KR102021668B1 - Anti-fouling system for nacelle and nacelle axes of tidal stream power generation - Google Patents

Abstract

The present invention is provided with injection holes are formed at regular intervals along the ring-shaped body, and provided with a fouling preventing member protruding outward at one end of the nussel and the nussel shaft of the algae generator unit installed in the water, the nussel and Algae flowing along the longitudinal direction of the nussel shaft is injected to the outer peripheral surface of the nussel and the nussel shaft at an increased flow rate while passing through the injection hole of the fouling preventing member, the algae to prevent the marine life to adhere to the outer peripheral surface of the nussel and the nussel shaft The present invention provides a biofouling prevention system for power generation apparatus nussel and nussel shaft.

Description

Anti-fouling system for nacelle and nacelle axes of tidal stream power generation

The present invention converts the algae flowing in the longitudinal direction, such as the nussel and the nussel shaft, which is a horizontal shaft member on which the turbine of the tidal current generator is mounted to a relatively increased flow rate than the surrounding algae to spray on the outer circumferential surface such as the nussel and the nussel shaft (jetting The present invention relates to a system for preventing biofouling of an algae power generation device nussel and nussel shaft, which prevents marine organisms from adhering to the outer peripheral surfaces of the nussel and the nussel shaft.

In general, the tidal current generator is a device for generating electric power by using the tide and low tide of the sea water, that is, the flow of bi-directional tidal current, a similar principle to the onshore wind power generator is applied.

Onshore wind turbines generate power from the generator as the turbine or blade rotates using the force of the wind. The algae generator also produces power by rotating the turbine or blades into tidal currents, which are seawater.

Related technologies for the algae generator can be found in Patent Registration No. 10-1206133 (2012.11.22).

Normally, the tidal current generator is installed in a real sea area with high velocity, and underneath sea water, a substructure of the tidal current generator, a nussel, a turbine, and the like are installed.

At this time, the lower structure of the tidal current generator, the nussel, and the turbine are not installed all at once, and after installing the substructure in time for the relatively slow tidal flow of the tidal current, the nucleus is installed for the next season. The turbine is then finally installed in time for the next conditioner.

Here, even if anti-fouling is performed on the nussel, etc., in which the turbine is mounted, the biostructure is attached to the substructure located in the water, marine microorganisms are attached to the nucleus, while waiting for the next period. As they form, they attach to a variety of species, resulting in biofouling or marine growth that affects the structure.

When the biofouling occurs in the nussel and the nussel shaft, not only the turbine installation problem and the turbine performance problem, but also the algae power generation system needs immediate response and maintenance.

At this time, even if only one hour after removing the turbine for maintenance, marine microorganisms are attached to the nussel shaft, a problem often occurs in the turbine installation.

In order to prevent biofouling or marine growth of such marine structures, a technology such as Korean Patent Laid-Open Publication No. 10-2013-0095009 (2013.08.27) has been provided.

According to the present invention, a plurality of injection holes are formed radially along the annular body, and a plurality of injection holes formed to have an inner diameter smaller toward the flow direction of the tidal stream, and a stopper is formed on the inner circumferential surface of the annular body, limiting the depth of engagement of the body. One side inner periphery of the anti-fouling member formed extending inwardly screwed to protrude outward at one end of the nussel and the nussel shaft, and flows along the longitudinal direction of the nucleus, turbine shaft, such as the horizontal shaft member of the tidal current generator By using a high pressure injection (jetting) to the outer peripheral surface of the horizontal axis member, such as the nussel, turbine shaft, etc., to provide a marine life growth prevention system of the algae generator to prevent the growth of marine life on the outer peripheral surface of the horizontal axis member, such as the nussel, turbine shaft, etc. It is for that purpose.

The biofouling prevention system of the algae power generation device nussel and the nussel shaft according to the present invention is screwed to protrude outwardly to one end of the nucleus and the nussel shaft among the algae power generation unit installed in the water, along the longitudinal direction of the nucleus and the nussel shaft Flowing algae is injected to the outer peripheral surface of the nussel and the nussel shaft at an increased flow rate, and includes a fouling preventing member for preventing marine organisms adhere to the outer peripheral surface of the nussel and the nussel shaft, the fouling preventing member is a flow direction of the tidal flow A plurality of injection holes are formed radially along the annular body, and a plurality of injection holes are formed radially along the annular body, and a stopper is formed on the inner circumferential surface of the annular body and restricts the depth of engagement. Form an extension.

