JP2011097914A - Fishing rod - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a fishing rod whose conditions can extremely simply be adjusted. <P>SOLUTION: The fishing rod has plate portions (1a) and ridge portions (1b), wherein a ridge portion volume ratio: VR[%] calculated by the expression (5) is 5≤VR[%]≤95 (5), wherein, Vr is the volume (mm<SP>3</SP>) of the ridge portion; Vf is the volume (mm<SP>3</SP>) of the plate portion; Vt is the total volume (mm<SP>3</SP>); Ps is an evaluation start point; Pe is an evaluation finish point; VR[%] is a ridge volume ratio. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The invention according to the present application relates to a fishing rod.

Conventionally, a common fishing rod used for fishing on the coast, offshore, rivers, lakes, ponds and the like is a tubular fishing rod or pipe-shaped fishing rod (hereinafter, “tubular fishing rod”) that is at least partially hollow.
Specific examples of tubular fishing rods include mountain stream rods (target fish; mountain women, rock fish, haya, etc.), rods (target fish; rods), spatula rods (target fish; spatula rods), fishing rods for lure fishing, etc. Can be mentioned.
Specific examples of fishing rods for lure fishing include a spinning reel rod, a luer rod used as a bait casting reel rod for a lure, a spinning bait, a fly rod used as a fly fishing rod, and the like. it can.
For example, in hole fishing as in smelt fishing and fishing on boats and recreational fishing boats, the occupied space per angler is extremely small. Tended to cause troubles such as entanglement. .
In order to avoid such troubles, anglers often made their own small fishing rods.

[Patent Document 1 to Japanese Patent Laid-Open No. 10-276626]
In Japanese Patent Laid-Open No. 10-276626, the tip of a fishing rod is formed of a plate made of stainless steel or phosphor bronze and is gradually narrower toward the front end direction, and both front and back surfaces of the member are front ends. The technique characterized by forming it gradually thin toward the direction and forming the tip thickness in the range of 1/5 to 1-30 with respect to the base thickness of the tip part is disclosed.
The tip of a fishing rod in the prior art is generally made by cutting bamboo into a tip shape or cutting a solid glass fiber, but there are difficulties in resilience and reeds. , It was difficult to take care at the time of use, and it was difficult to reduce the size of the product itself.
The tip of a fishing rod disclosed in Japanese Patent Application Laid-Open No. 10-276626 solves the problems in the conventional technology, realizes downsizing, and is easy to take atari even for beginners, and is portable. Also demonstrated.

“Tone” is one of the performances of fishing rods.
“Tone” is relative to the point where the fishing rod bends most (KP, kick point, bend point) when the weight is applied to the tip of the fishing rod. Says the position.
If the KP is close to the hand, it will be called “hand tone (original tone)”, if it is close to the head (head), it will be called “first tone”, and if it is between the hand and the tip, it will be called “medium tone (torso tone)”.
The fishing rod of the first tone (LK / low kick point) is easy to catch the “win (atari, the reaction that fish catches the fishing bait)”, and the fishing rod of the first tone (HK / high kick point) “fishing response (fish caught on the hook) It is easy to capture the response until the fish is raised, and each is selected according to the taste of the angler.
Medium tone (torso tone, MK / middle kick point) is the most common type.
With traditional tubular fishing rods, it was difficult for buyers to tune up the “tone” of a fishing rod once purchased according to their preferences.

[Patent Documents 2 and JP 2007-167037]
Japanese Patent Application Laid-Open No. 2007-167037 discloses a fishing rod having a tip rod that is difficult to twist.
The fishing rod tip rod 10 disclosed in the publication includes a cylindrical portion (10a and 10b) and a reinforcing portion (30 or 40).
About the shape of a cylindrical part, it has the plane part area | region 10a in at least one part of a cylindrical peripheral surface.
About the raw material of a cylindrical part, it forms with a superelastic alloy or a superelastic resin.
About the shape of the reinforcement part, it is parallel to the plane part of the plane part area | region 10a, and is continuously attached to the side surface along the plane which passes along the center of a cylinder part.
The term “neutral axis X” in the original description of the publication means a plane that is parallel to the plane part of the plane part region 10a and passes through the center of the cylindrical part.
About the physical property of the raw material of a reinforcement part, bending rigidity is larger than a cylindrical part (super elastic alloy or super elastic resin).
By adopting such an invention specific matter, there is an effect that the fishing rod is difficult to twist.
The “invention specific matter” and the “effects and effects achieved by the invention” of the invention according to Patent Document 2 are arranged as a list in FIG.
Comparative comparisons of “invention-specific matters” and “operational effects” of the present invention and the invention according to Patent Document 2 are arranged as a list in FIGS.
As is clear from FIG. 50, the “reinforcing portion” in Patent Document 2 does not penetrate through the basic structure of the fishing rod in the width direction as compared with the corresponding “plate portion” in the present invention. The present invention and Patent Document 2 are greatly different in that they are “attached”.
As is clear from FIG. 51, in contrast to the “cylindrical portion” in Patent Document 2 being vertically long, the corresponding “plate portion” in the present invention is horizontally long. , Greatly different.
As is apparent from FIGS. 50 and 51, the “effects achieved by the invention” are very unique in that the “tone” of the fishing rod can be easily adjusted.

JP-A-10-276626 JP 2007-167037 A

[Problems in conventional technology-1]
With traditional tubular fishing rods, it was difficult for buyers to tune up the “tone” of a fishing rod once purchased according to their preferences.
[Problems in the prior art-2]
With traditional tubular fishing rods, it was difficult for the fishing rod manufacturer to finely tune up the “tune” of the fishing rod once it was manufactured.

  In view of the above-mentioned problems in the conventional technology, the present invention has been completed as a result of promoting research and development while carrying out many intensive studies in many trial and error processes. The problems to be solved by the present invention are listed below.

[Problems to be solved by the invention-1]
It is to provide a fishing rod that can be tuned up according to his / her preferences even if the fishing rod has been purchased once.

[Problems to be Solved by the Invention-2]
It is to provide a fishing rod that can be tuned up slightly even though it has been manufactured once.

[Problem to be solved by the invention-3]
It is to provide a fishing rod with a twist prevention function.

  The effects of the present invention will be described below.

[Effects of the invention-1]
Even if a fishing rod has been purchased, it is possible to provide a fishing rod that allows the purchaser to tune up according to his / her preferences.

[Effect of the invention 2]
Even if a fishing rod has been manufactured once, it is possible to provide a fishing rod that can be finely tuned up for its “tone”.

[Effect of the invention-3]
A fishing rod with a twist preventing function can be provided.

[Effect of the invention-4]
In the fishing rod according to the present invention, the plate portion having flexibility or flexibility has the effect of making the rod portion having rigidity or rigidity easy to bend structurally.
In the fishing rod according to the present invention, the rigid or rigid rod has an effect of structurally making the plate portion having flexibility or flexibility difficult to bend structurally.
In the fishing rod according to the present invention, the rod portion having rigidity or rigidity and the plate portion having flexibility or flexibility exhibit an effect of expressing an optimum “tone” while mutually antagonizing each other.
In the fishing rod according to the present invention, the plate portion has an effect of making it difficult to twist the entire fishing rod.

The invention according to the present application is specified by matters described in “Claim 1” to “Claim 112” in the following “Claims”.

[Claims]




[Claim 1]
A fishing rod comprising a plate portion (1a) and a heel portion (1b).



