KR101621260B1 - Water purifying apparatus for factory type aquaculture - Google Patents

Abstract

A system for exchanging water for farming used in a factory aquafarm in accordance with an embodiment of the present invention, with respect to a biofloc type factory aquafarm having a plurality of farming tanks, comprises: farming tanks prepared in the shape of a cylinder; farm water suction ports formed in the side wall of the farming tanks and spaced from the bottom surface of the farming tanks by a height (h1) lower than 50% of a depth of the farming tanks; a precipitation tank receiving water for farming from the farming tanks and primarily settling the water for farming; a filtration tank receiving the relatively clean water in an upper part of the precipitation tank due to the precipitation of residual products and secondarily settling the water for farming; a first channel having one end connected to the farm water suction ports and the other end connected to the precipitation tank so as to supply the water for farming in the farm tanks to the precipitation tank; a second channel having one end connected to the precipitation tank and the other end connected to the filtration tank so as to supply the water for farming, of which the residual products has been primarily settled in the precipitation tank, to the filtration tank; and a third channel having one end arranged in water adjacent to the surface of the water in the filtration tank and the other end arranged in the upper part of the farming tanks from which the water for farming is blown down so as to supply the filtered water for farming to the farming tanks.

Description

[0001] The present invention relates to a water purifying apparatus for factory type aquaculture,

More particularly, the present invention relates to aquaculture water exchange system capable of improving water quality of aquaculture water of a plurality of aquaculture sites.

Due to the increased pollution of the environment, there is a great deal of risk in culturing fish on the coast. Along with the effects of algae and climate change, as well as human oil leaks and radioactive contamination, coastal cage farming no longer provides safe food to consumers.

Recently, aquatic fish farming methods have been developed in which fish are cultivated in various ways inland, not coastal. In such an inland farm, an air lift device is used to provide oxygen to the water in the fish 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, in the case of inland cultivation, circulation filtration for circulating and flowing out the aquaculture water and circulating the aquaculture water used for the aquaculture water to be used in the aquaculture site has been used. However, recently, And methods of culturing fish without the addition of antibiotics.

However, even after a certain period of time in biofloat type inland farms, it is necessary to remove sediments such as feedstuffs contained in the aquaculture water and feces of fish such as colorless and odorless sediments decomposed by microorganisms. However, in order to remove sediments from farms, it is necessary to remove all the water inside the farm and then remove the sediments that have settled on the ground with shovels or forklines.

Korean Patent Publication No. 10-2014-0061588 (published on May 22, 2014)

SUMMARY OF THE INVENTION The present invention has been made in view of the above-mentioned problems, and it is an object of the present invention to provide aquaculture water exchange system of a factory-type aquaculture system in which structure is improved so that fish can be normally cultured.

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 aquaculture water exchange system of the factory type aquaculture system according to the present embodiment is a bioflare type aquaculture aquarium having a plurality of aquaculture water tanks, the aquaculture tank having a cylindrical shape; A culture water intake port formed on a sidewall of the aquarium and separated from a bottom surface of the aquarium by a height h1 of less than 50% of the depth of the aquarium; A settling water tank for receiving the aquaculture water of the aquaculture tank and primarily precipitating the aquaculture water; A filtration water tank in which by-products are settled in the settling water tank, and is supplied with relatively clean aquaculture water rising on the upper side to precipitate secondary aquaculture water; A first channel connected to the aquaculture water intake port at one end and connected to the settling water tank for supplying cultured water in the aquaculture tank to the settling water tank; A second channel connected to the settling water tank at one end and connected to the filtrate water tank to supply the aqua regenerated water having primary byproducts deposited in the settling water tank to the filtered water tank; And a third flow path disposed in the water closest to the water surface of the filtering water tank and the other end disposed on the upper side of the aquaculture water from which the aquaculture water is taken out and supplying filtered aquaculture water to the aquaculture water tank.

The first to third pumps may be provided with first to third pump units, respectively.

