KR200335075Y1 - Apparatus for Removing Waste of Fish Farm - Google Patents

Abstract

The present invention relates to a feed debris and dirt removal device of the fish farm, and in particular, including a mixing tube and a micro-bubble generating tube to generate bubbles, and to remove the feed debris and dirt attached to the micro-bubble, filtered water It relates to a device for removing feed debris and dirt of the fish farm to feed back to the fish tank.

The present invention is an introduction pipe for introducing water in the tank of the fish farm; A primary air inlet connected to an inlet side of the inlet pipe; An inlet pump provided at the rear end of the first air inlet; A mixing pipe connected to the outlet side of the inlet pipe; A microbubble generating tube having a porous plate and having a lower end having a plurality of pores; A microbubble floatation tank to float the microbubble upwards; And a fine bubble separation tank having a contaminant discharge port and having a filtered water discharge pipe. It includes.

According to the present invention, it is possible to increase the bubble generation rate, to form fine bubbles more finely, to increase the adhesion surface area of contaminants and the like, thereby significantly reducing the floating solids. In addition, the device can be manufactured in a small scale, and the installation and operation costs are also low.

Description

Fish farm feed debris and dirt removal device {Apparatus for Removing Waste of Fish Farm}

The present invention relates to a device for removing feed debris and dirt of fish farms, and more specifically, a bubble is generated by having a mixing tube and a microbubble generating tube in the device for removing feed debris and dirt of fish farms, The present invention relates to a device for removing feed debris and dirt from seawater or freshwater fish farms, which attaches and removes dirt to the microbubbles and supplies the filtered water from which contaminants are removed to the fish tank.

Generally, a large amount of nitrogen and phosphorus are generated in fish farms due to food waste and excretion of fish, and when the nutrients such as nitrogen and phosphorus are not removed and accumulate, it causes water pollution such as eutrophication, which causes mass death of fish farms. Therefore, the circulating filtration method for attaching and removing suspended solids in the water of fish farms has been used. This method has good energy efficiency and can lower total nitrogen, BOD, COD, etc. and is suitable for fish farms.

As a conventional apparatus for removing feed debris and dirt of fish farms, a pressure flotation device has been proposed.

1 shows a pressurization apparatus as a conventional apparatus, which will be described below.

The water in the fish tank (not shown) is introduced into the inlet pipe 110 of the pressure flotation device 100, and bubbles are generated through the bubble device 120 to be introduced into the pressure flotation device 100. The conveyor skimmer 130 installed on the upper side of the pressure injured apparatus 100 is driven to remove the air bubbles and discharged to the outside through the lower outlet 150. By driving the screw conveyor 140 installed on the lower side of the pressure flotation device 100 to discharge a large solid precipitated particles. The filtrate from which the suspended solids and the precipitated solids are removed is transferred back to the tank of the fish farm through the filtrate outlet 160.

However, such a device requires a lot of installation and operation costs, such as a separate bubble device, a conveyor skimmer and a screw conveyor, there is a problem that it is inappropriate to install in a small fish farm because of the large size of the device.

In addition, such a device has a low bubble generation rate, there is a problem that the removal rate of the suspended solids fall.

The present invention is to solve the conventional problems as described above, by providing a simple device including a mixing tube having a venturi tube, etc. and a microbubble generating tube having a porous plate, etc. In addition, the purpose of the present invention is to provide a device for removing feed debris and dirt, etc. to increase the micro-bubble generation rate to remove feed debris and dirt from seawater or freshwater fish farms more efficiently, and to reuse the filtered water.

1 is a schematic diagram of a conventional fish farm dirt removal apparatus.

Figure 2 is a schematic diagram of the fish farm dirt removal apparatus according to the present invention.

Figure 3 is a detailed view of the mixing tube of fish farm dirt removal apparatus according to the present invention.

Figure 4 is an operating state of the fish farm dirt removal apparatus according to the present invention.