[Claim 2] The hip volume ratio VR [%] calculated by the mathematical formula (5) is:

1 ≦ VR [%] ≦ 90

The fishing rod according to claim 1, wherein:


(In Formula (5),
Vr is the volume of the buttocks (mm ³ ),
Vf is the volume of the plate part (mm ³ ),
Vt is the total volume (mm ³ ),
VR [%] is the buttock volume ratio, that is, the relative ratio (%) of the volume of the buttock to the total volume. )

[Claim 3] The hip volume ratio VR [%] calculated by the mathematical formula (5) is:

1 ≦ VR [%] ≦ 90

The fishing rod according to claim 1, wherein:

(In Formula (1), p% is an evaluation position, that is, a relative position at which the cross-sectional area is evaluated,
L is the length (absolute value) of the ridge / plate structure part,
In the case of “the length of the plate portion (L1a) ≧ the length of the flange portion (L1b)”, “L = L1b”,
In the case of “the length of the flange portion (L1b)> the length of the plate portion (L1a)”, “L = L1a”,
Lm is the distance (absolute value) from the starting point of the buttocks to the position at which the cross-sectional area is evaluated,
In Formula (2),
AR (p%) [%] is the buttock cross-sectional area ratio, that is, the relative ratio (%) of the buttock cross-sectional area to the total cross-sectional area at the evaluation position p%,
Af (p%) is the cross-sectional area (mm ² ) of the plate portion at the evaluation position p%,
Ar (p%) is the cross-sectional area (mm ² ) of the buttocks at the evaluation position p%,
At (p%) is the total cross-sectional area (mm ² ) at the evaluation position p%,
In Formula (3) and Formula (4),
Vr is the volume of the buttocks (mm ³ ),
Vf is the volume of the plate part (mm ³ ),
Vt is the total volume (mm ³ ),
Ps is the evaluation starting point, that is, the starting point of the ridge / plate structure, that is, the position of p% = 0%,
Pe is the evaluation end point, that is, the end point of the ridge / plate structure, that is, the position of p% = 100%,
In Formula (5),
VR [%] is the buttock volume ratio, that is, the relative ratio (%) of the volume of the buttock to the total volume. )



[Claim 4] The heel length ratio LR [%] calculated by Expression (6) is:

50 ≦ LR [%] ≦ 200

The fishing rod according to any one of claims 1 to 3, wherein the fishing rod has the following characteristics.


(In Equation (6), LR [%] is the heel length ratio, that is, the relative ratio (%) of the heel length based on the length of the plate portion,
L1a is the length (absolute value) of the plate part,
L1b is the length (absolute value) of the buttocks. )



[Claim 5] The fishing rod according to any one of claims 1 to 4, comprising a thermoplastic resin.



[Claim 6] The fishing rod according to claim 5, wherein the thermoplastic resin is an aromatic polycarbonate.



[Claim 7] The fishing rod according to claim 6, wherein the aromatic polycarbonate contains an aromatic polycarbonate represented by the chemical structural formula (I).


(In the chemical structural formula (I), the degree of polymerization n is 50 to 200)

[Claim 8] The plate portion (1a) and the flange portion (1b) are integrally formed.
A fishing rod according to any one of claims 1 to 7.



[Claim 9]
A fishing rod comprising at least one plate portion (1a) and at least one rod portion (1b).



[Claim 10]
The fishing rod according to any one of claims 1 to 9, wherein the plate portion (1a) has a planar shape as a base of the rod portion (1b).



[Claim 11]
The fishing rod according to any one of claims 1 to 10, wherein the rod portion (1b) has a shape protruding upward from a base plate portion (1a).



[Claim 12]
The rigidity or rigidity and the flexibility or flexibility are balanced by mutually competing the flange part (1b) having rigidity or rigidity and the plate part (1a) having flexibility or flexibility. The fishing rod according to any one of claims 1 to 11, wherein the fishing rod exhibits a function of expressing a tone.

[Significance of the term “Isobe”]
According to the 4th edition of Kojien (November 15, 1991, 4th edition, 1st edition, Iwanami Shoten), “Une” is written in Chinese characters as “畦” or “畦”, “ It means “the place where the soil is raised and made streaks at intervals to plant the trees” or “the place where the mountains and waves are connected to a small height.”
As used in the claims, specification, and drawings of this application, the term “saddle” is similar to the definition of “ridge” in Kojien. It means that it is raised and continuously streaked in the longitudinal direction. "
As used in the claims, specification and drawings of the present application, the term “saddle” refers to, for example, the shape of a molded product when a thermoplastic plastic is integrally molded as a fishing rod by an injection molding method or the like. The part which protruded upwards from the planar part is included.
In the claims, specification and drawings of the present application, “畝” in the term “buttock” used in the English language means “rib” (woven fabric) or “ridge” (field). Or a wrinkle in a woven fabric).
In the fishing rod according to the present invention, the rib portion serves as a rib, and there is an effect that the flexible or flexible plate portion is structurally difficult to bend.

[Significance of the term “board”]
According to the 4th edition of Kojien (November 15, 1991, 4th edition, 1st edition, Iwanami Shoten), “ita” was described as “board” in kanji, and “thin timber was thin and flat. ”Or“ thin metal or stone thin and flat. ”
The term “plate part” used in the claims, the specification, and the drawings of the present application is similar to the definition of “it” in Kojien, “continuous planar parts in the longitudinal direction. It is a place where it plays a role as a foundation part of the Isobe. "
The term “plate portion” used in the claims, the specification, and the drawings of the present application refers to, for example, the shape of a molded product when a thermoplastic plastic is integrally molded as a fishing rod by an injection molding method or the like. Includes a flat part that is the foundation of the buttocks.
According to the 4th edition of Kojien (November 15, 1991, 4th edition, 1st edition, Iwanami Shoten), “ita” was described as “board” in kanji, and “thin timber was thin and flat. ”Or“ thin metal or stone thin and flat. ”
In the claims, the specification, and the drawings of the present application, the term “plate” in the term “plate portion” is expressed in English as “board”, “plate”, “flat board”, “flat plate”. Or “flat”.

In the fishing rod according to the present invention, the plate portion having flexibility or flexibility has the effect of making the rod portion having rigidity or rigidity easy to bend structurally.
In the fishing rod according to the present invention, the rigid or rigid rod has an effect of structurally making the plate portion having flexibility or flexibility difficult to bend structurally.
In the fishing rod according to the present invention, the rod portion having rigidity or rigidity and the plate portion having flexibility or flexibility exhibit an effect of expressing an optimum “tone” while mutually antagonizing each other.
In the fishing rod according to the present invention, the plate portion has an effect of making it difficult to twist the entire fishing rod.

Below, based on the drawings attached to the application, the extension of the invention of the fishing rod according to the present invention, specific matters of the invention, preferred embodiments of the invention, and the effects of the invention will be described.

[Figure 1]
FIG. 1 shows a “rod / plate structure” which is a basic structure of a fishing rod according to the present invention.
The start point (start point) and end point (end point) of the “rod / plate structure” which is the basic structure of the fishing rod according to the present invention are shown.
(A) When the length of the plate portion (L _1a ) ≧ the length of the flange portion (L _1b ), “L (the length of the flange / plate structure portion) = L _1b (the length of the flange portion)” It is.
(B) When the length of the flange portion (L _1b )> the length of the plate portion (L _1a ), “L (the length of the flange / plate structure portion) = L _1a (the length of the plate portion)” It is.

P _s ; start point p% of the ridge / plate structure; evaluation position L; length L _1a of the ridge / plate structure; length L _{1b of the} plate portion; length L _{m of the} ridge portion; distance

[Figure 2]
FIG. 2 shows a concept of a method for measuring the thickness and width of the rod and plate portions in the “rod / plate structure” which is the basic structure of the fishing rod according to the present invention.

