KR101790600B1 - Swivel and lure using the same - Google Patents

Abstract

The present invention relates to a rotating link loop. The rotation linking ring is for connecting the lines and preventing the twisting thereof. In this specification, the rotating link is generally referred to as a swivel, an incoming link, a rotating link, or the like. Especially, in relation to fishing, it is sometimes called 'fishing'.
In the present invention, there is provided a rotation connection ring for connecting a string, which prevents twisting by rotation, wherein the rotation connection ring forms a ring 30 on both sides, the ring being freely rotatable, And a ball bearing is disposed on the inside of the outer housing so that the ring can be smoothly rotated. Further, the rotating connection ring is economical and can be rotated more easily and variously Discloses a rotatable link loop module that can be applied.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001]

The present invention relates to a rotating link loop. The rotation linking ring is for connecting the lines and preventing the twisting thereof. In this specification, the rotating link is generally referred to as a swivel, an incoming link, a rotating link, or the like. Especially, in relation to fishing, it is sometimes called 'fishing'.

A specific example to which the present invention can be applied includes a fishing line connecting a main line connected with a fishing rod and a neck line connected to a fishing needle to prevent twisting and twisting of a main line and a neck line. The present invention can be widely applied not only to sea fishing but also to freshwater fishing, and can be applied to lure fishing.

In general, swivel is used to prevent twisting of a string. It is composed of a body and a ring on both sides. The ring can be separated from the body without being able to escape from the body.

The arrival of fishing is a tool that connects the line of the fishing line and the collar. The main string is connected to the tip of the fishing rod or the long string corresponding to the main rope of the main string, and the neck string is a short string with the hook of the fishing string. The string of the metal which connects the two strings is called fishing.

Generally, the fishing line is composed of a connecting ring for fastening the main string and the neckline to each other, and a connecting portion for connecting the connecting rings, and each connecting ring rotates separately so that the main string and the neck string are not tangled with each other. Also, when you want to change the neck, etc., you can also connect the snap light for easy replacement.

Such an approach has been invented by a variety of methods in the past, but it is also possible to make an attachment by pressing on a hook in a housing, or a bar-shaped hook in the center hollow of the housing comes out of the housing, And connected to the other side.

According to Korean Patent Registration No. 20-0332623, a rotary shaft having a hook formed at one side and the other side is inserted into a hollow body formed with a hollow, a hook having a tube hole is formed in the rotary shaft, And a connecting portion for connecting the cut-out portion to the cut-out portion, wherein the cut-out portion is formed on one side of the hook, and the cut-out portion is connected to the cut-out portion.

However, the prior art has a disadvantage in that the rotational force is not smooth as the face and the face meet and rotate due to the method of rotating by the engagement portion of the pressed hook and the finishing cap in the housing.

In order to solve such shortcomings, the inventor of the present invention disclosed Korean Utility Model Publication No. 20-1998-0026433. This prior art facilitates rotation by ball bearing. The present invention further aims to provide a more efficient structure by modularizing ball bearings and rings. The comparison between the present prior art and the present invention will be described in more detail with reference to "Detailed contents for carrying out the present invention" which will be described later.

Registration Utility Model Bulletin (Y1) No. 20-0332623 (October 29, 2003) Public utility model publication (U) 20-1998-0026433 (1998. 08. 05)

The present invention intends to disclose a rotation connecting ring capable of smooth rotation.

The present invention has a problem in that when the bait rotates due to water or the like, the fishing line is twisted due to rotation of the bait hook together with the bait. In order to solve this problem, .

In the case of the conventional fishing, since the ring is fixed by welding or the fly plate and the ring are integrally manufactured by the casting according to the manufacturing process, it takes a lot of manpower and time to manufacture, which makes it difficult to mass- There is an expensive problem to solve this.

Further, in order to solve the problem that the rotation of the conventional fishing line is not smooth due to the rotation while being in contact with the surface of the ball, the ball bearing is intended to be modularized so as to utilize such a structure for various purposes.

