KR101313165B1 - Ship having function of trespassing prevention - Google Patents

Abstract

A ship having a pirate intrusion prevention function is provided. The ship according to this embodiment has a hull; And it characterized in that it comprises a wave generating unit installed on the hull so that the waves occur in the side of the hull.

Description

Ship having function of trespassing prevention

The present invention relates to a ship, and more particularly to a ship having a pirate intrusion prevention function.

Recently, there has been an international problem of pirates taking aboard vessels operating in Somalia. In order to solve these problems, it is necessary to equip the vessels with the equipment against the pirates. However, it is a fact that there is a difficulty in defending against the pirates because domestic and foreign laws do not allow the vessels to equip them with weapons.

In general, pirates use small boats such as rubber boats to approach the stern or the side of the hull, and then hang ropes on the deck to hull the ship. Sailors aboard ships do not have weapons such as rifles, whereas pirates possess firearms, so once a pirate is on board, it is practically impossible to prevent the ship from being captured. Therefore, there is a need for a method for preventing pirates from invading the hull.

Embodiments of the present invention seek to provide a vessel configured to prevent intrusion of pirates.

According to an aspect of the present invention, there is provided a hull comprising: a hull; And it is provided with a ship having a pirate intrusion prevention function, including a wave generating unit installed on the hull so that waves are generated on the side of the hull.

At this time, the wave generator, a wave generating propeller disposed under the water surface, rotatably installed on the side of the hull; And it may include a propeller drive for providing a driving force to the wave generating propeller.

At this time, the wave generating propeller may be accommodated in the propeller receiving portion formed on the side of the hull.

Alternatively, the wave generation unit, the first nozzle portion disposed on the side of the hull, the first fluid is injected; And a first fluid supply part supplying the first fluid to the first nozzle part.

In this case, the first fluid may be any one of air, water, and ballast water accommodated in the hull.

Further, the vessel, the sensor unit for detecting the approach of the pirate ship; And a controller configured to receive the detection signal from the sensor unit and operate the wave generator.

On the other hand, the vessel is installed on the hull, it may further include a window member that is operable to protrude to the outside.

At this time, the hull may be formed with a window receiving portion that the window member is protrudingly received.

At this time, the window member is disposed in the window receiving portion, the support portion rotatably coupled to the hull around the axis of rotation in the vertical direction; And a sharp extension extending from the support, wherein the extension may protrude from the window receptacle as the window member rotates.

At this time, the end portion of the extension may be directed upward or downward.

Alternatively, the method may further include a window driving unit that provides a driving force for protruding the window member.

Further, the vessel, the sensor unit for detecting the intrusion of pirates; And a control unit for receiving the detection signal from the sensor unit to operate the window member.

On the other hand, the ship may further include a fluid injector disposed on the hull, for injecting a second fluid to block the approach of pirates.

In this case, the fluid injection unit, the second nozzle unit is disposed in the hull, the second fluid is injected; And a second fluid supply part supplying the second fluid to the second nozzle part.

Alternatively, the second fluid may be high pressure gas, high pressure water or asphyxiated gas.

Further, the vessel, the sensor unit for detecting the intrusion of pirates; And a controller configured to receive the detection signal from the sensor unit to operate the fluid injection unit.

On the other hand, disposed on the hull, it may include a flame radiator for radiating the flame to block the approach of pirates.

At this time, the sensor unit for detecting the intrusion of pirates; And a control unit for receiving the detection signal from the sensor unit to operate the flame radiator.

On the other hand, the vessel is hinged to the side of the upper deck of the hull, may further include a railing that operates to rotate the hinge to the side of the hull by an external force, further sensor unit for detecting the external force generated when the pirates invade ; And a control unit for receiving the detection signal from the sensor unit to operate the handrail.

On the other hand, the vessel is disposed on the hull, may further include a light source for emitting light to block the approach of the pirate, further comprising: a sensor unit for detecting the intrusion of pirates; And a controller configured to receive the detection signal from the sensor unit and operate the light source unit.

On the other hand, the vessel is disposed on the hull, may further include a noise generating unit for generating a noise to block the approach of the pirate, further comprising: a sensor unit for detecting the intrusion of pirates; And a control unit for receiving the detection signal from the sensor unit to operate the noise generator.

