KR101606630B1 - The cephalopoda assembly farming equipment with thigmotaxis - Google Patents

Abstract

The cephalopod for the cephalopods of the present invention is a space in which cephalopod objects are inhabited and has a floor and a height of a certain area; The octopus is provided with a waste outlet at the bottom of the octopus body, an octopus lid detachably attached to the upper part of the octopus body, and a feeding port protruding downward. The octopus has a certain height to fix and mount the octopus body, A cradle in which at least one body fixing hole is formed; It is composed of a lower pedestal which is located at the lower part of the pedestal and is connected with the pedestal, so that the pedestals can be separated and accommodated for prevention of the formal phenomenon and the damage of the pedestal, so that each individual has an emotional stability within the pedal system, .

Description

[0001] The present invention relates to a cephalopoda assembly farming equipment with thigmotaxis,

The present invention relates to an aquaculture apparatus for growth of cephalopods, and more particularly, to prevent the phenomenon of formal phenomenon and fish body damage by independent separation, to increase the growth rate by using the care of the cephalopods, The present invention relates to a cephalopod farming apparatus.

Octopus is a marine animal belonging to octopus and widely distributed in the eastern Pacific Ocean such as Korea, Japan, Alaska, North America and California. Octopus is a coastal benthic species, and it lives in a rock gap or hole of ~ 50m Azo. The octopus is in a cave in a rocky mud or cliff, then takes out its arms and eats its food.

In Korea, it mainly lives on the south coast and the east coast, and spawning period from early summer to early autumn. The spawning ground spawls in the concave part between the reefs and the inside of the concave part even if it is made of sand or clay. It is relatively fast to grow into adult for 3 or 4 months.

Octopus is known as a good food for dieting because it contains abundant taurine, effectively suppresses neutral lipids and cholesterol in blood, helps liver to detoxify, is effective in fatigue recovery, has low lipid and saccharide content, and is rich in protein.

The octopus fishing method generally uses an octopus pot. The octopus uses the property to find the shelter and reside there. This means that several jars are tied to the rope at regular intervals without bait and put on the seabed, and after a certain period of time, they salvage the octopus in the jar. When you salvage the complexes, you will be surprised if you are a general fish, but because the octopus is more strongly attached to the inside of the complex, the escape of the octopus due to the salvation of the complex rarely occurs.

The complex was made of pottery in the past, but recently it is made of plastic. The size of the complex is small in the small ship, but it is not uniform in the large ship. The size of the entrance is 10 ~ 12cm, the height is 24 ~ 27cm and the widest part is 15cm. Each 7m is attached to one by one with 2m long string.

Recently, however, it is also used that the opening and closing device is attached to the lid, and the bait is put in the lid to close the opening and closing device when the octopus infiltrates. Either way, the fishing is done by small fishing boats of about 5 tons, and since the octopus is nocturnal, the fish are put into operation at the time of dusk and lifted early the next morning.

The octopus caught in this way nourishes the food by transferring it to a preserve facility that can prevent escape of octopus in a clean and proper place where the circulation of seawater is well, and manages the facilities such as feeding.

Currently, live octopus can not be easily found during the same period due to unrecognized fishing and destruction of the habitat environment, and the price is higher than that of the higher demand. The market value is high and the food selection is good while the growth period is short. It is necessary to develop effective octopus culture technology that can secure stable supply and demand.

There is no standardized model for the method of octopus, so there is no standardized model of octopus. It is possible to cultivate in an environment condition close to the natural state which can be hiding in consideration of octopus habit, easy to ingest food, Is required.

On the other hand, plants and plants are increasingly interested in applying directionality to the production method of aquatic products, which is a tendency to make directional movements or approach or avoid the stimulus by external stimuli.

Tacticity refers to the ability of a creature to make directional movements by external stimuli or to move a whole body against a certain stimulus so that the creature approaches or avoids the stimulus. It is largely behavioral behavior that can be seen in lower animals and appears to be adapted behavior in a beneficial way to the survival of the creature.

Jusung is classified according to the type of stimuli applied, and is classified into two groups according to the type of stimulation applied: chemotaxis (stimulation of chemical substance), photoperiod (light), phototaxis, lightness, thermotaxis, (Electrophoresis, electrotaxis, current), thigmotaxis (physical contact), dominance (geotaxis), mainstream (rheotaxis) and water flow.

For example, when sperm or protozoa attach or stop on a solid surface or put a worm on a glass plate, the sperm protrudes along the edge of the dish and never crawls the center of the dish. Or a specific direction of action, such as the fact that earthworms are clustered together.

Among them, Octopus and Octopus have cephalopods (contact thymotaxis) due to contact stimulus. The cephalopod movements are moved to the whole body by the contact stimulus, so that the movement becomes active in a small space. However, the technology development of cephalopods including octopus and octopus using this tendency is still insufficient.