[Measurement of thickness]
T _1a ; thickness of plate (maximum thickness)
T _1b ; thickness of the buttocks (maximum thickness)
wf _s ; plate part thickness measurement start position (plate part width direction start point)
wf _m ; plate portion thickness measurement position wf _e ; plate portion thickness measurement end position (plate portion width direction end point)
TF _m ; thickness of the plate portion at the measurement position wr _s ; heel thickness measurement start position (start point in the plate width direction)
wr _m ; heel thickness measurement position wr _e ; heel thickness measurement end position (end in the plate width direction)
TR _m ; thickness of the buttocks at the measurement position

[Measurement of width]
W _1a ; width of plate (maximum width)
W _1b ; Width of the buttocks (maximum width)
tf _s ; plate width measurement start position (start point in the plate width direction)
tf _m ; plate width measurement position tf _e ; plate width measurement end position (end in the plate width direction)
WF _m ; width of the plate portion tr _{s at} the measurement position; heel width measurement start position (plate portion width direction start point)
tr _m ; buttock width measurement position tr _e ; buttock width measurement end position (end in the plate width direction)
WR _m ; width of the buttock at the measurement position

[Fig. 3]
In FIG. 3, the concept of the average thickness of the board part and the hook part in the "rod / plate structure" which is a basic structure of the fishing rod concerning this invention was shown.

Integral value of thickness of ΣTF _m plate (mm ² )
Integral value of ΣTR _m畝 thickness (mm ² )
TF _ave plate part average thickness (mm), that is, average value of plate part thickness (mm)
TR _ave buttocks average thickness (mm), that is, the average thickness of the buttocks (mm)
W1 _a ; width of plate (maximum width)
W1 _b ; buttock width (maximum width)
wf _s ; plate part thickness measurement start position (plate part width direction start point)
wf _e ; plate thickness measurement end position (plate width direction end point)


The integrated value (ΣTF _m ) of the thickness of the plate portion is represented by the following mathematical formula (i).

The integral value (ΣTR _m ) of the thickness of the buttock is expressed by the following mathematical formula (ii).

The plate portion average thickness (TF _ave ) is expressed by the following mathematical formula (iii).

The buttocks average thickness (TR _ave ) is expressed by the following mathematical formula (iv).

[Fig. 4]
FIG. 4 shows the concept of the average width of the plate portion and the heel portion in the “rod / plate structure” which is the basic structure of the fishing rod according to the present invention.

ΣWF _m plate width integral (mm ² )
Integral value of width of ΣWR _m畝 (mm ² )
WF _ave plate average width (mm), that is, average value of plate width (mm)
WR _ave buttocks average width (mm), that is, the average width of the buttocks (mm)
T _1a ; thickness of plate (maximum thickness)
T _1b ; thickness of the buttocks (maximum thickness)
tf _s ; plate width measurement start position (start point in the plate width direction)
tf _e ; plate width measurement end position (plate width direction end point)

The integral value (ΣWF _m ) of the width of the plate portion is represented by the following mathematical formula (v).

The integral value (ΣWR _m ) of the width of the buttock is expressed by the following formula (vi).

The plate portion average width (WF _ave ) is expressed by the following mathematical formula (vii).

The buttock average width (WR _ave ) is expressed by the following formula (viii).

[FIG. 5] The figure shows the concept of the average width of the plate portion and the parameters defining the shape of the plate portion in the “rod / plate structure” which is the basic structure of the fishing rod according to the present invention.

WF _ave plate average width (mm), that is, average value of plate width (mm)
TF _ave plate part average thickness (mm), that is, average value of plate part thickness (mm)
WR _ave buttocks average width (mm), that is, the average width of the buttocks (mm)
TR _ave buttocks average thickness (mm), that is, the average thickness of the buttocks (mm)

The parameter that defines the shape of the plate portion in the “rod / plate structure” that is the basic structure of the fishing rod according to the present invention is expressed by the formula (ix) or the formula (x).

[Fig. 6]
FIG. 6 shows a specific example of the cross-sectional shape of the rod portion in the “rod / plate structure” which is the basic structure of the fishing rod according to the present invention.

[Legend] Part with diagonal lines; plate part (1a)
The part which does not add a diagonal line; A collar part (1b)

[Fig. 7]
FIG. 7 shows a specific example of the cross-sectional shape of the plate portion in the “rod / plate structure” which is the basic structure of the fishing rod according to the present invention.

[Legend] Part without hatching; Plate part (1a)
The part which added the oblique line; ridge part (1b)

[Fig. 8]
FIG. 8 shows an aspect of the “core / sheath structure” among the specific examples of the cross-sectional shape of the “rod / plate structure” which is the basic structure of the fishing rod according to the present invention.
(A) The core part is a fishing rod.
For the fishing rod, the hatched portions are the two plate portions (1a-1, 1a-2) and the hatched portions are the rod portions (1b).
(B) The sheath (shell) portion is a tubular member (rubber tube, hose tube, etc.) having flexibility or flexibility.
(C) A fishing rod having a core / sheath (core / shell) structure was shown.
The hatched portion is a cover or case of a flexible or flexible tubular member (rubber tube, hose tube, etc.).

[Fig. 9]
FIG. 9 shows an example of manufacturing a “rod / plate structure” which is a basic structure of a fishing rod according to the present invention.
(1) is a plate part and (2) is a collar part.
The plate part and the collar part are joined (adhesion, fusion, welding, fastening, fitting, integral molding, etc.).

[FIG. 10]
FIG. 10 shows the bending characteristics of the “rod / plate structure” which is the basic structure of the fishing rod according to the present invention.
(1) Bending effect first tone / high rigidity, (2) Bending effect fundamental tone / small rigidity, (3) Bending effect middle tone (rigid)
Stiffness is the magnitude of an external force that causes unit displacement.
When F is an external force, k is rigidity, and δ is displacement, the expression “F = kδ” is established.

[Fig. 11]
FIG. 11 shows a method for adjusting the tone or rigidity of the fishing rod by adjusting the thickness of the rod portion and / or the plate portion in the “rod / plate structure” which is the basic structure of the fishing rod according to the present invention.
For example, the tone or rigidity of a fishing rod can be obtained by cutting the thickness and / or width of the heel portion and / or the plate portion of the heel / plate structure with a planer, file (file), cutter, etc. Can be adjusted.
Further, the tone or rigidity of the fishing rod can be adjusted by raising the thickness and / or width of the rod portion and / or plate portion.
“Raising” can be done, for example, by placing a thermosetting resin such as a two-component curable epoxy resin in a liquid state before curing, or by placing a thermoplastic resin such as polycarbonate in a molten state.

[Fig. 12]
FIG. 12 shows the concept of the boundary between the plate portion and the heel portion when the width of the plate portion and the width of the heel portion are the same in the “rod / plate structure” which is the basic structure of the fishing rod according to the present invention.

[Fig. 13]
FIG. 13 shows an embodiment of a two-piece fitting structure among specific examples of the cross-sectional shape in the “rod / plate structure” which is the basic structure of the fishing rod according to the present invention. The portion to which the oblique line is added is the plate portion (1a), and the portion to which the oblique line is not added is the flange portion (1b).
Like a finger work or a parquet work, the heel part and the board part are joined by a slide structure or a fitting structure.
By replacing the collar, the rigidity can be changed between large, medium and small.

[FIG. 14]
FIG. 14 shows the main part of the “rod / plate structure” which is the basic structure of the fishing rod according to the present invention.
The tip portion (1c) is a tip portion composed only of the plate portion (1a) where the heel portion (1b) is broken, or a tip portion constituted only of the ridge portion (1b) where the plate portion (1a) is broken. Part.

[FIG. 15]
FIG. 15 shows the structure of a fishing rod according to the present invention.
The fishing rod (100) includes a plate portion (1a) and a rod portion (1b).
In some cases, the structure further includes a joint portion (2) and a guide attachment portion (3).

