KR20190002814U - Underwater cage facility for scallop - Google Patents

Abstract

The upper and lower frames are formed by connecting a plurality of rectangular frame structures in which one or more horizontal members and one or more vertical members are connected to each other in a plane. The upper and lower frames are spaced apart by a predetermined interval, and the space is at least one vertical frame connected to the upper and lower frames in a vertical direction. Positive device case installed; In contrast to the existing scallop farming apparatus installed in series by providing a scallop mass cultivation device consisting of a nurturing device that is connected to the lower frame on the positive device case, is fixed to the middle frame or scallop spawn for nurturing The positive network is connected and fixed along the structure of the lower frame to form a polyhedron structure, which is excellent in durability, and it is possible to install high-density positive network per area and form large quantities as well as to easily install and manage the device. This saves time.

Description

Submerged Scallop Bulk Farming Equipment {Underwater cage facility for scallop}

The present invention relates to a mass scallop etched scallop, more specifically, the upper and lower frames of the polygonal frame shape is installed spaced apart at regular intervals, the vertical space connected to the upper and lower frames in the separation space in the vertical direction A cultivation device that accommodates intermediate cultivation or scallop shells is fixed to one or more cultivation device cases to store a large amount of aquaculture organisms, as well as to increase production, increase durability, and easily harvest and install scallop scallop mass farming devices. It is about.

The name of the scallop is derived from the French word 'escalope', which means shell, and it is inhabited by 400 species of scallops belonging to the Pectinidae around the world. In Korea, there are about 20 species of big scallop, silk scallop, sea scallop, furrow scallop, ladle scallop, sun scallop and common scallop.

Invertebrate scallops are a species that has recently started to grow on the east coast. Scallops inhabit a relatively low soil floor with a depth of 10-40 m. It is the most mobile of shellfish and moves away, especially when environmental conditions are not met.

When the water temperature rises from February to April, the gonads mature and spawn. The eggs hatch in 5-7 days at 7-9.5 ° C after fertilization to become D-shaped larvae. After floating for 30 to 40 days at water temperature of 8 ~ 14 ℃ and entering attachment life for about 2 months, it enters benthic life as 6 ~ 10mm in height, from spawning to floating larval period and from attachment life to benthic life. Mortality is highest in several months. In the summer, the growth is slow due to high water temperature, but it grows rapidly in the fall, so it grows to 5 ~ 6cm until the next spring.

The seedlings include a natural seeding method in which a seeding machine (attachment substrate) is installed and harvested at the time when natural larvae are attached, and an artificial seeding method that artificially causes spawning and harvests. Before the larval attachment action, it provides enough food to enhance nutrition and the larvae that enter the attachment rarely feed, so reduce the amount of food supplied and start feeding when the attachment chipper is settled.

Seed harvesting is the process of moving from the culture center to the intermediate meat growth, and is transported by supplying low temperature seawater to live fish and water tanks and supplying oxygen. In general, middle breeding is a hanging type that puts a thin chip on a raft or a rope. The step is to grow to 2cm. The middle fostering facility consists of a structure that connects 10 to 15 chalongs by setting up a continuous dropping facility at a depth of 15 to 25 meters, receiving chalongs.

Seedlings that have been grown in the middle have been grown in the baggage facility or at the bottom of the fostering process, which manages the growth of 2 ~ 3cm chiplets separated from the selected intermediate grower to 10cm, which is the size that can be sold. At this time, the conventional positive group can be used plastic chalong, circular net chalong, Chinese chaong, pearl chalong and the like. The cultivation of seedlings is fast growing, and they are harvested two and a half years after harvesting, and the bottom cultivation grows to a size that can be harvested after three to four years.

The droop training method may be generally composed of an ear hanging droop training method and a chaung droop training method. The ear hanging hanger is a method of tying four to five centimeters of a year's plaque with a nylon string and tying it to a hanger. It takes a lot of hands in preparation, but it has the advantage of low facility cost and good growth. In general, ear hooking facilities are located where they are less affected by resistant fisheries or waves.

Chaong-type drooping method is a nurturing method in which a chip is placed in a chalon and placed in a pre-installed facility. It consists of 15 plastic square chalons and 10 cylindrical chalons. Chaeong-type drooping method takes a lot of facility cost compared to ear hanging type, but it has the advantage of easy acceptance and work.

