WO2018190663A2

WO2018190663A2 - Eco-friendly buoy and manufacturing method therefor

Info

Publication number: WO2018190663A2
Application number: PCT/KR2018/004312
Authority: WO
Inventors: 김희영
Original assignee: 김희영
Priority date: 2017-04-14
Filing date: 2018-04-13
Publication date: 2018-10-18
Also published as: WO2018190663A3; KR20170048274A; KR101763100B1

Abstract

The present invention relates to an eco-friendly buoy, comprising: an inner buoyancy part forming a sealed part; an outer buoyancy part formed to surround the inner buoyancy part so as to form the inner buoyancy part and an auxiliary sealed part; and a partition part disposed between the inner buoyancy part and the outer buoyancy part and dividing the auxiliary sealed part into a plurality of parts.

Description

Eco-Friendly Rich and Manufacturing Method

The present invention relates to a rich man, and more particularly to an environment-friendly rich man and a manufacturing method thereof.

The rich man is placed on the sea surface using a constant buoyancy force. The rich may have an installation function to install fish or seafood in the sea and a display function to easily mark a certain place on the sea.

The background technology of the present invention is disclosed in Republic of Korea Patent Registration 10-1472284 (2014.12.8) and Republic of Korea Patent Publication No. 2001-0035054 (2001.05.07).

Conventional rich people have been made of styrofoam having low cost and excellent lightness. However, the rich styrofoam was easily damaged by external environment or external shock. In addition, the styrofoam rich is difficult to use for a long time because the buoyancy is gradually lost over time exposed to the sea water because of the property of absorbing sea water. Accordingly, the rich styrofoam must be replaced frequently, resulting in time and economic losses. In addition, some of the broken Styrofoam rich can contaminate seawater while floating on the sea. In addition, leaving rich people on the beach can cause marine pollution. In some cases, the rich styrofoam can be disposed of by buried or burned in the ground, but this also causes a problem that not only contaminates soil or air during disposal, but also adds disposal costs. Moreover, with increasing interest in environmental pollution in recent years, it is expected that there will be strong restrictions on the use of rich styrofoam that can pollute the environment.

Therefore, there is an urgent need for the development of environmentally friendly rich that can replace the rich styrofoam.

The present invention is to solve the problems that may occur in the rich, and in particular, an object of the present invention to provide an environment-friendly rich and a method for manufacturing the same that can reduce environmental pollution.

Eco-friendly rich according to an embodiment of the present invention is an internal buoyancy portion to form a closed portion; An external buoyancy portion formed to surround the internal buoyancy portion to form the internal buoyancy portion and an auxiliary sealing part; And a partition part disposed between the inner buoyancy part and the outer buoyancy part to divide the auxiliary sealing part into a plurality of parts.

According to another embodiment of the present invention, the internal buoyancy portion may be integrally formed with the partition portion, and may be slidingly inserted into the external buoyancy portion.

According to another embodiment of the present invention, the partition portion is formed to protrude to the outer surface of the inner buoyancy portion, the outer buoyancy portion is spaced apart from each other inside the outer buoyancy portion, the first and second projections and the first, Is formed between the two projections may include a fastening portion consisting of a sliding groove that is inserted into the edge of the partition portion sliding.

According to another embodiment of the present invention, the plurality of auxiliary sealing portions may each independently form a space sealed by the partition portion, the external buoyancy portion may include a flat surface formed in the long axis direction on the outside.

In addition, the eco-friendly rich according to another embodiment of the present invention is a first sub-outer buoyancy portion in which the open first groove is formed, and the second groove portion is formed in the first sliding portion is inserted into the first groove A first preliminary rich man including a sub-internal buoyancy part; And a second preliminary rich person comprising a second sub external buoyancy part in which an open third groove part is formed, and a second sub internal buoyancy part in which an open fourth groove part is formed and slides into the opened third groove part. The first and second preliminary rich parts are coupled to each other, and the first and second internal buoyancy parts are coupled to each other to form a seal, and the first and second external buoyancy parts are coupled to each other to form an auxiliary seal.

According to another embodiment of the present invention, a partition portion disposed between the first and second internal buoyancy parts and the first and second external buoyancy parts may be further divided into a plurality of partitions.

In addition, the manufacturing method of the eco-friendly rich according to an embodiment of the present invention comprises a first step of providing each of the inner external buoyancy portion having a closed seal and the sub-outer buoyancy portion having an open groove; Sliding the sub-outer buoyancy parts at both ends of the inner buoyancy part, respectively; And the sub-outer buoyancy parts respectively disposed at both ends of the inner buoyancy part to bond the inner buoyancy part having a sealing part, an outer buoyancy part surrounding the inner buoyancy part, interposed between the inner buoyancy part and the external buoyancy part and divided into a plurality of parts. And a third step of forming the secondary seal.

