KR102064925B1 - Octopus spawning structure - Google Patents

Abstract

The present invention relates to a fishing bank for octopus spawning, comprising a main body block (10), a spawning space portion (20), a blocking block (30) and a seawater hole (40). At this time, the fishing bank for octopus spawning is formed of an integral concrete molding, thereby being easy to manufacture and excellent in construction, and creates an optimized habitat environment for octopus spawning by shielding the upper area of the spawning space portion in connection with the entrance and exit using the blocking block in order not to be exposed. Also, foreign matters including sand flowing into the spawning space portion by the inclined bottom surface and a sediment discharge port are quickly discharged, thereby allowing the habitat environment within the spawning space portion to remain comfortable in the long term.

Description

Octopus spawning structure

The present invention relates to a modular octopus scattering structure, more specifically, is formed of an integral concrete molding, easy to manufacture and excellent in workability, the octopus is shielded so that the upper area of the scattering space portion communicating with the entrance is not exposed by the blind block. In addition to creating an optimized habitat environment for spawning, foreign materials including sand flowing into the spawning space are quickly discharged by the inclined bottom surface and sediment outlet, so that the spawning environment in the spawning space can be comfortably maintained in the long term. It's about a fishery.

The octopus, a species widely distributed around the world, is a high-end fish species that forms a huge market, but since 2010, the octopus's resource consumption has obviously decreased, but the consumption has increased and the price has continuously increased, which is a very important fishery species. In 2009, octopus production (16,000 MT) has been plunging every year after peaking. Especially, the octopus caught on the east coast is noted as a fish species that can greatly contribute to fishermen's income.

However, in general, octopus is a species with relatively low reproductive power, and it has been found that spawning takes place almost once in a lifetime, and early research on aquaculture technology in Japan, Chile, and Southern Europe has been performed, but it does not show a great result.

In the case of Japan, Japanese Patent Application Laid-Open No. Hei 8-80139 provides an octopus herb from spawning to hatching and growth. The octopus is provided as a breeding environment and provides a space for purifying water, octopus octopus, and growth of octopus, and at the same time, it is not buried in the seabed and has a base structure. In order to protect the octopus's spawning environment, it is necessary to prevent airtightness and pollution. In the present invention, the base structure is a structure having a leg, a shelter filled with oyster shell on the base, and arranged a plurality of octopus jars having a through hole around the shelter so that the through hole is not blocked. The octopus jar is arranged on the base through several reinforcing bars, and the shelter is structured to fix the mortar by recessing the flange of the lower outer periphery to the angle frame on the base. However, since the invention has a structure in which the octopus jar, the shelter and the concrete structure are integrated, it is difficult to manufacture and construct, and in particular, foreign substances including sand flowing into the sea are accumulated in the interior and the entrance is easily blocked or the internal space. This narrowing was followed by the demise of habitat space gradually disappearing.

In the case of Korea, literature-related research as literature 1 (Kwon, In-Young, `` Evaluation of Biological Performance of Individual and Group Octopus vulgaris-Fostering Instruments through Marine and Indoor Tank Experiments '' (MS, Graduate School of Chonnam National University, 2014.)) Water tanks under specific conditions, such as ecological studies of octopus in specific regions, or document 2 (Lee Sung-il and four others, “Maturation and spawning of large octopus off the coast of Gangwon-do,” Korea Fisheries Research and Development Institute, 2014.) Research has been conducted on biological performance through experiments. However, in the spawning of octopus and in the early stage of growth, there is no suitable octopus spawning structure or structure in Korea and the seabed ecosystem.

In this situation, the inventor of the present invention came to the present invention through the experience of developing artificial reefs for the construction of the seabed ecosystem and ecological studies of octopus spawning. The inventors of the present invention have provided artificial reefs for the construction of an undersea ecosystem, which is easy to install seedling ropes and harvest aquaculture organisms using slag in the prior invention (Registration Patent 10-1615887), and also in the patent registration (10-1692381) The dialysis block group for dialysis project was proposed to create the seabed ecosystem. Based on the artificial reef technology using the slag of the present inventors, the present invention has been made to create a marine environment suitable for octopus ecosystem from spawning to growth for the continuous use of octopus resources.

