KR200470112Y1 - Fioat havaing air bag - Google Patents

Abstract

The present invention relates to a fishing bobber equipped with an air bag, which is sealed by elasticity and injecting means for blocking the flow of air is installed in the air bag.
Fishing bag equipped with an air bag according to the present invention is made of an elastic material, the inside of the air bag (100) is formed a space filled with air (air); A sawdust (120) formed to penetrate the inside of the air bag (100); It includes a pedestal 140 is installed on one side of the peg saw 120; The air bag 100 is provided with injection means 160 having an injection hole 164 ′ which is selectively opened to guide air to be injected into the air bag 100. According to the present invention as described above, there is an advantage that the buoyancy control of the fishing bobbin is convenient.

Description

Fioat havaing air bag with air bag

The present invention relates to a fishing bobber, and relates to a fishing bobber provided with an air bag in which an injection means, which is sealed by elasticity and blocks the flow of air, is installed in the air bag.

Generally, a fishing rod refers to a thing that a fish catches on a fishing line and floats on the water so that a fish catches bait and catches it when it is caught in a fishing line.

And these fishing tackle should have good visibility regardless of day and night, and have proper buoyancy.

Particularly, in order to ensure visibility, the raising must be clearly observed, so that a part of the upper half of the sawdust is positioned above the water surface.

Though raising is usually proportional to the buoyancy of a fishing rod, it also causes the tying force itself, so seasoned investigators use a fishing rod to adjust the buoyancy and pace of the fishing rod appropriately by adding or subtracting the length of the fishing rods appropriately. do.

On the other hand, when the buoyancy is increased, the bengal becomes larger. In order to increase or decrease the buoyancy, generally, the size of the bengal is increased first, and then the buoyancy is controlled by cutting a part of the bengal.

However, it is common that the lead is composed of lead, and lead is not removed naturally, causing environmental pollution. Therefore, in recent years, it has become impossible to use these lead-containing bolls.

Therefore, a metal ball made of iron or the like is used, which makes it difficult to adjust the size of the ball ball, which makes it difficult to control the buoyancy. That is, there is an inconvenience that the bongle should be replaced one by one according to buoyancy.

In addition, as described in the registered utility model No. 20-0426605, improved fishing tackle such as 'through-type fishing tackle with easy buoyancy control' has been developed. However, even in the case of such a fishing tackle, Therefore, there is a problem that the buoyancy control is troublesome and the buoyancy control is difficult.

Korea Utility Model Registration No. 20-0426605

Accordingly, an object of the present invention is to solve the problems of the prior art as described above, is provided with an air bag made of an elastic material provided with an air bag that can freely adjust the buoyancy.

Another object of the present invention, the injection hole is formed to be naturally sealed by elasticity to block the flow of air in normal times, when the injection needle is inserted into the air bag is configured to open the injection hole to enable the air inlet To provide bobbers.

According to a feature of the present invention for achieving the object as described above, the fishing bobber provided with an air bag according to the present invention is made of an elastic material, the inside of the air bag is formed with a space filled with air (air) and ; A sawdust formed to penetrate the inside of the air bag; It includes a bumper is installed on one side of the claw saw; The air bag is provided with an injection means having an injection hole selectively opened to guide air to be injected into the air bag.

The injection means is fixed to the inner surface of the air bag tightly fixed; An elastic member formed inside the injection hole and made of an elastic material; It is formed to surround the outer surface of the elastic member, characterized in that it has a configuration including a support end for supporting the elastic member.

The injection hole is formed to penetrate through the central portion of the elastic member, it is sealed by the elastic force of the elastic member is characterized in that it is configured to block the flow of air inside the air bag to the outside.

Fishing bobber equipped with an air bag according to the present invention has the following effects.

In the present invention, an air bag made of an elastic material such as rubber is provided. Therefore, there is an advantage that can adjust the buoyancy of the bobber by adjusting the amount of air inside the air bag.

