KR100722235B1 - Intake pipe establishment structure for deep water water-intake - Google Patents

Abstract

The present invention discloses an improved intake pipe installation structure for deep water collection.

In the past, pipeline construction was considered to be very difficult due to high-pressure water pressure in deep sea water, and the pipeline was constructed by special design. In the deep sea water, the vacuum state object is deformed in proportion to its production state and depth. Although it was destroyed, the inventors first found out that an object made of the same material and opened was not destroyed or deformed even at a deep depth.

Thus, a plurality of intake pipes 10 connected with a plurality of pipes 11 are provided; The water intake pipe 10 is tied to one by the bundle string 12 to form a bundle of pipes are installed in the ocean; The front ends of the intake pipes 10 are sealed, and a plurality of holes 10a are formed around the inlet pipes; Tightening jaw (11a) is formed on both ends of the pipe (11) constituting the intake pipe (10); The anti-floating weight 13 is provided around the intake pipes 10 by the bundle string 12; On one side of the intake pipe (10) is provided with a salvage wire (14) connected long along the intake pipe (10) bound by the bundle string (12); The intake pipes 10 consisting of bundles are installed to be seated on the sea bottom along the sea bottom of the sea; Buoy 15 is connected to the buckle (B) installed on the water surface in the upper portion of the pipe (11) so that the front of the intake pipe 10 is spaced a certain distance from the sea bottom; A fixed weight 16b seated on the sea bottom and connected to the pipe 11 is installed below the pipe 11; Located on one side of the fixed weight (16b) and connected to the pipe (11) is provided with a diving weight (16a) for submerging and dropping the intake pipe (10) to the sea bottom; An anchor (A) is provided at one side of the fixed weight (16b); It is provided with a plurality of fixed blocks 17 are connected to the upper portion of the intake pipe 10 so that the intake pipe 10 is fixed to the sea bottom; The fixed block 17 has an H-shaped cross section, and a plurality of coupling holes 17a are formed at both sides thereof, and a deep water collection pipe installation structure having a support pipe 18 penetrating to both sides thereof is provided. Equipped.

Therefore, since a plurality of holes 10a are formed around the front end of the intake pipe 10 and the inside thereof is opened, water is introduced into the plurality of holes 10a when the intake pipe 10 is introduced into the sea bottom. The water pressure applied from the inside and the outside of the part in contact with each other becomes the same to prevent deformation or breakage of the water intake pipe 10 due to the pressure in the water, and when water is introduced into the water inlet 10a As the suction pressure is dispersed as the inflow is introduced, the intake pipe 10 can be easily introduced into the sea bottom, and a plurality of intake pipes 10 are bundled into one and installed into the sea bottom in the form of a bundle, so that deep water is being collected. Even if any one of the intake pipe 10 is damaged or damaged, the collection of deep water from the other intake pipe 10 can be made continuously, the front of the intake pipe 10 through which the deep water is sucked is constant from the sea bottom Distance To install because there is an effect such that can prevent the sea floor of deep water sediment during inhalation is introduced into the intake pipe 10 together with the deep seawater.

Intake pipe, hole, wire, buoy, submersible, fixed weight, fixed block

Description

Intake pipe establishment structure for deep water water-intake}

1 and 2 is a cross-sectional view and a schematic side view showing the structure of the intake pipe according to the present invention deep water collection pipe installation structure.

Figure 3 is a side view showing the shape of the pipe constituting the intake pipes according to the present invention.

Figure 4 is a cross-sectional view showing the shape of the fixed block according to the present invention.

Figure 5 is a schematic view showing the structure of the intake pipe for deep water collection of the present invention.

6 and 7 is a principle understanding of the intake pipe according to the present invention.

8 and 9 are a front view and a side view showing the shape and installation structure of the block transfer apparatus according to the present invention.

10 is a schematic cross-sectional view showing a connection structure of the intake pipe according to the present invention.

FIG. 11 is a cross-sectional view taken along the line AA ′ of FIG. 9;

12 is a schematic cross-sectional view showing another embodiment of FIG.

13 and 14 is a schematic cross-sectional view showing the structure of the pipe curl according to the present invention and the state of use.

15 to 17 is a schematic cross-sectional view showing the structure of the deep water intake device according to the present invention and the process of the intake pipe is installed on the sea by the deep water intake device.

