CN106472447B - Fishing line guide, fishing rod, guide frame, and method for manufacturing guide frame - Google Patents

Abstract

The invention provides a fishing line guide, a fishing rod, a guide frame and a manufacturing method of the guide frame, which realize the light weight of the fishing line guide and improve the installation performance of the fishing line guide to a rod body. The fishing line guide comprises: a guide ring (2) for guiding a fishing line, and a guide frame (3) for holding the guide ring (2), wherein the guide frame (3) is formed of a hollow metal wire material, and is provided with: the rod comprises a frame part (30) for holding the guide ring (2), a mounting part (32) for mounting to the rod body, and a support foot part (31) for connecting the frame part (30) and the mounting part (32), wherein the mounting part (32) is provided with a flat part (32c) formed by flattening a hollow metal wire in the vertical direction.

Description

Fishing line guide, fishing rod, guide frame, and method for manufacturing guide frame

Technical Field

The present invention relates to a fishing line guide for guiding a fishing line, a fishing rod provided with the fishing line guide, a guide frame for the fishing line guide, and a method for manufacturing the guide frame.

Background

A fishing line guide for guiding a fishing line, as described in, for example, patent document 1 below, generally includes: the fishing device includes a guide frame formed by punching a metal plate, and a guide ring attached to a hole of the guide frame to guide a fishing line. However, since the guide frame is formed by punching a metal plate, there is a limit in securing strength and achieving weight reduction.

In view of the above, the present inventors have studied on a guide frame formed of a hollow metal wire material, that is, a frame portion for holding the guide ring, a mounting portion for mounting the guide ring to the rod body, and a support leg portion for connecting the frame portion and the mounting portion are integrally formed by bending the metal wire material along the outer circumference of the guide ring, and the metal wire material .

Prior art documents

Patent document

Patent document 1: japanese laid-open patent publication No. 2001-238577

Disclosure of Invention

Problems to be solved by the invention

Therefore, the invention aims to realize the light weight of the fishing line guide and improve the installation performance of the fishing line guide on the rod body.

The present invention has been made to solve the above problems, and a fishing line guide according to the present invention includes: the fishing line guide is characterized in that the guide frame is composed of a hollow metal wire material and is provided with: the rod comprises a frame part for holding a guide ring, a mounting part for mounting the rod body, and a support foot part for connecting the frame part and the mounting part, wherein the mounting part is provided with a flat part formed by flattening a hollow metal wire rod along the vertical direction. It should be noted that the up and down direction is the radial direction of the rod body when the rod body is installed, the direction far away from the rod body is the upper side, and the direction approaching the rod body is the lower side.

Since the guide frame of the fishing line guide having this structure is formed of a hollow metal wire rod, it can be easily reduced in weight as compared with a guide frame formed by punching a metal plate into a predetermined shape. The mounting part is mounted on the rod body by winding, for example, and the flat part is formed on the mounting part, so the close contact with the rod body is increased compared with the case that the mounting part is not squashed and keeps the shape of the hollow metal wire. In addition, the winding wire can be easily and firmly wound on the flat part, so that the fishing line guide can be firmly installed on the rod body.

It is particularly preferable that a concave portion curved in the left-right direction in such a manner that the upper side is protruded is formed on the lower surface of the flat portion, and it should be noted that the lower surface of the flat portion is a surface attached to the side of the rod body, and the left-right direction is the circumferential direction of the rod body and the width direction of the attachment portion, and by forming the concave portion on the lower surface of the flat portion, the lower surface of the flat portion more easily follows the outer circumferential surface of the rod body, and the close adhesion is further increased by , so that the fishing line guide can be more firmly attached to the rod body.

Preferably, the attaching part is formed by aligning both end portions of the metal wire in the right and left direction and forming a concave part continuously in the right and left direction so as to cross the right and left metal wires, the attaching part may be formed by end portions of the metal wire in the end portions in the right and left direction, the attaching part can be easily secured in width to increase the adhesion with the rod body by aligning both end portions of the metal wire in the right and left direction, and the right and left metal wires are flattened to form a flat part, and the concave part of the lower surface of the flat part is formed so as to cross the right and left metal wires, thereby improving the adhesion with the rod body.

In addition, the fishing rod according to the present invention is equipped with such a fishing line guide.

Further, a guide frame of a fishing line guide according to the present invention is a guide frame for holding a guide ring, the guide frame of the fishing line guide being formed of a hollow metal wire material, and including: the rod comprises a frame part for holding the guide ring, a mounting part for mounting the rod body, and a supporting foot part for connecting the frame part and the mounting part, wherein the mounting part is provided with a flat part formed by flattening a hollow metal wire in the vertical direction.

In particular, it is preferable that the mounting portion is configured by aligning both end portions of the metal wire rod in a predetermined length region in the left-right direction, and a concave portion is formed on a lower surface of the flat portion so as to extend across the left and right metal wire rods, and the concave portion is curved in the left-right direction so as to be convex upward.

Further, a method of manufacturing a guide frame according to the present invention includes: a step of arranging the two end parts of the metal wire in the specified length area at the left and right sides and welding the two end parts to form a mounting part; cutting off the left and right sides of the rear part of the mounting part in a manner that the width of the rear part of the mounting part is narrowed towards the rear side; a step of flattening the metal wire material at the rear part of the mounting part in the vertical direction to form a flat part; and a step of forming a concave portion on the lower surface of the flat portion by flattening the flat portion vertically and bending and deforming the flat portion. The step of cutting off the left and right side portions of the rear portion of the mounting portion so that the width of the rear portion of the mounting portion becomes narrower toward the rear side, the step of flattening the metal wire material of the rear portion of the mounting portion in the vertical direction to form the flat portion, or the step of cutting off the left and right side portions of the rear portion of the mounting portion so that the width of the rear portion of the mounting portion becomes narrower toward the rear side may be performed after the step of flattening the metal wire material of the rear portion of the mounting portion in the vertical direction to form the flat portion. That is, both the left and right sides of the flat portion may be cut. The rod head side is set as the front side, and the rod tail side is set as the rear side. Therefore, the rear portion of the mounting portion refers to a portion of the mounting portion on the rod tail side.

