KR101950140B1 - Aeration tank for micro-bubble bioflavor - Google Patents

Abstract

The present invention provides a fish aquaculture tank for a biofloc, which comprises: a biofloc water tank main body having an upper opening surrounded by a polygonal water tank bottom and a water tank outer wall, and an inner space having biofloc breeding water and cultured fish kept therein; a central dividing wall formed at the center of the inner space in the length shorter than the length of the water tank main body, and dividing the inner space into left and right; at least one air injector disposed on the inner lateral surface of the outer wall of the water tank and spraying breeding water so as to form water stream of the biofloc breeding water; fine air supply units disposed on side surfaces of the central dividing wall while surrounding a side surface portion; and at least one water stream forming frame disposed on an upper portion of the fine air supply units. Accordingly, circulation efficiency can be further enhanced compared to that of injection performed by a conventional air injector, and water stream can be formed by supplying breeding water to the water tank at the generally uniform water pressure.

Description

{Circulation type bioflavonery aquarium using fine bubble}

The present invention relates to a biofloat-style aquarium, wherein a water-jet forming frame using an air injector and fine bubbles is installed in a water tank with a central partition wall to form a water stream in a water tank, The present invention relates to a recirculating aquaculture tank for microbubbles using microbubbles capable of increasing the circulation efficiency of breeding water by using low-energy energy.

A farm is a place for raising various useful creatures in an artificially created tank. Generally, farms installed on the land are made into various types of water tanks in accordance with the growth characteristics of the creatures in order to grow various kinds of living things.

Unlike the sea cage farms, onshore farms accumulate pollutants such as excreta, feed debris, and dead bodies in a limited tank size and breeding capacity. Unless the artificial pollutants such as ammonia accumulated in land farms are removed or returned to clean water, the water quality of farms deteriorates with time.

In particular, when the water quality deteriorates, ammonia or hydrogen sulfide is generated in the summer when the water temperature is high, and not only the bad odor is generated but also viruses and pathogenic microorganisms are proliferated and the lethal amount is increased. Antibiotics may be added to farms to increase viral resistance, but the aquatic products to which antibiotics have been administered due to residual antibiotic problems can be harmful to the human body when used as food.

Ammonia and other pollutants are removed from breeding water as a representative method. However, when organic wastewater and diseased wastewater are discharged into a large amount of environment during the water exchange, it is difficult to continue the aquaculture operation due to the occurrence of the red tide, the occurrence of diseases and the destruction of the ecosystem. In recent years, water has been introduced into the water treatment tank to remove feces, sediments, and particulate matter by filtration, remove ammonia and other contaminants from the biological treatment tank, However, the use of water treatment facilities is limited due to the high cost of facility, operation, and site acquisition.

In order to overcome such a problem, a method of cultivating biofloc using non-water-based microorganisms has recently been popularized. Unlike conventional circulation filtration methods, BioFlag does not remove particulate matter such as feed residue, excrements, microorganisms, microalgae, etc., which are generated during the rearing process of aquaculture without water treatment facilities, As one of the ecological methods of farming, micro-algae plays a role of the primary producer, zooplankton plays the role of the primary consumer, and aquaculture is the final predator. Thus, ammonia, nitrite, nitrate and organic matter Is an eco-friendly aquaculture technology that converts microorganisms into amino acids and low-molecular proteins, converts them into new organic compounds through biosynthesis, and cleanses the water and at the same time, feeds the aquatic organisms with food.

When cultivated using this method, the breeding water does not need to return water if the microbial circulation ecosystem is created through water production at the early stage of the culture, so that it is helpful to improve the environment, and energy necessary for return, energy required for heating, Feed loss can be greatly reduced, the inflow of viruses and disease bacteria from outside can be restricted, natural immunity by microorganisms can be strengthened, and the mortality rate can be reduced. In addition, ultra-high density culture can be performed in a limited space, Up to 50 times higher productivity can be achieved. One of the important points in the implementation of this method is the structure of the breeding tank and it is important to stir the breeding water so that microorganisms in the breeding water can decompose surplus organic matter and pollutants. Therefore, it is necessary to have a large amount of dissolved oxygen supply function, and it is essential to have a rotating function for allowing the feeding water to rotate in one direction.

Biofloat sludge is one of the most important factors in bioproduct culture in terms of maintaining microfluidic ecosystem and maintaining the system. These solid sludges, which are mainly composed of photosynthetic bacteria, attached algae, tagatophobacteria, phytoplankton, zooplankton, copepods, nematodes, and other debris, are dispersed in raising water and form solid lumps as their density increases. . These biofloat solid sludge are degraded by biofloat microorganisms over time and are reduced to breeding water, but some of them are entangled to each other in the breeding water to form a lump, which adversely affects the culture process .