Explanation of symbols on the main parts of the drawings

10; Intake pipe 10a; hole

11; Pipe 12; String

13; Injury prevention weight 14; Rescue Wire

15; Buoy 16a; Diving

16b; Weight Y; wire

The present invention relates to an intake pipe installation structure for deep water collection, and more particularly, to an intake pipe installation structure for deep water collection that facilitates the installation of the intake pipe and the extraction of the deep water.

In general, deep sea water has a variety of resources (low temperature, cleanliness, stability, eutrophication, maturation, etc.) has been found to have high utilization value, and it is collected and used for drinking water food manufacturing, cosmetics, medicine, cooling, and farms. It is used in various industrial fields including power plants, power plants, and the like.

In order to collect such deep water, a deep water collection intake pipe is used, and most of the conventional deep water collection water intake pipes are specially manufactured and fixed in the longitudinal direction on the sea bottom of the ocean.

However, in the conventional intake pipe for deep water collection, the intake pipe was not easily introduced into the sea bottom because the water intake pipe was specially manufactured in consideration of the sea working condition at high water pressure when the intake pipe was first introduced into the sea bottom.

In addition, since the intake pipe is connected to one line long and installed on the bottom of the sea, it is impossible to continuously collect the deep water when the deep water is damaged by the impact of blue waves.

In addition, since the extraction of the deep water is made only at the height of the seabed where the intake pipe is installed in one line, there is a problem in that the optimum depth of water is collected.

On the other hand, since the front end of the intake pipe into which the deep water flows is installed on the sea floor, foreign matters such as sand, sea creatures, and sediments, as well as the deep water, are introduced into the intake pipe.

An object of the present invention for solving the above problems is to provide a deep water collection intake pipe installation structure that is easy to put into the sea bottom, and to extract the deep water from the sea bottom of different heights.

In order to achieve the above object, the deep water collection intake pipe installation structure of the present invention includes a deep intake water intake pipe installation structure, including a plurality of intake pipes connected to a plurality of pipes; The intake pipe installation structure for deep water collection, characterized in that the intake pipes are bundled in one by a string to be installed in the ocean to make a structure of the bundle pipe.                         

Another feature of the intake pipe installation structure for deep water collection of the present invention is that the front ends of the intake pipes are sealed, and a plurality of holes are formed around the intake pipes; Tightening jaws are formed on both end sides of the pipes constituting the intake pipes; Anti-floating addition is provided around the intake pipe by the tie string; One side of the intake pipe is characterized in that the salvage wire is connected long along the intake pipe is bound by the bundle string.

Another feature of the intake pipe installation structure for deep water collection of the present invention, the intake pipe consisting of a bundle pipe is installed to be seated on the sea bottom along the sea bottom of the ocean; Buoys are connected to the buoys installed on the water surface in the upper portion of the pipe so that the front of the intake pipe is separated from the sea bottom by a predetermined distance; A fixing rod seated on the sea bottom and connected to the pipe is installed below the pipe; Located on one side of the fixed weight and connected to the pipe is a diving unit is installed to submerge and drop the intake pipe to the sea bottom; An anchor is provided on one side of the anchoring weight.

Another feature of the intake pipe installation structure for deep water collection of the present invention, the intake pipe 10 is provided with a plurality of fixed blocks connected to the upper portion of the intake pipe 10 to be fixed to the bottom; The fixed block has an H-shaped cross section, and a plurality of coupling holes are formed at both sides thereof, and a support pipe penetrates to both sides is provided at the bottom thereof.

Therefore, since a plurality of holes are formed around the front end of the intake pipe and the inside thereof is opened, when the intake pipe is introduced into the sea bottom, the water pressure is applied to the inside and the outside of the portion in contact with the water while the water flows into the plurality of holes. This makes it possible to prevent deformation or breakage of the intake pipe due to the pressure in the water, and the intake pressure is dispersed as water enters the hole when the intake pipe is inserted, so that the intake pipe can be easily introduced to the sea bottom. Since the intake pipes of the bundles are bundled together and installed on the sea floor in the form of bundles, even if any of the deep water collection pipes is damaged or damaged, the collection of deep water from the other intake pipes can be made continuously. Since the forefront of the intake pipe through which deep water is sucked is spaced a certain distance from the bottom, The sediment of the cotton can be prevented from flowing into the intake pipe together with the deep water.

Specific features and advantages of the present invention will become more apparent from the following description taken in conjunction with the accompanying drawings.

