KR200392536Y1 - An artificial reef of house type for submarine forest - Google Patents

Abstract

The present invention relates to a house-type artificial reef, and artificially creating a marine forest by fastening a plurality of reef blocks with artificial seaweed seedlings into a polyhedral house-shaped frame, and installing them in a seawater recording area and a sea area with poor habitat environment. And this effectively improves the ocean ecosystem.

To this end, the flow of algae communicates smoothly inside and outside, and a frame frame of a polyhedron formed in a trapezoid shape is provided to help the algae's habitat environment more effectively. On the other hand, it is configured by loading the sandstone inside the substructure to act as the engraftment substrate of the algae growing under low light.

The water flow generated by this frame structure activates floating organisms to provide habitat for larval growth or settled fishes, thereby enhancing the primary productivity of fish and shellfish nests and shelter of fish. Will be.

Description

House-type artificial reef for seaweed forest construction {AN ARTIFICIAL REEF OF HOUSE TYPE FOR SUBMARINE FOREST}

The present invention relates to a house-type artificial reef, and artificially creating a marine forest by fastening a plurality of reef blocks with artificial seaweed seedlings into a polyhedral house-shaped frame, and installing them in a seawater recording area and a sea area with poor habitat environment. It is about the effective improvement of the marine ecosystem.

In general, artificial reefs are composed of artificial structures for aquatic resources in coastal waters, and are provided as a place for spawning or habitating fish and shellfish, and as a hiding place to protect fry and sex.

Such artificial reefs can be expected to increase the efficiency of fishing by resource growth and grouping of fish groups, and can also expect the effect of shortening the operating time due to the proximity of fisheries. The effect of preventing eutrophication of water bodies can also be expected.

Usually, artificial reefs are divided into coastal reefs installed in waters shallower than 20m and offshore reefs installed in water depths of 20 ~ 50m. Coastal reefs are mainly targeted to young fish such as shellfish and algae and young fish. In the offshore reefs, the algae hits the reefs, causing upwelling and vortices, and through this, suspended nutrients accumulated on the sea floor to the upper part, creating an environment in which various plankton can multiply and increase the productivity of coastal fisheries.

In addition, by using artificial reefs to prevent the degradation of the natural irreversible other than the natural phenomena caused by the rise of the water temperature due to environmental changes, such as Kuroshio turbulent flow, Allino phenomenon and physiological disturbances of seaweeds.

On the other hand, in the prior art, a gourd-shaped hemispherical reef was installed at a depth within 20m of a coast, or a square reef with a diameter of 2m was installed at a location of 30m or more. However, such artificial reefs have been installed in such a way as to indiscriminately drop the reefs in the target area, resulting in a severe loss of the reefs, which prevents them from functioning properly. As a result, it is difficult to expect a deforestation to be shared by various fish species, resulting in a problem of not being an effective habitat space.

The present invention is to solve the problems as described above, by installing a plurality of the eocho block artificially inhabiting the seaweed seedlings, coupled to the house-shaped frame of the polyhedron formed of the skeleton to facilitate the growth of seaweeds due to smooth algae communication Induced by the above-mentioned frame structure, the water flow helps the activity of floating organisms to provide habitat for the growth of larvae or settled fishes, and the sandstones loaded inside the frame serve as a viable substrate of algae growing under low light. The sea forests are used to purify water quality, while providing spawning grounds for fish and shellfish, and hiding places for sea urchins.

To this end, the present invention is the upper structure of the frame consisting of the upper structure and the lower structure is formed of a polyhedron of the side of the trapezoidal side, the front end of the polyhedron is made of a skeleton is made the communication of algae smoothly in and out, A plurality of fixed ends are formed on the inclined portion inclined to both sides and the upper end of the upper structure, and a plurality of support ends are vertically extended downward from a rectangular outer frame formed on the bottom of the upper structure. While connecting the respectively, the frame is configured to form a substructure of the reinforcement is formed by coupling the auxiliary network so that the dead stone is loaded therein, the body is vertically coupled to correspond to a plurality of fixed ends formed in the upper end and the inclined portion of the frame While the fastening hole penetrates into the upper surface of the body of the seedling enggigi A plurality of loop clusters are formed which are configured to block the eocho, providing house-type Artificial Reef, characterized in that riprap is configured to load up the secondary network formed in the lower structure of the frame.

According to the accompanying drawings will be described the present invention in more detail.

First, as shown in Figure 1, the subject innovation is largely the frame 100 formed of the upper structure 110 and the lower structure 120, the upper end 111 and both side slopes 112 of the frame 100 Correspondingly coupled and coupled to the Echo block 200, and the dead stone 300 is formed on the inner bottom surface of the frame 100 to form a natural substrate.

