KR100918038B1 - Apparatus for breeding Scapharca broughtonii - Google Patents

Abstract

The present invention relates to a dock culture dock including a culture soil therein and having a seawater inflow and outflow door capable of entering and exiting seawater, a seawater filtration unit installed on the seawater inflow and outflow door to filter seawater, And a central control unit for controlling inflow and outflow of seawater into the culture dish dock, and a control unit for monitoring the inside of the culture dish.

According to the present invention, it is possible to artificially control the cultivation environment through the provision of nutrition through tillage and fertilization, by removing the risk of death due to season and environment by cultivating the arched shells using artificial tanks with tidal flats as culture soil Thereby providing an artificial aquaculture apparatus capable of remarkably increasing the production rate of the arched shells.

Shellfish

Description

{Apparatus for breeding Scapharca broughtonii}

The present invention relates to an artificial aquaculture apparatus for increasing production through a shellfish type, and it is an object of the present invention to provide an artificial aquaculture apparatus for artificially cultivating artificial aquaculture apparatus, The present invention relates to an artificial aquaculture apparatus capable of maximizing the survival rate and yield of a shell by allowing a shellfish to grow in an artificial fish tank.

In particular, it relates to aquaculture technology that artificially manages the environmental condition of the seedlings in accordance with the survival rate and the growth and development of the seedlings by making the data base of the sea conditions of the arboreal growth in the growth and uplifting of the arboreal species.

The shellfish (Sciapharca broughtonii) belongs to the bivalve. Archeoptery is rarely hemoglobin (Hemocyanin), but hemoglobin (hemoglobin) is rare among shellfish. Particularly, arkid larvae live mainly in the relatively low waves of less than 3 to 50 meters in depth, and they are inhabited mainly on the inland water. The eaters of the arboreal larvae eat mainly phytoplankton floating in the water or small pieces of organisms or organisms in the pearl but occasionally filter the zooplankton by gill eat. The arboreal larvae are largely iron-rich, because they sink into the pearl and live in the pearl and consume organic matter in the pearl. Arched shells are cultivated as a bulbous amphibian, which shoots on the bottom of the shell, and a bottom-type, positive, which shoots on the bottom.

Since the shellfish is a form that uses the bottom, cleaning the bottom of the fishery is important for the success of the aquaculture. Before spraying the sparrows, they should be cleared of debris on the floor as well as till enough to improve the midnight ability of the bottom mud. Also when collecting the shells, collecting is carried out in the same way as the cleaning work, so the whole fishery is tilled up. However, since the existing farms use the tidal flats of the sea itself, there was a problem that tillage was very difficult and the survival rate was almost 5% compared with the application rate because of the loss of the spore formation due to the waves.

In addition, not only is the lack of nutrients in the shells, but also the shellfish farms use the undersea surface most affected by marine pollution. It is common knowledge that the biggest problem in marine pollution is eutrophication. The surface of the sea floor is contaminated due to excessive nutrients, and it can be seen from the fact that the growth period of arkshell is shortened from several years ago. It is not a problem of lack of nutrients, but even if the nutrients are too much, it prevents the growth of these arks.

In addition, in the case of the existing arboreal form, when the natural drowning occurs, the drowning of the arboreous shell is caused by the dead mass, and the bottom of the farm ground is contaminated by various toxic substances generated by decaying the dead arbor There is a problem that the floor of the farm is devastated. Particularly in the case of the sea purification project conducted by the government, it is aimed to improve the self-sufficiency of the mudflats by removing the bottom debris by using the bamboo line used in the shellfish farm, but it does not improve much. .

FIG. 1 is a schematic view of a conventional artificial shrimp cage. FIG. 1 is a perspective view of a conventional artificial shrimp cage. FIG. There have been various attempts, such as putting the weights (4) on the seabed in a fixed way, or putting a separate net of fish into the bottom of the sea and cultivating them in the tidal flats. However, this method of fishing is not enough to prevent the loss or loss of the shell due to the movement of ocean currents or the pollution of the sea bed.

