KR100714056B1 - The seabed soil improvement - Google Patents

Abstract

The present invention relates to a seabed soil improver, by supplying oxygen-rich seawater between the surface soil and the bottom soil of the seabed to improve the structure of spraying seawater in order to change the soil soil into aerobic soil rich in oxygen dissolved amount, the nozzle The present invention relates to a seabed soil improver, which is not only blocked by the water, but also aims to minimize floating by sea water injection pressure. The present invention for achieving the above object is installed in the high-pressure water distribution pipe installed on the high-pressure water distribution pipe installed on the two sides and connected to the inlet of the seawater and connected to the inflow pipe of the sea water and installed the needle rods and the prevention cloth on the opposite surface It consists of a needle plate, which is installed on the needle plate, by welding to a needle plate, which is connected to the high-pressure water distribution pipe, and a nozzle that sprays sea water at high pressure by mounting it at an inclined angle in the final discharge path of the injection pipe.

Needle plate, injection tube, nozzle, tilt angle

Description

The seabed soil improvement

1 is a view showing the overall configuration of the seabed soil improver according to the present invention,

2a and 2b is a main view showing the configuration of the injection means applied to the seabed soil improver,

3 is a main view showing the configuration of the injection means applied to the seabed soil improver according to another embodiment;

4 and 5 are views showing the state of use of the seabed soil improver of the present invention.

＊ Explanation of symbols for main parts of drawing *

10: inlet pipe 20: high pressure water distribution pipe

22: needle bar 24: needle plate

26: injection pipe 28: nozzle

30: weight 40: prevention cloth

θ: inclination angle θ1: inclined surface

The present invention provides a function of converting the seabed soil into aerobic soil rich in oxygen dissolved by supplying oxygen-rich seawater between the surface soil and the bottom soil of the seabed and collecting the seafloor waste, or can be performed alone. The present invention relates to a soil improver, and in particular, to a seabed soil improver that minimizes the floating path caused by the injection pressure of the seawater, as well as not blocking the injection path of the means for injecting seawater.

In general, seabed soils, especially coastal sediments, are important for maintaining a healthy marine ecosystem because they provide space for living organisms and purify various contaminants from land.

However, as the contaminated minerals such as industrial wastewater and urban sewage flowing from the ground increase day by day, the concentration of pollutants accumulated in sediments increases, and microorganisms decompose organic matter in the sediments, depleting oxygen in water, which is bad for aquatic life. It is affecting.

In order to solve this problem, there has been provided a method of improving seawater by spraying the seawater at a high pressure on the contaminated seawater surface soil. However, when seawater penetrates into the surface soil and the water pressure is increased, a large amount of water is scattered to the seafloor. Another problem occurred that damages the nearby fishing grounds.

In this regard, the present applicant proposes a subsea soil improver having a structure in which a needle bar and a jet pipe are installed on a pipe through which seawater is distributed, and a preventive cloth is attached, in the utility model registration No. 039396, wherein the needle bar has a surface of the seabed. The soil and subsoil were mixed with each other while spraying seawater through the injection pipe to remove microorganisms and supply oxygen. At this time, the antifoam caused the float to sink.

Registration No. 0399396 of such a configuration realizes the purpose of collecting waste by supplying abundant oxygen between surface soil and subsoil, and installing a collection network in the vicinity of soil improvement, microorganism removal, and prevention cloth. There was a problem such that the pipe and the nozzle are parallel to block the nozzle, or the spraying direction through the nozzle is the traction direction so that the float rises forward and a large amount of float enters or scatters.

The present invention has been made to solve the above problems, the object of the present invention is to supply seawater rich in oxygen between the surface soil and the bottom soil of the seabed to spray seawater to change the seabed soil into aerobic soil rich in oxygen dissolved amount It is to provide a subsea soil improver to improve the structure to minimize the floating by the injection pressure of the sea water as well as the nozzle is not clogged by water.

The present invention for achieving the above object is installed in the high-pressure water distribution pipe installed on the high-pressure water distribution pipe installed on the two sides and connected to the inlet of the seawater and connected to the inflow pipe of the sea water and installed the needle rods and the prevention cloth on the opposite surface It consists of a needle plate, which is installed on the needle plate, by welding to a needle plate, which is connected to the high-pressure water distribution pipe, and a nozzle that sprays sea water at high pressure by mounting it at an inclined angle in the final discharge path of the injection pipe.

The needle plate is installed between the needle bar, characterized in that the inclination angle of the nozzle having the same inclination angle and the inclined surface that the nozzle is supported.

Hereinafter, an embodiment of the present invention will be described with reference to the accompanying drawings.

1 is an overall configuration of a seabed soil improver, Figures 2a, b is a view showing the configuration of the injection means applied to the sea soil improver, Figure 3 is a view showing the configuration of the injection means applied to the sea soil improver according to another embodiment 4 and 5 are views showing a state of use of the seabed soil improver of the present invention.

