CN215706985U - Ocean economic platform - Google Patents

Abstract

An ocean economic platform, which is characterized in that: including the deck, the keg float layer, the bottom flotation pontoon, support frame and the first cabin body, the keg float layer is including setting up a plurality of vats that the length direction on deck arranged in the bottom on deck and along the deck, the bottom flotation pontoon sets up the top on deck and extends along the length direction on deck, the support frame sets up the top at the bottom flotation pontoon, the first cabin body sets up the top at the support frame and extends along the length direction on deck, be provided with the decompression board that shelters from the support frame between the bottom flotation pontoon and the first cabin body, be provided with a plurality of relief vents on the decompression board, can greatly reduced stormy waves the impact force to ocean fishery economic platform, make ocean fishery economic platform float in the deep sea steadily.

Description

Ocean economic platform

Technical Field

The utility model relates to ocean engineering, in particular to an ocean economic platform.

Background

At present, the following are produced by human beings in the sea for entertainment and leisure: natural reef islands, limited in number; the artificial reef island has huge investment and can only be used in shallow sea; the ship has poor and unstable typhoon resistance; the drilling platform is a berth-free wharf, is high in speciality and is not easy to live and live.

Most offshore fishery resources are in an over-development state, the mariculture space is smaller and smaller, the problems of deterioration of mariculture environment, frequent disease occurrence, overlarge density and the like are caused, the offshore marine environment problem is increasingly serious, deep sea aquaculture has become development requirements and trends, in recent years, the deep sea aquaculture is vigorously developed, the existing deep sea aquaculture mode is realized by building various types of aquaculture net cages in deep sea, the typhoon resistance of some deep sea net cage aquaculture technologies introduced from Norway is not ideal recently, the records of being destroyed by typhoon for many times appear in the mouths and three places of the sea, and the life environment is severe at ordinary times and is difficult to be connected with tourism and leisure.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a marine fishery economic platform with high wind and wave resistance.

The purpose of the utility model is realized by the following technical scheme:

an ocean economic platform, which is characterized in that: including the V font main part, this V font main part includes the deck of V font, the keg float layer, the bottom buoyancy module, support frame and the first cabin body, the keg float layer is including setting up a plurality of keg floats that just arrange along the length direction on deck in the bottom on deck, the bottom buoyancy module sets up at the top on deck and extends along the length direction on deck, the support frame sets up the top in the bottom buoyancy module, the first cabin body sets up at the top of support frame and extends along the length direction on deck, be provided with the decompression board that shelters from the support frame between the bottom buoyancy module and the first cabin body, be provided with a plurality of pressure relief holes on the decompression board.

The bottom floating cabin is provided with a plurality of decompression pipes with two ends opened at two sides of the bottom floating cabin, and the decompression pipes are arranged along the length direction and extend in the width direction of the bottom floating cabin.

The V-shaped body is a five-pointed star structure consisting of five V-shaped bodies or a diamond structure consisting of two V-shaped bodies.

The cabin body is characterized by further comprising a first platform plate arranged on the inner side of the top angle of the deck and a second platform plate arranged above the first platform plate, wherein the first platform plate and the deck are in the same plane, the second platform plate and the bottom plate of the first cabin body are in the same plane, a plurality of floating barrels are arranged at the bottom of the first platform plate, and a first stair is arranged between the first platform plate and the second platform plate.

The support frame comprises two groups of second support mechanisms positioned on two sides of the top surface of the bottom floating cabin and a middle support mechanism positioned in the middle of the top surface of the bottom floating cabin, the second support mechanisms comprise a plurality of second vertical rods, a plurality of cross rods and a top connecting rod, the plurality of second vertical rods are arranged between the top surface of the bottom floating cabin and the bottom surface of the first cabin body, and arranged along the length direction of the bottom floating cabin, the cross rods are connected between two adjacent second vertical rods, the top connecting rods are respectively connected with the upper ends of the second vertical rods, the middle supporting mechanism comprises a plurality of middle upright columns, the middle upright columns are arranged between the top surface of the bottom floating cabin and the bottom surface of the first cabin body, the middle upright post and the second vertical rods at two sides are connected with an inclined beam, one end of the inclined beam is connected to the upper end of the middle upright post, and the other end of the inclined beam is connected to the upper position in the second vertical rod;

