KR101543206B1 - Water pond for aquaculture - Google Patents

Abstract

The present invention relates to a water tank for aquaculture using the tide. A first water tank, a second water tank, and a separation wall are installed on a place with huge difference between the rise and fall of the tide in the sea; and the water tank for aquaculture using the tide which can automatically provide only an upper layer water of stored seawater to an aquafarm even when water difference is generated between the water tanks is installed on the separation wall. Therefore, seawater can be automatically stored in the water tank by opening a water gate during the high tide; and only the upper layer water of the stored seawater in which impurities and harmful organisms rarely exist is selectively provided to the water tank by supplying and blocking the upper layer water depending on a water level.

Description

{Water pond for aquaculture}

More particularly, the present invention relates to a water tank for aquaculture using only a tide interval, and more particularly, to a water tank having a large difference in tide between the tidal reserves of the west coast of Korea and a first water tank and a second water tank partition wall. The present invention relates to a water tank for aquaculture using only tidal flats so that only the upper layer water of automatically stored sea water can be supplied to a farm.

The aquaculture method can be generally classified into a marine aquaculture method and a marine cage form for raising the survival rate of aquaculture organisms and culturing individuals at a high density. The marine cage culture method is a method of cultivating the fish in the middle or lower layers of seawater by putting objects in a vessel made of a net, and the aquaculture is highly affected by the sea pollution, weather and seasons.

In particular, due to the nature of the coastal environment in the south and west coasts, if the water temperature in winter is maintained for a certain period, the body fluids of the aquatic organisms will freeze and affect the survival due to cell expansion and loss of balance. They prefer the method of onshore aquaculture that takes place in the aquatic aquarium rather than the aquaculture method.

In Korea, the west coast and the southern coast are generally Rias coast, and the coastline is complicated and the water depth is low. In the west coast, the southwest wind is blowing in the summer and the northwest wind is blowing in the winter.

In particular, the western sea has a large entrance with ocean water, while the inside has a narrow bay structure. It has a wide entrance and a large amount of seawater comes in and out. Its maximum depth is 90m. If the terrain is mild, seawater is submerged due to tide and ebb tide.

In the West Coast region, seawater can be automatically secured without special equipment or technology by installing a reservoir to supply seawater to the breeding tanks installed in the aquaculture farms, using characteristics of large difference between tides.

The system for securing the seawater of the reservoir as described above opens the sluice gate at the time of high tide to allow the tide to flow into the temporary sluice tank and closes the sluice gate at the low tide period to precipitate the pearl contained in the seawater stored in the temporary storage tank, And then supplied to the farms, the movement of seawater can be done automatically without artificial pumping.

In the lower basement layer of the temporary reservoir storing the seawater, toxic gases such as hydrogen sulfide are generated by the anaerobic reaction of the sediment due to the formation of anoxic layer, and harmful organisms such as earthworms, nematodes and Trichoderma nematodes and Scutica ciliate are found in the lower layer When the bottom layer of seawater is supplied to farms, disease and mortality increase.

Due to the environmental characteristics of the west coast where the tidal flats have been developed, the seawater stored in the temporary storage tank contains a large amount of fine pearl particles. However, even though the process of sedimentation is carried out for a day, pearl particles containing a large amount of pests It is necessary to develop a water tank system capable of supplying only the upper layer of seawater.

Korean Patent Registration No. 10-1047337 discloses a system and method for operating a reservoir capable of increasing a low capacity at a low cost. In addition, a separate additional water storage facility is newly installed in the existing water storage facility, and when the additional water storage facility is newly constructed It is possible to use the generated soil and aggregate to construct an expansion dam to increase the water storage of the existing water storage facilities and to adjust the water level of the power generation and each water storage facility while purifying the water between the existing water storage facilities, A reservoir operating system and method capable of increasing the water storage is disclosed. Korean Patent Laid-Open Publication No. 10-2010-0023814 discloses a method of increasing the use range of the reservoir from tidal power generation to more than the high tide level and below the low tide level, In the tidal power generation which makes the height of the reservoir higher than the highest tide level and deepens the lower part of the reservoir to below the tide level of the peak of the tide, the use range of the reservoir is expanded beyond the high tide level and below the low tide level, Is increased. Korean Patent Laid-Open Publication No. 10-2005-0018888 discloses a structure formed by a change in internal water pressure due to an internal water level due to a change in the external water level in a structure in which an arbitrary hole is formed in the upper and lower parts and the lower part is closed by the water surface By using the change of the internal air pressure, it is possible to use a power generation system that directly uses the air flow generated in the process of exhausting the air inside the compressed structure and the intake of the outside air through an artificial passage, Produces clean energy by the aid of the pressure difference between the inside and outside of the structure and the outside air due to the change of the water level outside the structure by directing the flow of water flowing into or out of the structure through an artificial passage inside the structure. Efficiency combined-cycle power generation apparatus. In Korean Patent Laid-Open Publication No. 10-2008-0129888, a plurality of channels are formed at the mouth of the valley where the seawater enters, and the breakwater embankment capable of withstanding the pressure and the waves of the seawater is piled up to block the entrance of the channel. When the seawater is at high tide, When the water enters the valley without water, it develops the water turbine. When the seawater becomes ebb tide, the seawater escapes. Also, opening the gates to the valley side, ≪ / RTI > However, in the above-mentioned prior art, by using the aberration energy generated due to the difference of the tide interval, the seawater is automatically moved to the reservoir by using the environment having a large difference between the tides of the present invention, This is different from the construction of a water tank for aquariums using only a tidal tide that moves only the upper tier, which contains little harmful organisms and small amounts of foreign matter such as pearl, into a pond for aquaculture.