Effects of the invention

As described above, since the guide frame is formed of the hollow metal wire material, it can be lighter than a guide frame formed by punching a metal plate, and since the flat portion is formed on the mounting portion of the guide frame, it can be mounted on the rod body with good adhesion.

Drawings

Fig. 1 is a perspective view of a fishing line guide in an embodiment of the invention, as viewed from the rear side.

Figure 2 is a rear view of the fishing line guide in the embodiment of the invention viewed from the rear.

Fig. 3 is a cross-sectional view including a partial cross-sectional line showing a state where the fishing line guide is attached to a rod body.

Fig. 4 is a rear view of the guide frame of the fishing line guide viewed from the rear side.

Fig. 5 is a side view of the guide frame as viewed from the left-right direction.

Fig. 6 is a plan view showing a main part of the guide frame.

Fig. 7 is an enlarged view of a main portion of fig. 2.

Fig. 8 is a view showing a manufacturing process of a guide ring of the fishing line guide, in which (a) is a front view and (b) is a sectional view.

Fig. 9(a) and (b) are sectional views showing a manufacturing process of a guide ring of the fishing line guide.

Fig. 10 is a view showing a manufacturing process of the fishing line guide, where (a) and (b) are rear views when viewed from the rear side, and (c) is a main part sectional view of (b).

Fig. 11(a) and (b) are sectional views showing a manufacturing process of the fishing line guide.

Description of the reference numerals

1 fishing line guide

2 guide ring

2a inner peripheral surface

2b outer peripheral surface

3 guide frame

4 bridge component

5 rod body

6 winding wire

20 week groove

21 metal plate

22 front (rod head side) flange

23 rear (rod tail side) flange

30 frame part

31 supporting leg

31a front end region

31b middle region

31c root region

32 mounting part

32a straight tube part

32b taper

32c flat part

38 concave surface part

40 filling part

41 connecting part

42 upper surface of the container

43a arc part (lower surface)

43b curved surface (lower surface)

Side surface 44

50 center line of guide ring

51 central line of rod body

Imaginary circle of inner peripheral surface of frame 52

53 imaginary straight line

54 tangent point of imaginary straight line tangent to imaginary circle

P separation point

Central angle of theta frame part

Detailed Description

Hereinafter, a fishing line guide according to of the present invention will be described with reference to fig. 1 to 11. as shown in fig. 1 to 3, a fishing line guide 1 of the present embodiment includes a guide ring 2 for directly guiding a fishing line, a guide frame 3 for connecting the guide ring 2 and a rod body 5 while holding the guide ring 2, and a bridge member 4 for reinforcing the guide frame 3.

In the figure, the axial direction of the rod body 5 is referred to as the front-rear direction, and the rod head side (front side) is denoted by the reference numeral X1, and the rod tail side (rear side) is denoted by the reference numeral X2. In addition, the direction on the plane passing through the center line 50 of the guide ring 2 in the direction orthogonal to the axial direction of the rod body 5 is the up-down direction, the direction far from the rod body 5 is the upper side and is marked with the reference sign Z1, and the direction approaching the rod body 5 is the lower side and is marked with the reference sign Z2. The upper side is sometimes referred to as the tip side, and the lower side is sometimes referred to as the base side. In addition, the direction orthogonal to the axial direction of the rod body 5 when viewed from the top is taken as the left-right direction and is denoted by the reference symbol Y. The axial direction (front-back direction) of the rod body 5 is the direction of the center line 51 of the rod body 5, and is the length direction of the mounting part 32 of the guide frame 3 described later, and the left-right direction is the short side direction (width direction) of the mounting part 32.

< guide Ring 2>

The guide ring 2 is, for example, in a circular shape as shown in fig. 1, but may be in an elliptical shape, an oval shape, etc. in the present embodiment, a description will be given of a case where the guide ring 2 is in a circular shape, the guide ring 2 is made of various hard materials excellent in wear resistance, for example, ceramics represented by SiC (silicon carbide), in the present embodiment, titanium is preferable, a titanium alloy is preferable as titanium, a near α type, α + α type, α type titanium alloy is preferable, α phase and α phase are mixed in a near α 0 type titanium alloy, and a Ti 72 phase is mainly left in the α phase (α alloy to which a small amount of a stabilizing element α is added), a α type titanium alloy is particularly preferable, the near α type titanium alloy is excellent in the cold workability, the strength of the near α type, for example, Ti-8Al-1Mo- α -6 Al-1 Nb-1-0.8 type titanium alloy is preferable, and a near α type Al-72 type stabilizing element such as Ti-Al-72 Al-5 phase, Al-Cr-0.0-Cr-3 phase is more preferable, and Al-72 type stabilizing element is more preferable, and Al-72 type Al-5 phase is more preferable, and Al-5 type Al- α type-5 type-b-5 type Al-b-5 type titanium alloy is more preferable, and Al-3 type Cr-3 type stabilizing element is more preferable, and Al-3 type Cr type is more preferable, and Al-3 type Cr type is more preferable, and Al-72 type Cr type is more preferable as a near α type.

The guide ring 2 has a fishing line insertion hole through which a fishing line is inserted, and the fishing line is directly guided by sliding the fishing line on the inner circumferential surface 2a of the guide ring 2. As shown in fig. 9 b and 11, the inner peripheral surface 2a of the guide ring 2 is a curved surface that curves in the front-rear direction so as to be convex inward (convex toward the center) in a cross-sectional view, and the outer peripheral surface 2b of the guide ring 2 is also a curved surface that curves in the front-rear direction so as to be convex inward (convex toward the center) in a cross-sectional view. That is, the guide ring 2 has: a convex inner peripheral surface 2a curved in an arc shape so as to project toward the center side and a concave outer peripheral surface 2b curved in an arc shape so as to project toward the center side in a cross-sectional view taken along the center line 50. The inner circumferential surface 2a and the outer circumferential surface 2b of the guide ring 2 are formed in shapes corresponding to each other. The guide ring 2 is formed of a thin metal plate that is bent, and the front surface and the back surface of the metal plate are an inner circumferential surface 2a and an outer circumferential surface 2b, respectively.

