KR200484700Y1 - Float for fising - Google Patents

Abstract

The present invention relates to a fishing tackle capable of precisely controlling buoyancy, the fishing tackle comprising a body, an upper jig provided at an upper end of the body, and a lower jig provided at a lower end of the body, wherein the upper end is closed and the lower end is opened An upper body on which a first female screw is formed; An intermediate body having a lower end and an upper end opened and having a second female thread formed on an inner surface thereof and a first connection end formed on an outer surface of the first male thread corresponding to the first female thread is threadedly coupled to a lower end of the upper body; A lower body having an upper end opened and a lower end closed and a second connection end having a second male screw corresponding to the second female screw formed on an outer surface thereof and being screwed to the lower end of the intermediate body; At least one or more of at least one between the lower end of the upper body and the upper end of the intermediate body and between the lower end of the intermediate body and the upper end of the lower body are provided so that the inner volume and weight of the upper body, A buoyancy adjusting ring for variably controlling the buoyancy; And an o-ring for water tightness between the lower end of the upper body and the buoyancy control ring, and between the lower end of the intermediate body and the buoyancy control ring. .

Description

{Float for fising}

The present invention relates to a fishing tackle capable of precisely controlling buoyancy, more specifically, by accurately changing the inner volume and weight of the body, not only buoyancy control is easy, but also the watertight structure is improved to prevent buoyancy from being lost or changed The present invention relates to a fishing tackle capable of precise buoyancy control.

In general, a fishing rod is connected to a fishing line, and the fishing needle is placed at a predetermined height in the water together with the rod and functions to make the fish pass through the fishing line.

In order to smoothly perform the above-described functions, such a fishing rod not only has to exhibit a constant buoyancy but also has visibility to the extent that it can be visually confirmed regardless of day or night.

Here, it is necessary to adjust the height of a fishing needle that floats in water depending on a place where fishing is performed or a fish species to be captured. However, since the buoyancy is constant and the buoyancy can not be controlled, the fishing rod has only to be made by grinding the boll and reducing the weight or replacing it with a different weight.

However, there is a problem in that when the bongle is grinded, the lead constituting the bongle pollutes the environment and adversely affects the health. In addition, when the fishing rod is replaced with a rod having a different weight, there is a problem in that it is inconvenient to newly connect the fishing line.

In order to solve the above-mentioned problem, a fishing tackle having a structure in which the main input of air is adjusted so that the buoyancy can be controlled has been developed.

However, conventional fishing tackle, which controls the buoyancy through air injection, can not accurately recognize the main input of air, so it is very difficult to match with the desired buoyancy. And because it is a simple seal with O-ring only, buoyancy is lost or changed without reliable watertightness.

Domestic Registration Utility Model No. 20-0426605, 2006.09.08 Registration. Domestic patent registration No. 10-0706209, Apr. 04, 2007 Registered person.

The object of the present invention is to provide a fishing tackle capable of precisely controlling the buoyancy and facilitating the adjustment of the buoyancy and improving the watertightness structure so that the buoyancy can be precisely controlled without any loss or change of buoyancy. have.

The object of the present invention is not limited to the above-mentioned objects, and other objects not mentioned can be clearly understood from the following description.

In order to achieve the above object, the present invention provides a fishing tackle capable of precisely controlling buoyancy, the fishing tack comprising a body, an upper jig provided at an upper end of the body, and a lower jig provided at a lower end of the body, An upper body having a lower end opened and having a first female screw formed on an inner surface thereof; An intermediate body having a lower end and an upper end opened and having a second female thread formed on an inner surface thereof and a first connection end formed on an outer surface of the first male thread corresponding to the first female thread is threadedly coupled to a lower end of the upper body; A lower body having an upper end opened and a lower end closed and a second connection end having a second male screw corresponding to the second female screw formed on an outer surface thereof and being screwed to the lower end of the intermediate body; At least one or more of at least one between the lower end of the upper body and the upper end of the intermediate body and between the lower end of the intermediate body and the upper end of the lower body are provided so that the inner volume and weight of the upper body, A buoyancy adjusting ring for variably controlling the buoyancy; And an O-ring for water tightness between the lower end of the upper body and the buoyancy adjusting ring, and between the lower end of the intermediate body and the buoyancy adjusting ring.

The lower inner surface of the upper body and the lower inner surface of the intermediate body are pushed upward by the buoyancy adjusting ring when the upper body and the intermediate body are screwed together and when the intermediate body and the lower body are respectively screwed together, A receiving groove portion having a trapezoidal shape and a trapezoidal pressing shaft portion corresponding to the trapezoidal shape are formed alternately so as to be pressed into the lower end of the intermediate body in a curved shape.

The upper surface of the upper body is formed in a dome shape having a relatively gentle slope and the lower surface of the lower body is formed in a conical shape having a relatively sharp slope.

The present invention with the above-described configuration can provide the following effects.

At first, at least one buoyancy adjusting ring is provided between the upper body, the intermediate body and the lower body to which the body is screwed, and the inner volume and the weight of the body are variably controlled according to the number of buoyancy adjusting rings installed Buoyancy can be precisely controlled.

