KR20030025596A - An underwater interception way make use of an air bubble and equipment - Google Patents

Abstract

PURPOSE: A method and an apparatus for isolating underwater using air bubbles are provided to protect particular facilities and prevent various damaged bodies from spreading by generating innumerable air bubbles on the bottom of the sea so that an air bubble isolating film is formed in the water using buoyancy of the bubbles. CONSTITUTION: The apparatus for isolating underwater using air bubbles comprises a compressor(10) for producing compressed air having a certain pressure by sucking in the atmospheric air; a temperature conversion unit(20) for providing the compressed air generated from the compressor(10) with cold air or hot air; a compressed air supply control unit(30) for controlling the exhaust amount of air to supply the compressed air passing through the temperature conversion unit(20) in an appropriate amount; a guide structure installed on the bottom of the sea to transfer the compressed air exhausted from the compressed air supply control unit(30) into the water; and a bubble generating pipe(50) which is fixed to the guide structure, through which compressed air is transferred, and on the longitudinal direction of which a plurality of vent holes(51) are perforated so that numberless air bubbles for forming an air bubble isolating film are generated through the vent holes(51).

Description

An underwater interception way make use of an air bubble and equipment}

According to the present invention, an underwater barrier method using air bubbles which prevents airborne substances or marine organisms from passing through the bubble barrier membrane by generating a bubble barrier membrane by generating a myriad of bubbles in the water such as the seabed to form a bubble barrier membrane. And to an apparatus.

In general, the damage caused by marine problems are known in many ways, for example, it is spreading when the oil spill in the reservoir, causing pollution.

In this case, in the past, a method of blocking using an oil fence has been attempted, but there is a problem in that oil diffusion is followed and marine pollution is prevented due to a rapid response when oil is leaked.

In addition, as a marine problem, there is a damage to fishing grounds caused by red tide. In this case, in the past, the method of spraying and extinguishing ocher or chemical was used, but the effect is very weak or there is a limit in reducing red tide damage, and thus the fishery damage cannot solve the big problem.

In addition, there is a damage to farms caused by marine life such as shrimp, jellyfish and anchovies, which is not solved at all.

The present invention aims to protect certain facilities and to prevent the spread of various damages by generating an air bubble barrier in the water by using the floating force of bubbles rising to the surface by generating a myriad of air bubbles in the seabed. .

In order to achieve the above object, the present invention generates compressed air in the compressed air generation unit for transferring air at a predetermined pressure, the compressed air to have a predetermined cold or warm air in the compressed air temperature conversion unit The compressed air, which is optionally given and converted to temperature at a predetermined temperature, is controlled and discharged so as to send out a proper amount of compressed air from the compressed air supply control unit, and the discharged compressed air is transferred to a bubble generating pipe connected to the sea bottom. Air bubbles are exhausted through the exhaust hole of the bubble generating tube, and a plurality of air bubbles are continuously generated in the water, and a predetermined bubble area is formed by a myriad of air bubbles floating on the water surface by the air force of the air bubbles to form an air bubble blocking film. This method is characterized in that the underwater blocking method is formed.

In addition, the present invention includes a compressor for sucking the atmospheric air to produce compressed air having a predetermined pressure; A temperature conversion device for imparting cold air or warm air to the compressed air generated by the compressor; And a compressed air supply control device for adjusting an air discharge amount to supply an appropriate amount of compressed air passed through the temperature conversion device; A guide structure installed on the sea bottom to transfer the compressed air exhausted from the compressed air supply control device into the water; It is installed to be fixed to the guide structure is characterized in that the underwater shut-off device comprising a bubble generating tube for generating an air bubble barrier film to form a bubble blocking film through the exhaust hole is a plurality of holes in the compressed air is transported in the longitudinal direction .

1 is a block diagram illustrating the underwater blocking method of the present invention;

Figure 2 is a block diagram showing a water blocking device of the present invention,

Figure 3 is a plan view showing an installation example of the underwater blocking device of the present invention,

4 is an enlarged cross-sectional view taken along line Y-Y 'of FIG. 3;

Figure 5 is an enlarged cross-sectional view of one side showing the action of the present invention.

