CN210929171U - Deep sea culture ship - Google Patents

Abstract

The utility model discloses a deep sea culture ship belongs to cultured equipment technical field, the utility model discloses a culture ship includes: the hull, hull both sides horizontally connect has the curb plate, aquaculture net case, fixed connection is in the curb plate below, aquaculture net case bottom surface is less than the hull waterline, aquaculture net case bottom rigid coupling has buoyancy regulation and control subassembly, buoyancy regulation and control subassembly includes sealed flotation tank, flotation tank passes through the second connecting pipe and is connected with the water pump on the hull, still be equipped with first trachea in the flotation tank, flotation tank both sides face outside is located respectively to the port at first trachea both ends, communicate through first connecting pipe between the first trachea in the flotation tank, and first connecting pipe still is connected with the air pump on the hull. The utility model discloses effectively utilize ordinary hull to carry out the box with a net aquaculture operation, realize fish deep sea and breed, breed and pollute for a short time, and the hull that reforms transform is influenced by stormy waves for a short time, and the breed survival rate is high.

Description

Deep sea culture ship

Technical Field

The utility model belongs to the technical field of the cultured equipment, concretely relates to deep sea culture ship.

Background

The traditional mariculture is carried out offshore, the offshore water flow is slow, pollution is not easy to diffuse, the water quality is poor, fishes are easy to be ill and difficult to breed high-quality fishes, and the mariculture industry needs to be far away from coastal sea areas and enter deep sea. Therefore, the ship-body type net cage culture mode is provided to enter deep sea for culture, the characteristics of large water flow exchange amount, easy diffusion of culture excrement and small pollution in the deep sea are utilized to effectively improve the culture benefit, and a new culture way is opened up.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a deep sea culture ship effectively utilizes ordinary hull to carry out the box with a net breed operation, realizes fish deep sea and breeds, and it is little to breed to pollute, and the hull that reforms transform is influenced by the stormy waves for a short time, and the breed survival rate is high.

The utility model discloses a realize that the technical scheme who takes of above-mentioned purpose does: a deep sea culture vessel comprising:

the two sides of the ship body are horizontally connected with side plates,

the culture net cage is fixedly connected below the side plates, the bottom surface of the culture net cage is lower than the waterline of the ship body,

wherein the bottom rigid coupling of aquaculture net case has the buoyancy to regulate and control the subassembly, and the buoyancy regulates and control the subassembly including sealed flotation tank, and the flotation tank passes through the second connecting pipe to be connected with the water pump on the hull, still is equipped with first trachea in the flotation tank, and the port at first trachea both ends is located flotation tank both sides face outside respectively, through first connecting pipe intercommunication between the first trachea in the flotation tank, and first connecting pipe still is connected with the air pump on the hull.

The utility model discloses a set up the curb plate in the hull both sides, general box with a net and curb plate rigid coupling realize that ordinary hull also can carry out box with a net breed, compare in the current box with a net culture ship of making specially, the utility model discloses set up the curb plate in the hull both sides and connect box with a net's transformation periodicity short, the breed volume that can realize is not big with special box with a net culture ship breed volume difference, and more importantly realizes effectively utilizing the resource, and is further, and the box with a net that sets up in the hull both sides not only can realize deep sea breed, and the box with a net of the breed of both sides can improve the stationarity of hull in aqueous simultaneously, improves the security of traveling, has certain guard. The buoyancy adjustment component is arranged at the bottom of the aquaculture net cage to adjust the buoyancy of the aquaculture net cage, when the aquaculture amount of aquaculture objects in the aquaculture net cage is less or in the early stage of aquaculture, water can be injected into the buoyancy tank to improve the gravity center stability of the aquaculture net cage and ensure the stable sailing of the ship body, along with the growth of the aquaculture objects or the increase of the aquaculture amount, the water in the buoyancy tank is gradually discharged to adjust and control the buoyancy support of the buoyancy tank and the aquaculture net cage, the energy consumption output of the sailing of the ship body is reduced, the gravity center stability of the aquaculture net cage and the stable sailing of the ship body are ensured, air can be input to the lower part of the aquaculture net cage through the designed first air pipe and discharged, the air flows upwards after being discharged from the lower part of the aquaculture net cage by utilizing the upward air floatation to increase the oxygen content of the water in the area near the aquaculture net cage, reduce the water flow impact load of the water flow on the aquaculture net cage, and avoid the damage to the aquaculture net cage caused by the impact of the over-high water body of the deep sea flow speed.

