KR101153077B1 - The seabed soil improvement - Google Patents

Abstract

The present invention relates to a seabed soil improver, and easy to replace the injection means for supplying the oxygen element between the surface soil and the bottom soil of the seabed, and occurs between the surface soil and the bottom soil when the oxygen element is supplied through the injection means The purpose of the present invention is to provide a subsea soil improver in which oxygen is enriched in addition to seawater in order to suppress suspended matter as much as possible and convert the soil quality and water quality of the seabed into an aerobic environment rich in oxygen dissolved water. The present invention for realizing the above object is provided with a traction ring connected to the traction line as a traction line, and is connected to the hose from the pump mounted on the traction line to the high-pressure water distribution pipe connected to the inlet pipe for supplying high pressure seawater to the point In the subsea soil improver provided with a nozzle and a needle bar plate on the surface, the needle bar plate is provided with a nozzle in the injection pipe is installed so as to communicate with the high pressure water distribution pipe, coupled to the high pressure water distribution pipe and having a traction ring on both sides , The reduction plate coupled to the inner side of the traction frame, and the reduction plate is characterized in that the needle plate is bolted coupled so that the injection pipe is in communication with the distribution holes formed in the high-pressure water distribution pipe.

Description

The seabed soil improvement

The present invention relates to a seabed soil improver for supplying oxygen-rich oxygen elements between the surface soil and the bottom soil of the seabed to change the soil and water quality of the seabed into an aerobic environment rich in oxygen dissolved water. Patent No. 714056 has been revised to provide an oxygen-rich oxygen element in addition to seawater, and it is easy to replace the injection means for supplying the oxygen element. will be.

In general, soil soils, especially coastal sediments, are important for maintaining a healthy marine ecosystem because they provide a habitat for fish and shellfish to provide a habitat for spawning and inhabiting them, as well as purifying various contaminants from land. Do.

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. Another problem occurred that damages the nearby fishing grounds.

Accordingly, the present applicant has improved the injection structure of the seawater supplied in order to change the seabed soil into aerobic soil rich in oxygen dissolved water in Patent Registration No. 714056, so that the nozzle of the injection structure is not blocked by water, The floating pressure caused by the injection pressure is minimized so that the seabed soils can be improved to restore the coastal fishery environment without any mechanical defects and damage to the surrounding fisheries.

That is, registration No. 714056, which is pre-registered by the present applicant in FIGS. 1A and 1B, installs a weight 30 having a traction ring 32 connected to a traction line by a traction line 34 on both sides, and the hose from the pump. (12) is connected to the inlet pipe (10) for supplying the sea water at high pressure and has a spray means installed in the high pressure water distribution pipe (20) having the needle rods (22) and the prevention cloth (40) on opposite sides As the injection means is connected to the needle plate 24, the needle plate 24, which is installed in the high pressure water distribution pipe 20 by welding, the injection pipe 26, the injection pipe 26 is in communication with the high pressure water distribution pipe 20 Nozzle 28 for spraying seawater at a high pressure by mounting so as to have an inclination angle in the final discharge path of the needle plate 24 is installed between the needle rods 22, but the same inclination angle of the nozzle 28 to make the nozzle It is characterized by including the inclined surface on which 28 is supported.

Patent No. 714056 previously registered by the applicant of the prior art by such a configuration is connected to the draw line 34 to the tow ring 32 of the weight 30, the hose 12 connected to the pump to the inlet pipe 10 To the high pressure water distribution pipe (20) through the hose 12 and the inlet pipe (10) by the pumping force by the pump in the process of proceeding when towing after screwing the pipe joints It is distributed to (26) and sprayed through the nozzle (28) to remove the microorganisms by the supply of oxygen and the hydraulic pressure between the surface soil and the bottom soil is improved seabed soil.

In addition, the floating material generated when the surface soil and the lower soil are mixed with each other causes the prevention cloth 40 to sink, and the direction of the nozzle 28 is located in a direction opposite to the traction direction, and is inclined to the inclined surface of the injection pipe 26. The nozzle 28 is positioned to minimize the range in which the nozzle 28 is in direct contact with the nozzle and the like to prevent clogging of the nozzle 28.

