KR20150046442A - Method for notifing cable danger and recofding medium storing program to execute the method - Google Patents

Abstract

The present invention relates to a danger-to-cable notifying method which notifies when a cable passes through a fire hazardous area. According to an embodiment of the present invention, provided is the danger-to-cable notifying method comprising: receiving information on a plurality of nodes and information on a plurality of cables; searching for cables which pass through a fire hazardous area by using the information on the nodes and the information on the cables; and displaying the cables which pass through the fire hazardous area, wherein each of the nodes indicates an arbitrary position in an installation site of the cables, and the installation site of the cables includes the fire hazardous area.

Description

TECHNICAL FIELD [0001] The present invention relates to a cable risk notification method, and a recording medium storing a computer program for executing the method. [0002]

The present invention relates to cable routing, and more particularly, to a cable risk notification method that alerts a cable when it passes through a high fire risk area.

Due to the rapid international industrialization and industrial development trends, the use of global resources such as oil is gradually increasing, and thus the stable production and supply of crude oil is becoming a very important issue.

For this reason, recently marginal field or deep-sea oil development has been economically feasible, which has been neglected due to economic difficulties so far. Therefore, with the development of submarine mining technology, drilling facilities suitable for the development of such oilfields Drill rigs were developed.

Conventional submarine drilling has been mainly used for a rig ship or a rigid platform for underwater drilling which is capable of navigating only by another tugboat and performs submarine drilling under the condition that it is anchored at one point of the sea using a pumping system. In recent years, a so-called drillship has been developed and used for deep-sea drilling, which is equipped with advanced drilling equipment and constructed in the same form as a general ship so that it can navigate with its own power.

Recent drill ships for deep-sea drilling are required to meet the requirements of the International Maritime Organization (IMP) and the respective Classification Regulations.

In the classification society (DNV_ Norway), among the cables installed on the ship, the cables connected to equipment related to the safety of the crew are not to pass through the high fire risk area, Fireproof cables are required to be used.

According to the prior art, one has to personally examine whether a cable connected to safety related equipment penetrates a high-fire area, so that the cable connected to safety-related equipment does not penetrate a high- If necessary, change the wire type with the refractory wire.

However, it takes a lot of time and effort to manually examine thousands to tens of thousands of cables installed in a ship, and there is a problem that accuracy is low and errors are likely to occur.

It is an object of the present invention to provide a cable risk notification method capable of automatically notifying whether a cable connected to equipment related to safety passes through an area having a high fire risk and a recording medium storing a computer program for executing the method.

According to an aspect of the present invention, there is provided a cable risk notification method comprising: receiving information on a plurality of nodes and information on a plurality of cables; Using the information on the plurality of nodes and the information on the plurality of cables to find a cable passing through the fire hazard area; And displaying a cable through the fire hazard zone, wherein each of the plurality of nodes represents an arbitrary location in an area where the plurality of cables are installed, Provides cable hazard notification methods, including zones.

In particular, the information on the plurality of nodes may include information on whether each of the plurality of nodes is a general node or a node connected to a fire hazard zone.

In addition, the information about the plurality of cables may include nodes through which each of the plurality of cables passes.

In addition, the step of finding a cable passing through the fire danger zone may include determining a cable passing through nodes connected to two or more fire hazard zones among the plurality of cables as a cable passing through a fire danger zone.

In addition, the information on the plurality of cables may include information on whether each of the plurality of cables is a fire-resistant cable.

In addition, the step of finding the cable passing through the fire danger zone may include a step of finding a cable passing through the fire danger zone among the cables other than the fireproof cable.

In addition, the information on the plurality of cables may include information on whether each of the plurality of cables is a cable connected with equipment related to safety.

In addition, the step of finding the cable passing through the fire danger zone may include a step of finding a cable passing through the fire danger zone among the cables connected to the safety related equipment.

According to another aspect of the present invention, there is provided a storage medium including a program for causing a computer to execute a cable risk notification method, the storage medium storing information on a plurality of nodes and information on a plurality of cables step; Using the information on the plurality of nodes and the information on the plurality of cables to find a cable passing through the fire hazard area; And displaying a cable passing through the fire hazard zone, wherein each of the plurality of nodes represents an arbitrary position of an area where the plurality of cables are installed , And the area where the plurality of cables are installed includes the fire hazard area.

In particular, the information on the plurality of nodes may include information on whether each of the plurality of nodes is a general node or a node connected to a fire hazard zone.

