KR102306835B1 - Marine cage farm using cage culture apparatus for sea cucumber cultivation - Google Patents

Abstract

The present invention relates to a cage farm using a caged sea cucumber culture device, and more particularly, to a cage farm using the same, which is accommodated in a cage network to form a space for sea cucumbers to grow.
The cage farm using the caged sea cucumber culture apparatus of the present invention can apply some of the multiple growth spaces arranged in a grid form to the sea cucumber culture, so that different types of marine organisms can be cultured, thereby reducing the separate installation cost for the formation of a culture space. There is an economic advantage because it can increase the efficiency of space utilization.
In addition, the caged sea cucumber culture apparatus of the present invention has an advantage in that the production of sea cucumbers can be increased because a plurality of shelter parts are installed in the radial direction from the center to secure a plurality of partitioned sea cucumber growing spaces.

Description

Marine cage farm using cage culture apparatus for sea cucumber cultivation

The present invention relates to a cage farm using a caged sea cucumber culture device, and more particularly, to a cage farm using a caged sea cucumber culture device that is accommodated in a cage network and forms a space for sea cucumbers to grow.

While interest in health and well-being is growing recently, sea cucumber is growing in popularity as the best health food or stamina food like sea ginseng in Korea and other Asian countries such as China. In particular, sea cucumber is the preferred seafood of Chinese people, and the price is much higher in China than in Korea.

Sea cucumbers grow vigorously at a water temperature of 15~18℃, but they rarely eat food during a time when the water temperature is higher than 25℃. Therefore, the digestive tract deteriorates, and the domestic coast enters a high temperature period from about July. In addition, sea cucumbers rarely eat food even when the temperature is below 4℃, and this is the hibernation period.

In order to cultivate sea cucumbers normally, sea cucumbers are cultured by putting an adherent substrate called shelter in an onshore tank type farm. Sea cucumbers attach to this attachment substrate and grow while feeding. That is, when a fine powder feed serving as a food for sea cucumbers is administered in a tank, the powder feed floats in the water and is attached to the attachment device or the bottom of the tank, and the sea cucumbers grow while sucking these feeds.

There is also a cage culture method as a method of cultivating sea cucumbers. A general method of cage culture is to grow sea cucumbers to a certain size in an onshore tank, then take out young sea cucumbers for intermediate growth from the onshore tank, and then put them inside a cage farm equipped with a surfboard installed in the sea.

However, sea cucumber cage culture does not yet have a standardized model for the facility method and no large-scale aquaculture test has been attempted.

However, in order to cultivate sea cucumbers, a separate culture device such as a pot or a celta should be regularly installed at the bottom of the farm to create a habitat for sea cucumbers. However, such a sea cucumber culture device is expensive, it is not easy to install, and structurally, it is not easy to harvest sea cucumbers, so there are problems in that work efficiency is lowered.

Republic of Korea Patent Publication No. 10-1562061 : Sea cucumber culture apparatus using abalone cage farm Republic of Korea Patent Publication No. 10-1419114 : Sea cucumber culture apparatus of the cage method

The present invention is to solve the above problems, to provide a sea cucumber growth space suitable for the ecology of sea cucumbers in a cage network, to increase the efficiency by using the existing cage culture space, and to a caged sea cucumber culture apparatus for easy sea cucumber harvest We would like to provide a cage farm using this.

A caged sea cucumber culture apparatus and a caged farm using the same for achieving the above object, comprising: a plurality of buoys arranged in a grid shape to form a plurality of growing spaces and to provide buoyancy; a pipe connecting the buoy; a footrest extending in the arrangement direction of the float and installed on the float; a plurality of cages installed on the pipe or the scaffold to spread under the water surface in the growth space to confine marine organisms; A plurality of frames accommodated in the cage net, formed to be accommodated in the cage net of the cage farm floating on the water, each side having an open inner space, and an upwardly open inner space are formed, respectively, but different in width and height a shelter unit forming a plurality of sea cucumber growth spaces partitioned from the center side of the frame in an outward direction by overlapping the shelter parts in radial and vertical directions to be spaced apart from each other; and a linear member for fixing the plurality of shelter units to be positioned to be spaced apart in the direction;

When the water temperature rises higher than the reference temperature, the sea cucumber culture apparatus is installed to be located adjacent to the water bottom, and when the water temperature is lower than the reference temperature, it is preferably installed in the cage to be located adjacent to the water.

The caged sea cucumber culture apparatus of the present invention comprises: a frame that is formed to be accommodated in a cage network of a cage farm floating on water and has an open inner space on each side; A shelter unit in which an upwardly open inner space is formed, respectively, and a plurality of shelter parts having different widths and heights are overlapped to be spaced apart from each other in the radial and vertical directions to form a plurality of sea cucumber growing spaces partitioned from the center side of the frame to the outside. class; and a linear member for fixing the plurality of shelter units to be positioned and spaced apart from each other in the radial and vertical directions within the frame.

