KR20150015962A - Adherence preventive apparatus of aquatic organisms for hull - Google Patents

Abstract

The present invention relates to an adherence preventing apparatus of aquatic organisms for a hull. More specifically, the present invention continuously prevents the aquatic organisms from being attached to the surface of the hull by UV radiation, having an outstanding effect of preventing adherence of the aquatic organisms, and allowing convenient use. According to the present invention, the adherence preventing apparatus of the aquatic organisms for the hull is fixated to a dock where the ship comes alongside and includes g a fixed-type UV emission unit emitting UV rays on the hull.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an aquatic organism for hull,

The present invention relates to an apparatus for preventing attachment of a marine organism to a marine organism, and more particularly to an apparatus for preventing marine organisms from attaching to a marine organism.

Generally, on the surface of ship's hull, aquatic organisms such as barnacles, urchins, serpula, mediterranean mussels, freshwater shells, water lilies, barracuda, . For example, the attachment of aquatic organisms to the hull increases the frictional resistance with seawater to lower the navigation speed of the ship and increase the fuel consumption, which is economically disadvantageous.

As a conventional technique for solving such a problem with aquatic organisms, Korean Patent Laid-Open No. 10-2011-0062248, which is a technology for a robot for cleaning a water moss and a barnacle attached to the underwater portion of a water surface of a ship, Ship's Underwater Cleaning Robot ", Korean Unexamined Patent Application Publication No. 10-2009-0035966, which prevents fouling on the lower part of a ship by lifting the net connected to the quay wall and the ship to the winch during the operation of the ship's quay, &Quot; Anti-fouling system "of Korean Patent Laid-Open No. 10-2010-0076193, which spray ballast water containing sterilizing material onto the surface of the hull, is provided.

However, such conventional apparatuses for preventing attachment of aquatic organisms have inconveniences due to difficulties in operation, and they have been unable to exhibit continuous effects due to one-time use.

The present invention has been made to solve the above-mentioned problems of the prior art, and it is an object of the present invention to continuously prevent the attachment of aquatic organisms to the surface of a ship by using UV, to provide an excellent effect of preventing adhesion of aquatic organisms, .

According to an aspect of the present invention, there is provided an apparatus for preventing attachment of a marine organism to a marine vessel, the marine organism including a fixed UV emitting unit fixed to a side wall of a ship where the marine vessel is struck and radiating UV light to the hull of the marine vessel.

According to another aspect of the present invention there is provided an aquatic organism attachment preventive device for a hull comprising a movable UV emitting unit arranged to abut against the hull of the ship or to the hull by buoyancy with propulsion and to emit UV towards the hull / RTI >

According to another aspect of the present invention, there is provided a fixed UV radiation unit fixed to a wall of a ship where the ship is to be docked and radiating UV light to the hull of the ship; And a movable UV radiation unit disposed in contact with the hull of the ship or in contact with the hull by propulsion force with buoyancy and radiating UV toward the hull, is provided.

The fixed UV radiation units may be UV-irradiated on the side of the hull of the ship by being fixed to a plurality of upper and lower spaced-apart portions on the seawall.

The fixed UV radiation unit may be fixed to be positioned between the fender and the fender.

Said mobile UV emissive unit comprising: a buoyancy generating buoyancy; A propeller mounted on the buoyant body to generate propulsive force for moving the buoyant body; A UV LED installed in the buoyant body and radiating UV light to the outside; And a power supply unit for supplying power to the propeller and the UV LED necessary for operation.

The mobile UV emissive unit may further comprise a transparent cover wrapping the UV LED to protect the UV LED from seawater.

Wherein the movable UV radiation unit further comprises a wheel provided on the buoyant body for movement along the periphery of the hull, the buoyant body being in close contact with the hull via the wheel and moving along the circumference of the hull; The axis of the propeller may be tilted so as to generate the propulsive force for the propeller.

The wheel may be fixed to the buoyant body so as to be arranged vertically and horizontally.

The UV may have a wavelength of 100 to 400 nm, and the UV LED that emits UV may be packaged such that a plurality of the UV LEDs are arranged two-dimensionally or three-dimensionally on the substrate.

INDUSTRIAL APPLICABILITY According to the present invention, it is possible to continuously prevent the attachment of aquatic organisms to the surface of a ship by irradiation of UV rays, to provide an excellent effect of preventing the attachment of aquatic organisms, and to enable convenient use.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a front view showing an installation of an apparatus for preventing attachment of underwater organisms to a hull according to a first embodiment of the present invention; FIG.
2 is a side view showing an installation of an apparatus for preventing attachment of underwater organisms to a hull according to a second embodiment of the present invention;
3 is a perspective view showing an apparatus for preventing attachment of underwater organisms to a hull according to a second embodiment of the present invention.
4 is a perspective view showing an apparatus for preventing attachment of underwater organisms to a hull according to a third embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In addition, the following examples can be modified in various forms, and the scope of the present invention is not limited to the following examples.

1 is a front view showing an installed state of an apparatus for preventing attachment of underwater organisms to a hull according to a first embodiment of the present invention.

