KR102424562B1 - A Frame Assembly for Cultivating Oyster - Google Patents

Abstract

The present invention relates to a nest formation frame assembly, comprising a first frame comprising a rectangular line segment, a diagonal line connecting opposite vertices, and provided at each vertex of the first frame, the first frame comprising: A first object frame comprising a first through hole penetrating vertically and a first fastening part formed to protrude outward from a center point of each line segment of the first frame, and a rectangular shape provided below the first object frame. A second frame formed of a diagonal line connecting the line segment of and the opposite vertices, and located upward from each vertex of the upper surface of the second frame, the upper portion is connected to the first through hole, and a second through hole having a threaded line therein is provided. A first connection portion, a third through hole provided at each vertex of the lower surface of the second frame and penetrating the second frame vertically, and a second fastening formed by protruding outward from the center point of each line segment of the second frame a second placeholder including a part; a bag positioned between the first placeholder and the second placeholder and having a nest provided therein; and a first object passing through the first fastening part and the second fastening part a first fastening bar connecting the frame and the second object frame; a second fastening bar formed in a cylindrical shape to be coupled to the first through hole, the second through hole, and the third through hole and provided with a screw thread on an outer surface thereof; , characterized in that it comprises a nut portion for fastening the nut to the lower end of the second fastening bar.

Description

{A Frame Assembly for Cultivating Oyster}

The present invention relates to a nest formation frame assembly, and more particularly, a nest formation frame assembly capable of height adjustment is manufactured, which can be adjusted according to the depth of the sea and can be used regardless of the influence of waves or currents. In addition, the present invention relates to a nest formation frame assembly in which only the intermediate frame can be easily exchanged even if the intermediate frame is rusted or damaged by manufacturing a nest formation frame assembly that can be easily dismantled and exchanged.

Oysters are called the milk of the sea because they contain a lot of essential amino acids among proteins. It is rich in calcium and vitamins A, B, and C, so you can have white and smooth skin. In addition, eating a lot of oysters can prevent various adult diseases such as high blood pressure, stroke, arteriosclerosis, liver disease, and cancer. Natural oysters grow by attaching themselves to pine branches in the tidal flat, and grow slowly and small in size because they are submerged in seawater only at high tide and exposed to sunlight at low tide, rather than being always submerged in seawater.

On the other hand, cultured oysters raised by humans are always submerged in seawater, so they grow faster and their size when grown is much larger than that of wild oysters. The shape of the oyster is also wider than that of a wild oyster, and there are more black parts on the edge of the oyster. However, in terms of nutrition, there is no difference at all from wild oysters. For this reason, farmed oysters that are raised by humans are preferred over wild oysters, which are insufficient for many people because the quantity is small.

The most commonly used method of cultured oysters is the method of cultivating oysters by hanging them on a rope. The submerged cultured oysters were developed for mass production in 1969 and have been developed rapidly industrially. The production is highest in Gyeongsangnam-do, followed by Jeollanam-do. The southern coast is not deep, and it is a rias-type coast, with a lot of capes and bays, so the flow is gentle, so it is an optimal environment for cultivating oysters.

However, the drop-off method using ropes has a very high loss rate due to a drop-off phenomenon caused by natural disasters such as typhoons or waves. And because it is cultivated in lumps, morphological commerciality and nutritional value are low, so there are many environmental and economic problems.

On the other hand, in drop-down aquaculture using a nest breeding frame, an appropriate amount is stocked one by one and cultured. Therefore, the growth rate is fast and the size and shape of oysters at maturity are much larger than those of conventional sub-cultured oysters. In addition, compared to wild oysters, there is no significant difference in nutrition in terms of nutrition and it is more economically superior to growing in tubers.

However, the existing oyster cultivation frame used for submerged cultured oysters has the following problems.

Depending on the depth of the sea, the height of the nesting frame cannot be adjusted, and even if it can be adjusted, there is a problem that the assembly and disassembly procedure is complicated and cumbersome.

Also, there was a problem of rusting by seawater.

