KR100282844B1 - Active disaster prevention form cage using wave pump and its buoyancy control device - Google Patents

Abstract

The present invention is an offshore cage farming facility for capturing and raising aquatic plants for a certain period of time for the purpose of farming, raising, and breeding of useful aquatic organisms. To prevent the damage caused by the surface pollution and to manually settle the facility when the surface marine pollutant arrives, and to the active protection type cages and the buoyancy control device using the wave pump to protect the facility and improve the survival rate. .

Conventionally, marine cages have been used to form a mesh net in a state in which a Schiropol rich man is attached to a wooden frame to float on the sea.

However, since the surface of the sea receives a large wave force, the facilities are not able to absorb the impact and vibration of the blue, causing damage easily.

The present invention has been made in order to solve the above-mentioned problems actively by installing an air bag on the top of the vertical cylinder, forming a water chamber on the lower portion of the piston head as a diaphragm to draw compressed air into the air bag than buoyancy In addition, it is possible to operate manually by constructing a buoyancy control device that increases its own weight than buoyancy by discharging air, and it also allows the extrusion water proportional to the blue to be drawn into the water chamber and discharged below a certain amount while maintaining a constant air pressure. Therefore, in the case of low blue water, all the incoming water is discharged, but in the high blue water, the difference between the amount of incoming water and the air is accumulated, and the volume of the air chamber is reduced by the internal water pressure, and the active disaster type marine cage is automatically settled by the amount of water. It is for.

Description

Active disaster prevention form cage using wave pump and its buoyancy control device

The present invention is an offshore cage farming facility for capturing and raising aquatic plants for a certain period of time for the purpose of farming, raising, and breeding of useful aquatic organisms. The present invention relates to an active disaster prevention cage and its buoyancy control device using a wave pump to prevent damage caused by the marine pollutants and to manually settle the facility when the surface marine pollutant arrives.

As is well known, marine cage farming facilities are frequently used for the purpose of farming, raising, and breeding useful marine life for stable use of marine resources.

Such a conventional facility is composed of a marine frame that forms a cage on the inside of the frame while floating on the sea with a rich styrofoam on the wooden frame.

However, since the surface of the sea is subjected to a large wave force, the facility does not absorb the impact and vibration of the blue, causing damage easily.

In other words, Korea is located in the typhoon path, and disasters caused by typhoons continue to occur every summer, and meteorological disasters due to stormy cyclones occur in winter.

The damage caused by the damage of facilities and the loss of aquatic organisms is leading to huge disasters in the fisheries industry for stable supply and strategic distribution of aquatic products due to weather and sea deterioration.

In addition, biological damage caused by red tide and oil pollution is also increasing every year.

Therefore, in order to activate stable aquaculture industry and fishing villages, it is required to develop and disseminate aquaculture facilities that can be safe from marine pollutants without being affected by waves during typhoons or storm cyclones.

As a result, many researches have been made on the use of aquaculture equipment in the domestic maritime conditions as a national project, and according to the results of the study, Korean Patent Publication No. 1998-025312 (1988.7.6) Has been developed.

The pre-invention invention has been developed in conjunction with the inventors of the present invention, the submerged fish cage farming apparatus is buoyancy by releasing the air in the air tank when necessary, that is, when the high blue Nether or surface-moving marine pollutants approach It is an advanced fish farming facility that can be managed and operated by reducing the sinking rate and allowing the manager to inject air into the air tank in an air compressor as usual.

However, if the weather forecast is not accurate or timely as a manual control device that the operator must operate directly, there is a problem that the operation must be abandoned.

In particular, when there are high waves such as typhoons and tsunamis, workers have many disadvantages such as being threatened by being pushed by the waves.

The present invention has been made in order to improve the problem of the above-mentioned invention, in particular, to provide an automatic control device that is actively settled when the blue is lowered and actively floated when the blue is lowered.

That is, when the blue wave increases, the incident wave energy increases, which increases the discharge pressure and the discharge amount of the wave pump so that the buoyancy is reduced by the automatic buoyancy control device. It was to recover and automatically rise.