In addition, the manufacturing method of the eco-friendly rich according to another embodiment of the present invention comprises a first step of providing a sub-outer buoyancy portion having an open first groove portion and a sub-internal buoyancy portion having an open second groove portion, respectively; A second step of slidingly inserting the sub-internal buoyancy part into the opened first groove to form at least two preliminary rich parts; And arranging the opened first grooves to face each other, and then joining the at least two preliminary rich parts to form an internal buoyancy part having a sealing part, an external buoyancy part surrounding the internal buoyancy part, the internal buoyancy part and the external buoyancy part And a third step of forming an auxiliary seal part interposed therebetween and divided into a plurality of parts.

According to another embodiment of the present invention, in the third step, the bonding between the sub-internal buoyancy parts and the bonding between the sub-outer buoyancy parts may proceed simultaneously.

Eco-friendly rich according to the present invention can improve the life because it can maintain a constant buoyancy even when subjected to an external impact by having a plurality of auxiliary seals surrounding the inner buoyancy portion and the inner buoyancy portion.

In addition, the eco-friendly rich according to the present invention can include an internal buoyancy portion and an external buoyancy portion to improve buoyancy in a double.

In addition, the eco-friendly rich according to the present invention can determine whether the damage according to the degree of inundation of the rich according to the plurality of secondary sealing, it is possible to recover the damage before completely losing the buoyancy can improve the life. .

In addition, the eco-friendly rich according to the present invention can be prevented from being deformed or damaged due to the water pressure by having an internal buoyancy portion and an external buoyancy portion.

In addition, the eco-friendly rich according to the present invention may fasten the inner buoyancy part and the external buoyancy part by sliding insertion and form the auxiliary sealing part, thereby stably forming the auxiliary sealing part.

1 is a perspective view of the environment-friendly rich according to an embodiment of the present invention.

2 is an exploded perspective view of the eco-friendly rich man of FIG.

FIG. 3 is a cross-sectional view taken along line II ′ of FIG. 1.

4 is a partial perspective view of the external buoyancy unit shown in FIG. 1.

5 to 7 are perspective views for showing a manufacturing process of the environmentally friendly rich according to an embodiment of the present invention.

8 to 10 are perspective views showing another example of the manufacturing process for forming the environmentally friendly rich of the present invention.

Embodiments of the present invention will be described in detail with reference to the drawings of the eco-friendly rich. The following embodiments are provided as examples to sufficiently convey the spirit of the present invention to those skilled in the art.

Accordingly, the invention is not limited to the embodiments described below and may be embodied in other forms. In the drawings, the size and thickness of the device may be exaggerated for convenience. Like numbers refer to like elements throughout.

2 is an exploded perspective view of the eco-friendly rich man of FIG.

FIG. 3 is a cross-sectional view taken along line II ′ of FIG. 1.

4 is a partial perspective view of the external buoyancy unit shown in FIG. 1.

1 to 4, the eco-friendly rich man 100 according to an embodiment of the present invention includes a sealing part 110, an internal buoyancy part 120, an external buoyancy part 130, an auxiliary sealing part 140, and a partition. It may include a portion 121.

The internal buoyancy portion 120 may have the shape of an ellipsoidal sphere. However, the embodiment of the present invention is not limited thereto. For example, the internal buoyancy portion 120 may have a three-dimensional shape of any of a spherical, ellipsoidal, semi-spherical, cylindrical, polyhedral and horn-shaped. However, embodiments of the present invention are not limited thereto and may have various forms.

The internal buoyancy portion 120 may be formed of a synthetic resin. The synthetic resin may be polyethylene (PE) -based resin or polypropylene (PP) -based resin.

Here, the synthetic resin may include an additive for improving the function of the environmentally friendly rich (100). Examples of the additive may include any one or two or more of UV blocking agents, antioxidants and blowing agents. In addition, the internal buoyancy portion 120 may include at least one coating layer, the coating layer may be composed of a single layer or a double layer of the UV blocking agent, antioxidant and blowing agent, respectively or mixed.

However, the embodiment of the present invention does not limit the material of the synthetic resin.

Since the synthetic resin does not break easily as it has a stronger durability than conventional styrofoam, the eco-friendly rich 100 according to the present invention may reduce environmental pollution compared to the conventional styrofoam rich.

