KR20180136675A - Shrimp culture structure - Google Patents

Abstract

The present invention relates to a shrimp farming structure divided into three layers which are an upper layer, a middle layer, and a lower layer. A fry water tank is positioned in the upper layer to farm fry, which is young shrimp, a culture tank is positioned in the middle layer to farm shrimp after fry time, and a fresh water tank is positioned in the lower layer to store fresh water. Accordingly, the shrimp farming structure is capable of farming shrimp in a separate way according to the growth of shrimp, enabling a fresh water flow between water tanks, making a water exchange unnecessary, and supplying feed and maintaining the temperature of fresh water automatically. The structure is divided with three layers of the upper layer, the middle layer, and the lower layer, has a wall body formed of red clay, and has a transparent ceiling. The shrimp farming structure by the present invention comprises: a fry water tank which is positioned in the upper layer and is able to farm fry; a culture water tank which is positioned in the middle layer and is able to farm adult fish; a fresh water tank which is positioned in the lower layer and stores fresh water temporarily; a feed supply device which is included in one side of the upper part of each of the fry water tank and the culture water tank and supplies feed automatically to the fry water tank and the culture water tank; a stirring device which is included in one side of the bottom part of each of the fry water tank and the culture water tank and makes sunken feed float by spraying air and fresh water to the lower side; a temperature controlling device which is included in the lower part of the bottom surface of each of the fry water tank and the culture water tank and maintains the temperature of fresh water individually stored in the fry water tank and the culture tank by automatically controlling the temperature into 25-33°C; and an oxygen supplying device which supplies oxygen to fresh water stored in the fry water tank.

Description

{Shrimp culture structure}

The present invention relates to a shrimp farming structure. More specifically, the present invention is divided into three layers of upper layer, middle layer and lower layer. In the upper layer, a cheek tank for breeding young shrimp is placed. In the middle layer, And a fresh water tank for storing fresh water is located in the lower layer, so that it can be separated according to the growth of the shrimp, the fresh water can be moved between the water tanks, the water tank is not necessary, Of a shrimp culture structure capable of maintaining the temperature of the shrimp.

In order to cultivate seafood such as shrimp in the coast, there is a problem that the residence of workers etc. is restricted to the coastal area. Because of the damage of the farms due to typhoons and environmental pollution, and the loss of fish and shellfish such as shrimp, And a method of safely cultivating shrimp indoors is required.

An invention relating to a structure such as a farm for culturing fish and shellfish such as shrimp is disclosed in Korean Patent Laid-Open Publication No. 10-2006-0083271 entitled " Aquaculture-free shrimp farm " and Korean Patent Publication No. 10-2013-0044599 A crustal aquaculture system using a lift, a crustacean aquaculture system of Korean Patent Registration No. 10-1556963, and a building type fish aquaculture system of Korean Patent Registration No. 10-1660867 have been proposed and disclosed.

Korean Patent Laid-Open Publication No. 10-2006-0083271 discloses that the air pump and air circulation pipes of the air circulation device are connected to each of the water tank rows to automatically supply air, and the purified water supply An invention relating to a device capable of culturing shrimp without changing the water in the water tank by exchanging purified water with the pump and the purified water supply pipe has been proposed, and in Japanese Patent Application Laid-Open No. 10-2013-0044599 entitled "Quot; aquaculture system " is provided with a central separation wall in the lateral direction at the center of the inner part of a breeding tank where various crustaceans such as shrimp are kept, first and second sidewalls in the longitudinal direction on both sides thereof, And an air lift device for inducing a uniform circulation of the fluid in the breeding tank is provided at the diagonal corner of the breeding tank, It is possible to uniformly circulate the fluid without generating a vortex in the tank, thereby preventing the shrimp excrement and various foreign substances from being flooded on the floor.

