KR102292692B1 - Shock-absorbing Device of Free-fall Lifeboat - Google Patents

Abstract

It relates to a shock mitigating device for a free-fall type lifeboat, comprising: a davit on which a free-fall lifeboat is installed; a bubble generating unit installed on one side of the pontoon of the offshore structure, generating bubbles during free fall of the lifeboat to alleviate the impact applied to the lifeboat; By providing a control unit that generates air bubbles in the bubble generating unit according to the signal of the departure detecting unit, it is possible to reduce the density of seawater in the acquisition area of the lifeboat to alleviate the shock caused by the acquisition of the lifeboat, and to reduce the shock caused by the acquisition of the lifeboat As a result, it is possible to reduce damage to crew members on board the lifeboat, and it is possible to reduce the damage or breakdown of the lifeboat due to the impact of the lifeboat.

Description

Shock-absorbing Device of Free-fall Lifeboat

The present invention relates to a shock-reducing device for a free-fall type lifeboat, and more particularly, to a shock-reducing device for a free-fall type lifeboat that relieves the shock applied to the lifeboat when the lifeboat freely falls due to an emergency of a ship. .

In general, marine structures such as FPSO/FSRU and all ships working at sea are equipped with lifeboats to ensure the safety of crew members when there is a risk of internal explosion. And in the normal operating environment, lifeboats are generally installed at a high position to prevent damage by waves.

However, if the lifeboat starts a free fall to escape in an emergency, an impact may be applied to the hull due to the acquisition speed, and damage to the hull and the safety of the occupants may be threatened.

Therefore, it is necessary to maintain an appropriate falling speed at a low speed. The lifeboat should fall below a certain speed, and it should be easy to escape by separating it from the speed reducer at any time.

In such a vessel (hereinafter, including 'marine structures'), it is essential to install a lifeboat for the evacuation of crew members or passengers in an emergency. This makes it possible for the crew and passengers to escape.

On the other hand, there are various types of lifeboats, and they are largely divided into two types according to the method of obtaining the lifeboat. First, there is a davit launchable type lifeboat, and secondly, a free fall type lifeboat There is a lifeboat. Here, the lifeboat of the free fall method is a method of getting to the surface of the water and advancing from the water by potential energy to float to the surface.

For example, Patent Document 1 below discloses a 'lifeboat'.

The lifeboat according to Patent Document 1 includes a hull, a ceiling panel covering the upper part of the hull, an upper plate and a lower plate interconnected by a refractive connection part, and the upper end of the upper plate is refractably connected to the side end of the ceiling panel, and the Two side panels at which the lower end of the lower plate is refractably connected to the hull; and a cover part having a rear cover part made of a bendable material to cover the opening between the rear ends of the panel, and a support device capable of supporting the cover part in an unfolded state.

The following Patent Document 2 discloses a 'wing-attached lifeboat'.

A wing-attached lifeboat according to Patent Document 2 is a lifeboat disposed on a ship, and a folding wing that is installed to be deployed to the outside with respect to the lifeboat, the folding wing is accommodated in a folded state, and the foldable when escaping in an emergency It is provided with a detachment control unit for disengaging the folding wing from the lifeboat and the deployment control unit to expand the wing to the outside.

Korean Patent Publication No. 10-2013-0054531 (published on May 27, 2013) Korean Patent Publication No. 10-2014-0036732 (published on March 26, 2014)

However, the lifeboat according to the prior art 1 has the advantage of being able to use the cover part unfolded when in use by fixing both sides, the front and the rear by a support device, but there is a problem that the shock applied to the hull of the lifeboat cannot be alleviated during free fall. there was.

In addition, the wing-attached lifeboat according to the prior art 2 can reduce the speed of free fall by the wing installed on the hull of the lifeboat, but when the drop height of the lifeboat is low or when the wind (wind direction) is severe, the lift of the wing is insufficient Thus, there was a problem that not only could an impact be applied to the hull of the lifeboat when falling, but also that the center of gravity could not be maintained when the lifeboat was acquired.

It is an object of the present invention to solve the above problems, and to provide a shock mitigating device for a free-falling lifeboat that reduces the density of seawater upon acquisition of a free-falling lifeboat to alleviate the impact applied to the hull.