In addition, the information about the plurality of cables may include nodes through which each of the plurality of cables passes.

In addition, the step of finding a cable passing through the fire danger zone may include determining a cable passing through nodes connected to two or more fire hazard zones among the plurality of cables as a cable passing through a fire danger zone.

According to the embodiment of the present invention, by using information on a plurality of nodes and information on a plurality of cables, it is possible to automatically find and notify a cable passing through a zone of high fire risk, thereby saving the worker's time and effort And it is possible to improve the accuracy by reducing the possibility of errors.

1 is a flowchart illustrating a cable risk notification method according to an embodiment of the present invention.
2 is a diagram showing a node and a converter modeled in three dimensions.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the drawings, the same reference numerals are used to designate the same or similar components throughout the drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

A cable risk notification method according to an embodiment of the present invention will be described with reference to Figs. 1 is a flowchart illustrating a cable risk notification method according to an embodiment of the present invention.

A cable risk notification method according to an embodiment of the present invention is a method for detecting and informing a cable passing through a dangerous area when arranging a plurality of cables in a certain area including a dangerous area where the cable should not pass.

For example, thousands to tens of thousands of cables can be placed in a ship. However, if there is a fire hazard area in the ship and the cable is placed so that it does not pass through a fire hazard area, or if it is inevitably passed through a fire hazard area, a fireproof cable should be used. Therefore, the cable risk notification method according to the embodiment of the present invention discloses a cable disposed so as to pass through a high-risk area. The cable risk notification method according to the embodiment of the present invention can be implemented in the form of a program that can be executed in a computer.

First, information on a plurality of nodes and information on a plurality of cables are inputted (S110).

The line through which the cable passes is called a converter, and the area where the converter and cables are installed can be modeled in three dimensions. 2 is a diagram showing a node and a converter modeled in three dimensions.

Here, a node represents an arbitrary position of an area where cables are installed, and can be expressed by (x, y, z) coordinates. As shown in FIG. 2, the node has a general node and a node connected to a fire hazard zone. The node leading to the fire hazard zone represents the entrance to the fire hazard zone. In other words, a fire hazard area can be formed by connecting nodes connected to a fire hazard area.

The node-related information may include the name of the node and information on whether each node is a general node or a node connected to a fire hazard zone. For example, if there are A to Z nodes in the area where the cables are installed, the node related information includes information on whether the A to Z nodes and the nodes are each a general node or a node connected to a fire hazard zone .

Also, if there are a plurality of fire danger zones in the area where the cables are installed, information on which fire hazard zone is connected to each of the nodes connected to the fire danger zone may be included in the node related information. For example, in the area where the cables are installed, the first fire hazard area, the second fire hazard area, and the third fire hazard area exist and B, C, F, G, J, K, L, When nodes are connected to the fire hazard zone, B, C, F, and G nodes are connected to the first fire hazard zone, J, K, and L nodes are connected to the second fire hazard zone, The node-related information is connected to the first fire hazard zone B, C, F, and G, the nodes J, K, and L are connected to the second fire hazard zone, and the Q , S, and U nodes are connected to the third hazardous area.

The cable-related information may include information about the nodes through which the cable passes and whether the cable is a fire-resistant cable. For example, if the first cable traverses nodes A, B, C, D, and E, the cable-related information indicates that the first cable crosses nodes A, B, C, D, and E and that the first cable is a refractory cable And information on whether or not the information is included.

The cable-related information may also include information as to whether the cable is a cable connected to equipment related to safety.

The nodes through which the cable passes can be determined by the cable path metering program. The cable path measurement program stores coordinates of each of the nodes and information about connection nodes connected to each of the nodes. Thus, when the start node and the end node of the cable are input, the program searches for the optimal path of the cable . For example, in the cable path measurement program, when the coordinates of the node A are (x1, y1, z1), the connection node is the information of the node B, the coordinates of the node B are (x2, y2, z2) , When the coordinates of the C node are (x3, y3, z3) and the connection node has information that it is the D node, and the information that the start node of the first cable is the A node and the end node is the D node, The path can be output as A, B, C, D nodes.

Next, the information on the plurality of nodes and the information on the plurality of cables are used to search for cables passing through the fire hazard area (S120).

