KR100879904B1 - Method for manufacturing rod - Google Patents

Abstract

The present invention provides a method for producing a pole having good rigidity and easy to use.

In this method, the first prepreg 22 serving as the base is wound around the outer periphery of the tapered core material 100 so as to taper toward the end, and the second prepreg 23 to the fourth prepreg ( 25) is winding up. These sequential second prepregs 23 to 4 prepregs 25 each have a winding width that is wound by only one wheel, and the length in the longitudinal direction is also sequentially shortened, and the margins are arranged on the waterline side.白) is left in the state left.

Pole, fishing rod, prepreg, rigid, fishing

Description

Pole manufacturing method {METHOD FOR MANUFACTURING ROD}

1 is an overall view of a fishing rod according to an embodiment of the present invention.

2 is a view showing a pole manufacturing process.

3 illustrates an application example of the present invention.

<Explanation of symbols for the main parts of the drawings>

21: prepreg tape

22: first prepreg

23: second prepreg

24: third prepreg

25: fourth prepreg

100: heartwood (芯 材; mandrel)

1 is an overall view of a fishing rod according to an embodiment of the present invention.

2 is a view showing a pole manufacturing process.

3 illustrates an application example of the present invention.                         

<Explanation of symbols for the main parts of the drawings>

21: prepreg tape

22: first prepreg

23: second prepreg

24: third prepreg

25: fourth prepreg

100: Heartwood (mandrel) The present invention relates to a method for manufacturing a rod constituting a fishing rod used for fishing.

The rod of the fishing rod must be light and the characteristics of excellent mechanical strength such as impact resistance and flexibility are required. Therefore, the rod of the conventional fishing rod is, for example, processed into a sheet shape of fiber-reinforced resin impregnated with synthetic resin in reinforcing fibers such as carbon fiber and glass fiber (generally, as a "prepreg sheet"). It is produced by winding and firing on a core material.

The prepreg sheet is not simply wound around one kind of core material, but by winding a prepreg sheet of a plurality of different reinforcing fibers or by using prepreg sheets having different orientation directions of reinforcing fibers, The strength and rigidity of the pole in the radial direction and the axial direction are improved.

The prepreg sheet wound by the core material by the conventional rod manufacturing method sequentially changes to the waterline side which changes the number of turns of a prepreg sheet | sequence with respect to a core material, and is small hardened. In order to vary the thickness of the pole, a substantially trapezoidal pattern in which the winding width is shortened regardless of the number of turns of each part in the longitudinal direction of the prepreg sheet has been used.

However, when a pole is manufactured using such a prepreg sheet, it is difficult to wind in parallel along an axial direction with respect to a core material when winding up to a core material, and many defective products also generate | occur | produced.

In addition, since the same prepreg sheet is wound repeatedly, a portion that thickens partially occurs in a part of the circumferential direction, and a portion where the stiffness called "spine" is different easily occurs. This "vertical spine" may cause the rigidity of the produced pole to become uneven in the circumferential direction, thereby lowering the state of the fishing rod.

An object of the present invention is to provide a method for producing a pole having good rigidity and easy to use.

The manufacturing method by the 1st aspect of this invention is a manufacturing method of the pole which comprises the fishing rod used for fishing, WHEREIN: The 1st fiber reinforced resin sheet which becomes a base on the outer periphery of the tapered core material so that it becomes thinner toward the end. Blanking on the repair side of the second fiber reinforced resin sheet having a shorter length in the longitudinal direction than the first fiber reinforced resin sheet on the outer periphery of the first fiber reinforced resin sheet by one round over the entire longitudinal direction. A process of winding white and leaving the third fiber reinforced resin sheet having a length shorter than that of the second fiber reinforced resin sheet in the longitudinal direction by one turn over the entire length direction; .

