KR101853315B1 - ocean buoy using heat shrinkable synthetic resin absence and method of making the buoy - Google Patents

Abstract

The present invention relates to an ocean buoy using a heat shrinkable synthetic resin member and a manufacturing method thereof. The manufacturing method of the present invention comprises: a hollow main body preparing step of preparing a cylindrical hollow main body which has a predetermined diameter and both ends of which are open; a side cover mounting step of fixing a side cover having a disk shape to each of both end portions of the hollow main body to seal the hollow main body; a stacking step of stacking the heat shrinkable synthetic resin member on the outer surface of a resulting product finishing the side cover mounting step; and a heating step of applying heat to a resulting product finishing the stacking step to shrink the heat shrinkable synthetic resin member, thereby enabling the heat shrinkable synthetic resin member to adhere closely to the hollow main body and an edge portion of the side cover. The ocean buoy using the heat shrinkable synthetic resin member according to the present invention can be used as an ocean buoy which is environmentally friendly by forming the outer surface of the buoy with a polyethylene or polypropylene side cover and the heat shrinkable synthetic resin member, has reinforced durability, water resistance, insulation property and airtightness performance, prevents marine pollution and gives a hygienic function by the main body of the buoy, has further reinforced durability, water resistance, insulation property and airtightness performance of the buoy by the heat shrinkable synthetic resin member, has improved workability by manufacturing the buoy more easily, and obtains cost reduction by lightening weight of the buoy.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an ocean buoy using a heat-shrinkable synthetic resin member,

The present invention relates to buoys in which various aquaculture styles and installation locations are identified;

More specifically, the outer surface of the buoy is made of a polyethylene or polypropylene side cover and a heat-shrinkable synthetic resin member, and is eco-friendly. The body of the buoy is made of a polyethylene member or a polypropylene member in the form of a cylindrical pipe, And a hollow body which is a member selected from the group consisting of a vinyl chloride resin member, a fiber reinforced plastic member and a rubber member, thereby enhancing durability, water resistance, heat insulation and airtightness performance of buoys;

The buoy is prevented from being damaged due to the enhancement of the physical property performance, the buoy is broken by the influence of the conventional wave or wind, and the problem of the environmental waste caused by floating buoy pieces on the ocean is improved, Function;

The outer surface of the buoy is laminated with a heat-shrinkable casing, which is a heat-shrinkable synthetic resin member made of polyethylene or polypropylene, to further enhance durability, water resistance, heat insulation and airtightness performance of buoys;

The manufacturing is further facilitated, the workability is improved, the weight is reduced, and the cost is reduced; To a buoy for ocean using a heat-shrinkable synthetic resin member and a method for manufacturing the same.

There are various types of buoys that are essential for various aquaculture types. Of these, buoys made of foamed polystyrene (styrofoam) or blower-molded synthetic resin are the mainstream.

These buoys take the form of a cylinder and have grooves extending in the circumferential direction on the outer circumferential surface thereof so as to be able to surround the rope. However, in the case of buoys made of styrofoam, since the properties of the styrofoam itself are weak and broken, the rope-wrapped part easily breaks due to the influence of waves or winds, for example, when it is used for a long time.

In addition, broken buoys can no longer bind the ropes and are weakly buoyant, so they have to be discarded. Such waste buoys are not only polluting the environment but are also pushed to the shore by waves or winds, And the like.

In order to solve the above-mentioned problem, Korean Patent Registration No. 10-1624681 (side welding apparatus and method thereof) has been disclosed. In the conventional environmentally friendly buoy introduced in the above publication, the side cover is attached to both side portions of the styrofoam body, and the outer circumferential surface is covered with the heat shrinkable sheet to reinforce the strength of the styrofoam.

However, the above-mentioned conventional environmentally friendly buoy has a disadvantage that the side cover and the heat-shrinkable sheet are easily separated from each other unexpectedly. In manufacturing, the welding roller is used to weld as tightly as possible, but the welded portion is worn without being able to overcome the effects of continuous waves and wind during use.