1 and 2 are a cross-sectional view and a schematic side view showing the structure of the water intake pipe according to the installation structure for the intake pipe for deep water collection of the present invention, Figure 3 is a side view showing the shape of the pipe constituting the intake pipe according to the present invention, 4 is a cross-sectional view showing the shape of the fixed block according to the present invention, Figure 5 is a schematic view showing the structure of the intake pipe for deep water collection of the present invention.

Intake pipe 10 according to the present invention is composed of a plurality of pipes 11, the plurality of intake pipe 10 is bundled by one of the bundle string 12 as shown in Figure 1 and 2, the structure of the bundle pipe It is provided with.

A circumference of the intake pipe 10 is provided with a flotation prevention weight 13 which is bound by the tie string 12 and prevents the intake pipe 10 from rising when the intake pipe 10 is introduced into the sea bottom. One side of the (10) is provided with a salvage wire (14), which is bound by a bundle string (12) to be connected along the intake pipe (10) long and is installed to lift the intake pipe (10) damaged during the extraction of deep water to the sea. do.

Here, the foremost end of the intake pipe 10 is blocked, and a plurality of small holes 10a are formed around the end thereof, and fastened to both end sides of the pipes 11 constituting the intake pipes 10 as shown in FIG. 3. The jaw 11a is formed.

And the intake pipe 10 consisting of a bunch of pipes are installed in the sea bottom of the ocean is installed along the sea bottom.

Meanwhile, the front of the intake pipes 10 are installed at a predetermined distance away from the sea bottom, and buoys are provided to buoy in front of the intake pipe 10 so that the intake pipes 10 maintain a constant distance from the sea bottom. 15 is installed on the intake pipe 10, the buoy (15) is connected to the wire (Y) connected from the buoy (not shown) located on the water surface.

Fixing weight 16b connected to the lower part of the intake pipe 10 by the wire Y and slightly heavier than the weight of the buoy 15 so that the intake pipe 10 is not fully lifted by the buoy 15 installed at the upper portion thereof. Is installed to rest on the sea floor.

One side of the fixed weight (16b) is connected to the pipe (11) by the wire (Y) is provided with a diving weight (16a) is dropped on the bottom surface and seated on the bottom of the intake pipe 10, which is seated on the bottom When the front of the pipe (11), the fixing weight (16b) is installed so that one side is horizontal.

An anchor 15 is connected to the wire Y connecting the fixing weight 16b to the pipe 11 to prevent the fixing weight 16b from being shaken against the blue, thereby preventing the intake pipe 10 from shaking. 15 is fixed to one bottom surface of the fixed weight 16b.

In addition, when the intake pipe 10 is installed on the sea bottom, the intake pipe 10 is installed so that a part of the intake pipe 10 located on the low sea bottom is buried in the sea bottom, located on the deep sea bottom A part of the 10 is installed to be located at the upper part of the sea bottom, and a part of the intake pipe 10 located on the deep sea bottom has a plurality of upper parts thereof so that the intake pipe 10 is protected from the storm and various phrases. The fixed block 17 is provided.

Here, as shown in FIG. 4, the fixed block 17 has a H-shaped cross section, and a plurality of coupling holes 17a are formed at both sides thereof, and a support pipe 18 penetrated at both sides thereof is provided at the bottom thereof.

In the deep water collection pipe of the present invention of this configuration, first the front of the bundle of the intake pipes (10) are bundled into the bottom, the hole (10a) formed around the end blocked in front of the intake pipe (10) Water is introduced into the intake pipe 10 is easily injected into the sea floor.

A portion of the intake pipe 10 located on the lower sea floor is buried in the sea bottom, and a portion of the intake pipe 10 located on the deep sea bottom is placed above the sea bottom.

At this time, the fixed block 17 is transferred to the sea bottom along the intake pipe 10 at the upper portion of the intake pipe 10 positioned on the deep sea surface, and a plurality of fixed blocks 17 are disposed on the upper portion of the intake pipe 10. Connect and install.

And buoy 15 is installed in the foremost upper portion of the intake pipe 10 to give buoyancy to the front of the intake pipe 10, the lower portion of the intake pipe 10 has a weight that is slightly heavier than the buoy 15 By connecting (16b) to the wire (Y) to seat the fixing weight (16b) on the sea floor so that the front of the intake pipe 10 as shown in Figure 5 is installed at regular intervals from the sea bottom.

In this way, the intake pipes 10 are installed and the deep water is sucked and collected through the holes 10a formed around the front end thereof.