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

10: compressor 20: temperature converter

30: compressed air supply control device 40: guide structure

50: bubble generating tube 51: exhaust hole

100: air bubble shield

When described in more detail on the basis of the accompanying drawings the preferred embodiment of the present invention.

1 is a block diagram illustrating a method for underwater blocking using air bubbles of the present invention, FIG. 2 is an installation view showing the underwater blocking device, FIG. 3 is a plan view showing a bubble generating tube installation example, and FIG. 4 and FIG. Figure 5 shows a cross-sectional structure for forming the air bubble blocking film and one side cross-sectional view showing its operation.

1 and 2, the underwater blocking method and apparatus of the present invention is to generate compressed air in the compressed air generation unit.

An apparatus for generating compressed air uses a compressor (10). Since the compressor 10 is a well-known device, detailed structure and description thereof will be omitted.

Therefore, the generation of the compressed air by the compressor 10 is to transfer the air to a long distance at a predetermined pressure.

The compressed air generated as described above selectively converts the compressed air temperature so as to have a predetermined cold or warm air in the compressed air temperature conversion unit.

Compressed air temperature conversion unit is configured by a temperature conversion device (20). The temperature converter 20 uses a well-known device having an air conditioner function to generate a heater and cold air to impart heat energy to the air to become hot air. And in some cases, such as a boiler that can be converted to hot air, such a temperature conversion device 20 is already known in the art, detailed description and drawings are omitted.

The temperature conversion device 20 is a device that can convert the compressed air from the compressor 10 to 0-90 ℃.

In this way, the temperature of the compressed air is changed when the aquatic organisms are active in the Korean wave, generating a hot gas of 90 ° C and causing shock when the aquatic creatures come into contact with the bubbles of high temperature. Or to be able to kill.

In addition, in the case of turbulent damage organisms, in order to generate a cold gas of about 0 ° C. and shock it by the gas (air bubble), the temperature is changed depending on the situation and conditions.

On the other hand, the temperature-converted compressed air is supplied with a suitable amount of compressed air by the compressed air supply control unit. The compressed air supply control unit is constituted by a compressed air supply control device 30 including a solenoid valve and the like. Since such a device is well known in the art, detailed descriptions and drawings are omitted.

When the compressed air supply control device 30 determines the length and cross-sectional area of the bubble generating tube 50 and the size or spacing of the exhaust hole 51 to generate bubbles, the compressed air supply amount suitable for the condition is determined. In other words, it controls the supply of compressed air by the determined amount.

In addition, as shown in Figure 3, the length of the bubble generating tube 50 is too long to inject air only in one place, if the air delivery is not smooth to the end can be supplied by supplying compressed air at both sides at the same time.

In order to transfer the compressed air supplied from the compressed air supply control device 30 into the water bubble generating pipe 50 is connected, and at the same time, the guide structure 40 for installing the bubble generating pipe 50 is the bottom surface (P). ) Is installed in (see Figure 4).

The guide structure 40 may be a structure such as an H beam, or in some cases may be a concrete structure.

Guide structure 40 serves to fix the bubble generating tube 50 and the pipe.

The bubble generating tube 50 functions to generate bubbles K (air bubbles) in water.

The bubble generating tube 50 is preferably a flexible tube having flexibility and a material having a low temperature transfer rate. As an embodiment, a hose may be used and a pipe such as a steel pipe may be used.

Therefore, the plurality of exhaust holes 51 are formed in the upper end portion of the bubble generating tube 50 in the longitudinal direction as shown in FIG. 3, but also in the transverse direction as shown in FIG. 4.

Therefore, as shown in FIG. 5, the compressed air supplied to the bubble generating tube 50 installed on the sea bottom surface P is discharged to the exhaust hole 51 to become air bubbles K, and the air bubbles K are generated innumerably. .