[FIG. 16]
FIG. 16 shows the significance of the “tune” of the fishing rod.
“Tone” of a fishing rod means that when the weight is applied to the tip of the fishing rod, it reaches from the hand side to the point where the fishing rod bends most (KP, kick point, bend point). Relative position.
If the KP is close to the hand, it will be called “hand tone (original tone)”, if it is close to the head (head), it will be called “first tone”, and if it is between the hand and the tip, it will be called “medium tone (torso tone)”.
The fishing rod of the first tone (LK / low kick point) is easy to catch the “win (atari, the reaction that fish catches the fishing bait)”, and the fishing rod of the first tone (HK / high kick point) “fishing response (fish caught on the hook) It is easy to capture the response until the fish is raised, and each is selected according to the taste of the angler.
Medium tone (torso tone, MK / middle kick point) is the most common type.
With traditional tubular fishing rods, it was difficult for buyers to tune up the “tone” of a fishing rod once purchased according to their preferences.
However, since the fishing rod according to the present invention has a rod / plate structure, the thickness and / or width of the rod portion and / or the plate portion is cut and / or raised to obtain a “tone”. Can be finely adjusted.
“Raise” can be energized by placing a thermosetting resin such as a two-component curable epoxy resin in a liquid state before curing, or a thermoplastic resin such as polycarbonate in a molten state.

[Fig. 17]
FIG. 17 shows the curvature index (CR) as one of the evaluation methods of the “tone” of the fishing rod.
In the calculation formula (A) of the bending index,
r _m is the radius of curvature of the arc that matches the curvature of the tip, and r ₀ is the distance between the fulcrum and the weight load point, which is 200 mm.

The curvature index (CR) is represented by the following mathematical formula (A).

[FIG. 18]
FIG. 18 shows the deflection angle θ as one of the evaluation methods for the “tone” of the fishing rod.

The deflection angle tangent (tan θ) is expressed by the following mathematical formula (B).

The deflection angle (θ) is expressed by the following mathematical formula (C).

[FIG. 19]
FIG. 19 shows an image of a method for evaluating the “tone” of a fishing rod.
In FIG. 19, the distance between the fulcrum and the weight load point is (r ₀ ) is 200 mm.
A weight with a load of 20 g is applied to the weight load point.

[FIG. 20]
FIG. 20 shows an image for evaluating the curvature index (CR) of the “tone” of the fishing rod.
The example of the first tone and the middle tone (torso tone) was shown.
In the first tone, the radius of curvature r ₁ = 52.2 mm and the curvature index CR ₁ = 0.261.
In the middle tone (torso tone), the radius of curvature was r ₂ = 81.1 mm, and the curvature index was CR ₂ = 0.406.

[FIG. 21]
FIG. 21 shows an image for evaluating the deflection angle θ of the “tone” of the fishing rod.
Evaluation was made at a load of 20 g and a distance of a distance of 20 mm where the load is applied.
The example of the first tone and the middle tone (torso tone) was shown.
In the first tone, tan θ ₁ = 0.563, and in the middle tone (torso tone), tan θ ₂ = 0.865.

[FIG. 22]
FIG. 22 shows an image for evaluating the curvature index (CR) of the “tone” of the fishing rod.
The example of the first tone and the middle tone (torso tone) was shown.
In the first tone, the radius of curvature r ₁ = 52.2 mm and the curvature index CR ₁ = 0.261.
In the root (hand tone), r ₃ = 81.1 mm and the curvature index CR ₃ = 0.781.

[FIG. 23]
FIG. 23 shows an image for evaluating the deflection angle θ of the “tone” of the fishing rod.
Evaluation was made at a load of 20 g and a distance of a distance of 20 mm where the load is applied.
The example of the first tone and the basic tone (hand tone) was shown.
In the first tone, tan θ ₁ = 0.563, and in the root (hand tone), tan θ ₃ = 1.374.

[FIG. 24]
FIG. 24 shows specifications for defining the shape of a fishing rod having a “rod / plate structure” according to the present invention.
The specifications are as follows.
L ₀ length of fishing rod L _1a plate length L ₂ joint length L _1b collar length L _1c tip length W _1a plate width W _1b collar width W ₂ joint portion Width 1a plate
T _1a plate thickness T _1b collar thickness T ₂ joint thickness

The heel length ratio (LR [%]) is represented by the following mathematical formula (6).


In the present invention, the heel length ratio (LR [%]) is not particularly limited, but generally, LR [%] = 100 to 10 (that is, 100 ≧ LR [%] ≧ 10). Preferably, LR [%] = 100 to 20 (that is, 100 ≧ LR [%] ≧ 20) is more preferable, and LR [%] = 100 to 30 (that is, 100 ≧ LR [%] ≧ 30) is still more preferable.

[FIG. 25]
FIG. 25 shows a position (p for evaluating the cross-sectional area of a fishing rod having a “rod / plate structure” according to the present invention when “the length of the plate portion (L _1a ) ≧ the length of the heel portion (L _1b )”. %)showed that.
In the case of the number of pieces, “L (length of the flange / plate structure) = L _1b (length of the flange)”.

[FIG. 26]
26, a position to evaluate the cross-sectional area of the fishing rod with a "ridge / plate structure" according to the present invention when the "length of the ridges (L _1b)> plate portion length of (L _1a)" in the (p %)showed that.
In the case of a single piece, “L (length of the ridge / plate structure portion) = L _1a (length of the plate portion)”.

[FIG. 27]
FIG. 27 shows a calculation formula (formula (1)) of the position (p%) for evaluating the cross-sectional area of the fishing rod having the “rod / plate structure” according to the present invention.
Symbols in the formula (1) are as follows.

p% evaluation position (relative position to evaluate the cross-sectional area)
Distance to the position where the L _m cross-sectional area is evaluated (absolute value)
L 畝 / Length of plate structure (absolute value)
When the length of the plate portion (L _1a ) ≧ the length of the heel portion (L _1b ); L = L _1b
When the length of the collar portion (L _1b )> the length of the plate portion (L _1a ); L = L _1a
P _s evaluation start point (畝 / plate structure start point; p% = 0%)
_Pe evaluation end point (end of plate / plate structure; p% = 100%)
When the length of the plate part (L _1a ) ≧ the length of the buttock (L _1b ); the end point of the buttock
When the length of the flange (L _1b )> the length of the plate (L _1a ); the end of the plate

The evaluation position (p [%]) is represented by the following mathematical formula (1).

[FIG. 28]
FIG. 28 shows the concept of the cross-sectional area of the plate portion and the heel portion at the evaluation position p% of the fishing rod having the “rod / plate structure” according to the present invention.
Af (p%) is a plate section cross-sectional area, Ar (p%) is a collar section cross section, and At (p%) is a cross-sectional area.

[FIG. 29]
FIG. 29 shows the concept of the cross-sectional area of the plate portion and the heel portion at the evaluation position p% of the fishing rod having the “rod / plate structure” according to the present invention.
Af (p%) is a plate section cross-sectional area, Ar (p%) is a collar section cross section, and At (p%) is a cross-sectional area.
The outline of the collar part and the outline of the plate part at the evaluation position “p [%] = 0” are indicated by dotted lines.
The outline of the collar part and the outline of the plate part at the evaluation position “p [%] = 100” are indicated by dotted lines.

[FIG. 30]
FIG. 30 shows a calculation formula (formula (2)) for the cross-sectional area ratio AR of the fishing rod having the “rod / plate structure” according to the present invention.
Symbols in the formula (2) are as follows.

Ar (p%) The cross-sectional area of the collar at the evaluation position p% (mm ² )
Af (p%) The cross-sectional area of the plate part at the evaluation position p% (mm ² )
At (p%) Total cross-sectional area at the evaluation position p% (mm ² )
AR (p%) The buttock cross-sectional area ratio, that is, at the evaluation position p%
Relative ratio of the cross-sectional area of the buttocks to the total cross-sectional area (%)

The buttocks cross-sectional area ratio (AR [%]) is expressed by the following mathematical formula (2).

