KR101806085B1 - Sea cucumber cultivator - Google Patents

Abstract

The present invention provides a subsidence type hybrid farming device for sea cucumbers. The device comprises: a plurality of mooring devices fixed to the sea floor; a mooring rope connected to the upper part of the mooring devices; a seaweed culturing device connected with an end of the mooring rope and installed in parallel with the sea floor; at least one float connected and fixed to the seaweed culturing device and installed at regular intervals; a mussel culturing device connected with the lower part of the seaweed culturing device and collecting mussels in a hanging manner; and a sea cucumber unit connected with the lower end of the mussel culturing device to be placed in a mud flat part of the sea floor. As such, the present invention is capable of reducing manpower without the need for extra management by providing plentiful feed resources for sea cucumbers through the mussel culturing device and the seaweed culturing device; providing a clean farming device without pollution caused by feed supply; and providing a large-scale marine farming field for sea cucumbers by collecting and spreading sea cucumbers in the nature.

Description

{SEA CUCUMBER CULTIVATOR}

The present invention relates to a sea cucumber composite aquarium apparatus, and more particularly, to a sea cucumber unit which is installed in water under water under each apparatus capable of culturing algae and mites, The present invention relates to a submerged aquaculture apparatus for sea cucumbers capable of providing abundant food resources to the seabed and providing an appropriate hiding place for the habit of sea cucumber, thereby cultivating a large amount of sea cucumber environmentally friendly.

The echinoderms belong to the pure neck, the protruding sea cucumber, and the protruding sea cucumber. There are about 1,500 species of sea cucumbers worldwide, and about 14 species are known to live in Korea. There are two industrially useful species.

The shape of the sea cucumber is a long cylindrical shape back and forth, and there are several lump-shaped projections on the back. The front end of the body has a mouth open, several tentacles around it, and an anus at the back end. Most species also have a lot of tunnels with thin tubes on the underside, which crawls under the sea. A species with no legacy floats in the sea or buries in sandy mud. In the skin there are small fragments of calcareous bone fragments. There is a distinction between male and female, but it is difficult to distinguish by appearance.

Sea cucumber is an alkaline food rarely found in animal food. It is a kind of ginseng food called "ginseng" in the sea because it has been used since ancient times. In addition to being fertile, sea cucumbers are inhabited by clean seas affected by seawater and have cleanliness. They are eco-friendly as well as natural pure algae, and can be processed into various types of products in mass production.

Sea cucumbers are emerging as a new aquatic species in Asia, especially in China. Korea has designated sea cucumber as one of the eight major national aquatic products in the Ministry of Food, Agriculture, Forestry and Fisheries, and has been designated as one of the top 10 strategic cultivars and has been conducting various research and development projects.

Sea cucumbers repeat their lives every year according to changes in water temperature and season. The water temperature is around 8 ~ 16 ℃, and the appetite is strong and the exercise is active and the growth rate is great. At 17 ~ 19 ℃, the exercise is not active, the appetite decreases and the digestive tract is atrophied. When it is above 25 ℃, it goes into fasting state and goes into summer. The actual growth period varies depending on the sea area, but usually from December to April of the following year, sea cucumber is the best before and after the winter solstice.

The habitat of sea cucumbers in nature is mud, sand, and rock, but it can not live in mudflats without temperate. Food is omnivorous and seaweed is preferred, but it also grows in areas where seaweeds are lacking, using organic matter and diatoms in the sea bed as food. In addition, there is a habit of flocking when smelling mussels. When eating food, tentacles around the mouth put mud or sand under the sea into the mouth to feed organic sediments such as seaweed, and the sand and excreta are sent out. When stimulated from the outside, the intestines are cut off and sent out of the anus, which is regenerated and regenerated.

In 1990, the National Fisheries Research and Development Institute of Korea succeeded in producing sea cucumber artificial seeds for the first time in Korea. Since 2006, it has promoted the development of sperm culture, festival culture, and aquaculture culture industry industrialization technology. In the general farm, more than 200g of seongsan will be shipped through the above-mentioned method.

The sea cucumber cultivar is prepared mainly for the production of seedling in October or November three months before the natural spawning season. After 3 ~ 4 days of excretion is completely drained, the eggs are scattered and fixed by the method of extreme stimulation, water temperature stimulation, And embryo hatching and growing in the incubation tank. The sperm suspension, which is extracted from male testes, is sprayed and fertilized eggs are hatched and grown in the incubation tank.

