KR20150010137A - Gas leakage sensing device for ship - Google Patents

Abstract

The present invention provides a gas leakage sensing apparatus, which is buried in the ground of the shipyard to detect the leakage of gas through a plurality of gas pipes where various gases flow. The gas leakage sensing apparatus includes: a gas collecting unit configured to collect gas leaked from the gas pipelines; a gas guide unit configured to guide the gas collected by the gas collecting unit to the outside; a gas sensing unit configured to detect whether the gas guided by the gas guide unit leaks; a control unit configured to receive a signal sensed by the gas sensing unit; and an integrated management unit configured to provide data transmitted from the control unit to an administrator in real time.

Description

TECHNICAL FIELD [0001] The present invention relates to a gas leakage detection device for a ship,

The present invention relates to a gas leakage detection device for detecting the leakage of gas in a buried gas pipe, and more particularly, to a gas leakage detection device for detecting a gas leakage in a gas pipe, which is buried in a shipyard and in which a variety of gases (CO ₂ , O ₂ , Ar, LPG) And more particularly, to a gas leak detecting apparatus for a ship capable of real-time detection of gas leakage and quick response.

Generally, in order to manufacture a ship, parts like hull, engine, electricity, and cabin are assembled together. For this purpose, cutting and welding of steel plates with various sizes and shapes are involved.

In order to weld the ship, gas such as oxygen is absolutely necessary. In the assembly condition of the ship which is dried in block unit, it is difficult for the operator to move the oxygen tank separately from the welding site, Various gases (CO ₂ , O ₂ , Ar, LPG) are separately supplied to the ground-mounted gas feeder through a plurality of gas pipes through which a specific gas flows.

Over the past several decades, gas leaks have been associated with numerous gas leaks in underground facilities, both domestic and international, that have caused massive casualties and massive loss of property.

This problem is caused by the lack of facilities management of gas related facilities, there is no system that can detect the gas leak point and the gas flow situation quickly when gas leakage occurs, so it is impossible to respond quickly in an emergency situation, And the systematic management of the system.

In addition, the movement of the underground gas may depend on the characteristics of the soil medium such as the porosity and permeability of the soil, the fluid characteristics such as the viscosity and density of the gas, and the pressure and diffusivity of the gas.

A method of estimating a gas leak point by combining a gas facility management and a gas flow model using a GIS (Gas Insulated switchgear, hereinafter referred to as "GIS") used in domestic and overseas gas facilities to the GIS has been used .

However, since the conventional gas leakage monitoring apparatus measures only the number of times of operation of the circuit breaker and transmits it to the upper system and periodically checks, it is impossible to diagnose the gas leakage state more accurately.

Conventional gas leakage monitoring devices, which have not been confirmed as such safety, can cause an explosion accident due to gas leakage, and therefore countermeasures have been required.

Embodiments of the present invention are directed to a method for collecting a gas moving in a sand layer or a sediment layer by gas leakage of a gas pipe buried in the ground and detecting the gas leakage and concentration in real time to prevent an explosion accident due to gas leakage And a leakage detection device.

The embodiments of the present invention are directed to a gas leakage detection device for detecting whether or not a gas leaked from a plurality of gas pipes buried in the ground of a shipyard through which various kinds of gas flow is leaked, And a control unit receiving a signal sensed by the gas sensing unit, and a control unit receiving a signal sensed by the gas sensing unit. The gas sensing unit senses whether the gas is guided through the gas guiding unit, And an integrated management unit for providing the manager with data transmitted from the control unit in real time.

The marine gas leakage detection device includes a suction device that sucks the gas collected by the gas collection part and guides the gas to the gas detection part.

The marine gas leakage detection device includes a supply device for supplying external air to the gas collection part.

The supply device further includes an air inflow part for guiding the outside air to the gas collecting part.

The gas collecting unit includes a body having a predetermined space for collecting the gas and a support member formed at the lower end of the body.

Embodiments of the present invention can detect gas leakage of a gas pipe buried in the ground of a shipyard in advance and prevent loss of life and property caused by a gas pipe explosion.

Embodiments of the present invention can minimize the expense of maintenance and maintenance of the gas pipe due to preventive maintenance activity through detection of abnormality signs and can conveniently monitor the gas leakage through a gas leak detection device provided in real time .