In addition, in the present invention, an injection means having an injection hole is attached to the air bag, and the injection hole is normally shielded by elasticity and configured to be opened by insertion of the injection needle. Therefore, since the air can be injected and shielded by a simple structure, there is an advantage that the utility is maximized.

1 is a cross-sectional view showing the configuration of a preferred embodiment of a fishing bobber equipped with an air bag according to the present invention.
Figure 2 is a cross-sectional view showing the configuration of another embodiment of a fishing bobber equipped with an air bag according to the present invention.
Figure 3 is a cross-sectional view showing the configuration of another embodiment of a fishing bobber equipped with an air bag according to the present invention.

Hereinafter, with reference to the accompanying drawings, a preferred embodiment of a fishing bobber equipped with an air bag according to the present invention will be described in detail.

1 is a cross-sectional view of one embodiment of a fishing bobber equipped with an air bag according to the present invention.

As shown in this, the fishing bobber provided with an air bag according to the present invention is made of an elastic material, the air bag 100 is formed inside the air (air) is filled, and the inside of the air bag 100 The jig saw 120 is formed to penetrate through, and is formed of a pedestal 140 and the like installed on one side of the jig saw 120.

As shown in the figure, the air bag 100 has a shape like a sphere so as to form a predetermined space therein, and is made of an elastic material such as rubber. Therefore, when the user pushes the air bag 100 by hand or applies an external force, the shape of the air bag 100 is distorted.

The lower side of the air bag 100 is connected to the bondol 140 to be spaced apart, the needle 150 is connected to the lower side of the bondol 140.

The peg saw 120 has a predetermined length, is installed to penetrate up and down the inside of the air bag 100, it is preferably configured to be adjustable in length. That is, it consists of two tubes are configured to enable the length adjustment.

More specifically, the peg saw 120, the inner pipe 122, the lower half is inserted into the inside of the air bag 100, and the outer pipe 124 slidably coupled to the outside of the inner pipe 122. ) And the like.

The inner pipe 122 has a predetermined length and consists of a hollow pipe.

The outer pipe 124 also has a length corresponding to the inner pipe 122 or longer than the inner pipe 122, and consists of a hollow pipe.

The outer pipe 124 is slidably coupled to an outer surface of the inner pipe 122. Therefore, the inner diameter of the outer pipe 124 is preferably formed to have a size at least larger than the outer diameter of the inner pipe 122.

At the end (top) of the outer pipe 124, a cap 130 is provided. That is, the outer pipe 124 is made of a hollow pipe (pipe) inside, the cap 130 is further provided on the upper end of the outer pipe 124.

The cap 130 is detachably mounted on the top of the peg saw 120, and functions as a mounting unit to which a cami (not shown) is mounted.

Looking in more detail, as shown, the lower end of the cap 130 is formed with a sealing portion 132 is fitted to the upper end of the outer pipe 124, the top of the cap 130 is a cami (not shown) Cami mounting portion 134 is formed.

The cami mounting portion 134 is formed so that the cami groove 134 ′ into which the lower end of the cami (not shown) is fitted.

The outer pipe 124 and the cami (not shown) are fitted to the cap 130. Therefore, the cap 130 is preferably made of a material having at least some elasticity so that the upper end of the outer pipe 124 and the lower end of the cami (not shown) can be pressed. That is, it is preferable that the entire cap 130 is made of an elastic material such as rubber, or at least a portion to which the outer pipe 124 and the cami are fitted is mounted to have elasticity.

Below the outer pipe 124, a shielding band 126 is further provided to shield the gap between the outer pipe 124 and the inner pipe 122 to prevent air leakage.

The shielding band 126 is fixedly mounted to the lower end of the outer pipe 124, the lower half is in close contact with the outer peripheral surface of the inner pipe 122. Therefore, the shielding band 126 is to block the leakage of air through the gap between the outer surface of the outer pipe 124 and the outer surface of the inner pipe 122.