Korean Unexamined Patent Application Publication No. 2002-0070910 discloses a sea cucumber crab sparrow which is harvested after a fishery product, sea cucumber, octopus, and a formal process are completed through a cage rearing place where the height of a cage net can be adjusted by using a rope. Korean Patent Laid-Open Publication No. 10-2013-0028373 discloses a frame composed of a plurality of side faces surrounding a bottom face and a bottom face filled with pearl or gravel, and a plurality of hide areas Which is installed on the sea floor and can be fed at a predetermined period to feed the food. Korean Patent Registration No. 10-1193601 discloses a cephalic culture apparatus comprising a cylinder for culture of cephalopods and a lid formed for feeding food into the cylinder, wherein a burr is formed in a water hole formed in the cylinder, Discloses a bur-type cephalopod farming apparatus for independently separating and cultivating individuals. Korean Patent Laid-Open Publication No. 10-2011-0118984 discloses a method of separating and enlarging a food by cutting off an open upper portion and a plurality of through-holes formed in a cylinder and a lid having a plurality of through holes for feeding food on the upper portion of the cylinder, And a cephalopod farming apparatus that prevents the occurrence of the cephalopods. However, the above-mentioned prior arts do not disclose a technique for promoting growth by imparting a sense of stability to living organisms by using the care of the cephalopods, and include a configuration of a form device which is easy to assemble and separate while taking into consideration the official phenomenon of cephalopods and the discharge of food waste Which is different from the present invention.

It is an object of the present invention to provide a device for cephalopod cultivation which can be easily separated and assembled, separates and houses each individual, and grows and grows in the aquaculture device using the care of the cephalopods.

In order to solve the above problems, the present invention provides an octopus main body having a floor and a height of a certain area as a space for living cephalopod objects; And an octopus lid formed to be detachable from the upper part of the octopus body and configured to protrude downward. The octopus lid has a predetermined height so as to fix and mount the octopus body, A cradle in which one or more fixtures of an octopus body are formed; And a bottom pedestal located at the bottom of the pedestal and coupled with the pedestal.

The lower pedestal has at least one lattice shape in which the vertical frame and the horizontal frame intersect. A lattice-shaped crossing point is formed with a fixing jaw so as to enclose the discharge port, and a net tongue is formed at one end of the lance- And an outlet formed at one side of the bottom of the octopus body is formed in an area of 1/3 to 1/4 of the bottom center.

In the lower pedestal, which is connected to the lower part of the pedestal with the octopus main body fixing hole formed therein, a fixing jaw is formed so as to be coupled while wrapping the exhaust port. A fixed latch is formed so as to engage with the fixing groove. Wherein at least one projection is formed on the bottom of the ceiling, and the ceiling is formed so as to be able to engage with the ceiling of the ceiling with a predetermined height.

The fixing groove and the fixing latches of the present invention facilitate easy separation and separation of the cradle and the lower cradle, and the water resistance is reduced due to the plurality of holes formed in the octopus main body, the upper and lower sides of the cradle, and the lower cradle, So that distortion and damage of the shape due to the external pressure are small. It has the effect of enhancing the merchantability of the cultured fishery by increasing the growth rate of each individual in the aquaculture apparatus by using the nurture to prevent the formal phenomenon and the body damage by separately accommodating each individual in the octopus house.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a perspective view of a cephalopod prefabricated aquaculture apparatus according to the present invention.
Fig. 2 shows a top view (A) of the octopus lid and a bottom view (B) of the octopus lid.
Fig. 3 shows a front view of the octopus main body.
4 is a bottom perspective view of the octopus main body.
5 shows a left perspective view of the cradle.
Fig. 6 shows a view of the cradle from below.
7 shows a cross-sectional view of a cradle.
8 shows a left perspective view of the lower pedestal.
FIG. 9 is a perspective view of the present invention, in which all the components of the cushioning apparatus having the urging force are combined.
Fig. 10 shows a left side view in a state where all the components of the present invention are combined.
11 shows a cross-sectional view of the present invention in a state where all the components are combined.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a specific configuration and an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

Fig. 1 is a perspective view of a cephalopod prefabricated aquaculture apparatus according to the present invention. A cephalopod object to be cultivated in an octopus main body 20 having a floor and a height of a certain area is separated and accommodated in a space in which a cephalopod object is accommodated. The open top of the octopus main body 20 is detachable, A fixing hole 31 is provided at a predetermined interval in the mount 30 so as to mount one or more octopuses composed of the octopus lid 10 and the octopus main body 20, And has a structure in which the lower pedestal 40 is coupled to the lower opened portion of the pedestal 30.

