KR100963194B1 - Air lift apparatus for farm - Google Patents

Abstract

The present invention relates to an air lift apparatus for use in aquaculture farms and water tanks, and in particular, a pipe having an air outlet having a portion of the upper end opened and a fluid inlet opening a portion of the lower end; An air supply pipe for supplying air from an upper end portion to a lower end portion in the pipe; And an air disperser connected to the air supply pipe to disperse air in the lower end of the pipe, generating oxygen to the farm by a simple device, enabling natural water flow, and a skimmer function with low power. It can be done.

Description

Air Lift Apparatus {Air Lift Apparatus For Farm}

The present invention relates to a device for supplying air to a farm or a water tank, and in particular, by supplying air inside a pipe, it is characterized by discharging fine air bubbles with the inflow of water. It is about aquaculture air lift devices that generate water, allow natural water flow, and even function as skimmers with low power.

In general, aquaculture farms use a method of spraying ocher or artificially supplying oxygen by an air supply.

However, the method of spraying ocher has many cases of suffocating the gills of the fish blocked by the ocher, and also had the threshold of cleaning. In addition, the air supply method uses a part of the water in the vacuum by rotating the blades attached to the end of the motor shaft, and the oxygen supply pipe is submerged in to supply oxygen through the air bubbles, so the air bubbles are generated very large and do not mix well with water. In particular, there was a closed end where oxygen was not properly supplied because it was easily floated on the water due to the large buoyancy.

The present invention for solving the above problems is to produce a sufficient amount of oxygen in aquaculture farms with a simple device for discharging fine air bubbles, to enable natural water flow, and to have a skimmer function with low power It is to provide.

According to an aspect of the present invention, there is provided an air lift apparatus including: a pipe having an air outlet having a portion of an upper end opened and a fluid inlet opening a portion of the lower end; An air supply pipe for supplying air from an upper end portion to a lower end portion in the pipe; And an air disperser connected to the air supply pipe to disperse air in the lower end of the pipe.

Here, the air outlet and the fluid inlet is preferably formed in the opposite direction to each other in the pipe.

In the above air lift apparatus, the air supply pipe is two or more, the inner tube surrounding the two or more air supply pipes, and the filling means for filling the bottom surface of the inner tube through which the two or more air supply pipes further comprises; It is also possible.

Specific details of other embodiments are included in the detailed description and the drawings.

The air lift apparatus according to the present invention is characterized by discharging fine air bubbles with the inflow of water by supplying air into the pipe, generates a sufficient amount of oxygen in the farm with a simple device, the natural water flow It is possible to have a skimmer function with low power.

In addition, when the air outlet and the fluid inlet formed in the pipe according to the present invention is formed in the opposite direction in the pipe, the water can be introduced in one side and the air is discharged together with the water introduced to the other side, It is possible to ensure a consistent flow of water throughout the cell farm.

In addition, the present invention by having an inner tube surrounding the two or more air supply pipe, it is possible to prevent the air supply pipe from twisting inside the pipe, and further comprises a filling means for filling the bottom surface of the inner pipe through which the two or more air supply pipes penetrate. By doing so, small fish or fry such as shrimp are not sucked into the inner tube, thereby solving the problem that small fish or fry are caught between the air supply pipes.

Hereinafter, one preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings. The invention may be better understood by the following examples, which are intended for purposes of illustration of the invention and are not intended to limit the scope of protection defined by the appended claims.

1 is a perspective view showing an example of a pipe according to the present invention, Figure 2 is a cross-sectional view showing an example of the pipe, Figure 3 is a perspective view showing an example of an air supply pipe and an air disperser according to the present invention. 4 is a perspective view showing an example of an air lift apparatus according to the present invention.

First, the present invention relates to an apparatus for supplying air to aquaculture farms or tanks, and more particularly, to an air lift apparatus 1 for discharging fine air bubbles with the inflow of water by supplying air into the pipe 10. The air lift apparatus 1 is to be used by dipping in the water of a farm or a tank, and to circulate the water of the farm while supplying fine air bubbles in the water.

More specifically, the air lift apparatus 1 according to the present invention includes a pipe 10; An air supply pipe 20; And an air disperser 30; the pipe 10 has an air outlet 11 at its upper end and a fluid inlet 12 at its lower end.

