KR20170062680A - Apparatus for removing floated sludge of biofloc - Google Patents

Abstract

The present invention relates to a method for collecting floating sludge which is floated on a surface of a breeding water during a biofloat culturing process and re-introducing the floated sludge into the aquaculture tank by air lifting the floating water moved together with the floating sludge during the collection process The bioflocculation system for bioflavonable water, which is easy to manage, is provided.

Description

FIELD OF THE INVENTION [0001] The present invention relates to an apparatus for removing flooded sludge from a biofloack,

The present invention relates to an apparatus capable of removing floating matters floating on a surface of a breeding water in a culture water tank in which a biofloat is formed, more particularly, The sludge is jetted at a predetermined angle to discharge the sludge to the sludge outlet formed in the sidewall of the aquarium so that the biofloat floating sludge having a high added value can be reused through the feeding water inflow device installed in the floating sludge collecting device Removing device.

Biofloc technology (BFT) is a process in which heterotrophic bacterium cultivates heterotrophic bacteria and aquaculture species and decomposes organic byproducts in the aquarium water 10 to 100 times faster than algae to purify the water, Is a new concept of eco-friendly aquaculture technology that does not require water exchange and water treatment filtration because it is a protein feed to aquaculture species.

First, it adds molasses, flour, tapioca or other inexpensive carbon-based materials to the growing stock of nitrate types. When the carbon percentage of the breeding water increases, the heterotrophic bacterium produces the protein with nitrogen as the nutrient, and the cultured organism uses such protein as a food source.

As the biomass grows and the organic matter increases, the heterotrophic bacterium undergoes nitrification process to decompose the organic matter, so that the non-rehydratable system zero water exchange system can maintain stable water quality.

Therefore, the bioflavonoid has a function of purifying natural water through environment-friendly microorganisms. Therefore, it is possible to use eco-friendly culture that can be continuously used without releasing the water and to utilize natural proteins and amino acids produced by microorganisms as food Therefore, there is an advantage that the inflow of diseases such as natural immunity (non-antibiotic) and viruses can be originally blocked.

In addition, the high nutrient organic matter is distributed in the breeding water, and the growth rate of the breeding creature is faster than that of the existing breeding farm, and it is possible to breed the high density, which is 20 ~ 50 times higher than the existing productivity and control the environmental condition in the on- Cultivation of aquaculture fish is possible, so production of aquaculture fish is possible regardless of the season.

Since heterotrophic bacteria are established and thrive, they are self-sustaining and do not require any further action, so pond formation is essential for successful bioflavoneries where heterotrophic bacteria can thrive. As the heterotrophic bacteria multiply, the oxygen supply for microorganisms and aquaculture also increases, and pH is regulated in the breeding water as the acid is produced through the nitrification process.

Particularly, in order to supply oxygen, bubbles are continuously generated in the breeding water. Organic byproducts of bioflak are adsorbed on the surface of the bubbles, and accumulate along the breeding water. Bioprolactic sludge accumulated on the surface is decomposed by biofloat microorganisms over time and is reduced to breeding water, but some of them are accumulated on the bottom of the breeding water and form a thick cake.

Such floatation sludge reduces the surface area of the water in contact with the atmosphere, increases the amount of oxygen injected into the water tank, and hinders exposure to the light of adequate illumination of the aquatic organisms and microorganisms in the water tank. Conventionally, in order to remove floatation sludge, sludge has been filtered out by hanging a net or a funnel and a stick on the surface of the water. However, this method is accompanied by an increase in management cost and inconvenience because it is performed manually .