However, the aquaculture apparatus has a problem that the farming in the open sea is directly exposed to the effects of natural disasters such as algae or extreme storms, unlike the offshore farming which is naturally protected by the land topography. It is costly and time consuming to install the scallop plant, which is installed underwater, and it is necessary to develop the device to install the farming device at high density as well as to keep the shape of the cage and the device itself safely under all conditions. .

Korean Registered Patent No. 10-1423301, Participation Libya artificial seeding and breeding apparatus includes at least two or more attachment tooth receiving frame formed with at least two checkerboard frame to accommodate the attachment tooth at regular intervals; The attachment plaque receiving frame is arranged in the height direction, including the artificial resin seedlings including a synthetic resin mesh netting and the synthetic resin material mesh sack that can cover the entire participation body artificial seedlings and growing device body formed to surround the attachment tooth receiving frame Disclosed is a participatory liberal arts cultivation and growing device for improving the rate and intermediate growth. In Korean Patent No. 10-0479927, there is a production management DB including at least one of fishery type information, point attributes and location information, scallop fishery input date information, scallop size information, inventory and production information, scallop customer information, scallops Data storage device including a distribution management DB including at least one of the size information, sales volume information, and a stock management DB including at least one of fishery type information, point attributes and location information, scallop fishery input date information, scallop size information ; A data input device for inputting information on fishery management, allowing the administrator to select information to be used and for modifying the information; Scallop information, scallop growth information, scallop harvesting information, input function to receive and record the scallop sales information and correction function to modify scallop information, scallops growth information, scallop sales information and search function to search information by job step, sales information Central processing unit comprising a; And a data display device which receives a screen output signal according to an input, a correction, a search, and converts the image into a video signal for display by the central processing unit. Korean Patent No. 10-1195475 relates to a drop-type bivalve farming apparatus including a cage having a plurality of holes formed on a surface thereof, and a fiber yarn filled in the cage, and a drop-type farming method using the same, the apparatus of the present invention. And the method can increase the production of aquaculture shells, especially benthic shellfish such as clams, which have high mortality due to shaking stress when farmed in submerged cultures, and increase the production of aquaculture by reducing the mortality rate. Unlike harvesting bivalve shells, the present invention relates to a drop-type bivalve farming apparatus having the advantage of being able to obtain clean bivalve shells by simply shaking off the bivalve shells from the fiber yarn. In Korea Registered Utility Model Publication No. 20-0424858, it is more convenient and stable to fix scallop on fishing gear, and it is possible to install fishing gear on the connecting line easily and stably, while maintaining the upper and lower installation interval of fishing gear. The present invention relates to a scallop farming phrase that can improve workability and increase the amount of scallop farming per unit area.

The present invention is that the scallop farming device installed in the offshore sea in the middle cultivation or fostering stage is directly exposed to the effects of natural disasters such as algae or extreme wind, unlike the offshore, and installs a large farming device per facility. In order to solve the problem of cost and time, the upper and lower frames having a polygonal frame shape are spaced apart at regular intervals, and one or more vertical frames connected to the upper and lower frames are installed in the separation space in a vertical direction. Providing a mass scallop scallop mass farming device that is fixed to the attachment device of the nurturing device for the intermediate nurturing or nurturing gimpi chip to the attachment plate of the positive device case.

As a means for solving the above problems, the present invention has one or more horizontal members and one or more vertical members connected to each other to form a rectangular frame structure, and a plurality of upper and lower frames connected to a plurality of planes are spaced apart at regular intervals. A positive device case in which at least one vertical frame connected to the frame is installed in a vertical direction; On the nurturing device case, the lower frame provides a mass scallop scallop farming device that is fixed to the nurturing device to accommodate the scallop plaque for the middle growth or nurture.

The training device is installed in the upper frame and the lower frame of the frame or square frame spaced apart a predetermined distance in the upper, lower direction, the space between the upper and lower fixing frame is disposed one or more spaced apart in the longitudinal direction, the upper plate , The net is formed to surround the lower fixing frame and the mounting plate, the fixing device is formed on the upper and lower ends of the upper fixing frame and the lower fixing frame, the upper end of the upper fixing frame is fixed to the upper frame, the lower end of the lower fixing frame to the lower frame It is fixed and the positive device is deployed in the vertical direction. The attachment plate is a plate-like structure, the through-hole is formed at regular intervals, the width of the side is formed in an area corresponding to the area of the upper, lower fixing frame, the rotating propeller of the plurality of blade pieces is formed in the center of the back of the attachment plate do.

