KR102079589B1 - Operating method of fish cage buoyancy balance device - Google Patents

Abstract

The present invention relates to a method of operating a cage farm buoyancy balance device, while installing a buoyancy balance device 100 in a cage farm installed in fresh or sea water to adjust the buoyancy, the center of the buoyancy balance device (100) By injecting or discharging air into the 120 and the auxiliary air tank 130, the buoyancy balance device 100 is to be raised or lowered in fresh or sea water,
The present invention can adjust the height of the cage farm in accordance with the air supply in fresh water or sea water to farm fish, shellfish, and increase the buoyancy in the cage farm during seawater pollution due to red tide, typhoon to move to an area without damage There is a significant effect possible.

Description

Operating method of fish cage buoyancy balance device

The present invention relates to a method of operating a cage farm buoyancy balance device, and more particularly to a method of operating a cage farm buoyancy balance device in combination with a cage farm that is installed in fresh or sea water to maintain the cage cage horizontally up or down. It is about.

According to the cage farm of the prior patent registration No. 10-1337248 as a prior art, buoyancy means such as rich and the like to provide a floating force to be floating on the surface, and the buoyancy means fixed on the surface by buoyancy It is installed in the 'frame' shaped support means having a growth space in which the growth means for the marine animals and plants are accommodated and grown on the inside, and fixed to the upper surface of the support means for the user to walk while performing aquaculture work In cage farm comprising a scaffold of the top; The buoyancy means is made of a tank-shaped body having a space portion divided into a plurality of small space therein; The support means is formed in a 'frame' shape through tubular supporters having a predetermined length, and connecting sockets for receiving both ends of the supporters and being thermally fused by applying electricity from the outside to connect and fix the supporters. Assembled; The body is made of a combination of a plurality of body blocks to which the coupling portion fitting; The body block is formed with an outer body block having an accommodating groove formed in one side of the inner groove and a space therein and a coupling protrusion for fitting and closing the receiving body of the outer body block on one side. And cage cages, characterized in that made of a combination of the inner body block having a space therein is disclosed.

,

”형상의 수평축가이드(40,41)와, 상기 케이스(1)의 상부 일측에 설치되는 출구(2)와, 상기 케이스(1) 내측 중앙부에 횡으로 설치되며 수은이 내장된 파이프 형상의 수평축(3)과, 상기 수평축(3)을 고정하도록 수평축(3)의 상부에 설치된 부싱(4)을 관통하고 케이스(1)의 전후면을 관통하여 설치된 고정핀(20)과, 상기 고정핀(20)를 밀봉하도록 케이스(1)의 전후면에 설치되는 고정핀밀봉부(21)와, 상기 케이스(1)의 하부 일측에 설치된 에어밸브(5)와, 상기 에어밸브(5)에 일측이 연결되며 다른일측은 컴퓨레샤에 연결된 에어공급관(6)으로 구성되며, 상기 수평축(3)은 수은이 내장된 원형 또는 사각파이프 형상으로, 수평축(3)의 양쪽 끝단부에 각각설치된 수평축밀봉부(30)와, 상기 수평축(3)의 상부 중앙에 설치된 부싱(4)을 포함하여 구성되어 있음을 특징으로 하는 수중물체를 상,하강시키는 수중 발란스장치가 공개되어 있다.According to another prior art, the underwater balance apparatus for raising and lowering the underwater object of Korean Patent Publication No. 10-1766979 has a rectangular parallelepiped case (1) in the underwater balance apparatus for raising and lowering the underwater object. Installed on one side of both sides of inner side of case (1)

,

Horizontal axis guides (40, 41) of the shape, the outlet (2) installed on the upper side of the case (1), the horizontal axis of the pipe shape is installed horizontally in the inner central portion of the case ( 3), a fixing pin 20 installed through the bushing 4 provided on the upper portion of the horizontal shaft 3 and penetrating the front and rear surfaces of the case 1 to fix the horizontal shaft 3, and the fixing pin 20 1) is connected to the fixed pin sealing part 21 installed on the front and rear surfaces of the case 1, the air valve 5 installed at one side of the lower part of the case 1, and the air valve 5 to seal The other side is composed of an air supply pipe (6) connected to the compressor, the horizontal shaft (3) is a circular or square pipe shape in which mercury is embedded, horizontal shaft seals 30 respectively installed at both ends of the horizontal shaft (3) ) And a bushing (4) installed at the upper center of the horizontal shaft (3) A water balance device is open to the, lower the object.