On the other hand, as shown in Figures 2a and 2b, the frame 100 is formed in a trapezoidal shape of the side and the entire frame is formed in a skeleton shape of the polyhedron so that seaweeds communicate smoothly inside and outside the frame 100 The frame 100 is framed to form a house by using a standardized metal H-beam, and in particular, by forming a plurality of vertical stiffeners serving as pillars, while strengthening the structure more firmly welded It is desirable to.

The upper portion 111 and the inclined portion 112 of the frame 100 is a side of each other having a slope by the trapezoidal shape has a predetermined interval and as if to form a roof of the house, a plurality of echo block 200 is fastened, In this case, a plurality of fixed ends 113 are formed to correspond to the Echo block 200 so that the Echo block 200 is firmly and stably seated on the upper end 111 and the inclined part 112. ) Is formed as a plate-shaped reinforcement plate is formed orthogonal to the space of the upper end 111 or is connected to connect the frame of the upper end 111 and the inclined portion 112 is formed.

The fixing end 113 formed as described above corresponds to the fastening hole 210 of the above-described echo block 200 and is fastened by using the fastener 400.

On the other hand, the outer frame 114 is formed on the bottom of the above-described upper structure 110 to form an outer surface and formed in a quadrangular shape, wherein the outer frame 114 connects the front end of the bottom square of the upper structure and the square shape A plurality of reinforcing rods 115 formed in the inner side and connected in the longitudinal direction are connected to each other, and a support pillar 116 supporting the upper structure based on the reinforcing rods 115 is formed and supported.

The support frame 121 is formed on the bottom surface of the outer frame 114 and extends vertically downward from the end of the quadrangle to serve as a leg of the frame. The support plate 121 is formed at one side of the support frame 121. Each connecting is provided with a reinforcement 123 of a shape corresponding to the outer frame 114 of the upper structure 110, wherein at one side of the reinforcement 123, the auxiliary net formed to support and load the dead stone 300 ) Is provided, the lower structure 120 is configured. The lower structure 120 is coupled to the upper structure 110 by welding to form the above-described frame 100.

On the other hand, the frame 100 is not only installed in the shallow waters of the shallow depth, but also can be implemented in deep waters, as shown in Figures 5 and 6, the unit area of the frame 100 is one simple It is possible to produce a frame 100 having a large skeleton having a two-layer structure by forming a larger than the skeleton.

The large frame 100 is made of a large upper structure 110 and a lower structure 120 as described above, the upper structure 110 is formed of an upper frame 100a and a lower frame 100b 2 It is composed of layers.

At this time, the frame 100 is also composed of a large shape is formed of a trapezoidal polyhedron with a frame at the front end, the inner substrate 100d to be described later in the inner space of the upper structure 110 having a two-layer structure ) Is formed to provide an ecological space for fish and shellfish.

On the other hand, the upper frame (100a) and formed in the lower frame to form a larger frame and the middle of the lower frame (100b) welded to the upper frame (100a) is formed a stop portion (100c) formed in stepped, the interruption The above-mentioned fixing end 113 is formed in the part 100c so that the plurality of eocho blocks 200 are seated, thereby providing a seating part of the engraftment substrate. The lower structure 120 described above is welded to the bottom of the upper structure 110 of the two-layer structure by the same concept to form a single body.

At this time, the inner substrate 100d is formed in the middle of the upper frame 100a and the lower frame 100b of the two-layer structure so that the sandstone formed in the lower structure 120 is installed in the same concept. After the reinforcing material is welded orthogonally to the central portion of the inner support column, the auxiliary net 122 is formed on one side of the reinforcing material, thereby forming the sandstone 300 to be loaded in the inner space. The inner substrate 100d performs the role of the engraftment substrate in the inner space of the frame 100 in addition to the lower structure 120, and in particular, provides an ecological space for fish and shellfish inhabiting under low light intensity. At this time, it is preferable that the auxiliary net 122 formed to support and load the sandstone 300 to provide an ecological space to the fish and shellfish growing under low light is a mesh type mesh.

Meanwhile, as shown in FIG. 3, a plurality of fixed ends 113 are formed at the upper end 111, the two inclined parts 112, and the stop part 100c of the above-described frame 100. Corresponding to the 113, the fastening hole 210 is vertically penetrating through the body is formed, while the upper block of the eocho block 200 formed a plurality of cluster stones 220 to be the entrepreneurial substrate of the fish ) Is installed.

The Echo block 200 is fixed to the fixing end 113 of the upper end 111, the inclined portion 112 and the stop portion 100c of the upper structure 110 by using a plurality of fasteners 400, The fastener 400 penetrates the fastening hole 210 of the echo block, while one end thereof is fastened to the fastening groove of the fastening end 113 to form a firm fixing.