In this manufacturing method, the outer edge of the 1st fiber reinforced resin sheet used as the base is wound up the 2nd fiber reinforced resin sheet of the short length length direction leaving a margin on the repair side, and the pole base end to which the 2nd fiber reinforced resin sheet is wound. Treat the side to be thick. Thereby, the pole which is easy to bend toward the waterline side can be formed. Moreover, the length of the winding width direction is set so that a 2nd fiber reinforced resin sheet may be wound only one round over the whole longitudinal direction, and the part which overlaps in a circumferential direction does not arise when it is wound. And it can be wound in parallel with the axial direction of a core material, and it is easy to wind. In this method, the third fiber-reinforced resin sheet is further wound, and the thickness changes step by step toward the repair side. This makes it possible to form a pole which is easy to bend stepwise toward the waterline side. Moreover, in addition to such a 3rd fiber reinforced resin sheet, when the same 4th fiber reinforced resin sheet etc. are wound sequentially, leaving a margin on a repair side, a step change in thickness can be produced further.

The manufacturing method by the 2nd aspect of this invention WHEREIN: The manufacturing method of the pole which comprises the fishing rod used for fishing WHEREIN: The 1st fiber reinforced resin sheet which becomes a base on the outer periphery of the tapered core material so that it becomes thinner toward the end. Blanking on the repair side of the second fiber reinforced resin sheet having a shorter length in the longitudinal direction than the first fiber reinforced resin sheet on the outer periphery of the first fiber reinforced resin sheet by one round over the entire longitudinal direction. Before winding the first fiber reinforced resin sheet, winding the fiber reinforced resin tape in a spiral shape to the core material before winding the first fiber reinforced resin sheet, and winding all the fiber reinforced resin sheets before winding the fiber reinforced resin sheet It includes a step of winding the tape in a spiral shape.

In this manufacturing method, the outer edge of the 1st fiber reinforced resin sheet used as the base is wound up the 2nd fiber reinforced resin sheet of the short length length direction leaving a margin on the repair side, and the pole base end to which the 2nd fiber reinforced resin sheet is wound. Treat the side to be thick. Thereby, the pole which is easy to bend toward the waterline side can be formed. Moreover, the length of the winding width direction is set so that a 2nd fiber reinforced resin sheet may be wound only one round over the whole longitudinal direction, and the part which overlaps in a circumferential direction does not arise when it is wound. And it can be wound in parallel with the axial direction of a core material, and it is easy to wind. Moreover, in this method, in addition to a fiber reinforced resin sheet, a fiber reinforced resin tape is wound around its inner periphery and an outer periphery, and the pole strength and stability are further improved.

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The manufacturing method by the 3rd aspect of this invention WHEREIN: The manufacturing method of the pole which comprises the fishing rod used for fishing WHEREIN: The 1st fiber reinforced resin sheet which becomes a base on the outer periphery of the tapered core material so that it becomes thinner toward the end. Blanking on the repair side of the second fiber reinforced resin sheet having a shorter length in the longitudinal direction than the first fiber reinforced resin sheet on the outer periphery of the first fiber reinforced resin sheet by one round over the entire longitudinal direction. like to白) includes a step of winding, strengthening the first fiber is a base resin sheet, the reinforcing fiber has a tensile elastic modulus is 7 t / mm ² of the glass fiber, the tensile elastic modulus of 15 ~ 17 t / mm ² of carbon fiber Is a fiber reinforced resin oriented.

In this manufacturing method, the outer edge of the 1st fiber reinforced resin sheet used as the base is wound up the 2nd fiber reinforced resin sheet of the short length length direction leaving a margin on the repair side, and the pole base end to which the 2nd fiber reinforced resin sheet is wound. Treat the side to be thick. Thereby, the pole which is easy to bend toward the waterline side can be formed. Moreover, the length of the winding width direction is set so that a 2nd fiber reinforced resin sheet may be wound only one round over the whole longitudinal direction, and the part which overlaps in a circumferential direction does not arise when it is wound. And it can be wound in parallel with the axial direction of a core material, and it is easy to wind. In this method, by using the first fiber-reinforced resin sheet as the base as a predetermined low-elastic fiber-reinforced resin sheet, a long smooth bend can be produced.