The larval water temperature is maintained at 22 ~ 24 ℃ and it feeds on phytoplankton or concentrated food. The sea cucumbers grow through a larval stage of auricularia, doriolaria, and pentactula in a pentactula larvae stage and grow into 1cm young sea cucumber after several months. do.

Intermediate cultivation stages of growing sea cucumbers and sea cucumbers after sea cucumber larvae emerged have been mainly carried out on land farms. This is because when young sea cucumbers are sown early on the seabed, they are easily attacked by enemies such as sea urchins and are difficult to adapt to the natural environment such as feeding activities and thus the survival rate is low.

In order to develop sea cucumber farming industry, the amount of water from production to processing must be secured in large quantity. The currently produced seedlings are connected with the seeding method for artificial seedlings discharge project for the resource increase of the coastal fishing village, or the festival style form method.

However, since the above-described farming methods do not exceed the natural productivity because they are an ancillary farming method that relies on the natural productivity that does not supply food, there is a limit to the effort and the cost investment, and in the festival farming farm, There is a problem in that the labor cost is large because a large number of human resources are input at all times.

Therefore, efforts are being made to artificially create fishing grounds in villages with abundant resources such as sea cucumbers and shellfishes, so that they can be easily managed and cost-effective. Currently, in order to create an artificial fishing ground, the country invests heavily in deeper than 30 meters of water depth and rock bed, and invests heavily in the ocean forest construction project. The sea cucumber is nocturnal, and in the daytime it is a habit to crawl at night while hiding in a corner, and to provide a place where you can go to the hungry for warmth. Therefore, it is necessary to make efforts to establish fish farms that have been developed in accordance with the habit of sea cucumber and fish farms where sea cucumbers are inhabited.

In Korean Patent No. 10-1002567, at least one bag sack configured to sink on the bottom of the farm by predetermined weight means and a bottom of the bag sack are brought into contact with the bottom of the farm, Wherein at least one buoyancy means is provided for binding the spout of a plurality of sack sacks together to form a single artificial sock and the weight means is carried in the sack to immerse in the water and at the same time at least one buoyancy means Thereby providing an active area of the sea cucumber by self-sustaining the bag in the water. By forming a plurality of openings for accessing the sea cucumber in the bag, it is possible to induce the activity of the sea cucumber in the bag, Artificial reptiles for sea cucumber cultivation. Korean Patent No. 10-1395943 discloses a plurality of structures installed at regular intervals on the sea bed; An interval adjusting rod for adjusting an interval of the structure; At least one horizontal stitch interconnected to the structure; The present invention provides an eco-friendly sea gypsum using a shell having a plurality of shells extending through the rope, the rope being fixed to a ring provided on the side of the structure, The horizontal shell and the vertical shell are formed by perforating and connecting shells of waste oysters and scallops. The shells are connected to structures made of natural stone or artificial stone to provide a habitat for sea cucumber having attachment and temperance of sea cucumber. And can be stably installed at various conditions of coastal conditions. In addition, it is possible to attach larvae of naturally occurring sea cucumbers efficiently, and to provide a habitat environment optimized for sea cucumbers, Is disclosed. Korean Patent No. 10-1389648 discloses a aquaculture apparatus for use in sea cucumber farming in a sea cucumber farm, comprising: a net 110 provided above the bottom of the aquaculture tank; A support 120 disposed around the mesh; A rope (130) connected to the support on the upper side; And an attachment substrate (140) attached to the rope and for feeding the sea cucumber. According to the present invention, the sea cucumber cultivation apparatus having an advantageous effect that the sea cucumbers have an effect to efficiently utilize the space of a farm as a whole, and that the sea cucumber is easily harvested by providing a net on the lower floor provided with the attachment substrate Lt; / RTI > In Korean Patent No. 10-1466841, a net for harvesting is closely attached to the lower part of the column and installed on the bottom side of the festival farm. The rope is joined to the top of the column to form multiple rows. The attachment substrate is disclosed for a sea cucumber aquaculture system which is stuck on a plurality of lines of ropes and attached to sea cucumber and is inhabited. However, the above-mentioned prior art document discloses that the sinking type aquaculture apparatus for sea cucumber of the present invention includes a plurality of mooring devices fixedly installed on the sea floor; A mooring rope connected to the upper end of the mooring device; A seaweed breeding device connected to the distal end of the mooring rope and installed parallel to the sea surface; A rich one which is fixedly connected to the algae breeding device and installed at least one at a predetermined interval; A mastifluiferation device connected to a lower portion of the seaweed salvage device and mated with a mastflow; And a structure of a sea cucumber unit connected to the lower end of the above-described moth-flow positively-charged apparatus and being mounted on the undersea tidal-flat unit is not disclosed.

