KR101624244B1 - Solid removal device in discharge channels of a land-based aquaculture farms - Google Patents

Abstract

The present invention relates to an apparatus for collecting and removing solid matters included in rearing water by being installed in concrete drainage channels providing a final discharge path of the rearing water in land-based fish farms. More specifically, a frame body is provided in a cuboid framework shape to be seated inside the concrete drainage channels under a condition that the flow of the rearing water is not disrupted, a bubble spreader is disposed at the inner lower portion of the frame body, a collecting film equipped with a solid matter collection container is connected to and installed on a rear upper side of the frame body, and a foreign matter discharge pipe extending from the collection container is connected to a sediment tank. Thus, in a final process of discharging the rearing water through the concrete drainage channels, the solid matters included in the rearing water are floated and agglomerated by bubbles, collected inside the collecting film, agglomerated by sending the same to the sediment tank from the collection container, and condensed into a high concentration of sludge. Accordingly, even without a wide sediment tank installation, a water quality required for the final discharge water may be fully satisfied, and, at the same time, only the condensed sludge component can be quickly processed without stopping the operation of fish farm equipment, and thereby the apparatus according to the present invention enables a large contribution to the aspects of efficient use of a fish farm field, and economical operation as well as productivity enhancement of the fish farm facilities.

Description

Technical Field [0001] The present invention relates to a solid-collecting device for a land-based aquaculture farm,

The present invention is based on the idea that the present invention is installed in a concrete drainage channel that provides a final discharge passage for the breeding water in a farm established on the land while float and coagulate the solid component contained in the water for breeding to the inside of the collection membrane, To the sedimentation tank to concentrate the sludge at a high concentration so that it is possible to satisfactorily satisfy the quality of water required for the final effluent even if a large area sedimentation tank is not provided and at the same time, To a solids collecting apparatus for a drainage system for onshore farms.

Generally, in the aquaculture farms, a relatively large amount of fish is cultivated at a high density based on a limited space and water quantity. As a result, not only a variety of solids such as feed residue and fish excrement, Protein as an organic matter, fat component and ash are accumulated in the breeding water very quickly and the breeding water is contaminated.

Therefore, it is necessary to maintain the water quality of the breeding water at a certain level through the filtration treatment of the breeding water, and to prevent the water pollution in the adjacent rivers and the coastal waters due to the breeding water discharged from the aquaculture farm. And a biological filtration system for removing ammonia and nitrogen components contained in the breeding water by a microorganism is installed in the aquaculture farm.

However, even if a water treatment system including a solids filtration tank and a biological filtration tank is applied to the aquaculture farm, it is difficult to completely remove the solids content, and in most farms producing marine fishes inland, A large amount of concrete settling tank with a large amount of concrete drainage line is laid out in the outdoors so that the water flowing through the concrete drainage line is allowed to stay in the settling tank for a certain time to sediment the solid component contained in the water, And the removed water is discharged as final treated water.

If the large sedimentation tank is laid out in the outdoor of the aquaculture farm as described above, there is a problem that the site area required for the facility of the aquaculture site and the purchase cost of the site are increased, and there is a problem that the accumulated solids component in the bottom of the sedimentation tank, In the treatment process, the discharge of the breeding water through the concrete drainage channel has to be blocked, so that the operation of the aquaculture facility is interrupted periodically, which is a factor that greatly reduces the productivity of culturing objects.

Particularly, in the sludge removal operation of the settling tank, a large amount of sludge stored in the settling tank is gradually discharged at a relatively low flow rate, and the sludge component having a high moisture content distributed widely over the bottom of the settling tank is exposed to the atmosphere, And then the sludge is finally cut off. Therefore, there is a problem that the sludge treatment process takes a lot of time and cost, and it is also difficult to efficiently and economically operate the aquaculture facility.