Registered Patent No. 10-1464243

In order to solve the above-mentioned problems, an object of the present invention is to adjust the height of the burrow training frame according to the depth of the sea to assemble the burrow training frame at a desired height, and it can be used regardless of the influence of waves or currents. , to provide a nesting frame assembly that can be easily dismantled and exchanged even if it is rusted by seawater.

In order to achieve the above object, the present oyster breeding frame assembly according to the present invention includes a first frame formed of a rectangular line segment, a diagonal line connecting opposite vertices, and provided at each vertex of the first frame, A first object frame comprising a first through hole penetrating the frame vertically, a first fastening part protruding outward from a center point of each line segment of the first frame, and a first object frame provided below the first object frame, , a second frame consisting of a rectangular line segment and a diagonal line connecting the opposite vertices, located upward from each vertex of the upper surface of the second frame, and the upper portion is connected to the first through hole, and a second through hole having a thread formed therein; A first connecting portion provided, a third through hole provided at each vertex of the lower surface of the second frame and penetrating the second frame vertically, and a third through hole protruding outward from the center point of each line segment of the second frame a second placeholder including two fastening parts; a bag positioned between the first placeholder and the second placeholder and having a nest provided therein; A first fastening bar connecting the first and second object frames, and a second cylindrical shape to be coupled to the first through hole, the second through hole, and the third through hole, the second having a screw thread on its outer surface It may be configured to include a fastening bar and a nut portion for fastening a nut to a lower end of the second fastening bar.

Between the first placeholder and the second placeholder, a third frame formed of a rectangular line segment and a diagonal line connecting the opposite vertices, is located upward at each vertex of the upper surface of the third frame, and the upper part is through the first A second connection part connected to the ball and provided with a fourth through-hole having a threaded line therein, and a fifth through-hole provided at each vertex of the lower surface of the third frame and penetrating the third frame vertically A third placeholder can be added.

The third placeholder and the second placeholder may be repeatedly installed under the first placeholder.

The first connection part, a column-shaped first fixing part positioned at each vertex of the second frame upper surface, is located on the upper surface of the first fixing part, and has the same size as the outer peripheral surface of the lower part of the first through hole It may be configured to include a second fixing part in the shape of a column.

The buoyancy body is positioned at the sea level, and one end is connected to the lower surface of the buoyancy body, and the other end may be configured to include a rope connected to the upper end of the second fastening bar.

In the individual den fortification frame assembly according to the present invention, the following effects are obtained.

It has the advantage of being able to use it regardless of the influence of waves or currents as it can be adjusted to the desired height by adjusting the height of the nesting frame according to the depth of the sea. In addition, even if it is rusted by seawater, there is an advantage that simple disassembly and replacement and assembly are possible.

1 is an assembly of an individual den fortification according to the present invention.
Fig. 2 is an assembly of a nest formation frame to which a third placeholder according to the present invention is added.
Fig. 3 is a nest formation frame assembly in which a third placeholder and a second placeholder are repeated according to the present invention;
4 is a perspective view of a first placeholder according to the present invention;
5 is a perspective view of a second placeholder according to the present invention;
6 is a perspective view of a third placeholder according to the present invention;
7 is a plan view of a first placeholder according to the present invention;
Fig. 8 is a plan view of a second placeholder according to the present invention;
9 is a plan view of a third placeholder according to the present invention;
Figure 10 is a plan view excluding the buoyancy body, the rope portion and the bag in Figure 1 according to the present invention.
11 is a cross-sectional view of a first placeholder taken along line A-A' of FIG. 7 according to the present invention;
12 is a cross-sectional view of a second placeholder taken along line B-B' of FIG. 8 according to the present invention;
13 is a cross-sectional view taken along line C-C' of FIG. 10 according to the present invention.
14 is a second fastening bar according to the present invention.

Hereinafter, a preferred embodiment of the nesting frame assembly according to the present invention will be described in detail with reference to the accompanying drawings.