The present invention installs the weight 30 connected to the traction line 34 on both sides and is connected to the inlet pipe 10 of the sea water and the high-pressure water installed the needle rods 22 and the prevention cloth 40 on the opposite surface The pipe 20 and the high pressure water distribution pipe 20 are configured to inject means for injecting high pressure seawater introduced into the high pressure water distribution pipe 20.

The present invention is to improve the structure of the injection means for injecting seawater in order to supply seawater rich in oxygen between the surface soil and the bottom soil of the seabed to change the seabed soil into aerobic soil rich in oxygen dissolution. Among the organically connected members, the high pressure water distribution pipe 20 is disposed laterally.

The high pressure water distribution pipe 20 is connected to the hose 12 from the pump is in communication with the inlet pipe 10 for supplying the sea water at high pressure and the weight weight having a traction ring 32 connected to the traction line 34 on both sides Connection member 50 is bolted to the coupling 30 is installed, and the high-pressure water distribution pipe 20 is provided with a support 14 for firmly supporting the inlet pipe 10 installed in the longitudinal direction on both sides.

In addition, the high-pressure water distribution pipe 20 is installed by the hinge 42, the prevention cloth 40 is installed to rotate the hinge 42 to the point, a plurality of needles 22 in the opposite surface of the prevention cloth 40, that is, the traction direction ) Are installed, and the injection means are introduced through the high-pressure water injection pipe 26 at equal intervals between the needle rods 22 and distributed at a high pressure.

The injection means is welded to each of the needle bar plates 24 and the needle plate plates 24 installed in the high pressure water distribution pipe 20 in the same direction as the needle bars 22, but in communication with the high pressure water distribution pipe 20. (26) and a nozzle (28) mounted on the final discharge path of the injection pipe (26) to have an inclination angle (θ) to inject seawater at a high pressure.

The injection pipe 26 is welded to the back surface of the needle bar 24 with respect to the traction direction, and the inclination angle of the nozzle 28 is formed in the opposite direction to be towed, that is, in a direction to which the prevention cloth 40 is attached. The plate 24 has an inclined angle θ1 at the same inclination angle θ of the nozzle 28 to support the nozzle 28.

Therefore, the present invention connects the traction line 34 to the traction ring 32 of the weight 30, and when the hose 12 connected to the pump to the inlet pipe 10 is screwed into the pipe joint to pull the Figure 4 5, the needle bar 22 proceeds between the surface soil and the bottom soil of seawater soil, and the surface soil and the bottom soil are mixed.

In this process, oxygen-rich seawater is introduced into the high-pressure water distribution pipe 20 through the inlet pipe 10 by the pumping force by the pump, and then distributed to the injection pipe 26 to be sprayed through the nozzle 28. Therefore, it is possible to remove the microorganisms by supplying oxygen and water pressure between the surface soil and the subsoil, thereby improving the seabed soil.

In addition, the floating material generated when the surface soil and the lower soil are mixed with each other allows the prevention cloth 40 to sink, and in particular, the generation of the floating material in the spraying direction of the spraying means is minimized, that is, the nozzle 28 of the spray pipe 26. ) Is sprayed at an inclination angle toward the prevention cloth 40, so that floating matter is suspended within the range of the prevention cloth 40, thereby preventing damage to adjacent fisheries caused by the floating matter.

In addition, since the direction of the nozzle 28 is located in the direction opposite to the traction direction, the nozzle 28 is prevented from being blocked by the shock including the float, and in particular, the nozzle 28 on the inclined surface θ1 of the injection pipe 26. This position minimizes the range in which the nozzle 28 directly contacts the tank or the like to prevent clogging of the nozzle 28.

Although not shown in the drawings, even when a collection net of subsea waste is installed on an adjacent surface of the containment cloth 40, the floating material is minimized due to the improvement of the structure of the injection means, which is the above-described working example, so that the floating material including water in the collection net is entered. Is minimized, resulting in efficient undersea waste collection.

The present invention improves the injection structure of the seawater supplied in order to change the seabed soil into aerobic soil rich in oxygen solubility, so that the nozzle of the injection structure is not blocked by water, and the floating material by the injection pressure of the seawater is minimized even during the injection. There is an effect of improving the seabed soil which ultimately restores the coastal fishery environment without any mechanical defects and damage to the surrounding fishery.

Claims (2)

High-pressure water distribution pipe (20) is installed on both sides of the weight 30 is connected to the traction line (34) and connected to the inflow pipe (10) of the seawater and the needle rods 22 and the prevention cloth (40) on the opposite surface Injection pipe (26), injection pipe (26), which is connected to the high pressure water distribution pipe (20) by welding to the needle plate (24) and the needle plate (24) installed in the high pressure water distribution pipe (20) by means of injection. The subsea soil improver, characterized in that it is configured to have a nozzle (28) for spraying seawater at a high pressure by mounting so as to have an inclination angle (θ) in the final discharge path. The method of claim 1, Submerged soil 22, the plate 24 is installed between the needle rods 22, the seabed soil, characterized in that the inclination angle of the nozzle 28 is provided with an inclined surface (θ1) that the nozzle 28 is supported Improver.

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