In the "crustacean aquaculture system" of Korean Patent Registration No. 10-1556963, a water tank provided with either a single layer or a plurality of layers, a multi-layer network member provided inside the water tank, and a multi-layer network member are inclined at a predetermined angle The present invention has been made in view of the above problems, and it is an object of the present invention to provide a system for stably and mass-producing crustaceans, which comprises a drive unit for rotating the crusher, an air feeder and a sediment remover, In the "building type fish culture system" of Korean Patent Registration No. 10-1660867, the fry is started from the first tanks, which are the uppermost tier, and moved to the fourth tier, which is the lowest tier, In consideration of the difference, it is necessary to move by itself along with water through a moving pipe installed, An invention relating to a system capable of preventing the occurrence of warnings has been proposed.

However, in the above conventional techniques, there is a problem that some of the feeds supplied to the inside of the water tank are settled on the bottom of the water tank, wasted feeds, and the settled feeds are corrupted to contaminate seawater or fresh water. In cleaning the inside of the water tank, The processing of the stored seawater or the fresh water is troublesome, and the problem of the seawater or the fresh water is lost.

Therefore, it is possible to cultivate the shrimp conveniently by feeding the feed and adjusting the temperature of the fresh water automatically, and to prevent the waste of the feed and contamination of the fresh water by floating the settled feed on the bottom of the tank, The present invention has been made to solve the above-mentioned problems, and an object of the present invention is to provide a device capable of temporarily recycling existing seawater or fresh water even after washing the water tank.

Korean Patent Publication No. 10-2006-0083271 (2006. 07. 20) Korean Patent Publication No. 10-2013-0044599 (March 31, 2013) Korean Registered Patent No. 10-1556963 (Apr. 24, 2015) Korean Registered Patent No. 10-1660867 (Apr. 22, 2016)

The shrimp culture structure according to the present invention is a technique proposed to solve the problems of the prior art,

There is a need for a device capable of automatic shrimp farming with convenient feeding and temperature control of seawater or fresh water,

There was a problem that the supplied feed was settled on the bottom of the tank, wasted the feed and contaminated the seawater or fresh water inside the tank,

It is difficult to treat seawater or fresh water stored in a water tank when the water tank for shrimp cultivation is washed, and there is a problem that seawater or fresh water is lost.

The shrimp culture structure according to the present invention, in order to realize the above object,

The shrimp culture structure is divided into three layers of an upper layer, an intermediate layer and a lower layer, the wall is composed of loess, and the ceiling is transparent.

A fish tank that is located in the upper layer and is capable of breeding fry; A positive water tank located in the middle layer and capable of culturing sexually transmitted fish; A fresh water tank in which fresh water is temporarily stored in a lower layer; A feeder provided at one side of each of the fish tank and the positive water tank for automatically feeding the fish to the fish tank and the positive tank; An agitating device provided on one side of the bottom side of each of the cheer tank and the positive water tank and floats the sunken feed by spraying air and fresh water downward; A temperature regulating unit provided below the bottom surface of each of the cheer tank and the positive tank and automatically controlling the temperature of the fresh water stored in the chewing tank and the positive water tank to 25 ° C to 33 ° C; An oxygen supply device for supplying oxygen to the fresh water stored in the fish tank; The shrimp aquaculture system according to the present invention comprises:

In the shrimp aquarium structure according to the present invention,

Feeding device provided on the upper side of each of the cheer tank and positive water tank and the temperature control device provided below the bottom surface of each of the cheer tank and the positive tank can automatically control the temperature of feed and seawater or fresh water However,

It is possible to prevent the waste of the feed from being wasted by allowing the feed deposited on the bottom of the water tank to float through the stirring device provided on one side of the bottom side of each of the tuna water tank and the positive water tank and through the stirring device for spraying air and fresh water downward, It is possible to prevent the contamination of fresh water,

The seawater or fresh water stored in the fish tank and the positive water tank can be temporarily moved to the fresh water tank, so that the existing seawater or fresh water can be recycled after washing the fish tank and the positive water tank.

1 (a) and 1 (b) are internal structural diagrams of a shrimp culture structure according to the present invention.
FIG. 2 (a) and FIG. 2 (b) are sectional views showing a feed device and a stirring device of a shrimp culture structure according to the present invention.
The present invention relates to a shrimp feed structure, and more particularly, to a shrimp feed structure.
FIG. 4 is an exemplary view showing the circulation of seawater or fresh water in a positive water tank of a shrimp culture structure according to the present invention. FIG.
5 is a sectional view showing a frame member and a purifying member of a shrimp culture structure according to the present invention.
6 is a view showing an example in which the oxygen supply device of the shrimp culture structure according to the present invention is installed on the bottom side of the positive water tank.

