KR102184937B1 - Cultivation device of individual oyster - Google Patents

Abstract

The present invention relates to an individual oyster cultivating apparatus having a continuously opened part. The individual oyster cultivating apparatus having a continuously opened part comprises: horizontal plate frames installed at predetermined intervals in a vertical direction, wherein each plate frame has a lattice net with a predetermined size; a case part in which at least one plate frame is vertically disposed and which is formed by enclosing edges of upper and lower plate frames; and a continuously opened individual oyster part disposed on any one side surface of the plate frame vertically installed and allowing storage and releasing of individual oysters in and from the case part, wherein one or more case parts are stacked and coupled vertically via a fixing device. Accordingly, a user can more facilitate access of the individual oysters through the opened part and thus, operation time required for sorting, separation or harvesting can be reduced. In addition, individual oysters can be stored and released even when a single cultivating apparatus installed in multiple stages is coupled without separation, and thus, the user can work underwater.

Description

Individual oyster cultivation device having an opening at all times {Cultivation device of individual oyster}

In the present invention, a plate frame having a grid of a certain size has a case portion forming a rectangular parallelepiped structure, and an opening is formed on one side of the case portion, and the case portion is laminated and bonded one or more upwards and downwards. It relates to an individual oyster cultivation apparatus having the effect of easy selection and management.

In general, oyster is a generic term for bivalvia belonging to the family Filibranchia oysters, and there are oysters, oysters, rock oysters, hair oysters, and oysters in Korea. Is mostly. These oysters are not only excellent in taste and aroma, but also rich in zinc, which is an active source of glycogen and sex hormones, which is an energy source of the human body, and contain a large amount of vitamins and minerals, and are in the spotlight as a nutritional food by modern people because they absorb calcium and digestion quickly.

There are two methods of cultivating the oysters described above, the attachment type and the bottom type according to the living habits of the organism. There are two types of aquaculture, which is used to raise adherent shellfish, and seaweed to raise seaweed or seaweed. In the case of submerged farming, mussels, oysters, and snails can be farmed on the floor, but they are attached to shells using their adhesiveness, and then the shells are re-threaded on a long string and hanged on a raft or a rich person, and then hung in the water. These lines are called suhayeon, and most of the attachment styles use this method.

The production of oysters in Korea relies on a drop-down method in which dozens of scallop shells attached with a large amount of oyster seedlings are grown on a line coating company, and oysters harvested in a clustered form like grape clusters are mainly distributed as eggs with the skin removed. However, the United States, Europe, and China are having difficulty in exporting because they prefer individual oysters with shells over eggs, and individual oysters are traded at a price that is 2 to 5 times higher than that of eggs, so the added value is high. Recently, the demand for broiler oysters has increased in Korea, and interest in this has been increasing.

Currently, individual oyster farming is a form of developing into a high-value-added industry that makes large profits while selling less, unlike the existing oyster farming method that makes a large profit through mass production and mass consumption. ), which is highly popular both domestically and internationally, and the individual oyster markets in China and Europe are gradually expanding.

Accordingly, Korean Patent Registration No. 10-1541110 discloses a drop-down type individual burrow training device that can be easily stacked in multiple stages by a drop-down type and that can firmly fix the stacked cage. However, the prior literature says that when the contents are taken out in a shape in which one or more individual oyster cultivation devices are connected up and down, the fixing device that connects the adjacent oyster cultivation devices up and down must be released. It can take a lot of time.

In the process of cultivating individual burrows, growth differences between individuals inevitably occur, and these differences increase in appearance size over time. Since large individuals have a higher water filtration ability than small individuals and thus have an advantage in food competition, there may be a problem in which small individuals cannot grow anymore, so periodic selection and management are required in the process of cultivation. Accordingly, the present invention is to provide an apparatus for cultivating individual oysters that are easier to select and manage in the process of cultivating individual oysters.

