CN210027830U - Marine fishing ground - Google Patents

Abstract

The utility model provides a marine fishing ground, the fishing ground includes: the net cage is used for fish culture, and a supporting platform is arranged above the net cage; the bracket is arranged on the supporting platform; the superstructure is detachably connected with the support, a propulsion system and a course control system are installed in the superstructure, and the superstructure is controlled to move through the propulsion system and the course control system after being detached from the support; therefore, the superstructure can be separated from the net cage when the typhoon weather comes because the superstructure is detachably connected with the bracket; and because the superstructure is provided with a propulsion system and a course control system, the propulsion system and the course control system can be used for driving the superstructure to enter the harbor to avoid typhoons, thereby preventing the superstructure of a fishing ground from being damaged and further reducing the operation cost of the fishing ground.

Description

Marine fishing ground

Technical Field

The utility model relates to a marine fishery breeding technology field especially relates to a marine fishery.

Background

In order to develop abundant marine resources, more and more offshore fisheries are provided at present.

As is known, in areas with a lot of typhoons, stormy weather caused by typhoons can cause sea surface billow, so that the safety of offshore structures is seriously threatened, and when the typhoons come temporarily, offshore fisheries are difficult to be avoided. The fishing ground superstructure is used as a core structure of the marine fishing ground, provides functions of energy power supply, information communication, personnel living and the like for the fishing ground, and is usually subjected to huge loss in typhoon weather, so that the operation cost of the fishing ground is increased to a great extent.

SUMMERY OF THE UTILITY MODEL

Problem to prior art existence, the embodiment of the utility model provides a marine fishing ground for solve prior art, when typhoon weather, fishing ground superstructure suffers the technical problem that the damage leads to the increase of fishing ground operation cost.

The utility model provides a marine fishing ground, the fishing ground includes:

the net cage is used for fish culture, and a supporting platform is arranged above the net cage;

the bracket is arranged on the supporting platform;

the superstructure is detachably connected with the support, a propulsion system and a course control system are installed in the superstructure, and the superstructure is controlled to move through the propulsion system and the course control system after being detached from the support.

In the above scheme, the fishing ground further comprises:

and the positioning component is arranged on one side of the bracket.

In the above scheme, a plurality of buckles are installed to superstructure's one end, the buckle with the support can be dismantled and be connected.

In the above aspect, the bracket includes: a first bracket and a second bracket;

the first bracket is arranged on one side of the supporting platform;

the second bracket is mounted on the other side of the support platform.

In the above aspect, the positioning member includes: a first positioning column and a second positioning column;

the first positioning column is arranged on the supporting platform and is positioned on one side of the first bracket;

the second positioning column is arranged on the supporting platform and is positioned on one side of the second support.

In the above scheme, the superstructure is of a ship-shaped structure.

In the scheme, the superstructure is provided with a control platform.

In the above-mentioned scheme, the box with a net includes:

a column;

the support rods are arranged among the upright columns;

a fishing net laid around the inner side of the upright post;

and the buoyancy component is arranged below the upright post.

In the above scheme, the upright post is of a hollow structure.

In the above scheme, the buoyancy member includes a buoy and a buoyancy tank.

The utility model provides a marine fishing ground, the fishing ground includes: the net cage is used for fish culture, and a supporting platform is arranged above the net cage; the bracket is arranged on the supporting platform; the superstructure is detachably connected with the support, a propulsion system and a course control system are installed in the superstructure, and the superstructure is controlled to move through the propulsion system and the course control system after being detached from the support; therefore, the superstructure can be separated from the net cage when the typhoon weather comes because the superstructure is detachably connected with the bracket; and because the superstructure is provided with a propulsion system and a course control system, the propulsion system and the course control system can be used for driving the superstructure to enter the harbor to avoid typhoons, thereby preventing the superstructure of a fishing ground from being damaged and further reducing the operation cost of the fishing ground.

Drawings

FIG. 1 is a schematic view of the overall structure of a marine fishing ground according to an embodiment of the present invention;

FIG. 2 is a top view of a marine fishing ground according to an embodiment of the present invention;

fig. 3 is a partial schematic view of a marine fishing ground according to an embodiment of the present invention.