Unlike the existing scallop farming apparatus installed in series, the present design has excellent durability by forming a polyhedron structure by connecting and fixing the positive network along the structure of the upper and lower frames, and it is possible to install high-density nurturing network per area and form large quantities. In addition, the installation and management of the device is easy to reduce the labor and time put into it.

1 is a plan view, front view, and a perspective view of a large scale scallops culture device of the present invention.
Figure 2 shows a perspective view of the nursing device case of the scallop mass farming device of the present invention.
Figure 3 shows the benign device of the scallop scallop mass farming apparatus of the present invention.
Figure 4 shows a perspective view of the first embodiment of the positive device cultivation scalp culture apparatus of the present invention.
Figure 5 shows a front side view of the scallop scallop mass aquaculture device is installed Example 1 of the present invention.
Figure 6 shows the (A) side view, (B) rear view, (C) rear perspective view of the plate attached to the scallop mass culture apparatus of the present invention.
Figure 7 shows an enlarged view of the attachment plate installed in the scallop scallop mass farming device example 1 of the present invention.

An eroded cage is designed to allow a cage to float or sink under certain conditions, so that the cage forms and the device itself under all conditions, such as the process of floating the cage to the surface, when the cage is floating, or when the cage is underwater. It is formed to maintain. Eroded cages have the advantage of minimizing the effects of natural disasters such as algae or extreme storms, and at the same time placing them around a certain depth depending on the terrain and fish species.

The scallop scallop mass farming device of the present invention is a submerged underwater cage farming facility, which is lowered to the seabed by a crane installed on the ship and pulled into the ship to work. The immersion underwater cage farming facility according to the present invention is connected to a plurality of mooring ropes so that the scallop scallop mass farming device can maintain the installed position while swimming in a certain space of the water according to the algae, and the mooring ropes are anchor blocks and moor. It may be connected to the grid line formed by the phosphorus and the plotter.

It is possible to include or exclude the scallop mass scallop mass production device of the present invention to facilitate the placement of the aquaculture device to the desired water layer and to raise the surface of the aquaculture organisms, or to float to the surface if necessary for the inflow and maintenance to facilitate the necessary work.

Hereinafter, with reference to the accompanying drawings and the specific configuration related to the large scale scallop farming apparatus of the present invention will be described in detail.

1 is a plan view, front view, and a perspective view of a large scale scallops culture device of the present invention. The scallop scallop mass farming device of the present invention is formed by connecting a plurality of rectangular frame structures in which one or more horizontal members and one or more vertical members are connected to each other in a plane, and the lower frames are installed at regular intervals, and the upper and lower frames are provided in the separation space. Positive frame case is connected to at least one vertical frame in the vertical direction to form a jungle gym (jungle gym) structure (10); On the upper and lower portions of the nurturing device case, a nurturing device 50 for accommodating scallops for nurturing or nurturing medium is connected and fixed, and a propeller having a plurality of wings at the lower center of the attachment plate formed at each end of the nurturing device ( 56) is installed.

Figure 2 shows a perspective view of the nursing device case of the scallop mass farming device of the present invention. The positive device case 10 of the present invention is a pipe-shaped horizontal member and the end of the vertical member is connected to form a square frame structure, the upper frame 11 and the lower frame 13 is formed by connecting one or more square frame on the plane It is installed spaced apart a predetermined distance, the upper, lower frame is installed vertically in the spaced space consists of a vertical frame 12 connecting the upper, lower frames.

The vertical frame 12 is connected to the corners to which the horizontal members of the upper and lower frames and the distal ends of the vertical members are connected to fix the separation distance of the upper and lower frames and to support the upper and lower frames. The vertical frame is generally appropriately formed at a height such that the training device described later can be easily deployed vertically in water.

