KR100872992B1 - Submarine fixation type sea structure which carries out the function of artificial reef and manufacturing method thereof - Google Patents

Abstract

The present invention relates to a subsea fixed marine structure that functions as an artificial reef and a method for manufacturing the submarine fixed marine structure of the present invention, the lower end is firmly fixed to the sea bottom in a state perpendicular to the sea bottom and the upper end is located in the sea surface And, composed of a plurality of members for the composition of the habitat environment of fish consists of artificial reefs fixed to the pillar. This invention has the same function as artificial reefs installed in the sea for the creation of aquatic resources, but because it is firmly fixed to the sea floor, there is an advantage that it is easy to follow-up management because the artificial reefs are always in the dropped position even in poor external factors such as tsunamis. . In addition, the present invention is firmly fixed to the seabed, while having the same function as the artificial reefs, while the wave power generator, wind power generator, solar power equipment, lighthouse, tidal power generator or fishing deck, etc. are combined and fixed at the upper end to provide various functions. It is effective.

Description

Submarine fixation type sea structure which carries out the function of artificial reef and manufacturing method

1 is a schematic diagram of a subsea fixed oceanic structure that functions as an artificial reef in accordance with an embodiment of the present invention,

Figure 2 is a schematic diagram showing a state in which the marine structure shown in Figure 1 fixed to the seabed,

3 is a cross-sectional view showing various cross-sectional forms of the pillars constituting the marine structure shown in FIG.

4 is a plan view of the artificial reef constituting the marine structure shown in Figure 1,

5 is a schematic view showing a method of manufacturing the marine structure shown in FIG.

6 to 11 is a view showing a state in which the marine structure shown in Figure 1 is fixed to the seabed and the wave power generator, wind power generator, photovoltaic power generation equipment, lighthouse or tidal current generator respectively fixed or combined Schematic diagram.

  ♠ Explanation of symbols on the main parts of the drawing ♠

100: offshore structure 110: pillar

120: artificial reef 121: square pyramid structure

122: hexahedral structure 123: column insertion portion

200: wave power generator 300: wind power generator

400: solar power plant 500: lighthouse

600: algae generator

The present invention relates to an offshore structure installed in the sea, and in particular, to secure the same function as the artificial reef installed in the sea for the creation of aquatic resources, but firmly fixed to the bottom of the wave power generator, wind power generator, photovoltaic power generation The present invention relates to a seabed fixed offshore structure that functions as an artificial reef that can be used to support and fix a facility, a tidal current generator or a lighthouse, or a combination thereof.

In general, artificial reefs are artificial structures that are installed on the coast or near the sea in order to secure marine resources for coastal fishing grounds, to create spawning and habitat for marine life, and to provide shelter for fry. Artificial reefs can take a variety of forms, from sinking initial waste ships or dropping ground structures into the sea to create habitats, to those designed into hexagonal, cylindrical, and uneven structures to create more efficient habitats. It has been transformed. There are also various materials used to make artificial reefs, which are made of concrete, ceramics, and steel.

Most of these artificial reefs are fixed to the sea floor by their own weight. On the other hand, for more secure fixing of artificial reefs, Republic of Korea Utility Model Registration No. 338494 is provided with a ground fixture (H-beam) at the bottom, Utility Model Registration No. 417728 is configured to have an inverted triangular pillar-shaped anchor. If the ground fixation or anchor is provided at the bottom of the artificial reef in this way, it may have a certain degree of sliding stability due to algae, but it may not be determined that it is positioned at the first dropped position because of the possibility of sliding. That is, as the initial drop position of the artificial reef changes, it may cause difficulties in the post management. In addition, when a tsunami (earthquake tsunami), such as a tsunami occurs, even if it has a ground fixation or an anchor at the bottom there is a lot of concerns to fall.

Therefore, the present invention functions the same as artificial reefs installed in the sea for the creation of aquatic resources, but firmly fixed to the sea floor, so that it is always placed in the position of dropping against poor external factors, so that it functions as an artificial reef that is easy to follow-up management. It is an object of the present invention to provide a fixed offshore structure and a method of manufacturing the same.