The present invention relates to a nest formation frame assembly, which has a first frame (1100) consisting of a rectangular line segment and a diagonal line connecting opposite vertices, and is provided at each vertex of the first frame (1100). , a first through hole 1300 penetrating vertically through the first frame 1100, and a first fastening part 1400 formed to protrude outward from the center point of each line segment of the first frame 1100. a first placeholder 1000 constituted by (2100) A first connecting portion 2200 positioned upward at each vertex of the upper surface and having an upper portion connected to the first through-hole 1300 and provided with a second through-hole 2230 having a thread formed therein; 2 The third through-hole 2300 provided at each vertex of the lower surface of the frame 2100 and penetrating the second frame 2100 vertically, and the second frame 2100 protrude outward from the center point of each line segment A second placeholder 2000 is formed including a second fastening part 2400, and is positioned between the first placeholder 1000 and the second placeholder 2000, and a nest is provided therein. a bag 3000, a first fastening bar 4000 that passes through the first fastening part 1400 and the second fastening part 2400 to connect the first placeholder 1000 and the second placeholder 2000 ), and the first through hole 1300, the second through hole 2230 and the third through hole 2300 formed in a cylindrical shape to be coupled to the second fastening bar (5000) provided with a screw thread on the outer surface. And, it may be configured to include a nut portion 6000 for fastening the nut to the lower end of the second fastening bar (5000).

First, the first placeholder 1000 is provided in the nest formation frame assembly of the present invention. The first placeholder 1000 constitutes the body of the nest formation frame assembly according to the present invention, and is located at the top of the nest formation frame assembly.

A first frame 1100 is provided in the first placeholder 1000 . The first frame 1100 is configured to include a diagonal line connecting opposite vertices to the rectangular skeleton. This is to protect the upper surface of the bag 3000 containing the individual burrows, which will be described below.

A first through hole 1300 is provided at each vertex of the first frame 1100 . The first through hole 1300 vertically penetrates the vertex of the first frame 1100 . The first through-hole 1300 is a 1-1 through-hole 1301 located at an upper vertex of one side of the first frame 1100, and a 1-2 through-hole located at the upper vertex of the other side of the first frame 1100. The ball 1302, the 1-3 through-holes 1303 located at the lower vertex of one side of the first frame 1100, and the 1-4 through-holes 1304 located at the lower end of the other side of the first frame 1100. can be distinguished as A thread corresponding to the second fastening bar 5000 to be described below is formed in the first through hole 1300 . This is for coupling the first through hole 1300 and the second fastening bar 5000 to be described below.

A first fastening part 1400 protruding outward is provided at a central point of each line segment of the first frame 1100 . The first frame 1100 is a 1-1 fastening part 1401 located at the center point of the line segment provided in front of the first frame 1100, and the center point of the line segment provided on one side of the first frame 1100. The first 1-2 fastening part 1402 positioned at the rear of the first frame 1100, the 1-3 fastening part 1403 positioned at the center point of the line segment provided at the rear of the first frame 1100, the line segment provided on the other side of the first frame 1100 It can be divided into the 1-4th fastening part 1404 located at the center point of . The first fastening part 1400 may be formed in a semicircle shape or a ring shape. This is to allow the first fastening bar 4000 to be described below to pass through the first fastening part 1400 .

A second placeholder 2000 is provided in the nest formation frame assembly of the present invention. The second placeholder 2000 constitutes the body of the nest formation frame assembly according to the present invention, and is located at the lower end of the nest formation frame assembly.

A second frame 2100 is formed on the second placeholder 2000 . The second frame 2100 is configured to include a diagonal line connecting opposite vertices to the rectangular skeleton. This is to protect the lower surface of the bag 3000 containing the individual burrows, which will be described below.

At each vertex of the upper surface of the second frame 2100, a first connecting portion 2200 erected upward is provided. The first connection part (2200), the first 1-1 connection part 2201 located at one upper vertex of the upper surface of the second frame 2100, and the second one- 2 connection part 2202, a 1-3 connection part 2203 located at one lower vertex of the upper surface of the second frame 2100, and a 1-4 connection part located at the other lower vertex of the upper surface of the second frame 2100 (2204) can be distinguished. The first connection part 2200 is formed in a column shape. This is to protect the bag 3000 and to be connected to the first placeholder 1000 .