It is also intended to be used for fishing lures and fishing boats, not only for connection of the fishing line and collar.

In addition, it is desirable to easily form various snaps and anchors as necessary. That is, we propose a method to manufacture various products relatively easily without changing the mold design. For example, it is possible to broaden the application range by connecting various snaps or rings to one side and the other side of the housing, or by connecting the snap and the ring only on one side.

In addition, the fishing line can be directly fixed to the rotation link without any intermediary means, and the rotation link link with the ball bearing itself can be made of various rings or snaps.

A ring or a snap is rotatably and integrally fixed to one side and the other side of the housing of the incoming side to widen the utilization range of the side.

The present invention has been made to solve the above problems, A rotation linking ring for connecting lines, but preventing twisting by rotation, is characterized in that the rotation linking ring has a ring on both sides, the ring being freely rotatable, and an outer housing for rotatably connecting the ring And a ball bearing is disposed on the inside of the outer housing so as to smoothly rotate the ring.

The loop may be integrally formed with the rotation link, and the loop is formed to be directly connected to the loop.

And the ring may be formed integrally with the rotation linking ring.

The ring may be any one of a snap ring, a corkscrew ring, a ring ring, and an open ring, and may be formed integrally with the rotation link ring.

The ball bearing is modularized inside the outer housing to form a ring bearing module, the ring being coupled to the ring bearing module, the ring bearing module being fixed within the outer housing such that the ring is exposed to the outside of the outer housing And is fixed.

Wherein the ring bearing module includes at least two bearing balls, a module shaft stacked on the bearing balls for point contact, and a module housing forming a space for inserting the bearing balls and the module shaft, And the ring is smoothly rotated by the ball bearing.

And a finishing cap covering the upper end of the bearing ball, wherein a finishing cap hole is formed in the finishing cap to insert the module shaft, the finishing cap is inserted into the module housing, and the module housing finishing finishing portion is compressed Thereby forming the ring bearing module.

A shaft center hole is formed in the module shaft and the ring is elongated to form an annular extension, the annular extension being inserted through the shaft center hole to allow the annulus to be rotatably coupled to the module shaft .

And an end of the annular extension portion is press-pressed to form a press-fit extension portion, and is coupled to the module shaft so as to be rotatable without falling out of the shaft center hole.

The bottom of the module housing has a through hole to form a module housing bottom hole and the compression extension is located within the module housing bottom hole so that even though the bottoms of the two ring bearing modules are butted to form a rotating connection ring, So that no additional interference is caused.

The ring may include a body and a ring, and the ring may be rotatably connected to the extension.

In order to solve the above-described problems, the present invention discloses a ring bearing module as described above, and discloses a luer characterized in that a ring that is rotated by the ring bearing module is formed.

The rotating connection ring according to the present invention discloses a ring capable of smooth rotation. The ring bearing module of the present invention can be used not only for fishing but also for various line kink prevention mechanisms.

The rotation linking ring according to the present invention can rotate two or more portions separately and can smoothly prevent the fishing rod from twisting due to the movement of algae or fish during fishing.

In addition, since the fishing of the present invention has no part for welding in comparison with the existing fishing, the manufacturing cost is reduced.

In addition, while the present invention has a frictional force due to the surface contact, the present invention uses not only ball bearings but also the rotation of each component separately, so that the fishing is smoothly rotated than the existing fishing.

In addition, in the fishing of the present invention, not only the ball bearings of the present invention, but also existing fishing hook rotating rings can be used in combination. That is, it is possible to simultaneously use the existing connection link for the fishing line and the ball bearing of the present invention.

Further, by applying the ring bearing module of the present invention not only to the fishing but also to the connecting rings such as the collar of the lure, it is possible to manufacture a lure in which the ball bearing is embedded instead of the simple fishing.