The internal buoyancy portion 120 may include an airtight portion 110 sealed from the outside therein. Air may be filled in the sealing unit 110. However, the embodiment of the present invention is not limited thereto, and a material having a specific gravity lower than that of water may be filled in the seal 110.

The outer buoyancy portion 130 may be disposed to surround the inner buoyancy portion 120. Here, the external buoyancy portion 130 completely seals the internal buoyancy portion 120 from the outside.

The external buoyancy portion 130 may be formed of a synthetic resin. The synthetic resin may be a polyethylene resin or a polypropylene resin.

Here, the synthetic resin may include an additive for improving the function of the environmentally friendly rich (100). Examples of the additive may include any one or two or more of UV blocking agents, antioxidants and blowing agents. In addition, the external buoyancy portion 130 may include at least one coating layer, the coating layer may be composed of a single layer or a double layer of the UV blocking agent, antioxidant and blowing agent, respectively or mixed.

The auxiliary seal 140 may be disposed between the internal buoyancy portion 120 and the external buoyancy portion 130. The auxiliary sealing unit 140 may be formed to surround the internal buoyancy unit 120. In this case, the external shock may be buffered by the external buoyancy part 130 and the auxiliary sealing part 140 and applied to the auxiliary sealing part 140. Accordingly, even if the outer shell sealing portion 140 is damaged by the impact, the sealing portion 110 may be protected by the auxiliary sealing portion 140 and the external buoyancy portion 130, so that the environment-friendly rich 100 The buoyancy can be prevented from disappearing completely.

In addition, the eco-friendly rich 100 may form a double buoyancy by having the internal buoyancy portion 120 and the external buoyancy portion 130, the eco-friendly rich 100 is improved buoyancy compared to the conventional rich Can have

The partition part 121 may be disposed between the internal buoyancy part 120 and the external buoyancy part 130 to divide the auxiliary sealing part 140 into a plurality of parts. Here, when only a part of the region is damaged in the eco-friendly rich 100, only the auxiliary sealing portion 140 of the damaged region of the plurality of auxiliary sealing portion 140 is buoyancy is lost and the remaining auxiliary sealing portion 140 and the inside The buoyancy of the buoyancy unit 120 may be continuously maintained. Accordingly, even if only a partial region of the eco-friendly rich 100 is damaged, it may be prevented from being replaced or discarded.

In addition, since the plurality of auxiliary seals 140 are provided, it is possible to check whether or not the damage is in accordance with the degree of inundation of the rich, so that the damaged part can be recovered before the buoyancy is completely lost. In addition, since the auxiliary seals 140 are provided, the buoyancy can be maintained to a certain extent even if some areas are damaged. Even when the environmentally friendly rich 100 is found to be late due to damage, there is time to recover the damaged parts. .

The damaged part may be a method of attaching a synthetic resin film or a synthetic resin tape by using an adhesive as an example of a method of repairing, but is not limited thereto.

In addition, the eco-friendly rich 100 according to the present invention is formed in a dual structure of the internal buoyancy portion 120 and the external buoyancy portion 130 can increase the rigidity, so deformation according to water pressure (for example, distortion due to water pressure) Or it can prevent it from being damaged.

The external buoyancy portion 130 may be formed of the same material as the internal buoyancy portion 120. However, the present invention is not limited to the material of the external buoyancy unit 130. As another example, since the external buoyancy unit 130 is exposed to the outside, the external buoyancy unit 130 may be made of a material different from that of the internal buoyancy unit 120 to increase durability of the external environment.

The partition portion 121 may protrude from an outer surface of the internal buoyancy portion 120. The partition part 121 may be integrally formed with the internal buoyancy part 120. Here, the partition portion 121 may be formed as a line continuously connected along the outside of the internal buoyancy portion 120 without interruption. Accordingly, when inserted into the internal buoyancy part 120 and the external buoyancy part 130, the plurality of auxiliary sealing parts 140 may be formed to be closed independently of each other.

The inner side of the external buoyancy portion 130 may further include a fastening portion 131 disposed corresponding to the partition portion 121. The fastening part 131 may be integrally formed with the external buoyancy part 130. Here, the fastening part 131 is the first and second protrusions (131a, 131b) and the first and second protrusions (131a, 131b) spaced apart from each other with the edge of the partition portion 121 therebetween. It may include a sliding groove (131c) formed in the space between.

The edge of the partition portion 121 is inserted into the sliding groove 131c and fastened. Here, the partition portion 121 may be fixed in close contact with the inner surface of the external buoyancy portion 130. Accordingly, the partition part 121 may serve to fasten the internal buoyancy part 120 to the external buoyancy part 130 and at the same time divide the auxiliary sealing part 140 into a plurality. . As a result, the eco-friendly rich man 100 can form a plurality of secondary sealing parts 140 which are simultaneously divided into the fastening process of the external buoyancy part 130 and the internal buoyancy part 120, and thus the eco-friendly rich man 100 ) Can simplify the manufacturing process.