A first fixing part 2210 is provided on the first connection part 2200 . The first fixing part 2210 constitutes the lower body of the first connecting part 2200 . The first fixing part 2210 is located at each vertex of the upper surface of the second frame 2100 . In addition, the first fixing part 2210 is formed in a column shape. This is to protect the side surface of the bag 3000, which will be described below.

A second fixing part 2220 is provided on the first connection part 2200 . The second fixing part 2220 constitutes the upper body of the first connecting part 2200 . The second fixing part 2220 is located on the upper surface of the first fixing part 2210 . The second fixing part 2220 is formed in a shape corresponding to the lower portion of the first through hole 1300 . This is so that the first connection part 2200 is connected to the first object frame 1000 .

A second through hole 2230 is provided inside the first connection part 2200 . The second through hole 2230 vertically penetrates the inside of the first connection part 2200 . The second through hole 2230 includes a 2-1 through hole 2231 located inside the 1-1 connection part 2201 and a 2-2 through hole located inside the 1-2 connection unit 2202 . (2232), the 2-3th through-hole 2233 located inside the 1-3 connection part 2203, and the 2-4th through-hole 2234 located inside the 1-4th connection part 2204. can be distinguished. The second through hole 2230 is formed with a thread corresponding to the second fastening bar 5000 to be described below. This is for coupling a second fastening bar 5000 to be described below to the second through hole 2230 .

A third through hole 2300 is provided at each vertex of the second frame 2100 . The third through hole 2230 vertically penetrates the vertex of the second frame 2100 . The third through-hole 2230 is a 1-1 through-hole 1301 positioned at an upper vertex of one side of the second frame 2100 , and a 1-th through-hole 1301 positioned at an upper vertex of the other side of the second frame 2100 . 2 through-holes 1302, 1-3 through-holes 1303 located at the lower vertex of one side of the second frame 2100, and 1-4 through-holes located at the lower end of the other side of the second frame 2100 Ball 1304 can be identified. In addition, a thread corresponding to the second fastening bar 5000 to be described below is formed in the upper portion of the third through hole 2300 . This is to be coupled with the second fastening bar 5000 to be described below. A lower portion of the third through hole 2300 is formed to have a shape corresponding to an upper portion of the second connection portion 7200 to be described below. This is to connect the lower portion of the third through hole 2300 and the third placeholder 3000 to be described below.

A first fastening part 1400 protruding outward is provided at a center point of each line segment of the second frame 2100 . The first fastening part 1400 includes a 2-1 fastening part 2401 positioned at the center point of the line segment provided in front of the second frame 2100, and a line segment provided on one side of the second frame 2100. The 2-2 fastening part 2402 located at the center point, the 2-3 fastening part 2403 positioned at the center point of the line segment provided behind the second frame 2100, and the second frame 2100 It can be divided by the 2-4th fastening part 2404 located at the center point of the line segment provided on the other side. The second fastening part 2400 may be formed in a semicircle shape or a ring shape. This is for the first fastening bar 4000 to be described below to pass through the second fastening part 2400 .

Then, the bag 3000 is provided inside the second frame 2100 . The bag 3000 may be formed in a circular mesh shape. An individual cave is provided inside the bag 3000 .

In addition, a first fastening bar 4000 penetrating the first fastening part 1400 and the second fastening part 2400 is provided. The first fastening bar 4000 includes a first fastening bar 4100 passing through the 1-1 fastening part 1401 and the 2-1 fastening part 2401, and the 1-2 fastening part ( 1402) and a second fastening bar 4200 penetrating through the 2-2 fastening part 2402, and a third passing through the 1-3 fastening part 1403 and the 2-3th fastening part 2403. It can be divided into a fastening bar 4300 , a fourth fastening bar 4400 penetrating through the 1-4 fastening part 1404 and the 2-4th fastening part 2404 . A lower portion of the first fastening bar 4000 may be formed in a cylindrical shape. This is to pass through the first fastening part 1400 and the second fastening part 2400 . An upper portion of the first fastening bar 4000 may be formed in a ring shape. This is so that the first fastening bar 4000 is connected to the first fastening part 1400 . It is possible to prevent the bag 3000 from being exposed or lost by the first fastening bar 4000 .