In addition, the present invention is firmly fixed to the seabed and can be used to support and fix wave power generators, wind power generators, photovoltaic power generation facilities, tidal current generators, lighthouses, etc., respectively, while maintaining the same function as artificial reefs. Another object is to provide a subsea stationary offshore structure and a method of manufacturing the same that serve multiple functions.

The seabed fixed offshore structure according to the present invention, the bottom portion is firmly fixed to the bottom of the seabed, and the top portion is a plurality of members having a column positioned below the seam, and a column insert that can be inserted around the column It includes an artificial reef consisting of, characterized in that the pillar insertion portion of the artificial reef has a structure in which the lower end of the artificial reef is seated on the sea bottom in a state fitted to the circumference of the pillar. At this time, the artificial reef is preferably configured symmetrically with the pillar insertion portion as the central axis.

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The pillar of the present invention can protrude from the top of the sea to extend the sea surface so as to support a separate facility on the upper end, wherein the separate facility is a wave power generator, wind power generator, solar power equipment, lighthouse , Tidal power generators or fishing decks. In addition, the artificial reef may be further provided with a light emitting device having a light emitting means for emitting light by receiving external electricity. In addition, the pillar of the present invention may be composed of a polygonal or circular steel pipe, or may be configured by filling concrete in the steel pipe.

According to the present invention, there is provided a method of manufacturing a fixed subsea structure according to the present invention, comprising: forming a pillar firmly fixed by hitting a steel pipe at a lower end thereof, and having a plurality of members having a pillar insertion portion that can be inserted around the pillar. It characterized in that it comprises the step of seating the lower end of the artificial reef on the sea floor while inserting the pillar insertion portion of the artificial reef configured.

Artificial reefs of the present invention can be produced by dividing into a plurality of layers sequentially sandwiched around the column.

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the seabed fixed marine structure and its manufacturing method that functions as an artificial reef will be described in detail.

FIG. 1 is a schematic view of a fixed seabed fixed marine structure functioning as an artificial reef according to an embodiment of the present invention, FIG. 2 is a schematic view showing a state in which the marine structure shown in FIG. 1 is fixed to a seabed, and FIG. 4 is a cross-sectional view illustrating various cross-sectional shapes of the pillars constituting the marine structure shown in FIG. 4, and FIG. 4 is a plan view of the artificial reef constituting the marine structure shown in FIG. 1.

As shown in Figures 1 to 4, the seabed fixed offshore structure 100 functions as an artificial reef according to this embodiment is a pillar 110 that is firmly fixed to the seabed, and artificial reef fixed to the pillar 110 It consists of 120. Thus, the subsea stationary oceanic structure 100 of this embodiment is also a subsea stationary artificial reef.

The pillar 110 of this embodiment has a size and length that can be firmly fixed to the seabed, and may be configured as a polygon (square, hexagon or octagon, etc.) or circular steel pipe. In addition, the pillar 110 may be configured as a concrete filled tube (CFT), and may be configured by partially filling or fully filling concrete inside the steel pipe. That is, the steel pipe is blown in a state perpendicular to the sea bottom (for example, driven) to form the pillar 110 by firmly fixing the lower end to the sea bottom, or a part of concrete inside the steel pipe firmly fixed to the sea bottom. The pillar 110 may be configured by filling or fully filling. Thus, the pillar 110 is firmly fixed to the sea floor in a state perpendicular to the sea bottom.

The artificial reef 120 of this embodiment may have any material or form as long as it can be fixed around the pillar 110 to function as a reef. That is, if the artificial reef 120 of this embodiment can be fixed around the column 110, all reefs to be developed later, including all currently known or installed reefs can also be applied. For example, a box shape, a polyhedron shape, or a tower shape made of concrete, ceramic, steel, or the like can be used.