In addition, since the sedimentation tank attached to the aquaculture farm is mostly a water tank, it is almost impossible to remove the suspended particles floating in the water from the sedimentation tank. As a result, And it has become a factor to cause water pollution in the nearby rivers and coastal waters. It is anticipated that the emission standards of the farms will be more strictly restricted in the future.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a frame body in the shape of a rectangular parallelepiped frame so as to be seated in a concrete drainage path without causing any trouble to the water for breeding, A bubble distributor is disposed in an inner lower portion of the frame body and a collection membrane having a solid waste receptacle is connected to the rear upper side of the frame body and a solid waste discharge pipe extending from the receptacle is connected to a settling tank, In the final discharging process of water, the solids contained in the water are floated and coagulated with air bubbles so as to be collected inside the collection membrane, and then sent from the collection container to the precipitation tank to concentrate the high concentration sludge. Even without a settling tank, It is possible to satisfactorily satisfy the quality of water required for discharged water and to rapidly separate only the concentrated sludge component without stopping the operation of the aquaculture facility. Therefore, efficient utilization of the farm site, economical operation of the aquaculture facility, and productivity The present invention provides a solids collecting apparatus for a drainage system for onshore farms that can greatly contribute to the improvement of the quality of the land.

In addition, each of the frame frames constituting the frame body is assembled in a form of a pipe frame which can be stretched (length-adjustable), and the collecting film is arranged along the frame frame arranged in the vertical direction on the rear side of the frame body So that the solids collecting device can be easily installed and operated without being affected by the dimensions of the concrete drainage channel and the fluctuation of the water level of the breeding water. In addition, By arranging the sediment water gauge blocks constituting the inclined surfaces, it is possible to collect and process the sediment that is not floated with the bubbles but pushed along the bottom surface of the concrete drainage channel, and the sediment collecting block On the other hand, in the bubble disperser, a membrane disperser and an air stone dispersion A by was placed together so as to occur concurrently air bubbles of varying size and pressure, and that the absorption capabilities and purifying function of the raising of the solids by the air bubbles so that more can be further maximized in still another aspect.

According to an aspect of the present invention, there is provided a solid material collecting apparatus including a frame body made of a rectangular frame-shaped frame frame and inserted and installed in a concrete drainage passage, and a frame body connected to a rear side of the frame body in a width direction of a concrete drainage passage. A bubble dispersing device disposed in an inner lower portion of the frame body; and a receptacle connected to an inner side or a middle portion of the collecting film at an outer side thereof Wherein both ends of the collecting membrane are connected to a frame frame arranged in a vertical direction on a rear side of the frame body respectively, and a richer and a thicker are connected to the upper and lower ends of the collecting membrane at regular intervals, At the front side or at the center of the collecting membrane, And a solid material discharge pipe for transferring the collected solid material to the sedimentation tank is connected to the drainage tank.

In a more preferred embodiment, the frame body has twelve pipe framework frames stretchable in the longitudinal direction connected to each other in a rectangular parallelepiped shape by a pipe connector on the corner side. At both side ends of the collection film, A mounting ring or a mounting tube movable in the upward and downward directions along the frame frame arranged in the direction of the frame is installed as a connecting means, the bubble dispersing device includes a membrane dispersing device connected at regular intervals along both sides of the air injection pipe, And an air stone dispersing unit connected to the air injection pipe at regular intervals along the upper side of the air injection pipe. The sediment collecting bases connected to the floor of the concrete drainage duct are connected to the lower end of the frame body, The collection basin is formed such that a slope for water flow rising is formed on the front side And an insert box inserted into the main body through an upper surface of the main body, wherein an upper surface of the insert box is in an opened state, and both side ends of the insert box And a handle is connected to the surface.

According to the present invention, in the final discharge process of the water discharged through the concrete drainage duct, the solid component contained in the water is floated and coagulated with the bubbles and collected into the trapping membrane, It is possible to satisfactorily meet the quality of water required for the final effluent without the need of a large area sedimentation tank and to rapidly separate only the concentrated sludge component without stopping the operation of the aquaculture facility .

