KR20210048235A - A Shelter For Abalone Culture. - Google Patents

Abstract

The present invention is composed of a lower shelter in which one or more of plates attached with abalone spats or big size abalone are spaced apart in the lateral direction at regular intervals and fixed by a fixed pipe, and an upper shelter installed on the upper part of the lower shelter and supplied with abalone feed. The side of the corner of the upper shelter is fixed with the lower shelter by fixing through a hinge to prevent the loss of food fed to the upper part of the upper shelter, and prevent sunlight from penetrating into the lower shelter by the upper shelter, thereby being able to reduce the stress of abalone.

Description

Semi-fixed multiple shelter for abalone culture {A Shelter For Abalone Culture.}

The present invention relates to a semi-fixed multi-shelter for abalone aquaculture, and more particularly, a lower shelter in which one or more wave plates installed in a row at regular intervals are fixed with a fixed pipe, and an upper shelter of a slate plate frame having an uneven structure on the upper part of the lower shelter. It relates to a semi-fixed multi-shelter for abalone farming that can block direct irradiation of sunlight to abalone living inside the shelter by fixing it.

Abalone is a mollusk belonging to the abalone family (Haliotidae ) and the genus Haliotis , and more than 100 species are known worldwide. The main species distributed along the coast of Korea include Korean abalone, horse abalone, black abalone, Sibolt abalone, Obunjagi and Madaeobunjagi.

With the development of seedling production technology, abalone farming has been carried out by subsidence farming methods using chariots and rafts in bottom farming, land water tank farming, and subsidence farming methods using subsidence breeders in East coastal areas where flooding facilities are not available. Aquaculture methods have been developed. Abalone farming technology is reducing the amount of natural harvesting of marine organisms such as gastropods such as abalone and conch and sea cucumbers due to reckless overfishing and pollution of coastal waters, and the technology for aquaculture of these marine organisms is still being improved to this day.

Conditions for efficient abalone farming at sea include 1) a place with good seawater distribution and algae communication 2) an area with little freshwater inflow and no risk of red tide, and 3) maintenance of facilities even during storms and typhoons. 4) The water temperature in winter is 8℃ or higher, and the maximum water temperature in summer is 28℃, such as maintaining an appropriate amount of illumination to minimize the stress of abalone.

Most abalone farming methods are cages, which can be classified into surface layer, semi-submersible type, and submerged type, depending on the facility method. In a conventional surface cage aquaculture facility, a buoy or anchor is mounted on a moxibustion frame of a certain size to float to the water surface, and the cage net is fixed to the moxibustion frame. In addition, in order to prevent the net from being pulled or floated by the tide, a lower frame formed in a certain size is attached to the bottom of the net to keep the net bottom flat.

In the cage net, a shelter is put in which aquaculture organisms can live, and food is deposited on the upper part of the shelter to feed it. Abalone is nocturnal, so it moves to the upper part of the shelter at night for feeding, and during the daytime from 5 am to 19:00 pm, the activity is less, so it is attached inside and outside the shelter to take a rest and move to the bottom layer due to the nature of hiding in a dark place. Sometimes it does.

The shelter may consist of a shelter having a bone structure and a shelter having a wave plate structure so as to satisfy the characteristics of the abalone as described above. In the bone structure, a number of through holes are formed in the slate plate of the uneven frame so that the abalone can enter and exit the upper and lower parts, and in the wave plate structure, a plurality of wave plates with through holes formed in the middle part to enable seawater distribution are installed and connected in the horizontal direction. It is formed in a wave plate structure fixed to the pipe.

However, the shelter structure as described above is installed on the sea, and when feeding by algae, seaweed feed such as kelp and seaweed is separated from the upper part of the shelter by the algae, so that it is likely to settle to the bottom of the cage net or be lost. Loss of food is the main cause of a decrease in the growth rate of abalone and an increase in feed consumption, and the food that has settled to the bottom decomposes as waste over time and releases toxic compounds as it meets the pearls of the seabed.

In the case of the wave plate structure shelter, the wave plate side part to which the abalone is attached is installed in a direction perpendicular to the ground and is easily exposed to sunlight. Therefore, abalone preferring to be dark in the summer may move to the sea layer to avoid sunlight and hide in places where there are many contaminated food foreign substances, virus insects, etc., or go down to the bottom of the shelter and cause mass death due to toxic compounds. .