The manufacturing method by the 4th aspect of this invention WHEREIN: The manufacturing method of the pole which comprises the fishing rod used for fishing WHEREIN: WHEREIN: The 2nd fiber reinforced resin sheet was made to the outer periphery of the tapered core material so that it might taper toward the end over the whole length direction. A process of winding the first fiber reinforced resin sheet having a length longer than that of the second fiber reinforced resin sheet on the outer circumference of the second fiber reinforced resin sheet and forming the base on the outer periphery of the second fiber reinforced resin sheet; The third fiber reinforced resin sheet having a shorter length in the longitudinal direction than the second fiber reinforced resin sheet was wound around the core, leaving a margin on the repair side for one turn over the entire length direction in the winding of the second fiber reinforced resin sheet. It includes a process to make.

This method winds up each fiber reinforced resin sheet in the method of the 1st thru | or 3rd aspect of this invention mentioned above in order of short length in the longitudinal direction to the contrary. Even if such a winding sequence is adopted, a rod that is easy to bend toward the waterline side can be formed in the same manner as in the first embodiment of the present invention described above. Moreover, the length of the winding width direction is set so that a 2nd fiber reinforced resin sheet may be wound only one round over the whole longitudinal direction, and the part which overlaps in a circumferential direction does not arise when it is wound. And it can be wound in parallel with the axial direction of a core material, and is easy to wind. In this method, the third fiber-reinforced resin sheet is further wound up to the core material in advance, and the thickness changes step by step toward the repair side. This makes it possible to form a pole which is easy to bend stepwise toward the waterline side.

The manufacturing method by the 5th aspect of this invention WHEREIN: The manufacturing method of the pole which comprises the fishing rod used for fishing WHEREIN: WHEREIN: The 2nd fiber reinforced resin sheet was made to the outer periphery of the tapered core material so that it might taper toward the end over the whole length direction. The process of winding the left side with a margin on the repair side as much as the wheels, and the process of winding the first fiber reinforced resin sheet, which is longer in length in the longitudinal direction than the second fiber reinforced resin sheet, as the base, on the outer circumference of the second fiber reinforced resin sheet. The 1st fiber reinforced resin sheet used as the base is a fiber reinforced resin in which the reinforcing fiber was oriented glass fiber of 7 t / mm <^2> of tensile elasticity modulus, and carbon fiber of 15-17 t / mm <^2> of tensile elasticity modulus.

This method winds up each fiber reinforced resin sheet in the method of the 1st thru | or 3rd aspect of this invention mentioned above in order of short length in the longitudinal direction to the contrary. Even if such a winding sequence is adopted, a rod that is easy to bend toward the waterline side can be formed in the same manner as in the first embodiment of the present invention described above. Moreover, the length of the winding width direction is set so that a 2nd fiber reinforced resin sheet may be wound only one round over the whole longitudinal direction, and the part which overlaps in a circumferential direction does not arise when it is wound. And it can be wound in parallel with the axial direction of a core material, and is easy to wind. In this method, by using the first fiber-reinforced resin sheet as the base as a predetermined low-elastic fiber-reinforced resin sheet, a long smooth bend can be produced.

The method by the 6th aspect of this invention WHEREIN: The process of the said 1st aspect of this invention WHEREIN: Before winding a 1st fiber reinforced resin sheet, the process of winding a fiber reinforced resin tape in a spiral shape to a core material previously, and a fiber After winding all the reinforcement resin sheets, the process further includes the step of winding a fiber reinforced resin tape in a spiral shape on the outer periphery.
In this method, the strength and stability of the pole are further improved by winding the fiber reinforced resin tape in its inner and outer circumferences in addition to the fiber reinforced resin sheet.
In the method according to the seventh aspect of the present invention, in any of the first, second, fourth, and sixth aspects of the present invention, the first fiber-reinforced resin sheet, which is the basis, has a tensile modulus of reinforcing fibers. It is this fiber reinforced resin which the glass fiber of 7 t / mm <^{2> and the} carbon fiber whose tensile elasticity modulus are 15-17 t / mm <^2> were oriented.

