KR20090061382A - Apparatus for breeding scapharca broughtonii - Google Patents

Abstract

An apparatus for cultivating scapharca broughtonii is provided to improve the production yield of scapharca broughtonii remarkably by using a scapharca broughtonii cultivation dock using the cultivation soil. An apparatus for cultivating scapharca broughtonii comprises a scapharca broughtonii cultivation dock(10) which contain the cultivation soil and is provided with a seawater intake/discharge door; a seawater filtration part(30) which is mounted to the seawater intake/discharge door to filter seawater; a monitoring part(40) which monitors the inside of the scapharca broughtonii cultivation dock; a seed shell maintenance unit(100) which sows the seed shells of scapharca broughtonii to the cultivation soil; and a central control part(C) which controls the inflow and discharge of the seawater into the scapharca broughtonii cultivation dock.

Description

Apparatus for breeding Scapharca broughtonii}

The present invention relates to an artificial farming apparatus for increasing production through shellfish farming, and due to the sensitive growth environment of shellfish and the increase in mortality rate, the existing farming apparatuses are directly installed in the sea, thereby avoiding the farming method of farming shellfish. The present invention relates to providing an artificial farming apparatus that enables the shellfish to grow in the artificial tank to maximize the survival rate and yield of the shellfish.

In particular, it relates to aquaculture technology that artificially manages the survival rate of the shellfish and the appropriate environmental conditions according to the growth and development of seedlings by computing a database of seawater conditions that are the growth environment of the shellfish.

Shellfish (Scapharca broughtonii) belongs to bivalve shells. In shellfish, hemoglobin is not a hemocyanin, but a hemoglobin, which is rare in shellfish. In particular, the shellfish inhabit relatively inland waters with a relatively low wave of 3 to 50m and the algae's food mainly eats phytoplankton or small pieces of organic matter or organisms in the water, but sometimes filters the zooplankton with gills. eat. Since shellfish infiltrate and inhabit the pearls and consume organic matters from the pearls, the shellfish contains a large amount of iron. The clam is cultured as a submerged positive cultivating the clam as a submerged cultivation and a cultivating floor cultivating by spraying it to the bottom.

Since the shellfish farming is a bottom-based farming system, it is important to clean the bottom of the fishery so that the success of the farming can be determined. Clear out the bottom of the litter before spreading the shellfish and give enough tillage to improve the self-cleaning ability of the floor shell. In addition, when collecting the shellfish is also harvested in the same way as the cleaning work, the whole fishery is tilled evenly. However, the existing farms use the sea's own tidal flats, so the tillage was very difficult, and due to the large loss of shellfish due to the waves, the survival rate is almost less than 5%.

In addition, as well as lack of nutrients in the shellfish, the shellfish farms use the sea floor which is most affected by marine pollution, and it is common knowledge that the biggest problem among marine pollution is eutrophication. The sea floor is contaminated by excessive nutrients, and it can be seen that the growth period of the shellfish has been shortened for several years. It is not a problem of lack of nutrients, but too much nutrients will interfere with the growth of these clams.

In addition, in the case of the conventional shellfish culture, the shellfish is crowded, and when natural death occurs, group death occurs, and the bottom of the farm is contaminated by various toxic substances generated by the decay of the shellfish. There is a problem that the bottom of the farm is devastated. In particular, in the government's sea purification project, we try to improve the self-cleaning ability of Gaepal by removing the trash from the bottom and grounding it using the mesh line used in the shellfish farm, but the degree is not much improved. Will be said.

1 is related to a conventional shellfish farming, off the way to cultivate by spraying the seed directly on the tidal flat of the conventional sea floated buoys and connect the connecting rope (2), attached to the middle of the culture net (3) in the middle There have been various attempts, such as attaching and fixing weights (4) to the seabed, or placing a separate farming net and planting them on the tidal flats. However, these farming methods also prove to be inadequate to prevent the loss or loss of shellfish caused by the movement of ocean currents or the contamination of the seabed.