As shown in FIG. 4, the Echo block 200 forms a cluster stone 220 on the upper surface of the body to artificially reproduce seedlings. The cluster stone 220 has a fine hole to maximize spore engraftment of algae. It is desirable to use many of these broken rubble, shells and the like, and in particular, it is preferable to form the material of concrete so that artificial seedlings are not contaminated with the fish block itself.

House-shaped artificial reefs, which are formed on the frame 100 of the frame by forming the estuary block 200 and the dead stone 300, are suspended due to the rising flow of the algae rising above the frame 100 while hitting the steel reefs. By inducing the activity of the living creatures are rich in food organisms, while improving the water quality of the sea by the eocho block 200, spores such as mabanban, Ecklonia spp. It is to provide an ecological space for fish and shellfish.

As described above, the house-type artificial reef of the present invention is installed by combining a plurality of fish reef blocks artificially inhabited by seaweed seedlings in a house-shaped frame of a polyhedron formed with a frame to induce the growth of algae more effectively due to smooth bird communication. The water flow generated by this frame structure helps the activity of floating organisms to provide habitat for larval growth or settled fish, and to load sandstone inside the frame for the vitrification of algae growing under low light. Purification of the water quality by the artificial reefs to increase the primary productivity, it is effective to provide a spawning ground of fish and shellfish, hiding place of the sex.

1 is a perspective view of the present invention,

Figure 2a is a side view of the present invention,

2b is an actual perspective view of the present invention,

3 is a cross-sectional view of the main part according to the present invention,

4 is a perspective view of an echo block according to the present invention,

5 is a side view of another embodiment of the present invention;

6 is a perspective view of another embodiment of the present invention.

-Explanation of symbols for main parts of drawing-

100 ... frame 100a ... upper frame

100b ... lower frame 100c ... interruption

100 d ... inner substrate 110 ... superstructure

111 ... upper part 112 ... inclined part

113 ... fixed end 114 ... outer frame

120 ... Substructure 121 ... Support

122 ... auxiliary network 123 ... reinforcement

200 ... Echo Block 210 ... Fastener

220 ... Songdol 300 ... Stone

400 ... Fixture

Claims (4)

In house type artificial reef, The upper structure 110 of the frame 100 composed of the upper structure 110 and the lower structure 120 is formed of a polyhedron having a trapezoidal side, and the front end of the polyhedron is composed of a skeleton to communicate the algae in and out. On the other hand, a plurality of fixed ends 113 are formed at the upper end portion 111 of the upper structure 110 and the inclined portion 112 inclined to both sides so that the plurality of Echo blocks 200 are fastened and coupled thereto. The auxiliary net 122 is connected to a plurality of support members 121 extending downward from the rectangular outer frame 140 formed at the bottom of the upper structure 110 and vertically formed downwards, respectively, and the sandstone 300 is loaded therein. The frame 100 formed by combining the reinforcement 123 formed of the lower structure 120, A fastening hole 210 vertically penetrating the body is formed to correspond to a plurality of fixed ends 113 formed on the upper end 111 and the inclined part 112 of the frame 100 to be coupled to each other. Echo block 200 is formed on the upper surface formed with a plurality of doldol 220 to be a substrate of seedlings, House-shaped artificial reefs, characterized in that the dead stone 300 is configured to be loaded over the auxiliary network 122 formed in the lower structure 120 of the frame 100. According to claim 1, wherein the frame 100 is a trapezoid-shaped polyhedral frame is formed in a two-layer structure, the lower frame frame wider than the upper frame 100a is formed below the upper frame 100a Frame 100b is formed on the step where the upper frame 100a and the lower frame 100b meet so that the stopping part 100c is formed so that the plurality of Echo blocks 200 is seated, while the lower structure 120 is formed. The upper structure 110 and the inner substrate (100d) is formed so that the dead stone 300 is loaded on the stack can be duplicated in the center of the frame, The auxiliary net 122 is connected to a plurality of support members 121 extending downward from the rectangular outer frame 140 formed at the bottom of the upper structure 110 and vertically formed downwards, respectively, and the sandstone 300 is loaded therein. House-shaped artificial reefs, characterized in that consisting of the reinforcement 123 is formed by combining the lower structure 120. According to claim 1 or 2, House-shaped artificial reefs, characterized in that the auxiliary network 122 formed in the lower structure 120 is formed of a mesh formed of a mesh type. According to claim 1 or 2, wherein the reef block 200 is made of a concrete material, while the upper surface of the reef block 200 is characterized in that any one of the clusters, crushed stone, slag, shells are formed House type artificial reef made with.