KR20130046630A - Abalone farming system in deep water - Google Patents

Abstract

PURPOSE: An abalone farming system in open sea midwater is provided to easily install a farming apparatus in 30m depth or greater of the open sea as transporting the farming apparatus to the open sea easily. CONSTITUTION: A body(10) has a number of circular frames spaced apart sequentially from the top to the bottom and has a number of supporting frames fixed to the circular frame. A guard net part(20) has a bottom guard net installed in the circular frame and has an outer guard net installed around the outside of the body in order for the abalone not to be separated. A number of opening/closing parts(30) are installed in the outer circumference of the outer guard network. A banner wire(40) is installed on the top center of the body. A number of assistant wires(50) are fixed on the top circumference of the body. A drifting buoy(60) is installed on the top of the banner wire. A plurality of bottom wires(71) is installed on the bottom of the body. A weight plumb(70) is installed at the lower part of the bottom wire.

Description

Abalone farming system in deep water}

The present invention relates to an outer sea layer layer overturning apparatus, and more particularly, a buoy is installed on the upper part of the main body which is covered with a protection net on the outer side and is formed in a multi-stage circular frame. The main body consisting of the upper and lower circular frame and the support frame is separated into a plurality of pieces to accommodate the abalones in the lower protection net covered in the frame, or the connecting member to connect the plurality of separate bodies to each other. It is easy and convenient to transport and store aquaculture apparatus that forms a buoy on the upper part of the main body and weights at the bottom of the main body so that the abalone can be farmed over 30m deep. Easily and conveniently installed, it is possible to grow abalone over 30m deep of the open sea without disturbing the waves of the open sea. The present invention relates to an abalone farming device that makes it easy to convey and grow abalone quickly and easily.

In general, the submerged submerged type is a method of growing by adding the flop of abalone to a separate structure installed below the surface of the water.

In recent years, the East Coast has been selected as a submerged submerged food as part of the shellfish technology development project on the east coast.

In addition, as explained above, the background of the submerged submerged seawater is the industrialization of the coastal seas, the coastal fisheries pollution and the reduction of coastal fisheries caused by landfills, and the cause of unknown bleaching (lime flows on rocks or rocks in the sea). Is not covered by the algae, also known as seagrass melting phenomenon).

Due to the loss of algae caused by the bleaching phenomenon, the coastal fisheries are being desolated and the resources in the coastal farms are declining.

Conventional offshore farming methods include abalone farming, offshore tank farming, and spray farming farming methods. These farming methods are selectively carried out according to coastal conditions.

At this time, the sea cage is a structure made by enclosing a net in a frame having a skeleton under the surface of water, and is attached to a rope floating on the surface by connecting a rope to such a structure or another type of chalon.

In this method, the abalone, which has grown to some extent, is put in and out of success, and the structure is often lost due to high waves generated by the sea characteristics of the east coast, and thus does not contribute significantly to substantial income increase.

On-site tanks, which have been carried out in other ways, are farmed by placing a chip in a tank made of a concrete structure on the ground or a tank made of various plastics.

This method has excessive defects in management costs due to maintaining adequate water quality for abalone to grow, and also causes various diseases due to indoor breeding.

Another method of spraying farming, which is used in a variety of ways, is to spread a large amount of plaque on the coast and wait for it to grow naturally.

This is the most commonly used method, and it is difficult for individual fishermen to do it.

Since this method is completely exposed from the natural enemies of various abalones, there is a drawback that the surviving rate is lowered due to the presence of the plaque as food for the abalones, and the collection rate is lowered due to the out of zone due to the mobility of the abalones.

In order to solve the problems as described above, the present invention is covered with a protective net on the outside and the buoy is installed on the upper part of the main body consisting of a multi-stage circular frame, the weight is installed on the lower part of the main body and the lower cover of the multi-stage circular frame of the main body The main body consisting of the upper and lower circular frame and the support frame is separated into a plurality of pieces to accommodate the abalones in the protection net, or the abalone is configured, and composed of a connecting member to connect the plurality of separate bodies to each other, the upper part of the main body It is easy and convenient to transport and store the farming device that forms a weight on the bottom of the buoy to store 30m deep in the open sea to form abalone, and easily and conveniently installs the farming device at more than 30m deep. At over 30m deep, the growth of abalone is safe and safe without abrupt interference with the waves of the open sea. And so it sonswip, there is provided a novel intermediate offshore abalone style device is manufactured in the form devices easily.

