KR20200054684A - Dual pipe assembly type bio-filtering tank with the same path of inlet and outlet pipe - Google Patents

Abstract

The present invention relates to a bio-filtering tank in which rearing water discharged from an aquaculture water tank is introduced into an aeration tank storing microbial filter media therein, and by using an air diffuser disposed on a partition plate of the bottom surface inside the aeration tank, the filter media are floated and stirred to perform biological filtration of the rearing water. In particular, a cylindrical distribution chamber vertically penetrates the center of a funnel-shaped discharge chamber in a lower part of the aeration tank, and an inlet pipe for the rearing water and an outlet pipe for treatment water are connected on the distribution chamber, wherein the inlet pipe forms an ″L″-shaped pipeline penetrating the central portion of the partition plate from one side of a lower part of the distribution chamber, the outlet pipe is connected to the other side of the lower part of the distribution chamber, and an inlet hole for the treatment water via the outlet pipe is formed on the body of the distribution chamber which corresponds to a direct upper part of a joint between the discharge chamber and the distribution chamber. Accordingly, setting of the pipeline for the bio-filtering tank can be completed by simply mounting and assembling the aeration tank on an upper part of the distribution chamber in which an incoming channel of the rearing water and an outgoing channel of the treatment water are concentrated in a double-walled manner on an identical line. Through the above configuration, the present invention enables a rapid pre-installation of the pipeline without entanglement of the inlet pipe and the outlet pipe, while eliminating the spatial limitation due to the aeration tank, and allows an incoming pressure of the rearing water to be applied to floating and mixing of the microbial filter media.

Description

Dual pipe assembly type bio-filtering tank with the same path of inlet and outlet pipe}

The present invention flows the breeding water discharged from the aquaculture tank into the aeration reactor in which the microbial filtration medium is stored, and the filtration medium is floated and stirred with a bubble spreader disposed on a partition plate on the inner bottom surface of the aeration reactor to biologically filter the breeding water. However, the setting of the piping line for the biofiltration tank was completed in a simple manner by mounting and assembling the aeration reactor on the upper side of the distribution chamber where the inflow path of the breeding water and the discharge path of the treated water were double-pipeded on the same line. It relates to a double-pipe assembly-type biofiltration tank in which the inlet pipe and the outlet pipe, which can be made up, form the same pipe line.

In general, indoor aquaculture farms on land cultivate a relatively large amount of fish at a high density based on a limited space and quantity, and as a result, not only various solid components such as food waste or excrement of farmed fish, but also farmed fish Protein components, ammonia components, and carbon dioxide components generated in the metabolic process accumulate in the breeding water within a very fast time, and the breeding water is easily contaminated.

In particular, ammonia nitrogen is present in water in two forms of NH ₃ -N and NH ₄ ⁺ -N combined with nonionic ammonia (NH ₃ ) or ionic ammonia (NH ₄ ⁺ ). The ammonia nitrogen produced by binding passes through the cell wall of fish and causes fatal toxicity and damage to aquaculture fish at a concentration of 2mg / L (or 2ppm), as well as oxidation itself with nitrite nitrogen or nitrate nitrogen As a result, dissolved oxygen in breeding water is consumed.

Due to the above-mentioned factors, in the indoor aquaculture on land, in addition to the filtration treatment of various solid components including wastes of food or excrement of aquaculture fish, it is possible to reduce the amount of used and discharged water and increase the amount of dissolved oxygen in the raised water. Filtration must be carried out, and according to the U.S. Environmental Protection Agency standards, it is recommended that the ammonia nitrogen contained in the aquaculture tank's breeding water be removed to 0.02 mg / L or less to prevent long-term ammonia toxic damage. .

Based on this point of view, the indoor aquaculture plant on land removes the solids components from the breeding water discharged from the aquaculture tank and simultaneously removes the solids filter tank that degass the carbon dioxide component and the ammonia and nitrogen components in the breeding water supplied through the solids filtering tank. The biofiltration tank to be removed by microorganisms is installed and used to form a circulating treatment system for breeding water. In some cases, the biofiltration tank is placed in a position ahead of the solids filtering tank to filter the solid components after filtration by the microorganisms. It can also be done.

As described above, the biofiltration tank used in the indoor aquaculture plant allows ammonia and nitrogen components contained in the breeding water to be removed in the metabolic process of microorganisms while passing a certain amount of water into the aeration reactor in which a large amount of microbial filtration media is added. In addition, a bubble scatterer and a defoamer are additionally installed inside the aeration reactor so that protein components or other foreign substances are trapped in the bubbles and discharged in the form of bubbles together with supply of oxygen and degassing of carbon dioxide necessary for the reaction of these microorganisms.

Further, on the bottom side of the aeration reactor, a perforated plate partition plate to prevent leakage of the microbial filtration medium is installed, and the breeding water (treated water), which has been subjected to microbial filtration treatment, is connected to the inlet pipe and installed at a location facing the outflow. It is discharged in an overflow manner along the pipe, and the solid components contained in the breeding water drop and settle through the partition plate to the funnel-type discharge chamber at the bottom of the aeration reactor, and the precipitated solid components are drain pipes connected to the lower side of the discharge chamber It was discharged and collected to the outside by using.

