KR100692362B1 - Pipe assembly for taking deep water and installing method of it - Google Patents

Abstract

A pipe assembly for taking deep water is provided to lower the degree of difficulty on work and to reduce the time and cost required for installation by installing equipment for taking deep water easily and not to be damaged by external impact or fishing implements. The pipe assembly contains plural pipe members(11) made of HDPE(high-density polyethylene), formed to have a hollow structure to let deep water flow in and installed continuously in the longitudinal direction, fixed brackets(12) placed on the pipe members at regular intervals and provided with pipe holders(12a) to fix the pipe members not to get twisted and weight holders(12b) to insert weights, a weight(13) located on the lower part of the fixed bracket to prevent the movement of the pipe members, a pumping device installed to pressurize deep water in the pipe members to supply deep water from the bottom of the sea to the coast or the land, a protective cover(15) placed on the pipe members to protect the pipe members placed on the bottom of the sea, and a support and a strainer installed on the end of the pipe members to prevent the inflow of impurities together with seawater.

Description

Pipe assembly for deep sea water intake and its installation method {Pipe assembly for taking deep water and installing method of it}

1 is a side view of a deep sea water intake pipe assembly according to the present invention.

Figure 2 is an exploded perspective view of the main portion of the pipe assembly for deep sea water intake according to the present invention.

3 to 5 is a view showing the installation process of the deep sea water intake pipe assembly according to the present invention.

Figure 6 is a flow chart according to the installation method of the deep sea water intake pipe assembly according to the present invention.

Description of the main symbols in the drawings

1: bottom 2: ship

11: pipe member 12: fixing bracket

12a: Pipe Holder 12b: Weight Holder

12c: rope penetration hole 13: weight

14: rod 15: protective cover

16: support 17: strainer

18 pumping means 19 cap

The present invention relates to a pipeline for collecting deep sea water, and more particularly, to a deep sea water intake pipe assembly and a method for installing the same, which are easy to install and easy to manage after installation.

In general, in the fields such as aquaculture, low-temperature, clean, deep-sea water containing nutrients was supplied and utilized.

Since these deep sea waters exist in the ocean far from the coast in nature, the deep sea water was used by taking the deep sea water from the seabed far from the coastline to the shore or the coast adjacent to the shoreline.

In the conventional deep sea water intake method, the pipe member cut into a predetermined length is submerged from the coast to the sea bottom, which is a water intake source, and all of them are connected to each other.

However, the conventional deep sea water intake method has a high difficulty of the installation work because the pipe member having a certain length must be connected one by one, the problem is often broken because the pipe member is located on the bottom of the uneven bottom.

In some cases, a method of embedding the pipe member on the sea floor has been sought, but this method has a problem in that it requires a huge cost, time and labor to install the pipe member.

The present invention has been invented to solve the above problems, to provide a deep seawater intake pipe assembly and a method of installing the same, which is inherently flexible and easy to install and can take a large amount of deep seawater. The purpose.

In order to achieve the above object, the deep sea water intake pipe assembly of the present invention connects the sea bottom and the land to supply the deep sea water of the sea floor to the land, and the deep sea water intake pipe assembly has an internal hollow structure. A plurality of pipe members which are continuously formed; A fixing bracket having a pipe holder into which the plurality of pipe members are inserted, disposed at predetermined intervals on the pipe member, and having a weight holder formed thereon; A weight formed into a weight body and inserted into the weight holder to maintain the center of the pipe member; And pumping means provided at one side of the pipe member to pressurize the seawater.

Here, the pipe member is preferably made of high density polyethylene.

According to one side of the invention, the outer side of the pipe member is characterized in that the protective cover is provided.

In addition, the installation method of the deep sea water intake pipe assembly of the present invention, the pipe member coupling step of coupling the pipe member to the pipe holder of the fixed bracket, the fixed bracket is arranged at a predetermined interval on the plurality of pipe members; A weight coupling step of inserting a weight into a weight holder formed under the fixing bracket; A pipe member sealing step of sealing both ends of the pipe member; A towing step of pulling one end of the pipe member to the water intake using a ship while the pipe member is suspended on the water surface; A settlement step of opening and closing both ends of the pipe member; A connecting step of connecting one end of the settled pipe member to the pumping means and connecting the other end to the place of use.

After the connecting step is executed, a protective cover installation step of covering a protective cover on the upper part of the pipe member is added.

Hereinafter, with reference to the accompanying drawings will be described a preferred embodiment of the deep sea water intake pipe assembly of the present invention.