A plurality of the shelter parts are adjacent to the frame in the internal space of the frame and have an internal space open upward, and have a height and a thickness smaller than that of the external shelter part, and are formed on the central side of the external shelter part. a core shelter part and an internal space extending in the vertical direction and opened upwards, and positioned around the center shelter part in the internal space of the external shelter part so that a space between the external shelter part and the center shelter part is partitioned; It is preferable to include a plurality of inner shelter portions that are larger than the center shelter portion and smaller than the outer shelter portion and each have an upwardly open inner space, and have a greater height and width as the distance from the center shelter portion increases.

The frame is formed in the shape of a quadrangular prism, and the linear member connects diagonally facing vertices or diagonally facing side corners of the upper end of the frame, and first and second central sides are connected to cross each other. A horizontal extension rope is provided, and a plurality of the shelter units are each formed in the shape of a rectangular column open upward, and each corner side is connected to the first or second horizontal extension rope so that each upper end is positioned on the same horizontal line and radiated. It is preferable to be formed to have different heights and widths to be spaced apart at the same distance in the direction and up and down directions.

The linear member extends from the top vertex of the frame to which one side of the first horizontal extension rope is connected to the side edge side or the vertex side of the lower end of the frame facing in the downward diagonal direction, or one side of the first horizontal extension rope is connected A first diagonal extension rope extending from the side edge side of the frame to the vertex side of the lower end of the frame facing in the diagonal direction downward and positioned on the same vertical line to the first male extension rope, and the other side of the first horizontal extension rope It extends from the top vertex of the connected frame to the side edge side or the bottom vertex side of the frame facing in the downward diagonal direction, or the other side of the first horizontal extension rope is connected to the side edge side of the frame facing downward diagonally is extended toward the vertex side of the lower end of the frame, is located on the same vertical line as the first horizontal extension rope, intersects the first diagonal extension rope, and the center side is connected to the center of the first diagonal extension rope second diagonal extension The rope and the second horizontal extension rope extend from the upper vertex of the frame to which one side is connected to the side edge side or the lower vertex side of the frame facing in the downward diagonal direction, or one side of the second horizontal extension rope is connected It extends from the side edge side of the frame to the vertex side of the lower end of the frame facing in the downward diagonal direction, intersects the first and second diagonally extended ropes, and the central side is connected to the center of the first and second diagonally extended ropes A third oblique extension rope and the other side of the second horizontal extension rope extend to the side edge side or the lower vertex side of the frame facing in the downward diagonal direction from the upper vertex of the frame to which the other side is connected, or the other side of the second horizontal extension rope A fourth oblique extension rope extending from the side edge side of the connected side to the vertex side of the lower end of the frame facing in a diagonal direction downward and having a center side connected to the first to third oblique extension ropes, It is preferable that each of the lower edge sides of the plurality of shelter parts be connected one by one to the four diagonally extended rope.

The cage farm using the caged sea cucumber culture apparatus of the present invention can apply some of the multiple growth spaces arranged in a grid form to the sea cucumber culture, so that different types of marine organisms can be cultured, thereby reducing the separate installation cost for the formation of a culture space. There is an economic advantage because it can increase the efficiency of space utilization.

In addition, the caged sea cucumber culture apparatus of the present invention has an advantage in that the production of sea cucumbers can be increased because a plurality of shelter parts are installed in the radial direction from the center to secure a plurality of partitioned sea cucumber growing spaces.

1 is an exploded perspective view showing a state in which a caged sea cucumber culture apparatus according to an embodiment of the present invention is accommodated in a caged farm floating on water;
Figure 2 is a partial sectional side view showing the state that the cage sea cucumber culture apparatus of Figure 1 is accommodated in the cage farm,
3 is a partial plan view showing a state in which the caged sea cucumber culture apparatus of FIG. 1 is accommodated in the caged farm;
Figure 4 is a partial exploded perspective view of the sea cucumber culture apparatus in Figure 1;
5 is a view showing a state in which the shelter part of the cage sea cucumber culture apparatus of FIG. 1 is unfolded;
6 is a side view showing a state in which the caged sea cucumber culture apparatus of FIG. 1 is installed at a low water temperature and a high flow rate;
7 is a side view showing a state in which the caged sea cucumber culture apparatus according to another embodiment of the present invention is installed at a high water temperature and low flow rate;
8 is a partial perspective view of the frame of the cage sea cucumber culture apparatus according to another embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail the cage farm (1) using the cage sea cucumber culture apparatus according to a preferred embodiment of the present invention.

