KR20220052457A - Method for measuring cable lenght of ship using a modeling - Google Patents

Abstract

The present invention relates to a method for measuring a cable length of a ship using modeling. According to the present invention, the method for measuring a cable length of a ship using modeling comprises: a cable tray information input step to store information on a cable tray used for the modeling in an access database; a node modeling step to select a cable tray by using a node modeling program, automatically generate a node in accordance with the information of the selected cable tray, and store the information of the generated node in the access database; a node connection step to select nodes to be connected to each other by using the node modeling program, select and extract a cable tray passed by a link connecting the nodes, generate a link based on the same, and calculate the length of the generated link; and an information extraction step to extract the node information and the information of the link connecting the nodes by using the node modeling program. The present invention aims to provide a method for measuring a cable length of a ship using modeling, which is capable of increasing measurement reliability.

Description

Method for measuring cable length of ship using a modeling}

The present invention relates to a method of measuring a cable length of a vessel using modeling, and more particularly, to a method of measuring a cable length of a vessel using modeling capable of measuring the length of a cable used in a vessel through modeling.

In general, in the recent shipbuilding field, ship design standards for classification are being strengthened, and as analysis technology and computer hardware performance develop, various programs are being applied across various fields such as ship design, fatigue life evaluation, and management.

On the other hand, various types of electronic control systems are mounted on ships, and accordingly, connections between numerous electronic components and connections between electronic devices must be made, and many cables for connection between these electronic components or connections between electronic devices must also be installed.

In particular, cables used for connection between electronic devices are expensive, and since a large amount of cables are used in a wide ship structure, it is costly to purchase cables. .

In the conventional cable length measurement, the cable tray is modeled using a CAD program and output as a drawing, the operator directly measures the length between nodes using a scaler, and then the measured data is input into the cable management system and managed In one state, a cable was purchased based on the measurement data input to the cable management system.

Accordingly, since the operator places the scale ruler on the printed drawing and the node directly measures the length, a measurement error may occur, and accordingly, there is a problem in that the correct cable length cannot be measured.

In addition, when the operator inputs the measured data to the system, an error may occur due to an error, and accordingly, there is a problem in that the correct cable length cannot be measured.

Accordingly, conventional measurement of cable length has a problem in that measurement reliability is low due to errors that may occur during measurement using a scaler and input of measurement data.

It is an object of the present invention, by measuring the length of a plurality of cables used in a ship through modeling, respectively, it is possible to reduce the work required to measure the cable length, and it is possible to accurately calculate the cable length, so as to increase the measurement reliability as well as , to provide a method for measuring the length of a ship's cable length using modeling that can reduce the amount of surplus cables, thereby reducing the cost of purchasing cables.

The method for measuring the cable length of a ship using modeling according to the present invention includes a cable tray information input step of storing information on a cable tray used for modeling in an access database, a cable tray selection using a node modeling program, and the selected cable tray A node modeling step that automatically creates a node according to the information of the node, and stores the information of the created node in the access database, selects nodes to be connected to each other using the node modeling program, and selects a cable tray through which a link connecting the nodes passes. It includes a node connection step of selecting and extracting, generating a link based on this, calculating the length of the generated link, and an information extraction step of extracting node information and link information connecting nodes using the node modeling program characterized in that

Here, in the node modeling step, when a cable tray is selected using a node creation menu window provided by the node modeling program, a node is automatically created according to the selected cable information.

The present invention has the effect of effectively reducing the man-hours required for measuring the cable length by measuring the lengths of a plurality of cables used in ships through modeling, respectively.

In addition, since the present invention can accurately calculate the cable length, it is possible to not only increase the measurement reliability, but also reduce the amount of surplus cables, thereby reducing the cost of purchasing the cables.

1 is a view sequentially showing a method of measuring a cable length of a ship using modeling according to an embodiment of the present invention.
2 is a diagram illustrating an example of node connection for a method for measuring a cable length of a ship using modeling according to an embodiment of the present invention.
3 is a diagram illustrating an example of node modeling information for a method of measuring a cable length of a ship using modeling according to an embodiment of the present invention.

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

Advantages and features of the present invention, and a method for achieving the same, will become apparent with reference to the embodiments described below in detail in conjunction with the accompanying drawings.

However, the present invention is not limited by the embodiments disclosed below, but will be implemented in various different forms, and only these embodiments allow the disclosure of the present invention to be complete, and common knowledge in the art to which the present invention pertains It is provided to fully inform those who have the scope of the invention, and the present invention is only defined by the scope of the claims.

In addition, in the description of the present invention, when it is determined that related known techniques may obscure the gist of the present invention, a detailed description thereof will be omitted.

1 is a view sequentially showing a method for measuring the cable length of a vessel using modeling according to an embodiment of the present invention, and FIG. 2 is a node connection for a method for measuring a cable length of a vessel using modeling according to an embodiment of the present invention It is a view showing an example, and FIG. 3 is a view showing an example of node modeling information for a method of measuring a cable length of a ship using modeling according to an embodiment of the present invention.

As shown in FIG. 1, the method for measuring the length of a ship's cable length using modeling according to this embodiment includes a cable tray information input step (S10) of storing information on a cable tray used for modeling in an access database, a node modeling program using to select a cable tray, a node automatically creates a node according to the information of the selected cable tray, and a node modeling step (S20) of storing the generated node information in the access database, and each other using the node modeling program A node connection step (S30) of selecting nodes to be connected, selecting and extracting a cable tray through which a link connecting the nodes passes, creating a link based on this, and calculating the length of the created link (S30), using the node modeling program and an information extraction step (S40) of extracting node information and link information connecting the nodes.