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In addition, the anti-fouling paint layer may be formed on the surface of the antifouling member body and the injection hole according to the present invention.

In addition, the injection hole according to the present invention may be formed to be inclined toward the center of the nussel and the nussel shaft.

Effects shown by the biofouling prevention system of the algae power generation unit nussel and the nussel shaft according to an embodiment of the present invention are as follows.

A plurality of injection holes formed radially along the annular body are disposed radially along the annular body, and a stopper is formed on the inner circumferential surface of the annular body while limiting the coupling depth within one side of the body. At the periphery, the anti-fouling member formed extending inwardly is screwed to protrude outwardly to one end of the nussel and the nussel shaft, and thus the horizontal shaft is formed by using a tidal current flowing along the longitudinal direction of the nussel, turbine shaft, etc. By spraying (jetting) the outer peripheral surface of the member, such as the nussel, turbine shaft, and the like at high pressure, the biofouling of marine organisms attached to the outer peripheral surface of the nussel, the nussel shaft, and the like is prevented.

Figure 1 is an exemplary view showing the algae power generation device nussel and nussel shaft to which the biofouling prevention system is applied according to an embodiment of the present invention.
Figure 2 is a side cross-sectional view showing a cross section of the algae generator nussel and the nussel shaft to which the biofouling prevention system is applied according to an embodiment of the present invention.
3 is an exemplary view showing a state in which the injection hole of the antifouling member according to an embodiment of the present invention is inclined toward the center of the nussel and the nussel shaft.
Figure 4 is an exemplary view showing a state in which a stopper is formed on the fouling preventing member according to an embodiment of the present invention.
5 is an exemplary view showing a state in which an injection piece in which an injection hole is formed in an antifouling member according to an embodiment of the present invention is extended.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. Prior to this, terms or words used in the present specification and claims should not be construed as being limited to the common or dictionary meanings, and the inventors should properly explain the concept of terms in order to best explain their own invention. Based on the principle that it can be defined, it should be interpreted as meaning and concept corresponding to the technical idea of the present invention.

Therefore, the embodiments described in the specification and the drawings shown in the drawings are only the most preferred embodiments of the present invention, and do not represent all of the technical idea of the present invention, these are equivalent to replaceable at the time of the present application It should be understood that there may be variations.

The present invention allows the algae flowing along the longitudinal direction such as the nussel, the nussel axis, etc. of the horizontal axis member of the tidal current generator to be jetted (jetting) to the outer peripheral surface of the nussel, turbine shaft, etc. at a relatively increased flow rate than the surrounding algae, The present invention relates to a biofouling prevention system of a nussel power generator and a nussel shaft that prevents biofouling by preventing marine organisms from adhering to the outer circumferential surfaces of the member nussel, turbine shaft, and the like.

The biofouling prevention system of the tidal current generator nussel and the nussel shaft according to an embodiment of the present invention with reference to FIGS. 1 to 4 includes a nucleus 110 and a nussel shaft mounted with a turbine or a blade among tidal current generators disposed in water. One side of the 120 is provided with a fouling preventing member 10 for preventing the attachment of marine life.

At this time, the fouling preventing member 10 has a body 11 is formed in a ring shape, and has a circular outer circumferential surface, which is an outer surface of the body, and a circular inner circumferential surface, which is an inner surface of the body, along the ring-shaped body 11. A plurality of injection holes 12 are formed at regular intervals.

An anti-fouling paint layer is formed on the surface of the body 11 and the injection hole 12 of the fouling preventing member 10 to prevent adhesion of marine life, and the nussel 110 and the nussel shaft 120 It is provided at one end of each side, and protrudes toward the outer circumferential direction from one side end of the nussel 110 and the nussel shaft 120.

The plurality of injection holes 12 formed at regular intervals along the annular body 11 are disposed radially with respect to the center of the body 11. The algae flowing along the longitudinal direction of the 110 and the nussel shaft 120 pass through the injection hole 12 and is converted into the algae flowing at a flow rate with a relatively increased flow rate than the surrounding algae.

