CN210538199U - Floating type deep and open sea culture processing platform - Google Patents

Abstract

The utility model relates to a deep and distant sea fishery breeding technology field especially relates to a processing platform is bred to floating deep and distant sea, including inside hollow body structure main part and the mooring system who locates in the body structure main part, the central point of body structure main part inner space puts and has arranged vertical tube structure cabin, and the periphery side in tube structure cabin has a plurality of cultivations cabins along circumference interval arrangement, and all peripheral summit lines of cultivations cabin constitute the interior cabin wall theoretical line of body structure main part, and interior cabin wall theoretical line wholly outwards squints the waterline theoretical line that constitutes body structure main part. Can be so that the platform waterline face minimizing of formation, the motion response of at the biggest reduction platform under the wave compares in prior art's portable ship type culture platform, the utility model discloses can effectively improve the roll and the heave motion of platform, can effectively avoid platform self motion to breed the influence in the cabin inside flow field under the operation operating mode, improve the survival rate of breed product under the self-existing operating mode.

Description

Floating type deep and open sea culture processing platform

Technical Field

The utility model relates to a deep open sea fishery breeding technology field especially relates to a processing platform is bred to floating deep open sea.

Background

The deep and distant sea water area far away from continents has good environment, less pollution and strong purification capability, has excellent conditions for developing marine aquaculture, and is a new space for developing marine aquaculture. In the prior art, an open net cage culture platform and a movable ship-shaped culture platform are applied to the field of deep and open sea fishery culture.

The open type cage culture platform is limited by the structural form and cannot provide large effective deck load for arranging fish products for processing and storage, strong shore-based support is needed in operation, and the open type cage culture cannot control water quality and water temperature and isolate parasites and epidemic diseases, so that the death rate and the defective rate are high, and the culture cost is increased. The open type cage culture platform utilizes surface seawater to carry out open type culture, deep seawater of deep and far seas is slightly influenced by illumination, has the advantages of stable physicochemical factors such as water quality and water temperature, and the like, is particularly suitable for the growth of cold water fish with higher economic value, and cannot effectively utilize the resource.

The movable ship type culture platform adopts a ship body liquid cabin as a culture water tank, a circulating water system controls water quality and water temperature, meanwhile, the large deck area also enables the ship type culture platform to have enough related equipment such as spatial arrangement processing and storage, and can realize large-scale culture, breeding, processing, logistics supply and other functions, but is limited by the ship type, the flow field inside the culture water tank is greatly influenced by ship body movement, the optimal flow field inside the culture water tank is difficult to realize, and meanwhile, the ship type culture platform cannot resist severe sea conditions, and is required to be equipped with a propulsion system for migration under extreme environments, so that the initial investment cost is increased, and the risk of death of cultured fishes is increased in the migration process.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to provide a processing platform is bred to floating deep and distant sea can effectively reduce the motion response of platform under the wave to overcome prior art's above-mentioned defect.

In order to solve the technical problem, the utility model discloses a following technical scheme: the utility model provides a processing platform is bred to floating deep and distant sea, includes inside hollow body structure main part and locates the mooring system on the body structure main part, the central point of body structure main part inner space puts and has arranged vertical tube structure cabin, the periphery side of tube structure cabin has a plurality of breed cabins along circumference interval arrangement, the peripheral summit line of all breed cabins constitutes body structure main part's interior bulkhead theoretical line, interior bulkhead theoretical line wholly outwards squints the waterline theoretical line that constitutes body structure main part.

Preferably, the cross-sectional shape of the culture cabin is a regular hexagon.

Preferably, a biofilter water tank is arranged between adjacent culture cabins.

Preferably, the center of the barrel structure cabin is provided with a water taking moon pool, the lower end of the water taking moon pool penetrates through the lower surface of the floating body structure main body, and the upper end of the water taking moon pool extends to the top wall of the floating body structure main body.

