JP2006129867A - Fishing line - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To produce a new fishing line free from various problems of conventional fishing line having a braided rope structure such as poor strength at break and knot strength, low elongation at break, insufficient stiffness and restriction on the producible length, and producible at a low production cost. <P>SOLUTION: The fishing line is composed of a plurality of filaments collected and integrated with each other with a water-dispersible resin adhesive. The fishing line having the above structure has decreased damage of the line owing to the omission of braiding step, exhibits the original strength of the fiber owing to the straightly integrated state and has high productivity. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention is widely used in fisheries, leisure fishing, etc., and is a high performance fishing line that requires very high breaking strength and high knot strength, very low breaking elongation, high wear resistance and dimensional stability, and durability. It is about.

  Examples of the fishing line include a reeling line, a lure fishing line, a fly fishing line, a mountain stream fishing line, a carp fishing line, a fishing line, and a Harris line. The characteristics that are commonly required for these fishing lines are that they are lightweight and have high strength, and that they have durability to maintain the characteristics for a long time. With the advent of fibers that are generally called Teggs and have a strength exceeding 20 g / d, fishing lines using high-strength fibers have been widely used particularly in deep sea fishing and boat fishing. Such a fishing line is generally braided into a braided form such as 3-punch, 4-punch, 8-punch, 16-punch, 32-punch, etc., and is finished by coating with an arbitrary resin. Are mostly high-strength polyethylene fibers. For example, see Patent Document 1.

JP-A-8-140538

In leisure fishing that is becoming increasingly popular, there is a growing need for higher performance for fishing lines and a desire for lower prices. This is because of the following practical problems in the fishing line having a four-punch, eight-punch, and sixteen-punch braid structure made only of high-strength fibers (nylon, polyethylene, etc.) that are widely used in this application. This is due to the fact that the points have become apparent.
(1) A fishing line having a braided structure is widely used for boat fishing and the like. However, the surface is uneven, and there is no stiffness, it is easy to break, and stability of the form, that is, a sufficient stiffness as a fishing line is required. In applications such as carp fishing, fishing lines made of existing braids cannot satisfy the requirements, for example, fishing lines tend to get entangled, fishing line handling becomes worse and difficult to handle.
(2) The filament has the highest strength when used in a straight state, and the braided structure does not use high-strength fibers in a straight line. Therefore, the mechanical properties of the fiber, such as high breaking strength, knot strength, low elongation, etc. 100% cannot be exhibited, so-called strong utilization rate is low.
(3) When trying to increase the stiffness with the braid structure, it is necessary to reduce the braid pitch of the braid, and the filament is bent at a steep angle, resulting in a decrease in breaking strength and an increase in breaking elongation. Invite.
(4) The braid can be produced continuously only with a length that can be wound on a pipe used for producing the braid, so that only a short fishing line can be produced.
(5) Since the braid has low productivity and it is difficult to reduce the processing cost, the fishing line price is high.
The present invention seeks to solve the problems associated with the prior art as described above. In other words, by utilizing the performance of the high strength fibers used more effectively, the mechanical properties such as high breaking strength, knot strength, and low breaking elongation are superior to those of conventional fishing lines with a braided structure using high strength fibers. An object of the present invention is to provide a fishing line having a sufficient length, excellent productivity, and a long length.

As a result of intensive studies with the above-mentioned object in mind, the present inventors have obtained the present invention.
That is, the present invention provides a fishing line characterized in that a plurality of filaments are converged with a water-dispersible resin and the filaments are integrated after drying.
Further, in the present invention, a high-strength polyethylene fiber having a breaking strength of 15 cN / dtex or more, a breaking elongation of 6% or less, and an initial elastic modulus of 500 cN / dtex or more is used in the main part of the filament formed. A fishing line characterized by things.
Moreover, this invention is a fishing line characterized by the water dispersible resin containing 50 mol% or more of ethylene-type resin compositions.
The present invention also provides a fishing line wherein the water-dispersible resin is a copolymer resin composition of an ethylene resin and an unsaturated carboxylic acid resin.
The present invention also provides a fishing line wherein the water dispersible resin is a resin dispersed in an alkaline aqueous solution.
Moreover, this invention is a fishing line characterized by the aqueous alkali solution being a solution containing ammonia.
Moreover, this invention is a fishing line characterized by using together an organic type crosslinking agent with water-dispersible resin.
Moreover, this invention is a fishing line characterized by using multi-valued metal ion together with water-dispersible resin.
Furthermore, the present invention is a fishing line characterized in that the filament formed is twisted in one direction within a range of a twist coefficient of 0.2 to 2.0.