[FIG. 31]
FIG. 31 shows a concept of a rod area ratio AR of a fishing rod having a “rod / plate structure” according to the present invention when “the length of the plate portion (L _1a ) ≧ the length of the flange portion (L _1b )”. Indicated.
The x-axis is the length (L _1a ) [mm] of the plate portion, and the y-axis is the cross-sectional area [mm ² ].

[FIG. 32]
FIG. 32 shows the concept of the rod area ratio AR of a fishing rod having a “rod / plate structure” according to the present invention when “the length of the rod part (L _1b )> the length of the plate part (L _1a )”. Indicated.
The x-axis is the length (L _1a ) [mm] of the plate portion, and the y-axis is the cross-sectional area [mm ² ].

[FIG. 33]
FIG. 33 shows a calculation formula of the rod volume ratio VR (equations (3) to (5)) of a fishing rod having a “rod / plate structure” according to the present invention.
Symbols in the formulas (3) to (5) are as follows.

Volume of Vr collar (mm ³ )
Vf Volume of plate (mm ³ )
Vt total volume (mm ³ )
VR buttock volume ratio, ie, the relative ratio of the volume of the buttock to the total volume (%)

The volume of the buttocks (Vr [mm ³ ]) is represented by the following mathematical formula (3).
The volume (Vf [mm ³ ]) of the plate portion is represented by the following mathematical formula (4).
The buttocks volume ratio (VR [%]) is expressed by the following mathematical formula (5).

[FIG. 34]
FIG. 34 shows the concept of the rod volume ratio VR of a fishing rod having a “rod / plate structure” according to the present invention.
The x-axis is the length (L) of the ridge / plate structure, and the y-axis is the cross-sectional area [mm ² ].

[FIG. 35]
FIG. 35 shows a six-sided view of an aromatic polycarbonate fishing rod made in Example 1.
A polycarbonate represented by the chemical formula (I) was used.
Examples of the polycarbonate include Novalex 7025L1 (registered trademark, manufactured by Mitsubishi Engineering Plastics Co., Ltd., lens grade, MVR = 10, MFR = 10, viscosity average molecular weight 23500 to 23600, phenolic hydroxyl group 0. 4 eq / ton), Novalex S-3000R (registered trademark, manufactured by Mitsubishi Engineering Plastics Co., Ltd., low viscosity grade, melt volume = 12 to 19, flow value (Q value) = 5 to 12, viscosity average molecular weight 31000 38000) were mixed and used at a weight ratio of 1: 1.
Since the molecular weight of the repeating unit of the aromatic polycarbonate represented by the chemical formula (I) is 254 (C = 16, O = 3, H = 14), the polymerization degree n in the chemical formula (I) and the chemical formula (II) Is the number obtained by dividing the value of the average molecular weight by 254.
That is, based on the value of viscosity average molecular weight = 23500-23600, the degree of polymerization n is n = 92.5-92.9.
Moreover, based on the value of viscosity average molecular weight = 31000-38000, the polymerization degree n is n = 122.0-149.6.
In the present invention, the degree of polymerization n is not particularly limited. However, in consideration of the melt fluidity of the aromatic polycarbonate at the time of injection molding, generally, n = 50 to 200 is preferable, and n = 70 to 180 is more preferable, and n = 80 to 160 is still more preferable.


The polymerization reaction of polycarbonate is shown in chemical formula (II).

[FIG. 36]
FIG. 36 is a distribution diagram of the cross-sectional area of the fishing rod made of aromatic polycarbonate prepared in Example 1.

[FIG. 37]
FIG. 37 shows the basic structure of an injection molding machine used when molding the fishing rod made of aromatic polycarbonate of Example 1 and Example 2.
The symbols in FIG. 37 are as follows.

1 Heating cylinder 2 Injection screw 3 Holding cylinder 4 Supply port 5 Vent port 6 Hopper 11 Pressure port

[FIG. 38]
FIG. 38 shows the basic structure of an injection molding machine and a mold used in molding the fishing rod made of aromatic polycarbonate of Example 1 and Example 2.
The symbols in FIG. 38 are as follows.

12 Gate

[FIG. 39]
FIG. 39 shows the basic structure of the mold used when the aromatic polycarbonate fishing rod of Example 1 was molded.
13 type cavity part 14 outlet 15 storage tank

[FIG. 40]
FIG. 40 shows the flow of the molten resin in the injection molding of Example 1.
(A) Early molding cycle (B) Middle molding cycle (C) Last molding cycle

In Example 1, in all stages (A) to (C), the flow of the molten resin was good, the flow was consistently laminar, turbulent, and no marble weld line was generated. .
Since no weld line occurs, the strength is uniform and stress concentration is less likely to occur.

FIG. 41 shows the injection molded product (polycarbonate integral molded product) of Example 1 and the gate position of the mold.

[FIG. 42]
FIG. 42 shows the basic structure of the mold used in Example 2.

[FIG. 43]
FIG. 43 shows the flow of the molten resin in the injection molding of Example 2.

(A) Early molding cycle (B) Middle molding cycle (C) Last molding cycle

In Example 2, in the stage (B), the flow of the molten resin was poor, the flow did not become a laminar flow but became a turbulent flow, and a marble weld line was generated.
If the weld line is generated, the strength is not uniform, and stress concentration may occur at a mechanically weak portion, which is not preferable.

[FIG. 44]
FIG. 44 shows a distribution map of the cross-sectional area of the fishing rod made of aromatic polycarbonate prepared in Example 3.
Table 1 shows the buttock cross-sectional area ratio AR [%] of Example 1 and Example 3.
Table 2 shows the buttock volume ratio VR [%] of Example 1 and Example 3.

[Fig. 45]
In FIG. 45, the distribution map of the cross-sectional area of the fishing rod made from the aromatic polycarbonate created in Example 1 and Example 3 is shown.

[FIG. 46]
FIG. 46 shows the fishing rod created in Example 1, the guide that can be attached to the fishing rod, and the guide fixture.

[FIG. 47]
FIG. 47 shows a state where a guide is attached to the fishing rod created in Example 1 with a guide fixture.

[FIG. 48]
FIG. 48 shows a state where a fishing rod with a guide attached is mounted on an electric reel.

