KR20140106824A - Cable sizing optimization method based on cable arrangement - Google Patents

Abstract

The present invention relates to a method for optimizing cable sizes considering cable arrangement and, more specifically, to a method for optimizing cable sizes considering cable arrangement, which can optimize the sizes of cables according to laying paths of the cables arranged in offshore structures and vessels. To achieve this, the method for optimizing cable sizes considering cable arrangement comprises: a cable information loading step of loading stored cable path information, the size, type, voltage, current, or wattage of the cable, and the characteristics of each cable by types; a cable factor selecting and loading step of selecting factors suitable for a cable type among factors of the cable, and loading the selected factors on a display; a cable size calculating method selecting step of selecting one among various cable size calculating methods stored according to cable types; a tray information loading step of loading tray information including the length and area according to tray types; a tray cable quantity calculating step of calculating a quantity of cables for each of selected trays by the calculating method selected in the cable size calculating method selecting step; a cable assigning step of assigning the area of the tray to each cable so as to arrange a cable with a size calculated in the tray cable quantity calculating step, based on the length and area of the selected tray; and an output step of determining whether the arrangement structure of the cable is appropriate after the quantity and size of the cable modeled in the cable assigning step are assigned according to the length and area of the tray, and outputting the result.

Description

[0001] The present invention relates to a cable sizing method,

The present invention relates to a method of optimizing a cable size considering cable layout, and more particularly, to a cable size optimizing method in which cable installed in an area where an electric facility is applied from an offshore structure and a ship to a building, And optimizing the size of the cable by considering the cable arrangement considering the cable arrangement.

In the E & I (Electrical Instrument) design of structures such as offshore structures, ships, etc., the design of the cable routing path affects the number and arrangement of cable trays among the numerous equipment installed in the structure, It is also an important parameter for size determination.

In the early E & I design, the cable length is estimated (MTO) and the installation route is determined by directly measuring the section that is judged optimal in the tray drawing. However, the complexity of the E & I design increases in proportion to the complexity of the structure.

Accordingly, a design method using a shortest path algorithm of Dijkstra was devised. In this method, a schematic of a form connected with a branch point of a tray is created, and a method of performing a shortest path algorithm This is it. Such a conventional technique is disclosed in Patent Publication No. 2012-0112957.

The disclosed prior art is a technique for optimizing the cable laying path. In the cable modeling system, a tray is modeled according to a cable modeling request, a node necessary for cable installation is automatically generated at each point of the modeled tray, The shortest path algorithm is performed using the cable information downloaded from the node creation module, the connection information between the nodes generated through the node creation module, the basic information of the tray, and the tray information downloaded from the tray information DB, And the cable is modeled in the form of a pipe using the calculated shortest lay path.

However, although the prior art discloses a technique for optimizing the cable laying path, there is no means and method for modeling considering the influence of cable arrangement inside the tray on the cable size. to be.

In other words, the cable size is limited only by the voltage / current of the cable. In actual installation, electromagnetic interference and additional heat are generated when several cables are installed in one tray.

In addition, since the same cable quantity varies depending on the layout method, international standards require that an additional factor be applied to the cable size according to the state of cable arrangement in the tray. However, at present, most of these factors are manually applied, which is limited to high voltage and major cables.

As a result, there is a problem that cable and tray cost, installation cost, and space are increased because the excessive size and weight of cables are increased due to fear of increasing the size depending on factors as well as consuming a great amount of manpower and time in installation work of cables .

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide an apparatus and method for modeling a validity of a cable using information of a cable and a tray, And a method of optimizing a cable size in consideration of a cable arrangement capable of confirming the validity of the cable size.

The present invention includes the following embodiments in order to achieve the above object.

The first embodiment of the present invention includes a cable information loading step of loading stored cable path information, size and type, voltage, current or amount of electric power and characteristics of each cable type; A cable factor selection and loading step of selecting a factor suitable for the cable type among the factors of the cable and loading it on the display; Selecting a cable size calculation method for selecting any one of calculation methods of various cable sizes stored according to a type of cable; And loading the type-specific information of the tray. Wherein the tray information includes: a tray information loading step of loading tray information including a length and a width; A step of calculating the number of cables for each tray selected by the tray to calculate the number of cables according to the calculation method selected in the step of selecting the cable size calculation method; A cable allocation step of allocating an area of the tray to each cable so as to arrange the cable having the size calculated in the cable quantity calculation step according to the length and the width of the selected tray; And an output step of determining whether the layout structure of the cable is valid after the number and size of cables modeled in the cable allocation step are arranged according to the length and width of the tray, and outputting the result.

In the second embodiment of the present invention, the output step is characterized by outputting a size modeling result of the cable for each tray to the display by displaying cables and arrangements of sizes not suitable for the tray through different colors .

The cable size optimization method considering the cable arrangement according to the present invention can prevent the design error by modeling the validity of the cable size by using the cable information and the tray information at the time of designing the cable installation route, There is an effect that can be verified.

1 is a block diagram showing a cable size optimization calculation system considering a cable arrangement according to the present invention;
2 is a flow chart illustrating a cable size optimization method considering cable layout according to the present invention.

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, preferred embodiments of a cable size optimization method considering cable layout according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram showing a cable size optimization calculation system considering a cable arrangement according to the present invention.