  The present invention can use the original performance of high strength fibers more effectively than those having a braided structure using conventional high strength fibers, and mechanical properties such as high breaking strength, knot strength and low breaking elongation. It is possible to obtain a sufficient length as a fishing line.

The main portion of the filament constituting the present invention is preferably a high-strength polyethylene fiber. In the present invention, the high-strength polyethylene fiber preferably has a breaking strength of 15 cN / dtex or higher and high strength until cutting, an elongation of 6% or less, and an initial elastic modulus of 500 cN / dtex or more. When both the elongation and the initial elastic modulus satisfy the above characteristics, the response when the fish is caught is transmitted directly to the angler, resulting in a high-performance fishing line.
In addition, high-strength polyethylene fibers that satisfy the above characteristics are excellent in terms of durability such as wear resistance, dimensional stability, and light resistance.

  Further, in order to carry out processing such as processing of water-dispersible resin, which will be described later, and cross-linking treatment used in combination, the filament needs to be chemically stable and does not deteriorate in strength during processing. The above fibers are chemically extremely stable and can be suitably used in the present invention. Therefore, the high-strength polyethylene fiber is preferably contained in the filament formed by 60% by weight or more, more preferably 90% by weight or more.

  Examples of a method for obtaining such a high-strength polyethylene fiber include, for example, JP-A-59-216912, JP-A-59-216913, JP-A-59-216914, JP-A-60-45630. JP-A-60-52647, JP-A-60-52613, JP-A-60-59172, JP-A-60-151131, JP-B-3-57964, etc. There are known methods.

Further, the water-dispersible resin used in the present invention is an ethylene resin composition in which an olefin component having 4 or less carbon atoms, such as ethylene and propylene, is copolymerized, and has high adhesiveness with the above high-strength polyethylene fiber Desirable to get. Furthermore, the proportion of the ethylene-based resin composition in the resin component is desirably 50 mol% or more, more desirably 70 mol% or more, and particularly desirably 80 mol% or more.
In addition, since the ethylene-based resin composition is the main constituent, the water-dispersible resin of the present invention has excellent wear resistance and light resistance after drying, and can be used as a fishing line resin used in harsh environments. Exhibits excellent durability.

As the water dispersible resin used in the present invention, a copolymer resin composition of an ethylene resin and an unsaturated carboxylic acid resin is more preferable. The above resin has high affinity with ultra high molecular weight polyethylene fiber and at the same time high affinity with solvent (water, alcohol), impregnated deeply between filaments of ultra high molecular weight polyethylene fiber, and the filament It adheres to the surface of the film and adheres firmly after drying, ensuring high water resistance.
That is, by using the copolymer resin composition, it is possible to easily bundle the filaments of ultrahigh molecular weight polyethylene fibers, which has been difficult in the past, and at the same time strongly adhere to the fiber surface and integrate them.

  The unsaturated carboxylic acid component in the copolymer resin composition is preferably in the range of 1 to 50 mol%, more preferably in the range of 2 to 30 mol%, particularly preferably in the resin component. It is in the range of 3 to 20 mol%. The amount of the unsaturated carboxylic acid component indicates the total amount of the unsaturated carboxylic acid and its esterified product.

As the component constituting the unsaturated carboxylic acid, components such as acrylic acid and methacrylic acid can be used effectively, and it may contain an esterified product such as acrylic ester or methacrylic ester.
As the esterified product, an esterified product with an alcohol having 4 or less carbon atoms can be suitably used, and methyl ester and ethyl ester can be particularly preferably used.

  The water-dispersible resin used in the present invention is applied to the surface of each filament, and is compatible with the ultra high molecular weight polyethylene fiber that is constructed, and is impregnated deeply between the filaments, so that high adhesion is obtained. Is. This water-dispersible resin is optimally used as an aqueous solution, but can also be used in a water / alcohol solution or an alcohol solution. As the alcohol, methanol, ethanol, isopropyl alcohol can be suitably used.

  In order to suitably impregnate the filaments of ultrahigh molecular weight polyethylene fibers, the viscosity of the water-dispersible resin used in the present invention is 2000 mPa · s or less, preferably 500 mPa · s or less, more preferably 250 mPa · s or less, Further, it is preferably 5 mPa · s or more in order to ensure sufficient adherence to the filament surface.

In order to disperse and dissolve the resin of the present invention, it is effective to use an alkaline solution, and an alkaline aqueous solution is preferred. Examples of the alkali include ammonia, amine, sodium hydroxide, and potassium hydroxide.
In particular, when ammonia is used, the water-dispersible resin is well dispersed in water, and a high-concentration dispersion can be used. At the same time, the deposition of the water-dispersible resin is promoted by evaporating ammonia in the drying process. A coating film with higher water resistance can be obtained.