In conclusion, summarizing the biggest problem of shellfish farming is that the coastal tidal flats are polluted by total marine pollution and long-term sequencing, and that they are cultivated in the actual tidal flats in the sea that can not observe the growth environment of the shellfish, And the loss of arboreal seedlings due to ocean currents can be regarded as a fatal problem that can not increase the production of arcanos.

Particularly, efforts to increase the production of shellfishes using artificial aquaculture have continued to solve the problem of this form. However, due to fundamental problems such as sudden change of ocean current, eutrophication of marine environment and marine pollution, It is the fact that we are not able to solve the problem of deterioration.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above problems, and an object of the present invention is to provide a method and apparatus for cultivating a mollusk using a dock culture dock having tidal flats as a culture soil to eliminate the risk of being killed due to season and environment And controlling the sea environment such as temperature and salt control of seawater so as to artificially control the culture environment, thereby providing an artificial aquaculture apparatus capable of remarkably increasing the production rate of arched shells.

SUMMARY OF THE INVENTION In order to solve the above problems, an object of the present invention is to eliminate the risk of death due to seasonal and environmental influences by cultivating a shellfish using a shell culture dock having tidal flats as culture soil, Thereby making it possible to increase the production rate of the arched shell remarkably.

More particularly, the present invention relates to a dock culture dock including a culture soil inside thereof and a sea water inflow / outflow door capable of entering and exiting seawater, and is mounted on the sea water inflow and outflow door, And a monitoring unit capable of monitoring the interior of the cultured dock culture dock. The monitoring unit is capable of checking the growth state of the arched shells from time to time, and a seed control unit for sowing the seedlings of the arboreson is provided on the culture soil, It enables collection and control of all these culture environments and controls by the central control department.

According to the present invention, it is possible to eliminate the risk of death due to seasonal and environmental influences by cultivating the arboreal soil by using an artificial water tank with the tidal flats as the culture soil, and to prevent the inflow and outflow of seawater according to the water temperature, It is possible to artificially control the culture environment such as the inflow of air, thereby providing an artificial aquaculture apparatus capable of remarkably increasing the production rate of arched shells.

The present invention relates to a dock culture dock including a culture soil therein and having a seawater inlet and outlet door through which seawater can enter and exit; A seawater filtration unit mounted on the seawater inflow / outflow door to filter seawater; A monitoring unit capable of monitoring the interior of the cultured dock culture dock; A seedlings management unit for seeding the seedlings of the arboreson on the culture soil; And a central control unit for controlling the inflow and outflow of seawater into the dock culture dock; The artificial aquaculture apparatus according to claim 1, wherein the artificial aquaculture apparatus comprises:

Further, in the present invention, the artificial aquaculture apparatus further comprises an air supply device for introducing outside air into the inside of the dock culture dock, thereby improving the growth environment of the arched shell, Thereby maximizing the productivity of the arched shell.

Further, in the present invention, the central control unit may include: a seawater control unit for determining the inflow and discharge of seawater; A tide formation control unit for forming only an artificial tidal current and an artificial tidal current; An environment control unit for controlling salinity and temperature of seawater in the cultivated culture dock; The artificial aquaculture apparatus of the present invention is characterized in that the artificial aquaculture apparatus of the present invention is capable of automating control of the growth environment of a shell.

The seawater control unit may further include an artificial seawater inflow / outflow device for controlling inflow and outflow of seawater and opening / closing the seawater inflow / outflow door and connected to the inside of the artificial incubation dock The artificial aquaculture apparatus according to the present invention is characterized in that an artificial algae is generated by the inflow and outflow of seawater to improve the growth environment of the arched shell, and the lost nutrients can be supplied by exchanging seawater.

