JP2000000040A - Super-elastic ring for connecting fishing tackle - Google Patents

Abstract

PROBLEM TO BE SOLVED: To improve the defect of conventional ring made of steel wire or SUS wire for connecting a fishing tackle such as lure or fishing hook, concretely, to provide a tackle-connection ring remarkably absorbing the shock at the hit of a fish, resistant to deformation and enabling easy attaching and detaching. SOLUTION: This super-elastic ring for connecting a fishing tackle is a coil ring made of an NiTi alloy wire exhibiting super-elastic nature at room temperature. The contour of the ring has elliptic or oval form having major axis D1 and minor axis D2, the end parts 21, 22 of the wire are positioned on the circumference A, A' of the ring at the side of minor axis perpendicularly crossing with the major axis D1 and the minor axis D2 and the winding number of the coil is 1.7-2.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an improved super elastic ring for connecting fish gear, such as a lure, a hook and the like, used for fishing.

[0002]

2. Description of the Related Art Conventionally, a connecting ring such as a lure is formed by winding a steel wire or a stainless steel wire for a spring having a round cross section into two round coils having a perfect circular contour as shown in FIG. Ring 1 is used. This use state is shown in FIG.
As shown in the figure, the fixing ring 5 of the lure 4 and the hole 7 of the fishing hook 6
, Or as shown in FIG. 14, for connecting the warp yarn 8 and the trunk yarn 9. This steel wire or stainless wire ring is excellent in strength, but because of its high rigidity,
When a fish is caught or caught, a sudden force is generated, and the force cannot be absorbed, so that the fish caught on the needle may be damaged or the fish may come off. In some cases, the thread may be broken.

Further, in order to connect a lure, a fishing hook or the like to the connecting ring 1 made of the conventional steel wire or stainless steel wire, the wire end 2 or 3 of the connecting ring is wound twice.
Leave a gap between the lure fixing ring 5 and the hook hole 7
Through the gap. However, to leave a gap in the connection ring made of the above-mentioned rigid steel wire or stainless steel wire, hold the gap, and pass it through the lure fixing ring and the hole of the fishing hook, it is not easy by hand, especially It is more difficult with a connecting ring having a small outer diameter, and in the present situation, it is connected using a tool in preparation for going fishing.

In order to facilitate the above connection, a connection ring is proposed in which a NiTi-based shape memory alloy wire having a round cross section having a shape memory effect at room temperature is wound twice in a circular shape with a circular contour shape. (Utility Model Registration No. 3026752). As described in the detailed description of the specification, the content is cooled (for example, cooled with a cooler) to a temperature equal to or lower than the shape recovery temperature of the alloy wire (Example 35 ° C., 10 ° C.), and the material becomes soft. The ring is deformed in the temperature range and lures are connected. Thereafter, the ring is heated to a temperature equal to or higher than the shape recovery temperature (heated with a lighter or left at room temperature of 20 ° C.) to recover the ring shape to the original shape.

According to this proposal, the connection with a lure, a fishing hook and the like is very easy because the gap automatically opens and closes depending on the temperature, but in actual use in fishing,
When a force is applied to the ring, the elastic modulus of the NiTi-based alloy wire itself is originally lower than that of the above-mentioned steel wire or stainless steel wire, so that sufficient strength to maintain the ring shape is insufficient. That is, there is a problem that the circular ring shape is easily deformed.
In addition, there is also an inconvenience that a tool for cooling or heating the ring and work are required to use the shape memory effect.

[0006]

SUMMARY OF THE INVENTION One of the objects of the present invention is to provide a connecting ring that is flexible at normal room temperature for fishing (for example, 5 to 30 ° C.) and has an impact force when fish is applied. By relieving, the disadvantages of the ring due to the steel wire and stainless wire (fish damage, fish detachment, breakage of thread)
Another object of the present invention is to improve the strength of a ring having a reasonable strength to maintain the shape of the connecting ring made of a NiTi superelastic alloy wire at normal room temperature for fishing. Finding the shape and cross-sectional shape of a wire. That is, as described above, the elastic modulus of the NiTi-based alloy material is smaller than that of a steel wire or a stainless steel wire, and is disadvantageous for deformation of the ring shape. It is to be improved by making the shape. Further, another object of the present invention is that, as described above, it can be relatively easily attached and detached with bare hands without using special means (tools, cooling tools, heating tools) for attaching and detaching to and from fish tools such as lures and fishing hooks. An object of the present invention is to find a connecting ring using a NiTi superelastic alloy wire.