The first flow path may be provided for each of a plurality of aquariums, and may be merged into a single one at the front end of the first pump unit.

The second flow path may be arranged such that the suction port for sucking the aquaculture water settled by-products in the settling water tank faces the water surface.

Each of the settling water tank and the filtrate water tank may be provided one by one.

The settling water tank and the filtering water tank may have a volume larger than the capacity of the aquaculture water of the aquaculture tank.

Only one of the third flow paths is provided, and the exchange of the aquaculture water can be connected to the aquaculture tank in progress.

According to the present embodiment as described above, it is possible to more easily perform the floatation of the biofloat type factory-type aquaculture comprising a plurality of the aquarium water tanks, and to continue the fish species normally even in the water tank, The water quality of the aquaculture water can be improved without the hassle of moving the internal fish to another aquarium.

In addition, the by-product of the colorless and odorless gel (GEL) state in which the microorganisms are decomposed by the feed and excrement residue generated only in Biofrag farm can be easily removed from the aquaculture tank, and the by-product can be easily taken out through the settling water tank .

In addition, after aquaculture water is filtered sequentially through a settling tank and a filtration tank, the aquaculture water containing the relatively clean microorganisms collected at the upper side after the by-product sinks is supplied to the aquaculture tank again, Can be carried out in a minimized manner, thereby preventing the fish from being killed during the watering process.

In addition, when the present invention is applied to a factory farm comprising a plurality of aquaculture tanks, the settling tank and the filtrate tank can be used jointly, and the piping system can be connected to the aquaculture tank requiring only watering, thereby minimizing the facility cost.

1 is a view showing an example of a factory-type aquaculture farm according to the present embodiment,
FIG. 2 is a schematic view of a fresh water exchange system of a factory farm in accordance with the present embodiment,
3 and 4 are views showing a process of removing the aquaculture water from the aquarium according to the present embodiment,
FIG. 5 is a view schematically showing the structure of the aquaculture water exchange system of a factory farm in accordance with the present embodiment.

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. For reference, the farm according to this embodiment means an inland farm using Biofloc.

FIG. 1 is a view showing an example of a factory-type aquaculture site according to the present embodiment, FIG. 2 is a view schematically showing a fresh water exchange system of a factory-type aquarium according to the present embodiment, and FIGS. And FIG. 5 is a view schematically showing the structure of the aquaculture water exchange system of a factory type farm in accordance with the present embodiment.

As shown in FIG. 1, a factory-type farm in accordance with the present embodiment can be configured such that a plurality of cylindrical cultivation basins 10 are uniformly arranged on a foundation 1 of a farm. At this time, the base 1 may be provided as a permanent structure using cement or concrete, and a first flow path 110 and a first pump P1, which will be described later, may be installed therein. On the other hand, on the base 1, a working base 2 in which yellow stones, cement, etc. are mixed at a certain ratio can be formed. The operation base 2 may be configured so as to surround all the circumferential surfaces of the aquarium 10 so that the upper surface of the aquarium 10 is located below the operator's feet. With this configuration, the operator can more easily perform various operations for the fish culture in the aquarium 10, such as feeding of the feed, harvesting of the fish, and maintenance of the air lift.

FIG. 2 is a view schematically showing the aquaculture water exchange system of the aquaculture tank 10 of the factory-type aquaculture system constructed as described above.

The aquarium water exchange system according to the present embodiment includes a culture water intake port 111, a settling water tank 120, a filtration water tank 130, a first flow path 110, a second flow path 125, a third flow path 140, . ≪ / RTI >

The first channel 110 is connected to the sidewall of the aquarium 10 to discharge the aquaculture water W1 before filtration to the outside of the aquarium 10. A circulation flow passage 11 for circulating the aquaculture water W1 may be installed near the center of the bottom of the aquarium 10 with the filtering means 12 interposed therebetween. The aquarium water W1 sucked through the circulation channel 11 is supplied with oxygen-containing air through the air lift unit 13 and is configured to be rotatable inside the aquarium 10 to be biofractured .

