CN106818577B

CN106818577B - System for deep sea cultivation

Info

Publication number: CN106818577B
Application number: CN201611203240.7A
Authority: CN
Inventors: 张国锐; 韩熙俊
Original assignee: Ningbo Haixiang Ocean Fishing Equipment Co ltd
Current assignee: Ningbo Haixiang Ocean Fishing Equipment Co ltd
Priority date: 2016-12-23
Filing date: 2016-12-23
Publication date: 2020-07-28
Anticipated expiration: 2036-12-23
Also published as: CN106818577A

Abstract

The invention discloses a system for deep sea cultivation, which is used for deep sea cage cultivation and comprises a feed production system, a land transportation system, a storage system, a sea transportation system and a cultivation cage system; the feed production system is a feed manufacturer and is used for producing feed; the land transportation system comprises a feed transmission pipeline for land transportation of the feed; the storage system of (2) is a storage tank; the marine transportation system comprises a material transporting ship for transporting the feed, wherein the material transporting ship is provided with a wireless communication device which can be remotely controlled; the aquaculture net cage system comprises a central floating platform, four water tanks positioned below the central floating platform and a connecting pipe for connecting the water tanks with the central floating platform, wherein a ventilating pipe and a water pipe are hermetically arranged in the connecting pipe, a solar electric plate is arranged above the central floating platform, and a plurality of ventilating and water passing ports are formed in the side wall of the central floating platform. Compared with the prior art, the invention greatly improves the culture quality, reduces the culture cost and can monitor the condition of the culture system at any time.

Description

System for deep sea cultivation

Technical Field

The invention relates to the field of fishery culture, in particular to a system for deep sea culture.

Background

China is long on the coastline, marine products are abundant, but with the excessive fishing of the marine products, resources are increasingly scarce, and the supply of the marine products is increasingly dependent on mariculture. However, the development degree of the offshore aquaculture mode such as estuary and bay in China is saturated, and the extensive aquaculture mode causes various problems such as environmental deterioration, serious pollution, increased diseases, reduction of the health quality of aquaculture organisms and the like, which indicates that the offshore aquaculture mode is nearing the development limit. The deep sea area with the water depth of more than 20m is far away from the coast and is relatively open, the water quality is natural and pollution-free, the seawater mobility is good, the self-purification capacity is strong, and the deep sea area is a high-quality mariculture virginal land to be developed. The deep-water cage culture represented by Norway is extremely successful abroad, and from fifteen nations, the nation and governments at all levels invest a great deal of funds to develop the introduction, absorption and development of the deep-water cage culture, and successively obtain a lot of successful experiences in Shandong, Zhejiang, Guangdong, Hainan and the like, so that the deep-water cage culture technology becomes the development trend of marine product culture.

Compared with the traditional cage culture, the deep-water cage industrial park not only can obtain remarkable economic benefit and ecological benefit, but also vacates the offshore area for the coastal industry, the storage logistics and the coastal tourism industry. Meanwhile, the deepwater net cage industry is a huge system engineering and bears a huge industrial group. The deep water net cage equipment covers industries such as net cage materials, processing and manufacturing, electromechanical equipment and the like, and the deep water net cage culture drives various fields such as aquatic product processing and circulation, fry cultivation, bait production, disease control, leisure travel and the like by radiation. The comprehensive development of the deep water net cage is an important way for changing the economic development mode of fishery, is an important carrier for improving the core competitiveness of the fishery industry, is an important channel for leading fishermen to increase income and become rich, and is an important measure for optimizing the marine ecological environment.

The existing culture system can only carry out culture at a fixed water depth position, and although some higher culture systems can be driven by a motor to rise out of the water surface, the mobility is not enough, and real-time adjustment cannot be realized. According to the defects of the prior art, the deep water culture system can freely adjust the water depth of the position in the water, so that the optimal water depth position is selected for culture.

Disclosure of Invention

Aiming at the defects in the prior art, the invention provides an intensive, industrialized and large-scale deep sea culture system, which greatly improves the culture quality, reduces the culture cost and can monitor the condition of the culture system at any time.