[0007]

The present invention for solving the above-mentioned problems is as follows. That is, the invention of claim 1 is a coiled ring made of a NiTi alloy wire exhibiting superelastic properties at room temperature, and the ring has an elliptical or elliptical contour shape having two axes of a long axis and a short axis. The end of the wire is located on the upper side of the ring on the short axis side orthogonal to the long axis and the short axis, and the number of windings is 1.7 or more and 2 or less. It is a ring.

According to a second aspect of the present invention, there is provided the super elastic ring for connecting fish gear according to the first aspect, wherein in the contour shape of the ring, a shape of a ring upper portion on a long axis side is an arc. is there.

Further, in the invention according to claim 3, the cross-sectional shape of the wire is any one of an ellipse, an ellipse, and a rectangle, and the long axis of the cross-section of the wire and the plane forming the ring are the same plane. The super elastic ring for connecting fish gears according to claim 1 or 2, wherein the super elastic ring is connected to a fish tool.

[0010]

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, each of the above-mentioned inventions will be described in detail with respect to the reason why the invention is configured as described above, the function and effect, and specific embodiments. First, in the first aspect of the present invention, as a wire forming the connecting ring, a NiTi-based alloy wire exhibiting superelastic properties at room temperature is used. Here, the room temperature means the most normal room temperature at which fishing is performed, and is specifically about 5 ° C. to 30 ° C. In addition, when referring to room temperature, the temperature range outside this range also corresponds to room temperature, but here, particularly, it refers to the above-mentioned temperature range.

The superelastic property means that when a load is applied to a material at room temperature, the material gradually expands, but when a certain load is applied, the material expands greatly and returns to its original state when the load is removed even if a deformation of about several percent is given. (Elongation becomes 0). FIG.
(A) is a general stress-strain curve of a NiTi superelastic alloy exhibiting such characteristics. FIG. 1 (b)
Is a general stress-strain curve of a NiTi-based shape memory alloy at room temperature, and the strain remains when unloaded, but returns to its original state when heated to a temperature higher than the transformation point (shape recovery temperature) (the elongation becomes 0) ). FIG. 1 (c) is a general stress-strain curve of stainless steel (SUS) at room temperature. The strain with respect to the stress is small, and the permanent strain remains when unloaded.

In the present invention, the use of the superelastic alloy wire rod absorbs and reduces the impact force of fish, thereby eliminating the above-mentioned disadvantages of the conventional steel and stainless steel connecting rings. It is to improve.

FIG. 2 shows stainless steel (SUS) material and Ni
This is a diagram schematically showing a comparison of tensile properties of a Ti-based superelastic alloy material, and the shaded portion indicates the magnitude of energy absorption. When a load is applied to a wire having the same wire diameter, the elongation of the SUS material under the same load is approximately 1% of that of the NiTi superelastic alloy material.
/ 3, and permanent unloading remains when unloaded. On the other hand, the NiTi superelastic alloy material elongates about three times of the SUS material,
No permanent set remains when unloaded. The easy elongation of the NiTi superelastic alloy material absorbs a large amount of energy, which is effective in reducing the impact force.

The NiTi-based alloy used here has a Ni—T alloy composition ratio of about 50:50 in atomic percent of Ni and Ti.
It is an i-alloy or a Ni-Ti alloy in which a part of Ni or Ti of this Ni-Ti alloy is replaced with a slight amount of V, Cr, Mn, Fe, Co or the like. Note that the cross-sectional shape of the wire includes a circle, an ellipse, an ellipse, and a rectangle as shown in FIGS. The ellipse, ellipse, and rectangle are shown in FIG.
Has a major axis d ₁ and a minor axis d ₂ as shown in FIG.