However, the prior art as described above has a disadvantage in that it is difficult to control the height of the cage farm, and can not move the cage cage when seawater contamination due to red tide, typhoon.

Therefore, the present invention has been made to solve the above problems, the present invention can adjust the height of the cage farm according to the air supply amount in fresh water or sea water to farm fish, shellfish, pollution of seawater due to red tide, typhoon It is to provide a method of operating the cage farm buoyancy balance device that can increase the buoyancy in the city cage farm to move to the undamaged area.

The present invention relates to a method of operating a cage farm buoyancy balance device, while installing a buoyancy balance device 100 in a cage farm installed in fresh or sea water to adjust the buoyancy, the center of the buoyancy balance device 100 (tank) By injecting or discharging air into the 120 and the auxiliary air tank 130, the buoyancy balance device 100 is characterized in that the rising or falling in fresh or sea water.

Therefore, the present invention can adjust the height of the cage farm according to the air supply amount in fresh water or sea water to farm fish, shellfish, and increase the buoyancy to the cage farm during seawater pollution due to red tide, typhoon There is a noticeable effect of moving to the area.

1 is a schematic view of the cage cage buoyancy balance device of the present invention
Figure 2 is a state diagram showing a state of injecting air to the right auxiliary air tank of the cage cage buoyancy balance device of the present invention
Figure 3 is a state diagram showing a state to discharge the air to the right auxiliary air tank of the cage cage buoyancy balance device of the present invention
Figure 4 is a detailed view of the cage cage buoyancy balance device of the present invention
Figure 5 is a detailed view of the balance valve of the cage cage buoyancy balance device of the present invention

The present invention relates to a method of operating a cage farm buoyancy balance device, while installing a buoyancy balance device 100 in a cage farm installed in fresh or sea water to adjust the buoyancy, the center of the buoyancy balance device 100 (tank) By injecting or discharging air into the 120 and the auxiliary air tank 130, the buoyancy balance device 100 is characterized in that the rising or falling in fresh or sea water.

In addition, the buoyancy balance device 100 installed in the cage farm is a frame 110, the central air tank 120 is installed in the lower center of the frame 110, and the central air in the lower portion of the frame 110 The auxiliary air tank 130 is installed on the left and right sides of the tank 120, respectively, and the buoyancy control unit 140 is installed in the frame 110 is characterized in that it consists of.

In addition, the buoyancy control unit 140 is a string 141 connected to the center of the inner upper surface of the frame 110,

A first vertical weight 142 installed below the string 141,

A valve contact pipe 143 installed below the first vertical weight 142,

Consists of a second vertical weight 144 is installed in the lower portion of the valve contact pipe 143,

The buoyancy control unit 140 is always standing vertically in fresh water or sea water by a plurality of vertical weight.

In addition, a plurality of vertical weights may be further connected to the lower portion of the second vertical weight 144.

In addition, the balance valve 200 is installed in the valve contact pipe 143 is characterized in that the position.

In addition, the auxiliary air tank 130 installed on the lower portion of the frame 110 is characterized in that a plurality of radially arranged around the central air tank 120 may be installed.

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

1 is a schematic view of the cage cage buoyancy balance device of the present invention, Figure 2 is a state diagram showing a state injecting air to the right auxiliary air tank of the cage cage buoyancy balance device, Figure 3 is a cage cage buoyancy balance device of the present invention Figure 4 is a state diagram showing a state of discharging air to the right auxiliary air tank, Figure 4 is a detailed view of the cage cage buoyancy balance device, Figure 5 is a detailed view of the balance valve of the cage cage buoyancy balance device of the present invention.

The present invention relates to a method of operating a cage farm buoyancy balance device, by installing a buoyancy balance device 100 in cage cages installed in fresh water or sea water and by adjusting the buoyancy, the cage cages are kept horizontal and raised or lowered It will be.