Conventional aquaculture cages are fisheries facilities for the purpose of farming, raising and breeding useful aquatic organisms for a certain period of time, and are aquaculture facilities based on the net. These farm cages consist of a cage body and a mooring system. It consists of a buoyancy frame and a cage to maintain the vertical position. The mooring system consists of mooring lines, anchors, buoys and needles.

As an example, the floating culture cages are made of wood as a frame, so they receive a large wave force and also do not absorb vibration and impact force, causing frequent damage to facilities.

In order to prevent and reduce damage, reinforcement of facilities or avoidance of extreme external force is recommended, and development of cages using metal or reinforced plastic is being promoted.

The strengthened facilities are also concerned about fatigue destruction over time, and reports have been pointed out in Norway and elsewhere. Therefore, the avoidance measures are also recommended, and the development of the eroded cage by manual operation is in progress.

However, in the case of high blue sea, it is not possible to approach the sea, so the sedimentation operation is difficult, and if the forecast is not predicted in advance, the same damage is feared. However, the present invention is intended to simply improve the closed end. When the buoyancy is reduced and settled by the automatic buoyancy control device and the blue wave decreases by increasing the discharge pressure and the discharge amount, the buoyancy control device automatically recovers the buoyancy and floats.

According to the present invention, aquaculture cage facility is automatically settled by wave energy during high storm invasion due to summer typhoon or winter storm low pressure, and also artificially settling when passing surface contaminants such as effluent oil or when surface water temperature rises abnormally. The purpose is to provide active disaster prevention cages and buoyancy control devices using wave pumps to keep farming cages safe and improve the survival and freshness of farmed organisms.

Marine farming cages are heavily affected by typhoons each year. This is because the facility is located on the surface of the water and is exposed to large waves.

On the other hand, the wave force is close to the speed of the founder, and the speed of the founder decreases exponentially with the depth of water, as shown in Figure C.

In other words, it can be seen that the wave force is maximum at the surface layer and minimum at the bottom.

Therefore, it is safe to settle the facility when high frequency invades by typhoon or stormy low pressure, and it is necessary to be able to be injured at a constant temperature.

The present invention aims at the development of an active disaster prevention form cage that has been recognized as the technical limitations of the prior art described above, and a technique for obtaining an energy source for sedimentation and flotation using a buoyancy control device and a wave pump and using it as an anchor. It is intended to provide.

1 is a front view of a state of use of the present invention.

2 is a plan view of FIG.

3 is a cross-sectional view of the buoyancy control device.

* Explanation of symbols for main parts of the drawings

10: frame 11: frame

12: buoyancy material 20: buoyancy control device

21 regulator 22 throttle relief valve

23: pressure gauge 24: entry and exit hose

25: cylinder 26: air bag

27: water chamber 28: piston head

30: mooring system 31: sleeping

32: buffer rich 33: mooring line

34, 34 -1: Anchor 40: Wave pump

41: water hose

The present invention for achieving the above object is the sedimentation of the surface cage facility automatically by the blue energy during the high-wave invasion due to the summer typhoon or storm storm cyclone or the surface contaminants such as effluent oil and surface water temperature This is to artificially settle in case of abnormal rise of the plant, to keep the facility safe and to maintain the viability and freshness of the aquaculture organisms.

1 is a front view of a use state of the present invention, and FIG. 2 is a plan view of FIG. 3 is a cross-sectional view of the buoyancy control device.

As shown in the drawings, the active disaster prevention form cage according to the present invention is composed of a cage 10, a buoyancy control device 20 and a mooring system 30, the frame 10 of the hexahedron formed in the reticular frame 11 ) And the buoyant material 12 and the acupuncture 31 and the buffer rich part (a) when the mooring line 33 is loosened by fixing it to the anchor 34 by the mooring line 33 constituting the needle 31 and the buffering part 32. A buoyancy control device 20 configured to be stretched and configured, and a wave pump 40 is formed at the anchor 34 -1 at one side formed on the sea bottom to form a cage 10 with a water hose 41. In addition to supplying seawater to the drain, the inlet and outlet of the compressed air, the throttle relief valve 22, the pressure gauge 23, and the air compressor inlet / outlet hose 24 are provided at the upper side of the water discharged by the regulator 21 and the buoyancy control device 20. The buoyancy control device 20 is a piece for dividing the air bag 26 and the water chamber 27 having an air chamber in the cylinder 25. The tone head 28 is configured, and the upper air bag 26 is configured to allow a lot of air to enter and exit by expansion and contraction by the rubber jabara.