Also, by connecting a weight to the fishing rod of the present invention, a ball bearing having the ball bearing can be manufactured.

FIG. 1 and FIG. 2 show a conventional rotation link, FIG. 1 is a perspective view, and FIG. 2 is a cross-sectional view.
Figure 3 conceptually illustrates the features of the present invention in comparison with the prior art.
FIG. 4 illustrates a rotating link according to an embodiment of the present invention. In FIG. 4, a ring bearing module, which is one embodiment of the present invention, is applied to a lower portion of the rotating link.
FIGS. 5 to 7 show a ring bearing module according to an embodiment of the present invention. FIG. 5 is an assembled view of a rotary coupling ring, which is one embodiment of the present invention. FIG. 6 is an exploded view of a ring bearing module And FIG. 7 is a cross-sectional view of a ring bearing module according to an embodiment of the present invention.
8 is a cross-sectional view of a ring bearing module according to an embodiment of the present invention in which a ring is coupled.
9A and 9B show another embodiment of the present invention. FIG. 9A shows that a ring bearing module, which is one embodiment of the present invention, is applied to the upper and lower portions, FIG. 9B shows an embodiment .
FIG. 10 shows a luer to which a ring bearing module according to an embodiment of the present invention is applied.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. The present invention may be embodied in other specific forms without departing from the spirit and scope of the invention as defined in the appended claims. It is provided to inform.

FIG. 1 and FIG. 2 show a conventional rotation link, FIG. 1 is a perspective view, and FIG. 2 is a cross-sectional view. In this specification, the rotating link is referred to as a swivel, an incoming link, a revolving link, or the like. Especially, in relation to fishing, it is sometimes called 'fishing'. The technical features of the present invention to be described later can be applied to a technique for preventing twist of a line in any form. In the present invention, the present invention will be referred to as a " rotation linking ring "

Figs. 1 and 2 are taken from the drawings of the public utility model publication (U) 20-1998-026433 mentioned in the background art. This prior invention was invented by the inventor of the present invention, and the present invention is further improved. The present invention has a common point in that the ball bearing is provided by placing the prior art and the bearing ball shown in Figs. 1 and 2, thereby facilitating the rotation.

However, as shown in FIG . 2A, in the prior art, after a ring-shaped ring is connected to the rotation link, a line (for example, a fishing line) is fixed to the ring- do. However, in order to fix the ring-shaped ring for connecting the strings, it is necessary to form a hole perpendicular to the shaft on the shaft. In addition, in order to prevent the ring-shaped ring from being inserted into the hole, Welding is also required. This is because a ring-shaped ring in which the cut surface is twisted is inserted into a hole perpendicular to the shaft axis, and then the cut surface is welded after being welded. Therefore, there is a need for a structure that can easily reflect this during the machining of the shaft. To this end, the present invention forms a center hole in the shaft, which makes it possible to easily replace the process with a machining device in the process of manufacturing the rotary link.

Also, in FIG. 2B , the ball bearing is embedded in the body itself, and the present invention intends to modularize it. That is, the above-described prior art has a drawback in that the mold is made only of the rotation link after the rotation linking mold is manufactured. The present invention seeks to modularize the configuration of the rotating link to apply the various links to the rotating link. In addition, it can be easily applied to anything to prevent twisting of the line. For example, it is possible to apply the module according to the present invention to a bongle, a lure, a snap or the like itself, thereby enhancing the production efficiency. To this end, the present invention discloses a ring bearing module.

Figure 3 conceptually illustrates the features of the present invention in comparison with the prior art. First, the result of modularizing the ring and the ball bearing in the rotary connection ring 1 in which the ball bearing is featured in the present invention is the ring bearing module 10. FIG. 3 shows the ring bearing modules to be in contact with each other and to form a ring at both ends. The ring bearing module is fixed by an outer housing (20). The ring bearing module is formed with a ring 30 which can be bound or fixed by a knot.