The buoyancy balance device 100 installed in the cage farm has a frame 110, a central air tank 120 installed at a lower center of the frame 110, and a central air tank at a lower portion of the frame 110. The auxiliary air tank 130 is installed on the left and right, respectively, and the buoyancy control unit 140 is installed inside the frame 110.

In addition, by injecting or discharging air into the central air tank 120 and the auxiliary air tank 130 of the buoyancy balance device 100, the buoyancy balance device 100 is to be raised or lowered in fresh or sea water.

In addition, by injecting external air into the central air tank 120 and the auxiliary air tank 130 of the buoyancy balance device 100, an air hose for injecting air into the buoyancy balance device floats in fresh water or sea water. The air hose connected to the buoy is connected to the user, and the user injects air using the compressor installed on the ship.

The frame 110 includes an upper frame 111 having a space formed therein, and a lower frame 112 having a longer length in the horizontal direction than the upper frame below the upper frame 111.

A buoyancy control unit is installed in the upper frame, and a central air tank and an auxiliary air tank are coupled to a lower portion of the lower frame.

The buoyancy control unit 140 is a string 141 connected to the center of the inner upper surface of the frame 110, a first vertical weight 142 is installed on the lower portion of the string 141, and the first vertical weight ( The valve contact pipe 143 is installed in the lower portion of the 142, and the second vertical weight 144 is provided in the lower portion of the valve contact pipe 143.

The string may use ropes or chains, which are connected by a first vertical weight and a link.

The first vertical axis is a cylindrical weight that is long in the vertical direction.

”형상이다.In addition, a valve contact pipe is formed at a lower portion of the first vertical shaft, and the valve contact pipe includes a pair of left and right straight portions 143-1 and 143-2 and an upper portion of the pair of left and right straight portions. It consists of a horizontal portion (143-3) to connect, the vertical section is “

“It's a shape.

In addition, a pair of left and right superior parts are formed in a lower portion of the connecting rod in a central direction, and a second vertical weight is formed in the lower portion of the connecting rod, and a plurality of vertical weights is further provided below the second vertical weight 144. In the present invention, the third vertical weight 145 is coupled to the lower portion of the second vertical weight 144.

And the buoyancy control unit 140 is always standing vertically in fresh water or sea water by a plurality of vertical weight.

Meanwhile, the balance valve 200 installed in the frame 110 is positioned inside the valve contact pipe 143.

The balance valve 200 is composed of a valve body 210 and a valve spool 220 installed inside the valve body. The valve body is a hexahedral shape having a space portion formed in an inner portion of the valve body. Stoppers are respectively provided on the right side, and an upper left stopper 211 and a left lower stopper 212 are formed on an inner left side of the valve body, and an upper right stopper 213 and a right lower stopper on an inner right side of the valve body. 214 is formed.

And the valve spool 220 has a long rod-shaped shape in the horizontal direction, the left and right engaging pieces are formed respectively. A left locking piece 221 is formed on the left side of the valve spool, and a right locking piece 222 is formed on the right side of the valve spool.

At this time, the valve spool is installed to penetrate the valve body, the left and right engaging pieces of the valve spool is located inside the valve body.

When the valve spool is moved to the left side of the valve body, the right locking piece of the valve spool comes into contact with the lower stopper on the right side formed in the valve body.

On the contrary, when the valve spool is moved to the right side of the valve body, the left engaging piece of the valve spool comes into contact with the lower stopper on the left side formed in the valve body.

The lower portion of the central air tank is provided with a water circulation check valve 8 for introducing or discharging fresh water or seawater into the central air tank, and the lower portion of the auxiliary air tank is opened.

The water circulation check valve is made of a case and a ball provided in the case, the inner surface of the case is formed to become narrower toward the bottom, the ball is made of a material floating in water.

Thus, when fresh water or sea water flows into the case lower portion of the water circulation check valve, the ball floats, so that fresh water or sea water flows into the central air tank through the water circulation check valve.

