KR20190048971A - System and Method for verifying vessel design drawings - Google Patents

Abstract

The present invention relates to a system for verifying a drawing during a vessel design process. According to an aspect of the present invention, the system for verifying a design drawing of a vessel comprises: an EDMS server (20) connected to a designer terminal (11) and a drawing inspector terminal (12) by a network and inputting and outputting information related to checking a design drawing; and a DB server (30) connected to the designer terminal (11) and the EDMS server (20) by the network and storing the design drawing with a drawing check history. Therefore, the system for verifying a design drawing of a vessel can prevent omission of modifications to a design error by checking the design drawing in real time by automatically updating a drawing checking item in a drawing approval process of vessel design. Moreover, the system for verifying a design drawing of a vessel can improve productivity by reducing the output and prior work by a standardized procedure between a designer and a drawing inspector.

Description

Technical Field [0001] The present invention relates to a system and method for verifying vessel design drawings,

The present invention relates to a ship designing process, and more particularly, to a system and method for verifying a ship design drawing for performing an approval process of an assembly and a degree of processing accompanied with a ship design on an online basis.

The workflow related to ship design consists of drawing, fencing, and outflow. Among them, fencing is considered to be the most important key step to improve design quality. In the conventional design and testing process, the designers create modeling and drawings, deliver hardcopy drawings to the kender, and the kendo who has received the drawings sends them to the designers by writing the kendo items to be.

However, such a method of hard copying drawing kendo is troublesome in the process of changing the drawing after the designer transmits the drawing to the kender, and additional tasks are required from outputting the hard copy drawing to delivering it to the kender. It is complicated to confirm the reflection result, and there are various disadvantages such as the procedure and cost of sending and receiving external documents are increased, and it is difficult to keep and manage the next project about the fencing history.

Prior art documents referred to in this connection include Korean Patent Laid-Open Publication No. 2013-0134588 (Prior Art 1), Korean Laid-Open Patent Publication No. 2015-0039286 (Prior Art 2), and the like.

The preceding document 1 is a map showing the kendo state and displaying the kendo state in the drawing, and storing the kendo contents from the related persons in the line check point check list and storing them. An input / output interface unit for displaying information related to the drawing fingering and a line fencing check list or receiving the fencing contents; And a kendo editor for executing editing on deletion or modification of the line check checklist.

This is expected to shorten the time required for the kendo drawing process, but it is not enough to apply the process of handling the checklist to the detailed design process.

Prior art document 2 includes a kendo practice book management server that registers a kendo practice book by a drawing number of an outsourced design drawing through a user interface screen and manages a kendo practice book based on a drawing number of each line; And a database server that stores and manages a kendo implementer registered through the kendo implementer management server, and stores information about departments and users associated with each Kendo implementer.

It is expected that it will search the desired data in a fast time with various search conditions, but it is not enough to apply it to the whole design process because it is a gist of the outline design drawing.

Korean Patent Laid-Open Publication No. 2013-0134588 entitled " Shipboard Drawing Kendo Service System and Method " (Publication Date: December 10, 2013). Korean Patent Laid-Open Publication No. 2015-0039286 entitled " Kendo Practice Document Management System " (Open date: 2015.04.10.)

SUMMARY OF THE INVENTION It is an object of the present invention to overcome the above-mentioned problems of the related art by providing a system and method for verifying a ship design drawing for reflecting feedback information in real time on-line in an approval process of an assembly and a processing degree accompanying a design of a ship .

In order to accomplish the above object, according to one aspect of the present invention, there is provided a system for processing verification of drawings in a ship designing process, the system comprising: a network connected to a designer terminal and a kender terminal, An EDMS server for inputting and outputting; And a DB server connected to the design source terminal and the EDMS server via a network and storing design drawings together with the kendo history.

The EDMS server may include a drawing arrangement module for arranging subpictures of each drawing, a drawing generation module for arranging each drawing to arrange a plurality of drawings to generate a plurality of drawings, a check A tool module, and a result notification module for sending a kendo result by mail.

As a detailed configuration of the present invention, the DB server stores information on dimensions of members, various test results, and intervals of adjacent members in an assembled view area, And information on material management is stored.

In the detailed configuration of the present invention, the EDMS server is configured to connect an approver terminal to a design source terminal and a kendo terminal.

According to another aspect of the present invention, there is provided a method for verifying a ship design drawing based on the system of claim 1, comprising the steps of: (A) determining a kendo history in a design source terminal; And (B) when the kendo terminal receives the kendo request, determining the kendo history and transmitting the result of the online kendo to the design source terminal.

In the detailed configuration of the present invention, the step (A) transmits a fencing request by e-mail after confirming and reflecting additional information when there is a fencing history.