However, the conventional biofiltration tank as described above has a problem in that the inflow pipe and the outflow pipe are prolongedly installed inside the aeration reactor, which unnecessarily occupies a space required for filtration, and impairs smooth flow and mobility of the filter medium. Since the method of connecting the inlet pipe of the breeding water to one side of the aeration reactor and connecting the outlet pipe of the treated water to the other side of the aeration tank corresponding to the position where the inlet pipe is connected is applied, When several biological filtration tanks are installed together with a solid filtration tank in an indoor farm, there is a problem in that it is difficult to install a pipe line by accurately determining the positions of the inlet pipe and the outlet pipe based on each aeration reactor.

In addition, since a plurality of aeration reactors are first pre-arranged over any location in the indoor space of the aquaculture plant, the connection and installation work of the piping line for the biofiltration tank should be performed. There was a problem in that it was very narrow by the pre-placed aeration reactor, and this made the connection and installation work of a relatively difficult piping line even more difficult.

In addition, as the entire pipe line including the inlet pipe and the outlet pipe is exposed to the outside of the aeration reactor, the area occupied by the pipe line is unnecessarily increased, causing undesirable problems in terms of efficient space utilization of the indoor aquaculture plant. Since the reaction tank and the discharge chamber are integrally manufactured, the funnel-type discharge chamber in which solid components are precipitated and the overall cleaning and maintenance work of the biofiltration tank including the same have also been very difficult.

Particularly, in the case of the inlet pipe installed in the existing biofiltration tank, since only the function of simply introducing the breeding water supplied through the aquaculture tank or the solid filtration tank into the aeration reactor, the microbial filtration medium floats inside the aeration tank ( There has been a problem in that the operation of agitating and stirring must be entirely dependent on the bubble disperser, and as a result, a large amount of compressed air is continuously supplied using a large-capacity blower while a large number of bubble dispersers are placed on the partition plate. Accordingly, there is a problem in that considerable power is consumed for the operation of the biofiltration tank.

Republic of Korea Registered Patent No. 10-1247990

The present invention has been devised to solve the above-described conventional problems, and removes the inlet pipe and the outlet pipe located inside the aeration reactor and vertically distributes the cylindrical distribution chamber to the center of the funnel type discharge chamber under the aeration reactor. And connect the inlet pipe of the breeding water and the outlet pipe of the treated water on the distribution chamber, so that the inlet pipe forms a "b" shaped piping line penetrating the center of the partition plate from the lower one side of the distribution chamber. And, the outlet pipe is connected to the other side of the lower side of the distribution chamber, and by forming the introduction hole of the treated water through the outlet pipe on the body side of the distribution chamber corresponding to the upper portion of the connection portion of the discharge chamber and the distribution chamber, Aeration and aeration tanks are installed and arranged on the upper side of the distribution chamber where the inflow path of the livestock water and the discharge path of the treated water are collected in a double piping type on the same line. In a simple way, the setting of the piping line for the biofiltration tank can be completed, and through this, it is possible to promptly construct the piping line without mixing the inflow pipe and outflow pipe while the spatial constraints of the aeration tank are excluded. By easily separating the aeration reactor containing the discharge chamber from the distribution chamber, it is possible to more easily perform cleaning and maintenance work for the entire biofiltration tank, and using the inlet pressure of the breeding water to float and mix the microbial filtration media. The main technical task is to provide a double-pipe assembly-type biofiltration tank in which the inlet pipe and the outlet pipe form the same pipe line, which is applied to the work to minimize the power consumption according to the operation of the bubble spreader.

The present invention as a means for solving the above technical problem, the aeration reactor as a tank tank in which the microbial filtration medium is stored together with the breeding water, the inlet pipe of the breeding water connected to one side of the aeration reactor, and the aeration reaction tank The outlet pipe of the treated water connected to the other side of the outlet, the partition plate installed on the inner bottom surface of the aeration reactor to prevent the placement of the bubble spreader and the leakage of the microbial filtration medium, and the discharge of the treated water formed on the partition plate In the biofiltration tank comprising a ball and a funnel-type discharge chamber connected to a lower periphery of the aeration reactor at the bottom of the partition plate, a cylindrical distribution chamber having an open top surface through a lower center portion of the discharge chamber is upright. Insertion is installed, the lower center of the discharge chamber is formed as an opening for insertion of the distribution chamber And, the upper side of the distribution chamber is installed in close contact with the bottom surface of the partition plate, the outlet hole is formed over the edge of the partition plate except for the portion corresponding to the upper surface of the distribution chamber, the inlet pipe is the lower portion of the distribution chamber It penetrates one side in the horizontal direction and extends to the inner center of the distribution chamber, and then, as it extends vertically upward from the corresponding position, the upper outlet part penetrates the partition plate and protrudes into the aeration tank by a predetermined height, The outlet pipe is installed connected to the other side of the lower portion of the distribution chamber corresponding to the position facing the inlet pipe, the lower side of the discharge chamber and the outer periphery of the trunk of the central side of the distribution chamber are installed to be watertight, and the discharge The introduction hole of the treated water is piped at regular intervals along the circumference of the body of the distribution chamber corresponding to the upper part of the connecting portion of the chamber and the distribution chamber. It characterized in that the formation.

