KR200448190Y1 - Pavilion-shaped artificial reef having mutlipurpose - Google Patents

Abstract

The present invention aims to provide a sperm-type multi-purpose artificial reef with a bio habitat that is made to form a sperm (cucumber) as a whole to facilitate the flow of currents and improve the shading effect, and to be able to inhabit various creatures inside. .

Technical configuration of the present invention for achieving the above object, the vertical column beam 31 that is erected to be supported on the sea bottom, the upper horizontal beam 32 connected to the upper end of the vertical column beam 31, the vertical column A lower structure (30) consisting of a lower crossbeam (33) connected to and supported by a lower height from the bottom of the beam (31) and a floor plate (34) extending inwardly from the lower crossbeam (33); The lower horizontal beam 21, which is installed to be mounted on the lower structure 30, coupled to the upper crossbeam 32, the upper horizontal beam 23 formed to be separated from the lower horizontal beam 21 by a predetermined height, The upper and lower horizontal beams 21 and the upper horizontal beams 23 are connected to each other by the inclined connecting beam 22 and the inclined connecting beams 22 formed at regular intervals. Image forming a truncated polyhedron of light Sperm type abutment 10 made of concrete composed of a sub-roof 20; A plurality of multi-functional bodies 41 which are placed on the floor plate 34 of the sperm type primitive 10 and have various types of inclined surfaces on the surface thereof are stacked such that a habitat space 48 is formed therebetween. Body 41 is composed of a box-shaped biological habitat 40 of concrete material that is fixedly coupled by a defect groove (43a) and the engaging projection (43b) formed alternately in the corner portion of each multi-functional body (41).

Artificial Reef, Sperm Shape, Undercarriage, Upper Roof, Boxed Bio Habitat

Description

Pavilion-shaped artificial reef having mutlipurpose}

The present invention relates to a sperm-type multi-purpose artificial reef, more specifically, it is made in the form of sperm as a whole to facilitate the flow of ocean currents and to improve the shading effect, while the inside of the sperm-type multi-purpose plant is built to enable a variety of living creatures It is about an artificial reef.

Artificial reefs are artificial structures that are installed on the coast or near the sea in order to secure marine resources for coastal fisheries and to provide spawning and habitat for marine life and to provide shelter for fry. It has been conceived from the rule of thumb that it can raise a lot of catches by dropping into the sea, and recently, it has been transformed into various forms from the one designed to the hexahedral, cylindrical, and uneven structure in order to create the habitat of marine life more efficiently. In particular, with the aim of simply providing a habitat for fish, artificial reefs with various and complex functional morphologies have been developed for fish nesting, seaweed breeding and habitat.

Materials used to make artificial reefs are also variously used, such as concrete, waste tires, and steel. Each material has the following advantages and disadvantages. In the case of concrete, the durability is excellent, but there is a problem in that the concrete itself is toxic and it cannot be manufactured in various structures.In the case of waste tires, it has the advantage of recycling waste resources, but when it is installed on the sea floor with a specific gravity of 1.1, it moves to weak external force. In case of steel materials, it is possible to make a complex shape of the reef, but the effect is reduced by the removal of adherent organisms attached to iron oxide due to corrosion, etc. This shortcoming has the disadvantage.

In the case of concrete, in spite of the above-mentioned disadvantages, it is the most used as a material of the reefs because of the advantages of easy to manufacture and relatively particularly excellent durability. In addition, recently, porous concrete has been developed to increase the porosity of the surface so that algae and the like can be more easily engulfed and attracted attention as a new fish material.

In this regard, in the field of reef development, it is the most desirable research direction to develop artificial reefs with more diverse and complex functional morphology using concrete having excellent durability as well as seaweed growth effects.

The present invention was developed in accordance with this research direction. By constructing a durable sperm artificial framework using concrete and installing a box-type biological habitat that provides various functions for inhabiting marine life, In addition, it aims to provide a new type of sperm-type multi-purpose artificial reef that can exert an excellent effect on seaweed growth.