As a detailed configuration of the present invention, the step (B) is characterized in that the result of the online kendo is registered through confirmation of the kendo reply history when there is a kendo history.

As described above, according to the present invention, it is possible to automatically update the kendo items in the drawing approval process of the ship design, thereby preventing the omission of the design error correction by real-time confirmation and reducing the prior work and output by a standardized procedure between the designer and the kendo The productivity can be improved.

1 is a block diagram schematically illustrating a system according to the present invention;
2 is a conceptual diagram schematically illustrating a method according to the present invention.
Figure 3 is a conceptual diagram illustrating the main steps of the method according to the invention
4 to 6 are diagrams of screen states for detailed steps according to the present invention
7 is a conceptual diagram showing the main steps of the method according to the invention
8 is a diagram illustrating a screen state diagram for the detailed steps according to the present invention

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

According to one aspect of the present invention, a system for processing verification of drawings in a ship designing process is proposed. An online fencing system is needed, but not necessarily, to improve the disadvantages of a system for offline conventional hardcopy drawing. The drawings of the ship design process may include an extensive engineering (modeling) drawing.

According to the present invention, the EDMS server 20 for inputting and outputting information related to the kendo of the design drawing is connected to the design source terminal 11 and the kendo terminal 12 via a network. In FIG. 1, a plurality of terminals are connected based on an electronic document management system (EDMS). The network may be based on the Internet, an intranet, or a LAN, and may include LTE, Bluetooth, and the like. When the original design drawing is modified, it is automatically and automatically reflected in the kendo drawing file, and the designer does not need to send additional information to the kender when the design is changed. The kendo player can also process the verification with the latest kendo drawings updated in real time.

According to the present invention, a DB server (30) for storing a design drawing together with a kendo history is connected to the design origin terminal (11) and the EDMS server (20) via a network. 1 to 3 illustrate a state in which the DB server 30 stores a design drawing original file which is created on a TRIBON and is added with a kendo history. The DB server 30 is preferably configured to link the HIBS storing the detailed design information to the TRIBON. The network may be based on the Internet, an intranet, or a LAN, and may include LTE, Bluetooth, and the like.

In detail, the EDMS server 20 includes a drawing arrangement module 22 for arranging subpictures of respective drawings, a drawing creation module 24 for creating a plurality of drawings by arranging the drawings in plural, A check tool module 26 for setting the form of expression of the kendo result, and a result notification module 28 for sending the kendo result to the mail.

The plotting module 22 provides sub-contents in a certain area (e.g., a border) of the drawing in the form of a subpicture. The additional screen may include history related to the fencing of each drawing.

The drawing generation module 24 can merge the design drawing files existing as a plurality of files on the DB server 30 into a single kendo file so that the kendo person can view the files in a single screen (multiple drawings) Output. When a plurality of drawings are selected through a dialog box as shown in FIG. 4 (a), a kendo drawing is arranged in the form of eight horizontal matrices as shown in FIG. 4 (b). The arrangement order of the drawings can be set in the page order of the assembly drawing. FIG. 5 illustrates an example of automatically generating a settlement box, a drawing detail list, and a reflection drawing list in the first chapter. Since the items reflected in the design reflecting drawing list managed by the enterprise system (SAP) are loaded at the time of creating the kendo drawing, the kendo person confirms the reflection items of the drawing to be reflected at the designing of the design source through the kendo terminal .

The check tool module 26 is used to uniformize the expression of the kendo result, and it is possible to unify the geometry (GEOMETERY), text color, size, In the drawings for the kendo, it is not possible to modify the original drawings and modeling, and the kendo items must be inputted using the check tool module 26 as shown in FIG. The storage and management of the drawings are managed based on the design diagram based on the DB server 30 of the tri-bone, so that the kendo history and history management can be easily performed in other projects.

The result notification module 28 performs a mail sending function for the kendo request after the drawing creation module 24 generates the kendo drawing. This can be linked to direct shipments from tri-bones or other CAD programs.

As a detailed configuration of the present invention, the DB server 30 stores information on dimensions of members, various test results, and intervals of adjacent members in an assembled view area, , And stores information on site management of materials. In the ship design for cutting, bending, and welding various members, the processing of the assembled view area of the DB server 30 precedes the processing of the processed view area. "Assembly Dimensions" includes the thickness, material, size, position, position of welding, confirmation of welding, improvement of welding, etc., and "various test results" includes SHOP FILLET AIR TEST, MPI TEST, VACUUM TEST , TANK AIR TEST, and the like, and the term " spacing of adjacent members " includes narrow spaces and dead spaces, adjacent block BUTT portions, and the like. "Processing of members" in the machining area includes bending margins, PROFILE data, etc., and "direction of arrangement and assembly" includes direction mark confirmation and mounting mark confirmation, and "field material management" , Confirmation of BOM difference, and the like.

