KR101703559B1 - Apparatus for abalone cage farm - Google Patents

Abstract

The present invention relates to a marine cage apparatus for abalone breeding, and more particularly, to provide a marine cage aquarium apparatus that is simple to manufacture and assemble, and is easy to break and has excellent breakage resistance.
In order to achieve the above object, according to an aspect of the present invention, there is provided a support rope comprising: a mesh network formed vertically and vertically in the shape of a pyramid, a support rope attached to a corner portion of the mesh network and to upper and lower end edges, Like net-like web plate mounted on the lower edge of the lower end of the mesh net to form a bottom of the mesh net and having meshes for vertically passing therethrough, Disclosed is a marine cage apparatus for abalone culturing including a support frame for supporting a plate.

Description

{Apparatus for abalone cage farm}

The present invention relates to a marine cage apparatus for abalone cultivation, and more particularly, to a marine cage aquarium apparatus which is simple and easy to manufacture and assemble, has excellent durability, breakage resistance and shape stability, will be.

The abalone, which is currently in the spotlight as a health food, has a relatively low productivity due to long labor for the labor, facility management cost and cultivation period for cultivation using the churn and raft, The marine cage culture, which takes less time and shortens the growth period of abalone, is preferred.

In general, the marine cage device used for abalone culturing is suspended in a floating structure suspended by buoyancy on the sea surface, and is opened to the upper side. On the bottom of the inner space of the hexahedral mesh having an inner space, A structure in which a support frame for mounting and supporting a frame or a shelter is fixed is widely used.

Such a marine cage apparatus for abalone culturing has a tendency to interfere with algae flow by interfering with algae, oysters, mussels, barnacles, scallops, If it does not remove it, it will lead to the abortion of the abalone. Therefore, it is necessary to periodically use the equipment such as a crane during the cultivation period to lift it on the surface of the water or the ship, It is a fact that it is cleanly removed.

Conventionally, the marine cage apparatus for abalone culturing has a problem that the net is torn easily by a shell having a sharp shell like a blade in the process of removing foreign matter by high-pressure water due to the nature formed by weaving synthetic resin strings, There is a problem that the abalone can not go into the mold or the shelter quickly.

Further, the support frame is formed in a rectangular frame shape by an elbow joint connected at a right angle, a tee joint connected with a tee (T) type, and a straight pipe connected between an elbow joint and a tee joint. The frame has a circular surface smoothly, so that it can be easily flowed even if it is fixed with a string after the bottom part of the net is closely attached.

On the other hand, Korean Patent No. 10-0944450 discloses a structure in which grooves drawn inwardly are formed on the surface of a pipe in order to facilitate fixing of a mesh. However, since the mesh portion of the mesh is relatively more rigid than the rope portion, (Tie joints) and elbow pipes (elbow joints) when the rope of a net is inserted into the grooves, the rope can not be stably fixed by being protruded protruding without being inserted, and the protruding portion The rope must be formed to be unevenly longer than the corresponding length of the support frame, which makes the fabrication difficult and inconvenient.

In addition, when harvesting (picking) abalone, or replacing a template frame or a shelter, use a crane or other equipment to pull the net over the ship, loosen the rope that is bound to the floating structure, and wrap the formwork or shelter It is inconvenient for the operator to peel around the net because it is not easily peeled off due to the nature of the fuzzy net.

Korean Utility Model Publication No. 20-2014-0005508 (Apr. 27, 2014) Korean Patent Publication No. 10-2014-0119303 (Oct. 10, 2014) Korean Registered Patent No. 10-1450745 (Apr. 10, 2014) Korean Registered Patent No. 10-1261773 (Apr. Korean Patent Registration No. 10-1180290 (2014.09.06) Korean Patent Publication No. 10-2012-0032297 (2012.04.05) Korean Registered Patent No. 10-0944450 (Feb. 25, 2010)

Therefore, the present inventor has considered the above-mentioned matters and emphasized the limitations and problems of the existing technology, and made it easy to manufacture and assemble, and it is easy to be easily broken and has excellent breakage resistance, and the mesh is wrapped around a frame or a shelter The present invention was invented as a result of constant efforts to develop a marine cage apparatus for abalone culturing that can be quickly and easily released from the soil.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and an object of the present invention is to provide a marine cage apparatus for abalone culturing which can be manufactured and assembled easily and easily and with excellent breakage resistance.