Further, in the present invention, the tide formation control unit is connected to the tide generation device connected to the artificial cultivation dock to form artificial waves, artificial tides or tides only in the artificial cultivation dock So that the environment can be made so that the growth environment of the shell is most similar to the natural growth environment.

Further, in the present invention, the environment control unit converts the salinity and temperature of the seawater in the shell dock culture dock into a database and maintains the salinity and the temperature set at the culture temperature of the shellfish.

Further, in the present invention, the seawater filtration unit may further include at least one contaminant absorbing device installed in the inside of the artificial cultivation dock in addition to the sea water inflow and outflow door. The cleanliness of the seawater is maintained by removing the pollutants of the seawater so that the growth environment of the arbor can be improved.

Further, in the present invention, the monitoring unit capable of monitoring the inside of the cultured dock culture dock is constituted by a transparent observation unit of the outer surface of the dock, and the change of the growth environment of the arched shell can be visually observed So that immediate response and improvement can be implemented.

Further, in the present invention, the monitoring unit may further include at least one or more underwater monitoring devices installed in the dock culture dock for monitoring and transmitting the underwater environment to the central control unit. , So that it is possible to observe the detailed growth environment in addition to the monitoring part.

Further, in the present invention, the seedlings management unit may further include: a seed seeding apparatus for seeding a seedlings into the inside of the cultured dock culture dock; An adsorption apparatus for larvae larvae adsorbing larvae of the seeded seedlings; A success or failure collecting device for collecting success or failure as a result of growth of the seedlings; The artificial aquaculture apparatus according to claim 1,

Further, in the present invention, the sparse management unit further comprises a feed rail formed on a side surface of the dock culture dock and a composite spar manger for moving the upper portion of the feed rail. So that efficient spraying and collection of seeds is possible.

In addition, the present invention provides the above-mentioned composite sparrow managing apparatus, comprising: a housing including a space capable of receiving a seeder therein; A plurality of spray holes for spraying a seed formed on the lower surface of the housing; Conveying means formed on both sides of a bottom portion of the housing and capable of conveying the upper portion of the conveying rail; The artificial aquaculture apparatus according to claim 1,

The artificial aquaculture apparatus according to the present invention is characterized in that the artificial aquaculture apparatus comprises a tiller for removing tillage and sediment of the cultivated soil in the artificial cultivation dock and an apparatus for removing sediments, So that the growth of the arboreal shoot can be promoted.

Hereinafter, the structure and operation of the present invention will be described in detail with reference to the accompanying drawings.

2 and 3, FIG. 2 is a configuration diagram of a artificial aquaculture apparatus according to the present invention, and FIG. 3 is a conceptual diagram showing the configuration diagram.

The artificial aquaculture apparatus (hereinafter referred to as 'aquaculture apparatus') of the present invention includes a dock culture dock 10 including a culture soil therein and having a seawater inflow and outflow door 20 capable of entering and exiting seawater, A monitoring unit 40 for monitoring the interior of the cultured dock culture dock, a seeding management unit (not shown) for spraying the seeds of the arbor on the culture soil, a seawater filtration unit 30 installed on the seawater inflow and discharge door for filtering seawater, And a central control unit (C) for controlling the inflow and outflow of seawater into the coarse cultivation dock. The dock culture dock 10 includes an air supply device 50 for introducing outside air into the culture dock 10 so that fresh air can be introduced into the culture dock 10.

The central control unit C is basically a control unit for adjusting the temperature and salinity information of the sea water of the aquarium according to the present invention to an appropriate temperature by databaseing the sea water. In order to control the environment of the sea water, And a tidal formation control unit for forming an artificial tidal current and an artificial tidal water trough, and an environment control unit for controlling the salinity and temperature of seawater in the artificial cultivation dock. In particular, the seawater control unit controls the inflow and outflow of seawater, opens and closes the seawater inflow and outflow door 20, and further includes an artificial seawater inflow and outflow apparatus 60 connected to the inside of the artificial incubation dock . Particularly, the opening and closing of the seawater inflow and outflow door 20 enables the flow of natural algae through the inflow and outflow of natural seawater to the culture environment of the shell, and the artificial seawater inflow / It is preferable to form the deep water so that it can be artificially introduced or discharged. As a result, the inflow and outflow of seawater can be carried out in the seawater inflow and discharge door and the artificial seawater inflow and outflow device, and the inflow and outflow of the seawater can be complemented each other, thereby ensuring stable supply and discharge of seawater.