The sperm-type multi-purpose artificial reef according to the present invention for achieving the above object is a vertical columnar beam erected to be supported on the sea bottom, the upper horizontal beam connected to the upper end of the vertical columnar beam, the bottom of the vertical columnar A lower structure consisting of a lower cross beam connected to and supported by a predetermined height and a floor plate extending inwardly from the lower cross beam, and a lower horizontal beam installed to be mounted on the lower structure, the lower cross beam being coupled to the upper cross beam, The upper horizontal beam is formed to be separated from the horizontal beam by a predetermined height, the inclined connecting beam connecting the edges of the lower horizontal beam and the upper horizontal beam, and the reinforcing cyborg formed at regular intervals between the inclined connecting beams. Of concrete made up of upper roofs forming a truncated polyhedron Sperm ovules; A plurality of multifunctional bodies, which are placed on the floor plate of the sperm type primitive and have various types of inclined surfaces on the surface thereof, are stacked to form a space therebetween, and the multifunctional bodies are alternately arranged at the corners of the respective multifunctional bodies. It is made of a box-shaped bio habitat of concrete material which is fixed and coupled by the formed defect groove and the engaging projection.

According to the sperm-type multi-purpose artificial reefs according to the present invention configured as described above, it is manufactured in a form suitable for the growth of seaweeds to increase the effectiveness of the sea forest formation, and it is necessary for the forgery of the fish such as the uptake effect, the vortex formation effect, and the shadow effect of the currents. Not only can it perform multi-purpose functions, but it also contributes to the development of marine resources, the ultimate goal of artificial reefs, by providing habitats for various species.

Before explaining the morphological features of the sperm-type multi-purpose artificial reef according to the present invention will be briefly described for the concrete characteristics of the material. As described above, despite the disadvantage that the concrete can not be produced in a complex form can be made through the batch process of placing concrete in the formwork made in the form of the reefs because it is relatively easy to manufacture and excellent durability compared to steel materials Most often used as a material for candles.

Recently, porous concrete has been developed and used to increase the porosity of the surface so that algae and the like can be more easily entrained. This porous concrete uses ordinary Portland cement (or blast furnace slag cement), crushed aggregates and coarse aggregates (13 ~ 19mm) to have a porosity of 10% or more and a permeability of 1.73 ~ 0.47 cm / sec. It is made. The additionally mixed blast furnace slag elutes iron ions to provide the protein composition and photosynthesis of algae and phytoplankton. Therefore, the present invention can be produced using such a porous concrete.

Furthermore, in the present design, when the total concrete weight is 100%, the aggregate is 80-90%, and 9-19% by weight of cement, 5% by weight of oyster shell powder, and less than 1% of admixture are mixed with this mixture. Porous concrete made by mixing water in a weight ratio of 4: 1 may be used. Unlike conventional porous concrete, this porous concrete mixes less than 5% of oyster shell powder to improve natural affinity, recycle waste resources and replace insufficient aggregates. In addition, when the weight of the cement is 100%, 1 to 3% by weight of yellow clay is mixed to improve the natural affinity, or 1 to 2% by weight of elvan powder to neutralize cement toxicity, decompose heavy metals, dissolve minerals, etc. It may also be effective.

As described above, the sperm-type multi-purpose artificial reefs according to the present invention can be manufactured using one of ordinary concrete, porous concrete, porous concrete containing oyster shell powder. That is, the present invention is preferably made of porous concrete, but may be made of general concrete, and may use only the features of its shape.

Next, the features of the shape of the sperm-type multipurpose artificial reef according to the present invention will be described with reference to FIGS. 1 to 6. 1 is an overall perspective view of an embodiment of a sperm-type multi-purpose artificial reef according to the present invention, Figure 2 is an exploded perspective view, Figure 3 to Figure 6 is a perspective view, front view of the box-type bio habitat placed inside the sperm Fig. And Fig.

As shown in Figure 1, the sperm-type multi-purpose artificial reefs according to the present invention is largely composed of a sperm-shaped frame 10 and a box-type biological habitat 40 installed therein. The sperm cage 10 is supported on the bottom of the sea and the lower structure 30 is configured to place the box-type bio habitat 40 therein, and is placed on the lower structure 30 to form a space inside the It consists of an upper roof 20 that is configured to form and generate shading and vortex effects.