Figure 3 shows the benign device of the scallop scallop mass farming apparatus of the present invention. The training device 50 of the present invention is installed in the upper fixing frame 51 and the lower fixing frame 52 of a circular frame or a square frame spaced apart at a predetermined distance in the up and down direction, and the attachment plate in the spaced space of the upper and lower fixing frame ( 53) is disposed at least one spaced apart in the longitudinal direction, the net 54 is formed so as to surround the upper, lower fixing frame and the mounting plate, one or more supports (55) is installed on the side surface of the mesh to form the side frame of the training device The shape of the support to be fixed, and the upper and lower ends of the net can be made of a fixing device that can be fixed to the upper, lower frames.

The adhesive plate is made of synthetic water, such as polyethylene (PE; polyethylene) or polypropylene (PP), which is durable and resistant to corrosion by seawater for a long time.

It consists of a plate-shaped structure in which injection molding of a paper material is performed. The upper and lower side portions of the attachment plate may have a size corresponding to the area of the upper and lower fixing frames, and may be provided with a space where the scallops are attached and inhabited.

A plurality of through holes 57 are formed in the attachment plate to smoothly distribute seawater in the up and down directions, and to minimize resistance due to the flow of currents, while aquaculture organisms attached to the attachment plate move. It can be a passage. The attachment plate may be made of a general flat disc shape, but the end of the attachment plate may be formed in a plate shape formed by bending a certain height upward.

In the case of dish-shaped scallops are placed on the attachment plate and bent to a certain height upward, so that the flow of the scallops placed on the floor can be reduced by having resistance according to the current flow. It is reasonable that the bent portion having a certain height formed on the outer circumferential surface of the attachment plate is the height of the thickness of the adult scallops. In addition, the bent portion having a predetermined height formed on the outer circumferential surface of the attachment plate may form a through hole at a predetermined interval for connection with the support.

In the center of the back surface of the attachment plate, a rotating propeller 56 having a plurality of wing pieces is provided. Although a plurality of wing pieces are shown in the figure three, the number may be two, four or more. The propeller 56 rotates according to the flow of the current, and allows the current to flow freely in the aquaculture apparatus through this rotational movement. As the current flows freely, water is applied to the back or bottom surface of the attachment plate to supply oxygen through the water flow, and it is difficult to attach foreign substances to the through hole so that the through hole is not blocked, so that the aquaculture organisms attached to the attachment plate can be easily moved. And scallop seedlings can be prevented from being contaminated.

The support is made of a material of high strength, such as steel wire, in the form of a rope, so that the deformation is less resistant to implosion or current flow and external impact, and it fixes a gap between one or more installed mounting plates, and attaches and meshes The shape is supported so that it can be developed vertically in the water.

The net is usually formed by a mesh of a size in which the scallop cultured organisms of the intermediate breeding or cultivation stage are not lost, and is formed around the upper and lower frames and the attaching plate so that the scallop cultured creatures can live inside the net. Of course, to prevent the loss to the outside.

Fixing devices are formed at the top and bottom of the mesh. Since the uppermost fixing device is fixed to the upper frame and the lowermost fixing device is fixed to the lower frame, the positive device of the present invention can be deployed vertically with the ground in the water. The fixing device can be fixed in the form of a hook or hook (hook) to the upper or lower pipe in the form of a hook or through and formed in a rope form can be fixed by binding to the pipe.

In the case of the submerged nurturing device, unlike the conventional method in which one or more submerged nurturing devices are installed in water, the positive device is formed with a polyhedron by being vertically fixed along the upper and lower frames, thereby improving durability in the flow of seawater. Damage to the device can be prevented, the wave is dissipated, there is an advantage that the aquaculture organisms stored therein less loss. In addition, it is possible to install the training device at a high density in a single training device case, thereby increasing the installation efficiency, thereby reducing the time and labor required for harvesting and management.

Figure 4 shows a perspective view of the positive device Example 1 of the cultivation apparatus scallop mass culture apparatus of the present invention, Figure 5 shows a front side view of the bulging scallop mass culture apparatus of the present invention is installed.

Embodiment 1 of the positive device according to the present invention is installed in the upper frame and the lower frame formed in a frame or square frame spaced apart at a predetermined distance in the up, down direction, the mounting plate is spaced apart one or more to partition the space between the upper and lower fixing frame It is disposed in the longitudinal direction, the first positive device 50a and the second positive device 50b are formed at a predetermined distance apart from each other to surround the upper and lower fixing frames and the attachment plate to form a net.