The present invention relates to a shrimp farming structure,

1. A shrimp aquarium comprising: a shrimp aquarium (100) having an upper layer, an intermediate layer and a lower layer, the wall being composed of loess and the ceiling being transparent; A positive water tank 110 located in the middle layer and capable of culturing the sexually transmitted fish; A fresh water tank 120 located below and temporarily storing fresh water; A feeder 200 provided on one side of the upper side of each of the chewing water tank 100 and the positive water tank 110 to automatically feed feeds to the fish tank 100 and the positive water tank 110; An agitation device 300 provided at one side of the bottom side of each of the chewing water tank 100 and the positive water tank 110 to float the submerged feed by spraying air and fresh water downward; The temperature of the fresh water stored in each of the fish tank 100 and the positive water tank 110 is automatically adjusted to be maintained at 25 to 33 ° C by being provided below the bottom surface of each of the fish tank 100 and the positive water tank 110 Temperature control device; An oxygen supply device for supplying oxygen to the fresh water stored in the fish tank 100; And a shrimp aquarium structure.

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

1 (a) and 1 (b), the shrimp culture structure according to the present invention is divided into three layers of an upper layer, an intermediate layer and a lower layer, the wall is composed of loess, It is about structures that can be cultivated for shrimp.

1 (a) and 1 (b), the shrimp aquarium structure according to the present invention is located in an upper layer and is capable of breeding fry, A positive water tank 110 and a fresh water tank 120 in which a fresh water is temporarily stored in a lower layer.

It is obvious that the size of the fish tank to be cultured should be differently formed even if the sizes of the fishes and fishes differ from each other due to the difference in the size of the fishes. Therefore, the fish tank is divided into three layers of upper layer, middle layer and lower layer The size of the shrimp culture structure is preferably smaller than the size of the positive water tank 110.

That is, the shrimp culture structure according to the present invention is composed of three layers of an upper layer, an intermediate layer and a lower layer, the sizes of the layers may not be the same, the upper layer may partially protrude upward from the middle layer, And may protrude downward.

At this time, even a part of the fish tank 100 is located above the positive water tank 110, and the fish having been cultured at the time of opening the drain hole provided at the bottom of the fish tank 100 spontaneously falls downward, 110).

The fresh water tank 120 is a component for temporarily storing seawater or fresh water stored in the fish tank 100 and the positive water tank 110 during the internal cleaning of the fish tank 100 and the positive water tank 110, A moving pipe is connected to the lower portion of the fish tank 100 and the aquarium so that the seawater or the fresh water can be moved to the fresh water tank 120 through a moving pipe. A moving pipe is also connected to the lower portion of the fresh water tank 120, The positive water tank 110 and the fresh water tank 120 may be configured to be capable of moving the seawater or the fresh water to the finished tuna water tank 100 and the aquaculture water tank. To the outside, to the outside.

At this time, the method of moving the seawater or the fresh water from the cheer tank 100 and the positive water tank 110 to the fresh water tank 120 is a natural dropping method based on the height difference of the respective tanks, The method of moving the seawater or the fresh water to the tuna water tank 100 and the positive water tank 110 may be a system using a transfer pump provided on the fresh water tank 120 side.

2 (a) and 2 (b), the shrimp culture structure according to the present invention is provided on one side of the upper side of each of the chewing water tank 100 and the positive water tank 110, And a feeder 200 for automatically feeding the feed to the positive water tank 110 and the feed water tank 100.

The feeder 200 is a device for storing feeds used in the culture of seafood such as shrimp and discharging a predetermined amount of water in accordance with a predetermined cycle. The feeder 200 is a device for feeding fishes such as shrimp to be immersed in seawater or fresh water, It is preferable to be positioned at a certain distance above the water tub.

Specifically, the feeder 200 includes a feed storage unit 210 configured to have a top-bottom and bottom-open top-bottom shape so that feed can be stored in the inner hollow. do.