Specifically, when the artificial seawater is introduced, the seawater inflow pump may be used to raise deep seawater so that deep sea water that can be grown by the arbor can be inflowed. The seawater can be introduced into the culture dock . Therefore, this aquaculture unit can always introduce clean deep seawater at any time, and can combine with a purifier to purify contaminated seawater. In the present invention, in order to exchange seawater, a separate seawater discharge unit may be provided in the aquaculture apparatus, or the seawater may be discharged to the outside by using a discharge pump or the like.

The tide formation control unit may be connected to the tide generator 70 connected to the dock culture dock 10 so that only artificial waves, artificial tides or tide gaps can be formed in the dock culture dock. In particular, the tide generator is provided with driving means such as a motor to artificially form the movement of the seawater in the dock culture dock, and furthermore, it can form an artificial wave.

The environment control unit makes the salt and temperature of the seawater in the dock culture dock 10 a database and maintains the salinity and the temperature set at the culture temperature of the shell to optimize the growth environment of the shell.

The seawater filtration unit 30 basically comprises a filtration net, a filtration net, a filtration wall, and the like in the inflow / outflow door 20, and further includes at least one contaminant absorption apparatus 31 installed in the inside of the artificial cultivation dock, So that the seawater can purify various pollutants generated by stagnation in the dock culture dock for a long time.

In the conventional art, there was a problem that the growth environment of the arkhell in the sea could not be observed, so that it was impossible to promptly discriminate and cope with the state of the arkhell. To this end, in the present invention, And a monitoring unit 40 capable of monitoring the surface of the object, which can be formed as a transparent observation unit on the outer surface of the object. In order to observe the environment in the dock more precisely, it is more preferable to have an underwater monitoring device 42 for monitoring and transmitting the underwater environment to the central control unit. In the underwater monitoring device (42), the monitoring unit may be provided at least one inside the dock culture dock.

Although not shown in the present invention, it is preferable to form the control section 100 with an integrated management apparatus for sowing and collecting seedlings. In particular, the control unit 100 controls the seeding and seeding apparatus 110 for seeding the seeds into the inside of the coarse culturing dock, the apparatus 120 for adsorbing larvae of the seeded seedlings, And a recovery device 130 for recovering the recovered product. This makes it possible to efficiently spray the seeds, stably adsorb the larvae, and achieve efficiency in the process of harvesting.

As an embodiment of forming the sparse management part, a conveying rail 231 formed on a side surface of the coarse culturing dock and a composite spar manger 200 moving the upper part of the conveying rail will be described.

As shown in FIG. 4, the composite mulberry management apparatus 200 includes a housing 210 including a space capable of accommodating a seeder therein, a spray line 220 for spraying seeds formed on a lower surface of the housing, And conveying means (230) formed on both sides of the bottom portion of the housing and capable of conveying the upper portion of the conveying rail. The spraying line may be formed in the form of a hole as a spraying portion capable of spraying a spatula or may be formed so that the spatula can be formed into a structure that naturally falls according to its size as shown in the figure. In particular, the control of the amount of the seed falling freely at a certain rate in the course of spraying can control the amount of the seed sprayer by controlling the feed rate of the seed sprayer.

Also, the artificial aquaculture apparatus includes a tiller and a sediment removing device (not shown) for removing tillage and sediment from the cultivated soil inside the artificial cultivation dock, thereby improving the production yield of the artefacts . The cultured dock culture dock according to the present invention preferably has a water temperature regulating device (not shown) below the culture water tank to regulate the water temperature. In addition, water temperature control through natural light can be considered using external sunlight.

