JP2009082117A - Fishing lure, and kit for customizing fishing lure - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To promote nibbling (attack) by a fish without providing an expensive mechanism. <P>SOLUTION: A fishing lure having a structure where an eye part of the fishing lure is covered with a transparent resin exhibits improved nibbling (attack) by a fish. A curvature radius of the transparent resin part covering the eye part of the fishing lure not larger than two times the diameter of the eye part of the fishing lure enhances visibility for a fish to further promote nibbling (attack) by a fish. Projecting covering with a transparent resin of the side surface or the like of the fishing lure main body after coloring it with an oily marking pen or the like emphasizes the colored pattern thereby to enhance visibility for a fish. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

The present invention relates to an eye structure, a material thereof, and a manufacturing apparatus in a fishing lure.

Technical background

An example of a conventional fish lure used for fishing is shown in FIG. The illustrated lure generally includes a luer body 38 shaped like a fish and three fishing hooks 39 attached to the lure body.

The lure body 31 is generally formed of a synthetic resin such as plastic, has a shape imitating a fish as a whole, and expresses a function as a pseudo bait.

The shape and color of the fish are variously used depending on the target location and the target fish species, and in addition, for the purpose of improving the efficiency of fishing, those with movable parts and light emitting functions. Some of them are equipped with various functions, such as those equipped with a function that emits a sound wave that comes from a fish, and those equipped with a vibration function.
JP 2004-350684 A JP 2006-094804 A

However, in fishing using a lure such as a bus, a high-performance one using a battery or having a movable mechanism does not necessarily give a good result.

In addition, due to the complexity of functions, there is a situation where the user cannot easily customize the lure.

Under such circumstances, there has been a demand for a manufacturing apparatus that can provide a simpler and more effective lure and customization enjoyment.

In view of these circumstances, the inventor has made it simpler by taking advantage of the characteristics of fish species that are subject to phishing, such as basses, without using complicated functions such as using electricity or having moving parts. Thus, the present invention has been completed by researching more effective methods and finding that a sufficient effect can be obtained by customizing the lure eyes.

In other words, fish species that are subject to fishing, such as bass, react strongly to the eyes of the prey, so by covering the eyes of the lure body with a transparent material, the eyes are realistic like real live fish I found that I can express it.

Moreover, it discovered that the transparent material which covers a lure eye | texture part took a convex shape with respect to an eye | texture part, and also the biting (attack) from a fish improved.

In particular, the visibility of the lure eyes is improved by making the refractive index of the transparent material covering the luer eyes higher than that of water and making the average radius of curvature less than twice the average diameter of the covering. Also found that fish hits improve.

In addition, since it is assumed that the lure will be moved violently in the water by the user, the silane coupling agent can be used in such a harsh environment for the purpose of improving the adhesion between the transparent resin and the luer eyes. It became a thing.

Furthermore, after coloring the lure eyes and lure side parts with oil-based magic in advance, the parts are coated with a transparent resin, so that visibility to the fish is improved and attack from fish is further improved. .

Furthermore, it became possible to produce the target lure efficiently by using UV curable resin for the transparent material covering the luer eyes.

In addition, for the purpose of enabling easy customization of such lures, by providing the user with a UV curable resin with a viscosity of 1000 mPa · s or more filled in a syringe-type applicator made of a material that blocks light. The user can easily customize the lure eyes at the fishing site.

Furthermore, by providing users with colored UV curable resin in the same manner filled in a syringe-type applicator, the user can expand the range of lure customization, and as a result, the effect of fish biting under a wider range of conditions It became possible to improve.

FIG. 1 is an example of the structure of a lure according to the present invention. The lure body 11 is a part that is used for fishing. Usually, a model that mimics a small fish is used, but in addition to crustaceans such as shrimp and crayfish, cicada, frogs, mice, and various other parts with eyes Nose is used. Here, the average radius of curvature of the transparent material covering the eyes is less than twice the diameter of the eyes, and the eyes are emphasized by the effect of the lens because they are distorted in a convex shape. .