The present invention also discloses an annulus 30 that is integrally formed in a rotary link through a simple machining process by a processing machine, which is perpendicular to the shaft formed in the shaft to connect the fishing line or other gear as in the prior art It is roughly equivalent to putting a ring-shaped ring in a hole. The prior art is connected to said ring-shaped hooks, such as snaps or fishing lines, joined by separate processes. On the other hand, in the present invention, such as a snap or a fishing line is connected to the loop of the rotation link. The loop is integrally formed with the rotation link, and the loop is formed to be directly connected to the loop. The ring may be selectively applied, such as snap, corkscrew ring 31, ring ring 32 and open ring 33. In the present invention, the term " ring " is a concept including a snap or the like (Fig. 9 (a) shows an example in which a snap is connected). These can be formed integrally with the rotation linking ring.

The ring 30 shown in Fig. 3 is formed in the ring bearing module immediately without a separate connecting means (i.e., without a hole perpendicular to the shaft by a separate process such as the prior art). As far as the manufacturing process is concerned, if the prior art requires a shaft machining, a hole drilling perpendicular to the shaft, and a process of joining the rings, then the present invention only requires joining the rings to the shafts machined to suit. This saves a lot of time in the actual process and is also economical. The ring of the present invention can be expressed as a ring integrally formed in the rotation linking ring itself in that there is no process for a separate linking means.

3, the ring is exemplarily shown as the corkscrew-type ring 31, but the present invention is not limited thereto, and the integral ring may have various shapes. Snaps and the like can also be formed integrally. In this specification, the expression 'ring' should be understood to include any connecting means such as a snap.

The conceptual view of FIG. 3 shows a corkscrew type ring formed in the ring bearing module. As shown in the figure, the corkscrew type ring is a part of the rotation link. The corkscrew ring is a ring of helical wire, called a so-called 'screw-in', integral with the rotation link. As shown in FIG. 3, the present invention does not separately connect a corkscrew-type ring to a rotation linkage, but a part of the rotation linkage is a corkscrew-type link. According to the present invention, not only a corkscrew but also a ring-shaped ring and various snaps can be formed as one integral part of the rotation linking ring.

To summarize, according to the conventional art, in order to connect the corkscrew-type ring to the ball bearing rotation link with smooth rotation, a hole is formed in the ball screw shaft (rotary member) perpendicularly to the rotation axis, I had to reconnect the corkscrew collar to the ring. However, the present invention is a form in which a corkscrew-type ring is directly coupled to a ring bearing module including a processed module shaft as described later. That is, in the present invention, the corkscrew is integrally formed in the rotation linking ring.

Furthermore, the corkscrew type ring can rotate separately from the shaft. More details on this are described later. (As shown in Fig. 8, the ring can be rotated separately from the rotation inside the module by the ball bearing).

FIG. 4 shows a rotation coupling ring 1 according to an embodiment of the present invention, and a ring coupling module 10, which is one embodiment of the present invention, is applied to a lower portion of the rotation coupling ring shown in FIG.

When the present embodiment is applied to a fishing line, a portion to which the upper original line is fixed is a conventional ring-like ring, and a portion to which the lower neck line is fixed is a ring bearing module to which the present invention is applied. The present embodiment is characterized in that it comprises a rotation linking ring for linking the lines but preventing twisting by rotation, the linking link being formed with rings 30 on both sides, the linking being freely rotatable, And a ball bearing is disposed inside the outer housing for smooth rotation of the ring.

FIG. 4 is an embodiment to which the present invention is applied and can be used for fishing. And a normal ring-shaped ring is formed in the upper portion. In the present embodiment, the ring bearing module is not applied to the features of the present invention. Simple ball bearings as in the prior art are published. That is, the ball bearings are not separately modularized and the ball bearings are directly placed in the outer housing.