Reference numeral 42 is an inlet valve, and 43 is a pendulum wave driven by a blue wave.

This cage culture is a farming facility to raise aquaculture organisms to raise the cage (10) caged aquaculture life at sea by buoyant material 12, the frame 11 of the cage (10) is made of any material or form It is also possible, but support frames should also be provided to prevent deformation of the culture net during settling.

In addition, the buoyancy control device 20 is to be capable of manual buoyancy control and automatic buoyancy control, it is a vertical cylindrical type can be attached to the top, such as markers, automatic feeding device.

Mooring system (30) is a facility for maintaining the position of the cage facility is composed of the anchor 34 (34-1) and the mooring line 33, " It is advisable to install it in a “shape”.

And in order to prevent the mooring line 33 from loosening during injuries and sedimentation, the shock absorber (middle rich) 32 and the needle 31 is constituted, and the outer sea anchor 34-1 is a wave pump type anchor 34 It is preferable to set it as -1).

This is to receive a lot of incident waves because the built-in pump operated by the wave energy is operated to transmit a quantity proportional to the incident wave energy to the automatic buoyancy control device 20 through the water supply hose 41.

The key device for controlling the floating and settling of the culture cage is the buoyancy control device 20 shown in FIG. 3, which is a manual buoyancy control function to adjust the buoyancy by manual drawing and drawing of compressed air and automatically settling at high waves. In addition, it has an active buoyancy control function to injure at a constant temperature.

The present invention is known by floating the cage (10) formed by the buoyancy material 12 in the form of a mesh with anchors 34 (34-1) and mooring line 33 of the sea bottom as shown in FIG. Aquatic plants are farmed as follows.

In this manner, the incident blue during a typhoon in the summer or a stormy low pressure in the winter is interlocked with the pendulum plate 43 of the wave pump 40 to reciprocate a rotating shaft, not shown as a transmission shaft, so that the rotor blade is fixed to the rotating shaft. Since the seawater is introduced into and discharged from the cylinder, the extruded water discharged from the water flows into the water chamber 27 of the buoyancy control device 20 through the water supply hose 41.

The wave pump 40 can be confirmed the effect of the application in the patent application No. 74849 No. 1997, Republic of Korea.

According to the above, when the compressed water enters through the inlet of the water chamber 27, the air bag 26 is contracted until the pressure in the air bag 26 and the pressure of the water chamber 27 are in equilibrium. Only the amount of is drained by the regulator 21 to be drained through the drain.

Therefore, when the incoming seawater is below a certain amount, the air is compressed into the compressed air, and when above a certain amount, the amount of seawater is increased in the water chamber 27 due to the increase in water absorption than the discharge water absorption, and the air in the air bag 26 is discharged by the pressure. As the sedimentation weight is increased than the buoyancy, the weight is added to the buoyancy control device 20, so that the buoyancy control device 20 is sedimented by the load to settle the cage 10.

In more detail, if the inside of the air bag 26 is maintained at a constant air pressure, the low-pass will cause the compressed water transport amount by the wave pump to be continuously drained by a predetermined amount by the regulator 21 to maintain the air pressure.

However, in high seas, as the amount of compressed water is increased and more than the amount of drainage, the inflow of seawater in the water chamber 27 increases by the amount of the accumulated cumulative amount, and the air bag 26 is pressurized to reduce the volume so that the weight is higher than the buoyancy. As this increases, it will settle.