According to embodiments of the present invention, waves are generated on the side of the hull by the wave generating unit, and the pirate ship approaching the side of the hull is severely shaken by the waves, thereby preventing the pirate ship from approaching the side of the hull. In the first place, pirates are prevented from entering the ship from the pirate ship.

1 is a view as seen from the right side of a ship according to an embodiment of the present invention,
FIG. 2 is a view showing a part of AA section of FIG. 1. FIG.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Reference will now be made in detail to the preferred embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or corresponding parts throughout the several views, Is omitted.

1 is a view of the ship according to an embodiment of the present invention from the right side, Figure 2 is a view showing a part of the AA cross-section of FIG. Here, C _L of FIG. 2 means a centerline of the ship.

1 and 2, the ship 1 according to the present embodiment may include a hull 10 and a wave generator 20. According to the present embodiment as described above, waves are generated at the side of the hull 10 by the wave generator 20, and the pirate ship approaching the side of the hull 10 by these waves is severely shaken, whereby the pirate ship is hulled. Approaching the side of 10 is effectively blocked, and intrusion of pirates into the hull 10 from the pirate ship is effectively prevented.

The wave generator 20 is installed in the hull 10, and is formed so that the wave is generated on the side of the hull 10.

The wave generator 20 may include a wave generator propeller 21 and a propeller driver 22. Hereinafter, for convenience of description, the wave generator 20 configured as described above is referred to as a first wave generator 20a.

The wave generating propeller 21 is rotatably installed on the side of the hull 10. The wave generating propeller 21 may be disposed below the water surface. The wave generating propeller 21 may be accommodated in the propeller accommodation portion 14 formed at the side of the hull 10. Alternatively, the wave generating propeller may be exposed to the outside of the hull although not shown.

The wave generating propeller 21 may be formed in plural, and each wave generating propeller 21 may be spaced apart along the longitudinal direction of the hull 10.

The wave generating propeller 21 generates a flow W _{1 in a} direction away from the hull 10 during rotation. This flow W ₁ causes waves on the side of the hull 10 by disturbing the water surface.

The wave generating propeller 21 receives a driving force from the propeller driving unit 22. The propeller drive unit 22 may include a motor or an engine. The driving force of the propeller drive unit 22 is transmitted to the wave generating propeller 21 through the gear unit 23.

Alternatively, the wave generator 20 may include a first nozzle unit 26 and a first fluid supply unit 27. Hereinafter, for convenience of description, such a wave generator 20 is referred to as a second wave generator 20b.

The first nozzle portion 26 is disposed on the side of the hull 10. The first nozzle unit 26 injects the first fluid to the outside of the hull 10. In this case, the first nozzle unit 26 may be formed to spray the first fluid toward the water surface.

As illustrated in FIG. 2, the first nozzle unit 26 may be formed so as not to be exposed to the outside of the hull 10. Alternatively, although not shown, the first nozzle part may be formed to be exposed to the outside of the hull.

The first nozzle unit 26 may be located under the water surface as shown in FIG. 2. Alternatively, although not shown, the first nozzle unit may be positioned on the surface of the water.

The first nozzle unit 26 may be formed in plural, and each of the first nozzle units 26 may be spaced apart along the longitudinal direction of the hull 10.

The first fluid injected from the first nozzle unit 26 generates a flow W ₂ away from the hull 10. This flow W ₂ causes waves on the side of the hull 10 by disturbing the water surface.

The first fluid injected from the first nozzle part 26 is supplied by the first fluid supply part 27. The first fluid supply 27 can include a first fluid pump 28 and a first fluid line 29. The first fluid pump 28 pumps the first fluid stored in the first fluid reservoir (not shown) toward the first nozzle part 26. The first fluid pumped by the first fluid pump 28 moves through the first fluid line 29 to the first nozzle portion 26 side.

The first fluid can be air or water. In particular, when the first fluid is water, the first fluid may be the ballast water received in the hull 10. In this case, the number of ballasts contained in the hull 10 can be used as the first fluid, so that a separate reservoir for storing the first fluid is not necessary.

