KR101572984B1 - Super air-lift device and round shape type aqua-farm using the same - Google Patents

Abstract

The super air lift apparatus according to the present embodiment includes: a box-shaped first body having a width larger than a height; A second body which is integrally formed with the first body so as to have the same width and which is bent at a predetermined angle alpha with respect to the first body and forms an opening at an end facing the bottom surface of the aquarium, ; A drinking water discharge port protruding in a direction perpendicular to the first body and disposed at a position corresponding to the water surface of the aquarium; An air supply device having a length corresponding to the width of the second body and disposed in an inner space of the second body in parallel with a width direction of the second body; A support unit for supporting the bottom surfaces of the first and second bodies; And a buoyancy unit installed above the first body to float the first and second bodies at a predetermined height above the water surface of the aquaculture water tank.

Description

SUPER AIR-LIFT DEVICE AND ROUND SHAPE TYPE AQUA-FARM USING THE SAME

The present invention relates to a super-air lift apparatus and a farm using the same. The present invention relates to a super-air lift apparatus and a method of using the same, which can provide a sufficient rotational force to completely circulate aquaculture water in a water tank-shaped water tank without dead space, .

In recent years, airlift devices have been used in the farm to provide oxygen to the fish inhabited water and to efficiently discharge the carbonic acid generated when the excrement discharged from the fish is decomposed.

The air lift device is a very important device for fish growth in the farm, and the air lift device is disclosed in Korean Patent No. 10-1164329 entitled " Air lift device ".

The conventional air lift device is composed of a pipe into which a fluid flows, an air supply pipe that supplies air to the lower end of the pipe, and an air disperser coupled to the air supply pipe. Effect. Conventionally, the air lift apparatus includes an air disperser such as an air stone inside a pipe having a cylindrical shape, and a plurality of such air lift apparatuses are arranged in a line inside the water tank. When such an air lift device is installed in a water farm, aquaculture water is rotated at a constant speed to form a biofloc farm where the microorganisms contained in the aquaculture water can decompose the excrement of the fish being cultured .

However, in the case of a conventional channel culture farm, since the quadrangular channel is divided in half and an air lift is provided at both ends to rotate the water, a dead space in which flow of water near each corner is not smooth, And excrement, dirt, and the like may be accumulated on this portion. In addition, there is a problem that the excrement or dirt that can not be circulated in such a manner is troublesome to be separately removed while managing the farm, and the water quality of the aquaculture water may be contaminated if not removed in a timely manner.

The present embodiment provides a farm structure with improved structure and a super air lift apparatus applicable therefor so as not to cause a dead zone in which fish excrement or foreign matter is precipitated in a round type aquarium.

The technical object of the present invention is not limited to the above-mentioned technical objects and other technical objects which are not mentioned can be clearly understood by those skilled in the art from the following description will be.

The super air lift apparatus according to the present embodiment includes: a box-shaped first body having a width larger than a height; A second body which is integrally formed with the first body so as to have the same width and which is bent at a predetermined angle alpha with respect to the first body and forms an opening at an end facing the bottom surface of the aquarium, ; A drinking water discharge port protruding in a direction perpendicular to the first body and disposed at a position corresponding to the water surface of the aquarium; An air supply device having a length corresponding to the width of the second body and disposed in an inner space of the second body in parallel with a width direction of the second body; A support unit for supporting the bottom surfaces of the first and second bodies; And a buoyancy unit installed above the first body to float the first and second bodies at a predetermined height above the water surface of the aquaculture water tank.

The first and second bodies and the aquaculture water discharge port may be formed as one body.

The size of the opening of the second body may be greater than the size of the aquaculture water discharge port.

Wherein the air supply device comprises: a tube to which air containing oxygen is supplied; And an air stone connected to the tube and connected to a distributor having a plurality of discharge channels formed therein.

And a fish cut-off unit having a mesh-shaped through-hole surrounding the distributor and the air supply device.

The support unit includes a first support installed on a bottom surface of the second body; A second support which is accommodated in the inner space and is formed larger than the first support; And a nonslip member installed on a bottom surface of the second support to prevent slippage between the bottom surface of the cylindrical body and the second support.

Wherein the buoyancy unit is formed of a material that is lighter than water and is mounted on the upper surface of the first body; And a cover covering the weight and the upper surface of the first body.

The buoyancy unit may be provided by any one of a styrofoam and a tube member having an air storage portion therein.