In addition, the edge of the partition portion 121 is slidably inserted along the sliding groove 131c, so that the alignment between the partition portion 121 and the external buoyancy portion 130 may be precisely performed. Accordingly, the leakage space of the auxiliary sealing part 140 may be prevented due to a fastening error between the partition part 121 and the external buoyancy part 130. That is, since the partition portion 121 and the external buoyancy portion 130 are fastened by sliding insertion, defects of the eco-friendly rich 100 that may occur during the manufacturing process may be reduced.

The external buoyancy portion 130 may have a short axis and a long axis having different lengths. Here, the external buoyancy portion 130 may have a flat surface 132 flat in the long axis direction. The flat surface 132 may be disposed to face each other on both sides of the external buoyancy portion 130, respectively. A portion of the external buoyancy portion 130 except for the flat surface 132 may be formed in a curved shape. As the external buoyancy unit 130 has the flat surface 132, the eco-friendly rich man 100 can be stably fixed on the ground. In addition, as the flat surface 132 is formed on both sides of the external buoyancy portion 130, the eco-friendly rich 100 can be laminated stably. That is, the external buoyancy unit 130 has a flat surface 132, the eco-friendly rich man 100 can be stored and stored efficiently and stably.

In addition, the eco-friendly rich man 100 may further include a connecting ring portion 133 that can connect a rope to the outer surface of the external buoyancy portion 130.

Hereinafter, the manufacturing process of the eco-friendly rich with reference to Figures 5 to 7 will be described in detail.

Referring to FIG. 5, the sub external buoyancy part 130a and the sub internal buoyancy part 120a are provided. The sub external buoyancy part 130a and the sub internal buoyancy part 120a may be formed by injection molding a synthetic resin. However, the embodiment of the present invention does not limit the molding process of the sub external buoyancy portion 130a and the sub internal buoyancy portion 120a.

The sub external buoyancy portion 130a may include an opening of the first groove portion 130b. In addition, a fastening part 131 may be formed inside the sub external buoyancy part 130a.

The partition portion 121 corresponding to the fastening portion 131 is formed on the outer surface of the sub-internal buoyancy portion 120a. In addition, a second groove portion 120b opened in the sub-internal buoyancy portion 120a is formed.

Referring to FIG. 6, the sub-internal buoyancy part 120a is inserted into and fixed to the first groove 130b of the sub-outer buoyancy part 130a to form a preliminary rich man 100a. Here, the partition part 121 is slidably inserted along the fastening part 131 and fastened so that the sub-internal buoyancy part 120a is inserted into the sub-outer buoyancy part 130a and at the same time, the first groove part. 130b may be divided into a plurality.

Referring to FIG. 7, at least two preliminary rich people 100a may be disposed symmetrically with each other, and then an eco-friendly rich person 100 may be formed through a bonding process. In this case, the opening first groove portions 130b of the sub external buoyancy portion 130a are disposed to face each other. In addition, the opened second groove portions 120b of the sub-internal buoyancy portion 120a are disposed to face each other.

Here, the bonding process may be made through a heat melting process, but embodiments of the present invention are not limited thereto.

Accordingly, bonding between the sub external buoyancy parts 130a and bonding between the sub internal buoyancy parts 120a may be simultaneously performed. That is, the external buoyancy portion 130 and the internal buoyancy portion 120 may be manufactured through the same bonding process, thereby simplifying the process.

Here, the first grooves 130b disposed symmetrically with each other in the bonding process are connected to each other to form the auxiliary sealing part 140. At this time, since the first groove 130b is divided, a plurality of auxiliary sealing parts 140 are formed in the bonding process. At the same time, the second groove portions 120b disposed symmetrically with each other may be connected to each other to form a sealing portion 110 of the load-bearing buoyancy portion 120.

Referring to FIG. 8, an internal buoyancy unit 120 is provided. The internal buoyancy portion 120 may be formed by bonding the sub-internal buoyancy portion 120b of FIG. 5 disposed symmetrically with each other. However, in the exemplary embodiment of the present invention, the manufacturing process of the internal buoyancy unit 120 is not limited.

Partition portion 121 is disposed on the outer surface of the internal buoyancy portion 120.