Conventional seeding or festive aquaculture methods are a method of aquaculture that relies on natural productivity that does not supply food. Therefore, there is a limit to effort and cost investment because it can not exceed natural productivity. In addition to the difficulty in mass production of sea cucumber, many laborers are input at all times. In order to solve the above-mentioned problem of labor cost burden, sea cucumbers such as seaweed and sea tangle, And a sinking unit for the sea cucumber.

As a means for solving the above problems, the present invention provides a mooring device comprising: a plurality of mooring devices fixedly installed on a sea floor; A mooring rope connected to the upper end of the mooring device; A seaweed breeding device connected to the distal end of the mooring rope and installed parallel to the sea surface; A rich one which is fixedly connected to the algae breeding device and installed at least one at a predetermined interval; A mastifluiferation device connected to a lower portion of the seaweed salvage device and mated with a mastflow; And a sea cucumber unit which is connected to a lower end of the moth cucumber breaching device and is mounted on a seabed tidal flat part.

The present invention provides a clean aquaculture device free from contamination due to feeding of feed, because it provides the food resources of abundant sea cucumbers in the seaweed breeding device and the mating type breeding device, And it is possible to provide a large-scale aquaculture farm in which a large amount of sea cucumber can be inhabited through spraying.

1 is a perspective view of a sinking type aquaculture apparatus for sea cucumber according to the present invention.
Fig. 2 shows a side view of the sinking aquaculture apparatus for sea cucumber of the present invention.
3 shows a perspective view of a sea cucumber unit of the present invention.
4 shows Embodiment 1 of the sea cucumber unit of the present invention.
5 shows Embodiment 2 of the sea cucumber unit of the present invention.
Fig. 6 shows Embodiment 3 of the sea cucumber unit of the present invention.
Fig. 7 shows Embodiment 4 of the sea cucumber unit of the present invention.
8 shows a sinking type aquaculture facility for sea cucumber of the present invention.
9 shows a sink type composite aquaculture apparatus for sea cucumber installed in the step of installing the sinking aquaculture apparatus for sea cucumbers according to the present invention.
FIG. 10 shows a sink type composite aquaculture apparatus for sea cucumber of the present invention in the step of breeding seaweeds and mites.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to specific configurations and accompanying drawings relating to sinking type aquaculture apparatus for sea cucumber.

1 shows a perspective view of a sinking type feeding apparatus for sea cucumber of the present invention, and Fig. 2 shows a side view. The sink type apparatus for sea cucumber of the present invention includes a plurality of mooring apparatuses (10) fixedly installed on the sea floor; A mooring rope 20 connected to the upper end of the mooring device; A seaweed breeding device 30 connected to the distal end of the mooring rope and installed parallel to the sea surface; (40) connected and fixed to the above-described seaweed-inducing device and installed at one or more intervals; A mastflow biopsy device 50 connected to a lower portion of the seaweed biopsy device and mated with a mastflow; And a sea cucumber unit (60) connected to a lower end of the moth cucumber breaching device and mounted on a seabed tidal flat part.

The mooring device 10 of the present invention is generally formed as a mooring anchor or a mooring block structure installed in a pick-and-place mowing facility and is installed in the bottom of the sea floor. The mooring device serves to fix the seaweed augmentation device to be described later so that it can be horizontally deployed in the water even under the influence of algae and currents.

The mooring rope 20 of the present invention is connected at one end to the mooring device and at the other end to the seaweed breeding device to fix the seaweed breeding device horizontally deployed. The richer (40) is installed at the upper part of the seaweed positive device at regular intervals and is made of a buoyant material to develop the seaweed positive device upward. The sinking type aquaculture apparatus for sea cucumber of the present invention is formed of a synthetic resin material which is installed in the sea for a long time and is excellent in pressure resistance, impact resistance, abrasion resistance and corrosion resistance, and can have a spindle shape, a rod shape, a column shape and a plate shape.