In order to solve the technical problem, the invention is solved by the following technical scheme: a system for deep sea cultivation is used for deep sea cage cultivation and comprises a feed production system, a land transportation system, a storage system, a sea transportation system and a cultivation cage system; the feed production system is a feed manufacturer and is used for producing feed; the land transportation system comprises a feed transmission pipeline for land transportation of feed; the storage system is a storage tank; the marine transportation system comprises a material transporting ship for transporting the feed, wherein the material transporting ship is provided with a wireless communication device which can be remotely controlled; the aquaculture net cage system comprises a central floating platform, four water tanks positioned below the central floating platform and a connecting pipe for connecting the water tanks and the central floating platform, wherein a ventilating pipe and a water pipe are hermetically arranged in the connecting pipe, a solar electric plate is arranged above the central floating platform, a plurality of ventilating and water-passing ports are arranged on the side wall of the central floating platform, an air bag is arranged on the central floating platform and is internally provided with an air bag, a cover plate is arranged on the air bag, a baffle is arranged below the cover plate, an arc-shaped inner wall is arranged in the air bag, the inner wall is connected with a placing platform, a spring is transversely arranged on the placing platform, the tail part of the spring is connected with the side wall of the air bag, a stop block is arranged at the front end of the spring and is pressed on the baffle to prevent the baffle from moving, a rubber pad is arranged above the air bag and covers the gap, the air bag cavity is provided with an inclined bottom, the lowest end of the bottom is provided with a liquid leakage hole connected with the outside, the bottom of the air bag cavity is provided with a connecting column, a sleeve wound with a connecting wire is sleeved on the connecting column, the end of the connecting wire is connected with the tail part of the air bag, a rotary disc is arranged above the sleeve and provided with a jack, a rod-shaped object can be inserted into the jack so as to conveniently rotate the rotary disc and drive the sleeve to rotate together, the bottom of the cover plate is provided with a foam plate, the bottom of a central floating platform is provided with a feeding port, the periphery of the feeding port is provided with a floating plate, a feed inlet is also arranged above the central floating platform, a feed cover plate is rotationally arranged above the feed inlet, the end part of the feed cover plate is provided with an inclined plate, a storage bin is, thereby be provided with a plurality of horizontal blend stop strips on the belt of conveyer belt and conveniently transport the fodder, thereby the belt both sides of conveyer belt are provided with the baffle and prevent that the fodder from dropping, the storage silo bottom is provided with the concave part down, the lowest of conveyer belt set up in the concave part down, the top of conveyer belt stretches out outside the storage silo, the top of conveyer belt is provided with the gyro wheel, the gyro wheel is pushing up thereby the swash plate motion rotates the feed cover board and opens the feed inlet and conveniently carry the fodder, be provided with first electromagnet on the central floating platform lateral wall, be provided with distance sensor and second electromagnet on the fortune material ship lateral wall, work as open first electromagnet and second electromagnet when fortune material ship is close to central floating platform and make fortune material ship stably berth at central floating platform side and carry the fodder.

Preferably, still be provided with the observation ball in the aquaculture net cage system, it monitors through setting up in the observation window in observation ball the place ahead to be provided with video monitoring device and this video monitoring device in the observation ball, it is provided with the top cap to observe the sealed top cap that is provided with in ball top, install the top cap below observe the control center of ball, it is provided with the paddle to observe the ball back, the paddle can drive the observation ball when rotating and remove, the paddle is positive to be provided with distance detector, it is provided with the water service mouth to observe the ball bottom, the water service mouth is provided with the otter board outward, it adjusts its float and sink in aqueous through control suction and discharge sea water to observe the ball.

Preferably, the specific gravity of the cap is less than that of water.

Compared with the prior art, the invention has the advantages that: the deep sea farming system has the advantages that the farming quality is greatly improved, the farming cost is reduced, the condition of the farming system can be monitored at any time, the structural stability of the farming net cage system is better, once the connecting pipeline of the net cage is damaged, the connecting pipeline can be replaced independently, the pipeline does not need to be replaced integrally, the maintenance cost is greatly reduced, and the economic benefit is met.

Drawings

FIG. 1 is a schematic top view of the structure of the present invention.

