KR200301090Y1 - Fluid flow guide pipe with buoyancy disk coupled to guide the fluid inlet to the upper surface of the fluid - Google Patents

Abstract

This study relates to a fluid flow induction pipe (5) in which a buoyancy disk (2) is coupled and mounted to induce a fluid inlet (3) to the upper surface of the fluid, except for breakwater, to provide stable fluid flow.

[purpose]

The present invention as a means of constituting a structure to improve the structure of the problems caused by the conventional defects buoyancy disk (2) and safety net (7) sedimentation induction bundle bundle pin (4) of the fluid flow guide pipe (5) And a fluid inlet (3) formed in the lower portion immediately below the buoyancy disk (2) that is constitutively coupled to the fluid flow induction pipe (5) to improve the structure to guide the flow of the fluid stably This is to provide a fluid flow guide pipe (5) in which the buoyancy disk (2) is coupled to the fluid inlet (3) is guided to the upper surface of the fluid.

[Configuration]

Structurally, the buoyancy disk (2) and the safety net (7), the sedimentation induction bundle pin (4) of the fluid flow guide pipe (5) to the fluid flow guide pipe (5) and constitutes in the fluid flow guide pipe (5) The buoyancy disk 2 is coupled to the fluid upper layer by improving the structure of stably inducing the flow of the fluid by forming the fluid inlet 3 at the lower part of the lower side of the buoyancy disk 2 which is coupled. It is to provide a fluid flow guide pipe (5) to guide the fluid inlet (3) to the water surface.

[effect]

Structurally, the buoyancy disk (2) and the safety net (7), the sedimentation induction bundle pin (4) of the fluid flow guide pipe (5) to the fluid flow guide pipe (5) and constitutes in the fluid flow guide pipe (5) The buoyancy disk 2 is coupled to the fluid upper layer by improving the structure of stably inducing the flow of the fluid by forming the fluid inlet 3 at the lower part of the lower side of the buoyancy disk 2 which is coupled. It is effective to provide a fluid flow guide pipe 5 through which the fluid inlet 3 is guided to the water surface.

Functionally, it improves and anchors the flow of fluid from the offshore water surface (8) from the breakwater to the breakwater surface (10) to improve and anchor the fluid water quality in the breakwater. The buoyancy disk is characterized in that it does not damage the ship or the coastal facilities that are coupled to provide a fluid flow guide pipe that guides the fluid inlet to the upper surface of the fluid.

Description

Fluid flow guide tube with buoyancy disk coupled to guide the fluid inlet to the upper surface of the fluid

The present invention, as a means of constituting a structure to improve the structure of the problems caused by the conventional defects, sedimentation induction bundle of buoyancy disk (2) and safety net (7), fluid flow guide pipe (5) in the fluid flow guide pipe (5) The fluid inlet (3) is formed in the lower portion of the lower portion of the buoyancy disk (2) that is constitutively coupled to the fluid flow induction pipe (5) and constituting the fin (4) to stably guide the flow of fluid It is to provide a fluid flow guide pipe (5) in which the buoyancy disk (2) is characterized in that it is improved and the fluid inlet (3) is guided to the upper surface of the fluid.

Conventionally, in order to improve the fluid water quality of the breakwater-resistant seawater layer 10, the tunnel water is drilled through a portion of the breakwater 9 so that the fluid flows through the tunnel hole, thereby improving the fluid water quality of the breakwater-resistant seawater layer 10 above the breakwater. However, if a high wind or high tidal flow is formed, the strong wave force in the direction of the breakwater of the upper layer of the breakwater (8) is pushed through the tunnel hole, and the vessel is anchored at the breakwater layer of the upper layer of the breakwater (10). It has the disadvantage of overturning and damaging the coastal facilities.

In order to solve this problem, this paper constructs and combines the buoyancy disk 2 with the fluid flow guide tube 5 and forms the fluid inlet 3 directly below the buoyancy disk 2 to form the upper surface of the fluid. As a result, the buoyancy of the buoyancy disk (2) pulls the fluid flow induction pipe (5) to the upper fluid level, and guides the fluid inlet (3) to the fluid upper surface (8), which is the upper fluid level. (3) to guide the fluid flow to the fluid flow guide pipe (5) to stably flow the fluid flow in the direction of the breakwater inert sea fluid layer surface (10) through the fluid flow outlet (6).

At this time, the fluid flow guide pipe (5) is made of soft and hard synthetic resins or units, using a free fluid flow guide pipe (5) to move according to the wind flow or flow rate, etc. The sedimentation guide bundle pin (4) of the fluid flow guide pipe (5) or the fluid flow guide pipe that is heavier than the fluid water quality (water) is embedded into the fluid flow guide pipe (5). Partially settle the fluid flow guide pipe (5) below the breakwater of the offshore fluid upper surface (8) to induce the entire fluid flow guide pipe (5) so that it does not float and become an obstacle causing trouble to the vessel operation and the fluid flow direction ( ⇒) or fluid flow inverse direction (⇒).