Korean Patent No. 10-1508054 discloses a water tub main body having a bottom portion having an open top and a predetermined area and a polygonal outer wall, and a supply pipe having a length traversing the water tub main body is installed at the central upper portion of the water tub main body And a plurality of support rods extending to the bottom of the water tank body are formed in the supply pipe to supply the breeding water supplied from the outside of the water tank body to the water tank main body through a plurality of support rod pipes while a microorganism, And a water tank for bioplaced on which a ceiling pipe capable of supplying nutrients is formed. Korean Patent No. 10-1479846 discloses a water tub main body having a bottom portion having an open top and a predetermined area and a polygonal outer wall, a center partition wall having a length shorter than the length of the water tub main body is provided at the center of the water tub, A guide rail is formed on the upper side of the outer wall of the partition wall and the partition wall, and a guide rail provided with a bottom stirring guide bar which is movable along the guide rails provided on the outer wall guide rail and the partition wall. 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 plurality of pipes through collecting and collecting. In Korean Patent No. 10-1363623, there is disclosed a flow generating unit for supplying excrement and breeding water of a first breeding species and flowing along a circular trajectory, and a circulation supplying unit for circulating and supplying the excrement collected at the center of the bottom, And a circulation hatchery using a biofloat capable of preventing the occurrence of sediments by generating a flow in the breeding water. However, the above-mentioned prior art document refers to a biological water tank in which a biofloack is formed in an inner space of a polygonal water tank bottom of the present invention and a water tank outer wall of a certain height; At least one floating sludge guiding device installed on the inner surface of the outer wall of the water tank; A sludge outlet formed at a water surface height of the outer wall of the water tank; A floating sludge collecting device installed on an outer surface of an outer wall of the water tank in which the sludge discharging port is formed; And a breeding water inflow device installed in the floating sludge collecting device for introducing the breeding water into the water tank.

In order to solve the above problems, the present invention provides a floating bioflavonable water tank having at least one floating sludge induction device installed on the inner side wall of the water tank to move the floating sludge to the sludge discharge port through air injection, When the water is collected by a floating sludge collecting device installed on the outer surface of the water tank, the biofloack water for flood water is discharged by re-entering the aquarium except the floating sludge through a re- To provide a sludge removal device.

As a means for solving the above-mentioned problems, the present invention provides a water tank comprising a polygonal water tank bottom and a water tank external wall having a predetermined height, in which a biofloack is formed in the internal space; At least one floating sludge guiding device installed on the inner surface of the outer wall of the water tank;

A sludge outlet formed at a water surface height of the outer wall of the water tank; A floating sludge collecting device installed on an outer surface of an outer wall of the water tank in which the sludge discharging port is formed; And a breeding water inflow device installed in the floating sludge collecting device for introducing the breeding water into the water tank.

The floating sludge guiding device may include an injector for injecting oxygen at the surface of the breeding water and an angle adjusting valve for adjusting an injection angle of the injector to move the floating sludge to the sludge discharge port. A drainage pipe is installed on either side of the sidewall, and the breeding water and the floating sludge moved through the sludge outlet are collected.

In addition, the breeding water inflow device includes an inflow pipe installed at a distance from the bottom of the floating sludge collecting device, an air lift installed inside the inflow pipe, a breeding water connected to the inflow pipe, And a discharge pipe for introducing the water into the aquaculture tank.

The present invention prevents floating sludge that is floated on the outer surface of a water tank while being floated on the surface of the breeding water during the biofloat culture process, and re-inflows the breeding water moved with the floating sludge during the sludge collection process by air- The process of treating only the floating sludge is automatically performed, which makes it easy to manage the bioflag farm.

1 is a perspective view of a flotation sludge removing device for biofloat-style water-holding of the present invention.
FIG. 2 shows a floating sludge guiding apparatus of a floating sludge removing apparatus for biofloat-style water-holding of the present invention.
3 is a side cross-sectional view of a floating water inflow device and a floating sludge collecting device of a flotation sludge removing device for biofloat-style water-holding of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to specific configurations and accompanying drawings relating to a flotation sludge removing device for biofloat-type water storage.