In order to solve the above problems, the present invention has been made in view of the above problems, and it is an object of the present invention to provide a water storage system in which a water gate is installed on a shoreline having a large width of a tide interval and water is closed according to high tide and low tide, The partition wall is divided into a first water tank and a second water tank, and a symbol water extraction pipe capable of automatically selecting the upper water layer is installed in the partition wall automatically according to the water level of the water tank, so that only the tide water We will provide a water tank for aquaculture.

Water gates that are installed in the ocean at a distance from the coast and form a seawater storage space; A partition wall formed in the storage space in parallel with the shore and defining a compartment with a first reservoir and a second reservoir; Provided is a water storage tank for aquaculture using only the fresh water tide, which is installed in a second water tank and is a water intake tank for moving seawater to an off-shore water intake pipe.

Wherein the water intake tank has a structure in which at least one water intake wall is provided in parallel with the partition wall, a water inlet is formed at a side wall of the water intake wall, and a bottom of the water intake tank is inclined at a predetermined angle toward the water intake pipe installation portion, Wherein the automatic level water pipe is a corrugated pipe having a predetermined length by a second water tank; A through hole formed in the end of the corrugated tube; Provided is a water storage tank for aquaculture using only a tide interval made up of parts provided at a corrugator end frame portion.

The present invention is characterized in that seawater can be automatically stored in the water tank by opening the water gate at the time of high tide, stored in the water tank, precipitated for a certain period of time, and selected only in the seawater, The supply and the stopping are effected to supply to the aquaculture tank.

1 shows a bird's eye view of a water storage tank for aquaculture using only the tide interval of the present invention.
2 is a side cross-sectional view of a water storage tank for aquaculture using only the tide interval of the present invention.
FIG. 3 is a perspective view of an automatic level water pipe of a water storage tank for aquaculture using only the tide interval of the present invention.
4 is a side sectional view in which the automatic level water pipe of the aquarium for aquaculture using only the tide interval of the present invention is installed on the partition wall.
FIG. 5 is a front view showing the automatic leveling water pipe of the aquarium for aquaculture using only the tide interval of the present invention installed on a bulkhead.
FIG. 6 shows a principle diagram in which the automatic level water pipe of the aquarium for aquaculture using only the tide interval of the present invention operates.
Fig. 7 shows a principle diagram in which the automatic level water pipe of the aquarium for aquaculture using only the tide interval of the present invention acts.
FIG. 8 is a view showing the operation principle of the automatic level water pipe of the aquarium for aquaculture using only the tide interval of the present invention.
FIG. 9 shows a bird's eye view sensitivity of the aquarium for aquaculture using only the tide interval of the present invention.
10 is a cross-sectional view of the water storage tank for aquaculture tank using only the tide interval of the present invention.

Hereinafter, a water storage tank for aquaculture using only the tide interval of the present invention will be described with reference to the accompanying drawings. As used in the present invention, upper water (upper water) refers to seawater located in a portion contacting with the atmosphere distributed in the upper layer, and supernatant refers to clear sea water in the upper layer which sinks sludge.

1 shows a bird's eye view of a water storage tank for aquaculture using only the tide interval of the present invention. The water storage tank for aquaculture using only the fresh water tide according to the present invention is installed at a suitable distance from the shore to form a storage space for seawater and the partition wall 300 is spaced apart in a direction parallel to the shoreline The storage space of the seawater may be partitioned into a first water tank 200 and a second water tank 201 and a water intake tank 500 having a lower bottom slope may be installed at a position where the water storage tank contacts the breakwater wall.