On the other hand, if any one of the intake pipes 10 of the bundle is damaged during the extraction of deep water through the intake pipe (10) by pulling the salvage wire (14) of one side of the intake pipe (10) to the intake pipe (10) to the ground As soon as the damaged intake pipe 10 is removed and repaired, the intake pipe 10 can be repaired immediately, and the other intake pipes 10 are immediately put back to the sea bottom to continue to collect deep water. .

In the deep water collection pipe installation structure of the present invention, a plurality of holes 10a are formed at the front end of the intake pipe 10, and the inside thereof is opened, so no matter how deep the water intake pipe 10 is installed at the sea floor. As shown in Figs. 6 and 7, in the deep sea, the 360 ° direction or the part in which the object comes into contact with water is subjected to the same water pressure. Thus, unlike the specially produced intake pipe, the intake pipe 10 is not deformed or damaged even under high pressure water pressure in the deep sea.

In addition, when the water intake pipe 10 is introduced into the sea bottom, water is introduced into the plurality of holes 10a to distribute the suction pressure applied in the water, so that the water intake pipe 10 can be easily introduced into the sea bottom.

In addition, since a plurality of intake pipes 10 are bundled and put into the sea bottom in the form of a bundle pipe, the water intake pipe 10 is damaged or damaged even if any of the intake pipes 10 is collected or collected. As the deep water is continuously collected from, there is no fear that the deep water collection will be interrupted.

And, the front of the intake pipe 10 for sucking the deep water into the plurality of holes (10a) formed around the end is installed so as to be spaced apart from the sea bottom by a predetermined distance so that the sediment of the sea bottom along with the deep water intake pipe ( 10) It can be prevented from flowing inside.

8 and 9 are a front view and a side view showing the shape and installation structure of the block transfer device according to the present invention, the block transfer device 20 is composed of an air bag 21 having a rectangular parallelepiped shape as shown in FIG. The upper portion of the air supply line 24 is connected to a barge (not shown) is connected.

And the upper part of the airbag 21 is provided with a plurality of connecting strips 22, a plurality of coupling pins 23 that are bound to the connecting strip 22 is provided on both sides.

When the fixed block 17 is transported, the coupling pin 23 is engaged with the coupling hole 17a formed on both sides of the fixed block 17 to bind the fixed block 17 as shown in FIG. 9.

As described above, the water intake pipe 10 is positioned between the support pipe 18 provided at the lower portion of the fixed block 17 and the central portion of the fixed block 17 in a state of being bound to the fixed block 17.

Then, the fixed block 17 is put into the water by the fixed block transfer device 20, and the discharge valve 25 installed in the air supply line 24 is transferred to the fixed block 17 along the intake pipe 10. Open to discharge the air inside the airbag (21).

When the air inside the airbag 21 is discharged, the fixed block 17 is transported along the water intake pipe 10 while sinking in water as buoyancy is removed from the airbag 21.

On the contrary, when lifting the fixed block 17 in the water, the air bag 21 of the fixed block transfer device 20 is introduced into the upper part of the fixed block 17 located on the sea floor without air, and the air bag 21 ) Is fixed to the fixed block 17.

And while injecting air into the airbag 21 through the compressor from the barge to let the air inside the airbag 21 to lift the fixed block 17 by the buoyancy generated in the airbag 21 to be transported to the sea surface do.

The block transfer device 20 is fixed to the fixed block 17 when the fixed block 17 is injected into the sea bottom, or when the fixed block 17 located on the sea bottom is transferred to the sea surface. Can be easily transferred.

10 is a schematic cross-sectional view showing a connection structure of the intake pipe according to the present invention, FIG. 11 is a cross-sectional view taken along line AA ′ of FIG. 10, and FIG. 12 is a schematic cross-sectional view showing another embodiment of FIG. 10. 10, a plurality of pipes 11 are configured to be connected and fixed. As shown in FIGS. 10 and 11, the connecting sockets 19 are provided at the joints of the pipes 11.

And both sides of the connection socket 19 is fastened to the main jaw (11a) formed on the pipe 11, the inner main surface is fastened to the center and consists of a body 31 which is coupled and separated by bolts and nuts, The upper and lower parts of the body 31 are provided with a socket fastener 30 in which a coupling rib 31a is formed.

The hydraulic cylinder 33 is coupled to the coupling rib 31a of the socket tightener 30, and a plurality of flanges 36 are provided around the cylinder 33, and the front end of the cylinder rod 34 is provided. The flange part 35 is formed.