the bottom floating cabin is provided with a support component, the support component comprises two groups of third support mechanisms positioned at two sides of the top surface of the deck and a middle support structure positioned in the middle of the top surface of the deck, the third support mechanisms comprise a plurality of third vertical rods, a plurality of cross support rods and upper end connecting rods, the plurality of third vertical rods are arranged between the top surface of the deck and the bottom surface of the top plate, and arranged along the length direction of the deck, the cross support rods are connected between two adjacent third vertical rods, the upper end connecting rods are respectively connected with the upper ends of the plurality of third vertical rods, the middle support structure comprises a plurality of middle upright columns, the plurality of middle upright columns are arranged between the top surface of the deck and the bottom surface of the top plate, and the inclined supporting beams are arranged along the length direction of the deck, an inclined supporting beam is connected between the middle upright post and the third vertical rods at the two sides, one end of each inclined supporting beam is connected to the upper end of the middle upright post, and the other end of each inclined supporting beam is connected to the middle upper position of the third vertical rod.

The floating barrel is characterized in that an upper end opening of the floating barrel is formed with an upward convex opening edge, a hole for the opening edge to pass through is formed in the deck, the floating barrel further comprises a locking cover which is arranged above the deck and detachably matched with the opening edge, and the locking cover is provided with an inlet and a cover plate capable of sealing the inlet.

And a pressure reducing gap is formed between every two adjacent floating barrels at intervals.

The middle part of the bottom surface of the floating barrel is upwards sunken in an arc shape.

The anchoring device is connected to the bottom of the top corner of the deck.

Also comprises a culture net arranged below the deck.

The bottom floating cabin comprises a top plate and side plates, the top plate and the deck are arranged oppositely in parallel at intervals, the side plates are connected between the top plate and the deck, and the deck and the side plates are integrally formed.

The solar energy helicopter cabin is characterized by further comprising a second cabin body which is arranged at the top of the first cabin body and extends along the length direction of the first cabin body, the second cabin body is provided with a helicopter shutdown platform which is located above the second platform plate, a solar cell panel is arranged at the top of the second cabin body, and rainwater collecting tanks are formed in two sides of the top of the second cabin body.

The cage is connected with the V-shaped main body through a plurality of pull rods arranged along the length direction of the cage, one end of each pull rod is hinged with the cage, and the other end of each pull rod is hinged with the V-shaped main body.

The anchoring mechanism comprises two hanging rings, an anchor body and two pull ropes, the two hanging rings are symmetrically arranged on the outer sides of the two linear wing plates of the deck, the two pull ropes are respectively connected between the anchor body and the two hanging rings, the distance between the hanging rings and the top angle of the deck is one third of the length of the linear wing plates, and the length of the pull ropes is set to enable the anchor body to be positioned under the C tip of the V-shaped main body.

The utility model has the following beneficial effects:

the hollow pressure reducing space is formed between the bottom floating cabin and the first cabin body by arranging the support frame, and the pressure reducing space is just positioned at a main position for bearing sea waves, so that the impact force of the sea waves on the marine fishery economic platform can be greatly reduced, sea wind can penetrate through the pressure reducing space, and the impact force of the sea wind on the marine fishery economic platform is reduced; the support frame can effectively be protected to the pressure reduction board that sets up to shelter from the support frame, prevents that the support frame from being damaged by the striking to the pressure reduction board is provided with the pressure-reducing vent and has the impact force and the drainage effect that reduce the stormy waves.

The following effects are achieved:

1. the ocean economic platform is of a V-shaped structure horizontally, and platform plates are arranged at the inner corners of the V shape for increasing and widening to form a public activity area.

2. The liftable net cage is arranged on the outer side and/or the inner side of the V-shaped main body, namely the net cage is arranged on the outer sides of two sides of the V-shaped main body and the inner side of an opening of the V-shaped main body and is fixedly connected with a ram on the V-shaped main body through a stay wire, and the net cage is sunk through the stay wire temporarily when typhoon comes to avoid sea wave impact.

3. The floating barrel is a cylinder, the middle part of the bottom surface of the floating barrel is upwards concave in an arc manner, so that the floating barrel can bear larger seawater pressure without instability, and the safety of the platform is ensured.

4. The floating barrels are arranged at the bottoms of the decks at the two sides of the V-shaped part and the joint of the head part in a straight line and are stably and seamlessly connected with the decks, so that buoyancy is uniformly transferred to the bottom deck, and meanwhile, the floating bodies stop sea waves at the two sides from entering the V-shaped opening, so that a marine wharf is formed inside, and personnel can conveniently flow.

5. The bottom floating cabin can be provided with marine organism processing equipment, so that a marine deep processing factory is built, and the first cabin body and the second cabin body can be used as guest rooms for leisure travel and houses for workers.

In conclusion, the utility model can provide the marine economic platform integrating a marine dock, a marine factory, deep sea culture and leisure travel.

Drawings

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

Fig. 1 is a perspective view of a first embodiment.

FIG. 2 is a perspective view of the first embodiment with the aquaculture net, the side panels of the bottom buoyancy module and the pressure reduction panels removed.

Fig. 3 is an enlarged view of a portion a in fig. 1.

Fig. 4 is an enlarged view of a portion B in fig. 2.

Fig. 5 is a bottom view of the first embodiment.

Fig. 6 is a perspective view, inside perspective view, of the first embodiment.

Fig. 7 is a perspective view of the first embodiment, from an inside perspective, with the inside pressure relief panel removed.

Figure 8 is a schematic view of the connection of the deck and the pontoon.

Fig. 9 is a schematic structural view of the float bowl.

Fig. 10 is a perspective view of the second embodiment.

Fig. 11 is a schematic structural diagram of the third embodiment.

FIG. 12 is a schematic structural diagram of the fourth embodiment.

FIG. 13 is a partial enlarged view of the fourth embodiment.

Fig. 14 is a schematic structural view of a four-float-barrel layer according to an embodiment.

FIG. 15 is a partial enlarged view of the four-float-barrel layer of the embodiment.

FIG. 16 is a schematic structural view of a four-bottom buoyancy module according to an embodiment.

Fig. 17 is a schematic structural diagram of the fifth embodiment.

Fig. 18 is a schematic structural view of the sixth embodiment.

Detailed Description

First embodiment, referring to fig. 1 to 9, an ocean economic platform comprises a V-shaped main body C, wherein the V-shaped main body C comprises a deck 2, a floating bucket layer, a bottom buoyancy module 3, a support frame 42, a first cabin body 51, a second cabin body 52, a culture net 7 and an anchoring mechanism 8.

The deck 2 is a V-shaped structure formed by splicing two linear wing plates, the included angle of the two linear wing plates is 30 degrees, the width of the linear wing plate is 10-30 meters, the length of the linear wing plate is 100-300 meters, and the thickness of the linear wing plate is 60-90 millimeters; the diameter of the floating barrel 1 is 3.6-8 meters, the height is 4.6-6 meters, the wall thickness is 60-90 millimeters, and the width of the straight wing plate is 20 meters in the embodiment, the length is 116.5 meters, and the thickness is 80 millimeters; the diameter of the floating barrel 1 is 3.6 meters, the height is 4.6 meters, the wall thickness is 60 millimeters, the floating barrel layer comprises a plurality of floating barrels 1 which are arranged at the bottom of the deck 2 and are arranged along the length direction of the deck 2, the bottom of the deck 2 can be provided with a single-row floating barrel or double-row floating barrels according to requirements, and the single-row floating barrel is arranged in the embodiment; in order to improve the splicing strength of the deck 2, a support frame 22 is arranged at the bottom of the deck 2, the support frame 22 is a plane frame structure covering the bottom surface of the deck 2, and specifically comprises inner and outer side edge profiles extending along the bottom edge of the deck 2 and a support profile connected between the inner and outer side edge profiles, the support frame can be anchored in a deep sea area for a long time, the depth is between 50m and 200m, the arrangement mode and the platform shape of the unique anchor cables enable the support frame to resist strong typhoon, and a marine wharf is arranged in the V-shaped opening. At least the deck 2 and the floating barrel 1 are made of special basic composite materials, the corrosion resistance is high, periodic corrosion prevention maintenance is not needed below the deck, the operation cost is low, and the platform enables people to produce and relax in deep sea.

Referring to fig. 8 and 9 in detail, the specific floating barrel 1 has an opening at the upper end and an upwardly protruding rim 12 formed thereon, the deck 2 is formed with a hole for the rim to pass through, and further comprises a locking cover 15 disposed above the deck 2 and detachably engaged with the rim 12, the specific rim 12 is provided with a plurality of blocks 121 protruding outward and arranged circumferentially, the locking cover 15 is provided with a stop ring, a plurality of notches are formed on the stop ring, the notches and the blocks 121 correspond to each other one by one and can allow the blocks 121 to pass through and can allow the blocks 121 to be pressed under the stop ring to be locked by rotating the locking cover 15, of course, the locking cover 15 and the rim 12 can be connected by screw threads, the locking cover 15 and the rim 12 can be detachably connected to allow the floating barrel 1 to be rapidly separated from the deck 2, so that the floating barrel 1 can be used as an escape compartment in an emergency, the locking cover 15 is provided with an inlet 151 communicating the interior of the floating barrel 1 and a cover plate capable of sealing the inlet 151, still be provided with climbing ladder 14 in the keg float 1, inside the staff can pass entry 151 and go down to keg float 1 with the help of climbing ladder 14, keg float 1 can regard as the storing storehouse to use, deposits article such as aquatic products and fodder after the deep-processing.

In addition, the upper part of the floating bucket 1 is also provided with two supporting lugs 11, the two supporting lugs 11 are arranged in a bilateral symmetry mode, the supporting lugs 11 are provided with top surfaces attached to the bottom surface of the deck 2, the supporting lugs 11 can increase the supporting area, and the floating bucket 1 is supported at the bottom of the deck 2 more stably.

The bottom floating cabin 3 is arranged at the top of the deck 2 and extends along the length direction of the deck 2, the support frame is arranged at the top of the bottom floating cabin 3, the first cabin body 51 is arranged at the top of the support frame and extends along the length direction of the deck 2, the second cabin body 52 is arranged at the top of the first cabin body 51, a first pressure reducing plate 41 for shielding the support frame is arranged between the bottom floating cabin 3 and the first cabin body 51, the first pressure reducing plate 41 is connected between the top surface of the bottom floating cabin 3 and the bottom surface of the first cabin body 51, a plurality of pressure reducing holes 411 are densely distributed in the first pressure reducing plate 41, the pressure reducing holes 411 can reduce the area of sea waves which are slapped on the pressure reducing plate 41, so that the impact force of the sea waves is reduced, the ocean fishery economic platform cannot greatly shake, and in addition, the pressure reducing holes 411 can also discharge the sea water entering the inner side of the first pressure reducing plate 41 to prevent the top of the bottom floating cabin 3 from accumulating water; the hollow decompression space is formed between the bottom buoyancy module 3 and the first cabin body 51 by arranging the support frame, and the decompression space is just positioned at a main position for bearing sea waves, so that the impact force of the sea waves on the marine fishery economic platform can be greatly reduced, sea wind can also penetrate through the decompression space, and the impact force of the sea wind on the marine fishery economic platform is reduced; the first pressure reducing plate 41 arranged to shield the support frame can effectively protect the support frame from being damaged by impact, and the pressure reducing holes 411 have the functions of reducing the impact force of wind waves and draining water.

Referring to fig. 6 and 7 in detail, a first platform plate 61 is arranged on the inner side of the top corner of the deck 2, a second platform plate 62 is arranged above the first platform plate 61, a third platform plate 63 is arranged above the second platform plate 62, the first platform plate 61, the second platform plate 62 and the third platform plate 63 are arranged in parallel at intervals and are all triangular, the first platform plate 61 and the deck 2 are in the same plane, the second platform plate 62 and the bottom plate of the first cabin 51 are in the same plane, the third platform plate 63 and the bottom plate of the second cabin 52 are in the same plane, a plurality of floating buckets 1 are arranged at the bottom of the first platform plate 61, a first stair 65 is arranged between the first platform plate 61 and the second platform plate 62, a second stair 66 is arranged between the second platform plate 62 and the third platform plate 63, a rain shelter ceiling 64 is arranged above the third platform plate 63, a second pressure reducing plate 67 is arranged between the outward side of the first platform plate 61 and the outward side of the second platform plate 62, the second decompression plate 67 has the same structure and function as the first decompression plate 41.

Referring to fig. 3 and 4 in detail, the bottom buoyancy module 3 includes a top plate 32 and side plates 31, the top plate 32 is disposed above the deck 2 and is parallel to and opposite to the deck 2, the side plates 31 are connected between the top plate 32 and the deck 2 to form the bottom buoyancy module 3, the bottom width of the bottom buoyancy module 3 is smaller than the width of the deck 2 to form walking channels on the deck 2 at both sides of the bottom buoyancy module 3, the edge of the deck 2 is provided with guard rails 21 outside the walking channels, the deck 2 is provided with a plurality of support rods 35 arranged along the length direction thereof, the support rods 35 are vertically supported on the side plates 31 of the bottom buoyancy module 3, a plurality of decompression tubes 34 are disposed in the bottom buoyancy module 3, the decompression tubes 34 extend along the width direction of the bottom buoyancy module 3, both ends of the decompression tubes 34 are opened at both sides of the bottom buoyancy module 3, the plurality of decompression tubes 34 are arranged along the length direction of the bottom buoyancy module 3, the bottom buoyancy module 3 is provided with the decompression tubes 34, which has the function of reducing the impact force of wind and waves, in addition, the decompression pipe 34 is supported between both sides of the bottom buoyancy module 3, and can play a role in increasing the strength of the bottom buoyancy module 3.

The bottom floating cabin 3 is provided with a plurality of partition plates 33 arranged along the length direction thereof, the partition plates 33 are provided with doors for people to pass through, an upper pipe 331 and a lower pipe 332 which are opposite to each other in an up-down parallel manner are arranged in the specific bottom floating cabin 3, the upper pipe 331 and the lower pipe 332 extend along the width direction of the bottom floating cabin 3, insertion holes extending along the length direction are formed on the opposite surfaces of the upper pipe 331 and the lower pipe 332, and the upper edge and the lower edge of each partition plate 33 are inserted into the insertion holes of the upper pipe 331 and the lower pipe 332 for fixing.

Can support first cabin body 51 in bottom floating bay 3 top steadily through support frame 42, make and form the decompression space between bottom floating bay 3 and the first cabin body 51, the impact force that the cooperation first decompression board 41 can reduce the stormy waves reduces rocking of marine fishery economic platform.

The aquaculture net 7 is arranged below the deck 2, a plurality of spreading rods can be arranged on the deck 2 to spread a net opening of the aquaculture net 7, the aquaculture net 7 is used for cultivating marine organisms such as fishes and shrimps, the aquaculture net 7 can be freely lifted and adjusted according to the sizes of sea waves and storms, processing equipment of the marine organisms can be placed in the bottom floating cabin 3, the floating barrel 1 is integrally arranged from cultivation to processing, the first cabin body 51 and the second cabin body 52 are used as a storage bin, the first cabin body 51 and the second cabin body 52 are of guest room structures, the specific structure of the guest room structures can refer to guest room structures on cruise ships and are used for guests and workers to live, the first platform plate 61, the second platform plate 62 and the third platform plate 63 are used as public activity places, and the marine fishery economic platform integrating cultivation, deep processing, material storage and travel is realized.

Second embodiment referring to fig. 10, this embodiment is a diamond structure formed by splicing two first embodiments, and a transverse main body 9 extending along the diagonal of the diamond structure is provided, and the transverse main body 9 also has a deck 2, a bottom buoyancy chamber 3, a support frame, a first cabin 51 and a second cabin 52, and the main structure of which is the same as that of the first embodiment, and in this embodiment, the anchoring mechanism 8 is connected to the bottom of the transverse main body 9.

Third embodiment referring to fig. 11, this embodiment is a five-pointed star structure formed by splicing five embodiments one, and only the deck 2 and the part of the pontoon 1 of the five-pointed star are shown in the figure.

Fourth embodiment, referring to fig. 12 to 16, the difference between the first embodiment and the second embodiment is: the floating barrel comprises a floating barrel layer, a deck, a bottom floating cabin, a support frame and a second cabin body.

Deck 2 is V font platelike structure, bottom flotation tank 3 sets up at deck 2 top, specific bottom flotation tank 3 includes roof 32 and curb plate 31, roof 32 and the parallel interval mutual disposition of deck 2, curb plate 31 is connected between roof 32 and deck 2, deck 2 and curb plate 31 integrated into one piece, curb plate 31 is outside convex arc structure, be provided with a plurality of decompression pipes 341 in the bottom flotation tank 3, decompression pipe 341 also has the effect of the impact force that reduces the stormy waves, in addition decompression pipe 341 supports between the both sides of bottom flotation tank 3, can play the effect that increases bottom flotation tank 3 intensity.

The support frame comprises two groups of second support mechanisms positioned on two sides of the top surface of the bottom floating cabin 3 and a middle support mechanism positioned in the middle of the top surface of the bottom floating cabin 3, the second support mechanisms comprise a plurality of second vertical rods 44, a plurality of cross rods 45 and a top connecting rod 48, the plurality of second vertical rods 44 are arranged between the top surface of the bottom floating cabin 3 and the bottom surface of the first cabin body 51 and are arranged along the length direction of the bottom floating cabin 3, the cross rods 45 are connected between two adjacent second vertical rods 44, the top connecting rod 48 is respectively connected with the upper ends of the plurality of second vertical rods 44, the middle support mechanism comprises a plurality of middle upright columns 46, the plurality of middle upright columns 46 are arranged between the top surface of the bottom floating cabin 3 and the bottom surface of the first cabin body 51 and are arranged along the length direction of the bottom floating cabin 3, inclined beams 47 are connected between the middle upright columns 46 and the second vertical rods 44 on two sides, one end of each inclined beam 47 is connected with the upper end of each middle upright column 46, the other end is connected to an upper position in the second vertical rod 44.

The deck 2 bottom is provided with connection frame, this connection frame includes inboard supporting beam 23, outside supporting beam 25 and crossbeam 24, inboard supporting beam 23 extends along the inboard border of deck 2 and arranges, outside supporting beam 25 extends along the outside border of deck 2 and arranges, crossbeam 24 is connected between inboard supporting beam 23 and outside supporting beam 25, keg float 1 sets up between inboard supporting beam 23 and outside supporting beam 25 and lies in between two adjacent crossbeams 24, the last port both sides of keg float 1 are formed with the breach 17 of stepping down with inboard supporting beam 23 and outside supporting beam 25 looks adaptation, interval arrangement forms the decompression clearance between two adjacent keg float 1, upwards circular arc sunken 18 in the bottom surface middle part of keg float 1.

The bottom floating cabin 3 is provided with a supporting component, the supporting component comprises two groups of third supporting mechanisms positioned at two sides of the top surface of the deck 2 and a middle supporting structure positioned at the middle part of the top surface of the deck 2, the third supporting mechanisms comprise a plurality of third vertical rods 34, a plurality of cross supporting rods 35 and upper end connecting rods 38, the plurality of third vertical rods 34 are arranged between the top surface of the deck 2 and the bottom surface of the top plate 32 and are arranged along the length direction of the deck 2, the cross supporting rods 35 are connected between two adjacent third vertical rods 34, the upper end connecting rods 38 are respectively connected with the upper ends of the plurality of third vertical rods 34, the middle supporting structure comprises a plurality of middle upright columns 36, the plurality of middle upright columns 36 are arranged between the top surface of the deck 2 and the bottom surface of the top plate 32 and are arranged along the length direction of the deck 2, an inclined supporting beam 37 is connected between the middle upright column 36 and the third vertical rods 34 at two sides, one end of the inclined supporting beam 37 is connected with the upper end of the middle upright column 36, the other end is connected to the upper middle position of the third vertical rod 34, and the support assembly can stably support the side plate 31 and the top plate 32 of the bottom floating chamber 3.

The second hull 52 is provided at the top thereof with a solar panel 521 for generating solar power to supply power for daily production and life, the second hull 52 is formed at both sides of the top thereof with rain water collecting tanks 523, the rain water collecting tanks 523 can collect rain water and be connected to a water storage tank of the marine economic platform through pipes, the water storage tank can be used as water for daily production and life, the second hull 52 is removed from the rain shelter 64 as compared with the first embodiment, a helicopter parking lot 522 is provided at the position of the rain shelter 64, and a staircase 67 is provided between the helicopter parking lot 522 and the third platform 63.

Fifth embodiment, referring to fig. 17, the structure of this embodiment is substantially the same as that of the fourth embodiment, except that: mooring device 8, this mooring device 8 includes two links 87, anchor 85 and two stay cords 86, two links 87 symmetry set up the outside at two straight line shape pterygoid laminas of deck 2, two stay cords 86 are connected respectively between anchor 85 and two links 87, stay cord 86 is connected for the lantern ring with link 87, specifically stay cord 86 forms the loop configuration and cup joints with link 87, can make stay cord 86 and link 87 swing joint like this, no matter which direction the V-arrangement main part C rotates or moves can guarantee stay cord 86 and link 87's reliable connection.

The specific hanging ring 87 is fixedly arranged on the outer supporting beam 25, the position of the hanging ring 87 away from the top corner of the deck 2 is one third of the length of a linear wing plate, the length of the pull rope 86 is set to enable the anchor body 85 to be positioned under the tip of the V-shaped main body C, the anchoring mechanism 8 of the structure does not bear the head raising moment of the platform, and meanwhile, no matter which direction the storm wave is from, the V-shaped main body C rotates by taking the anchor body 85 as the center, the tip of the V-shaped main body C always faces the storm wave, and therefore the marine fishery economic platform stably floats on the sea.

Sixth embodiment, referring to fig. 18, this embodiment is basically the same as the fourth embodiment, except that: the outer side and the inner side of the V-shaped main body C are provided with a liftable outer side net cage d1 and a liftable inner side net cage d2, the outer side net cage d1 and the inner side net cage d2 are connected with the V-shaped main body C through a plurality of pull rods d3, a plurality of pull rods d3 are parallel to each other and are arranged along the length direction of the net cages, one end of each pull rod d3 is hinged with the net cages, the other end of each pull rod d3 is hinged with the V-shaped main body, the pull rods d3 can stabilize the reliable lifting of the net cages and prevent the net cages from shaking, the net cage driving mechanisms are connected and drive the net cages to lift and move, a specific net cage driving mechanism can be an oil cylinder connected between the net cages and the V-shaped main body C or can drive the net cages to lift through a steel wire rope and a winch, when typhoon comes, the net cages are sunk to avoid sea wave impact, in addition, the pull rods d3 can also be replaced by oil cylinders or air cylinders, and other net cage driving mechanisms are not needed.

In the above embodiment, at least the deck 2, the pontoon 1 and the bottom pontoon 3, the support frame 42, the first hull 51 and the second hull 52 are made of a special base composite material.

The above description is only a preferred embodiment of the present invention, and therefore should not be taken as limiting the scope of the utility model, which is defined by the appended claims and their equivalents and modifications within the scope of the description.

Claims (14)

1. An ocean economic platform, which is characterized in that: including the V font main part, this V font main part includes the deck of V font, the keg float layer, the bottom buoyancy module, support frame and the first cabin body, the keg float layer is including setting up a plurality of keg floats that just arrange along the length direction on deck in the bottom on deck, the bottom buoyancy module sets up at the top on deck and extends along the length direction on deck, the support frame sets up the top in the bottom buoyancy module, the first cabin body sets up at the top of support frame and extends along the length direction on deck, be provided with the decompression board that shelters from the support frame between the bottom buoyancy module and the first cabin body, be provided with a plurality of pressure relief holes on the decompression board.

2. A marine economic platform according to claim 1, wherein: the bottom floating cabin is provided with a plurality of decompression pipes with two ends opened at two sides of the bottom floating cabin, and the decompression pipes are arranged along the length direction and extend in the width direction of the bottom floating cabin.

3. A marine economic platform according to claim 1, wherein: the V-shaped body is a five-pointed star structure consisting of five V-shaped bodies or a diamond structure consisting of two V-shaped bodies.

4. A marine economic platform according to claim 1, wherein: the cabin body is characterized by further comprising a first platform plate arranged on the inner side of the top angle of the deck and a second platform plate arranged above the first platform plate, wherein the first platform plate and the deck are in the same plane, the second platform plate and the bottom plate of the first cabin body are in the same plane, a plurality of floating barrels are arranged at the bottom of the first platform plate, and a first stair is arranged between the first platform plate and the second platform plate.