In addition, the outlet portion of the inlet pipe that penetrates through the partition plate and protrudes into the inside of the aeration reactor is characterized in that the spraying head of a breeder with an injection hole formed at regular intervals while the upper side is blocked, and the injection head The upper side of the is characterized in that it is formed to be round in a hemispherical shape, the injection hole is provided with a horizontal hole provided along the circumferential portion of the lower side of the injection head, a vertical hole provided over the upper side of the injection head, and the horizontal hole It characterized in that it comprises an inclined hole provided along the central circumferential portion of the injection head corresponding to the vertical hole, the inclined hole is formed to be inclined upward by a predetermined angle along the discharge direction of the breeding water, Where the inlet pipe penetrates the partition plate, a nut-shaped leak blocking cap is fitted along the inlet pipe. Characterized in that the assembly is installed, characterized in that the sealing sheet is installed on the inner circumferential surface and the bottom surface of the leakage blocking cap as an elastic material that is in close contact with the outer surface of the inlet pipe and the upper surface of the partition plate, and the distribution chamber of the A funnel-shaped sedimentation plate is disposed on the upper portion of the bottom surface, and a drain pipe provided with a valve mechanism is connected to the lower side of the sedimentation plate.

As an additional matter, the outlet hole becomes a slit hole in the form of a long hole having a predetermined length, while the slit hole is radially arranged at regular intervals along the edge of the partition plate, and each slit hole is a partition plate. It is characterized in that the treated water flowing through the discharge chamber is formed to be inclined in a certain direction so as to form a vortex flow, and the slit holes are grouped in units of several to several tens to form a fan-shaped water flow unit, and the water flow It is characterized in that the units are arranged at a constant angular range with at least two or more pieces along the edge of the partition plate, and assembly flanges are provided at the lower opening side edge of the discharge chamber and the outer peripheral edge of the central body of the distribution chamber. And each assembly flange portion is waterproof as an elastic material. It characterized in that it is installed to be watertightly connected by an assembly bolt in the state of interposing a packing sheet for use, or to form an installation frame of a predetermined height on the outer side of the assembly flange portion of the distribution chamber, and to distribute it including the installation frame In a state where a waterproof packing sheet as an elastic material is attached to the inner surface of the assembly flange part of the chamber, the assembly flange part of the discharge chamber is sandwiched along the inner circumferential inner surface of the mounting frame constituting the assembly flange part of the distribution chamber with the packing sheet interposed therebetween. It characterized in that the assembly is installed in the manner, the upper side portion of the packing sheet attached to the inside of the mounting frame is characterized in that the inclined surface inclined in the inner direction by a predetermined angle.

According to the present invention as described above, in the vertical direction along the opening provided in the center of the funnel-type discharge chamber at the bottom of the aeration reactor, the cylindrical distribution chamber in which the inflow path of the breeding water and the discharge path of the treated water are collected in a double piping type on the same line. After inserting it, it is necessary for the operation of the biofiltration tank in a simple manner by assembling and assembling the aeration reactor on the upper side of the distribution chamber by allowing the connection between the distribution chamber and the discharge chamber to be watertightly assembled. It provides the effect of completing the setting of the piping line.

Therefore, even when several biofiltration tanks are installed together with a solid filtration tank in an indoor aquaculture plant on land, distribution is not restricted without any limitations, such as mixing of inlet and outlet pipes for each aeration tank or narrowing of the work space by aeration tanks. The piping line including the chamber is quickly and easily pre-installed over the interior floor of the farm, and then the aeration reactor is set up and assembled for each distribution chamber of the pre-installed piping line, making the breeder's circulating filtration system very easy. It provides an economical and reasonable construction effect.

In addition, as the distribution chamber itself, which includes a portion of the inlet pipe and the outlet pipe, is disposed in the lower space of the aeration reactor, it provides an effect of minimizing the area of the pipe line exposed to the inside and outside of the aeration reactor. Through this, it provides an effect that enables efficient use of space in the indoor farm, and provides an effect of easily separating the aeration reactor containing the discharge chamber from the distribution chamber using the assembly chamber provided in the discharge chamber and the distribution chamber. Cleaning and maintenance work throughout the biofiltration tank also provides an effect that can be performed very easily.

Particularly, in a state in which a mounting border is protruded on the outer side of the assembly flange portion of the distribution chamber, and a packing sheet is attached to the inner surface of the assembly flange portion of the distribution chamber including the mounting frame, the assembly flange portion of the discharge chamber is disposed in the distribution chamber. When the assembly is to be fitted inside the assembly flange portion, the watertight treatment is automatically performed by pressing the packing sheet by the weight of the aeration reactor by simply placing the aeration reactor on the distribution chamber, and at the same time, the assembly bolt It provides the effect of quickly separating the aeration reactor from the dispensing chamber even without the troublesome work of releasing.