Preferably, the floating body structure main body comprises an annular outer plate and a main deck, a processing and storing deck, a cabin bottom deck and a bottom plate which are sequentially arranged in the annular outer plate from top to bottom, the annular outer plate is connected with the main deck, the processing and storing deck and the bottom plate, the barrel structure cabin and the culture cabin are arranged between the cabin bottom deck and the processing and storing deck, a product processing cabin and a refrigeration storage cabin are arranged between the processing and storing deck and the main deck, a bottom side cabin is formed between the cabin bottom deck and the bottom plate, a side cabin is formed between the culture cabin and the annular outer plate, and the side cabin is communicated with the bottom side cabin.

Preferably, the upper end of the annular outer plate is provided with an outward expansion section with the diameter gradually increasing from bottom to top, and the main deck and the processing and storing deck are connected with the annular outer plate at the outward expansion section.

Preferably, a lower deck and a working deck located above the lower deck are arranged in the barrel structure cabin, a fuel oil cabin is arranged between the lower deck and the cabin bottom deck, a mechanical place is arranged between the lower deck and the working deck, and a feed storage cabin, a feed supply equipment cabin and a vaccine injection equipment cabin are arranged between the working deck and the processing storage deck.

Preferably, the main deck is provided with a power module, a refrigeration module for refrigerating the refrigerated storage cabin and a transfer system for transferring products in the refrigerated storage cabin.

Preferably, the transfer system includes a transfer deck disposed above the main deck, a refrigerated container disposed on the transfer deck, a hoist for lifting product within the refrigerated storage compartment onto the transfer deck, and a crane disposed on the main deck.

Preferably, the mooring system comprises a plurality of groups of mooring components distributed along the circumference of the floating body structure main body, the mooring components comprise an anchor winch arranged on the main deck and a cable guider arranged on the annular outer plate, the anchor winch receives and releases the mooring cable, and the cable guider guides the movement of the mooring cable.

Compared with the prior art, the utility model discloses the progress that has showing:

the utility model discloses a processing platform is bred in floating deep and distant sea puts the tube structure cabin in the central point of body structure main part inner space to arrange around the tube structure cabin and breed the cabin, by the whole waterline theory line that constitutes the body structure main part of the outside skew of all peripheral summit lines of breeding the cabin, make the platform waterline face minimizing of generation, can the at utmost reduce the motion response of platform under the wave, compare in prior art's portable ship type culture platform, the utility model discloses a processing platform is bred in floating deep and distant sea can effectively improve the roll and the heave motion of platform, can effectively avoid platform self motion to breed the influence in the inboard flow field under the operation operating mode, improves the survival rate of breeding the product under the self-existing operating mode.

Drawings

Fig. 1 is a side view of the floating deep open sea farming platform of the embodiment of the present invention.

Fig. 2 is a middle longitudinal section of the floating deep and open sea cultivation processing platform of the embodiment of the present invention.

Fig. 3 is a plan view of the bottom plate layer of the floating type deep and open sea cultivation and processing platform of the embodiment of the utility model.

Fig. 4 is a plan view of the bilge deck layer of the floating type deep and open sea culture and processing platform of the embodiment of the present invention.

Fig. 5 is a plan view of the middle deck layer of the floating deep open sea farming platform of the embodiment of the utility model.

Fig. 6 is a plan view of the working deck layer of the floating type deep and open sea aquaculture and processing platform of the embodiment of the present invention.

Fig. 7 is a plan view of the floating type deep and open sea cultivation processing platform processing and storing deck layer of the embodiment of the utility model.

Fig. 8 is a plan view of the floating deep open sea farming platform main deck layer of the embodiment of the utility model.

Fig. 9 is a top view of the floating deep open sea farming platform according to the embodiment of the present invention.

Wherein the reference numerals are as follows:

1. barrel structure cabin 2 and culture cabin

3. Biological filter tank 4 and water taking moon pool

5. First isolation cabin 6, annular planking

61. External expansion section 7 and main deck

8. Processing storage deck 9 and bilge deck

10. Bottom plate 11 and product processing cabin

12. Refrigerated storage compartment 13, bottom compartment

131. First ballast tank 132, first empty tank

14. Side tank 141, second ballast tank

142. Second empty cabin 15, lower deck

16. Working deck 17, intermediate deck

18. Fuel oil tank 19, second isolation tank

20. Machinery space 21, fodder storage cabin

22. Feed supply equipment cabin 23 and vaccine injection equipment cabin

24. Power module 25 and refrigeration module

26. Transfer deck 27 and refrigerated container

28. Lifter 29, crane

30. Living module 31 and helicopter platform

32. Lifesaving equipment 33, anchor windlass

34. Fairlead 35, mooring line

36. Chain locker 37, electric and control room

Detailed Description

The following describes the present invention in further detail with reference to the accompanying drawings. These embodiments are provided only for illustrating the present invention and are not intended to limit the present invention.

