KR200482482Y1 - An air-cell buoy - Google Patents

Abstract

The present invention relates to an air cell foil, and more particularly, to an air cell foil having an air cell film member on which a plurality of air cells are formed, the air cells being filled with air through air inlets and sealed independently of each other, The air cell buoy structure is simple in structure and can be easily manufactured. It is small in volume and light in weight and easy to be stored and handled. When using the air cell buoy, air is injected into the air inlet hole provided in the air cell film member A plurality of independently configured air cells are filled with air, and then the air cell film member filled with air is rolled into a cylindrical shape and sealed while being accommodated in the buoy shell, thereby providing not only excellent buoyancy but also a waterproof function Air cell membrane member prevents seawater and contaminants from penetrating At the same time, it is possible to protect the air cell film member from the external environment, thereby preventing damage and breakage of the air cell film member providing buoyancy, and even if the air cell of the air cell film member accommodated in the buoy shell is partially broken The present invention relates to an air cell buoy capable of effectively improving convenience of use and durability by constituting the other air cells other than the damaged air cell so that the integrity can be independently maintained.

Description

An air-cell buoy

The present invention relates to an air cell foil, and more particularly, to an air cell foil having an air cell film member on which a plurality of air cells are formed, the air cells being filled with air through air inlets and sealed independently of each other, The air cell buoy structure is simple in structure and can be easily manufactured. It is small in volume and light in weight and easy to be stored and handled. When using the air cell buoy, air is injected into the air inlet hole provided in the air cell film member A plurality of independently configured air cells are filled with air, and then the air cell film member filled with air is rolled into a cylindrical shape and sealed while being accommodated in the buoy shell, thereby providing not only excellent buoyancy but also a waterproof function Air cell membrane member prevents seawater and contaminants from penetrating At the same time, it is possible to protect the air cell film member from the external environment, thereby preventing damage and breakage of the air cell film member providing buoyancy, and even if the air cell of the air cell film member accommodated in the buoy shell is partially broken The present invention relates to an air cell buoy capable of effectively improving convenience of use and durability by constituting the other air cells other than the damaged air cell so that the integrity can be independently maintained.

Generally buoys (also called buoys or buoys) are installed in order to guide the route or to warn the existence of dangerous goods such as reefs and sunken ships in order to assist the safe navigation of the ship, It is also used to indicate the position of an object in water, such as an anchor.

Conventionally used buoys are mostly made of styrofoam and installed on the sea. In case of such styrofoam buoys, white is exposed on the sea surface by buoyancy of their own, or a specific color such as red or yellow is applied on the surface of styrofoam, And displays the position.

However, buoys made of styrofoam are easily worn or broken due to waves or storms, so they have to be frequently replaced, and the cost of purchasing and installing buoys is increased.

In addition, when buoys are broken or broken, damaged styrofoam pieces and debris cover the surface of the sea surface, which seriously damages the aesthetic appearance of the sea and is classified as a serious cause substance causing seawater pollution.

Further, the styrofoam buoy is not easy to carry because of its large volume, has poor buoyancy performance as compared with the volume, and has a problem in that the buoyancy is lowered due to the water pressure when it is used for a long time.

In recent years, in order to solve the above-mentioned problem of styrofoam buoys, an air inlet type buoy plate which is easy to store and transport and which is easy to use has been proposed and used. An example of such a technique is disclosed in Korean Patent No. 10-1304584, Quot; Air Injection Type Fishing Buoy "of Registration No. 10-0795144.

Korean Patent No. 10-1304584 discloses a portable buoy which is used by injecting air into a tube. However, when a tube is blown by an external impact, the buoyancy is temporarily lost, There is a problem that the durability is remarkably deteriorated.

 In addition, Korean Patent No. 10-0795144 discloses an air-borne type fishing buoy made of a mixture of plastic and rubber, which is relatively durable as compared with the portable buoy described above. However, There is a problem in that the buoyancy is lost and the continuous use is impossible.