In conclusion, the biggest problem of shellfish farming is that total marine pollution, pollution of tidal flats due to long-term cropping, and the fact that the shellfish's growth environment cannot be observed, Acceleration of seabed contamination due to neglect and loss of shellfish seedlings due to currents can be identified as a fatal problem that does not increase production of shellfish.

In order to solve the problem of aquaculture, efforts have been made to increase the production of shellfish by using artificial aquaculture nets on the seabed, but due to fundamental problems such as rapid changes in ocean currents, eutrophication of marine environment, and marine pollution, The situation is being solved without solving the problem of degradation.

The present invention has been made to solve the above problems, an object of the present invention is to culture the shellfish using a shellfish culture dock (dock) as a mudflat culture soil, thereby eliminating the risk of death by the effects of seasons and the environment The present invention provides an artificial aquaculture apparatus that can significantly increase the production rate of shellfish by controlling the culture environment by controlling the seawater environment such as the temperature of the seawater and the control of salinity.

In order to solve the above problems, an object of the present invention is to culture the shellfish using a shellfish culture dock (dock) in which the mudflat is cultured, thereby eliminating the risk of death by the influence of seasons and the environment, By artificially adjusting, it is to provide an artificial aquaculture device that can significantly increase the production rate of the shellfish.

In particular, it includes a cultured soil in the inside, and has a shell culture cultivation dock (dock) having a seawater inlet and discharge door capable of entering and exiting seawater, and is equipped with the seawater inlet and outlet door to clean the seawater filtration unit for filtering seawater Seawater is introduced and equipped with a monitoring unit for monitoring the inside of the cultured shell of the shell, so that the growth state of the shell of the shell can be checked at any time, and the seed control unit for sowing the seed of the shell of the cultured soil has been precisely sprayed and The collection is enabled and all of these culture environments and controls can be controlled and controlled by the central control department.

According to the present invention, by breeding the shellfish using an artificial tank made of a mudflat culture soil, eliminating the risk of death due to the influence of seasons and the environment, the inflow and discharge of seawater according to the water temperature, salinity and seawater pollution, and fresh By artificially controlling the culture environment, such as inflow of air, there is an effect to provide an artificial culture apparatus that can significantly increase the production rate of the shellfish.

The present invention includes a cultured soil in the inside, the shell cultured dock (dock) having a seawater inlet and discharge door capable of entering and exiting seawater; A seawater filtration unit mounted on the seawater inflow and discharge doors to filter seawater; A monitoring unit for monitoring the inside of the shellfish culture dock; Seed management unit for seeding the seed of the shellfish in the culture soil; And a central control unit controlling inflow and outflow of seawater into the shellfish culture dock. By providing a artificial artificial farming device, characterized in that it comprises a to enable to realize a stable land culture of the crown.

In another aspect, the present invention, the shell culture dock provides an artificial shell farming apparatus, characterized in that further comprises an air supply device for introducing external air into the interior, to improve the growth environment of the shell of the shell, fresh air Through inflow, the productivity of the clam can be maximized.

In addition, the present invention, the central control unit, seawater control unit for determining the inflow and discharge of sea water; An assistant tide control unit for forming an artificial tide and an artificial tide; An environmental control unit for controlling salinity and temperature of seawater in the cultured dock of the dog; Providing the artificial artificial farming device, characterized in that it comprises a to enable the automation of the control of the growth environment of the shell.

In addition, the seawater control unit further controls the inflow and discharge of seawater, and at the same time opening and closing the seawater inlet and discharge door (door), further comprising an artificial seawater inlet discharge device connected to the inside of the shell culture culture dock Providing an artificial shelling apparatus, characterized in that made, to improve the growth environment of the shellfish through the generation of artificial algae according to the inflow and discharge of seawater, and to supply the nutrients lost by exchanging seawater.

In another aspect, the present invention provides the artificial shell culture apparatus, characterized in that the tide forming control unit is connected to the tide generating device connected to the shelled culture dock, to form only the artificial wave or artificial birds or tidal into the shelled culture dock. Therefore, it is possible to create an environment in which the growth environment of the clam is most similar to the natural growth environment.

