KR101895261B1 - Floating subsidence cage system - Google Patents

Abstract

The present invention relates to an air conditioner comprising an upper frame, an air supply unit communicating with a center of an upper surface of the upper frame, air introduced from the air supply unit, A plurality of balance adjustment housings provided around the upper frame to be spaced apart from each other in the circumferential direction by a predetermined distance and to which the air transferred from the air supply unit flows, A plurality of balance control valves installed between the air supply unit and the plurality of balance control housings, and a control unit for controlling the opening and closing of the float control valves and the opening and closing of the plurality of balance control valves, Characterized in that it comprises a control section Relate to.

Description

[0001] Floating subsidence cage system [0002]

The present invention relates to a floating subsidence cage aquaculture system.

In general, cage culture is a facility that floats in the coastal zone using buoyancy agent and establishes cage nets as much as a certain range of water depth, and cultivates various kinds of fish in high density. Recently, There is a tendency that the cage facilities are transferred to the deep sea.

Since the seawater inside and outside the cage freely passes through the mesh of the cage net, the cage as described above smoothly exchanges seawater and supplies oxygen, and the waste generated in the metabolic process of the aquaculture fish is automatically passed through the cage net It is not necessary to carry out the removal of the waste product separately, and even if a large amount of fish are cultured at a high density, the water quality in the cage is not deteriorated, thereby providing various advantages in terms of large-scale aquaculture.

In case of natural disasters such as red tides or typhoons, it is necessary to move the cage facilities to a safe place by using vessels. However, the transportation of the cage is cost effective and effective. It is difficult to apply it realically. Therefore, it is a method to safely protect the cage by submerging the cage in the water in an emergency such as a red tide or a typhoon, and then floating it back to the water.

BRIEF DESCRIPTION OF THE DRAWINGS Figure 1 is a schematic diagram illustrating a conventional submarine aquaculture system.

1, a conventional undersea aquarium system (Korean Patent No. 1544708) includes a hollow frame body 11 into which seawater or air flows in or out, a mesh net 12 covering the frame body, A seawater inflow and outflow module for supplying and discharging seawater to and from the frame main body through the seawater inflow and outflow lines 21 and 21a and an air inflow and outflow line 31 and 31a, The sea water inflow / outflow module and the air inflow / outflow module to supply seawater to the frame body to flood the aquaculture frame or to supply air to the frame body to float the aquarium frame And a control unit 40. The frame body includes a plurality of nozzles which are fastened to the through holes formed at predetermined intervals, And a balance maintaining pipe connected to the plurality of nozzles and through which seawater or air flows in and out, and float the float while maintaining the balance of the frame body in flowing out the seawater while introducing air into the frame body A submarine aquaculture system (1) using a farm site frame with buoyancy function is presented.

In this case, in the related art, the seawater inflow line and the air inflow / outflow line are connected to each of a plurality of frame bodies after dividing the farm site frame into a plurality of frame bodies, The structure of the control unit, the seawater inflow / outflow line and the air inflow / outflow line becomes very complicated, so that the overall facility construction cost and facility maintenance cost are increased, and the settlement and flooding work become complicated.

Korea registered patent No. 1544708 (2015.08.10)

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide an asphalt cage form system capable of minimizing overall facility construction cost and facility maintenance cost and simplifying settlement and flooding work. .

The float-type cage culture system according to the present invention comprises an upper frame, an air supply unit communicating with the upper center of the upper frame, air introduced from the air supply unit and connected to the lower center of the upper frame, A plurality of equilibrium control housings which are spaced apart from each other circumferentially around the upper frame and through which the air transferred from the air supply unit flows, A plurality of balance control valves provided between the air supply unit and the plurality of balance adjustment housings, and a plurality of balance control valves installed between the supply unit and the buoyancy control housing, And a control section for controlling the opening and closing of the plurality of balance control valves It shall be.

The upper frame includes an upper center plate, a plurality of upper radiation plates radially installed on the circumference of the upper center plate, a plurality of upper first cross plates connected to both ends of the plurality of upper radiation plates, And a plurality of upper circumferential plates connecting the plurality of upper first cross plates to each other, wherein the air supply unit is coupled to a lower surface of the upper center plate, and air supplied from an air supply pipe passing through the upper center plate A plurality of radiation tubes communicating with the central manifold and connected to the lower surface of the plurality of upper radiation plates in a detachable manner, A plurality of cross manifolds communicating with the other end and detachably connected to the lower surface of the plurality of upper first cross plates and communicating with the plurality of balance control housings respectively, And a plurality of air connection pipes connecting the plurality of cross manifolds to each other.