However, the registration number 714056, but the anti-foam 40 is installed on the opposite side of the traction direction to sink the floating material generated by mixing the surface soil and the lower soil, but it was difficult to suppress the floating material generated on the traveling direction side, needle plate ( 24) are fixed by welding to the high-pressure water distribution pipe 20, there was a problem that is difficult to replace when damaged.

In addition, other types of oxygen elements containing more oxygen than the amount of oxygen contained in the seawater are not supplied. Therefore, if more oxygen is required than the amount of oxygen contained in the seawater depending on the condition of the seabed soil, There was a limit to change.

In addition, the injection of the sea water through the nozzle is a direct injection formula there was a problem that a lot of floating occurs.

The present invention is to solve the above problems, an object of the present invention is easy replacement of the injection means for supplying the oxygen element between the surface soil and the bottom soil of the seabed, and the surface soil and the supply of oxygen element through the injection means The present invention provides a subsea soil improver that minimizes the floating matters generated between the subsoils.

Another object of the present invention is to provide a subsea soil improver which is supplied with oxygen-rich oxygen elements in addition to seawater in order to change the water quality between the surface soil and subsoil of the seabed into an aerobic environment rich in oxygen dissolved amount.

It is another object of the present invention to provide a seabed soil improver that minimizes suspended solids by dispersing the injection pressure of oxygen elements.

The present invention for realizing the above object is provided with a traction ring connected to the traction line as a traction line, and is connected to the hose from the pump mounted on the traction line to the high-pressure water distribution pipe connected to the inlet pipe for supplying high pressure seawater to the point In the subsea soil improver provided with a nozzle and a needle bar plate on the surface, the needle bar plate is provided with a nozzle in the injection pipe is installed so as to communicate with the high pressure water distribution pipe, coupled to the high pressure water distribution pipe and having a traction ring on both sides , The reduction plate coupled to the inner side of the traction frame, and the reduction plate is characterized in that the needle plate is bolted coupled so that the injection pipe is in communication with the distribution holes formed in the high-pressure water distribution pipe.

The bolting plate is provided on the top of the needle plate, and the bolting plate is in close contact, and the bolting balls are formed to be bolted to each of the reduction plate to be bolted coupled to the characteristic configuration.

Forming a long hole in which the high-pressure water pipe is exposed in the shock-reduction plate to ensure that the injection pipe of the needle bar plate is connected to the distribution hole of the high-pressure water pipe through the long hole when bolting of the needle plate to the reduction plate. It is done.

The nozzle is provided to be detachably screwed in a straight line with the injection pipe, the needle plate is characterized in that the configuration is characterized in that the dispersion surface is distributed by the collision of the oxygen element injected through the nozzle.

It is characterized in that the oxygen supply hose is connected to the inlet pipe from the pump mounted on the traction line to supply the oxygen element to the hose for supplying seawater at high pressure.

The present invention by the above configuration has the effect of stabilizing the suspended solids as a whole by providing a reduction plate and the prevention cloth on the front and rear surfaces of the high-pressure water distribution pipe for supplying seawater, by having a reduction plate in the traction direction of the traction line.

In addition, it is convenient to replace the needle plate and the injection pipe in the field by bolting the needle plate to the reduction plate of the injection structure of the seawater supplied in order to change the sea soil into aerobic soil rich in oxygen dissolved amount.

In addition, by supplying a separate oxygen element in addition to the sea water, it is possible to more efficiently convert the seabed soil and water quality into an aerobic environment rich in oxygen dissolved amount.

In addition, by forming a plurality of traction holes provided in the towing ring, it is possible to effectively stabilize the float by adjusting the height of the reduction plate and the submarine soil in accordance with the amount of the floating soil.

In addition, the oxygen element injected through the nozzle is dispersed while colliding with the dispersion surface of the needle plate has the effect of suppressing the generation of suspended matter.

