KR20130071907A - Setting method of for materials catalog for ocen plant - Google Patents

Abstract

The present invention relates to a method for creating a catalog of materials used in offshore plant construction, and extracts the production drawing through 3D modeling for offshore plant construction, so that accurate modeling can be achieved when the drawings are produced and installed in the field. This allows you to automatically create catalogs of material contours, saving time, and preventing accidental errors during manual entry by manually opening material data files for modeling. do.
The catalog generation method of the material used for offshore plant construction according to the present invention, the material specification from the plumbing control specification (SPEC) database, the data of the required material from the material database after searching (Piping Material Class) A first step of classifying materials by type by driving; A second step of collecting and storing data of necessary materials among the materials classified in the first step for each field; A third step of defining option items with respect to material data collected and stored for each field in the second step; A fourth step of checking the specification of the material data of the third step; A fifth step of generating a catalog and specification (SPEC) file for the material data of the fourth step; A sixth step of storing the catalog and specification (SPEC) file generated in the fifth step in a 3D model database; And a seventh step of testing and modeling the catalog stored in the sixth step of the 3D model data.

Description

Setting method of for materials catalog for ocen plant}

The present invention automatically extracts production drawings through 3D modeling for offshore plant construction, and then automatically generates catalogs for each material shape before modeling so that accurate modeling can be made for materials. A method of creating a catalog of materials used in a marine plant construction.

Conventionally, a marine plant was constructed based on a drawing after extracting a production drawing through 3D modeling to perform a marine plant construction, but when 3D modeling is wrong, there is a problem in construction.

The present invention has been made to solve the above problems of the prior art, to extract the production drawings through 3D modeling for offshore plant construction, each model before modeling so that accurate modeling can be made when the drawings are produced and installed in the field This allows you to automatically generate catalogs for material contours, saving you hours of work and offshore plants where conventional operators can open material data files for modeling and avoid accidental errors when entering them directly. Its purpose is to provide a catalog generation method for materials used in construction.

Means of the present invention for achieving the above object, the material specification in the plumbing material specification (SPEC) database is retrieved, the data of the material required in the material database is searched and then driven by a Piping Material Class (PMC) A first step of classifying materials by type; A second step of collecting and storing data of necessary materials among the materials classified in the first step for each field; A third step of defining option items with respect to material data collected and stored for each field in the second step; A fourth step of checking the specification of the material data of the third step; A fifth step of generating a catalog and specification (SPEC) file for the material data of the fourth step; A sixth step of storing the catalog and specification (SPEC) file generated in the fifth step in a 3D model database; And a seventh step of testing and modeling the catalog stored in the sixth step of the 3D model data.

Catalog generation method of materials used for offshore plant construction according to the present invention, to extract the production drawings through 3D modeling for offshore plant construction, each model before modeling so that accurate modeling can be made when the drawings are produced and installed in the field By automatically creating catalogs of material contours, it is possible to save a considerable amount of work time, and to prevent errors caused by mistakes during manual entry by opening a material data file for modeling. There is.

1 is a block diagram showing the flow of a method for creating a catalog of materials used in a marine plant construction according to the present invention.

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention will be more apparent.

1 is a block diagram showing the flow of a method for creating a catalog of materials used in a marine plant construction according to the present invention.

As shown in FIG. 1, the method for creating a catalog of materials used in a marine plant construction according to the present invention firstly loads material specifications stored in a pipe control specification (SPEC) database, and then needs materials in a material database. After searching the data, the material is classified by type by running the Piping Material Class (PMC).

The length, width, and circumference of the material defined by the client may be stored in the pipe material specification (SPEC) database, and the PMC (Piping Material Class) classifies materials by class based on design data and service limits. It is used to

Thereafter, data of necessary materials among the classified materials are collected and stored for each field.

For example, a plurality of separate fields are formed in a computer, and data of necessary materials are classified in the fields, and then collected and stored for each classification.

Subsequently, an option item is defined for the stored material data collected by each field.

The option item definition for the material data may be defined through a user interface by referring to the SPEC specification.

The specification is then checked to see if the material data is suitable for use.

To supplement this, the material data specification check is a kind of error handling system that checks the correspondence with the table related to the PIPING COMMODITY DATA stored in the database SCHEMA through the USER INTERFACE, and the NPD TABLE and COMMODITY DATA SIZE RANGE check, DIMENSIONAL TABLE for COMPONENT of COMMODITY DATA, and EDEN MODULE (GRAPHIC DATA LIBRABRY) existence, that is, FOUND and NOT FOUND of TABLE in LIBRARY are checked. You can also report.

In addition, when the material data to be checked is missing, the material data to be checked may be accessed by accessing the material database and then the material data specification may be checked through a user interface.

After checking whether the specification of the material data is suitable for use, a catalog and specification (SPEC) file is generated for the material data through a user interface.

Subsequently, the generated catalog and specification (SPEC) files may be stored in the 3D model database, and then the catalogs stored in the 3D model data may be tested and modeled on the site through a user interface (USER INTERFACE). By repeatedly performing the above process, a catalog of various kinds of material data can be generated and reflected on the site.

Claims (2)

A first step of importing material specifications from a pipe control specification (SPEC) database, searching for necessary data of materials in the material database, and then driving a PMC (Piping Material Class) to classify materials by type;
A second step of collecting and storing data of necessary materials among the materials classified in the first step for each field;
A third step of defining option items with respect to material data collected and stored for each field in the second step;
A fourth step of checking the specification of the material data of the third step;
A fifth step of generating a catalog and specification (SPEC) file for the material data of the fourth step;
A sixth step of storing the catalog and specification (SPEC) file generated in the fifth step in a 3D model database;
And a seventh step of testing and modeling the catalog stored in the sixth step of the 3D model data. In the fourth step, if the material data to be checked is missing, accessing the material database and inputting the material data to be checked further comprises creating a catalog for use in offshore plant construction.

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