In the description of the present invention, it should be noted that the terms "center", "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate the orientation or positional relationship based on the orientation or positional relationship shown in the drawings, and are only for convenience of description and simplification of the description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

In addition, in the description of the present invention, "a plurality" means two or more unless otherwise specified.

As shown in fig. 1 to 9, the present invention provides an embodiment of a floating deep open sea farming platform. The floating type deep and far sea culture processing platform comprises a floating body structure body with a hollow interior and a mooring system arranged on the floating body structure body, wherein the floating body structure body floats on the sea surface, and the mooring system is used for mooring the floating body structure body in a designated sea area. The central position of the inner space of the floating body structure body is provided with a vertical barrel structure cabin 1, and preferably, the barrel structure cabin 1 and the floating body structure body are coaxially arranged. The barrel structure cabin 1 can be used for arranging a culture circulating water system, a feed storage and supply system, culture product vaccine injection equipment, a seawater taking system and the like. A plurality of cultivation cabins 2 are arranged at intervals along the circumferential direction on the outer peripheral side of the barrel structure cabin 1, and the cultivation cabins 2 are used for aquatic product cultivation. The peripheral vertex connecting lines of all the culture cabins 2 form an inner cabin wall theoretical line of the floating body structure main body, the peripheral vertex of the culture cabin 2 refers to the vertex of the culture cabin 2 farthest away from the center of the barrel structure cabin 1 on the same cross section, the inner cabin wall theoretical line is wholly deviated outwards to form a waterline theoretical line of the floating body structure main body, so that the generated platform waterline surface is minimized, the motion response of the platform under waves can be reduced to the maximum extent, compared with a movable ship type culture platform in the prior art, the floating type deep and open sea culture processing platform can effectively improve the rolling and heaving motions of the platform, the influence of the motion of the platform on the flow field inside the culture cabin 2 can be effectively avoided under the working condition, and the survival rate of cultured products can be improved under the self-existing working condition.

Referring to fig. 4 to 6, in the present embodiment, the cross-sectional shape of the cultivation cabin 2 is preferably a regular hexagon. The regular hexagonal culture cabin 2 is beneficial to the formation of a water inflow plug flow effect, so that the water quality and the water temperature in the culture cabin 2 are uniformly distributed, a favorable flow field with uniform water quality and water temperature is formed, the growth of culture products is facilitated, and the cabin bottom of the culture cabin 2 has a self-cleaning function.

In order to be matched with the regular hexagonal culture cabins 2, optimally, the cross section of the cylindrical structure cabin 1 is also in the shape of a regular hexagon, six culture cabins 2 can be radially and uniformly arranged on the outer peripheral side of the cylindrical structure cabin 1, so that the quantity and the capacity of the culture cabins 2 which can be arranged in the inner space of the floating body structure main body are maximized, meanwhile, the cylindrical structure cabin 1 and the culture cabins which are radially arranged on the outer peripheral side of the cylindrical structure cabin 1 form a honeycomb structure, high overall strength can be provided for a platform, and in addition, a culture circulating water system, a feed storage and supply system, culture product vaccine injection equipment, a seawater taking system and the like are arranged in the cylindrical structure cabin 1, the distances of related pipelines of each system to the culture cabins 2 are balanced, and the system design reaches the optimal.

To increase the strength of the cultivation tank 2, it is preferable that a reinforcement member may be provided on the bulkhead of the cultivation tank 2, and the reinforcement member may include a circumferential structural member and a vertical structural member. Preferably, the reinforcing member is disposed on the outer side wall of the cultivation cabin 2, so that the inner side wall of the cultivation cabin 2 is formed into a smooth surface, the use thickness of the heat insulation material can be reduced, and the growth of the cultivation product is facilitated.