A plurality of upper second cross plates are further provided on the plurality of upper circumferential plates and a plurality of downcomer housings communicating with the lower faces of the other cross manifolds coupled to the lower face of the plurality of upper second cross plates, And further comprising:

The buoyancy regulating housing is formed to be larger than the balance regulating housing.

A plurality of lower cross plates connected to both ends of the plurality of lower radiation plates and to which the plurality of balance adjustment housings are respectively inserted; And a lower frame including a plurality of lower circumferential plates connecting the plurality of lower cross plates to each other.

The apparatus may further include a plurality of buoyant members respectively coupled to lower ends of the plurality of upper circumferential plates.

The upper and lower circumferential plates may have a radial flange coupled to a lower surface of the upper radiating plate and having a radial groove on which the radiating tube is seated and a circumferential groove formed on the lower surface of the upper circumferential plate, And a flange.

Accordingly, the floating settlement type cage aquarium system according to the present invention can minimize the overall facility construction cost and facility maintenance cost, and can simplify settlement and floatation work.

BRIEF DESCRIPTION OF THE DRAWINGS Figure 1 is a schematic diagram illustrating a conventional submarine aquaculture system.
FIG. 2 is a perspective view of a floating settlement cage aquaculture system according to the present invention. FIG.
3 is another perspective view of a floating subsidence cage aquarium system in accordance with the present invention.
4 is an enlarged perspective view of an upper central plate and a central manifold according to the present invention.
FIG. 5 is a schematic view showing an upper central plate, a central manifold, a flotation control valve, and a balance control valve according to the present invention.
6 is a schematic diagram illustrating a balancing sensor according to the present invention.

Hereinafter, the technical idea of the present invention will be described more specifically with reference to the accompanying drawings.

BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are included to provide a further understanding of the technical concept of the present invention, are incorporated in and constitute a part of the specification, and are not intended to limit the scope of the present invention.

FIG. 2 is a perspective view of a floating settlement cage aquaculture system according to the present invention, FIG. 3 is another perspective view of a floating settlement cage aquaculture system according to the present invention, FIG. Fig. 5 is a schematic view showing an upper central plate, a central manifold, a floatation control valve, and a balance control valve according to the present invention.

2 and 5, the floating settlement cage aquarium system 1000 according to the present invention includes an upper frame 100, an air supply unit 200, a buoyancy control housing 300, a plurality of balance control housings 400, a lift control valve 510, a balance control valve 520, and a control unit.

The upper frame 100 is a basic body of the present invention, which is submerged in water and surrounded by a mesh (not shown).

The air supply unit 200 communicates with the upper center of the upper frame 100 and supplies the air transferred to the compressor to the upper frame 100.

3, the buoyancy regulating housing 300 is coupled to the center of the lower surface of the upper frame 100, and the air transferred from the air supplying unit 200 may flow into the buoyancy regulating housing 300, A sea water inflow hole 310 into which seawater flows is formed. That is, the buoyancy control housing 300 is submerged when the seawater inflowed from the seawater inflow hole 310 is filled therein. When the air transferred from the air supply unit 200 flows into the buoyancy control housing 300, Is partially discharged to the outside.

The plurality of balance control housings 400 are spaced apart from each other circumferentially around the upper frame 100 to receive the air transferred from the air supply unit 200.

5, the flotation control valve 510 is installed between the air supply unit 200 and the buoyancy control housing 300, and air is supplied from the air supply unit 200 to the buoyancy control housing 300 And serves to regulate the supplied amount.

The plurality of balance control valves 520 are installed between the air supply unit 200 and the plurality of balance adjustment housings 400 so that air is supplied from the air supply unit 200 to the plurality of balance adjustment housings 400, The supply amount is controlled.

The control unit is a microcomputer electrically connected to the floatation control valve 510 and the plurality of balance control valves 520 to open and close the floatation control valve 510 to float the upper frame 100 while maintaining the balance And controls the opening and closing of the plurality of balance control valves 520.

In more detail, when the upper frame 100 is lifted, the control unit performs the following steps (refer to FIGS. 2 to 5)

1) When the floatation control valve 510 is opened to allow air to flow into the buoyancy control housing 300 and float the upper frame 100 by buoyancy of the air introduced into the buoyancy control housing 300, do.

2) When the upper frame 100 is inclined while lifting the upper frame 100, the balance control valve 520 positioned at the lower side in a state in which the upper frame 100 is inclined is opened so that the upper frame 100 is inclined Air is introduced into the inside of the balance adjustment housing 400 located at the lowest position in the state.

3) When the uppermost portion of the upper frame 100 is raised by the buoyancy of the air introduced into the balance adjustment housing 400 located at the bottom of the upper frame 100, The upper frame 100 returns to the equilibrium state.