The tidal current whose flow velocity is increased by the injection holes 12 is injected to the outer circumferential surfaces of the nussel 110 and the nussel shaft 120, so that the nussel 110 and the nussel shaft 120 which are horizontal axis members of the tidal current generators. It prevents biofouling by preventing marine life from adhering to fast algae flow rate on the outer peripheral surface.

At this time, the injection hole 12 of the fouling preventing member 10 has a flow rate of the algae passing through the injection hole 12 than the surrounding algae, the inner diameter of the injection hole 12 toward the flow direction of the algae It is preferable to form small.

In addition, as shown in FIG. 3, the injection hole 12 is the same as the outer circumferential surfaces of the nussel 110 and the nussel shaft 120 so that algae are injected onto the outer circumferential surfaces of the nussel 110 and the nussel shaft 120. It is preferable to be disposed on a line, but the present invention is not limited thereto, and the injection hole 12 may be formed to be inclined toward the center direction of the nussel 110 and the nussel shaft 120.

The fouling preventing member 10 is selectively removable at one end of the nussel 110 and the nussel shaft 120, the thread is formed at one end of the nussel 110 and the nussel shaft 120 A thread is formed along the inner circumferential surface of the body 11 of the fouling preventing member 10, and the fouling preventing member 10 is detachably attached to one end of the nussel 110 and the nussel shaft 120 by screwing. do.

Therefore, when installing the lower structure, the nussel, the turbine of the tidal current generator in the above-described configuration, after installing the lower structure in accordance with the time when the flow rate of the tidal flow slow, the anti-fouling member (10) in time for the next season The nucleus 110 is installed, and the algae is released by the fouling preventing member 10 on the outer circumferential surfaces of the nussel 110 and the nussel shaft 120 until the next conditioner for installing the turbine. 110) and is injected at an increased flow rate on the outer peripheral surface of the nussel shaft 120, the marine life is not attached to prevent biofouling.

In addition, as shown in FIG. 4, the antifouling member 10 has a stopper 13 formed to extend inwardly of one side of the inner circumference of the body 11, and the antifouling member 10 is the nussel 110. And when screwing to one end of the nussel shaft 120, the stopper 13 limits the depth of engagement, the anti-fouling member 10 and the nussel 110 and the nussel shaft 120 by excessive screwing ) To prevent sticking.

In addition, the fouling preventing member 10 with reference to FIG. 5 has a plurality of spraying pieces having an injection hole 12 formed outwardly, so that the body 11 of the fouling preventing member 10 has a crown shape. In this case, the plurality of injection pieces are bent so that the injection hole 12 toward the center of the body 11, the algae at an increased flow rate toward the center of the nussel 110 and the nussel shaft 120 By spraying, marine organisms can be prevented from biofouling attached to the outer circumferential surfaces of the nussel 110 and the nussel shaft 120.

The biofouling prevention system of the algae power generating device nussel and the nussel shaft according to an embodiment of the present invention is described as limited to the nussel and the nussel shaft, but is not limited thereto and may be applied to a horizontal shaft member installed in the sea.

Although the present invention has been described with reference to the embodiments shown in the drawings, this is merely exemplary, and it will be understood by those skilled in the art that various modifications and equivalent other embodiments are possible. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

10: fouling prevention member
11: body
12: injection hole
13: stopper
110: Nussel
120: nussel shaft

Claims (6)

Among the tidal power generator parts installed in the water, screwed to protrude outward to one end of the nussel and the nussel shaft, the algae flowing along the longitudinal direction of the nussel and the nussel shaft is injected to the outer peripheral surface of the nussel and the nussel shaft at an increased flow rate And a fouling prevention member for preventing marine life from being attached to the outer circumferential surfaces of the nussel and the nussel shaft.
The fouling prevention member,
A plurality of injection holes formed radially along the annular body are disposed radially along the annular body, and a stopper is formed on the inner circumferential surface of the annular body while limiting the coupling depth within one side of the body. At the leading edge, the biogenesis prevention system of the algae generator nussel and the nussel shaft that extend inwardly.
delete delete The method according to claim 1,
The anti-fouling paint layer is formed on the surface of the fouling preventing member body and the injection hole, the biofouling prevention system of the nucleus generator and the nussel shaft.
delete The method according to claim 1,
The injection hole
The algae generator apparatus is formed inclined toward the center of the nussel and the nussel shaft, the biofouling prevention system of the nussel and the nussel shaft.

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