When the first fiber-reinforced resin sheet serving as the base is a predetermined low-elastic fiber-reinforced resin sheet, a long smooth bend can be produced.

EMBODIMENT OF THE INVENTION Hereinafter, one Embodiment of this invention is described, referring drawings.

(Whole configuration of rod)

As shown in FIG. 1, this fishing rod is a rod (1) and a rod (3) which are connected to the waterline side of the rod (1) and the rod (1) in a lineage form. ; 中) and choridae (4). Each pole is made of a fiber-reinforced resin obtained by impregnating a synthetic resin in fiber reinforcement such as carbon fiber or glass fiber, and is a cylindrical member tapering toward the end. Specifically, each pole is a member formed by winding a fiber-reinforced resin (prepreg) into a prepreg sheet processed into a sheet shape or a prepreg tape processed into a tape shape on a core material and firing.

The far end 1 has a reel seat 5 formed on the circumferential surface so that the reel can be detachably mounted, and a plurality of reel seats 1 to 4 on the circumferential surface of each pole 1 to 4 at regular intervals in the axial direction. Four fishing line guides 6 are mounted. And the fishing line drawn out from the reel (not shown) attached to the reel seat 5 is guide | induced to the waterline side, guided to the fishing line guide 6 sequentially.

(Manufacturing method of pole)

The raw table 1 to the chopping board 4 which comprise such a fishing rod are manufactured by the following manufacturing methods.

First, as shown in Fig. 2, a release agent such as wax is applied to the outer periphery of the core material 100 (mandrel), which is a tapered rod-shaped member so as to taper toward the end. Subsequently, the prepreg tape 21 is wound in a spiral shape without any gap on the outer circumferential surface of the core member 100 to which the release agent is applied. The said prepreg tape 21 combines a carbon fiber without twisting it in the longitudinal direction of the tape (peripheral direction of the core material 100), and impregnated synthetic resin.

Next, the first prepreg sheet 22 is wound around the core 100. The first prepreg 22 is, for example, orientated glass reinforcing fibers in the cross direction and adjusted to have a tensile modulus of about 7 t / mm ² , or carbon fibers in the cross direction. It is a low modulus prepreg sheet having a relatively low modulus of elasticity such as being adjusted so as not to be twisted and adjusted to have a tensile modulus of about 15 to 17 t / mm ² . It is a normal prepreg processed into substantially trapezoid shape so that the winding width narrows toward the waterline side. And wound several times on the outer periphery of the core material (100).

Next, the second prepreg 23 is wound around its outer circumference. The second prepreg 23 is a prepreg sheet in which carbon fibers are joined without being twisted in the longitudinal direction of the core material 100 and are oriented. It is preferable that the tensile modulus of the carbon fiber is about the same as or slightly larger than the first prepreg 22, and the tensile modulus is about 15 t / mm ² . This 2nd prepreg 23 is set so that the winding width of a waterline side edge part and a pole base end side edge part may coincide with the outer diameter of the core material 100 (to 1st prepreg 22) to wind up, respectively. That is, the second prepreg 23 is wound by only one revolution (one ply) in the entire longitudinal direction. And the length of the 2nd prepreg 23 is shorter than the 1st prepreg 22 (for example, when the length of the 1st prepreg 22 is 1000 mm, the 2nd prepreg) The length of the leg 23 in the longitudinal direction is about 700 mm). And the 2nd prepreg 23 is wound in the state which left the margin on the repair side by being matched with the 1st prepreg 22 by the pole base end side.

