KR101728425B1 - Floor structure for breeding infiltrative shellfish - Google Patents

Abstract

The present invention provides a structure for breeding infiltrative shellfish (1), capable of massively breeding low-layer infiltrative shellfish, and easily performing harvest when the infiltrative shellfish (3) is merchantable upon completion of growth. According to the present invention, the structure (1) comprises: a vertically penetrated breeding hole (101) forming a space in which the infiltrative shellfish (3) is bred; a frame (10) installed on a seabed (5); and a filter mesh (30) received inside the breeding hole (101) to be able to separate to receive the infiltrative shellfish (3). According to the structure for breeding infiltrative shellfish (1) of the present invention, a growth environment of shellfish is provided and shellfish can be massively bred, and the completely grown shellfish can be easily harvested.

Description

[0001] FLOOR STRUCTURE FOR BREEDING INFILTRATIVE SHELLFISH [0002]

The present invention relates to a bottomed structure for culturing an invasive shellfish, and more particularly, to an ingrown shellfish that can be easily harvested while providing an excellent growth environment for an invasive shellfish inhabiting a water depth of 10 to 50 m. Lt; RTI ID = 0.0 > shell-positive < / RTI >

Shellfishes are classified into sessile shellfish that adhere to the attachment matrix in the water depending on the ecological characteristics of the shellfish, and burrower shellfish that invade the sea floor. There are submerged varieties of submerged shellfish that inhabit the submerged sediments of about 10 to 50 m in depth, for example elephant shells. The elephant shells penetrate deep into the bottom of the ocean floor, buried the shells surrounding the body deep into the sand, and expose the elongated water pipes to the sand surface. In the past, elephant shellfish were discharged to the coastal fisheries and harvested. However, there was no suitable harvesting tool, and the divers entered the deep sea, sprayed water with a high-pressure sprayer, and sampled one after collecting the sand. However, such a conventional art has a problem that it is very difficult to harvest an infested individual because of the concern of loss of an individual due to loss of an effluent.

Currently, elephant shellfish collection methods using a high pressure sprayer are prohibited because of destroying the submarine ecosystem. As a result, elephant shellfish are not currently distributed in Korea, and it is difficult to cultivate them. Also, there is no prior art for transplanting and harvesting elephant shellfish into the sea in large quantities. Patent No. 10-2016-0052113, which is related to a shell positive structure, is not installed at a deep water depth (10 to 50 m), nor can it provide an environment suitable for an elephant shell living in sand. Also, it is not a structure that makes it easy to collect elephant shells grown in the sand. Therefore, it is necessary to construct a structure capable of culturing and collecting shellfish which grows in sand at deep water depth (10 ~ 50 m).

Korean Patent Laid-Open No. 10-2016-0052113

It is an object of the present invention to provide a structure which can culture a bottom-infested shellfish in a large amount and can be easily harvested after the infestation of the shellfish.

The shell-positive structure of the present invention is characterized in that a positive hole forming a space through which an invasive shellfish is grown is formed in the upper and lower directions, a frame provided on the seabed and a septum which is detachably seated in the positive hole to accommodate the invasive shellfish Includes a screen.

The frame can be formed of a high-weight material that can settle in the seabed.

The frame has a protruding handle formed on the side surface, and the protruding direction of the handle may be reversed on each side so that the handle can be fastened to the handle of another frame.

The frame may have a shape other than a circular shape on the outer surface.

The frame is formed with pores penetrating in the vertical direction, and the peg can be inserted into the pegs and fixed to the seabed.

The frame is formed with legs having a length on the bottom surface, and the ends of the legs can be sharply formed to facilitate entry into the soft ground.

The sieve may be formed with a groove to which a harvesting hook is attached at one side so that the infiltrated shellfish can be easily separated from the frame when the growth of the infestation shell is completed and the merchandise is available.

The length of the sieve may be longer than the length of the positive hole.

The shell-positive structure of the present invention may further include a pile inserted into the pore and formed to be penetrated into the sea bed.

The shell-positive structure of the present invention may further include a buoy connected to the frame for indicating the position of the frame installed on the seabed at sea level.

According to the shell-positive structure of the present invention, the frame is formed of a material that sinks in the sea and is installed on the seabed. The frame defines positive holes for positive shellfish to define the growth environment of the shellfish. As the sand slowly accumulates on the screen, which is seated in the perforated hole, an environment is created to live the shellfish accommodated in the screen. According to the present invention, since the shellfish is cultivated in the sieve net, if the user separates the sieve net from the frame, the shellfish in the sieve net can be immediately harvested and the sieve can be easily separated using the harvesting hook. There is an easy benefit. In addition, the user can easily grasp the position of the positive structure as the buoy connected to the frame displays the position of the frame at sea level.

Further, in the present invention, the ends of the legs formed on the frame are inserted into the soft ground easily, even when the ends of the legs are sharp and even on a rough surface.

In addition, when installing the initial clamshell positive structure, the frame can be easily settled by using a handle and fastened to another frame, thereby creating a large number of breeding environments. At this time, since the outer surface of the frame has a non-circular shape, it is easy to fasten several frames.