Preferably, first connecting pipe is connected in first trachea middle part department, and first trachea is the level and arranges and set up on the flotation tank, and first trachea is equipped with the sealing ring with flotation tank wall junction. The first air pipes are arranged in the bottom surface of the aquaculture net cage in a parallel mode, the air exhausting effect of the exhausted air on the water body near the aquaculture net cage is improved by the fact that the exhausted air is in the same horizontal direction and is exhausted outwards, the first connecting pipes are connected to the middle portion of the first air pipes and are used for guaranteeing the balance of gas output of the two end portions of the first air pipes of the first connecting pipe box, the sealing performance of the inner portion of the floating box is guaranteed, the sealing ring is arranged at the connecting portion of the first air pipes and the floating box, the inner portion of the floating box is guaranteed to be sealed, and normal.

Preferably, the buoyancy tank is a hollow sealed tank body, the buoyancy tank is provided with a first flow guide surface which is concave and arc-shaped, and the tank body on the rear side of the first flow guide surface is provided with an arc-shaped second flow guide surface which is excessively connected with the first flow guide surface and protrudes outwards. The side surface formed by the first flow guide surface and the second flow guide surface is similar to the side surface structure of the hull nose cabin, and the structure of the hull nose cabin is simulated by designing the first flow guide surface and the second flow guide surface, so that the stability of the aquaculture net cage sailing along with the hull is ensured.

Preferably, the curb plate is equipped with throws the material mechanism, and the curb plate surface has the material hole of throwing that corresponds with throwing the material mechanism, throws the material mechanism through setting up on the curb plate and carries out the automation and throw the material, reduces the artifical safe risk that throws the material and probably appear, adopts the equipment to throw the mode of material in addition to be favorable to realizing controlling the input, throw the material speed, throw the material scope etc. and reduce the fodder input, improve the breed ingestion effect.

Preferably, throw the material mechanism and include the material pipe of throwing that both ends opening set up, throw material pipe one end cap and connect the lid, lid center department is equipped with the motor, and motor output shaft end connection has the stirring subassembly, and the stirring subassembly is located and is thrown in the material pipe. Motor output shaft passes through the bearing cooperation with the lid and is connected, because the fodder that the hull navigation area was deposited on its hull in deep sea area is tidal easily, utilize the stirring subassembly to stir the fodder of throwing the material and handle, be favorable to the fodder breakage to the caking, the breed of being convenient for is to ingesting of fodder, through set up the stirring subassembly in throwing the material pipe through throw the material pipe behind the stirring to the fodder in the breed box with a net downwards along throwing the material pipe throw the material work, prevent that there is the water and the broken degree of difficulty of fodder contact increase fodder caking among the fodder stirring process.

Preferably, the stirring assembly comprises a first rotating shaft coaxially connected with the output shaft of the motor, the side surface of the first rotating shaft is spirally wound and connected with the stirring blades, the bottom of the first rotating shaft is fixedly connected with a coaxial counterweight ring, the bottom surface of the counterweight ring is connected with a bottom plate, the distance between the side wall of the bottom plate and the inner wall of the feeding pipe is smaller than 1cm, the bottom plate is wound and provided with a groove, and the groove surface of the groove is connected with an inclined guide plate. The guide plate and the surface of the bottom plate are inclined, and the inclined included angle is 25-60 degrees. The side surface of the feeding pipe is connected with a third connecting pipe, one port of the third connecting pipe is arranged in the feeding pipe, the other port of the third connecting pipe is connected with an air pump, the first rotating shaft is driven by a motor to rotate to drive the stirring blades to rotate so as to stir the put materials, the gravity center stability of the stirring assembly is improved by arranging a counterweight ring at the bottom of the first rotating shaft, the counterweight ring can also reduce the circular bounce generated when the first rotating shaft rotates so as to avoid the damage of the pipe wall of the feeding pipe due to the collision between the bottom plate and the feeding pipe when the bottom plate rotates, and prevent most of the feed from directly falling to a culture area without stirring treatment by setting the distance between the bottom plate and the inner wall of the feeding pipe, the third connecting pipe is connected with one side surface of the feeding pipe so as to blow and stir the feed during the stirring process of the feeding pipe, further improve the stirring treatment of the feed, and the dropping speed of the feed can be, and the gas can be filled in the micropores on the surfaces of the feed particles, so that the floatability of the feed particles falling into the water in the water is improved, the feed settlement is slowed down, the contact between the water body and the feed particles can be slowed down by the gas in the micropores of the feed particles, the feed dissolution is slowed down, the ingestion of the feed particles in the water by the plant-raising is facilitated, the survival rate of the plant-raising is improved, and the feed waste and the breeding cost are reduced.