1a and 1b is a view showing the overall configuration of a conventional subsea soil improver,
Figure 1a is a perspective view, Figure 1b is a view of the use state,
2a and 2b is a view showing the overall configuration of the seabed soil improver of the present invention,
Figure 2a is a perspective view, Figure 2b is a side view of the use state,
Figure 3 is a perspective view of the needle plate to be bolted to the reduction plate applied to the present invention,

Figure 2a and Figure 2b is a view showing the overall configuration of the seabed soil improver of the present invention, Figure 3 is a perspective view of the needle plate plate bolted to the reduction plate applied to the present invention.

2A and 2B, the inlet pipe 10 having a tow line 34 connected to the tow line by the tow line 34 and connected to the hose 12 from the pump mounted on the tow line to supply seawater at a high pressure; The high pressure water distribution pipe 20 to be connected to each other to install the prevention cloth 40 and the needle plate 24 in both directions, but the needle plate 24 is installed to communicate with the high pressure water distribution pipe 20 (26) ) Is provided with a nozzle (28) is welded and coupled, and the injection means for supplying the oxygen element such as liquid oxygen rich in oxygen content, which is the main point of the present invention, and for supplying the oxygen element can be easily replaced, It is set as the structure which suppresses to the maximum.

In the present invention, as a means for suppressing the floating matter by the injection pressure is coupled to the high-pressure water distribution pipe 20 and the traction frame 31 having a traction ring 32 on both sides, 뻘 reduction coupled to the inner side of the traction frame (31). It consists of a plate 37.

The traction frame 31 is provided in a rectangular shape so that the long side is placed in the length of the longitudinal direction of the high-pressure water distribution pipe 20, and the short side is coupled to the outer periphery of both ends of the high-pressure water distribution pipe 20 by welding, The reduced plate 37 coupled to the traction frame 31 is coupled by welding in one embodiment of the present invention, but is not limited thereto, and may be implemented by bolting or the like.

The needle plate 24 is bolted and coupled to the shock reduction plate 37 so that the injection pipe 26 communicates with the distribution holes 21 formed in the high pressure water distribution pipe 20. The high-pressure water distribution pipe 20 is formed to form a long hole (35), the injection pipe 26 of the needle plate 24 at the time of the bolting coupling of the needle plate 24 to the reducing plate 37 is a long hole (35) It is configured to be installed in communication with the distribution hole 21 of the high-pressure water distribution pipe 20 through.

The nozzle 28 is provided to be detachably screwed with the injection pipe 26 in a straight line, the needle plate 24 is provided with a dispersing surface 27 which is dispersed by collision of oxygen elements injected through the nozzle 28 Configure to

In addition, as the traction ring 32 is formed with a plurality of traction holes 33 are woven in the traction ring 32, the traction holes 33 are formed in parallel in the embodiment of the present invention, but is not limited thereto. Even if it is formed diagonally or in series, it can implement.

In the present invention, it is easy to replace the injection means is provided with a bolting plate 25 on the top of the needle plate 24, the bolting plate 25 is in close contact with each other bolting plate 37 is bolted to the bolted coupling To form bolting balls 23 and 36.

The bolting plate 25 is formed with a hole in which the injection pipe 26 fused to the front side of the needle plate 24 communicates with the needle plate 24 at the time of fusion.

In the present invention, the oxygen supply element rich in oxygen content is connected to the inlet pipe (10) from the pump mounted on the traction ship oxygen supply hose 13 for supplying the oxygen element to the hose 12 for supplying high pressure seawater ) Is connected.

The operation of the present invention by such a configuration will be described with reference to FIG. 2B.

First, the reduction wire 37 fused in the traction frame 31 by connecting the traction line 34 connected to the traction line to any one of the traction holes 33 formed in the traction ring 32 of the traction frame 31. After adjusting the height between the seabed and the traction line tow the traction frame (31) through the traction line (34).

The needle plate 24 organically coupled through the traction frame 31 and the reducing plate 37 proceeds between the lower soil and the surface soil of the sea soil to mix the lower soil and the surface soil.