The water tank is connected to a straight section having both ends of a circular arc having a predetermined radius and both ends of which are longer than the radius. A partition wall protruding from the center of the water channel type water bath; A double water tank having a width and a length corresponding to the water channel type water tank and disposed on the bottom surface of the water channel type water tank for controlling the temperature of the aquaculture water inside the water channel type water tank; And a super air-lift device provided with a plurality of air-facing diverters facing each other so as not to face each other, and supplying air containing oxygen to the aquaculture water and forming a rotating water flow, A box-shaped first body having a width larger than a height; A second body which is integrally formed with the first body so as to have the same width and which is bent at a predetermined angle alpha with respect to the first body and forms an opening at an end facing the bottom surface of the aquarium, ; A drinking water discharge port protruding in a direction perpendicular to the first body and disposed at a position corresponding to the water surface of the aquarium; An air supply device having a length corresponding to the width of the second body and disposed in an inner space of the second body in parallel with a width direction of the second body; A support unit for supporting the bottom surfaces of the first and second bodies; And a buoyancy unit installed above the first body to float the first and second bodies at a predetermined height above the water surface of the aquaculture water tank.

The size of the opening of the second body may be greater than the size of the aquaculture water discharge port.

Wherein the double water tank has a shape corresponding to a bottom surface of the water channel type water tank and has a chamber in which cooling water is stored; An input port formed at one end of the chamber for supplying cooling water into the chamber; A discharge port for discharging cooling water in the chamber to the outside; And a support bulkhead supporting a load of the water channel type water bath.

At least one through hole may be formed in the support partition wall.

The support partition may be a honeycomb or a maze.

According to the present embodiment, since angled corners of the farm are removed and instead, both ends are formed into an arc shape having a certain radius, the portion where the flow of the aquaculture water is changed is rounded, It is possible to prevent accumulation of debris such as excrement and feed residue in the culturing tanks due to no occurrence of a quiescent period in which the flow of water stops during the rotation.

1 is a schematic view of a round-shaped farm in accordance with the present embodiment,
FIGS. 2 to 4 are views schematically showing first and second embodiments of the double water tank for water temperature control of FIG. 1,
FIG. 5 is a view showing the partitions of FIGS. 2 and 4,
6 is a schematic perspective view of the super air lift according to the present embodiment,
Fig. 7 is a side sectional view of Fig. 6,
8 is a rear sectional view of Fig. 6. Fig.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. The sizes and shapes of the components shown in the drawings may be exaggerated for clarity and convenience. In addition, terms defined in consideration of the configuration and operation of the present invention may be changed according to the intention or custom of the user, the operator. The definitions of these terms should be interpreted based on the contents of the present specification and meanings and concepts in accordance with the technical idea of the present invention.

FIG. 1 is a schematic view of a round-shaped farm in accordance with the present embodiment, FIGS. 2 to 4 schematically illustrate first and second embodiments of a dual water tank for water temperature control of FIG. 1, Fig. 6 is a schematic perspective view of the super air lift according to the present embodiment, Fig. 7 is a side sectional view of Fig. 6, and Fig. 8 is a rear sectional view of Fig.

1, the round-type aquaculture site according to the present embodiment may include a round-shaped aquarium 100, a double water tank 200, and a super air-lift apparatus 300.

As shown in the drawings, the round type culture water tank 100 may be formed in a semicircular shape having both ends of a semicircular shape, and both ends may be provided in a semicircular shape having a predetermined radius R, The radius R may be connected to a straight line having a long length. At this time, the portion (A) to which the both ends and the straight section are connected is rounded so that the flow rate of the aquaculture water W1 does not become slow or turbulence is formed. Therefore, it is possible to prevent accumulation of excrement, feed residue and the like of the fish being cultured in the connected portion (A).

Meanwhile, although not shown, a separate air supply device (not shown) may be added to both sides of the round type water storage tank 100 or the middle of the aqua water W1. The oxygen-containing air can be sufficiently supplied through the super-air lift apparatus 300 to be described later, but additional oxygen supply may be required depending on the type of fish and the number of individuals being cultured. The air supply device may be a known structure such as an air stone, and may be disposed at regular intervals on the sidewall or the bottom surface of the aquarium 100.

A partition wall 110 formed above the water depth of the aquaculture water W1 may protrude from the center of the round type culture water tank 100. Both ends of the partition wall 110 may be open, , The aqua regenerated water W1 can be divided into a clock or a counterclockwise flow. Therefore, the bioflare aquaculture water (W1) contained in the round type aquarium 100 is rotated clockwise or counterclockwise by the super air lifter 300, and the excrement or the like contained in the aqua water W1 Can be decomposed by microorganisms. The bottom surface of the round type water storage tank 100 may be flat, but is not limited thereto, and may be rounded as required.