The seaweed amendment device (30) of the present invention is characterized in that the seaweed feeder (30) of the present invention comprises a seaweed to which sea cucumbers are fed and a seaweed harvesting kelp seedling, and a single straw rope consisting of a mother row providing a substrate , And is installed to extend horizontally in the sea parallel to the sea level.

Seaweed and kelp seedlings implanted in the above-described seeds are preferably grown to a size of 5 to 10 mm foliage so as not to be buried in poisonous fungus or boar. The mother line can be formed of polyethylene based synthetic fiber material which is commonly used for seaweed cultivation.

The mastiffike-positive device 50 of the present invention is rope-shaped, one end of which is connected to the lower part of the seaweed amendment device, and the other end of which is connected to the sea cucumber unit and installed vertically in water. The mating device is installed with a mating type.

The mussels are selected from one or more of mussels, mussels, and mussels from the East Sea and are generally suitable for mussels. This means that the mussels according to the present invention are installed close to the sea bed, It is appropriate to grow and grow in deeper places.

The sea cucumber not only has a habit of taking in the corruption smell of mussels but also prefers the seaweed as a food. The above-mentioned seaweed culture apparatus and mast cell culture apparatus naturally form a large-scale sea cucumber habitat, Allows rapid growth in the short term.

3 shows a perspective view of a sea cucumber unit. The sea cucumber unit 60 of the present invention is a polygonal plate having a hood frame 61 having at least one hood 61a formed at a side thereof and an arcuate attachment member 62 bent upward at the side of the hiding frame And a fixed frame 63, which can be fixed to the bottom of the seabed, is installed under the hiding frame. Generally, a sea cucumber unit is formed of a PE or PP material resistant to corrosion and durable, and it is appropriate that it is installed at a specific gravity suitable for setting on the tidal flats.

The upper part of the hiding frame 61 is formed of a polygonal plate body connected with the mothball-positive device and providing an area for attaching the sea cucumber, and is seated on the bottom of the sea floor. Sea cucumbers are able to hide during the day, and some of the tidal-flats cover the sea cucumber unit by sea current to completely block the sunlight, thus providing a suitable environment for the summer. The striking hole may be formed as a structure in which the front, rear, left and right sides are connected to each other through a through hole, or front and rear, right and left sides may be formed as separate through holes.

The attachment member 62 is formed to extend the attachment surface area of the sea cucumber to an upwardly curved arcuate shape. By forming a bone on the side portion, the seaweed feeder that is separated from the algae breeding device and the mastifluid breeding device installed on the upper portion is seated as a bone portion. In addition, by forming the arcuate lower portion of the attachment member as a through hole, space for attaching the sea cucumber can be increased, and in the daytime, space for avoiding sunlight can be provided by attaching the sea cucumber to the side surface under the attachment member. The fixing frame 63 is formed to have a length suitable for being inserted and fixed in the bottom of the seabed, and a pin-shaped fixing part is formed at the distal end to prevent the seaboard unit from being detached from the bottom position.

Fig. 5 shows Embodiment 1 of a sea cucumber unit. The sea cucumber unit according to the first embodiment of the present invention can increase the breeding amount of sea cucumbers by providing one or more sea cucumber units in a horizontal or vertical direction by connecting and securing the sea cucumber.

5 shows Embodiment 2 of the sea cucumber unit of the present invention. In the second embodiment of the sea cucumber unit of the present invention, the attachment plate 64 is installed on the top of the sea cucumber unit. The attachment plate may be formed in such a size as to connect both side portions of the cover frame in an arcuate shape having a narrow width in the upward direction and a relatively wide downward width. Therefore, not only the attachment area of the sea cucumber can be increased in the upper part of the hiding frame, but also a cloaking space for blocking sunlight can be formed. At least one moving hole is formed on the attachment plate so that the sea cucumbers feed the food in the seaweed positive apparatus and the mastiff positive apparatus at night and move easily to the hide space in the daytime. In addition, a groove-like groove is formed in the upper attachment plate 64 so that the excrement of the mussels that are cultivated in the upper part falls on the plate of the attachment plate, so that the food of the sea cucumber can be seated.