According to the present embodiment, the wave generator 20 includes both the first wave generator 20a and the second wave generator 20b as shown in FIGS. 1 and 2. However, this is only an example and the first wave generator 20a or the second wave generator 20b may be applied to the vessel 1 individually.

The vessel according to the present embodiment may further include a sensor unit (not shown) and a control unit (not shown). The sensor unit may detect a pirate ship approaching the hull 10 or detect a pirate invading the hull 10. For example, the sensor unit may include a radar 81 installed in the hull 10 to detect a pirate ship approaching the hull 10. Alternatively, the sensor unit may include a contact sensor (not shown) attached to the side of the hull 10 to detect pirates invading into the hull 10. In addition, various types of sensor units may be used.

The control unit receives the detection signal from the sensor unit. The controller may operate the wave generator 20 after receiving the detection signal from the sensor unit.

Meanwhile, the ship 1 according to the present embodiment may further include a window member 30. The window member 30 may be installed in the hull 10 to protrude outward. The window member 30 is normally accommodated in the hull 10 and operated to protrude outward in an emergency, such as when an unidentified ship carrying a pirate approaches the hull 10 or when a pirate intrudes into the hull 10. can do. According to this embodiment, the window member 30 protruding to the outside of the hull 10 can prevent the intrusion of pirates by directly injuring or threatening pirates to intrude into the hull 10.

The window member 30 may be installed on the side of the hull 10, which is a main intrusion path of the pirate, but is not limited thereto.

The window member 30 may be formed in plural. Each window member 30 may be spaced apart along the longitudinal direction of the hull 10.

The window member 30 may be accommodated in the window receiving portion 15 formed in the hull 10. The window accommodating part 15 is opened to the outside and accommodates the window member 30 so that it can protrude. The window receiving portion 15 may be formed in plurality in correspondence with the number of the window member 30, each window receiving portion 15 may be provided on the side of the hull (10).

According to this embodiment, the window member 30 comprises a support 31 and an extension 32. The support part 31 is disposed in the window accommodating part 15 and is rotatably coupled to the hull 10 about a vertical axis of rotation. The extension part 32 extends from the support part 31 and has a sharp shape. The window member 30 as shown in FIG. 2 may be formed in a U-shape as a whole, but is not limited thereto. The window member 30 is operated such that the extension part 32 protrudes outward from the window receiving part 15 as the support part 31 rotates.

As can be seen in FIG. 2, the window member 30 may be formed such that an end portion of the extension part 32 faces upward. In this case, the extension part 32 may threaten the pirates climbing the side of the hull 10 on the upper side of the extension part 32 or directly injure the pirates who have accidentally fallen off.

Alternatively, although not shown, the window member may be formed so that the end portion of the extension portion faces downward. In this case, the extension may threaten or directly injure pirates climbing the side of the hull by rope under the extension.

Alternatively, although not shown, the extension may be formed to be horizontal, and various modifications are possible.

According to the present embodiment, the window member 30 is generally U-shaped as shown in FIG. 2, and as the support part 31 rotates, the extension part 32 moves outward from the window receiving part 15. It works to protrude. However, although not shown, the window member may be formed so that the support portion and the extension portion form a straight line, and when the support portion disposed inside the hull is pushed outward, the sharp extension portion may be operated to protrude outward. In addition, the window member may be formed in various shapes, and may operate properly to such a shape to protrude out of the hull.

Furthermore, the ship 1 according to the present embodiment may further include a window driver 35 for providing a driving force to the window member 30. The window driver 35 may include a drive motor. The window driver 35 may be disposed on the hull 10. The window driver 35 may transmit a driving force to the window member 30 through the gear 36.

According to the present embodiment, the window member 30 may be operated by a controller (not shown). In this case, when the sensor unit (not shown) detects a pirate ship approaching the hull 10 or detects a pirate invading into the hull 10, the control unit (not shown) receives a detection signal of the sensor unit to display the window member 30. ).

On the other hand, the ship 1 according to the present embodiment may further include a fluid injector 40 for injecting a second fluid to block the approach of pirates. The second fluid injected by the fluid injection unit 40 is injected to the pirate to enter the hull 10 to prevent pirate access by injuring or choking the pirate. The second fluid may be high pressure gas, high pressure water or asphyxiation gas, but is not limited thereto.