The present invention has been conceived to create an ecological environment suitable for the spawning and initial growth stage of octopus, formed of an integral concrete molding, easy to manufacture and excellent in construction, the upper area of the scattering space portion communicating with the entrance to the blind block It is shielded from being exposed to non-exposure and creates an optimized habitat environment for octopus spawning, while foreign matters including sand flowing into the spawning space by the inclined bottom and the sediment outlet are quickly discharged. An object of the present invention is to provide comfortably maintained octopus spawning.

Features of the present invention to achieve this purpose, is formed of a mixture comprising 50 to 60 parts by weight of steelmaking slag aggregate, 20 to 30 parts by weight of electrooxidized slag, 10 to 20 parts by weight of sand, 10 to 15 parts by weight of slag cement The main block 10 is installed so that the bottom surface is spaced apart from the sea bottom by the supporting leg 12 so that the lower seawater passage 14 is formed; A scattering space part 20 connected to the doorway 22 opening to one side of the body block 10 and having a flat surface 24 formed on a ceiling thereof; An obstruction block 30 protruding downward from an upper portion of the entrance 22 and shielding the upper portion of the scattering space 20 through the entrance 22 so as not to be exposed; And a seawater hole 40 penetrating into the scattering space 20 from the side and the top of the body block 10 to circulate the seawater.

At this time, the body block 10 is formed as a rectangular block that is reduced in width toward the top, the supporting legs 12 are formed at the bottom four corners, the upper four sides are chamfered to form the supporting slopes 16 , The support inclined surface 16 is characterized in that it is provided so as to be in surface contact with the Associate block 100 is constructed to cover the upper body block 10.

In addition, the doorway 22 is formed in a reduced size compared to the scattering space portion 20, characterized in that provided in the eccentric position so that the bottom surface of the doorway 22 coincides with the bottom surface extending line of the scattering space portion 20. do.

In addition, the bottom surface of the scattering space portion 20 and the bottom surface of the entrance 22 is formed of an inclined bottom surface 50 that forms a downward inclination angle toward the outside of the main body block 10, and flows into the scattering space portion 20. It is characterized in that the foreign matter containing the sand is provided to be discharged to the outside of the body block 10 by the inclined bottom surface (50).

In addition, the deposit outlet 60 penetrates downward from the inclined bottom surface of the doorway 22 so as to communicate with the lower seawater passage 14, and foreign substances including sand introduced into the doorway 22 by the seawater are introduced into the deposit outlet. Characterized in that it is provided to be discharged to the lower body block 10 through 60.

In addition, the engaging portion 70 is formed on the inclined bottom surface 50 of the entrance or exit 22, or the horizontal bar 72 is installed to be spaced apart from the inclined bottom surface 50, and the entrance and exit 22 by the habit of octopus after spawning. To stack the stone (1) to close it is characterized in that it is provided to be supported by the locking portion 70 or the side bar 72 is fixed to the position.

In addition, the bottom of the scattering space portion 20 of the body block 10 is concrete molded in an open state, the bottom of the scattering space portion 20 is provided to be finished by the base plate 21, the scattering space portion 20 The bottom plate 21 is formed as an arcuate plate recessed downward, and the sediment discharge port 60 is formed at the lowest point.

In addition, the base plate 21 is formed of an elastic plate, it characterized in that it is provided so as to be supported in the up, down direction by the current pressure.

According to the above configuration and action, the present invention is formed of an integral concrete molding, easy to manufacture and excellent in construction, and the upper area of the scattering space portion communicating with the entrance is shielded so as not to be exposed by the occlusion block optimized habitat for octopus spawning In addition, since the foreign matter including sand flowing into the spawning space portion by the inclined bottom surface and the sediment discharge port is discharged quickly, the habitat environment in the spawning space portion is maintained comfortably in the long term.

