KR200383183Y1 - Aquatic culture tank - Google Patents

Abstract

The present invention has a simple structure for a breeding tank for aquaculture farms that can collect and remove foreign substances smoothly without a separate operating mechanism.

According to the present invention, a water tank 2 having a conical bottom surface 3 having a lower center portion, and a plurality of through holes 13 are installed upright at the center portion of the bottom surface 3 and adjacent to the bottom surface 3. ), A sediment collector 14 formed at the lower end of the outer body 12 and to which the sediment outlet 15 is connected, and the outer body (12) inside the outer body 12. 12 is installed upright at a lower height than the inner tube body 16 is connected to the drain pipe 17, the air disposed along the edge of the bottom surface 3 of the water tank 2, the air is formed a plurality of There is provided a breeding tank for aquaculture farms, comprising a supply pipe 20 and a water supply pipe 8 for supplying water to the water tank 2.

Description

Aquaculture culture tanks {Aquatic culture tank}

The present invention relates to a breeding tank for aquaculture farms, and in more detail, a simple structure and a new structure that can be easily collected and removed without a separate operation mechanism, which is easy to maintain while reducing the possibility of environmental pollution. For breeding tanks for farms.

1 is a view schematically showing a conventional fish tank for aquaculture, as shown, an overflow pipe 5 is installed upright in the center of the tank 2 in which the conical bottom surface 3 is formed, and this overflow The drain pipe 6 is connected to the lower end of the pipe (5). The upper opening of the water tank 2 is provided with an inclined water supply pipe 8 so that water is supplied to cause the flow to rotate along the circumference of the water tank 2. In addition, the air supply pipe (9) for supplying dissolved oxygen is installed in the water tank (2), the porous air stone (7) connected to the front end of the air supply pipe (9) the bottom surface of the plurality of water tank (3) ), Bubbles are generated from this air stone (7). Food or medicine is introduced from the upper part of the water tank 2 to grow aquatic organisms. And the water overflowed from the water tank (2) exits to the drain pipe (6) through the overflow pipe (5).

By the way, in the conventional breeding tank for the farm, it is necessary to periodically discharge the foreign matter, such as feces or feed grass deposited on the bottom surface (3) over time. By the way, if the sediment remains pressed on the bottom surface 3 for a long time, the removal of the excrement is possible only by using a separate cleaning tool. In addition, in the conventional water tank, excreta and foreign matter suspended in water are discharged through the overflow pipe 5 as it is, causing environmental pollution.

In particular, conventionally, the air stone 7 is sporadically installed on the bottom surface 3 to supply oxygen, and bubbles generated in the air stone 7 and rising upwards prevent the water flow rotation of the water in the water tank 2, Proper agitation of the water in the bath is suppressed, thereby increasing the tendency for the animal droppings or feed sludge to remain at the bottom of the bath. In addition, the breeding organisms can exercise while riding in the rotational water flow in the tank to increase resistance to diseases or improve the quality of the meat to improve the value of the product, the rotational water flow is hindered by the conventional air stone This has resulted in disease of living organisms and lowering of commodity value.

The present invention has been proposed in view of the problems of the conventional breeding tank for aquaculture farms as described above, the present invention has a simple structure, the foreign matter can be automatically collected and discharged separately, and the rotational flow in the tank does not interfere with the biological It is intended to provide a new breeding farm for fish farms that can prevent disease and increase the value of commodities, facilitate maintenance, and reduce the possibility of environmental pollution.

According to the present invention, a water tank 2 having a conical bottom surface 3 having a lower center portion, and a plurality of through holes 13 are installed upright at the center portion of the bottom surface 3 and adjacent to the bottom surface 3. ), A sediment collector 14 formed at the lower end of the outer body 12 and to which the sediment outlet 15 is connected, and the outer body (12) inside the outer body 12. 12 is installed upright at a lower height than the inner tube body 16 is connected to the drain pipe 17, the air disposed along the edge of the bottom surface 3 of the water tank 2, the air is formed a plurality of There is provided a breeding tank for aquaculture farms, comprising a supply pipe 20 and a water supply pipe 8 for supplying water to the water tank 2.