The caged sea cucumber culture apparatus 50 according to the present invention is accommodated in the caged network 40 of the caged farm 1 for cultivating abalone and is submerged under the water surface to form a sea cucumber growing space in which sea cucumbers can grow.

Referring to FIG. 1 , a cage farm 1 according to an embodiment of the present invention connects a plurality of buoys 10 providing buoyancy to float on the water surface, and a plurality of buoys 10, and a plurality of growing spaces A pipe 20 for arranging a plurality of floaters 10 in a lattice form so that 15 is formed, and a footboard 30 extending in the arrangement direction of the floaters 10 and installed on the upper side of the floaters 10; , It is installed on the pipe 20 or the footboard 30 and spreads below the water surface in the growth space 15 to confine marine life.

The buoy 10 is formed in a cylindrical shape with an inner space formed therein, and as long as it can provide buoyancy and a footrest or pipe can be bound, it is not limited to the illustrated shape.

The growth space 15 is a space in which a culture target organism is confined by a cage 40 whose edge is fixed to the pipe 160 or the footboard 170 and the inner side is submerged below the water surface.

The pipe 20 has a tubular shape extending longer than the float 10 . The pipe 20 is installed in parallel with the first direction on top of a plurality of floaters 10 arranged in a line in the first direction, which is the longitudinal direction of the float 100, and spaced apart by a predetermined distance in a direction orthogonal to the first direction. It is preferable to install a plurality of them. In general, the pipe 20 is bound to the float 10 by a rope 45 installed on the outer circumferential surface of the float 10 along the circumferential direction of the float 10 .

Referring to FIG. 1 , the footrest 30 has a rectangular plate shape and is coupled to the pipe 20 in the longitudinal direction of the pipe 20 or in a direction orthogonal to the longitudinal direction. The footrest 30 has a width equal to or greater than an interval of a plurality of pipes spaced apart from each other on the upper part of the buoy. The scaffold 30 is installed on the upper part of the pipe 20 to provide a growth space 15 partitioned in a grid shape together with a plurality of buoys 10 . Although not specifically shown, the footrest 30 may be coupled to the pipe 20 through a coupling pin (not shown).

1 to 7 according to an embodiment of the present invention, the caged sea cucumber culture apparatus 50 is accommodated in the caged network, a frame 51, a shelter unit 71, a linear member 91, A cover member 82 surrounding the frame 51 is provided.

The frame 51 is formed to be accommodated in the cage network of the cage farm floating on the water, and is formed in the shape of a square column, which is a cube in which an inner space is opened on each side. However, the frame 51 may be formed in the shape of a rectangular prism formed longer in the vertical direction, or may be formed in the shape of a quadrangular truncated pyramid having a larger width at the lower part than the upper part, unlike the figure shown.

The frame 51 extends in the horizontal direction and extends parallel to each other in the first direction at a position on the same horizontal line or a plurality of first horizontal extensions 53 extending in parallel with each other in the first direction at a position on the same vertical line. , extending in a second direction orthogonal to the first direction and extending parallel to each other on the same horizontal line or extending parallel to each other on the same vertical line and connected to one side or the other side of the first horizontal extension part 53 on the same horizontal line The second horizontal extension part 55 and one side or the other side of the first horizontal extension parts 53 extending in the vertical direction and spaced up and down, or connecting one side or the other side of the second horizontal extension parts 55 A plurality of first vertical extensions 57 are provided.

In addition, the frame 51 extends in the vertical direction to increase the bearing capacity for the load of the shelter unit to be described later to connect the center side of the first horizontal extension parts 53 spaced up and down, or to the second spaced up and down. A plurality of second vertical extensions 59 connecting the central sides of the horizontal extensions 55, and extending in parallel to the first horizontal extensions 53 to connect the central side of the second horizontal extensions 55 It is preferable to provide a third horizontal extension portion (60) connecting each lower end of the second vertical extension portion (59).

The frame 51 is made of a synthetic resin material such as polyethylene (PE) that is lightweight and does not corrode. The frame 51 is not specifically shown, but may be bound to the fence 40 using a separate rope, or the upper end of the rope bound to the scaffold 30 or the pipe 20 or the buoyancy body 10 It may be connected and fixed to be submerged in water.

In the shelter unit 71, an upwardly open inner space is formed, respectively, and a plurality of shelter parts 72, 74, 76, 78, 80 in the shape of a square column having different widths and heights overlap each other so as to be spaced apart from each other in the radial and vertical directions. to form a plurality of sea cucumber growth spaces 72a, 74a, 76a, 78a, 80a partitioned from the center side of the frame 51 to the outside.