In another aspect, the present invention, the environmental control unit is a artificial shell culture apparatus characterized in that the salinity and temperature of the seawater in the shelled culture dock to the database (Data Base) to maintain the salinity and temperature set to the culture temperature of the shell of the shell.

In another aspect, the present invention provides an artificial artificial culture apparatus, characterized in that the seawater filtration unit further comprises a contaminant adsorption device is installed at least one inside the shelled culture dock in addition to the seawater inlet discharge door, artificially By maintaining the cleanliness of seawater through the removal of pollutants of seawater, it is possible to improve the growth environment of the shellfish.

In addition, the present invention provides a artificial artificial culture apparatus, characterized in that the monitoring unit for monitoring the inside of the clam culture dock is composed of a transparent observation of the outer surface of the clam, it is possible to observe the changes in the growth environment of the shell of the clam This allows for immediate response and improvement.

In addition, the monitoring unit is provided with at least one inside the shell culture culture dock, by providing an artificial shell culture apparatus further comprises an underwater monitoring device for monitoring and transmitting the aquatic environment to the central control unit In addition to the monitoring unit, it is possible to observe a close growth environment.

In addition, the seed seed management unit, seed seeding device for sowing seed seed into the shell culture culture dock; Adsorption apparatus of seed larvae to adsorb the larvae of the seed seed seeded; A success or failure collection device for collecting success or failure as a result of the growth of the seed; It provides an artificial shell farming device, characterized in that consisting of.

In addition, the seed pad management unit may provide a artificial artificial culture apparatus further comprises a transfer rail formed on the upper side of the clam culture dock and a composite seed pad management to move the upper portion of the transfer rail. Ensure efficient seed spreading and collection.

In addition, the present invention is a composite seed management device, the housing including a space that can accommodate the seed in the interior; A plurality of spreading holes for spreading seed pads formed on the lower surface of the housing; Transfer means formed on both sides of a bottom portion of the housing to transfer an upper portion of the transfer rail; It provides a artificial shell farming device characterized in that it comprises a.

In another aspect, the present invention provides the artificial shell culture apparatus to provide a shell artificial soil culture apparatus, characterized in that the tillage and sediment removal device to remove the tillage and sediment of the culture soil in the cultured culture dock inside the cultured soil ie mud flat To minimize the growth of clam.

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

2 and 3, Figure 2 is a block diagram of the artificial shell farming apparatus according to the present invention and Figure 3 is a conceptual diagram showing the configuration diagram.

The artificial shell farming apparatus of the present invention (hereinafter referred to as' culture farming device)) includes a cultured dock (dock) having a culture soil therein, and having a seawater inflow and discharge door 20 that can enter and exit the seawater; Seawater filtration unit 30 mounted on the seawater inlet and discharge door to filter the seawater, the monitoring unit 40 for monitoring the inside of the shell culture culture dock, seed management unit for seeding the seed of the shell of the culture soil (not shown) ), And the central control unit (C) for controlling the inflow and discharge of seawater into the shell culture culture dock. The clam cultivation dock 10 is provided with an air supply device 50 for introducing external air into the inside so that fresh air can be introduced into the culture dock 10.

The central control unit (C) is basically a control unit for controlling the temperature of the seawater temperature and salinity of the aquaculture apparatus according to the present invention to the appropriate temperature by adjusting the database, the central control unit for controlling the environment of the seawater, the inflow of seawater And a seawater control unit for determining an over-discharge, a tidal current control unit for forming only an artificial algae and an artificial tide, and an environmental control unit for controlling salinity and temperature of seawater in the cultured dock. In particular, the seawater control unit controls the inflow and discharge of seawater, and opens and closes the seawater inflow and discharge door (20), and at the same time the artificial seawater inlet and discharge device 60 is connected to the inside of the shell culture incubation further It may include. In particular, the opening and closing of the seawater inlet and discharge door 20 allows natural algae flow to be provided to the cultured environment through the inflow and outflow of natural seawater, and the artificial seawater inlet and outlet device 60 is provided through a motor. It is desirable to form deep water so that it can be artificially introduced or discharged. As a result, the inflow and discharge of seawater can be performed in the seawater inflow discharge door and the artificial seawater inflow discharge device, thereby ensuring a stable supply and discharge of seawater by performing a complementary role.

