, automatic calculation of all insulation-related quantities and weights within specified block and deck levels, work area, and insulation of mold type or mineral wool (rock wool) type It may include automatic generation of a quantity-specific quantity list and quantity of spray-type insulation and insulation installation-related quantity, and storing the generated quantity list in an Excel file.

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

Referring to FIG. 1, a 3D CAD modeling and drawing of an in-ship insulation according to an embodiment of the present invention, and a system for automatically generating a list of quantities, includes a database server 1 and a terminal 2.

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

The basic information server 11 stores the basic three-dimensional model, insulation material information of heat radiation, soundproofing, and heat insulation, and specifically, the type of ship according to the solar rules, the structural information according to the type of ship, and the Basic information of the ship is stored including insulation material information of the ship according to the type.

The job storage server 12 is used to store data for importing and processing basic information of the basic information server 11 from the terminal 2.

The terminal 2 retrieves basic information from the basic information server 11, defines a fire space 3D volume for defining a fire space in a work area in a ship by applying the imported basic information, basic information and the fire protection. Insulation three-dimensional modeling of a vessel to which a spatial three-dimensional volume definition is applied, generation of drawings for outputting vessel information in the insulation three-dimensional modeling, and quantity information calculation for calculating quantity information on the generated three-dimensional model are processed. Accordingly, by designing the vessel design by the insulation three-dimensional modeling using the basic information of the vessel stored in the database server (1), it is possible to prevent a malfunction due to interference when modeling the equipment, such as pipes, ducts, cables, etc., three-dimensional model Insulation symbols can be automatically marked on a drawing to reduce drawing creation time. It can also automatically generate accurate quantities, work areas and weight calculations for insulation and associated installation materials, reducing excess material on the production floor and thus delivering timely quantities.

Hereinafter, a three-dimensional CAD modeling and drawing of the in-ship insulation according to an embodiment of the present invention, a method of automatically generating a list of quantities will be described in detail.

2 to 6, the 3D CAD modeling and drawing of the in-ship insulation according to an embodiment of the present invention, the method for automatically generating a list of quantities, the step of loading the basic information of the vessel (S10), fire space three-dimensional volume It includes a definition step (S20), the insulation three-dimensional modeling step (S30), the drawing generation step (S40) and the quantity information calculation step (S50).

Recalling the basic information of the ship (S10) is a step of first loading the basic three-dimensional model of the ship to complete the present invention.

The fire space three-dimensional volume definition step (S20) is to specify a partition (BOUNDARY) for creating a three-dimensional volume, deck level designation step (S201), rule type designation step (S202), fire space code designation step ( S203), border designation step S204, three-dimensional volume automatic generation step S205, fire protection target designation step S206, and graphic view shape display step S207.

In the deck level designation step S201, in step S10 of importing the basic three-dimensional model, a deck level is designated to generate a fire space by importing the basic three-dimensional model.

In the rule type designation step S202, a type of a ship to be applied to the fire space, that is, a ship such as an oil tanker, a cargo ship, or a passenger ship, is designated.

In the fire space code designation step (S203), a code is assigned to the fire space. This is to automatically determine a fire rating that satisfies the fire protection regulations with adjacent fire spaces by assigning a fire space specified in the solar rules to a three-dimensional volume to be created.

In the boundary specifying step S204, a concrete boundary of the fire space is designated.

In the three-dimensional volume automatic generation step (S205), an actual three-dimensional volume shape is generated at a position and a section designated by the three-dimensional volume definition.

In the fire protection target designating step (S206), the user designates a fire protection item necessary for fire protection among the items to be installed in the fire space.

In the graphic view shape display step (S207), the shape of the fire space is expressed or the unnecessary shape of the fire space is removed.

Therefore, through each of the above-described steps to define the fire space three-dimensional volume to prepare the basic data for the insulation three-dimensional model of the vessel.

