KR200186618Y1 - Nursery for breeding fishes by using vessel - Google Patents

Abstract

Disclosed is a fish farm using a ship according to the present invention.

The present invention disclosed is a plurality of fish cages so that the fish in the vessel body 10

20 is provided, the opening and closing lid 22 is formed on the upper of the fish cage 20, and a plurality of water intake portion 24 and the discharge portion 26 are provided on the side wall, respectively, the water intake portion 24 ) Is configured to force the injection of the sea water through the sea water transfer means and the sea water injection means to discharge through the discharge portion 26, the feed deposited on the bottom of the fish cage 20 by the water injection It is possible to prevent contamination by feed and the like by escaping together with the discharge part by flotation, and since the ship can be moved to a desired place, it is possible to select and raise the desired fish species or high-quality fish species.

Description

Nursery for breeding fishes by using vessel}

The present invention relates to a fish farm using a ship, and more particularly, to a fish farm using a ship which is adapted to make a large number of compartments by remodeling an oil tanker or a bulk carrier, and to install a facility that flows in and out of sea water. .

In general, cage farms are set up so that seawater flows into and out of the coastal waters, and feedstocks are used to grow various fish species within the compartment. These cages are mostly located in Nae Bay for the sake of minimizing wind damage and for the convenience of management. However, as cages are reclaimed and coastal industrial complexes are increasing, the number of seas available for farming decreases, and some areas are nearing saturation. Therefore, at this point, it is time for a multi-faceted study to find new ways to secure enough fisheries.

On the other hand, existing cage farms have various problems. First of all, due to overcrowded farming in the bay for a long time, the seawater could not naturally clean up the fish feed, causing the fish farm to be contaminated. Next, the typhoons are severely damaged by the typhoon. Finally, the styrofoam and other materials used in farms contaminated the oceans when they were old.

In this regard, the present invention was devised in view of the problems of the existing cage farm, and it is possible to raise high quality fish while moving regardless of the place by making a large number of compartments in which seawater flows in and out of the vessel. The purpose is to provide a fish farm using a ship that can raise fish conveniently without being damaged by conditions such as typhoons or red tide.

In order to achieve the above object, the present invention is arranged to be divided into a plurality in the longitudinal direction from the upper portion of the ship body, a plurality of water intake portion is provided with a discharge portion on the opening and closing lid and side walls on the upper wall, respectively, Fish cages are formed along the ballast; A sleeve pipe installed through the side wall of the fish cage and flanged to the front of the seawater inlet pipe; A screen assembly including a screen motor provided with a buffing means to clean the screen; A butterfly valve installed behind the sleeve tube of the screen assembly to selectively block the inflow of sea water; A seawater transfer consisting of a sleeve pipe flanged adjacent to the butterfly valve, an impeller mounted inside the sleeve pipe to suck seawater, and an impeller motor mounted on the sleeve pipe to drive the impeller through a gear means. Way; And a seawater injection pump flanged to a sleeve tube of the seawater transfer means, and a seawater injection means comprising a nozzle provided in front of the seawater transfer pump. Provides fish cages for fish farms, including ships.

According to such a fish farm using a vessel according to the present invention, the water intake portion of the fish cage to be injected into the inside of the fish cage, and the sea water to be injected is discharged to the discharge portion, to the sea water to be injected As a result, the fish can be constantly exercised and the meat quality can be firmly raised. In addition, the fish deposited on the bottom of the cage can be discharged with the seawater as the discharge portion to prevent contamination by the feed and the like inside the cage.

1 is a schematic view of installing a fish farm on a ship according to the present invention,

2 is a cross-sectional view showing one fish cage installed on the vessel,

3 is an enlarged detailed view of a portion A of FIG. 2;

4A is a plan view showing a screen,

Figure 4b is a side view of the rotating buffing bar,

4c is a plan view of the impeller,

4D is a front view of the nozzle.

Explanation of symbols on the main parts of the drawings

10: ship body 20: fish cage

22: opening and closing lid 24: water intake

26: discharge portion 28: ballast

30,30 ′: sleeve pipe 32: seawater inlet pipe

34: screen 36: screen motor

38: rotating buffing bar 40: butterfly valve

42: impeller 44: impeller motor

46: sea pressure pump 48: nozzle

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention will be described in detail.

1 is a schematic view of installing a fish farm in a ship according to the present invention, Figure 2 is a cross-sectional view showing one fish cage installed on the ship.

Fish farms using a vessel according to the present invention is shown in Figures 1 and 2, the fish farms are a plurality of fish cages 20 formed in the vessel body 10, and the foreign body to filter the foreign matter to the water intake 24 A screen assembly, a butterfly valve 40 for selectively blocking the inflow of sea water from the water intake unit 24, seawater transfer means, and a seawater injection means.

The fish cage 20 is arranged to be divided into a plurality in the longitudinal direction from the upper portion of the ship body 10, the opening and closing lid 22 for putting fish and feed on the upper portion and one intake portion on one side wall 24 and a plurality of discharge portions 26 are provided, respectively, and a ballast 28 is formed along the length of the upper and lower edges of the fish cage 20. Here, the seawater is sprayed by the seawater transfer means and the seawater injection means in the water intake unit 24 so as to exit through the drain hole 26. At this time, the feed sediment accumulated on the bottom of the fish cage 20 will be drained with the sea water.