The “rod / plate structure” which is the basic structure of the fishing rod according to the present invention is shown. The start point (start point) and end point (end point) of the “rod / plate structure” which is the basic structure of the fishing rod according to the present invention are shown. (A) When the length of the plate portion (L _1a ) ≧ the length of the flange portion (L _1b ), “L (the length of the flange / plate structure portion) = L _1b (the length of the flange portion)” It is. (B) When the length of the flange portion (L _1b )> the length of the plate portion (L _1a ), “L (the length of the flange / plate structure portion) = L _1a (the length of the plate portion)” It is. P _s ; start point p% of the ridge / plate structure; evaluation position L; length L _1a of the ridge / plate structure; length L _{1b of the} plate portion; length L _{m of the} ridge portion; distance The concept of the method for measuring the thickness and width of the rod and plate portions in the “rod / plate structure” which is the basic structure of the fishing rod according to the present invention is shown. [Measurement of thickness] T _1a ; Thickness of plate part (maximum thickness) T _1b ; Thickness of ridge part (maximum thickness) wf _s ; Plate part thickness measurement start position (plate part width direction start point) wf _m ; Plate part thickness measurement Position wf _e ; Plate portion thickness measurement end position (plate portion width direction end point) TF _m ; Plate portion thickness wr _{s at the} measurement position; buttock thickness measurement start position (plate portion width direction start point) wr _m ; Position wr _e ; thickness measurement end position (end in plate width direction) TR _m ; thickness of rib at measurement position [measurement of width] W _1a ; width of plate (maximum width) W _1b ; (Maximum width) tf _s ; plate portion width measurement start position (plate portion width direction start point) tf _m ; plate portion width measurement position tf _e ; plate portion width measurement end position (plate portion width direction end point) WF _m ; ridge width measurement start position (plate portion width direction starting) tr _m;; width tr _s plate portion ridge width measurement position tr _e; ridges Measurement end position (plate portion widthwise end point) WR _m; width of the ridge portion at the measurement position The concept of the average thickness of the plate portion and the heel portion in the “rod / plate structure” which is the basic structure of the fishing rod according to the present invention is shown. Integral value of thickness of ΣTF _m plate part (mm ² ) Integral value of thickness of ΣTR _m板 part (mm ² ) TF _ave Average thickness of plate part (mm), that is, average value of thickness of plate part (mm) TR _ave Average thickness of the buttock (mm), that is, average value of the thickness of the ridge (mm) W1 _a ; width of the plate (maximum width) W1 _b ; width of the ridge (maximum width) wf _s ; Position (plate part width direction start point) wf _e ; Plate part thickness measurement end position (plate part width direction end point) The concept of the average width of the plate portion and the heel portion in the “rod / plate structure” which is the basic structure of the fishing rod according to the present invention is shown. ΣWF _m plate width integral value (mm ² ) ΣWR _m畝 width integral value (mm ² ) WF _ave plate average width (mm), that is, plate width average (mm) WR _ave The average width of the buttock (mm), that is, the average value of the width of the ridge (mm) T _1a ; the thickness of the plate (maximum thickness) T _1b ; the thickness of the ridge (maximum thickness) tf _s ; Position (plate portion width direction start point) tf _e ; plate portion width measurement end position (plate portion width direction end point) The concept of the average width of the plate portion and the parameters defining the shape of the plate portion in the “rod / plate structure” which is the basic structure of the fishing rod according to the present invention are shown. WF _ave plate part average width (mm), that is, the average value of the plate part width (mm) TF _ave plate part average thickness (mm), that is, the average value of the plate part thickness (mm) WR _ave heel part average width (Mm), that is, the average value of the width of the _buttock (mm) TR _{ave the} average thickness of the buttock (mm), that is, the average value of the thickness of the ridge (mm) A specific example of the cross-sectional shape of the rod portion in the “rod / plate structure” which is the basic structure of the fishing rod according to the present invention is shown. [Legend] Part with diagonal lines; plate part (1a) Part with no diagonal lines; collar part (1b) A specific example of the cross-sectional shape of the plate portion in the “rod / plate structure” which is the basic structure of the fishing rod according to the present invention is shown. [Legend] Part without hatching; plate part (1a) Part with hatching; collar (1b) Among the specific examples of the cross-sectional shape in the “rod / plate structure” which is the basic structure of the fishing rod according to the present invention, the mode of the “core / sheath structure” is shown. (A) The core part is a fishing rod. For the fishing rod, the hatched portions are the two plate portions (1a-1, 1a-2) and the hatched portions are the rod portions (1b). (B) The sheath (shell) portion is a tubular member (rubber tube, hose tube, etc.) having flexibility or flexibility. (C) A fishing rod having a core / sheath (core / shell) structure was shown. The hatched portion is a cover or case of a flexible or flexible tubular member (rubber tube, hose tube, etc.). A production example of the “rod / plate structure” which is the basic structure of the fishing rod according to the present invention is shown. (1) is a plate part and (2) is a collar part. The plate part and the collar part are joined (adhesion, fusion, welding, fastening, fitting, integral molding, etc.). The bending characteristics of the “rod / plate structure” which is the basic structure of the fishing rod according to the present invention are shown. (1) Bending effect first tone / high rigidity, (2) Bending effect fundamental tone / small rigidity, (3) Bending effect middle tone (rigid) Stiffness is the magnitude of an external force that causes unit displacement. When F is an external force, k is rigidity, and δ is displacement, the expression “F = kδ” is established. A method of adjusting the tone or rigidity of the fishing rod by adjusting the thickness of the rod portion and / or the plate portion in the “rod / plate structure” which is the basic structure of the fishing rod according to the present invention has been shown. For example, the tone or rigidity of a fishing rod can be obtained by cutting the thickness and / or width of the heel portion and / or the plate portion of the heel / plate structure with a planer, file (file), cutter, etc. Can be adjusted. The concept of the boundary between the plate portion and the heel portion in the case where the width of the plate portion and the width of the heel portion in the “rod / plate structure”, which is the basic structure of the fishing rod according to the present invention, is shown. Of the specific examples of the cross-sectional shape in the “rod / plate structure” which is the basic structure of the fishing rod according to the present invention, the mode of the two-piece fitting structure is shown. The portion to which the oblique line is added is the plate portion (1a), and the portion to which the oblique line is not added is the flange portion (1b). Like a finger work or a parquet work, the heel part and the board part are joined by a slide structure or a fitting structure. By replacing the collar, the rigidity can be changed between large, medium and small. The main part of the “rod / plate structure” which is the basic structure of the fishing rod according to the present invention is shown. The tip portion (1c) is a tip portion composed only of the plate portion (1a) where the heel portion (1b) is broken, or a tip portion constituted only of the ridge portion (1b) where the plate portion (1a) is broken. Part. The structure of the fishing rod according to the present invention is shown. The fishing rod (100) includes a plate portion (1a) and a rod portion (1b). In some cases, the structure further includes a joint portion (2) and a guide attachment portion (3). I showed the significance of the “tune” of the fishing rod. “Tone” of a fishing rod means that when the weight is applied to the tip of the fishing rod, it reaches from the hand side to the point where the fishing rod bends most (KP, kick point, bend point). Relative position. If the KP is close to the hand, it will be called “hand tone (original tone)”, if it is close to the head (head), it will be called “first tone”, and if it is between the hand and the tip, it will be called “medium tone (torso tone)”. The fishing rod of the first tone (LK / low kick point) is easy to catch the “win (atari, the reaction that fish catches the fishing bait)”, and the fishing rod of the first tone (HK / high kick point) “fishing response (fish caught on the fishing hook) It is easy to capture the response until the fish is raised, and each is selected according to the taste of the angler. Medium tone (torso tone, MK / middle kick point) is the most common type. With traditional tubular fishing rods, it was difficult for buyers to tune up the “tone” of a fishing rod once purchased according to their preferences. However, since the fishing rod according to the present invention has a rod / plate structure, the “tone” is finely adjusted by cutting the thickness and / or width of the rod portion and / or plate portion. It is possible. The curvature index (CR) is shown as one