The lower structure 30 is a vertical column beam 31 that is erected to be supported on the sea bottom, as shown in Figure 2, the upper horizontal beam 32 is connected to the top of the vertical column beam 31, the vertical column The lower horizontal beam 33 is connected to the bottom of the beam 31 so as to be separated from the bottom surface by a certain height, and the floor plate 34 extending from the lower horizontal beam 33 to the inside.

As such, the lower structure 30 forms a structure connecting the various beams to provide a space where the upper and side surfaces are completely open, so that currents flow smoothly to prevent accumulation of sand, sand or wastes therein.

In Figure 2, the vertical columnar 31 is formed in a square shape, the lower structure 30 forms a hexahedron, but this is only one embodiment, and the vertical columnar 31 is hexagonal, octagonal, etc. Can be built in form. In addition, the column reinforcing member 36 is padded in the form of a plate at the corner portion where the vertical column beam 31 and the lower cross beam 33 and the upper cross beam 32 meet to improve the structural stability of the lower structure 30 while the current flow Interfere with the flow of the vortex to form.

The lower cross beam 33 is formed to be separated from the sea floor by a predetermined height to prevent the floor plate 34 formed therefrom from being buried by jonny, such as sand and sand. In addition, the space between the vertical columnar 31 and the sea bottom formed by the lower horizontal beam 33 provides a hide and a habitat for fish and shellfish, while improving the structural stability of the reefs by smoothly communicating the current.

The floor plate 34 is formed to be inclined so that the center portion is lowered, and the floor plate 35 is formed at the center thereof so as to communicate with the sea bottom. Thereby, sand, sand or other waste accumulated on the surface of the floor plate 34 is accumulated in the center and discharged to the sea floor through the floor hole 35.

As shown in FIG. 1, a central support 38 is formed at the lower periphery of the floor hole 35 to support the floor plate 34, so that the box-shaped biological habitat 40, which is a weight, is placed on the floor plate 34. To be loaded securely into the

On the other hand, the upper roof body 20 is installed so as to be mounted on the lower structure 30, as shown in Figure 2, the lower horizontal beam 21 coupled to the upper cross beam 32, the lower horizontal beam ( 21 of the upper horizontal beam 23, the inclined connecting beam 22 connecting the edges of the lower horizontal beam 21 and the upper horizontal beam 23 and the inclined connecting beam 22 It is configured to form a truncated polyhedral form of the upper and lower light as a whole by the reinforcement cyborg 25 formed at regular intervals therebetween.

In Figure 2, the upper roof 20 is shown in the form of a truncated pyramid with a square bottom, which is just one embodiment according to the lower structure 30 in the form of a hexahedron, hexagonal roof, octagonal roof, etc. It may be installed in the form. In addition, the upper roof 20 has a number of the upper cross beam 32 of the lower structure 30 and the lower horizontal beam 21 of the upper roof 20 so that it can be fixed on the lower structure (30). Fixedly coupled by two coupling bolts 37. Of course, in addition to the coupling bolt 37, various conventional coupling means may be used, and further, the upper roof 20 and the lower structure 30 may be integrally poured and manufactured.

The upper roof body 20 is made of porous concrete and forms a polyhedron of superborder light so as to maintain a certain angle to evenly reach sunlight, which is most important for the growth of algae, to provide a suitable composition of the marine forest. In addition, the reinforcement cyborg 25 formed at regular intervals allows the sunlight to reach the inside of the reef, while showing various shading effects in the interior of the lower structure 30 according to the change in the position of the sun every day, algae, shellfish Of course, it shows the counterfeiting effect on various fish species such as dagbari, rock dome, rock rock, and rock rock rock.

The upper horizontal beam 23 of the upper roof body 20 is interconnected to form a roof hole 24 in the center. The roof hole 24 allows the sunlight to reach the inside of the lower structure 30, while generating a rising effect of the currents flowing into the reefs so that the plankton, which is a food for the fish, is evenly distributed around the reefs. Improves the counterfeit effect. In addition, this upwelling effect prevents the reefs from overturning due to sudden strong currents.

The technical features of the lower structure 30 and the upper roof body 20 constituting the sperm shape frame 10 have been described so far. Hereinafter, the box-type biological habitat 40 will be described which is installed inside the sperm cage 10 to enable various functions as fish reefs.