1 is a perspective view showing an entire octopus scattering fish in accordance with an embodiment of the present invention.
Figure 2 is a block diagram showing the octopus spawning forage in accordance with an embodiment of the present invention from the front.
Figure 3 is a block diagram showing a state in which the construction of the octopus scattering fish and eoeoblock in accordance with an embodiment of the present invention.
Figure 4 is a block diagram showing the inclined bottom surface of the octopus for spawning octopus according to an embodiment of the present invention.
Figure 5 is a block diagram showing the locking portion and the horizontal bar of the octopus scattering fish in accordance with an embodiment of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The present invention relates to an octopus spawning reef, in which the octopus spawning is formed of an integral concrete molded, easy to manufacture and excellent in construction, the upper area of the scattering space portion communicating with the entrance is shielded so as not to be exposed by the blind block. In addition to creating an optimized habitat environment for octopus spawning, foreign substances including sand flowing into the spawning space are quickly discharged by the slanted bottom and the sediment outlet so that the habitat environment in the spawning space can be maintained comfortably in the long term. The main block 10, the scattering space portion 20, the blocking block 30, including the seawater hole 40 is composed of a main configuration.

The main body block 10 according to the present invention is formed of a mixture including 50 to 60 parts by weight of steelmaking slag aggregate, 20 to 30 parts by weight of electrooxidized slag, 10 to 20 parts by weight of sand, and 10 to 15 parts by weight of slag cement, and is supported. The bottom 12 is spaced apart from the sea bottom by the legs 12 so that the lower sea passage 14 is formed. As the main block 10 is formed of slag as the main raw material, the alkalinity is 20 to 40% lower than that of the general concrete molding, thereby activating the marine basic ecosystem including water flea, plankton, and seaweed.

In addition, the body block 10 has a plurality of supporting legs 12 are integrally formed on the bottom surface. In Figure 1, the supporting leg 12 shows a state formed in four places to correspond to the four corner positions of the bottom surface of the body block 10.

At this time, the support leg 12 is supported so that the bottom of the main body block 10 is spaced to the bottom of the bottom in a state of being grounded to the bottom of the sea bottom, the lower sea passage 14 between the bottom of the sea bottom and the bottom of the body block 10 Is formed. Here, the lower seawater passage 14 is a space where seawater is purified, so that foreign matters including sand discharged to the lower portion of the main body block 10 through the sediment discharge port 60 described later are scattered in all directions by the seawater flow, and thus, the spawning space. The inside of the part 20 is always kept comfortable.

In addition, the scattering space portion 20 according to the present invention is connected to the doorway 22 that is open to one side of the main body block 10, a flat surface 24 is formed on the ceiling, downward from the top of the doorway 22 Protruding, the blocking block 30 is provided to shield the upper portion of the scattering space 20 through the doorway 22 to be unexposed.

That is, the scattering space portion 20 is formed in a jar structure in which the entrance and exit 22 is reduced in size to a narrower size than the space inside the scattering space portion 20 by the blocking block 30. The doorway 22 is formed to have a smaller size than the scattering space 20, and is provided at an eccentric position so that the bottom surface of the doorway 22 matches the bottom line of the scattering space 20. In FIG. 2, the doorway 22 is installed to be eccentrically toward the lower left side of the scattering space part 20.

In addition, since the shielding block 30 is shielded so that the upper region (eg, the egg implantation region) of the scattering space portion 20 is not exposed, the octopus eggs are not exposed from the outside through the doorway 22, thereby being safely protected from natural enemies.

In addition, since the scattering space portion 20 provides a wide spawning space for the octopus to spawn in a manner of hanging eggs as the flat surface 24 is formed on the ceiling, a large amount of eggs are implanted.

In addition, the seawater hole 40 according to the present invention penetrates into the scattering space 20 in the side and the upper surface of the body block 10 is provided to circulate seawater. The seawater hole 40 is formed in a plurality of places on the upper surface and the side surface of the block body 10 in a smaller size than the entrance, and when the seawater is introduced in one direction through the seawater hole 40, the seawater is discharged in the other direction. Circulated in a way, there is an advantage that the fresh water is introduced between the eggs by the current flow, the scattering rate is increased.

In Figure 3, the body block 10 is formed of a rectangular block that is reduced in width toward the top, the support leg 12 is formed on the four corners of the bottom, the upper four sides are chamfered to the support inclined surface 16 Formed, the support inclined surface 16 is provided so as to be in surface contact with the Associate block 100 is constructed to cover the upper body block 10. The body block 10 is constructed with the associate block 100, the body block 10 is installed on the bottom of the sea at intervals of 3 ~ 5m, a plurality of the associate block 100 so that the body block 10 is covered ), Irregularly stacked and installed, the assoblock 100 is stably supported by the inclined surface 16 of the main body block 10 by the surface contact, thereby preventing the flow due to currents and ensuring structural safety.