* Description of the symbols for the main parts of the drawings *

10 ... Inlet pipe 11 ... Primary air inlet

12 ... incoming pump 13 ... pressure gauge

14 ... control valve 20 ... mixing tube

21 ... 2nd air inlet 22 ... Air flow path

23 ... Venturi tube 30 ... Microbubble tube

31.Perforated plate 32 ... Bottom

33 ... bottom lower side 33 '... bottom lower side

40 ... microbubble flotation tank 41 ... first solids outlet

50 ... microbubble separator 51 ... pollutant outlet

52 ... Filtrate outlet 53 ... Second solids outlet

The present invention in order to achieve the above object, the inlet pipe for introducing water in the tank of the fish farm; A first air inlet connected to an inlet side of the inlet pipe and configured to inject air into water introduced through the inlet pipe; An inlet pump provided at a rear end of the inlet side of the inlet pipe; A mixing pipe connected to the outlet side of the inlet pipe, having a venturi pipe in the center, an air flow path formed around the outside of the venturi pipe, and having a second air inlet for introducing air into the air flow path from the outside. ; The upper end is connected to the mixing pipe, the lower end has an end portion in which the conduit is enlarged, and has a porous plate in the middle of the conduit, and has a lower end having a plurality of pores. Microbubble generating tube for releasing the microbubble; A microbubble floatation tank floating the microbubble discharged from the microbubble generating tube to the upper part and depositing a solid having a large particle downward; And a contaminant discharge port for discharging the microbubble with the contaminant injured thereon, and a microbubble separation tank including a filtrate discharge pipe for discharging the liquid from which the contaminant has been removed. Provides a fish farm feed debris and dirt removal device comprising a.

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

2 schematically shows an apparatus for removing fish soil according to the present invention, which will be described below.

Fish farm soil removal device according to the present invention is provided with an inlet pipe 10 for introducing the water in the tank of the fish farm, and has a primary air inlet 11 on the inlet side of the inlet pipe (10). An inlet pump 12 is provided at the rear end of the first air inlet port 11 to introduce water from the water tank into the inlet pipe 10 and the air introduced from the first air inlet port 11 at high speed with water. Rotating greatly increases the oxygen dissolution rate and transfers water at high speed. It is preferable to install a check valve at the end of the primary air inlet 11 to prevent water in the tank from flowing out through the primary air inlet when the inlet pump 12 stops driving.

The mixing pipe 20 is connected to the outlet side of the inlet pipe 10, the mixing pipe 20 is provided with a venturi tube in the center and the secondary air inlet 21 on the side.

The microbubble generating tube 30 connected to the mixing tube 20 has an end portion in which a conduit is expanded, and has one or two porous plates 31 in the middle of the conduit, and a lower end portion 32 of the conduit. It is provided with a plurality of pores in it to release the micro bubbles attached to the contaminants. The lower end 32 of the conduit is provided with a plurality of pores on the lower surface and the lower surface of the microbubble generating tube, thereby colliding the microbubbles emitted by the plurality of pores on the lower surface with the microbubbles emitted from the plurality of pores on the lower side. To finer grinding.

The microbubble discharged from the microbubble generating tube 30 is floated upward in the microbubble floatation tank 40, and the solid having a large amount of particles precipitated to the lower is discharged through the first solid discharge port 41. The length of the microbubble generating tube 30 is preferably about 1/2 to 2/3 of the depth of the microbubble floatation tank (40).

The microbubble separation tank 50 has a contaminant discharge port 51 for discharging the microbubbles floated from the microbubble floatation tank 40 on the upper side, and the filtrate discharge port 52 for discharging the liquid from which the contaminants have been removed. It is provided. In addition, the micro-bubble separation tank 50 has a second solids outlet 53 for discharging the solids precipitated to the bottom.

Figure 3 shows the mixing tube of the apparatus according to the present invention shown in Figure 2 in detail, as follows.

The mixing tube 20 is provided with a venturi tube 23 in the center, the air passage 22 formed around the outside of the venturi tube 23 and a second for introducing air into the air passage 22 from the outside The car air inlet 21 may be provided. It is preferable to install a check valve at the end of the second air inlet 21 to prevent the outflow of water. Water introduced from the inlet pipe passes through the venturi tube 23 and is mixed with the air introduced from the second air inlet 21 and transferred to the microbubble generating tube 30 connected to the mixing tube 20.

Figure 4 shows the operating state of the device according to the present invention shown in Figure 2, it will be described as follows.

As shown, the water in the tank of the fish farm is pressurized by the inlet pump 12 to be drawn into the inlet pipe (10). Air is introduced into the drawn water by the primary air inlet 11 provided at the inlet side of the inlet pipe 10. It is preferable to install a check valve at the end of the primary air inlet 11 to prevent water in the tank from flowing out through the primary air inlet when the inlet pump 12 stops driving. The water into which the air is introduced is rotated at a high speed in the inlet pump 12 and mixed, and is transferred to the mixing tube 20 through the inlet tube 10. It is possible to increase the oxygen generation rate in the water by the action of the primary air input and the inlet pump.

The mixing pipe 20 is installed at the outlet side of the inlet pipe 10, and air is introduced from the second air inlet 21 formed at the side of the mixing pipe 20, and the air is supplied through the air passage 22. It enters into the mixing tube 20. A venturi tube 23 is installed at the center of the mixing tube 20, and the water transferred from the inlet tube 10 is mixed through the air channel 22 while the speed is increased through the venturi tube 23. It mixes with the air that enters the inside of the tube. The air introduced from the secondary air inlet 21 is mixed with water in the mixing tube 20 to form micro bubbles of several μm to several hundred μm in the liquid. At this time, by installing the air flow path 22 to be formed around the outside of the venturi tube 23, the air can be smoothly supplied and the air can be efficiently mixed in the liquid to provide optimum conditions for generating fine bubbles. .