The artificial reef 120 may be eccentrically fixed only to the circumferential portion of the pillar 110, but is preferably fixed along the entire circumference with the pillar 110 as the central axis. At this time, the artificial reef 120 may be asymmetrically fixed with the pillar 110 as a central axis, but more preferably fixed symmetrically with the pillar 110 as the central axis. And in fixing the artificial reef 120 around the pillar 110, it may be fixed by using a wedge or a stopper, including general welding.

The artificial reef 120 of this embodiment is a tower type reef formed by repeatedly stacking a plurality of square pyramidal structures 121 and a hexahedral structure 122, and a pillar insertion portion 123 into which the pillar 110 may be inserted along a central axis. Has Here, the square pyramid-shaped structure 121 is made of a square pyramid shape using a plurality of horizontal members, beam members, inclined members and vertical members, such as H-shaped steel or circular pipe, which is structurally stable, easy to combine, and excellent in strength. The mold structure 122 is manufactured using a H-shaped steel or a circular pipe as described above as a hexahedron using a plurality of horizontal members, beam members, and vertical members. In manufacturing the square pyramidal structure 121 and the hexahedral structure 122, the pillar insertion portion 123 into which the pillar 110 can be inserted may be formed along the central axis. That is, the artificial reef 120 of this embodiment has a symmetrical form with the pillar insertion portion 123 as the central axis.

The following describes a method of manufacturing a subsea fixed marine structure that functions as an artificial reef constructed as described above.

5 is a schematic view showing a method of manufacturing the marine structure shown in FIG. As shown in Figures 1 to 5, first by stiffening the steel pipe perpendicular to the sea floor to secure the lower end to the seabed to form the pillar 110 by itself, or the interior of the steel pipe firmly fixed to the seabed The pillar 110 is configured by partially or fully filling the concrete. At this time, the upper end of the column 110 may be located within the sea level or the steel pipe to be projected so as to protrude above the sea level. 5 shows a state in which the upper end of the pillar 110 is driven to be located in the sea level.

Then, while dropping the artificial reef 120 in the sea, dropping so that the pillar insertion portion 123 of the artificial reef 120 is fitted around the pillar 110 is firmly fixed to the sea floor. In this case, the artificial reef 120 may be dropped at a time in a state of being integrally manufactured, or may be sequentially dropped a plurality of times in a state of being manufactured by dividing into multiple layers. FIG. 5 illustrates a process of sequentially dropping and stacking the artificial reef 120 into a plurality of layers in a state in which the artificial reef 120 is divided into several layers. When the artificial reef 120 is divided into a plurality of layers, the transport is easy as well as dropping.

By doing so, the bottom surface of the artificial reef 120 is seated on the sea bottom with the pillar insertion portion 123 of the artificial reef 120 inserted around the pillar 110, and the upper end of the pillar 110 is artificial reef ( It is located on the same line as the upper surface of the 120) or protrudes upward. In this state, the member adjacent to the pillar insertion portion 123 of the artificial reef 120 is welded to the pillar 110 underwater or fixed by using a wedge or a stopper, etc. Fabrication of the structure 100 is complete.

As described above, another example of the subsea fixed marine structure that performs another function while basically performing the function of the artificial reef in the state of being firmly fixed to the sea floor will be described.

FIG. 6 is a schematic diagram illustrating a state in which the marine structure shown in FIG. 1 is fixed to the seabed and the wave power generator is supported at the top of the column so as to vertically move. As shown in FIG. 6, the subsea stationary offshore structure 100 of this embodiment serves to support the wave power generator 200 for converting the up and down kinetic energy of the waves into electrical energy. At this time, the subsea stationary offshore structure 100 of this embodiment is to support the column 110 so that the wave power generator 200 can move up and down to protrude above a sea level.