It is another object of the present invention to provide a marine cage apparatus for abalone culturing that allows a mesh for covering a formwork or shelter to be quickly and easily removed.

According to an aspect of the present invention, there is provided a method of manufacturing a honeycomb structured body, comprising the steps of: forming a honeycomb structure having a vertically- A support rope for supporting the net so as to form a shape of a historical horno-pyramid; a plurality of bedding ropes connected to the rim of the upper end of the net at regular intervals; And a support frame mounted on a lower surface of the net plate to support the net plate. The present invention provides a maritime cage apparatus for abalone culturing.

Thus, the present invention stably maintains a certain shape without being deformed or damaged even when the net plate is subjected to an impact from the outside, so that it is simple and easy to fabricate and assemble as a whole. In addition, unlike the prior art, a bottom portion of a net- In addition, in the process of removing foreign matter sticking to the bottom of the mesh with high-pressure water, it can be prevented from being torn by a shell such as a claw or scallop having a sharp shell like a blade.

In addition, the net has the shape of a historical horny crest which becomes gradually wider as it goes up to the upper part, so that it can be quickly and easily peeled so that the mold or the shelter contained therein can be exposed when the abalone is harvested.

In addition, in the preferred embodiment of the present invention, the support frame has a slot in which the support rope coupled to the lower end of the mesh network is inserted and a retaining jaw in which the edge of the mesh plate is inserted, And the edges of the net plate are bundled with binding lines such as yarns, strings, ropes, and wires, so that mutually stable binding states can be maintained.

According to another aspect of the present invention, there is provided a network structure comprising: a mesh network formed in the shape of a historical horno-pyramid that passes vertically; and a support rope connected to corners of the mesh network and upper and lower end edges, And a plurality of through holes formed in the bottom of the net to form a bottom of the net and vertically communicating with the bottom of the net, And a support frame for supporting the plate body. The present invention also provides a marine cage apparatus for abalone culturing.

Thus, the present invention can easily and easily manufacture and assemble the entire plate shape without being easily deformed or damaged, and also can be manufactured easily and inexpensively. It is possible to prevent the abalone from being killed because there is no sagging or sagging, and in the process of removing the foreign material adhering to the bottom part of the mesh with high-pressure water, it is torn by shells such as caves and scallops Can be prevented.

In another preferred embodiment of the present invention, the support frame has a slot in which the support rope coupled to the lower end of the mesh network is inserted, and a retaining jaw in which the edge of the plate is inserted, The joined support rope and the edge of the plate body can be bound by a binding line such as a thread, a string, a string, or a wire to maintain a stable binding state with each other.

Another embodiment of the present invention is a network apparatus comprising: a mesh network formed in a vertically and horizontally extending shape of a pyramid of a history, a mesh network connected to corners of the mesh network, upper and lower end edges, And a plurality of through holes formed in the bottom of the net to form the bottom of the net and passing through the net. We propose a marine cage device for abalone farming.

Thus, the present invention is simple in structure, easy to manufacture and assemble, easy to manufacture, low in production cost, and firmly maintains the shape of the plate without being easily deformed or broken, so that the bottom portion of the mesh It is possible to prevent the abalone from being killed, and in the process of removing the foreign material adhering to the bottom part of the mesh with high-pressure water, it can be prevented from being torn by shells such as claws and scallops have.

The present invention having the means and components for solving the technical problems described above is characterized in that the bottom part of the mesh network is formed of a mesh plate and stably maintains a certain shape without being deformed or damaged even if it receives impact from the outside, It is possible to reduce the mortality of the overturning and to remove the foreign material sticking to the bottom portion of the net with the high pressure water, It can be prevented from being torn by a shell such as a claw or a scallop having a sharp shell like a blade so that the convenience of using it for a long period of time can be achieved.