When such solid sludge is deposited on the floor, the deposited microorganisms are decayed and the concentration of dissolved oxygen is lowered, harmful substances such as ammonia are formed, and the pH is changed. . Therefore, it is necessary to disperse the solid sludge so as not to be excessively removed or agglomerated in the bioflag water tank.

Korean Patent No. 10-1479840 discloses a cultivation aquarium for a bioflav system in which a breeding water injection pipe is formed, and Korean Patent No. 10-1508055 discloses a bioflavonable multi-culture aquarium using biological skimmers But the present invention is not limited thereto.

A biofloack water tank main body having an upper opening formed in a shape of a polygonal water tank and an outer wall of the water tank, the biofloack water tank being provided with an inner space in which food items are stored; A central partition wall having a length shorter than the length of the water tank body is provided at the center of the inner space to partition the left and right inner spaces; Wherein at least one air injector for spraying the breeding water is provided on the inner surface of the outer wall of the water tank so as to form a water stream of biofloat breeding water; The fine air supply portion is provided on the side surface of the central partition wall so as to surround the side portion and at least one water flow forming frame is installed above the fine air supply portion.

Korean Patent Registration No. 10-1508055 discloses a water tub main body having a bottom portion having an open top and a predetermined area and a polygonal outer wall of a water tank; A water tank having a bottom and a polygonal outer wall having an open top and a predetermined area, The breeding water supply pipe is connected to the water tank body starting from the house collection; The breeding water discharged from the water tank body is connected to the water tank and the drain pipe; And the breeding water discharged from the auxiliary tank is connected to a collection pipe and a plurality of pipes. Korean Patent No. 10-1479840 relates to a culture water tank for a biofloat system in which a water flow pipe for circulating breeding water in a water tank is formed and is composed of a round water tank composed of a bottom portion and a water tank outer wall, An air stone for spraying air to the center of the water tank and an underwater pump on one side in the circular water tank are formed so as to be able to supply water for breeding to a water flow pipe, The use pipe includes an inner circular pipe formed inside an outer circular pipe, an inner circular pipe and an outer circular pipe connected to each other by a plurality of linear pipes, and an inner circular pipe formed with a straight pipe in a cross shape. . Korean Patent No. 10-1580435 discloses a water tank having a floor and an outer wall having a predetermined area and capable of accommodating water for breeding, a water tank provided inside the water tank for supplying air to the water for breeding, Ventilate, which forms a water stream in the direction of the aquaculture tank, is formed on the side of the bottom of the aquaculture tank so that it can collect the solid sludge in the aquaculture water. And a pump for discharging the solid sludge collected in the trap to the outside of the aquaculture tank. The apparatus for controlling sludge in a biofloat system-style water tank using the trap, Biofracture using a trap that can easily remove excess solid sludge produced It discloses with respect to the sludge in the system control unit forms a water bath. Korean Patent No. 10-1761025 discloses a biofloat aquarium having a floor and an outer wall of a certain size and capable of accommodating breeding water and aquatic organisms, and is formed at a height of 1/3 to 1/2 of the height of aquaculture tank An air injector for supplying air to the breeding water in an inclined manner on the bottom surface of the aquaculture tanks, and a pump for supplying air to the air injector formed outside the aquaculture water tank. Discloses a BioFlag system in which an injector is formed.

In order to prevent sedimentation of organic matter in the breeding water generated in a farm where the biofloat technology is applied, a water-forming frame using fine bubbles is installed on the central partition wall of the aquarium so as to circulate the breeding water evenly in the water tank So that a water tank can be formed in the water tank.

The bioflavonable aquarium of the present invention comprises a biofloack water tank main body having a polygonal water tank bottom and a water tank outer wall in an upper opening formed therein, the biofloack water tank having an internal space for breeding aquatic organisms; A central partition wall having a length shorter than the length of the water tank body is provided at the center of the inner space to partition the left and right inner spaces; Wherein at least one air injector for spraying the breeding water is provided on the inner surface of the outer wall of the water tank so as to form a water stream of biofloat breeding water; On both sides of the central partition wall, a fine air supply part is installed to surround the side part, and at least one water flow forming frame is installed on the fine air supply part.

A biofloack water tank main body having an upper opening formed in a shape of a polygonal water tank and an outer wall of the water tank, the biofloack water tank being provided with an inner space in which food items are stored; A central partition wall having a length shorter than the length of the water tub is provided at the center of the water tub to divide the left and right internal spaces to form a water channel; A fine air supply part for spraying fine air is formed on the lower part of the inner side wall of the water tank and the lower side of the central part of the center partition wall, Installed.