Accordingly, the floating settlement cage aquarium system 1000 according to the present invention can minimize the overall facility construction cost and facility maintenance cost by simplifying the structure of the air flow control component, There is an advantage to be able to do.

2 and 4, the upper frame 100 includes an upper center plate 110, a plurality of upper radiation plates 120, a plurality of upper first cross plates 130, (140).

The upper center plate 110 is disposed at the center of the upper frame 100.

The plurality of upper radiation plates 120 are installed radially on the circumference of the upper center plate 110.

The plurality of upper first cross plates 130 are connected to both ends of the plurality of upper radiation plates 120, respectively.

The plurality of upper circumference plates 140 connect the plurality of upper first intersection plates 130 to each other.

At this time, the upper central plate 110, the plurality of upper radiation plates 120, the upper first intersecting plate 130, and the upper circumference plate 140 are prevented from adhering to adhered organisms So that the surface can be surrounded by a multitude of sacrificial pieces or a new material net.

The air supply unit 200 may further include a central manifold 210, an air supply pipe 220, a plurality of radiation pipes 230, a plurality of cross manifolds 240, and a plurality of air connection plates.

The central manifold 210 is coupled to a lower surface of the upper center plate 110. The air supplied from the air supply pipe 220 is stored preferentially and the lower surface communicates with the buoyancy regulating housing 300.

The air supply pipe 220 communicates with the upper surface of the central manifold 210 through the upper surface of the central central plate.

The plurality of radiation tubes 230 are connected to the central manifold 210 at one end and are detachably coupled to the lower surfaces of the plurality of upper radiation plates 120, respectively.

The plurality of cross manifolds 240 communicate with the other ends of the plurality of radiation tubes 230 and are detachably coupled to the lower surfaces of the plurality of upper first cross plates 130, And communicates with the balance adjustment housing (400).

The air connection pipe 250 connects the plurality of cross manifolds 240 to each other.

Accordingly, when the upper frame 100 is inclined while the upper frame 100 is lifted, the air supply unit 200 opens the balance control valve 520 positioned at the lower side in the inclined state of the upper frame 100, Air is intensively introduced only into the interior of the balance adjustment housing 400 located at the lowest position in the state where the upper frame 100 is tilted so that the portion located at the lowest position in the state where the upper frame 100 is tilted abruptly The air flowing into the balance adjustment housing 400 located at the bottom of the upper frame 100 in the inclined state is guided to the plurality of cross manifolds 240 and the air connection pipe 250 To the other balance control housing (400).

The floating settlement cage aquarium system 1000 further includes a plurality of sinking housings 600, a lower frame 700 and a buoyant material 800 for floating the upper frame 100 in a more equilibrium state And the buoyancy regulating housing 300 may be formed to be larger than the balance regulating housing 400 such that the buoyancy regulating housing 300 is a center point of a force acting on buoyancy when the upper frame 100 is lifted.

A plurality of upper second cross plates 150 are further provided on the plurality of upper circumference plates 140 and a plurality of upper second cross plates 150 are further provided on the lower side of the plurality of upper settlement plates 150, Communicates with the lower surface of the other cross manifold 240 to be coupled.

At this time, the sinking housing 600 is filled with seawater flowing through the cross manifold 240, so that the upper frame 100 is floated while maintaining a more equilibrium state.

The lower frame 700 includes a plurality of lower radiation plates 710 radially installed on the circumferential surface of the buoyancy control housing 300 and a plurality of lower radiation plates 710 connected to both ends of the plurality of lower radiation plates 710, And a plurality of lower circumferential plates 730 connecting the plurality of lower cross plates 720 to each other, wherein the upper frame 100 To allow the upper frame 100 to float while maintaining a more equilibrium state.

The buoyancy member 800 is coupled to the lower ends of the plurality of upper circumference plates 140 to uniformly apply buoyancy to the plurality of upper circumference plates 140 so that the upper frame 100 is floated do.

The floating settlement cage aquarium system 1000 includes a radiation flange 910 for allowing the radiation tube 230, the air connection tube 250 and the buoyancy material 800 to be more easily detached and attached, and a peripheral flange 920 ).

The radiation flange 910 is coupled to a lower surface of the upper radiation plate 120 and is formed with a radiation groove in which the radiation tube 230 is seated.

The circumferential flange 920 is coupled to a lower surface of the upper circumference plate 140 and a circumferential groove is formed in which the air connecting tube 250 and the buoyancy member 800 are seated.

6 is a schematic view showing a balance adjustment sensor according to the present invention.

6, the floating settlement cage culture system 1000 includes a balance adjustment sensor 930 for individually controlling the opening and closing of the balance control valve 520 according to the balance of the upper frame 100, As shown in FIG.