A seawater storage space is formed between the seawater storage tank 500 and the seawater storage tank 100, and a partition wall 300 is installed at a predetermined position of the storage space. So that the first water tank 200 and the second water tank 201 can be formed.

2 is a side cross-sectional view of a water storage tank for aquaculture using only the tide interval of the present invention. The water gate 100 is opened at the time of high tide, so that the sea water is moved to the first water tank 200 regardless of the presence or absence of the medium generating the moving energy such as an underwater pump. In the low water tank, . The seawater stored in the first storage tank is settled for about a day or two for a predetermined period of time, so that sediment 600 due to sedimentation can accumulate on the bottom of the first storage tank. A first purification process is performed in which foreign substances such as pearl distributed in the sea are mixed while being moved from the sea to the inside of the water storage tank and the turbid substances of the seawater layer obtained are submerged on the bottom of the first water storage tank.

The automatic level water pipe 400 is installed on the upper sidewall of the partition 300 so that only the upper layer water of the first water tank can be moved to the second water tank. It is appropriate that the automatic level water pipe 400 is installed at a height at which the upper layer water of the seawater having been settled in the first water tank is distributed. The upper layer water means upper layer seawater separated in a process in which the seawater stored in the first water tank is submerged in a natural precipitation state for about 1 to 2 days to sink foreign matter such as pearl.

The seawater moved to the second water tank is again submerged in the first water tank by the action of gravity in the second water tank, and a second purification process is performed in which fine pearls and foreign substances are filtered through the water intake tank . It may be moved to a final purification process such as filtration, sterilization and sterilization by an underwater pump installed inside the water intake pipe 301 and supplied to the land water tank or directly to the water tank.

FIG. 3 shows a perspective view of an automatic level water pipe of a water tank for aquaculture using only the tide interval of the present invention, which is classified into TYPE A and TYPE B. The automatic level water pipe is an empty pipe structure and can be installed through the partition walls with a predetermined height.

The automatic level water pipe 400 is provided with a corrugated pipe 401 extending to a predetermined length in the direction of the second water tank, a through hole 402 formed at the end of the corrugated pipe, A buoy or a rich body 403 may be installed. The corrugated pipe is preferably made of a rubber-like material having almost no corrosion and having a semi-permanent life because it is made of a corneum structure so that the water surface is flexible enough to cause volume change, and is placed in seawater for a long time.

In the case of Type A, a through hole 402 serving as a passage through which the upper layer water of the first reservoir is moved is formed on the end surface of the corrugated tube, and the buoy 403 is connected by a ring to impart buoyancy to the automatic level water pipe, So that the structure can be maintained in the horizontal direction, so that the sea water can be smoothly moved. That is, the corrugated pipe extended to a certain length functions to complement the water depth difference so that only the upper water layer formed by the height difference of the automatic level water pipe located on the partition dividing the first water tank and the second water tank can be moved.

In case of Type B, the hole is not formed in the side surface of the corrugated pipe, but the end portion is opened to serve as a through hole. In the type A structure, the buoy can be installed through the corrugated pipe. Can be increased, and the buoy movement can be minimized.

4 is a side sectional view in which the automatic level water pipe of the aquarium for aquaculture using only the tide interval of the present invention is installed on the partition wall. The automatic level water pipe is divided into the upper water pipe 410, the middle water pipe 411 and the lower water pipe 412 from the upper direction according to the installed height, and the installation number and installation interval of the automatic water level pipe It can be adjusted as needed. It is preferable that the height of the lower layer water pipe provided on the partition is formed on the upper side in the range of 1/3 to 1/2 of the total height of the partition wall. This is because when the water pipe is installed on the bottom side, the pearl on the bottom can be moved to the second water tank.

FIG. 5 is a front view showing the automatic leveling water pipe of the aquarium for aquaculture using only the tide interval of the present invention installed on a bulkhead. As shown in FIG. 5, it is preferable that the automatic level water pipes are not installed vertically along the height but are installed at an angle with a certain angle in the transverse direction of the bulkhead, 2 It is to prevent the water pipes from coming into contact with each other as the water level of the water tank decreases.

The installation position of the automatic level water pipe is installed in the upper part where harmful organisms such as earthworm, nematode, Trichoderma nematode, and Scutica nematode do not live in seawater whose sedimentation is completed in the first water tank for a certain period of time, Is appropriate.

