KR20210026115A - Oxygen suppling apparatus for fish farming cages - Google Patents

Abstract

According to the present invention, provided is an oxygen supply apparatus for a fish farm comprising: a buoyancy unit floating by using buoyancy on the water surface of the fish farm; a first oxygen supply unit configured to be rotatable on both sides of the buoyancy unit, so that the buoyancy unit moves the fish farm, and the water from the upper level of the fish farm is pumped up so that the water is broken into foam and then dropped, thereby supplying oxygen to the upper water level; and a second oxygen supply unit providing a venturi structure on the lower side of the buoyancy unit, and causing air in the atmosphere to be sprayed when water from the fish farm is pumped to the water below the farm, so that oxygen is supplied to the lower water level.

Description

Oxygen suppling apparatus for fish farming cages}

The present invention relates to an oxygen supply device for a farm, and more particularly, to an oxygen supply device for a farm that can supply oxygen to the upper and lower water levels of the farm.

In general, shrimp raised in aquaculture farms grow and work at a water temperature of 28 to 30 degrees, have a property to rest during the day and be active at night, and have a habit of staying mainly on the bottom of the farm, that is, the bottom. For this reason, it is very important to manage the water temperature and dissolved oxygen in the cultured water used in the shrimp farm.

Accordingly, an oxygen supply device that supplies oxygen to aquaculture water using a water wheel or the like is installed in a farm, and two methods using a pump and a drive motor are mainly used.

Here, in the pump-type oxygen supply device, the water in the foam falls like oxygen in the air by pumping the bottom water of the farm to a predetermined height and then spraying it through a fountain and breaking it into foam. It is to supply oxygen, so that oxygen is supplied to the depth of the water, that is, to the lower level of the farm.

In addition, in the oxygen supply device of the drive motor type, when the aberration built on both sides of the buoyancy body is rotated by the drive motor, the water pumped on the water surface by the rotating blades of the aberration is broken into foam, combined with oxygen, and falling to oxygen. This is to supply oxygen, so that oxygen is supplied to the shallow water level, that is, the upper water level of the farm.

However, the conventional pump type oxygen supply device is expensive and it is easy to supply oxygen in a deep water, but it is difficult to supply oxygen in a shallow water.

In addition, the conventional drive motor type oxygen supply device has a problem that it is easy to supply oxygen to the upper water level, but it is impossible to continuously use it due to frequent failure of the drive motor, and it is difficult to supply oxygen to a deep water level.

In addition, when both the pump method and the drive motor method are installed, the burden of installation costs increases, and there is an inconvenience of changing the installation location of the device.

(Patent Document 0001) Korean Registered Utility No. 0176913

(Patent Document 0002) Korean Registered Utility No. 0045660

Accordingly, an object of the present invention is to provide an oxygen supply device for a farm that can supply oxygen to the upper and lower water levels of the farm while moving the farm through one device configuration.

Meanwhile, the object of the present invention is not limited to the above-mentioned object, and other objects not mentioned will be clearly understood by those skilled in the art from the following description.

According to the present invention, a buoyancy unit that floats using buoyancy on the water surface of a farm; A first oxygen supply unit configured to be rotatable at both sides of the buoyancy unit to allow the buoyancy unit to move the aquaculture and to pump up water above the aquaculture so that the water falls after being broken into foam so that oxygen is supplied to the upper water level; And a second oxygen supply unit that provides a venturi structure below the buoyancy unit and allows air in the atmosphere to be injected when the water of the aquaculture is pumped to the lower level of the aquaculture so that oxygen is supplied to the lower level of the aquaculture. .

Here, the first oxygen supply unit, the drive motor located on the upper surface of the buoyancy body; A rotating shaft rotated by a drive motor; A plurality of aberrations positioned on both sides of the buoyancy body and rotatably fixed to the rotation shaft to rotate when the driving motor is driven so that the buoyancy body moves the water surface of the farm; And it is preferable to include a rotating blade configured in the water wheel so that oxygen is supplied to the upper water level by pumping up water at the upper level of the farm when the water wheel is rotated so that the water falls after being broken into foam.