Referring to FIG. 9, the sub external buoyancy parts 130a are inserted at both ends of the internal buoyancy part 120, respectively. At this time, the partition portion 121 of the internal buoyancy portion 120 is slidingly inserted along the fastening portion 131 disposed in the sub external buoyancy portion 130a and fastened. In this case, the first groove 130b of the western external buoyancy portion 130a may be divided.

Referring to FIG. 10, an environmentally friendly rich person 100 may be formed by performing a bonding process for bonding the sub external buoyancy parts 130a to each other.

In the embodiment of the present invention, the bonding process for forming the external buoyancy portion 120 and the bonding process for forming the external buoyancy portion 130 may be performed separately. Accordingly, the alignment process between the sub-internal buoyancy unit 120a and the alignment process between the sub-outer buoyancy unit 130a may be performed separately, and thus may be more easily and precisely performed. Therefore, it is possible to prevent the leakage generating space that can be formed by the bonding error between the internal buoyancy portion 120 and the external buoyancy portion 130, it is possible to reduce the defective rate of the eco-friendly rich.

The present invention has been described above with reference to the above embodiments, but the present invention is not limited thereto. Those skilled in the art will appreciate that modifications and variations can be made without departing from the spirit and scope of the present invention and that such modifications and variations also fall within the present invention.

Claims

An internal buoyancy portion forming a seal;

An external buoyancy portion formed to surround the internal buoyancy portion to form the internal buoyancy portion and an auxiliary sealing part; And

A partition part disposed between the inner buoyancy part and the outer buoyancy part to divide the auxiliary sealing part into a plurality of parts;

Eco-friendly rich, including.
The method according to claim 1,

The internal buoyancy portion,

It is formed integrally with the partition portion, the eco-friendly rich man is inserted into the outer buoyancy portion sliding.
The method according to claim 1,

The partition unit,

Is formed to protrude to the outer surface of the inner buoyancy portion,

The external buoyancy unit,

Eco-friendly rich comprising a fastening portion formed between the first and second projections spaced apart from each other in the outer buoyancy portion and the first and second projections, the sliding groove is inserted into the edge of the partition portion sliding.
The method according to claim 1,

The plurality of auxiliary seals,

By the partition portion to form a closed space each independently,

The external buoyancy unit,

Eco-friendly rich including a flat surface formed in the long axis direction on the outside.
A first preliminary rich person comprising a first sub external buoyancy part in which an open first groove part is formed, and a first sub internal buoyancy part in which an open second groove part is formed and slidingly inserted into the open first groove part; And

And a second preliminary rich person comprising a second sub external buoyancy part in which the opened third groove part is formed, and a second sub internal buoyancy part in which the open fourth groove part is formed and slides into the opened third groove part. ,

The first and second reserve riches are mutually coupled,

The first and second internal buoyancy parts are coupled to each other to form a closed part,

Eco-friendly rich man the first and second external buoyancy parts are coupled to each other to form an auxiliary seal.
The method according to claim 5,

A partition part disposed between the first and second internal buoyancy parts and the first and second external buoyancy parts to divide the auxiliary sealing part into a plurality of parts;

Eco-friendly rich to include more.
The method according to claim 6,

The plurality of auxiliary seals,

By the partition portion to form a closed space each independently,

The external buoyancy unit,

Eco-friendly rich including a flat surface formed in the long axis direction on the outside.
A first step of providing each of an inner buoyancy portion having a closed seal and a sub outer buoyancy portion having an open groove;

Sliding the sub-outer buoyancy parts at both ends of the inner buoyancy part, respectively; And

Bonding the sub-outer buoyancy parts respectively disposed at both ends of the inner buoyancy part, the inner buoyancy part having a sealing part, an outer buoyancy part surrounding the inner buoyancy part, interposed between the inner buoyancy part and the external buoyancy part and divided into a plurality A third step of forming an auxiliary seal;

Eco-friendly rich manufacturing method comprising a.
Providing a sub external buoyancy portion having an open first groove portion and a sub inner buoyancy portion having an open second groove portion, respectively;

A second step of slidingly inserting the sub-internal buoyancy part into the opened first groove to form at least two preliminary rich parts; And

After arranging the opened first grooves to face each other, the at least two preliminary rich parts are joined to each other so that an internal buoyancy part having a sealing part, an external buoyancy part surrounding the internal buoyancy part, and between the internal buoyancy part and the external buoyancy part A third step of forming an auxiliary sealing part interposed in the plurality;

Eco-friendly rich manufacturing method comprising a.
The method according to claim 9,

In the third step,

Bonding between the sub-internal buoyancy parts and the bonding between the sub-outer buoyancy parts is a method of manufacturing an environmentally friendly rich.