As shown in Figure 1 and 2, the deep sea water intake pipe assembly according to the present invention, the inside of the high-density polyethylene material is formed hollow, a plurality of pipe member 11 and the pipe member ( A fixing bracket 12 for binding 11 so that it is not separated, a weight 13 positioned below the fixing bracket 12 to prevent the flow of the pipe member 11, and an inside of the pipe member 11; The main component is the pumping means 18 to allow deep sea water to move, and a protective cover 15 disposed on its upper surface to prevent breakage of the pipe member 11.

The pipe member 11 has a hollow structure to allow deep sea water to flow through the inside thereof, and is continuously formed in the longitudinal direction. The pipe member 11 is formed continuously in the longitudinal direction, and can be supplied to the coast from the deep sea water intake source with a small number of seams.

Here, the pipe member 11 is preferably made of high-density polyethylene (HDPE) having excellent tensile strength and breakage strength. HDPE has a specific gravity of about 0.96, and because of its characteristics, it is flexible and has excellent tensile strength and breakage strength. Breakage can be prevented.

In addition, since the pipe member 11 made of HDPE can be continuously produced in the longitudinal direction during the production process, the pipe member 11 and the pipe member 11 for the deep sea water intake pipe assembly of the present invention installed at several Km are installed. It can be configured using fewer joints.

The pipe member 11 is provided in plural so that a large amount of deep sea water can be supplied at the same time.

The fixing bracket 12 maintains the relative positional relationship of the plurality of pipe members 11, thereby preventing the plurality of pipe members 11 from intertwining or twisting.

The fixing bracket 12 is formed to have a structure in which the front and rear surfaces penetrate each other so as to maintain a constant rigidity without being resisted by a bird, and the pipe holder 11 which fixes the pipe member 11 at predetermined intervals ( 12a) is formed.

The inner diameter of the pipe holder 12a is formed to have a size corresponding to the outer diameter of the pipe member 11, so that the pipe member 11 is inserted into the pipe holder 12a so that the pipe holder 12a is connected to the pipe holder 12a. The member 11 is fixed.

By providing a plurality of fixing brackets 12 and arranging the pipe members 11 at predetermined intervals, the pipe members 11 are prevented from being entangled or twisted.

On the other hand, the weight bracket 12b is formed in the fixing bracket 12 is inserted below the weight 13 to be described later. The weight holder 12b is formed to have a shape corresponding to the cross section of the weight 13 to allow the weight 13 to be inserted.

In addition, it is preferable that a rope through hole 12c through which the fixing rope 14 for fixing the deep sea water intake pipe assembly is installed on the sea bottom 1 is passed through.

The rope 14 is arranged to pass through the rope through holes 12c of the fixing bracket 12 in order to prevent the pipe member 11 from being separated from each other when the pipe member 11 is disposed on the bottom surface 1.

In addition, the rope 14 allows the pipe member 11 to exhibit sufficient tensile strength against external forces.

The weight 13 is inserted into the fixing bracket 12 to impart a sense of stability to the plurality of pipe members 11 located on the bottom surface 1. The weight 13 formed of a weight body of a material having a high specific gravity with respect to seawater is formed in the form of a rod having a constant cross section.

Accordingly, the pipe member 11 is disposed at the predetermined intervals and inserted into the fixing bracket 12 having the weight holder 12b formed thereon to prevent the flow of the pipe member 11 located on the sea bottom 1, and thus the pipe member 11 Prevents warping.

Since the weight 13 is inserted in the lower part of the fixing bracket 12 in which the plurality of pipe members 11 are arranged at predetermined intervals, the positional relations are always maintained relative to each other, so that the entire pipe member 11 is made of a bird, Due to the factors, it is possible to prevent the phenomenon of being twisted or entangled with each other.

In addition, since the pipe member 11 is made of HDPE, the inside of the pipe member 11 is filled with seawater, and the weight 13 is provided below the pipe member 11, thereby providing a pipe member. (11) can be located on the sea floor (1) with the least impact of algae.

Such, the weight 13 is preferably formed of concrete to exhibit the desired performance at a low price. Concrete is inexpensive and has the advantage of being able to provide a large amount in a relatively quick time, so that concrete is used as the material of the weight (13).

In order to supply deep sea water into the pipe member 11, the pumping means 18 is provided to be connected to the pipe member 11. The pumping means 18 is provided to press the deep seawater inside the pipe member 11, so that the deep sea water can supply the deep sea water from the sea bottom to the coast or the land.

On the other hand, it is preferable to provide the protective cover 15 to protect the pipe member 11. Although the pipe member 11 is excellent in tensile strength and breakage strength with respect to external force, when the external force exceeds a limit, the pipe member 11 may break and break.