The screen assembly is installed through the side wall of the fish cage 20, the seawater inlet pipe 32 is a flange (30a) in the forward seam sleeve tube 30, the seawater flows into the sleeve tube 30 and the seawater A screen 34 installed between the inlet pipes 32 to block foreign substances, and a screen motor 36 mounted to the seawater inlet pipe 32 and provided with a buffing means at the end of the shaft to wipe the screen 30. Consists of Here, the sea water inlet pipe 32 is a sleeve pipe

It is provided in front of 30 so as to be submerged in seawater, and a plurality of grooves 32a are formed in the circumferential surface so that seawater can enter. In addition, as shown in FIG. 4A, the screen 34 has a plurality of blocking portions 34a installed at predetermined intervals in parallel to the tube diameter to prevent the inflow of foreign substances into the water intake portion 24. As shown in FIG. 4B, the buffing means is provided with a rotating buffing bar 38 installed at an axial end of the screen motor 36 to rotate the screen.

Wipe the foreign matter attached to the surface of (34) to prevent the algae adhere. Here, the screen motor 36 is set to rotate about 50 per minute.

The butterfly valve 40 is connected to the flange 30a at the rear of the sleeve tube 30 to selectively block the inflow of sea water. That is, the butterfly valve 40 is configured to block the passage of the sleeve tube 30 when the rotary knob 40a is turned clockwise, while opening the passage of the sleeve tube 30 when it is turned counterclockwise.

The seawater transfer means includes a sleeve pipe 30 'connected to a flange 30a adjacent to the butterfly valve 40, an impeller 42 mounted inside the sleeve pipe 30', and sucking sea water; The impeller is installed on the sleeve tube 30 'through a gear means.

It is comprised by the impeller motor 44 which drives 42. As shown in FIG. Here, the impeller 42 is connected to the gear shaft inside the sleeve tube 30 ', as shown in Figure 4, the rotary blades

The 42a is formed to have a predetermined angle so that the seawater flows from the front to the rear as the impeller motor 44 rotates. And the impeller motor 44 is to be able to change the rotational speed as needed. The gear means is preferably the impeller 42 and the impeller motor 44 is installed in the vertical direction to use a bevel gear.

The seawater injection means is composed of a seawater pressure pump 46 provided in the sleeve tube 30 'via an auxiliary pipe 50, and a nozzle 48 provided in front of the seawater pressure pump 46. 3 and 4D, the inlet port 48a is connected to the sea water pump 46 by a flange, and the inlet port 48a is connected to the bottom surface of the fish cage 20. It's supposed to face you. Therefore, the nozzle 48 is injected from the seawater pump pump 46 is injected to the bottom of the fish cage 20 through the inlet and outlet (48a) seawater. At this time, the feed that is deposited on the bottom surface of the fish cage 20 is floated and exits through the discharge part 26. In addition, the fish inside the fish cage 20 is properly moved by the injection of sea water, the meat quality of the fish is firm.

According to the configuration of the embodiment of the present invention, the screen assembly, the seawater transfer means and the seawater injection means are installed in the water intake portion 24 of the fish cage 20 in order to pressurize and spray the seawater into the inside of the fish cage 20, Condensed water is configured to escape to the discharge portion 26, the fish by the water sprayed to make a constant movement, the meat quality can be firmly raised, the fish is deposited on the bottom of the cage (20) By discharging the feed with the sea water to the discharge portion it is possible to prevent contamination by the feed and the like inside the cage.

According to the fish farms using the vessel according to the present invention as described above, by changing the position of the vessel without being influenced by the tide, it is possible to conveniently raise the fish by flowing in and out of the sea fish into the fish cage. In addition, fish can be raised without being damaged by typhoons and red tide occurring in the ocean. On the other hand, if necessary, it is possible to move to an ocean that is rich in plankton without being polluted and to select and raise the desired fish or high-quality fish.

Claims (1)

It is arranged to be divided into a plurality in the longitudinal direction from the top of the ship body 10, the opening and closing lid 22 on the upper wall and a plurality of water intake portion 24 is provided on the side wall, respectively, the upper and lower edges Fish cage 20, the ballast 28 is formed along the length; Installed through the side wall of the fish cage 20, the seawater inlet pipe 32 is flanged in front of the sleeve tube 30, and installed between the sleeve tube 30 and the seawater inlet pipe 32 to remove foreign substances A screen assembly comprising a screen 34 for blocking and a screen motor 36 mounted on the seawater inlet pipe 32 and provided with a buffing means at an end of the shaft to wipe the screen 34; A butterfly valve 40 installed behind the sleeve tube 30 of the screen assembly to selectively block the inflow of sea water; A sleeve tube 30 'flanged adjacent to the butterfly valve 40, an impeller 42 and a sleeve tube mounted inside the sleeve tube 30' to suck seawater. (30 ') seawater transfer means comprising an impeller motor (44) installed at an upper portion to drive the impeller (42) through a gear means; Seawater injection means comprising a seawater pressure pump 46 flanged to the sleeve pipe 30 'of the seawater transfer means, and a nozzle 48 provided in front of the seawater pressure pump 46; And Hydraulic drive means for operating said screen assembly, sea water transfer means and sea water injection means; Fish farms using the ship.