Insulation three-dimensional modeling step (S30), the target fireproof space designation step (S301), the automatic fire rating or determination step (S302), the three-dimensional hull panel designation step (S303), the insulation boundary automatic determination or correction step (S304), designation of the work area (S305), designation or modification of the insulation material specification to be modeled (S306), automatic generation of the insulation three-dimensional model (S307), undo or command recovery (S308), insulation three-dimensional model Information confirmation step (S309) and installation-related material information definition step (S310).

In the target fire space designation step (S301), a fire space for generating an insulation 3D model is designated.

Automatically determining or correcting the fire rating by the rule (S302) determines the fire rating of the fire space or corrects the determined fire rating according to the solar rules, which are international standards of the ship.

The three-dimensional hull panel designation step (S303) determines which panel is to be used for the hull to generate the insulation three-dimensional model.

Automatic determination or correction of the insulation boundary (S304) automatically recognizes the intersection of the fire protection boundary and the hull panel to automatically determine the insulation boundary or correct the determined insulation boundary.

The work zone designation step S305 designates a work zone, that is, a work zone such as a tank, an engine room or a cabin.

In the designation or modification of the insulation material specification to be modeled (S306), the insulation material specification suitable for the fire protection grade determined in the automatic determination or modification of the fire protection grade by the rule is designated or modified.

The automatic generation of insulation three-dimensional model 307 automatically recognizes the hull members within the insulation boundary and automatically generates a shape surrounding all the hull members as the insulation three-dimensional model.

In the command cancel or command recovery step S308, the command set in each step described above is canceled or the command is restored.

Insulation three-dimensional model information confirmation step (S309) is set in each of the above-described steps to check whether there is a wrong part of the insulation three-dimensional model.

Installation-related material information defining step (S310), the information of the material related to the installation in each step described above.

Therefore, the insulation three-dimensional model of the ship is completed through the above-described steps.

Drawing generation step (S40), the view designation step (S401), the drawing purpose designation step (S402), the insulation symbol automatic marking step (S403), the label automatic marking step (S404), the fire protection item symbol automatic marking step ( S405), a draft stop symbol arrangement step S406, a non slip symbol arrangement step S407, a special line drawing step S408, and a special hatching drawing step S409.

The view designation step S401 of the drawing designates a view of the drawing to automatically mark the insulation symbol.

In the drawing use designation step S402, a drawing according to the use purpose is designated, that is, a drawing of an engine room, a cabin, or a tank.

Insulation symbol automatic marking step S403 automatically marks the insulation symbol on the drawing designated in the drawing purpose designation step S402.

Label automatic marking step (S404), the label is automatically marked on the drawings produced through the above-described steps.

Automatically displaying the fire protection protection item symbol (S405) automatically displays a symbol to which the fire protection protection item is applied in the drawings provided by the above-described steps.

Draft stop symbol arrangement step (S406), a draft stop symbol for modeling the hull panel blocking the fire passage is arranged.

In the non-slip symbol arranging step S407, a non-slip symbol is arranged so as not to slip when climbing the stairs.

The special line drawing step S408 and the special hatching drawing step S409 construct a special line and a special hatching different from the general line and hatching in order to easily identify important points of the ship.

Accordingly, through the above-described steps, the drawing of the insulation three-dimensional model is converted into a two-dimensional drawing, and the information processed in each step can be expressed in the two-dimensional drawing to easily and easily distinguish the drawing.

Quantity information calculation step (S50), the three-dimensional model cutting step (S501), installation-related material information generation step (S502), quantity, weight, area information automatic calculation step (S504), usage-specific quantity list generation step (S505) ), The generated quantity list Excel file storage step (S506), the installation-related material information definition step (S507).

In the cutting of the three-dimensional model (S501), the completed insulation three-dimensional model is cut in standard units of a preset quantity.

The installation-related material information generation step (S502) automatically generates material information related to the installation in the cut insulation three-dimensional model.

The quantity, weight, and area information automatic calculation step (S503) automatically calculates the quantity, weight, and area information of the material having passed through each step.