1. Korean Registered Patent No. 10-1304584 (Registered on March 31, 2013) "Portable Buoy" 2. Korean Registered Patent No. 10-0795144 (Registered on January 1, 2008)

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide an air cell, which comprises an air cell film member having a plurality of air cells sealed with air through an air inlet and being independently sealed, The air cell buoy structure is simple in structure and can be easily manufactured. It is small in volume and light in weight and easy to be stored and handled. When using the air cell buoy, air is supplied to the air inlet hole provided in the air cell film member A plurality of independently arranged air cells are filled with air, and then the air cell film member filled with air is rolled into a cylindrical shape and sealed while being accommodated in the buoy shell. Thus, the buoyancy is excellent and the buoyant shell The air cell membrane member penetrates seawater and contaminants At the same time, it is possible to protect the air cell film member from the external environment and prevent damage and damage of the air cell film member that provides the buoyancy. Even if the air cell of the air cell film member accommodated in the buckle outer shell is partially It is an object of the present invention to provide an air cell buoy capable of effectively improving the usability and durability by constituting the air cells other than the damaged air cell so that the integrity of the air cells can be independently maintained.

In order to achieve the above object, the present invention provides a buoy provided on the sea, wherein a plurality of overlapping films are partially fused to form an air inlet for air injection on one side, An air cell film member on which a plurality of air cells filled with air are formed; Wherein the lower end of each airfoil film is mutually fused with the rear end edge of the air cell film member, and the lower end of each airfoil film member is fused with the airfoil film member, A buoy shell made of a synthetic resin; And an opening and closing member for opening and closing an open upper portion of the buoy shell, air is injected into the plurality of air cells through the air inlet, the air cell film member filled with air is rolled into a bucket shell of a pocket type, And an upper portion of the buoy shell is sealed through the opening and closing member, thereby forming a buoyed shape having buoyancy.

An air cell buoy according to the present invention comprises an air cell film member formed with a plurality of air cells filled with air through an air inlet and sealed independently of each other and an air cell buoy consisting of a bucket shell in the form of a pocket integrally provided with the air cell film member inside By providing the structure, the buoy structure is simple and can be easily manufactured, and it is small in volume and light in weight so that it is easy to store and handle.

In addition, when using the air cell buoy, air is injected into the air injection holes provided in the air cell film member to fill the plurality of independently configured air cells with air, and then the air cell film member filled with air is rolled into a cylindrical shape and accommodated in the buoy shell It is possible to prevent seawater and contaminants from penetrating into the air cell film member through the buoy shell having a waterproof function and to protect the air cell film member from the external environment and to provide buoyancy It is possible to prevent damage and breakage of the air cell film member.

Furthermore, in the process of using the air cell buoy, even when the air cell of the air cell film member accommodated in the buoy shell is partially broken due to an external impact or the like, other air cells other than the broken air cell can be independently maintained in integrity , Ease of use, and durability can be effectively increased, thereby increasing the replacement cycle of buoys.

1 is a view showing a configuration of an air cell film member provided in an air cell buoy according to the present invention
FIG. 2 is an exploded perspective view showing a configuration of an air cell buoy according to an embodiment of the present invention; FIG.
FIG. 3 is a perspective view showing the combined state of FIG. 2 in the embodiment of the present invention.
4 is a cross-sectional view showing a state in which the air cell film member is received and sealed in the buoy shell in one embodiment of the present invention
5 to 7 are views showing an air filling process and a use state of the air cell buoy according to an embodiment of the present invention
8 is a view showing a configuration of an air cell buoy having a waterproof cap and a hose in an embodiment of the present invention
9 is a view showing the use state of the air cell buoy shown in Fig. 8

Hereinafter, embodiments of the present invention will be described in detail, but the present invention is not limited to the following embodiments unless it departs from the gist of the present invention.

FIG. 1 is a view showing a configuration of an air cell film member provided in an air cell buoy according to the present invention, FIG. 2 is an exploded perspective view showing a configuration of an air cell buoy according to an embodiment of the present invention, FIG. 4 is a cross-sectional view illustrating a state in which the air cell film member is received and sealed in the buoy shell according to an embodiment of the present invention. Referring to FIG.

2 to 4, the air cell buoy according to an embodiment of the present invention includes a plurality of films partially overlapped with each other, an air inlet 117 for air injection is formed on one side, And a plurality of air cells (115) filled with air introduced from the air inlet (117); The upper and lower edges of the air cell film member 100 are disposed on the front and rear surfaces of the air cell film member 100, respectively, A buoy shell 200 integrally fused with the rear edge of the buoy shell 200; And an opening / closing member (300) for opening / closing the open top of the buoy shell (200).

According to an embodiment of the present invention, there is provided an air cell comprising: an air cell film member formed with a plurality of air cells sealed with air by being filled with air through an air inlet; and a pocket The air cell buoy structure is simple in structure and can be easily manufactured. It is small in volume and light in weight and easy to be stored and handled. When using the air cell buoy, air is supplied to the air inlet hole provided in the air cell film member A plurality of independently arranged air cells are filled with air, and then the air cell film member filled with air is rolled into a cylindrical shape and sealed while being accommodated in the buoy shell. Thus, the buoyancy is excellent and the buoyant shell To prevent seawater and contaminants from penetrating into the air cell film member At the same time, it is possible to protect the air cell film member from the external environment so as to prevent damage or breakage of the air cell film member providing buoyancy, and even if the air cell of the air cell film member accommodated in the buoy shell is partially damaged The other air cells other than the broken air cell can be independently configured to maintain soundness, thereby effectively increasing convenience of use and durability.

First, the structure of the air cell film member provided in the air cell buoy according to the present invention will be described in detail.

Prior to the description, the side where the short side of the air cell film member 100 is the transverse direction, the side of the long side is the longitudinal direction, and the air injection hole 117 is formed in the cell film member 100 is referred to as the front end portion And the opposite side will be referred to as a rear end portion.

In addition, solid lines shown inside the films (upper envelope, lower outer envelope, upper end envelope, and lower end envelope) in the figure represent fused portions formed on the upper surface, and dotted lines represent fused portions formed on the lower surface.

As shown in FIG. 1, the air cell film member 100 is partially fused to each other, and has an air injection path 116 through which air injected through the air injection port 117 flows along the longitudinal direction at one end An upper shell 110 and a lower shell 120 forming a plurality of air cells 115 filled with air through the air injection path 116; An air inflow passage 142 is interposed between the upper and lower outer shells 110 and 120 to be partially fused to open and close the air inflow path 116 and the plurality of air cells 115 An upper endothelial flap 130 and a lower endothelial flap 140.

Here, the upper shell 110 and the lower shell 120 are made of a film such as a synthetic resin and have the same size.

The upper inner skin 130 and the lower inner skin 140 serve as valves for opening and closing the air inflow passage 142 interposed between the upper and lower shells 110 and 120 and communicating with the air cell 115 The upper and lower inner layers 130 and 140 are formed of a film such as a synthetic resin and are formed to have the same length as the lower outer layer 120 and the upper outer layer 110 in the longitudinal direction, And is formed to have a shorter length than the outer shell 120 and the upper outer shell 110.

The deformation rest 141 is formed on the side end edge of the lower end curtain 140 so that the lower end curtain 140 and the upper end curtain 130 can be separated from each other when the upper and lower end curtains 130, To prevent fusion to each other.

In this configuration, the upper inner skin 130 is superimposed on the lower inner skin 140, and then the superposed upper and lower inner skin 130 and 140 are inserted between the overlapped upper and lower outer skin 110 and 120, The upper and the lower inner skin 130 and 140 are partially fused to each other to form an inner fused portion 131 to fuse the upper skin 110, the upper inner skin 130 and the lower inner skin 140 to each other. At this time, an air inflow passage 142 is formed in the inner fused portion 131 at a portion where the release type base 141 is formed, by communicating the air inflow path 116 with the plurality of air cells 115.

Thereafter, the upper and lower outer shells 110 and 120 and the upper and lower inner shells 130 and 140 are simultaneously fused to form the transverse fused portions 111 at regular intervals, A plurality of air cells 115 having a length in the transverse direction are formed by forming the first and second longitudinally welded portions 112 and 114 and the third longitudinally welded portions 112 and 114, The second longitudinally welded portion 113 is formed along the side edge so that the second longitudinally welded portion 113 forms the air injection path 116 together with the first longitudinally welded portion 112.

At this time, the air injection path 116 is formed with an air inlet 117 opened to inject air at one side of the front end, and the other end is closed.

When air is injected into the air inlet 117, the air injected into the air inlet 117 passes through the air inlet 116 through the air inlet passage 142, The plurality of air cells 115 are sealed between the upper and lower outer shells 110 and 120 by the upper and lower inner shells 130 and 140 serving as valves, Even if the air cells are damaged, the air cells other than the damaged air cells can be maintained independently of each other.

On the other hand, the air cell film member 100 constructed as described above is integrally fused in the pocket-like buoy shell 200, and is composed of an air cell buoy together with the buoy shell 200.

That is, as shown in FIGS. 2 and 3, the airfoil film member 100 is provided with buoy shells 200a and 200b on the front and rear surfaces, respectively, and the lower ends of the pair of buoyo shells 200a and 200b The rear end portions of the air cell film member 100 are mutually fused and the both side ends of the pair of buoyo shells 200a and 200b are mutually fused so that the pair of buoyo shells 200a and 200b are pockets And the air cell film member 100 is integrally welded and fixed in the bucket shell 200 formed in the pocket shape.

At this time, the air cell film member 100 is used to provide buoyancy of buoys through a plurality of air cells 115. When the air cells 115 are used, a plurality of air cells 115 are filled with air and then air cells 115 Are accommodated in the pocket buoy shell 200. A sufficient number of the air cells 115 may be formed on the air cell film member 100 to provide sufficient buoyancy.

More specifically, in order to facilitate air injection into the air cell film member 100, an air injection nozzle for air injection is connected to the air inlet 117 formed at the front end side of the air cell film member 100 with an air inlet 117 An air injection induction cap 118 may be additionally provided so as to be easily inserted.

In addition, the buoy shell 200 may be formed of various synthetic resin materials or cloth materials having a waterproof function, preferably a PVC tarpaulin including nylon fiber, PVC tarpaulin or nylon fiber, An ultraviolet barrier coating layer may be formed on the surface of the buoy skin 200 of the above-described material.

That is, the buoy shell 200 prevents the seawater and the contaminants from penetrating into the air cell film member 100 accommodated therein through the waterproof function, and protects the air cell film member 100 from the external environment. do.

In addition, an open / close member 300 for closing the opening is provided at the opened top end of the pocket buoy shell 200.

4, the air cell film member 100 is received in the pocket buoy shell 200 and the opening of the buoy shell 200 is closed through the opening and closing member 300, 5 and 6, which will be described later, when the air cell buoy is used, the air cell film member 100 filled with air is opened and closed, And is completely sealed inside the buoy shell 200 by the member 300 to effectively prevent seawater and contaminants from penetrating into the buoy shell 200. [

The opening and closing member 300 may be formed of a waterproof zipper 310 or a velcro tape 320 and the opening and closing member 300 may be formed of a waterproof zipper 310 as shown in FIG. A slider 311 for opening and closing the zipper rail 312 is mounted on a waterproof zipper (not shown), and a waterproof zipper The opening of the pocket buoy shell 200 can be effectively sealed by opening and closing the slider 311. [

4 (b), when the opening and closing member 300 is formed of the Velcro tape 320, the upper part of one of the pair of buoy shells 200 welded in the pocket shape is relatively long And the cover 230 is provided with a Velcro tape 320 on the inner side of the cover 230 and on the outer side of the upper part of the other side of the buoy cover corresponding to the cover 230, It is possible to effectively seal the openings of the pocket buoy shell 200 by the mutually adhered velcro tape 320 in the process of covering the openings of the pocket buoy shell 200 through the through-

In the above embodiment, the opening and closing member is formed of a waterproof zipper or a Velcro tape. However, it is needless to say that the opening and closing member of various other configurations such as a sealing tape capable of sealing the opening of the pocket- .

As shown in FIG. 3, on the front and rear surfaces of the buoy shell 200 formed in the pocket shape, a ring-shaped strap eyelet 210 having a fixing strap is integrally provided, The eyelets 220 may also be provided at four corners with a string for various purposes.

6, which is provided on the front and rear surfaces of the buoy shell 200, when the air cell buoy is used, the strap 400 is connected to the outer circumferential surface of the buoy shell 200, And is used to securely fix the air cell film member 100 filled with air in the buoy shell 200 by being rolled into a cylindrical shape inside the buoy shell 200.

A plurality of air cells 105 formed in the air cell film member 100 are formed with fused portions 119 at regular intervals along the longitudinal direction of the film member. As shown in FIGS. 5 and 6, When the air cells 115 of the film member 100 are filled with air, relatively less air is filled in the portions where the fused portions 119 are formed in the respective air cells 115, and concave grooves 119a are formed in the corresponding portions. .

At this time, the point fused portion 119 formed along the longitudinal direction of the air cell film member 100 is formed at a position corresponding to the string catch 210 formed on the buoy shell 200.

5 and 6, a fixing strap 400 is connected to the strap hole 210 of the buoy shell 200 to wind the circumference of the buoy shell 200 around the buoy shell 200. As shown in Figs. 5 and 6, In the process of fixing the cylindrical air cell film member 100 provided inside the buoy shell 200, the fixing strap 400 connected to the strap hook 210 is inserted into the groove of the air cell film member 100, The air cell film member 100 is wound around the outer circumferential surface of the buoy shell 200 corresponding to the air cylinder film member 119a so that the cylindrical air cell film member 100 is more firmly fixed in the buoy shell 200, 100 can be effectively prevented from swinging or loosening within the buoyant outer shell 200.

At this time, it is needless to say that the fixing strap 400 wound around the buoy shell 200 may be extended to be connected to other air cell buoys or to other sea structures.

3, in the formation of the point welded part 119 on the air cell film member 100, the air cell film member 100 is inserted over the entire surface of the air cell film member 100 inserted into the buoy skin 200, as described above, The point fused portion 119 may be formed, but may be formed by forming a point fusion portion only on a lower portion of the air cell film member, which is disposed on the outer circumferential surface of the cylindrical arrangement when the foaming portion is inserted into the outer shell of the buoy, It is possible.

The islets 220 provided at the four corners of the buoy shell 200 may be used for connecting strings of various purposes to connect the air cell buoys or connecting the air cell buoys to the sea structure, It may be used to connect nets, shields or weight to the bottom of the buoy.

Further, in this embodiment, although the eyelets are provided only at four corners of the buoy shell 200, it is also possible to provide eyelets along the edges at the side end portions or the bottom end portions of the buoy shells, .

5 to 7 are views showing an air filling process and a use state of the air cell buoy according to an embodiment of the present invention.

5, in order to use the air cell buoy, first air is injected into the air inlet 117 formed at the front end of the air cell film member 100, and a plurality of air cells 115 The air cells 115 filled with the air are rounded into a cylindrical shape and accommodated in the buoy enclosure 200. As shown in Fig. 6, the open / close member 200 formed at the upper end of the buoy enclosure 200 The opening of the buoy shell 200 is closed and sealed through the opening 300.

Since a plurality of air cells 115 formed in the air cell film member 100 are individually sealed by the inner film serving as a valve individually in the air cell film member 100 accommodated in the buoy shell 200, Even if the air cell is broken, the air cell other than the broken air cell is configured so that the integrity can be maintained independently of each other.

6, the fixing strap 400 is connected to the strap hole 210 of the buoy shell 200 to wind around the outer circumferential surface of the buoy shell 200 to be provided inside the buoy shell 200 5) of the cylindrical air cell film member 100 (see Fig. 5) is fixed in the buoy outer cover 200 to prevent the air cell film member 100 (see Fig. 5) can do.

As described above, in the process of winding the outer periphery of the buoy shell 200 around the outer periphery of the buoy shell 200 by connecting the strap 400 to the strap hook 210 on the buoy shell 200, the air cell film 100 The cylindrical air cell film member 100 can be more firmly fixed in the buoy shell 200 by winding the fixing strap 400 around the outer circumferential surface of the buoy shell 200 corresponding to the groove 119a of the buoy shell 200 .

In addition, it can be used for extending the fixing strap 400 wound around the buoy outer cover 200 and connecting it to other air cell buoys or connecting it to other sea structures. In addition, it can be used at four corners of the buoy outer shell 200 It is also possible to connect strings of various uses to the eyelets 220 to connect the net, the barrier, the weight or the like to the air cell buoy.

7, when the air cell 115 of the air cell film member 100 accommodated in the buoy shell 200 is damaged by an external impact during the use of the air cell buoy, the damaged air cell 115 ' The other air cells 115 maintain their soundness without being affected by the damaged air cell 115 ', so that the buoyancy of the air cell buoy can be maintained, thereby increasing the buoyancy performance compared to the existing buoys And it is also advantageous to increase the replacement cycle of buoys.

FIG. 8 is a view showing a configuration of an air cell buoy having a waterproof cap and a hose according to an embodiment of the present invention, and FIG. 9 is a view showing the use state of the air cell buoy shown in FIG.

8 and 9, the air cell buoy configured as described above includes a waterproof cap 250 that can be opened and closed on the outer circumferential surface of the buoy shell 200, and a pair of buoys And a hose 240 extending between the outer shell 200 and connecting between the waterproof cap 250 and the air inlet 117 of the air cell film member 100 (see FIG. 3), so that even during use of the air cell buoy, 250 can be opened to fill the air cell film member 100 housed in the buoy shell 200 with air.

8, in the course of rounding the air cell film member 100 filled with air into the cylindrical shape and accommodating the air cell film member 100 in the buoy shell 200, the air inlet 117 of the air cell film member 100 The hose 240 is inserted into and connected to the air induction cap 118 (see FIG. 3) provided in the waterproof cap 250 (see FIG. 3) The air filled in the air cell 115 of the air cell film member 100 disappears to some extent during the use of the air cell buoy, as shown in Fig. 9, It is possible to further fill the air cell film member 100 with air through a simple process of opening the waterproof cap 250 and injecting air from the outside of the air cell pack to the air cell 115, Each of the air cells 115 formed in the housing 100 Typically, and to maintain the quality, and therefore there is an advantage that makes it easy to perform maintenance of eeosel buoy without the inconvenience of opening the opening and closing member of the buoy eeosel.

As described above, the air cell buoy according to the present invention comprises: an air cell film member having a plurality of air cells filled with air through an air inlet and being sealed independently; and a pocket- By providing the air cell buoy structure made up of the buoy shell, the buoy structure is simple and can be easily manufactured, and the volume is small and lightweight, which makes it easy to store and handle.

In addition, when using the air cell buoy, air is injected into the air injection holes provided in the air cell film member to fill the plurality of independently configured air cells with air, and then the air cell film member filled with air is rolled into a cylindrical shape and accommodated in the buoy shell It is possible to prevent seawater and contaminants from penetrating into the air cell film member through the buoy shell having a waterproof function and to protect the air cell film member from the external environment and to provide buoyancy It is possible to prevent damage and breakage of the air cell film member.

Furthermore, in the process of using the air cell buoy, even when the air cell of the air cell film member accommodated in the buoy shell is partially broken due to an external impact or the like, other air cells other than the broken air cell can be independently maintained in integrity , Ease of use, and durability can be effectively increased, thereby increasing the replacement cycle of buoys.

It will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined in the appended claims. .

100: air cell film member 110: upper shell
111: transverse fused portion 112: first longitudinal fused portion
113: second longitudinal welded part 114: third longitudinal welded part
115: air cell 116:
117: air inlet port 118: air injection induction cap
119: point weld portion 120: lower shell
130: upper end skin 131: inner fused portion
140: lower endothelium 141:
142: air inlet passage 200, 200a, 200b:
210: Strap hanger 220: Eyelet
230: cover 240: hose
250: waterproof cap 300: opening / closing member
310: Waterproof zipper 311: Slider
312: Zipper rail 320: Velcro tape
400: Fixing strap

Claims (10)

In buoys installed on the sea,
An air cell film member having a plurality of overlapping films partially fused to form an air inlet for air injection at one side thereof and a plurality of air cells filled therein with air introduced from the air inlet;
Wherein the lower end of each airfoil film is mutually fused with the rear end edge of the air cell film member so that the lower end of each airfoil film member is fused with the airfoil film member, A buoy shell made of a synthetic resin; And
An opening / closing member for opening / closing an open top of the buoy shell;
, ≪ / RTI >
Air is injected into the plurality of air cells through the air inlet so that the air cell film member filled with air is rolled into the bucket shell of the pocket type and the opened top of the buoy shell is sealed through the opening and closing member, Respectively,
Wherein the air cell film member comprises:
And an air injection path through which the air injected through the air injection port flows is formed on one end of the air injection port in a longitudinal direction of the air injection port, An outer shell and a lower outer shell;
An upper inner skin and a lower inner skin which are interposed between the upper and lower outer shells and partially fused to each other to form an air inflow passage for opening and closing between the air injection path and the plurality of air cells;
, ≪ / RTI >
Wherein air injected through the air inlet port is filled into a plurality of air cells through an air inflow path through the air inflow path, and when the air cells are filled with air, the air inflow path is closed, Wherein the plurality of air cells are configured to be sealed independently of each other.
delete The method according to claim 1,
The open /
A waterproof zipper or a Velcro tape.
The method according to claim 1,
On the front and rear surfaces of the buoy shells welded in the pocket form,
Wherein the airbag buoy is provided with an annular strap hook so as to be able to fasten the air cell film member accommodated in a rolled up state inside the buoy shell by wrapping around the outer circumferential surface of the buoy shell by connecting the fixing strap.
5. The method of claim 4,
In the air cell film member,
Characterized in that a point fused portion is formed along the longitudinal direction of the air cell film member in which a plurality of air cells are formed, at a position corresponding to a string catch of the buoy shell.
The method according to claim 1,
At four corners of the buoy shell,
And a plurality of islets are provided.
The method according to claim 1,
The buoy shell,
Nylon fibers, PVC tarpaulins, or PVC tarpaulins including nylon fibers.
The method according to claim 1,
On the surface of the buoy shell,
Wherein an ultraviolet barrier coat layer is formed.
The method according to claim 1,
In the air inlet,
And an air injection induction cap into which an air injection nozzle is inserted.
The method according to claim 1,
A waterproof cap having a structure that can be opened and closed is provided on one side of the outer surface of the buoy shell,
Further comprising a hose extending from the waterproof cap to the inside of the buoy shell and connected to an air inlet of the air cell film member.

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