In Korea Patent Registration No. 10-1541110, the submerged individual dig training device includes a plurality of stacked positive cages and a fixing clip for fixing adjacent positive cages among the plurality of positive cages, and the positive cage is the fixed. Disclosed is a drop-down type individual excavation training apparatus in which a first stacking coupling portion into which a clip is inserted and fixed, and a second stacking coupling portion having a protrusion and a groove portion formed opposite to each other to be stacked against the positive cage to be stacked are formed. In Korean Patent Laid-Open No. 10-2020-0045698, a cage in which individual burrows are accommodated for cultivation of individual burrows, a cage frame capable of storing a plurality of cages, a crane for lifting a cage frame placed underwater, and an individual burrow are sized. A sorting unit including a sorting unit in which a plurality of holes are formed for sorting according to, a high pressure washing unit in which water is sprayed to remove pirates attached to an individual cave, and an individual cave farming device provide buoyancy for floating in the water. Including a floating portion, the floating portion discloses an individual excavation aquaculture apparatus and system including a frame receiving portion formed with a cavity (cavity) for coupling a rail and a cage frame for the movement of the crane. Domestic Registration Patent No. 10-1659426 provides a structure for arranging and assembling a large number of oyster seedling attachment means coupled to the support rod, so that the number of oyster seed attaching means can be adjusted as much as necessary. An individual capable of increasing the adhesion efficiency during seeding by distributing the projections and preventing damage to the seedlings that occur when separating from the conventional attachment plate in the work of separating the seedlings from the seedlings after the seedlings are cultivated at the seedings. Disclosed is an artificial attachment device for the production of oyster seedlings. In Korean Patent No. 10-1954097, by shaking the net containing the individual caves left and right, the individual caves tangled and attached to each other can be easily separated individually, and washing water is sprayed on the individual caves that are separated and transferred. Disclosed is a device for separating and cleaning individual oysters that can increase the efficiency of work by reducing the time of work compared to manual work because it is possible to separate and clean the collected oysters in one device. have.

In the present invention, as periodic selection and management is required in the individual oyster cultivation process, the plate frame having a grid of a certain size forms a rectangular parallelepiped structure to facilitate selection and management during the cultivation process. An opening is always formed on one side thereof, and the case unit is intended to provide a device for nurturing individual digs by stacking one or more up and down.

In the apparatus for cultivating individual digs according to an embodiment of the present invention, plate frames having a grid of a certain size are horizontally spaced apart from each other by a certain distance up and down, and at least one plate frame is vertically formed of the upper and lower plate frames. A case portion surrounding the edge; In one side of the plate frame installed in the vertical direction, an opening is formed at all times to allow storage and release of individual caves into the case part; The case portion may be formed by stacking one or more vertically and upwardly through a fixing device. It is preferable that the position of the opening at all times be formed between the bottom surface of the case where the individual dens are stored and the upper surface of the part spaced apart by a predetermined length.

In the apparatus for cultivating individual digs according to another embodiment of the present invention, a plate frame having a grid of a certain size is horizontally installed at either one of the upper and lower portions, and at least one plate frame is vertically installed. An end case portion having an opening surrounding the edge and forming an inner receiving space to face the vertically installed plate frame, the opening having a lid portion capable of opening and closing into the inner receiving space; A plate frame having a grid of a certain size is horizontally spaced apart from each other by a certain distance up and down, and a plate frame in a vertical direction surrounds the edges of the upper and lower plate frames, and on either side of the vertically installed plate frame An intermediate case portion in which an opening of the individual caves is formed at all times through which the individual caves can be stored and released into the case part; The end case portion may be installed at the uppermost end and the lowermost end, and the intermediate case portion may be laminated and coupled to an upper or lower end case portion through a fixing device.

The individual burrow training device of the present invention allows users to enter and exit the individual burrow more easily through the regular opening, so that the working time can be reduced during the sorting and separating work or harvesting, and combining without separating a single training device installed in multiple stages It is possible to store and release individual dens even in the state that the user is able to work underwater.

1 shows a perspective view of Example 1 of an individual oyster training apparatus according to the present invention.
2 shows a photograph of Example 1 of the individual oyster training apparatus of the present invention.
3 shows a perspective view of Example 2 of the individual oyster training apparatus of the present invention.
Figure 4 shows a perspective view of a third embodiment of the individual cave training apparatus of the present invention.
5 shows a perspective view of Example 4 of the individual oyster training apparatus of the present invention.