Hereinafter, with reference to the drawings will be described a preferred embodiment of the present invention. Figure 2 is a schematic configuration diagram of a preferred embodiment of the present invention, as shown, the bottom portion of the cylindrical water tank (2) consists of a conical bottom surface (3) is lowered in the center. In the central portion of the conical bottom surface 3, the outer body 12 and the inner tube 16 are formed in duplicate. A plurality of through holes 13 are formed in a portion adjacent to the bottom surface 3 of the lower part of the exterior body 12. And the sediment collection container 14 in which a sediment is collected is formed in the lower end of this exterior body 12. And the inner tube body 16 is installed upright inside the outer body body 12, the height of the inner tube body 16 is formed lower than the outer body body 12. The drain pipe 17 is connected to the lower end of this exterior body 12. In addition, the sediment discharge container 15 is connected to the sediment discharge port 15 separately from the drain pipe 17.

An air supply pipe 20 made of a hose is disposed along the edge of the bottom surface 3 adjacent to the side wall of the water tank 2. The air supply pipe 20 is formed with a plurality of air balls (not shown) to supply dissolved oxygen into the water by injecting air into the water tank. Bubbles emerging through this air supply pipe 20 rise upwards, causing an upward flow of water in adjacent areas, and as indicated by the arrows, the water in the water tank 2 rises near the side wall of the water tank 2, After flowing from the upper periphery of the water tank 2 to the center part, it descends again in the vicinity of the exterior body 12, and in the bottom surface 3, the circulation which flows outward is formed. On the other hand, a water supply pipe 8 is disposed above the water tank 2, and preferably, the water supply pipe 8 allows the water in the water tank 2 to flow while rotating about the central portion of the water tank 2. Let water be sprayed in approximately tangential direction. Numeral 5 is a reinforcing member disposed radially on the bottom of the bottom surface 3 of the water tank (2).

According to this structure, the water descending at the center of the water tank 2 flows outward along the bottom surface 3 by the circulation of the water formed by the rising bubbles from the air supply pipe 20, and the bottom surface 3 The foreign matter that has sunk in is circulated and is eventually discharged with water through the through hole 13 at the bottom of the outer body 12 and collected in the sediment collector 14 by its own weight. Then, the discharged water rises and overflows through the upper end of the inner tube body 16 to be discharged through the drain pipe 17 to be circulated or discharged to a separate filtration device. On the other hand, the sediment collected in the sediment collector 14 is periodically discharged through the sediment discharge port 15 by opening the valve 18.

According to the present invention described above, the outer body 12 and the inner tube body 16 are provided in double in the central portion of the water tank 2 having the conical bottom surface 3, and the lower part of the outer body 12 has a through hole. (13) and the sediment collection container 14, the sediment discharge port 15 and the drain pipe 17 is provided separately, by arranging the air supply pipe 20 along the edge of the bottom surface 3, the air supply pipe ( 20) by circulating the foreign matter accumulated on the bottom surface (3) by the circulation flow of water made by the air supplied through the 20 can be collected separately through the lower part of the outer body 12 and the water can be separated and discharged separately, It is possible to effectively separate and discharge foreign substances in the tank without the use of implements or energy.

In this way, since the air supply pipe 20 is disposed at the periphery of the water tank 2 to generate rising bubbles, the air supply pipe 20 does not interfere with the rotational water flow rotating around the center of the existing water tank 2, so that Since rotational water flow and agitation are performed, the activity of living organisms is increased while foreign matters are deposited, and the resistance to disease is improved or the meat quality is improved.

In addition, foreign matters are naturally collected and collected through separate outlets, so there is little concern about environmental pollution due to unauthorized discharge of foreign matters, and it is possible to obtain a new breeding tank for farms, which has a simple structure, reduces cost, and is easy to maintain. .

1 is a block diagram of a conventional aquaculture tank

2 is a block diagram of an embodiment of the present invention

<Description of the symbols for the main parts of the drawings>

 2. Countertop 3. Bottom

12. Exterior body 13. Through hole

14. sediment collector 15. sediment outlet

16. Internal pipe 17. Drain pipe

Claims (1)

A water tank 2 having a conical bottom surface 3 having a lower central portion, and an exterior body having a plurality of through holes 13 formed upright in the center of the bottom surface 3 and adjacent to the bottom surface 3. (12), a sediment collector 14 formed at the lower end of the outer shell body 12 and connected to the sediment discharge port 15, and a height lower than the outer shell body 12 in the inner shell body 12; It is installed upright to the lower end of the inner tube body 16 is connected to the drain pipe 17, the air supply pipe 20 is disposed along the edge of the bottom surface 3 of the water tank 2 and a plurality of air balls are formed; , Breeding tank for farms, characterized in that it comprises a water supply pipe (8) for supplying water to the tank (2).