Therefore, in order to prevent the above problem, it is suitable in a marine environment that can be greatly affected by weather changes and currents such as typhoons, and it is possible to prevent the loss of abalone feed from the upper part of the shelter, and to increase the sun protection rate inside the shelter. Shelter development is needed.

Domestic Patent Registration No. 10-0505932 has a slit shape that can be used for both raw and mixed feed, and the top plate and the bottom plate are formed integrally at the top and bottom of each symmetrical inclined surface to be used as both raw and blended feeds, resulting in a continuous "c"-shaped uneven structure. Disclosed is a shelter for abalone farming that can be configured to lead to abalone feeding activities so as not to be stressed. In Korean Patent Laid-Open No. 10-2012-0009226, a plurality of upper and lower shelters are integrally assembled by a plurality of vertical and horizontal support members in a state in which each shelter is continuously installed in the horizontal direction to form a shelter structure for complex aquaculture. The inverted V-type and the V-type are formed in a continuous form, but the feed inlet hole in the vertical direction is formed through the upper bent portion of the inverted V-type and the movement of individuals and birds on the inclined sidewalls of the inverted V-type and V-type. A plurality of horizontal communication holes are formed, and the lower shelter has a concave round portion having a predetermined depth in a continuous shape, but a boundary portion having a predetermined height is formed between the left and right concave round portions, and the upper surface of the boundary portion is formed with a predetermined depth. It is formed to have a horizontal cross-sectional portion having a width, the side portion of the round portion and the horizontal cross-sectional portion is disclosed with respect to a shelter structure for a complex aquaculture in which a through hole of a predetermined size is formed. In Korean Patent Registration No. 10-1231136, an attachment parent body formed in a semi-cylindrical shape, formed through the central part of the attachment parent body, and a moving hole for movement of the abalone toothplate, and formed on both sides of the attachment parent body to connect the attachment parent body. It includes a fastening part through which the string can pass and two supports that are coupled to the upper sides of both sides of the attachment mother body by a string penetrating the fastening part to connect the four attachment mother bodies, and the material of the attachment mother body is polyvinyl chloride ( It is disclosed with respect to the abalone aquaculture shelter made of pvc). In Korean Patent Registration No. 10-1378932, a plurality of culture plates are arranged in a row and each has a moving hole, a culture plate connecting rod connecting a plurality of culture plates to each other, and a plurality of culture plates each formed. It is configured to include an abalone moving platform supported through the moving hole. Accordingly, there is disclosed a culture plate assembly for abalone culture that can easily move the abalone between a plurality of culture plates to improve an eating environment. However, the above-mentioned prior literature describes the loss of food fed to the shelter by fixing one or more waveplates installed at regular intervals in a row with a fixed pipe, and the upper shelter of the slate plate frame having an uneven structure on the upper part of the shelter. It is different from the effect of preventing sunlight from being directly irradiated to the abalone living inside the shelter.

The present invention can prevent loss of food by installing an upper shelter for feeding feed and a food fixing frame at the upper part of the lower shelter made of a plurality of wave plates to which the chipped and the seed plate are attached, and the abalone is at the upper bent portion of the upper shelter. A moving hole is formed to move inside and outside the shelter, and a blocking frame formed with an upper bent and inclined structure at a certain angle is formed in the moving hole to block light that can prevent sunlight from entering the shelter and scattering underwater. We would like to provide an efficient semi-fixed multiple shelter for abalone farming.

The present invention provides a lower shelter in which one or more wave plates to which the chipping or the successor of the abalone are attached are spaced apart at a certain interval and installed in a row and fixed by a fixed pipe; An upper shelter installed on the upper part of the lower shelter to feed abalone; It provides a semi-fixed multi-shelter for offshore abalone farming, in which at least one hexahedral unit formed of a vertical member and a horizontal member is connected to each other to form a multi-level structure, and a feed fixing frame is installed on the upper part of the upper shelter.

In the upper shelter, at least one slate plate having an uneven structure is continuously formed in a row direction, and a moving hole and a rope mounting hole are formed in the upper bent portion. The upper shelter may be formed vertically 180 degrees upward with respect to the lower shelter, or may be formed at an angle of 45 degrees and at an angle.