In addition, by forming the upper outlet portion of the inlet pipe protruding through the partition plate into the aeration reactor with an injection head equipped with an injection hole, the inlet pressure of the breeding water can be applied to the floating and mixing operation of the microbial filtration medium. It provides an effect, and through this, it reduces the number of installations of the bubble spreader, and even if a blower with a small capacity is used, it is possible to sufficiently achieve the purifying function of the breeding water due to the floating and stirring of the microbial filtration medium, thereby powering the operation of the biofiltration tank. It also provides the effect of minimizing consumption.

As an additional matter, the outlet hole formed in the partition plate is a slit hole in the form of a long hole, and the corresponding slit hole is radially disposed along the edge of the partition plate, and each slit hole is formed to be inclined at a certain angle in the same direction. As the treated water flowing into the discharge chamber through the partition plate forms a vortex flow, it provides an effect to further improve the sedimentation performance of solid components through the sedimentation plate on the bottom surface of the distribution chamber. It provides a very useful effect, such as enabling efficient removal of solid components.

1 is a front sectional view showing a biofiltration tank according to the present invention.
FIG. 2 is a plan view of FIG. 1;
3 is a plan view of FIG. 1 with different arrangements of an inlet pipe and an outlet pipe.
Figure 4 is a perspective view of a main portion excerpt of the present invention.
Figure 5 is a cross-sectional view of the installation of the inlet pipe outlet side to provide the spray head of the breeding water.
Figure 6 is a cross-sectional view showing another form of the injection head in Figure 5;
7 is a cross-sectional view taken along line AA of FIG. 2.
8 is a cross-sectional view taken along line BB of FIG. 2;
9 is a schematic view showing a water flow state by the outlet hole shown in FIGS. 7 and 8.
10 is a partially enlarged sectional view showing an assembled state of the discharge chamber and the distribution chamber.
11 is a partially enlarged cross-sectional view showing another assembled state of the discharge chamber and the distribution chamber.

Hereinafter, with reference to the accompanying drawings, the present invention for achieving the above object will be described in detail as follows.

The biological filtration tank 10 according to the present invention is also similarly shown in FIGS. 1 to 3, respectively, the aeration tank 1 as a water tank and the inlet pipe of the breeding water connected to one side of the aeration tank 1 (5), the outlet pipe (6) of the treated water connected to the other side of the aeration reactor (1), the partition plate (2) installed on the inner bottom surface of the aeration reactor (1), and the partition plate (2) is formed by basically including a funnel-type discharge chamber (4) installed in connection with the lower periphery of the aeration reactor (1) at the bottom of the partition plate (2) and the outlet (3) of the treated water formed in the This is in line with the existing biofiltration composition.

As described in the contents of the prior art, a microbial filtration medium (not shown) will be added to the inside of the aeration reactor 1, and a plurality of air bubble spreaders not shown on the upper surface of the partition plate 2 or A perforated pipe type aeration pipe or the like may be disposed, and in some cases, the bubble spreader or the aeration pipe may be installed in a state buried in the partition plate 2, and each bubble spreader or aeration pipe may be installed. The light will be installed in connection with a blower or the like by an air injection line (not shown), and the outlet hole 3 formed in the partition plate 2 will be formed in a size such that the microbial filtration medium does not leak into the discharge chamber 4. will be.

As an additional matter, a cylindrical base 8 for stably supporting the aeration reaction tank 1 together with the discharge chamber 4 is installed at the lower outer periphery of the aeration reaction tank 1 in the vertical direction. On the pedestal (8), an incision (9) is formed for the arrangement of the inlet pipe (5) and the outlet pipe (6), and the upper portion of the aeration reactor (1) has a perforated tube defoamer (7) A is installed in a manner that penetrates the wall of the aeration reactor 1, the inlet pipe 5 and the outlet pipe 6 is predetermined along both sides of the aeration reactor 1 from the lower side of the aeration reactor 1 It is installed so as to extend by the height of.

As shown in Figure 1, the water level of the number of breeders stored in the aeration tank 1 is determined by the outlet position connected to the side of the outlet pipe 6, and when multiple biofiltration tanks are connected and installed, the last biofiltration tank The water level of the breeding water stored in the aeration tank 1 is determined by adjusting the water level at the side of the outlet, and the defoamer 7 is generally disposed to be flush with the water surface of the breeding water. As shown in the inlet pipe 5 and the outlet pipe 6 may be respectively disposed at the left end and the right end of the aeration reactor 1, as shown in Figure 3, the front side (or rear side) of the aeration reactor 1 ), The inlet pipe (5) and the outlet pipe (6) may be arranged at a predetermined interval.

In the biofiltration tank 10 according to the present invention, the arrangement state of the inlet pipe 5 and the outlet pipe 6 is not limited in the manner shown in the drawings, and various other according to the location of a culture tank or a solids filtering tank (sedimentation tank). Of course, it is possible to have the arrangement of the branches, the valve mechanism may be installed at any position of the inlet pipe 5 and the outlet pipe 6, the inlet pipe 5 and the outlet pipe 6 is a straight pipe And it may be a prefabricated pipe line using an elbow connection pipe, and the defoamer 7 may also use a skimmer of another type other than a perforated pipe shape.