Next, a second fastening bar 5000 coupled to the first through hole 1300 , the second through hole 2230 , and the third through hole 2300 is provided. The second fastening bar 5000 is a 2-1 fastening penetrating the 1-1 through hole 1301 , the 2-1 through hole 2231 , and the 3-1 through hole 2301 . a 2-1 fastening bar 5200 penetrating the bar 5100, the 1-2 through-hole 1302, the 2-2 through-hole 2232, and the 3-2 through-hole 2302; The 2-3th fastening bar 5300 passing through the 1-3th through-hole 1303, the 2-3th through-hole 2233, and the 3-3th through-hole 2303, the 1-4th It can be divided into a through hole 1401, the 2-4th through-hole 2234, and the 2-4th fastening bar 5400 penetrating the 3-4th through-hole 2304. A lower portion of the second fastening bar 5000 may be formed in a cylindrical shape. In addition, a thread corresponding to the first through hole 1300 , the second through hole 2230 , and the third through hole 2300 is formed on an outer surface of the lower portion of the second fastening bar 5000 . This is to connect the first placeholder 1000 and the second placeholder 2000 . An upper portion of the second fastening bar 5000 may be formed in a donut shape. This is to be connected to the rope part 9000 to be described below.

Then, the nut part 6000 is fastened to the lower end of the second fastening bar 5000 . The nut part 6000 is tightened until the upper part of the nut part 6000 comes into contact with the lower surface of the second frame 2100 . The nut part 6000 includes a first nut part 6100 provided at the lower end of the 2-1 fastening bar 5100, a second nut part 6200 provided at the lower end of the 2-2 fastening bar 5200, It can be divided into a third nut part 6300 provided at the lower end of the 2-3rd fastening bar 5300 and a fourth nut part 6400 provided at the lower end of the 2-4th fastening bar 5400 . The nut part 6000 is formed in a shape corresponding to the screw thread of the second fastening bar 5000 . This is so that the nut part 6000 is coupled at the lower end of the second fastening bar 5000 so that the individual oyster formation frame assembly according to the present invention can be fixed without being shaken.

Between the first placeholder 1000 and the second placeholder 2000, there is a third frame 7100 formed of a rectangular line segment and a diagonal line connecting the opposite vertices, and at each vertex of the upper surface of the third frame. Each of the second connecting portion 7200 positioned upward and connected to the first through hole 1300, the second connecting portion 7200 having a fourth through hole 7230 having a screw thread formed therein, and the third frame 7100 lower surface A third placeholder 7000 provided at a vertex and including a fifth through hole 7300 penetrating the third frame 7100 vertically may be added.

A third placeholder 7000 is provided in the nest formation frame assembly of the present invention. The third placeholder 7000 constitutes the body of the nest formation frame assembly and is located below the first placeholder 1000 .

A third frame 7100 is formed on the third placeholder 7000 . The third frame 7100 is configured to include a diagonal line connecting opposite vertices to the rectangular skeleton. This is to protect the lower surface of the bag 3000 containing the individual burrows, which will be described below.

At each vertex of the upper surface of the third frame 7100 , a second connection part 7200 erected upward is provided. The second connection part 7200 is a 2-1 connection part 7201 located at an upper vertex of one side of the upper surface of the third frame 7100, and a 2-2 second connection unit 7201 located at the upper vertex of the other side of the upper surface of the third frame 7100. A connection part 7202, a 2-3 connection part 7203 located at one lower vertex of the upper surface of the third frame 7100, and a 2-4 connection part 7204 located at the other lower vertex of the upper surface of the third frame 7100 can be divided into The second connection part 7200 is formed in a column shape. This is to protect the bag 3000 and to be connected to the first placeholder 1000 .

A third fixing part 7210 is provided on the second connection part 7200 . The third fixing part 7210 constitutes the lower body of the second connecting part 7200 . The third fixing part 7210 is located at each vertex of the upper surface of the third frame 7100 . The third fixing part 7210 is formed in a column shape. This is to protect the side surface of the bag 3000, which will be described below.