In addition, the shielding band 126 also serves to fix the outer pipe 124 at a predetermined position of the inner pipe 122. That is, since the outer pipe 124 and the inner pipe 122 are slidably coupled to each other, the outer pipe 124 freely flows along the inner pipe 122. Therefore, in this case, the shielding band 126 is pressed against the outer surface of the inner pipe 122 so that the outer pipe 124 does not slide along the inner pipe 122 unless an external force of a predetermined size is applied. It is to control the role.

On the other hand, although not shown, the lower end of the outer pipe 124 and the upper end of the inner pipe 122 is formed with a locking jaw and a projection corresponding to each other, the outer pipe 124 is not separated from the inner pipe 122 It is also possible to configure so that.

In addition, the air bag 100 is provided with an injection means 160 having an injection hole 164 ′ which is selectively opened to guide air to be injected into the air bag 100. That is, the air bag 100, as shown, is provided with injection means 160 used to inject air directly into the air bag 100.

The injection means 160 may include a fixed plate 162 tightly fixed to an inner surface of the air bag 100, an elastic member 164 having the injection hole 164 ′ formed therein, and the elastic member 164. It is formed to surround the outer surface of the) is composed of a support end 166 and the like for supporting the elastic member 164.

The fixing plate 162 is fixed in close contact with the air bag 100 as shown. Therefore, the fixing plate 162 is formed to have a predetermined size and is in close contact with the inner surface of the air bag 100 by an adhesive or the like.

Since the fixing plate 162 should be fixed in close contact with the air bag 100, it is more preferable that the fixing plate 162 is made of an elastic material corresponding to the air bag 100.

The support end 166 is formed in a cylindrical shape hollow inside, it is fixed to the fixing plate 162. That is, the support end 166 is made of a cylindrical shape surrounding the outside of the cylindrical elastic member 164, and is fixed to the fixing plate 162 by an adhesive or the like.

The elastic member 164 is made of a large elastic material, such as rubber, the injection hole 164 'is formed in the center.

The elastic member 164 is formed in a cylindrical shape as shown, and is inserted into the hollow portion of the support end 166 by interference fit.

The injection hole 164 ′ is formed to penetrate the central portion of the elastic member 164, and is sealed by the elastic force of the elastic member 164 to allow air inside the air bag 100 to flow out. Configured to block.

Looking in more detail, as shown, the injection hole 164 ′ is formed in the central portion of the elastic member 164 along the longitudinal direction. However, since the injection hole 164 ′ is wrapped in the elastic member 164 made of an elastic material, it is normally completely shielded. Therefore, the flow of air does not occur through the injection hole 164 'normally.

When the injection needle (not shown) is pushed into the injection hole 164 'for air injection, the elastic member 164 has elasticity, so that the injection needle is inserted into the injection hole 164'. Penetrates. Therefore, it is possible to supply the air into the air bag 100 through the injection needle.

Hereinafter, look at the operation of the fishing bobber provided with the air bag of the present invention having the configuration as described above.

First, when it is necessary to increase the buoyancy in the state as shown in FIG. 1, an injection needle (not shown) is inserted into the injection means 160. That is, an injection needle used to inject air into a soccer ball or basketball ball is inserted into the injection hole 164 ′ of the injection means 160 to penetrate it.

Then, the air is injected into the air bag 100 through the injection needle.

In this case, the air pocket 100 is gradually expanded to increase the buoyancy. Then, when the air supply is complete, the injection of air is automatically cut off by removing the injection needle inserted in the injection hole 164 '. That is, since the elastic member 164 is made of a rubber-like material having a large elasticity, the injection needle is separated and the injection hole 164 'is immediately shielded by the elastic member 164.

Next, when the air inside the air bag 100 is extracted, an injection needle or a pipe rod having a predetermined diameter is inserted into the injection hole 164 ′. In this case, the air inside the air bag 100 is discharged to the outside through the inner passage of the injection needle or pipe (pipe) rod.