In addition, since the net is made up of a hornblende shaped like a horn, which gradually widens toward the upper part, when harvesting (picking) the abalone, it is possible to peel the mold or shelter contained in the inside quickly and easily. The convenience can be improved.

In addition, since the bottom edge of the net and the edge of the net plate are inserted into the support frame, the binding force can be strengthened to maintain a mutually stable binding state, and the binding line can be finely finished without any gap or tatter. .

1 is a perspective view of a marine cage apparatus for abalone culturing according to a first embodiment of the present invention.
FIG. 2 is a perspective view showing a marine cage apparatus for abalone culturing according to the first embodiment of the present invention.
FIG. 3 is a vertical sectional view showing a marine cage apparatus for abalone culturing according to Embodiment 1-1 of the present invention.
4 is a perspective view of a marine cage apparatus for abalone cultivation according to the second embodiment of the present invention.
5 is a vertical sectional view showing a marine cage apparatus for abalone culturing according to Embodiment 2-1 of the present invention.
6 is a perspective view of a marine cage apparatus for abalone culturing according to a third embodiment of the present invention.
FIG. 7 is a vertical sectional view showing a marine cage apparatus for abalone culturing according to a third embodiment of the present invention.
FIG. 8 is a vertical sectional view showing a marine cage apparatus for abalone culturing according to Embodiment 3-1 of the present invention.

Hereinafter, embodiments according to the present invention will be described more specifically with reference to the accompanying drawings.

Prior to this, the following terms are defined in consideration of the functions of the present invention, and they are to be construed to mean concepts that are consistent with the technical idea of the present invention and interpretations that are commonly or commonly understood in the technical field of the present invention.

In the following description, well-known functions or constructions are not described in detail to avoid obscuring the subject matter of the present invention.

Herein, the attached drawings are exaggerated or simplified in order to facilitate understanding and clarification of the structure and operation of the technology, and it is to be noted that each component does not exactly coincide with the actual size.

1 and 2, the marine cage apparatus for abalone cultivation according to the first embodiment of the present invention includes a net 10, a mesh plate 20, and a support frame 30.

The net (10) is composed of a horn-shaped pyramid shaped like a string, a string, etc., which are woven into a ring, a crossing point is looped or knotted, and a net having a certain shape and size has a net.

That is, the net 10 is formed in a hollow shape with its inner surface gradually widened toward the upper side and the upper surface and lower surface opened.

The supporting ropes 11 for strengthening the tensile strength and the strength corresponding to the external force while maintaining the stability such that the net 10 forms the historical pyramid shape are provided at the four corners of the net 10, the upper and lower end edges, .

The supporting rope 11 can be neatly and firmly attached to the net 10 by a sewing method such as a weft knitting machine. In particular, the supporting rope 11, which is attached to the four sides of the net 10, At least one or more of the support ropes 11 at the corner portions may be arranged at regular intervals.

A plurality of dragged lines 12 are connected to the upper edge of the net 10 at a predetermined interval so that the net 10 can easily hang on a floating structure floating on the sea surface with a buoyancy on the sea surface, have.

The barred rope 12 may be integrally formed with the support rope 11 by extending a supporting rope 11 attached to the four corners and sides of the net 10 by a predetermined length upward, The rope 11 may be tied at a predetermined interval along the upper edge of the mesh network 10.

The mesh plate 20 forms the bottom of the mesh net 10 and is formed in a plate-like shape in which a plurality of meshes are formed at regular intervals so as to pass vertically and are mounted inside the lower end of the mesh net 10.

The mesh plate 20 is made of a material having a certain weight and not easily corroded by salt or the like and has corrosion resistance and breakage resistance. The mesh plate 20 is formed by injection molding in the form of a mesh or by squeezing a wire at right angles, Of course.