 The water flow forming frame may be a semicircular pipe frame having a cylindrical pipe cut vertically, and the concave surface may be provided so as to face downward and be inclined toward the bottom surface of the water tank and the upper surface of the water surface.

The jet direction of the air injector installed in the breeding tanks of the present invention is injected in a predetermined direction inside the water tank so as to rotate around the center partition wall, the fine air supply portion of the central partition wall is formed in the bottom of the water tank, At least one ball is installed and fine air is injected from the injection hole to rise in the direction of the water surface.

The air injector of the present invention increases the dissolved oxygen concentration in the raffinate water and forms a water stream to prevent the microbes and the organic lumps contained in the biofloat raffinate from precipitating on the bottom of the water tank, The aeration function can be promoted and the sludge floating can be promoted. In addition, the water flow formed from the air injector and the water-jet forming frame increases the circulation efficiency as compared with the injection of the air injector installed in the prior art, saves energy, and has an effect of forming a water stream at a uniform water pressure have.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic view showing a flow of breeding water by operation of the fine air supply unit and the air injector of the present invention. FIG.
2 shows a perspective view of a water tank for biofloat cultivation of the present invention.
3 shows an air injector of the present invention.
4 shows a photo of a bioflavon farm where an air injector is installed.
Fig. 5 shows a central partition wall of the water tank for bioflavonery production according to the present invention.
Figure 6 shows a photograph of the fine air supply of the present invention.
7 shows the upper fixing device 51 of the water jet forming frame of the present invention.
8 shows the lower fixed state of the water jet forming frame of the present invention.

The water bath for bioflavonery production according to the present invention will now be described in detail with reference to the accompanying drawings. The bioflocculating water contained in the water tank according to the present invention preferably contains heterotrophic bacteria and autotrophic bacteria (autotrophic bacteria) together with cultured fish species BioFloc Technology (BFT), which is able to decompose organic by-products harmful to cultured fish such as ammonia in the breeding aquaculture and convert it into food that can be consumed by the aquaculture, and to purify the breeding water, Quot;

Biofrock breeding water not only produces nutrients but also eliminates ammonia nitrogen and functions as a water purification facility, thus eliminating the need for rehydration or filtration in the aquaculture process. Bioprock technology is faster than algae degradation, It is possible to decompose the organic matter at a high speed and to maintain the water quality suitable for culture.

Biofrok cultivation technology is able to control the virus infection, etc. by making a closed breeding system that can prevent the inflow of viruses, pathogens and parasites, etc. through the exchange of water during the aquaculture process, and the use of antibiotics It can be dramatically reduced. It is also possible to produce aquaculture regardless of the season, because the aquaculture facility can control the environmental conditions and cultivate the aquaculture.

FIG. 1 is a schematic view showing the flow of water for breeding by operation of the fine air supply unit 40 and the air injector 30 of the present invention. The water tank of the present invention can be divided into a main aquarium and an intermediate aquarium according to the location and number of the fine air supply unit 40 and the water flow forming frame 50.

A left side view shows a water tank in which a water flow forming frame 50 is provided in all portions of the water tank central partition wall and left and right side portions and a right side view shows a water tank in which a water flow forming frame 50 is provided only in the water tank middle partition wall. The left figure is suitable for the growth of the undergrowth mainly for the intermediate breeding since the flow of the stream of water is slow and rotating, and the right figure shows a shape suitable for this post-titration step since the flow of water is relatively fast.

The water flow formed by the injection of the air injector (30) formed on both walls of the water tank used in this style generates water flow by hydraulic injection in the direction of the central oblique direction from the edge of the water tank and becomes closer to the central partition wall from the water tank wall, The strength weakens. The farther away from both sides of the water tank the smaller the influence of the flow of water flow, and the biofloat organic matter can settle out at weak water pressure. When the injection water pressure of the air injector 30 is increased to an appropriate pressure or more to prevent precipitation of organic matter, not only the energy cost is increased but also the stress of the aquatic organism in the water tank may be increased due to the rapid water flow.

Therefore, in the present invention, the water flow forming frame 50 is formed in the water tank central partition wall where the influence of the water flow generated from the air injector is reduced, and the rising force of the fine air injected from the fine air supplying unit 40 is transmitted to the fine air supplying unit 40 A water flow is generated as fine air is raised in the direction of formation of the inclination so as to strike the water flow forming frame provided in the upper portion in the inclined direction and the water flow flowing from the jetting water pressure of the air injector is pushed in the straight- Thereby making it possible to uniformly form the flow of the breeding water accommodated in the breeding water.