Fig. 6 shows Embodiment 3 of the sea cucumber unit of the present invention. The sea cucumber unit according to the third embodiment of the present invention is constructed by connecting one or more sea cucumber units provided with the attachment plate of the second embodiment in vertical or horizontal directions. Also, it is possible to connect a plurality of mastiffs positive apparatus connected with the sea cucumber unit, and it is possible to cultivate and supply abundant food resources.

Fig. 7 shows Embodiment 4 of the sea cucumber unit of the present invention. The sea cucumber unit according to the fourth embodiment of the present invention is formed by forming at least one sea cucumber unit at a predetermined interval and at a lower position to form a multi-stage structure. In the third embodiment of the present invention, the clasp frame is installed at one or more fixed intervals above and below the fixed frame, but a fixing method and apparatus capable of installing a single sea cistern unit at a predetermined interval can be added . The sea cucumber unit of Example 3 has an effect of increasing the amount of sea cucumber grown by increasing the habitat and shelter space of the sea cucumber in accordance with the sea floor environment.

FIG. 8 shows a sinking farm for sea cucumber formed by installing at least one sinking aquaculture unit for sea cucumbers according to the present invention. The sinking type aquaculture unit for sea cucumbers is formed at regular intervals in the horizontal and vertical directions, and one or more can be settled for the sea cucumber which is capable of culturing a large amount of sea cucumber.

After the establishment of sinking culture for sea cucumber, proper habitat is formed in natural sea cucumber habitat environment without separate management. In addition, as in the case of a general cage farm, rich feeding resources such as seaweeds and mussels are formed without feeding separately, and the growth efficiency of the sea cucumbers is excellent.

Hereinafter, embodiments of the sea cucumber using the sea cucumber submersible aquaculture apparatus of the present invention will be described as follows.

Ⅰ. Sea cucumber Subsidence  Form of a sea cucumber using a form device Example

(A) Site selection step for selecting sea cucumber aquaculture apparatus for sea water with a depth of 20m or more and 30m or less on the bottom of the sea bottom; (B) the establishment of subsidence type aquaculture apparatus for sea cucumber in the sea area selected in step (a) from September to December in winter from the beginning of autumn; (B) conducting the step (b) above and discharging the sea cucumber seedlings while cultivating seaweeds and mussels in the sinking aquaculture apparatus for 1 year; (C) separating and harvesting the sea cucumbers grown in a certain size while supplying the sea cucumbers to the sea cucumber and harvesting them. The explanation for each step is as follows.

(A) Site selection stage

In the site selection stage, the tidal flats were formed at the bottom of the seabed, the depth of the seas was 20m to 30m and the location of the sinking type aquaculture apparatus of the present invention was selected. As an example, the Yeosu Sea Ranch of the present invention and the village fishing ground of Gogunsan Island in Gunsan were selected as sites where the natural sea cucumbers were distributed and the tidal flats were formed in the seabed so that a large amount of sea cucumber can be cultivated.

(B) For sea cucumber Subsidence  Form Device Installation Steps

FIG. 9 shows a sinking type aquaculture apparatus for sea cucumber installed in the step of installing the sinking aquaculture apparatus for sea cucumbers according to the present invention. The sinking type aquaculture device for sea cucumber (b) was installed in the sea area selected in (a) above. In this embodiment, the sinking type aquaculture apparatus for sea cucumber was installed in the period from September to December, one year before the sea cucumber harvesting step to be described later. This is to form a fishery suitable for natural sea cucumber to ensure that mussels and algae that are to be fed to sea cucumbers are sufficiently cultivated. The sea cucumber seedlings are discharged to the seabed where the sinking type aquaculture device for sea cucumber is installed together with the installation of the sinking type aquaculture device for sea cucumber.

It is also possible to install the sinking type aquaculture device for sea cucumbers for a period of more than one year before the harvesting step of the sea cucumbers. This is because the seaweeds and molluscs harvested in the seaweed- So that the food of the sea cucumber can be formed.

Basically, seaweed grows up to early summer and melts in seawater at high temperatures. In the case of mussels, it grows for one year after harvesting. For sea cucumbers to feed at a temperature of 8 ~ 16 ℃, It should be installed in September to December, one year before the step is implemented. In this step, the seaweed breeding device is attached to the mother line to form a rope for seedling to be attached to the seed rope at a size of 5 to 10 mm so as not to be buried in the poisonous horn or boar. Respectively.

