KR900004824Y1 - Apparatus of a fish farm for filter - Google Patents

Abstract

No content.

Description

Circulation Filtration Fish Farm

1 to 9 are embodiments of the present invention,

1 is an overall configuration diagram.

2 is a plan view.

3 is a plan view of the A-A line of FIG.

4 is a plan view of the line B-B in FIG.

5 is a side cross-sectional view showing an extract of the filtration member.

6a is a perspective view of the sprinkler, (b) is a sectional view of the air pipe, (c) is a component diagram.

7 is a state in which the light shielding film is extracted.

8 is an excerpt of the sedimentation tank.

9 is a plan cross-sectional view of the settling tank.

* Explanation of symbols for main parts of the drawings

1: fish farming device 2: sprinkler

3: filter member 4: filter network

5: air pipe 6: collection plate

7: fish tank 8: sedimentation tank

9: boiler 10: pumping pump

11: air pipe 12: hole

13: return pipe 15: shading film

16: Oyster Shell 18: Elbow

The present invention relates to a circulating filtration fish farm, and more particularly, by exposing the filtration members stacked at regular intervals to the atmosphere and supplying water intermittently to promote the reproduction of aerobic and anaerobic bacteria, toxic NH ₃ , NO ₂ , By decomposing organic substances of NO ₃ and CO ₂ into inorganic substances, we create a pleasant living environment where meat can live well, so that water that is difficult to be supplied from outside of fishing villages can be purified and used continuously. The present invention relates to a circulating filtration fish farming device designed to reduce installation costs and to significantly reduce maintenance costs of fish farms.

Generally in fish farming, it is divided into exponential, flow, and circulating filtration. Among them, circulating filtration is used to keep water circulating. Excretion and feed residues of the meat are transferred to the settling tank to be precipitated, and then the filtered water is generated in the biofiltration tank to produce aerobic and anaerobic bacteria, and then circulated back to the fish tank. At the same time, by supplying a certain amount of oxygen to the fish tank to adjust the environment so that the meat can sleep.

The filtration formula is divided into physical filtration, chemical filtration, biological filtration, the physical filtration is mostly used to remove large dirt, chemical filtration is a toxic organic substance NH ₃ , NO ₂ , NO ₃ , CO ₂ Activated charcoal is used to adsorb the back, and biofiltration is a method of decomposing toxic organics into inorganic materials using aerobic and anaerobic bacteria in clear water.

In addition, the biological filtration method is divided into a gravel type, a rotating plate type, the gravel type forms a bulkhead in a huge water tank, the contaminants are precipitated by passing over the bulkhead, and organic matter is decomposed by aerobic and anaerobic bacteria to inorganic matters. As the water is purified by changing, the gravel formula is deteriorated due to the accumulation of sludge, and there is a large hotbed of pathogens and harmful bacteria.

In addition, the rotating plate is one method used in the installation standard of the sewage treatment facility of environmental engineering, that is, the rotating disc is deposited about 40% under the surface of the fish tank, and the rest is exposed to the atmosphere so that the rotating disc is exposed by the shaft. By rotating slowly, the biofiltration membrane is attached to the rotating plate to decompose organic matter.

Therefore, as the rotating disc rotates, oxygen in the atmosphere is absorbed to form a filtered biomass, and the biomass decomposes the sewage in the fish tank, and the soil changed into inorganic material is precipitated and discharged. It is understood that creating a pleasant environment has been developed fish farming using this principle, that is, the fish tank is formed into a concrete tank and the upper portion thereof, as described in the previous publication No. 80-981 After installing the rotating plate in the lower part of the rotating plate to be deposited in the fish tank, the upper side is exposed to the atmosphere by using the water supply device installed in the upper part of the rotating plate to drain the water returned in the fish tank, the gravity of the falling water By rotating, and the rotating plate is deposited in water and exposed to the atmosphere to receive oxygen, Appears to facilitate the growth of bacteria on the plate supply of oxygen in the fish automatically sets of decomposed waste positive tone with the supply of the oxygen by the bacteria, as well as to a composition that can be life environment.

However, the rotating plate type is subject to the place because the installation of the fish tank should be installed as a concrete tank, and also because the rotating plate is worn on the shaft axis by the continuous rotation of the rotating plate should be replaced, and the shaft is bent by weight Due to the replacement of the swivel plate and the shaft, it was difficult to operate the aquaculture industry to increase the economic burden and put it into practical use.

