KR101987984B1 - Apparatus for reducing flooding for ship - Google Patents

Abstract

An immersion reduction apparatus of a ship of the present invention is disclosed. According to an aspect of the present invention, there is provided a sealing case comprising: a sealing case which is formed to be hermetically sealed and disposed in an enclosed space between an outer wall of a ship and an inner wall forming a storage tank to partition the enclosed space; A pressure sensor for detecting a pressure of the sealing case; A control unit for receiving a signal from the pressure sensor and comparing the detected signal with a predetermined reference value to transmit a control signal; And an air input / output unit, which is controlled by the control unit and is connected to the sealing case and controls the inflow and outflow of air into the sealing case, wherein the sealing case has a thermal deformation The water immersion reduction apparatus of the ship which maintains the state of being in close contact with the storage tank during expansion or contraction according to the present invention can be provided.

Description

Technical Field [0001] The present invention relates to an apparatus for reducing flooding,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an inundation reducing apparatus for a ship, and more particularly, to an inundation reducing apparatus for a ship capable of improving the stability of a ship by reducing a flood area generated in a ship of a single tank.

Generally, a ship has a storage tank (storage tank) capable of storing fuel, and liquid cargo such as petrochemical products is stored, stored and transported in the storage tank. This storage tank may be divided into a plurality of vessels or installed in a single tank. When installed as a single tank, it is advantageous in that it is cheaper than the case of dividing into a plurality of units.

If such a ship is struck or stranded on a reef, culvert or marine structure during service or berth, hull penetration may occur. Due to the hull piercing, seawater flows into the enclosed space between the outer wall of the ship and the storage tank, flooding occurs, and in serious cases, the ship sinks. In this case, when a plurality of storage tanks are installed on the ship, the storage tanks are divided by the watertight bulkheads, so that only the area of the damaged compartment is flooded when the ship is broken.

However, in the case of a ship having a single storage tank, there is a problem of stability of the ship because the ship is sunk as the entire enclosed space in the ship is submerged. In order to solve such a problem, it has been attempted to provide a partition wall capable of partitioning the closed space in the hull. However, it is difficult to enter the closed space and weld the storage tank and the bulkhead. Further, as the partition wall is fixed to the hull and the storage tank by welding, there is a problem that the joint between the partition wall and the storage tank and the hull is damaged due to thermal deformation (shrinkage and expansion) of the storage tank.

The ship immersion reduction apparatus according to an embodiment of the present invention not only shrinks and relaxes corresponding to the thermal deformation of the storage tank but also maintains the airtightness of the compartmented space, .

According to an aspect of the present invention, there is provided a sealing case comprising: a sealing case which is formed to be hermetically sealed and disposed in an enclosed space between an outer wall of a ship and an inner wall forming a storage tank to partition the enclosed space; A pressure sensor for detecting a pressure of the sealing case; A control unit for receiving a signal from the pressure sensor and comparing the detected signal with a predetermined reference value to transmit a control signal; And an air input / output unit, which is controlled by the control unit and is connected to the sealing case and controls the inflow and outflow of air into the sealing case, wherein the sealing case has a thermal deformation The water immersion reduction apparatus of the ship which maintains the state of being in close contact with the storage tank during expansion or contraction according to the present invention can be provided.

In addition, a sealing member may be further provided on the sealing case so as to be in close contact with the inside of the outside wall and the outside of the inside wall.

In addition, the sealing case may be formed in a tube shape that is arranged at a predetermined interval in the longitudinal direction of the storage tank and surrounds the outer circumferential surface of the storage tank.

In addition, the sealing case may further include a partition wall portion formed so as to partition a plurality of the inside along the circumferential direction.

Further, the air input / output unit may be connected to the inner space of the sealing case partitioned by the partition part, respectively.

The ship immersion reduction apparatus according to an embodiment of the present invention is provided with a partition structure for partitioning a closed space between an outer wall of a ship and an inner wall forming a storage tank so that even if the outer wall of the ship is broken, . Thus, there is an effect that the stability of the ship can be improved.

In addition, the submergence reducing apparatus has the effect of keeping the airtightness of the partitioned space and the stable coupled state by contraction and relaxation corresponding to thermal deformation of the storage tank.

In addition, the seal case can be kept in close contact with the storage tank through electronic control by the pressure sensor and the control unit, thereby maintaining the airtightness and preventing leakage of the seawater into the space partitioned when the air is introduced .

BRIEF DESCRIPTION OF THE DRAWINGS The present invention will be described in detail with reference to the following drawings, which illustrate preferred embodiments of the present invention, and thus the technical idea of the present invention should not be construed as being limited thereto.
1 is a side view showing a ship provided with a submergence reducing apparatus according to an embodiment of the present invention.
FIG. 2 is a view schematically showing a ship immersion reduction apparatus according to an embodiment of the present invention.
3 is a partial cutaway perspective view showing a state in which a flooded water reducing apparatus is installed in a closed space of a ship according to an embodiment of the present invention.
FIG. 4 is a view showing an operational state of a ship immersion reduction apparatus according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. The following embodiments are provided to fully convey the spirit of the present invention to a person having ordinary skill in the art to which the present invention belongs. The present invention is not limited to the embodiments shown herein but may be embodied in other forms. For the sake of clarity, the drawings are not drawn to scale, and the size of the elements may be slightly exaggerated to facilitate understanding.