Fig. 2 shows the octopus lid 10, which shows a top view (A) of the octopus lid and a top view (B) of the octopus lid. A food intake port 11 is formed at an arbitrary position on the upper surface of the octopus lid 10 and the food intake port 11 is formed as a through hole protruding from the lower surface of the octopus lid 10.

The octopus lid 10 closes the top of the open octopus main body 20 to prevent the cephalopods contained in the octopus main body 20 from escaping. The feeding inlet 11 is formed at an arbitrary position of the octopus lid 10 so that the food can be easily introduced into the octopus through the feeding inlet 11 without opening or closing the lid. The feeding of octopus and octopus is usually used as food for feeding clams. When a clam is fed through the feeding port (11), after the cephalopods have fallen on the bottom of the space where the cephalopods are inhabited, And is collected at an outlet formed in the lower portion of the main body of the house.

Although not shown in FIG. 2, the octopus lid 10 has a flapper connected to one end of the through-hole of the food inlet 11 protruding from the lower surface of the lid. The tongue (flapper) is made of a mesh or polyvinyl chloride (PVC), and has a cylindrical structure with an open top and bottom. The tongue of the net is connected to the feeding inlet 11 by a rubber packing surrounding one end of the through hole located at the lower end of the feeding inlet 11.

The net tongue is a structure that is naturally closed by the material constituting the open bottom. When the food is fed through the feeding port 11, the lower end of the net tongue, which was closed by the weight of the food, is opened naturally. This serves to assist the supply of food introduced through the food inlet 11, while blocking the body part of the organism contained in the octopus main body 20 by the normally closed net tongue so that it can not escape to the outside.

Fig. 3 shows a front view of the octopus main body, and Fig. 4 shows a bottom perspective view of the octopus main body. The octopus main body 20 is formed to have a floor and a height of a certain area as a space in which cephalopod objects are accommodated. The octopus main body 20 is preferably formed in a cylindrical structure having a wide upper portion and a narrower lower portion. The main body side surface 21 is formed in such a small size that the cephalopods contained in the octopus main body 20 can not escape, and a plurality of through holes are formed at regular intervals to lower the water resistance and allow the inflow of seawater. To the breeder.

The upper part of the octopus main body 20 is open for inflow of living creatures to be raised and becomes narrower as it goes downward, and a sloping bottom surface is formed at a specific height to form the bio-depositing space 22. The bottom surface is utilized as a bio-seating space (22) to not only provide emotional stability to the cephalopods having the occlusion, but also allows the food introduced through the food inlet (11) to be seated in the bio- This has a beneficial effect on growth and development.

A through hole is formed in the bottom surface of the bio-depositing space 22, which is connected to an outlet 23 located at the bottom of the octopus main body 20. The food fed through the feeding port (11) is settled in the biological seating space, and after a while, the food remains after the eating, and serves as a place for collecting such debris. Since the bottom surface of the bio-depositing space 22 is inclined with respect to the discharge port 23, the generated food residue is moved to the discharge port 23 and is discharged to the outside during cleaning.

It is preferable that the position of the discharge port formed on the lower side of the octopus main body is formed in an area of 1/3 to 1/4 of the bottom center. When the center is formed at the center of the floor, the space where the cephalopods can be rested is formed on the outside of the through-hole with respect to the center, so that the effect of the ceiling is substantially narrowed. When the floor is formed on one side, The effect becomes broader.

5 shows a left perspective view of the cradle. When the holder 30 is viewed from the left or front side, the holder 30 has a trapezoidal shape that gradually widens from the upper surface to the lower surface, and the lower surface and the inside of the holder 30 are opened. A plurality of fixing holes 31 are formed at regular intervals on the upper surface of the holder 30 so that a plurality of octopuses can be inserted into the fixing holes 31 to be mounted thereon. In addition to the plurality of fixing holes 31 for fixing and mounting the octopus, a plurality of small holes are distributed on the upper surface and the side surface of the cradle 30, respectively, thereby reducing water flow resistance and allowing inflow of seawater.

One or more knobs 32 having a concave rectangular shape are formed on both side surfaces of the side surface of the holder 30 and a fixing groove 33 is positioned below a selected one of the knobs 32. The fixing groove 33 is used to integrally join or separate the holder 30 and the lower pedestal 40 together with the fixing jaw 41 formed at an arbitrary position of the lower pedestal 40.

Fig. 6 is a top view of the cradle, and Fig. 7 is a sectional view of the cradle. The fixing hole 30 for fixing and mounting the octopus on the upper surface of the holder 30 has a cylindrical structure with the upper and lower portions thereof being opened, and a plurality of octopus height-fixing projections 35 protrude from the inside of the cylindrical shape. The octopus height-fixing protrusion (35) allows the octopus main body (20) inserted into the fixing hole (30) to be mounted on a certain height. The grooves formed by the discharge port 23 of the octopus body 20 and the fixing jaws 41 of the lower pedestal 40 have the same upper and lower positions when all the components of the present invention are assembled and integrated. The grooves formed by the fixing jaws 41 collect the food waste discharged through the discharge port 23 of the octopus main body 20.