FIG. 2 is a side view of the present invention.

Fig. 3 is a schematic view of the balloon lumen structure of the present invention.

FIG. 4 is a schematic view of the storage bin of the present invention.

Fig. 5 is a schematic view of the observation ball structure of the present invention.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

Referring to fig. 1 to 5, a system for deep sea farming includes a feed production system, a land transportation system, a storage system, a sea transportation system, and a farming net cage system; the feed production system is a feed manufacturer and is used for producing feed; the land transportation system comprises a feed transmission pipeline for land transportation of feed; the storage system is a storage tank; the marine transportation system comprises a material transporting ship for transporting the feed, wherein the material transporting ship is provided with a wireless communication device which can be remotely controlled; the aquaculture net cage system comprises a central floating platform 1, four water tanks 2 positioned below and a connecting pipe 11 connecting the water tanks 2 and the central floating platform 1, wherein an air pipe and a water pipe are arranged in the connecting pipe 11 in a sealing manner, a solar electroplate 14 is arranged above the central floating platform 1, a plurality of air-ventilating water-through openings 12 are arranged on the side wall of the central floating platform 1, an air bag cavity 3 is arranged on the central floating platform 1, an air bag 4 is arranged in the air bag cavity 3, a cover plate 31 is arranged on the air bag cavity 3, a baffle 312 is arranged below the cover plate 31, the air bag cavity 3 is provided with an arc-shaped inner wall 341, the inner wall 341 is connected with a placing platform 34, a spring 61 is transversely arranged on the placing platform 34, the tail part of the spring 61 is connected with the side wall of the air bag cavity 3, a stop block 6 is arranged at the front end of the spring, and the, the air bag type food throwing device is characterized in that a rubber pad 62 is arranged above the air bag cavity 3, the rubber pad 62 covers a gap between the cover plate 31 and the air bag cavity 3, the air bag cavity 3 is provided with an inclined bottom 32, the lowest end of the bottom 32 is provided with a liquid leakage hole 33 which is connected with the outside, the bottom of the air bag cavity 3 is provided with a connecting column, a sleeve 41 wound with a connecting line 42 is sleeved on the connecting column, the end of the connecting line 42 is connected with the tail part of the air bag 4, a rotary table is arranged above the sleeve 41 and is provided with a jack, a rod-shaped object can be inserted into the jack, so that the rotary table can be conveniently rotated and the sleeve 41 can be driven to rotate together, the bottom of the cover plate 31 is provided with a foam plate 311, the bottom of the central floating platform 1 is provided with a food throwing port 13, the periphery of the, the end part of the feeding cover plate 71 is provided with an inclined plate 72, the material transporting ship is provided with a storage bin 5, the storage bin 5 is provided with an inclined wall 51, a conveying belt 52 is arranged above the inclined wall 51, a plurality of transverse barrier strips are arranged on a belt of the conveying belt 52 so as to facilitate the transportation of feed, baffles are arranged on two sides of the belt of the conveying belt 52 so as to prevent the feed from falling off, a lower concave part 53 is arranged at the bottom of the storage bin 5, the lowest end of the conveying belt 52 is arranged in the lower concave part 53, the highest end of the conveying belt 52 extends out of the storage bin 5, the highest end of the conveying belt 52 is provided with a roller 54, the roller 54 pushes against the inclined plate 72 to move so as to rotate the feeding cover plate 71 to open a feeding port 7 so as to facilitate the transportation of feed, a first electromagnet is arranged on the side wall of, when the material transporting ship approaches to the central floating platform 1, the first electromagnet and the second electromagnet are switched on, so that the material transporting ship stably stops at the side of the central floating platform 1 to transport the feed.

In this embodiment, still be provided with in the aquaculture net cage system and observe ball 8, it monitors through setting up in observation window 81 in observation ball 8 the place ahead to be provided with video monitoring device and this video monitoring device in observation ball 8, it is provided with top cap 82 to observe ball 8 top seal, install top cap 82 below observe the control center of ball 8, it is provided with paddle 83 to observe ball 8 back, paddle 83 can drive observation ball 8 when rotating and remove, paddle 83 is positive to be provided with apart from the detector 85, it is provided with water gap 84 to observe ball 8 bottom, water gap 84 is provided with otter board 841 outward, it adjusts its sinking and floating in aqueous through control suction and discharge sea water to observe ball 8.