The upper body, the intermediate body, and the lower body are watertightly held by the O-ring, and the O-ring is compressed in a form in which the O-ring is press-fitted into the body by the tightening force due to the screwing, so that the watertightness is reliably maintained.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a side view showing the state of use of a fishing tackle capable of precise buoyancy control of the present invention. FIG.
2 is an exploded view showing a fishing tackle capable of precisely controlling the buoyancy of the present invention.
3 is a cross-sectional view showing an upper body of a fishing tackle capable of precisely controlling the buoyancy of the present invention.
Fig. 4 is a side view including a partial cross-section of a fishing tackle capable of precise buoyancy control of the present invention. Fig.
5 is a side view showing a buoyancy adjustment state of a fishing rod capable of precisely controlling the buoyancy of the present invention.
FIG. 6 is a side view showing another use state of a fishing tackle capable of precise buoyancy control of the present invention; FIG.

According to the present invention, a fishing bucket capable of precise buoyancy control is connected to a fishing line so that the fishing needle is positioned at a certain height in water, and when the fish touches the fishing needle, it is possible to visually confirm the quality of the fish that is carried on the fishing line.

In particular, the fishing buoy capable of precise buoyancy control according to the present invention can precisely control the buoyancy, and is characterized by the fact that there is no fear that buoyancy is lost or changed due to water tightness.

This feature is characterized in that the body is divided into an upper body, an intermediate body and a lower body which are screwed in order, and at least one buoyancy adjusting ring is provided between the upper body and the intermediate body and between the intermediate body and the lower body, And an O-ring is press-fitted between the lower ring and the buoyancy adjusting ring.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

As shown in FIGS. 1 and 2, the fishing tackle 100 according to a preferred embodiment of the present invention includes a lower body 200, an intermediate body 300, a lower body 400, A buoyancy control ring 500 installed between the intermediate body 300 and the lower body 400 and an O-ring 600 installed between the upper body 200 and the intermediate body 300 and the lower body 400, .

First, the upper body 200 forms a body together with the intermediate body 300 and the lower body 400, and buoyancy is generated by self-weight and air filled in the inner space.

At this time, the upper body 200 is provided with an upper jig 210 which allows the fish to be visually recognized, and the intermediate body 300 is screwed to the lower end.

3, the upper body 200 has a closed upper end and a lower open end, and a first female thread 220 for screwing the lower body 400 with the lower body 400 is formed on the inner surface.

On the other hand, the upper surface of the upper body 200 needs to be configured in such a form as to increase the surface resistance with water so as to allow the user to easily perceive the water to flow at the slowest possible speed have.

That is, it is preferable that the upper surface of the upper body 200 is formed in a dome shape having a relatively gentle slope so that the surface resistance with water increases when vertically rising. At this time, it is most preferable that the upper body 200 has a dome shape from an upper edge of the upper body 200 to an upper edge of the upper body 210 by a slope of 30 to 40 degrees with respect to a horizontal plane.

Next, the intermediate body 300 forms a body together with the upper body 200 and the lower body 400, and buoyancy is generated by self-weight and air filled in the inner space.

As shown in FIG. 2, the intermediate body 300 is formed in a cylindrical shape having an upper and a lower end opened and having a constant inner and outer diameter, and a first male screw 311 corresponding to the first female screw 220 of the upper body 200, And a second female screw (not shown) for screwing the lower body 400 to the inner body is formed on the inner surface.

The intermediate member 300 may have a first connecting end 310 and a second connecting end 310 so that the inner volume formed by the intermediate body 300 and the upper body 200 can be adjusted as wide as possible when the upper body 200 is screw- It is preferable that the protrusion 210 is formed as long as the formation length of the protrusion 210.

Next, the lower body 400 forms a body together with the upper body 200 and the intermediate body 300, and buoyancy is generated by self-weight and air filled in the inner space.

At this time, the lower body 400 is provided at its lower end with a lower tooth chest 410 for standing up in water, and the intermediate body 300 is screwed to the upper end thereof.

2, the lower body 400 has an upper end opened and a lower end closed, and a second male screw 421 corresponding to a second female screw (not shown) of the intermediate body 300 is provided at an upper end thereof, The second connection end 420 is formed to extend.

The second connection terminal 420 is connected to the lower body 400 so that the inner volume formed by the intermediate body 300 and the lower body 400 can be adjusted to the widest extent possible when the intermediate body 300 is screw- (Not shown).

On the other hand, the lower surface of the lower body 400 needs to be formed in such a form that the body can stand up straight in water even if waves or the like are present.

That is, it is preferable that the lower surface of the lower body 400 is formed in a conical shape having a sharp end so as to stand up straight in water. At this time, it is most preferable that the lower body 400 is formed in a conical shape by an inclined surface of 50 to 60 degrees with respect to the horizontal plane from the lower edge of the lower body 400 to the lower notch 410.

Next, at least one buoyancy adjusting ring 500 is installed between the upper body 200, the intermediate body 300 and the lower body 400 to adjust the buoyancy.