To prevent this in advance, in order to protect the pipe member 11 against external impacts, the pipe member 11 to the outside of the pipe member 11, except for the lower surface adjacent to the sea bottom 1, in more detail. A protective cover 15 is provided so that the top and sides of the can be protected.

In addition, the pipe member 11 may be damaged even by fishing gear such as a net of a low-tether fishing boat, and by providing the protective cover 15, it is possible to prevent the pipe member 11 from being damaged by the fishing gear.

The protective cover 15 is formed in a trapezoidal cross section, and is formed in a structure in which the lower surface thereof is opened, so as to cover the plurality of pipe members 11 arranged on the sea bottom 1.

At this time, the protective cover 15 is preferably provided so that both lower ends are spaced apart from the sea bottom surface 1 at a predetermined interval. That is, the lower ends of both sides of the protective cover 15 having a trapezoidal shape in which the cross section is open at a predetermined distance from the sea bottom surface 1, so that the protective cover 15 is connected to the pipe member 11 during left and right flow. When the pipe member 11 is brought into close contact with the algae, it can respond appropriately.

In addition, a support 16 and a strainer 17 are provided at the end of the pipe member 11 positioned on the sea bottom 1 to prevent foreign substances from flowing together with the sea water.

The support 16 spaces the pipe member 11 off the sea bottom 1. The pipe member 11 is positioned above the support 16 having a predetermined volume, thereby preventing the pipe member 11 from being located at the sea bottom 1.

In addition, a strainer 17 is provided at the end of the pipe member 11 to prevent the inflow of foreign matter such as earth and sand, which is caught inside the pipe member 11 or hinders the operation of the pumping means 18.

Hereinafter will be described the installation method of the deep sea water intake pipe assembly according to the present invention.

As shown in Figure 6, the installation method of the deep sea water intake pipe assembly according to the present invention, by coupling the pipe member to the pipe holder of the fixing bracket, so that the fixing bracket is arranged at a predetermined interval on the plurality of pipe members. Pipe member coupling step (S110), the weight coupling step (S120) for inserting the weight in the weight holder formed on the lower portion of the fixing bracket, the pipe member sealing step (S130) for sealing both ends of the pipe member, and the pipe Towing step (S140) for pulling one end of the pipe member to the water intake using the vessel (2) in a state where the member is suspended on the water surface, and a settlement step (S150) for opening and sinking both ends of the pipe member; One end of the pipe member is connected to the pumping means, and the other end includes a connecting step (S160) for connecting to the place of use.

Pipe member coupling step (S110) is a step to ensure that the fixing bracket 12 is arranged at a predetermined interval on the pipe member (11). The pipe member 11 is passed through the pipe holder 12a formed in the fixing bracket 12 to couple the fixing bracket 12 and the pipe member 11 to each other. Since the pipe member 11 is provided in plurality and the pipe holder 12a is formed in each fixed bracket 12 by the number of the said pipe members 11, the pipe member 11 by the fixed bracket 12 is carried out. There is no relative position change between them. That is, when it is arrange | positioned at the sea bottom surface 1, it becomes possible to prevent the phenomenon by which the some pipe member 11 is twisted or entangled by a tidal current. The fixing bracket 12 is coupled to the pipe member 11 at predetermined intervals.

In the weight coupling step S120, the weight 13 is coupled to the fixing bracket 12 to which the pipe member 11 is coupled.

The weight 13 formed of a material having a specific gravity higher than that of seawater is inserted into the weight holder 12b of the fixing bracket 12 so that when the pipe member 11 is located on the sea bottom 1, the pipe is maintained in the center. Minimize the flow of the member 11 and prevent entanglement or twisting of each other.

As described above, since the pipe member 11 is made of HDPE, seawater is filled in the pipe member 11 having a specific gravity of 0.96 similar to that of seawater, and the weight 13 is positioned below the pipe member 11. It will sink to the bottom (1) and will maintain the center of gravity.

As described above, in a state in which the plurality of pipe members 11 and the weights 13 are coupled to the fixing bracket 12, a pipe member sealing step S130 of sealing both ends of the pipe member 11 is performed. . Both ends of the pipe member 11 are sealed so that the pipe member 11 is moved from the anatomical surface to the installation place in a floating state. When the pipe member 11 is sealed with the cap 19 at the end to be located at both ends or the bottom surface in a state in which the hollow has a structure so that the sea water can be supplied, it forms a floating body. Because of this, it is easy to move at sea level. Since the pipe member 11 is formed continuously and the work until now is carried out on land, the pipe member 11 whose both ends are sealed to the sea surface is not filled with seawater inside the pipe member 11, so that the sea surface To be rich. Although the weight 13 has a high specific gravity, it is in a state where it can float on the sea surface by buoyancy of the sealed pipe member 11.