of the evaluation methods of the “tone” of the fishing rod. In the calculation formula of bending index (A), the r _m radius of curvature, r ₀ of the arc conforming to the curvature of the tip is a distance between the fulcrum-weight load point is 200 mm. The deflection angle θ is shown as one of the evaluation methods for the “tone” of the fishing rod. The image of the evaluation method of the “tune” of the fishing rod is shown. An image to evaluate the curvature index (CR) of the “Tone” of the fishing rod is shown. The example of the first tone and the middle tone (torso tone) was shown. In the first tone, the radius of curvature r ₁ = 52.2 mm and the curvature index CR ₁ = 0.261. In the middle tone (torso tone), the radius of curvature was r ₂ = 81.1 mm, and the curvature index was CR ₂ = 0.406. An image to evaluate the deflection angle θ of the “tone” of the fishing rod is shown. Evaluation was made at a load of 20 g and a distance of a distance of 20 mm where the load is applied. The example of the first tone and the middle tone (torso tone) was shown. In the first tone, tan θ ₁ = 0.563, and in the middle tone (torso tone), tan θ ₂ = 0.865. An image to evaluate the curvature index (CR) of the “Tone” of the fishing rod is shown. The example of the first tone and the middle tone (torso tone) was shown. In the first tone, the radius of curvature r ₁ = 52.2 mm and the curvature index CR ₁ = 0.261. In the root (hand tone), r ₃ = 81.1 mm and the curvature index CR ₃ = 0.781. An image to evaluate the deflection angle θ of the “tone” of the fishing rod is shown. Evaluation was made at a load of 20 g and a distance of a distance of 20 mm where the load is applied. The example of the first tone and the basic tone (hand tone) was shown. In the first tone, tan θ ₁ = 0.563, and in the root (hand tone), tan θ ₃ = 1.374. The specification which prescribes | regulates the shape of the fishing rod which has the "rod / plate structure" concerning this invention was shown. The specifications are as follows. L ₀ length of fishing rod L _1a plate length L ₂ joint length L _1b collar length L _1c tip length W _1a plate width W _1b collar width W ₂ joint portion Width 1a plate part T _1a plate part thickness T _1b collar part thickness T ₂ joint part thickness Indicates the position (p%) for evaluating the cross-sectional area of a fishing rod having a “rod / plate structure” according to the present invention when “the length of the plate part (L _1a ) ≧ the length of the heel part (L _1b )” It was. In the case of the number of pieces, “L (length of the flange / plate structure) = L _1b (length of the flange)”. Indicates the position (p%) for evaluating the cross-sectional area of a fishing rod having a “rod / plate structure” according to the present invention when “the length of the heel part (L _1b )> the length of the plate part (L _1a )” It was. In the case of a single piece, “L (length of the ridge / plate structure portion) = L _1a (length of the plate portion)”. The calculation formula (formula (1)) of the position (p%) for evaluating the cross-sectional area of the fishing rod having the “rod / plate structure” according to the present invention is shown. Symbols in the formula (1) are as follows. p% Evaluation position (relative position for evaluating the cross-sectional area) L _m Distance to the position for evaluating the cross-sectional area (absolute value) L 畝 / Plate structure length (absolute value) Plate length (L for L = L _1b ridge length of (L _1b)> plate portion length of (L _{1a);; 1a)} length of ≧ ridges (in the case of _{L 1b) L = L 1a P} s ratings starting point (畝 / plate structure start point; p% = 0%) _Pe evaluation end point (畝 / plate structure end point; p% = 100%) length of plate part (L _1a ) ≧ length of ridge part (L _1b ) In the case of: end point of the buttock length of the buttock (L _1b )> length of the plate part (L _1a ); end point of the plate part The concept of the cross-sectional area of the plate portion and the heel portion at the evaluation position p% of the fishing rod having the “rod / plate structure” according to the present invention is shown. Af (p%) is a plate section cross-sectional area, Ar (p%) is a collar section cross section, and At (p%) is a cross-sectional area. The concept of the cross-sectional area of the plate portion and the heel portion at the evaluation position p% of the fishing rod having the “rod / plate structure” according to the present invention is shown. The calculation formula (Formula (2)) of the cross-sectional area ratio AR of the fishing rod having the “rod / plate structure” according to the present invention is shown. Symbols in the formula (2) are as follows. Ar (p%) Cross-sectional area of the collar part at the evaluation position p% (mm ² ) Af (p%) Cross-sectional area of the plate part at the evaluation position p% (mm ² ) At (p%) Total breakage at the evaluation position p% Area (mm ² ) AR (p%) Relative cross-sectional area ratio, that is, relative ratio of cross-sectional area of the buttocks to the total cross-sectional area at the evaluation position p% (%) The concept of the rod area ratio AR of the fishing rod having the “rod / plate structure” according to the present invention when “the length of the plate portion (L _1a ) ≧ the length of the heel portion (L _1b )” is shown. The x-axis is the length (L _1a ) [mm] of the plate portion, and the y-axis is the cross-sectional area [mm ² ]. The concept of the rod area ratio AR of the fishing rod having the “rod / plate structure” according to the present invention in the case of “the length of the rod part (L _1b )> the length of the plate part (L _1a )” is shown. The x-axis is the length (L _1a ) [mm] of the plate portion, and the y-axis is the cross-sectional area [mm ² ]. The calculation formula of the rod volume ratio VR (formula (3) to formula (5)) of the fishing rod having the “rod / plate structure” according to the present invention is shown. Symbols in the formulas (3) to (5) are as follows. Vr Volume of the heel part (mm ³ ) Vf Volume of the plate part (mm ³ ) Vt Total volume (mm ³ ) VR Volume of the heel part, that is, relative ratio (%) of the volume of the heel part to the total volume The concept of the rod volume ratio VR of the fishing rod having the “rod / plate structure” according to the present invention is shown. The x-axis is the length (L) of the ridge / plate structure, and the y-axis is the cross-sectional area [mm ² ]. A six-sided view of the fishing rod made of aromatic polycarbonate prepared in Example 1 is shown. The distribution map of the cross-sectional area of the fishing rod made of aromatic polycarbonate prepared in Example 1 is shown. The basic structure of the injection molding machine used when molding the fishing rod made of aromatic polycarbonate of Example 1 and Example 2 was shown. The symbols in FIG. 37 are as follows. 1 Heating cylinder 2 Injection screw 3 Holding cylinder 4 Supply port 5 Vent port 6 Hopper 11 Pressure port The basic structure of the injection molding machine and mold used when molding the fishing rod made of aromatic polycarbonate of Example 1 and Example 2 was shown. The symbols in FIG. 38 are as follows. 1 Heating cylinder 2 Injection screw 3 Holding cylinder 4 Supply port 5 Vent port 6 Hopper 11 Pressure port 12 Gate The basic structure of the metal mold | die used when shape | molding the fishing rod made from the aromatic polycarbonate of Example 1 was shown. 13 type cavity part 14 outlet 15 storage tank The flow of the molten resin in the injection molding of Example 1 was shown. (A) Early molding cycle (B) Middle molding cycle (C) Last molding cycle The injection molded product of Example 1 and the gate position of the mold are shown. The basic structure of the mold used in Example 2 is shown. The flow of the molten resin in the injection molding of Example 2 was shown. (A) Early molding cycle (B) Middle molding cycle (C) Last molding cycle The distribution map of the cross-sectional area of the fishing rod made of aromatic polycarbonate created in Example 3 is shown. The distribution map of the cross-sectional area of the fishing rod made of aromatic polycarbonate prepared in Example 1 and Example 3 is shown. The fishing rod created in Example 1, the guide that can be attached to the fishing rod, and the guide fixture are shown. The state where the guide was attached to the fishing rod created in Example 1 with a guide fixture was shown. A fishing rod with a guide attached is shown mounted on an electric reel. The “invention specific matter” and the “effects and effects produced by the invention” of the invention according to Patent Document 2 are arranged as a list. The comparative comparison of “invention specific matter” and “action and effect” of the invention of the present application and the invention according to Patent Document 2 is organized as a list. The “reinforcement portion” in Patent Document 2 is not “crossed” through the basic structure of the fishing rod in the width direction and “attached” to the side surface, as compared with the corresponding “plate portion” in the present invention. Thus, the present invention and Patent Document 2 are greatly different. The “effects achieved by the invention” are extremely unique in that the present invention can easily adjust the “tone” of the fishing rod. The comparative comparison of “invention specific matter” and “action and effect” of the invention of the present application and the invention according to Patent Document 2 is organized as a list. In contrast to the “cylindrical portion” in Patent Document 2 being vertically long, the present invention and Patent Document 2 are greatly different in that the corresponding “plate portion” in the present invention is horizontally long. The “effects achieved by the invention” are extremely unique in that the present invention can easily adjust the “tone” of the fishing rod.