Therefore, when the hydraulic cylinder 33 is removed from the cylinder 33 in a state in which the coupling rib 31a is coupled to the coupling rib 31a, the cylinder rod 34 is compressed and the flange portion 35 of the cylinder rod 34 is coupled to the coupling rib. 31a is tightly supported, and the flange 36 around the cylinder 33 is tightly supported by the coupling rib 31a of the socket fastener 30 on the other side.

Thereby, the hydraulic cylinder 33 reliably supports each socket fastener 30 on the pipe 11, and the force acting by the hydraulic cylinder 33 acts on the joint side of the pipe 11, and the water intake is carried out. Even when pressure is applied when the pipe 10 is inserted into the sea bottom, the socket fastener 30 is firmly supported on both sides of the connection socket 19 without being pushed from both sides of the connection socket 19.

In addition, the pipe 11 constituting the intake pipe 10 and the connection socket 19 provided at the joint of the pipe 11 are firmly fixed and fixed, so that the pipes 11 constituting the intake pipe 10 are firm. It is securely connected and prevents the connecting socket 19 from being released by external pressure, and is firmly fixed to the joint of the pipe 11.

In addition, since the socket fastener 30 is supported on the pipes 11 by the hydraulic cylinder 33, the operation of coupling the socket fastener 30 and the corresponding work, that is, the connection socket 19 and the pipe Joining the pipes (11) by joining (11) can be made quickly.

Meanwhile, when dismantling the installed intake pipe 10, the pipes 11 are separated, and when the pipes 11 are disconnected, any one of the socket fasteners 30 is connected to the pipes 11 as shown in FIG. 12. When the connection is fastened to the tightening jaw (11a) in the opposite direction that was installed, the other socket fastener 30 is fastened to one end of the connecting socket (19).

In addition, the flange 36 of one side of the cylinder 33 is closely attached to the coupling rib 31a of the socket fastener 30 fastened to the tightening jaw 11a, and the cylinder rod 34 is coupled to the coupling rib 31a. Coupling the hydraulic cylinder 33 so that the flange portion 35 of the cylinder rod 34 is in close contact with the coupling rib 31a of the socket fastener 30 fastened to the connecting socket 19 in a state where it is not in the state. Install.

When the hydraulic pressure is applied to the cylinder 33 of the hydraulic cylinder 33 in the state in which the socket fastener 30 and the hydraulic cylinder 33 are installed as described above, the cylinder rod 34 is fastened to the connection socket 19 ( 30) is pushed forward.

Accordingly, while the socket fastener 30 fastened to the connecting socket 19 is pushed toward the front side of the cylinder rod 34, the socket fastener 30 is separated from the pipe 11 fastened to the tightening jaw 11a to separate the pipe. Separation of the parts (11) is quick and easy.

13 and 14 is a schematic cross-sectional view and use state diagram showing the structure of the pipe seat provided in accordance with the present invention, the pipe seat 40 is stopped when the work due to bad weather, such as during installation of the intake pipe 10 To be installed in the rearmost opening of the water intake pipe 10, the pipe flange 40 has a shape of a disc, the coupling hole 40a is formed in the upper and lower portions, the male screw portion 41a at the center of one side A hollow circular protrusion 41 is formed, and a circular fastening protrusion 42 is fastened to the inner circumferential surface of the water intake pipe 10 on the other side.

In addition, the air supply valve 45 is coupled to the circular protrusion 41 formed at one side of the pipe curl 40, which is connected to the male thread part 41a formed at the circular protrusion 41 of the pipe curl 40. It is coupled, the other side is coupled to the air intake pipe 46.

In addition, a coupling rib 44a is formed at one side of the pipe flange 40 at the upper and lower portions of the body 44, and a bolt 47 and a coupling hole 40a of the coupling rib 44a and the pipe flange 40 opposite thereto. The nut 48 is fastened and is provided with a fixing band 43 which is coupled on the rearmost pipe 11 of the intake pipe 10 at one side of the pipe copper 40.

The pipe flange 40, when the work is to be stopped during the installation work of the intake pipe 10, to fasten the fastening protrusions 42 on one side of the pipe flange 40 to the rear opening of the intake pipe 10. .

The coupling ribs of the coupling hole 40a formed in the pipe flange 40 and the coupling fixing band 43 opposite thereto are installed by coupling the fixing band 43 to one side of the pipe 11 of the pipe fitting 40. Tighten the bolt 47 to 44a) and the nut 48 to the bolt 47 to firmly secure the pipe flange 40 to the opening of the pipe 11 by means of the fixing band 43. Fix it.