The height-fixing protrusions 34 are located inside the mounting table 30 and project vertically from the side surface of the mounting table 30, and a plurality of fixing protrusions 34 are formed at regular intervals. The raised and fixed protrusions 34 for the cradle are positioned at a certain height from the bottom surface of the cradle 30 and a small space is formed between the bottom surface and the cradle height and fixed protrusions 34. The upper and lower protrusions 34 and 43 are vertically coupled to each other at the same position when the holder 30 and the lower holder 40 are vertically coupled to each other.

8 shows a left perspective view of the lower pedestal. The lower pedestal 40 has a plurality of through holes formed therein in a lattice shape in a rectangular plate. A horizontal frame, and an outer frame so as to project from the lower pedestal and intersect with each other. A fixing jaw 41 is positioned at a portion where a plurality of vertical frames and a horizontal frame intersect and a groove curved downward is formed in the fixing jaw 41. The grooves formed in the fixing jaw 41 are formed such that when the components of the present invention are integrally combined with each other, the discharge port 23 of the octopus body 20 is positioned at the upper portion of the groove and the food debris comes down through the discharge port 23 When collected in the groove, the collected food waste can be easily removed from the inside of the octopus body by separating the lower pedestal 40 from the cradle 30 and simply cleaning it with water.

FIG. 9 shows an inverted view of all the components of the cephalic aquaculture apparatus of the present invention combined. The fixing bracket 43 protruding in the shape of ∩ at one side of the lower bracket 40 is fastened to the fixing groove 33 of the bracket 30 so that the bracket 30 is fastened to the lower bracket 40, And is used to fix it to the upper position. FIG. 10 shows a state in which all components of the cephalic aquaculture apparatus of the present invention are combined, as viewed from the left. The fixing bracket 43 of the lower bracket 40 is fixed to the fixing groove 33 of the bracket 30 and the bracket 30 is fixed to the upper portion of the lower bracket 40 as viewed from the left side.

11 is a sectional view of the present invention in which the lower pedestal height fixing protrusion 42 is located at a point where the vertical frame and the outer frame intersect or a position where the horizontal frame and the outer frame intersect. When the lower pedestal 40 and the pedestal 30 are vertically coupled to each other, the plurality of lower pedestal-height-fixing and fixing projections 42 are coupled to each other at the same positions vertically with the plurality of pedestal- The fixing protrusions 35 and the fixing protrusions 42 of the lower support and the fixing protrusions 42 serve to secure a minute space between the two members when the mounting table 30 is coupled to the lower support 40,

The present invention relates to an octopus lid having a feeding port to prevent escape of a living organism without opening and closing operation, and to facilitate feed input, and to provide an emotional stability feeling to a living creature settled through an octopus main body including a bio- By increasing the growth rate, it is possible to raise the marketability of the harvested fish, improve the fishery income by cultivating the large amount of the cephalopod which was supplied only by the fishing.

10: octopus lid 11: feeding inlet
20: octopus body 21: body side
22: biological settlement space 23: outlet
30: Cradle 31: Octopus body fixture
32: Handle 33: Fixing groove
34: Raising the octopus house
35: Raise the cradle and turn the cradle
40: Lower pedestal 41: Fixed chin
42: Lower pedestal height
43: Retaining clasp

Claims (5)

And a bio-depositing space having a floor surface and a height of a certain area and having a top opening and a through-hole for exchanging seawater on the side thereof, and the bottom surface is provided with a through hole And the discharge port includes an octopus main body having an area of 1/3 to 1/4 of the bottom of the bottom surface;
And an octopus lid detachably attached to the upper part of the octopus main body and formed with a feeding port protruding downward,
At least one octopus body fixing hole is formed at a predetermined interval so that the octopus body can be inserted and fixed on the upper surface. A projection 34 for fixing the octopus height is formed on the inner side of the octopus body fixing hole. And a holder having a fixing groove to be engaged with a fixing latch at one side of the side having a height;
A fixing jaw which is detachably coupled to the open bottom surface of the cradle and which has a predetermined height so as to be able to engage and engage with a bottom end of the outlet of the octopus main body inserted by the octopus main body fixing hole of the cradle, And a lower pedestal having a fixed latch.
2. The apparatus according to claim 1, wherein a net tongue is formed at one end of a protruding feeding port on the bottom of the octopus lid, and at least one protrusion (35) for fixing the platform height is formed on the inside of the platform with a predetermined height, And is formed so as to be able to engage with the protrusions (42) at a constant height. delete delete delete

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