On the other hand, in the case of the lower ring, the ring bearing module, which is a feature of the present invention, is applied. 3, the 'open ring 33' is integrally formed in this embodiment. As mentioned above, the ring bearing module, which is one of the features of the present invention, can be integrally formed with various rings or snaps in a rotatable manner. The open ring is a ring that is fastened by simply pushing in without having to tighten the neckline with a knot.

4 is a portion to which a ring bearing module, which is an embodiment of the present invention, is applied. Hereinafter, the structure of the bearing module according to one embodiment of the present invention will be described. FIGS. 5 to 7 show a ring bearing module according to an embodiment of the present invention. FIG. 5 is an assembled view of a rotary coupling ring, which is one embodiment of the present invention. FIG. 6 is an exploded view of a ring bearing module And FIG. 7 is a cross-sectional view of a ring bearing module according to an embodiment of the present invention.

Fig. 5 shows the lower part of the rotation linkage of Fig. 4 facing upward. That is, in order to more clearly show the ring bearing module according to the present embodiment, the lower part to which the collar is connected is directed upward. 5, the annular bearing module 10 according to the present embodiment is inserted into the outer housing 20 (arrow C) and then fixed at the end of the insertion portion of the outer housing (arrow D). This portion is referred to as an outer housing inclined closing portion 21.

Wherein the ball bearing is modularized inside the outer housing to form a ring bearing module (10), the ring being coupled to the ring bearing module, the ring bearing module being fixed within the outer housing, As shown in FIG.

The ring bearing module is modularized so that it can rotate smoothly by placing a ball bearing in the interior of the ring bearing module, separately from the outer housing, and can be easily fixed. (3) The ring bearing module is integrally formed with the rotation connection ring, So as to be rotatable. That is, when the end of the outer housing inserting portion is pulled out, the annular bearing module can be rotatable in the housing if the degree is appropriately adjusted. This is a separate rotation from the rotation of the ring by ball bearings.

As shown in FIG. 6, the annular bearing module includes a bearing ball (steel ball, steel ball) to bear the ball bearing. 6 and 7, a method of assembling a ring bearing module, which is an embodiment of the present invention, and its parts can be confirmed.

The annular bearing module includes at least two bearing balls 15, a module shaft 12 which is stacked on the bearing balls and makes point contact, and a module housing 11 which forms a space for inserting the bearing balls and the module shaft And the ring is formed in the module shaft, so that the ring is smoothly rotated by the ball bearing.

The bearing ball is provided with the module shaft inside the annular bearing module to reduce the frictional force between the module housing and the module shaft. In the case of conventional fishing without ball bearings, frictional force is high and frictional force is low due to surface friction, while the ring bearing module of the present invention has a ball bearing, so that the frictional force is smaller than that of the existing fishing.

The module housing 11 acts as an outer wall of the annular bearing module and contains the components in the annular bearing module. The module housing inclined closing portion 11a can be compressed to prevent deviation of the module shaft and the ball bearing. The deviation of the module shaft and the bearing ball is prevented by the module housing inclined finishing portion. The module shaft should be able to rotate without being fixed by the module housing inclined closing portion.

The present embodiment further includes a finishing cap 13 covering the upper end of the bearing ball, and a finishing cap hole 16 is formed in the finishing cap to insert the module shaft, and the module housing is inserted into the finishing cap And then the module housing inclined finishing portion is pressed and closed to form the annular bearing module.

FIG. 8 is a cross-sectional view of a state where a loop is coupled as an embodiment of the present invention.

A shaft center hole 14 is formed in the module shaft and the ring is elongated to form a ring extension portion 30a, the ring extension portion being inserted into the shaft center hole to be inserted therethrough, As shown in Fig. The module shaft is a shaft having a shaft center hole that is located inside the module housing and fixes the ball bearing and can be fixed by passing through a ring (a concept including a snap or the like as described above).

