KR20210094221A - A carrying vessel for aquaculture of highly migratory fish - Google Patents

Abstract

The present invention relates to a carrying water tank for highly migratory fish farming capable of including a plurality of spraying units which cover the outer periphery of a water tank body, are formed at regular intervals, and spray seawater; and spraying the seawater in a state of allowing the plurality of spraying units to be obliquely installed in one direction by considering a feature of highly migratory fish farming flowing in an opposite direction of water flow Since induction of a highly migratory fish to flow in the opposite direction by rotating seawater stored in the water tank body by the seawater sprayed through the spraying units and moving the same, the present invention can safely transport the highly migratory fish to a fish holder through an environment similar to a sea environment, and a manufacturing cost of a transport water tank can be minimized through a simple structure.

Description

A carrying vessel for aquaculture of highly migratory fish

The present invention relates to a transport tank for aquaculture of highly migratory fish, and more particularly, it surrounds the outer periphery of the tank body and forms a plurality of spraying parts spaced apart from each other to spray seawater, In consideration of the characteristics of swimming in the opposite direction, by configuring the seawater to be sprayed with a plurality of spraying units installed obliquely in either direction, the seawater stored in the tank body by the seawater sprayed through the spraying units rotates in one direction and moves in one direction. As it becomes possible to induce migratory fish to swim in the opposite direction, it is possible to safely transport highly migratory fish to a floating cage by providing an environment similar to the marine environment, and to minimize the manufacturing cost of a transport tank through a simple structure. It relates to a transport tank for aquaculture of highly migratory fish.

In general, highly migratory fish are fish species with strong migratory activity over relatively long distances, and 17 fish species including tuna and marlin are classified as highly migratory fish. Among these highly migratory fish, Bluefin tuna swim with their mouths open and breathe by receiving oxygen from the water passing through their gills. In addition, fish species that require a lot of oxygen cannot breathe in a stopped state no matter how much oxygen is in the sea.

Bluefin tuna as described above is sold at a very high price in Korea, but it is gaining popularity as it is known as a low-fat, low-calorie, high-protein food. A live fish transport tank for migratory fish is posted in Registered Patent No. 10-1508687 (hereinafter referred to as 'Patent Document 1').

Referring to Patent Document 1, the conventional 'live fish transport tank for highly migratory fish' includes a tank body (1) manufactured in a cylindrical shape, and a tank cover (2) that is assembled and installed on the upper end of the tank body (1). And, a seawater injection pipe 3 for supplying seawater to the inside of the water tank body 1, a drain pipe 6 connected to the lower end of the water tank body 1, and the drain pipe 6 In the live fish transport tank (10) including the installed drain valve (6a), an overflow chamber (4) is formed in the tank cover (2), and the overflow chamber (4) is a water tank body (1) The tank cover (2) itself is formed to protrude upward by a predetermined height to form a space for collecting air bubbles on the upper side of the inner space of the An opening 4a to be opened and closed by the cover plate 9 is formed for this purpose, and an overflow pipe 5 for seawater discharge is connected and installed on the other wall portion of the overflow chamber 4, and the seawater injection pipe 3 ) is installed extending vertically downward from the point corresponding to the center of the water tank body (1) through the overflow chamber (4) to a position close to it at a distance of 5 to 20 mm from the bottom surface of the water tank body (1), At the lower end of the seawater injection pipe 3, a bubble blocking plate 11 in the form of a disk spaced apart from the bottom surface of the water tank body 1 with a flow interval 12 of 5 to 20 mm is installed, and the bubble blocking plate ( The outer periphery of 11) is spaced apart from the inner surface of the wall portion of the water tank body 1 at a certain distance for supply of seawater, and a spacer ( 11a) is installed, and the spacer 11a is characterized in that at least two or more spacers are installed at a certain angle along the bottom surface of the water tank body 1 .

In Patent Document 1 having the above configuration, the water tank body 1 including the water tank cover 2 is manufactured in a cylindrical shape, but the seawater supplied to the inside of the water tank body 1 through the seawater injection pipe 3 is While it is possible to minimize the amount of bubbles generated by colliding with the seawater stored in the tank body (1), a small amount of air bubbles generated in part go through the inner surface of the wall of the tank body (1) out of the swimming path of the fish and pass through the tank. It is configured to be quickly guided to the overflow space provided on the cover 2 and then discharged to the outside of the tank together with seawater, but the structure is very complicated, which causes a cost increase of the transport tank.