In the detailed configuration of the present invention, the EDMS server 20 is configured to connect the approver terminal to the design source terminal 11 and the kendo terminal 12. 1 to 3 illustrate a state where the approver terminal is connected to the design source terminal 11 and the kendo terminal 12 via the EDMS server 20. [ Of course, depending on the capacity of the system, it is also possible to connect the approver terminal only to the kendo terminal 12.

According to another aspect of the present invention, a method for verifying a ship design drawing based on the system of claim 1 is proposed. Processes a series of processes (design error checking, feedback, correction, confirmation) for quality verification of design drawings based on real-time update information online.

The step (A) according to the present invention proceeds to a process of determining the fencing history in the design source terminal 11, generating a drawing and requesting fencing. 3 (a) shows a state in which it is determined that there is no fencing history, and a process of generating an online fencing diagram through the DB server 30 and requesting fencing is activated. As described above, TRIBON online verification program converts several design drawing original files existing in one file into a single drawing file for fencing. And real time automatic synchronization of the original drawing and the kendo drawing is performed by linking the respective modules of the EDMS server 20 described above.

In the detailed configuration of the present invention, in the step (A), when there is a fencing history, the fencing request is transmitted through an e-mail after confirming and reflecting additional information. Additions to the drawings are indicated and verified through the approver terminal. The design source requests the kendo terminal 12 to perform kendo after the kendo terminal 11 reflects the kendo items added thereto. If the acknowledgment is confirmed by the EDMS server 20, the approver can acknowledge the addition, but if not, it can be rejected to the design terminal 11.

The step (B) according to the present invention proceeds to a step of determining the fencing history when the fencing terminal 12 receives the fencing request and transmitting the result of the on-line fencing to the designing terminal 11. 3 (a) and 3 (b) illustrate various states where the kendo player performs kendo performance. When the kendo is completed in the normal process, the kendo terminal 12 transmits the kendo result to the design source terminal 11. [

In the detailed configuration of the present invention, the step (B) registers the result of the online kendo through the confirmation of the kendo reply history when there is a kendo history. When the kendo terminal 12 confirms the kendo history in FIG. 7, it is checked whether the additional items of the above-mentioned step (A) are reflected. In this process, the approved result is referred to the EDMS server 20 through the approver terminal. When it is confirmed that the kendo reply details are normal, the kendo result is registered in the EDMS server 20 and the DB server 30.

When the DB server 30 is updated in this manner, the fencing history can be shared in other projects as shown in Fig. 8 (a). As shown in Fig. 8 (b) Can be registered.

The construction of the online fencing environment and system according to the present invention can enhance the efficiency of the information sharing between the designer and the kendo, which is the essence of the design and fencing work, and ultimately improve the quality of the design drawing ultimately.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit and scope of the invention. It is therefore intended that such variations and modifications fall within the scope of the appended claims.

11: Design circle terminal 12: Kendo circle terminal
20: EDMS server 22: Drawing cleanup module
24: drawing generation module 26: check tool module
28: Result Notification Module 30: DB Server

Claims (7)

WHAT IS CLAIMED IS: 1. A system for processing verification of drawings in a ship design process, comprising:
An EDMS server 20 connected to the design source terminal 11 and the kender terminal 12 through a network and inputting / outputting information related to the kendo of the design drawing; And
And a database server (30) connected to the design source terminal (11) and the EDMS server (20) via a network and storing a design drawing together with a fencing history. The method according to claim 1,
The EDMS server 20 includes a drawing arrangement module 22 for arranging subpictures of respective drawings, a drawing creation module 24 for creating a plurality of drawings by arranging each drawing in a plurality, And a result notification module (28) for sending the fencing result to the user via e-mail. The method according to claim 1,
The DB server 30 stores information on the dimensions of the members, various test results, and intervals of adjacent members in the assembled view area, and stores the information on the processing of the members in the machining area, Wherein the information is stored. The method according to claim 1,
Wherein the EDMS server (20) is configured to connect the approver terminal to the design source terminal (11) and the kendo terminal (12). A method for verifying a ship design drawing based on the system of claim 1, comprising:
(A) determining a fencing history in the design source terminal (11), generating a drawing and requesting fencing; And
(B) judging the fencing history when the fencing terminal (12) receives the fencing request and transmitting the result of the on-line fencing to the designing terminal (11) Way. The method of claim 5,
Wherein the step (A) transmits a fencing request via e-mail after confirming and reflecting additional information when there is a fencing history. The method of claim 5,
Wherein the step (B) registers the result of the on-line kendo verification through confirmation of the kendo reply details when there is a kendo history.

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