At this time, cables passing through nodes connecting to two or more fire hazard zones can be determined by cables passing through fire hazard zones. For example, if the nodes through which the first cable passes are nodes A, B, C, D, and E, and nodes B and C are connected to a fire hazard zone, then the first cable is determined to be a cable through the fire hazard zone . This is because the fire hazard zone can be formed by nodes connecting to multiple fire hazard zones, so that cables passing through nodes connecting to two or more fire hazard zones can be viewed as passing through a fire hazard zone. For example, if nodes B, C, F, and G are connected to a fire hazard zone, fire hazard zones may be formed by connecting nodes B, C, F, and G. Thus, cables passing through nodes B and C can be seen as passing through a fire hazard zone.

Alternatively, if there is a plurality of fire hazard zones in the area where multiple cables are installed, a cable that passes two or more nodes connected to the same fire hazard zone can be determined by a cable passing through the fire hazard zone. For example, nodes B, C, F, and G are connected to the first fire hazard zone, nodes J, K, and L are connected to the second fire hazard zone, and nodes Q, S, Once connected, cables passing through nodes B and C may be determined by cables passing through fire hazardous areas, and cables past B and J nodes may not be determined by cables passing through fire hazard areas.

Or, in step S120, you can find the cables that go through the fire hazard area among the cables connected to the safety related equipment. This means that cables connected to non-safety equipment should only be routed through fire hazardous areas if there is no problem beyond the fire hazardous area, only those cables connected to safety related equipment.

Next, a cable other than the refractory cable is searched among the cables passing through the fire danger zone found in step S120 (S130). This is because fireproof cables have no problem crossing fire hazardous areas.

Step S130 may be performed after step S120, or may be performed together in step S120. That is, in step S120, it is possible to find the cables passing through the fire hazard area among the non-fireproof cables.

Next, a cable other than the fire-resistant cable passing through the fire danger zone is output (S140). That is, in step S130, the cables detected are output to inform the cable risk. The operator can use the output information to change the path of the output cable so that it does not cross the fire danger zone, or change the output cable to a fireproof cable.

The foregoing description is merely illustrative of the technical idea of the present invention and various changes and modifications may be made by those skilled in the art without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are intended to illustrate rather than limit the scope of the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of equivalents should be construed as falling within the scope of the present invention.

Claims (12)

For cable hazard notification methods,
Receiving information on a plurality of nodes and information on a plurality of cables;
Using the information on the plurality of nodes and the information on the plurality of cables to find a cable passing through the fire hazard area; And
And displaying a cable through the fire hazard zone,
Wherein each of the plurality of nodes represents an arbitrary location of an area where the plurality of cables are installed, and an area where the plurality of cables is installed includes the fire hazard area. The method according to claim 1,
Wherein the information on the plurality of nodes includes information on whether each of the plurality of nodes is a general node or a node connected to a fire hazard zone. The method of claim 2,
Wherein the information about the plurality of cables includes nodes through which each of the plurality of cables passes. The method of claim 3,
Wherein the step of finding a cable through the fire hazard zone comprises determining a cable through the fire hazard zone through nodes that connect to two or more fire hazard zones of the plurality of cables. The method according to claim 1,
Wherein the information on the plurality of cables includes information on whether each of the plurality of cables is a fireproof cable. The method of claim 5,
Wherein the step of finding a cable passing through the fire hazard zone includes the step of finding a cable through the fire hazard zone of the cables other than the fireproof cable. The method according to claim 1,
Wherein the information on the plurality of cables includes information on whether each of the plurality of cables is a cable connected to equipment related to safety. The method of claim 5,
Wherein the step of finding a cable passing through the fire hazard zone includes the step of finding a cable through a fire hazard zone among the cables associated with the safety related equipment. A storage medium containing a program for causing a computer to execute a cable risk notification method,
Receiving information on a plurality of nodes and information on a plurality of cables;
Using the information on the plurality of nodes and the information on the plurality of cables to find a cable passing through the fire hazard area; And
And displaying a cable passing through the fire hazard zone, the method comprising the steps of:
Wherein each of the plurality of nodes represents an arbitrary location of an area where the plurality of cables are installed, and an area where the plurality of cables is installed includes the fire hazard area. The method of claim 9,
Wherein the information about the plurality of nodes includes information about whether each of the plurality of nodes is a general node or a node connected to a fire hazard zone. The method of claim 10,
Wherein the information about the plurality of cables includes nodes through which the plurality of cables each pass. The method of claim 11,
Wherein the step of finding a cable through the fire hazard zone comprises determining a cable through the fire hazard zone through the nodes connecting the two or more fire hazard zones of the plurality of cables.

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