In order to achieve the above object, the present invention is a main body consisting of a plurality of circular frames are sequentially installed at a distance from the top to the bottom, the support frame is fixed to the plurality of circular frames to be connected to the circular frames. Wow; A lower guard net is installed on the round frame so that the upsets are accommodated on the upper part of the circular frame, and an outer guard net configured to have an outer guard net installed on the outer circumference of the main body to prevent the rollovers from escaping to the outside; Opening and closing portion is provided in a plurality so that the food of the abalone and abalone in the outer circumference of the outer protective net; Suspension wire is installed in the upper center of the main body; An auxiliary wire fixed to a plurality of upper ends of the main body so as to be connected to the suspension wire; A buoy installed on an upper portion of the suspension wire; Characterized in that the lower wire is provided with a plurality of lower wires provided with a distance from each other in the lower portion of the main body, and a weight installed in the lower portion of the lower wire.

In addition, the opening and closing portion is formed in the inlet in the form of a straight line, it is characterized in that the inlet is closed by sewing the wire, the wire is released from the inlet to open the inlet, or the opening and closing portion is provided with a zipper.

In addition, the support frame is characterized in that the support frame with a thick outer diameter and the support frame with a thin outer diameter are alternately installed on the outer periphery of the circular frames in sequence.

In addition, the inner circumference of the circular frame is characterized in that a plurality of inner frames are installed radially cross each other.

The present invention is the upper circular frame and the lower circular frame is installed at a distance from each other in the upper and lower, the main body consisting of a plurality of support frames installed in the upper and lower circular frame; A protective net portion covering the outside of the main body to accommodate the rollovers inside the main body; An opening / closing part which is installed to feed the abalone and abalone into the main body; Suspension wire is installed in the upper center of the main body; An auxiliary wire fixed to a plurality of upper ends of the main body so as to be connected to the suspension wire; A buoy installed on an upper portion of the suspension wire; Characterized in that the lower wire is provided with a plurality of lower wires provided with a distance from each other in the lower portion of the main body, and a weight installed in the lower portion of the lower wire.

In addition, the inner circumference of the upper circular frame, the inner circumference of the lower circular frame is characterized in that a plurality of inner frames are radially intersected with each other.

In addition, the main body is composed of a plurality of the lower portion, each of the main body upper outer periphery and each of the main body lower outer periphery is composed of a plurality of connection members installed on the upper and lower outer periphery of each of the main body It is characterized by dedication.

In addition, the connecting member is characterized in that consisting of a ring or clip.

In addition, the support frame is characterized in that the support frame with a thick outer diameter and the support frame with a thin outer diameter are alternately installed in the outer circumference of the upper, lower circular frame in sequence.

In addition, the opening and closing portion is formed in the inlet in the form of a straight line, it is characterized in that the inlet is closed by sewing the wire, the wire is released from the inlet to open the inlet, or the opening and closing portion is provided with a zipper.

The present invention is to cover the protective net portion on the outside and the buoy is installed on the upper part of the main body consisting of a multi-stage circular frame, the weight is installed on the lower part of the main body to accommodate the overturns in the lower protective net covered in the multi-stage circular frame of the main body, The main body consisting of the upper and lower circular frame and the support frame to be received is configured to be separated into a plurality of, the connecting member to connect the plurality of separated main body to each other, buoys on the upper portion of the main body weight It is easy and convenient to transport and store the farming device which is made up to 30m deep to form the abalone by the open sea, and to easily and easily install the farming device at more than 30m deep in the open sea, so that the growth of abalone farming is more than 30m deep in the open sea. It does not interfere with the waves of the open sea and is safe and has the effect of quick and easy growth of abalone.

In addition, the present invention is composed of a circular frame and a support frame, a protective net portion, buoys and weights, the configuration is simple as a farming device has an easy production effect.

1 is a perspective view according to the present invention.
2 is a front view of the main body according to the present invention;
3 is a plan view of the main body according to the present invention.
Figure 4 is another embodiment of the opening and closing part according to the present invention.
5 is a perspective view showing another embodiment according to the present invention.
6 is a state diagram used in accordance with the present invention.

For a better understanding of the present invention, a preferred embodiment of the present invention will be described with reference to the accompanying drawings.

The embodiments of the present invention may be modified in various forms, and the scope of the present invention should not be construed as being limited to the embodiments described in detail below. The present embodiments are provided to explain the present invention more safely to those having ordinary skill in the art.

Therefore, the shapes and the like of the elements in the drawings can be exaggeratedly expressed to emphasize a clearer description. It should be noted that in the drawings, the same members are denoted by the same reference numerals.

In addition, detailed descriptions of well-known functions and configurations that are determined to unnecessarily obscure the subject matter of the present invention are omitted.