The present invention has been made to solve such a conventional problem, after exposing several stacked filtration members in the air at regular intervals, the sprinkler is installed to supply water intermittently upward, and the oyster shell is loaded downward. The air passing through the filtration member is installed by installing the filtered filtration net and warm air, and the water passed through the filtration member is mixed with bacteria and oxygen, and the acid alkalinity ((PH) is kept constant by the oyster shell. It creates a living environment and decomposes organic matters into inorganic substances and discharges them to precipitate and solves problems such as water conservation and water temperature control by continuously circulating water in the fish tanks. The water in the fish tank is rotated counterclockwise, creating a phenomenon like water flowing. The living environment can be maintained comfortably like playing in the flowing water, and the fish tank is installed in the central drainage system to facilitate the accumulation of sludge (manure, feed residue) as the water rotates. It is easy to assemble, so it can be installed in inland regardless of place, and it can raise freshwater fish and saltwater fish, but it is very cheap to install and maintain.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 to 9 is an embodiment of the present invention, 1 is a fish farming device, the fish farming device (1) is a sprinkler (2), filtration member (3), filtration net (4), air pipe (5), It is composed of a collecting plate 6, a fish tank (7), a settling tank (8), a boiler (9), a pumping pump (10), respectively.

As shown in FIG. 6, the sprinklers 2 are disassembled and assembled so that four air pipes 11 are formed in a "+" shape.

A plurality of holes 12 are formed in each of the airborne pipes 11 so as to be positioned at an angle of about 45 degrees on a vertical line, and installed to rotate counterclockwise when water is fountained.

Preferably, the sprinkler 2 is allowed to rotate six revolutions per minute.

The sprinkler 2 is installed with a return pipe 13 to be connected to the pump pump 10 to supply the water to be pumped by the pump pump 10 to the sprinkler 2 through the return pipe (13).

The sprinkler 2 is optionally installed according to the size of the fish tank (7).

The filtration member 3 is composed of a filtration body 14 and a plurality of light shielding membranes 15.

The filter body 14 is formed in a rectangular box so that the upper and lower portions are open, and the light shielding film 15 is formed by weaving horizontally and vertically as in FIGS. 5 and 7, and the material is polyethylene.

Therefore, as shown in FIG. 6a, the light shielding film 15 is installed at intervals of 1 cm and installed in the filter main body 14, but the upper part thereof is fixed.

The filtration member 3 is positioned below the sprinkler 2 and exposed to the atmosphere, and also rearwards to occupy about half of the fish tank 7 as in FIGS. 2 and 3. Install and open the front half of the fish tank 7 so that the worker manages the fish tank 7 from time to time.

The filter net 4 is fixed in the filter main body 14 so as to be positioned below the light shielding film 15 which is installed in several pieces as shown in FIGS. 3 and 5.

The oyster shell 16 is loaded on the filter net 4 so that the oyster shell 16 is cut by the water falling through the light shielding film 15 to adjust the acid alkalinity PH of the fish tank 7.

On the other hand, the air pipe (5) is installed on both sides of the filter net (4), and forms a plurality of holes 17 in the vertical lower portion in the longitudinal direction of the air pipe (5).

The air pipe (5) is a separate device (not shown in the figure), for example, to uniformly supply the warm air using solar heat to the fish tank 7 through the air pipe (5) during the day the boiler (9) To save energy by controlling the use of

The collecting plate 6 is formed to be inclined toward the center portion so as to form a central drainage type as shown in FIGS. 1 and 5, and an elbow 18 is provided below the center portion.

At this time, the elbow 18 is installed to face the outlet in the counterclockwise direction as shown in FIG. 4 to rotate the water of the fish tank 7 when the water is sprayed so that the water rotates in the counterclockwise direction.

The collecting plate 6 is fixed to the filtration main body 14 of the filtration member 3 so as to be positioned below the filtration net 4 and the air pipe 5.

It is preferable that the water collecting plate 6 uses a synthetic resin.

The fish tank 7 is installed to be positioned below the water collecting plate 6 as shown in FIG. 1 and is formed in a central drainage type.

The fish tank 7 is formed of a synthetic resin case or vinyl paper.

A recovery pipe 19 is installed at the center lower portion of the fish tank 7 to connect with the settling tank 8.

The sedimentation tank 8 is formed in a central drainage system so that the sludge is accumulated in the center, and forms a discharge pipe 20 for removing the accumulated sludge.

The heat dissipation pipe 21 of the boiler 9 is wound on the inner circumferential surface of the settling tank 8, and the auxiliary return pipe 22 is positioned at the inner center thereof and connected to the pump pump 10.

The upper end of the auxiliary return pipe 22 is installed slightly lower than the water surface of the fish tank (7).

On the other hand, by connecting the recovery pipe 19 to one side of the settling tank 8 as shown in FIG. 9 to rotate the water drained to the settling tank 8 to precipitate the sludge to the lower center.

Referring to the operating relationship of the present invention configured as described above, the water in the settling tank 8 is supplied to the return pipe 13 through the auxiliary return pipe 22 during operation of the pump pump 10, to the return pipe 13 The water to be supplied is supplied to the sprinkler (2).

The water supplied to the sprinkler 2 is supplied to each of the air supply pipes 11 to be ejected into the holes 12 of the air supply pipes 11, and at this time, the output of the water ejected through the holes 12 as shown in FIG. P) causes the spring cooler 2 to rotate counterclockwise as shown in FIG. 6A.