1 is a perspective view of the present article

The second figure is a front view of this bill

The third road is attached to the breakwater in this paper

(A) of FIG. 3 shows the flow of fluid to the breakwater

(B) of Figure 3 is the water reciprocal flow chart of the breakwater external sea level (8).

※ Explanation of Relief for Main Parts of Drawing

One . Atmospheric Air Inlet

2 . Buoyancy

3. Fluid inlet

4 . Settling guide bundle pin of fluid flow guide tube

5. Fluid flow guide

6. Fluid flow outlet

7. Safety net

8 . Breakwater

9. breakwater

10. Breakwater

⇒. Fluid flow direction

⇒. Fluid Flow Reversal Direction

According to this paper, the sedimentation induction bundle pin of the buoyancy disk (2) and the safety net (7) fluid flow guide pipe (5) in the fluid flow guide pipe (5) as a means of constructing a structure to improve the structure of the problems caused by the conventional defects (4) and the fluid inlet (3) formed in the lower portion immediately below the buoyancy disk (2) constituting the fluid flow induction pipe (5) to improve the structure to stably guide the flow of fluid The buoyancy disk 2 is characterized in that the coupling is mounted to provide a fluid flow guide pipe (5) in which the fluid inlet (3) is guided to the upper surface of the fluid.

In order to solve this problem, this paper forms an air inlet (1) on the top of the fluid flow guide pipe (5) to induce fluid flow easily and smoothly, and combines the buoyancy disk (2) to form a buoyancy disk. A fluid inlet (3) is formed in the lower part of the bottom of (2) so that the buoyancy force of the buoyancy disc (2) pulls the fluid flow guide pipe (5) to the fluid upper surface according to the fluid upper water surface, and the fluid flow inlet ( 3) to induce the fluid flow into the fluid flow induction pipe (5) to operate the fluid flow through the discharge port (6) to stably flow the fluid flow in the direction of the seawater layer 10 in the breakwater.

At this time, the fluid flow guide pipe (5) is a fluid flow guide pipe (5) by using a free fluid flow guide pipe (5) moving in accordance with the wind flow or flow rate using a soft soft and hard synthetic resin or a unit, etc. ) And the sedimentation guide bundle pin (4) of the fluid flow guide pipe (5) or the fluid flow guide pipe, which is heavier than the fluid water quality (water), is formed by wedges to form the fluid flow guide pipe (5). Particularly settles below the surface of the breakwater of the offshore fluid layer (8) so that the entire fluid flow guide pipe (5) is not injured and impeded the operation of the ship, and is constructed so that it is in the fluid flow direction (⇒) or the fluid flow reverse direction (⇒). It is to provide a fluid flow guide pipe (5) in which the fluid inlet (3) is guided to the upper surface of the fluid by mounting the buoyancy disk (2) characterized in that the fluid flow flows stably structured.

Structurally, the air inlet 1 is formed on the upper portion of the fluid flow guide tube 5 as a means of constructing a structure to improve the structure of the problems caused by the conventional defects, so that the buoyancy disk 2 and the safety net 7, A fluid inlet (3) is formed at the lower part of the buoyancy disk (2) constituting the sedimentation induction bundle pin (4) of the fluid flow induction pipe and coupled to the fluid flow induction pipe (5) to flow the fluid. It is to provide a fluid flow guide pipe (5) in which the buoyancy disk (2) is coupled and mounted to improve the structure that guides the stably to guide the fluid inlet (3) to the upper surface of the fluid.

Functionally, in order to solve this problem, the buoyancy disk 2 is constitutively coupled to the fluid flow guide tube 5 and the fluid inlet 3 is formed at the lower part of the buoyancy disk 2 to form a fluid upper surface. As a result, the buoyancy of the buoyancy disk (2) pulls the fluid flow induction pipe (5) to the upper fluid level, and guides the fluid inlet (3) to the fluid upper surface (8), which is the upper fluid level. (3) flows into the fluid flow induction pipe (5) to induce a fluid flow through the fluid flow discharge port (6) to the effect of stably flowing the fluid flow in the direction of the breakwater inert sea fluid layer surface (10) The buoyancy disk is coupled to provide a fluid flow guide pipe to guide the fluid inlet to the upper surface of the fluid.

Claims (1)

Atmospheric air inlet (1) is formed on top of the fluid flow induction pipe (5) to form and combine the buoyancy disk (2), safety net (7), and sedimentation induction bundle pin (4) of the fluid flow induction pipe. The buoyancy disk is coupled and mounted, which is improved to a structure that stably guides the flow of the fluid by forming the fluid inlet 3 at the lower portion of the buoyancy disk 2 which is constitutively coupled to (5). Fluid flow guide pipe that guides the fluid inlet to the fluid layer