The feed storage unit 210 is a component for feeding and storing feed for the culture of shrimp and other fish and shellfish products. The feed storage unit 210 is opened to open the upper end of the feed storage unit 210, The lower end is opened so as to be able to be discharged to the outside of the main body 210, and the outlet is formed. In this case, the feed is easy to input but the amount of the feed is limited so that the area of the inlet is larger than the area of the outlet.

Therefore, the feeding rate of the feed into the hollow of the feed storage unit 210 through the feeding port 210 is restricted by the bottleneck phenomenon, 230) is easy to control the amount of feed discharge.

In an embodiment of the present invention, the feed storage unit 210 may have a rectangular shape, a side surface may have a vertical tilt, and other side surfaces may be inclined, A space may be formed in the feed supply device 200 to enable the arrangement of the drive motor 250 and the compressor 340 as described below. The lower end of the feeder 200 may be inclined at a predetermined angle toward the inside of the feeder 200.

The feeder 200 includes a cylindrical supply pipe 220 having one side and the other side opened and an upper end opened to allow the inner hollow to communicate with the inner hollow of the feed storage unit 210 .

The feed pipe 220 is a passage through which the feed discharged to the outside of the feed storage unit 210 through the discharge port formed at the lower end of the feed storage unit 210 is discharged to the outside of the feed supply device 200, And the inner hollow communicates with the inner hollow of the feed storage part 210, so that the feed discharged to the outside of the feed storage part 210 through the discharge opening is discharged into the opened one after being inwardly hollowed. 220 are preferably protruded outside the feeder 200 or positioned on the same plane as the outer surface of the feeder 200 so that the feed can be discharged to the outside of the feeder 200 Do.

Therefore, it is preferable that the discharge port of the feed storage unit 210 is configured to be fitted to the open top of the supply pipe 220. However, in order to prevent interference with the rotary member 230 described below, So that it can not enter the hollow of the inner wall of the housing 220.

The feeding device 200 includes a rod-shaped rotary member 230 having a feed screw 220 formed at a part including one end and a part of which is inserted into the hollow of the feed pipe 220 .

3, the rotary member 230 is rotated by an external force and discharges feed to be introduced into the hollow of the supply pipe 220 to the outside of the supply pipe 220. In this embodiment, The remaining part of the transfer screw 240 formed in a part including the transfer tube 220 is inserted into the hollow of the supply tube 220 through the other open side of the supply tube 220 and the transfer screw 240 is not formed, And is fixedly secured by one or more fixed bearings or the like so as not to cause shaking when rotated by an external force.

Therefore, the feed screw 220, which is formed on the rotary member 230 in part, may enter the open side of the feed pipe 220 to open the feed pipe 220, It is necessary to form the area similar to the area of the other side and rotate only in one direction to discharge the feed inside the feed pipe 220 to the outside.

The feeding device 200 controls the driving motor 250 and the driving motor 250 that rotate the rotating member 230 to control the number of rotations, the rotating speed, and the rotating period of the rotating member 230 And a control unit.

The driving motor 250 is a component that rotates the rotary member 230 in one direction so that the rotary member 230 rotates to discharge the feed inside the supply pipe 220 to the outside. May be a system by rotating a belt wound on a pulley by fastening a pulley to a rotation shaft of a driving motor 250. However, the present invention is not limited to this, and a configuration in which a speed reducer is provided to control the rotation speed .

The control unit controls the rotating member 230 based on an input value previously input by a user or an input value input by a user in real time. The method by which a user inputs an input value to a control unit is a method Input through an input device provided outside the device 200 or input through an application installed in the user's mobile device.

In one embodiment of the present invention, the driving motor 250 and the speed reducer have a rectangular mouth shape, one side has a vertical inclination, and the other side except for one side is inclined toward a vertical side The user of the present invention can control the rotation period of the rotary member 230 through the control unit to control the rotation speed of the shrimp 230, The amount of feed supplied to the shrimp can be controlled by controlling the number of rotations of the rotary member 230 and the rotation speed of the rotary member 230 can be controlled, It is possible to control the feed rate of feed or feed.