In the present invention, the length of the sieve is longer than that of the positive hole, so that the bottom of the sieve can be well buried in the sand.

BRIEF DESCRIPTION OF THE DRAWINGS Figure 1 shows an immersive shell-positive structure according to one embodiment of the present invention.
FIG. 2 is a schematic view showing a state in which a shellfish can grow in a sieve according to an embodiment of the present invention.
FIG. 3 illustrates a structure in which an incoherent shell positive structure according to an embodiment of the present invention is fastened to another incoherent shell positive structure.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. However, the embodiments of the present invention can be modified into various other forms, and the scope of the present invention is not limited to the embodiments described below. Further, the embodiments of the present invention are provided to more fully explain the present invention to those skilled in the art. Accordingly, the shapes and sizes of the elements in the drawings may be exaggerated for clarity of description, and the elements denoted by the same reference numerals in the drawings are the same elements. In the drawings, like reference numerals are used throughout the drawings. In addition, "including" an element throughout the specification does not exclude other elements unless specifically stated to the contrary.

The present invention is not limited to the above-described embodiment and the accompanying drawings, but is intended to be limited by the appended claims. Therefore, it should be understood that various changes, substitutions, alterations, and alterations can be made by those skilled in the art without departing from the spirit and scope of the invention as defined in the appended claims. something to do.

The intruding shell-positive structure (1) of the present invention is characterized in that a positive hole (101) forming a space through which the intruding shellfish (3) grows is vertically penetrated, and a frame (10) and a positive hole 101) for receiving the intruding bivalve (3). ≪ IMAGE >

FIG. 1 shows a schematic perspective view of an immersive shell-positive structure 1 according to an embodiment of the present invention. Referring to FIG. 1, the frame 10 is a manmade structure that maintains a predetermined shape produced for the purpose of positively burying an infestation flock 3, in which a plurality of positive holes 101 are perforated in the vertical direction, (103) and the ends of the legs (109) are sharply formed. The frame 10 is prepared in a place where the intruding shellfish 3 is to be formed and the leg 109 is fixed to the floor due to its own load. The frame 10 can be further assembled with the fixing pile 50 and the fixing pile 50 can be inserted into the small hole 105 formed through one side and the other side of the frame 10, It is a structure that can be assembled. The frame 10 may be further connected to a buoy 70 that performs position identification. In the interior of each positive hole (101), a screening net (30) is located, and an infiltration shellfish (3) is planted in each screening net (30). A groove 301 is formed on the side surface of the sieve 30 and is then fastened to the sampling ring 7 when the sieve 30 is taken.

It is preferable that the frame 10 is installed in the sea bed 5 in order to provide a suitable habitat environment for the invasive shellfish 3 living in the seabed 5. Therefore, the frame 10 can be formed of a heavy-weight material having a load that can be settled on the seabed 5. For example, it can be molded into a concrete material. The frame 10, which is molded from a heavyweight material, is particularly suited to the formation of low-level invasive shellfish living at depths of 10 to 50 m. The frame 10, which is settled on the bottom 5 and fixed to the floor, can minimize the influence of algae or water and can safely raise the inflatable shell 3 while protecting it from external impact.

In the intruding shell-positive structure (1) of the present invention, the positive holes (101) are formed in the up and down direction so as to form a space in which shellfish are positive. The inflow of the seawater into the space of the positive hole 101 through which the positive hole 101 is formed is not smooth and the space similar to the habitat environment of the actual shellfish is formed.

The diameter of the positive hole 101 can be appropriately adjusted according to the type of shellfish, the flow of water, and the like, but preferably the elephant shell can be formed with a diameter of 15 to 25 cm, for example. If the diameter of the positive hole 101 is too small, the growth of the shellfish may be restricted, and if the diameter of the positive hole 101 is too large, the space inhabited by the shellfish may be easily destroyed by the external environment. It is possible to harvest the intruding shellfishes 3 in a large amount by harvesting the seedlings 30 in the inside of the positive holes 101 and implanting the spores within the sieve 30.

The frame 10 may have a handle 103 protruding from its side and the handle 103 may be reversed in the direction of each side so that the handle 103 can be fastened to the handle 103 of another frame 10. It is preferable that a handle 103 protruding or recessed to a certain depth is formed so as to facilitate transportation when the intruding shell positive structure 1 according to the present invention is moved to a place where the intruding shell positive structure 1 is to be installed. The shape of the handle 103 is not particularly limited as long as the handle 103 can be fastened to the handle 103 of the other frame 10.

FIG. 3 is a schematic perspective view showing a state in which a plurality of intruding shell-positive structures 1 are fastened according to an embodiment of the present invention.

It is preferable that the frame 10 has a shape other than a circular shape so that the frame 10 can be easily and firmly fastened to the other frame 10 having the same shape. The outer circumferential surface of the frame 10 is fastened to the other surface of the frame 10 opposite to the other surface and the penetrating shell positive structure 1 having a desired size is formed in a simple manner by simply inserting the grip 103 .