The third prepreg 24 and the fourth prepreg 25 are sequentially wound around the outer circumference thereof. Each of the third prepreg 24 and the fourth prepreg 25 is a prepreg sheet formed by combining carbon fibers without twisting in the longitudinal direction, similarly to the second prepreg. It is preferable to set the tensile modulus so that it may become large sequentially, for example, the tensile modulus of the 3rd prepreg 24 is 15-20 t / mm <^2> , and the tensile modulus of the 4th prepreg 25 is 20 When it is set at about 25 t / mm ² , the state of the pole is excellent. In addition, this prepreg is also identical in that only one turn (by one ply) is wound in the entire longitudinal direction. In addition, the length of the third prepreg 24 and the fourth prepreg 25 also becomes shorter in the longitudinal direction (the third prepreg 24 is taken as an example of the case of the first prepreg 22 described above). The length of the longitudinal direction is about 600 mm, the length of the fourth prepreg 25 is about 500 mm). Each is aligned to the pole base and wound around leaving a margin on the repair side.

In this manufacturing example, four prepreg sheets of the first prepreg 22 to the fourth prepreg 25 are used, but the prepreg to be arbitrarily wound according to the diameter, size, etc. of the pole to be manufactured. It is also possible to adjust the number of sheets.

Thereafter, as necessary, the other prepreg tape 21 is wound around the outer circumference of the prepreg sheet in a spiral shape without a gap. The outer periphery may be wound while strongly pressing a molding tape or sheet made of polyethylene terephthalate or polypropylene. The rod material thus obtained is placed in a furnace and fired, the core material 100 is drawn out, the molding tape or the like is peeled off, both ends are trimmed to an appropriate length, and the pole is manufactured by applying a pole treatment.                     

In the above description, the case in which the core material 100 is wound sequentially from the first prepreg 22 is described. On the contrary, there is also a method of winding the core material 100 sequentially from the fourth prepreg 25. Also in this case, it is possible to manufacture the same rod as a result of baking and integrating a prepreg raw material.

That is, after winding the necessary prepreg tape 21 with respect to the core material 100, the fourth prepreg 25 is wound by one turn, and the third prepreg 24 and the second prepreg 23 are wound. It winds up by one round, leaving a margin on the waterline side, and after that, it winds up the 1st prepreg 22 which becomes a base. By adopting such a reverse process, it is possible to prevent the prepreg wound up at the time of manufacture from being peeled off, and also to reduce the breakage of the produced pole.

In this manufacturing method, the 2nd prepreg 23-the 4th prepreg (while leaving length on the waterline side shortly sequentially in the outer periphery of the 1st prepreg 22 which becomes a base, 25) is rolled one by one, so that the portion does not overlap in the circumferential direction when wound, and it is difficult to produce a spine. Moreover, the thickness on the repair side can be adjusted step by step, and a good pole state can be produced. Moreover, the winding of each prepreg is also easy, and it becomes easy to manufacture.

In addition, the numerical value etc. which were shown in the said description are an illustration to the last, It is not limited to this, You will need to set suitably according to the kind and diameter of the pole to manufacture. In particular, a good pole of the pole, that is, a single pole consisting of a pole of a relatively small diameter to the length of the longitudinal direction in the longitudinal direction of the flexible rod is required for a continuous flexible flexibility It can be said that it is preferable to apply to a dragon.

(Application example)

As shown in FIG. 3, the pole manufactured in this way changes the thickness and outer diameter of a pole gradually and gradually as it goes to a waterline side. Therefore, if the leg part of the fishing line guide 6 is fitted to this step change of outer diameter and it is wound and fixed by winding, etc., the step change is also not noticeable in appearance, and the fishing line guide ( Also regarding the fixing of 6), the positioning and its stability become good.

According to the method of the present invention, a rod having good rigidity and easy to use can be easily manufactured.