The box-type bio habitat 40 placed on the floor plate 34 of the sperm type primitive 10 has a plurality of multifunctional bodies 41 having various types of inclined surfaces on the surface thereof, as shown in FIGS. 3 and 4. Are stacked so that the habitat space 48 is formed therebetween.

In more detail, the multi-functional body 41 forms a plate shape having a predetermined thickness, such as a checker board, and the comb surface 44 of the corner connecting portion constituting the side surface 45 of the plate is formed with various shapes, and the comb surface is a fine vortex It shows the formation, shading effect, etc., and improves the counterfeiting effect of fish. In addition, the upper and lower surfaces 46 of the plate are formed to be inclined so that the center portion is lowered like the floor plate 34 of the lower structure 30, and the bottom hole 47 is formed at the center thereof, thereby forming sand, sand or other soil. This prevents waste from accumulating. At this time, the bottom hole 47 of the multi-functional body 41 and the floor hole 35 of the floor plate 34 are aligned so as to lie in a straight line, so that sand, sand or other waste accumulated in the multi-functional body 41. It is preferable to allow them to be discharged directly to the sea bottom through the bottom hole 47 and the floor hole 35.

As described above, the multi-functional body 41 is manufactured in a form in which a plurality of layers are stacked. In this case, the two multi-functional bodies 41 are stacked not to be completely in contact with each other, but to form a variety of form spaces 48 therebetween. In addition, the habitat space 48 is configured in various sizes and shapes as shown in Figure 4 is formed with a large corner space (A) on one side and a small corner space (B) on the other side of the various types of settlement Allow sex fish to enter and exit. In addition, the habitat space 48 facilitates the communication of the currents to improve the structural stability of the reefs.

As described above, the box-type bio habitat 40 according to the present invention is made of porous concrete, and a plurality of multifunctional bodies 41 having various types of inclined surfaces are stacked so that the habitat space 48 is formed therebetween, so that suitable seaweeds are provided. It provides a variety of objectives, including the provision of entrepreneurial substrates, vortex and shading effects by slopes, and habitats and shelters for a variety of fish species.

On the other hand, the plurality of multi-function body 41 is fixed to each other by a predetermined coupling means 43 formed on each corner coupling hole 42, two embodiments of the coupling means 43 in Figures 5 and 6 An example is shown. First, as shown in FIG. 5, the coupling means 43 is composed of coupling grooves 43a and coupling protrusions 43b alternately formed for each multifunctional body 41. According to this method, while forming the formwork of the coupling means 43 is somewhat complicated, when the multifunctional body 41 is stacked, the fitting protrusion 43b needs to be fitted to the coupling groove 43a so that the installation is easy.

Second, as shown in Fig. 6, the coupling means 43 has a coupling through hole 43c formed at a corner of each of the multifunctional bodies 41 and a coupling fixed shaft inserted into and fixed to the coupling through hole 43c. 43d. The coupling fixed shaft 43d may be made of concrete or made of steel in the same manner as the multifunctional body 41. According to this method, while forming the formwork of the coupling means 43 is simple, when stacking the multifunctional body 41, each coupling through-hole 43c is aligned, and then a separate fixed fixing shaft 43d is inserted and fixed. The installation is a bit cumbersome because it has to be done.

1 is a perspective view of a sperm-type multi-purpose artificial reef in accordance with the present invention.

Figure 2 is an exploded perspective view of the sperm-type multi-purpose artificial reefs according to the present invention.

Figure 3 is a perspective view of the box-shaped biological habitat according to the present invention.

Figure 4 is a front view of the box-shaped biological habitat according to the present invention.

Figure 5 is a combined state diagram of the box-type bio habitat according to the present invention.

Figure 6 is another binding state of the box-type bio- habitat according to the present invention.