As shown in FIGS. 1 and 2, the shape of the round type culture water tank 100 is preferably formed to have a semicircular shape at both ends and a straight line section therebetween, but the present invention is not limited thereto. It may be necessary to complicate the shape of the farm according to the design needs, but if the rounded configuration is given to the part where the flow of water is changed or changed, the technical idea of the present invention can be met.

On the other hand, the aquaculture water W1 stored in the aquaculture tank 100 configured as described above may be formed by biofloat technology. Biofloc technology was developed to reduce contaminated seawater pouring from the aquarium (100) daily. If you do not change the water on time, pollutants such as ammonia (NH ₃ ) and nitrite (NO ₂ ) from the excrements of fish accumulate in the aquaculture water (W1) Contamination can cause fish to be killed. In addition, if the aquaculture water (W1) of the aquaculture tank (100) mixed with the feed and fish excrement is directly discharged to the sea, it may cause a secondary marine pollution, and the aquaculture water (100) W1) contains a lot of phosphorus, and if it is left in the sea, it causes red tide.

Biofloat technology applied to a round-shaped aquaculture plant according to an embodiment of the present invention is a technology for naturally producing microorganisms that are not harmful to aquatic organisms such as fishes, shrimps, crabs, etc. cultured in aquaculture tank 100. That is, it is not intended to artificially introduce microorganisms commonly used in fermented foods such as Lactobacillus, photosynthetic bacteria and yeast, which are known to be beneficial to aquaculture fish, If the internal environment is appropriately established, microorganisms can naturally occur in the aquaculture water. These microorganisms eliminate bacteria that cause fish diseases like E. coli, Pseudomonas aeruginosa, and Staphylococcus aureus and decompose ammonia which is the cause of water pollution. Using this technology, you can get rid of viruses and germs from outside and get healthy and clean aquatic products. On the other hand, once the aquaculture water (W1) in which the microorganisms have been generated has been replenished, it is sufficient to add only the amount of the water that has spontaneously evaporated to the fresh water and adjust only a certain level of salinity.

The aquaculture water tank 100 may be made of concrete but is not limited thereto, and the bottom surface may be formed of a material having excellent thermal conductivity. For example, the bottom surface may be formed of a metal material coated or coated to prevent corrosion, a PC having excellent corrosion resistance, or a synthetic resin material such as acrylic or the like.

The double water tank 200 may be installed so as to cover the bottom surface and / or the side wall of the round type water storage tank 100 by using cooling water W2 having a different temperature from the aqua water W1 . That is, the double water tank 200 may be heat-exchanged only through the bottom surface of the aquarium 100 if necessary, or may be heat-exchanged through both the bottom surface and the side wall. The water tank 200 can control the water temperature of the cooling water W2 according to the type of fish cultured and the surrounding environment. For example, the cooling water W2 at a temperature higher than the aquaculture water W1 can be used for culturing the temperate fish. On the contrary, the cooling water W2 at a temperature lower than the aquaculture water W1 is used for culturing the cold- Can be used. In addition, the temperature of the cooling water W2 may be adjusted according to the surrounding environment and the temperature of the farm. That is, it may be used to maintain the temperature of the aquaculture water W1 constant in response to seasonal changes. Meanwhile, it is also possible to move the hot water or the cold air in the double water tank 200 instead of the cooling water W2, or to adjust the temperature by using a specific refrigerant.

The cooling water W2 passing through the dual water tank 200 can be controlled by using a heating unit such as a boiler, but is not limited thereto. That is, the cooling water W2 is heated using solar heat (sunlight), heat is exchanged with waste heat discharged from a steel mill, a thermal combined power plant, a nuclear power plant, a thermal power plant, a waste incineration plant, Water temperature can be adjusted.

The dual water tank 200 is provided as a chamber having a shape corresponding to that of the round type water storage tank 100 and may be installed below the bottom surface of the round water storage tank 100, (Not shown).

That is, the chamber may be formed in a shape corresponding to the bottom surface of the round type culture water tank 100, and the round type culture water tank 100 and the chamber may be formed of materials . For example, the bottom surface of the round type water bath 100 is formed of a synthetic resin material having good corrosion resistance against metal material or sea water subjected to surface treatment for preventing corrosion, and a chamber in which cooling water W2 moves . Meanwhile, although not shown, the chamber may be configured so as to cover both the bottom surface of the round type culture water tank 100 and both side walls.