The accompanying drawings related to the individual oyster training apparatus of the present invention will be described in detail as follows. In the individual dig training apparatus of the present invention, a plate frame having a grid network of a certain size is installed horizontally and spaced apart a certain distance from the top and bottom to form a ceiling surface and a bottom surface, and An entity capable of injecting and discharging individual dens into and out of the case part on either side of the case part 100 formed as a space having a certain volume surrounding the edge and the grid network surrounding the plate frame spaced apart in the vertical direction. The opening 110 is formed at all times; The case portion may be formed by stacking one or more up and down through the fixing device 120.

The individual oyster training apparatus of the present invention is formed of a polymer compound material such as polyethylene or polypropylene, which is excellent in durability and corrosion protection against seawater, and is easier to mold and manufacture. It is appropriate that the mesh size of the lattice network is formed to be smaller than the size of the individual caves stored inside the case part so as to prevent the individual caves from leaving the case part.

It is preferable that a separate opening and closing cap is not formed for the opening 110 of the individual cave, which allows the input and discharge of the individual cave. Since the individual oyster opening 110 is operated in an open state without a lid, when the individual oyster training device is placed on a ship, the opening direction is always turned to the bottom of the work vessel and the training device is turned upside down to keep the internal oyster shell at all times. It is possible to recover by simply brushing it in the direction of the opening. Therefore, it is preferable that the position of the opening is formed between the bottom surface of the case where the individual dens are stored and the upper surface of the part spaced apart by a predetermined length.

As an embodiment of a fixing device that laminates and couples the one or more case parts, it may be formed of a rope and wire structure made of a solid material capable of withstanding a load, but is not limited thereto.

The individual oyster training apparatus of the present invention may be installed on the sea as a submerged aquaculture facility. In the submerged aquaculture facility, the rich man is floating on the sea level, the lower part of the rich man is connected to one side of the mortise line, and the other side of the mortise line may be connected to the individual oyster training apparatus of the present invention.

In addition, in the structure of a conventional drop-off facility, a hairline having a certain distance is formed, a rich person is formed at regular intervals in the middle of the hairline, a plurality of hairline is formed in the hairline, and the individual cave of the present invention is nurtured at the end of the hairline. It can be connected to the device. One or more units of the marine underwater type individual excavation training device are installed at regular intervals in the vertical direction, and one or more of the underwater type individual excavation training devices can be connected to each other by means of a hairline to fix one or more.

1 and 2 show perspective views of Example 1 of an individual oyster training apparatus according to the present invention. 1 and 2 of the present invention, the case portion of the device for cultivating individual oysters in Example 1 may include an end case portion 100a formed at both ends and an intermediate case portion 100b formed between the ends.

The end case portion (100a) is installed to surround the edge of the plate frame in which a plate frame having a grid of a certain size is horizontally installed at the top and bottom, and one or more grids are horizontally installed in the vertical direction to form an internal accommodation space. And, an opening is formed on either side of the upper and lower sides. The opening may be formed by installing a lid that can be opened and closed into an internal accommodation space.

The end case portion may be installed at the uppermost and lower ends of the individual drilling cultivation device so that the lid portion faces the upper and lower portions, and at least one intermediate case portion may be laminated and bonded to the lower or upper portion of the end case portion.

In the middle case portion, plate frames having a grid of a certain size are horizontally spaced apart from each other by a certain distance up and down, and in a vertical direction, a plate frame surrounds the edge of the upper and lower plate frames, and one of the vertically installed plate frames. The side surface may be formed by forming an opening at all times through which the individual caves can be stored and released into the case.

Accordingly, the individual oyster training device of the present invention allows the user to enter and exit the oyster more easily through the regular opening, so that the working time can be reduced during selection and separation work or harvesting, and without separating a single cultivation device installed in multiple stages. It is possible to store and release individual caves even in a combined state, so there is an effect that it is also possible to cultivate individual caves. Therefore, it is preferable that the position of the opening is formed between the bottom surface of the case where the individual dens are stored and the upper surface of the part spaced apart by a predetermined length.

