KR101394228B1 - Seawater intake device - Google Patents

Abstract

A seawater intake device according to the present invention, which supplies seawater to the ground, comprises: a hood housing installed in the seawater and having a plurality of through holes on the outer surface thereof; seawater filtering units respectively installed in the through holes of the hood housing to filter the seawater; a hood tube having a plurality of seawater inlet holes on the surface thereof and arranged inside the hood housing while protruding to both sides of the hood housing to introduce the seawater inside the hood housing; a plug installed on one end of the hood tube; and a plurality of tubular bodies and weight tubular bodies repeatedly connected to the other end of the hood tube so that the end of the tubular body is connected to a pump on the ground, wherein the seawater filtering unit includes a frame, which has guide units on both sides thereof and which is fixed to the through hole of the hood housing, and a filtering net, which is installed along the guide unit of the frame to filter the seawater, and the weight tubular body includes a weight tube which has flanges on both sides thereof and of which the center part is embedded in a weight by an insert molding method. Therefore, the seawater intake device according to the present invention can conveniently replace the filtering net when the filtering net is blocked by oysters and the like by conveniently separating the filtering net of the seawater filtering unit from the frame and can easily extend the life thereof while conveniently performing maintenance and repair by separating the filtering net to allow a diving worker to enter the inside of the hood housing and easily clean the inside of the hood housing.

Description

SEAWATER INTAKE DEVICE

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a seawater intake apparatus, and more particularly, to a seawater intake apparatus that can easily improve durability and workability.

In general, facilities for supplying fresh seawater are necessary in the fishery market near the sea, which is a business place that uses seawater and that handles live aquatic products.

As an example, a conventional seawater desalination plant connects one end of a tubular body to a pump and puts the other end of the tubular body into the seawater to supply seawater to the workplace by operating the pump. However, the shell of seaweeds and shellfish Impurities such as sand can be introduced together, which not only deteriorates the performance of the pump but also causes the pump to fail.

In order to improve such a conventional technique, a hood for seawater intake, which is conventionally filed and registered as a patent application No. 8-2012-0094201, has been developed as an example of a hood, A connection flange having flanges formed on both sides thereof is provided at a central portion of the longitudinal direction of the hood main body which forms an inlet groove, which is formed in the hood main body, And a plurality of communication holes communicating the inside diameter and the outside diameter are formed and a collecting pipe having fixing flanges at both ends are provided to be housed in the device groove and the fixing flange is fastened to the connecting flange to connect the collecting pipe to the center of the hood main body And the conventional seawater desalination device has a structure in which a long length of tubular body is connected between the hood for sucking the seawater and the pump as described above, It is placed in.

However, since such a seawater intake device combines the hood between two connection flanges installed on both sides of the hood main body, the operation of coupling the hood is very inconvenient and it takes a long time to join the hood.

In addition, since the screen is fixed to the seawater inlet formed in the hood main body, when the screen is clogged due to attachment of oysters or lime to the screen in the sea, the screen can not be replaced and the hood for inhalation of seawater should be discarded. The hood in the hood main body can not be maintained.

In particular, in the past, since the tubular body having a long length connecting between the hood and the pump can not be fixed smoothly, the tubular body is repeatedly bent due to the influence of waves and currents.

SUMMARY OF THE INVENTION The present invention has been made to overcome the problems of the prior art as described above, and it is an object of the present invention to improve the constituent elements of the seawater intake apparatus so that the seawater filter body can be conveniently replaced, It is easy to maintain, easy to extend the service life, and smoothly fixes the tubular body to prevent warping of the tubular body due to waves and currents. It improves the durability and improves the workability by shortening the working time. And to provide a seawater intake.