In order to supply the water to the air injector 30, a 3-horsepower pump is used on one side of the water tank median separator. Therefore, when the air injector 30 is used on the right and left walls of the water tank and on the left and right walls of the median separator, Equipments of horsepower and power energy are consumed. However, in the case of the water flow forming frame 50, since a 2.3-horsepower pump is used as the left and right sets, in the case of the intermediate positive water tank, a 2.3-horsepower pump is installed on both sides of the center separator. . In the case of the aquaculture tank, since a pump of 2.3 horsepower is installed on both sides of the median separator, a pump of 8.3 horsepower is required. Therefore, when the water jet forming frame 50 of the present invention is used, Energy savings of 31% to 64% can be expected.

Figure 2 shows a perspective view of the aquaculture water tank for bioflux of the present invention. The bioflo remachine water tank includes a biofloack water tank main body 10 having a polygonal water tank bottom and a water tank outer wall in an upper opening formed therein and having biofloat breeding water and an internal space for breeding aquaculture; At the center of the inner space, a central partition wall 20 is formed to have a length shorter than the length of the water tank body to define left and right inner spaces to form a water channel.

The central partition wall is formed as a wall-shaped frame having a width and a length shorter than the length of the bioflo water tank body, and is formed at the same height as the outer wall of the water tank. As a result, the inner space of the water tank body is divided into left and right inner spaces around the central partition wall, and the water can be rotated around the central partition wall by the operation of the air injector.

At least one air injector (30) is installed on the inner surface of the outer wall of the water tank for spraying the breeding water so that a water flow can be formed around the central partition wall as bioflocculation water. In the side wall of the central partition wall, a fine air supply unit 40 is formed horizontally so as to surround the side of the central partition wall in the bottom of the water tank, and a water flow forming frame 50 is installed in an oblique direction on both sides of the central partition wall.

3 shows an air injector of the present invention. A breeding water supply pipe is installed surrounding the inner wall of the water tank, and at least one air injector is connected to the breeding water supply pipe at a predetermined interval. High-concentration oxygen dissolved water is supplied to the breeding water supply pipe. The air injector 30 connected to the breeding water supply pipe injects the breeding water of a high oxygen concentration at a set water pressure.

By increasing the concentration of dissolved oxygen in the breeding water by spraying the high concentration of dissolved oxygen breeding water, it is possible to prevent the degradation of the biofloack function by precipitating the microorganism and organic matter mass contained in the biofloat breeding water to the bottom of the water tank, At the same time, aeration effect can be promoted and sludge floating can be promoted.

4 shows a photo of a bioflavon farm where an air injector is installed. The air injector may be of a venturi type and may be formed so that the spray angle is adjustable such that the spray direction is horizontal with respect to the water tank wall, or the water supply wall and the breeding water supply pipe form an angle of 10 to 45 degrees. The injection angle of the air injector is set so that a water flow capable of rotating in one direction around the central partition wall as a whole is formed. In one embodiment, the injection direction of the air injector provided on one side and the injection direction of the air injector provided on the other side are set to be opposite to each other in order to rotate the water flow.

Fig. 5 shows a water jet forming frame and a fine air supplying portion of the present invention, and Fig. 6 shows a water jet forming frame and a fine air supplying portion photograph of the present invention. The water flow forming frame is a semicircular pipe frame with a cylindrical pipe cut vertically. The concave surface faces the lower part of the tank bottom, and the convex round surface faces the water surface and has a predetermined inclination from the bottom surface to the water surface.

The left and right side portions of the water flow forming frame are connected to the side of the central partition wall via a fixing device. The water in the water tank is supplied to the water tank to form a water depth at which the upper part of the water flow forming frame can be seen. The fine air supply part (40) is installed to surround the bottom part of the side wall of the central partition wall. At least one injection hole is formed on the upper side of the fine air supplying part so that fine air is injected toward the upper part.

The fine air injected to the upper portion is raised to the water surface by the buoyancy force and collected into the inclined concave portion of the water flow forming frame. The fine air gathered in the inclined recesses are combined with each other to increase the buoyancy and push up the water flow along the inclined recesses to the water surface, thereby pushing the water near the wall surface forward.

Fig. 7 shows the upper fixing device 51 of the water jet forming frame of the present invention, and Fig. 8 shows the lower fixed state of the water jet forming frame of the present invention. The water jet forming frame securing device assists in securing the water jet forming frame and the central partition wall while adjusting and fixing the inclination angle so that the water jet forming frame forms an inclination toward the upper side.