In addition, the upper shelter and the lower shelter are made of polyvinyl chloride, and in the feed fixing frame, at least one hexahedral unit is connected horizontally and vertically and connected vertically and transversely to form a multistage structure. Support is installed and connected to the upper part of the upper shelter.

In another embodiment of the present invention, an upper frame and a lower frame formed in an appropriate size of a polygon are installed to be spaced apart from each other at a predetermined interval in the upper and lower portions; In the spaced space of the upper and lower facility frames and the lower surface of the lower frame, a net formed in a certain size is formed; Buoys for buoyancy are installed on the left, right or front and rear sides of the upper facility frame, and a semi-fixed multi-shelter for offshore abalone aquaculture is provided in a space that can accommodate one or more semi-fixed multi-shelters for abalone aquaculture in the inner space of the net. do.

In the present invention, the present invention can reduce the leakage of breakage and rollover caused by the separation of the upper and lower shelters in an offshore environment where a fixed rope connects the upper shelter and the lower shelter to be greatly affected by the flow of typhoons and seawater. . In addition, the upper shelter can prevent sunlight from penetrating into the shelter, so that abalone, a nocturnal organism, can reduce the stress received by sunlight. There is an effect of preventing movement to the largely distributed floor.

1 shows a perspective view of a semi-fixed multi-shelter for abalone culture of the present invention.
2 shows the upper shelter of the semi-fixed multi-shelter for abalone culture of the present invention.
3 shows the bottom shelter of the semi-fixed multi-shelter for abalone culture of the present invention.
4 shows an embodiment of a semi-fixed multi-shelter for abalone culture of the present invention.
5 shows an embodiment of a semi-fixed multi-shelter for abalone culture of the present invention.

Hereinafter, with reference to the detailed configuration of the semi-fixed multi-shelter for abalone culture of the present invention and the accompanying drawings will be described in detail as follows.

1 shows a perspective view of a semi-fixed multi-shelter for abalone culture of the present invention. The semi-fixed multi-shelter for abalone culture of the present invention is a shelter design excellent for growth and survival by supplementing the disadvantages of the existing marine floating cage. It is possible to form an abalone more stably and efficiently by fixing the lower shelter 20 formed by fixing through and fixing the upper shelter 10 formed in an uneven structure on the upper part of the lower shelter.

The material of the constituent device constituting the semi-fixed multi-shelter for abalone farming is made of PE or polyvinyl chloride (PVC), and PVC has a higher specific gravity than water, so that the bone shelter of the present invention made of PVC falls below the sea level. It can be locked, and it is economical because it is used semi-permanently. The size of the present invention was manufactured and used as a frame of 2.4m X 2.4m X 1.5m, which is the same as a general abalone cage.

In addition, since the shelter can be modularized using the upper cover and the lower shelter, it is easy to manufacture, and because the shelter is easily separated due to the assembly-type structure of each component, cleaning, repair, and management are easy, and the abalone peeling operation and storage are easy. .

2 shows the upper shelter of the semi-fixed multi-shelter for abalone culture of the present invention. The upper shelter 10 of the present invention has a shape of narrowing the width toward the upper side, and is formed in a concave-convex structure in which one or more slate plates forming a pyramid shape in the front direction are connected in a horizontal direction. A connection frame may be formed under the sidewall of the top plate on which the continuous surface ends to facilitate connection with the device installed at the bottom in the horizontal direction.

A plurality of fixing holes 13 may be formed in the connection frame to be connected and fixed with the lower shelter installed under the upper shelter by a hinge or a fixing rope or other fixing device. One or more moving holes 11 and rope mounting holes 12 may be formed in the upper bent portion forming the inverted V-shape of the upper shelter frame so that aquaculture organisms can move into and out of the frame. The rope mounting hole not only serves as a water outlet to allow seawater to flow smoothly into and out of the shelter, but also serves to mount a fixed rope.

The upper shelter is installed on the upper part of the lower shelter, and the fixed rope or hinge is combined with the rope hole groove of the upper shelter and the side edge of the lower shelter. The hinge is formed to be coupled with a portion of one side of the lower shelter, and the side of the upper shelter at the center portion is formed to be placed on the upper surface of the lower shelter.