In this way, after fixing the pipe seat 40 is coupled to the opening of the pipe 11, the air supply valve 45 coupled to the other side of the pipe seat 40 is opened and connected to the air supply valve 45 in the barge Air is injected into the pipe 11 through the air inlet and outlet pipe 46.

When the injection of air into the pipe 11 is completed, a certain amount of air is filled in the pipe 11, so that some degree of buoyancy is applied to the rear of the water intake pipe 10 even when the water intake pipe 10 is left in the water. Is floated to a certain level in the water level as shown in Figure 14 so that the operator can easily identify the position of the water intake pipe (10).

Accordingly, when the work is stopped during the installation of the water intake pipe 10 and the work is performed again after time passes, the location of the water intake pipe 10 can be easily identified and moved to the location of the water intake pipe 10 by the barge. The work can be performed to increase the convenience of the intake pipe 10 installation work.

15 to 17 are schematic views showing the structure of the deep water intake device according to the present invention and the installation process of the water intake pipe installed in the sea by the deep water intake device, the deep water intake device 50 is provided behind the intake pipe (10) It is provided with a hollow body 51 having a cylindrical shape.

A space portion 54 is formed at an inner circumference of the body 51, and a diaphragm 55 which divides the space portion 54 into an upper space 52 and a lower space 53 at the center of the space portion 54. Is provided.

The upper one side of the body 51 is connected to the air tank and is provided with an air inlet pipe 56 penetrating through the upper space 52 and the lower space 53 at the upper one side of the body 51.

A discharge valve 59 is provided at one side of the air inlet and outlet pipe 56, that is, the line side penetrating into the upper space 52, and the main valve 57 and the air supply valve 58 at the line side penetrating into the lower space 53. Is provided.

On both sides of the rear of the body 51, one end is located in the interior of the space 54, the other end is located outside the body 51 and the water entry and exit pipe 60 is provided with an opening and closing valve 61 on one side. .

The inner central portion of the body 51 is provided with a bundle intake pipe intake pipe fixing plate 62, which is coupled to the discharge side of the bundle of the intake pipe 10 is bundled.

And the upper one side of the body 51 is provided with a merchant ship 63, which one side is fixed to the upper one side of the body 51 and the other side bent at one side is in the penetrated central inside of the body 51 Is connected, this is a pipe that is installed to pull up the deep water taken out from the intake pipe 10 to the inner center of the body 51, that is, the upper side of the intake pipe fixing plate 62.

In addition, the upper and lower portions of the body 51 is provided with a wire connecting rib (51a), the wire connecting rib (51a) of the upper side of the body 51 is tied to the inlet line 14 is bound to the water intake pipe (10), The lower fixing wire 64 connected to the salvage line 14 is fixed to the lower one side wire connecting rib 51a of the body 51 so as to fix the lower portion thereof so that the deep water intake device 50 does not tilt when the deep water intake device 50 is submerged. ) Is bound.

Here, the upper end of the salvage line 14 can be tied to the buckle (B) installed on the water surface so that the position of the salvage line can be easily grasped at sea, and the air entry and exit pipe 56 has air in the barge 66. Connect the air hose 65 connected to the tank (not shown) and bind the mouthpiece B to the upper connection portion of the air hose so as to determine the position of the air hose 65 and prevent the air hose 65 from sinking. Can be.

This deep water intake device 50 is floated on the water surface in the initial state filled with air in the lower space 53 of the space portion 54, the intake pipe fixing plate 62 provided inside the center of the intake pipes 10 The outlet side is fixed to the coupling intake pipe 10 is fixed to the coupling.

In such a state, the wire Y is connected to the wire connecting rib 51a provided on one side of the upper portion of the body 51 of the deep water intake device 50, and the barge is connected to the barge to the position to intake the deep water as shown in FIG. 15. Salvage to (66).

When the deep water intake is lifted up to the intake position of the deep water inlet, the outlet valve 59 on one side of the air inlet and outlet pipe 56 is discharged to discharge the air filled in the upper space 52 and the lower space 53 so that the deep water intake device 50 is vertically upright. The binding weight 14a, the anchoring weight (16b), the anchor (A) to the lower part of the rescue line 14, and binds the submersible weight (16a) and anchoring weight (16b) together with the anchor (A) as shown in FIG. Deep water intake device 53 is submerged by dropping to the bottom of the sea, and the water of the sea through the water inlet and outlet pipe 60 installed on both lower sides of the body 51 to the lower space 53 of the body 51 Somewhat cold

When the submersible 16a and the fixed weight 16b fall to the sea bottom and reach the sea bottom, the anchor A connected to one side of the fixed weight 16b is fixed to the sea bottom so that the deep water intake device 50 and the intake pipe Fix (10).