The input port 210 and the discharge port 220 are formed at both ends of the chamber with at least one through hole to supply and discharge the cooling water W1 to the inside of the chamber. At this time, the input port 210 and the discharge port 220 may be sized to correspond to each other to maintain a constant flow rate of the cooling water W1.

Meanwhile, as shown in FIG. 2, a load of the round type water storage tank 100 can be supported by the honeycomb-shaped support partition 230 of the chamber. The support partition wall 230 may disperse the load of the round type water storage tank 100 applied in the gravity direction and maintain the space of the chamber constant.

5, a plurality of through holes 231 may be formed in the support partition 230 to allow the cooling water W2 to flow in and out through the through holes 231 . At this time, the through holes 231 may be formed to have a certain size, but the through holes 231 are not limited thereto and may be formed to have different sizes as required.

As another example, a labyrinth-shaped support partition 230 may be installed in the chamber, as shown in FIG. 5, the support partition 230 may be formed with a zigzag-shaped flow path that allows water to flow through the support partition 230 so that the end of the support partition 230 is separated from the inner space of the chamber by a predetermined distance It is possible.

The support partition 230 may have various configurations other than the honeycomb or labyrinth configuration. Although not shown, a plurality of cylindrical or hexahedral support columns may be disposed at regular intervals, and a plurality of plate- As shown in Fig.

1, the chamber is disposed on the bottom surface of the round type culture water tank 100. However, the present invention is not limited thereto. As shown in FIG. 3, It is also possible to form the double water tank 200 so as to cover the side and the side surface. Other configurations are the same.

The super air lift apparatus 300 may include a first body 310, a second body 320, and a fresh water discharge port 330, as shown in FIGS.

The first body 310 may have a substantially rectangular parallelepiped shape and may have a width larger than a height. The upper surface of the first body 310 is arranged to correspond to the water surface of the aquaculture water W1, the second body 320 is connected to the lower side, and the aquaculture water discharge port 330 is connected to the front side . The width of the first body 310 may be increased or decreased according to the diameter of the round type water storage tank 100. The width of the first body 310 may be 50% Can not be exceeded.

The second body 320 may be bent at a predetermined angle alpha with respect to the first body 310 and may have a width corresponding to the first body 310. An opening 321 is formed at an end of the second body 320 so that the aquaculture water W1 can be introduced into the first and second bodies 310 and 320 through the opening 321. [ 6 and 7, the second body 320 may be formed as one body with the first body 310, and the second body 320 may be formed as a body having a predetermined angle? The reason for configuring the air supply device 350 is that the installation space of the air supply device 350 is more easily secured and the lengths of the first and second bodies 310 and 320 are made as long as possible to ensure a long flow path . When the flow path is long, the oxygen-containing air supplied through the air supply device 350, which will be described later, can be mixed with the aquaculture water as much as possible and the flow velocity can be increased.

7, the opening 321 is formed to be perpendicular to the end of the second body so that the air injected through the air supply device 350 is directed to the second body (Not shown). When the inner surface of the second body 320 is disposed to face the upper side of the air supplying device 350 as described above, the air injected from the air supplying device 350 does not leak to the outside of the second body, Can be discharged only toward the discharge port 330 formed in the intended direction in the flow path formed by the first and second bodies 310 and 320.

As shown in FIGS. 6 to 8, a plurality of air supply devices 350 may be disposed at regular intervals in the second body 320. The air supply device 350 is a well-known air supply device such as an air stone. The air supply device 350 receives air containing oxygen through the tube 351, Air can be supplied. The openings 321 may be larger than the aquaculture water discharge port 330 to be described later so that a maximum amount of the aquaculture water W1 can be smoothly supplied to the air supply device 350.

A plurality of air supply devices 350 according to the present embodiment may be disposed in the width direction of the second body 320. Each of the air supply devices 350 may be connected to a tube through which oxygen- And may be connected to a distributing pipe 352, which is formed in one body. As described above, if the air supply device 350 is disposed in the width direction of the second body 320, air having a larger amount of oxygen can be supplied to the second body 320 due to an increase in the length of the air supply device such as an air stone It can be supplied in water. In addition, it is possible to form a strong flow rate compared to the conventional air lift due to the air pressure generated by supplying a large amount of air at a time.