Description of reference numerals:

1-a net cage; 2-a support platform; 3-superstructure; 4-a scaffold; 41-a first scaffold; 42-a second stent; 5-a positioning member; 51-a first positioning column; 52-second location post.

Detailed Description

In order to solve prior art, when typhoon weather, the fishing ground superstructure suffers the technical problem who damages and lead to the increase of fishing ground operation cost, the utility model provides a marine fishing ground, the fishing ground includes: the net cage is used for fish culture, and a supporting platform is arranged above the net cage; the bracket is arranged on the supporting platform; the superstructure is detachably connected with the support, a propulsion system and a course control system are installed in the superstructure, and the superstructure is controlled to move through the propulsion system and the course control system after being detached from the support.

The technical solution of the present invention is further described in detail with reference to the accompanying drawings and specific embodiments.

The present embodiment provides a marine fishing ground, as shown in fig. 1, the fishing ground including: the system comprises a net cage 1, a supporting platform 2, an superstructure 3 and a support 4; wherein the content of the first and second substances,

the net cage 1 is used for fish culture and is generally of a steel structure; the mesh cage 1 in this embodiment is a hexagonal mesh cage, and referring to fig. 2, the mesh cage 1 includes:

the upright columns are of hollow steel structures and are used for protecting the fishing net;

the support rods are arranged among the upright columns;

the pillar is arranged in the center of the net cage and is parallel to the upright post;

a first cross bar 21 mounted on the top of the post;

the second cross bar 22 is arranged at the top of the strut, and the first cross bar 21 and the second cross bar 22 can form an included angle with any angle;

a fishing net 23 laid around the inner side of the upright post;

the top of the first movable fishing net is arranged on a first cross rod 21, the bottom of the first movable fishing net is arranged on a third cross rod on the bottom of the net cage 1, and the first cross rod 21 is parallel to the third cross rod;

and the top of the second movable fishing net is arranged on a second cross rod 22, the bottom of the second movable fishing net is arranged on a fourth cross rod arranged at the bottom of the net cage 1, and the second cross rod 22 is parallel to the fourth cross rod.

And the buoyancy component is arranged below the upright post.

Here, the buoyant member includes: the main function of the buoy and the buoyancy tank is to provide corresponding buoyancy for the net cage 1 by controlling the ballast water amount in the buoy and the buoyancy tank, so that various draft states are realized. As shown in fig. 1, the draft state includes three types: A. resistance to table draught; B. working draught; C. and (5) overhauling and drinking.

Supporting platform 2 is installed to the top of box with a net 1, and supporting platform 2's one end is oval structure, and the other end is the rectangle structure. A support is arranged on the supporting platform 2, and the superstructure 3 is detachably connected with the support; wherein the bracket 4 is fixed on the support platform 2 by a plurality of screws.

With continued reference to fig. 1, the bracket 4 includes: a first bracket 41 and a second bracket 42;

the first bracket 41 is arranged on one side of the supporting platform 2;

the second bracket 42 is mounted on the other side of the support platform 2.

In order to be connected with the upper building 3 in a detachable mode, a plurality of buckles are installed at one end (generally installed at the head end) of the upper building 3, an intelligent control platform is further arranged in the upper building 3 and can control the buckles to be opened or closed automatically, when the upper building 3 needs to be connected with the support, the plurality of buckles are controlled to be opened automatically to buckle the support, then the plurality of buckles are controlled to be closed and self-locking is achieved, and stability in connection is guaranteed.

Here, the superstructure 3 is used for providing energy power supply for the net cage 1, controlling the lifting of the net cage 1, storing materials, communicating information, living people and the like.

In order to prevent the superstructure from being damaged when a typhoon comes, the superstructure 3 can enter a harbor and avoid a platform, and a propulsion system and a heading control system are also installed in the superstructure 3. After the superstructure 3 is detached from the support, the propulsion system and the course control system can be used for controlling the superstructure to move into a port to avoid typhoons.

In practice, the superstructure 3 may be a ship-type structure, which may also be understood as a ship.

As an alternative embodiment, when the superstructure 3 is driven back to the deep sea after typhoon, in order to improve the connection efficiency when connected with the supporting platform 2, referring to fig. 1, the fishing ground further comprises: and the positioning part 5 is arranged on one side of the support, and the positioning part 5 can be a positioning column.