The microbubble generating tube 30 connected to the mixing tube 10 has an end portion at which the conduit is enlarged, and a porous plate 31 is provided at the middle of the conduit, in which microbubbles pass through the porous plate. This is to repeatedly disintegrate while finely dispersing. The porous plate 30 may be used by installing one or more, and may form irregularities on the surface. The micro-bubble generating tube 30 is provided with a lower end 32 having a plurality of pores on the lower surface and the lower side of the pipe, the contaminants are attached through a plurality of pores (33, 33 ') of the lower end (32) It releases microbubbles. The microbubbles released from the lower pores 33 of the lower end 32 may collide with the microbubbles emitted from the lower pores 33 ′ to be more finely crushed to significantly increase the surface area to which contaminants may be attached.

Floating solids such as fish droppings or food waste are attached to the surface of the formed micro-bubbles, and they float upward from the micro-bubble floatation tank 40. At this time, it is preferable that the first solids discharge port 41 is provided below the microbubble floatation tank 40 to discharge the solids having large precipitated particles. The present invention can remove fine contaminants by increasing dissolved oxygen and improving bubble generation rate by passing air through two times and passing microbubbles through the porous plate and lower pores.

Fine bubbles (S) attached to the floating solids are collected in the microbubble separation tank 50, which is discharged to the outside through the pollutant outlet (51). At this time, the ammonia gas (G) is preferably discharged to the open upper portion of the micro-bubble separation tank (50). The liquid from which the microbubbles with the suspended solids attached are removed is transferred to the fish tank tank again through the filtrate outlet 52. The second solid discharge port 53 is also provided below the microbubble separation tank 50 to remove the precipitated large particles of solids.

The above has been described in detail with reference to the present invention, which is only an example and is not intended to limit the present invention.

Fish farm feed debris and dirt removal device according to the present invention to increase the bubble generation rate by introducing air several times when water in the fish farm tank is introduced, and also by providing a plurality of pores in the lower end of the micro-bubble generating tube microbubble By forming more finely, the adhesion surface area of contaminants and the like is increased, so that the removal rate of the suspended solids is remarkably high.

In addition, according to the present invention, the device can be manufactured in a small scale, so that it can be installed in a small fish farm, and the cost of installation and operation is also low.

Moreover, the present invention provides a comfortable environment for fish farms by completely removing fine suspended solids that are difficult to settle, and can use only 30% of the existing consumption in farms that supply warm water by operating a winter boiler. It works.

Claims (7)

An inlet pipe for introducing water in the fish tank of the fish farm; A first air inlet connected to an inlet side of the inlet pipe and configured to inject air into water introduced through the inlet pipe; An inlet pump provided at a rear end of the inlet side of the inlet pipe; A mixing pipe connected to the outlet side of the inlet pipe, having a venturi pipe in the center, an air flow path formed around the outside of the venturi pipe, and having a second air inlet for introducing air into the air flow path from the outside. ; The upper end is connected to the mixing pipe, the lower end has an end portion in which the conduit is enlarged, and has a porous plate in the middle of the conduit, and has a lower end having a plurality of pores. Microbubble generating tube for releasing the microbubble; A microbubble floatation tank floating the microbubble discharged from the microbubble generating tube to the upper part and depositing a solid having a large particle downward; And A microbubble separation tank having a contaminant discharge port for discharging the microbubble with the floating contaminant attached to the upper side, and a filtrate discharge pipe for discharging the liquid from which the contaminant has been removed; Fish farm feed debris and dirt removal device comprising a. The method of claim 1, The inlet pipe is provided with a pressure gauge and a control valve in the pipeline to determine the amount of water intake fish feed residue and dirt removal device. The method of claim 1, Fish farm feed debris and dirt removal device, characterized in that the lower end of the microbubble generating tube is provided with a plurality of pores on the lower and lower surfaces. The method of claim 1, The length of the micro-bubble tube is fish farm feed debris and dirt removal device, characterized in that 1/2 ~ 2/3 of the depth of the microbubble floating tank. The method of claim 1, The porous plate of the micro-bubble generating tube is one or more of the fish farm feed residue and dirt removal device, characterized in that provided in the middle of the pipe. The method of claim 1, The micro-bubble floating tank is equipped with a first solids outlet to discharge the precipitated solids, characterized in that the fish residue and waste removal apparatus. The method of claim 1, The micro-bubble separation tank has a second solids outlet on the lower side to discharge the precipitated solids, characterized in that the fish feed and waste removal apparatus.