KR200286808Y1 - Fluid flow guide pipe system using fluid level gap - Google Patents

Abstract

This proposal is based on the structure of the breakwater (13) from the breakwater sea level 11 to breakwater sea level (12), or from the breakwater sea level (12) to breakwater sea level (11) to the lower surface level of the fluid The present invention relates to a fluid flow guide system using a fluid level gap configured as a means for inducing the flow to improve the water quality of the seawater (12) in the breakwater and to protect the coastal facilities.

[purpose]

The present invention, as a means of constituting a structure to improve the problems caused by the conventional defects from the breakwater sea surface 11 to the breakwater sea surface 12, or the breakwater sea surface 12 to the surface of the breakwater sea surface 11 It is to provide a fluid flow induction pipe system using a fluid level gap characterized in that the structure is configured to improve the fluid quality of the seawater 12 in the breakwater and to protect the coastal facilities by inducing and flowing a stable fluid flow to the lower side. .

[Configuration]

The liquid inlet 1 and the fluid suction pore 10 are formed in the L-shaped fluid inlet pipe 2, and the fluid outlet 9 and the fluid discharge hole 8 are formed in the L-shaped trough tube 7 to form a ladder-type fluid flow. The fluid level gap, which is configured by coupling to both sides of the induction pipe (3), constitutes a valve (5) in the air suction pipe (6) in the ladder-type fluid flow guide pipe (3), and forms an air inlet (4). Fluid flow guide tube system using.

[effect]

This proposal is based on the structure of the breakwater 13 to stabilize the flow of fluid from the breakwater sea level 11 to the breakwater sea level 12, or from the breakwater sea level 12 to the surface of the breakwater sea level 12 It is possible to provide a fluid flow guide pipe system using a fluid level gap configured as a means for improving the water quality of the breakwater in the sea surface 12 to protect the coastal facilities.

As the structure of the structure

The liquid inlet 1 and the fluid suction pore 10 are formed in the L-shaped fluid inlet pipe 2, and the fluid outlet 9 and the fluid discharge hole 8 are formed in the L-shaped trough tube 7 to form a ladder-type fluid flow. The fluid level gap, which is configured by coupling to both sides of the induction pipe (3), constitutes a valve (5) in the air suction pipe (6) in the ladder-type fluid flow guide pipe (3), and forms an air inlet (4). It is effective to provide a fluid flow guide tube system using.

Description

Fluid flow guide system using fluid level gaps

The present invention induces a stable fluid flow from the breakwater external sea surface 11 to the breakwater sea surface 12 as a means of constituting a structure to improve the problems caused by the conventional defects to improve the fluid water quality of the sea surface 12 in the breakwater In order to provide a fluid flow guide system using a fluid level gap characterized in that the structure is configured to improve.

The liquid inlet 1 and the fluid suction pore 10 are formed in the L-shaped fluid inlet pipe 2, and the fluid outlet 9 and the fluid discharge hole 8 are formed in the L-shaped trough tube 7 to form a ladder-type fluid flow. The fluid level gap, which is configured by coupling to both sides of the induction pipe (3), constitutes a valve (5) in the air suction pipe (6) in the ladder-type fluid flow guide pipe (3), and forms an air inlet (4). It is to provide a fluid flow guide tube system using.

Conventionally, by building and blocking the breakwater 13, the fluid quality of the breakwater in the sea surface 12 of the seawater 12 is extremely deteriorated, causing problems of fluid water pollution.

As a means to solve this problem, a part of the breakwater was drilled to improve the water quality of the breakwater in the seawater (12) direction.However, when the wave is strong due to typhoons and the fluid flow is fast, the breakwater in the seawater (11) direction breakwater. The rapid flow and strong waves of the fluid in the direction (12) flowed intact, causing damage to coastal facilities and the anchored vessels of the seawater in the direction of the breakwater.