In addition, bubbles (K) are continuously generated to rise to the surface of the water by buoyancy, thereby forming the air bubble blocking film 100 in the water (W).

And the bubble (K) is wider as it floats to the surface as shown in Figure 5 to form a bubble generation trace of the fallopian tube shape.

On the other hand, by making the width (L) of the bubble generating tube 50 to about 3-5M or more to form a wide width of the air bubble blocking membrane 100 so that suspended matter or organisms can not pass through the air bubble blocking membrane (100). Thoroughly blockade.

When bubbles (K) are generated in the water (W) of the seabed like this, small air bubbles are injured and coalesce, and they develop into larger bubbles. The bubbles that reach the surface of the water form high bubbles above the surface by the rising force and bursting force. To form.

Therefore, the bubble film generated on the water surface G is scattered to both sides as shown by the arrow of FIG. 5 to generate algae in a constant direction (outward direction).

The bubble floating and algae movements block the access of floating water such as red algae and oil on the surface of the water, and the affected aquatic organisms can flow in a certain direction even when the water reaches the surface with bubbles.

In addition, in the water (W), the air bubble blocking membrane 100 is generated while forming a bubble (K) is formed over a certain interval so as to serve as a wall through which the aquatic organisms can not pass, the air bubble blocking membrane (100) If the width (L) of more than 3-5M is installed in the air bubble barrier 100 by the algae, even if the air bubbles (K) generated by the buoyancy of the bubble (K) rises to the surface (G) and above the surface (G) It is pushed out by the force (bird current) to be pushed outwards so that it does not pass through the air bubble barrier (100).

In addition, in the case of aquatic organisms such as shrimp, jellyfish or anchovies, the air bubble barrier 100 is recognized as a risk factor, and the air barrier film 100 proceeds in the opposite direction to the specific facility such as a cage farm as shown in FIG. 3. By installing the apparatus of the present invention in the vicinity of (F), it is possible to protect from the damaging organisms.

As described above, the temperature of the bubble K becomes cold or warm by the temperature converter 20, so that the temperature of the water W and the temperature of the bubble K are different so that the temperature of the aquatic organisms is different. The abnormal proliferation of is suppressed and killed.

In addition, since the air bubble membrane 100 may not float over the surface of the water (G) portion, marine life does not pass through the air bubble membrane 100, and the protection and red tide or outflow of specific facilities (F). It is possible to prevent the spread of oil.

According to the above description, the present invention can promote the spreading and extinction of red tide, has the effect of preventing the damage caused by marine life, and the marine problem, which is a problem in society as a whole, such as the prevention of the spread in the event of oil spill in a storage facility. Provides the effect of solving.

Claims (2)

Compressed air is generated in the compressed air generating unit to transfer air at a predetermined pressure, and the compressed air is selectively provided to have a predetermined cold or warm air in the compressed air temperature conversion unit, and the temperature is converted to a predetermined temperature. The compressed air is controlled and discharged so that a proper amount of compressed air can be discharged from the compressed air supply control unit, and the discharged compressed air is transferred to a bubble generating tube piped to the sea bottom and exhausted through the exhaust hole of the bubble generating tube. And a plurality of air bubbles are continuously generated in the water, and a predetermined bubble area is formed by a myriad of air bubbles floating on the water surface by the floating force of the air bubbles to form an air bubble blocking film. Underwater blocking method using. A compressor (10) for sucking atmospheric air to generate compressed air having a predetermined pressure; A temperature conversion device 20 for imparting cold air or warm air to the compressed air generated by the compressor 10; And a compressed air supply control device (30) for adjusting the amount of air discharged to supply an appropriate amount of compressed air passed through the temperature conversion device (20); A guide structure (40) installed on the sea bottom to transfer the compressed air exhausted from the compressed air supply control device (30) into water; The bubble generating tube 50 is installed to be fixed to the guide structure 40, the compressed air is transported, and countless air bubbles are formed to form the air bubble blocking film 100 through the exhaust holes 51 which are opened in the longitudinal direction. Underwater cutoff device using air bubbles, characterized in that configured to include.