Usage-specific quantity list generation step (S504), automatically generates only a separate quantity of the quantity according to the use of the material information automatically calculated.

The generated quantity list excel file storing step (S505) stores the automatically generated list as an excel file so that the document can be easily recognized.

In the installation-related material information defining step (S506), the information on the specification size of the material and the method for installing the material, which are basic information for the automatic placement of the material and the automatic cutting to the standard size, are defined.

Meanwhile, the 3D CAD modeling and drawing of the in-ship insulation according to an embodiment of the present invention, and a method for automatically generating a quantity list may further include printing an Excel file in which a quantity list is stored in the generated quantity list Excel file storing step. Can be.

Therefore, it is possible to shorten the required drawing time through each of the steps described above, and also to automatically generate accurate quantities, work areas, and weight calculations for the insulation and related installation materials, thereby reducing surplus materials at the production site, and accordingly Can be supplied in a timely manner.

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

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. Shall not be construed as being understood. Therefore, a person having ordinary knowledge in the technical field to which the present invention pertains may easily implement other forms of the present invention within the same scope as the above-described embodiments, or the present invention only by the description of the embodiments of the present invention. It will be possible to practice the invention in the same and equal range.

1 is a view schematically showing a three-dimensional CAD modeling and drawing of the in-ship insulation according to an embodiment of the present invention, the system automatically generates a list of quantities.

2 to 6 are flowcharts illustrating a three-dimensional CAD modeling and drawing of the in-ship insulation according to an embodiment of the present invention, the automatic generation of a list of quantities.

Explanation of symbols on the main parts of the drawings

One; Database server 11; Basic Information Server

12; Work storage server 2; terminal

S10; Fire Space 3D Volume Definition Step

S101; Deck Leveling Steps

S102; Rule type specification step

S103; Fire Code Assignment Steps

S104; Fire boundary demarcation step

S105; 3D volume auto-creation step

S106; Fire Protection Targeting Steps

S107; Graphic View Geometry Display Steps

S20; Insulation 3D Modeling

S201; Target Fire Space

S202; Automatic determination or modification of fire grade by rule

S203; Steps to Specify 3-D Hull Panel

S204; Automatic determination or correction of insulation boundaries

S205; Work Area Assignment Steps

S206; Specify or modify insulation material specification to model

S207; Automatic generation of insulation three-dimensional model

S208; Undo or Command Recovery Steps

S209; Insulation 3D Model Information Fine Step

S210; Steps to define installation related material information

S30; Drawing Generation Steps

S301; Steps to Specify Views in Drawings

S302; Drawing Usage Steps

S303; Insulation Symbol Automatic Marking Step

S304; Label auto mark step

S305; Fire protection item symbol automatic mark step

S306; Draft Stop Symbol Placement Steps

S307; Non-Slip Symbol Placement Steps

S308; Special line drawing stage

S309; Special hatching construction steps

S40; Volume Information Calculation Step

S401; 3D Model Crop Steps

S402; Steps to Automatic Generation of Material Information for Installation

S403; Fire Code Assignment Steps

S404; Automatic calculation step of quantity, weight and area information

S405; Automatic generation of quantity list by use

S406; Steps to save the created quantity list Excel file

S407; Steps to Define Installation-related Material Information

S501; 3D Model Crop Steps

S502; Steps to Automatic Generation of Material Information for Installation

S503; Automatic calculation step of quantity, weight and area information

S504; Automatic generation of quantity list by use

S505; Steps to save the created quantity list Excel file

S506; Steps to Define Installation-related Material Information

Claims (8)