A mussel (mussel) was stitched on the mating device. The mussels are spawned around March to April, and hatchlings are floated. After about 24 days, they enter the hanging life. After about 40 days, they become almost the same shape as the adult mussels and become adults after about one year. Therefore, the installation of the above-described seawater-positive device and the installation of the mare-cage-positive device of the present invention were carried out.

In this embodiment, the sinking type aquaculture unit for sea cucumber is installed at one or more intervals in the row direction to form a sinking aquaculture farm for sea cucumber.

(C) Seaweeds and mites

Fig. 10 shows a sinking type aquaculture apparatus for sea cucumber of the present invention in the step of breeding seaweeds and mites. The seaweed and mollusk phase (C) is grown so that the marine algae and molluscs harvested in seaweed aquifers and mastifluidic apparatus adapt to the sea and are provided as food source for sea cucumbers. The algae grew until (b) the next spring and (c) the sea cucumbers were supplied with abundant food sources during the feeding period. In this embodiment, the sea cucumbers distributed in the natural environment were collected by sinking culturing apparatus for sea cucumber, and a sipping style was carried out from March to April in order to cultivate large-scale individuals at a high density.

(D) The stage of harvesting the sea cucumber

The seaweeds and mussels grown in the present invention are supplied as food for sea cucumbers. Feeding feeds the seaweed-positive device and the mating-type positive device down to the bottom of the sea so that the sea cucumber can feed on the food. Since both ends of the seaweed breeding device and mastifluid breeding device are connected by a mooring device, it is possible to reduce the mooring rope of the mooring device or to reduce the number of riches attached to the seaweed breeding device, It can descend to the sea floor.

In particular, seaweeds can disappear if they release early summer migratory fishes, so they can be used as prey from early spring to the seabed before the loss of leaves. Since kelp does not dissolve the part that released the migratory fish, it can be used as food for the sea cucumber from the fall season when the crab pouch occurs in the case of 1 year old kelp, and can be used for feeding the sea cucumber from 6-7 months when the crab pouch occurs in the case of 2-3 year old kelp. Do.

In the harvesting stage of the sea cucumber, the sinking type aquaculture apparatus for sea cucumber according to the present invention is rescued from September to October after 1 year after the step (b) is performed, or the diver obtains 200 g or more of the seaweed for the sea cucumber .

As a result of harvesting the sea cucumbers in the submerged aquaculture apparatus of the present invention, it was possible to harvest the amount of the sea cucumbers increased by 20 to 30% or more per hectare based on the commercially available sultans of 200 g or more.

It is possible to increase the survival rate of sea cucumber by delivering a system capable of mass production of sea cucumber which is selected as one of the top ten aquaculture strategy cultivars in Korea, and it is possible to increase the productivity of sea cucumbers by short- There is a potential for industrial use because it can contribute to the increase of income of fishermen by improving international competitiveness of aquaculture technology as well as development of fisheries field.

10: Mooring device 20: Mooring rope
30: Seaweed breeding device 40: rich
50: Mastiff-positive apparatus 60: Sea cucumber unit
61: Hiding Frame 61a: Hiding Ball
62: attachment member 63: fixing frame 64: attachment plate

Claims (3)

A plurality of mooring devices fixedly installed on the sea floor; A mooring rope connected to the upper end of the mooring device; A seaweed breeding device connected to the distal end of the mooring rope and installed parallel to the sea surface; A rich one which is fixedly connected to the algae breeding device and installed at least one at a predetermined interval;
A mastifluiferation device connected to a lower portion of the seaweed salvage device and mated with a mastflow; And a sea cucumber unit connected to a lower end of the mothball-growing apparatus and being mounted on a seabed tidal flat section,
Wherein the sea cucumber unit is a polygonal plate having at least one hide hole formed on a side surface thereof and at least one upwardly arcuate attachment member provided on an upper surface of the hide frame, Wherein the fixed frame is provided on the surface of the sea bed,
[3] The apparatus of claim 1, wherein an attachment plate is formed at an upper portion of the sea cistern unit, the attachment plate having an arcuate size connecting the opposite side portions of the hiding frame in an arcuate shape having a narrow width and a relatively downward width, Wherein the water-in-oil type complex forming device for sea cucumber delete

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