6 to 8 show a principle diagram in which the automatic level water pipe of the aquarium for aquaculture using only the tide interval of the present invention acts. By storing the appropriate amount of seawater in the first tank, the opening of the automatic level water pipe is closed or the upper part of the bulkhead is blocked so that the seawater does not move to the second water tank during the settling process, thereby stopping the operation of the automatic level water pipe .

However, after the sedimentation is completed in the first reservoir for a certain period of time, by activating the automatic level water line which inhibits the operation, only the upper layer water having less foreign matter content can be moved to the second reservoir have.

FIG. 6 is a view illustrating a state in which the upper layer water pipe is horizontally straightened and the upper layer water is moved to the first water tank and the second water tank when the water levels of the first water tank and the second water tank are the same. Since the middle and lower water pipes are buoyant to the upper water level and buoyant by the buoyant force, they do not move through the water pipe.

When the water level of the first water tank is lower than the water level of the first water tank as the water level of the first water tank is lowered as the sea water is continuously supplied to the second water tank, the amount of seawater discharged through the upper water pipe disappears, The operation of the water line can be automatically blocked.

The corrugated pipe of the upper water pipe is formed of a flexible material whose length is controlled, and the upper water pipe having its role closed as shown in FIG. 7 is naturally sagged downward by gravity. You can visually check the level of water level.

As shown in FIG. 8, when the water level of the first water tank is gradually lowered and the operations of the upper layer and the middle layer water pipe are stopped, only the lower layer water pipe is continuously moved and the water level of the first water tank is lower, When the operation of the water pipe reaches the stopping level, the above process can be repeated by opening the water gate. The above operation is effected automatically without additional energy supply.

FIG. 9 shows a bird's eye view sensitivity of the aquarium for aquaculture using only the tide interval of the present invention. In the water intake tank 500 of the present invention, one or more water intake walls are installed at regular intervals in parallel with the water intake pipes, and inlet ports are staggered at the side walls of the water intake walls so that seawater stagnates and moves in the water intake tank .

10 is a cross-sectional view of the water storage tank for aquaculture tank using only the tide interval of the present invention. The bottom of the water intake tank has a structure with a constant angle gradient to the bottom of the seawater. A plurality of water channels are formed so that the water intake wall is zigzag from the second water tank to the final water intake pipe. The bottom of the intake part can increase the inclination angle of the gradient to the intake pipe, and the intake bottom part can be formed to have a fall in the water channel located just before the intake pipe. It is preferable that the normal draft angle is increased with an angle of 10 to 45 degrees.

Also, the width of the water channel formed by installing one or more water intake walls is also wide and the width of the water channel located in the water intake pipe is relatively narrow. Through the combination of the inclination of the bottom gradient of the channel and the channel width, the seawater passing through the moving passage is settled again in the zigzag channel, and the upper layer water arriving just before the intake pipe is caught by the symbol water, .

It is possible to automatically store the seawater in the reservoir without the need for a large energy supply by installing the aquarium for aquaculture using only the tide of the tide in the tide having a large difference between the tides, The number of symbols can be selected and supplied to the farm, which not only improves the efficiency of supplying farming water to fish farmers but also can be installed regardless of the topography in the south and west coast, where the amount of foreign matter is large.

100: Water table 200: First tank
201: second water tank 300: partition wall
301: water intake pipe 400: automatic water level water pipe
401: corrugated pipe 402: through hole
403: Buoy 410: Upper water pipe
411: middle layer water pipe 412: lower layer water pipe
500: Water intake tank 600: Sediment

Claims (5)

Water gates that are installed on the coasts a certain distance away from the coast and that are watertight to the seawater storage space;
The storage space is formed with a first water tank and a second water tank installed parallel to the shore and connected to the second water tank to move the seawater to a land intake pipe,
And at least one automatic level water pipe is installed in the partition wall partitioning the first water tank and the second water tank in the direction of the second water tank,
Wherein the automatic level water pipe comprises: a corrugated pipe having a predetermined length; A through hole formed in the end of the corrugated tube; And a portion provided on the corrugated pipe end frame portion,
And the height of the automatic level water pipe is formed on the upper side in the range of 1/3 to 1/2 of the total height of the partition wall.
2. The water treatment system according to claim 1, wherein at least one water intake wall is provided in a zigzag manner in parallel with the partition wall to form a water channel, and a bottom of the water intake tank is formed at a predetermined angle from the second water tank toward the water intake pipe Tanks for aquaculture using tidal flats
3. The water tank for aquaculture according to claim 2, wherein the gradient angle of the water channel is 10 to 45 degrees and the water channel having the inclination angle of 90 degrees is connected to the water intake pipe. delete delete

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