Preferably, the surface of the cover body is provided with a fan-shaped feeding hole, and the side wall of the cover body is provided with a convex block. Throw the material hole through setting up and be convenient for pour the fodder into throw the material mechanism in carry out the fodder stirring and throw the material work, and the lug that sets up at the lid lateral wall is convenient for the lid and takes.

Preferably, the side surface of the aquaculture net cage is provided with a floating rod, and a gap is formed between the floating rod and the surface of the aquaculture net cage. The gap is between 5 cm and 10 cm. The buoyancy of the aquaculture net cage is improved by arranging the floating rods on the side faces of the aquaculture net cage, the floating rods can also play a role in protecting the aquaculture net cage, damage to the aquaculture net cage when objects collide is reduced, and kelp culture or marine organism attachment can be performed on the surfaces of the floating rods, so that food can be provided for plant cultivation.

Compared with the prior art, the beneficial effects of the utility model are that: the utility model discloses a set up the curb plate in the hull both sides, general box with a net of will breeding and curb plate rigid coupling realize that ordinary hull also can carry out box with a net breed, compare in the box with a net culture ship of current special manufacturing, the utility model discloses set up the curb plate in the hull both sides and connect the transformation periodicity of box with a net of breeding short, the breed volume that can realize is not big with special box with a net culture ship breed volume difference, more importantly realizes the effective utilization to the resource.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic view of a deep sea culture vessel according to the present invention;

FIG. 2 is a schematic view of the aquaculture net cage of the present invention;

fig. 3 is a schematic view of the feeding mechanism of the present invention;

FIG. 4 is a schematic view of the stirring assembly of the present invention;

fig. 5 is a schematic view of the buoyancy regulating assembly of the present invention.

Description of reference numerals: 10-a hull; 11-an air pump; 12-a water pump; 20-side plate; 30-a feeding mechanism; 31-a first motor; 32-a cover body; 33-feeding holes; 34-a bump; 35-shading ring; 36-a feeding pipe; 37-a third connecting tube; 40-a buoyancy regulating component; 41-a first connection pipe; 42-a second connecting tube; 43-buoyancy tanks; 44-a first air tube; 45-a second flow guide surface; 46-a first flow guide surface; 50-a culture net cage; 51-a floating rod; 60-a stirring assembly; 61-stirring blade; 62-a first shaft; 63-a base plate; 64-a guide plate; 65-slotting; 66-counterweight ring.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

Example 1:

as shown in reference to figures 1-5,

a deep sea culture vessel comprising:

the boat body 10, the two sides of the boat body 10 are horizontally connected with a side plate 20,

the culture net cage 50 is fixedly connected below the side plate 20, the bottom surface of the culture net cage 50 is lower than the waterline of the ship body 10,

wherein the bottom rigid coupling of aquaculture net case 50 has buoyancy regulation and control subassembly 40, buoyancy regulation and control subassembly 40 is including sealed flotation tank 43, flotation tank 43 is connected with water pump 12 on the hull 10 through second connecting pipe 42, still is equipped with first trachea 44 in flotation tank 43, the port at first trachea 44 both ends is located flotation tank 43 both sides face outside respectively, communicate through first connecting pipe 41 between the first trachea 44 in flotation tank 43, and first connecting pipe 41 still is connected with the air pump 11 on the hull 10.