In order to avoid the common cabin wall of the adjacent culture cabins 2 and facilitate the arrangement of a reinforcing part on the outer side wall of the culture cabins 2, so as to facilitate the formation of the inner side wall of the culture cabins 2 into a smooth surface, preferably, biological filter water cabins 3 are uniformly arranged between the adjacent culture cabins 2, and the biological filter water cabins 3 isolate the two adjacent culture cabins 2. Each culture cabin 2 is matched with one biofilter water cabin 3, so that the grading culture of culture products is facilitated, and the design of the independent culture cabins 2 and the biofilter water cabins 3 can prevent the cross of parasites and epidemic diseases among the culture products in different culture cabins 2. Further, a strong frame structure can be arranged in the biological filter tank 3 to increase the overall strength of the platform. The strong frame structure may preferably be a honeycomb structural member, which can provide a large overall strength.

In this embodiment, six culture cabins 2 and six biofilter water cabins 3 are arranged on the outer peripheral side of the cylindrical structure cabin 1, in order to realize that the biofilter water cabins 3 isolate two adjacent culture cabins 2, the side length of the cross section of the cylindrical structure cabin 1 is greater than that of the cross section of the culture cabin 2, the six culture cabins 2 are respectively arranged in the middle and attached to the six sides of the cylindrical structure cabin 1, and therefore the two adjacent culture cabins 2 are provided with intervals to form the biofilter water cabins 3. Preferably, the adjacent two sides of the cross section of the barrel structure cabin 1 are provided with chamfers. Preferably, the inner side bulkhead of the biological filter tank 3 close to the cylindrical structure cabin 1 is positioned at the chamfer angle of two adjacent sides of the cylindrical structure cabin 1, and the outer side bulkhead of the biological filter tank 3 far away from the cylindrical structure cabin 1 is positioned on the connecting line of the peripheral vertexes of two adjacent culture cabins 2.

Referring to fig. 2, in the present embodiment, preferably, a water taking moon pool 4 is disposed in the center of the barrel structure cabin 1, the lower end of the water taking moon pool 4 penetrates through the lower surface of the floating body structure body, the upper end of the water taking moon pool 4 extends to the top wall of the floating body structure body, i.e., the water taking moon pool penetrates through the barrel structure cabin 1 up and down, and the height of the water taking moon pool 4 covers the entire height of the floating body structure body. The water intake moon pool 4 can be used to arrange a seawater intake system, such as a water intake pipe, which can extend from the lower end of the water intake moon pool 4 into a position of a prescribed depth of the sea bottom to draw and feed desired seawater into the cultivation tanks 2. Preferably, the water intake moon pool 4 is arranged coaxially with the barrel structure compartment 1. Preferably, the periphery side of the water taking moon pool 4 is provided with a first isolation cabin 5, the height of the first isolation cabin 5 is matched with that of the water taking moon pool 4, the first isolation cabin 5 isolates the water taking moon pool 4 from the barrel structure cabin 1, and meanwhile, the water taking moon pool 4 is isolated from the inner space of the floating body structure main body.