In addition, the second oxygen supply unit, the first pipe configured to have a predetermined length on the lower side of the buoyancy body; A second pipe configured to have a predetermined length on the lower side of the buoyancy body; A pump positioned on the upper surface of the buoyancy body and allowing water to be pumped from the first pipe toward the second pipe; A venturi pipe configured in the second pipe so that the water pumped through the second pipe is discharged to the lower level of the farm; And an air supply pipe extending from the upper side of the buoyancy body to the venturi pipe so that when water is discharged through the venturi pipe, air in the atmosphere is sprayed through the venturi pipe according to the Venturi principle, so that oxygen is supplied to the water level in the lower layer of the farm. Do.

In addition, it is preferable that the second oxygen supply unit has a configuration in which the length of the second pipe is extended or reduced.

In addition, according to the present invention, a predetermined space is provided to the buoyancy unit, the air in the space is heated, and then the heated air is supplied to the lower level of the farm through the second oxygen supply unit, thereby enabling the water temperature to rise through convection. An air heating unit further comprising: a case providing a predetermined space to the buoyancy body and extending one end of the air supply pipe therein; It is preferable to include air heating means for supplying heated air to the inside of the case.

Therefore, according to the present invention, while moving the farm through the aberration structure composed of the buoyant body and the driving motor, oxygen is supplied to the upper water level, and the farm is moved through the pump composed of the buoyant body and the venturi pipe extending to the lower part of the buoyancy body. While supplying oxygen to the lower water level.

Meanwhile, the effects of the present invention are not limited to the above-mentioned effects, and other effects not mentioned will be clearly understood by those skilled in the art from the description of the claims.

1 is a plan view showing an oxygen supply device for a farm according to a preferred embodiment of the present invention;
Figure 2 is a side view showing the oxygen supply device for the farm of Figure 1; And
Figure 3 is a view showing a Venturi pipe of the oxygen supply device for aquaculture of Figure 1;

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

As shown in Figures 1 to 3, the oxygen supply device for a farm according to a preferred embodiment of the present invention, a buoyancy unit 110 that floats using buoyancy on the water surface of the aquaculture, both sides of the buoyancy unit 110 A first oxygen supply unit 120 and buoyancy that is configured to be rotatable so that the buoyancy unit 110 moves the aquaculture farm and pumps up water from the upper level of the farm to allow the water to fall after being broken into foam and supply oxygen to the upper water level. It includes a second oxygen supply unit 130 that provides a venturi structure below the unit 110 and allows air in the atmosphere to be injected when the water of the farm is pumped to the level of the lower level of the farm to supply oxygen to the lower level of the farm.

The buoyancy unit 110 is composed of a buoyancy body 111 that floats using buoyancy on the water surface of the aquaculture, and is a buoyancy member that allows the components to be installed, and includes a buoyancy body 111 having a cylindrical structure that provides buoyancy. Includes.

Here, the buoyancy unit 110 is, as an example, three buoyancy bodies 111 are arranged at regular intervals and then coupled to each other through the frame 112 to provide a place for the components to be installed.

The first oxygen supply unit 120 is configured to be rotatable on both sides of the buoyancy unit 110 so that the buoyancy unit 110 moves the aquaculture and pumps up the water at the upper level of the aquaculture so that the water falls into foam and then falls. As a means to supply oxygen to the upper water level, the drive motor 121 located on the upper surface of the buoyancy body 111, the rotation shaft 122 rotated by the drive motor 121, both sides of the buoyancy body 111 It is located at and is rotatably fixed to the rotation shaft 122, and is rotated when the driving motor 121 is driven, and consists of a plurality of aberrations 123 and 123 that allow the buoyancy body 111 to move the water surface of the farm. When the water wheel 123 is rotated, it includes a rotating blade 124 that pumps up water at the upper level of the farm to allow the water to fall after being broken into foam, so that oxygen is supplied to the upper level of the water level.

Therefore, according to the first oxygen supply unit 120, the buoyancy body 111 is driven to move the farm and at the same time oxygen is supplied to the upper water level of the farm, so that the upper and lower waters are circulated by the vortex, so that the upper and lower water levels are circulated. The water temperature of the water level can be kept constant, and the section where the animals in farming such as shrimp ate feed can be cleaned cleanly.