A fourth fixing part 7220 is provided on the second connection part 7200 . The fourth fixing part 7220 constitutes the upper body of the second connecting part 7200 . The fourth fixing part 7220 is located on the upper surface of the third fixing part 7210 . The second fixing part 2220 is formed in a shape corresponding to the lower portion of the first through hole 1300 . This is to connect the second fixing part 2200 to the first object frame 1000 .

A fourth through hole 7230 is provided inside the second connection part 7200 . The fourth through hole 7230 vertically penetrates the inside of the first connection part 2200 . The second connection part 7200 includes a 4-1th through-hole 7231 positioned inside the 2-1th connection part 7201 and a 4-2th penetration hole located inside the 2-2nd connection part 7202 . A ball 7232, a 4-3 through-hole 7233 located inside the 2-3-th connection part 7203, and a 4-4th through-hole 7234 located inside the 2-4th connection part 7204 can be distinguished as The fourth through hole 7230 is formed with a thread corresponding to the second fastening bar 5000 . This is to be coupled to the second fastening bar 5000 .

A fifth through hole 7300 is provided at each vertex of the third frame 7100 . The fifth through hole 7300 vertically penetrates the vertex of the third frame 7100 . The fifth through hole 7300 is a 5-1 through hole 7301 located at the upper vertex of one side of the third frame 7100, and a 5-2 through hole located at the upper vertex of the other side of the third frame 7100. A ball 7302, a 5-3 through-hole 7303 located at the lower vertex of one side of the third frame 7100, and a 5-4 through-hole 7304 located at the lower vertex of the other side of the third frame 7100 can be distinguished as In addition, a thread corresponding to the second fastening bar 5000 is formed in the upper portion of the fifth through hole 7300 . This is to allow the upper portion of the fifth through hole 7300 and the second fastening bar 5000 to be coupled. A lower portion of the fifth through hole 7300 is formed to correspond to an upper portion of the first connecting portion 2200 . This is to connect the lower portion of the fifth through hole 7300 and the second placeholder 2000 .

Also, the bag 3000 is positioned inside the first placeholder 1000 and the third placeholder 7000, and is positioned between the third placeholder 7000 and the second placeholder 2000. is located inside of

In addition, the third placeholder 7000 and the second placeholder 2000 may be repeatedly installed under the first placeholder 1000 .

Specifically, as shown in FIG. 2 , the present invention, a nest training frame, may be installed. The third placeholder 7000 may be positioned below the first placeholder 1000 , and the second placeholder 2000 may be positioned below the third placeholder 7000 .

In addition, if the water is deep sea, the present inventor's burrow training frame may be installed as shown in FIG. 3 . The third placeholder 7000 is positioned below the first placeholder 1000 , and the second placeholder 2000 is positioned below the third placeholder 7000 . The third placeholder 7000 and the second placeholder 2000 may be repeatedly positioned below the second placeholder 2000 .

Herein, in the nest breeding frame assembly according to the present invention, among the first placeholder 1000 , the second placeholder 2000 , and the third placeholder 7000 , the second placeholder 2000 must be the lowermost stage. should be located in That is, the first fastening bar 4000 should finally pass through the second fastening part 2400 . This is to prevent the bags 3000 positioned between the first placeholder 1000 and the second placeholder 2000 positioned at the bottom from being exposed or lost.

By adjusting the height as desired as described above, the nest burrowing frame assembly according to the present invention is capable of cultivating sub-submerged dens in the South Sea as well as semi-submersible dens in the West Sea.

Next, the buoyancy body 8000 is positioned at the sea level, one end is connected to the lower surface of the buoyancy body 8000, and the other end includes a rope part 9000 connected to the upper end of the second fastening bar 5000. can be configured.

In the present invention, the individual burrow training frame assembly is provided with a buoyancy body 8000 on the sea level. The lower surface of the buoyancy body 8000 is connected to the rope part 9000 to be described below. This is so that the present invention's nest formation frame assembly can be cast into the sea.