A plurality of auxiliary air tanks 130 installed in the lower portion of the frame 110 may be disposed radially around a central air tank 120.

In addition, each air hose 1 of the cage farm buoyancy balance device is provided with a check valve to prevent backflow.

In addition, the auxiliary air tank is formed with an air forced supply line 3 for injecting air from the outside.

And the air supply line to the central air tank and the auxiliary air tank is supplied to each air tank after being fed into the balance valve through the air hose installed in the buoy (5) in the compressor (4) of the ship.

On the other hand, when explaining the operation method of cage cage buoyancy balance device of the present invention.

First, the method of raising the cage cage buoyancy balance is as follows.

Air is supplied from the compressor installed in the ship to the balance valve via the air supply line to fill the air in the center air tank, and is injected until the water circulation check valve installed in the center air tank is closed. After filling the center air tank with air, the air is supplied to the auxiliary air tank installed on the left or right side of the center tank. At this time, the lower pressure is supplied first, in the present invention will be described as supplying air to the auxiliary air tank located on the right side of the central air tank.

After filling the central air tank, the pressure of the auxiliary air tank located on the right side of the central air tank is lower than the auxiliary air tank located on the left side of the central air tank, so that the valve spool moves from the inside of the valve body to the right to the valve. When the spool hits the right vertical portion of the valve contact pipe, the left stopper of the valve spool and the upper left stopper formed inside the valve body come into contact with the right stopper of the valve spool and the valve body. On the right side formed in the interior of the space between the lower stopper is formed.

Therefore, the air is supplied to the auxiliary air tank installed on the right side of the central air tank through the space formed between the right stopper and the lower stopper formed inside the valve body.

Therefore, the auxiliary air tank installed on the right side of the central air tank is located at a position higher than the auxiliary air tank installed on the left side of the central air tank.

After that, when the valve spool moves from the inside of the valve body to the left side and the valve splash hits the left vertical portion of the valve contact pipe, the upper right and lower stoppers formed on the right side engaging portion of the valve spout and the inside of the valve body. Is in contact with each other, and a space portion is formed between the lower left stopper and the left stopper formed inside the valve body.

Therefore, the air is supplied to the auxiliary air tank installed on the left side of the central air tank through the space portion formed between the left stopper and the lower stopper formed inside the valve body.

Therefore, the auxiliary air tank installed on the left side of the central air tank is located at the same height as the auxiliary air tank installed on the right side of the central air tank.

That is, the air is supplied to the air pressure of the auxiliary air tanks located on the left and right sides of the central air tank in the balance valve to the lower side to balance each other, thereby raising the cage cage buoyancy balance device as a whole.

And the rising speed of the cage farm buoyancy balance device can be controlled by the flow control valve 7 provided in the air hose.

When the cage farm buoyancy balance device rises, air is first injected into the center air tank, and air is injected into the center air tank until the water circulation check valve installed at the bottom of the center air tank is closed, and then the left side of the center air tank The air is supplied to the auxiliary air tank located on the right side to maintain balance and the cage farm buoyancy balance device is raised.

Second, the method of descending the cage cage buoyancy balance device is as follows.

In the compressor installed in the ship, stop the air supply to the balance valve via the air supply line, and separate the compressor and the air supply line.

Afterwards, open the balance valve between the buoys floating in fresh water or sea water.

In this case, the air is first filled by filling the central air tank to discharge the air from the central air tank, and the air is discharged by filling water from a place where the pressure is high among the auxiliary air tanks installed at the left and right sides of the central air tank. The pressure of the auxiliary air tank located on the right side of the central air tank is set to be high, and the air is discharged from the auxiliary air tank located on the right side of the central air tank.

That is, after filling the water through the water circulation check valve formed in the central air tank in the central air tank to discharge the air, the water is filled in the lower portion of the auxiliary air tank installed on the right side of the central air tank, the central air The pressure of the auxiliary air tank located on the right side of the tank is higher than that of the auxiliary air tank located on the left side of the center air tank, so that the valve spool moves from the inside of the valve body to the right to hit the right vertical part of the valve contact pipe. If the left stopper of the valve spring and the upper left stop formed in the valve body, the lower stopper is in contact, between the right stop of the valve spring and the lower stopper formed inside the valve body The space portion is formed.