The fluid injection part 40 may include a second nozzle part 41 and a second fluid supply part 43. The second nozzle part 41 may be disposed at the side of the hull 10. Alternatively, although not shown, the second nozzle unit may be disposed on the upper deck 11 of the hull 10.

The second nozzle part 41 injects the second fluid to the outside of the hull 10. The second nozzle unit 41 may be formed to spray the second fluid toward the water surface. In this case, the second fluid may be injected into the pirates coming up the side of the hull 10. In this case, the second nozzle part 41 may be formed to be exposed to the outside of the hull 10 as shown in FIG.

Alternatively, although not shown, the second nozzle part may be formed so as not to be exposed to the outside of the hull. In this case, the pirate who rides up the side of the hull 10 does not initially recognize the second nozzle portion. Thereafter, the second fluid may be injected into the pirate from the second nozzle portion at the moment when the pirate is exposed to the second nozzle portion. To this end, a sensor unit (not shown) capable of detecting that the pirate is exposed to the second nozzle unit may be disposed in an accommodation unit (not shown) in which the second nozzle unit is accommodated.

The second nozzle part 41 may be formed in plural, and each second nozzle part 41 may be spaced apart along the longitudinal direction of the hull 10.

The second fluid injected from the second nozzle part 41 is supplied by the second fluid supply part 43. The second fluid supply 43 may include a second fluid pump 44 and a second fluid line 45. The second fluid pump 44 pumps the second fluid stored in the second fluid reservoir (not shown) to the second nozzle part 41. The second fluid pumped by the second fluid pump 44 moves to the second nozzle portion 41 through the second fluid line 45.

According to the present embodiment, the fluid injection unit 40 may be operated by a controller (not shown). In this case, when the sensor unit (not shown) detects a pirate invading into the hull 10, the controller (not shown) may receive the detection signal of the sensor unit to operate the fluid injection unit 40.

Meanwhile, although not shown, the ship 1 according to the present embodiment may further include a flame radiator. The flame radiator may have a configuration similar to the fluid injection portion 40 described above. That is, the flame radiator may include a fuel injection nozzle unit for injecting fuel and a fuel supply unit for supplying fuel to the flame injection nozzle unit. The fuel injected from the fuel injection nozzle unit is ignited by the ignition device to generate a flame. The flame radiator configured as described above prevents pirate access by radiating a flame to pirates attempting to enter the hull.

In this case, the flame radiator may be operated by a controller (not shown). At this time, if the sensor unit (not shown) detects a pirate invading into the hull 10, the controller (not shown) may receive a detection signal of the sensor unit to operate the flame radiator.

Meanwhile, the ship 1 according to the present embodiment may further include a handrail 50 hinged to the upper deck 11 side of the hull 10. The handrail 50 is operated to maintain the standing state as usual, i.e., when there is no invasion of the pirate, and then hinge to the side of the hull 10 by external force. In general, pirates hook into the hull railings and enter the hull on ropes connected to the hooks. If the pirate hooks to the railing 50 according to the present embodiment and attempts to enter the hull 10 on a rope connected to the hook, the weight of the pirate acts as an external force on the railing 50 to the railing 50. Is hinged to the side of the hull (10). In this case, the pirate who climbed the side of the hull 10 falls from the hull 10.

The handrail 50 may be attached to and supported by the magnet part 52 supported on the upper deck 11 of the hull 10. The magnet part 52 may be disposed at an end portion of the support member 54 coupled to the upper deck 11. The magnet part 52 may include a permanent magnet or an electromagnet.

The magnet part 52 has a predetermined magnetic force such that the handrail 50 is separated from the magnet part 52 when an external force of a predetermined size is applied to the handrail 50. In particular, when the magnet part 52 includes an electromagnet, when an external force is applied to the handrail 50, the power supplied to the electromagnet is cut off, so that the handrail 50 may be separated from the magnet part 52. In this case, a sensor unit (not shown) installed in the railing 50, for example, a touch sensor (not shown) detects an external force, and a controller (not shown) receives a signal detected by the touch sensor and is supplied to the electromagnet. Power can be cut off.