A plurality of the shelter parts are formed to correspond to the internal space of the frame 51 and have an outer shelter part 80 having an upwardly open internal space 80a, and a height and thickness smaller than that of the outer shelter part 80, It is located on the central side of the outer shelter unit 80 and extends in the vertical direction, and the inner space opened upward is the core shelter unit 72 and the circumference of the core shelter unit 72 in the inner space of the outer shelter unit 80 . an internal space 74a that is larger than the core shelter part 72 and smaller than the outer shelter part 80 and opened upward so that the space between the outer shelter part 80 and the core shelter part 72 is partitioned. 76a and 78a are formed, respectively, and a plurality of inner shelter portions 74, 76 and 78 having a greater height and width as the distance from the core shelter portion 72 increases.

The core shelter portion 72, the plurality of inner shelter portions 74, 76, 78, and the outer shelter portion 80 are formed of a linear member 80, each corner side of which will be described later so that each upper end is positioned on the same horizontal line. It is connected to the first or second horizontal extension ropes 81 and 83 and is formed to have different heights and widths to be spaced apart at the same distance in the radial and vertical directions.

The core shelter part 72, the plurality of inner shelter parts 74, 76, 78, and the outer shelter part 80 can prevent the inflow and outflow of sea cucumbers and natural enemies on each side wall and bottom surface, and Each is formed in the form of a mesh having a plurality of flow holes (85) penetrated so that soil or sand can be introduced. The size of the flow hole 85 formed in each shelter portion is preferably 2mm to 4mm in size to facilitate the attachment of algae and mud in seawater.

Although the material applied to each shelter part is not limited, a raschel net woven with PE yarn may be applied. It is preferable that a filament yarn made of PE material in the range of 12 to 18 strands is woven so that the PE yarns are interwoven with each other to form a mesh with a size of 2mm to 4mm.

The core shelter part 72, the plurality of inner shelter parts 74, 76, and 78, and flow holes (not shown) formed on each bottom surface of the outer shelter part 80 are formed on the bottom surface of the soil or sand on the sea floor. It is preferable that the through hole be formed in a size smaller than the flow hole formed in each sidewall so that some deposition can be induced.

The core shelter part 72, the plurality of inner shelter parts 74, 76, 78, and the outer shelter part 80 are applied with a mesh material in the form of a dustproof mesh woven from PE material, and organic matter or aquaculture nets floating in seawater are applied. It is a place where food for sea cucumbers such as feed of sea cucumbers put inside is attached, and it is a place where sea cucumbers grow while eating the attached food.

The core shelter portion 72, the plurality of inner shelter portions 74, 76, 78, and the outer shelter portion 80 are formed in a cross shape as shown in FIG. 5 and are connected to a linear member 91 to be described later. It is formed in the shape of a square column open upwards. Except for the outer shelter portion 80, the core shelter portion 72 and the plurality of inner shelter portions 74, 76, and 78 are in a state in which each side edge is cut so that the sea cucumber can easily move to the adjacent sea cucumber growth space. is maintained This part will be referred to again after the description of the linear member 91 .

The linear member 91 includes a plurality of shelter parts 72, 74, 76, 78, and 80 such that a plurality of shelter parts 72, 74, 76, 78, and 80 are spaced apart from each other in the radial and vertical directions within the frame 51. 80) is fixed.

The linear member 91 includes first and second horizontal extension ropes 92 and 93 , first to fourth diagonal extension ropes 94 , 95 , 96 , 97 , and a vertical extension rope 98 .

The first and second horizontal extension ropes 92 and 93 connect the diagonally facing vertices of the upper end of the frame 51, and the central side thereof is connected to cross each other.

The first oblique extension rope 94 extends toward the vertex side of the lower end of the frame 51 facing in the downward diagonal direction from the upper vertex side of the frame 51 to which one side of the first horizontal extension rope 92 is connected, and extends to the first male shape The extension rope 92 is positioned on the same vertical line.

The second oblique extension rope 95 extends toward the vertex side of the lower end of the frame 51 facing in the downward diagonal direction from the upper vertex side of the frame 51 to which the other side of the first horizontal extension rope 92 is connected to the first horizontal It is positioned on the same vertical line as the extension rope 92 and crosses the first diagonal extension rope 94 so that the center side is connected to the center of the first diagonal extension rope 94 .

The third oblique extension rope 96 extends toward the vertex side of the lower end of the frame 51 facing in the downward diagonal direction from the vertex side of the upper end of the frame 51 to which one side of the second horizontal extension rope 93 is connected. And it intersects with the second diagonally extended ropes 94 and 95 and the center side is connected to the center of the first and second diagonally extended ropes 94 and 95 .