The width of the net plate 20 is slightly smaller than the outermost width of the support frame 30 so that the support rope 11 coupled to the lower end of the mesh net 10 and the mesh plate 20, It is possible to prevent the edge of the support frame 30 from coming out of the outer periphery of the support frame 30.

The support frame 30 is formed in a rectangular or square shape having a predetermined size to support and support the net plate 20 and is mounted on the lower surface of the net plate 20. [

The support frame 30 includes an elbow joint 32 for connecting the two pipes 31 at right angles to each other and a tee joint 33 for connecting in a tee T shape and a tee joint 33 for connecting the elbow joint 32 and the tee joint 33 And is formed in a rectangular frame shape by a straight pipe 31 connected to the frame 31.

The connection ring 32a is formed in the elbow joint 32 so that the support frame 30 is submerged in water so that a separate weight (weight weight) for holding the mesh network 10 in a spread state have.

The support frame 30 is preferably formed of a material having a predetermined weight and corrosion resistance that is not easily corroded by salt or the like, and the entire shape of the support 31, the elbow joint 32, the tee joint 33, The number or arrangement of the components may be appropriately adjusted as necessary.

The maritime cage apparatus for abalone culturing according to the first embodiment of the present invention is characterized in that the support rope 11 attached to the lower end of the net 10 is closely contacted with the edge of the net plate 20 and the support 30, And the bottom part of the net 10 is formed of the mesh plate 20 so as to be able to maintain a stable state of the mesh net 20, Not only the durability and the breakage resistance are excellent but also the bottom part of the mesh 10 is prevented from being sagged or sagged in the water and the foreign matter sticking to the mesh 10 with high pressure water It can be prevented from being torn by a shell such as a claw or a scallop having a sharp shell like a blade.

In addition, as the net 10 is gradually widened toward the upper side, it is shaped like a horn of the history pyramid. Thus, when harvesting (picking) the abalone, it can be easily peeled off so that the formwork frame or the shelter contained therein can be quickly and easily exposed. .

3, the support frame 30 among the components of the maritime cage apparatus for abalone cultivation according to Embodiment 1-1 of the present invention includes support ropes 11 coupled to the lower end of the mesh 10, The support rope 20 is connected to the lower end of the net 10 in order to bind the edge of the net plate 20 with a bundle line S of strings, ropes, strings, wires, cable ties, A slot 35 into which the guide plate 11 is inserted and a latching jaw 36 into which the edge of the net plate 20 is inserted is formed.

That is, the slot 35 is formed in the upper part of the support frame 30 in a shape having a width and a depth corresponding to the outer peripheral surface of the support rope 11 joined to the lower end edge of the mesh net 10, Is formed on the inner upper side of the support frame 30 in a shape having a width and a height corresponding to the rim of the net plate 20.

In addition, since the support frame 30 has a cross-sectional shape having the slot 35 and the engagement protuberances 36, the bending strength can be naturally strengthened to support the net plate 20 more reliably.

Here, among the constituent elements related to the abalone cultured marine cage apparatus according to the embodiment 1-1 of the present invention, those having the same or similar operational effects as those of the above-mentioned embodiment 1 are denoted by the same reference numerals, Repetitive and detailed explanations are omitted.

As shown in FIG. 4, the marine cage apparatus for abalone cultivation according to the second embodiment of the present invention comprises a mesh network 10, a plate body 21, and a support frame 30.

Particularly, the plate body 21 constitutes the bottom of the mesh 20, and is formed in a plate-like shape having a plurality of through-holes passing through the top and bottom at predetermined intervals and is mounted inside the lower end of the mesh 20.

The plate body 21 is made of a material having a certain weight and is not easily corroded by salt or the like and has shape stability and breakage resistance so that it can be easily deformed and damaged even when receiving an external force. It is needless to say that it is possible to drastically and rigidly form a perforated plate by drilling such that a plurality of circular holes are arranged at regular intervals on a plastic plate or a metal plate using injection molding, hole punching machine or perforator.

Here, among the constituent elements related to the marine cage apparatus for abalone breeding according to the second embodiment of the present invention, those having the same or similar operational effects as those of the above-described embodiment 1 are denoted by the same reference numerals, A detailed description thereof will be omitted.