And, since the body block 10 is a sea forest is formed by the combination with the associate blocks 100, various marine animals and plants gather to form a fishery, the octopus that can not move a long distance to protect the eggs during the spawning season The egg hatching rate is increased by preying and hunting various marine animals and plants living in the sea forest to protect the eggs in a healthy state.

Meanwhile, the space between the main body block 10 and the associate block 100 forms a secret octopus habitat close to a natural spawning place such as a seabed cave or a rock gap, and successfully spawns in the spawning space portion 20 of the main body block 10. The young octopus is protected from natural enemies until it moves and grows between the associate blocks 100, so the reproduction rate is improved.

In FIG. 4 (a), the bottom surface of the scattering space portion 20 and the bottom surface of the doorway 22 are formed of an inclined bottom surface 50 that forms a downward inclination angle toward the outside of the main body block 10. 20) foreign matter including sand introduced into the inside is provided to be discharged to the outside of the body block 10 by the inclined bottom surface 50 by the slide transfer.

Thus, the body block 10 is constructed on the bottom of the sea floor, the entrance is adjacent to the bottom of the sea floor, even if foreign matter containing sand is easily introduced into the scattering space portion 20 through the door 22 by the current flow inclined bottom surface ( Since the foreign matter is quickly discharged to the outside of the body block 10 by the inclination angle of 50), the scattering space part 20 and the entrance by the foreign matter even after a long time of one year or more after construction (22) The phenomenon that the space is closed is prevented.

In addition, the deposit outlet 60 penetrates downwardly from the inclined bottom surface 50 of the entrance and exit 22 to communicate with the lower seawater passage 14, and foreign substances including sand introduced into the entrance 22 by being pushed by the seawater. It is provided to be discharged to the lower body block 10 through the deposit discharge port (60). At this time, the sediment discharge port 60 is formed as a long hole extending in the width direction of the entrance 22.

Accordingly, the foreign matter discharged to the body block 10 under the sediment discharge port 60 while the foreign matter flows in the inlet 22 through the inclined bottom surface 50 by the current flow is discharged to the lower body block 10. By having a discharge structure that is sprayed in all directions by being swept by the sea water through the lower seawater passage 14, the interior of the scattering space portion 20 is always maintained comfortably.

In Figure 4 (b), the bottom of the scattering space portion 20 of the body block 10 is concrete molded in the open state, the bottom of the scattering space portion 20 is provided to be finished by the base plate 21, the The bottom plate 21 of the scattering space portion 20 is formed as an arcuate plate recessed downward, and a deposit discharge port 60 is formed at the lowest point. As the bottom of the scattering space portion 20 has a prefabricated structure closed by the bottom plate 21 separately formed, productivity is improved by minimizing the undercut portion according to the molding of the main block 10.

At this time, the bottom plate 21 is formed with an inclined bottom surface 50 on the upper surface by an arcuate structure recessed in the downward direction, bolted or formed in a circular shape is assembled by turning the key and the key groove in a pivotal manner.

In addition, the base plate 21 is formed as an arcuate plate recessed in a downward direction, and foreign matters including sand and octopus excretion existing in the scattering space part 20 are collected at the center of the lowest point, thereby depositing the deposit outlet 60. Since the discharge treatment through the scattering space portion 20 is always maintained comfortably.

In addition, the bottom plate 21 is formed of an elastic plate, and is provided so as to be supported in the up and down direction by the current flow water pressure. At this time, the bottom plate 21 is formed of a material having excellent water resistance and elasticity, including rubber, so that the edge portion is fixed to the body block 10, or the edge portion of the bottom plate 21 is fitted to the bottom of the body block 10. The rail groove is installed to be movable upward and downward.

When water pressure is applied to the bottom plate 21 due to the current, the bottom plate 21 pumps the internal seawater while elastically deforming or moving up and down, so that the seawater is injected into the scattering space 20 or exhausted. As a result, the circulation efficiency of the seawater is improved, and the oxygen scattering efficiency is improved and internal debris is quickly discharged by smooth oxygen supply.