As a component constituting a substantial part of the present invention, as shown more clearly in FIGS. 1 and 4, a cylindrical distribution chamber 11 having an open top surface through a lower center portion of the discharge chamber 4 is upright. It is inserted into the installation, the lower center portion of the discharge chamber 4 is formed as an opening for insertion of the distribution chamber 11, the upper side of the distribution chamber 11 is installed in close contact with the bottom surface of the partition plate (2) As a result, the dispensing chamber 11 becomes an additional prefabricated structure supporting the aeration reactor 1 from the lower side together with the pedestal 8 on the outer side, and the outlet hole 3 is an upper surface of the dispensing chamber 11 It is formed over the edge of the partition plate 2 except for the part corresponding to.

In addition, the inlet pipe 5 extends to the inner central portion of the distribution chamber 11 through the lower one side (the right side in FIG. 1) of the distribution chamber 11 in the horizontal direction, and then vertically upwards from the corresponding position. As it is extended again, the upper side exit part penetrates the partition plate 2 to form a "b" shaped piping line that protrudes into the aeration reactor 1 by a predetermined height, and the outlet pipe 6 is an inlet pipe ( 5) is installed on the lower other side (left side in FIG. 1) of the dispensing chamber 11 corresponding to the opposite position, the lower side of the discharge chamber 4 and the central side of the dispensing chamber 11 The outer circumferential portion is installed to be watertightly connected, and an introduction hole for treated water at regular intervals along the circumference of the body of the dispensing chamber 11 corresponding to the upper portion of the discharging chamber 4 and the dispensing chamber 11 14 is formed through.

As described above, the arrangement of the inlet pipe 5 and the outlet pipe 6 based on the cylindrical distribution chamber 11 and the distribution corresponding to the upper portion of the connecting portion of the distribution chamber 11 and the discharge chamber 4 By the inlet hole 14 of the body portion of the chamber 11, as shown in the direction of the arrow in Figure 1, the inlet path of the breeding water and the discharge path of the treated water form a double pipe forming the same line at the lower center side of the aeration reactor 1 It is arranged in the form, through which the upper end of the inlet pipe 5 is inserted into the interior of the aeration reactor 1 through the partition plate 2, and at the same time, the bottom surface of the partition plate 2 is a distribution chamber. After setting the aeration reactor 1 to be placed on the upper surface of (11), the setting of the piping line necessary for the operation of the biofiltration tank 10 is performed in a simple manner of assembling the distribution chamber 11 and the discharge chamber 4. It can be done.

Even more preferably, as shown in Figure 5, the injection head 16 is provided with an injection hole 16 at an upper end of the inlet pipe 5 protruding through the partition plate 2 and protruding into the aeration tank 1 By forming with (15), the inlet pressure of the breeding water through the inside of the aeration reactor 1 can be applied to the injury and disturbance of the microbial filtration medium, and for this purpose, the upper side of the spray head 15 is While forming a hemispherical round, the injection hole 16 is provided with a horizontal hole provided along the lower circumferential portion of the injection head 15, a vertical hole provided over the upper side of the injection head 15, and It is formed by dividing the inclined hole provided along the central circumferential portion of the injection head 15 corresponding to the horizontal hole and the vertical hole.

When the injection hole 16 is formed in the same manner as described above, the inlet pressure of the breeding water can be evenly applied over the inner lower space of the aeration reactor 1, through which the microbial filtration medium is injured and disturbed. It can be greatly improved, and as shown in FIG. 6, when the inclination angle of the inclined hole increases toward the upper end of the injection head 15, it is possible to provide an advantageous advantage in terms of pushing the microbial filtration medium to a higher level.

On the other hand, in the portion where the inlet pipe 5 penetrates the partition plate 2, a clearance gap for easy insertion of the inlet pipe 5 is inevitably provided, as shown in FIGS. 4 to 6 By performing a basic watertight treatment on the portion through which the inlet pipe 5 penetrates the partition plate 2 using the leak-proof cap 17 of the shape, the untreated breeding water inside the aeration reactor 1 is distributed chamber ( 11) It is preferable to block the entry into the interior in advance, and the leakage blocking cap 17 is fitted to the upper surface of the partition plate 2 along the inlet pipe 5 using a pipe-shaped pressing mechanism. Installation is possible by pressing down.

In addition, when attaching the waterproofing packing sheet 18 as an elastic material in close contact with the upper surface of the partition plate 2 and the outer circumferential surface of the inlet pipe 5 across the inner circumferential surface and the bottom surface of the leak-proof cap 17, Not only can the water inlet pipe 5 more completely perform watertight treatment on the portion passing through the partition plate 2, but also absorb the vibrations generated during the operation of the bubble spreader to absorb the inlet pipe 5 and the partition. It is possible to additionally perform a function of preventing cracks or damage of the plate 2 and maintaining a more firmly assembled state between the distribution chamber 11 and the aeration reactor 1.