When the fused portion is completely separated, the side cover is detached from the styrofoam body, and the styrofoam is intact. If the detached side cover is not immediately collected, it floats in the seawater or accumulates on the sea floor.

In addition, the styrofoam exposed to sea water is also slowly broken, and microscopic debris spreads around and greatly pollutes the seawater. The fine styrofoam pieces floating in the seawater are eaten by the fish, and as a result, humans suffer secondary damage.

Korean Patent Registration No. 10-1624681 (Side Welding Apparatus and Method of Eco Friendly Buoy)

The present invention has been made to solve the above problems,

In particular, the outer surface of the buoy is covered with a side cover made of polyethylene or polypropylene and a heat-shrinkable synthetic resin member so that it is environmentally friendly;

The main body of the buoy is composed of a polyethylene member in the form of a cylindrical pipe in which the inside of the body is hollow or a hollow body which is a member selected from a polypropylene member, a vinyl chloride resin member, a fiber reinforced plastic member and a rubber member. Water resistance, heat insulation and airtightness performance;

The buoy is prevented from being damaged due to the enhancement of the physical property performance, the buoy is broken by the influence of the conventional wave or wind, and the problem of the environmental waste caused by floating buoy pieces on the ocean is improved, A function is given;

The outer surface of the buoy is laminated with a heat-shrinkable casing, which is a heat-shrinkable synthetic resin member made of polyethylene or polypropylene, to further enhance durability, water resistance, heat insulation and airtightness performance of buoys;

The manufacturing is further facilitated, the workability is improved, the weight is reduced, and the cost is reduced; There is provided a buoy for marine use using a heat-shrinkable synthetic resin member and a method for manufacturing the same.

In order to accomplish the above object, the present invention provides a method for manufacturing a buoy for marine use using a heat-shrinkable synthetic resin member,

A hollow body preparing step of preparing a cylindrical hollow body having a predetermined diameter and both open ends; A side cover attaching step of closing the hollow main body by fixing the side covers taking the form of a disk to both end portions of the hollow main body; A lamination step of laminating the side cover mounting step on the outer side of the finished product using the heat shrinkable synthetic resin member; And a heating step of applying heat to the result of the laminating step to cause the heat-shrinkable synthetic resin member to shrink to come into close contact with the rim of the hollow main body and the side cover.

Or a solid body preparation step of preparing a solid body made of a foamed styrofoam having an outer circumferential surface having a predetermined diameter and both side surfaces being flat; A coating step of forming a polyurea coating film on an outer surface of the solid main body; A side cover mounting step for closely fixing the side covers taking the form of a disk to both side surfaces of the solid main body; A lamination step of laminating the side cover mounting step on the outer side of the finished product using the heat shrinkable synthetic resin member; And a heating step of applying heat to the result of the laminating step to cause the heat-shrinkable synthetic resin member to shrink to come into close contact with the rim of the solid body and the side cover.

Or a solid body preparation step of preparing a solid body made of a foamed styrofoam having an outer circumferential surface having a predetermined diameter and both side surfaces being flat; A coating step of forming a polyurea coating film on a side surface of the solid main body; A lamination step of laminating the polyurea coating film on the outside of a solid body made of a foamed styrofoam using a heat shrinkable synthetic resin member; And a heating step of applying heat to the result of the laminating step to cause the heat-shrinkable synthetic resin member to shrink to come into close contact with the rim of the solid body and the side cover.

In order to accomplish the above object, the present invention provides a buoy for marine use using a heat-shrinkable synthetic resin member,

A cylindrical hollow body having a diameter open at both ends; A side cover coupled to both ends of the hollow main body to seal the inner space of the hollow main body; And a heat shrinkable synthetic resin member contracted to cover the outer circumferential surface of the hollow main body and the rim of the side cover and closely contact with the hollow main body and the side cover.