The utility model discloses a set up curb plate 20 in hull 10 both sides, just breed box with a net 50 and the 20 rigid couplings of curb plate, realize that ordinary hull also can carry out box with a net breed, compare in the current box with a net culture ship of making specially, the utility model discloses set up curb plate 20 in hull 10 both sides and connect breed box with a net 50's transformation periodicity short, the breed volume that can realize is not very big with special box with a net breed ship breed volume difference, and more importantly realizes effectively utilizing the resource, and is further, and the box with a net 50 that sets up in hull 10 both sides not only can realize deep sea breed, and the box with a net 50 of breeding of both sides can improve the stationarity of hull 10 in aqueous simultaneously, improves the security of traveling, has certain guard action to hull 10 pages of pages. The buoyancy adjustment component 40 is arranged at the bottom of the aquaculture net cage 50 to adjust the buoyancy of the aquaculture net cage 50, when the aquaculture amount of the aquaculture in the aquaculture net cage 50 is small or in the early stage of aquaculture, water can be injected into the buoyancy tank 43 to improve the gravity center stability of the aquaculture net cage 50 and ensure the stable navigation of the ship body 10, along with the growth of the aquaculture or the increase of the aquaculture amount, the water in the buoyancy tank 43 is gradually discharged to adjust and control the buoyancy support of the buoyancy tank 43 and the aquaculture net cage 50, the energy consumption output of the navigation of the ship body 10 is reduced, the gravity center stability of the aquaculture net cage 50 and the stable navigation of the ship body 10 are ensured, air can be input to the lower part of the aquaculture net cage 50 through the designed first air pipe 44 and discharged out, the air can upwards flow after being discharged out of the lower part of the aquaculture net cage 50 by utilizing the upward air floatation, and the water flow structure near the aquaculture net cage 50 is damaged by utilizing the gas discharged from the first, the water flow impact load of the water flow on the aquaculture net cage 50 is reduced, and the aquaculture net cage is prevented from being damaged by the impact of the over-high water body in the deep sea.

The first connecting pipe 41 is connected to the middle section of the first air pipe 44, the first air pipe 44 is horizontally arranged on the buoyancy tank 43, and a sealing ring is arranged at the joint of the first air pipe 44 and the wall of the buoyancy tank 43. First trachea 44 arranges in aquaculture net case 50 bottom surface parallel arrangement, be favorable to like this that exhaust air is in the outside vortex effect of discharging near improvement exhaust gas to aquaculture net case 50 water of same horizontal direction, connect in first trachea 44 middle part through setting for first connecting pipe 41 and be used for guaranteeing that the gas output at first trachea 44 both ends of first connecting pipe 41 case is balanced, locate first trachea 44 and flotation tank 43 junction through the sealing ring for guaranteeing the inside leakproofness of flotation tank 43 and guarantee flotation tank 43 internal seal, ensure normal buoyancy regulation and control.

The floating box 43 is a hollow sealed box body, the floating box 43 is provided with a concave arc-shaped first flow guide surface 46, and the box body 43 at the rear side of the first flow guide surface 46 is provided with an arc-shaped second flow guide surface 45 which is excessively connected with the first flow guide surface 46 and protrudes outwards. The side surface formed by the first flow guiding surface 46 and the second flow guiding surface 45 is similar to the side surface structure of the hull nose cabin, and the structure of the hull nose cabin is simulated by designing the first flow guiding surface 46 and the second flow guiding surface 45, so that the stability of the aquaculture net cage 50 navigating along with the hull 10 is ensured.

Curb plate 20 is equipped with throws material mechanism 30, and the curb plate 20 surface has the material hole of throwing that corresponds with throwing material mechanism 30, throws material mechanism 30 through setting up on curb plate 20 and carries out the automatic feeding, reduces the artifical safe risk that throws the material and probably appear, adopts the mode that equipment thrown the material to be favorable to realizing controlling the input, throws material speed, throw the material scope etc. moreover, reduces the fodder and puts in quantity, improves the breed effect of ingesting.

The feeding mechanism 30 comprises a feeding pipe 36 with openings at two ends, a cover 32 is connected to one end of the feeding pipe 36, a motor 31 is arranged at the center of the cover 32, a stirring assembly 60 is connected to the end of an output shaft of the motor 31, and the stirring assembly 60 is arranged in the feeding pipe 36. Motor 31 output shaft and lid 32 pass through the bearing cooperation and are connected, because the fodder that deposits on its hull 10 of hull 10 navigation region is deep sea area is damped easily, utilize stirring subassembly 60 to stir the fodder of throwing the material and handle, be favorable to the fodder breakage to the caking, the breed of being convenient for ingests the fodder, through set up stirring subassembly 60 in throwing material pipe 36 through throw material work in the breed box with a net 50 of feeding below along throwing material pipe 36 behind the stirring to the fodder, prevent that there is the water and the broken degree of difficulty of fodder contact increase fodder caking in the fodder stirring process.