The balance adjustment sensor 930 includes a case 931 and a flat plate 932 disposed inside the case 931 in parallel with the upper center plate 110 and a flat plate 932 And a plurality of balance switches 934 which are respectively inserted into positions corresponding to the positions where the plurality of upper radiation plates 120 are disposed in the flat plate 932 .

More specifically, the plurality of balancing switches 934 may be configured such that, for example, when the plurality of upper radiation plates 120 are coupled to the front, rear, left, and right sides of the upper middle plate 110, And the balance switch 934 may be respectively inserted into the front, rear, left, and right sides of the flat roll 932, respectively.

In this case, the balance adjustment sensor 930 may be a balanced type balance ball 932 that is inserted in the front of the balance rolling plate 932 when the upper frame 100 is tilted forward, The control unit opens the balance control valve 520 positioned in front of the upper frame 100 to open the balance control valve 520 in front of the upper frame 100, So that the air for raising the buoyancy is introduced into the inside of the balance adjustment housing 400 located at the bottom of the housing.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

1000: Floating subsidence cage aquaculture system
100: upper frame
110: upper center plate
120: upper radiation plate
130: upper first intersection plate
140: upper circumferential plate
150: upper second cross plate
200: air supply part
210: central manifold
220: air supply pipe
230: Radiator
240: cross manifold
250: air connector
300: Buoyancy regulating housing
310: Seawater inflow hole
400: Balance adjustment housing
510: Flotation control valve
520: Balance regulating valve
600: Settlement housing
700: Lower frame
710: Lower radiation plate
720: Lower cross plate
730: Lower circumferential plate
800: Buoyant material
910: Radial flange
920: Perimeter flange
930: Balance adjustment sensor
931: Case
932:
933: Balance ball
934: Balanced switches

Claims (7)

A plurality of upper first radiation plates connected to both ends of the plurality of upper radiation plates, and a plurality of second upper radiation plates, An upper frame comprising a plurality of upper circumferential plates connecting the first cross plates to each other;
An air supply unit communicating with a center of an upper surface of the upper frame;
A buoyancy regulating housing coupled to the lower center of the upper frame for introducing the air transferred from the air supply unit and having a seawater inflow hole for receiving seawater for sinking;
A plurality of balance adjustment housings which are spaced apart from each other in a circumferential direction around the upper frame and through which the air transferred from the air supply unit flows;
A floatation regulating valve installed between the air supply unit and the buoyancy regulating housing;
A plurality of balance adjustment valves respectively installed between the air supply unit and the plurality of balance adjustment housings;
A control unit for controlling opening and closing of the floatation control valve and opening and closing of the plurality of balance control valves so that the upper frame floats while maintaining a balance;
A plurality of upper second cross plates are further provided on the plurality of upper circumference plates and a plurality of downsized housings respectively communicated with a lower surface of the air supply unit coupled to a lower surface of the plurality of upper second cross plates; And
A flat ball disposed on an upper surface of the flat rolled plate, and a flat plate disposed on the flat rolled plate at a position where the plurality of upper radiation plates are disposed And a balance adjustment sensor composed of a plurality of balance switches which are respectively inserted into corresponding positions and which individually control the opening and closing of the balance control valve in accordance with the balance of the upper frame,
The air-
A center manifold coupled to a lower surface of the upper center plate and supplied with air supplied from an air supply pipe passing through the upper center plate and communicating with the buoyancy regulating housing, A plurality of radiating tubes connected to the other ends of the plurality of radiating tubes and detachably coupled to lower faces of the plurality of upper first crossing plates, And a plurality of air connection tubes connecting the plurality of cross manifolds to each other. ≪ Desc / Clms Page number 20 >
delete delete The buoyancy adjusting housing according to claim 1, wherein the buoyancy adjusting housing
Wherein the balance adjustment housing is larger than the balance adjustment housing.
The method according to claim 1,
A plurality of lower radiating plates radially installed on the circumferential surface of the buoyancy regulating housing, a plurality of lower crossing plates connected to both ends of the plurality of lower radiating plates and into which the plurality of balance adjusting housings are inserted, And a lower frame including a plurality of lower circumferential plates connecting the lower cross plates of the lower crossover plate to each other.
The method according to claim 1,
And a plurality of buoyant members coupled to the lower ends of the plurality of upper circumferential plates, respectively.
The method according to claim 6,
A radiating flange coupled to a lower surface of the upper radiating plate and having a radiating groove on which the radiating tube is seated; And
Further comprising a circumferential flange coupled to a lower surface of the upper circumferential plate and having a circumferential groove to receive the air connecting tube and the buoyant member, respectively.

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