In the present embodiment, the specific gravity of the top cover 82 is smaller than that of water.

In this embodiment, the feed is produced by a feed manufacturer and then transported by a feed transport line. After being transported to the wharf distribution center, the water can be loaded into a storage tank for marine transportation. After transport to the offshore culture center, storage is performed at the center. When feeding is needed, the livestock are transported to the aquaculture net cage system by a transport ship for feeding.

In this embodiment, the present invention provides four tanks 2 and is connected to the central floating platform 1 through two pipes. One tube is used for transporting air and one tube is used for transporting water. When the four tanks 2 are filled with water, the aquaculture net cage system of the present invention is lowered. And after the water in the four water tanks 2 is pumped away, the water can be filled with air, so that the aquaculture net cage system rises. Through the arrangement, the upper position and the lower position of the aquaculture net cage system in seawater can be freely adjusted.

In the embodiment, people can hardly find the specific position of the aquaculture net cage system at sea after the aquaculture net cage system is submerged into seawater, so that the aquaculture net cage system is provided with the air bag 4, and the surface of the air bag 4 is bright in color, so that people can find the aquaculture net cage system conveniently.

In this embodiment, after the aquaculture net cage system sinks into the seawater, the seawater is slowly poured into the air bag cavity 3. After the air bag cavity 3 is filled with seawater, the air bag 4 moves upwards under the action of buoyancy, so that the baffle 312 is pushed against to overturn against the action of the spring 61, and the air bag 4 rises to float on the water surface, so that people can conveniently find the aquaculture net cage system. Because the spring 61 is mounted laterally, it is simple to overcome its resistance.

In this embodiment, the air bag cavity 3 is further provided with a liquid leakage hole 33, and when the aquaculture net cage system rises above the sea surface, the seawater in the air bag cavity 3 can be discharged from the liquid leakage hole 33.

In this embodiment, the observation window 81 is provided at the front end of the observation ball 8 to facilitate the operation of the video monitoring apparatus therein. Then to avoid the observation ball 8 hitting the floating platform 1 and the connecting pipe 3. A distance detector 85 is provided, and when it detects that an object is approached, the paddle 83 is turned on to operate by current, so that the observation ball 8 moves, and thus the observation ball 8 can be prevented from being hit.

In this embodiment, the present invention is located below the sea surface when feeding, and therefore, the ordinary feeding means cannot be used. To solve this problem, the present invention provides a storage silo 5 on the transport ship for temporarily storing the feed. And one side wall of the storage bin 5 is provided with an inclined shape, and a conveyor belt 52 is installed above the inclined side wall so as to transport the feed of the storage bin 5. Meanwhile, a feed inlet 7 is formed in the floating platform 1, and the storage bin 5 is placed into the feed inlet 7, enters the floating platform 1 and leaves from the feeding port 13, so that feeding is completed.

In the embodiment, the intensive, industrialized and large-scale deep sea aquaculture system provided by the invention has the advantages that the aquaculture quality is greatly improved, the aquaculture cost is reduced, the condition of the aquaculture system can be monitored at any time, the structural stability of the aquaculture net cage system is better, once the connecting pipeline of the net cage is damaged, the net cage can be replaced independently, the pipeline does not need to be replaced integrally, the maintenance cost is greatly reduced, and the economic benefit is met.

The scope of the present invention includes, but is not limited to, the above embodiments, and the present invention is defined by the appended claims, and any alterations, modifications, and improvements that may occur to those skilled in the art are all within the scope of the present invention.

Claims

1. The utility model provides a system for deep sea breed for deep water cage culture which characterized in that: comprises a feed production system, a land transportation system, a storage system, a sea transportation system and a cultivation net cage system; the feed production system is a feed manufacturer and is used for producing feed; the land transportation system comprises a feed transmission pipeline for land transportation of feed; the storage system is a storage tank; the marine transportation system comprises a material transporting ship for transporting the feed, wherein the material transporting ship is provided with a wireless communication device which can be remotely controlled; the aquaculture net cage system comprises a central floating platform (1), four water tanks (2) positioned below and a connecting pipe (11) connecting the water tanks (2) and the central floating platform (1), wherein the connecting pipe (11) is internally provided with a ventilating pipe and a water pipe in a sealing manner, a solar electric plate (14) is arranged above the central floating platform (1), the side wall of the central floating platform (1) is provided with a plurality of ventilating water ports (12), the central floating platform (1) is provided with an air bag cavity (3) and an air bag (4) is arranged in the air bag cavity (3), the air bag cavity (3) is provided with a cover plate (31), a baffle (312) is arranged below the cover plate (31), the air bag cavity (3) is provided with an arc-shaped inner wall (341), the inner wall (341) is connected with a placing platform (34), the placing platform (34) is transversely provided with a spring (61), spring (61) afterbody with the lateral wall in gasbag chamber (3) links to each other and its front end is provided with dog (6), dog (6) are pressed prevent on baffle (312) that baffle (312) from removing, gasbag chamber (3) top is provided with rubber pad (62) and this rubber pad (62) lid is in the gap department of apron (31) and gasbag chamber (3), gasbag chamber (3) are provided with bottom (32) of slope, bottom (32) least significant end is provided with weeping hole (33) and links to each other with the external world, gasbag chamber (3) bottom is provided with the spliced pole, the cover is equipped with sleeve (41) of twining connecting wire (42) on the spliced pole, connecting wire (42) end is connected the afterbody of gasbag (4), sleeve (41) top is provided with the carousel, the carousel is provided with the jack, thereby can insert rod-shaped object in the jack conveniently rotate the carousel and drive sleeve (41) and rotate together, the feed conveying device is characterized in that a foam plate (311) is arranged at the bottom of the cover plate (31), a feed feeding port (13) is arranged at the bottom of the central floating platform (1), a floating plate (15) is arranged at the periphery of the feed feeding port (13), a feed inlet (7) is further arranged above the central floating platform (1), a feed cover plate (71) is rotatably arranged above the feed inlet (7), an inclined plate (72) is arranged at the end part of the feed cover plate (71), a storage bin (5) is arranged on a transport ship, an inclined wall (51) is arranged on the storage bin (5), a conveying belt (52) is arranged above the inclined wall (51), a plurality of transverse barrier strips are arranged on a belt of the conveying belt (52) so as to facilitate feed transportation, baffles are arranged on two sides of the belt of the conveying belt (52) so as to prevent the feed from falling down, a lower concave part (53) is arranged at the bottom of the storage, the most extreme of conveyer belt (52) stretches out outside storage silo (5), the most extreme of conveyer belt (52) is provided with gyro wheel (54), gyro wheel (54) are pushing up thereby swash plate (72) motion rotates feeding apron (71) and opens feed inlet (7) and conveniently carry the fodder, be provided with first electromagnet on central floating platform (1) lateral wall, be provided with distance sensor and second electromagnet on the material transporting ship lateral wall, work as open first electromagnet and second electromagnet when the material transporting ship is close to central floating platform (1) and make the material transporting ship stably stop at central floating platform (1) side and carry the fodder.

2. A system for deep sea farming according to claim 1, wherein: still be provided with observation ball (8) in the aquaculture net cage system, it monitors through setting up in observation window (81) in observation ball (8) the place ahead to be provided with video monitoring device and this video monitoring device in observation ball (8), it is provided with top cap (82) to observe ball (8) top seal, install top cap (82) below the control center of observation ball (8), it is provided with paddle (83) to observe ball (8) back, paddle (83) can drive observation ball (8) when rotating and remove, paddle (83) centre is provided with distance detector (85), it is provided with water service mouth (84) to observe ball (8) bottom, water service mouth (84) are provided with otter board (841) outward, it adjusts its sinking in aqueous through control suction and discharge sea water to observe ball (8).

3. A system for deep sea farming according to claim 2, wherein: the cap (82) has a specific gravity less than that of water.