Meanwhile, it is also possible to cause fish to be caught in the air between the air supply units 350. In this embodiment, in order to prevent the fish from flowing into the air supply units 350, (353). The fish screening unit 353 is a box-shaped cover composed of mesh members in the form of a mesh, and may be provided with a frame to form a frame, or may be provided with a box-shaped mesh member made of a plastic material Do.

The size of the through holes of the mesh members constituting the fish screening unit 353 may vary depending on the type and size of cultured fish. If the mesh size of the mesh member is set to be too small, the flow of oxygen containing air supplied through the air supply device 350 may be blocked to slow down the flow velocity. Therefore, It is better to form smaller fish than the fish being cultured.

The aquaculture water discharge port 330 may be disposed at a position corresponding to the water surface of the round type water storage tank 100 formed integrally with the first body 310 so as to protrude in the vertical direction and form the aquaculture water tank. As shown in FIG. 8, the aquaculture water discharge port 330 has a width corresponding to the width of the first body 310, so that the greatest amount of water is discharged through the aquaculture water discharge port 330 . The aquaculture water W1 discharged through the aquaculture water discharge port 330 can form a flow rate in the aquaculture water W1 by using the pressure formed by the air containing oxygen through the air supply device 350 have.

6 to 8, the super air lift apparatus 300 configured as described above may include a plurality of supports 400 for floor surface fixation. According to the present embodiment, the support base 400 may include a first support base 410, a second support base 420, and a nonslip member 430.

The first support 410 and the second support 420 may be formed in a known pipe structure having a length capable of being extended. The second support 420 may be thicker than the first support 410, 1 support 410 may be configured to be adjustable in length as it moves up and down in the inner space of the second support 420. At this time, the fixing of the first and second supports 410 and 420 can be fixed using a fixing pin 421 or the like.

Meanwhile, as described above, the first and second support rods 410 and 420 are merely examples, and any structure can be applied as long as the length is changeable.

On the other hand, a rubber or silicon non-slip member 430 may be installed on the bottom surface of the second support base 420 so as not to slip on the bottom surface of the circular body 100.

In addition, the buoyancy unit 500 may be installed so that the super-air lift apparatus 300 configured as described above can be kept stationary at a specific position of the round type water storage tank 100. The buoyancy unit 500 includes a plurality of buoyancy members 510 to be mounted on the upper surface of the first body 310 and a cover 520 to enclose the buoyancy members 510.

The buoyancy member 510 may be a generally used styrofoam or a tube member into which an air is injected into the inner space. However, the buoyancy member 510 is not limited thereto. The buoyancy member 510 may be made of any material having a weight lighter than water Can be used. The buoyancy member 510 may float on the water surface of the aquaculture water W1 as shown in Fig. 7 so that the super-air lift apparatus 300 can maintain a constant position from the water surface of the aquaculture water W1.

The cover 520 is provided to correspond to the shape of the upper surface of the first body 310 to prevent the buoyancy member 510 from being exposed to the outside. The cover 520 is configured to be larger than the area of the upper surface of the first body 310 to cap the upper surface of the first body 310. For this, the size of the inner circumferential surface of the cover 520 may correspond to the upper surface of the first body 310. In the above-described embodiment, the lid 520 is included. However, the lid 520 is not essential and may be deleted if necessary. That is, the buoyancy member 510 may be buoyed to float the first body 310 on the surface of the aquaculture water W1.

Hereinafter, the operation of the super-air lift apparatus 300 constructed as described above will be described with reference to a plan view of a round-shaped farm in accordance with the present embodiment shown in FIG.

As shown in FIG. 1, a plurality of super air lift apparatuses 300 may be installed, and the super air lift apparatuses 300 may include a first group and a second group of super air lift apparatuses 300 that form water streams in opposite directions. That is, the super air lift apparatuses 300 of the first group and the second group may be installed at both ends of the round type culture water tank 100 so as to be diagonally symmetric with respect to the partition wall 110, so as not to face each other. At least three or more super-air lift devices 300 installed in the first and second groups may be configured as a single group, and the super-air lift devices 300 of the first group and the second group preferably have the same number So that the aquaculture water W1 can be rotated at a constant flow rate.

1, the super-air lift apparatus 300 may be fixed by a fixed unit 400 fixed to the aquarium 100 so that the super-air lift apparatus 300 can be fixed at a predetermined position, (400) may be provided by a wire or the like. The fixed unit 400 is connected to the super-air lift apparatus 300 floating on the water surface by the buoyancy unit 500 and can be fixed in position.