Therefore, the air is discharged to the auxiliary air tank installed on the right side of the central air tank through the space portion formed between the upper right side and the lower stopper formed inside the valve body on the right side of the valve sputter.

Therefore, the auxiliary air tank installed on the right side of the central air tank is located at a lower position than the auxiliary air tank installed on the left side of the central air tank.

Thereafter, water is filled into the lower portion of the subsidiary air tank installed on the left side of the central air tank, and the pressure of the subsidiary air tank located on the left side of the central air tank is higher than that of the subsidiary air tank located on the right side of the central air tank. When the spool moves from the inside of the valve body to the left side and the valve splash hits the left vertical portion of the valve contact pipe, the upper right and lower stoppers formed on the right side of the valve spout and the inside of the valve body come into contact with each other. A space portion is formed between the left side engaging portion of the valve splice and the lower stopper formed on the left side of the valve body.

Therefore, the air is discharged to the auxiliary air tank installed on the left side of the central air tank through the space formed between the left stopper and the lower stopper formed inside the valve body.

Therefore, the auxiliary air tank installed on the left side of the central air tank is located at the same height as the auxiliary air tank installed on the right side of the central air tank.

That is, the air is discharged from the high pressure inside the auxiliary air tanks located at the left and right sides of the central air tank in the balance valve to balance each other, and the cage cage buoyancy balance device is lowered as a whole.

On the other hand, the inventors of the cage cage buoyancy balance device is made of square cages in the case of shellfish farming it is possible to catch the balance without the center of the air tank.

And the ball valve (6) installed in the air forced supply line is used to shut off the air when the entire cage rises and perform other operations.

In addition, the air forced supply line operates only in an emergency for supplying air to all the air tanks installed in the cage farm buoyancy balance device when the balance valve is broken and forcibly elevating the cage farm buoyancy balance device.

 In addition, the check valve installed in the air forced supply line does not normally affect the buoyancy rise and fall.

Therefore, the present invention can adjust the height of the cage in accordance with the air supply in fresh or sea water to farm fish, shellfish, and increase the buoyancy in the cage during the sea water pollution caused by red tide, typhoon to move to the area without damage This has a remarkable effect possible.

1: Air hose 2: Check valve
3: Air forced supply line 4: Compressor
5: buoy 6: ball valve
7: Flow control valve 8: Water circulation check valve
100: buoyancy balance device
110: frame 111: upper frame
112: lower frame
120: central air tank 130: auxiliary air tank
140: buoyancy control unit 141: Joule
142: first vertical weight 143: valve contact pipe
143-1: Left vertical part 143-2: Right vertical part
143-3: Horizontal Section
144: second vertical weight 145: third vertical weight
200: Balance valve
210: valve body 211: upper left stopper
212: lower left stopper 213: upper right stopper
214: lower right stopper
220: valve spool 221: left jam
222: right handed trip

Claims (3)

The buoyancy balance device 100 is installed in a cage farm that is installed in fresh water or seawater, and the buoyancy is adjusted, but the air is injected or discharged to the central air tank 120 and the auxiliary air tank 130 of the buoyancy balance device 100. In this way, the buoyancy balance device 100 in the operation method of the cage culture buoyancy balance device is to be raised or lowered in fresh or sea water,
The buoyancy balance device 100 has a frame 110, a central air tank 120 installed at a lower center of the frame 110, and a central air tank 120 at a lower portion of the frame 110. Auxiliary air tank 130 is installed on each of the left and right, and the buoyancy control unit 140 is installed inside the frame 110,
The buoyancy control unit 140 is a line 141 connected to the center of the inner upper surface of the frame 110,
A first vertical weight 142 installed below the string 141,
A valve contact pipe 143 installed below the first vertical weight 142,
Consists of a second vertical weight 144 is installed in the lower portion of the valve contact pipe 143,
The buoyancy control unit 140 is a method of operating a cage farm buoyancy balance device, characterized in that always standing vertically in fresh water or sea water by a plurality of vertical weights. delete delete

Images