1 is a perspective view of a flotation sludge removing device for biofloat-style water-holding of the present invention. The apparatus for removing floatation sludge for biofloat wastewater according to the present invention comprises: a culture water tank (10) having a round or polygonal water tank bottom and a water tank outer wall with a certain height, At least one floating sludge guiding device (20) installed on the inner surface of the outer wall of the water tank; A sludge discharge port (11) formed at a water surface height of the outer wall of the water tank; A floating sludge collecting device (40) installed on an outer surface of an outer wall of the water tank where the sludge discharge port is formed; And a breeding water inflow device (30) installed in the floating sludge collecting device and re-introducing the breeding water into the water tank.

In the bioflavonoid, it is essential to generate bubbles in the breeding tank and continuously stir the breeding water so that the microorganisms and nutrients contained in the oxygen supply and breeding water do not accumulate on the floor. However, organic byproducts of bioflakes are adsorbed on the surface of the bubbles and are accumulated on the surface of the sediment, and dried to form thickly sludge cake on the outer wall of the tank.

The sludge outlet 11 of the present invention is for automatically discharging the sludge cake to the outside of the aquarium before the sludge cake is dried and accumulated on the outer wall of the aquarium. The sludge outlet 11 is opened to the height of the aquarium of the aquarium, . It is appropriate that the sludge outlet is provided with a mesh or frame of smaller diameter than the full length of the aquaculture so that the floating sludge can be discharged without discharging the aquaculture in the tank.

A sludge fixing plate 12 is formed in the sludge discharge port in the direction of the center of the water tank so that the biofloel floating sludge moved to the sludge discharge port by the floating sludge induction device is fixed so as not to be dispersed in directions other than the sludge discharge port, .

FIG. 2 shows a floating sludge guiding apparatus of a floating sludge removing apparatus for biofloat-style water-holding of the present invention. The floating sludge induction apparatus 20 of the present invention may include an injector 21 for injecting air and an angle adjuster 22 for adjusting an injecting angle of the injector. The injector can be generally configured as an air injector and is configured to inject air into the floatation floating sludge floating on the water surface of the breeding water and move it toward the sludge outlet so as to collect the floatation sludge in one place, It plays a role. Since the injection of the injector can be continuously performed, it is possible to maintain the clean water tank by preventing the existing floating sludge cake from sticking to the inner surface of the outer wall of the water tank over time.

The direction in which the air of the injector is injected should be formed so that it can be led to the sludge outlet. However, when the size of the farm and the size of the aquarium are increased, the intensity of the air pressure injected by the injector also increases, so that the injection angle of the injector body may fluctuate.

Therefore, it is necessary to fix the injector to the angle adjuster 22 so that the injection angle of the injector can be maintained constantly. In an embodiment shown in FIG. 2, the angle adjusting rod includes an injector connecting portion to which the injector is fixed, and a fixing portion which is inserted through the injector connecting portion and accommodates the injection rotating shaft and the lower portion of the rotating shaft.

The injection angle can be set while rotating the injector about the rotation axis as the central axis. The injection angle fixing can be easily fixed while penetrating the lower part of the rotation shaft into the inside of the journal. In order to prevent the spreading of the air pressure in the upward direction, the upper plate 23 protruding from the upper portion of the injector is formed so that the air diffused upward can be reflected by the upper plate and diffused into the water surface.

The sludge is moved on the water surface while rotating on the surface of the water tank by the air pressure spraying on the surface of the water tank, and the sludge moved by the blowing is eventually led to the sludge outlet by the sludge fixing plate. The sludge fixing plate can be designed to be oriented toward the center of 90 ° with respect to the outer wall of the water tank. However, in order to maximize the vector sum of the force to be blown and the moving direction of the sludge so that the sludge can be discharged to the sludge outlet, Around 60 degrees is appropriate.

3 is a side cross-sectional view of a floating water inflow device and a floating sludge collecting device of a flotation sludge removing device for biofloat-style water-holding of the present invention. The floating sludge collecting device 40 is formed in a case structure in which a receiving space of a predetermined size is formed so that the sludge cake and biofloacked rafts collected through the sludge discharging port can be collected and one side wall of the floating sludge collecting device Pipes can be installed.