5. A marine economic platform according to any one of claims 1 to 4, wherein: the support frame comprises two groups of second support mechanisms positioned on two sides of the top surface of the bottom floating cabin and a middle support mechanism positioned in the middle of the top surface of the bottom floating cabin, the second support mechanisms comprise a plurality of second vertical rods, a plurality of cross rods and a top connecting rod, the plurality of second vertical rods are arranged between the top surface of the bottom floating cabin and the bottom surface of the first cabin body, and arranged along the length direction of the bottom floating cabin, the cross rods are connected between two adjacent second vertical rods, the top connecting rods are respectively connected with the upper ends of the second vertical rods, the middle supporting mechanism comprises a plurality of middle upright columns, the middle upright columns are arranged between the top surface of the bottom floating cabin and the bottom surface of the first cabin body, the middle upright post and the second vertical rods at two sides are connected with an inclined beam, one end of the inclined beam is connected to the upper end of the middle upright post, and the other end of the inclined beam is connected to the upper position in the second vertical rod;

the bottom floating cabin is provided with a support component, the support component comprises two groups of third support mechanisms positioned at two sides of the top surface of the deck and a middle support structure positioned in the middle of the top surface of the deck, the third support mechanisms comprise a plurality of third vertical rods, a plurality of cross support rods and upper end connecting rods, the plurality of third vertical rods are arranged between the top surface of the deck and the bottom surface of the top plate, and arranged along the length direction of the deck, the cross support rods are connected between two adjacent third vertical rods, the upper end connecting rods are respectively connected with the upper ends of the plurality of third vertical rods, the middle support structure comprises a plurality of middle upright columns, the plurality of middle upright columns are arranged between the top surface of the deck and the bottom surface of the top plate, and the inclined supporting beams are arranged along the length direction of the deck, an inclined supporting beam is connected between the middle upright post and the third vertical rods at the two sides, one end of each inclined supporting beam is connected to the upper end of the middle upright post, and the other end of each inclined supporting beam is connected to the middle upper position of the third vertical rod.

6. A marine economic platform according to any one of claims 1 to 4, wherein: the floating barrel is characterized in that an upper end opening of the floating barrel is formed with an upward convex opening edge, a hole for the opening edge to pass through is formed in the deck, the floating barrel further comprises a locking cover which is arranged above the deck and detachably matched with the opening edge, and the locking cover is provided with an inlet and a cover plate capable of sealing the inlet.

7. A marine economic platform according to any one of claims 1 to 4, wherein: and a pressure reducing gap is formed between every two adjacent floating barrels at intervals.

8. A marine economic platform according to any one of claims 1 to 4, wherein: the middle part of the bottom surface of the floating barrel is upwards sunken in an arc shape.

9. A marine economic platform according to any one of claims 1 to 4, wherein: the anchoring device is connected to the bottom of the top corner of the deck.

10. A marine economic platform according to any one of claims 1 to 4, wherein: also comprises a culture net arranged below the deck.

11. A marine economic platform according to any one of claims 1 to 4, wherein: the bottom floating cabin comprises a top plate and side plates, the top plate and the deck are arranged oppositely in parallel at intervals, the side plates are connected between the top plate and the deck, and the deck and the side plates are integrally formed.

12. A marine economic platform according to claim 4, wherein: the solar energy helicopter cabin is characterized by further comprising a second cabin body which is arranged at the top of the first cabin body and extends along the length direction of the first cabin body, the second cabin body is provided with a helicopter shutdown platform which is located above the second platform plate, a solar cell panel is arranged at the top of the second cabin body, and rainwater collecting tanks are formed in two sides of the top of the second cabin body.

13. A marine economic platform according to any one of claims 1 to 4, wherein: the cage is connected with the V-shaped main body through a plurality of pull rods arranged along the length direction of the cage, one end of each pull rod is hinged with the cage, and the other end of each pull rod is hinged with the V-shaped main body.

14. A marine economic platform according to any one of claims 1 to 4, wherein: the anchoring mechanism comprises two hanging rings, an anchor body and two pull ropes, the two hanging rings are symmetrically arranged on the outer sides of the two linear wing plates of the deck, the two pull ropes are respectively connected between the anchor body and the two hanging rings, the distance between the hanging rings and the top angle of the deck is one third of the length of the linear wing plates, and the length of the pull ropes is set to enable the anchor body to be positioned under the C tip of the V-shaped main body.

Images