[Description of Reference Numerals]

10: sperm type 20: upper roof body

21: lower horizontal beam 22: inclined connecting beam

23: top horizontal beam 24: roof hole

25: reinforcing sibeam 30: substructure

31: Vertical column beam 32: Upper cross beam

33: lower crossbeam 34: floor plate

35: floor hole 36: column reinforcement

37: coupling bolt 38: center support

40: box bioreactor 41: multifunctional body

42: corner coupler 43: coupling means

43a: coupling groove 43b: coupling protrusion

43c: coupling through hole 43d: coupling fixed shaft

44: corner connection 45: side

46: upper and lower 47: bottom hole

48: Formatting space A: Large corner space

 B: small corner space

Claims (6)

Vertical column beam 31 erected to be supported on the sea bottom, the upper horizontal beam 32 connected to the upper end of the vertical column beam 31, separated from the bottom of the vertical column beam 31 by a certain height A lower structure (30) consisting of a lower crossbeam (33) connected to and supported by the lower crossbeam (33) and extending from the lower crossbeam (33) to the inside, and installed to be mounted on the lower structure (30). The lower horizontal beam 21 coupled to the cross beam 32, the upper horizontal beam 23 formed to be separated from the lower horizontal beam 21 by a predetermined height, and the lower horizontal beam 21 and the upper horizontal beam 23, respectively. By the inclined connecting beam 22 connecting the corners and the reinforcing cyborg 25 formed at regular intervals between the inclined connecting beams 22 to the upper roof body 20 which forms the truncated polyhedron of the upper and lower light as a whole. Sperm shaped frame of constructed concrete 0); A plurality of multi-functional bodies 41 which are placed on the floor plate 34 of the sperm type primitive 10 and have various types of inclined surfaces on the surface thereof are stacked such that a habitat space 48 is formed therebetween. Body 41 is characterized in that consisting of a box-shaped biological habitat 40 of concrete material that is fixedly coupled by a defect groove (43a) and the engaging projection (43b) formed alternately in the corner portion of each multi-functional body (41) Sperm-type multi-purpose artificial reef. Vertical column beam 31 erected to be supported on the sea bottom, the upper horizontal beam 32 connected to the upper end of the vertical column beam 31, separated from the bottom of the vertical column beam 31 by a certain height A lower structure (30) consisting of a lower crossbeam (33) connected to and supported by the lower crossbeam (33) and extending from the lower crossbeam (33) to the inside, and installed to be mounted on the lower structure (30). The lower horizontal beam 21 coupled to the cross beam 32, the upper horizontal beam 23 formed to be separated from the lower horizontal beam 21 by a predetermined height, and the lower horizontal beam 21 and the upper horizontal beam 23, respectively. By the inclined connecting beam 22 connecting the corners and the reinforcing cyborg 25 formed at regular intervals between the inclined connecting beams 22 to the upper roof body 20 which forms the truncated polyhedron of the upper and lower light as a whole. Sperm shaped frame of constructed concrete 0); A plurality of multi-functional bodies 41 which are placed on the floor plate 34 of the sperm type primitive 10 and have various types of inclined surfaces on the surface thereof are stacked such that a habitat space 48 is formed therebetween. The body 41 is formed of a concrete member which is coupled and fixed by a coupling through hole 43c formed in a row at each corner of the multifunctional body 41 and a coupling fixed shaft 43d inserted into and fixed to the coupling through hole 43c. Sperm-type multi-purpose artificial reefs, characterized in that consisting of a box-type biological habitat (40). According to claim 1 or 2, wherein the floor plate 34 of the lower structure 30 is formed to be inclined so that the center portion is lowered, the floor hole 35 is formed to communicate with the bottom of the bottom, Sperm-shaped multi-purpose artificial reefs, characterized in that the central support 38 is formed in the lower peripheral portion of the floor hole 35 to support the floor plate 34. The sperm-type multipurpose artificial reef according to claim 1 or 2, wherein the upper horizontal beams (23) of the upper roof body (20) are connected to each other so that a roof hole (24) is formed at the center thereof. According to claim 1 or claim 2, wherein the multi-functional body 41 of the box-shaped biological habitat 40 forms a plate shape having a predetermined thickness, the side surface 45 has a variety of inclined surfaces in order to increase the effect of biological exile It is formed, the upper and lower 46, sperm-shaped multi-purpose artificial reefs, characterized in that the central portion is formed to be inclined downward, and the bottom hole 47 is formed in the center thereof. delete

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