2 (a) and 2 (b), the shrimp aquarium structure according to the present invention is provided on one side of the bottom side of each of the fish tank 100 and the positive water tank 110, And a stirrer 300 for suspending the submerged feed by spraying air and fresh water.

The stirrer 300 is a component that is not consumed by fish and shellfish such as shrimp and floats the water settled on the bottom of the water tank in the water or underwater, and is positioned on the bottom side of the water tank so as to be immersed in seawater or fresh water .

Therefore, the shrimp culture structure according to the present invention is one of the features of the shrimp culture structure, which is a vertical structure in which the feed device 200 is positioned above and the stirring device 300 is positioned below.

At this time, the stirring device 300 is not positioned to support the bottom of the water tank, but the feed device 200 is fixedly fastened to the inner ceiling of the structure including the water tank through the fixing device, It is preferable that the height of each of the feed device 200 and the stirring device 300 is the same when the plurality of integrated feed and stirring devices are fastened to the gable roof on which the slopes are formed The feeding device 200 and the stirring device 300 can be moved upward and downward in order to constitute the feeding device 200 and the stirring device 300. In addition, .

The stirring device 300 includes a fluid line part 310 spaced apart from the bottom by a predetermined distance and having a plurality of fluid injection nozzles 311 disposed at regular intervals for spraying a fluid downward, And an underwater pump 330 for supplying seawater or fresh water to the water pump 310.

The fluid line unit 310 is a tubular component having a length shorter than the width of the water tank in which the integrated feed and stirring apparatus 300 according to the present invention is installed and is installed along the width direction on one side of the water tank, The submersible pump 330 is a known device capable of transporting or supplying a fluid by the action of pressure. The submersible pump 330 is operable in a state of being immersed in seawater or fresh water filled in the water tank, The fluid supplied to the fluid line unit 310 is sprayed toward the bottom side of the water tank through the plurality of fluid injection nozzles 311 to float the water deposited on the bottom of the water tank, .

At this time, since the underwater pump 330 is submerged in seawater or fresh water filled in the water tank, the fluid to be supplied to the fluid line unit 310 is supplied with seawater or fresh water in the water tank.

The stirring device 300 includes a plurality of air injection nozzles 321 spaced apart from the floor by a predetermined distance from both sides of the fresh water line and spraying air toward the downward direction, And a compressor (340) for supplying air to the line unit (320) and the air line unit (320).

The air line unit 320 is formed to have a length shorter than the width of the water tank in which the integrated feed and stirrer 300 according to the present invention is installed in the same manner as the fluid line unit 310, The compressor 340 is a known device for compressing the gas through the piston motion and discharging the compressed gas. In order to prevent the compressed air from being submerged in the seawater or fresh water, The air supplied to the air line unit 320 is supplied to the air line unit 320 provided at a predetermined distance from the bottom of the water tank, To the bottom of the water tank, and floats the water deposited on the bottom of the water tank on the surface of the water or in the water.

The feeding device 200 and the stirring device 300 are connected to each other through a connecting rod 350 and the stirring device 300 can be moved up and down along the connecting rod 350.

As described above, since the feeder 200 and the agitator 300 are integrally formed in a vertical structure in which the feeder 200 is positioned above the agitator 300, The feeding device 200 and the stirring device 300 are connected to each other and the feeding device 200 is supported by the feeding device 200 and the stirring device 300, (350). ≪ / RTI >

Therefore, the stirring device 300 is configured to keep the distance from the bottom of the water tank to be constantly increased or decreased along the connecting rod 350 according to the height change of the water tank bottom by the sand or the like.

The stirrer 300 may be configured such that at least one side surface is open and at least one side surface of the stirrer 300 is provided with a protection net 360 made of stainless steel.

As described above, the submersible pump 330 is submerged in seawater or fresh water filled in the water tank, and the supply of the fluid to be supplied to the fluid line unit 310 uses seawater or fresh water in the water tank, It is proper that the agitation device 300 in which the pump 330 is provided is configured such that seawater or fresh water can be directly supplied to the submerged pump 330 by opening at least one side surface thereof.