In order to solve this problem, the present invention is constructed with a fluid flow guide pipe system using a fluid level gap by mounting a ladder-type fluid flow guide pipe (3) at the place where the breakwater (13) is constructed for the purpose of solving the above problems. If the water level is high, it will induce a fluid flow (⇒) to the breakwater inland sea surface (12) to improve the water quality in the direction of the breakwater sea surface (12) and to give a stable fluid flow to protect the coastal facilities or the vessels anchored.

If the water level of the breakwater in the sea level 12 is high, the direction of the fluid reciprocal flow toward the breakwater sea level 11 ( Fluid flows back to the breakwater in the sea surface 12, and the confined fluid flows in the direction of the breakwater to the sea surface 11 so that the contaminated fluid toward the breakwater to the sea surface 12 escapes to the breakwater sea surface 11 It is to use the feature that the structure is configured to improve and improve.

Figure 1 is a side view of this draft

Figure 2 shows the height of this paper

3 is a perspective view of this paper.

4 is a perspective view of the present proposal

※ Structure description of the main parts of the drawings

One . Fluid inlet

2 . L-shaped fluid inlet pipe

3. Ladder Fluid Flow Guide Tube

4 . Air intake

5. Valv

6. Air suction pipe

7. L-shaped fallopian tube

8 . Fluid discharge pores

9. Fluid outlet

10. Fluid intake pores

11. Breakwater

12. Breakwater inland sea level

13. breakwater

⇒. Fluid flow direction

. Fluid Backflow Flow Direction

The present invention induces a stable fluid flow from the breakwater external sea surface 11 to the breakwater sea surface 12 as a means of constituting a structure to improve the problems caused by the conventional defects to improve the fluid water quality of the sea surface 12 in the breakwater It was configured to provide a fluid flow guide pipe system using a fluid level gap, characterized in that the structure is configured to improve.

In order to solve this problem, the present invention is constructed with a fluid flow guide pipe system using a fluid level gap by mounting a ladder-type fluid flow guide pipe (3) at the place where the breakwater (13) is constructed for the purpose of solving the above problems. If the water level is high, it will induce a fluid flow (⇒) to the breakwater inland sea surface (12) to improve the water quality in the direction of the seawater breakwater (12) and to give a stable fluid flow to protect the coastal facilities or the vessel anchored.

If the water level of the breakwater in the sea level 12 is high, the direction of the fluid reciprocal flow toward the breakwater sea level 11 ( Fluid flows back into the breakwater in the sea surface 12, and the confined fluid flows in the direction of the breakwater into the sea surface 11, and contaminated fluid in the direction of the breakwater into the sea surface 12 escapes into the seawater out of the breakwater 11 It is to use the feature that the structure is configured to improve and improve.

The fluid flow guide pipe using the fluid level gap configured as a means for carrying out this process is mounted on the breakwater 13 and filled in the ladder-type fluid flow guide pipe 3 as illustrated in the mounting view of the present invention. In order to remove the existing air, the air is forced into the air through the air inlet (4), and the structure is configured to discharge to the outside of the ladder-type fluid flow guide pipe (3).

The inside of the ladder-type fluid flow guide tube 3 through which the air is discharged is filled with fluid, and at this time, the valve 4 is locked to block and isolate from the external air pressure, thereby filling the interior of the ladder fluid flow guide tube 3. Cold fluid starts to move toward the surface of the low fluid, and it is characterized by the effect of performing the purpose by the composition of this paper.

At this time, when the breakwater excluding the sea surface 11 is high, the fluid flows in the fluid flow direction ⇒ of the fluid inlet 1 formed in the L-shaped fluid inlet pipe 2 and the fluid intake pore formed to facilitate the fluid inflow. At 10, fluid inflow is parallel.

The introduced fluid is discharged to the fluid discharge port 9 through the ladder-type fluid flow guide tube 3 according to the mark of the fluid flow direction (⇒) to supply the flow of fresh fluid toward the breakwater inner sea surface 12. .

In this way, when the fluid flow is discharged to the fluid discharge port 9, the fluid discharge pores 8 are formed in the L-shaped trumpet tube 7 to facilitate the fluid discharge.