1 is a perspective view according to the invention, Figure 2 is a front view of the main body according to the invention, Figure 3 is a plan view of the main body according to the invention, Figure 4 is another embodiment of the opening and closing part according to the invention, Figure 5 Is a perspective view showing another embodiment according to the present invention, Figure 6 is a state diagram used in accordance with the present invention.

If described in detail with reference to those shown in Figures 1 to 6 of the outer sea layer overturning apparatus 100 according to the present invention.

Outer ocean middle layer overturning apparatus 100 according to the present invention is the main body 10, the guard net portion 20, the suspension wire 40, the auxiliary wire 50, buoy 60, weight 60 It consists of

1 to 3, the main body 10 is composed of a plurality of the main body 10 is provided with a plurality of circular frames 11 are sequentially spaced from the top to the bottom.

In addition, it consists of a support frame 12 fixed to a plurality of the circular frame 11 installed at a distance from each other up and down.

The support frames 12 are connected to the circular frame 11 installed at a distance up and down, and are configured to support the upper and lower portions of both the circular frames 11.

In addition, the support frame 12 is composed of a support frame 12-1 having a large outer diameter and a support frame 12-2 having a thin outer diameter are alternately installed on the outer peripheries of the circular frames 11. .

The circular frame installed in the upper and lower parts, such that the outer diameter of the support frame 12-1 and the outer diameter of the support frame 12-2 are alternately installed on the outer circumference of the circular frames 11 in this order. This is to prevent the outer periphery of the circular frame 11, that is, the outer periphery of the main body 10 from being damaged and deformed by increasing the strength of the outer periphery of (11).

In addition, a plurality of inner frames 13 are radially intersected with each other in the inner circumference of the circular frame 11.

In this way, the inner frame 13 is radially installed in plural in the inner circumference of the circular frame 11 in order to increase the strength of the circular frame (11).

That is, in order to prevent the shape of the circular frame 11 is damaged and deformed due to the current.

As shown in FIGS. 1 to 3, the protection net part 30 has the protection net part 30 having the lower protection net 21 so that the rollovers are accommodated on the upper part of the circular frame 11. Installed and configured on.

That is, the lower protection net 21 is installed to cover the circular frame 11 so as to accommodate the abalone on top.

In addition, the outer periphery of the main body 10 is composed of an outer protection net 22 is installed so that the abalones are not separated to the outside.

The protective net portion 30 is preferably formed of a net that does not fall over to the outside.

As shown in FIGS. 1 and 4, the opening and closing portion 30 is configured such that the opening and closing portion 30 is installed in a plurality so that the food of the abalone and abalone is drawn in and out on the outer circumference of the outer protection net 20.

That is, the opening and closing part 30 is preferably installed on the outer circumference of the circular frame 11 installed on the upper portion of the main body 10 from the circular frame 11 installed on the lower portion of the main body 10. .

In addition, as shown in Fig. 1, the opening and closing portion 30 is formed in the inlet (30-1) in a straight line, the inlet 30-1 is closed by sewing the wire (30-2), the stitched wire 30-2 is provided to be released from the inlet 30-1 to open the inlet 30-1.

As shown in FIG. 4, the opening and closing part 30 is installed as a zipper part 30-3 so that the zipper part 30-3 is opened and closed so that the abalone or abalone feeds into and out of the main body 10. It is composed.

As the suspension wire 40 is shown in FIG. 1, the suspension wire 40 is formed in the upper center of the main body 10.

The upper portion of the suspension wire 40 is connected to the lower portion of the buoy 60 to be described later.

When the suspension wire 40 is drawn out in the sea, the main body 10 may be slowly rotated to lift the main body 10 from the sea water.

As shown in FIG. 1, the auxiliary wires 50 are fixedly installed on the upper circumference of the main body 10 so as to be connected to the lower part of the suspension wire 40.

As the buoy 60 is shown in FIG. 1, the buoy 60 is provided on the suspension wire 50.

The buoy 60 is installed to easily recognize the position of the abalone farming device in the sea.

As shown in FIG. 1, the weight 70 is composed of a plurality of lower wires 71 provided in a plurality at a distance from the lower part of the main body 10.

 The upper portion of the weight 70 is connected to the lower portion of the lower wire 71 is installed is configured.

The weight 70 is to maintain the body 10 is standing in the sea when the body 10 is stored at a depth of more than 30m of the sea.