More specifically, the guide ring 2 includes annular flange portions 22 and 23 protruding radially outward at both ends in the direction of the center line 50, i.e., the front and rear end portions, respectively, and the flange portions 22 and 23 are formed at the front and rear end portions, respectively, so that a recessed circumferential groove 20 is formed over the entire circumference between the flange portions 22 and 23 on the outer circumferential surface 2b of the guide ring 2, and the outer circumferential surface 2b smoothly continuing from the flange portions 22 and 23 to the circumferential groove 20 is formed, and the outer circumferential surface 2b of the guide ring 2 is curved in an arc shape in cross section, i.e., the circumferential groove 20 has a curved cross section, and the diameters G3 and G4 of the front and rear flange portions 22 and 23 are each larger than the inner diameter D (the diameter at the apex, which is the smallest diameter in the inner circumferential surface of the frame 3 described later) of the frame portion 30 of the guide frame 3, and the diameters G3 and G4 of the front and rear flange portions 22 and 23 may be the same, but the diameter G4 on the side is preferably smaller than the diameter G4 on the other side of the guide ring , and the outer diameter on the front and rear side of the flange portion 483g 5 on the guide ring side is smaller than the outer diameter of the rear flange portion 4 on the front and rear side of the flange portion 4 of the rear side of the guide ring side of the.

As described later, the frame portion 30 of the guide ring 3 and the bridge member 4 are engaged with each other in the peripheral groove 20 of the outer peripheral surface 2b of the guide ring 2, and preferably, the guide ring 3 is formed of a metal wire rod having a circular cross section, and the guide ring 2 is engaged with the peripheral groove 20 of the outer peripheral surface 2b of the guide ring 2 over an angular range of 90 degrees or more and less than 180 degrees over the entire circumference of the circular cross section, and as shown in fig. 9(b), a thickness G1 in the radial direction (inner-outer direction) of the guide ring 2 is a difference between an outer diameter (a diameter G3 of the flange portion 22 on the rear side which is a large side) and an inner diameter, and the thickness G1 in the radial direction of the guide ring 2 is constant over the entire circumference, and the thickness G2 (length) of the guide ring 2 in the direction along the center line 50 is.

The guide ring 2 is formed by punching a metal plate into a predetermined shape, for example, as shown in fig. 8, a metal plate made of a titanium alloy is punched into a doughnut shape, as shown in fig. 9(a), the punched doughnut-shaped metal plate 21 is punched from the surface side of the front and back surfaces to be deformed into a cylindrical shape as shown by arrows, and the flange portion 22 is formed by bending the end portion of the cylindrically formed metal plate 21 radially outward in a flange shape, then, as shown in fig. 9(b), the cylindrical metal plate 21 is punched by step by step from the opposite side, that is, the other surface side as shown by arrows, and the other end portion is also bent radially outward in a flange shape as shown by arrows, as in the same manner as the end portion, and the cylindrical metal plate 21 is provided in a sectional shape which the entire cylindrical metal plate 21 is curved so as to be convex toward the center side when viewed in cross section, thereby forming the arc-shaped guide ring 2.

Specifically, as shown in fig. 2 and 3, the guide ring 2 is assembled to the guide frame 3 such that the end , which is relatively bent outward in the radial direction, is a rear side (rear end) and the end , which is relatively bent outward in the radial direction, is a front side (front end) and the guide ring 2 is formed with the flange 22, 23, and a circumferential groove 20 is formed between the flange 22, 23 and the guide ring 2, and the guide frame 3 is engaged with the circumferential groove 20, so that the guide ring 2 is formed with the flange 22, 23, and the guide ring 2 is formed with the circumferential groove 20, and the guide ring 3 is engaged with the circumferential groove 20, and thus the guide ring 2 is formed with the guide ring 2 or both the front and rear flange 22, 23, which is restricted from moving relative to the guide frame 3, and the guide ring 2 is prevented from coming off when viewed from the front and rear sides, and the guide ring 2 is formed with the circular cross section of the guide ring 2, and the guide ring 2 is formed with the guide ring 2, and the guide ring 2 is prevented from coming off when viewed from the front and rear ends of the guide ring 2.

The outer peripheral surface 2b of the guide ring 2 and the frame portion 30 of the guide frame 3 may be in surface contact or point contact when viewed in a cross section cut along the radial direction, and when the outer peripheral surface 2b of the guide ring 2 and the guide frame 3 are in point contact, the guide frame 3 is preferably configured to pass through a plurality of point contacts at intervals in the front-rear direction (circumferential direction of the circular cross section of the wire) instead of passing through points, more preferably, to pass through two or three point contacts.

< guide frame 3>

The guide frame 3 includes: a mounting part 32 for mounting on the outer circumference of the rod body 5; and a frame body part rising from the mounting part 32 to the upper side, namely separating from the rod body 5 to the radial outside, and keeping the guide ring 2 at the position separating from the rod body 5 by a predetermined distance. The frame main body part is provided with: the frame 30 holding the guide ring 2, the support leg 31 connecting the frame 30 and the mounting portion 32. That is, the frame body portion is constituted by the frame portion 30 on the distal end side (upper side) and the support leg portion 31 on the proximal end side (lower side).

Specifically, the guide frame 3 is formed by bending metal wires along the outer peripheral surface 2b of the guide ring 2 into a U shape, and the metal wires are formed of, for example, a titanium alloy, a stainless steel, or an aluminum alloy, and among them, a titanium alloy is preferable from the viewpoint of weight reduction, and in the specific case of a titanium alloy, as with the guide ring 2, a β type titanium alloy is preferable because the cold workability is good and the strength of the member can be easily ensured, and the metal wires have a circular cross-sectional shape, and from the viewpoint of weight reduction and strength, and the viewpoint of easily ensuring the contact area with the guide ring 2, the metal wires are preferably hollow materials, that is, wire-shaped tubes, and the wire diameter (outer diameter) of the metal wires is, for example, 0.3 to 6mm, and preferably 1 to 3 mm.