5, the support frame 30 among the components of the maritime cage apparatus for abalone cultivation according to the embodiment 2-1 of the present invention includes support ropes 11 coupled to the lower end of the net 10, A support rope (not shown) coupled to the lower end of the mesh network 10 is provided to bind the edge of the plate body 21 with a bundle line S of strings, ropes, strings, wires, cable ties, 11 are inserted and fitted and a latching jaw 36 into which the edge of the plate body 21 is inserted is formed.

Components having the same or similar operational effects as those of the above-described first and second embodiments among the components related to the maritime cage apparatus for abalone cultivation according to the embodiment 2-1 of the present invention use the same reference numerals, Repetitive and detailed explanations thereof are omitted.

6 and 7, the marine cage apparatus for abalone culturing according to the third embodiment of the present invention comprises a mesh network 10 and a plate body 21. As shown in FIG.

That is, in the marine cage apparatus for abalone culturing according to the third embodiment of the present invention, because the plate body 21 itself has the physical and mechanical characteristics of being robust and stable in shape, unlike the above-described embodiments, The edges of the support rope 11 and the plate body 21 coupled to the lower end of the net 10 are bundled with strings of wire, string, wire, cable ties, etc., Therefore, the structure is simple, and the number of manufacturing and assembling processes and the working time are reduced, thereby improving the productivity and reducing the production cost.

Here, among constituent elements related to the marine cage apparatus for abalone cultivation according to the third embodiment of the present invention, elements having the same or similar operational effects as those of the second embodiment described above use the same reference numerals, A detailed description thereof will be omitted.

8, among the constituent elements of the marine cage apparatus for abalone culturing according to embodiment 3-1 of the present invention, the plate body 21 is supported on the side edges of the four sides by a support A supporting rope 11 coupled to the lower end of the mesh network 10 is formed by forming a seating groove 22 having a width and a depth corresponding to the outer peripheral surface of the supporting rope 11 so as to be inserted into the rope 11, And the edge of the plate body 21 can be bound more easily, stably, and easily to the binding line S of a string, a string, a wire, a cable tie, and the like.

Here, among constituent elements related to the marine cage apparatus for abalone cultivation in accordance with the embodiment 3-1 of the present invention, constituent elements having the same or similar operational effects as those of the above-described embodiments 2 and 3 are denoted by the same reference numerals, Repetitive and detailed explanations thereof are omitted.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments or constructions. Various changes and substitutions may be made without departing from the spirit and scope of the invention. It will be obvious to those skilled in the art that the present invention can be widely applied to other embodiments.

Therefore, it is to be understood that modifications and variations of the features of the present invention are intended to be included within the spirit and scope of the present invention.

10: mesh 11: support rope
12: Slot 20: Mesh plate
21: plate body 22: seat groove
30: support frame 31: pipe
32: elbow joint 32a: connecting ring
33: Tee joint 35: Slot
36: Hanging jaw S: Bonding line

Claims (5)

A mesh (10) formed in the shape of a pyramid of historical hi-fi;
A support rope (11) attached to each of four corners of the mesh network (10), upper and lower end edges of the mesh network (10), and a quadrilateral surface to maintain the mesh network (10)
A plurality of barb lines 12 connected to the upper end of the mesh 10 at regular intervals;
A plate-shaped net plate 20 mounted inside the lower end of the net 10 to form the bottom of the net 10 and having meshes for vertically passing therethrough; And
A support frame 30 mounted on a lower surface of the net plate 20 to support the net plate 20;
Wherein the support frame 30 includes a support rope 11 coupled to a lower end edge of the mesh net 10 and an edge of the net plate 20 with a bundling line S, A slot 35 in which the support rope 11 is fitted and a hooking jaw 36 into which the edge of the net plate 20 is inserted is formed on the lower end of the net 10, And a connecting hook (32a) for hanging a weight (weight weight) for maintaining the opened state of the cage.
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