Further, a styrofoam solid body having an outer circumferential surface of a predetermined diameter and both side surfaces being flat; A polyurea coating layer laminated on the outer surface of the solid body; A pair of side covers each of which is in tight contact with both side surfaces of the solid main body; And a heat shrinkable synthetic resin member contracted in a state of covering the outer circumferential surface of the solid main body and a part of the rim of the side cover and brought into close contact with the solid main body and the side cover.

Further, a styrofoam solid body having an outer circumferential surface of a predetermined diameter and both side surfaces being flat; A polyurea coating layer laminated on a side surface of the solid main body; And a heat shrinkable synthetic resin member which is laminated and contracted outside the solid body with the polyurea coating film formed thereon and brought into close contact with the solid body.

The buoy for ocean using the heat-shrinkable synthetic resin member and the method for manufacturing the same according to the present invention having the above-

Particularly, the outer surface of the buoy is composed of a side cover made of polyethylene or polypropylene and a heat-shrinkable synthetic resin member, so that an eco-friendly effect is obtained;

The main body of the buoy is composed of a polyethylene member in the form of a cylindrical pipe in which the inside of the body is hollow or a hollow body which is a member selected from a polypropylene member, a vinyl chloride resin member, a fiber reinforced plastic member and a rubber member. Water resistance, heat insulation and airtightness;

The buoy is prevented from being damaged due to the enhancement of the physical property performance, the buoy is broken by the influence of the conventional wave or wind, and the problem of the environmental waste caused by floating buoy pieces on the ocean is improved, An effect imparted with a function;

And a heat-shrinkable synthetic resin member in the form of a casing is laminated on the outside of the main body and the side cover is attached to both sides of the main body of the main body.

The weight of the finished buoy is lighter and the cost is reduced.

1 is a view schematically showing a method of manufacturing a buoy for a sea using a heat-shrinkable synthetic resin member according to a first embodiment of the present invention.
FIG. 2 is a block diagram showing a method of manufacturing a buoy for a sea using the heat-shrinkable synthetic resin member according to the first embodiment of the present invention.
3 is an exploded perspective view of a buoy for a sea using the heat-shrinkable synthetic resin member according to the first embodiment of the present invention.
FIG. 4 is a view sequentially showing a method of manufacturing a buoy for a sea using a heat-shrinkable synthetic resin member according to a second embodiment of the present invention.
5 is a block diagram showing a method of manufacturing a buoy for a sea using a heat-shrinkable synthetic resin member according to a second embodiment of the present invention.
6 is a cutaway perspective view showing a buoy for a sea using a heat-shrinkable synthetic resin member according to a second embodiment of the present invention.

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, embodiments of a marine buoy using a heat-shrinkable synthetic resin member and a method of manufacturing the same will be described in detail with reference to the accompanying drawings.

1 is a view schematically showing a method of manufacturing a buoy for a sea using a heat-shrinkable synthetic resin member according to a first embodiment of the present invention.

2 is a block diagram illustrating a method of manufacturing a buoy for a sea using the heat-shrinkable synthetic resin member according to the first embodiment of the present invention.

The buoy manufacturing method according to the first embodiment has a basic structure of a hollow body preparing step 100, a side cover mounting step 102, a laminating step 104, and a heating step 106.

It may further comprise a coating step as required. The coating step may optionally or not be applied as required.

First, the hollow body preparing step 100 is a process of preparing a cylindrical hollow body 11 having a predetermined diameter and both open ends. As shown in Fig. 1A, the hollow main body 11 has an inner space 11a as a hollow cylindrical member. The internal space 11a is sealed as the side cover 13 is fused to the both ends 11b of the hollow main body 11 to provide the function of the buoyant body.

A groove portion 11c extending in the circumferential direction is formed on the outer circumferential surface of the hollow main body 11. The groove portion 11c is a groove for binding the rope, for example.