In addition, as shown in FIGS. 2 and 7 and 8, the outlet hole 3 is a long hole-shaped slit hole having a predetermined length, and the slit hole of the partition plate 2 Arranged radially at regular intervals along the edge, and when each slit hole is formed to be inclined by a certain angle in the same direction, it flows into the interior of the discharge chamber 4 through the partition plate 2 as shown in FIG. 9. The treated water can be made to form a vortex-type water flow.

When the treated water flowing into the interior of the discharge chamber 4 through the partition plate 2 as described above to form a vortex flow, the inner bottom surface of the distribution chamber 11 from the introduction hole 14 of the distribution chamber 11 Since it is possible to sufficiently secure the sedimentation performance of the solid components through, the biofiltration tank 10 can exhibit a level of solids removal function almost equal to that of the existing sedimentation tank, and for this purpose, the distribution as shown in FIGS. 1 and 2 A funnel-shaped sedimentation plate 19 is disposed on the upper portion of the bottom surface of the chamber 11, and a drain pipe 20 provided with a valve mechanism V is connected to the lower side of the sedimentation plate 19. .

In addition, as shown in FIGS. 2 and 3, the slit holes are grouped in units of several to several tens to form a fan-shaped water flow unit, and at least two water flow units are arranged along the edge of the partition plate 2. When the number of abnormalities (4 in total in the drawing) is arranged over a certain angular range (90-degree angular range in the drawing), the structural strength of the partition plate 2 is not reduced by minimizing the number of slit holes and the incision area. While preventing this, it is possible to sufficiently create a vortex flow of the level required for sedimentation of solid components.

On the other hand, a representative assembly method of connecting the dispensing chamber 11 constituting the main part of the present invention with the discharging chamber 4 of the aeration reactor 1 is as shown in FIG. 10, the lower opening of the discharging chamber 4 While the assembly flange portions 12 are protruded on the side edges and the outer peripheral edge of the central side of the distribution chamber 11, the assembly flange portions 12 are interposed with a waterproof packing sheet 13b as an elastic material. It is to be installed so as to be watertight by the assembly bolt 13 and the nut 13a in a state.

As described above, the incision part 9 provided in the pedestal 8 at the bottom of the aeration reactor 1 can be firmly connected to the dispensing chamber 11 and the discharge chamber 4 using the assembly bolt 13 ( 1) it is preferable to secure the height and width as large as possible to the bolt assembly operation, and each assembly flange portion 12 has a fastening hole 12a for fastening the assembly bolt 13 (FIG. 4) is formed at regular intervals, the fastening holes 12a formed in the assembly flange portion 12 of the discharge chamber 4 and the fastening holes formed in the assembly flange portion 12 of the distribution chamber 11 ( In order to accurately correspond to 12a), the operation of seating the aeration reactor 1 on the distribution chamber 11 must be preceded.

As a more preferable assembly method, as shown in FIG. 11, the mounting frame 12b of a predetermined height is protruded on the outer side of the assembly flange portion 12 of the distribution chamber 11, and the mounting frame 12b is protruded. In the state in which the packing sheet 13b for waterproofing as an elastic material is attached to the inner surface of the assembly flange part 12 of the dispensing chamber 11, the assembly flange part 12 of the discharge chamber 4 includes the corresponding packing sheet ( It is to be assembled and installed along the inner circumferential surface of the mounting frame (12b) constituting the assembly flange portion 12 of the distribution chamber 11 in the state of interposing 13b), to facilitate the convenience and accuracy of the work It is preferable that the upper side portion of the packing sheet 13b attached to the inside of the mounting frame 12b is formed as an inclined surface inclined in the inner direction by a predetermined angle.

As described above, the assembly flange portion 12 of the discharge chamber 4 having a ring shape is fitted inside the assembly flange portion 12 of the distribution chamber 11 having a plate shape such as a Petri dish. When assembled, the watertight treatment is automatically performed by pressing the packing sheet 13b by the self-weight of the aeration reactor 1 by simply placing the aeration reactor 1 on the distribution chamber 11, and at the same time, the assembly bolt (13) The aeration reactor 1 can be quickly separated from the distribution chamber 11 even without performing the troublesome work of releasing the aeration reaction tank 1 itself, as well as the inner side distribution chamber 11 and the outer side support. Since it is supported in double by (8), even if the above assembly method is applied, the stability of the biofiltration tank 10 is sufficiently maintained.

Lastly, in the description of the present invention based on the accompanying drawings, it is assumed that the upper side of the distribution chamber 11 is opened, but if necessary, the distribution chamber 11 excluding the central portion where the inlet pipe 5 is disposed ) The rest of the upper surface may be sealed by a cover plate, etc. In this case, the supporting force of the aeration reaction tank 1 by the distribution chamber 11 can be increased, while the distribution chamber 11 in which solid matter is precipitated Since there is a disadvantage in that the cleaning operation for the inner space of the system is difficult, it is preferable to select a more advantageous method in consideration of all the relevant matters.

According to the present invention made of the configuration as described above, the inlet path of the breeding water and the discharge path of the treated water are arranged in a double piping type on the same line, and the cylindrical distribution chamber 11 is discharged into the funnel type at the bottom of the aeration reactor 1. After inserting in the vertical direction along the opening provided in the center of the chamber 4, by allowing the connection portion between the distribution chamber 11 and the discharge chamber 4 to be water tightly assembled, the upper portion of the distribution chamber 11 It is possible to complete the setting of the piping line necessary for the operation of the biofiltration tank 10 in a simple manner of mounting and assembling the aeration reactor 1 on the side.