FIG. 1 is a side view showing a ship provided with a submergence reducing apparatus according to an embodiment of the present invention, FIG. 2 is a view schematically showing a submergence reducing apparatus of the ship, FIG. 3 is a view showing a submergence reducing Fig.

1 to 3, a ship 10 having a submergence reducing apparatus 100 according to an aspect of the present invention includes an outer wall 12 constituting a hull 11 and an inner wall 12 forming a storage tank 13, (14), and a closed space (15) is formed between the outer wall (12) and the inner wall (14). At this time, the storage tank 13 may be configured as a Type-c cargo tank having a circular cross-sectional shape.

The submergence reduction apparatus 100 is installed in the closed space 15 to divide the closed space 15 in the longitudinal direction of the ship 10. More specifically, the immersion reduction apparatus 100 includes a sealing case 110 disposed in a closed space 15 and defining a closed space 15, a sealing member 120 provided in the sealing case 110, Output unit 130 for controlling inflow and outflow of air into and out of the case 110 and a pressure sensor 140 and a pressure sensor 140 for detecting the pressure of the sealing case 110. The air input / And a control unit 150 for controlling the unit 130. The immersion reduction apparatus 100 may be electronically controlled through the pressure sensor 130 and the control unit 150.

The sealing case 110 is disposed in a closed space 15 between the outer wall 12 and the inner wall 14 forming the storage tank 13. The sealing case 110 is formed to surround the outer circumferential surface of the storage tank 13 by being disposed at a predetermined interval in the longitudinal direction of the storage tank 13. That is, the overall shape of the sealing case 110 may be a tube shape having a ring shape, and the closed space 15 is partitioned in the longitudinal direction of the ship 10. The sealing case 110 has a function of partitioning the closed space 15 and maintaining a state of being in tight contact with the storage tank 13 during expansion or contraction due to thermal deformation of the storage tank 13. More specifically, the sealing case 110 bulges as air flows in through the air input / output unit 130, which will be described later, and is closely contacted with the outer wall 12 and the inner wall 14 to define the closed space 15. The sealing case 110 is installed in the closed space 15 so as to form a pressure therein so as to press the inner wall 14 and the outer wall 12 by a predetermined amount. Accordingly, leakage of seawater is prevented between the outer wall 12 and the sealing case 110, and between the sealing case 110 and the inner wall 14 when the sealed space 15 is submerged.

In addition, a sealing member 120 is installed in the sealing case 110 to more effectively prevent leakage of seawater between the compartments of the closed space 15 when the flooding occurs. The sealing members 120 are formed in a pair and are installed in the sealing case 110. As shown, each of the sealing members 120 has a ring shape having a predetermined area and is installed on the other side and one side of the sealing case 110, respectively. The sealing member 120 is closely attached between the sealing case 110 and the outer wall 12 and between the sealing case 110 and the inner wall 14 to prevent leakage of seawater. The sealing member 120 may be made of a flexible material such as rubber or silicone.

Meanwhile, the sealing case 110 may further include a partition wall part 114 such that the internal space 112 is divided into a plurality of spaces. 2, the partition wall portion 114 is provided in the sealing case 110 so that four internal spaces 112 are formed. This is achieved by finely adjusting the pressure in the sealing case 110 through the pressure sensor 140 and the control unit 150 to be described later, thereby finely and quickly realizing the airtightness and maintaining the airtightness through the pressure value detected from the pressure sensor 140 Monitoring benefits can be obtained. The sealing case 110 is formed to have four internal spaces 112 by the partition walls 114. However, the present invention is not limited to this, and the number of the partition walls 114 may be increased or decreased, 112 may be increased or decreased. Each of the plurality of internal spaces 112 may be independently connected to the air input / output unit 130 through the control unit 150.

The air input / output unit 130 generates compressed air to supply the compressed air to the sealing case 110 or to discharge the air in the sealing case 110. The air input / output unit 130 may be controlled by the control unit 150 according to the internal pressure of the sealing case 110 detected by the pressure sensor 140. The operation of the air input / output unit 130 by the controller 150 will be described below. The air input / output unit 130 may include an air injector 132 and a discharge valve 134 for injecting and discharging air into and from the sealing case 110. 2, the pneumatic injector 132 is connected to the sealing case 110 through a hose or a pipe to provide the air pressure to the sealing case 110 according to a signal from the controller 150. [ At this time, the pressure in the sealing case 110 is supplied with the air pressure through the pneumatic injector 132 so as to have a preset pressure value, which can be measured from the pressure sensor 140. Further, the discharge valve 134 operates to discharge the air in the sealing case 110 when the pressure in the sealing case 110 exceeds a threshold pressure, that is, raises the pressure in the sealing case 110 to a value higher than a predetermined pressure value. The air input / output unit 130 is connected to any one of the internal spaces 112 in the sealing case 110. However, as described above, the air input / Respectively, and can be independently controlled.