Furthermore, in order to increase water resistance and coating film strength, a crosslinking agent or polyvalent metal ions can be added.
Epoxy, isocyanate, aziridine, oxazoline, etc. can be used as the crosslinking agent. In particular, a polymer having an oxazoline group in the side chain of the polymer can form an amide ester with a polymer having a carboxyl group by a low temperature reaction to form a crosslinked structure.
As described above, the crosslinking agent of the present invention reacts with a functional group of a reactive functional group typified by a carboxyl group (in addition, a hydroxyl group, a sulfonic acid group, etc.) to form an intermolecular and intramolecular crosslinked structure. To do.
Examples of the polyvalent metal ion include zinc, magnesium, calcium and the like. Taking zinc as an example, a water-dispersible resin is attached to a filament in the form of a sodium salt, and then immersed in a saturated aqueous solution of zinc chloride to perform ion exchange. As a result, zinc ions are ion-bonded to a plurality of ionized carboxyl groups, thereby producing a crosslinking effect similar to that of the above-described crosslinking agent.

  In addition, depending on necessity, for example, acrylic resin, urethane resin, polyester resin, polyolefin resin, rosin resin, terpene resin, phenol resin, petroleum resin, paraffin, etc. In addition, oxidized paraffin, polyethylene oxide, ethylene acrylic acid copolymer wax and the like can be added singly or in combination of a plurality of types as appropriate.

  The fishing line of the present invention can be obtained by impregnating or applying the water-dispersible adhesive resin with a suitable twisted yarn applied to a multifilament composed of a plurality of fibers and drying.

tpm：turn per meter（1ｍ当たりの撚り数）、ρ：比重(g/cm³) Since the suitable number of twists to be applied to the filament depends on the fineness (thickness) of the fiber used, it is expressed by a twist coefficient defined by the following formula.

tpm: turn per meter (number of twists per meter), ρ: specific gravity (g / cm ³ )

  The twist coefficient suitable for the present invention is in the range of 0.2 to 2.0. When the twist coefficient is smaller than 0.2, the fiber may be easily broken due to external wear. Moreover, since the filament cross section tends to be flat, it is not preferable.

  When the twist coefficient exceeds 2.0, the twist angle becomes too large, so that the original strength of the high-strength fiber cannot be exhibited and the breaking strength is lowered, which is not preferable.

  As a method for applying the resin, existing methods such as a dip coating method, a knife coating method, a roller coating method, and a curtain flow coating method can be adopted, but there is no particular limitation. The drying method is not particularly limited, but can be performed continuously using a hot air tank or the like. Desirably, the drying temperature is in the range of 100 to 200 ° C., and the temperature applied to the filament does not exceed 160 ° C.

In the present invention, a known method may be used as a method of applying the water dispersible resin to the twisted filaments to be formed. For example, the filament of the present invention is passed through a bath containing a water-dispersible resin solution at room temperature, for example, at a temperature of about 20 to 30 ° C., and passed through a furnace maintained at a temperature of about 100 to 150 ° C. It can be produced by passing it through a dry.
When a colored fishing line is required, the water-dispersible resin of the present invention can be used by mixing a pigment necessary for desired color development.

  The amount of the resin deposited on the basis of the filament weight is desirably 3 to 30% by weight after drying, and more desirably 10 to 25% by weight. When the adhesion amount of the resin exceeds 30% by weight, it becomes hard and the handleability is lowered as a fishing line. On the other hand, when the adhesion amount of fat is less than 3% by weight, there is a possibility that the fixing of the filament becomes insufficient.

  Although the Example of this invention is given to the following, it cannot be overemphasized that this invention is not restricted to this.

Example 1
High-strength polyethylene fiber (breaking strength 26 cN / dtex) Dyneema SK60 (registered trademark) 220 dtex / 192F is twisted 300 times per meter in the S direction, and water-dispersible ethylene / unsaturated carboxylic acid copolymer resin (Ota Chemical Co., Ltd.) In a furnace containing a product name NC-20A; PH = 8.5; resin solid content = 20% by weight) and kept at a temperature of 110 ° C. through a bath at a temperature of about 25 ° C. It was passed at a speed of 30 m / min for about 30 seconds.

(Example 2)
Dyneema SK60 (registered trademark) 110 dtex / 96F was twisted 400 times per meter in the S direction, and about room temperature containing ethylene / unsaturated carboxylic acid copolymer resin (trade name NC-20A, manufactured by Ota Chemical Co., Ltd.) was added. It was passed through a 25 ° C. bath and maintained at 140 ° C. for about 30 seconds at a speed of 30 m / min.