That is, as shown in FIG. 6C, when the output power P acts, the vertical component P ₁ and the horizontal component P ₂ are generated, but since the sprinkler 2 is fixed so as not to move upward, Sprinkler 2 is forced to rotate due to the action of the component force P ₂ and the sprinklers 2 are rotated by the output of the seawater ejected from the air pipe 11 installed in a "+" shape. .

At this time, the spring cooler (2) is to adjust the rotational speed of the spring cooler (2) because the component force (P ₂ ) is adjusted as the hole 12 of the air pipe 11 is angled from the vertical direction to the horizontal direction. .

Therefore, as shown in FIG. 2, the water falls into the light shielding membrane 15 of the filtration member 3 by the sprinkler 2, and the water falls while contacting the biofiltration membrane.

At this time, since the number of revolutions of the sprinkler 2 rotates six times per minute, water is intermittently jetted to the filtration member 3, so that when the supply of water to the filtration member 3 is stopped, for example, the sprinkler 2 rotates and the water is rotated. This is the same as stopping supply of seawater when the area is excessively discharged after being blown out. At this time, oxygen in the air comes into contact with the light shielding film 15 and repeatedly contacts the light shielding film 15. After anaerobic bacteria breed and after a certain period of time, excess biomass is formed and the aging colony is spontaneously separated from the light shielding film 15 by the force of water drop and falls downward.

Water falling through the filtering member 3 wets the oyster shell 16 while falling into the filter net 4, and the organic acid generated in the water reacts with the oyster shell and neutralizes it.

The water flowing down through the filter net 4 is collected into the collecting plate 6 and the water falling into the collecting plate 6 is drained into the fish tank 7 through the elbow 18.

At this time, since the elbow 18 has an outlet installed in the counterclockwise direction as shown in FIG. 4, the water ejected through the outlet rotates the water of the fish tank 7 counterclockwise by the discharge output. .

Therefore, as the water in the fish tank 7 rotates, it becomes a phenomenon such as flowing water, so that the meat can have a comfortable living environment as inhabiting the flowing water.

Sludge which is settled in the lower center of the fish tank 7 is discharged to the settling tank 8 through the recovery pipe 19.

Sludge and seawater recovered by the settling tank (8) is rotated as shown in Figure 9, when the sludge is collected toward the center and is integrated downward.

The sludge accumulated in the lower part is removed through the discharge pipe 20, which can be removed by the operator at regular intervals or removed from time to time, by installing a stopper at the outlet of the discharge pipe 20 to open the stopper only when removed.

Therefore, the clean water which floats after sedimentation of sludge in the settling tank 8 is circulated again by the above-mentioned operation.

Therefore, the water is circulated while continuously circulating through the filtration tank, the fish tank, and the sedimentation tank, so that the water quality can be maintained in a small amount of the supply channel so that the fish can be farmed.

And the boiler (9) is installed in order to keep the temperature of the fish tank (7) in the winter in a constant temperature by supplying the heat up to a constant temperature by the heat dissipation tube (21) to maintain the listed water temperature of the fish to increase the growth rate It can increase.

In addition, the air pipe (5) saves energy by heating the water flowing through the filtration member (3) by supplying warm air to the air pipe (5) using solar heat without operating the boiler (9). You can do it.

However, the air pipe 5 does not need to be used in summer and can be used at the same time in winter when the temperature decreases, and can also be used simultaneously with the boiler 9.

In this way, the fish farming device 1 of the present invention can be installed in the space of the fish tank as a prefabricated material, which is practically very practical for those engaged in fish farming, and the filtration member 3 of the present invention is fixed and The service life is semi-permanent, and the installation cost and maintenance cost are greatly saved, and when the abnormality occurs only because the sprinkler 2 is replaced, the cost is very low, and thus can greatly help aquaculture farmers.

Claims (1)

In the circulating filtration fish farm, a plurality of holes 12 are formed in four air pipes 11 formed to be inclined in the same direction at about 45 degrees in a "+" shape to form a spring cooler 2, and the spring cooler A plurality of light shielding membranes 15 are placed below the section 2 at regular intervals and installed in the filtration main body 14 to constitute the filtration member 3, and the filtration net 4 on which the oyster shell 16 is loaded, and a plurality of The air pipe (5) having a hole (17) formed in the longitudinal direction is fixed to be positioned below the filtration member (3), and a collecting plate (6) having an elbow (18) in the lower center is formed in a central drainage type. Fixed installation to be located below the filtering net 4, the spring cooler (2), filtering member (3), filtering net (4), collecting plate (6) is fixed to be exposed to the atmosphere, respectively, the collecting plate The fish tank 7 formed by the central drainage type is provided below (6), and the heat sink 21 of the boiler 9 is installed in the inner peripheral surface. Winding, the auxiliary return pipe 22 is connected to the pump pump 10 in the center, and the sedimentation tank 8 is connected to the discharge pipe 20 in the lower portion, the fish tank (7) and the sedimentation tank (8) To the return pipe 19 to rotate the water recovered in the sedimentation tank (8), the circulation cooler characterized in that it is configured by connecting the sprinkler (2) and the pump pump (10) with a return pipe (13) Overeating fish farming.