Claims (7)

In the manufacturing method of the pole which comprises the fishing rod used for fishing, A step of winding the first fiber-reinforced resin sheet as a base on the outer circumference of the tapered core material so as to taper toward the end; Winding a second fiber reinforced resin sheet having a shorter length in the longitudinal direction than the first fiber reinforced resin sheet on the outer circumference of the first fiber reinforced resin sheet, leaving a blank on the repair side for one turn over the entire longitudinal direction; , A step of winding the third fiber reinforced resin sheet having a length shorter than the second fiber reinforced resin sheet in the longitudinal direction, leaving a blank on the repair side by one turn over the entire longitudinal direction. It includes, pole manufacturing method. In the manufacturing method of the pole which comprises the fishing rod used for fishing, A step of winding the first fiber-reinforced resin sheet as a base on the outer circumference of the tapered core material so as to taper toward the end; Winding a second fiber reinforced resin sheet having a shorter length in the longitudinal direction than the first fiber reinforced resin sheet on the outer circumference of the first fiber reinforced resin sheet, leaving a blank on the repair side for one turn over the entire longitudinal direction; , A step of winding the fiber reinforced resin tape in a spiral shape in advance in the core material before winding the first fiber reinforced resin sheet, and a step of winding the fiber reinforced resin tape in a spiral shape in the outer circumference thereof after winding all of the fiber reinforced resin sheet. It includes, pole manufacturing method. In the manufacturing method of the pole which comprises the fishing rod used for fishing, A step of winding the first fiber-reinforced resin sheet as a base on the outer circumference of the tapered core material so as to taper toward the end; A step of winding a second fiber reinforced resin sheet having a length shorter than that of the first fiber reinforced resin sheet in the outer circumference of the first fiber reinforced resin sheet, leaving a margin on the repair side by one turn over the entire longitudinal direction. Including; The first fiber-reinforced resin sheet serving as the base is a fiber-reinforced resin wherein the reinforcing fibers are oriented glass fibers having a tensile modulus of 7 t / mm ² and carbon fibers having a tensile modulus of 15 to 17 t / mm ² . Pole manufacturing method. In the manufacturing method of the pole which comprises the fishing rod used for fishing, A step of winding the second fiber reinforced resin sheet on the outer periphery of the tapered core material to taper toward the end, leaving a margin on the repair side by one turn over the entire longitudinal direction, and Winding the first fiber-reinforced resin sheet on the outer circumference of the second fiber-reinforced resin sheet, the length of the longitudinal direction being longer than that of the second fiber-reinforced resin sheet, and the base; The third fiber reinforced resin sheet having a length shorter than that of the second fiber reinforced resin sheet in the core material, leaving a margin on the repair side by one turn over the entire length direction in the winding of the second fiber reinforced resin sheet. Winding process It includes, pole manufacturing method. In the manufacturing method of the pole which comprises the fishing rod used for fishing, A step of winding the second fiber reinforced resin sheet on the outer periphery of the tapered core material to taper toward the end, leaving a margin on the repair side by one turn over the entire longitudinal direction, and A step of winding the first fiber-reinforced resin sheet, which has a longer length in the longitudinal direction than the second fiber-reinforced resin sheet and serves as the base, on the outer circumference of the second fiber-reinforced resin sheet. Including; The first fiber-reinforced resin sheet serving as the base is a fiber-reinforced resin wherein the reinforcing fibers are oriented glass fibers having a tensile modulus of 7 t / mm ² and carbon fibers having a tensile modulus of 15 to 17 t / mm ² . Pole manufacturing method. The method of claim 1, A step of winding the fiber reinforced resin tape in a spiral shape in advance in the core material before winding the first fiber reinforced resin sheet, and a step of winding the fiber reinforced resin tape in a spiral shape in the outer circumference thereof after winding all of the fiber reinforced resin sheet. Further comprising, the manufacturing method of the pole. The method according to any one of claims 1, 2, 4 and 6, The said 1st fiber reinforced resin sheet | seat which becomes the base is a pole whose fiber is a fiber reinforced resin in which the glass fiber whose tensile modulus is 7 t / mm <^2> and the carbon fiber whose tensile modulus is 15-17 t / mm <^2> are oriented. Method of preparation.

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