Therefore, in order to prevent the fish or shellfish such as shrimp or the like, which are cultured in the water tank through one or more opened side surfaces of the stirring device 300, from entering the inside of the stirring device 300, The protective net 360 is preferably made of stainless steel and the spacing between the lines and the net lines constituting the protective net 360 is preferably 2 mm or less.

The shrimp aquarium structure according to the present invention is provided below the bottom surface of each of the fish tank 100 and the positive tank 110 so that the temperature of seawater or fresh water stored in the fish tank 100 and the positive water tank 110 To 25 < 0 > C to 33 < 0 > C.

The temperature regulating device is a component that emits heat or cool air below the chewing water tank 100 and the positive water tank 110. The heat or cool air that is emitted from the temperature regulating device is the temperature of seawater or fresh water To maintain the shrimp at 25 to 33 ° C suitable for the culture of the shrimp.

The temperature of the seawater or the fresh water is measured in real time by the temperature measuring device provided in the chewing water tank 100 and the positive water tank 110. When the temperature of seawater or fresh water falls to 25 ° C or lower, It is preferable that the temperature can be automatically maintained by the temperature control device.

In addition, the shrimp culture structure according to the present invention is characterized in that a device for purifying seawater or fresh water in the positive water tank 110 is provided in the positive water tank 110, The size of the individual fry is very small as compared with that of the adult fish and the breeding period in the breeding tank 100 is shorter than the breeding period in the breeding tank 110 so that the breeding tank 100 is equipped with a device for purifying seawater or fresh water It does not have to be.

Specifically, the positive water tank 110 is provided with a plurality of jetting ports 401 for jetting a gas or a fluid in one direction, and the positive water tank 110 is provided at one side of the positive water tank 110 at a predetermined distance from each other, And a plurality of jetting devices 400 for moving seawater or fresh water in the water tub 110 in one direction.

As shown in FIG. 4, the inside of the positive water tank 110 is divided into an impact region where gas or fluid ejected from the plurality of ejectors 400 directly affects seawater or fresh water, And the seawater or fresh water in the region of influence can be continuously moved along the direction of injection of the gas or fluid ejected from the ejector 400, And push out seawater or fresh water in the area.

At this time, the plurality of injectors 400 are spaced apart from each other by a predetermined distance along the longitudinal direction of the positive water tank 110, and the length of each of the injectors 400 is half of the width of the positive water tank 110 So that seawater or fresh water in the affected area can be moved in one direction along the longitudinal direction of the positive water tank 110 and seawater or fresh water in the unaffected area can be moved in the other direction along the longitudinal direction of the positive water tank 110 It is preferable to move it.

Accordingly, the plurality of injection openings 401 provided in each of the plurality of injection apparatuses 400 should be arranged in the same direction in which the gas or the fluid is injected, and a plurality of injection apparatuses 400 may be disposed in the positive water chamber 110, The injection device 400 may be provided at a same height along the longitudinal direction of the positive water tank 110 or may be formed in a shape in which the respective injection devices 400 are disposed at the same height from the positive water tank 110 A plurality of injectors 400 may be installed at a predetermined distance from each other in the vertical direction along the longitudinal direction of the positive water tank 110 I will do it.

At this time, the positive water tank 110 need not necessarily be formed in a square shape in which each corner side is formed in a right angle, and each corner side is processed in a curved shape so that seawater or fresh water So that circulation of the refrigerant can be smoothly performed.

In addition, the positive water tank may include a fence member 111 that forms a boundary in a part of the interior, and the fence member 111 physically separates the affected region from the non-affected region, The seawater in the area or the seawater or fresh water in the fresh water and the unaffected area does not interfere with each other and is circulating in the positive water tank 110.

In addition, the positive water tank 110 is provided with a pump 410 for supplying a gas or a fluid to each of the plurality of injectors 400.

The pump 410 is a known device capable of transporting or supplying a gas or fluid by a pressure action and is provided outside the positive water tank 110 to supply air to the spray device 400, Or seawater or fresh water of the same kind as that of the inside water or the fresh water.

5, the positive water tank 110 is provided at the distal end side of the positive water tank 110, and a squeezing net 421 can be inserted into the front and rear surfaces of the positive water tank 110, And a frame member 420 is provided.