A database server in which basic information of a ship is stored, including a basic three-dimensional model and insulation material information of heat radiation, sound insulation and insulation; And Defining a fire space three-dimensional volume for defining the fire space in the working area in the ship by applying the basic information, Insulation three-dimensional modeling of the vessel to which the basic information and the fire space three-dimensional volume definition is applied, Generating drawings for outputting vessel information in the insulation three-dimensional modeling; 3D CAD modeling and drawing of the in-vessel insulation, characterized in that it comprises a; terminal for processing including calculating the quantity information for calculating the quantity information for the generated three-dimensional model, the system automatically generates a list of quantities. The method of claim 1, The database server, A basic information server including the basic three-dimensional model and insulation material information of heat dissipation, sound insulation, and insulation; And Work storage server for storing the data processed from the terminal; 3D CAD modeling and drawing of the in-ship insulation, characterized in that the automatic volume list generation system. The method of claim 2, The basic information server, 3D CAD modeling of in-ship insulation, including the type of ship according to SOLAS RULE, structural information according to the type of the ship, and insulation material information of the ship according to the type of the ship Drawing, quantity list automatic generation system. Retrieving a basic three-dimensional model and basic information of a ship including insulation material information of heat dissipation, sound insulation, and thermal insulation in a database server; A step of defining a fire space three-dimensional volume for defining a fire space in a work area by a terminal by applying the basic information; An insulation three-dimensional modeling of the ship to which the terminal applies the basic information and the fire space three-dimensional volume definition; Generating, by the terminal, information of a ship in the insulation three-dimensional modeling; And And a quantity information calculating step of calculating, by the terminal, quantity information on the generated insulation three-dimensional model. 3D CAD modeling and drawing of the in-ship insulation, the method for automatically generating a quantity list. The method of claim 4, wherein The fire space three-dimensional volume definition step, Designating deck levels to create the internal fire protection of the ship, A rule type designation for designating a type of ship to be applied to the fire prevention space; A fire space code designation for specifying a code in the fire space according to the solar rules; Designating a fire compartment boundary for setting a boundary of the fire compartment; Customizing the fire protection protection item so that the user can designate the fire protection item after automatic recognition of the equipment program in the fire space; 3D CAD modeling and drawing of the in-vessel insulation, characterized in that it comprises a shape representation or shape removal designation to be output to the terminal. The method of claim 4, wherein The insulation three-dimensional modeling step, Designating a fire space for assigning the fire space to the basic three-dimensional model; Automatic fire class determination to automatically determine the fire class suitable for the solar rules by automatically recognizing the fire space information adjacent to the designated fire space, A three-dimensional hull panel designation for generating the insulation three-dimensional modeling by applying the hull panel; Automatically recognizes the intersection of the fire space and the intersection of the hull panel and automatically corrects and determines the boundary of the insulation; A work zone designation for assigning a work zone to the basic three-dimensional model; Generation of an insulation three-dimensional model for automatically recognizing a hull member within the boundary of the insulation and automatically generating an insulation three-dimensional model surrounding all the hull members; 3D CAD modeling and drawing of the in-vessel insulation, characterized in that it comprises the installation-related material information definition for defining the information that the material of the insulation is installed, the method automatically generates a list of quantities. The method of claim 4, wherein The drawing generation step, Designating a view to automatically display the insulation symbol by retrieving information from the database server; Designation of drawings for the intended use, Automatic notation that retrieves information from the insulation three-dimensional model and automatically displays it, including line type or hatching type, label, fire space code, sealing code, deck covering code, fire door grade, wall panel symbol and inner wall symbol. Wow, 3D CAD modeling and drawing of the in-ship insulation, including a draft stop symbol, a non slip symbol, a special line and a drawing of a special hatching method. The method of claim 4, wherein The quantity information calculating step, Cutting the insulation 3D model in standard units, Automatic generation of installation-related material information, including pins, washers, rivets, GAL'V Sheets, color sheets, perforated sheets, aluminum tapes, T-bars and channel sections, Automatic calculation of all insulation-related quantities and weights within the specified block and deck levels, working area, Automatic generation of a list of the quantity of each type of insulated material of the mold type or mineral wool (Mineral Wool, Rock Wool) type and the type of spray type and the quantity related to the installation of the insulation  3D CAD modeling and drawing of the in-ship insulation, characterized in that it comprises storing the generated quantity list in an Excel file, automatic generation method of quantity list.

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