KR20190030991A - A Float - Google Patents

Abstract

The present invention relates to a float. More particularly, the present invention relates to a float preventing deformation and breakage of a buoyant body. The float of the present invention comprises: a buoyant body having buoyancy to be floated on water; a connection support unit installed on the buoyant body; a coating layer for preventing inflow of moisture and deterioration outside the buoyant body; and first and second cap units having at least one side of which is coupled to the connection support unit by a coupling unit to press the buoyant body in mutually opposite direction s at opposite ends of the buoyant body, and having at least one ring portion.

Description

A Float

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a buoy, and more particularly, to a buoy preventing deformation and breakage of the buoyant body.

A buoy is also called a buoy, and it is installed for marine fisheries such as various farms, fishery markings, net markings and for the safe navigation of the ship.

The buoyant body which imparts buoyancy to float the buoy is required to have a large buoyancy and is made of a foamed synthetic resin having a large volume per unit weight.

However, when the buoyant body made of synthetic resin is continuously exposed to the climatic environment, deterioration such as deterioration such as photo-thermal degradation caused by ultraviolet rays or oxidative deterioration caused by oxygen in the air, and moisture due to external forces such as waves, The buoyant body may be infiltrated into the interior of the body and deformed or broken.

Deformation and breakage of the buoyant body not only lowers the floating ability of the buoy, but also causes environmental pollution problem.

 Accordingly, Korean Patent No. 10-1472284 discloses a coating unit for cage aquaculture in the environmentally friendly rich man and its manufacturing method, Korean Utility Model No. 20-2013-0000861.

However, in the case of coating using a coating liquid, since the floating body is fixed by the jig, the coating is not applied to the portion where the jig is located. Further, in the case of a film, a separation occurs at a portion where the film is superimposed.

The uncoated portion and the portion where the film is superimposed are exposed to the climatic environment to deteriorate the buoyant body, and the moisture permeates into the buoyant body due to the wave or the like, so that the buoyant body may still be deformed and damaged .

Korean Patent No. 10-1472284 Korean Utility Model Publication No. 20-2013-0000861

SUMMARY OF THE INVENTION It is an object of the present invention to improve the sealing ability of a coating layer and to prevent deformation and damage of the floating body due to deterioration and external force.

According to an aspect of the present invention, there is provided a buoyancy structure comprising: a buoyant body having a floating buoyancy; A connection support portion provided on the buoyant body; A coating layer for preventing inflow and deterioration of moisture outside the buoyant body; And at least one capped portion coupled to the connection support by the coupling unit to press the buoyant body in mutually opposite directions at opposite ends of the buoyant body and having at least one annular portion.

Preferably, the buoyant body is made of at least one material selected from foamed polyurethane, foamed polystyrene, foamed polyethene, foamed polypropylene, EVA crosslinked foam, PET foam, and silicone foam.

Wherein the first and second cap portions are integrally formed with the annular portion, and the coupling unit includes at least one of the first cap portion and the second cap portion and includes a threaded engagement protrusion, And can be provided with a screw-engageable engaging portion.

Alternatively, at least one of the hooks is coupled by the first and second cap portions and the coupling unit, and the loop portion is provided with a loop body which is in contact with the first and second cap portions and a loop formed at one end of the loop body, The coupling unit has a coupling protrusion formed at one end of the ring body of the ring and formed with a thread, and at least one of the first cap and the second cap is formed with a ring coupling groove to fit the ring body, The coupling cap is formed in a first cap portion or a second cap portion having a coupling groove formed therein so that the coupling protrusion of the ring body can be inserted therethrough and is screwable with the coupling protrusion. .

Preferably, the connection supporting portion is provided with concave and convex portions on the outer circumferential surface to increase the adhesion force with the buoyant body.

The buoy according to the present invention improves the sealing force of the coating layer to prevent deterioration of the buoyant body and moisture penetration into the buoyant body.

In addition, the first and second cap portions and the connection support portion fix the buoyant body at both ends of the buoyant body to prevent the buoyant body from being deformed by the external environment.