The frame member 420 is a constituent element for filtering floating matters and foreign substances contained in seawater or fresh water and forming a space for fixing the purifying member 430 to be described below. And is disposed at a predetermined distance from the distal end of the positive water tank 110 for recirculation of seawater or fresh water and purification of water quality.

A filtering net 421 that is fastened to the frame member 420 may include a front filtering net that is fastened toward the center of the positive water bath 110 and a rear filtering net 420 that is fastened toward the distal end of the positive water bath 110. [ And the diameter of the plurality of through holes formed by the plurality of the sills and the beads of the rear sieving net is smaller than the diameter of the through holes formed in the front sieving net so that the front sieving net is relatively small And is used for preventing passage of fish and shellfish such as shrimp cultured in the positive water tank (110) while filtering out floating matters and foreign substances having a large size, and the rear screening network is used for preventing flooding and foreign matter Can be used for filtering.

In addition, the frame member 420 is configured such that the filtering net 421 can be doubly fastened to the front and rear surfaces thereof, so that even when one filtering net 421 is exchanged for damage, So that the function can be maintained.

5, the positive water tank 110 includes at least one charcoal 431 and a mesh net 432 surrounding the charcoal 431, and the inside of the frame member 420 And a purifying member 430 positioned in the hollow to purify seawater or fresh water.

The natural charcoal 431 is a natural material having an excellent impurity removal effect and can be purchased at a relatively low cost to reduce the burden on the user and the mesh net 432 is formed between the pair of fence members 111 Which is a component for fixing the charcoal 431 to the space.

That is, since the purifying member 430 is composed of a plurality of charcoals 431 wrapped by the mesh net 432, a plurality of voids are inevitably formed, and the voids are purified by the seawater and fresh water, And the seawater and the fresh water that have been subjected to the purification treatment are moved back to the center side of the positive water tank 110. [

At this time, a plurality of annular portions spaced apart from each other by a predetermined distance may be formed on the inner surface of the frame member 420, and the mesh network 432 may be hooked to each of the annular portions.

The positive water tank 110 includes a quantum wave vibrator 440 for decomposing and nanoizing molecules of seawater or fresh water and hydrogen bonding the nanoparticles to a hexagonal ring structure. The quantum wave vibrator 440 ) Is characterized in that seawater or fresh water that has passed through the frame member (130) flows in, flows into the frame member (130), and is discharged through the injection device (110).

The quantum wave vibrator 440 is a component for decomposing and nanoizing molecules of seawater or fresh water and hydrogen bonding the nano-molecules to a hexagonal ring structure. The seawater or fresh water adjacent to the quantum wave vibrator 440 is biomolecules The proportion of the hexagonal ring structure having a high affinity with the water is increased and ions are activated and dissolved oxygen is increased. Thus, it is possible to provide an advantageous effect on the growth of fish and shellfish such as shrimp cultured in the positive water tank 110.

At this time, it is preferable that the seawater or the fresh water which is treated in the inside of the quantum wave generator 440 is purified seawater or fresh water not containing foreign matter such as floating matters, so that seawater or fresh water in the positive water tank 110 The passage through which the frame member 420 is introduced into the interior of the positive water tank 440 is formed between the frame member 420 and the end of the positive water tank 110 as the frame member 420 is installed at a predetermined distance from the end of the positive water tank 110 It is preferable to be located in the space.

Thereafter, the seawater or the fresh water that has been water-treated in the quantum wave generator 440 can be re-introduced into the positive water tank 110 through the plurality of injectors 400.

6, the shrimp culture structure according to the present invention includes an oxygen supply device 101 for supplying oxygen to seawater stored in the fish tank 100 or fresh water.

The oxygen supply device 101 includes a plurality of oxygen nozzles 102. The oxygen supply device 101 is installed on the bottom side of the positive water tank 100 and injects oxygen upward to increase the survival rate of the fish. It is preferable that the oxygen supply device 101 is provided only in the fish tank 100 because the air injection nozzle 321 is provided in the positive water tank 110 because the survival rate is higher than that of the fish.