The bioflocculation water transferred to the floating sludge collector with floating sludge has a high added value. When it is discharged together with floating sludge as it is, the bioproduct of the water is measured, And the process of introducing it into the farm is added, which can increase the burden on the operation of the farm. Therefore, it is necessary to re-introduce the floating sludge collected by the floating sludge collecting device into the aquarium again.

In the middle part of the inner space of the floating sludge collecting device, a lifting water inflow device (30) is installed, lifting only the biofloack breeding water except the floating sludge, which is a thick cake layer moved to the floating sludge collecting device, .

In general, the rearing water inflow device is provided with an inflow pipe (31) installed at a distance from the bottom of the floating sludge collecting device, an air lift (32) inside the inflow pipe, And a discharge pipe 33, which is a passage through which water is re-introduced into the aquarium.

The inflow pipe may be fixedly installed on the inner wall of the floating or floating sludge collecting device at a predetermined distance from the bottom of the floating sludge collecting device. In general, the inflow pipe structure has a pipe structure with an open lower part, so that raising water, sludge and the like can be introduced through the lower opening part. An air supply unit having at least one air supply unit is installed at a lower portion of the air lift installed inside the inflow pipe, and an air supply pipe is connected at an upper portion thereof.

The air moved to the air providing unit through the air supply pipe generates fine bubbles through the air feeder. As the bubbles rise toward the surface of the water, only biofloat breeding water is accumulated inside the inflow pipe except for relatively heavy sludge, In addition, the lifting of the raft is performed with the bubbles rising above the inflow pipe.

The breeding water that has risen to the upper part of the inflow pipe flows into the aquaculture water tank through the discharge pipe, so that only the biofloat breeding water except the sludge can be recycled again, and the oxygen generated by the bubble generator is also introduced into the aquaculture tank.

When the breeding water inside the inflow pipe is lifted through the air lift, only the floating sludge is present in the floating sludge collecting device, and only the floating sludge can be treated through the drain pipe 41 provided on either side of the floating sludge collecting device side wall .

The present invention relates to an apparatus for collecting and removing sludge generated during a biofloat culturing process, which not only facilitates biofloacking by suppressing the formation of sludge in a biofloat breeding tank, but also provides bioflag floating sludge Can be used industrially because it can increase the efficiency of biofract form and contribute resources to reapplication of aquaculture farmers.

10: aquaculture tank 11: sludge discharge port 12: sludge holding plate
20: floating sludge induction device 21: injector 22:
23: top plate 30: rehydration water inlet device 31: inlet pipe
32: Air lift 33: Discharge tube
40: floating sludge collecting device 41: drainage pipe

Claims (4)

A fish tank having a polygonal tank bottom and a water tank outer wall having a predetermined height to form a biofloat in the inner space; At least one floating sludge guiding device installed on the inner surface of the outer wall of the water tank; A sludge outlet formed at a water surface height of the outer wall of the water tank;
A floating sludge collecting device installed on an outer surface of an outer wall of the water tank in which the sludge discharging port is formed; And a feedwater inflow device installed in the floating sludge collecting device to feed the infested water into the water tank. The flotation water sludge removing device according to claim 1,
2. The biofloack according to claim 1, wherein the floating sludge induction device comprises an injector for injecting oxygen at the surface of the raising water and an angle adjusting means for adjusting an injecting angle of the injector, thereby moving the floating sludge to the sludge outlet by blowing air. Floating sludge removal system for aquaculture water
[Claim 3] The floating sludge collecting device according to claim 2, wherein the floating sludge collecting device has an inner space formed by a case structure, and a drain pipe is installed on either side of the sidewall, and the faunal water and floating sludge moved through the sludge discharging port are collected. Flak sewage sludge removal system
4. The floating sludge collecting device according to claim 3, wherein the breeding water inflow device comprises an inflow pipe installed at a distance from the bottom of the floating sludge collector, an air lift installed inside the inflow pipe, And a discharge pipe for introducing the breeding water into the culture water tank.

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