As shown in FIGS. 7 and 8, the connecting ring of the present invention is formed by winding the above-mentioned wire into a coil shape to form a ring 20. The contour of the ring is an ellipse (FIG. 7) or an ellipse (FIG. 7). In FIG. 8), the wire is wound so that it has two axes, a major axis D ₁ and a minor axis D ₂ , and the ends 21 and 22 of the wire are located on the upper ring periphery B on the minor axis side where the major axis and the minor axis are orthogonal to each other. . The elliptical shape includes various shapes from a slightly crushed perfect circle to a greatly crushed perfect circle. Contour shape of the ring,
To the position of the end portion of the wire in this way, in the use state of the ring (when performing fishing), but it would pull the connecting ring 20 at two points, the long axis D ₁ side and the pull position ring circumferential top a, ^a, by a, in order to make it difficult to deform as much as possible a ring shape.

FIG. 3 shows a ring 10 (outer diameter 5.5 m) made of a NiTi superelastic alloy wire (diameter 0.7 mm).
m, 2 turns). When this is pulled 1.5 mm in the x direction (the axial direction where the ends 11 and 12 of the wire are located) and the y direction (the axial direction perpendicular to this) at two points on the circumference of the ring as shown in FIG. The magnitude of the tensile load was determined and then unloaded. The load-elongation diagram of the ring at this time is shown in FIG.
(X) and (y) are shown.

FIG. 4 shows that the required tensile load is smaller when the wire is pulled by 1.5 mm in the direction (y direction) perpendicular to the axial direction (x direction) where the ends 11 and 12 of the wire are located. Will be significantly larger. Conversely, it can be seen that, when the ring is pulled in the y direction, the displacement under the same load is smaller, and the ring is less likely to be deformed. From the above, in the present invention, the shape of the contour of the ring is made to be an ellipse (FIG. 7) or an ellipse (FIG. 8) in actual use when a load is applied to the ring. Ends 21 and 2 of wire
Axis (long axis D ₂ ) in the direction perpendicular to the axis (short axis D ₂ )
₁ ) The ring is to be pulled by the upper ring periphery A, A ^, on the side.

The reason that the ends 21 and 22 of the wire are located on the upper ring periphery B on the short axis side perpendicular to the long axis D ₁ and the short axis D ₂ is for the same reason as described above. This is because when a fishing tackle such as a lure is connected to the ring with bare hands, this is easier to connect.

In the present invention, the number of turns of the coiled ring is set to 1.7 or more and 2 or less. The reason for this is that if the number of turns is large (for example, three), it takes time and effort to insert the connected member, and if the number is small, it is difficult to maintain the ring shape and the strength is weak. In addition, setting the number of windings in this manner makes it easy to connect a fishing tackle such as a lure to the ring with bare hands.

Next, the invention of claim 2, the preferred ring-peripheral shape of the long axis D ₁ side of the ring 20. The ring shape is preferably a circular arc rather than a square one. This is because when a load is applied to the ring, the point where the load acts is on the long axis.

Next, a third aspect of the present invention is a preferred embodiment of the first or second aspect. That is, the cross-sectional shape of the wire is generally circular, but is more elliptical, elliptical,
It is more preferable that the shape is rectangular, from the viewpoint of improving the deformation strength of the ring shape. When the wire is wound in a ring shape, as shown in FIG. 9B, the wire is wound so that the major axis d ₁ of the cross section of the wire and the plane S forming the ring are the same. Is preferred. This is because, when the ring 20 major axes D ₁ of the ring circumferential top A of (ellipse or oval), ^A, a tensile stress is applied, in order to make it difficult to deform the ring-shaped.

With respect to the attachment / detachment of the connecting ring and the fish tool according to the present invention, this NiTi superelastic alloy material
Since the elastic modulus is smaller than that of SUS, it can be easily connected with bare hands without using a tool. That is, as in the present invention, since the ring shape is an ellipse or an ellipse,
As shown in FIGS. 10, (a) and (b), by opening the ring upper portion A on the long axis side of the ring by H, the end portion 21 of the wire located on the ring upper portion B on the short axis side can be used. Fish gear can be easily inserted.

[0023]

EXAMPLES Examples of the present invention will be specifically described below along with comparative examples and conventional examples. A ring made of a SUS wire (No. 1) as a conventional example and a ring made of a NiTi superelastic alloy wire (No. 2 as a comparative example, No. 3 and No. 4 as examples of the present invention) were prepared, and the magnitude of energy absorption was made. The deformation strength of the ring shape (the difficulty of deformation) and the ease of attaching and detaching the fishware were tested. The test temperature was 23
° C.