FIG. 2 is a side view of the conventional lure 21 and the lure 31 of the present invention. When the eyes are viewed from points perpendicular to the eyes, 22 and 32, they can be confirmed as indicated by 23 and 33, respectively. In this case, the luer eyes according to the present invention can be visually recognized larger than the actual due to the convex lens effect.

However, when viewed from a point 24 near the horizontal line 34 and a call 34, as shown by 25 and 35 respectively, in the conventional lure, the eye part is hardly visible, whereas in the lure in the present invention, The eyes can be visually recognized by the convex lens effect. This indicates that the angle at which the fish can recognize the lure eyes increases, and as a result, the efficiency of fishing can be improved.

The transparent material used here needs to have a higher refractive index than water in order to obtain a convex lens effect. In order to obtain a particularly high effect, the refractive index is 1.45 or more, preferably 1 .55 or more is desirable. Specifically, various types of polymers such as PMMA, PET, PC, and epoxy are conceivable. In general, acrylic or methacrylic resins are used to facilitate the process of producing the lure. There are many cases. Of course, such a resin may contain a benzene ring or a heterocyclic ring due to a refractive index factor. On the other hand, polyolefin is rarely used because it does not have sufficient adhesion to the eye and the refractive index is not so high as to exhibit a sufficient effect.

脂表面全体に対して平均することで得ることができる。実際の測定としては、例えば探針を走査するなどして透明樹脂表面の３次元データを得、これを解析することで、各点における曲率半径とその平均値を得ることが可能となる。Further, the average radius of curvature according to claim 3 is that the entire transparent resin is

It can be obtained by averaging over the entire fat surface. As an actual measurement, for example, by scanning a probe, three-dimensional data on the surface of the transparent resin is obtained, and by analyzing this, it is possible to obtain the radius of curvature at each point and its average value.

In addition, since the lure is moved violently in water, a silane coupling agent may be used as a primer for the purpose of improving the adhesion between the luer eyes and the transparent resin. When the luer eyes are made of a material that does not have good adhesion to the transparent resin, the adhesion can be improved by applying a silane coupling agent in advance. As the silane coupling agent, commonly used ones such as aminopropyltriethoxysilane and glycidylpropyltriethoxysilane are often hydrolyzed and used.

Moreover, the manufacturing apparatus for customizing to the lure of this invention from the conventional lure is also performed. FIG. 4 shows a kit 41 provided to the user as a set of such manufacturing materials for customization and a manufacturing apparatus. Here, in order to cover the luer eyes, a transparent UV curable resin 42 having a viscosity of 1000 mPa · s or more is filled in a syringe 43 made of a material that blocks light, and is packaged in a set with a nozzle portion 44.

As the transparent UV curable resin used here, acrylic, methacrylic, epoxy, or the like is used, and is provided in a state having a functional group such as an acrylic group, a methacrylic group, or a glycidyl group. In addition, in such a manufacturing kit, a UV curable resin colored in a color such as green, pink, red, gray, or brown with a dye is supplied to a user in a state where each syringe is filled with a different syringe. In addition, it is possible to easily color the eyes by coloring the lure eyes in a favorite color with an oily marker or the like and then enlarging the transparent UV curable resin.

The procedure for customizing the lure of the present invention using the lure customization manufacturing material and manufacturing apparatus shown in the present invention will be described below, but the present invention is not limited to such a procedure.

<Applicator set>
Remove the syringe cover made of light-blocking material filled with UV curable resin and set the nozzle.

<Application of UV curable resin to luer eyes>
The nozzle is applied to the conventional luer eye and the resin is slowly pushed out of the applicator. At this time, since the transparent resin is 1000 mPa · s or more, the transparent resin can be easily raised in a convex shape at the luer eye part. Such a UV curable resin to be applied can improve visibility from a fish when the radius of curvature is within twice the coating diameter.