FIG. 1 is a perspective view showing a portion according to a first embodiment of the present invention, FIG.
Fig. 2 is an exploded perspective view of the sub-assembly shown in Fig. 1,
Fig. 3 is a front view showing a state in which the unit shown in Fig. 1 is installed on the sea surface; Fig.
FIGS. 4 to 6 are exploded perspective views showing the second and third embodiments of the present invention,
FIGS. 7 to 8 are perspective views showing the ports according to the fifth to sixth embodiments of the present invention. FIG.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 to 3 show a first embodiment of the mouthpiece 1 of the present invention. 1 to 3, the auxiliary port 1 of the present invention includes a buoyant body 10 having buoyancy floating on the water, a coating layer (not shown) for preventing deterioration of the buoyancy body 10 and blocking the inflow of water And a connecting unit 60 connected to the buoyant body 10 by a coupling unit 70 to press the buoyant body 10 from both ends of the buoyant body 10, 2 cap parts (30) and (50).

The buoyant body 10 is provided in a size that can be used as a bucket and is made of a foamable material such as foamed polyurethane, foamed polystyrene, foamed polyethene, foamed polypropylene, EVA crosslinked foam, PET foam, silicone foam, Is made of at least one material selected from large effervescent synthetic resins.

The buoyant body 10 may be provided in various shapes such as a spherical shape and a cylindrical shape as needed, and a hollow portion 14 penetrating the inside of the buoyant body 10 is formed.

The hollow portion 14 may be provided in plurality according to the shape of the buoyant body 10.

The coating layer 12 is formed on the outer side of the buoyant body 10 and is made of a material such as polypropylene, polyethylene, polyurea or the like that prevents deterioration of the buoyant body and prevents moisture from penetrating into the buoyant body 10 do

The coating layer 12 is formed in such a manner that it is fused to the buoyant body 10 in the form of a film or is applied in the form of a coating liquid.

The first and second cap parts 30 and 50 may be formed by coating a portion of the coating layer 12 that is formed when the film is fused or an uncoated portion A, 10, respectively.

The first and second cap parts 30 and 50 are preferably disk-shaped as shown in the drawing, but may be variously formed according to the size and shape of the buoyant body 10 and the coating state of the coating layer 12.

 It is preferable that the first and second cap parts 30 and 50 are sized to completely cover the unfused portion of the film or the uncoated portion A due to the jig generated when applying the coating solution.

The first and second cap portions 30 and 50 are connected to each other by a connection support portion 60 and further include a ring portion 40.

The ring 40 may be connected to a rope R of a net for seaweed culture,

The ring 40 may be optionally provided on at least one surface of each of the first and second cap portions 30 and 50 depending on the method of using the port.

One side of the first and second cap portions 30 and 50 is formed with first and second buoyant body contact surfaces 30b and 50b which are in contact with one end of the buoyant body and are connected to the connection support portion, The first and second annular surfaces 30a and 50a having the first and second annular surfaces 30a and 50a.

The first and second cap portions 30 and 50 are formed integrally with the ring portion 40.

The connection support portion 60 is preferably provided along the longitudinal direction of the hollow portion 14 of the buoyant body 10 with a circular rod having a circular section and may be provided with a plurality of hollow portions 14 of the buoyant body 10 And may be provided in plurality.

Both ends of the connection supporting portion 60 are respectively coupled to the first and second cap portions 30 and 50 provided at both ends of the buoyant body 10 by the coupling unit 70a.

The connection support portion 60 may be formed in a tubular shape having a hollow portion according to the coupling unit 70a.

The connection supporting portion 60 is preferably provided on the outer circumferential surface with an unevenness 61 to increase the adhesion with the buoyant body 10 and the strength of the buoyant body 10 is increased by being installed inside the buoyant body 10 The giver plays a role.

The coupling unit 70 includes a coupling protrusion 70b formed to protrude from the first and second buoyant body contact surfaces 30b and 50b of the first and second cap portions 30 and 50 and formed with a thread, And a coupling portion 70a which is formed on the coupling projection 71 and can be engaged with the coupling projection 71. [

The first and second cap portions 30 and 50 provided at both ends of the buoyant body 10 can be separated from the first and second cap portions 30 and 50 by the engagement portion 70a and the engagement projection portion 70b, And presses the buoyant body in directions opposite to each other.