Therefore, even when several biofiltration tanks 10 are installed together with a solid filtration tank in an indoor aquaculture plant on land, mixing or aeration tanks at the inlet pipe 5 and outlet pipe 6 connection locations for each aeration tank 1 (1) Only the piping line containing the distribution chamber 11 is quickly and easily pre-deployed over the interior floor of the fish farm without any restrictions such as the narrowing of the working space, and then the distribution chamber 11 of the pre-built piping line It is possible to construct a circulating filtration treatment system for livestock water very economically and reasonably through a method of seating and assembling the aeration reactor 1 for each.

In addition, as the distribution chamber 11 itself containing a portion of the inlet pipe 5 and the outlet pipe 6 is disposed in the lower space of the aeration reactor 1, it is exposed to the inside and outside of the aeration reactor 1 It is possible to minimize the area of the piping line, thereby enabling efficient space utilization of the indoor farm, and using the assembly flange portion 12 provided in the discharge chamber 4 and the distribution chamber 11, the discharge chamber 4 ) Can be easily separated from the aeration reactor (1) containing the distribution chamber (11), through which the washing and maintenance operations throughout the biofiltration tank (10) can be performed very easily.

In particular, the inner side of the assembly flange portion 12 of the distribution chamber 11, which protrudes and forms the mounting frame 12b on the outer side of the assembly flange portion 12 of the distribution chamber 11, and includes the mounting frame 12b. When the packing sheet 13b is attached to the assembly chamber 12, the assembly flange portion 12 of the discharge chamber 4 is inserted into the assembly flange portion 12 of the distribution chamber 11 to be assembled and assembled. 1) The watertight treatment is automatically performed by the pressing action of the packing sheet 13b by the weight of the aeration reactor 1 by simply placing it on the distribution chamber 11, and at the same time, it is cumbersome to loosen the assembly bolt 13 Even if the operation is not performed, the aeration reactor 1 can be quickly separated from the distribution chamber 11.

In addition, by forming the upper outlet portion of the inlet pipe (5) protruding through the partition plate (2) to the inside of the aeration reactor (1) with the injection head (15) equipped with the injection hole (16), the aeration reaction tank ( 1) The inlet pressure of livestock water through the inside can be applied to the floating and mixing operation of the microbial filtration media. Through this, the number of installations of the bubble spreader is reduced, and even if a small capacity blower is used, the microbial filtration media can be floated and stirred. By enabling the purifying function of the breeding water to be sufficiently achieved, the amount of power consumed by the operation of the biofiltration tank 10 can also be minimized.

As an additional matter, the outlet hole 3 formed in the partition plate 2 is used as a slit hole in the form of a long hole, and the corresponding slit hole is radially arranged along the edge of the partition plate 2, but each slit hole is the same. By forming it inclined by a certain angle in the direction, the solids through the sedimentation plate 19 of the bottom surface of the distribution chamber 11, as the treatment water flowing into the discharge chamber 4 through the partition plate 2 forms a vortex flow It is possible to further improve the sedimentation performance of the component, thereby enabling efficient removal of solid components in the biofiltration tank 10.

DESCRIPTION OF SYMBOLS 1 Aeration reactor 2 Partition plate 3 Outflow hole
4: discharge chamber 5: inlet pipe 6: outlet pipe
7: Defoamer 8: Pedestal 9: Incision
10: biofiltration tank 11: distribution chamber 12: assembly flange
12a: fastener 12b: mounting frame 13: assembly bolt
13a: Nut 13b, 18: Packing sheet 14: Introduction hole
15: spraying head 16: spraying hole 17: leak blocking cap
19: settling plate 20: drain pipe V: valve mechanism

Claims (12)