According to the present embodiment, the air lift unit 13 can always be provided with a structure capable of applying rotational force to the aquaculture water W1 irrespective of a change in the water level of the aquaculture water W1. For this purpose, W1, as well as in the water.

The aquaculture water intake port 111 may be formed on the side wall of the aquaculture water tank 10. The aquaculture water intake port 111 may be disposed at a predetermined height h1 from the bottom surface of the aquarium 10 as shown in Fig. According to the present embodiment, the height h1 may be set not to exceed 50% of the depth of the aquarium 10. Accordingly, the aquaculture water W1 in the aquarium 10 can be replaced by about 30% to 40% of the aquaculture water, so that the fish in the aquaculture can not feel the environment change.

The settling water tank 120 receives the aqua regeneration water W1 from the aquaculture tank and primarily precipitates the aqua regeneration water W1 so that the by-product S, such as sludge, . The settling water tank 120 may have a volume larger than that of the aquaculture tank 10 so that at least one aquaculture water of the aquaculture tank 10 may be received to effectively deposit a byproduct S such as sludge. In the case of aquaculture water used in bioflavon farms, by-products such as sludge are mixed with the aquaculture water and remain cloudy when receiving the rotational force using the air lift unit. However, if the gentle state is maintained for 1 to 3 minutes without receiving the torque, byproducts (S) such as sludge are precipitated very quickly and separated into relatively clean aquaculture water and byproduct (S) .

According to the present embodiment, the settling water tank 120 may be installed outside the factory-type farm, or may be installed inside the factory farmhouse. Also, the settling water tank 120 may be buried in the ground, or may be provided as a separate structure on the ground. Although not shown, the settling water tank 120 may be configured as a cover that can be opened and closed at an upper portion, and if the by-product S such as sludge having a predetermined height or higher sinks, it may be removed using a heavy equipment or the like. However, the present invention is not limited to this, but it is possible to construct the robot so that the robot can be directly inserted into the robot, and can be mechanically removed using a robot arm and a crane.

The filtration water tank 130 receives the primary aqua regeneration water W2 from the sedimentation water tank 120 and sinks the byproduct S such as sludge once again to form the cleanest aquaculture water W3 as much as possible . The aquaculture water W3 may be supplied to the aquarium 10 again via a third channel 140 to be described later.

The first channel 110 may be connected to the aquaculture water inlet port 111 at one end and the aquaculture water discharge port 112 may be connected to the settling water tank 120 at the other end. 3 and 4, the first flow path 110 can discharge the cultivation water W1 of the aquarium 10 to the settling water tank 120 by discharging approximately one-half of the cultivation water W1. 1, the first flow path 110 is constituted for each of a plurality of the aquaria 10, and may be configured to be merged at a front end of the first pump P1, which will be described later.

2, the second flow path 125 is connected to the settling water tank 120 at one end and connected to the filtration water tank 130 at the other end, W2 to the filtration water tank 130 side. At this time, a second pump P2 is installed in the second flow path 125, and the aquaculture water W2 is transferred from the settling water tank 120 to the filtration water tank 130 using the power of the second pump P2 can do. However, the present invention is not limited thereto, and only the second flow path 125 may be installed without any additional power, and the first filtered wastewater W2, in which the byproduct S, such as sludge naturally floated on the upper side, To the filtration water tank 130 side.

In addition, the suction port 125a of the second flow path 125 may be disposed in a direction toward the water surface of the settling water tank 120. This is to prevent the byproduct S such as sludge that sinks on the bottom surface of the settling water tank 120 from flowing through the second flow path 125 as much as possible.

The third flow path 140 allows the inlet side 141 to be disposed in the water close to the water surface of the filtration water tank 130 so that the uppermost filtered water W3 can be supplied, Can supply the aquaculture water W3 through the opening provided on the upper side of the aquarium 10. At this time, a third pump (P3) is installed in the third flow path (140) to supply the filtered cultivation wastewater (W3) of the filtration water tank (130).