Since the guide frame 3 is formed by bending hollow metal wires, and has a shape bent in a U-shape folded in two when viewed from the rear or from the front as shown in fig. 2 and 4, and both ends of the metal wires are aligned in directions in the present embodiment, metal wires are bent in a U-shape as a whole to form the guide frame 3 in the present embodiment, the supporting leg portions 31 and the mounting portions 32 are both configured as two legs in which two metal wires are arranged in the left-right direction.

As shown in fig. 3 and 5, the frame body portion is curved from the front end of the mounting portion 32 and extends straight upward after facing upward. The portions of the frame main body portion that are curved and face upward are a root region 31c and an intermediate region 31b of the support leg 31, which will be described later. In the present embodiment, the frame body is finally erected at a right angle with respect to the mounting portion 32, and therefore, the center line 50 of the guide ring 2 is parallel to the center line 51 of the rod body 5, but the frame body may be erected in such a manner that the center line 50 of the guide ring 2 is not parallel to and inclined with respect to the center line 51 of the rod body 5. That is, the frame body may be erected in a forward inclined posture.

< frame part 30>

The frame portion 30 forms a region on the front end side of the frame body portion in a portion for holding the guide ring 2 on the inner side thereof, and is formed in an arc shape having a predetermined center angle θ. The frame portion 30 is formed in a C shape that opens downward by bending the metal wire along the outer periphery of the guide ring 2. The frame portion 30 is formed in a size and shape corresponding to the guide ring 2. The shape of the frame portion 30 differs depending on the shape of the guide ring 2, and since the circular guide ring 2 is used in the present embodiment, the frame portion 30 is also formed in an arc shape corresponding thereto, but in the case of using the elliptical guide ring 2, the frame portion 30 is also formed in an elliptical arc shape corresponding thereto. The frame portion 30 supports the outer peripheral surface 2b of the guide ring 2 so as to surround only an upper predetermined range of the entire circumference of the guide ring 2.

In the predetermined angular range of the frame portion 30 around the guide ring 2, as shown in fig. 4, the central angle θ of the frame portion 30 is preferably an angle of about 180 degrees, preferably 150 degrees to 240 degrees, and more preferably 160 degrees to 200 degrees, in the present embodiment, the central angle θ of the frame portion 30 is an angle slightly exceeding a half circumference of the guide ring 2, in fig. 4, a virtual circle 52 obtained by extending the inner circumferential surface of the frame portion 30 is shown by a two-dot chain line, the virtual circle 52 is a circle obtained by extending the inner circumferential surface of the frame portion 30 to 360 degrees in the circumferential direction and viewing the 360-degree inner circumferential surface in the direction of the center line 50 of the guide ring 2, the diameter D of the virtual circle 52 is a diameter D of the frame portion 30 (a diameter at a top point which is the smallest diameter portion in the inner circumferential surface of the frame portion 30), in fig. 4, a tangent 53 which is tangent to the virtual circle 52 with a lower end portion (an end portion on the root side) of the support leg portion 31 as a starting point, and the tangent 53 is a tangent to the virtual circle 52, the tangent line 53 which is a tangent to the lower end side of the imaginary circle 52, in the direction of the fishing line 1 viewed in the direction of the center line 50 of the guide ring 2, and the tangent line 3553 is preferably two-tangent to the front end side of the mounting portion 3553 of the support leg.

< supporting leg part 31>

The support leg 31 is located between the frame 30 and the mounting portion 32 to connect the frame 30 and the mounting portion 32, the support leg 31 has a structure in which two legs are arranged in the left-right direction as shown in fig. 4, first, a description is given of a shape of the support leg 31 as viewed from a front side or a rear side, the left and right pairs of the support legs 31 are provided in a shape symmetrical to each other in the left-right direction, the left and right pairs of the support legs 31 extend downward from both end portions in the circumferential direction of the frame 30, respectively, and form a V-shape as viewed from the front side or the rear side as a whole, more specifically, the left and right pairs of the support legs 31 are formed in a shape curved so as to bulge outward in the left-right direction, the left and right pairs of the support legs 31 extend downward so as to bulge outward from both end portions in the left-right direction of the frame 30, then extend inward in a manner to approach each other, that the interval therebetween is reduced, and the lower ends are in a state where the lower ends are in contact with each other, however, the left and right pairs of the support legs 31 are formed in a state where the tangent line to the tangent line of the tangent lines of the tangent.

The left and right pairs of support leg portions 31 are each formed in a curved shape bulging outward in the left-right direction, and since the center angle θ of the frame portion 30 is 180 degrees or more in the present embodiment, the maximum separation distance between the two support leg portions 31 is equal to the inside diameter D of the frame portion 30, that is, the diameter D of the imaginary circle 52 in fig. 4 is equal to the maximum separation distance between the two support leg portions 31, and since the left and right pairs of support leg portions 31 abut at the lower end portions in the present embodiment, the separation distance between the left and right pairs of lower end portions of the support leg portions 31 is 0.

The shape of the support leg 31 as seen in side view from the left-right direction as shown in fig. 3 and 5 will be described, the support leg 31 may be divided into three regions, that is, the support leg 31 includes a front end region 31a adjacent to the frame 30, a base region 31c adjacent to the mounting portion 32, and a middle region 31b which is a portion between the front end region 31a and the base region 31c, the front end region 31a of the support leg 31 extends downward without being bent in the front-rear direction from the circumferential end of the frame 30, and is on the same plane as the frame 30, that is, the front end region 31a of the support leg 31 is located on a plane orthogonal to the center line (center line 50 of the guide ring 2) of the frame 30, the middle region 31b and the base region 31c of the support leg 31 are both curved in the front-rear direction, and the middle region 31b of the support leg 31 and the base region 31c of the support leg 31 are not on the same plane as the center line 30, the middle region 31b and the middle region 31b of the support leg 31 are not on the same plane as the metal wire 31, the metal wire 31c, the middle region 31c of the support leg 31 extends from the front-rear end region 31 of the support leg 31 to the middle region where the bend in the radius of the support leg 31b in the support leg 31 is less, and the radius where the bend in the squashed in the support leg 31, the support leg 31 is less, the support leg 31, the radius of the support leg 31c in the support leg 31, and the support leg 31 is less, and the radius where the radius of the bend in the support leg 31b in the support leg 31 is less, the support leg 31b in the longitudinal direction, and the longitudinal direction, and rear bend in the radius of the bend in the squashed back bend in the support leg 31b is less, and the support leg 31, the support leg 31.