Accordingly, the first and second cap portions 30 and 50 can completely seal the fused portion A of the film or the uncoated portion B due to the jig generated when applying the coating liquid, It is possible to prevent deterioration or a phenomenon in which moisture permeates, thereby preventing the buoyancy member from being deformed or damaged.

FIG. 4 shows a second embodiment of the present invention. Hereinafter, elements that perform the same functions as those in the above-described drawings are denoted by the same reference numerals.

Referring to FIG. 4, the coupling unit 73 of the present invention includes an engaging protrusion 73b which is tubularly protruded on the second buoyant body contact surface 50b and has threads formed therein, And a coupling portion 77 having a thread formed on the outer periphery of the connection support portion 62 having one end connected to the first bushing body contact surface 30a.

The coupling protrusions 73b are formed in the outer periphery of the coupling protrusions 73b so that the coupling protrusions 73b are formed so as to be threaded inside the coupling support portions 62 formed in a tubular shape, 73a to be threadedly engaged.

As the engaging portion 73a and the engaging projection 73b of the engaging unit 73 are screwed together, the first and second cap portions 30 and 50 are positioned at opposite ends of the buoyant body 10 It is possible to press the buoyant body 10 to prevent buoyancy body 10 from being deformed and damaged.

5 shows a third embodiment of the present invention.

5, the first and second cap portions 31 and 51 can be separated and combined by the coupling portion 75 as well as the ring portion 45 and the coupling portion 75. As shown in FIG.

When the first and second cap members 31 and 51 are separated and combined by the coupling unit 75, the first or second buoyant body contact surface 31a or 51b is provided with a ring An engaging groove 33 is formed. The first and second cap portions 31 and 51 having the annular groove 33 formed therein are formed with engagement holes 35 formed through the first and second cap portions 31 and 51.

It is preferable that the engaging hole 35 is formed through the center of the annular engaging groove 33 and the inner diameter of the engaging hole 35 is formed smaller than the inner diameter of the annular engaging groove 31. [

The engaging hole 35 is threaded on the inner diameter so as to be engaged with the engaging projection 75b to be described later.

The ring 45 is provided with a ring body 45a and a ring 45b formed at one end of the ring body 45a when being separated and coupled by the first and second cap portions 31 and 51 and the coupling unit 75, Respectively.

The hook main body 45a is provided in the first and second cap parts 31 and 51 so that water does not flow into the buoyant body through the coupling hole 35 when the hook part 45 is coupled to the first and second cap parts 31 and 51. [ (31) and (51), respectively.

The engaging protrusion 75b of the engaging unit 75 is formed protruding from the other end opposite to the one end of the annular body 45a formed with the ring 45b and formed with threads on the outer periphery. The coupling portion 75a is provided with threads formed along the inner periphery of the connection support portion 64 in which the hollow portion is formed.

The engaging protrusions 72 are screwed to the engaging holes 35 formed to penetrate the first and second cap portions 31 and 51 and are engaged with the first and second buoyant surfaces 31a and 51a, And is inserted in the direction of the contact surfaces 31b and 51b.

The engaging protrusion 75b is longer than the thickness of the first and second cap portions 31 and 51 so that the engaging protrusion 75b passes through the engaging hole 35 and is engaged with the engaging portion 75a provided in the connecting support portion 64, Respectively.

As the engaging portion 75a of the engaging unit 75 and the engaging projection 75b of the engaging unit 75 are screwed to each other, the first and second cap portions 31 and 51 at opposite ends of the buoyant body 10 The buoyant body 10 can be prevented from being deformed and damaged.

6 showing the fourth embodiment of the present invention, the coupling unit 77 of the present invention includes a tubular protruding portion at the second buoyant body contacting surface 57 of the second cap portion 50, A protruding portion 77b and a coupling portion 77a having a thread formed on the outer periphery of a connection supporting portion 66 having one end connected to the loop main body 45a of the loop 45.

The engaging protrusion 77a is screwed into the engaging hole 35 formed to penetrate the first cap portion 31 and inserted in the direction of the first buoyant body contacting surface 31b from the first annular bearing surface 31a.

As the engaging portion 77a of the engaging unit 77 and the engaging protrusion 77b are screwed together, the first and second cap portions 30 and 51 at both ends of the buoyant body 10 face each other The buoyant body 10 can be prevented from being deformed and damaged.