1 is a schematic diagram illustrating a marine gas leakage detection device according to an embodiment of the present invention.
FIG. 2 is an operational state view of a marine gas leakage detection device according to an embodiment of the present invention; FIG.

Preferred embodiments of the present invention will now be described in detail with reference to the accompanying drawings. 1 is a schematic diagram of a marine gas leakage detection apparatus according to an embodiment of the present invention.

Referring to FIG. 1, a marine gas leakage sensing apparatus 1 includes a gas collecting unit 100 for collecting gas leaking from a gas pipe 10, a gas collecting unit 100 for collecting gas collected in the gas collecting unit 100, A gas sensing part 300 for sensing whether gas is guided through the gas guiding part 200, a control part 400 for receiving a signal sensed by the gas sensing part, And an integrated management unit 500 for providing the manager with data transmitted from the control unit 400 in real time.

The gas collecting unit 100 includes a body 101 and a support base 102 so as to collect the gas leaked from the sand layer or the upper soil layer through which the gas pipe 10 passes.

The body 101 is installed around a flange 11 connecting a plurality of gas pipes 10 having a predetermined length to the gas pipe 10 and collecting gas leaking from the flange 11.

The body 101 is installed at a predetermined distance from the flange 11 of the gas pipe 10 and the upper side, lower side, and inside side of the body 101. So that the gas leaked by the peripheral pressure or the like through the space of the body 101 is easily guided to the gas guiding part 200.

The support base 102 is installed at the lower end of the body 101 to prevent the gas pipe 10 from being damaged or pressed by an external external force.

The gas collecting part 100 is repeatedly installed only in a section where the flange 11 connecting the gas pipe 10 is formed.

The gas guiding unit 200 is installed from the body 101 to the gas sensing unit 300 so that the gas collected in the gas collecting unit 100 is guided to the outside through a pipe, It is unnecessary to install a power cable for supplying the power of the gas sensing unit 300 and the integrated management unit 500 when the gas is guided to the outside and measured through the gas sensing unit 300, It is unnecessary to install a cable for data transmission collected in the integrated management unit 500 and to exclude the need to perform a hoisting operation to install the gas sensing unit 300 and the integrated management unit 500 Interference with a moving object or the like does not occur.

The suction device 600 may be installed as shown in FIG. 1 in order to suck the gas trapped by the gas trapping part 100 and forcibly guide the gas to the gas sensing part 300.

The suction device 600 is provided with a pump (not shown) that drives the gas guiding part 200 to suck air mixed with the gas, and a valve (not shown) that passes or blocks the air. At least one or more of the pumps may be provided.

A supply device 700 may be installed as shown in FIG. 1 to supply external air to the gas collecting part 100.

The supply device 700 is provided with a fan (not shown) and a valve (not shown) for passing or blocking external air so that external air is supplied to the gas collecting part 100. At least one or more of the fans may be provided.

When the air in the gas trapping unit 100 is constantly guided through the suction device 600, the supply device 700 may be provided with a predetermined amount of external air to be guided without being disturbed by the internal pressure Air is supplied to the gas collecting unit 100 to maintain the pressure constant.

An air inflow part 800 may be installed as shown in FIG. 1 to guide outside air to the gas collecting part 100.

The air inflow part 800 is connected from the gas collecting part 100 to the supplying device 700 in the form of a pipe and guides the outside air to the gas collecting part 100 through the supplying device 700.

Gas sensing unit 300 to measure the concentration of the air sucked through a is provided to sense for leakage of gas, the suction device 600 is guided through the gas guide portion (200), CO _2, O _2, Ar, LPG, or the like, to the controller 400. The control unit 400 receives the signal from the controller 400,

The control unit 400 is installed to receive a gas leakage detection signal sensed by the gas sensing unit 300. The control unit 400 receives a sensing signal from the gas sensing unit 300 to measure the gas concentration, To the management unit 500.

The control unit 400 controls the suction unit 600 and the supply unit 700 so that the pressure in the gas collection unit 100 can be maintained constant.