According to the present invention as described above, when the hydrothermal aquaculture water tank 100 is composed of a biofloating water tank, the rotating aqua regia water W1 is divided into corner portions A (see Fig. 1) This is advantageous for water quality management since excrement and feed residue that are not decomposed due to microorganisms are not accumulated in the corner portion A since they are rounded.

In addition, seasonal changes, as well as the type of fish to be cultivated, can freely control the temperature of the water, so that a variety of fish species can be cultivated.

While the invention has been shown and described with reference to certain preferred embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims. Accordingly, the true scope of the present invention should be determined by the following claims.

100; A round type aquarium 110; septum
200; Double water tank 210; Input port
220; Discharge port 230; Support bulkhead
231; Through hole 300; Super Air Lift Device
310; A first body 320; The second body
330; Aquaculture water outlet port 350; Air supply device
351; Tube 352; Distribution pipe
353; A fish block unit 400; support fixture
500; Buoyancy unit

Claims (13)

A box-shaped first body having a width larger than a height;
A second body which is integrally formed with the first body so as to have the same width and which is bent at a predetermined angle alpha with respect to the first body and forms an opening at an end facing the bottom surface of the aquarium, ;
A drinking water discharge port protruding in a direction perpendicular to the first body and disposed at a position corresponding to the water surface of the aquarium;
An air supply device having a length corresponding to the width of the second body and disposed in an inner space of the second body in parallel with a width direction of the second body;
A support unit for supporting the bottom surfaces of the first and second bodies; And
And a buoyancy unit installed above the first body to float the first and second bodies at a constant height above the water surface of the aquarium.
The method according to claim 1,
Wherein the first and second bodies and the aquaculture water discharge port are formed as one body.
The method according to claim 1,
Wherein the size of the opening of the second body is larger than the size of the aquaculture water discharge port.
The air conditioner according to claim 1,
An oxygen-containing air supply tube; And
And a distributor connected to the tube and having a plurality of discharge channels formed therein, the superstructure being an air stone.
5. The method of claim 4,
And a fish cut-off unit having a mesh-shaped through-hole surrounding the distributor and the air supply device.
The apparatus according to claim 1,
A first support installed on a bottom surface of the second body;
A second support which is accommodated in the inner space and is formed larger than the first support; And
And a non-slip member installed on a bottom surface of the second support to prevent slippage between the bottom surface of the aquarium and the second support.
The buoyancy unit according to claim 1,
At least one buoyancy member formed of a material that is lighter than water and seated on the upper surface of the first body; And
And a cover covering the upper surface of the first body and the buoyancy member.
The buoyancy unit according to claim 7,
Wherein the super air lift apparatus is one of a styrofoam and a tube member having an air storage portion therein.
A water channel type water tank in which both ends are made of arcs having a certain radius and both ends are connected to a straight line section having a length longer than the radius;
A partition wall protruding from the center of the water channel type water bath;
A double water tank having a width and a length corresponding to the water channel type water tank and disposed on the bottom surface of the water channel type water tank for controlling the temperature of the aquaculture water inside the water channel type water tank; And
And a super air lift device for supplying air containing oxygen to the aquaculture water and forming a rotating water flow, wherein a plurality of the super air lift devices are installed on the opposite sides of the partition wall so as not to face each other,
The super air lift apparatus includes:
A box-shaped first body having a width larger than a height;
A second body which is integrally formed with the first body so as to have the same width and which is bent at a predetermined angle alpha with respect to the first body and forms an opening at an end facing the bottom surface of the aquarium, ;
A drinking water discharge port protruding in a direction perpendicular to the first body and disposed at a position corresponding to the water surface of the aquarium;
An air supply device having a length corresponding to the width of the second body and disposed in an inner space of the second body in parallel with a width direction of the second body;
A support unit for supporting the bottom surfaces of the first and second bodies; And
And a buoyancy unit installed on the first body and float the first and second bodies at a predetermined height above the water surface of the aquaculture water tank.
10. The method of claim 9,
Wherein the size of the opening of the second body is larger than the size of the aquaculture water discharge port.
The double-water bath according to claim 9,
A chamber having a shape corresponding to a bottom surface of the water channel type water tank and storing cooling water therein;
An input port formed at one end of the chamber for supplying cooling water into the chamber;
A discharge port for discharging cooling water in the chamber to the outside; And
And a support bulkhead supporting a load of the water-channel type water tank.
12. The apparatus of claim 11,
A round-shaped farm where at least one orifice is formed.
12. The apparatus of claim 11,
A round-shaped farm, either honeycomb or maze.

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