In order to accomplish the above object, the present invention provides a seawater intake apparatus comprising a seawater supply unit for supplying seawater to the ground, wherein a plurality of through holes are formed on an outer surface of the hood housing disposed in the seawater, And a hood tube having a plurality of seawater inlet holes on the surface thereof is installed on both sides of the hood housing so as to be installed inside the hood housing to introduce seawater into the hood housing And a plurality of tubular bodies and weight tubular bodies are repeatedly connected to the other end of the hood tube to connect the end of the tubular body to the ground pump, thereby providing a seawater intake device .

Wherein the frame has guide portions on both sides thereof fixed to a through hole of a seawater housing and a filter net for filtering seawater is installed along a guide portion of the frame, And a central portion of one weight tube is embedded in the weight in an insert molding manner.

A first step of preparing a hood pipe, a pipe body, a weight pipe body, and a seawater filter body in the construction of the seawater intake pipe; A second step of forming a base portion and a hood support portion of the hood housing by molding and then pouring and curing the hood housing with concrete; A third step of disposing a hood tube on the hood support of the hood housing of the second step; A fourth step of forming a side wall and an upper surface of the hood housing from the mold after the third step and then curing and curing concrete to complete a hood housing having a plurality of through holes; A fifth step of installing seawater filtration bodies in through-holes of the hood housing of the fourth step, respectively; A sixth step of arranging a plurality of tubular bodies and a weight tubular body at one end of the hood tube protruding to both sides of the hood housing, and arranging them in the sea; And a seventh step of connecting the pipe projecting to the ground to the pump on the ground.

Since the seawater desalination apparatus according to the present invention can easily separate the filter net of the seawater filtration body on the frame, the filter net can be conveniently replaced when the filter net is clogged with oysters, So that the inside of the hood housing can be easily cleaned, so that maintenance and repair are easy and the service life can be easily extended.

In addition, since the weight tube body is coupled between the long-length tube bodies, the tube body can be fixed smoothly to the ground surface in the seawater by the weight tube body, thereby preventing the tube body from being warped by waves and currents, .

Further, since the hood housing is formed of concrete while the hood pipe is housed in the hood housing and the weight pipe body is flanged between a plurality of pipes, the seawater desalination device according to the present invention not only shortens the working time but also facilitates workability The advantage is that it can be improved.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a configuration diagram showing a seawater desalination plant according to the present invention; Fig.
Fig. 2 is an enlarged view of the portion A of Fig.
3 is a sectional view showing a hood housing, a hood pipe, and a seawater filtration body applied to the seawater intake system according to the present invention.
4 is a cross-sectional view taken along the line C-C in Fig.
Fig. 5 is an enlarged view of a portion B in Fig. 1; Fig.
6 is a cross-sectional view showing a weight tube applied to the seawater intake apparatus according to the present invention.
7 is a block diagram showing a construction method of a seawater intake system according to the present invention.
8 is a process diagram for explaining a method of constructing a seawater intake system according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in more detail with reference to the accompanying drawings.

1 to 6 are views showing the seawater intake device according to the present invention, wherein the seawater intake device supplies seawater to the ground, and the seawater desorption device according to the present invention is formed on the outer surface of the hood housing 1 disposed in the seawater. And a hood tube 3 is disposed inside the hood housing 1. A plurality of tubes 3 are disposed at the ends of the hood tube 3. The hood tube 3 has a plurality of through holes 1a, (4) and a weight tube (5) are connected to each other and connected to a pump (6) located on the ground at the end of the tube (4) projecting to the ground.

Since the hood housing 1 should be made of a material having a stable weight without being corroded in seawater for a long time, the hood housing 1 is preferably made of a concrete material, and a structure is formed by molding, concrete is cured after curing, A plurality of hood supporting portions 1b are formed on the upper center portion of the base portion 1a and a side wall 1c is integrally formed on the edge portion of the base portion 1a, And a plurality of through holes 1e are formed in the side wall 1c and the top surface 1d.

The seawater filtration unit 2 filters seawater and is installed in a through hole 1e of the hood housing 1 and has a frame 2a and a filter net 2b made of a synthetic resin material excellent in corrosion resistance in seawater .