(Example 3)
Dyneema SK60 (registered trademark) 110dtex / 96F was twisted 400 times per meter in the S direction, and the ethylene / unsaturated carboxylic acid copolymer resin (trade name NC-20A, manufactured by Ota Kaken Co., Ltd.) and its solid content 10% oxazoline-based cross-linking agent (trade name Epocross WS-500, manufactured by Nippon Shokubai Co., Ltd.) was passed through the bath at a temperature of about 25 ° C for about 30 seconds in a furnace maintained at 140 ° C. It was passed at a speed of 30 m / min.

(Comparative Example 1)
Dyneema SK60 (registered trademark) 220dTex / 192F is twisted 300 times per meter in the S direction, 100 parts by weight of bisphenol A epoxy resin Epicoat 828, 24 parts by weight of the amine curing agent Epomer RD1, manufactured by Yuka Shell. The mixture was passed through a bath at about 25 ° C. containing the mixed resin and maintained at a temperature of 130 ° C. for about 5 minutes at a speed of 5 m / min.

(Comparative Example 2)
When Dyneema SK60 (registered trademark) 220dTex / 192F is twisted 300 times per meter in the S direction and fed through a crosshead die, a melt of low molecular weight polyethylene (manufactured by Ube Industries, JIS K7210, MFR50) is used. Coated with.

(Comparative Example 3)
Manufactured a braid made of four Dyneema SK60 (registered trademark) 110dTex / 96F, which is made of four pieces without attaching resin.

For the abrasion resistance test, a test machine in which a hexagonal bar wear tester for seat belts shown in FIG. The stroke length, angle, etc. are in accordance with JIS-D-4604 (1995).
As shown in FIG. 1, a sample is passed through a ceramic guide, one is fixed to a drum and a load is applied to the other. The load was 1.1 cN / Tex, and the number of times until cutting was evaluated as abrasion resistance. Further, in the above, the abrasion resistance was evaluated by the presence or absence of fuzz when the drum was reciprocated 1000 times. .

表中、
・利用率とは、破断強度を、ブランク強度つまり加工する前のフィラメントの原糸強度で
割ったもので、加工による物性低下を表す数値である。
・収束性
○：良好，△：収束性が不十分でばらけ易い，×：収束性が不良
・コシ
○：良好，△：使用可能であるが弱い，×：使用に問題有り
・耐摩耗性
○：十分な耐久性あり，△：耐久性やや不足，×：耐久性に問題あり The evaluation results are shown in Table 1.

In the table,
・ Utilization rate is a numerical value representing the physical property deterioration due to processing, which is the breaking strength divided by the blank strength, that is, the yarn strength before processing.
・ Convergence ○: Good, △: Insufficient convergence, easy to disperse, ×: Poor convergence, stiffness ○: Good, △: Usable but weak, ×: Problems in use ・ Abrasion resistance ○: Sufficient durability, △: Slightly insufficient durability, ×: Problems with durability

  The fishing line of the present invention has excellent mechanical properties such as high breaking strength, knot strength, low elongation at break, sufficient stiffness, and sufficient length by utilizing the performance of high strength fiber more effectively. It is possible to provide a fishing line having the same as above, and at the same time, it is excellent in productivity, so that it can contribute to industrial production.

It is the schematic of the apparatus which evaluates abrasion resistance.

Explanation of symbols

1: Ceramic guide (fish line wear part)
2: Load 3: Fishing line 4: Fixed part 5: Drum 6: Crank arm 7: Crank 8: Reciprocating motion

Claims (9)

A fishing line characterized in that a plurality of filaments are converged with water-dispersible resin and the filaments are integrated after drying. A high-strength polyethylene fiber having a breaking strength of 15 cN / dtex or more, a breaking elongation of 6% or less, and an initial elastic modulus of 500 cN / dtex or more is used for the main part of the filament formed. The fishing line according to claim 1. The fishing line according to claim 1 or 2, wherein the water-dispersible resin contains 50 mol% or more of an ethylene-based resin composition. 4. The fishing line according to claim 1, wherein the water dispersible resin is a copolymer resin composition of an ethylene resin and an unsaturated carboxylic acid resin. 5. The fishing line according to claim 1, wherein the water dispersible resin is a resin dispersed in an alkaline aqueous solution. The fishing line according to claim 5, wherein the alkaline aqueous solution is a solution containing ammonia. The fishing line according to any one of claims 1 to 6, wherein an organic crosslinking agent is used in combination with the water-dispersible resin. The fishing line according to any one of claims 1 to 6, wherein a polyvalent metal ion is used in combination with the water-dispersible resin. 9. The fishing line according to claim 1, wherein the filament formed is twisted in one direction within a range of a twist coefficient of 0.2 to 2.0.

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