As shown in Figure 5, as another embodiment according to the present invention,

The upper circular frame 11-1 and the lower circular frame 11-2 are installed at a distance from each other in the upper and lower portions, and are supported in a plurality of upper and lower circular frames 11-1 and 11-2. It consists of the main body 10a comprised by the frame 12a.

That is, the main body 10a is separated into a plurality of pieces.

In addition, the inner circumference of the upper circular frame 11-1 and the inner circumference of the lower circular frame 11-2 are configured to radially cross each other.

In this way, the inner frame 13 is radially installed in a plurality in the inner circumference of the circular frame 11-1 to increase the strength of the circular frame 11-1.

That is, in order to prevent the shape of the circular frame 11-1 from being damaged or deformed due to currents.

In addition, the support frame 12a is a support frame 12a-1 having a large outer diameter and the support frame 12a-2 having a thin outer diameter are sequentially formed on the upper and lower circular frames 11-1 and 11-2. It is installed alternately in the outer circumference.

In this way, the outer diameter of the support frame 12a-1 and the outer diameter of the support frame 12a-2 are alternately installed on the outer periphery of the upper and lower circular frames 11-1 and 11-2. By increasing the strength of the outer periphery of the upper and lower circular frame (11-1, 11-2) to the outer periphery of the upper, lower circular frame (11-1, 11-2), that is, the main body (10a) This is to prevent the outer periphery of the damage and deformation.

In addition, the main body (10a) is composed of a plurality in the lower, each of the main body (10a) upper and lower sides, and each of the main body (10a) lower outer periphery so as to connect with each other the upper and lower parts of the main body (10a) It consists of a connection member 80 installed in a plurality on the outer circumference.

 The connecting member 80 is preferably composed of a ring 81, but the connecting member 80 may be configured by a clip (not shown).

Consists of a protection net portion 20a that covers the outside of the main body so that the rollovers are accommodated inside the main body 10a.

The protection net portion 20a is preferably formed of a mesh so that the abalone does not leak out.

It is composed of an opening and closing portion (30a) is installed so that the food of the abalone and abalone to the inside of the main body (10a).

In addition, as shown in FIG. 5, the opening and closing portion 30a is formed in the inlet 30a-1 in a straight line, and the inlet 30a-1 is closed by sewing the wire 30a-2. It is configured to release (30a-2) from the inlet (30a-1) to open the inlet (30a-1).

As shown in FIG. 4, the opening and closing part 30a is installed as a zipper part 30a-3 to open and close the zipper part 30a-3 so that the abalone or abalone feeds in and out of the main body 10. It is composed.

As the suspension wire 40a is shown in FIG. 5, the suspension wire 40a is provided in the upper center of the main body 10a.

The upper part of the suspension wire 40a is connected to the lower part of the buoy 60a to be described later.

As shown in FIG. 1, the auxiliary wire 50a is fixedly installed in a plurality of upper portions of the main body 10a so as to be connected to the lower portion of the suspension wire 40a.

When the suspension wire 40a is drawn out in the sea, the main body 10a is gradually rotated and raised to take out the main body 10a in the sea water.

As the buoy 60a is shown in FIG. 5, the buoy 60a is provided in the upper part of the suspension wire 50a, and is comprised.

The buoy 60a is installed to easily recognize the position of the abalone farming device in the sea.

As shown in FIG. 1, the weight 70a is composed of a plurality of lower wires 71a provided at a distance from each other at a lower portion of the main body 10a.

 The upper portion of the weight (70a) is connected to the lower portion of the lower wire (71a) is configured to be installed.

The weight 70a is to maintain the body (10a) is standing in the sea when the body (10a) is stored in a depth of more than 30m of the sea.

6 is a diagram showing the use state according to the present invention, showing that the outer sea layer rollover culture apparatus is installed so that the depth of the sea is stored to a depth of 30m or more.

When the present invention is installed in the sea to install the fixed rope 90 on the sea water, the buoy 60 is installed on the fixed wire 90 so as to be exposed to the sea water, the main body 10 is 30m deep sea The upper part of the suspension wire 40 is then tied to the fixing line 90 to be fixed.

The fixing line 90 is provided with a plurality of the present invention to enable a large amount of abalone form.

It will be apparent to those skilled in the art that various modifications and equivalent arrangements may be made therein without departing from the scope of the present invention. . Therefore, it is to be understood that the present invention is not limited to the above-described embodiments.

Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims. It is also to be understood that the present invention includes all modifications, equivalents and substitutions within the spirit and scope of the invention as defined by the appended claims.