Particularly, the length of each frame frame constituting the frame body can be adjusted, and the collecting film is automatically lifted and lowered along the frame frame in accordance with the discharge water level of the raising water, so that the dimensions of the concrete drainage channel and the water level fluctuation The easy installation and operation of a solids collection device that is almost unrestrained, and the adjustment of the reaction pathways necessary for solids capture, are also feasible, and the sediment, which floats along the bottom of the concrete drain without being floated with air bubbles, It is possible to separately collect and process the sediment by using the sediment collector and the insert box disposed thereunder.

In addition, the sediment collecting bases allow the rising water stream of the breeding water to be generated, while simultaneously generating air bubbles of various sizes and pressures by using the membrane dispersing device and the air stone dispersing device simultaneously, It is possible to maximize the purification function of the breeding water, and ultimately, to efficiently utilize land-based farm land, to operate environment-friendly and economical aquaculture facilities, and to improve the productivity of cultured objects.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view of a solids collecting apparatus for drainage on a land farm in accordance with the present invention. FIG.
2 is a plan view showing a state where a solid material collecting apparatus of the present invention is installed in a concrete drainage path.
3 is a side sectional view of Fig. 2; Fig.
4 is an exploded perspective view of the main body of the frame body assembly by the pipe connector.
5 (a) and 5 (b) are sectional views of the main part showing the expansion and contraction structure of the frame body.
6 is an exploded perspective view showing another embodiment of the trapping film.
7 is a use state view of the present invention.
8 is a side sectional view showing another application example of the settling tank.

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

As shown in FIGS. 1 to 3, each of the solids collecting apparatuses for a drainage system for a land farming saline according to the present invention includes a frame body 1 formed as a rectangular frame-shaped frame frame and inserted into a concrete drainage passage 10a, A collecting membrane 5 connected to the rear side of the frame body 1 in the width direction of the concrete drainage channel 10a and spreading in the form of & A bubble diffuser 11 disposed at an inner lower portion of the collecting membrane 5 and a receptacle 8 connected to the inside or the center of the collecting membrane 5 as a basic component.

The concrete drainage line 10a installed in a farm on the land is a square channel having an open top with a width and height within a range of 50 cm to 2 m and a concrete drain line 10a The frame body 1 must be manufactured in such a size as to be able to insert and seat the solid material collecting apparatus 10 of the present invention into the concrete drainage path 10a, In the collecting side of the considered solid matter, the frame body 1 having a rectangular parallelepiped shape whose length is longer than the shape of the cube is 1 to 2.5 m is advantageous.

However, when a single molded frame body 1 is manufactured in accordance with the dimensions of the concrete drainage path 10a in which the solid material collecting apparatus 10 of the present invention is installed, the solid material collected in the concrete drainage path 10a, It is not possible to apply the collecting device 10 to the concrete drainage path 10a having other dimensions, so that the compatibility of the solids collecting device 10 is deteriorated. In view of this, the frame body 1 is disassembled It is most preferable that each frame frame constituting the frame body 1 is also made of a pipe frame which can be stretched (adjusted in length).

For this purpose, in the accompanying drawings, the frame body 1 is constituted by twelve frame frames and each frame frame 4 is formed into a rectangular parallelepiped shape by a total of eight pipe connectors 4 applied to each corner side of the frame body 1 And each frame frame is composed of two main pipes 2 and one insert pipe 3 in which both sides of the main pipe 2 are inserted into the inside of the main pipe 2. [ The pipe frame was made flexible.

4, a ring holder 4a into which the end of the main pipe 2 of the frame frame arranged in the width direction of the concrete drainage passage 10a is inserted is provided, And the side of the main pipe 2 of the frame frame arranged in the longitudinal direction and the height direction of the concrete drainage path 10a are respectively installed at an angle of 90 degrees on the outer peripheral surface of the ring holder 4a, And a bolt type mounting knob 4c for fixing the main pipe 2 of the frame frame inserted into the ring holder 4a.

Therefore, the end face of the main pipe 2 of the frame frame arranged in the height direction and the longitudinal direction of the concrete drainage channel 10a is closed, and is fastened to the assembly bolt 4b of the pipe connector 4 at the center of the end face, And the ends of the main pipes 2 on both sides of the frame frame arranged in the width direction of the concrete drainage passage 10a are formed into a toothed portion 2a which is in close contact with the inner side surface of the concrete drainage passage 10a So that the solid material collecting apparatus 10 of the present invention can be stably fixed to the inside of the concrete drainage path 10a while sufficiently holding the discharged water pressure of the raised water (see FIG. 2).