Towing step (S140) is a step of towing the end of the water intake source using the vessel 2 in the state in which the pipe member 11 and the weight 13 is coupled to the fixing bracket 12. The pipe member 11, the fixing bracket 12 and the weight 13 are floated on the sea surface without sinking because buoyancy is generated by the pipe member 11 whose ends are sealed.

At this time, the end of the pipe member 11 to be located on the sea bottom 1 is pulled to the water intake source by means of the vessel 2 or the like. As shown in FIG. 3, when the pipe member 11, the fixing bracket 12, and the weight 13 are towed using the vessel 2 in a suspended state, the pipe members 11 are easily separated from each other by several Km. It will be possible to connect the water source and the place of use. Although the distance between the coast and the water intake source is shown in the drawing, the vessel is towed to the pipe member 11 connected by several Km using the characteristics of the pipe member 11 of HDPE material in the actual application site.

In the settlement step (S150), the pipe member 11, the fixed bracket 12, and the weight 13 towed by the ship 2 are settled from the sea level to the sea bottom 1.

When the pipe member 11 is opened by removing the cap 19 from the pipe member 11 whose end is closed by the cap 19, the seawater flows into the pipe member 11, and FIGS. It sinks to the bottom (1) together. HDPE constituting the pipe member 11 has a slightly lower specific gravity than seawater, and when the seawater is introduced into the pipe member 11 while the weight 13 is located at the lower portion, the specific gravity is heavier than that of the seawater. It will sink until it reaches (1).

When the settlement of the pipe member 11 is completed, the connecting step (S160) for connecting the pipe member 11 to be used is performed. In the connecting step (S160), the end of the pipe member 11 positioned on the bottom surface 1 is positioned above the support 16, and the strainer 17 is coupled thereto. And the intermediate or opposite end of the pipe member 11 is connected to the pumping means 18.

The deep sea water intake pipe assembly is installed by the above method to take deep sea water on land.

On the other hand, in order to protect the pipe member 11 from external impact, the protective cover 16 may be provided outside the pipe member 11 (S170). In the protective cover installation step, the protective cover 15 having a predetermined length is continuously installed to cover the upper and side surfaces of the pipe member 11 located on the bottom surface 1.

According to the deep sea water intake pipe assembly and its installation method according to the present invention as described above, one end of the pipe member 11 is located on the sea floor where clean deep sea water exists, and the other end is a land using the deep sea water. By providing in, deep sea water can be easily taken in.

In addition, since the deep sea water intake pipe assembly is towed in a suspended state and then settled, the deep sea water intake source and the place of use are connected to each other, so that the deep sea water intake pipe assembly can be easily installed as compared to the conventional deep sea water intake pipe assembly. It can save time and labor.

According to the deep sea water intake pipe assembly and the installation method of the present invention having the configuration as described above, it is possible to easily install a facility that can take the low temperature clean deep sea water adjacent to the shore or the land, This reduces the difficulty and reduces the time and cost of installation.

In addition, the deep sea water intake pipe can be prevented from being damaged by an external impact or fishing gear such as a net.

Claims (5)

In the deep sea water intake pipe assembly that connects the sea floor and the land and supplies the deep sea water of the seabed to the land, A plurality of pipe members having a hollow structure and continuously formed therein; A fixing bracket having a pipe holder into which the plurality of pipe members are inserted, disposed at predetermined intervals on the pipe member, and having a weight holder formed thereon; A weight formed into a weight body and inserted into the weight holder to maintain the center of the pipe member; And a pumping means provided on one side of the pipe member to pressurize the seawater. The method of claim 1, The pipe member is a deep sea water intake pipe assembly, characterized in that made of high density polyethylene. The method of claim 1, Deep sea water intake pipe assembly, characterized in that the protective cover is provided on the outside of the pipe member. Coupling the pipe member to the pipe holder of the fixing bracket so that the fixing bracket is arranged on the plurality of pipe members at predetermined intervals; A weight coupling step of inserting a weight into a weight holder formed under the fixing bracket; A pipe member sealing step of sealing both ends of the pipe member; A towing step of pulling one end of the pipe member to the water intake using a ship while the pipe member is suspended on the water surface; A settlement step of opening and closing both ends of the pipe member; And a connecting step of connecting one end of the settled pipe member to the pumping means and the other end to a place of use; and installing the pipe assembly for deep sea water intake. The method of claim 4, wherein And a protective cover installation step of covering a protective cover on an upper portion of the pipe member after the connecting step is executed.

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