< mounting part 32>

The mounting portion 32 extends from the lower end of the supporting leg portion 31 toward the rear side (rod tail side) in a linear manner of in a plan view, in the present embodiment, the mounting portion 32 has a two-leg structure including regions of predetermined length at both end portions of metal wires, that is, the mounting portion 32 is configured by arranging left and right , which are regions of predetermined length at both end portions of metal wires, in parallel to the linear bodies without a space therebetween, and the linear bodies extend from the lower end of the supporting leg portion 31 toward the rear side, the left and right connect the linear bodies to each other to form , and the connection method is arbitrary, but it is preferable to connect them by welding.

The thickness of the mounting portion 32 is not constant over the entire length, and is constituted by three regions having different thicknesses. That is, the mounting portion 32 includes: a straight tube portion 32a having a circular cross section at the front side, a flat portion 32c having a plate shape at the rear side, and a tapered portion 32b located between the straight tube portion 32a and the flat portion 32c and having a thickness (vertical dimension) gradually decreasing toward the rear side. The straight tube portion 32a constitutes the front portion of the mounting portion 32 and extends rearward from the root region 31c of the supporting leg portion 31. The straight tube portion 32a is a portion in which the hollow metal wire maintains its circular cross-sectional shape. The straight tube portion 32a does not bend in the front-rear direction but extends linearly in the front-rear direction. The tapered portion 32b constitutes an intermediate portion of the mounting portion 32, and an upper surface thereof is gradually inclined downward toward the rear side, and a thickness thereof is reduced toward the rear side due to the downward inclination of the upper surface. The tapered portion 32b is a portion in which a hollow metal wire is compressed in the vertical direction and the amount of compression thereof gradually increases toward the rear side, and is connected to the flat portion 32c at the rear end thereof. The flat portion 32c constitutes a rear portion of the mounting portion 32, and is a portion formed by flattening a hollow metal wire in the vertical direction into a plate shape.

The width (dimension in the left-right direction) of the mounting portion 32 may be constant, but it is preferable that the width of the rear portion gradually decreases toward the rear side as shown in fig. 6. Specifically, the straight tube portion 32a and the tapered portion 32b have a constant width, and the flat portion 32c is formed so that the width gradually decreases toward the rear side. The flat portion 32c is cut out at predetermined portions on both left and right sides thereof such that the width of the flat portion 32c gradually decreases toward the rear side. The shape before cutting is shown by a two-dot chain line in fig. 6.

The mounting portion 32 is formed by arranging the left and right linear bodies in parallel in the left and right directions, and the concave portion 38 is formed as a smooth curved surface continuous in the left and right directions so as to straddle the left and right linear bodies, as described above, the upper surface of the flat portion 32c is formed as a convex curved surface curved in the left and right directions, and the lower surface of the flat portion 32c is formed as a concave curved surface curved in the left and right directions, because the concave portion 38 is formed to correspond to the upper surface and the lower surface of the flat portion 32c, the curved shape of the flat portion 32c is formed by flattening a hollow metal wire in the up and down directions to form a plate shape, and then the flat portion 32c is formed by bending and deforming the plate-shaped flat portion step, the concave portion 38 is preferably formed as a curved surface along the circumferential direction of the outer peripheral surface of the rod body 5, and the radius of curvature R (see fig. 4 and 7) of the flat portion 38 is provided, for example, as the radius of curvature 1/2 of the outer diameter of the rod body 5.

The mounting part 32 is wound around the outer circumference of the rod body 5 by the coil 6 as shown in fig. 2, however, in order to prevent the mounting part 32 from falling off the rod body 5, notches (not shown) may be provided at both left and right sides of the mounting part 32. If notches are provided in the left and right sides of the mounting portion 32, the winding wire 6 is wound more firmly around the notches.

The guide frame 3 is configured such that metal wires are bent into a U shape and bent in the front-rear direction so that both end portions of the metal wires are aligned in the left-right direction, then both end portions of the metal wires arranged in the left-right direction are welded to each other to form the mounting portion 32, then the metal wires at the rear portion of the mounting portion 32 are flattened in the up-down direction to form the flat portion 32c, and both left and right side portions of the flat portion 32c are obliquely cut off, and after the flat portion 32c is formed, both left and right side portions of the flat portion 32c are cut off in a separate step, and then the formed flat portion 32c is pressed down and up in a step to bend and deform the flat portion 32c in the left-right direction, so that the flat portion 32c is formed on the lower surface of the flat portion 32c after both end portions of the metal wires are joined, so that the flat portion 32c is formed on the lower surface of the left and right metal wires , and the flat portion 32c is formed on the left and right side portions of the metal wires in the flat portion 32c, and then the flat portion 32c is continuously formed in the left-right direction, so that the flat portion 32c is formed on the flat portion of the flat portion 32 c.

< bridge part 4>

As described above, the frame 30 has a C-shape with a lower opening, and the support leg 31 has a two-leg structure of pairs in the left and right directions and is separated in the left and right directions, and the frame 30 supports only the upper predetermined angle region of the outer peripheral surface 2b of the guide ring 2, and the lower predetermined angle region of the outer peripheral surface 2b of the guide ring 2 is not supported by the guide frame 3 without contacting it, and on the other hand, the bridging member 4 is provided at a position below the guide ring 2 in order to reinforce the guide frame 3 and supplement the holding of the guide ring 2 by the guide frame 3.