The water jet forming frame is installed above the fine air supply part. The water jet forming frame is installed so as to form a bottom portion and an inclination toward the upper portion. The mounting gradient of the water jet forming frame is formed to increase along the jetting direction of the air injector provided facing each other. In the present invention, the water jet forming frame fixing device is formed so as to be able to be fitted and fixed to the fixing part in an annular shape, but it is possible to form the groove in the central partition wall so as to receive the water flow forming frame side,

The lower part of the water flow forming frame can also be formed by attaching a stone plate having a predetermined inclination to the central partition wall, cutting the lower part of the water flow forming frame and inserting it into the stone plate. The inclination of the water jet forming frame can be adjusted due to the change of the angle of the stone plate formed with inclination on the water supply wall. According to the inclination angle, it is possible to control the water flow pressure formed in the water flow forming frame.

In one embodiment, when the gradient of the water flow forming frame is gently formed, the fine air injected from the fine air supply portion simultaneously hits the inner side surface of the concave portion of the water flow forming frame to rise to the water surface with a gentle slope, Will slow down. On the contrary, when the gradient of water flow forming frame is formed abruptly, fine air strikes the inner bottom surface of the concave portion of the water flow forming frame, and bubbles rising to the water surface through rapid inclination move rapidly, Water flow can be formed.

As described above, according to the present invention, circulation efficiency can be increased as compared with injection of an air injector, which is installed in the air injector and the water jet forming frame, and the water pressure is uniformly applied throughout the water tank.

The biofloat technology is a future-oriented aquaculture technology capable of producing environmentally friendly and highly efficient aquaculture. The present invention provides a biofloat technology aquaculture tank, thereby promoting the spread of bioflavon farms by fishermen, It is likely to be used industrially as it is oriented toward industrial development.

Claims (3)

A biofloack water tank main body having an upper opening formed in a shape of a polygonal water tank and an outer wall of the water tank, the biofloack water tank being provided with an inner space in which food items are stored; In the center of the water tank, a central partition wall formed to a length shorter than the water tank body length is provided to divide the left and right inner spaces to form a water channel. In order to form a biofloack water stream on the inner side of the water tank outer wall, A water tank for biofabric cultivation in which a plurality of air injectors for spraying are installed at regular intervals,
A plurality of microfluid generating frames formed on the lower side of both sides of the central partition wall to surround the lower side of both sides of the central partition wall; Wherein the water jet forming frame is a semicircular pipe frame having a cylindrical pipe cut vertically, the concave surface facing downward and having a predetermined inclination toward the bottom of the water tank and the water surface;
The lower portion of both side surfaces of the central partition wall and the upper portion of the fine air supply portion are attached with a stone plate having a predetermined inclination so that the lower portion of the water flow forming frame is cut and inserted into the stone plate to be mounted thereon. Forming frame fixing grooves are formed on both side surfaces of the central partition wall to accommodate the protruding surfaces of the upper fixing device 51 and can be fitted or slidably fixed to the upper and lower fixing devices 51, Wherein the inclination of the water flow forming frame is adjustable according to the length of the holding device (51)
A biofloack water tank main body having an upper opening formed in a shape of a polygonal water tank and an outer wall of the water tank, the biofloack water tank being provided with an inner space in which food items are stored; A water tank for bioflavicultural culture comprising a central partition wall formed at a center of a water tank body and having a length shorter than the length of the water tank body to define a left and right inner space to form a water channel,
A fine air supply unit for spraying fine air is formed on the lower portion of the inner side wall of the water tank and the lower side of both side walls of the central partition wall, and a plurality of water flow forming frames are installed on the upper portion of the fine air supply unit; Wherein the water jet forming frame is a semicircular pipe frame having a cylindrical pipe cut vertically, the concave surface facing downward and having a predetermined inclination toward the bottom of the water tank and the water surface;
A stone plate having a predetermined inclination is attached and formed on the inner surface of the outer wall of the water tub, the lower side of both sides of the central partition wall, and the upper portion of the fine air supply unit, the lower part of the water flow forming frame is cut and inserted into the stone plate, The upper fixing device 51 having a protruding surface of a predetermined length outside the cylindrical pipe is formed and both side surfaces of the outer wall of the water tank and the both side surfaces of the central partition wall are provided with projecting surfaces of the upper fixing device 51, Wherein the water flow forming frame fixing groove is provided so that the inclination of the water flow forming frame can be adjusted according to the storing length of the upper fixing device 51. [ delete

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