A rope part 9000 is connected to the lower surface of the buoyancy body 8000 . The rope part 9000 is connected to the lower surface of the buoyancy body 8000 at one end, and the other end is connected to the upper part of the second fastening bar 5000 . The rope part 9000 includes a first rope 9100 connected to the 2-1 connecting bar 4100, a second rope 9200 connected to the 2-2 connecting bar 4200, and the second It can be divided into a third rope 9300 connected to the 2-3 connecting bar 4300 and a fourth rope 9400 connected to the 2-4 connecting bar 4400 . The rope part 9000 includes the first placeholder 1000 , the third placeholder 7000 , the second placeholder 2000 , the bag 3000 , the first fastening bar 4000 , It serves to connect the second fastening bar 5000 and the nut part 9000 to the buoyancy body 8000 .

Next, the operation of the nesting frame assembly of the present invention will be described in detail.

As shown in FIG. 1 , when assembling the individual den of the present invention using only the first placeholder 1000 and the second placeholder 2000 , the bag 3000 is placed inside the second placeholder 2000 . place it

Next, the first placeholder 1000 is positioned on the second placeholder 2000 .

Next, the first connection part 2200 is connected to the first through hole 1300 .

Then, the second fastening bar 5000 is coupled to the first through hole 1300 , the second through hole 2230 , and the third through hole 2300 . The second fastening bar 5000, the first through-hole 1300, the second through-hole 2230, and the third through-hole 2300 are formed with the same screw thread, so that they can be coupled.

Next, the nut part 6000 is fastened at the lower end of the second fastening bar 5000 and tightened until it touches the lower surface of the second frame 2100 .

Next, the first fastening bar 4000 is passed through the first fastening part 1400 and the second fastening part 2400 . The first fastening bar 4000 may be formed in a ring shape, and the first fastening part 1400 and the second fastening part 2400 may be formed in a semicircular shape or a ring shape. This is to enable the first fastening bar 4000 to be fixed to the first fastening part 1400 .

Next, one end of the rope part 9000 is connected to the buoyancy body 8000 , and the other end is tied to the upper part of the second fastening bar 5000 .

Next, the oyster formation frame assembly of the present invention, which has been combined, is cast over the sea.

As shown in FIG. 2 , when the third placeholder 3000 is positioned between the first placeholder 1000 and the second placeholder 2000 to assemble the individual nest formation frame assembly of the present invention, the third The bag 3000 is placed inside the placeholder 3000 , and the bag 3000 is placed inside the second frame 2000 .

Next, the third placeholder 3000 is positioned under the first placeholder 1000 , and the second placeholder 2000 is positioned under the third placeholder 3000 .

Next, the second connection part 7200 is connected to the first through hole 1300 .

Next, the first connection part 2200 is connected to the fifth through hole 7300 .

And, the second fastening bar 5000, the first through hole, the fourth through hole 7230, the fifth through hole 7300, the second through hole 2230 and the third through hole ( 2300). The second fastening bar 5000, the first through hole 1300, the fourth through hole 7230, the fifth through hole 7300, the second through hole 2230, and the third through hole The ball 2300 is formed with the same thread and can be combined.

Next, the nut part 6000 is fastened at the lower end of the second fastening bar 5000 and tightened until it touches the lower surface of the second frame 2100 .

Next, the first fastening bar 4000 is passed through the first fastening part 1400 and the second fastening part 2400 . The first fastening bar 4000 may be formed in a ring shape, and the first fastening part 1400 and the second fastening part 2400 may be formed in a semicircle or ring shape. This is to enable the first fastening bar 4000 to be fixed to the first fastening part 1400 and the second fastening part 2400 .

Next, one end of the rope part 9000 is connected to the buoyancy body 8000 , and the other end is tied to the upper part of the second fastening bar 5000 .

Next, the oyster formation frame assembly of the present invention, which has been combined, is cast over the sea.

As such, those skilled in the art to which the present invention pertains will understand that the above-described technical configuration of the present invention may be implemented in other specific forms without changing the technical spirit or essential characteristics of the present invention.

Therefore, the embodiments described above are to be understood as illustrative and not static in all respects, and the scope of the present invention is indicated by the following claims rather than the above detailed description, and the meaning and scope of the claims and their All changes or modifications derived from the concept of equivalents should be construed as being included above the present invention.