The bridging member 4 is positioned inside the guide frame 3 and on the side of the mounting part 32 (closer to side of the rod 5 in a state of being assembled to the rod 5) with respect to the guide ring 2. the bridging member 4 abuts against the lower side predetermined angle region of the outer circumferential surface 2b of the guide ring 2 to hold the lower side predetermined angle region of the outer circumferential surface 2b of the guide ring 2 and connects the left and right to the supporting leg parts 31 to the left and right, specifically, the bridging member 4 connects the supporting leg parts 31 to each other in the range of the front end region 31a in the entire region of the supporting leg parts 31. specifically, the bridging member 4 preferably connects the front end region 31a and does not connect the middle region 31b of the supporting leg parts 31. the bridging member 4 preferably connects the left and right to each other to the left and right as a support part to reinforce the guide frame 3, and also connects the vicinity of the opening part of the frame part 30 of the guide frame 3 by the bridging member 4, and further, the bridging member 4 supports most of the angular region of the guide ring 2 not supporting the guide ring 2 by sandwiching the guide ring 3.

The bridge member 4 fills a space between the guide frame 3 and the guide ring 2 at two left and right positions where the guide frame 3 is separated from the outer peripheral surface 2b of the guide ring 2, and prevents the fishing line from being entangled by the space filling by the bridge member 4. in other words, at the two left and right positions where the support leg portions 31 of the guide frame 3 are separated from the outer peripheral surface 2b of the guide ring 2, valley-shaped spaces are formed in a V-shape between the support leg portions 31 and the outer peripheral surface 2b of the guide ring 2, respectively, the bridge member 4 fills the spaces at the two left and right positions, and specifically, the bridge member 4 includes a pair of left and right filling portions 40 that are positioned in the space between the guide frame 3 and the guide ring 2 at the two left and right positions where the guide frame 3 is separated from the outer peripheral surface 2b of the guide ring 2, and a coupling portion 41 that couples the two filling portions 40 to each other.

Since the bridge member 4 is formed of members, the left and right form a body of the filling portion 40 and the connecting portion 41 therebetween, the filling portion 40 is provided in a tapered shape that is tapered toward a separation point P where the guide frame 3 separates from the guide ring 2 in a front view as shown in fig. 1, and conversely, the filling portion is wider as it separates downward from the separation point P so as to be inserted into a space between the guide ring 2 and the guide frame 3 in correspondence with the space, and the connecting portion 41 extends so as to form an arc along the outer peripheral surface 2b of the guide ring 2. it is preferable that the dimension (thickness) of the guide ring 2 in the radial direction of the connecting portion 41 is smaller than the dimension of the connecting portion 41 in the direction of the center line 50 of the guide ring 2, and the bridge member 4 can be made lightweight.

The bridging member 4 includes an upper surface 42 located on the guide ring 2 side, a lower surface located on the side opposite to the guide ring 2 side, and left and right facing surfaces 44. it should be noted that, when viewed in the inward-outward direction with respect to the center of the guide ring 2, the upper surface 42 of the bridging member 4 is an inner surface because it is a surface located on the inner side, and the lower surface of the bridging member 4 is an outer surface because it is a surface located on the outer side. the upper surface 42 of the bridging member 4 is in contact with the outer circumferential surface 2b of the guide ring 2. therefore, the upper surface 42 of the bridging member 4 is shaped along the outer circumferential surface 2b of the guide ring 2, and is formed in a concave shape having an arc shape when viewed from the front with a center angle corresponding to a predetermined angular range of the outer circumferential surface 2b of the guide ring 2 so as to be able to make contact with the angular range.

Further, it is preferable that the upper surface 42 of the bridge member 4 has a cross-sectional shape corresponding to the outer peripheral surface 2b of the guide ring 2 in a cross-sectional view taken along the radial direction of the guide ring 2 so that a sufficient contact area with the outer peripheral surface 2b of the guide ring 2 can be secured. As described above, the circumferential groove 20 is formed in the outer circumferential surface 2b of the guide ring 2. Therefore, the upper surface 42 of the bridge member 4 preferably has a cross-sectional shape that engages with the peripheral groove 20 of the outer peripheral surface 2b of the guide ring 2 when viewed in a cross-section taken along the radial direction of the guide ring 2, and is preferably formed as a convex curved surface that is curved so as to be convex toward the center of the guide ring 2.

The lower surface of the bridge member 4 is positioned on the side vertically opposite to the upper surface 42. the lower surface of the bridge member 4 includes arc-shaped portions 43a corresponding to the outer peripheral surface 2b of the guide ring 2 and concentric with the upper surface 42 of the bridge member 4 and the guide ring 2, and right and left pairs of curved portions formed on the right and left sides of the arc-shaped portions 43a and curved in a concave shape so as to gradually move away from the guide ring 2 as approaching the guide frame 3. in other words, the curved portions 43b of the lower surface of the bridge member 4 are curved so as to gradually move away from the upper surface 42 of the bridge member 4 as approaching both ends in the right and left direction of the bridge member 4.

The side surface 44 of the bridging member 4 abuts against the inside of the supporting leg 31 of the guide frame 3, and it is preferable that an engaging groove (not shown) capable of engaging with the guide frame 3 is formed in the side surface 44 of the bridging member 4, the engaging groove has an arc-shaped cross-sectional shape corresponding to a circular cross-sectional shape of the hollow metal wire 34 in cross-sectional view, and the bridging member 4 abuts against the front end region 31a, which is a region of the supporting leg 31 of the guide frame 3 where the frame portion 30 is located on the same plane, but does not abut against the middle region 31b of the supporting leg 31, and therefore, the bridging member 4 can be formed in a plate shape having a constant thickness in the front-rear direction (the direction of the center line 50 of the guide ring 2), and it is preferable that the thickness is equal to the outer diameter of the hollow metal wire 34 of the.