The hollow main body 11 can be made of a polyethylene (PE) resin or a polypropylene (PP) resin or a vinyl chloride (PVC) resin or a fiber reinforced plastic (FRP) or rubber.

The subsequent side cover attaching step 102 is a step of securing the side cover 13 in the form of a disk to both end portions 11b of the hollow main body 11 to seal the inner space 11a of the hollow main body 11 .

The side cover 13 is a pair of side covers 13 formed by processing synthetic resin made of polyethylene (PE) or polypropylene (PP) into a cover shape. The edge of the side cover 13 is curved, As shown, the outer surface of the end portion 11b is brought into close contact with the outer surface of the end portion 11b to prevent water from penetrating into the side cover, thereby improving the water resistance performance and improving the heat insulating property and the airtightness performance with the contact- .

The reason why the side cover 13 is made of polyethylene (PE) resin or polypropylene (PP) resin is that the side cover and the heat shrinkable casings, which are the outer exposed surfaces of the finished buoy product, It is to prevent marine pollution and to give sanitary function.

The lamination step (104) performed after the side cover attaching step (102) is completed is a process of wrapping the result of the side cover attaching step using the prepared heat shrinkable synthetic resin member. In other words, as shown in Fig. 1C, the hollow body 11 and the side cover 13 assembly are positioned inside the heat-shrinkable synthetic resin member.

As the heat-shrinkable synthetic resin member, a heat shrinkable casing or sheet-shaped heat shrinkable sheet having both ends of a polyethylene (PE) resin or a polypropylene (PP) resin material opened and molded into a casing shape can be used. Which type of synthetic resin member is used depends on conditions.

If the hollow body 11 and the side cover 13 assembly are wrapped with the heat shrinkable synthetic resin member 17 through the laminating step 104, a heating step 106 is performed.

In the heating step, heat is applied to the result of the completion of the laminating step (104) so that the side cover is completely fused to the end portion of the hollow main body, and the heat shrinkable synthetic resin member (17) And the side cover 13 is brought into close contact with the edge of the side cover 13. 1D, it can be seen that the heat-shrinkable synthetic resin member 17 is contracted to completely adhere to the rim of the side cover 13 and the outer peripheral surface of the hollow main body 11.

Through the above process, the manufacturing process of the buoy 31 for a sea using the heat-shrinkable synthetic resin member of the present invention is completed.

On the other hand, as mentioned above, the buoy manufacturing method according to the first embodiment may further include a coating step.

The coating step is a step of laminating a polyurea coating film by spraying a polyurea resin onto the outer surface of the shrunk heat-shrinkable synthetic resin member 17 and the side cover 13. The polyurea coating film provides the effect of further improving the physical properties of durability, wear resistance and water resistance of the buoy according to the first embodiment.

3 is a cutaway perspective view of a buoy 31 for a sea using a heat-shrinkable synthetic resin according to a first embodiment of the present invention.

3, the marine buoy 31 of the present invention according to the first embodiment comprises a cylindrical hollow body 11 having a constant diameter and providing an inner space 11a, A side cover 13 for sealing the inner space 11a by fusing and coupling at both ends of the hollow body 11 and the side cover 13 at the both ends of the hollow body 11, And a heat-shrinkable synthetic resin member (17) adhering thereto.

The synthetic resin member enhances the water resistance function by acting as a waterproof layer for blocking the inner space 11a and further strengthens durability, heat insulation and airtightness performance of the present invention.

If necessary, polyurea resin may be coated on the outer surface of the heat shrinkable synthetic resin member 17 and the side cover 13 to laminate the polyurea coating film. The properties of the polyurea coating film are as described above.

FIG. 4 is a view schematically showing a method of manufacturing a buoy for a sea using a heat-shrinkable synthetic resin according to a second embodiment of the present invention, FIG. 5 is a view showing a method of manufacturing a buoy for a buoy described in FIG. .