In this process, seawater and oxygen elements are introduced into the high pressure water distribution pipe 20 through the hose and the oxygen supply hose 13 and the inlet pipe 10 by the pumping force, and are distributed to the injection pipe 26 and the nozzle ( It is sprayed through 28) to remove the microorganisms by the supply of oxygen and water pressure between the surface soil and the soil soil, thereby improving the soil quality.

At this time, the oxygen element is included in the sea water, and the improvement effect of the seabed soil is increased. However, the supply of the oxygen element may be selectively provided according to the pollution degree of the seabed soil, that is, the seawater and the oxygen element may be supplied separately or mixed. It is.

In addition, the seawater mixed with the liquid oxygen, which is the oxygen element injected through the nozzle 28, is dispersed by colliding with the dispersion surface 27 while being sprayed, thereby minimizing the occurrence of suspended matter and of course, the oxygen element includes the oxygen element during collision. It improves water pollution as it rises after being supplied to the soil in the form of air bubbles.

In addition, the floating material generated when the surface soil and the lower soil are mixed with each other allows the prevention cloth 40 and the reducing plate 37 to sink. That is, the floating material generated at the rear of the high-pressure water distribution pipe 20 has the prevention cloth 40. Allows to sink, the floating material generated in the traveling direction of the tow line 34, which is the front side of the high-pressure water distribution pipe 20 will be suppressed by the damping plate 37.

Meanwhile, when the needle bar 24 is caught or collided with an interference object such as rock of the sea soil in the process of towing the tow line through the towing frame 31, the needle plate 24 is reduced. By bolting to, replacement of the needle plate 24 is made simply in the field.

10: inlet tube 12: hose
13: oxygen supply hose 20: high pressure water pipe
21: distribution hole 24: needle plate
25: bolting plate 23, 36: bolting ball
26: distribution pipe 27: dispersion surface
31: towing frame 32: towing ring
33: tow hole 34: tow line
35: long hole 37: thinning plate

Claims (5)

A high pressure water distribution pipe having a traction ring 32 connected to the traction line as a traction line 34 and connected to the hose 12 from a pump mounted on the traction line and connected to an inlet pipe 10 for supplying high pressure seawater ( 20 is installed on the opposite surface to the prevention cloth 40 and the needle plate 24, the needle plate 24 is a nozzle 28 to the injection pipe 26 is installed to communicate with the high-pressure water distribution pipe 20 In the subsea soil improver made of a,
The traction frame 31 coupled to the high pressure water distribution pipe 20 and having a traction ring 32 on both sides, a 뻘 reduction plate 37 coupled to the inner side of the traction frame 31, and the 뻘 reduction plate 37. There is a subsea soil improver, characterized in that the injection pipe 26 is bolted coupled so that the needle plate 24 is in communication with the distribution holes 21 formed in the high-pressure water distribution pipe (20). The method of claim 1,
The bolting plate 25 is provided on the top of the needle plate 24, and the bolting plate 23 is bolted to the bolting plate 25 and the bolting plate 25 to be bolted to each of the reducing plate 37 which is bolted and coupled to each other. An undersea soil improver characterized in that the configuration formed (36). The method of claim 1,
The reducing plate 37 forms a long hole 35 through which the high pressure water distribution pipe 20 is exposed, so that the injection tube 26 of the needle bar 24 is bolted at the time of bolting of the needle bar 24 to the reducing plate 37. ) Is a seabed soil improver, characterized in that the configuration to be installed in communication with the distribution hole 21 of the high-pressure water distribution pipe 20 through the long hole (35). The method of claim 1,
The nozzle 28 is provided to be detachably screwed with the injection pipe 26 in a straight line, the needle plate 24 is provided with a dispersing surface 27 which is dispersed by collision of oxygen elements injected through the nozzle 28 Subsea soil improver, characterized in that. The method of claim 1,
Subsea soil improver characterized in that the oxygen supply hose 13 for supplying the oxygen element to the hose 12 for supplying seawater at high pressure from the pump mounted on the traction line is connected to the inlet pipe (10) .

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