The second oxygen supply unit 130 allows the water of the farm to be pumped and sprayed into the venturi pipe 134 configured on the lower side of the buoyancy body 111, and when the water is sprayed, air in the atmosphere is brought together through the venturi pipe 134. As a means for supplying oxygen to the water level in the lower layer of the aquaculture by spraying it, a first pipe 131 extending to a length corresponding to the upper water level of the aquaculture at the lower part of the buoyancy body 111, and the lower part of the buoyancy body 111 A second pipe 132 extending to a length corresponding to the water level in the lower layer of the aquaculture, a pump that is located on the upper surface of the buoyancy body 111 and allows water to be pumped from the first pipe 131 toward the second pipe 132 (133), a venturi pipe 134 configured in the second pipe 132 so that the water pumped to the second pipe 132 is discharged to the lower level of the aquaculture, and a venturi pipe 134 from the upper side of the buoyancy body 111 ) Extends to the venturi pipe 134 and allows air in the atmosphere to be sprayed through the venturi pipe 134 according to the Venturi principle, so that oxygen is supplied to the water level in the lower layer of the farm. do.

Here, the venturi pipe 134 allows air in the atmosphere to be sprayed together through the air supply pipe 135 when water from the farm is discharged through the second pipe 132.

In addition, the second oxygen supply unit 130 may have a configuration in which the length of the second pipe 132 is extended or reduced to correspond to the water level of the farm, and more preferably, the Venturi tube 134 is It is preferable that a plurality of the second pipes 132 be configured with a constant height.

Therefore, according to the second oxygen supply unit 130, by allowing the air in the atmosphere to be sprayed through the lower portion of the buoyancy body 111, that is, through the venturi pipe 134 located at the lower level of the aquaculture farm, living organisms such as shrimp Oxygen can be supplied to the water level in the lower layer of the farm, which is mainly inhabited, and the number of bacteria can be reduced by allowing sediments such as ammonia deposited in the lower layer of the farm to oxidize and circulate the water in the lower layer to the upper layer.

In addition, as the length of the first pipe 131 corresponds to the water level in the upper layer of the farm and the length of the second pipe 132 corresponds to the water level in the lower layer of the farm, the upper layer having a relatively high water temperature is the lower layer having a low water temperature. By circulating to the water level, the water temperature in the upper and lower water levels can be kept constant.

Meanwhile, the present invention further includes a configuration of the air heating unit 140 to heat the oxygen supplied to the lower water level through the second oxygen supply unit 130 to have a predetermined temperature.

The air heating unit 140 provides a predetermined space to the buoyancy body 111 and supplies heated air to the inside of the case 141 and the case 141 in which one end of the air supply pipe 135 is extended therein. It includes an air heating means 142 and the like.

Here, the air heating means 142 includes a communication body in communication with the case 141, a driving fan configured inside the communication body to allow outside air to flow into the case 141, and an inside of the communication body. Since a heat exchanger such as a coil for exchanging external air moved into the inside of the communication body to a predetermined temperature may be included, or may have a known configuration, a detailed description will be omitted.

Therefore, according to the air heating unit 140, the air heated to the venturi pipe 134 is supplied and sprayed to the lower water level of the farm, thereby increasing the water temperature and allowing the lower and upper water to convectively, thereby increasing the temperature of the farmed water in the farm. You can make it rise.

Hereinafter, the operation of the oxygen supply device for a farm having the above-described configuration will be described.

First, when the driving motor 121 of the first oxygen supply unit 120 is driven, a plurality of aberrations 123 configured on both sides of the buoyancy body 111 rotates, and accordingly, the buoyancy body 111 moves the farm. do.

At the same time, when the water wheel 123 rotates, the water at the upper water level of the farm is pumped up by the rotating blades 124 configured in the plurality of water wheel 123 and is broken into foam, and then falls to supply oxygen to the upper water level of the farm.

That is, according to the first oxygen supply unit 120, while allowing the buoyancy body 111 to move the farm, it is possible to supply oxygen to the upper water level of the farm.

Thereafter, as described above, when oxygen is supplied to the upper water level of the farm by the first oxygen supply unit 120, when the pump 133 of the second oxygen supply unit 130 is driven, the aquaculture water of the farm is in the first pipe ( In the state pumped to 131), it is supplied to the second pipe 132 and then discharged through the venturi pipe 134 located at the lower level of the aquaculture. At this time, air in the atmosphere flows through the venturi pipe 134 by the Venturi principle. It is sprayed through to supply oxygen to the bottom water level of the farm.