Referring to FIG. 1, the cable size calculation optimization system 100 considering the cable layout includes a cable information DB 110, a tray information DB 120, a cable information module 130, a tray information module 140, An input module 150 and a cable size calculating module 160, and a modeling module 170. [ The dual cable information DB 110 stores cable information such as length, price, starting point and end point information for each cable.

The tray information DB 120 stores tray information such as a path, a length, a connection relationship, a start point and an end point of each tray, an over-fill status, and available capacity information.

The cable information module 130 downloads cable information such as length, price, starting point and end point information of each cable from the cable information DB 110.

The tray information module 140 downloads tray information such as a path, a length, a connection relation, a start point and an end point, an over fill status, and available capacity information for each tray from the tray information DB 120.

The size calculation module 160 calculates cable information including information on a starting point and an end point of the cables downloaded from the cable information DB 110 through the cable information module 130, basic information (type, system, etc.) The calculation method is selected in consideration of the factor for each cable by using the tray information including the information on the overfilled tray downloaded from the tray information DB 120 through the module 140, Calculate the validity of the cable for each tray.

The cable modeling module 170 models the cables laid out for each tray calculated through the size calculation module 160 and displays the validity thereof. At this time, when modeling the cable, the cable modeling module 170 preferably performs cable modeling on the 3D CAD so that the modeled cable can be visually confirmed.

The input module 150 inputs the information of the cable modeled through the cable modeling module 170 to the MRP DB (not shown) to calculate the cutting length of the cable and / or the appropriate cable size (MTO).

2 is a flow chart illustrating a cable size optimization method considering cable layout according to the present invention.

Referring to FIG. 2, a cable size optimization method considering a cable layout according to the present invention includes a cable information loading step (S11) for loading path information of a stored cable and characteristic information for each type of cable, A loading step S12 for selecting a cable size calculation method, a selection step S13 for selecting a cable size calculation method, a tray loading step S14 for loading cable tray information, A cable allocation step S16 for allocating and modeling a cable for allocating a cable for each tray, and an output step S17 for indicating and outputting a validity according to the size of the cable for each tray in the allocation step S16 .

The cable information loading step S11 loads the cable path information stored in the cable information DB 110 through the cable information module 130, the size, type, voltage, current or amount of electric power, and characteristics of each cable type .

The factor selection and loading step S12 for the structure of the cable selects a factor suitable for the type of the cable among the various cable factors through the cable information module 130 and loads the selected factor into the display. Here, the cable factor is set according to the type of each cable, and is selected according to the type of the cable among various factors.

The cable size calculation method selection step S13 is a step of selecting any one of various cable size calculation methods according to the cable type stored in the cable information DB 110 according to the selection signal of the input module 150. [

The tray information loading step S14 is a step of loading information of the various types of trays stored in the tray information DB 120 in the tray information module 140. [ The tray information includes length and width.

In the step S15 of calculating the number of cables for each tray, the number of cables for each tray selected by the tray information module 140 is calculated by the cable size calculating module. Here, the cable size calculation module 160 calculates the number of cables installed in the tray by collecting the length and width information of the tray in each cable factor and size calculation method.

The cable allocation step S16 is a step in which the cable modeling module 170 allocates a cable having a size calculated by the cable size calculation module 160 to a selected tray in the cable quantity calculation step. The cable modeling module 170 models cables to be arranged in the tray so as to correspond to the length and width of the tray according to the calculated number of cables.

In the output step S17, the number and arrangement of the cables arranged in the tray are valid according to the modeling result of the cable modeling module 170, that is, the number of the cables is larger than the width and length of the tray Whether or not it is large or small, through modeling, and judging whether it is valid or not. The cable modeling module displays the validity on the display. For example, if the display is valid, it may be desirable to display the cable in a suitable color, or in the case of an inadequate cable assignment and placement, the color may be indicated differently.

The present invention may be embodied in various forms without departing from the scope of the invention. That is, if the modified embodiment includes essential components of the claims of the present invention, it should be considered that the present invention belongs to the scope of the present invention.

100: Cable size calculation system 110: Cable information DB
120: Tray information DB 130: Cable information module
140: Tray information module 150: Input module
160: cable size calculation module 170: modeling module

Claims (2)

A cable information loading step of loading stored cable path information, size and type, voltage, current or amount of power, and characteristics of each cable type;
A cable factor selection and loading step of selecting a factor suitable for the cable type among the factors of the cable and loading it on the display;
Selecting a cable size calculation method for selecting any one of calculation methods of various cable sizes stored according to a type of cable;
And loading the type-specific information of the tray. Wherein the tray information includes: a tray information loading step of loading tray information including a length and a width;
A step of calculating the number of cables per tray selected by the tray, the number of cables per tray calculating the number of cables according to the calculation method selected in the step of selecting the cable size calculation method;
A cable allocation step of allocating an area of the tray to each cable so as to arrange the cable having the size calculated in the cable quantity calculation step according to the length and the width of the selected tray; And
And an output step of determining whether the layout structure of the cable is valid after the number and size of cables modeled in the cable allocation step are arranged according to the length and width of the tray and outputting the result A method of optimizing a cable size. 2. The method of claim 1,
And outputting a result of size modeling of the cable for each tray to the display by displaying a cable and a layout of a size not suitable for the tray through different colors.

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