The first positive device and the second positive device are spaced apart from each other to form a seawater communication layer. The first positive device and the second positive growth device may be connected in a vertical direction in the same manner as the positive device of the present invention by being connected via a support formed on at least one side of the net. A fixing device that is fixed to the upper and lower frames is installed on the upper portion of the first positive device and the lower of the second positive device.

The current communication layer refers to a space formed by spaced apart from the first positive device and the second positive device is usually formed in the middle of the above-described positive device, the separation distance is a distance of 2 to 3 attachment plates are arranged It is preferable that the same space as formed.

The current communication layer is preferably formed in the middle part of the positive device, but may be provided at the upper and lower portions, respectively, depending on the conditions of the benthic layer. As described above, the positive device is connected and fixed along the upper and lower frames to form a polyhedron, thereby increasing durability, but the flow of sea water to the positive positive device connected to the inside is not smooth due to wave collision from the outside. You may not.

Therefore, in the first embodiment of the present invention, the current communication layer has an open side so that the current can freely communicate, and the current flows freely through the current communication layer to prevent the congestion of the seawater in the culture zone and supply fresh current. In addition, while the currents collide with each part of the positive device to increase the dissolved oxygen in the culture zone while forming turbulence, current energy is distributed from side or bottom to side or top, thereby improving durability.

Figure 6 shows the (A) side view, (B) rear view, (C) rear perspective view of the plate attached to the scallop mass culture apparatus of the present invention, Figure 7 is a scallop mass culture apparatus Example 1 of the present invention An enlarged view of the attached mounting plate is shown. Attachment plate 53 of the positive device is arranged at one or more spaced apart in the longitudinal direction in the space between the upper fixing frame and the lower fixing frame, the attachment plate is formed with a hole (57) of a predetermined interval and the propeller 56 in the center of the back It is installed. The propeller installed at the center of the rear side is shown by the dotted line in the enlarged view of FIG. Through a plurality of through holes 57 formed in the attachment plate 53, the sea water may flow smoothly in the up and down directions.

The propeller 56 of the attachment plate rotates in accordance with the flow of the current to help free flow of the current in the aquaculture device, and through this flow, foreign matter is not easily attached to the surface of the attachment plate and the through hole, so that the aquaculture organisms can be easily moved. In addition, the stabilization of seawater in the aquaculture apparatus also prevents the supply of fresh currents to the scallop seedlings, thereby increasing the yield.

Improve the productivity and development of the scallop aquaculture industry by reducing the time and labor required to foster and manage large scales of scallop, and increase the output of aquaculture farmers and reduce the production cost input cost by increasing the international competitiveness of aquaculture technology. It is possible to increase it, thereby contributing to the increase in income of fishers and thus making it industrially available.

10: Positive device case 11: Upper frame
12: vertical frame 13: lower frame
50: positive device
50a: first training device 50b: second training device
51: upper fixing frame 52: lower fixing frame
53: attachment plate 54: mesh
55: support
56: propeller 57: through hole

Claims (3)

The upper and lower frames are formed by a plurality of rectangular frame structure in which one or more horizontal members and one or more vertical members are connected to each other in a plane. The upper and lower frames are installed at regular intervals. Positive device case installed;
It is connected to the lower frame on the positive device case, fixed and intermediate growth or positive
Large scale scallop scallop farming device characterized in that a plurality of cultivation device for receiving the scallop chip of the dragon is formed
According to claim 1, wherein the positive device is installed in the upper frame and the lower frame of the frame or square frame spaced apart at a predetermined distance in the up, down direction, the space between the upper and lower fixing frame at least one attachment plate in the longitudinal direction The upper and lower fixing frame and the attachment plate is formed, the net is formed, the upper and lower fixing frame is formed on the top and the bottom of the fixing device, the upper end of the upper fixing frame is fixed to the upper frame, the lower fixing frame The bottom end of the scallop scallop mass farming device characterized in that the positive device is deployed in the vertical direction is fixed to the lower frame
According to claim 2, The mounting plate is a plate-like structure through-holes are formed at regular intervals, the width of the side is formed with an area corresponding to the area of the upper, lower fixing frame, a plurality of wings in the center of the back surface of the mounting plate Etching scallop mass farming device, characterized in that the rotating propeller is formed

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