10, 10a: main body 11: circular frame 11-1: upper circular frame 11-2: lower circular frame 12, 12a: support frame 12-1, 12a-1: thick frame 12-2, 12a-2: thin frame 13 13a: inner frame 20, 20a: shielding portion 21; Lower guard net 22: Outer guard net 30, 30a: Opening and closing part 30-1.30a-1: Inlet 30-2, 30a-2: Wire 40, 40a: Suspension wire 50, 50a: Auxiliary wire 60, 60a: Buoy 70, 70a: Weight Weight 71,71a: Lower wire 80: Connecting member 100: Outer sea layer roll overculture device

Claims (10)

The circular frame 11 is installed in plurality in a sequential distance from the top to the bottom, consisting of a support frame 12 fixed to the plurality of circular frames 11 to be connected to the circular frames (11) A main body 10;
The lower protection net 21 is installed in the circular frame 11 so that the upsets are accommodated in the upper portion of the circular frame 11, the outer protection net is installed on the outer periphery of the main body 10 so that the abalones do not escape to the outside ( A protection net portion 20 composed of 22);
Opening and closing portion 30 is installed in a plurality so as to feed the abalone and abalone in the outer circumference of the outer protective net 20;
Suspension wire 40 is installed in the upper center of the main body 10;
An auxiliary wire 50 fixed to a plurality of upper peripheries of the main body 10 so as to be connected to the suspension wire 40;
A buoy (60) installed above the suspension wire (50);
The outer layer of the ocean layer abalone aquaculture apparatus, characterized in that composed of a plurality of lower wires (71) provided at a distance from each other in the lower portion of the main body (10), and a weight (70) installed in the lower portion of the lower wire (71). The method of claim 1,
The opening and closing part 30 is formed in the inlet (30-1) in the form of a straight line, the inlet (30-1) by sewing the wire (30-2) and closed, the stitched wire (30-2) the inlet (30) -1) installed outside to open the inlet (30-1), or the outer layer overturned culture apparatus characterized in that the opening portion 30 is installed as a zipper portion (30-3). The method of claim 1,
The support frame 12 is characterized in that the outer diameter of the support frame 12-1 and the outer diameter of the support frame 12-2 is installed alternately on the outer periphery of the circular frame 11 in sequence Overseas middle layer abalone farming device. The method of claim 1,
Inner perimeter of the circular frame 11, characterized in that a plurality of inner frames 13 are radially intersected with each other, characterized in that the outer layer overturning culture apparatus. The upper circular frame 11-1 and the lower circular frame 11-2 are installed at a distance from each other in the upper and lower portions, and are supported in a plurality of upper and lower circular frames 11-1 and 11-2. A main body 10a composed of a frame 12a;
A protective net portion 20a covering the outside of the main body so that the rolls are accommodated in the main body 10a;
An opening and closing portion 30a installed to feed the abalone and abalone into the main body 10a;
Suspension wire (40a) is installed in the upper center of the main body (10a);
Auxiliary wires 50a fixed to a plurality of upper ends of the main body 10a so as to be connected to the suspension wires 40a;
A buoy (60a) installed on the suspension wire (40a);
The outer layer overlaid culture apparatus characterized in that it consists of a plurality of lower wires (71a) are provided in a plurality at a lower portion of the main body (10a) and a weight (70a) provided in the lower portion of the lower wire (71a). 6. The method of claim 5,
The inner seam layer overturning style, characterized in that the inner circumference of the upper circular frame (11-1) and the inner circumference of the lower circular frame (11-2) are provided with a plurality of inner frames (13a) to cross each other radially. Device. 6. The method of claim 5,
The main body 10a has a plurality of lower parts, and each of the main body 10a upper and lower outer periphery so as to connect the upper outer periphery of the main body 10a and the lower outer periphery of the main body 10a to each other. Overseas middle-floor overturning apparatus characterized in that consisting of a plurality of connecting member 80 is installed in the. 8. The method of claim 7,
The connecting member 80 is an outer sea layer rollover culture apparatus, characterized in that consisting of a ring or clip. 6. The method of claim 5,
The support frame 12a is a support frame 12a-1 having a large outer diameter and a support frame 12a-2 having a thin outer diameter in sequential order with the outer circumference of the upper and lower circular frames 11-1 and 11-2. Overseas mezzanine overturning apparatus characterized in that the alternate installation. 6. The method of claim 5,
The opening and closing portion 30a is formed in the inlet (30a-1a) in a straight line, the inlet (30-1a) is closed by sewing the wire 30-2a, the stitched wire (30a-2). -1a) is installed to open the inlet (30a-1), or the open sea layer overturning culture apparatus characterized in that the opening portion (30a) is installed as a zipper portion (30a-3).

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