CN211731751U - Float bowl - Google Patents

Abstract

The utility model relates to the technical field of fishery, in particular to a buoy, which comprises a hollow plastic buoy body which is composed of a top wall and four side walls and has an opening at one end; the concave-convex structure arranged on the side wall of the buoy body improves the meshing depth between the adjacent buoys, and avoids the problem that the buoys scatter when the connecting pieces fall off from the connecting holes due to continuous swing of the buoys in the case of large waves, thereby influencing the normal use of the overwater platform; due to the matched arrangement of the concave-convex structure on the side wall of the buoy body, the structure of the buoy is simplified, the installation process of the buoy is also simplified, and the use cost of the buoy is reduced; when the side wall or the top wall of the buoy is damaged and breaks, the internal space is divided into a plurality of mutually independent small spaces, so that the buoyancy is not influenced completely, the buoy can keep floating on the water surface, the phenomenon that the buoy loses the function of floating on the water surface is avoided, and the purpose of reducing the buoyancy loss of the buoy is achieved.

Description

Float bowl

Technical Field

The utility model relates to a fishery technical field, concretely relates to flotation pontoon.

Background

The buoy is a hollow structure capable of floating on the water surface and is widely applied to the fields of deep-water culture, docks, floating bridges, water paradises, water swimming pools and the like. At present, most of the buoys are hollow plastic products made of tough high-molecular polyethylene materials, the corners of the four buoys are generally in a circular arc obtuse angle shape, connecting lugs are arranged on the four corners of the four buoys respectively, and the buoys are connected into a whole through connecting bolts inserted in the connecting lugs.

Since the buoys are mainly arranged in lakes or on the sea and exposed outdoors, the annular side portions of the buoys arranged at the periphery are easily broken and damaged by exposure to burning sun for a long time, so that external water penetrates into the closed space of the buoys through the broken portions, the buoyancy of the buoys is reduced, and the buoys lose the function of floating on the water surface. In addition, the damage of the buoy is not only caused by the long-term radiation of burning sun, but also caused by the collision of foreign objects, the collision during assembly or the poor forming of the buoy, and no matter what causes the damage of the buoy, once the external water enters the closed space of the buoy, the buoyancy of the buoy is reduced, so that the buoy group loses the function of floating on the water surface.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model aims to solve the technical problems that: provided is a buoy which is convenient to connect and effectively prevents buoyancy loss.

In order to solve the technical problem, the utility model discloses a technical scheme be: a buoy comprises a hollow plastic buoy body which is formed by a top wall and four side walls and is provided with an opening at one end;

a honeycomb partition plate is arranged in a space formed by the top wall and the four side walls, and divides the inner space of the plastic buoy body into a plurality of mutually independent smaller spaces;

four all be provided with the engaging lug on the lateral surface of lateral wall, the lateral surface of lateral wall runs through to be provided with the concave part that is used for holding the engaging lug, and different lateral walls form a difference in height between the engaging lug, the difference in height does the multiple of the thickness of engaging lug, be provided with the connecting piece male connecting hole that is used for supplying to connect adjacent flotation pontoon on the engaging lug.

The connecting lugs of the side walls are multiple and even in arrangement.

The connecting lugs arranged on each side wall are two, and the two connecting lugs are connected with each other and arranged on each side wall.

The side walls are provided with concave-convex structures which are communicated up and down, and the concave-convex structures of the opposite side walls of each buoy are matched with each other.

The connecting hole is provided with an anti-rotation structure for preventing a connecting piece inserted between the connecting hole and the connecting hole from rotating, and the anti-rotation structure is symmetrically arranged grooves.

Wherein, be provided with anti-skidding structure piece on the top surface of roof.

The beneficial effects of the utility model reside in that: the concave-convex structure arranged on the side wall of the buoy body improves the meshing depth between the adjacent buoys, and avoids the problem that the buoys scatter when the connecting pieces fall off from the connecting holes due to continuous swing of the buoys in the case of large waves, thereby influencing the normal use of the overwater platform; due to the matched arrangement of the concave-convex structure on the side wall of the buoy body, the structure of the buoy is simplified, the installation process of the buoy is also simplified, and the use cost of the buoy is reduced; when the side wall or the top wall of the buoy is damaged and breaks, the internal space is divided into a plurality of mutually independent small spaces, so that the buoyancy is not influenced completely, the buoy can keep floating on the water surface, the phenomenon that the buoy loses the function of floating on the water surface is avoided, and the purpose of reducing the buoyancy loss of the buoy is achieved.

Drawings

FIG. 1 is a schematic structural view of a buoy according to an embodiment of the present invention;

FIG. 2 is a schematic view of a honeycomb partition of the embodiment of the present invention;

description of reference numerals:

1. a top wall; 11. an anti-skid structure block; 2. a side wall; 21. connecting lugs; 3. a honeycomb separator.

Detailed Description

In order to explain the technical content, the objects and the effects of the present invention in detail, the following description is made with reference to the accompanying drawings in combination with the embodiments.

Referring to fig. 1 and 2, the float of the present invention includes a hollow plastic float body having an open end and formed by a top wall 1 and four side walls 2;

a honeycomb partition plate 3 is arranged in a space formed by the top wall 1 and the four side walls 2, and the honeycomb partition plate 3 divides the inner space of the plastic buoy body into a plurality of mutually independent small spaces;

four all be provided with engaging lug 21 on the lateral surface of lateral wall 2, the lateral surface of lateral wall 2 runs through to be provided with the concave part that is used for holding engaging lug 21, and different lateral walls 2 form a difference in height between the engaging lug 21, the difference in height does the multiple of the thickness of engaging lug 21, be provided with the connecting hole that is used for supplying to connect the connecting piece male of adjacent flotation pontoon on the engaging lug 21.