In addition, as shown in FIG. 5 (A), bolt-type threaded portions 3a and 3b are formed on the left and right sides of the insert pipe 3 in the longitudinal direction, respectively, As shown in FIG. 5 (B), the threaded portions 3a and 3b may be fastened along a nut-shaped threaded portion formed on the inner circumferential surface of the main pipe 2. Alternatively, the main pipe 2 and the insert pipe The elongating and contracting structure in which the length adjusting holes 1b to which the assembling screws 1a are fastened are formed at regular intervals in the longitudinal direction of the body 3.

The elongating and contracting structure shown in Fig. 5 (a) allows the main pipe 2 to rotate in the axial direction along the threaded portions 3a and 3b of the insert pipe 3, 5, the main pipe 2 is slid in the axial direction along the insert pipe 3 to adjust the length of the frame frame to a required length. On the other hand, A method in which the length of the main pipe 2 and the length adjusting hole 1b formed in the insert pipe 3 are made to correspond to each other and the assembly screw 1a is fastened to the hole to maintain the adjusted length of the frame frame.

The pipe connector 4 shown in FIGS. 4 and 5 and the expansion and contraction structure are merely exemplary ones that can be applied to the present invention. In addition, various other types of pipe connecting means or stretchable connection structures can be applied And all the parts constituting the frame body 1 are made of stainless steel (SUS 304) or corrosion resistance such as zinc plating in consideration of the supporting strength against the discharged water pressure of the breeding water and the corrosion resistance against the water (sea water) It is preferable to use a metal material coated with a diameter of 30 to 40 mm and a thickness of 1.5 to 2 mm with respect to the main pipe 2.

The collection membrane 5 constituting the solid material collecting apparatus 10 of the present invention can be used as a solid material collecting apparatus in which the thickness of the frame body 1 is twice to twice the width of the frame body 1, The frame body 1 is preferably formed in a rectangular shape having a length corresponding to about 4 times and a width corresponding to 1/3 to 1/4 of the height of the frame body 1, It is preferable that at least two portions of both sides of the collecting membrane 5 are bound to the upper side of the two frame frames arranged.

When the collecting membrane 5 is connected to the upper rear side of the frame body 1 in the above-described manner, the collecting membrane 5 spreads in a ">" So that the floating and flocculated solids components together with the bubbles can be collected inside the vertex of the rear end of the collecting membrane 5 and quickly discharged to the receptacle 8 and the bottom surface of the concrete discharging path 10a and the collecting membrane 5 It is possible to prevent the discharge flow of the breeding water from being disturbed, and if necessary, the frame frame 1 and the frame body 1, which are arranged horizontally in the rear lower side of the frame body 1, The lower end side of the central portion of the membrane 5 may be connected by a pair of support ropes 5b to reinforce the support strength of the collection membrane 5 with respect to the discharge water pressure of the breeding water.

In addition, by connecting the floats 6 and the sediments 7 to the upper end and the lower end of the collecting membrane 5 at regular intervals, the collecting membrane 5 is moved upward and downward And the pipe 6 or the pipe-like rich or rope-like rich material having a longer length is used instead of the spherical or cylindrical pipe 6 as shown in the drawing, However, the installation and handling of the pipe-type rich or rope-like rich material may be somewhat complicated, but it is preferable that the solid material component floating and flocculated by the bubbles is prevented from flowing out over the upper surface of the collecting membrane 5 The structure becomes more advantageous in terms of the structure.

1 to 3, the cylindrical receptacle 8 is connected to the collecting membrane 5 in the vertical direction inside the center portion of the collecting membrane 5 as an example of the receptacle 8 provided together with the collecting membrane 5. As shown in Fig. An opening 8a for introducing the solid material is formed on the upper side of the front side of the receptacle 8 so that the depth and the width of the opening 8a can be arbitrarily adjusted and the receptacle 8 Is connected to the lower end of the collecting tank 8, and the upper end surface of the collecting container 8 is closed.