Referring to fig. 2, in the present embodiment, preferably, the floating body structure main body includes an annular outer plate 6, and a main deck 7, a processing storage deck 8, a bilge deck 9, and a bottom plate 10, which are sequentially disposed in the annular outer plate 6 from top to bottom, the annular outer plate 6 connects the main deck 7, the processing storage deck 8, and the bottom plate 10, the annular outer plate 6, the main deck 7, and the bottom plate 10 together enclose an inner space of the floating body structure main body, and the processing storage deck 8 and the bilge deck 9 are horizontally disposed in the inner space of the floating body structure main body. The cylindrical structure cabin 1, the culture cabin 2 and the biological filter water cabin 3 are arranged between a cabin bottom deck 9 and a processing and storing deck 8, the heights of the cylindrical structure cabin 1, the culture cabin 2 and the biological filter water cabin 3 all extend from the cabin bottom deck 9 to the processing and storing deck 8, and peripheral vertex connecting lines of the six culture cabins 3 are integrally shifted outwards to form an outer contour line of the cross section of the annular outer plate 6. Referring to fig. 2 and 7, a product processing cabin 11 and a refrigerating storage cabin 12 are arranged between the processing storage deck 8 and the main deck 7, the product processing cabin 11 is used for processing aquatic products cultured in the culture cabin 2, and the refrigerating storage cabin 12 is used for refrigerating and storing the processed products. The product processing compartment 11 and the refrigerated storage compartment 12 may be designed one or more each as required, for example as shown in fig. 7, in this embodiment, the space between the processing storage deck 8 and the main deck 7 is divided into three compartments, one product processing compartment 11 and two refrigerated storage compartments 12. A bottom side tank 13 is formed between the bilge deck 9 and the floor 10, which bottom side tank 13 can be used for ballast isolation. Referring to fig. 2, a side chamber 14 is formed between the cultivation cabin 2 and the annular outer plate 6, and in the embodiment, the side chamber 14 is formed between the cultivation cabin 2 and the annular outer plate 6 and between the biofilter water chamber and the annular outer plate 6. The side tanks 14 can be used for ballast isolation and as outer protection of the culture tank 2, and meanwhile, the arrangement of the side tanks 14 is beneficial to improving the stability performance of the platform in a cabin breaking manner and increasing the safety performance of the platform. The lower end of the side compartment 14 communicates with the bottom compartment 13 to form an L-shaped sub-compartment, and the upper end of the side compartment 14 extends to the processing and storage deck 8.

Preferably, referring to fig. 3, a plurality of first ballast compartments 131 and a plurality of first empty compartments 132 may be alternately arranged in the bottom side tank 13 in a circumferential direction, and the plurality of first ballast compartments 131 and the plurality of first empty compartments 132 are radially arranged centering on the center of the bottom plate 10. Referring to fig. 4 to 6, a plurality of second ballast tanks 141 and a plurality of second empty tanks 142 may be alternately arranged in the circumferential direction in the side tank 14. The plurality of second ballast tanks 141 are in one-to-one communication with the plurality of first ballast tanks 131, and the plurality of second empty tanks 142 are in one-to-one communication with the plurality of first empty tanks 132.

In this embodiment, referring to fig. 2, a lower deck 15 and an operating deck 16 located above the lower deck 15 are provided in the barrel structure cabin 1, and preferably, an intermediate deck 17 is further provided between the lower deck 15 and the operating deck 16.

Referring to fig. 2 and 4, a fuel tank 18 is arranged between the lower deck 15 and the bilge deck 9, the fuel tank 18 being used for containing fuel. The fuel compartment 18 may be provided in plurality, for example three as shown in fig. 4. Second isolation cabins 19 are arranged between the fuel oil cabin 18 and the lower deck 15 and between the fuel oil cabin 18 and the inner side wall of the barrel structure cabin 1 (namely between the fuel oil cabin 18 and the culture cabin 2 and between the fuel oil cabin 18 and the biological filter water cabin 3), the fuel oil cabin 18 is isolated from the outside through the second isolation cabins 19, the first isolation cabin 5 on the outer peripheral side of the water taking moon pool 4 and the bottom side cabin 13 below the cabin bottom deck 9, the protection of the fuel oil cabin 18 is realized, the fuel oil cabin 18 is isolated from the culture cabin 2 at the same time, and the risk that the culture water body is polluted by the fuel oil is avoided.

Referring to fig. 2 and 5, a machinery space 20 is arranged between the lower deck 15 and the working deck 16, and the machinery space 20 can be used for arranging a culture circulating water system and necessary platform systems. Preferably, the intermediate deck 17 divides the space between the lower deck 15 and the working deck 16 into two layers, both for arranging machinery places 20, each layer being able to arrange a plurality of machinery places 20, for example three as shown in fig. 5.

Referring to fig. 2 and 6, a feed storage compartment 21, a feed supply equipment compartment 22 and a vaccine injection equipment compartment 23 are arranged between the working deck 16 and the process storage deck 8. The feed storage compartment 21 is used for storing feed for cultivation, the feed supply equipment compartment 22 is used for arranging feed supply equipment, and the vaccine injection equipment compartment 23 is used for arranging vaccine injection equipment.

Referring to fig. 2, in the present embodiment, preferably, the upper end of the annular outer plate 6 has an outward expanding section 61 with a diameter gradually increasing from bottom to top, and the main deck 7 and the processing and storage deck 8 are connected to the annular outer plate 6 at the outward expanding section 61. From this, can increase main deck 7 and the area of processing storage deck 8, increase still water rigidity under the big inclination, avoid simultaneously keeping 7 unrestrained on the main deck under the operating mode, effectively guaranteed personnel's safety and 7 upper key equipment safety on the main deck. Preferably, the annular outer plate 6 may extend obliquely outward from the working deck 16 layer as a whole to form the flared section 61.

Referring to fig. 1, 2, 8 and 9, in the present embodiment, it is preferable that the main deck 7 is provided with a power module 24, a refrigeration module 25 and a transfer system. The power module 24 may include a generator set, a transformer, a power distribution cabinet set, and the like, and provides electric power required by the platform, and the platform does not need to be additionally provided with a power propulsion system. The power module 24 is arranged on the main deck 7, and the power module 24 can be preferably arranged above the refrigerated storage cabin 12, so that the refrigerated storage cabin 12 below the main deck 7 isolates the power module 24 from the culture cabin 2, and the influence of vibration noise of the power module 24 on the growth of culture products can be reduced. The refrigeration module 25 may include a refrigeration system required for the refrigerated storage compartment 12 to refrigerate the refrigerated storage compartment 12. The transfer system is used to transfer product within the refrigerated storage compartment 12.

Preferably, the transfer system may include a transfer deck 26 disposed above the main deck 7, a refrigerated container 27 disposed on the transfer deck 26, a lift 28 for lifting product within the refrigerated storage compartment 12 onto the transfer deck 26, and a crane 29 disposed on the main deck 7. There may be a plurality of refrigerated containers 27, and a plurality of refrigerated containers 27 are distributed in two rows on both sides of the transfer deck 26, and a forklift passing space is reserved between the two rows of refrigerated containers 27. A plurality of elevators 28, such as two, may be provided to extend from the process storage deck 8 to the transfer deck 26 to improve transfer efficiency. The crane 29 is arranged at the stern of the platform, with the lifting radius covering the entire transfer deck 26. During transfer, the product in the refrigerated storage compartment 12 is lifted onto the transfer deck 26 by the elevator 28, loaded into the refrigerated container 27 by the forklift, and transferred to the transfer ship by the crane 29, thereby completing transfer of the product. The refrigerated container 27 is used for transferring products, the transferring amount is large at each time, the product quality can be guaranteed through whole-course low-temperature transportation, and the products are not required to be transferred by a special refrigerated transport ship.

Referring to fig. 8 and 9, in the present embodiment, a living module 30 may be further provided on the main deck 7, and the living module 30 may be provided at the platform bow, and preferably, the living module 30 may be provided with three floors, wherein the lowermost floor space is provided with a functional room such as a kitchen, a restaurant, a laundry room, a conference room, a changing room, and the like, and the upper floor space is mainly provided with a living cabin for workers and a hospital room. The platform bow can also be provided with a helicopter platform 31, and the main deck 7 can also be provided with lifesaving equipment 32 for ensuring the life safety of workers. In this embodiment, an electrical and control room 37 can be arranged in the middle of the main deck 7 between the power module 24 and the living module 30, and the transport deck 26 can be the top deck in this area.

Referring to fig. 1, 2, 8 and 9, in the present embodiment, the mooring system preferably includes a plurality of sets of mooring components uniformly distributed along the circumference of the buoyant structure body, the mooring components include an anchor winch 33 disposed on the main deck 7 and a fairlead 34 disposed on the annular outer plate 6, the anchor winch 33 receives and releases a mooring line 35, and the fairlead 34 guides the movement of the mooring line 35. To increase mooring capacity, each set of mooring assemblies may preferably comprise a plurality of mooring lines 35. Fairleads 34 are preferably mounted on the annular outer plate 6 between the water plane and the bilge deck 9, the fairleads 34 taking into account the chain stopping function to improve mooring efficiency. Referring to fig. 7, a chain locker 36 may be further provided on the ring-shaped outer plate 6, and when the anchor winch 33 tightens the mooring lines 35, the excess mooring lines 35 may be introduced into the chain locker 36 to be stored therein.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications and replacements can be made without departing from the technical principle of the present invention, and these modifications and replacements should also be regarded as the protection scope of the present invention.

Claims (10)

1. The utility model provides a processing platform is bred to floating deep and distant sea, its characterized in that includes inside hollow body structure main part and locates mooring system on the body structure main part, body structure main part inner space's central point puts and has arranged vertical tube structure cabin (1), a plurality of breed cabins (2) have been arranged along circumference interval to the periphery side in tube structure cabin (1), all the peripheral summit line of breeding cabin (2) constitutes body structure main part's interior cabin wall theoretical line, interior cabin wall theoretical line wholly outwards squints the constitution body structure main part's waterline theoretical line.

2. The floating deep offshore culture processing platform of claim 1, wherein the culture tank (2) has a cross-sectional shape of a regular hexagon.

3. The floating deep and open sea farming platform of claim 1, wherein a biofilter tank (3) is arranged between adjacent farming cabins (2).

4. The floating deep and open sea farming platform according to claim 1, wherein a water intake moon pool (4) is provided in the center of the cylindrical structure cabin (1), the lower end of the water intake moon pool (4) penetrates through the lower surface of the floating structure body, and the upper end of the water intake moon pool (4) extends to the top wall of the floating structure body.

5. The floating deep and open sea farming processing platform of claim 1, wherein the floating body structure main body comprises an annular outer plate (6) and a main deck (7), a processing and storing deck (8), a bilge deck (9) and a bottom plate (10) which are sequentially arranged in the annular outer plate (6) from top to bottom, the annular outer plate (6) is connected with the main deck (7), the processing and storing deck (8) and the bottom plate (10), the barrel structure cabin (1) and the farming cabin (2) are arranged between the bilge deck (9) and the processing and storing deck (8), a product processing cabin (11) and a refrigeration storing cabin (12) are arranged between the processing and storing deck (8) and the main deck (7), a bottom side cabin (13) is formed between the bilge deck (9) and the bottom plate (10), and a side cabin (14) is formed between the farming cabin (2) and the annular outer plate (6), the side compartment (14) is communicated with the bottom compartment (13).

6. The floating deep offshore aquaculture processing platform of claim 5, characterized in that the upper end of the annular outer plate (6) has a flared section (61) with a diameter that gradually increases from bottom to top, and the main deck (7) and the processing and storage deck (8) are both connected to the annular outer plate (6) at the flared section (61).

7. The floating deep offshore aquaculture process platform of claim 5, characterized in that a lower deck (15) and a working deck (16) located above the lower deck (15) are provided in the shell structure tank (1), a fuel tank (18) is arranged between the lower deck (15) and the tank bottom deck (9), a machinery house (20) is arranged between the lower deck (15) and the working deck (16), and a feed storage tank (21), a feed supply equipment tank (22) and a vaccine injection equipment tank (23) are arranged between the working deck (16) and the process storage deck (8).

8. The floating deep offshore aquaculture processing platform of claim 5, characterized in that on the main deck (7) are provided a power module (24), a refrigeration module (25) for refrigerating the refrigerated storage tank (12) and a transfer system for transferring products inside the refrigerated storage tank (12).

9. The floating deep offshore aquaculture processing platform of claim 8, wherein the transfer system comprises a transfer deck (26) disposed above the main deck (7), a refrigerated container (27) disposed on the transfer deck (26), a lift (28) for lifting the products in the refrigerated storage tank (12) onto the transfer deck (26), and a crane (29) disposed on the main deck (7).

10. The floating deep and open sea farming platform of claim 5, wherein the mooring system comprises a plurality of sets of mooring components distributed along the circumference of the buoyant structure body, the mooring components comprising an anchor winch (33) provided on the main deck (7) and a fairlead (34) provided on the annular outer plate (6), the anchor winch (33) retracting a mooring line (35), the fairlead (34) guiding the movement of the mooring line (35).

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