In order to achieve the above object, the shock alleviation device of the free-falling lifeboat according to the present invention is provided with an antenna for sending a signal by detecting the separation of the free-falling lifeboat on the davit, the free-falling lifeboat is installed on the davit. departure detection unit; a bubble generating unit installed on one side of the pontoon of the offshore structure, generating bubbles during free fall of the lifeboat to alleviate the impact applied to the lifeboat; and a control unit for generating bubbles in the bubble generating unit according to the signal of the departure detecting unit.

The departure detection unit is a detection sensor for detecting the separation of the free-fall lifeboat; and an antenna for transmitting the signal of the detection sensor to the control unit.

The bubble generating unit is a bubble injector installed on the outside of the pontoon; It characterized in that it comprises; an air supply for supplying the air injected from the bubble injector.

a storage container in which air is stored to be supplied to the air supply; It characterized in that it further comprises a power supply for supplying power to the air supply.

The bubble injector may include: a supply pipe connected to supply air from the air supply; a plurality of branch pipes branching from the supply pipe; and a plurality of nozzles installed at regular intervals so that the air supplied from the supply pipe is ejected.

The branch pipe is installed at the drop point of the lifeboat, and is characterized in that it is formed in a 'C' shape with one side open so that the obtained lifeboat is moved.

The control unit is characterized in that it comprises a receiving antenna for receiving the signal transmitted from the departure detection unit.

As described above, according to the shock alleviation device of the free-fall type lifeboat according to the present invention, it is possible to reduce the density of seawater in the acquisition area of the lifeboat to alleviate the shock caused by the acquisition of the lifeboat, and by reducing the shock according to the acquisition of the lifeboat. It is possible to reduce the damage to the crew on board the lifeboat, and the effect of reducing the damage or breakdown of the lifeboat due to the impact of the lifeboat is obtained.

1 is a configuration diagram showing a shock mitigating device of a free-fall type lifeboat according to a preferred embodiment of the present invention;
Figure 2 is a plan view showing the bubble generator of the shock alleviation device of a free-fall type lifeboat according to a preferred embodiment of the present invention.

Hereinafter, a shock alleviation device for a free-fall type lifeboat according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram showing a shock alleviation device for a free-fall type lifeboat according to a preferred embodiment of the present invention, and FIG. am.

The shock alleviation device of the free-falling lifeboat according to a preferred embodiment of the present invention detects the separation of the free-falling lifeboat 5 to the davit 11, the davit 11 in which the free-falling lifeboat 5 is installed, and signals Departure detection unit 10 provided with an antenna 13 for transmitting; a bubble generating unit 20 installed on one side of the pontoon (2) of the offshore structure, which generates air bubbles during free fall of the lifeboat (5) to alleviate the impact applied to the lifeboat (5); It includes;

The shock alleviation device of the free-fall type lifeboat according to an embodiment of the present invention reduces the density of seawater by generating a large amount of air bubbles at the point of acquisition of the lifeboat 5 when the free-falling lifeboat is obtained to reduce the impact applied to the lifeboat 5 will reduce

As shown in FIGS. 1 and 2 , a lifeboat 5 that can be evacuated in an emergency is installed in the offshore structure 1 , and the lifeboat 5 is installed on the offshore structure 1 .

The lifeboat 5 is installed inclined at a predetermined angle to the davit 11, and the davit 11 is installed on the upper part of the offshore structure 1 in order to stably install the lifeboat 5.

The davit 11 is provided with a departure detection unit 10 for detecting the separation of the lifeboat 5 together with the lifeboat 5, and the departure detection unit 10 is installed on the davit 11 to separate the lifeboat 5 It includes a detection sensor 12 for detecting and an antenna 13 for transmitting a signal detected by the detection sensor 12 .

The detection sensor 12 is to detect that the lifeboat 5 is separated from the davit 11, a distance detection sensor or a photo sensor for detecting whether the lifeboat 5 is installed may be used.

In addition, the antenna 13 transmits the signal detected by the detection sensor 12 to the control unit 30 . The antenna 13 transmits the detection signal of the detection sensor 12 wirelessly, but the detection sensor 12 may be connected to the controller 30 by wire.

A pontoon 2 is installed in the lower part of the offshore structure 1 to maintain a floating state on the water surface, and the impact when the lifeboat 5 is obtained is outside the pontoon 2 , that is, at the drop point of the lifeboat 5 . In order to reduce the bubble generation unit 20 is installed.