The stirring assembly 60 comprises a first rotating shaft 62 coaxially connected with the output shaft of the motor 31, the side surface of the first rotating shaft 62 is spirally connected with the stirring blade 61 in a surrounding manner, a coaxial counterweight ring 66 is fixedly connected to the bottom of the first rotating shaft 62, the bottom surface of the counterweight ring 66 is connected with a bottom plate 63, the distance between the side wall of the bottom plate 63 and the inner wall of the feeding pipe 36 is less than 1cm, the bottom plate 63 is surrounded with a slot 65, and one slot surface of the slot 65 is connected with an inclined guide plate 64. The guide plate 64 and the surface of the bottom plate 63 are inclined, and the inclined included angle is 25-60 degrees. The third connecting pipe 37 is connected to the side of the feeding pipe 36, one end of the third connecting pipe 37 is arranged in the feeding pipe 36, the other end is connected with the air pump 11, the first rotating shaft 62 is driven by the motor 31 to rotate to drive the stirring blade 61 to rotate to stir the placed materials, the gravity center stability of the stirring component 60 is improved by arranging the counterweight ring 66 at the bottom of the first rotating shaft 62, the counterweight ring 66 can also reduce the circular bounce generated when the first rotating shaft 62 rotates and avoid the damage of the pipe wall of the feeding pipe 36 caused by the collision between the bottom plate 63 and the feeding pipe 36 when the bottom plate 63 rotates, most of the feed is prevented from directly falling to the culture area without being stirred by setting the distance between the bottom plate 63 and the inner wall of the feeding pipe 36, the third connecting pipe 37 is connected to one side of the feeding pipe 36, the blowing stirring treatment is carried out on the feed in the stirring process in the feeding pipe 36 during the feed stirring process, stirring subassembly 60 has gaseous joining to feed mixing process to slow down fodder falling speed and improves stirring effect to gaseous can fill in the micropore on fodder granule surface and make the buoyancy of the fodder granule that falls into the aquatic improve in the aquatic, slow down fodder subside and the fodder dissolves with the contact that fodder granule can slow down water and fodder granule in the fodder granule micropore, so that raise the plant and to the ingestion of aquatic fodder granule, improve the survival rate of raising the plant and reduce the fodder extravagant and breed cost.

The surface of the cover body 32 is provided with a fan-shaped feeding hole 33, and the side wall of the cover body 32 is provided with a convex block 34. The feeding hole 33 is arranged to facilitate the feeding of the fodder into the feeding mechanism 30 for the fodder stirring and feeding operation, and the protrusion 34 arranged on the side wall of the cover 32 facilitates the taking of the cover 32.

The side of the aquaculture net cage 50 is provided with a floating rod 51, and a gap is formed between the floating rod 51 and the surface of the aquaculture net cage 50. The gap is between 5 cm and 10 cm. The buoyancy of the aquaculture net cage 50 is improved by arranging the floating rods 51 on the side faces of the aquaculture net cage 50, the floating rods 51 can also play a role in protecting the aquaculture net cage 50, damage to the aquaculture net cage 50 when the aquaculture net cage 50 is collided by objects is reduced, and kelp culture or marine organism attachment can also be carried out on the surfaces of the floating rods 51 so as to provide food for plant cultivation.

Example 2:

the utility model discloses a deep sea breed ship during in-service use: the side plates 20 are fixedly connected to the two side surfaces of the ship body 10, the bottom surfaces of the side plates 20 are connected with the culture net boxes 50, the bottom surfaces of the culture net boxes 50 are lower than the waterline of the ship body 10, and the horizontal position height of the side surfaces 20 can be reduced if necessary to ensure that the whole culture net boxes 50 are in water. When the culture amount of the culture in the aquaculture net cage 50 is small or in the early stage of culture, the water body can be injected into the buoyancy tank 43 to improve the gravity center stability of the aquaculture net cage 50 and ensure that the ship body 10 stably navigates, and the water body in the buoyancy tank 43 is gradually discharged to regulate and control the buoyancy support of the buoyancy tank 43 floating aquaculture net cage 50 along with the growth of the culture or the increase of the culture amount, so that the energy consumption output of the ship body 10 navigation is reduced, and the gravity center stability of the aquaculture net cage 50 and the stability of the ship body 10 navigation are ensured.

In the cultivation process, the feed is fed according to the species of the cultivated aquatic products, and the feeding operation is carried out through the feeding mechanism 30. The air pump 11 can be selectively turned on to supply air to the first connection pipe 41 during the sailing of the hull 10 to improve the sailing stability of the hull 10.