When the incident wave decreases again, the water in the chamber is drained by the internal pressure of the air bag 26, and the volume of the air bag in the buoyancy control device 20 is recovered to rise.

Therefore, the cage facility settled to the sea floor prevents damage caused by high blue sea level.

In contrast, manual buoyancy control is used to escape safety from contaminants caused by oil pollution caused by red tide and sea accidents.

That is, the compressed air is connected to the intake valve of the air compressor 26 by the compressed air to the air bag 26 to discharge the compressed air in the air bag 26, thereby reducing the buoyancy and the seawater is introduced into the water chamber 27, thereby increasing its own weight. Settles.

In addition, when the compressed air is introduced into the air bag 26 to restore the buoyancy, the seawater of the water chamber 27 is discharged by the regulator 21, so that the buoyancy control device 20 floats as the air pressure increases and the cage ( 10) to rise.

As described above, the present invention is to automatically settle to the sea floor during high blue invasion due to typhoon or stormy low pressure to prevent damage caused by facility damage and escape of aquaculture organisms, and the manager at the time of arrival of surface marine pollutants It is a useful invention that can be greatly contributed to the marine fisheries industry as a feature that can reduce the damage of marine organisms due to marine pollution by passively settling.

When the active disaster prevention form cage of the present invention becomes blue, the compressed water is sent to the water chamber by the wave pump, and the volume of the air chamber is reduced, so that the sedimentation and sedimentation are settled to the low layer where the wave strength is small, and the wave is safely protected. When lowered, the compressed water in the chamber is drained by the balance between the air pressure in the air bag and the chamber pressure to restore the volume of the air chamber, preventing damage to the facility due to high waves in the event of typhoon or stormy low pressure and preventing escape of farmed organisms. By doing so, it would have the effect of disaster prevention of fisheries facilities and securing stable supply base.

In addition, when the surface pollutants come from sea accidents or the water temperature rises excessively, the compressed air of the air bag is manually released to settle the cages to the bottom layer and protect the aquatic organisms safely so as to protect the marine products and improve the quality. It was.

As is well known, the inner bay and shallow waters are already oversaturated due to the acceptance of farms that exceed the environmental capacity. Therefore, it is required to move all or part of the farm to the open sea, but the active disaster prevention farming cage according to the present invention in consideration of the situation that cannot be moved to the open sea due to the damage and danger of the facility due to the rough blue wave to a safe undersea layer in high blue invasion It is a useful invention that can extend the sea and secure fisheries resources with the effect of improving the above-mentioned problems by moving to escape.

Claims (2)

When a high blue storm or surface moving marine pollutant approaches air, it releases air in the air tank to reduce buoyancy and settle, and in general, the air is compressed by injecting air into the air tank with an air compressor to lift the surface. 10) In the submerged fish cage farming device consisting of the buoyancy control device 20 and the mooring system 30, the cage 10 is moored by the mooring vessel 33 comprising the needle 31 and the buffer rich 32 It is fixed to the anchors 34 and 34-1, and the buoyancy control device 20 is formed at the center of the cage to expand and compress the air bag to realize the settling and floating of the cage by manual adjustment and to form on the sea bottom. The air pump (26) constitutes a wave pump (40) at an external sea side anchor (34-1), and supplies seawater to the buoyancy control device (20) through a water supply hose (41). ) With constant pressure In addition, the drain is controlled by the regulator so that only the flow rate below a certain pressure is discharged, so that it floats at sea when entering the blue wave below the standard, and the culture cage is settled only by high weather and invasion, so that the culture cage due to bad weather and pollutants is safe. Active disaster prevention form cage using wave pump to promote The inlet allows the seawater supplied by the wave pump to receive compressed water in proportion to the wave energy. When the water is low due to the low blue water, the amount of water supplied by the regulator is almost drained and the air volume is maintained. The wave is characterized by a vertical circular cylinder buoyancy control device, which is designed to settle by the buoyancy reduction by causing the air bag volume to decrease by increasing the amount of water supplied by the regulator because the amount of water is exceeded by the regulator. Buoyancy control device for active disaster prevention form cage using pump.