Specifically, when the artificial seawater is introduced, deep seawater may be pulled up so that deep seawater in which a shellfish can grow using the seawater inflow pump, etc., which may be introduced into the culture dock through a seawater transport pipe. Make sure Therefore, the aquaculture unit can be introduced with clean deep water at any time and can be combined with a purifier to purify contaminated seawater. In particular, the present invention may be provided with a separate sea water discharge portion in the aquaculture device to replace the sea water, or may be discharged to the outside by using a discharge pump and the like reversely to the sea water.

The tide forming control unit is connected to the tide generator 70 is connected to the cultured dock 10, it is preferable to form only the artificial wave or artificial algae or tidal into the cultured dock. In particular, the tidal generator is provided with a drive means such as a motor to artificially form the movement of the seawater in the cultured dock, and also to form an artificial wave.

The environmental control unit makes the salinity and temperature of the seawater in the shelled culture dock 10 to a database to maintain the salinity and temperature set as the culture temperature of the shelled shell so as to optimize the growth environment of the shelled shell.

The seawater filtration unit 30 is basically provided with a filtration net, a filtration net or a filtration wall in the inlet and outlet door 20, in addition to at least one contaminant adsorption device 31 is installed in the inside of the shell culture culture dock By providing a, it is possible to purify the various contaminants generated while the seawater stagnated in the shelled culture dock for a long time.

In the culture of the shellfish, the conventional problem is that the growth environment of the shellfish in the sea cannot be observed, so that the state of the shellfish cannot be immediately determined and coped. It is provided with a monitoring unit 40 that can be monitored, which may be formed as a transparent observation of the outer surface of the clam. In addition, although it may be directly observed from the outside with the naked eye, in order to observe the more precise environment in the dock, it is more preferable to have an underwater monitoring device 42 for monitoring and transmitting the underwater environment to the central control unit. The underwater monitoring device 42 may be provided with at least one monitoring unit inside the cultured dock.

Although not shown in the present invention, it is preferable to form the seed management unit 100 as a comprehensive management device for seeding and collecting seed seed. In particular, the seed management unit 100 is a seed seeding device 110 for sowing seed seed into the cultured cultivation dock and the adsorbing device 120 of the seed larva to adsorb the larvae of the seed seed seed, and the result of the growth of the seed seed It may be provided with a successful collection device 130 to collect. This ensures efficient spreading of seed, stable adsorption of larvae, and efficiency in harvesting success.

As an embodiment of forming the seed pad management unit will be described a composite seed manager 200 for moving the upper portion of the transfer rail 231 and the transfer rail is formed on the upper side of the cultured dock.

As shown in FIG. 4, the composite seed management system 200 includes a housing 210 including a space for accommodating seed seeds therein and a spraying line 220 for spreading seed seeds formed on the lower surface of the housing. And transfer means 230 formed at both sides of the bottom of the housing to transfer the upper portion of the transfer rail. The spreading line may be formed in the form of a hole as a spreading portion for spreading the seed plaque, or may be manufactured to have a structure in which the seed platter falls naturally according to the size as shown. In particular, the control of the amount of seed drop free falling at a certain rate in the process of spraying can be adjusted by adjusting the feed rate of the composite seed management.

In addition, the artificial shell farming device is equipped with a tillage and sediment removal device (not shown) for removing tillage and sediment of the cultured soil in the cultured shells to improve the production yield of the shellfish This is preferred. The shelled culture dock according to the present invention is preferably provided with a water temperature control device (not shown) to adjust the water temperature in the lower side of the culture tank. In addition, it is possible to consider the water temperature control through natural light using external sunlight.