Particularly, the frame 2a is fixed to the through hole 1e of the seawater housing 1. A guide portion 2aa is formed on both sides of the frame 2a, and a filtering net 2b for filtering seawater The filter net 2b can be easily detached from the frame 2a so that the filter net 2b can be replaced or the inside and outside of the seawater housing 1 can be separated from the frame 2a. It should be smooth.

The hood tube 3 has a plurality of seawater inlet holes on its surface and is supported by the hood support 1b in the hood housing 1 so as to protrude from both sides of the hood housing 1, So that seawater in the hood housing 1 is introduced.

Of course, the hood pipe 3 may be formed as a circle, but it may be formed in various shapes as shown in the figure for introducing a larger amount of seawater, and it is obvious that the hood pipe 3 may be formed in various shapes, It is formed of PE, HDPE, etc. which are excellent synthetic resin materials.

A plurality of tubes 4 and weight tubes 5 are repeatedly connected to the other end of the hood tube 3, And the end of the tubular body 4 is connected to the pump 6 on the ground.

Of course, the tubular body 4 is preferably formed of PE or HDPE, which is a synthetic resin material having excellent corrosion resistance in seawater, and is formed of a laminate of two or more synthetic resin materials in order to increase durability.

The weight tube 5 has a structure in which a central portion of a weight tube 5a having flanges 5aa on both sides is embedded in a weight 5b by an insert molding method. It is preferable that the weight 5b is formed of the same material as the hood housing 1. [

In this structure, the weight tube 5 is moved into the sea, and the weight body 5 is hung from a dropping position by a string or a chain, and a crane The buoy 8 for indicating the position of the weight tube 5 can be smoothly suspended as shown in Fig.

Of course, in order to increase the coupling force between the weight tube 5a and the weight 5b, a plurality of annular grooves may be formed on the center peripheral surface of the weight tube 5a.

In the present invention, when assembling the hood tube 3, the tubular body 4, the weight tube 5, and the stopper 7 on the ground, they can be integrated by heat fusion between mutually related components, When the tubular body 4, the weight tube 5 and the stopper 7 are assembled by a flange-assembling method and the respective constituent elements are combined with each other, a tubular body of synthetic resin material supporting the flange is separately manufactured, And an annular step portion for preventing the flange from being detached to support the flange can be provided.

1 to 6, 7 and 8, the construction method will be described as follows.

In the first step, the sea water filtration body 2, the hood pipe 3, the tubular body 4 and the weight tubular body 5 are prepared. In the manufacturing plant, the finished product of each component is manufactured and moved to the beach, (3) and tubular body (4) are also divided and transported to the construction site, and then heat is generated at the construction site. Each component is prepared in a cohesive manner.

After the base member 1a and the hood support member 1b of the hood housing 1 are formed by molding in the second step after preparing the tear gas filtration body 2 and the like in the first step as described above, And cures.

The base portion 1a and the hood supporting portion 1b of the hood housing 1 are cured in the second step and the hood supporting portion 1b of the hood housing 1 is hung on the hood supporting portion 1b of the hood housing 1 of the second stage, (2).

After the hood pipe 2 is disposed in the third step, in the fourth step, the side wall 1c and the upper surface 1d of the hood housing 1 are formed with a form, The through hole 1e of the hood housing 1 is completed.

Of course, the known hull paint is coated on the surface of the hood housing 1 completed in the fourth step to increase the corrosion resistance of the hood housing 1, and the surface of the hood housing 1 is attached to the surface of the hood housing 1 And both ends of the hood pipe 2 in the hood housing 1 are protruded to the outside of the hood housing 1. [

Also, in the second and fourth steps, it is obvious that a mold is used to form the shape of the hood housing 1, and a reinforcing bar embedded in the concrete structure is disposed in the mold due to the characteristics of the concrete structure.

In the fifth step, the seaweed filtration bodies 2 are installed in the through holes 1e of the hood housing 1 manufactured in the fourth step.