The coupling protrusions 77b are formed in the outer periphery of the coupling protrusions 77b so that the coupling protrusions 77b are formed in the coupling support portions 66 formed in a tubular shape, 77a to be threadedly engaged.

In the present invention, the first and second cap portions provided at both ends of the buoyant body are screwed by the coupling support unit and the coupling unit to press both ends of the buoyant body. Thus, it is possible to seal the unfused portion of the film generated at both ends of the buoyant body or the uncoated portion A due to the jig generated in the coating liquid, thereby preventing the buoyant body from being deteriorated or permeating moisture It is possible to prevent the buoyant body from being deformed or damaged.

FIGS. 7 to 8 illustrate the fifth to sixth embodiments of the present invention, respectively, and illustrate the present invention, which may be variously provided according to the shape of the buoyant body.

Referring to FIG. 7, when the width of the uncoated portion A due to the jig generated when applying the coating liquid or the spacing portion generated when the film is fused to the cylindrical buoyant body is wide, The first and second cap portions 34 and 54 of the buoyant body 10 may be provided at both ends of the buoyant body 10 so that both ends of the buoyant body can be inserted.

The first and second cap portions 34 and 54 completely cover the uncoated portion A where the coating layer 12 is not formed and widen the area in which the coating layer is brought into close contact with the buoyant body to increase the sealing force of the buoyant body .

8, the first and second cap portions 38 and 58 are formed so as to allow both ends of the spherical buoyant body 15 to be inserted from both sides of the buoyant body 15, And has a curved inner space corresponding to the outer shape of the body 15.

The first and second cap portions 38 and 58 have a size enough to completely cover the uncoated portion A due to the jig generated when the film is applied to the fused portion of the film or the coating liquid and vary depending on the shape of the buoyant body and the method of forming the coating layer As shown in FIG.

The buoy according to the present invention improves the sealing force of the buoyant body and the coating layer so as to prevent deterioration of the buoyant body and permeation of moisture into the buoyant body.

Accordingly, it is possible to prevent deformation and breakage of the buoyant body due to deterioration and moisture infiltration, thereby providing a semi-permanent life span and to solve the environmental pollution problem caused by the buoyant body breakage.

In addition, the first and second cap parts and the connection support part fix the outer shape of the buoyant body at both ends of the buoyant body to prevent the buoyant body from being deformed by the external environment, and it is applicable to various buoyant bodies, It is very easy to install a rope or the like for aquaculture.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. will be. Accordingly, the true scope of protection of the present invention should be determined only by the technical idea of the appended claims.

1: Bucket 10: Buoyant body
12: Coating layer 30: First cap part
40: collar 50: second cap
60: connection support part 70: coupling unit

Claims (5)

A buoyant body having buoyancy floating in the water;
A connection support portion provided on the buoyant body;
A coating layer for preventing inflow and deterioration of moisture outside the buoyant body;
And first and second cap parts having at least one annular part and at least one side of which is engaged with the connection supporting part to press the buoyant body in mutually opposing directions at both ends of the buoyant body. The The method according to claim 1,
Characterized in that the buoyant body is made of at least one material selected from the group consisting of foamed polyurethane, expanded polystyrene, foamed polyethene, foamed polypropylene, EVA crosslinked foam, PET foam and silicone foam. The method according to claim 1,
Wherein the coupling unit comprises a coupling protrusion provided on at least one of the first cap portion and the second cap portion and formed with a thread and a coupling portion provided on the coupling support portion and capable of being screwed with the coupling protrusion. The method according to claim 1,
Wherein at least one of said hooks is engaged by said first and second cap portions and said coupling unit,
The ring portion is provided with a ring body which is in contact with the first and second cap portions and a ring formed at one end of the ring body,
Wherein the coupling unit has a coupling protrusion formed at one end of the ring body of the ring and formed with a thread, a ring coupling groove is formed in at least one of the first and second cap portions to fit the ring body, A coupling cap which is formed in the first cap portion or the second cap portion having the ring coupling groove to penetrate the coupling projection of the ring body and is screwable with the coupling projection, And a portion of the second portion. The method according to claim 1,
Wherein the connection supporting portion is formed with concave and convex portions on an outer circumferential surface of the connection supporting portion so as to increase the adhesion of the connection supporting portion to the buoyant body.

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