That is, according to the second oxygen supply unit 130, when the buoyant body 111 moves the farm and oxygen is supplied to the upper water level of the farm, oxygen may be supplied to the lower level of the farm.

Meanwhile, as described above, when oxygen is supplied to the upper and lower water levels of the farm by the first oxygen supply unit 120 and the second oxygen supply unit 130, air in the atmosphere supplied to the second oxygen supply unit 130 is As the air heating unit 140 has a heated state, the temperature of the lower water level of the farm is raised, and the upper and lower waters are convectively, so that the temperature of the farmed water of the farm can be raised overall.

Therefore, according to the above, the pump 133 and the buoyancy body 111 are configured to supply oxygen to the upper water level while moving through the aberration structure consisting of the buoyancy body 111 and the driving motor 121 It is possible to supply oxygen to the lower water level while moving the farm through the venturi pipe 134 extending to the lower part of (111).

In addition, it is possible to increase the water temperature using convection by allowing hot air to be supplied to the lower level of the farm through the venturi pipe 134.

In the above-described present invention, specific embodiments have been described, but various modifications may be implemented without departing from the scope of the present invention. Therefore, the scope of the invention should not be determined by the described embodiments, but should be defined by the claims and the equivalents of the claims.

Claims (5)

A buoyancy unit 110 that floats using buoyancy on the water surface of the farm;
It is configured to be rotatable on both sides of the buoyancy unit 110 so that the buoyancy unit 110 moves the farm, and pumps up water from the upper level of the farm to allow the water to fall after being broken into foam so that oxygen is supplied to the upper water level. A first oxygen supply unit 120; And
It features a second oxygen supply unit 130 that provides a venturi structure under the buoyancy unit 110 and allows air in the atmosphere to be injected when the water of the farm is pumped to the level of the lower level of the farm so that oxygen is supplied to the water level in the lower layer. Oxygen supply device for aquaculture. The method of claim 1, wherein the first oxygen supply unit 120,
A driving motor 121 located on the upper surface of the buoyancy body 111;
A rotation shaft 122 rotated by the drive motor 121;
A plurality of aberrations 123 that are located on both sides of the buoyancy body 111 and are rotatably fixed to the rotation shaft 122 to rotate when the driving motor 121 is driven so that the buoyancy body 111 moves the water surface of the farm ; And
It is configured in the water wheel 123 and includes a rotating blade 124 that pumps up water at the upper water level of the farm when the water wheel 123 rotates to allow the water to fall after being crushed into a foam so that oxygen is supplied to the upper water level. Oxygen supply device for aquaculture. The method of claim 1, wherein the second oxygen supply unit 130,
A first pipe 131 configured to have a predetermined length on the lower side of the buoyancy body 111;
A second pipe 132 configured with a predetermined length on the lower side of the buoyancy body 111;
A pump 133 located on the upper surface of the buoyancy body 111 and allowing water to be pumped from the first pipe 131 to the second pipe 132;
A venturi pipe 134 configured in the second pipe 132 so that the water pumped to the second pipe 132 is discharged to the lower level of the farm; And
When water is discharged through the venturi pipe 134 by extending from the upper side of the buoyancy body 111, the air in the atmosphere is sprayed through the venturi pipe 134 according to the Venturi principle. Oxygen supply device for aquaculture, characterized in that it comprises an air supply pipe (135) to be supplied. The method of claim 3, wherein the second oxygen supply unit 130,
Oxygen supply device for aquaculture farm, characterized in that having a configuration in which the length of the second pipe 132 is elongated or reduced. The method of claim 3,
Air that enables water temperature to rise through convection by providing a predetermined space to the buoyancy unit 110 and allowing the air in the space to be heated, and then supplying the heated air to the lower level of the farm through the second oxygen supply unit 130 Further comprising a heating unit 140,
The air heating unit 140,
A case 141 providing a predetermined space to the buoyancy body 111 and extending one end of the air supply pipe 135 therein;
Oxygen supply device for aquaculture farm, characterized in that it comprises an air heating means (142) for supplying the heated air into the case (141).

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