The module shaft is formed of a cylindrical column whose central height portion of the housing in which the bearing ball is to be positioned is smaller than the entire diameter of the module shaft and the lower end is larger than the module housing bottom hole 11b described below so that the module housing and the module shaft are not separated. Thereby forming a ball bearing base 12a in a disc shape. It is preferable that the upper end of the module shaft has a trumpet-shaped sloped surface (a finishing cap) that tapers downwardly in order to smoothly finish the module housing when the sloped closing portion is pressed and fixed. At the center of the module shaft is formed a shaft center hole through which the annular extension portion can be inserted.

The ring or the like connected to the annular bearing module through the shaft center hole is constituted by a ring-shaped ring for connecting the neckline and the main line in the case of fishing, and the ring- A straight extension portion is provided. It is possible to prevent the snap or the ring from being separated by pressing the extension portion of the shaft or the annulus so that the extended portion of the snap or annulus is fitted to the front surface of the shaft center hole and comes out to the rear surface of the shaft center hole.

That is, the end of the annular extension 30a is pressed and press-formed to form the press-expanding portion 30b and is coupled to the module shaft so as to be rotatable without falling out of the shaft center hole.

For example, connecting the rings to the prior art fishing hooks had to make holes in the sides of the fishing hooks, wire them into the holes, weld the parts to be bent by the machine, and the process was time consuming In addition, the process of piercing the side of the fishing line can not be done at the same time in the process of machining the shaft, there is inconvenience that the second operation is required after the housing is completed, and the welding process is added, There is a disadvantage in that the cost of making it becomes expensive. However, in the case of the present invention, there is no need to drill a hole in the side surface of the housing, and the process of drilling the shaft center hole is possible in the process of manufacturing the module shaft, so that the manufacturing process of the existing fishing can be simplified. In addition, it is not a method of welding a wire by inserting a wire on a side, but a ring or a snap is directly inserted into a center hole and is compressed.

The bottom of the module housing has a through hole to form a module housing bottom hole 11b. The pressing extension portion is located in the module housing bottom hole, so that even if the bottoms of the two ring bearing modules are butted to form a rotation connection ring, So that the crimp extension portion is not interfered. It is preferable that a height of the compression expansion portion is smaller than a bottom thickness of the module housing.

A bottom hole is formed at the bottom of the module housing so that a hook or a snap can escape. The bottom hole is larger than the center hole of the module shaft bottom. However, it is smaller than the disk-shaped bottom of the module shaft. That is, when the snaps or rings come out through the center hole of the module shaft to the bottom of the module shaft, the module shaft and the bottom hole of the module housing are also passed through. The module shaft is not released by the bottom surface of the module housing.

In addition, rotation between the loop connected to the module housing and the module housing is possible, thereby increasing the rotatable portion compared to the existing fishing. The present invention is a structure capable of rotating both the ring bearing module and the outer housing, the module housing, the module shaft, the module shaft and the ring. This will be described in detail later.

In this embodiment, the number of the bearing balls is six, but the number of the bearing balls can be adjusted as needed. The bearing ball surrounds the middle cylinder of the module shaft and has a larger diameter than the lower end ball bearing base of the module shaft , So that the outer wall surface of the lower end of the module shaft and the inner wall surface of the lower end of the module housing are not in contact with each other. This is to reduce the frictional force generated by the contact between the inner wall surface of the lower end of the module housing and the lower outer wall surface of the module shaft, and the area where the bearing ball, not the lower outer wall surface of the module shaft, makes point contact with the inner wall surface of the module housing It is for the purpose of making small. The coupling of the bearing ball and the module shaft into the interior of the module housing is possible by suitably compressing the module housing sloped finish.

An embodiment of the present invention having the above-described structure will be applied to a fishing gear, and its effect will be examined as an advent of fishing.