Specifically, referring to fig. 3, the positioning member 5 includes: a first positioning post 51 and a second positioning post 52;

the first positioning column 51 is installed on the supporting platform 2, and the first positioning column 51 is located at one side (specifically, the outer side) of the first bracket 41; the second positioning column 52 is installed on the supporting platform 2, and the second positioning column is located at one side (specifically, the outer side) of the second support 42.

Here, in order to realize intelligent fish culture, a plurality of sensors, a plurality of biological light sources, monitoring equipment and the like are arranged on the net cage 1, and the equipment is communicated with the control platform in a wired or wireless communication mode, so that a user can monitor the state of the underwater net cage in real time.

When some equipment communicates with the control platform by wire, the communication lines may be disposed within the hollow upright.

Of course, the intelligent control platform in the superstructure 3 can also control the feeding device to automatically feed fish, and the first movable fishing net and the second movable fishing net of the net cage 1 are controlled to rotate, so that the first movable fishing net and the second movable fishing net rotate to drive fish groups and achieve the aim of fishing.

In practical application, when no typhoon weather exists, the superstructure 3 is connected with the net cage 1 through the bracket, and the state of fish shoals in the net cage 1 is monitored. When the typhoon weather comes, firstly, the net cage 1 is controlled to submerge below the sea surface, then the buckle is controlled to be opened, so that the superstructure 3 is separated from the net cage 1, and the ship is driven away from the net cage 1 by using the propulsion system and the course control system to enter a harbor and avoid a platform. When the weather of typhoon is over, the net cage 1 is approached, the position connected with the net cage 1 is determined according to the positioning part exposed out of the sea surface, and after the net cage is connected to the bracket, the control card is buckled and closed to realize self-locking, so that the net cage 1 can be continuously monitored and controlled.

The embodiment of the utility model provides a beneficial effect that marine fishing ground can bring is at least:

the utility model provides a marine fishing ground, the fishing ground includes: the net cage is used for fish culture, and a supporting platform is arranged above the net cage; the bracket is arranged on the supporting platform; the superstructure is detachably connected with the bracket, and a propulsion system and a course control system are installed in the superstructure; therefore, the superstructure can be separated from the net cage when the typhoon weather comes because the superstructure is detachably connected with the bracket; and because the superstructure is provided with a propulsion system and a course control system, the propulsion system and the course control system can be used for driving the superstructure to enter the harbor to avoid typhoons, thereby preventing the superstructure of a fishing ground from being damaged and further reducing the operation cost of the fishing ground.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and should not be taken as limiting the scope of the present invention, and any modifications, equivalent replacements, and improvements made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims (10)

1. A marine fishing ground, characterized in that it comprises:

the net cage is used for fish culture, and a supporting platform is arranged above the net cage;

the bracket is arranged on the supporting platform;

the superstructure is detachably connected with the support, a propulsion system and a course control system are installed in the superstructure, and the superstructure is controlled to move through the propulsion system and the course control system after being detached from the support.

2. The fishing ground of claim 1, further comprising:

and the positioning component is arranged on one side of the bracket.

3. The fishing ground according to claim 1, wherein a plurality of buckles are installed at one end of the superstructure, and the buckles are detachably connected with the bracket.

4. The fishing ground of claim 1, wherein said bracket comprises: a first bracket and a second bracket;

the first bracket is arranged on one side of the supporting platform;

the second bracket is mounted on the other side of the support platform.

5. The fishing ground of claim 2, wherein said positioning member comprises: a first positioning column and a second positioning column;

the first positioning column is arranged on the supporting platform and is positioned on one side of the first bracket;

the second positioning column is arranged on the supporting platform and is positioned on one side of the second support.

6. The fishing ground of claim 1, wherein said superstructure is of boat-type construction.

7. The fishing ground of claim 1, wherein a control platform is provided in said superstructure.

8. The fishing ground of claim 1, wherein said net cage comprises:

a column;

the support rods are arranged among the upright columns;

a fishing net laid around the inner side of the upright post;

and the buoyancy component is arranged below the upright post.

9. The fishing ground of claim 8, wherein said post is of hollow construction.

10. The fishing ground of claim 8, wherein said buoyant member comprises a pontoon and a pontoon.

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