The fourth oblique extension rope 97 extends toward the vertex side of the lower end of the frame 51 facing in the downward diagonal direction from the upper vertex side of the frame 51 to which the other side of the second horizontal extension rope 93 is connected, so that the center side is It is connected to the first to third oblique extension ropes (94, 95, 96).

The vertical extension rope 98 is extended in the vertical direction from the center side where the first horizontal extension rope 92 and the second horizontal extension rope 93 are cross-connected, and the first to fourth diagonal extension ropes 94, 95, 96 , 97) extends to the crossed side and is connected to the first to fourth diagonal extension ropes 94, 95, 96 and 97.

Referring to FIG. 2 , the lower edge sides of the plurality of shelter units 72 , 74 , 76 , 78 and 80 are connected one by one to the first to fourth diagonal extension ropes 94 , 95 , 96 , 97 .

4 and 5, the plurality of shelter parts 72, 74, 76, 78, and 80 extend radially from the center part 100 and the center part 100 and are orthogonal to each other in the circumferential direction. First to fourth side wall portions 101, 102, 103 and 104 are provided, respectively. 5 shows a plurality of shelter units in a single shape for better understanding, but the left and right widths and lengths are different from each other.

The plurality of shelter parts 72, 74, 76, 78, and 80 have a lower portion of the first diagonal extension part 94 on the 'a' side where the first side wall part 101 and the fourth side wall part 104 meet, respectively. connected, the lower portion of the fourth oblique extension portion 97 is connected to each 'b' side where the first side wall portion 101 and the second side wall portion 102 meet, and the second side wall portion 102 and the third The lower portion of the second oblique extension part 95 is connected to the 'c' side where the side wall part 103 meets, respectively, and the 'd' side where the third side wall part 103 and the fourth side wall part 104 meet, respectively. A lower portion of the third oblique extension portion 96 is connected.

In addition, the plurality of shelter parts 72 , 74 , 76 , 78 , and 80 have the other upper end of each of the first side wall parts 101 and the upper end of each of the fourth side wall parts 104 as a first horizontal extension part 92 . is connected to one side of each of the first side wall portions 101 and the other upper end of each second side wall portion 102 is connected to one side of the second horizontal extension portion 93, and each second side wall portion ( 102) and the other upper end of each third side wall portion 103 are connected to the other side of the first horizontal extension portion 92, and the upper end side of each third side wall portion 103 and each fourth side wall portion ( The other end of the upper end of the 104 is connected to the other side of the second horizontal extension (93).

Among the plurality of shelter parts, the outer shelter part 80, the inner shelter parts 74, 76, 78, and the core shelter part 72 are separated from each other between adjacent side wall parts to each inner space 72a, 74a, 76a. , 78a) is opened and communicated with each other.

In addition, the first diagonal extension part 94 passes between each of the second side wall parts 102 and the third side wall part 103 of the plurality of shelter parts and is connected to the frame 51, and the second diagonal extension part 95 ) penetrates between each of the first side wall portions 101 and the fourth side wall portions 104 of the plurality of shelter units and is connected to the frame 51 . In addition, the third oblique extension part 96 penetrates between each of the first side wall parts 101 and the second side wall part 102 of the plurality of shelter parts and is connected to the frame 51 , and the fourth diagonal extension part 97 is connected to the frame 51 . ) penetrates between each of the third and fourth sidewalls 103 and 104 of the plurality of shelter units and is connected to the frame.

In addition, the cover member 82 surrounds the side and the lower end of the frame 51 so that the frame 51 is opened only upward, and can prevent the inflow and outflow of sea cucumbers and natural enemies, and the soil or sand from the seawater and the seabed can be introduced. It is formed in the form of a network so that The cover member 82 may be bound to the frame 51 through a rope or wire. The cover member 82 is spaced apart from the outer shelter portion 80 to form an inner space 82a in which the sea cucumber can grow.

The cage farm using the caged sea cucumber culture apparatus according to an embodiment of the present invention having the structure as described above can apply some of the multiple growth spaces arranged in a grid shape to the sea cucumber culture, so that it is possible to culture different types of marine organisms Therefore, it is possible to reduce the separate installation cost for the formation of a culture space and to increase the efficiency of space utilization, which has economic advantages.

In addition, the caged sea cucumber culture apparatus 50 according to an embodiment of the present invention has the advantage of increasing the production of sea cucumbers because a plurality of shelter parts are installed in the radial direction from the center to secure a plurality of partitioned sea cucumber growing spaces. have. In addition, the caged sea cucumber culture apparatus 50 according to an embodiment of the present invention has an advantage that sea cucumber harvesting is easy because a plurality of shelter parts can be lifted upward from the cage network at the time of harvesting sea cucumbers.

The caged sea cucumber culture apparatus 50 according to an embodiment of the present invention is to be adjacent to the water, as shown in FIG. is installed

However, when the water temperature rises to 20 ~ 25 ℃ or more and the flow rate is slow, it is preferable that the sea cucumber culture apparatus 150 for cage culture be installed adjacent to the seabed. In the cage farm using the caged sea cucumber culture apparatus according to an embodiment of the present invention, the cage network 40 is installed adjacent to the seabed so that the marine culture apparatus 50 is installed adjacent to the seabed. It is preferable to extend long in the vertical direction adjacent to the seabed like the caged sea cucumber culture apparatus 201 according to another embodiment of the present invention shown in FIG. 7 .

The caged farm 201 using the caged sea cucumber culture apparatus according to another embodiment of the present invention has a structure in which a shelter unit is easily installed on the seabed, and the sea cucumber culture apparatus 150 and the caged network 40 are the seabed surface. It is the same as the structure of the cage farm using the caged sea cucumber culture apparatus according to an embodiment of the present invention except that it extends long in the vertical direction adjacent to the .

The caged sea cucumber culture apparatus 150 has the same structure as the caged sea cucumber culture apparatus 50 according to an embodiment of the present invention except for the frame 151 .

The frame 151 is formed in the shape of a rectangular column in which the first and second vertical extension portions 159 and 157 are longer than the first and second horizontal extension portions 53 and 60 in the vertical direction.

The water temperature of the plurality of shelter parts 72 , 74 , 76 , 78 , 80 of the shelter unit 51 excluding the cover member 82 and the linear member 91 binding the plurality of shelter parts to the frame 151 is increased. As shown in FIG. 7 , it is installed on the lower side of the frame 151 .

Referring to FIG. 7 , the first and second horizontal extension ropes 92 and 93 are the lower portions of the diagonally facing corners on the side of the frame 151 , that is, the first vertical extension 157 facing diagonally. Each is connected to the lower part of the center side is connected to cross each other. The first oblique extension rope 94 is a side edge side of the frame 151 to which one side of the first horizontal extension rope 92 is connected, that is, the first vertical extension part 157. It extends to the vertex side of the lower end and is positioned on the same vertical line in the first male extension rope 92 . The second oblique extension rope 95 extends toward the vertex side of the lower end of the frame 151 facing in the downward diagonal direction from the side edge side of the frame 151 to which the other side of the first horizontal extension rope 92 is connected to the first horizontal It is located on the same vertical line as the extension rope 92 and crosses the first diagonal extension rope 94 so that the center side is connected to the center of the first diagonal extension rope 94 . The third oblique extension rope 96 extends toward the vertex side of the lower end of the frame facing in the downward diagonal direction from the side edge side of the frame 151 to which one side of the second horizontal extension rope 92 is connected, and extends to the first and second oblique lines It intersects the extension ropes 92 and 94 and the center side is connected to the center of the first and second diagonal extension ropes 92 and 94 . The fourth oblique extension rope 97 extends toward the vertex side of the lower end of the frame 151 facing diagonally downward from the side edge side of the frame 151 to which the other side of the second horizontal extension rope 92 is connected, and the center side is It is connected to the first to third oblique extension ropes (92, 94, 96).

On the other hand, although not shown, the cage farm 201 using the cage sea cucumber culture apparatus according to another embodiment of the present invention can be applied even when the water temperature is low and the flow rate is high. In this case, a plurality of shelter parts 72 , 74 , 76 , 78 , 80 and a linear member 91 are installed on the upper portion of the frame 151 .

More specifically, the first and second horizontal extension ropes 92 and 93 of the linear member connect the diagonally facing vertices of the upper end of the frame 151 so that the center side crosses each other. In addition, the first diagonal extension rope 94 extends to the side edge side of the frame facing diagonally downward from the top vertex of the frame to which one side of the first horizontal extension rope 92 is connected. The second oblique extension rope 95 extends from the upper vertex of the frame 151 to which the other side of the first horizontal extension rope 92 is connected to the side edge side of the frame facing in the downward diagonal direction, the first horizontal extension rope ( It is located on the same vertical line at 94 and crosses the first diagonal extension rope 94 so that the center side is connected to the center of the first diagonal extension rope 94 .

In addition, the third oblique extension rope 96 extends toward the edge of the side of the frame 151 facing in the downward diagonal direction from the upper vertex of the frame to which one side of the second horizontal extension rope 92 and 93 is connected to the first and It intersects with the second diagonally extended ropes 94 and 95 and the center side is connected to the centers of the first and second diagonally extended ropes 94 and 95 . The fourth oblique extension rope 97 extends from the upper vertex of the frame 151 to which the other side of the second horizontal extension rope is connected to the side edge side of the frame 151 facing in the downward diagonal direction, and the center side is the first to third It is connected to the diagonal extension ropes (94, 95, 96). The vertical extension rope 98 is extended in the vertical direction from the center side where the first horizontal extension rope 92 and the second horizontal extension rope 93 are cross-connected, and the first to fourth diagonal extension ropes 94, 95, 96 , 97) extends to the crossed side and is connected to the first to fourth diagonal extension ropes 94, 95, 96 and 97.

On the other hand, FIG. 8 shows a frame of a caged sea cucumber culture apparatus according to another embodiment of the present invention. Components having the same function as in the drawings shown above are denoted by the same reference numerals.

The caged sea cucumber culture apparatus and the caged farm using the same according to another embodiment of the present invention, except that it further comprises a guide unit for guiding the movement of the frame 51 or fixing the moved position of the frame 51, The structure of the caged sea cucumber culture apparatus and the caged farm using the same according to an embodiment of the present invention is the same.

The guide unit 250 is connected to the scaffolding, pedestal, or buoyancy body of the cage farm adjacent to the sea level, and the position is fixed, and the position is moved according to the temperature of the seawater, and a plurality of shelter parts (72, 74, 76, 78, 80) And, a cover member 82, a guide frame 261 for guiding the movement of the frame 51 in which the linear member 91 is installed, and a position fixing pin 271 for fixing the position of the frame 51 is provided. do.

Each of the plurality of first vertical extension parts 57 has a hollow formed therein, and connects the first vertical extension part 57, the first horizontal extension part 53, and the second horizontal extension part 55, respectively. The first bracket 62 is formed to penetrate upward or downward so that the hollow of the first vertical extension part 57 is opened.

Each of the first vertical extension parts 57 is formed with a first fixing pin through hole 58 on both sides corresponding to the upper end so that the position fixing pin 271 can pass therethrough.

The guide frame 261 penetrates through the first bracket 62 and enters into the hollow of the first vertical extension 57, a plurality of third vertical extension parts 263, and the first horizontal extension part 53 in parallel. A third horizontal extension portion 266 connecting the upper ends of the third vertical extension portions 263 adjacent to each other in the first direction and extending in parallel with the second horizontal extension portion 55 and adjacent in the second direction A fourth horizontal extension 267 connecting the upper ends of the third vertical extension parts 263, a third vertical extension part 263, a third horizontal extension part 266, and a fourth horizontal extension part 267 A second bracket 269 for connecting is provided.

Each third vertical extension portion 263 has a second fixing pin through hole 264 and a third fixing pin through hole 265 on both sides corresponding to the top and bottom so that the position fixing pin 271 can pass therethrough. each is formed The second fixing pin through-hole 264 and the third fixing pin through-hole 265 are respectively formed at positions that can communicate with the first vertical through-hole 58 according to the position of the first vertical extension part 263 . .

The frame 51 is moved to be positioned under the fixed frame 261 so that the seawater is positioned adjacent to the seabed when the water temperature rises to 20 degrees or more. At this time, the position fixing pin 271 passes through the first fixing pin through hole 58 and the third fixing pin through hole 265 .

Then, when the water temperature of the seawater is lowered, the frame 51 is guided by a plurality of third vertical extensions 263 so as to be positioned adjacent to the sea level and moved upward, and then fixed by a position fixing pin 271 . At this time, the position fixing pin 271 passes through the first fixing pin through hole 58 and the second fixing pin through hole 264 .

A caged sea cucumber culture apparatus and a cage farm using the same according to another embodiment of the present invention are guided by a guide frame 261 and a plurality of shelter parts 72, 74, 76, 78 according to the water temperature by a frame 51 that can be raised and lowered. ,80) can be moved in the installed state to increase the efficiency of aquaculture work.

Until now, the cage farm using the caged sea cucumber culture apparatus according to the present invention can apply some of the multiple growth spaces arranged in a grid form to the sea cucumber culture, so that different types of marine organisms can be cultured, so a separate installation for the formation of a culture space There is an economic advantage because it can reduce costs and increase the efficiency of space utilization.

In addition, the caged sea cucumber culture apparatus according to the present invention has an advantage in that the production of sea cucumbers can be increased because a plurality of shelter parts are installed in the radial direction from the center side to secure a plurality of partitioned sea cucumber growing spaces.

In the above, the cage farm using the cage sea cucumber culture apparatus according to the present invention has been described with reference to an example shown in the drawings, but this is only an example, and those of ordinary skill in the art can perform various modifications and equivalents therefrom It will be appreciated that other embodiments are possible. Accordingly, the scope of true technical protection of the present invention should be defined by the technical spirit of the appended claims.

1: Gaduri Farm 10: Bugu
20: scaffold 40: fence
50: cage sea cucumber aquaculture device 51: frame
71: shelter unit 82: cover member
91: linear member

Claims (5)

a plurality of buoys arranged in a lattice form to form a plurality of growth spaces and to provide buoyancy;
a pipe connecting the buoy;
a footrest extending in the arrangement direction of the float and installed on the float;
a plurality of cages installed on the pipe or the scaffold to spread under the water surface in the growth space to confine marine organisms;
A plurality of frames accommodated in the cage net, formed to be accommodated in the cage net of the cage farm floating on the water, each side having an open inner space, and an upwardly open inner space are formed, respectively, but different in width and height a shelter unit forming a plurality of sea cucumber growth spaces partitioned from the center side of the frame in an outward direction by overlapping the shelter parts in radial and vertical directions to be spaced apart from each other, and a plurality of the shelter parts in the frame in the radial and vertical directions and a linear member for fixing the plurality of shelter units to be positioned to be spaced apart in the direction;
The caged sea cucumber culture device is
When the water temperature rises higher than the reference temperature, it is installed adjacent to the water bottom, and when the water temperature is lower than the reference temperature, it is installed in the cage to be positioned adjacent to the water surface,
The fence is
A cage using a sea cucumber farming apparatus, characterized in that the plurality of shelter parts are longer than the height of the plurality of shelter parts and extend in the vertical direction adjacent to the bottom surface so that the plurality of shelter parts can be installed adjacent to the water bottom when the water temperature rises. nursery. According to claim 1, wherein the plurality of shelter parts
an outer shelter part adjacent to the frame in the internal space of the frame and having an internal space open upward;
The core shelter part is formed to have a smaller height and thickness than the outer shelter part, is located on the center side of the outer shelter part, extends in the vertical direction, and opens upwardly;
An interior that is larger than the core shelter part and smaller than the outer shelter part and is located on the periphery of the core shelter part in the internal space of the external shelter part so that the space between the external shelter part and the core shelter part is partitioned. A cage farm using a caged sea cucumber culture apparatus, characterized in that each space is formed, and a plurality of inner shelter parts having a greater height and width as the distance from the core shelter part is provided. The method according to claim 2, wherein the frame is formed in a rectangular prism shape,
The linear member
and first and second horizontal extension ropes connecting the diagonally facing vertices or diagonally facing side corners of the upper end of the frame and connecting the central side to cross each other,
A plurality of the shelter units
It is formed in the shape of a quadrangular column open upward, and each corner is connected to the first or second horizontal extension rope so that each upper end is located on the same horizontal line, and the height is different from each other to be spaced at the same distance in the radial and vertical directions. A cage farm using a caged sea cucumber culture device, characterized in that it is formed to have a width and a width. According to claim 3, wherein the linear member
One side of the first horizontal extension rope extends from the upper vertex of the frame to which one side of the frame is connected in a diagonally downward direction, or extends toward the vertex side of the lower end of the frame, or the side of the frame to which one side of the first horizontal extension rope is connected A first oblique extension rope extending from the corner side to the vertex side of the lower end of the frame facing in the downward diagonal direction and positioned on the same vertical line as the first male extension rope;
The other side of the first horizontal extension rope extends from the upper vertex of the frame to which the other side is connected to the side edge side or the lower vertex side of the frame facing in the downward diagonal direction, or the other side of the first horizontal extension rope is connected to the side of the frame It extends from the corner side to the vertex side of the lower end of the frame facing in the downward diagonal direction, is located on the same vertical line as the first horizontal extension rope, intersects the first diagonal extension rope, and the center side of the first diagonal extension rope a second diagonal extension rope connected to the center;
One side of the second horizontal extension rope extends from the upper vertex of the frame to which one side is connected to the side edge side or the lower vertex side of the frame facing in the downward diagonal direction, or the side of the frame to which one side of the second horizontal extension rope is connected A third oblique line extending from the corner side to the vertex side of the lower end of the frame facing in the downward diagonal direction, intersecting the first and second oblique extension ropes, and having a center side connected to the center of the first and second oblique extension ropes extension rope,
The other side of the second horizontal extension rope extends from the upper vertex of the frame to which it is connected to the side edge side or the lower vertex side of the frame facing in a diagonal direction downward, or downward from the side edge side to which the other side of the second horizontal extension rope is connected. and a fourth diagonal extension rope extending to the vertex side of the lower end of the frame facing in the diagonal direction and having a central side connected to the first to third diagonal extension ropes,
In the first to fourth oblique extension ropes,
A cage farm using a caged sea cucumber culture device, characterized in that each lower edge of the plurality of shelter parts is connected one by one. delete

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