Simulation test:

the ship body navigation test is carried out by adopting the water tank, the ship body uses a model ship and is divided into an experimental group and a control group for ship simulation, the experimental group is that the side plates 20 are arranged on two sides of the ship body model and fixedly connected with the culture net cage 50, the buoyancy regulating and controlling component 40 is arranged at the bottom of the culture net cage 50, the side plates 20 are arranged on two sides of the ship body model of the control group and fixedly connected with the culture net cage 50, and the buoyancy regulating and controlling component 40 is not arranged at the bottom of.

The size of the water tank is 10 meters long, 3 meters wide and 2 meters high, the navigational speed of the ship body in the water tank is simulated by 2kn, the wave height in the water tank is 0.45m, and the encounter frequency is 1/s; respectively obtaining the heave displacement of the ship bodies of the experimental group and the control group, wherein the heave displacement of the ship bodies of the experimental group is 0.17m through testing; the heave displacement of the control group was 0.25 m. Adopt through the test the utility model discloses a buoyancy regulation and control subassembly 40 can effectively promote the navigation stability of hull.

The above disclosure is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the scope of the invention, which is defined by the appended claims.

Claims (9)

1. A deep sea culture vessel comprising:

two sides of the ship body (10) are horizontally connected with side plates (20),

the aquaculture net cage (50) is fixedly connected below the side plates (20), the bottom surface of the aquaculture net cage (50) is lower than the waterline of the ship body (10),

the device is characterized in that a buoyancy regulating component (40) is fixedly connected to the bottom of the aquaculture net cage (50), the buoyancy regulating component (40) comprises a sealed buoyancy tank (43), the buoyancy tank (43) is connected with a water pump (12) on the ship body (10) through a second connecting pipe (42), a first air pipe (44) is further arranged in the buoyancy tank (43), ports at two ends of the first air pipe (44) are respectively arranged on the outer portions of two side faces of the buoyancy tank (43), the first air pipes (44) in the buoyancy tank (43) are communicated through a first connecting pipe (41), and the first connecting pipe (41) is further connected with the air pump (11) on the ship body (10).

2. The deep sea culture vessel of claim 1, wherein: the first connecting pipe (41) is connected to the middle section of the first air pipe (44), the first air pipe (44) is horizontally arranged on the buoyancy tank (43), and a sealing ring is arranged at the joint of the first air pipe (44) and the wall of the buoyancy tank (43).

3. The deep sea culture vessel of claim 1, wherein: the floating box (43) is a hollow sealed box body, the floating box (43) is provided with a first guide surface (46) which is concave arc-shaped, and the floating box (43) at the rear side of the first guide surface (46) is provided with a second guide surface (45) which is excessively connected with the first guide surface (46) and is convex outwards.

4. The deep sea culture vessel of claim 1, wherein: the side plate (20) is provided with a feeding mechanism (30), and the surface of the side plate (20) is provided with a feeding hole corresponding to the feeding mechanism (30).

5. The deep sea culture vessel of claim 4, wherein: the feeding mechanism (30) comprises a feeding pipe (36) with openings at two ends, a cover body (32) is connected to one end of the feeding pipe (36), a motor (31) is arranged at the center of the cover body (32), a stirring assembly (60) is connected to the end of an output shaft of the motor (31), and the stirring assembly (60) is arranged in the feeding pipe (36).

6. The deep sea culture vessel of claim 5, wherein: the stirring assembly (60) comprises a first rotating shaft (62) coaxially connected with an output shaft of the motor (31), the side surface of the first rotating shaft (62) is spirally connected with a stirring blade (61) in a surrounding manner, a coaxial counterweight ring (66) is fixedly connected to the bottom of the first rotating shaft (62), the bottom surface of the counterweight ring (66) is connected with a bottom plate (63), the distance between the side wall of the bottom plate (63) and the inner wall of the feeding pipe (36) is less than 1cm, a slot (65) is formed in the bottom plate (63) in a surrounding manner, and a slot surface of the slot (65) is connected with an inclined guide plate (64).

7. The deep sea culture vessel of claim 6, wherein: the side surface of the feeding pipe (36) is connected with a third connecting pipe (37), one port of the third connecting pipe (37) is arranged in the feeding pipe (36), and the other port of the third connecting pipe (37) is connected with the air pump (11).

8. The deep sea culture vessel of claim 5, wherein: the surface of the cover body (32) is provided with a fan-shaped feeding hole (33), and the side wall of the cover body (32) is provided with a convex block (34).

9. The deep sea culture vessel according to any one of claims 1 to 8, wherein: the side of the aquaculture net cage (50) is provided with a floating rod (51), and a gap is formed between the floating rod (51) and the surface of the aquaculture net cage (50).

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