First, the cable tray information input step (S10) is a step of storing information about the cable tray used for modeling in the access database.

In detail, various cable trays used for modeling are modeled and stored in the tri-bone database storing various types of information in the tri-bone system.

At this time, the cable tray is stored by type, and the type of cable tray is classified according to the type of the cable tray, 'L' type, 'R' type, 'A' type, 'F' type, 'P' It is classified by 'type, etc.

As above, by calling the cable tray stored in the tribone database, information about the cable tray (hereinafter, 'cable tray information'), for example, type, height, width, width, central axial direction, etc. It is stored in a separate database ('access database').

At this time, since the cable tray information stored in the access database is information used to calculate the cable length, it must be accurately stored.

In the node modeling step (S20), a cable tray is selected using a node modeling program executed in the tribone system, a node is automatically created according to the information of the selected cable tray, and the information of the created node is stored in the access database is a step to be

In detail, the node modeling program is executed on the tribone system, and the node creation function provided by the node modeling program is used.

At this time, when the node modeling program is executed, the user input window 10 as shown in FIG. 3 is provided, and when the 'Node' button in the menu selection area 100 of the user input window 10 is clicked, a node is created. A node creation menu window 110 is created for

When a cable tray is selected by clicking the node insert button ('Ins Node' button) of the created node creation menu window 110, a node is automatically created according to the information of the selected cable tray.

At this time, if a cable tray is selected, an auxiliary line is created in the cable tray together with the cable tray, and a node is automatically created based on the auxiliary line.

In addition, the node creation position may be changed by the user, and the user may click the position of the auxiliary line to change the node creation position.

On the other hand, in the node modeling step (S20), information of the node is input, and the information is input in the input field 112, the deck input field 113, the node number input field 114, and the node type description field 115, One of the node types arranged in the node type selection field 116 is selected to select the type of node to be created.

At this time, input the block name in the block input field 112, the deck code in the deck input field 113, input the number of the generated node in the node number input field 114, and the node type description field ( 115), a brief description of the node type is input.

On the other hand, in the node type selection field 116, various node types are arranged to be selectable, and as the node types, WAY (indicated by 'W'), PIPE (indicated by 'I'), MCT (indicated by 'M') ), NOT COMPOUND (indicated by 'C'), COMPOUND (indicated by 'P'), SLEEVE (indicated by 'S'), and GLAND (indicated by 'G'), to select one of these node types. will do

In this case, the node information input in the node modeling step (S20) is stored in the access database.

The node connection step (S30) uses the node modeling program to select nodes to be connected to each other, selects and extracts a cable tray through which a link connecting the nodes passes, creates a link based on this, and creates a link of the created link. This is the step to calculate the length.

In detail, the node connection step (S30) uses the connection function provided by the node modeling program, and when the 'Connection' button in the menu selection area 100 of the user input window 10 is clicked, a connection sub-manual is generated. If you click the 'Connect' button in the connection sub-manual, the node connection menu window is created.

At this time, if a button for selecting a node, that is, the 'Select Two Nodes to connect' button of the node connection menu window is clicked, a diagram in which a cable tray and a node are created is displayed on the screen as shown in FIG. 2 .

The information extraction step (S40) is a step of extracting information on nodes and links connecting nodes using a node modeling program.

In detail, the information extraction step (S40) is performed using the management function provided by the node modeling program, and when the 'Manage' button in the menu selection area 100 of the user input window 10 is clicked, a management manual is generated. do.

In this case, the management manual of the present invention provides a loading function for loading a node model in 3D, an extraction function for extracting node information and link information into a document, and an information display function for displaying node information and link information on a screen.

When the cable length is measured by applying the method for measuring the cable length of a vessel using modeling according to the present embodiment as described above, since a plurality of cable lengths used in the vessel can be measured through modeling, respectively, it takes time to measure the cable length It can effectively reduce the amount of work required.

In addition, since the present invention can accurately calculate the cable length, it is possible to not only increase the measurement reliability, but also reduce the amount of surplus cables, thereby reducing the cost of purchasing the cables.

Although the present invention has been described with reference to the embodiment(s) shown in the drawings, this is only exemplary, and various modifications may be made therefrom by those skilled in the art, and the above-described embodiment It will be understood that all or part of (s) may optionally be combined. Accordingly, the true technical protection scope of the present invention should be defined by the technical spirit of the appended claims.

10: user input window 100: menu selection area
110: Node creation menu window 111: Node insert button
112: block input field 113: deck input field
114: Node number input field 115: Node type description
116: node type check box

Claims (2)

Cable tray information input step of storing information about the cable tray used for modeling in an access database;
a node modeling step of selecting a cable tray using a node modeling program, automatically generating a node according to information on the selected cable tray, and storing the information on the generated node in the access database;
a node connection step of selecting nodes to be connected to each other using the node modeling program, selecting and extracting a cable tray through which a link connecting the nodes passes, generating a link based on this, and calculating the length of the created link; and
and an information extraction step of extracting node information and link information connecting nodes by using the node modeling program.
The method of claim 1,
The node modeling step is
When a cable tray is selected using the node creation menu window provided by the node modeling program, a node is automatically created according to the selected cable information.

Images