Hereinafter, the same reference numerals as those of the above-mentioned reference numerals designate the same members of the same manufacturing step or the same function, and repeated descriptions related thereto will be omitted.

As shown, the method of manufacturing the buoy according to the second embodiment includes the steps of preparing the solid body 101, coating 108, side cover mounting 102, laminating 104, heating 106, .

The solid body preparing step 101 is a step of preparing a solid body 27 made of a foamed styrofoam having an outer peripheral surface 27c and a flat side surface 27a having a constant diameter as shown in FIG. The solid main body 27 is a cylindrical styrofoam member, and has a groove 27b on the outer peripheral surface thereof. The groove 27b is used to bundle the rope as a groove extending along the circumferential direction of the solid body 27. [

The subsequent coating step 108 is a step of laminating a polyurea coating film (25 in Fig. 6) by coating a polyurea resin 23 on the outer surface 27c of the solid main body 27. Reference numeral 21 denotes a nozzle for spraying the polyurea resin 23.

After the coating step 108 is completed, the side cover mounting step 102 is performed. The side cover attaching step 102 is a process of closely fixing the side cover 13 to both side surfaces 27a of the solid main body 27. [ The fixing method of the side cover 13 with respect to the both side surfaces 27a may be according to the bonding method.

The manner of the lamination step 104 and the heating step 106 subsequent to the side cover mounting step 102 is the same as that in the first embodiment described above, and a description thereof will be omitted.

6 is a cutaway perspective view showing a buoy 31 for a sea using a heat-shrinkable synthetic resin member according to a second embodiment of the present invention.

As shown, the marine buoy 31 of the present invention according to the second embodiment comprises:

The polyurea coating film 25 laminated on the outer surface 27c of the solid main body 27 and the polyurea coating film 25 on both sides of the solid main body 27, And a heat shrinkable synthetic resin member 17 fixedly attached to a part of the rim of the polyurea coating film 25 and the side cover 13. [

The floating buoy 31 of the second embodiment of the present invention having such a configuration has the same outer shape as the buoy for the sea of the first embodiment except that a solid main body 27 made of a foamed foam material is applied therein, The polyurea coating film 25 laminated on the side surface of the solid main body 27 of the second embodiment is coated to provide the effect of further improving the physical properties of durability, abrasion resistance, and water resistance of the buoy 31 for a sea according to the second embodiment .

Also, if necessary,

The method of manufacturing a buoy according to the second embodiment of the present invention is a manufacturing method in which the side cover attaching step 102 is omitted and a polyurea coating film 25 is laminated on the side surface 27a of the solid body 27 made of a foamed styrofoam material Lt; / RTI >

That is, since the polyurea coating film 25 is laminated on the side surface 27a of the solid body 27 made of Styrofoam, the first cover step 104 is unnecessary.

A solid body preparation step 101, a coating step 108, a laminating step 104, and a heating step 106.

Also, if necessary,

In the buoy 31 for a sea according to the second embodiment of the present invention,

A polyurea coating layer 25 laminated on a side surface 27a of the solid main body 27 and a polyurethane coating layer 25 formed on the side surface 27a of the solid main body 27, And a heat-shrinkable synthetic resin member 17 fixedly attached to the outside of the solid main body 27 in which the heat-shrinkable synthetic resin members 17 and 25 are laminated.