When the water level difference between the breakwater sea level 11 and the breakwater inner sea level 12 changes due to the tidal difference of the fluid tide, when the water level of the breakwater sea level 12 rises higher than the breakwater sea level 11, the L-shaped trumpet tube 7 Fluid flows into the fluid discharge port (9) and fluid discharge pore (10) formed in the Back to the fluid inlet (1) and the fluid intake pore (10) formed in the L-shaped fluid inlet pipe (2) via a ladder-type fluid flow guide pipe (3) flows into the breakwater seawater (12) Contaminated fluid confined in the direction of the backwater flow to the breakwater sea level 11 ( It flows toward) and works by constructing a structure that improves the water quality of breakwater-resistant sea level 12.

The L-shaped trumpet tube 7 is formed in the ladder-type fluid flow guide tube 3 so that the flow rate is not rapidly discharged when the fluid is discharged through the fluid discharge port 9 in the fluid flow direction ⇒. No damage to the moored vessels.

In addition, FIG. 2 shows that the height of the ladder-type fluid flow guide pipe 3 is higher than that of the breakwater sea level 11 or the breakwater inner sea level 12 as illustrated in the mounting view of the present invention. ) Or reciprocal fluid direction ( ) Is designed so that the flow is determined and guided to the low water position of the water) to give stable fluid flow, and strong wave force or fast algal flow directly affects the sea surface (12) in the direction of sea surface (11). It is to provide a fluid flow guide pipe using a fluid level gap, characterized in that the structure is configured to act so as not to reach.

When the breakwater (13) is constructed, a ladder-type fluid flow induction pipe (13) is mounted to form a fluid flow induction pipe system using a fluid level gap. When the water level is high in the breakwater external sea surface (11), the fluid into the breakwater inshore water surface (12) By inducing and discharging the flow (⇒), it improves the water quality in the direction of sea level in the breakwater (12) and provides stable fluid flow to protect coastal facilities or vessels anchored.

When the water level of the breakwater in the sea level 12 is released, the direction of the fluid reciprocal flow toward the breakwater sea level 11 ( Fluid flows back to the breakwater in the sea surface 12 and flows back to the breakwater sea surface 11 and flows out to the contaminated fluid bag breakwater sea surface 11 in the direction of the breakwater. It is to use the feature that the structure is configured to improve and improve.

This study uses a fluid level gap to improve the water quality of the breakwater in the sea level 12 by inducing the flow of fluid from the breakwater external sea level 11 to the breakwater in the sea level 12 based on the structure of the breakwater 13. A fluid flow guide system.

The liquid inlet 1 and the fluid suction pore 10 are formed in the L-shaped fluid inlet pipe 2, and the fluid outlet 9 and the fluid discharge hole 8 are formed in the L-shaped trough tube 7 to form a ladder-type fluid flow. The fluid level gap, which is configured by coupling to both sides of the induction pipe (3), constitutes a valve (5) in the air suction pipe (6) in the ladder-type fluid flow guide pipe (3), and forms an air inlet (4). Has the effect of providing a fluid flow guide tube system using

Claims (2)

The liquid inlet 1 and the fluid suction pore 10 are formed in the L-shaped fluid inlet pipe 2, and the fluid outlet 9 and the fluid discharge hole 8 are formed in the L-shaped trough tube 7 to form a ladder-type fluid flow. Fluid flow induction pipe system using the fluid level gap, characterized in that the coupling provided on both sides of the induction pipe (3) According to claim 1 A valve 5 is formed in the air suction pipe 6 of the ladder fluid flow guide tube 3, and the air suction port 4 is formed to fill the inside of the ladder fluid flow guide tube 3 through the air suction port 4. The air is forced into the air and discharged to the outside so that the fluid is filled inside the ladder fluid flow guide tube 3 and the valve 5 is locked so that no outside air flows into the ladder fluid flow guide tube 3. Fluid flow induction pipe system using a fluid level gap, characterized in that the external air pressure to block the flow of fluid to start the flow of fluid in a low direction to provide a continuous flow