1, an apparatus for preventing attachment of a marine organism to a marine organism according to a first embodiment of the present invention includes a fixed UV irradiation unit (not shown) fixed to the side wall 20 to which the marine vessel is struck, 100).

The fixed UV emitting unit 100 may include a UV LED for emitting ultraviolet rays (UV) inside a transparent casing, a battery for supplying operating power to the UV LED, The outer appearance may have a plate-like or polyhedral structure, and may have various appearance shapes depending on the arrangement.

The fixed type UV emitting unit 100 is fixed to the side wall 20 by using bolts or other brackets so as to be vertically stacked on the side walls 20 so as to be stacked on the side walls 20, To the side of the hull. And further can be fixed so as to be positioned between the fender 30 and the fender 30. [

In addition, one end of the casing may be fixed to the stationary UV emitting unit 100 such that the stationary UV emitting unit 100 is horizontally aligned with the vertical surface of the septum 20 when stacked vertically on the septum 20.

The stationary UV emitting unit 100 can be a UV LED having a wavelength of 100 to 400 nm that allows the emitted UV to be avoided by aquatic organisms such that the UV LEDs are arranged such that a plurality of the LEDs are arranged two- Can be packaged. Here, the two-dimensional array of UV LEDs may be arranged horizontally and vertically in a plane or a curved substrate, and the three-dimensional array of UV LEDs may be arranged horizontally and vertically in a curved or polyhedral substrate .

FIG. 2 is a side view showing an installation of an apparatus for preventing attachment of a marine organism to a marine organ according to a second embodiment of the present invention, and FIG. 3 is a view showing an apparatus for preventing attachment of marine organisms to a marine vessel according to a second embodiment of the present invention It is a perspective view.

2 and 3, an apparatus for preventing attachment of a marine organism to a marine organism according to a second embodiment of the present invention has buoyancy and is disposed around the marine vessel 11 of the marine vessel 10 by a propulsion force, 0.0 > UV < / RTI >

3, the movable UV radiation unit 200 includes a buoyant body 210 for generating buoyancy, a propelling body 210 mounted on the buoyant body 210 for generating a driving force for moving the buoyant body 210, A UV LED 230 installed in the buoyant body 210 and emitting UV rays to the outside and a power supply unit (not shown) supplying power to the propeller 220 and the UV LED 230 .

The buoyant body 210 may be made of a material or structure that generates buoyancy, and may function as a body or a housing. It may also have buoyancy to float the mobile UV emitter unit 200 to the surface, or alternatively buoyancy to cause the mobile UV emitter unit 200 to float in water.

The propeller 220 causes the propeller 221 to rotate by the driving force of the motor to generate the propulsive force necessary for the movement of the buoyant body 210.

The UV LED 230 may be installed on the lower side of the buoyant body 210 and may be provided to extend laterally to the buoyant body 210 or may be provided on the side surface of the buoyant body 210, And may be installed at various positions of the buoyant body 210.

In addition, the UV LED 230 may have a structure to be isolated from seawater, and may be an LED that emits UV rays having a wavelength of 100 to 400 nm to avoid aquatic organisms, Dimensionally or three-dimensionally arranged.

The power supply unit may include a battery that supplies power to the propeller 220 and the UV LED 230 in the buoyant body 210 by an external cable from the outside or a battery that is installed in the buoyant body 210 and supplies necessary power.

The movable UV radiation unit 200 can be mounted on the buoyant body 210 to cover the UV LED 230 to protect the UV LED 230 from seawater and can be mounted on the hull Or by limiting the movement to stay around the hull 11 of the vessel 10 by means of a wire connected to the buoyant body 210, It is possible to radiate UV onto the surface of the hull 11 by arranging the hull 11 around the hull 11 of the ship 10.

Meanwhile, in the case of remotely controlling the propeller 220, a control device for controlling the direction of the propeller 220 or the propulsion force by receiving an operation signal wirelessly received from the remote controller by the operator operating the remote controller, .

4 is a perspective view showing an apparatus for preventing attachment of underwater organisms to a hull according to a third embodiment of the present invention.

4, the apparatus for preventing the attachment of a marine organism to a marine organism according to the third embodiment of the present invention has buoyancy and is disposed in contact with the marine vessel 11 of the marine vessel 10 by a driving force, Lt; RTI ID = 0.0 > UV < / RTI >

The movable UV radiation unit 300 includes a buoyant body 310 for generating a buoyancy force, a propeller 320 installed on the buoyant body 310 to generate a driving force for moving the buoyancy body 310, A UV LED 330 that emits UV light to the outside, and a power supply (not shown) that supplies power to the propeller 320 and the UV LED 330 for operation.

Here, the buoyant body 310 may be made of a material or structure that generates buoyancy and may have buoyancy to float the mobile UV emitting unit 300 to the surface of the water, The buoyancy may be such that the buoyancy is floated. In addition, the propeller 320 causes the propeller 321 to rotate by the driving force of the motor.