The aeration tank 1 as a tank tank in which the microbial filtration medium is stored together with the breeding water, the inlet pipe 5 of the breeding water connected to one side of the aeration tank 1, and the other side of the aeration tank 1 The outlet pipe (6) of the treated water installed in connection with the partition plate (2) and the partition plate installed on the inner bottom surface of the aeration reactor (1) to prevent the placement of a bubble spreader and microbial filtration media (2) a biofiltration tank comprising a funnel-type discharge chamber (4) installed in connection with the lower periphery of the aeration reactor (1) at the bottom of the partition plate (2) and the outlet (3) of the treated water formed in In (10),
A cylindrical distribution chamber 11 having an open top surface through the lower center portion of the discharge chamber 4 is installed in an upright position, and the lower center portion of the discharge chamber 4 is inserted into the distribution chamber 11. It is formed as an opening, and the upper side of the distribution chamber 11 is installed in close contact with the bottom surface of the partition plate 2, and the outlet hole 3 is a partition except for a portion corresponding to the upper surface of the distribution chamber 11 It is formed over the edge of the plate (2),
The inlet pipe 5 penetrates the lower one side surface of the distribution chamber 11 in the horizontal direction and extends to the inner central portion of the distribution chamber 11, and then the upper side exit part is extended again vertically upward at the corresponding position. It penetrates through the partition plate (2) and protrudes into the aeration tank (1) by a predetermined height, and the outlet pipe (6) is a lower rudder of the distribution chamber (11) corresponding to a position facing the inlet pipe (5). It is installed on the side,
The lower side of the discharge chamber 4 and the central peripheral outer periphery of the distribution chamber 11 are water-tightly connected, and the distribution corresponding to the upper portion of the connection between the discharge chamber 4 and the distribution chamber 11 is provided. A double pipe assembly type biofiltration tank in which the inlet pipe and the outlet pipe form the same pipe line, characterized in that the introduction hole 14 of the treated water is formed at regular intervals along the circumference of the body of the chamber 11. According to claim 1, The outlet portion of the inlet pipe (5) penetrating into the interior of the aeration reactor (1) penetrating through the partition plate (2), the upper side is blocked while the injection hole (16) at regular intervals A double pipe assembly type biofiltration tank in which the inlet pipe and the outlet pipe forming the same pipe line are characterized in that the spray head 15 of the breeding water is formed. The method of claim 2, wherein the upper side of the injection head (15) is a double-pipe assembly type biofiltration tank in which the inlet pipe and the outlet pipe form the same piping line, which is formed to be round in a hemispherical shape. The method of claim 3, wherein the injection hole 16 is provided with a horizontal hole provided along the circumferential portion of the lower end of the injection head 15, a vertical hole provided over the upper side of the injection head 15, the horizontal hole And the inclined hole provided along the central circumferential portion of the injection head 15 corresponding to the vertical hole, wherein the inclined hole is formed to be inclined upward by a predetermined angle along the discharge direction of the breeder. A double pipe assembly type biofiltration tank in which the inlet pipe and the outlet pipe form the same pipe line. The method according to claim 3, wherein the inlet pipe (5) penetrates the partition plate (2) is characterized in that the nut-shaped leak-blocking cap (17) is fitted and installed in a fitting manner along the inlet pipe (5). A double pipe assembly type biofiltration tank in which the inlet pipe and the outlet pipe form the same pipe line. The method according to claim 5, wherein the leakage blocking cap (17), the inner circumferential surface and the bottom surface of the inlet pipe (5) and the sealing surface of the partition plate (2) as the elastic sealing material for the sealing sheet 18 is installed A double pipe assembly type biofiltration tank in which the inlet pipe and the outlet pipe form the same pipe line. According to any one of claims 1 to 6, The sedimentation plate 19 of the funnel shape is disposed on the upper portion of the bottom surface of the distribution chamber 11, the valve mechanism ( V) is equipped with a drain pipe (20) is a double pipe assembly type biofiltration tank in which the inlet pipe and the outlet pipe form the same piping line, characterized in that the connection is installed. According to any one of claims 1 to 6, The outlet hole (3) is a slit hole in the form of a long hole having a predetermined length, the slit hole is spaced at regular intervals along the edge of the partition plate (2). Placed radially,
Each of the slit holes are formed through the partition plate 2 and the inflow pipe and the outflow pipe are formed to be inclined in a constant direction so that the treated water flowing into the discharge chamber 4 forms a vortex flow. Double-pipe assembly type biofiltration tank. The angular range of claim 8, wherein the slit holes are grouped in units of several to several tens to form a fan-shaped water flow unit, and the water flow units are at least two or more along the edge of the partition plate (2). A double pipe assembly type biofiltration tank in which the inlet pipe and the outlet pipe form the same pipe line. The method according to any one of claims 1 to 6, wherein the lower opening side edge of the discharge chamber (4) and the central body outer periphery of the distribution chamber (11) are provided with assembly flanges (12), respectively. The inlet pipe and the outlet pipe are the same piping line, characterized in that each assembly flange portion 12 is watertightly connected by an assembly bolt 13 in a state in which a waterproofing packing sheet 13b as an elastic material is interposed. Double-pipe assembly type biofiltration tank. The method according to any one of claims 1 to 6, wherein the lower opening side edge of the discharge chamber (4) and the central body outer periphery of the distribution chamber (11) are provided with assembly flanges (12), respectively. On the outer side of the assembly flange portion 12 of the distribution chamber 11, a mounting border 12b of a predetermined height is formed to protrude,
On the inner surface of the assembly flange portion 12 of the distribution chamber 11 including the mounting frame 12b, a waterproof sealing sheet 13b is installed as an elastic material, and the assembly flange portion 12 of the discharge chamber 4 is installed. ) Is an inlet pipe and an outlet pipe characterized by being assembled and installed along the inner circumferential surface of the mounting frame 12b constituting the assembly flange portion 12 of the distribution chamber 11 with the corresponding packing sheet 13b interposed. A double pipe assembly type biofiltration tank forming the same pipe line. 12. The inlet pipe and outlet pipe of claim 11, wherein the upper side portion of the packing sheet (13b) attached to the inside of the mounting frame (12b) is an inclined surface inclined in an inward direction by a predetermined angle. A double pipe assembly type biofiltration tank forming a line.

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