The upper bent portion of the upper shelter is flat and has a smooth surface, so it is a frame that allows the device to be separated easily due to the separation of the fixed rope due to the flow of seawater or the influence of the weather (typhoon). Even in the environment, it is possible to prevent the upper shelter from being separated from the fixed rope.

As an intermediary device that connects the fixed pipe and the top surface of the upper shelter, the fixing force can be increased by passing a fixing device through the fixing hole in addition to the fixing rope, and the number of fixing devices and the number of installations and the presence or absence of installation can be selected according to the shelter. .

Fixed rope prevents the loss of feed and the generation of toxic gases caused by mixing of feed waste and pearl by holding the sinking to the bottom due to the shaking caused by the seawater flow when food such as seaweed is fed to the top. I can.

Figure 3 shows the bottom shelter of the semi-fixed multi-shelter for abalone culture of the present invention. In the lower shelter 20 of the present invention, one or more wave plates 23 made of polygonal plate-shaped frames are spaced apart and installed in a row, and a fixing pipe 22 penetrates the wave plate and is fixed by a binding tool 21 Is done.

The wave plate is a frame that can be attached to the top and bottom edges of the abalone, and a pipe fixing hole 24 through which a fixing pipe passes is formed at the upper and lower edges, and a seawater flow hole 25 is formed in the middle part to prevent the flow of seawater and With good bird communication, it can maintain a good abalone farming environment.

The fixing pipe 22 may be formed of a horizontal member and a vertical member in the form of a pipe frame. The horizontal member penetrates the upper and lower pipe fixing holes in the longitudinal direction to fix at least one wave plate, and the end portion of the penetrating horizontal member is connected via a binding tool 31 with a horizontal member and a vertical member installed in the transverse direction. Form a lower shelter unit.

The lower shelter unit formed with the above-described connection structure increases the fixing force so that the device is not deformed or damaged when the wave plate is installed in a vertical direction and a resistance force is generated by the seawater flow direction.

The lower shelter unit can increase the attachment area of abalone in the form of an apartment, and it is easy to add and remove waveplates, so the number of cultured populations can be adjusted.

Figure 4 shows an embodiment of the blocking frame of the semi-fixed multi-shelter for abalone culture of the present invention. The device constituting the present invention is formed of a PVC material and undergoes an injection molding process, so that the possibility of breakage is low due to high flexibility at sea.

The upper shelter of the present invention is formed to be vertically 180 degrees upward with respect to the lower shelter. As the upper cover is formed vertically, the tangle and seaweed (abalone feed) supplied to the lower shelter are prevented from being pulled to one side according to the algae formed around the shelter. This is good.

In addition, it is possible to effectively utilize the habitat space of abalone by blocking direct sunlight entering the water, and space competition between abalone creatures is less due to the increase of the habitat area as it is vertically erected as in the present invention.

In other words, by fixing one edge of the upper shelter combined with a hinge formed at the upper edge of the lower shelter, the upper shelter can be vertically erected, supplying food such as kelp to the space formed by the upper edge of the left and right sides. The dried kelp and seaweed (abalone feed) are prevented from being pulled to one side.

Aquaculture organisms can move to the outside of the upper shelter through the space formed by spaced apart from the upper bent part of the upper shelter, and due to the nature of the abalone culture, which has the habit of avoiding light by preventing sunlight from passing through the moving hole, There is an advantage of increasing growth efficiency by reducing the stress of cultured organisms caused by sunlight.

In addition, since it is formed on the inner surface of the moving hole in the upper shelter, it has a better effect of blocking efficiency when transmitted through the moving hole due to the characteristic of sunlight that is transmitted from multiple angles compared to that formed by protruding from the outside.

5 shows an embodiment of a semi-fixed multi-shelter for abalone farming of the present invention. In the uppermost part of the semi-fixed multi-shelter for abalone culture of the present invention, the upper shelter is formed at an angle of 45 degrees with respect to the lower shelter and can be fixedly installed. In the case where the seawater flows in the horizontal direction, it is sufficient to install the feed fed to the upper shelter by vertical or horizontal installation as shown in FIG. 1 or 4.

However, when seawater flows in a multi-angle direction other than the horizontal direction, the upper shelter receives flow velocity resistance and becomes unstable. Therefore, it is recommended that the upper shelter has a slope given a certain angle. Because of the slope, it prevents the flow of algae in directions other than the horizontal direction, and prevents the fed food from escaping from the upper shelter.