[Fishing rod structure]
100 fishing rod 1a plate portion 1b rod portion 2 joint portion 3 guide mounting portion

Ps; ridge / plate structure start point p%; evaluation position L; ridge / plate structure length L _1a ; plate portion length L _1b ; ridge portion length L _m ; distance to position at which cross-sectional area is evaluated

[Measurement of thickness]
T _1a ; thickness of plate (maximum thickness)
T _1b ; thickness of the buttocks (maximum thickness)
wf _s ; plate part thickness measurement start position (plate part width direction start point)
wf _m ; plate portion thickness measurement position wf _e ; plate portion thickness measurement end position (plate portion width direction end point)
TF _m ; thickness of the plate portion at the measurement position wr _s ; heel thickness measurement start position (start point in the plate width direction)
wr _m ; heel thickness measurement position wr _e ; heel thickness measurement end position (end in the plate width direction)
TR _m ; thickness of the buttocks at the measurement position

[Measurement of width]
W _1a ; width of plate (maximum width)
W _1b ; Width of the buttocks (maximum width)
tf _s ; plate width measurement start position (start point in the plate width direction)
tf _m ; plate width measurement position tf _e ; plate width measurement end position (end in the plate width direction)
WF _m ; width of the plate portion tr _{s at} the measurement position; heel width measurement start position (plate portion width direction start point)
tr _m ; buttock width measurement position tr _e ; buttock width measurement end position (end in the plate width direction)
WR _m ; wrinkle at the measurement position

[Average thickness]
Integral value of thickness of ΣTF _m plate (mm ² )
TF _ave plate part average thickness (mm), that is, average value of plate part thickness (mm)
TR _ave buttocks average thickness (mm), that is, the average thickness of the buttocks (mm)
W1 _a ; width of plate (maximum width)
W1 _b ; buttock width (maximum width)
wf _s ; plate part thickness measurement start position (plate part width direction start point)
wf _e ; plate thickness measurement end position (plate width direction end point)

[Average width]
Integral value of width of ΣW _Fm collar (mm ² )
WF _ave plate average width (mm), that is, average value of plate width (mm)
WR _ave buttocks average width (mm), that is, the average width of the buttocks (mm)
T _1a ; thickness of plate (maximum thickness)
T _1b ; thickness of the buttocks (maximum thickness)
tf _s ; plate width measurement start position (start point in the plate thickness direction)
tf _e ; plate width measurement end position (plate thickness direction end point)

[Curving index]
CR; curvature index r _m ; radius of curvature r _{0 of} arc matching the curvature of the tip; distance between fulcrum and weight load point (eg, 200 mm)

[Specifications that define the shape of the fishing rod]
L ₀ length of fishing rod L _1a length of plate portion L ₂ length of joint portion L _1b length of rod portion L _1c length of tip portion W _1a width of plate portion W _1b width of rod portion W ₂ joint portion Width 1a
T _1a plate thickness T _1b collar thickness T ₂ joint thickness

[Evaluation of cross-sectional area]

p% evaluation position (relative position to evaluate the cross-sectional area)
Distance to the position where the L _m cross-sectional area is evaluated (absolute value)
L 畝 / Length of plate structure (absolute value)
When the length of the plate portion (L _1a ) ≧ the length of the heel portion (L _1b ); L = L _1b
When the length of the collar portion (L _1b )> the length of the plate portion (L _1a ); L = L _1a
P _s evaluation start point (畝 / plate structure start point; p% = 0%)
_Pe evaluation end point (end of plate / plate structure; p% = 100%)
When the length of the plate part (L _1a ) ≧ the length of the buttock (L _1b ); the end point of the buttock
When the length of the flange (L _1b )> the length of the plate (L _1a ); the end of the plate

[Evaluation of buttock cross-sectional area ratio]

Ar (p%) The cross-sectional area of the collar at the evaluation position p% (mm ² )
Af (p%) The cross-sectional area of the plate part at the evaluation position p% (mm ² )
At (p%) Total cross-sectional area at the evaluation position p% (mm ² )
AR (p%) The buttock cross-sectional area ratio, that is, at the evaluation position p%
Relative ratio of the cross-sectional area of the buttocks to the total cross-sectional area (%)

[Evaluation of volume ratio of hip section]
Volume of Vr collar (mm ³ )
Vf Volume of plate (mm ³ )
Vt total volume (mm ³ )
VR buttock volume ratio, ie, the relative ratio of the volume of the buttock to the total volume (%)

[Injection molding machine and mold]
DESCRIPTION OF SYMBOLS 1 Heating cylinder 2 Injection screw 3 Holding cylinder 4 Supply port 5 Vent port 6 Hopper 11 Pressurization port 12 Gate 13 Mold cavity part 14 Outlet 15 Storage tank (A) Early stage of molding cycle (B) Middle stage of molding cycle (C) End of molding cycle

Claims (8)

A fishing rod comprising a plate portion (1a) and a heel portion (1b).


The buttock volume ratio VR [%] calculated by Equation (5)

1 ≦ VR [%] ≦ 90

The fishing rod according to claim 1, wherein:


(In Formula (5),
Vr is the volume of the buttocks (mm ³ ),
Vf is the volume of the plate part (mm ³ ),
Vt is the total volume (mm ³ ),
VR [%] is the buttock volume ratio, that is, the relative ratio (%) of the volume of the buttock to the total volume. )
The buttock volume ratio VR [%] calculated by Equation (5)

1 ≦ VR [%] ≦ 90

The fishing rod according to claim 1, wherein:

(In Formula (1), p% is an evaluation position, that is, a relative position at which the cross-sectional area is evaluated,
L is the length (absolute value) of the ridge / plate structure part,
In the case of “the length of the plate portion (L1a) ≧ the length of the flange portion (L1b)”, “L = L1b”,
In the case of “the length of the flange portion (L1b)> the length of the plate portion (L1a)”, “L = L1a”,
Lm is the distance (absolute value) from the starting point of the buttocks to the position at which the cross-sectional area is evaluated,
In Formula (2),
AR (p%) [%] is the buttock cross-sectional area ratio, that is, the relative ratio (%) of the buttock cross-sectional area to the total cross-sectional area at the evaluation position p%,
Af (p%) is the cross-sectional area (mm ² ) of the plate portion at the evaluation position p%,
Ar (p%) is the cross-sectional area (mm ² ) of the buttocks at the evaluation position p%,
At (p%) is the total cross-sectional area (mm ² ) at the evaluation position p%,
In Formula (3) and Formula (4),
Vr is the volume of the buttocks (mm ³ ),
Vf is the volume of the plate part (mm ³ ),
Vt is the total volume (mm ³ ),
Ps is the evaluation starting point, that is, the starting point of the ridge / plate structure, that is, the position of p% = 0%,
Pe is the evaluation end point, that is, the end point of the ridge / plate structure, that is, the position of p% = 100%,
In Formula (5),
VR [%] is the buttock volume ratio, that is, the relative ratio (%) of the volume of the buttock to the total volume. )


The heel length ratio LR [%] calculated by Expression (6)

50 ≦ LR [%] ≦ 200

The fishing rod according to any one of claims 1 to 3, wherein the fishing rod has the following characteristics.


(In Equation (6), LR [%] is the heel length ratio, that is, the relative ratio (%) of the heel length based on the length of the plate portion,
L1a is the length (absolute value) of the plate part,
L1b is the length (absolute value) of the buttocks. )


The fishing rod according to any one of claims 1 to 4, comprising a thermoplastic resin.


The fishing rod according to claim 5, wherein the thermoplastic resin is an aromatic polycarbonate.


The fishing rod according to claim 6, wherein the aromatic polycarbonate includes an aromatic polycarbonate represented by the chemical structural formula (I).


(In the chemical structural formula (I), the degree of polymerization n is 50 to 200)
The plate portion (1a) and the collar portion (1b) are integrally formed.
A fishing rod according to any one of claims 1 to 7.