In addition, as described above, highly migratory fish cannot breathe in a stopped state due to the high amount of oxygen, so breathing through the gills is possible only by constantly moving and sucking water. Environment for naturally inducing swimming of highly migratory fish There was a problem in that fish death often occurred during the transportation process as it did not provide

Patent Document 1: Republic of Korea Patent Publication No. 10-1508687

The present invention has been devised to solve the above problems, and an object of the present invention is to surround the outer periphery of the water tank body and form a plurality of spray units spaced apart from each other to spray seawater, but highly migratory fish are opposite to the flow of water Considering the characteristics of swimming in the direction, by configuring the seawater to be sprayed with a plurality of spraying units installed obliquely in one direction, the seawater stored in the tank body by the seawater sprayed through the spraying portion rotates and moves in one direction. Since it becomes possible to induce fish to swim in the opposite direction, it is possible to safely transport highly migratory fish to a water cage by providing an environment similar to the marine environment, as well as to minimize the manufacturing cost of the transport tank through a simple structure. To provide a transport tank for the cultivation of highly migratory fish.

In order to solve the above problems, the transport tank for highly migratory fish culture according to a preferred embodiment of the present invention is made of a cylindrical shape to shape the space in which the fish are accommodated, and surrounds the outer periphery so that seawater flows in, A water tank body having a plurality of inlet holes spaced apart from each other at regular intervals and having a discharge hole formed at an upper portion of the outer periphery so that the seawater introduced therein is discharged to the outside; and a moving pipe coupled to the water tank body, forming a passage through which seawater to be introduced into the water tank body moves, and having a plurality of spraying units inserted into the inlet hole to spray seawater into the water tank body; The plurality of spraying parts are configured to spray seawater in a state obliquely installed in one direction from the inside of the water tank body, and the seawater stored in the water tank body by the seawater sprayed through the spraying part rotates and moves in one direction. characterized in that

In addition, it characterized in that it further comprises a control means for controlling the injection speed of the injection unit according to the size or species of fish accommodated in the tank body.

In addition, a cushion mat attached to surround the inner wall of the water tank body to prevent the end of the spraying part from being exposed and to provide a cushioning function, wherein the cushion mat has seawater sprayed through the spraying part into the water tank body. It is characterized in that the injection hole is formed to enable movement.

As described above, according to the present invention, a plurality of spraying parts are formed to surround the outer periphery of the tank body and spaced apart to spray seawater, but considering the characteristics of highly migratory fish swimming in the opposite direction to the water flow, a plurality of By configuring the spraying part to spray seawater with the spraying part installed obliquely in one direction, the seawater stored in the tank body rotates and moves in one direction by the seawater sprayed through the spraying part to induce highly migratory fish to swim in the opposite direction. Therefore, it is possible to safely transport highly migratory fish to a water cage by providing an environment similar to the marine environment, and there is an advantage in that the manufacturing cost of the transport tank can be minimized through a simple structure.

1 is an exploded perspective view showing the configuration of a transport tank for aquaculture of highly migratory fish according to a preferred embodiment of the present invention.
Figure 2 is a combined perspective view showing the configuration of a transport tank for aquaculture of highly migratory fish according to a preferred embodiment of the present invention.
Figure 3 is an explanatory view showing a state in which the injection unit is coupled to the tank body of the transport tank for highly migratory fish farming according to a preferred embodiment of the present invention.
Figure 4 is an explanatory view showing a state in which the cushion mat is attached to the inner wall of the tank body of the transport tank for the culture of highly migratory fish according to a preferred embodiment of the present invention.
5 is an explanatory view showing a process in which seawater flows into the tank body from the bottom surface of the tank body through the supply hole and the moving hole of the transport tank for highly migratory fish culture according to a preferred embodiment of the present invention.
6 is a view showing that seawater rotates in one direction by the seawater injection of the injection part of the transport tank for highly migratory fish farming according to a preferred embodiment of the present invention, and that the highly migratory fish swims in the opposite direction to the flow of seawater according to the flow; explanatory diagram.

Hereinafter, the present invention will be described in detail with reference to the drawings. Like reference numerals in each figure indicate like elements.

1 is an exploded perspective view showing the configuration of a transport tank for aquaculture of highly migratory fish according to a preferred embodiment of the present invention, and FIG. 2 is an exploded perspective view showing the configuration of a transport tank for aquaculture of highly migratory fish according to a preferred embodiment of the present invention It is a combined perspective view, and FIG. 3 is an explanatory view showing a state in which the injection part is coupled to the tank body of the transport tank for highly migratory fish culture according to a preferred embodiment of the present invention.

4 is an explanatory view showing a state in which a cushion mat is attached to the inner wall of the tank body of the transport tank for the cultivation of highly migratory fish according to a preferred embodiment of the present invention, and FIG. 5 is a highly migratory fish according to a preferred embodiment of the present invention. It is an explanatory view showing the process of inflow of seawater from the bottom surface of the tank body to the inside of the tank body through the supply hole and the moving hole of the transport tank for aquaculture, and FIG. 6 is a highly migratory fish culture according to a preferred embodiment of the present invention. It is an explanatory diagram showing that the seawater rotates in one direction by the seawater injection of the injection part of the transport tank for the purpose of transport and that, according to the flow, highly migratory fish swim in the opposite direction to the flow of seawater.

1 to 6 , a transport tank for highly migratory fish culture according to a preferred embodiment of the present invention includes a tank body 100 , a moving tube 200 , and a cushion mat 300 .

The tank body 100 is to form a space in which highly migratory fish such as bluefin tuna are accommodated, and the highly migratory fish is characterized by swimming at a relatively high speed while drawing a large circle. ) is preferably made of a cylindrical shape to prevent stress by phenomena such as colliding with the inner wall of the tank body 100 in the process of swimming by highly migratory fish and to enable natural swimming.

In addition, in the present invention, the water tank body 100 surrounds the outer periphery so that the seawater sprayed through the spraying parts 210, 210', 210'' can be introduced and a plurality of inlet holes ( 110, 110', 110'') is formed, and the inlet holes 110, 110', 110'' smoothly induce a one-way flow of seawater sprayed through the spraying units 210, 210', 210''. It is possible to surround the outer periphery of the water tank body 100 and installed at intervals of about 120 degrees, each of the inlet holes 110, 110', 110'' is preferably formed in plurality along the longitudinal direction of the water tank body 100. .

In addition, as shown in FIGS. 3 and 4, the inlet holes 110, 110', and 110'' are preferably formed in an oblique direction to enable the injection parts 210, 210', 210'' to be installed at an angle.

On the other hand, the seawater stored in the water tank body 100 is discharged to the outside while the seawater is introduced through the injection parts 210, 210', 210'' to the upper outer periphery of the water tank body 100, and is circulated as new seawater. A plurality of discharge holes 120 are formed so that it is possible.

On the other hand, as shown in Fig. 5, the water tank body 100 is characterized in that it is formed in a double-bottomed structure comprising a lower bottom surface 130 and an upper bottom surface 140, and a lower bottom surface 130 and an upper portion. At least one supply hole 131 connected to a supply hose for supplying seawater is formed in the lower side of the side of the tank body 100 corresponding to the space formed by the bottom surface 140 , and the supply hole is in the upper bottom surface 130 . A plurality of moving holes 141 are formed so that the seawater introduced through the 131 moves into the tank body 100 . Due to this, the tank body 100 passes through the supply hole 131 and the movement hole 141 . ), as seawater flows upward from the bottom surface, sufficient oxygen can be supplied to the inside of the water tank body 100 separately from the injection units 210, 210', 210''. It is preferable that a plurality of the supply holes 131 are formed to face each other on both sides of the lower side of the water tank body 100 so that the incoming water collides with each other and quickly moves to the moving hole 141 .

The moving pipe 200 forms a passage through which the seawater to be introduced into the water tank body 100 moves, and has a predetermined length and the inlet holes 110, 110', 110'' from the outside of the water tank body 100. It consists of a plurality of moving pipes 200, 200 ', 200'' respectively coupled to the formed positions. It is configured to be closed to enable the seawater to move through the spraying units 210, 210', 210''.

The moving tubes 200, 200', 200'' may be coupled to the water tank body 100 by various coupling means.

On the other hand, in the present invention, the moving tube (200, 200', 200'') is inserted into the inlet hole (110, 110', 110'') in a state coupled to the water tank body 100, the inside of the water tank body 100 It is characterized in that a plurality of spraying units 210,210', 210'' for spraying seawater into ') is configured to spray seawater in a state obliquely installed in one direction from the inside of the water tank body 100 by the structure, thereby, as shown in FIG. It becomes possible to induce highly migratory fish to swim in the opposite direction by rotating and moving.

That is, the present invention considers the characteristic that highly migratory fish swim in the opposite direction to the water flow, and the seawater stored in the tank body 100 through a plurality of spraying units 210, 210', 210'' rotates and moves in one direction. By configuring it, it becomes possible to induce the natural swimming of the highly migratory fish accommodated in the tank body 100 as it provides an environment similar to the sea environment, thereby minimizing the stress of the highly migratory fish and safely transporting it to the water cage it is possible

On the other hand, the spraying parts 210, 210', 210'' are inserted into the inlet holes 110, 110'110'' and the seawater stored in the water tank body 100 in the process of spraying the seawater inlet holes 110, 110'110'') It is preferable that a sealing member for sealing the inlet holes 110 and 110'110'' is coupled to the outer peripheral surface thereof to prevent leakage through the .

On the other hand, in the present invention, in the process of spraying seawater through the spraying part 210, the spraying speed of the spraying part 210 is increased so that it is possible to guide natural swimming according to the size or type of fish accommodated in the tank body 100. It is preferable that a control means for controlling is provided.

As shown in FIG. 4, the cushion mat 300 is attached to surround the inner wall of the water tank body 100 to prevent exposing the ends of the spraying units 210, 210', 210'' and provide a cushioning function. By preventing the ends of the spraying parts 210, 210', 210'' from being exposed, the fish collide with the spraying parts 210, 210', 210'' in the swimming process of the fish accommodated in the tank body 100. function to prevent.

In addition, as the cushion mat 300 provides a cushioning function, when a fish collides with the inner wall of the tank body 100 during the swimming process of the fish accommodated in the tank body 100, the impact is minimized to minimize the impact of the fish in the transport process. functions to prevent damage to

Meanwhile, spray holes 310, 310', 310'' are formed in the cushion mat 300 so that the seawater sprayed through the spraying units 210, 210', 210'' can move to the tank body 100.

As described above, the present invention surrounds the outer periphery of the water tank body 100 and forms a plurality of spray units 210, 210 ', 210 '' that are spaced apart from each other to spray seawater, but highly migratory fish are the flow of water In consideration of the characteristics of swimming in the opposite direction, a plurality of spraying units 210, 210', 210'' are configured to spray seawater in a state in which they are installed obliquely in either direction, thereby injecting parts (210, 210', 210'') through As the seawater stored in the tank body 100 rotates and moves in one direction by the sprayed seawater, it becomes possible to induce the highly migratory fish to swim in the opposite direction. It is possible not only to safely transport the tank to the tank, but also to minimize the manufacturing cost of the transport tank through a simple structure.

Best embodiments have been disclosed in the drawings and specification. Although specific terms are used herein, they are used only for the purpose of describing the present invention and are not used to limit the meaning or scope of the present invention described in the claims. Therefore, those skilled in the art will understand that various modifications and equivalent other embodiments are possible therefrom. Therefore, the true technical protection scope of the present invention should be determined by the technical spirit of the appended claims.

100: water tank body 110,110',110'': inlet hole
120: discharge hole 130: lower bottom surface
131: supply hole 140: upper bottom surface
141: Moving Hall 200,200',200'': Moving Hall
210,210',210'': injection unit 300: cushion mat
310,310',310'': injection hole

Claims (3)

It is made in a cylindrical shape to form a space in which fish are accommodated, and a number of inflow holes spaced at regular intervals are formed around the outer periphery so that seawater flows in, and the seawater introduced into the inside is discharged at the upper part of the outer periphery. a water tank body in which a discharge hole is formed; and
A moving pipe coupled to the water tank body to form a passage through which seawater to be introduced into the water tank body moves, and is inserted into the inlet hole and provided with a plurality of spraying units to spray seawater into the water tank body;
The plurality of spraying parts are configured to spray seawater in a state obliquely installed in one direction from the inside of the water tank body, and the seawater stored in the water tank body by the seawater sprayed through the spraying part rotates and moves in one direction. Transport tank for highly migratory fish farming, characterized in that.
The method according to claim 1,
Transport tank for highly migratory fish culture, characterized in that it further comprises a control means for controlling the spraying speed of the spraying part according to the size or type of fish accommodated in the tank body.
3. The method according to claim 2,
A cushion mat attached to surround the inner wall of the water tank body to prevent the end of the spraying part from being exposed and to provide a cushioning function, wherein the seawater sprayed through the spraying part moves to the water tank body on the cushion mat Transport tank for highly migratory fish culture, characterized in that the injection hole is formed so that it is possible.

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