Also, if necessary,

The manufacturing method of the buoy for the sea and the product configuration of the first and second embodiments of the present invention,

A plurality of heat shrinkable casings or heat shrinkable sheets as the heat shrinkable synthetic resin members 17 are laminated on the outside of the solid main body 27 and a thin aluminum plate or an aluminum plate is laminated on the central surfaces of the plurality of heat shrinkable casings or heat shrinkable sheets With the manufacturing method and product composition, the durability and stain resistance performance of the buoy for marine use of the present invention is further enhanced;

In particular, shells including a barnacle are attached to the outside of a heat-shrinkable casing or a heat-shrinkable sheet, which is the heat-shrinkable synthetic resin member 17, which is the final surface of the buoy for the present invention, and a plurality of heat-shrinkable casing members A thin aluminum plate or an iron plate provided on the center surface of the heat shrinkable sheet is kneaded to form a single heat shrinkable casing or a heat shrinkable casing or heat shrinkable sheet which is another heat shrinkable synthetic resin member 17 provided under the heat shrinkable sheet It is composed of a product structure that solves the problem that shellfish including shellfish are stacked.

Accordingly, the 'buoy for marine use using the heat-shrinkable synthetic resin member and the method for producing the same'

Particularly, the outer surface of the buoy is composed of a side cover made of polyethylene or polypropylene and a heat-shrinkable synthetic resin member, so that an eco-

The main body of the buoy is composed of a polyethylene member in the form of a cylindrical pipe in which the inside of the body is hollow or a hollow body which is a member selected from a polypropylene member, a vinyl chloride resin member, a fiber reinforced plastic member and a rubber member. Water resistance, heat insulation and airtightness;

The buoy is prevented from being damaged due to the enhancement of the physical property performance, the buoy is broken by the influence of the conventional wave or wind, and the problem of the environmental waste caused by floating buoy pieces on the ocean is improved, A technology structure given a function;

The side cover is attached to both sides of the main body of the main body, and the heat-shrinkable synthetic resin member in the form of a casing is laminated on the outside of the main body and is heated and bonded to improve the workability, Cost-effective technology composition; 'Buoy for marine use using heat-shrinkable synthetic resin member and method for manufacturing thereof'.

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 exemplary embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims.

11: hollow body 11a: inner space
11b: end portion 11c:
13: Side cover 17: Heat shrinkable synthetic resin member
21: nozzle 23: polyurea resin
25: polyurea coating film 27: solid body
27a: side surface 27b:
27c: Outer surface 31: Marine buoy

Claims (10)

A hollow body preparing step of preparing a cylindrical hollow body having a predetermined diameter and both open ends, in which various aquaculture styles and installation positions are identified; a side cover mounting step of sealing the hollow body; And a heating step of applying heat to the result of the laminating step so that the heat-shrinkable synthetic resin member is contracted and brought into close contact with the rim of the hollow main body and the side cover , A method for manufacturing buoys for marine use;

Wherein the side cover mounting step includes a step of curving the rim of the side cover to be in contact with the outer peripheral surface of both ends of the hollow main body;
Wherein the laminating step is a lamination of a plurality of heat shrinkable synthetic resin members and a heat shrinkable synthetic resin member having an aluminum plate or an iron plate on a central surface thereof. delete delete delete A cylindrical hollow body having a predetermined diameter and open at both ends, the hollow cylindrical body being open at both ends thereof to identify various aquaculture styles and installation positions; a side cover coupled to both ends of the hollow body to seal the inner space of the hollow body; And a heat shrinkable synthetic resin member contracted to cover the rim of the cover and brought into close contact with the hollow main body and the side cover;

Wherein the heat-shrinkable synthetic resin member is provided with an aluminum plate or an iron plate on the center surface of the plurality of heat shrinkable sheets. A polyurethane coating film coated on an outer surface of the solid main body; and a polyurethane coating film coated on both sides of the solid main body, respectively, A pair of side covers and a heat shrinkable synthetic resin member contracted in a state of covering the outer peripheral surface of the solid main body and a part of the rim of the side cover and brought into close contact with the solid main body and the side cover, A polyurea coating film coated on the surface of the buoy, and a product structure in which the side cover is not required;

Wherein the heat-shrinkable synthetic resin member is provided with an aluminum plate or an iron plate on the center surface of the plurality of heat shrinkable sheets. delete delete delete delete

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