The shellfish culture dock according to the present invention can be operated in plurality by combining at least one or more, and can be adjusted in any size according to the constraints of the space or the needs of the user.

In the detailed description of the invention as described above, specific embodiments have been described. However, many modifications are possible without departing from the scope of the invention. The technical spirit of the present invention should not be limited to the described embodiments of the present invention, but should be determined not only by the claims, but also by those equivalent to the claims.

1 is a view showing a shellfish farm according to the prior art.

Figure 2 is a schematic diagram showing an artificial shell culture apparatus according to the present invention.

3 is a view showing the shell culture culture dock of the present invention.

Figure 4 is a view showing an embodiment of a composite seed management according to the present invention.

Claims (13)

A cultured shell containing a culture soil therein, a shell cultured dock having a seawater inflow and discharge door capable of entering and exiting seawater; A seawater filtration unit mounted on the seawater inflow and discharge doors to filter seawater; A monitoring unit for monitoring the inside of the shellfish culture dock; Seed management unit for seeding the seed of the shellfish in the culture soil; And A central control unit controlling inflow and outflow of seawater into the shelled culture dock; The artificial shell farming device, characterized in that comprises a. The method according to claim 1, The clam cultivation dock, the clam artificial culture apparatus further comprises an air supply unit for introducing external air into the interior. The method of claim 2, wherein the central control unit,  Sea water control unit for determining the inflow and discharge of sea water; An assistant tide control unit for forming only an artificial bird and an artificial tide; An environmental control unit for controlling salinity and temperature of the seawater in the shelled culture dock; The artificial shell farming device, characterized in that comprises a. The method according to claim 3, The seawater controller controls the inflow and discharge of seawater, and opens and closes the seawater inflow and discharge doors, and further comprises an artificial seawater inflow and discharge device connected to the inside of the shellfish culture dock. Clams artificial farming device. The method according to claim 4, The tide forming control unit is connected to the tidal generator connected to the cultured dock, the artificial shell culture apparatus characterized in that to form only the artificial wave or artificial algae or tidal into the cultured dock. The method according to claim 5, The environmental control unit artificial shell culture apparatus, characterized in that the salinity and temperature of the seawater in the shelled culture dock to the database (Data Base) to maintain the salinity and temperature set to the culture temperature of the shellfish. The method according to claim 6, The seawater filtration unit further comprises a contaminant adsorption device is installed at least one inside the shelled culture dock in addition to the seawater inlet discharge door. The method according to claim 7, A monitoring device capable of monitoring the inside of the shell culture culture dock, artificial shell culture apparatus characterized in that it comprises a transparent observation of the outer surface of the shell. The method according to claim 8, The monitoring unit is provided with at least one inside the shell culture culture dock, further comprising an underwater monitoring device for monitoring and transmitting the underwater environment to the central control unit. The method of claim 9, wherein the seed management unit, Seed seeding device for sowing seed seed into the shell culture culture dock; Adsorption apparatus of seed larvae to adsorb the larvae of the seed seed seeded; A success or failure collection device for collecting success or failure as a result of the growth of the seed; An artificial shell farming device, characterized in that consisting of. The method of claim 10, the seed management unit, A clam artificial aquaculture device, characterized in that it further comprises a transfer rail formed on the upper side of the shell culture culture dock and a complex seed management device for moving the upper portion of the transfer rail. The method according to claim 11, The complex seed management device, A housing including a space for accommodating a seed packet therein; A plurality of spreading holes for spreading seed plaques formed on the lower surface of the housing; Transfer means formed on both sides of a bottom portion of the housing to transfer an upper portion of the transfer rail; Clam artificial aquaculture device, characterized in that comprises a. The method according to claim 12, The artificial shell culture apparatus, the artificial shell culture apparatus comprising a tillage and sediment removal device for removing the tillage and sediment of the culture soil in the shell culture culture dock.

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