The rotary linking ring, which is one embodiment of the present invention, has a fishing line in a line loop provided at one side, and a branch line and a fishing line are connected to each other in such a manner that a neckline is inserted into a neckline loop provided at the other side. In other words, the fishing line is fixed to the one side of the fishing line according to the present invention, and the fishing line is fixed to the other side of the fishing line, thereby making it easier and quicker to connect the fishing line. This is because the fishing line can be directly connected to the ring formed integrally with the rotation link.

Conventional fishing arrivals are constructed such that the rings are provided on both sides of the intermediate joining portion (corresponding to the outer housing of the present invention), or the upper and lower rings are simply pressed and rotated so as to make contact with the upper and lower faces The contacted ring and the housing come into surface contact with each other, so that a lot of friction is generated in the rotation of the incoming, which hinders smooth rotation. The present invention basically inserts a bearing ball between the module housing and the module housing, thereby reducing friction and enabling a more smooth rotation of fishing.

More specifically, the ring bearing module according to the present invention is divided into a module housing and a module shaft, and a bearing ball is inserted between the module shaft and the module housing to minimize friction between the module housing and the module shaft. In addition, not only the rotation of the module shaft due to the ball bearing structure in the ring bearing module occurs but also the module housing itself is not fixed so as to strongly contact the outer housing, so that the ring bearing module itself can rotate to some extent.

A method of inserting a ring-shaped ring (concept including a snap or the like) using a shaft center hole formed at the center of the ring-bearing module and pressing the extended portion of the ring exposed to the rear surface of the module shaft, The ring is connected. The pressing portion of the extension of the annulus is not fixed to the bottom surface of the module shaft but prevents the separation of the annulus from the annular bearing module by enlarging the area of the extension of the annulus extending to the bottom surface of the module shaft. Therefore, the ring of the ring bearing module is rotatable.

In addition, when coupling the ring bearing module with the outer housing, the outer housing presses the outer housing inclined finishing portion to prevent separation of the ring bearing module, but does not securely fix the rotation so that rotation also occurs between the outer housing and the ring bearing module .

In summary, the rotation between the module housing and the module shaft, the rotation between the ring bearing module and the ring, and the rotation between the outer housing and the ring bearing module enable rotation in at least three sections.

In addition, if two ring bearing modules are installed inside the outer housing to complete the fishing arrival, rotation will occur in all six parts.

This is because there are a total of five additional rotatable portions in comparison with the existing fishing fishing vessels which can rotate once between the housing and the circular fishing line, so that the fishing fishing boat according to the present invention can rotate much more smoothly than the conventional fishing vessels.

9A and 9B show another embodiment of the present invention. FIG. 9A shows that a ring bearing module, which is one embodiment of the present invention, is applied to the upper and lower portions, FIG. 9B shows an embodiment .

In the embodiment shown in FIG. 9 (a), an open ring is shown at the upper part and a snap is connected to the ring bearing module at the lower part. In this embodiment, two ring-shaped bearing modules are combined with an outer housing, and the outer housing is wrapped around the ring-bearing module with the outer ring of the ring-bearing module being in contact with the bottom of the ring-bearing module.

At this time, as in the case of fixing the module housing and the module shaft by pressing the module housing inclined finishing portion, the outer housing inclined finishing portion 21 blocks the separation of the annular bearing module. Preferably, the annular bearing module is rotated without being fixed by the outer housing inclined finishing portion.

In the case of this embodiment, it is important that the bottoms of the two ring bearing modules are butted against each other, so that the compression extension is not interfered with the module housing bottom hole as described above.

The embodiment of FIG. 9 (b) shows that the annular bearing module is applied to the boll. Bongdol is a necessity of fishing and it fixes the fishing crucible and plays the same role when throwing fishing line. Such a bongle should change its weight depending on the situation of the fishing ground, but fine adjustment is needed according to the depth of the fishing ground. Such a bag can be used according to a modification of the present invention, in which a long rod-shaped body 34 is formed on one side of a rotation linking ring so that a weight of a circle or a horseshoe, (Not shown) of a horseshoe shape (or a round shape) is inserted into the upper end of the rod so as not to be pulled out, so that the rod and the weight are further connected to each other. It is possible to prevent deviation.

At this time, a ring bearing module having a ring 35 is fitted on one side of the rod, and a ring bearing module having a circular ring is fitted on the other side of the rod to serve as an advent of fishing, It is possible to pursue economy and convenience in fishing.

Further, the present invention can be variously modified by those skilled in the art. The annular bearing module, which is one embodiment of the present invention, may replace the neck connection of an existing lure. This may be understood to mean that the rotary link with the ball bearing is applied to the luer and that the outer housing of the rotary link loop described above is a luer body. FIG. 10 shows a luer to which a ring bearing module according to an embodiment of the present invention is applied. The connection part with the luer can be made the same as one side of the outer housing, and can be fixed using the compression bonding after inserting the ring bearing module. In this case, you do not need to use separate fishing hooks, so you can use the lure conveniently.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is evident that many alternatives, modifications, and variations will be apparent to those skilled in the art. Should be interpreted as belonging to.

1: rotating link
10: Ring bearing module
11: Module housings
11a: Module housing slope finish
11b: Module housing bottom hole
12: Module shaft
12a: Ball bearing base
12b:
13: Finishing cap
14: shaft center hole
15: Bearing ball
16: Closed Cap Hole
20: outer housing
21: outer housing inclined finishing portion
30: Ring
30a:
30b:
31: Corkscrew ring
32: ring ring
33: Open loop
34: Body
34a:
35:
40: Lure

Claims (13)

And a rotation linking member for linking the lines and preventing twisting by rotation,
Wherein the rotation link is formed with a loop connected to the loop, the loop being freely rotatable,
Further comprising an outer housing for rotatably connecting said ring,
A ball bearing is disposed inside the outer housing for smooth rotation of the ring,
Said ring comprising a body and a ring,
A weight is added to the body,
Characterized in that the annular portion is rotatably connected to the body
Rotating link
delete delete The method according to claim 1,
Characterized in that the ring is one of a snap, a corkscrew-type ring, a ring-like ring and an open ring, and is integrally formed with the rotation linking ring
Rotating link
The method according to claim 1,
Wherein the ball bearing is modularized inside the outer housing to form a ring bearing module,
Said ring being coupled to said ring bearing module,
Characterized in that the annular bearing module is fixed within the outer housing, the annulus being fixed so as to be exposed to the outside of the outer housing
Rotating link
6. The method of claim 5,
The ring bearing module
Two or more bearing balls,
A module shaft stacked on the bearing balls to make point contact;
And a module housing forming a space in which the bearing ball and the module shaft can be inserted,
And the ring is formed on the module shaft so that the ring is smoothly rotated by the ball bearing.
Rotating link
The method according to claim 6,
And a finishing cap covering the upper end of the bearing ball,
A finishing cap hole is formed in the finishing cap to insert the module shaft,
Wherein the module housing is formed with the annular bearing module by inserting the finishing cap into the module housing and then pressing the module housing inclined finishing portion into the annular bearing module.
Rotating link
The method according to claim 6,
A shaft center hole is formed in the module shaft,
The annulus being elongated to form a ring extension,
Characterized in that the annular extension is inserted through the shaft center hole and the annulus is rotatably coupled to the module shaft
Rotating link
9. The method of claim 8,
And an end of the annular extension portion is pressed and press-formed to form a press expansion portion and is coupled to the module shaft so as to be rotatable without falling out of the shaft center hole.
Rotating link
10. The method of claim 9,
The bottom of the module housing has a through-hole to form a module housing bottom hole,
Characterized in that the crimp extension is located in the module housing bottom hole so that the crimp extension is not interfered even if the bottom of the two ring bearing modules are butted to form a rotary connection ring
Rotating link
delete Characterized in that a ring which is rotated by the ring bearing module of claim 5 is formed
Lure
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