In the sixth step, the hood housing 1 is moved to the ship so that the hood housing 1 is inserted into the sea through the crane in the ship, and the hood housing 1, A plurality of tubes 4 and a weight tube 5 are connected in a straight line to one end of a hood tube 3 protruding from both sides of the tube 1 and disposed in the sea, 4) to the ground pump (6).

For example, in the sixth step, the hood housing 1, the plurality of weight tubes 5 and the tubular body 4 are carried by using a vessel equipped with a crane, and a plurality of weight tubes (not shown) 5 and the tubular body 4 are settled at regular intervals in the sea so that the diving operator makes the weight tubular body 5 and the tubular body 4 to be flanged in the seawater and at the point where the hood housing 1 is placed The tubular body 4 and the hood tube 3 can be flanged to each other.

Of course, since the diving worker takes a long time to dive, the construction time is determined by the climatic conditions and the like, which is somewhat inconvenient. However, in the flange assembly method of the pipe joint method, You can do it.

As another example, in the sixth step, a plurality of weight tubes 5 and the tubular body 4 are coupled with each other on the ground, and then the hood housing 1 is moved to the vessel, and the weight tube 5 and the tubular body 4 So that the tubular body 4 and the hood tube 3 are flanged at the position where the hood housing 1 is disposed.

At this time, after the hood pipe (3) and the hood pipe (4) are coupled with each other, the hood housing (1) is first submerged in the sea and the mutually coupled pipe body (4) and the weight pipe body And the air in the combined hood pipe 3, the pipe body 4 and the weight pipe body 5 is discharged to the ground.

In order to maintain the pumping ability of the pump and the stability of the diving operator, the seawater desalination device was disposed at a depth of about 15M and the distance between the pump and the hood housing was about 430M.

The seawater is filtered in the filter net 2b of the seawater filtration body 2 of the hood housing 1 and introduced into the hood housing 1 so that the seawater introduced into the hood housing 3 flows into the seawater inflow hole Through the pipe body 4 and the weight tube 5 which are mutually coupled to each other and can be easily discharged to the outlet of the pump 6 to supply seawater directly to a required place or to supply the tank of a vehicle carrying seawater will be.

1: Hood housing 1a: Base portion
1b: hood support portion 1c: side wall
1d: upper surface 1e: through hole
2: Seawater filtration body 2a: Frame
2aa: guide part 2b:
3: Hood tube 4: Tubular body
5: weight tube 5a: weight tube
5aa: Flange 5b: Weight
5c: ring 6: pump
7: Plug 8: Buoy

Claims (8)

1. A seawater intake apparatus comprising:
A plurality of through holes are formed in the outer surface of the hood housing disposed in the seawater, a seawater filtration body for filtering seawater is installed in each of the through holes of the hood housing, and a hood tube having a plurality of seawater inlet holes on the surface thereof, The hood tube is provided with a cap at one end of the hood tube and a plurality of tubes and a weight at the other end of the hood tube are installed at the other end of the hood tube so as to protrude from both sides of the hood housing, The tubular body is repeatedly connected to connect the end of the tubular body to the ground pump,
A frame having guide portions on both sides thereof is fixed to a through hole of a seawater housing, a filtering net for filtering seawater is installed along a guide portion of the frame,
Wherein the weight tube has a central portion of a weight tube having flanges on both sides thereof embedded in the weight by an insert molding method and at least one ring body capable of suspending a buoy for indicating the position of the weight tube is fixedly projected on the upper portion of the weight,
A hood tube is disposed on the hood support portion of the hood housing cured by being cast in concrete after a portion corresponding to the base portion and the hood support portion provided in the hood housing is formed into a form, And the top surface is formed into a mold, concrete is laid on the cured concrete to complete a hood housing provided with a plurality of through holes,
And paint on the hull housing is painted on the surface of the hood housing. delete delete delete delete delete delete delete

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