The bubble generating unit 20 supplies air to the bubble injector 21 installed at the drop point of the lifeboat 5, the air supply 25 that supplies air to the bubble injector 21, and the air supply 25. It includes a storage container 26 and a power supply device 27 for supplying emergency power.

The power supply device 27 is provided to supply power to the departure detection unit 10 , the bubble generating unit 20 and the control unit 30 when power cannot be supplied from the offshore structure 1 .

The power supply device 27 may use an emergency power supply device or a battery.

The bubble injector 21 is installed at the acquisition point of the lifeboat 5 to generate bubbles, and is installed at the falling point of the lifeboat 5 . Here, since the lifeboat 5 slides down along the davit 11 and falls, the drop point is dropped to a position separated by a predetermined distance from the davit 11 .

That is, since the davit 11 is installed while maintaining the set angle, the drop point of the lifeboat 5 is obtained by falling to a predetermined position even when the offshore structure 1 sinks.

Accordingly, the bubble injector 21 of the bubble generating unit 20 is installed at a set position, which is installed to have a wide area around the falling point of the lifeboat 5 .

The bubble injector 21 is installed on the outside of the pontoon 2 , and is installed at a location separated from the pontoon 2 by a predetermined distance.

The bubble injector 21 has a substantially 'C' shape, and a supply pipe 22 receiving air from the air supply 25 is connected to one side thereof.

A plurality of branch pipes 23 are connected to the tip of the supply pipe 22, and the branch pipes 23 may be formed in a 'C' shape so that the lifeboat 5 can operate after the lifeboat 5 is obtained. .

The branch pipe 23 is a first branch pipe (23a) branched from the tip of the supply pipe (22), a second branch pipe (23b) and a third branch pipe connected to both ends of the first branch pipe (23a) (23c) may consist of.

In addition, a plurality of nozzles 24 are installed in the branch pipe 23 at regular intervals to generate bubbles while the air supplied from the air supply unit 25 is ejected.

In addition, an air supply 25 for supplying air to the bubble injector 21 is installed inside the pontoon 2 , and a storage container 26 for supplying air to the air supply 25 is installed.

The air supply 25 is to supply air to the bubble injector 21 with the fall of the lifeboat 5, a compressor or the like may be used. A storage container 26 in which air is stored may be installed in the air supply 25 so that air is sufficiently supplied.

The storage container 26 may not be installed as long as it can sufficiently supply the pontoon 2 or external air.

A control unit 30 for controlling the departure detection unit 10 and the bubble generation unit 20 is provided, and the control unit 30 is provided with an antenna 31 for receiving a signal detected by the departure detection unit 10 .

Next, the coupling relationship of the shock alleviation device of the free-fall type lifeboat according to a preferred embodiment of the present invention will be described in detail.

The shock alleviation device of the lifeboat during free fall according to an embodiment of the present invention installs the davit 11 on the upper part of the offshore structure 1, and the free-fall lifeboat 5 is installed on the davit 11.

The free-fall lifeboat 5 is installed to be inclined at a predetermined angle, and when the lifeboat 5 is separated from the davit 11, it is free-falling to the sea level.

A detection sensor 11 for detecting the lifeboat 5 is installed in the davit 11 , and an antenna 13 for transmitting a signal of the detection sensor 11 to the control unit 30 is installed.

The bubble generating unit 20 installs a bubble injector 21 that lowers the density of seawater on the outside of the pontoon 2, and installs an air supply 25, a storage container 26 and a power supply device 27 to the pontoon ( 2) is installed inside.

The bubble injector 21 is installed at the falling point of the lifeboat 5, and has a size larger than the acquisition area formed in a predetermined range so as not to collide when the lifeboat 5 is obtained. That is, the bubble injector 21 forms a supply pipe 22 connected to the air supply unit 25 , and connects the first branch pipes 23a branching to both sides to the supply pipe 22 .

In addition, a second branch pipe (23b) and a third branch pipe (23c) are connected to the tip of the first branch pipe (23a), respectively, and these branch pipes (23) have a nozzle (24) for spraying air bubbles toward the ingestion area. to install

The air supply 25 is installed to supply air to the supply pipe 22 of the bubble injector 21, and a storage container 26 in which compressed air is stored so as to supply a larger amount of air to the air supply 25 and Connect.

In addition, a power supply unit 27 for supplying power to the air supply unit 25 is installed, and a control unit 30 for controlling the air supply unit 25 , the storage container 26 and the power supply unit 27 is installed.