In FIG. 5, the locking portion 70 is formed on the inclined bottom surface 50 of the entrance or exit 22, or a horizontal bar 72 is installed to be spaced apart from the inclined bottom surface 50. The stones 1 stacked to close the 22 are supported by the locking portion 70 or the horizontal bar 72 to be fixed in position. 5 (a) shows a state in which the locking portion 70 is formed in a recessed groove shape on the bottom of the entrance 22 entrance, and FIG. 5 (b) shows that the locking portion 70 is located on the bottom of the entrance 22 entrance. 5 (c) shows a state in which both ends of the bar 72 are installed at both sides of the doorway 22 so as to be spaced apart from the bottom of the doorway 22.

The octopus has a habit of sealing the doorway 22 using the natural stone after spawning, the stone (1) containing the natural stone is fixed to the position caught in the locking portion 70 or the sidebar 72, the doorway ( 22) The barrier wall is easily and firmly constructed in a short time, and the barrier wall does not collapse easily even in strong currents, so the octopus egg is protected from natural enemies.

10: body block 20: scattering space portion
30: block 40: seawater hole
50: slope bottom 60: sediment outlet

Claims (8)

50 to 60 parts by weight of steelmaking slag aggregate, 20 to 30 parts by weight of electro-oxidized slag, 10 to 20 parts by weight of sand, 10 to 15 parts by weight of slag cement, and the bottom surface is formed by the support leg 12 A main body block 10 installed to be spaced apart from the lower seawater passage 14;
A scattering space part 20 connected to the doorway 22 opening to one side of the body block 10 and having a flat surface 24 formed on a ceiling thereof;
An obstruction block 30 protruding downward from an upper portion of the entrance 22 and shielding the upper portion of the scattering space 20 through the entrance 22 so as not to be exposed; And
And a seawater hole 40 penetrating into the scattering space 20 from the side and the top of the body block 10 so as to circulate the seawater.
The doorway 22 is formed to have a reduced size compared to the scattering space portion 20, and is provided at an eccentric position such that the bottom surface of the doorway 22 matches the bottom line of the scattering space portion 20.
The bottom surface of the scattering space portion 20 and the bottom surface of the doorway 22 are formed of the inclined bottom surface 50 that forms a downward inclination angle toward the outside of the main body block 10, and the sand flowing into the scattering space portion 20. Octopus spawning reefs, characterized in that the foreign material including a is provided to be discharged to the outside of the body block 10 riding the inclined bottom surface (50). The method of claim 1,
The body block 10 is formed as a square block that is reduced in width toward the top, the supporting leg 12 is formed at the bottom four corners, the upper four sides are chamfered to form the supporting slopes 16, The inclined surface 16 is the octopus scattering eocho characterized in that the surface is supported so as to be in contact with the eoso block 100 is constructed to cover the upper body block 10.
delete delete The method of claim 1,
The sediment discharge port 60 penetrates downward from the inclined bottom surface of the doorway 22 so as to communicate with the lower seawater passage 14, and foreign substances including sand introduced into the doorway 22 by the sea water are discharged from the sediment discharge port 60. Octopus spawning forage, characterized in that it is provided to be discharged to the lower body block 10 through. The method according to any one of claims 1, 2 and 5,
A hook portion 70 is formed on the inclined bottom surface 50 of the entrance 22, or a horizontal bar 72 is installed to be spaced apart from the inclined bottom 50, and the door 22 is closed by the habit of octopus after spawning. Octopus spawning reefs, characterized in that the stone (1) to be stacked in order to be supported by the locking portion 70 or the horizontal bar 72 is fixed to the position. The method of claim 1,
The bottom of the scattering space portion 20 of the body block 10 is concrete molded in an open state, the bottom of the scattering space portion 20 is provided to be finished by the bottom plate 21, the bottom plate of the scattering space portion 20 (21) is an octopus spawning reef, characterized in that the sediment discharge port 60 is formed at the lowest point while being formed in an arcuate plate recessed downward. The method of claim 7, wherein
The base plate 21 is formed of an elastic plate, octopus scattering fish reefs, characterized in that it is provided to be burnt in the up and down direction by the current pressure.

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