Thus, the present invention continuously supplies fine air bubbles to the bottom of the pipe 10 through the air supply pipe 20 and the air disperser 30 provided in the pipe 10, accordingly the pipe 10 Water from the bottom of the farm is introduced through the fluid inlet 12 formed at the lower end, and the introduced water is discharged through the air outlet 11 formed at the upper end of the pipe 10 by moving to the upper end from the inside of the pipe 10 with fine air bubbles. Will be.

To this end, the pipe 10 according to the present invention preferably has an air outlet 11 with a portion of the upper end opened, and a fluid inlet 12 with a portion of the lower end opened. The shape of the pipe 10 may be circular or polygonal, the material is not particularly limited, preferably it is possible to use a circular PVC pipe that is readily available on the market.

A portion of the upper end of the pipe 10 has an air outlet 11 for discharging the air supplied by the air supply pipe 20 and the air disperser 30 to be described later. The air outlet 11 may be formed by cutting or cutting a portion of the upper end side of the pipe 10. In the case where the pipe 10 is circular, as shown in FIG. 1, it means a portion in which half of the upper end cylinder of the pipe 10 is cut off. As such, when the air outlet 11 is formed at a part of the upper end side of the pipe 10, since the air flow is blocked at another portion that is not cut, there is an effect of inducing the air flow toward the air outlet 11.

In addition, the air supplied by the air supply pipe 20 and the air disperser 30 to be described later is raised to the upper end of the pipe 10 to a portion of the lower end of the pipe 10 to the water outside the pipe 10 to the inside. It has a fluid inlet 12 for inflow. The fluid inlet 12 may be formed by cutting or cutting a portion of the lower end side of the pipe 10. In the case where the pipe 10 is circular, it means a portion where half of the lower end cylinder of the pipe 10 is cut off as shown in FIG. 1. As such, when the fluid inlet 12 is formed at a part of the lower end side of the pipe 10, the flow of fluid toward the fluid inlet 12 is blocked because the flow of the fluid (for example, water) is blocked at other portions not cut. There is an effect that can lead to.

The air outlet 11 and the fluid inlet 12 may be formed in the same or similar direction to each other on the pipe 10, or may be formed in the opposite direction as shown in FIG.

In addition, the air supply pipe 20 according to the present invention, as shown in Figure 3, to supply air from the upper end to the lower end in the pipe 10, may be a tube connected to the external air supply means. The air supply pipe 20, as shown in Figure 4, is preferably provided in the pipe 10 and serves to deliver air to the air disperser 30 to be described later. The air supply pipe 20 may be one, two or more depending on the size of the tube or tube, or the pressure of the air supplied.

Furthermore, the air disperser 30 according to the present invention is connected to the air supply pipe 20 to disperse air in the lower end of the pipe 10. To this end, the air disperser 30 is preferably located at the lower end in the pipe (10). Thus, the air received from the air supply pipe 20 is dispersed into fine air bubbles and discharged to the lower end of the pipe 10. As shown in FIG. 5, the discharged fine air bubbles rise upward in the pipe 10 while forming bubbles, and through the fluid inlet 12 located at the lower end of the pipe 10 according to the rising pressure. (10) Out of the fluid is sucked into the pipe (10) to rise with the bubble.

5 is a state diagram used to explain the function of the air lift apparatus according to the present invention. As shown here, the fine air bubbles discharged from the air disperser 30 are fluids introduced through the fluid inlet 12. And bubbles are formed to rise to the upper end of the pipe 10 and then spread out of the pipe 10 through the air outlet 11. In this process, a sufficient amount of oxygen is supplied to the aquaculture farm through a bubble spreading out of the pipe 10, and a natural water flow is possible throughout the aquaculture farm by the naturally flowing bubble and the water flowing from the fluid inlet 12. In addition, it may have a skimmer function in which phosphorus or protein is decomposed by the bubble and water flow and the air bubbles collide inside the pipe.

When the air lift apparatus 1 is installed in a biological breeding tank or aquaculture farm, the bottom of the floor may be floated in water, and the harmful gas of the floor may be raised to the surface of the water and blown into the air. In addition, since the proteolytic products in the water are raised to the surface of the water and a lot of air bubbles of small particles can be made to enter a lot of oxygen into the water. In addition, the air bubbles are combined with water to lower the specific gravity of the water, and by raising it to the top of the air lift device (1) to spout the water can form a water flow to activate the dirt in the water.