The frame 10 is formed with a small hole 105 penetrating in the vertical direction and the fixing pile 50 can be inserted into the small hole 105 and fixed to the seabed 5. The pores 105 can be made in various diameters to accommodate the fixing pile 50 and penetrate through the frame 10 to help the fixing pile 50 to be embedded on the floor to serve as a support.

The intruding shell-positive structure 1 of the present invention may further include a pile inserted into the pores 105 and formed to be submerged in the sea floor. When the fixing pile 50 is press-fitted into the pores 105 and is embedded in the bottom surface, the submerged shell-positive structural body 1 in a state of being assembled with the pile 50 can be fixed to the sea floor. The shape of the pile 50 may be curved or straight, but is not particularly limited as long as it can be inserted into the pores 105.

The frame 10 is formed with a plurality of legs 109 having a length on the bottom surface and the ends of the legs 109 can be sharply formed to facilitate transmission to a soft ground. The leg 109 can be firmly seated on the sand bottom so that the spatula growing in the positive hole 101 can be stably fixed in the sand.

FIG. 2 schematically shows a state where a filtering net 30 is installed and a living environment of an invasive shellfish when an immovable shell-positive structure 1 according to an embodiment of the present invention is actually installed on the sea floor. The screen 30 is formed with a frame for imparting a shape to the screen 30 and is free from seawater circulation between the inside and the outside of the screen, except for the entire surface or the upper surface. The lower part of the screen 30 comes into contact with the seabed 5 and the sand particles that have passed through the screen 30 flow into the screen 30 and accumulate and the screen 30 is fixed to the sand layer at a certain height. In this state, a part of the screen 30 is buried in the seabed 5, and the spat of the inflatable shellfish 3 contained in the screen 30 is fixed and grows in the sand. The sieve 30 is formed with a groove 301 to which the harvesting ring 7 is bound so that the sieve 30 can easily be separated from the sieve 30 and the harvesting ring 30 can be easily Lifted.

The filter net 30 may be formed of a mesh to permit the entry and exit of seawater and sand, and may be formed of a flexible material, for example, a PVC or a PE material. Even when the length of the screen 30 is longer than the length of the positive hole 101 and the lower hole of the positive hole 101 forms a certain distance from the sea floor, the screen 30 is in contact with the sea floor, . A part of the sieve 30 is buried in the sand to provide an environment in which the infiltration of the shellfish is settled and the sieve 30 is removed from the frame 10 to complete the infiltration of the infested shellfish 3 .

The intruding shell-positive structure 1 of the present invention may further include a buoy 70 connected to the frame 10 and indicating the position of the frame 10 installed on the seabed 5 at sea level. The buoy 70 may be made of various materials that can generate buoyancy such as styrofoam or plastic filled with air. The buoy 70 can be connected to the frame 10 via a rope or the like.

According to the above-described incoherent shellfish-positive structure 1 according to the embodiment of the present invention, it is possible to cultivate the shellfish in a large amount in a simple manner, which can be cultured in the sand bed of the sea bed (5) And protect the shellfish from pirate creatures. Also, the screen 30 can be separated and the user can easily separate the screen 30 by using the collecting hook 7, thereby consuming less time and labor.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. It is to be understood that the invention may be variously modified and changed.

1: Incompatible shellfish positive structure
3: Incarnation of shellfish
5: Sea floor
7: Picking ring
10: frame
30: Filter
50: Fixing pile
70: Buoy
101: Positive Hall
103: Handle
105: Pore
109: Legs
301: Home

Claims (10)

CLAIMS What is claimed is: 1. A structure for culturing an immature shellfish growing at a deep water depth,
A frame formed in the upper and lower direction through which a positive hole forming a space in which an invasive shellfish is grown is installed on the seabed;
A filter for removably seated inside the positive hole to receive the intruding bivalve; And
And a buoy connected to the frame for indicating the position of the frame installed on the seabed at sea level,
Further comprising a pile formed so as to be penetrated into the sea floor,
The frame includes:
Wherein the peg is inserted into the peg and the peg is vertically penetrated to be fixed to the seabed.
The method according to claim 1,
The frame includes:
Characterized in that it is formed of a high-weight material which can be settled on the seabed.
The method according to claim 1,
The frame includes:
Wherein the protruding handle is formed on the side surface and the handle is reversed in the direction of the protruding sides so that the handle can be fastened to the handle of another frame.
The method according to claim 1,
The frame includes:
Wherein the outer surface is a shape other than a circular shape.
delete The method according to claim 1,
The frame includes:
Wherein a leg having a length on the bottom surface is formed, and the end of the leg is formed to be sharply formed so as to be easily permeable to a soft ground.
The method according to claim 1,
Preferably,
Wherein a groove is formed on one side of the frame so as to bind the harvesting ring so that the ingrown shellfish is completely grown and can be easily detached from the frame.
The method according to claim 1,
Preferably,
Wherein the length of the positive hole is longer than the length of the positive hole.
delete delete

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