As can be seen from the above description, the utility model has the advantages that: the concave-convex structure arranged on the side wall of the buoy body improves the meshing depth between the adjacent buoys, and avoids the problem that the buoys scatter when the connecting pieces fall off from the connecting holes due to continuous swing of the buoys in the case of large waves, thereby influencing the normal use of the overwater platform; due to the matched arrangement of the concave-convex structure on the side wall of the buoy body, the structure of the buoy is simplified, the installation process of the buoy is also simplified, and the use cost of the buoy is reduced; when the side wall or the top wall of the buoy is damaged and breaks, the internal space is divided into a plurality of mutually independent small spaces, so that the buoyancy is not influenced completely, the buoy can keep floating on the water surface, the phenomenon that the buoy loses the function of floating on the water surface is avoided, and the purpose of reducing the buoyancy loss of the buoy is achieved.

Furthermore, four engaging lugs 21 of lateral wall 2 are a plurality of, and are a plurality of engaging lugs 21 evenly sets up.

Furthermore, two connecting lugs 21 are arranged on each side wall 2, and the two connecting lugs 21 are connected with each side wall 2.

Furthermore, the side wall 2 is provided with a concave-convex structure which is communicated up and down, and the concave-convex structure of each buoy is matched with the concave-convex structure of the side wall 2.

Furthermore, the connecting holes are provided with anti-rotation structures used for preventing the connecting pieces inserted between the connecting holes from rotating, and the anti-rotation structures are symmetrically arranged grooves.

Further, an anti-skid structure block 11 is arranged on the top surface of the top wall 1.

Referring to fig. 1 and fig. 2, a first embodiment of the present invention is:

a buoy comprises a hollow plastic buoy body which is composed of a top wall 1 and four side walls 2 and is provided with an opening at one end;

a honeycomb partition plate 3 is arranged in a space formed by the top wall 1 and the four side walls 2, and the honeycomb partition plate 3 divides the inner space of the plastic buoy body into a plurality of mutually independent small spaces;

the outer side surfaces of the four side walls 2 are respectively provided with a connecting lug 21, the outer side surfaces of the side walls 2 are provided with a concave part for accommodating the connecting lugs 21 in a penetrating manner, a height difference is formed among the connecting lugs 21 of different side walls 2, the height difference is a multiple of the thickness of the connecting lugs 21, and the connecting lugs 21 are provided with connecting holes for inserting connecting pieces for connecting adjacent buoys;

the number of the connecting lugs 21 of the four side walls 2 is multiple, and the connecting lugs 21 are uniformly arranged;

two connecting lugs 21 are arranged on each side wall 2, and the two connecting lugs 21 are connected with each side wall 2;

the side walls 2 are provided with concave-convex structures which are communicated up and down, and the concave-convex structures of the side walls 2 of each buoy are matched;

the connecting holes are provided with anti-rotation structures used for preventing connecting pieces inserted between the connecting holes from rotating, and the anti-rotation structures are symmetrically arranged grooves;

an anti-skid structure block 11 is arranged on the top surface of the top wall 1.

In summary, the concave-convex structure arranged on the side wall of the buoy body of the buoy provided by the utility model improves the meshing depth between the adjacent buoys, and avoids the problem that the buoys scatter when the connecting piece falls off from the connecting hole due to the continuous swing of the buoys when the waves are large, thereby influencing the normal use of the overwater platform; due to the matched arrangement of the concave-convex structure on the side wall of the buoy body, the structure of the buoy is simplified, the installation process of the buoy is also simplified, and the use cost of the buoy is reduced; when the side wall or the top wall of the buoy is damaged and breaks, the internal space is divided into a plurality of mutually independent small spaces, so that the buoyancy is not influenced completely, the buoy can keep floating on the water surface, the phenomenon that the buoy loses the function of floating on the water surface is avoided, and the purpose of reducing the buoyancy loss of the buoy is achieved.

The above mentioned is only the embodiment of the present invention, and not the limitation of the patent scope of the present invention, all the equivalent transformations made by the contents of the specification and the drawings, or the direct or indirect application in the related technical field, are included in the patent protection scope of the present invention.

Claims (6)

1. A buoy is characterized by comprising a hollow plastic buoy body which is formed by a top wall and four side walls and is provided with an opening at one end;

a honeycomb partition plate is arranged in a space formed by the top wall and the four side walls, and divides the inner space of the plastic buoy body into a plurality of mutually independent spaces;

four all be provided with the engaging lug on the lateral surface of lateral wall, the lateral surface of lateral wall runs through to be provided with the concave part that is used for holding the engaging lug, and different lateral walls form a difference in height between the engaging lug, the difference in height does the multiple of the thickness of engaging lug, be provided with the connecting piece male connecting hole that is used for supplying to connect adjacent flotation pontoon on the engaging lug.

2. The float of claim 1, wherein there are a plurality of lugs on each of said four sidewalls, and a plurality of said lugs are disposed uniformly.

3. The float of claim 1, wherein there are two said lugs disposed on each of said sidewalls, two of said lugs being disposed adjacent to each of said sidewalls.

4. The float of claim 1, wherein said sidewalls have a relief structure extending therethrough, and wherein said relief structure of each of said opposing sidewalls of said float cooperate with each other.

5. The float of claim 1, wherein the connection holes are provided with rotation preventing structures for preventing rotation of the connecting members interposed therebetween, and the rotation preventing structures are symmetrically arranged grooves.

6. The spar of claim 1, wherein the top surface of the top wall is provided with a non-slip structural block.

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