1000: first placeholder 1100: first frame
1300: first through hole 1301: 1-1 through hole
1302: 1-2 through-hole 1033: 1-3 through-hole
1304: first through-hole 1400: first fastening part
1401: 1-1 fastening part 1402: 1-2 fastening part
1403: 1-3 fastening part 1404: 1-4 fastening part
2000: second placeholder 2100: second frame
2200: first connection part 2201: 1-1 connection part
2202: first 1-2 connection part 2203: 1-3 connection part
2204: 1-4 connection part 2210: first fixing part
2220: second fixing part 2230: second through hole
2231: 2-1 through-hole 2232: 2-2 through-hole
2233: second 2-3 through-hole 2234: second-4 through-hole
2300: third through hole 2301: 3-1 through hole
2302: 3-2 through hole 2303: 3-3 through hole
2304: third through-hole 2400: second fastening part
2401: 2-1 fastening part 2402: 2-2 fastening part
2403: No. 2-3 fastening part 2404: No. 2-4 fastening part
3000: back 4000: first fastening bar
4100: No. 1-1 fastening bar 4200: No. 1-2 fastening bar
4300: No. 1-3 fastening bar 4400: No. 1-4 fastening bar
5000: second fastening bar 5100: 2-1 fastening bar
5200: 2-2 fastening bar 5300: 2-3 fastening bar
5004: 2-4 fastening bar 6000: nut part
6100: first nut part 6100: second nut part
6300: third nut part 6400: fourth nut part
7000: third placeholder 7100: third frame
7200: second connection part 7201: second connection part
7202: second-2 connection part 7203: second 2-3 connection part
7204: 2-4 connection part 7210: third fixing part
7220: fourth fixing part 7230: fourth through hole
7231: 4-1 through hole 7232: 4-2 through hole
7233: 4-3 through-hole 7234: 4-4 through-hole
7300: fifth through hole 7301: 5-1 through hole
7302: 5-2 through hole 7303: 5-3 through hole
7304: 5-4 through hole 8000: buoyancy body
9000: rope part 9100: first rope
9200: second rope 9300: third rope
9400: fourth rope

Claims (5)

A first frame comprising a rectangular line segment and a diagonal line connecting opposite vertices, a first through hole provided at each vertex of the first frame and penetrating the first frame vertically, and each line segment of the first frame a first object frame including a first fastening part protruding outward from the central point;
A second frame is provided below the first placeholder and is formed of a rectangular line segment and a diagonal line connecting opposite vertices, and is positioned upward at each vertex of the upper surface of the second frame and the upper part is connected to the first through hole, A first connecting portion provided with a second through hole having a screw thread formed therein; a third through hole provided at each vertex of the lower surface of the second frame and penetrating the second frame vertically; a second object frame configured to include a second fastening part formed to protrude outward from the point;
a bag positioned between the first placeholder and the second placeholder and having a nest provided therein;
a first fastening bar passing through the first fastening part and the second fastening part to connect the first object frame and the second object frame;
a second fastening bar formed in a cylindrical shape to be coupled to the first through-hole, the second through-hole, and the third through-hole, the second fastening bar having a screw thread on its outer surface; and
and a nut part for fastening the nut to the lower end of the second fastening bar; and
Between the first placeholder and the second placeholder,
A third frame consisting of a rectangular line segment and a diagonal line connecting the opposite vertices, is located upward from each vertex of the upper surface of the third frame, and the upper part is connected to the first through hole, and a fourth through hole having a thread formed therein is provided. A third object frame comprising a second connection part to be formed and a fifth through hole provided at each vertex of the lower surface of the third frame and penetrating the third frame vertically may be added,
below the first placeholder,
The third placeholder and the second placeholder may be repeatedly installed,
The first connection part,
a column-shaped first fixing part positioned at each vertex of the second frame upper surface;
It is located on the upper surface of the first fixing part, the second fixing part of the column shape having the same size as the outer peripheral surface of the lower portion of the first through hole; characterized in that it comprises a,
Buoyant bodies are located at the sea level,
One end is connected to the lower surface of the buoyancy body and the other end is a rope part connected to the upper end of the second fastening bar;
delete delete delete delete

Images