The UV LED 330 may be an LED that emits UV having a wavelength of 100 to 400 nm, and may be packaged such that a plurality of the LEDs 330 are arranged two-dimensionally or three-dimensionally on the substrate 331.

The power supply unit may include a battery that supplies power to the buoyancy body 310 from the outside by a cable or a battery that is installed in the buoyancy body 310 and supplies necessary power.

The mobile UV emitting unit 300 may be mounted on the buoyant body 310 to cover the UV LEDs 330 to protect the UV LEDs 330 from seawater and may be disposed along the perimeter of the hull 11 A wheel 350 may be provided on the buoyant body 310 to move.

Here, the wheel 350 may be fixed to the buoyant body 310 such that the buoyant body 310 can be closely contacted with the hull 11 in a stable posture, as in the present embodiment.

The propeller 320 is coupled to the shaft 322 of the propeller 321 to generate a propelling force for the buoyant body 310 to contact the hull 11 via the wheel 350 and to move along the circumference of the hull 11, May be provided to be tilted.

The angle formed by the straight line L of the propeller 321 of the propeller 321 is perpendicular to the axis Ll, (? 1,? 2,? 3), respectively.

These angles? 1,? 2 and? 3 are determined by taking into account the buoyancy of the buoyancy body 310, the weight of the movable UV radiation unit 300, the propulsion force of the propeller 320, the friction force of the wheel 350, Can be set to be experimentally determined so that it can be closely attached to the hull 11 and move along the circumference thereof.

As shown in FIGS. 1 to 4, an apparatus for preventing attachment of a marine organism to a marine organism according to a fourth embodiment of the present invention is fixed to a marine wall 20 on which a ship is struck, A movable UV emitting unit 200,300 arranged to contact the hull 11 of the ship 10 or to the hull 11 by a propulsion force with buoyancy and to emit UV towards the hull 11; ).

Here, the fixed UV radiation unit 100 and the movable UV radiation units 200 and 300 have been described in detail in the apparatus for preventing attachment of underwater organisms according to the first to third embodiments of the present invention, and a description thereof will be omitted.

According to the apparatus for preventing attachment of a marine organism to a marine structure according to the present invention, it is possible to continuously prevent the attachment of aquatic organisms such as a barnacle to the surface of a marine vessel including the marine bottom by irradiation of UV rays, The effect of prevention is excellent and convenient use is made possible.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit and scope of the invention. It is.

10: Ships 11: Hull
20: Fence 30: Fender
100: fixed UV radiation unit 200, 300: movable UV radiation unit
210, 310: Buoyant body 220, 320:
221,321: Propeller 230,330: UV LED
231, 331: Substrate 240, 340: Transparent cover
322: Axis 350: Wheel

Claims (11)

An apparatus for preventing attachment of a marine organism to a marine vessel, the marine vessel including a fixed UV emitting unit fixed to a wall of a ship where the vessel is bared and emitting UV to the hull of the vessel. And a movable UV emitting unit disposed in contact with the hull of the ship or in contact with the hull by buoyancy and propulsive force and emitting UV toward the hull. A stationary UV emitting unit fixed to the wall of the ship where the ship is docked and emitting UV light to the ship hull; And
And a movable UV emitting unit disposed in contact with the hull of the ship or in contact with the hull by buoyancy and propulsive force and emitting UV toward the hull. The method according to claim 1 or 3,
The fixed UV emissive unit comprises:
Wherein the UV light is irradiated to the side surface of the ship by being fixedly stacked on the surface of the ship so as to have a plurality of vertically spaced intervals. The method according to claim 1 or 3,
The fixed UV emissive unit comprises:
An apparatus for preventing attachment of a marine organ to a hull which is fixed to be positioned between a fender and a fender. The method according to claim 2 or 3,
Said mobile UV radiation unit comprising:
A buoyant force generating buoyancy;
A propeller mounted on the buoyant body to generate propulsive force for moving the buoyant body;
A UV LED installed in the buoyant body and radiating UV light to the outside; And
And a power supplier for supplying power to the propeller and the UV LED for operation. The method of claim 6,
Said mobile UV radiation unit comprising:
Further comprising a transparent cover surrounding the UV LED to protect the UV LED from seawater. The method of claim 6,
Said mobile UV radiation unit comprising:
Further comprising a wheel provided on the buoyant body for moving along the circumference of the hull,
The propeller comprises:
Wherein the propeller is tilted so as to generate a propelling force for the buoyant body to closely contact the hull through the wheel and move along the circumference of the hull. The method of claim 8,
The wheel,
And a plurality of the hull bodies are fixed to the buoyant body so as to be arranged vertically and horizontally. The method according to any one of claims 1 to 3,
The UV,
An apparatus for preventing attachment of a marine organism having a wavelength of 100 to 400 nm. The method according to any one of claims 1 to 3,
The UV LED, which emits UV,
An apparatus for preventing attachment of a marine organism to a marine vessel in which a plurality of marine vessels are packaged so as to be arranged two-dimensionally or three-dimensionally on a substrate.

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