3 shows a perspective view of Example 2 of the individual oyster training apparatus of the present invention. In Example 2 of the apparatus for cultivating individual digs of the present invention, plate frames having a grid of a certain size are horizontally spaced apart from each other by a certain distance up and down, and at least one plate frame vertically extends the edges of the upper and lower plate frames. A case part 100 made by surrounding; In one side of the vertically installed plate frame of the case portion, an opening is formed at all times through which individual caves can be stored and discharged; A locking frame 111 is formed that is bent into the opening of the individual tunnel at all times; The case portion may be formed by stacking one or more up and down through the fixing device 120.

The individual oyster training device of the present invention is formed of a polymer compound material with molding and flexibility as described above, and when the case part of the present invention is manufactured, the left and right grids formed on the opening surface of the intermediate case part of Example 1 are constant. By cutting it by the height and bending it inside the opening at all times, it is possible to more easily manufacture the locking frame.

In addition, the locking frame of the present invention narrows the area of the entrance of the storage space by the locking frame when the individual dig training device is standing underwater and the current flows in the left and right as well as up and down directions. Even if it is shaken by the tide, there is an effect of preventing it from leaving to the outside through the opening at all times.

Figure 4 shows a perspective view of a third embodiment of the individual cave training apparatus of the present invention. In the third embodiment of the apparatus for cultivating individual digs of the present invention, plate frames having a grid of a certain size are horizontally spaced apart from each other by a certain distance up and down, and at least one plate frame vertically extends the edges of the upper and lower plate frames. A case part made to surround it; In one side of the vertically installed plate frame of the case portion, an opening is formed at all times through which individual caves can be stored and released; One or more mounting frames are formed at the bottom of the case part to allow the receiving plate to be accommodated and mounted therein, and the receiving plate 130 having a grid of a certain size is detachably attached to the individual tunnel opening and Can be installed horizontally. The mounting frame may be formed by removing the feet forming the mesh at the lower end of the case portion based on the regular opening.

Example 3 of the present invention has the effect of increasing storage efficiency by partitioning the internal storage space up and down while preventing the individual caves stored inside more stably from leaving the outside even with strong algae acting up and down. have.

5 shows a perspective view of Example 4 of the individual oyster training apparatus of the present invention. In the fourth embodiment of the apparatus for cultivating individual digs of the present invention, plate frames having a grid of a certain size are horizontally spaced apart from each other by a certain distance up and down, and at least one plate frame vertically extends the edges of the upper and lower plate frames. A case part made to surround it; In one side of the vertically installed plate frame of the case portion, an opening is formed at all times through which individual caves can be stored and released; A receiving plate having a lattice network having a size capable of being accommodated through the regular opening of the individual burrow is installed inside or a locking frame is formed inside the regular opening of the individual burrow; The case portion may be formed by stacking one or more up and down through a fixing device.

Example 4 according to the present invention is a stacked-combination of one or more case parts according to Examples 2 and 3, and may include all the advantages of the individual drilling apparatus according to Examples 2 and 3.

The present invention enables easier work as periodic selection and management is required during the process of cultivation of individual oysters with high added value, and the loss of aquaculture organisms even in strong ocean currents can be reduced to the maximum due to stable marine installation. It has industrial applicability as it contributes to profit improvement.

100: case portion 110: individual burrow always opening
100a: end case portion 100b: intermediate case portion
111: locking frame 120: fixing device
130: storage plate

Claims (3)

Polygonal plate frames with a grid of a certain size are horizontally spaced apart from each other by a certain distance up and down to form a ceiling surface and a floor surface,
A case portion surrounding and connected to the edge of the ceiling surface and the bottom surface to form an internal accommodation space having a predetermined volume;
In one side of the plate frame constituting the case portion, an opening is formed at all times through which individual caves can be inserted and released;
The individual burrow cultivation apparatus having a regular opening, characterized in that the opening of the individual burrow is formed in a form that is always open on one side of the case part spaced from the bottom surface where the individual burrow is seated by a predetermined length The method according to claim 1, wherein a mounting frame is formed so that the receiving plate 130 having a grid of a certain size can be accommodated inside the case unit at the bottom of the opening at all times in the case unit; or
Forming a locking frame bent to the inside of the case portion on the bottom surface of the opening at all times of the individual burrow or
Individual oyster training device having a regular opening, characterized in that a plurality of case portions forming the individual dig openings are stacked and combined delete

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