The pressure sensor 140 detects the pressure in the sealing case 110 and transmits the detected signal to the control unit 150. The pressure sensor 140 is installed in each of the internal spaces 112 divided to measure the pressure of each internal space 112 as the internal space 112 of the sealing case 110 is divided into a plurality of compartments .

The control unit 150 controls the air input / output unit 130. That is, the control unit 150 controls the air pressure injector 132 and the discharge valve 134 of the air input / output unit 130 to adjust the pressure in the sealing case 110. In addition, the controller 150 can independently control the pressures of the divided inner spaces 112 in the sealing case 110.

Meanwhile, although not shown, a circular internal shape is formed by providing a single storage tank 13 having a predetermined length and a circular shape in a circular shape, and a submerged angle reducing device 100) can be installed.

Hereinafter, an operation of the ship immersion reduction apparatus according to an embodiment of the present invention will be described with reference to FIGS. 1 to 4. FIG.

The air is supplied to the sealing case 110 provided in the closed space 15 between the outer wall 12 of the ship 10 and the storage tank 13 to supply air through the air input / . At this time, the pressure in the sealing case 110 has a predetermined pressure value, and the pressure in the sealing case 110 can be detected by the pressure sensor 140.

The sealing case 110 separates the closed space 15 and the pressure in the sealing case 110 changes when the storage tank 13 is expanded or contracted due to thermal deformation of the storage tank 13 in a state of being in close contact with the storage tank 13 do. 4 (a), when the storage tank 13 expands, the sealing case 110 increases the internal pressure by the pressure of the inner wall 14 forming the storage tank 13 do. This pressure change is detected by the pressure sensor 140, and the detected signal is transmitted to the controller 150.

The control unit 150 compares the preset reference value with the pressure value in the sealing case 110 through the signal received from the pressure sensor 140. That is, when the pressure value in the sealing case 110 increases as compared with the reference value, the discharge valve 134 of the air input / output unit 130 is controlled to reduce the pressure in the sealing case 110 by a certain amount. At this time, it is obvious that the airtightness should be maintained so that the closed space 15 is partitioned through the sealing case 110 even if the pressure in the sealing case 110 is reduced.

4 (b), when the storage tank 13 is contracted, air is supplied to the sealing case 110 through the air input / output unit 130 as the pressure of the sealing case 110 is reduced. So as to increase the pressure in the sealing case 110.

As described above, by sensing the pressure change of the sealing case 110 due to the expansion or contraction of the storage tank 13 due to thermal deformation, air can be discharged or injected to maintain the state of being in tight contact with the storage tank 13 do. Therefore, the sealed space 15 can be stably partitioned through the sealing case 110, and the airtightness can be maintained. It should be noted that the sealing case 110 can reduce the water immersion area by partitioning the sealed space 15 even if the ship 10 is damaged during the operation of the ship 10 or the ship 11 is broken and the seawater flows into the sealed space 15 Of course, it is possible to improve sinking prevention and restoration of the ship 10 accordingly.

Although the sealing case 110 has been described as being provided on the center side of the storage tank 15 to divide the closed space 15 into two parts, the present invention is not limited thereto. The length of the storage tank 13 A plurality of sealing cases 110 may be connected to the air input / output unit 130 and controlled by the control unit 150. The plurality of sealing cases 110 may be divided into three or more.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. It will be understood that various modifications and changes may be made without departing from the scope of the appended claims.

10: Ship 12: Outer wall
14: inner wall 15: sealed space
100: Submergence abatement device 110: Sealing case
112: inner space 114: partition wall portion
120: sealing member 130: air inlet /
132: air pressure injector 134: discharge valve
140: pressure sensor 150:

Claims (5)

A sealing case which is formed to be hermetically sealed inside and which is disposed in an enclosed space between an outer wall of the ship and an inner wall forming a storage tank to partition the enclosed space;
A pressure sensor for detecting a pressure of the sealing case;
A control unit for receiving a signal from the pressure sensor and comparing the detected signal with a predetermined reference value to transmit a control signal; And
And an air input / output unit controlled by the control unit and connected to the sealing case to control inflow and outflow of air into the sealing case,
The sealing case maintains a state of being in close contact with the storage tank during expansion or contraction due to thermal deformation of the storage tank due to inflow and outflow of air,
Wherein the sealing case is formed in an annular tube shape surrounding the outer circumferential surface of the storage tank and is disposed at a predetermined interval in the longitudinal direction of the storage tank. The method according to claim 1,
And a sealing member provided on the sealing case so as to be in close contact with the inner side of the outer wall and the outer side of the inner wall, respectively. delete 3. The method according to claim 1 or 2,
Wherein the sealing case further comprises a partition wall portion formed so as to be divided into a plurality of portions along the circumferential direction. 5. The method of claim 4,
Wherein the air input / output unit is connected to the inner space of the sealing case partitioned by the partition part.

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