On the other hand, the peg saw 120 may be used to adjust the length as needed. That is, the cap 130 is peeled off in a state where the length of the peg saw 120 is minimized, and then the outer pipe 124 is pulled upward.

As such, when the external pipe 124 is pulled upward by an external force, the external force exceeds the force of the shielding band 126 in close contact with the internal pipe 122, thereby causing the external pipe 124 to be internally piped. It slides along the outer peripheral surface of 122 and moves upwards.

And, when the lower end of the outer pipe 124 reaches the upper end of the inner pipe 122, the length of the sawdust 120 is maximized, and in this state if the cap 130 is put on and used again do.

On the contrary, when the length of the elongated peg saw 120 is to be shortened, the above-mentioned extension may be performed in the reverse order.

On the other hand, Figure 2 is a cross-sectional view showing the configuration of another embodiment of a fishing bobber equipped with an air bag according to the present invention.

As shown in the figure, a separate storage bag 110 is formed on the outside of the air bag 100 is also possible.

Specifically, the outer side of the air bag 100 is a storage bag (110) having a sphere or oval cross-section is formed, the storage bag 110 is made of a durable yet lightweight material such as plastic, the inside It serves to protect the air bag (100).

Therefore, even when the air bag 100 made of an elastic material is distorted in shape as shown in FIG. 2, the storage bag 110 maintains its original shape.

And, as shown, the portion of the air bag 100 in which the injection means 160 is formed to maintain a state in close contact with the storage bag (110). Therefore, it is possible to inject air into the air bag 100 through the injection hole 164 'of the elastic member 164 from the outside of the storage bag 110, through the injection hole (164') It is also possible to discharge the air inside the air bag 100 to the outside of the storage bag 110.

In addition, Figure 3 is shown in a cross-sectional view of the configuration of another embodiment of a fishing bobber equipped with an air bag according to the present invention.

As shown here, the peg saw 120 does not penetrate the inside of the air bag 100. That is, in FIG. 2, the configuration in which the peg saw 120 penetrates the inside of the air bag 100 is illustrated. In FIG. 3, the peg top 120 does not penetrate the inside of the air bag 100. Has

As such, when the storage bag 110 of a solid material is formed on the outside of the air bag 100, the storage bag 110 is to support the air bag 100, the peg saw 120 is spoiled It is not necessary to penetrate the inside of the air bag (100).

Hereinafter, since the other components are the same as those described above, further descriptions of the components will be omitted here.

The scope of the present invention is not limited to the above-described embodiments, and many other modifications will be possible to those skilled in the art based on the present invention.

100. Airbag 120. Bobber
130.Cap 140.Boot
150. Needle 160. Injection means
162. Retaining Plate 164. Elastic Member
164 '. Injection hole 166. Supporting end

Claims (3)

An air bag 100 made of an elastic material and having a space filled with air therein;
A sawdust (120) formed to penetrate the inside of the air bag (100);
It includes a pedestal 140 is installed on one side of the peg saw 120;
In the air bag 100,
A fishing bobber is provided with an air bag, characterized in that the injection means (160 ′) is formed to selectively open the injection means 160 to guide the air to be injected into the air bag (100). The method of claim 1, wherein the injection means 160,
A fixing plate 162 that is tightly fixed to an inner surface of the air bag 100;
An injection member 164 ′ formed therein and an elastic member 164 made of an elastic material;
Is formed to surround the outer surface of the elastic member 164, the support end 166 for supporting the elastic member 164; fishing bag provided with an air bag, characterized in that it has a configuration comprising a. The method of claim 2, wherein the injection hole 164 ',
Is formed to penetrate the central portion of the elastic member 164, the air bag is characterized in that it is sealed by the elastic force of the elastic member 164 is configured to block the flow of air inside the air bag 100 to the outside Equipped with bobber.

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