An antenna 31 for receiving a signal transmitted from the departure detection unit 10 is installed in the control unit 30 .

Next, with reference to Figures 1 and 2 will be described in detail the operating method of the shock alleviation device of the free-fall type lifeboat according to a preferred embodiment of the present invention.

As shown in FIGS. 1 and 2 , the shock alleviation device for a free-fall type lifeboat according to an embodiment of the present invention is an emergency escape using the lifeboat 5 when an accident such as a sinking of the offshore structure 1 or a fire occurs. will do

That is, the crew separates the lifeboat 5 from the davit 11 while riding the lifeboat 5, and the lifeboat 5 separated from the davit 11 is free-falling to the sea level.

As the lifeboat 5 is separated from the davit 11, the detection sensor 12 detects the departure of the lifeboat 5, and the detection sensor 12 is the lifeboat 5 separated from the davit 11. The received signal is sent to the antenna 13 .

The antenna 13 receives the signal from the detection sensor 12 and sends it to the antenna 31 connected to the control unit 30 , and the antenna 31 receives the signal and sends it to the control unit 30 .

The control unit 30 sends a control signal to the air supply 25 according to the free fall of the lifeboat 5 and also sends a control signal to the storage container 26 and the power supply device 27 .

Accordingly, the air supply 25 sends air to the bubble injector 21, and the bubble injector 21 injects the air supplied through the supply pipe 22 through the nozzle 24 of the branch pipe 23. do.

As the high-pressure air is injected through the nozzle 24 in this way, the branch pipe 23 injects the high-pressure air toward the ingestion area, and a large amount of air bubbles are generated at the sea level by the injection of the air.

In addition, the control unit 30 sends the compressed air stored in the storage container 26 to the air supply 25 , and the control unit 30 supplies power necessary for driving the air supply 25 , etc.

Since the bubble injector 21 surrounds one side of the ingestion area in an open form, a large amount of air bubbles are generated in the acquisition area, which is the drop point of the lifeboat 5, to lower the density of seawater.

Accordingly, when the free-falling lifeboat 5 is obtained, air bubbles collide with the seawater in the lifeboat 5 to alleviate the impact applied to the lifeboat 5 .

Although the invention made by the present inventors has been described in detail according to the above embodiments, the present invention is not limited to the above embodiments and various modifications can be made without departing from the gist of the present invention.

1: Offshore structure 2: Pontoon
5: Lifeboat 10: Departure detection unit
11: debit 12: sensor
13: antenna 20: bubble generating unit
21: bubble injector 22: supply pipe
23: branch pipe 24: nozzle
25: air supply 26: storage container
27: power supply 30: control unit
31: antenna

Claims (7)

Deviation detection unit 10 provided with an antenna 13 that detects the separation of the free-fall lifeboat 5 to the davit 11, the free-fall lifeboat 5 is installed, and sends a signal to the davit 11;
a bubble generating unit 20 installed on one side of the pontoon 2 of the offshore structure 1 and generating air bubbles during free fall of the lifeboat 5 to alleviate the impact applied to the lifeboat 5;
Including a;
The bubble generating unit 20 is
Bubble injector 21 installed on the outside of the pontoon (2);
Including; and an air supply 25 for supplying air injected from the bubble injector 21.
The bubble injector 21 is
a supply pipe 22 connected to supply air from the air supply unit 25;
a plurality of branch pipes (23) branching from the supply pipe (22);
A plurality of nozzles 24 installed at regular intervals so that the air supplied from the supply pipe 22 is ejected; includes;
The branch pipe 23 is
It is installed at the drop point of the lifeboat (5), and the free-fall type lifeboat impact relief device, characterized in that it has a 'C' shape with one side open so that the obtained lifeboat 5 can be moved.
According to claim 1,
The departure detection unit 10 is
a detection sensor (12) for detecting the separation of the free-fall lifeboat (5);
Antenna (13) for transmitting the signal of the detection sensor (12) to the control unit (30); Free-fall type lifeboat shock alleviation device comprising a.
According to claim 1,
a storage container 26 for storing air to be supplied to the air supply 25;
The shock alleviation device of the free-fall lifeboat, characterized in that it further comprises a power supply (27) for supplying power to the air supply (25).
According to claim 1,
The control unit 30 is a shock alleviation device of the free-fall type lifeboat, characterized in that it comprises a receiving antenna (31) for receiving the signal transmitted from the departure detection unit (10). delete delete delete

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