On the other hand, there is a possibility that the sailor may fall due to the handrail 50 pivoting. In order to prevent this, a motion detection sensor (not shown) may be installed around the railing 50 to detect the motion of the human body. Such a motion detection sensor detects this when the source moves to the handrail 50. At this time, the controller (not shown) receives the signal detected by the motion sensor to prevent the power supplied to the electromagnet even if external force is applied to the handrail 50.

On the other hand, the ship 1 according to the present embodiment may further include a light source unit 60 for emitting light to block the approach of pirates. The light source unit 60 blocks the pirates by slowing the pirates' actions by radiating strong light to the pirates intruding into the hull 10.

The light source unit 60 may be disposed on the hull 10. In particular, the light source unit 60 may be disposed at an upper end of the linear inlet 12 disposed on the upper deck 11 of the hull 10. In this case, the light source unit 60 may be located at a higher position of the hull 10 to effectively radiate light to the pirates intruding into the hull 10.

In this case, the light source unit 60 may be operated by a controller (not shown). In this case, when the sensor unit (not shown) detects a pirate invading into the hull 10, the controller (not shown) may receive the detection signal of the sensor unit to operate the light source unit 60.

On the other hand, the ship 1 according to the present embodiment may further include a noise generating unit 70 for generating a noise to block the approach of pirates. The noise generator 70 provides a strong noise to the pirates intruding into the hull 10, thereby slowing the pirates' behavior to prevent the pirates from approaching.

The noise generator 70 may be disposed on the hull 10. In particular, the noise generating unit 70 may be disposed on the upper end of the ship dwelling port 12 disposed on the upper deck 11 of the hull 10. In this case, the noise generating unit 70 may effectively provide noise to pirates intruding into the hull 10 by being located at a higher position among the hulls 10.

In this case, the noise generator 70 may be operated by a controller (not shown). At this time, when the sensor unit (not shown) detects a pirate invading into the hull 10, the controller (not shown) may receive the detection signal of the sensor unit to operate the noise generator 70.

While the present invention has been described in connection with what is presently considered to be the most practical and preferred embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

10: Hull
20: wave generator
30: window member
40: fluid injection unit
50: handrail

Claims (24)

hull;
A wave generator installed on the hull to generate waves on the side of the hull; And
Is installed on the hull, and includes a window member that is operable to protrude outwards,
The wave generator,
A first nozzle unit disposed on the side of the hull and positioned below the surface of the water and spraying a first fluid; And
A first fluid supply part supplying the first fluid to the first nozzle part,
The hull is formed with a window accommodating portion in which the window member is projectably received,
The window member,
A support part disposed in the window accommodating part and rotatably coupled to the hull about a vertical axis of rotation; And
A sharp extension extending from the support,
And the extension portion protrudes from the window receiving portion as the window member rotates the support portion.
delete delete delete delete delete delete delete delete The method of claim 1,
An end portion of the extension portion is directed upward or downward, having a pirate intrusion prevention function.
delete delete The method of claim 1,
The ship having a pirate intrusion prevention function, characterized in that it further comprises a fluid injector disposed on the hull, for injecting a second fluid to block the access of pirates.
The method of claim 13,
The fluid injection unit,
A second nozzle unit disposed on the hull and into which the second fluid is injected; And
And a second fluid supply part for supplying the second fluid to the second nozzle part.
The method of claim 13,
The second fluid is a high pressure gas, high pressure water or asphyxiation gas, characterized in that the ship having a pirate intrusion prevention function.
delete The method of claim 1,
A ship having a pirate intrusion prevention function, characterized by comprising a flame radiator disposed on the hull and radiating a flame to prevent pirate access.
delete The method of claim 1,
And a railing hinged to a side of the upper deck of the hull, the rail being operative to pivot to the side of the hull by an external force.
20. The method of claim 19,
Sensor unit for detecting the external force generated when the pirates invade; And
And a control unit for receiving the detection signal from the sensor unit and operating the handrail.
The method of claim 1,
The ship having a pirate intrusion prevention function, characterized in that it further comprises a light source disposed on the hull, and emits light to block the approach of pirates.
delete The method of claim 1,
The ship having a pirate intrusion prevention function, characterized in that it further comprises a noise generating unit disposed on the hull, generating a noise to block the approach of pirates. delete

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