In this way, as shown in Fig. 17, the intake pipes 10 are positioned vertically at the sea bottom by the submerged weights 16a and the fixed weights 16b, and the deep water intake device 50 floats vertically at sea. Will be.

In this way, the deep water is collected through the intake pipes 10 in a state where the intake pipes 10 are installed vertically in the sea, and the deep water collected by the intake pipes 10 is discharged into the deep water intake device 50. do.

At this time, the surface water under the intake pipe fixing plate 62 is prevented from flowing into the center inside of the deep water intake device 50 by the intake pipe fixing plate 62 coupled to the discharge side of the intake pipes 10. Only pure deep water may be discharged inside the intake device 50.

The deep water discharged into the deep water intake device 50 connects a hose or the like to the merchant pipe 63 provided on the upper side of the deep water intake device 50 to recover the deep water in the deep water supply vessel.

Here, when recovering the deep water discharged into the center of the deep water intake device 50 in the deep water supply vessel (S) to adjust the height of the deep water intake system bar, the recovery space of the deep water supply vessel (S) (not shown) When the deep water intake device 50 is lower than the position, the main valve 57 and the air supply valve 58 of the air inlet and outlet pipe 56 are opened, and the air in the air tank (not shown) through the air inlet and outlet pipe 56 on the barge or the like. Injecting air into the lower space 53 partitioned on one side of the diaphragm 55 inside the body 51 to increase the height of the deep water intake device 50 to match the position of the recovery space of the deep water supply vessel S. Adjust the height as much as possible.

At this time, when the opening and closing valve 61 of the water inlet and outlet pipe 60 in the lower body 51, the water filled in the lower space 53 is discharged through the water inlet and outlet pipe 60 by the pressure supplied with air.

On the contrary, when the deep water intake device 50 is higher than the recovery space position of the deep water supply vessel S, the discharge valve 59 on one side of the air inlet and outlet pipe 56 is opened to open the upper space 52 and the lower space 53. The height of the deep water intake device 50 is lowered by discharging the air filled in the outside to match the position of the recovery space of the deep water supply vessel S.

Therefore, the deep water intake device 50 can securely lift the intake pipes 10 at sea by coupling and fixing the intake pipes 10 to the bundle intake pipe fixing plate 62 inside the center, and the intake pipes 10 are marined. It is a device installed vertically so that deep water can be taken directly from the sea.

According to the intake pipe installation structure for deep water collection according to the present invention as described above, a plurality of holes (10a) is formed around the front end of the intake pipe 10, the inside thereof is opened, so that the intake pipe 10 to the sea bottom As water is introduced into the plurality of holes 10a during the injection, the water pressure applied from the inside and the outside of the portion in contact with the water in the water becomes equal, thereby preventing deformation or breakage of the intake pipe 10 by the pressure in the water. In addition, since the suction pressure is dispersed as water is introduced into the hole 10a when the intake pipe 10 is introduced, the intake pipe 10 can be easily introduced to the sea bottom, and a plurality of intake pipes 10 are bundled together. Since it is installed on the bottom of the sea in the form of a bundle pipe, even if any of the intake pipes 10 of the deep water collection is damaged or damaged, the collection of deep water from the other intake pipes 10 can be continuously performed. Deep water Since the front of the intake pipe 10 to be sucked is installed to be spaced a certain distance from the bottom of the sea, it is possible to prevent sediment on the sea bottom from entering the intake pipe 10 together with the deep water when the deep water is inhaled. have.