In addition, only one third flow path 140 is provided, and thus it can be used for a plurality of the aquariums 10. 5, in the factory farm P, a plurality of aquaculture tanks 10 are respectively formed to have a first flow path 110, and the first flow path 110 ) Can be merged.

The settling water tank 120 and the filtration water tank 130 are configured to have a relatively large volume as compared with the aquaculture water tanks 10 and are provided one by one so that one water tank 10 (W1) can be sequentially managed and replaced.

According to the present embodiment as described above, it is possible to more easily perform the floatation of the biofloat type factory-type aquarium comprising a plurality of the aquarium water tanks 10, The water quality of the aquaculture water can be improved without the hassle of moving the fish in the aquaculture tank 10 to another aquarium.

In addition, the byproduct (S) such as sludge in the state of colorless odorless gel (GEL) in which the microorganisms are decomposed by the feed and excrement residue generated only in the bioflag farm can be easily removed from the aquarium 10, It can be easily taken out through the settling water tank 120.

After the aquaculture water is filtered sequentially through the settling water tank 120 and the filtration water tank 130, the aquarium water containing the relatively clean microorganisms collected at the upper side after the by-product S sinks is re- Therefore, it is possible to carry out the culture in a state in which the change of the culture environment of the fish is minimized, thereby preventing the fish from being killed during the watering process.

In addition, when the present invention is applied to a factory-type farm comprising a plurality of the aquaria 10, the settling water tank 120 and the filtration water tank 130 are shared, and only the third flow path 140 for supplying the filtered aqua- It is only necessary to connect the water tank 10 to the water tank 10, so that the facility cost can be minimized.

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.

One; Base 2; Operation base
10; Aquaculture tank 110; The first euros
111; A fresh water intake port 112; Aquaculture water discharge port
120; Sedimentation tank 125; The second euros
125a; Suction port 130; Filtration tank
140; Third Euro

Claims (7)

In a biofloat type factory farm having a plurality of aquaculture tanks,
Aquaculture tanks provided in a cylindrical shape;
A settling tank for receiving the aquaculture water of the aquaculture tanks and primarily for aquaculture water;
A culture water intake port connected at one end to the aquaculture water tank and spaced apart from a bottom surface of the aquaculture water tank by a height h1 of less than 50% of the depth of the aquaculture water tank and a culture water intake port formed at the other end of the aquaculture water tank, A first flow path including a water discharge port;
A filtration water tank in which by-products are settled in the settling water tank, and is supplied with relatively clean aquaculture water rising on the upper side to precipitate secondary aquaculture water;
A second channel connected to the settling water tank at one end and connected to the filtrate water tank to supply the aqua regenerated water having primary byproducts deposited in the settling water tank to the filtered water tank; And
And a third flow path which is disposed on the upper side of the aquaculture tank from which the aquaculture water is taken out and supplies the filtered aquaculture water to the aquaculture water tank,
Wherein the settling water tank includes a cover that is opened and closed to remove the by-product when the by-product, such as sludge, sinks,
Wherein the settling water tank and the filtering water tank are used in common, and the third flow path for supplying the filtered aquaculture water is connected to the aquarium water tank,
First to third pump units are respectively installed in the first to third flow paths,
Wherein the first flow path is provided for each of a plurality of aquariums and is merged into a single one at the front end of the first pump unit,
Wherein the settling water tank and the filtered water tank have a volume larger than that of the aquaculture water in the aquaculture tank,
The aquaculture water tank is formed on a foundation and is formed by mixing yellow soil and cement, and is formed in a working base surrounding the aquaculture water tank.
delete delete The apparatus according to claim 1,
Wherein a suction port for sucking the aquaculture water settled in the settling water tank is disposed to face the water surface.
The method according to claim 1,
Wherein the settling water tank and the filtrate water tank are provided one by one, respectively.
delete The apparatus according to claim 1,
Aquaculture water exchange system for factory farms where only one is provided and connected to the aquaculture tank where the exchange of aquaculture water is in progress.

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