6, the funnel-shaped receptacle 8 is connected to the upper end of the center portion of the collecting membrane 5, while the pipe-like or rope-like richer 6 described above is connected to the upper end of the collecting membrane 5, The opening 8a is formed at the upper end of the central portion of the collecting membrane 5 corresponding to the inlet of the collecting container 8 and the solids discharge pipe 9 are connected to the outlet of the front end of the receptacle 8 and various types of receptacles other than the cylindrical or funnel receptacle 8 can be applied and the material of the receptacle 8 can be a predetermined buoyancy A plastic material is preferable.

A further consideration in applying the collecting membrane 5 having the receptacle 8 to the solid material collecting apparatus 10 of the present invention is that the water level of the collected water discharged through the concrete drainage path 10a is (Height) of the collecting membrane 5 is automatically set to an optimum position suitable for removing the solids component, that is, the position where the richer 6 is placed on the surface of the breeding water, irrespective of the water level fluctuation of the breeding water, .

6, the mounting ring 5a or the mounting tube 5c, which is movable in the upward and downward directions along the frame frame arranged in the vertical direction on the rear side of the frame body 1, The mounting ring 5a or the mounting tube 5c is advantageously made of a plastic or metal material having a smooth surface so as to minimize the frictional resistance with the frame frame, It is preferable that the solid matter discharge pipe 9 is installed as a flexible hose.

It is also possible to apply a rope ring larger than the diameter of the main pipe 2 of the frame frame instead of installing the mounting ring 5a or the mounting tube 5c as described above, It is possible to form a pipe passage through which the main pipe 2 of the frame frame can be loosely inserted into the collecting membrane 5 itself.

The bubble dispersing device 11 constituting the solid material collecting device 10 of the present invention may be any kind of product as long as it can sweep and collect the solid component contained in the raising water and discharge it to the receptacle 8, Considering the water flow characteristics of the concrete drainage line 10a having a relatively large flow rate and a high flow rate at a level of 1 ton / sec, it is more desirable to sufficiently collect the solids by simultaneously generating bubbles of various sizes and pressures desirable.

1 to 3, an air bubble distributor 11 according to the present invention includes an air injection pipe 12 arranged longitudinally in the center of a lower side of a lower surface of a frame body 1, A membrane dispersing device 13 connected to the air injection pipe 12 at regular intervals along both sides of the air injection pipe 12 and an air stone dispersing device 14 connected to the air injection pipe 12 at regular intervals, And an air injection port 12a through which an air injection hose 12b is connected is provided at one end (right side in the figure) of the air injection pipe 12. [

The membrane disperser 13 adopts the structure of a membrane filter which is widely used as a filter medium and injects air pressure in a direction opposite to the filtration direction to generate a large quantity of fine bubbles of 0.1 mm or less, The air-stone dispersing device 14 is a well-known product widely used in an aquarium fish water tank or the like, and can eject bubbles having a size of about 0.5 mm at a relatively high pressure and a high speed.

When the bubble dispersing device 11 is constructed in the above-described manner, the membrane dispersing device 13 arranged on both left and right sides of the air injection pipe 12 (five in the left and right in the drawing) A plurality of (four in the figure) air-stone dispersing devices 14 are disposed along the center portion of the micro-bubble atmosphere in which the micro-bubble atmosphere having excellent trapping performance of the solid component is formed, The function of collecting the solids by the bubble dispersing device 11 can be sufficiently secured despite the discharge flow.

1 to 3, one bubble distributor 11 is disposed inside the lower portion of the frame body 1. However, as described above, a frame frame that can be stretched and contracted according to the dimensions of the concrete drainage passage 10a is applied The bubble diffuser 11 is also manufactured in the form of a small unit having a size of about 50 cm by 50 cm and a bubble distributor 11 of the small unit in the lower inner area of the frame body 1 It is possible to arrange them in close contact with each other.

In addition, a bobbin 11a in the form of a rectangular frame for supporting the air injection pipe 12 and the membrane dispersing device 13 is provided on the bottom side of the bubble dispersing device 11. According to the application of the support 11a The bubble distributor 11 can be more securely and firmly disposed on the bottom surface of the concrete drainage passage 10a and the surface of each membrane dispersion device 13 can be separated from the bottom surface of the concrete drainage passage 10a A large amount of micro-bubbles can be generated from the membrane disperser 13, and the pedestal 11a is also most preferably a corrosion-resistant metal frame such as stainless steel.

1 to 3 as a component constituting a further essential part of the present invention, a sediment collector 15 mounted on a bottom surface of a concrete drainage passage 10a is connected to a lower end side of the frame body 1, The sediment collector 15 includes a main body 16 having a water ascending slope 16a formed on a front side thereof and an upper surface of the main body 16 through an upper surface of the main body 16. [ And an insert box 17 inserted into the main body 16. A connection frame 15a for connecting the main body 16 to the frame body 1 is provided on the rear side of the main body 16. [

It is preferable that the main body 16 is made of a heavy concrete block so as to be stably positioned on the bottom surface of the concrete drainage path 10a while sufficiently supporting the discharge water pressure of the raising water. So that the sediment components coming out along the bottom surface of the concrete drainage path 10a can be collected without being floated by the bubbles and being collected in the main body 16, .

In addition, a handle 17a is connected to the upper surface of both sides of the insert box 17 so as to periodically collect the collected sediment by easily separating the insert box 17 from the main body 16, It is possible to separately collect sediment collected in the insert box 17 by using a suction pipe connected to a siphon or a vacuum pump instead of separating the insert box 17 itself if necessary.

In the state where the solid material collecting apparatus 10 of the present invention constructed as described above is installed inside the concrete drainage path 10a as shown in Figs. 2 and 7, an air pump or an air blower When the high-pressure compressed air is injected into the dispersing device 11, the solids contained in the water are lifted and coagulated with the bubbles in the final discharging water through the concrete drainage line 10a, So that it can be sent from the sump 8 to the settling tank 20 via the solids discharge pipe 9.

7, the sedimentation tank 20 includes a tank body 20a having a funnel-shaped sedimentation port 20b formed thereunder and an overflow pipe 24a connected to an upper end of the tank body 20a, A sludge discharge pipe 22 and a support leg 20c connected to the lower end and the bottom of the sedimentation port 20b and a discharge pump 23 installed in the sludge discharge pipe 22, And the solid matter discharge pipe 9 extending from the receptacle 8 is connected to one side (left side in the figure) of the tank body 20a.

A sedimentation induction plate 21 in the form of a partition for guiding the solids component introduced through the solids discharge pipe 9 to the sedimentation port 20b side is provided in one side of the tank main body 20a to which the solids discharge pipe 9 is connected So that the solids component discharged from the sump can be settled to the sedimentation port 20b and concentrated to the sludge having a high concentration. The sedimentation water subjected to sedimentation treatment of the solids component is passed through the overflow pipe 24 Or is reintroduced into the concrete drainage path 10a side corresponding to the previous stage of the solids collecting apparatus 10. [

As described above, the concentrated sludge component that has been settled to the settling port 20b of the settling tank 20 is discharged and recovered at a required amount from time to time using the sludge discharge pipe 22 having the discharge pump 23 to be discarded or recycled The improvement of the solids and sludge treatment method can sufficiently satisfy the quality of water required for the final discharge water even if a large area sedimentation tank is not provided in the athletics farm, and the concentrated sludge It is possible to perform rapid separation processing of only the components.

Particularly, the length of each frame frame constituting the frame body 1 can be adjusted, and the collecting membrane 5 is automatically lifted and lowered along the frame frame in accordance with the discharge water level of the raising water, It is possible to easily set up and operate the solids collecting device 10 which is almost free from the fluctuation of the water level of the breeding water and the operation of the concrete drainage path 10a Can be separately collected and processed using the sediment collector 15 disposed at the lower end of the frame body 1 and the insert box 17 installed in the sediment collector 15 disposed at the lower end of the frame body 1.

In addition to this, the sediment water collecting bed 15 is used to generate a rising water flow of the breeding water, and the membrane dispersing device 13 and the air stone dispersing device 14 are used in combination to generate bubbles of various sizes and pressures simultaneously It is possible to further maximize the function of collecting solid matter by bubbles and the function of purifying the breeding water, and ultimately, to efficiently utilize the site of the onshore farm site, to operate the eco-friendly and economical aquaculture facility, You can.

8 shows another embodiment of the sedimentation tank 20 applicable to the present invention. In place of the sedimentation induction plate 21, a sedimentation induction plate 20 of double pipe type comprising an outer pipe 25 and an inner pipe 26, The outer pipe 25 and the inner pipe 26 are vertically oriented standpipes having upper and lower end portions opened. The upper and lower end portions of the outer pipe 25 and the inner pipe 26 are connected to each other.

Therefore, the solids discharge pipe 9 is connected to the wall of the tank main body 20a and the outer pipe 25 and is connected to the lower portion of the inner pipe 26. In order to effectively deposit and degas the solids component, The upper end of the outer pipe 25 is positioned below the upper end of the outer pipe 25 while the upper end surface of the outer pipe 25 is positioned in line with the upper end surface of the tank main body 20a, Is further supported by a bracket 25a provided inside the wall of the tank main body 20a and may be provided with a wire net 24a for blocking the inflow of solids into the inlet side of the overflow pipe 24,

The sedimentation tank 20 described on the basis of FIGS. 7 and 8 is a typical example that can be applied to the present invention. The sedimentation tank 20 precipitates the solid component discharged from the receptacle 8 of the solids collection device 10, It is possible to use a sedimentation tank having any structure as long as it can concentrate the sludge into the sludge and discharge the concentrated sludge to the pump mechanism.

In addition, the sedimentation tank 20 may be installed below the ground to allow the solids discharge through the solids discharge pipe 9 to occur naturally by the water level difference, or a small pump may be installed in the solids discharge pipe 9, A natural drainage method through the overflow pipe 24 may be applied to the sedimentation water stored in the sedimentation tank 20 while the solids are separated, A small pump may be installed to perform the final discharge operation of the breeding water in a pumping manner.

1: Frame body 1a: Assembly screw 1b: Length adjustment ball
2: main pipe 2a: tooth portion 2b: fastening hole
3: insert pipe 3a, 3b: thread 4: pipe connector
4a: Ring holder 4b: Assembly bolt 4c: Mounting knob
5: collection membrane 5a: mounting ring 5b: support rope
5c: Mounting tube 6: Rich 7:
8: receptacle 8a: opening 9: solid discharge pipe
10: Solid material collecting device 10a: Concrete drainage path 11: Bubble dispersing device
11a: pedestal 12: air inlet tube 12a: air inlet
12b: air injection hose 13: membrane disperser 14: air-stone dispersing machine
15: number of sediments 15a: connection frame 16: main body
16a: inclined surface 17: insert box 17a: handle
20: settling tank 20a: tank body 20b: settling port
20c: support leg 21: sediment guide plate 22: sludge discharge pipe
23: exhaust pump 24: overflow pipe 24a:
25: outer pipe 25a: bracket 26: inner pipe

Claims (10)

A solid material collecting apparatus (10) installed on a concrete drainage line (10a) of a land farm to remove solids from aquaculture water discharged from a farm,
The solid material collecting apparatus 10 includes a frame body 1 made of a rectangular parallelopiped frame frame and inserted and installed in a concrete drainage passage 10a and a concrete drainage passage 10a disposed on the rear upper side of the frame body 1. [ A collecting membrane 5 connected in the width direction of the frame body 1 and extending in the form of ">" in a flow of raising water, a bubble dispersing machine 11 disposed in the lower inside of the frame body 1, And a receptacle (8) connected to the inside or the outside of the central part of the main body (5)
The both ends of the collecting membrane 5 are connected to frame frames arranged vertically on the rear side of the frame body 1 and are connected to the upper and lower ends of the collecting membrane 5 at regular intervals An opening 8a for introducing solids floated by the bubbles into the inside of the receptacle 8 is provided at the front side of the receptacle 8 or at the center of the collecting membrane 5, And a solids discharge pipe (9) for transferring the collected solids to the sedimentation tank (20) is connected to the collection box (8). The frame body according to claim 1, wherein the frame body (1) has twelve frame frames connected in a rectangular parallelepiped shape by a pipe connector (4) on the corner side, and each frame frame has two main pipes And an insert pipe (3) having both sides inserted into the main pipe (2)
The main pipe 2 and the insert pipe 3 are threadedly assembled or connected to each other through a length adjusting hole 1b for fastening the assembly screw 1a across the main pipe 2 and the insert pipe 3 ) Are formed correspondingly at regular intervals. The pipe connector according to claim 2, wherein the pipe connector (4) comprises: a ring holder (4a) into which an end side of a frame frame arranged in the width direction of the concrete drainage channel (10a) is inserted; Two assembly bolts 4b which are installed at an angle of 90 degrees and on which the end side of the frame frame arranged in the height direction and the longitudinal direction of the concrete drainage channel 10a are assembled, And a bolt-type mounting knob (4c) for fixing the frame. 4. The method according to claim 3, wherein both ends of the frame frame arranged in the width direction of the concrete drainage channel (10a) are formed as toothed portions (2a) in close contact with the inner side surface of the concrete drainage channel (10a) Solids collection device. [5] The dust collecting apparatus according to any one of claims 1 to 4, wherein at both side ends of the collecting membrane (5) are mounted on the rear side of the frame body (1) Characterized in that a ring (5a) or a mounting tube (5c) is provided as connecting means. The bubble dispersing device according to any one of claims 1 to 4, wherein the bubble diffuser (11) comprises an air injection pipe (12) and a membrane dispersing device (12) connected at both sides of the air injection pipe An air injection tube 12 disposed at one end of the air injection tube 12 and connected to the air injection tube 12b at a predetermined distance along an upper surface of the air injection tube 12; And an air inlet port (12a) to which the air inlet port (12a) is connected. 7. The landfill as claimed in claim 6, wherein a base (11a) in the form of a rectangular frame for supporting the air injection pipe (12) and the membrane dispersing device (13) is provided on the bottom side of the bubble diffuser Collecting device. 5. The apparatus according to any one of claims 1 to 4, wherein a sediment collector block (15) placed on a bottom surface of the concrete drainage channel (10a) is connected to the lower end portion of the frame body (1)
The sediment collector 15 includes a main body 16 of a heavy object on which a slope for ascending a water stream 16a is formed on the front side and a main body 16 which is inserted into the main body 16 through an upper surface of the main body 16. [ And an insert box 17 to be installed,
Wherein an upper surface of the insert box (17) is in an opened state, and a handle (17a) is connected to upper surfaces of both side ends of the insert box (17). The water treatment system according to any one of claims 1 to 4, wherein the sedimentation tank (20) comprises a tank body (20a) in which a funnel type sedimentation port (20b) A sludge discharge pipe 22 connected to a lower end of the sedimentation port 20b and a discharge pump 23 installed in the sludge discharge pipe 22,
A solids discharge pipe 9 extending from the receptacle 8 is connected to an upper portion of one side of the tank main body 20a and a solids component introduced through the solids discharge pipe 9 is introduced into one side of the tank main body 20a, And a sediment guide plate (21) in the form of a partition for guiding the sediment to the port (20b) side. The internal combustion engine according to claim 9, wherein a sedimentation induction mechanism of a double pipe type comprising an external pipe (25) and an internal pipe (26) is provided in one side of the tank body (20a) The pipe 25 and the inner pipe 26 are vertically oriented stand pipes having upper and lower ends opened,
The solids discharge pipe 9 is connected to one side wall of the tank main body 20a and the lower side of the inner pipe 26 through the outer pipe 25 and the upper end of the inner pipe 26 is connected to the outer pipe 25 Wherein the solid collecting device is located below the upper end of the ground.

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