The bridge member 4 is preferably made of a material having a low specific gravity, and for example, a hard resin or a fiber-reinforced resin can be used, and a fiber-reinforced resin using carbon fibers as reinforcing fibers is particularly preferably used, and a resin molded product formed by injection molding is preferred. The guide frame 3 may be made of a metal such as a titanium alloy, as in the case of the guide frame.

The fishing line guide 1 configured as described above is manufactured by, for example, assembling in the following order. As described above, the guide ring 2 is made of the metal plate 21 made of titanium alloy or the like as shown in fig. 8 and 9. Then, as shown in fig. 10, the bridge member 4 separately manufactured is integrated with the guide ring 2. In fig. 10, the guide ring 2 and the bridge member 4 are both viewed from the rear side, as in fig. 2. Fig. 10(a) is a state before the assembly, fig. 10(b) is a state after the assembly, and fig. 10(c) is a view showing a main part of the state after the assembly, in which only the guide ring 2 is partially shown in a cross section. The upper surface 42 of the bridge member 4 is brought into engagement with the circumferential groove 20 of the outer circumferential surface 2b of the guide ring 2, and the bridge member 4 and the guide ring 2 are adhesively fixed.

On the other hand, , the guide frame 3 is formed by hollow metal wires as described above, the guide ring 2 integrated with the bridge member 4 is attached to the guide frame 3, it should be noted that the bridge member 4 and the guide ring 2 may be attached to the guide frame 3 separately from each other, and when the guide ring 2 is attached to the guide frame 3, the guide ring 2 is pushed in from the rear side to the front side of the guide frame 3 as shown in fig. 11 (a).

Since the diameter G4 of the front flange portion 23 of the guide ring 2 is smaller than the diameter G3 of the rear flange portion 22 but larger than the inner diameter D of the frame portion 30 of the guide frame 3, by pressing the guide ring 2 in the direction along the center line 50 toward the guide frame 3, the frame portion 30 and the left and right support leg portions 31 of the guide frame 3 are elastically deformed so as to spread out in the left-right direction, and the guide ring 2 is pressed into the frame portion 30 of the guide frame 3, whereby the frame portion 30 of the guide frame 3 is engaged with the circumferential groove 20 of the guide ring 2, the support leg portions 31 of the guide frame 3 are formed in a C-shape with a downward opening, and the guide frame 3 is formed in a two leg structure separated in the left-right direction, even if the guide frame 3 is engaged with the circumferential groove 20 of the guide ring 2, the guide ring 2 can be pressed into a circular shape by pressing the guide ring 3 so that the guide frame 3 is smoothly pressed into the guide ring 2, and the guide ring 3 can be formed in a circular shape by pressing the guide ring 3.

When the guide ring 2 is pushed into the frame portion 30 of the guide frame 3, the guide frame 3 is constricted by its own elastic restoring force to return to its original state, and the frame portion 30 of the guide frame 3 automatically engages with the circumferential groove 20 of the guide ring 2 to hold the guide ring 2 as shown in fig. 11 (b). Further, since the metal wire rod is hollow, it is more easily elastically deformed than a solid metal wire rod having the same diameter, and the guide ring 2 can be easily and smoothly inserted. Similarly, the bridge member 4 can be easily assembled by elastically deforming the guide frame 3 so as to open in the right and left directions, and the front end region 31a of the support leg 31 of the guide frame 3 is fitted into the engagement groove of the both side surfaces 44 of the bridge member 4. When the guide ring 2 and the bridge member 4 are attached to the guide frame 3, an adhesive may be used. An adhesive may be used as an auxiliary material, and for example, the peripheral groove 20 and the engagement groove may not be provided and may be fixed by adhesion only by an adhesive.

The fishing line guide 1 manufactured in this way is attached to the outer peripheral surface of the rod body 5 of the fishing rod as shown in fig. 3. Specifically, the mounting part 32 of the fishing line guide 1 is placed on the rod body 5, and the winding 6 is wound around the mounting part 32 and the rod body 5 to tightly attach the fishing line guide 1 to the rod body 5. More specifically, the fishing line guide 1 is fixed to the rod body 5 by winding the winding wire 6 from the rod body 5 to the flat portion 32c of the mounting portion 32. Then, a synthetic resin (adhesive) having adhesiveness is applied to the wound portion of the winding 6 to fix it. In the present embodiment, the guide ring 2 is in the upright posture in the state of being mounted to the rod body 5, that is, the center line 50 of the guide ring 2 is parallel to the center line 51 of the rod body 5, but may be in the forward tilting posture inclined to the front side.

In the fishing line guide 1 of the present embodiment, the flat portion 32c is formed at the rear portion of the mounting portion 32, so that the close contact with the rod body 5 is increased compared to the case where the mounting portion 32 is not crushed and the shape of the hollow metal wire is maintained, and the winding wire 6 can be firmly wound around the flat portion 32c, so that the fishing line guide 1 can be firmly mounted to the rod body 5, particularly, the concave portion 38 is formed at the lower surface of the flat portion 32c, so that the close contact along the rod body 5 is more easily increased compared to the case where the lower surface of the flat portion 32c is flat, and in the mounting portion 32, the concave portion 38 is continuous in the left-right direction across the left and right metal wires, so that the good close contact with the rod body 5 can be ensured even in the structure where the both end portions of the metal wire are arranged left and right in the region of the predetermined length, and in addition, the both side portions of the flat portion 32c are obliquely cut off toward the rear side to be formed to be reduced in the width toward the rear side, so that the rod body 5 can be firmly mounted, and the rod body 6 can be beautifully provided with a.

In the fishing line guide 1 attached to the rod body 5 as described above, the guide frame 3 is formed of a hollow metal wire rod, and therefore, it is possible to easily achieve a lighter weight than a conventional structure in which a metal plate is punched out into a predetermined shape. Further, in the conventional guide frame 3 formed by punching a metal plate, since a sectional shape with a raised edge is formed, resistance when the fishing line comes into contact with the guide frame 3 is large, and therefore, the fishing line is likely to be entangled, and the throwing feeling is not good. On the other hand, since the guide frame 3 of the fishing line guide 1 of the present embodiment is made of a metal wire rod having a circular cross section and has a circular cross section without an edge, the sliding property of the fishing line when the fishing line contacts the guide frame 3 is good and smooth, the fishing line is less likely to be entangled, and the throwing feeling is good.

