JPS61285942A - Fishing rod having improved flexibility - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

DETAILED DESCRIPTION OF THE INVENTION Field of Industrial Application The present invention provides a light and flexible fishing rod.

Conventional technology Traditionally, fishing rods have been made from bamboo-based materials, resin pipes, and more recently, composite materials made of glass fiber and epoxy resin, and composite materials made of carbon fiber and epoxy resin. is beginning to be used.

Problems to be Solved by the Invention Conventional fishing rods made using the above-mentioned materials have a high bending hardness, so when fishing in rivers, etc., the rods hit slowly when catching fish, and the greatest pleasure of fishing is halved. I end up. Nowadays, there is a strong demand for fishing rods with sharper hits. Furthermore, it is desired that the rod itself draw a large, sharp curve when fishing.

Means for Solving the Problems As a result of intensive studies to meet these demands, the inventors of the present invention have developed a fishing rod that uses acrylic synthetic fibers that have been heat-treated in an oxidizing atmosphere as the main fiber component. They discovered that it was possible to provide a very flexible fishing rod, and completed the present invention.

The acrylic synthetic fiber used in the present invention may be of any known type, and may be one obtained by forming a polymer containing 503'% or more of acrylonitrile into fibers by known means, and there is no need to make any special limitations. do not have.

Further, the method of heat-treating the above-mentioned acrylic synthetic fiber in an oxidizing atmosphere is not particularly limited, but it is usually obtained by heating it in air to about 100 to 400°C. The heat treatment conditions are also not particularly limited and may be any known method. The degree of thermal oxidation treatment is preferably as expressed by CI value of o, i to 0.6.

The CI value is a value determined by the following formula from the peak height attributable to the acrylic fiber structure and the peak height attributable to the cyclized structure by X-ray measurement of the fibers subjected to heat oxidation treatment.

The method for forming a fishing rod may be exactly the same as the method for making a fishing rod using a composite material using glass fiber or carbon fiber.

Function: Since the fishing rod of the present invention mainly uses acrylic synthetic fibers that have been heat-treated in an oxidizing atmosphere, the initial Young's modulus of the fibers is very small, so it responds sharply to hits from small fish. It is thought that this will resonate in the hands of anglers, and will result in a very flexible fishing rod. In addition, since the initial Young's modulus is small, it will be in a state where it is not sufficient when catching a fish, and it will be in a state with a beautiful curve. As described above, the fishing rod of the present invention provides a flexible rod that is sensitive to hits, and provides anglers with a very satisfying feeling.

Further, in order to improve the strength of the rod, it is also possible to mix and use glass fibers or carbon fibers in the same amount or less than the fibers subjected to heat oxidation treatment.

Furthermore, the fishing rod of the present invention has high durability underwater because the fibers subjected to heat oxidation treatment are unaltered by water.

Example The performance of the present invention will be shown below using Examples.

Note that the percentages shown in the examples are based on weight.

Example 1 Acrylic synthetic fiber consisting of 88% acrylonitrile and 12% acrylic acid was heated and oxidized in air at 270°C (4000 denier, 3000 filaments)
Gripreg of the present invention was produced using the same method as carbon fiber prepreg. Next, the prepreg was formed into a plate by a winding method, and a fishing rod was produced by heat treatment to solidify the resin. For comparison, a fishing rod was similarly constructed using glass fiber and carbon fiber. The force felt by the hand holding these fishing rods was measured, and at the same time, the angle of curvature at that time was also measured.

It can be seen that the fishing rod of the present invention reacts very sensitively to fish hits and has very flexible performance.

Example 2 A fishing rod was produced in the same manner using the same amount of carbon fiber as the heat-oxidized fiber used in Example 1. The fishing rod had a pulling force of 0.7 g and was extremely flexible.

Effects of the Invention The fishing rod of the present invention uses acrylic synthetic fibers that have been heat-treated in an oxidizing atmosphere, so it reacts sensitively to fish hits and has flexible performance.

Claims (1)

[Claims] A fishing rod with improved flexibility characterized by being composed as a main fiber component of acrylic synthetic fibers heat-treated in an oxidizing atmosphere.