That is, the buoyancy control ring 500 can control the buoyancy of the body by changing the internal volume formed by the upper body 200, the intermediate body 300, and the lower body 400, .

The buoyancy control ring 500 is formed of the same material as the material of the upper body 200, the intermediate body 300 and the lower body 400 and is formed in a ring shape having a predetermined height, And the second connection end 420 of the lower body 400, respectively.

Therefore, as shown in FIGS. 1 and 5, the buoyancy control ring 500 can adjust the total weight and internal volume of the body by its own weight and height according to the number of installed water, and adjust the buoyancy that varies depending on the weight and internal volume .

Finally, the O-ring 600 is configured to maintain the watertightness when the upper body 200, the intermediate body 300, and the lower body 400 are screwed together.

For this, the O-ring 600 is installed between the lower end of the upper body 200 and the buoyancy control ring 500, and between the lower end of the intermediate body 300 and the buoyancy control ring 500, as shown in FIG. That is, the O-ring 600 is extrapolated to the first connection end 310 of the intermediate body 300 and the second connection end 420 of the lower body 400.

4, the O-ring 600 is fastened to the upper body 200, the intermediate body 300, the intermediate body 300, and the lower body 400 by the tightening force resulting from the screwing of the upper body 200, Is preferably press-fitted into the lower end of the intermediate body (200) and the intermediate body (300).

3, the receiving groove 230 and the pressing protrusion 240 corresponding to each other are alternately and continuously formed on the inner surface of the lower end of the upper body 200 so that the O-ring 600 is rotated by the tightening force And is press-fitted into the lower end of the lower body of the upper body 200 in a curved shape when being compressed, thereby ensuring watertightness.

Although not shown, a trapezoid-shaped receiving groove portion and a compression stone portion corresponding to each other are alternately and continuously formed on the inner surface of the lower end of the intermediate body 300 so that when the O-ring 600 is squeezed by the tightening force, So that the watertightness can be surely guaranteed.

The compression ridge portion is configured to be inclined outward with respect to the vertical surface so that the O-ring 600 can be pressed into the lower end of the upper body 200 and the lower end of the lower body 400 naturally by the tightening force .

As shown in FIG. 6, the fishing tackle 100 capable of precisely controlling the buoyancy according to the preferred embodiment of the present invention includes only the upper body 200 and the lower body 400 without the intermediate body 300, The buoyancy control ring 500 may be installed.

At this time, an O-ring 600 is installed between the upper body 200 and the buoyancy control ring 500 and the O-ring 600 is attached to the upper body 200 and the buoyancy control ring 500 by a tightening force And is press-fitted into the lower end of the upper body 200 so as to be watertight.

The above-described embodiments are merely illustrative, and various modifications may be made by those skilled in the art without departing from the scope of the present invention.

Therefore, the true technical protection scope of the present invention should include not only the above-described embodiments but also various other modified embodiments according to the technical ideas described in the following claims.

100: Fishing rods
200: upper body
210: Top jaw
220: First female thread
230: receiving groove
240:
300: intermediate
310: first connection terminal
311: First male thread
400: Lower body
410:
420: second connection stage
421: 2nd male thread

Claims (3)

A fishing tackle comprising a body, an upper jig provided at an upper end of the body, and a lower jig provided at a lower end of the body,
The body having an upper end closed, a lower end opened, and a first female screw formed on an inner surface thereof; A lower end and an upper end are opened and a second female screw is formed on the inner surface and a first connection end having a first male screw corresponding to the first female screw is formed on the outer surface of the lower end, An intermediate to be screwed into; And a second connection end having an upper end opened and a lower end closed and a second male screw corresponding to the second female screw formed on an outer surface thereof is elongated by a length corresponding to the formation length of the second female screw and screwed to the lower end of the intermediate body; At least one or more of at least one between the lower end of the upper body and the upper end of the intermediate body and between the lower end of the intermediate body and the upper end of the lower body are provided so that the inner volume and weight of the upper body, A buoyancy adjusting ring for variably controlling the buoyancy; And an O-ring for water tightening between the lower end of the upper body and the buoyancy adjusting ring and between the lower end of the intermediate body and the buoyancy adjusting ring, The buoyancy of the body and the internal volume can be precisely controlled by varying the total weight and internal volume of the body,
The lower end inner surface of the upper body and the lower end inner surface of the intermediate body are pushed upward by the buoyancy adjusting ring when the upper body and the intermediate body are screwed together and when the intermediate body and the lower body are respectively screwed together, Wherein the upper and lower intermediate bodies have a trapezoidal receiving groove portion and a trapezoidal pressing stone portion corresponding to the trapezoidal shape are alternately formed so as to be bent into the lower end of the upper body and the lower end of the intermediate body to ensure watertightness. Fishing tackle with adjustable buoyancy. delete The method according to claim 1,
The upper surface of the upper body
The inclination is formed in a relatively gentle dome shape,
The lower surface of the lower body
Wherein the slope is formed in a relatively sharp conical shape.

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