In addition, aquaculture organisms can move to the outside of the upper shelter through the space formed by spaced apart from the upper bent part of the upper shelter, and the abalone culture has the habit of avoiding light by preventing sunlight from being transmitted to the inside through the moving hole. , It has the advantage of increasing growth efficiency by reducing the stress of cultured organisms caused by sunlight.

Since it is formed on the inner side of the moving hole in the upper shelter, it has a better effect of blocking efficiency when it is transmitted through the moving hole due to the characteristic of solar light that is transmitted from multiple angles compared to that formed by protruding from the outside.

In the aquaculture facility equipped with the apartment-type shelter for abalone culture of the present invention, the upper frame and the lower frame formed with a polygonal diameter are installed at a certain interval in the upper and lower frames, and the spaced space formed by the upper and lower frames and the lower part of the lower frame A net is formed on the side to prevent the outflow of the farming organisms or the growth or failure of the shelter, and the buoys are connected to the left, right or front or rear of the upper frame to give buoyancy to the aquaculture facility, and the inside of the net. A space capable of accommodating one or more semi-fixed multiple shelters for abalone farming may be formed in the space.

By using a semi-fixed multi-shelter for abalone farming or abalone farming to cultivate abalone cultivation, the food fixing frame prevents the food from being placed on the upper part of the shelter during abalone farming, so that the food is settled to the bottom by the ocean currents and feeding efficiency. This deterioration or the generation of toxic gas that forms when encountering pearls while the feed waste is corroded can be prevented, and the production of healthy abalone by blocking the sunlight that penetrates inside the shelter can increase the productivity of the abalone aquaculture industry. The expansion of the base and the development of the fishery sector can contribute to increasing the income of fishermen by enhancing the international competitiveness of water and aquaculture technology, so there is a possibility of industrial use.

10: upper shelter 11: moving hole
13: fixed hole 20: lower shelter
21: binding tool 22: fixed pipe
23: wave plate 24: pipe fixing hole
25: seawater flow hole

Claims (6)

A lower shelter in which one or more hexahedral units formed of a vertical member and a horizontal member are connected to and fixed to at least one wave plate, wherein the waveplates of the abalone or the waveplates attached to it are fixed at regular intervals;
Semi-fixed multi-shelter for abalone aquaculture, characterized in that it consists of an upper shelter in which one or more slate plates of an uneven structure are continuously formed in the row direction on the upper part of the lower shelter
The semi-fixed multi-shelter for abalone culture according to claim 1, wherein a moving hole is formed in a side portion of the upper shelter and a fixing hole is formed in a bent portion.
The semi-fixed multi-shelter for abalone culture according to claim 1, wherein the upper and lower shelters are made of PE or polyvinyl chloride.
A lower shelter in which one or more hexahedral units formed of a vertical member and a horizontal member are connected to and fixed to at least one wave plate, wherein the waveplates of the abalone or the waveplates attached to it are fixed at regular intervals; An upper shelter in which one or more slate plates having an uneven structure are continuously formed in a row direction on an upper part of the lower shelter;
The upper shelter is a semi-fixed multi-shelter for abalone aquaculture, characterized in that the upper shelter is formed vertically 180 degrees upward with respect to the lower shelter, or has an angle of 45 degrees and is formed obliquely.
The upper frame and the lower frame formed in an appropriate size of the polygon are installed to be spaced apart from each other at a predetermined interval in the upper and lower portions; A net formed in a certain size is formed in the spaced space of the upper and lower facility frames and the lower surface of the lower frame; A cage for offshore abalone farming consisting of a space capable of accommodating one or more semi-fixed multiple shelters for abalone farming in the left, right or front and rear sides of the upper facility frame, and in the inner space of the net.
The method of claim 5, wherein the semi-fixed multi-shelter for abalone aquaculture comprises: a lower shelter in which one or more wave plates to which the chipping or the successor is attached are spaced apart at a certain interval and installed in a row and fixed by a fixed pipe; An upper shelter installed on the upper part of the lower shelter to feed abalone; A cage for marine abalone farming, characterized in that a feed fixing frame that forms a multistage structure by connecting one or more hexahedral units formed of a vertical member and a horizontal member is installed on the upper part of the shelter.

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