<Light irradiation to transparent resin>
Using a compact LED, the transparent resin raised on the luer eyes is irradiated. Although it does not specifically limit at this time, when light of 500 nm or less is used, it will become easy to advance hardening rapidly. When the consistency between the UV curable resin and the irradiation light is obtained, the UV curing resin is cured in only a few seconds after the irradiation, and the luer eye part of the present invention can be obtained.

A black bass fishing test was conducted by 6 people from A to F at Lake Ashihara. In order to make the conditions the same, the area was limited and bass fishing was carried out by switching between the conventional lure and the new lure every two hours in the first half and the second half. The results of the comparative test by this experiment are listed in Table 1. In addition, the number caught was only counted when the length was 20 cm or more.

In this experiment, the area around the black bath was improved by 25 to 50%.

Bass fishing on the lake was performed using a conventional lure with a flat luer eye. As a result, only 2 buses were caught in 2 hours. Next, after applying a primer with a silane coupling agent to the conventional luer eye part, the transparent UV curable resin according to the present invention is raised to be convex with respect to the lure eye part using a dedicated applicator. The UV LED was irradiated for 10 seconds to be cured. At this time, the average radius of curvature of the transparent resin portion was about 1.9 times the diameter of the luer eyes. After confirming that the transparent resin was sufficiently cured and firmly adhered to the luer eyes, bath fishing in the same place was attempted. As a result, we were able to catch 5 black basses in 2 hours.

The area around the eyes of the conventional lure was colored green with a magic pen, and the three lines were colored vertically with blue on the side of the lure. It was coated with a UV curable resin from above, and irradiated with a UV lamp to be cured. Fig. 3 shows the finished lure. A transparent UV curable resin in which the coloring applied to the base was hardened in a convex shape was emphasized by the lens effect, and a highly visible decoration could be applied.

FIG. 1 is an example of the structure of a lure according to the present invention. FIG. 2 is a diagram showing the visibility of the lure eye part. FIG. 3 shows an example of a conventional fish-type lure. Fig. 4 shows production materials and equipment for customization. FIG. 5 shows an example of a lure in which colored lines are put around the eyes and on the side of the main body and covered with a transparent resin.

Explanation of symbols

11 Luer body 12 Luer eye 21 Conventional luer 22 Perspective perpendicular to conventional luer eye 23 Eye image seen from vertical viewpoint to conventional luer eye 24 Horizontal viewpoint 25 to conventional luer eye Eye image 31 seen from a horizontal viewpoint with respect to the luer eye part Luer 32 of the present invention Vertical viewpoint 33 with respect to the luer eye part of the present invention Image 34 of the eye part seen from a vertical viewpoint with respect to the luer eye part of the present invention Horizontal viewpoint 35 for the luer eye part Eye image 38 seen from the horizontal viewpoint for the luer eye part of the present invention 38 Conventional lure body 39 Three fishing hooks 41 attached to the conventional lure Kit 42 UV curing agent 43 Syringe 44 Syringe 51 Luer body 52 Colored line 53 Convex transparent resin

Claims (8)

In fishing lures used for fishing,
A lure characterized by covering the eyes of the lure body with a transparent material. The lure according to claim 1, wherein the transparent material covering the luer eyes is convex with respect to the eyes. The lure according to claim 1 or 2, wherein the refractive index of the transparent material portion covering the luer eyes is higher than that of water, and the average radius of curvature is not more than twice the average diameter of the covering portion. 4. The lure according to claim 1, wherein the transparent material covering the luer eyes is made of a UV curable resin. The lure according to any one of claims 1 to 4, wherein a silane coupling agent is used for the purpose of improving the adhesion between the luer eyes and the transparent material. The lure according to any one of claims 1 to 5, wherein the luer eyes or the side surface of the lure body is colored in advance, and a transparent material is raised on the lure. In a transparent material for covering luer eyes with a transparent material and its application device, the transparent material is a UV curable resin having a viscosity of 1000 mPa · s or more, and is filled in a syringe-type applicator made of a material that blocks light. Manufacturing materials and equipment for lure customization, provided to users in the state. 8. The lure customization production material and production apparatus according to claim 7, wherein the UV curable resin is colored.

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