KR19990011683U - Circulation filtration system of fish farm - Google Patents

Abstract

The present invention relates to a circulating filtration system of a fish farm, which allows the filtration of water from many fish farms using a centrifuge instead of a conventional sedimentation tank, and the sedimentation tank requires a large area. Since water is cooled, there is a problem in that a large fuel cost consumption of a boiler is applied in winter. The present invention is to maintain the winter water temperature of 18 ℃ fish tank in the fish tank, and the purified water filtered in the centrifuge is rapidly circulated supply, so the cooling rate of the circulating water is low and only the supplementary water corresponding to the sludge discharge amount is heated to supply the boiler It is possible to reduce the cost of fish farming due to low fuel consumption, and it is possible to farm fish with low cost and small area facilities, and it is possible to efficiently fish farming.

Description

Circulation filtration system of fish farm

The present invention, instead of the existing sedimentation tank, installed a centrifuge that can separate and remove the sludge in the fish farm, so that the water from the fish farm can be continuously circulated with replenishment of raw water from the sea. It can maintain the temperature of 18 ℃ of fish farm, minimize the fuel consumption of heating boiler, and increase the growth rate of fish by maintaining clean fish tank by circulating filtration by centrifugal separator without facility of large area sedimentation tank. And a circulating filtration system for fish farming tanks aimed at increasing the efficiency of farming.

In order to increase the effective growth and growth rate of fish, a number of disks, which can be rotated by themselves, are installed in the upper part of the fish farm, and ammonia generated from fish meal and excreta generated by aerobic bacteria generated during circulation filtration. In order to remove the nitric acid and to supply dissolved oxygen by using the aberration of the feed water, sludge and waste particles precipitated in the fish farm were sent to the sedimentation tank divided into several compartments. In order to maintain the water temperature of fish farming tank at 18 ℃, the water temperature reduction in winter was heated by supplying the water temperature of 14 ℃ to the boiler by using a boiler to maintain the water temperature of 18 ℃ suitable for fish farming water temperature. Since the temperature of filtration circulating water and seawater in the settling tank is low, the water temperature is transferred from the boiler. Since ever increasing need to have, nor to increase the supply of boiler fuel cost is the cost of fish farming have been a problem in that a high price, the settling tank facilities because it requires a large area of space, etc. There was a problem in that the cause of increased facility cost fish farms.

The present invention is to remove and improve such a conventional problem, it is to use a centrifuge of sludge separation removal.

The present invention allows 25 to 30% of the total amount of water in the fish farm to discharge the sludge settled through the sludge drain pipe installed at the bottom of the fish farm, and the soiled water in the fish farm is circulated as a centrifuge for sludge separation. By connecting the circulation pipe to his inlet pipe for filtration, it is possible to circulate and supply the water from the fish tank as a motor pump, so that many filtered water can be processed quickly, and it is possible to maintain the water temperature of 18 ℃ in the fish tank even in winter. When removing sludge settled in the fish farming tank, only 25 ~ 30% of sludge discharged water needs to be supplemented with raw water through the raw water introduction pipe.In the boiler, the water temperature of the tank can be maintained at 18 ℃ even in winter with the boiler. Reduction of fuel consumption allows to reduce fish farming costs and centrifugation of sludge separation Since the water in the fish farm is circulated and rapidly filtered and then circulated to the water tank through the fountain pipe, it is conceived to efficiently improve the fish farming in a small space without the sedimentation tank facility requiring a large area. It will be described in detail according to the accompanying drawings as follows.

1 is a cross-sectional view showing the overall configuration of the present invention

2 is a centrifugal separator for sludge separation and removal in circulating water in the present invention

Enlarged cross section

3 is an enlarged cross-sectional view taken along the line A-A of FIG.

Explanation of symbols for important parts of the drawings

1: Fish farming tank 2: Sludge discharge pipe 4,4 ′: Water tank

6 Fountain tube 6 ′ Fountain hole 7 Centrifuge

8: Import pipe 9: Circulation pipe 10: Water pipe

11: connector 15: raw water introduction pipe 17: upper plate

17 ′: Lower plate 18: Pressure chamber 19: Clean water separation pipe

19 ′: Lower 20: Perforated Cap 20 ': Inclined Perforated

22: lower fixing plate 23: centrifuge tube 24: support cap

26: outflow pipe 28: clearing room 30: shaft

M, M ′, M ″: Motor P, P ′, P ″: Pump

In the upper portion of the fish culture tank 1, a plurality of bone discs 3 are inserted into the fixed rods 5 and overlapped to form a honeycomb-shaped ridge conduit 3 'between the overlapped disks.

(4) A plurality of 4's are formed on the shaft 30, and the upper part thereof is provided with a long water fountain 6 in the transverse direction a little behind the center of the water container 4 and 4 '. 6) When water is dropped into the ridged conduit 3 'of the water chamber 4, 4' through the fountain hole 6 'which is lined up on the lower surface, 4) The 4 'is designed to rotate on its own to provide a clean water supply. At the bottom of the fish farm 1, a sludge water discharge pipe 2 is placed in the fish farm 1 In order to discharge the sludge settled out first and install a centrifuge (7) for sludge separation and removal in the vicinity of the fish farm (1), import the inside of the fish farm (1) and the centrifuge (7) Connect and install the circulation pipe 9 between the pipes 8, take out the soiled water of the fish farm 1 as the motor M pump P of the circulation pipe 9, and centrifuge. The circulating filtration in (7) and the clean water filtered in the centrifuge (7) are supplied to the water fountain (6) through the fresh water pipe (10) and the connecting pipe (11), and the motor (M ") pump (P). Water jet by ″) to spray from the fountain hole 6 '. In addition, the connection pipe 11 was installed to connect the sterilant dispenser 12 and the boiler 13 to increase the water temperature of the sterilant dosing and sea raw water 14 or the temperature of the circulating water to an appropriate temperature. In addition, the raw water inlet pipe 15 is connected to the import pipe 8 of the centrifuge 7 so as to be supplied as a motor M 'pump P' for supply of sea water 14. In addition, the configuration of the centrifuge 7 forms a pressure chamber 18 consisting of upper and lower diaphragms 17 and 17 'inside the upper import pipe 8 of the body 16, and the upper and lower diaphragms. (17) (17 ') in the center of the clean water separation pipe 19 to the length of the lower (19') fixed through the central portion of the porous cap 20 fixed to the lower plate (17 ') fixed and porous The cap 20 allows water to flow into the perforated hole 20 ', which is inclined, and the top of the centrifuge tube 23 installed in the support cap 24 on the lower fixing plate 22 on the bottom of the porous cap 20. By fixing the lower (19 ') of the clean water separation pipe 19 was configured to be inserted into. In addition, the outlet cap 24 was connected to the center of the support cap 24 to connect the sludge discharge pipe 27. In addition, the fresh water chamber 28 is installed on the upper plate 17 so that the sludge is filtered out by the centrifugal rotation in the centrifuge tube 23 and the upper fresh water chamber 28 along the clean water separation tube 19. It was made to flow in.

The centrifugal separator 7 of the present invention can be installed in large numbers according to the size of the fish farming tank 1 so that the circulation filtration efficiency can be improved.

The present invention configured in this way is that the dirty water in the fish tank 1 is introduced through the import pipe 8 of the centrifuge 7 by the motor (M) pump (P) through the circulation pipe (9) and at the same time Sludge and the like are drained from the pressure chamber 18 consisting of the lower diaphragm 17 and 17 'to the inclined pores 20' of the porous cap 20 by hydraulic pressure, and rotate in the centrifuge tube 23. This is centrifuged. The separated sludge is precipitated downward along the inner wall of the centrifuge tube 23 and simultaneously discharged to the outside of the outlet pipe 26 and the sludge discharge pipe 27.

In addition, the clean water (purified water) in which the sludge is centrifuged according to the rotational action by the hydraulic pressure in the centrifuge tube 23 is separated into the upper fresh water chamber 28 through the clean water separator tube 19, and the fresh water tube 10 and The water is supplied to the water pipe 6 installed on the water tank 4, 4 'of the fish farm 1 by the motor M ″ pump P ″ installed in the connecting pipe 11. The water in the tube 6 is fractionated on the water chamber 4, 4 'through a plurality of fountain holes 6' in a row. This action is fractionated at the rear of the dimensional disk 4, 4 ', as shown in FIG. 3, and the fractioned water is interposed between a plurality of bone discs 3 overlapping and fixed to the rod 5. It falls to the ridge conduit 3 'and flows out to the bottom. At this time, by the water pressure drop and the weight of the water, the four-dimensional board 4 (4 ′) will continue to rotate by itself starting from the axis (30). Due to the rotation of the water container 4 and 4 'and the action of the fountain ejected into the injection hole 6', the fungicide dosed in the fungicide dispenser 12 is evenly diluted and the water filter 4 of the circulating filtration. The aerobic bacteria native to (4 ') eat ammonia and nitric acid from fishmeal and meat excretion, so that the aerobic bacteria can be eliminated, and the dissolved oxygen can be increased by using a rotary drop of water. As such, the present invention introduces the soiled water of the fish farm 1 into the centrifuge 7 through the circulation pipe 9 and in the centrifuge 7 by the water pressure of the motor M pump P. The sludge is separated and discharged by the centrifugal action, and the clean water separated from the clean water separation pipe 19 is separated into the fresh water chamber 28 and flows into the fresh water pipe 10 by the water pressure of the motor M ″ pump P ″. The water pipe 1 is fountained from the fountain hole 6 'of the water pipe 6 through the connecting pipe 11, so that the fish farm 1 can always be kept clean.

The present invention can easily discharge the sludge particles settled in the tank through the sludge discharge pipe (2) installed on the bottom of the fish farming tank (1), and the dirty water by connecting the centrifuge (7) of the sludge separation removal The efficiency of circulating filtration can be continuously increased and the centrifugal separator 7 can be moved and installed. Therefore, it does not require a large area such as a conventional sedimentation tank. Therefore, it is inexpensive to use the equipment and the water temperature of the fish farming tank 1 can be increased in winter. When maintained at 18 ° C, the water in the tank can be quickly circulated and used, and only the loss caused by the separate discharge of the sludge needs to be introduced and supplemented with the sea water 14 through the raw water introduction pipe 15, and also a small amount. Since only the water of the boiler 13 is heated, the fuel consumption is low, which can reduce the cost of fish farming and improve the efficiency of fish farming.

Claims (1)

In the upper part of the fish farm (1), a plurality of water tanks (4) (4 ') are installed on the shaft (30), and a water pipe (6') having a fountain hole (6 ') is installed thereon. 4) In the fish farm to allow 4 'to rotate on its own, an import pipe 8 is formed on one side of the upper and lower diaphragms 17 and 17' formed on the upper part of the body 16. ) And fix the clean water separation pipe 19 at the center of the upper and lower diaphragms 17 and 17 ', but fix the lower portion 19' to penetrate the center of the porous cap 20 having the inclined pores 20 '. And vertically install the centrifuge tube (23) between the bottom of the porous cap (20) and the support cap (24) on the lower fixing plate (22), and install the outlet pipe (26) to the support cap (24). 17) above the fish farm (28) to form a fresh water pipe (10) connected to the installation of the centrifugal separator (7) installed in the vicinity of the fish culture tank (1) having a sludge discharge pipe (2) (1) internal and centrifuge (7) Connect and install the circulation pipe (9) with the motor (M) pump (P) between the pipes (8) and the raw water introduction pipe (15) with the motor (M ') pump (P') to the import pipe (8). The circulating filtration device of the fish farm, characterized in that the connection pipe 11 with the motor (M ″) pump (P ″) is connected to the fresh water pipe (10) and the fountain pipe (6) to circulate filtration.