The cultured dock culture dock according to the present invention can be operated in combination with at least one or more of the plurality of dock culture docks, and the scale of the dock culture dock can be adjusted as much as the space or the user's needs.

In the foregoing detailed description of the present invention, specific examples have been described. However, various modifications are possible within the scope of the present invention. The technical idea of the present invention should not be limited to the embodiments of the present invention but should be determined by the equivalents of the claims and the claims.

FIG. 1 is a view showing a shell of a shell of a conventional art.

FIG. 2 is a schematic view showing an artificial nail culturing apparatus according to the present invention.

Fig. 3 is a view showing a cultivation dock of the present invention.

FIG. 4 is a view showing an embodiment of a composite succumb manager according to the present invention.

Claims (13)

A dock culture dock including a culture soil therein and having a seawater inflow / outflow door capable of entering and exiting seawater; A seawater filtration unit mounted on the seawater inflow / outflow door to filter seawater; A monitoring unit capable of monitoring the interior of the cultured dock culture dock; A seedlings management unit for seeding the seedlings of the arboreson on the culture soil; And A central control unit for controlling the inflow and outflow of seawater into the incubation incubation dock; Wherein the artificial harvesting apparatus comprises: The method according to claim 1, Wherein the dock culture dock further comprises an air supply device for introducing outside air into the inside of the dock culture dock. The system according to claim 2,  A seawater control unit for determining the inflow and discharge of seawater; A tide formation control unit for forming only an artificial tidal current and an artificial tidal current; An environment control unit for controlling salinity and temperature of seawater in the cultured dock culture dock; Wherein the artificial harvesting apparatus comprises: The method of claim 3, Wherein the seawater control unit further comprises an artificial seawater inflow and outflow device for controlling inflow and outflow of seawater and opening and closing the seawater inflow and outflow door and connected to the inside of the incubation culture dock Artificial aquaculture device. The method of claim 4, Wherein the tide formation control unit is connected to the tide generation device connected to the artificial cultivation dock to form artificial waves, artificial algae or tide water only in the artificial cultivation dock. The method of claim 5, Wherein the environment control unit maintains the salinity and the temperature of the seawater in the shell dock culture dock as a database and maintains the salinity and the temperature set at the culture temperature of the shell. The method of claim 6, Wherein the seawater filtration unit further comprises at least one contaminant absorption apparatus installed inside the artificial cultivation dock in addition to the sea water inflow and outflow door. The method of claim 7, Wherein the monitoring unit capable of monitoring the inside of the cultured dock culture dock comprises a transparent observation unit on the outer surface of the dock. The method of claim 8, Wherein the monitoring unit further comprises at least one or more underwater monitoring devices installed inside the dock culture dock for monitoring and transmitting the underwater environment to the central control unit. [12] The apparatus of claim 9, A seeding seeding device for seeding seeds into the inside of the cultured dock culture dock; An adsorption apparatus for larvae larvae adsorbing larvae of the seeded seedlings; A success or failure collecting device for collecting success or failure as a result of growth of the seedlings; Wherein the artificial harvesting apparatus comprises: The apparatus according to claim 10, Further comprising a feed rail formed on an upper side of the dock culture dock and a composite spar manger for moving the upper portion of the feed rail. [Claim 14] The system of claim 11, A housing including a space capable of receiving a seeder therein; A plurality of spray holes for spraying a seed formed on the lower surface of the housing; Conveying means formed on both sides of a bottom portion of the housing and capable of conveying the upper portion of the conveying rail; Wherein the artificial harvesting apparatus comprises: The method of claim 12, Wherein the artificial aquaculture apparatus comprises tillage and a sediment removing device for removing tillage and sediment of cultivated soil inside the artificial cultivation dock.

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