FIG. 7A is a schematic diagram illustrating a state in which the marine structure shown in FIG. 1 is fixed to the seabed and the wind turbine is fixed to the top, and FIG. 7B illustrates a method of manufacturing the marine structure having the wind turbine fixed to the top as shown in FIG. 7A. It is a schematic diagram shown. As shown in Figures 7a and 7b, the subsea fixed offshore structure 100 of this embodiment rotates the blades by the wind of nature and wind speed to generate electrical energy by rotating the generator by increasing the speed using a gear mechanism, etc. It serves to support and secure the device 300. At this time, the subsea stationary offshore structure 100 of this embodiment may be a column 110 to which the wind turbine 300 is coupled and fixed enough to protrude above the sea surface so that the blade of the wind turbine 300 does not contact the sea surface. . In addition, in fixing and fixing the wind power generator 300 to the upper end of the pillar 110, it may be fixed using a general bolt and nut.

8 is a schematic diagram illustrating a state in which the marine structure shown in FIG. 1 is fixed to a seabed and a photovoltaic power generation facility is fixed to an upper end thereof. As shown in FIG. 8, the subsea stationary offshore structure 100 of this embodiment serves to support and fix the photovoltaic power generation facility 400 that directly converts sunlight into electric power through a solar cell. At this time, the subsea stationary offshore structure 100 of this embodiment is a pillar 110 to which the photovoltaic power generation facility 400 is fixedly fixed to protrude above the sea level. Then, in fixing and fixing the photovoltaic power generation equipment 400 to the upper end of the pillar 110, it may be fixed using a general bolt and nut.

9 is a schematic diagram showing a state in which the marine structure shown in Figure 1 is fixed to the seabed and the lighthouse is fixed to the top. As shown in Figure 9, the subsea fixed marine structure 100 of this embodiment serves to support and secure the lighthouse 500 to display the course or to function by emitting intense light at night. At this time, the subsea fixed-type marine structure 100 of this embodiment is to be projected to a certain height above the sea level column 110, the lighthouse 500 is coupled to the fixed. In addition, in fixing and fixing the lighthouse 500 to the upper end of the pillar 110, it may be fixed using a general bolt and nut.

10 is a schematic diagram illustrating a state in which the marine structure shown in FIG. 1 is fixed to a seabed and a tidal current generator is supported on a column. As shown in FIG. 10, the subsea stationary offshore structure 100 of this embodiment serves to support and fix the tidal current generator 600 that generates power using algae. At this time, the subsea stationary offshore structure 100 of this embodiment may be a pillar 110 supporting the tidal current generator 600 so as to be able to move to a certain height above the sea surface.

FIG. 11 is a schematic diagram illustrating a state in which the marine structure shown in FIG. 1 is fixed to a seabed and supported by fixing a wave power generator, a wind power generator, a solar power plant, a lighthouse, and a tidal current generator on the top.

6 to 11, the subsea fixed marine structure 100 according to this embodiment may perform other functions while basically performing a function of an artificial reef. In addition, the subsea stationary offshore structure 100 of this embodiment is a light in the artificial reef 120 located in the sea using electricity generated by itself or a separate external electricity through the wave power, wind power, sunlight or algae as described above It can be configured to emit. That is, the artificial reef 120 may emit light by installing a light dissipation device (not shown) having light emitting means for emitting light by receiving electricity on the artificial reef 120 and / or the pillar 110. . When the light is emitted from the artificial reefs 120, it is possible to more easily observe the movement of the plankton, such as the food of the fish can improve the picking efficiency.

In addition, when the seabed fixed offshore structure 100 of this embodiment is configured to simultaneously perform the same functions as those of FIGS. 6 to 9 and 11 in addition to the function of the artificial reef 120, a plurality of offshore structures may be defined. 100) should be installed at regular intervals. Therefore, in such sea areas, the ocean forms a colony of artificial reefs, and an electric power generation facility is installed above the sea level, and a ship of a certain size, including fishing boats, cannot enter, thereby preventing overfishing. It is possible to create a fish farming environment. In addition, in these seas, the light emitted from the artificial reefs forming the colony can improve the tourism efficiency at the time of underwater tourism through the beautiful scenery in the sea where the marine structures and fishes are combined.