Claims (10)

In the intake pipe installation structure for deep water collection, A plurality of intake pipes 10 connected to the plurality of pipes 11 are provided; The water intake pipe installation structure for deep water collection, characterized in that the intake pipe 10 is tied to one by the bundle strap 12 to form a bundle of pipes installed in the ocean. The method of claim 1, The front ends of the intake pipes 10 are sealed, and a plurality of holes 10a are formed around the inlet pipes; Tightening jaw (11a) is formed on both ends of the pipe (11) constituting the intake pipe (10); The anti-floating weight 13 is provided around the intake pipes 10 by the bundle string 12; Deep water collection intake pipe installation structure, characterized in that the salvage wire 14 is connected to the long side along the intake pipe (10) on one side of the intake pipe (10) is bound by the bundle string (12). The method of claim 1, The intake pipes 10 consisting of bundles are installed to be seated on the sea bottom along the sea bottom of the sea; Buoy 15 is connected to the buckle (B) installed on the water surface in front of the intake pipe 10 so that the front of the intake pipe 10 is spaced a predetermined distance from the sea bottom; A fixed weight 16b seated on the sea bottom and connected to the pipe 11 is installed at the front lower side of the intake pipe 10; Located on one side of the fixed weight (16b) and connected to the pipe (11) is provided with a diving weight (16a) for submerging and dropping the intake pipe (10) to the sea bottom; Deep water collection pipe installation structure, characterized in that the anchor (A) is provided on one side of the fixed weight (16b). The method of claim 1, It is provided with a plurality of fixed blocks 17 are connected to the upper portion of the intake pipe 10 so that the intake pipe 10 is fixed to the sea bottom; The fixed block 17 has an H-shaped cross section, and a plurality of coupling holes 17a are formed at both sides thereof, and the support pipe 18 penetrates to both sides is provided at the bottom thereof. Pipe mounting structure. The method of claim 1, It has a rectangular parallelepiped shape, and is connected to an air supply line 24 at an upper portion thereof and seated at an upper portion of the fixed block 17; A plurality of coupling pins 23 connected to the connecting strip 22 are provided at both sides thereof, and the coupling pins 23 are coupled to the coupling holes 17a formed at both sides of the fixing block 17 to be connected to the fixing block 17. Bound; Installation of the intake pipe for deep water collection, characterized in that the block transport device 20 is provided with an air bag 21 for transporting the fixed block 17 by the supply and discharge of air through the air supply line 24 rescue. The method of claim 1, A connection socket 19 is provided at a plurality of pipes 11 joints of the intake pipe 10; A body 31 is bisected and separated by a bolt and a nut, and a coupling rib 31a is formed above and below the body 31, and an inner circumferential surface thereof is a tightening jaw 11a of the pipes 11. Socket fastener 30 is fastened to the) is provided; A plurality of flanges 36 are provided around the cylinder 33, and a hydraulic cylinder 33 coupled to the coupling rib 31a of the socket fastener 30 is provided for deep water collection intake pipe. Installation structure. The method of claim 1, When the withdrawal of the installation pipe 10, A coupling hole 40a is formed in the upper and lower portions of the disk, and a hollow circular protrusion 41 having a male screw portion 41a is formed at one center thereof, and an inner circumferential surface of the water intake pipe 10 is formed at the other side. A circular fastening protrusion 42 is formed to be fastened to the pipe flange 40 which is fastened to an opening of the intake pipe 10; An air supply valve 45 having one side coupled to the male screw portion 41a formed at the circular protrusion 41 of the pipe curl 40, and the one side coupled to the air inlet and outlet pipe 46; Coupling ribs 44a are formed above and below the body 44, and bolts 47 and nuts 48 are fastened to the coupling holes 40a of the pipe ribs 40 opposite to the coupling ribs 44a. Deep intake pipe installation structure for deep water collection, characterized in that provided on one side of the pipe copper (40) is provided with a fixing band (43) coupled to the rearmost pipe (11) of the intake pipe (10). The method of claim 1, The intake pipe installation structure for deep water collection, characterized in that the intake pipe (10) consisting of bundles are installed upright in the vertical sea. The method of claim 1, Deep water intake pipe installation structure, characterized in that the deep water intake device 50 is coupled to the rear of the intake pipe (10). 10. The method of claim 9, wherein the deep water intake device 50, A hollow body 51 having a cylindrical shape; A space portion 54 is formed around an inner circumference of the body 51; A diaphragm 55 is provided at the center of the space portion 54 such that the space portion 54 is divided into an upper space 52 and a lower space 53; An air inlet and outlet pipe 56 penetrating through the upper space 52 and the lower space 53 at one upper side of the body 51 is provided; One end is located inside the space part 54 and the other end is located outside the body 51 so that water entry and exit pipes 60 are provided on both lower sides of the body 51; A water intake pipe fixing plate (62) for coupling and fixing the water intake pipes (10) inside the center; One side is fixed to one side of the front portion of the body 51, the other side bent at one side is provided with a merchant ship pipe (63) extending to the inside of the center of the body (51) Intake pipe installation structure for collection.

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