The integrated management unit 500 is installed to provide the manager with the data transmitted from the control unit 400 in real time and monitors the current state of the gas pipe 10 in real time based on the data collected by the control unit 400 An emergency alarm transmission function to the manager when a gas leak is detected, and data of the gas pipe 10 can be stored in a database to manage the position of the pipe, periodical inspection, and timing of replacing the gas pipe.

The operating state of the gas leakage detection device for a ship according to one embodiment of the present invention will be described with reference to the drawings.

Referring to FIG. 2, the gas leakage sensing apparatus 1 includes a gas inducing unit 600 that induces air in the gas collecting unit 100 to the gas inducing unit 200, To the sensing unit (300).

The gas sensing unit 300 measures the concentration of the air introduced from the gas induction unit 200 to measure and sense whether or not the air is mixed with the gas. At this time, when the measured air is not mixed with the gas, the air sucked through the suction device 600 is discharged to the outside through a discharge port (not shown).

When the gas is mixed in the air introduced from the gas collecting part 100, the concentration of air is measured in the gas sensing part 300 to detect whether or not various kinds of gas leaks such as CO ₂ , O ₂ , Ar, LPG, And transmits the signal to the control unit 400.

The control unit 400 receives the gas leakage detection signal sensed by the gas sensing unit 300 and measures the concentration of the gas. The control unit 400 controls the integrated management unit 500 to collect collected data such as the gas detection time and the measured gas amount And supplies the outside air by driving the supplying device 700 so that the air mixed with the gas is continuously supplied toward the gas guiding part 200 while maintaining the pressure of the gas collecting part 100 constant.

The integrated management unit 500 displays the data of the collected data in the control unit 400 as a database to determine the gas leakage time and position identification information and the leakage position and displays information such as the detection amount and the detection time on a monitor, Lt; / RTI >

The manager grasps the point of the gas pipe 10 where the current gas leaks at the gas detection time and the measured gas amount displayed on the monitor of the integrated management unit 100 and sounds an emergency alarm so that people around him can hear it.

When the manager notifies the worker waiting on the ground, the worker immediately dispatches the worker to shut off the gas supply device on the ground, and checks the gas pipe 10 where the gas is leaking, and performs maintenance and replacement work.

By using the above method, it is possible to control the current status of the gas pipe in real time as well as manage the periodical inspection of the facility and the timing of replacing the gas pipe by installing semi-permanently in a place where gas leakage is dispersed and risk or leakage is expected. The manager can immediately detect the gas pipe leaks, which can reduce the risk of gas explosion major accidents.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, You will understand. For example, a person skilled in the art can change the material, size and the like of each constituent element depending on the application field or can combine or substitute the embodiments in a form not clearly disclosed in the embodiments of the present invention, Of the range. Therefore, it should be understood that the above-described embodiments are to be considered in all respects as illustrative and not restrictive, and that such modified embodiments are included in the technical idea described in the claims of the present invention.

1: Gas leakage detection device 10: Gas pipe
11: flange 100: gas collecting part
101: body 102: support
200: gas induction unit 300: gas sensing unit
400: control unit 500: integrated management unit
600: Suction device 700: Feeder
800: air inlet

Claims (5)

A gas leakage detecting apparatus for detecting whether or not a gas leaked from a plurality of gas pipes buried in the ground of a shipyard and flowing various gases,
The gas leakage detection device includes:
A gas trapping portion for trapping gas leaked from the gas pipe;
A gas guiding part for guiding the gas collected by the gas collecting part to the outside;
A gas sensing unit for sensing whether the gas guided through the gas guiding unit leaks;
A control unit receiving a signal sensed by the gas sensing unit; And
And an integrated management unit for providing data transmitted from the control unit to the manager in real time.
The method according to claim 1,
The marine gas leak detection device includes:
And a suction device for sucking the gas collected by the gas collecting part and guiding the collected gas to the gas sensing part.
The method according to claim 1,
The marine gas leak detection device includes:
And a supply device for supplying external air to the gas collecting part.
The method of claim 3,
The feeding device includes:
Further comprising an air inflow section for guiding the outside air to the gas collecting section.
The method according to claim 1,
The gas collecting unit includes:
A body having a predetermined space for collecting the gas; And
And a support member formed at the lower end of the body.

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