In addition, the subsea fixed marine structure 100 of this embodiment is fixed to protrude above the sea level to the pillar 110 to function as shown in Figure 7 to 10, a predetermined distance from the sea surface along the circumference of the protruding pillar 110 You can also configure the fishing grounds by installing a fishing deck with. The upper portion of the fishing deck may be fixed to the top of the column 110, such as a facility having a function as shown in Figs.

This invention has the same function as artificial reefs installed in the sea to create aquatic resources, but because it is firmly fixed to the sea floor, it is easy to follow-up management because the artificial reefs are always in the dropped position even in poor external factors such as tsunamis. have.

In addition, the present invention is firmly fixed to the seabed, while having the same function as the artificial reefs, while the wave power generator, wind power generator, solar power equipment, lighthouse, tidal power generator or fishing deck, etc. are combined and fixed at the upper end to provide various functions. It is effective.

In addition, the present invention more than the movement of plankton, which is a food of fish as the light is emitted from artificial reefs located in the sea by using electricity generated by the wave, wind power, solar light or algae or a separate external electricity It can be easily observed to improve picking efficiency.

In addition, the present invention can improve the tourism efficiency at the time of underwater tourism through the beautiful view in the sea that is produced by the combination of marine structures and fish due to the light emitted from the artificial reefs.

In the above description, the technical details of the subsea fixed marine structure and its manufacturing method functioning as the artificial reef of the present invention have been described with the accompanying drawings, which illustrate the best embodiments of the present invention by way of example and not limit the present invention. .

In addition, it is obvious that any person skilled in the art can make various modifications and imitations within the scope of the appended claims without departing from the scope of the technical idea of the present invention.

Claims (11)

delete The lower part is fixed to the bottom of the sea firmly fixed and the upper part is located below the sea level, Comprising separate from the pillar and comprises an artificial reef consisting of a plurality of members having a pillar insert that can be inserted around the pillar, A seabed fixed offshore structure, which functions as an artificial reef, having a structure in which a lower end portion of the artificial reef is seated on the sea bottom in a state where the pillar insertion part of the artificial reef is fitted around the pillar. The method according to claim 2, The artificial reef is a seabed fixed offshore structure that functions as an artificial reef, characterized in that symmetrical configuration with the pillar insertion portion as a central axis. The method according to claim 3, The pillar is a seabed fixed offshore structure that functions as an artificial reef, characterized in that the upper end is extended to protrude above the sea surface so as to support and fix a separate facility on the upper end. The method according to claim 4, The separate facility is a subsea stationary marine structure that functions as an artificial reef, characterized in that any one of the wave power generator, wind power generator, solar power equipment, lighthouse, tidal power generator or fishing deck. The method according to claim 5, The artificial reef is a subsea fixed marine structure that functions as an artificial reef, characterized in that the light emitting device is further provided with a light emitting means for emitting light by receiving external electricity. The method according to claim 6, The pillar is a subsea fixed marine structure that functions as an artificial reef, characterized in that the polygonal or circular steel pipe. The method according to claim 7, The inside of the steel pipe is a seabed fixed offshore structure that functions as an artificial reef, characterized in that the concrete is filled. Hitting the steel pipe to form a pillar that is firmly fixed to the lower end by being embedded in the sea floor; And inserting the pillar insertion portion of the artificial reef composed of a plurality of members having a pillar insertion portion that can be inserted around the pillar, around the pillar, and seating the lower end of the artificial reef on the sea bottom. Method of manufacturing a subsea fixed offshore structure that functions as a candle. The method according to claim 9, The artificial reef is a method of manufacturing a seabed fixed offshore structure that functions as an artificial reef, characterized in that symmetrical configuration with the pillar insertion portion as a central axis. The method according to claim 10, The artificial reef is divided into a plurality of layers are manufactured by manufacturing a submarine fixed offshore structure that functions as an artificial reef, characterized in that the stack is inserted in sequence around the column.

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