The embodiments described above are provided by way of example for the purpose of enabling a person skilled in the art to sufficiently transfer the technical idea of the present invention to a person skilled in the art, But may be embodied in other forms without limitation.

In order to clearly explain the present invention, parts not related to the description are omitted from the drawings, and in the drawings, the width, length, thickness, etc. of the components may be exaggerated or reduced for convenience.

Further, like reference numerals designate like elements throughout the specification.

100: chewing water tank 101: oxygen supply device
102: oxygen nozzle 110: positive water tank
111: fence member 120: fresh water tank
200 Feed feeder 210 Feed feeder
220: supply pipe 230: rotating member
240: Feed screw 250: Drive motor
300: stirrer 310: fluid line part
311: Fluid injection nozzle 320: Air line part
321: air jet nozzle 330: submerged pump
340: Compressor 350: connecting rod
360: Protection net 400: Injection device
401: jetting port 410: pump
420: frame member 421:
430: purifying member 431: charcoal
432: mesh network 440: quantum wave manipulator

Claims (3)

The shrimp culture structure is divided into three layers of an upper layer, an intermediate layer and a lower layer, the wall is composed of loess, and the ceiling is transparent.
A cheer tank 100 positioned at an upper layer and capable of breeding fry;
A positive water tank 110 located in the middle layer and capable of culturing the sexually transmitted fish;
A fresh water tank 120 positioned below and temporarily storing seawater or fresh water;
A feeder 200 provided on one side of the upper side of each of the chewing water tank 100 and the positive water tank 110 to automatically feed feeds to the fish tank 100 and the positive water tank 110;
An agitation device 300 provided at one side of the bottom side of each of the cheer tank 100 and the positive water tank 110 to float the submerged feed by jetting air and fluid downward;
The temperature of seawater or fresh water stored in the fish tank 100 and the positive water tank 110 provided below the bottom surface of each of the fish tank 100 and the positive water tank 110 is automatically adjusted to 25 to 33 ° C A temperature control device for maintaining the temperature control device;
An oxygen supply device for supplying oxygen to seawater or fresh water stored in the fish tank 100; Wherein the shrimp structure comprises a shrimp structure.
The method according to claim 1,
The feeding device 200 includes:
A feed storage unit 210 configured in the form of an upper and lower lowered openings at the upper and lower ends and capable of storing feed in an inner hollow;
A cylindrical supply pipe 220 having one side and the other side opened and an upper end opened to allow the inner hollow to communicate with the inner hollow of the feed storage part 210;
A rod-shaped rotary member 230 having a delivery screw 240 formed at a part including one end and a part of which is inserted into the hollow of the supply pipe 220;
A driving motor 250 for rotating the rotating member 230;
A control unit that controls the number of rotation, the rotation speed, and the rotation period of the rotation member 230 by controlling the driving motor 250; And a control unit,
The stirring device (300)
A fluid line part 310 in which a plurality of fluid injection nozzles 311 for spraying a fluid downward are arranged at regular intervals;
A pair of air line units 320 disposed at both sides of the fluid line unit 310 and spaced apart from each other by a predetermined distance and having a plurality of air injection nozzles 321 for spraying air downwardly at regular intervals;
An underwater pump 330 for supplying seawater or fresh water to the fluid line unit 310;
A compressor 340 for supplying air to the air line unit 320; And a control unit,
Wherein the compressor (340) is provided inside the feeder (200).
The method according to claim 1,
In the positive water tank 110,
A plurality of jetting openings 401 for jetting a gas or a fluid in one direction are provided on one inner surface of the positive water tank 110 and are spaced apart from each other by a predetermined distance to separate seawater or fresh water from the positive water tank 110 A plurality of injection devices (400) for moving in one direction;
A pump 410 for supplying gas or fluid to each of the plurality of injectors 400;
A frame member 420 installed at the distal end side of the positive water tank 110, having a screen 421 inserted into the front and rear surfaces, respectively, and having a hollow therein;
A purifying member 430 including at least one natural charcoal 431 and a mesh net 432 surrounding the natural charcoal 431 and disposed in the hollow of the frame member 420 to purify seawater or fresh water; A shrimp aquarium structure.

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