Further, the left and right sides of the guide frame 3 are curved so as to bulge outward in the left-right direction with respect to the support leg 31, and therefore, in conjunction with the guide frame 3 having a circular cross-sectional shape without an edge, the fishing line is not easily wound around the fishing line guide 1. further, since the center angle θ of the frame 30 is smaller than the center angle α between the two tangent points 54, the support leg 31 can be provided in a shape that bulges smoothly from the circumferential end of the frame 30, a tapered portion that tapers radially inward is not generated at the boundary portion between the frame 30 and the support leg 31, a shape that continues smoothly from the frame 30 to the support leg 31 is formed, and the winding of the fishing line is prevented by step .

Further, even if the root region 31c of the supporting leg 31 is curved in the front-rear direction, the hollow metal wire is not crushed in the root region 31c and maintains the sectional shape, so that the root region 31c of the supporting leg 31 is formed into a non-edge sectional shape, and a good throwing feeling is less likely to be obtained when the fishing line is in contact, and the fishing line is prevented from being entangled , and further, the metal wire is not crushed in the root region 31c of the supporting leg 31, so that the strength is improved compared to the crushed form.

Further, since the bridging member 4 connects the left and right to the support leg 31, the guide frame 3 is reinforced, and the strength of the guide frame 3 is improved, and since the bridging member 4 fills the space between the guide frame 3 and the outer peripheral surface 2b of the guide ring 2 in the vicinity of the two left and right separation points P at which the guide frame 3 is separated from the outer peripheral surface 2b of the guide ring 2, the bridging member 4 can prevent the entanglement of the fishing line which tends to occur in the vicinity of the two separation points P, particularly, since the concave curved surface portion 43b is formed on the lower surface of the filling portion 40 of the bridging member 4, the entanglement of the fishing line can be suppressed by steps by the curved surface portion 43 b.

Further, since the non-wound portion of the frame portion 30 around which the guide frame 3 is not wound is held by the bridge member 4 in the entire circumference of the guide ring 2, the guide ring 2 is held not only by the frame portion 30 of the guide frame 3 but also by the bridge member 4, and the holding force of the guide ring 2 is improved, and further, the bridge member 4 is engaged with the circumferential groove 20 of the guide ring 2, and the supporting leg portions 31 of the guide frame 3 are also engaged with both side surfaces 44 of the bridge member 4, so that the guide ring 2, the guide frame 3, and the bridge member 4 are firmly integrated into , and the strength of the fishing line guide 1 is further improved by steps, and further, by engaging the bridge member 4 with the circumferential groove 20 of the guide ring 2, the vertical dimension of the bridge member 4 can be reduced, and weight can be reduced, and further, the supporting leg portions 31 are connected to each other within a range of the front end region 31a that is not bent in the front-rear direction, and therefore, the bridge member 4 and the frame portion 30 of the guide frame portion 3 can be positioned on the same plane , and the dimension in the front-rear direction of the bridge member 4 can be suppressed, and the fishing line winding strength of the fishing line guide member 1 can be.

In the present embodiment, the supporting leg portion 31 is configured by two legs, however, legs may be used, and legs may be used for the mounting portion 32.

Claims (5)

1- fishing line guide comprising a guide ring for guiding a fishing line and a guide frame for holding the guide ring, characterized in that,

the guide frame is composed of a hollow metal wire rod, and is provided with: a frame part for holding the guide ring, a mounting part for mounting to the rod body, and a supporting foot part for connecting the frame part and the mounting part,

the mounting portion is formed by joining both end portions of the metal wire rod in a predetermined length region in a left-right alignment, and includes a flat portion flattened in the vertical direction,

a concave part which is continuous in the left-right direction is formed on the lower surface of the flat part in a mode of crossing the left and right metal wires,

a tapered portion whose thickness decreases toward the rear side is provided on the front side of the flat portion,

the upper surface of the tapered portion is inclined gradually downward toward the rear side,

the root region of the support leg portion has a curved shape curved in the front-rear direction, and the metal wire material maintains its cross-sectional shape without being crushed in the root region of the support leg portion.

2, A fishing rod, characterized in that,

the fishing line guide of claim 1.

3, A guide frame of a fishing line guide, which is a guide frame for holding a guide ring, the guide frame of a fishing line guide characterized in that,

the guide frame of the fishing line guide is made of a hollow metal wire material, and includes: a frame part for holding the guide ring, a mounting part for mounting to the rod body, and a supporting foot part for connecting the frame part and the mounting part,

the mounting portion is formed by joining both end portions of the metal wire rod in a predetermined length region in a left-right alignment, and includes a flat portion flattened in the vertical direction,

a concave part which is continuous in the left-right direction is formed on the lower surface of the flat part in a mode of crossing the left and right metal wires,

a tapered portion whose thickness decreases toward the rear side is provided on the front side of the flat portion,

the upper surface of the tapered portion is inclined gradually downward toward the rear side,

the root region of the support leg portion has a curved shape curved in the front-rear direction, and the metal wire material maintains its cross-sectional shape without being crushed in the root region of the support leg portion.

4. The guide frame of a fishing line guide according to claim 3,

the concave portion is curved in the left-right direction in a convex manner at an upper side.

5, A method for manufacturing a guide frame of a fishing line guide, the guide frame of claim 4, wherein,

the method for manufacturing the guide frame of the fishing line guide comprises the following steps:

a step of arranging the two end parts of the metal wire in the specified length area at the left and right sides and welding the two end parts to form a mounting part;

cutting off the left and right sides of the rear part of the mounting part in a manner that the width of the rear part of the mounting part is narrowed towards the rear side;

a step of flattening the metal wire material at the rear part of the mounting part in the vertical direction to form a flat part; and

and a step of forming a concave portion on the lower surface of the flat portion by flattening the flat portion in the vertical direction and bending and deforming the flat portion.

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