That is, in the air lift apparatus according to the present invention, small bubbles containing oxygen collide with the pipe inside the pipe 1 to produce more oxygen, and many small air bubbles formed in the pipe 1 lower the specific gravity of water to flow It acts as a venturi, aberration, or oxygen generator, and also has the function of a foam separator that raises the bottom residue and proteolytic products in water to the water surface. Thus, there is no need for a separate venturi, aberration, oxygen generator, foam separator, etc. in addition to the air lift apparatus 1 according to the present invention, and no separate equipment or power source for operating them is required. The present invention is a simple consisting of only a pipe, such as PVC and air supply pipe and air disperser, light and easy to make, small size is good to install freely in the desired position.

6 is a schematic view showing an example of a farm farm in which the air lift apparatus 1 according to the present invention is installed, and when using the present invention as shown here, water can be naturally circulated in the farm.

That is, as described above, the air outlet 11 and the fluid inlet 12 of the air lift apparatus 1 according to the present invention may be formed in the same or similar direction to each other on the pipe 10, or opposite to each other It is possible to be formed on. When formed in the opposite direction, since the circulation of air and water in the front and rear direction of the air lift apparatus 1 according to the present invention is easy, as shown in Figure 6, a plurality of air lift apparatus 1 according to the present invention It is effective to consistently regulate the water flow throughout the farm. In other words, water can be drawn in with one side and with the water introduced on the other side, enabling a consistent flow of water throughout the farm consisting of multiple cells.

In addition, when the air outlet 11 and the fluid inlet 12 is formed in the same or similar direction on the pipe 10, the air in the vertical direction of the air lift device 1 according to the present invention in a small tank It is easy to circulate water.

Meanwhile, the present inventors used two or more air supply pipes 20 to adjust the air pressure during the process of experimenting the air lift apparatus 1, and the two air supply pipes 20 are twisted. Found. When the air supply pipe 20 is twisted, not only the supply of air is not desired, but also a problem such as shrimp or young fry caught in the twisted portion occurs.

In order to solve this problem, the present invention may further include an inner tube 40 surrounding the two or more air supply pipes 20, as shown in FIG. The inner tube 40 is a fixing means surrounding the two or more air supply pipes included therein. For example, it is possible to use small diameter PVC pipes. By this fixing means, even if a plurality of small bubbles are driven, the two or more air supply pipe 20 can maintain its shape without twisting inside the pipe (10).

Furthermore, even if the inner tube 40 further includes the two or more air supply pipe 20, there was a problem that the shrimp or young fry continuously introduced into the lower opening of the inner tube 40, the present invention, It is possible to further include a filling means 50 for filling the bottom surface of the inner tube 40 through which the two or more air supply pipes 20 pass (see FIG. 3). The filling means 50 may be cotton or rubber, and by sealing the lower opening of the inner tube 40 to prevent the shrimp or young fry from entering.

While the invention has been shown and described with respect to certain preferred embodiments thereof, it will be understood that the invention may be modified and modified in various ways without departing from the spirit or scope of the invention provided by the following claims. It can be apparent to one of ordinary skill in the art.

1 is a perspective view showing an example of a pipe according to the present invention,

2 is a cross-sectional view showing an example of a pipe according to the present invention,

3 is a perspective view showing an example of an air supply pipe and an air disperser according to the present invention;

4 is a perspective view showing an example of an air lift apparatus according to the present invention;

5 is a state diagram used for explaining the function of the air lift apparatus according to the present invention,

It is a schematic diagram which shows an example of a fish farm in which the air lift apparatus which concerns on this invention was installed.

** Brief description of symbols in the main part of the drawing **

10 pipe 11 air outlet

12: fluid inlet 20: air supply pipe

30: air disperser 40: inner tube

50: filling means

Claims (3)

delete delete A pipe having an air outlet having a portion of the upper end opened and a fluid inlet portion having a portion of the lower end opened; An air supply pipe for supplying air from an upper end portion to a lower end portion in the pipe; And, And an air disperser connected to the air supply pipe to disperse air at the lower end of the pipe. The air supply pipe is two or more, An inner tube surrounding the two or more air supply pipes, Air filling apparatus further comprises a filling means for filling the bottom surface of the inner tube through which the two or more air supply pipe.

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