The details of the above test ring are as follows. (1) Ring No. 1 (conventional example) A commercially available SUS fish tool connecting ring (twice-turned) was used. This is a wire rod having a diameter of 0.8 mm and a circular cross section, a ring shape of a perfect circle, and an outer diameter of 6.0 mm.

(2) Ring No. 2 (Comparative Example) A wire (cross-section having a circle) of 0.7 mm in diameter and having a diameter of 0.7 mm of Ni51at% -Ti alloy was wound around a rod having a perfect cross-section and restrained. To obtain a perfect circular coil. This was cut in the middle of 1.7 to 2 turns to obtain a perfectly circular ring having an outer diameter of 5.5 mm. This wire has a transformation point of about 10 ° C., and exhibits superelastic properties at a temperature higher than this temperature.

(3) Ring No. 3 (Example of the present invention) A flat wire-shaped core metal (3.1 mm ×
4.6 mm) and restrained.
The memory processing was performed for 0 minutes to obtain an oval coil. This is cut in the middle of 1.7 to 2 turns, and the long shaft outer diameter is 6.0.
Thus, an oval ring having an outer diameter of 4.5 mm and a minor axis of 4.5 mm was obtained. This wire has a transformation point of about 10 ° C., and exhibits superelastic properties at a temperature higher than this temperature.

(4) Ring No. 4 (Example of the present invention) A line (cross section having a circle) of 0.7 mm in diameter of a Ni51at% -Ti alloy was crushed with a roll, and the cross section was 0.8.
A flat line of mm × 0.5 mm was made. This was wound around a flat cored metal (4.4 mm × 3.6 mm) and restrained.
This winding was performed using a guide so that the major axis of the cross section of the wire and the plane of the coil were in the same direction. This was subjected to a storage process at 400 ° C. for 30 minutes to obtain an oval coil. This was cut in the middle of 1.7 to 2 turns to obtain an oval ring with a major axis outer diameter of 6.1 mm and a minor axis outer diameter of 5.2 mm. The transformation point of this wire is about 10 ° C.
, And exhibits superelastic properties above this temperature.

The ring was pulled 1.5 mm at two points on the ring in the y-direction and unloaded according to the test procedure shown in FIG. 3, and the load-deformation (elongation) curve of the ring was determined. This is shown in FIG. From this data, the degree of energy absorption (in the case of a load of 8 kgf) and the deformation strength of the ring shape were evaluated. The evaluation is shown in Table 1 as pass (合格, Δ) or unacceptable (×) depending on the degree. on the other hand,
The detachability of the lure and other fish tools and the connecting ring was tested with bare hands. The evaluation passed (o,
Δ), not possible (×) are shown in Table 1.

[0029]

[Table 1]

As apparent from Table 1, the super elastic rings (No. 3 and No. 4) for connecting fish gear of the present invention have three characteristics, and are higher than the conventional SUS ring (No. 1). It turns out that it is excellent. In addition, No. of a comparative example. 2
Is a ring made of NiTi superelastic alloy wire,
Since the ring shape is a perfect circle, it can be seen that the strength for maintaining the ring shape is weak, that is, the ring is easily deformed.

[0031]

As described above in detail, the superelastic ring for connecting fish gear of the present invention uses a NiTi alloy wire having an elastic modulus smaller than that of a conventional steel wire or stainless steel wire but having superelastic properties. Because of this, it can be expected to absorb large energy, reduce the impact force when fish is applied, and improve damage to fish, detachment of fish, and breakage of thread. Further, the ring of the present invention can sufficiently maintain the shape of the ring in use by specifying the cross-sectional shape of the wire to be used, the contour of the ring, and the position of the end of the wire. Furthermore, the ring of the present invention has an effect that it can be relatively easily attached and detached with bare hands without using special means (tools, cooling tools, heating tools) for attaching and detaching to and from lures, fish hooks and other fish implements.

[Brief description of the drawings]

FIG. 1 shows a stress-strain curve of a metal material.
(A) is a NiTi superelastic alloy material, (b) is a NiTi shape memory alloy material, and (c) is SUS.

FIG. 2 shows the degree of energy absorption in FIG.
This is a comparison between a US material and a NiTi superelastic alloy material.

FIG. 3 shows a tensile test method in a x direction and a y direction for a perfect circular ring (two turns) made of a NiTi superelastic alloy wire.

FIG. 4 shows a test method according to FIG.
Indicates the magnitude of the load when pulled 5 mm. (X) is x
(Y) is the load in the y direction.

FIG. 5 shows various cross sections of a wire used for the connecting ring.

FIG. 6 is a cross-sectional view showing a major axis d ₁ and a minor axis d ₂ when the wire is a flat wire.
Is shown.

FIGS. 7A and 7B are connection rings having an elliptical ring shape according to the present invention, wherein FIG. 7A is a plan view and FIG.

FIG. 8 is a connecting ring having a flat circular shape according to the present invention, wherein (A) is a plan view and (B) is a side view.

9 is a cross-sectional view taken along the line CC in FIG. (A) shows the case where the cross section of the wire is a round wire, and (b) shows the case where the cross section of the wire is a flat wire.

FIG. 10 (a) is a perspective view of a connecting ring according to the present invention, and FIG. 10 (b) shows a procedure for attaching and detaching a fish tool.

FIG. 11 shows a SUS ring (No. 1), NiTi.
Ring (Nos. 2 to 4) with a superelastic alloy wire
mm indicates the magnitude of the load when pulled.

FIG. 12 is a perspective view of a conventional perfectly circular fish tool connecting ring.

FIG. 13 shows a state in which a lure and a fishing hook are connected by a connecting ring.

FIG. 14 shows a state in which a warp yarn and a trunk yarn are connected by a connecting ring.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 1, Conventional ring 2 for connecting fish gear 2, 3 End of wire rod 4 Luer 5 Luer fixing ring 6 Fishing hook 7 Hole of fishing hook 8 Road thread 9 Trunk thread 10 Round ring 11, 12 End of wire rod 20 of the present invention minor axis a of the long axis d ₂ wire material cross-section of the minor axis d ₁ wire rod section of the major axis D ₂ ring end D ₁ ring fish tool coupling superelastic ring 21 wire rod, ^a, of the long shaft ring circumference Upper part B Upper part of the ring around the minor axis S Plane of the S ring

 ──────────────────────────────────────────────────続 き Continuing from the front page (72) Inventor Kaisuke Shiroyama 5-18-8 Higashi-Hachiman, Hiratsuka-shi, Kanagawa Prefecture Inside Furukawa Techno Material Co., Ltd. (72) Yoshiaki Kikuchi 5-1-1 Higashi-Hachiman, Hiratsuka-shi, Kanagawa No. Furukawa Techno Material Co., Ltd. (72) Inventor Hiroshi Horikawa 5-1.8-8 Higashi-Hachiman, Hiratsuka-shi, Kanagawa Prefecture Co., Ltd. (72) Inventor Hisashi Mogi 2-6-1 Marunouchi, Chiyoda-ku, Tokyo No. Furukawa Electric Co., Ltd. (72) Inventor Takashi Hirano 3-14-16 Maesawa, Higashi-Kurume-shi, Tokyo Daiwa Seiko Co., Ltd. F-term (reference) 2B109 FA10

Claims (3)

[Claims] 1. NiTi exhibiting superelastic properties at room temperature
A coil-shaped ring made of a series alloy wire, wherein the contour of the ring has two axes of an ellipse or an ellipse, a major axis and a minor axis, and the end of the wire is a short axis perpendicular to the major axis and the minor axis. A super elastic ring for connecting fish gear, wherein the number of turns is 1.7 or more and 2 or less. 2. The super elastic ring for connecting fish gear according to claim 1, wherein, in the contour shape of the ring, the shape of the upper part of the circumference of the ring on the long axis side is an arc. 3. The wire has a cross-sectional shape of any one of an ellipse, an ellipse, and a rectangle, and is wound so that a long axis of a cross section of the wire and a plane forming a ring are the same. The super-elastic ring for connecting fish gear according to claim 1 or 2, characterized in that: