JP2018007582A - fishing rod - Google Patents

Abstract

PROBLEM TO BE SOLVED: To improve a grip force while retaining weight reduction and high sensitivity by an integral configuration in a fishing rod which includes an integrally configured rear grip part.SOLUTION: A fishing rod which includes a hollow rear grip rod body 21 in which a rear grip part 41 is integrally formed by enlarging a diameter of a prescribed-length area at a rear end side is such that: an annular corner part 44c is formed in a boundary part between a front surface part 44a and a rear surface part 44b in the rear grip part 41; the rear grip part 41 includes an enlarged diameter part 44 whose inclination is sharper than that of a small diameter part 40 positioned at the front side of the rear grip part 41, and which is enlarged in a diameter toward the rear side, and a large diameter part 45 which constitutes an area from the rear end part of the enlarged diameter part 44 to the rear end of the rear grip rod body 21; and the annular corner part 44c is formed in the enlarged diameter part 44, and the enlarged diameter part 44 is divided into the front surface part 44a and the rear surface part 44b by the annular corner part 44c.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a fishing rod provided with a hollow rod body in which a rear grip portion is integrally formed.

  When the housing is provided with a rear grip portion, it is often configured by forming a cylindrical rear grip body from cork or foamed resin and attaching it to the rear outer peripheral surface of the housing main body (blank). However, if the rear grip portion is configured separately from the rod body, it is difficult to reduce the weight, and the sensitivity transmitted from the fishing rod to the hand also decreases.

  In contrast, the present applicant has already proposed a configuration in which the rear grip portion is integrally formed by increasing the diameter of the rear portion of the hollow rear grip housing (see Patent Document 1 below). With this configuration, weight reduction and high sensitivity could be achieved.

Japanese Patent No. 5721574

  It is an object of the present invention to improve grip force while maintaining weight reduction and high sensitivity by an integrated configuration in a fishing rod including an integrated rear grip portion.

  The present invention has been made to solve the above problems, and a fishing rod according to the present invention is a hollow tube in which a predetermined length region on the rear end side is enlarged and a rear grip portion is integrally formed. A fishing rod provided with a rear grip rod body, wherein the rear grip portion is formed with an annular corner portion at a boundary portion between a front surface portion and a rear surface portion. The tip side is the front side and the buttock side is the rear side.

  When fishing using the fishing rod having such a configuration, vibrations such as fish claws are transmitted from the fishing line to the rod main body (blank), and are transmitted to the rear grip rod body constituting the base portion of the rod main body. Since the rear grip part is formed integrally with the rear part of the rear grip body, for example, when gripping a fishing rod with the right hand, it is relatively thick near the elbow of the right arm, especially the forearm and elbow, especially the forearm The rear grip portion can be brought into contact with the portion. Therefore, vibration is transmitted not only from the palm but also from the rear grip part to the forearm. Since the rear grip portion is not a separate configuration but an integral configuration, it has excellent vibration transmission characteristics, and vibration is directly transmitted from the rear grip portion to the hand. Therefore, even a small attack such as the previous attack can be surely felt. Further, the rear grip portion can be gripped with a hand opposite to the hand gripping the fishing rod. The rear grip portion is not a separate component made of EVA or cork, but an integral component formed integrally with the rear grip housing, but since the annular corner portion is formed in the rear grip portion. Even if the rear grip part is gripped, it is difficult to slip. That is, the annular corner is a mountain shape in cross section, and the two front and back adjacent surface portions are bent at the annular corner, so that the front surface portion located on the front side of the annular corner, for example, It can be grasped by hooking the thumb and index finger. Even when the fishing rod is swung, since the annular corner is formed, the hand gripping the rear grip portion is hard to slip and the rear grip portion can be securely gripped. In particular, in a fishing rod provided with a reel seat, for example, the fishing rod can be gripped with the right hand and the rear grip portion can be gripped with the left hand for double-hand casting. At that time, the rear grip part can be gripped by hooking the thumb and index finger of the left hand on the front side part of the rear grip part. It can be easily cast without coming out.

  In particular, the rear grip part has an enlarged diameter part that expands toward the rear side with a steeper slope than the small diameter part located on the front side of the rear grip part, and a rear grip from the rear end part of the enlarged diameter part. A large-diameter portion constituting a region up to the rear end of the housing, and an annular corner is formed in the enlarged-diameter portion, and the enlarged-diameter portion is partitioned into a front surface portion and a rear-side surface portion by the annular corner portion. It is preferable. In this way, when the annular corner portion is formed in the enlarged diameter portion of the rear grip portion and the enlarged diameter portion is partitioned into the front surface portion and the rear surface portion, for example, on the forearm of the hand holding the fishing rod When the rear grip portion is applied, the forearm mainly comes into contact with the rear surface portion of the enlarged diameter portion and the large diameter portion. Therefore, even if an annular corner portion is formed in the rear grip portion, the rear grip portion can be applied to the forearm without a sense of incongruity. On the other hand, when gripping the rear grip portion, the front surface portion of the enlarged diameter portion can be gripped by, for example, the thumb and forefinger, and an annular corner is formed on the rear side, so that the thumb and forefinger are difficult to slip. Therefore, even if the rear grip portion is gripped with a light force, it can be securely gripped without slipping.

  Moreover, it is preferable that the surface part of the front side is a concave curved surface part having an outer concave shape. When the front surface portion is a concave curved surface portion, for example, compared to a case where the front surface portion is a linearly inclined surface portion in cross section inclined at a certain inclination angle (gradient), the finger is easily caught, and the sliding is further performed. Hateful.

  Further, the rear surface portion is preferably a convex curved surface portion having an outer convex shape. When the rear surface portion is a convex curved surface portion, the touch when the rear grip portion is applied to the forearm is excellent and the forearm is easily fitted.

  Moreover, it is preferable that half or more of the inner diameter difference between the front end portion and the rear end portion of the enlarged diameter portion is formed by the front surface portion, and the finger is easily caught and is more difficult to slip.

  As described above, since the annular corner portion is formed in the rear grip portion, it is possible to improve the grip force while maintaining the weight reduction and high sensitivity by the integrated configuration.

The front view which shows the principal part of the fishing rod in one Embodiment of this invention. The longitudinal cross-sectional view of the principal part of the fishing rod. The expanded longitudinal cross-sectional view of the principal part of the fishing rod. The expanded longitudinal cross-sectional view of the principal part of the fishing rod. The rear grip frame of the fishing rod is shown, (a) is a front view, (b) is a longitudinal sectional view. It is the rear part enlarged view of the rear-grip housing | casing, Comprising: (a) is a front view, (b) is a longitudinal cross-sectional view. It is a cross-sectional view of the rear grip housing, (a) is a cross-sectional view of the rear end, (b) is a cross-sectional view of the front end. The principal part longitudinal cross-sectional view of the rear grip housing. It is a cross-sectional view showing the main layer of the rear grip housing, (a) is a cross-sectional view of the rear end, (b) is a cross-sectional view of the front end. It is a cross-sectional view showing one round inside the main layer of the rear grip housing, (a) is a cross-sectional view of the rear end, (b) is a cross-sectional view of the front end. The front view which shows the manufacturing method of the rear grip housing. It is a prepreg used for manufacture of the same rear grip housing, (a) is an important section expansion perspective view, and (b) is a lineblock diagram. The schematic diagram which shows the manufacturing method of the rear grip housing. It is a cross-sectional view showing the manufacturing process of the rear grip housing, (a) is a cross-sectional view of the horizontal rear end, (b) is a cross-sectional view of the front end. It is a cross-sectional view showing the manufacturing process of the rear grip housing, (a) is a cross-sectional view of the horizontal rear end, (b) is a cross-sectional view of the front end. It is a cross-sectional view showing the manufacturing process of the rear grip housing, (a) is a cross-sectional view of the horizontal rear end, (b) is a cross-sectional view of the front end. It is a cross-sectional view showing the manufacturing process of the rear grip housing, (a) is a cross-sectional view of the horizontal rear end, (b) is a cross-sectional view of the front end. The principal part front view which shows the use condition of the fishing rod. The principal part top view which shows the use condition of the fishing rod. The front view which shows the principal part of the fishing rod in other embodiment of this invention.

  Hereinafter, a fishing rod according to an embodiment of the present invention will be described with reference to FIGS. As shown in FIGS. 1-3, the fishing rod in this embodiment is provided with the reel sheet | seat 1 for attaching a reel. The reel sheet 1 has a cylindrical shape, also called a pipe sheet, and is mounted on a rod body 2 (blank) of a fishing rod and fixed to a predetermined position so as not to move. That is, the collar body 2 is inserted through the reel sheet 1, and the reel sheet 1 is fixed to a predetermined position on the outer peripheral surface of the collar body 2 by adhesion or the like.

  The reel includes a reel leg 3 for attaching to a reel sheet. The reel leg 3 includes a leg main portion 4 that extends in a single leg shape from a reel body (not shown), and mounting leg portions 5 that extend from the ankle portion 4a that is the tip of the leg main portion 4 to the front and rear sides. It is formed in a T shape as a whole. Accordingly, the reel leg 3 has a pair of front and rear leg portions 5a and 5b.

  The reel sheet 1 is externally immovably mounted on the bag body 2 and has a cylindrical reel sheet body 7 on which a fixed hood portion 12 for fixing one leg tip portion 5a of the reel leg 3 is formed, and the reel sheet. A cylindrical movable hood 8 which is externally mounted on the main body 7 and fixes the other leg tip 5b of the reel leg 3, and a fixed nut for moving the movable hood 8 in the axial direction and fixing it to a desired position. 9 and.

  The reel sheet 1 in this embodiment is for fixing a spinning reel. In normal use, the spinning reel faces downward. For this reason, in FIG. 1 and the like, the reel leg support surface 11 for supporting the back surface of the reel leg 3 is illustrated so as to face downward according to the state of use. In the reel sheet 1, the side on which the spinning reel is mounted is the reel mounting side, and the side opposite to the reel mounting side in the radial direction (the side opposite to 180 degrees) is the anti-reel mounting side. Further, the heel side is the front side, the buttock side is the rear side, and the direction orthogonal to the axial direction (the direction of the central axis) of the heel body 2 when viewed from the side opposite to the reel is the left-right direction.

  The reel sheet body 7 is composed of one member. The material of the reel sheet main body 7 may be a synthetic resin, a metal, or the like, but is preferably a resin molded product formed by injection molding from a hard synthetic resin. The synthetic resin may be various, but a fiber reinforced resin is preferable, and a fiber reinforced resin using a short fiber having a length of 1 mm or less as a reinforced fiber is particularly preferable. The fiber is preferably a carbon fiber.

  The reel sheet body 7 is formed with a collar insertion hole through which the collar body 2 is inserted, and a reel leg support surface 11 for supporting the rear surface of the reel leg 3 is formed on the reel mounting side. The rear surface of the reel leg 3 is the rear surface of the mounting leg portion 5 of the reel leg 3. Further, a fixed hood portion 12 for fixing one leg tip portion 5 a of the reel leg 3 is formed on one end portion side in the axial direction of the reel seat body 7. A male screw portion 13 is formed on the outer peripheral surface of the reel sheet main body 7 on the other end side in the axial direction. The fixed hood portion 12 is formed on the reel mounting side, and has an opening that opens to the other end side in the axial direction. One leg tip portion 5 a of the reel leg 3 is inserted into the fixed hood portion 12. A fixing nut 9 is screwed onto the male screw portion 13 of the reel sheet body 7, and the movable hood 8 is positioned on one end side in the axial direction of the fixing nut 9. The reel sheet body 7 is formed with a guide groove (not shown) extending linearly in the axial direction so as to partially cut out the male screw portion 13, and the movable hood 8 is formed in the guide groove of the reel sheet body 7. Slide and move in the axial direction while being guided. Since the movable hood 8 is locked to the fixed nut 9 so as to be relatively rotatable, when the fixed nut 9 is rotated, the movable hood 8 moves back and forth with the fixed nut 9 without rotating.

  In the present embodiment, the fixed hood portion 12 of the reel seat body 7 is located on the rear side and opens toward the front side, and the movable hood 8 is located on the front side and opens toward the rear side. . Accordingly, the rear leg tip portion 5 a of the reel leg 3 is inserted into the fixed hood portion 12, and the front leg tip portion 5 b of the reel leg 3 is inserted into the movable hood 8. By moving the movable hood 8 rearward, that is, by approaching the fixed hood portion 12, the reel can be fixed to the reel seat body 7 while holding the reel leg 3 back and forth. Moreover, the fixed state of the reel leg 3 is released by moving the movable hood 8 to the front side, that is, by moving it away from the fixed hood portion 12, and the reel can be removed from the fishing rod. However, as shown in FIG. 20, the front and rear mounting directions of the reel sheet 1 with respect to the bag body 2 may be reversed.

  On the reel mounting side of the reel sheet body 7, a recess 15 is formed that is recessed toward the anti-reel mounting side. The recess 15 opens on the reel mounting side and also on the left and right side surfaces (both sides). Therefore, the recess 15 is formed on three sides of the reel mounting side, the anti-reel mounting side, and the left and right side surfaces. It has an open shape. By forming the recess 15 on the reel mounting side of the reel sheet main body 7 in this way, the collar insertion hole is divided into front and rear, and the reel leg support surface 11 is also divided into front and rear.

  The movable hood 8 has a cylindrical shape, and a hood portion 8 a into which the other leg tip portion 5 b of the reel leg 3 is inserted is formed at the end opposite to the fixed nut 9. The hood portion 8a is a portion of the entire circumference at the end of the movable hood 8 that locally bulges outward in the radial direction, and the reel legs between the hood portion 8a and the reel seat body 7 3, the other leg tip 5b is inserted. The hood portion 8a of the movable hood 8 faces the fixed hood portion 12 of the reel seat body 7 in the front-rear direction, and the reel leg 3 is sandwiched between the fixed hood portion 12 and the mounting leg portion 5 of the reel leg 3 in the front-rear direction. Fix it.

  The main body 2 includes a main housing 20 and a rear grip housing 21 that is joined and integrated so as to form an overlapping portion having a predetermined length on the rear side of the main housing 20. That is, the front portion of the rear grip housing 21 and the rear portion of the main housing 20 are joined and integrated. The rear grip housing 21 is obtained by locally expanding a predetermined length region on the rear end portion side and integrally forming a rear grip portion 41. The rear grip portion 41 is located away from the reel seat 1 by a predetermined distance. The rear grip portion 41 is used by applying an elbow or forearm of a hand holding a fishing rod, or holding it with a hand opposite to the hand holding the reel seat 1 when casting with both hands.

  The type of fishing rod is arbitrary, and may be a row rod or a swing rod. For example, in the case of a one-piece rod, the main housing 20 has a single structure that continues to the tip. In the case of the two-piece rod, the fishing rod is composed of the first rod on the tip side and the second rod on the original side, and the reel seat 1 is provided on the second rod on the original side. In the case of a two-piece rod, the main housing 20 has a two-piece structure of a head-side housing and an original-side housing, and the tip-side housing and the original-side housing are configured to be detachable. The tip side casing is the most saddle, and the rear part of the original side casing is joined and integrated with the front part of the rear grip casing 21 so as to be inseparably integrated with each other to constitute the second casing. That is, the second cage is composed of the former housing and the rear grip housing 21.

  As described above, the main body 2 includes the main housing 20 and the rear grip housing 21, and the front portion of the rear grip housing 21 is integrally and integrally joined with the rear portion of the main housing 20. Yes. The reel sheet 1 is mounted on the rear grip housing 21, and more specifically, the reel sheet 1 is mounted on the front portion of the rear grip housing 21. In the present embodiment, a cylindrical spacer 22 is interposed inside the front portion of the rear grip housing 21, and the rear portion of the main housing 20 is inserted inside the spacer 22. That is, a spacer 22 is interposed between the rear grip housing 21 and the main housing 20, and the rear portion of the main housing 20 is inserted inside the front portion of the rear grip housing 21 via the spacer 22. Have been glued and fixed. However, the rear grip housing 21 and the main housing 20 may be directly joined and integrated without using the spacer 22.

  The reel sheet main body 7 may be directly bonded to the rear grip housing 21, but in this embodiment, the reel sheet main body 7 is bonded and fixed via a cylindrical spacer 23. That is, the spacer 23 is bonded and fixed to the outer peripheral surface of the bag main body 2, and the reel sheet main body 7 is bonded and fixed to the outer peripheral surface of the spacer 23. In this way, the reel sheet main body 7 is bonded and fixed to the bag main body 2 through the spacers 23, so that if the various spacers 23 having different thicknesses are prepared, the reel sheet main body 7 can be shared. The same reel seat body 7 can be mounted on a rear grip housing 21 having a diameter of. The material of the spacer 23 is arbitrary. However, in the case of a configuration that is not exposed to the outside as in the present embodiment, a synthetic resin is preferable, which can be reduced in weight and can be easily manufactured at low cost. The reel seat body 7 is displaced rearward from the front end face of the rear grip housing 21 by a predetermined distance. Therefore, the front end portion of the rear grip housing 21 protrudes from the reel seat body 7 to the front by a predetermined length. .

  Also, a flanged mouth tube body 24 is attached to the rear grip housing 21 at the opening on the recess 15 side of the collar insertion hole. The mouth tube body 24 is preferably made of metal, and the end face of the inner spacer 23 can be prevented from being exposed to improve the design.

  On the other hand, a mouth tube body 25 that is thicker than the spacer 23 is mounted between the rear grip housing 21 and the opening at the rear end of the reel sheet body 7. The mouth tube body 25 is also preferably made of metal, and is excellent in design. By providing the mouth tube body 25, it is possible to prevent the rear end face of the inner spacer 23 from being exposed. The front portion of the mouth tube body 25 is located inside the reel sheet main body 7, and the rear portion thereof is exposed from the reel sheet main body 7. Further, a separate grip body made of EVA, cork or the like is not provided on the rear side of the mouth tube body 25, and the rear grip housing 21 is exposed in a region on the rear side of the mouth tube body 25. . That is, the mouth tube body 25 is provided on the rear side of the reel sheet body 7 in such a manner that its rear portion is exposed, and the rear grip housing 21 is exposed on the rear side of the mouth tube body 25. Since the reel sheet body 7 is configured to reduce the diameter gradually and smoothly from the rear outer peripheral surface of the reel seat body 7 to the outer peripheral surface of the mouth tube body 25 and the outer peripheral surface of the rear grip housing 21, Even if a separate grip body is not provided on the rear side, it can be gripped without a sense of incongruity and has excellent grip properties.

  A mouth tube 26 is also attached to the front side of the reel sheet body 7. The mouth tube body 26 covers and conceals the front end surface of the reel sheet main body 7 and the front end surface of the spacer 23 from the front side, and is adhesively fixed to the outer peripheral surface of the main housing 20. The front side tubular body 26 is also preferably made of metal, and is excellent in design.

  As shown in FIG. 4, a butt plug 27 is attached to the buttock of the heel body 2, that is, the buttock of the rear grip housing 21. The configuration of the bottom plug 27 may be various, but in the present embodiment, a support member 28 and a buffer member 29 are provided. The support member 28 is made of hard synthetic resin or metal, and is particularly preferably made of metal. The buffer member 29 is preferably made of rubber. The support member 28 includes an insertion tube portion 28 a that is inserted inside the rear end portion of the rear grip housing 21. The insertion tube portion 28a supports the rear end portion of the rear grip housing 21 from the inside, and prevents the rear end portion of the rear grip housing 21 from being crushed and damaged. Specifically, the insertion tube portion 28a is inserted inside the large diameter portion 45 in the rear grip portion 41 of the rear grip housing 21 described later, and is longer than the rear half of the inner peripheral surface of the large diameter portion 45. In particular, the large-diameter portion 45 is supported from the inside in contact with most length regions. The insertion tube portion 28a is fixed to the rear grip housing 21 by adhesion. Further, the rear end portion side of the support member 28 protrudes rearward from the rear end portion of the rear grip housing 21. An annular ridge 28 b is formed on the outer peripheral surface of the rear projecting portion of the support member 28, and the front side surface of the annular ridge 28 b abuts on the rear end surface of the rear grip housing 21. The buffer member 29 is mounted from the outside on the rear side of the annular protrusion 28b in the rearward projecting portion of the support member 28. The rear projecting portion of the support member 28 has a cylindrical shape as a whole, and the buffer member 29 also has a cylindrical shape. The buffer member 29 covers the entire outer peripheral surface of the rear projecting portion of the support member 28 excluding the annular protrusion 28b. Cover from outside. A circular plate support surface 28c is provided inside the support member 28, and a design plate 30 is mounted on the rear surface of the plate support surface 28c. A small-diameter through hole 28d is formed at the center of the plate support surface 28c, and the design plate 30 covers the through hole 28d from the rear side.

  The main casing 20 is formed in a hollow shape by winding a prepreg around a mandrel 70 and baking it, and carbon fiber, glass fiber, or the like can be used as the reinforced fiber of the prepreg. However, the main housing 20 may be solid. The rear grip housing 21 is formed in a hollow shape by winding the main prepreg 60 around a mandrel 70 and baking it. This point will be described later.

  A single body of the rear grip housing 21 is shown in FIGS. The rear grip housing 21 includes two front and rear regions, and includes a small-diameter portion 40 that forms the front portion of the rear grip housing 21 and a rear grip portion 41 that forms the rear portion of the rear grip housing 21. The small diameter portion 40 constitutes a predetermined length region from the front end portion of the rear grip housing 21, and the length occupies more than half of the total length of the rear grip housing 21. Therefore, the small diameter portion 40 forms a main part of the rear grip housing 21. The small diameter portion 40 is longer than the rear grip portion 41. The small-diameter portion 40 is a straight portion having a constant inner diameter, but may have a gradient.

  Also, the outer diameter of the small diameter portion 40 is substantially constant, but there are some slightly different portions. Therefore, the small diameter portion 40 can be divided into two regions, front and rear, depending on the difference in outer diameter. That is, the small diameter portion 40 can be divided into a reinforcing portion 42 located on the front side and a non-reinforcing portion 43 located on the rear side. As will be described later, the reinforcing portion 42 is a region in which the wound reinforcement prepreg 64 is wound, and includes a wound reinforcement layer 52 formed by the wound reinforcement prepreg 64. The non-reinforcing portion 43 is a region where such a wound reinforcing prepreg 64 is not wound, and is a region where the wound reinforcing layer 52 is not provided. Therefore, the thickness of the reinforcing portion 42 is thicker than the thickness of the non-reinforcing portion 43. However, the difference between the thickness of the reinforcing portion 42 and the thickness of the non-reinforcing portion 43 is slight, and the thickness on one side is 0.3 mm or less, and the outer diameter of the reinforcing portion 42 and the outer diameter of the non-reinforcing portion 43 are The difference is 0.6 mm or less. Note that the rear end portion of the reinforcing portion 42 is formed with a reverse tapered surface portion 42 a that gradually decreases in outer diameter, and therefore has a reduced thickness, leading to the outer peripheral surface of the non-reinforcing portion 43. .

  The reel sheet 1 is mounted on the reinforcing portion 42 of the small diameter portion 40. The reel sheet 1 is attached to the most area on the front side of the entire length of the reinforcing portion 42. A portion where the reel sheet 1 is mounted is referred to as a sheet mounting portion 42b. The seat mounting portion 42 b is formed from the front end portion of the reinforcing portion 42 toward the rear side, and occupies most of the reinforcing portion 42. The outer peripheral surface of the seat attachment portion 42b has a constant diameter, and is one step smaller in diameter than other portions of the reinforcement portion 42. Accordingly, a stepped portion 42c is formed at the rear end portion of the sheet mounting portion 42b, and the rear end surface of the rear mouth tube body 25 abuts on the stepped portion 42c. The mounting position in the front-rear direction of the reel sheet 1 is positioned by the step portion 42c. The sheet attachment portion 42b is formed by cutting and removing the outer peripheral portion of the wound reinforcement layer 52, but the entire thickness of the wound reinforcement layer 52 is not removed and the inner circumferential portion remains. Has been cut. Accordingly, the thickness of the seat mounting portion 42b is one step thinner than the thickness of the other portions of the reinforcing portion 42. However, the difference is slight and the thickness on one side is 0.1 mm to 0.2 mm.

<Rear grip part 41>
The rear grip portion 41 is not a separate structure but an integral configuration integrally formed with the rear grip housing 21. The rear grip portion 41 has a larger diameter than the small diameter portion 40. The rear grip portion 41 has a diameter-expanding portion 44 whose inner diameter increases toward the rear side with a steeper slope than the small-diameter portion 40, and a rear end portion of the diameter-expanding portion 44 from the rear grip housing 21. A large-diameter portion 45 that constitutes a region up to the end portion. The expanded diameter portion 44 increases the outer diameter toward the rear side along with the inner diameter. In the present embodiment, the small diameter portion 40 is a straight portion having a constant inner diameter, and the gradient of the small diameter portion 40 is zero.

  The enlarged diameter portion 44 is partitioned into two front and rear regions. That is, the enlarged diameter portion 44 is partitioned into a front surface portion 44a and a rear surface portion 44b. The front surface portion 44a has a steeper slope than the rear surface portion 44b. Specifically, the front surface portion 44a is a concave curved surface portion having an outer concave shape, and the gradient (diameter expansion rate) is not constant, and becomes larger and steeper toward the rear side. Note that the length of the front surface portion 44 a is more than half of the total length of the enlarged diameter portion 44. Further, more than half of the inner diameter difference between the front end portion and the rear end portion in the enlarged diameter portion 44 is formed by the front surface portion 44a. Contrary to the front surface portion 44a, the rear surface portion 44b is an outwardly convex convex curved surface portion, and the gradient thereof is not constant and is smaller and looser toward the rear side. However, the degree of curvature of the rear surface portion 44b is small.

  An annular corner 44c is formed at the boundary between the front surface 44a and the rear surface 44b. The annular corner 44c is formed over the entire circumference, and the cross-sectional shape thereof is a mountain shape. That is, by forming the annular corner 44c at the boundary between the front surface 44a and the rear surface 44b, the front surface 44a and the rear surface 44b are bent back and forth at the annular corner 44c. ing. Thus, by forming the annular corner 44c in the middle of the enlarged diameter portion 44, the enlarged diameter portion 44 is partitioned into a front surface portion 44a and a rear surface portion 44b. In addition, the wall thickness in the enlarged diameter part 44 becomes gradually thinner as the rear side.

  Like the small diameter portion 40, the large diameter portion 45 is a straight portion having a constant inner diameter, and the outer diameter is also constant. The small diameter portion 40 is a front straight portion, and the large diameter portion 45 is a rear straight portion. The inner diameter of the large diameter portion 45 is 1.2 times or more, preferably 1.5 times or more and 3 times or less than the inner diameter of the small diameter portion 40. The length of the large diameter portion 45 is shorter than the length of the enlarged diameter portion 44 and shorter than the surface portion 44b on the rear side of the enlarged diameter portion 44. The large diameter portion 45 is thin, and the large diameter portion 45 is the thinnest portion in the rear grip housing 21. Specifically, the thickness of the large diameter portion 45 is thinner than the thickness of the small diameter portion 40, particularly thinner than the thickness of the rear end portion of the small diameter portion 40, and more than the thickness of the enlarged diameter portion 44. Although it is thin, it is the same as the thickness of the rear end portion of the enlarged diameter portion 44. As described above, in the small-diameter portion 40, the non-reinforced portion 43 is thinner than the reinforced portion 42, but the large-diameter portion 45 is thinner than the non-reinforced portion 43. . Further, the thickness of the large diameter portion 45 is thinner than the thickness of the sheet attached portion 42b. Preferably, the thickness of the large diameter portion 45 is 40% to 60% of the thickness of the non-reinforcing portion 43 of the small diameter portion 40.

  Next, the layer structure of the rear grip housing 21 will be described. FIG. 7A shows a cross-sectional view at the rear end portion of the rear grip housing 21, and FIG. 7B shows a cross-sectional view at the front end portion of the rear grip housing 21. The rear grip housing 21 includes a main layer 50, a sub layer 51, and a wound reinforcement layer 52 in order from the inside.

  The main layer 50 is a layer formed continuously over the entire length of the rear grip housing 21. That is, the main layer 50 has discontinuous portions at predetermined intervals (every predetermined angle) in the circumferential direction of the rear grip housing 21, but there are discontinuous portions in the axial direction of the rear grip housing 21. It is a continuous layer that does not exist. The discontinuous portion is an overlapping portion 54 described later. More specifically, the main layer 50 is a fiber reinforced resin layer having reinforcing fibers and is formed from the main prepreg 60, but continuously extends at least over the entire length of the rear grip housing 21. Has reinforced fiber. That is, the main layer 50 is a layer having at least a reinforcing fiber extending in the axial direction and having a length over the entire length of the rear grip housing 21.

  The main layer 50 is a main layer that occupies most (half or more) of the entire thickness of the rear grip housing 21 and constitutes the innermost layer of the rear grip housing 21 in the present embodiment. The main layer 50 is thinner at the rear end of the rear grip housing 21 than at the front end of the rear grip housing 21. The wall thickness of the main layer 50 may be an average value of the entire circumference. The ratio of the thickness of the main layer 50 at the front end of the rear grip housing 21 to the thickness of the main layer 50 at the rear end of the rear grip housing 21 is 2: 1. The thickness of the main layer 50 is twice the thickness of the main layer 50 at the rear end of the rear grip housing 21. The main layer 50 is thinner in the large-diameter portion 45 than in the small-diameter portion 40. The thickness of the main layer 50 is constant at the small diameter portion 40, gradually becomes thinner toward the rear side at the large diameter portion 44, and is the thinnest and constant at the large diameter portion 45. The thickness of the main layer 50 in the small diameter portion 40 is twice the thickness of the main layer 50 in the large diameter portion 45.

  As shown in FIGS. 9 and 10, the main layer 50 is composed of a plurality of divided strip-like pieces 53 extending over the entire length of the rear grip housing 21. FIG. 9 shows the entire main layer 50, and FIG. 10 shows only one inner circumference of the main layer 50. The divided strip-like piece 53 constitutes only a predetermined angle region in the entire circumference at the rear end portion of the rear grip housing 21. That is, the divided strip-shaped piece 53 has a narrow strip shape, has an axial length corresponding to the entire length of the rear grip housing 21, and has a plurality of entire circumferences at the rear end portion of the rear grip housing 21. It has a circumferential length (width) corresponding to the divided angular region. It is preferable that the plurality of divided strip pieces 53 have the same shape. As will be described later, the divided strip pieces 53 are formed from a strip-shaped main prepreg 60 that is long in the axial direction. Therefore, the divided strip pieces 53 are made of a fiber reinforced resin including reinforcing fibers, and the reinforcing fibers are carbon fibers, glass fibers, and the like, and carbon fibers are particularly preferable. Further, although not shown in the figure, each divided strip piece 53 has a two-layer structure including an outer layer and an inner layer, and the reinforcing fibers in the outer layer are along the longitudinal direction of the divided strip pieces 53, and the reinforcing fibers in the inner layer are short. It is preferable to be along the hand direction. The outer layer may be relatively thick and the inner layer may be relatively thin. The outer layer reinforcing fibers are preferably carbon fibers, and the inner layer reinforcing fibers are preferably carbon fibers, but may be glass fibers. When both the outer layer reinforcing fibers and the inner layer reinforcing fibers are carbon fibers, it is preferable that the inner layer reinforcing fibers have a higher elastic modulus than the outer layer reinforcing fibers. For example, the outer layer has a low elasticity. And an inner layer of medium elasticity is used.

  In the present embodiment, the main layer 50 is composed of rectangular divided strip pieces 53 having a constant width and long in the axial direction. The main layer 50 is composed of four divided strip pieces 53 as one set and one set, that is, two sets, ie, two sets, and a total of eight divided strip pieces 53a, 53b, 53c, 53d, The main layer 50 is constituted by 53e, 53f, 53g, and 53h. The four divided strip pieces 53a, 53b, 53c and 53d are one set, and the four divided strip pieces 53e, 53f, 53g and 53h are two sets. In addition, about the code | symbol, when it is not necessary to distinguish in particular, it is set as the division | segmentation strip | belt piece 53 generically without attaching the last small letter. The same applies to other codes.

  The divided strip-like pieces 53 adjacent to each other in the circumferential direction are overlapped with each other on the inner and outer sides, and as shown in FIGS. 9A and 10A, the rear end of the rear grip housing 21. 4, the four divided strip pieces 53 constitute one turn of the main layer 50. Therefore, the length in the circumferential direction of one divided strip-like piece 53 is obtained by adding an overlap margin to an angle region (center angle) of 90 degrees at the rear end portion of the rear grip housing 21. Specifically, at the rear end portion of the rear grip housing 21, the central angle by one divided strip-like piece 53 exceeds 90 degrees, for example, 110 degrees. As described above, at the rear end portion of the rear grip housing 21, one divided portion of the main layer 50 is constituted by the four divided strip pieces 53, and two turns of the main layer 50 are constituted by a total of eight divided strip pieces 53. Has been. That is, at the rear end of the rear grip housing 21, a main layer 50 having a two-round structure (two-layer structure) is formed.

  Further, the four divided strip pieces 53 for one set are orthogonal to the first pair of divided strip pieces 53 disposed to face each other by 180 degrees and the first pair of divided strip pieces 53. It consists of a second pair of split strips 53 facing in the direction. For example, the four divided strip pieces 53a, 53b, 53c, and 53d in the first set include a first pair of divided strip pieces 53a and 53b and a second pair of divided strip pieces 53c and 53d. The second pair of divided strip pieces 53 are provided on the outside of the first pair of divided strip pieces 53 so as to be displaced by 90 degrees in the circumferential direction. The both side edge portions are overlapped on the outside of both side edge portions of the first pair of split strips 53, respectively.

  On the other hand, as shown in FIGS. 9 (b) and 10 (b), at the front end portion of the rear grip housing 21, the two divided belt-like pieces 53 constitute two rounds of the main layer 50, for a total of eight The divided belt-like pieces 53a, 53b, 53c, 53d, 53e, 53f, 53g, and 53h constitute four rounds of the main layer 50. At the front end portion of the rear grip housing 21, the first pair of divided strip pieces 53a and 53b constitute one round (first round) inside the main layer 50, and the second pair of divided strip pieces 53c and 53d. Thus, one round (second round) outside the main layer 50 is formed. The same applies to the third and fourth rounds that are the two-set stitches, and the first pair of divided strip pieces 53e and 53f constitute an inner round that is the third round of the main layer 50. A pair of divided strip pieces 53g and 53h constitute one outer circumference which is the fourth circumference of the main layer 50.

  Since the first set and the second set are the same, the first pair of split strips 53a as shown in FIG. 10 (b) at the front end of the rear grip housing 21, which will be described representatively. 53b, both side edges (both ends in the circumferential direction) are overlapped with each other. One side edge of each of the first pair of split strips 53 overlaps the outside of the other side edge. The second pair of divided strip pieces 53c and 53d are arranged so as to be displaced by 90 degrees outside the first pair of divided strip pieces 53a and 53b, and the first pair of divided strip pieces 53a. , 53b, both side edges of the second pair of split strips 53c, 53d are overlapped on the inside and outside. The same applies to the second set. As described above, at the front end portion of the rear grip housing 21, one part of the main layer 50 is constituted by the two divided strip pieces 53 facing each other, and four parts of the main layer 50 are constituted by a total of eight divided strip pieces 53. Thus, a main layer 50 having a four-round structure (four-layer structure) is formed.

  The overlapping portions 54 are formed by overlapping the side edges of the divided strip-like pieces 53 adjacent in the circumferential direction on the inside and outside. The overlapping portions 54 are present in a number corresponding to the number of divisions per round, and are formed at four locations per round at the rear end of the rear grip housing 21, and at the front end of the rear grip housing 21. It is formed in two places. Further, the overlapping portions 54 are formed at intervals in the circumferential direction, and are formed every 90 degrees. However, at the rear end of the rear grip housing 21, a total of four places are formed every 90 degrees per revolution, and at the front end of the rear grip housing 21, two places are formed every 180 degrees per revolution. Yes. In addition, the overlapping portion 54 in the first set and the overlapping portion 54 in the two-set are formed at the same place, but may be different. Further, the overlapping portion 54 at the front end of the rear grip housing 21 and the overlapping portion 54 at the front end of the rear grip housing 21 are shifted from each other by 45 degrees. Further, the overlapping portion 54 extends linearly along the axial direction in the small diameter portion 40 and the large diameter portion 45, and in the axial direction while gradually shifting the position of the enlarged diameter portion 44 in the circumferential direction. It extends in an oblique direction.

  A sub layer 51 is formed outside the main layer 50. The sub layer 51 is formed over the entire length of the rear grip housing 21, and its thickness is constant. As shown in FIG. 8, the sub-layer 51 is a spiral layer composed of long strips 55 wound spirally. The sub-layer 51 is formed by winding a tape-shaped prepreg (not shown) having a predetermined width in a spiral shape at a constant pitch, as will be described later. This pitch is set to half the width of the tape-shaped prepreg. Therefore, the pitch-shaped prepreg is wound spirally so that half of the width of the tape-shaped prepreg overlaps the outside of the adjacent tape-shaped prepreg. Therefore, the long strip 55 constituting the sub-layer 51 is spirally wound while being overlapped with the outside of the long strip 54 in which half the width is wound next. Further, the tape-shaped prepreg is a continuous fiber fiber and other reinforcing fibers along the longitudinal direction thereof. Therefore, the sub-layer 51 includes reinforcing fibers along the circumferential direction.

  A wound reinforcing layer 52 is provided outside the sub layer 51. The wound reinforcement layer 52 is provided only at the front portion of the rear grip housing 21 and is not provided at the rear portion. Therefore, the wound reinforcement layer 52 does not exist in the rear portion of the small diameter portion 40 or the rear grip portion 41, and the portion where the wound reinforcement layer 52 is formed is the reinforcement portion 42 of the small diameter portion 40. Of these, the portion where the wound reinforcement layer 52 is not formed is a non-reinforcing portion 43. The wound reinforcement layer 52 is formed by winding a wound reinforcement prepreg 64 as described later. The wound reinforcement layer 52 preferably has reinforcing fibers along the circumferential direction, and glass fibers are preferable as the reinforcing fibers.

  Next, a method for manufacturing the rear grip housing 21 will be described. The rear grip housing 21 is formed by winding the main prepreg 60 around the mandrel 70 and baking it. Specifically, as shown in FIG. 11, the mandrel 70 has a shape that matches the shape of the rear grip housing 21. Therefore, the mandrel 70 is formed in order from the front side to form the first region 71 for forming the small diameter portion 40, the second region 72 for forming the large diameter portion 44, and the large diameter portion 45. The shape has a third region 73. Further, in the second region 72 for forming the enlarged diameter portion 44, a corner portion forming portion 74 for forming the annular corner portion 44c is formed.

  The main prepreg 60 for forming the main layer 50 is a rectangular shape having a constant width and long in the axial direction, and is composed of one set of four sheets, which is a total of eight main prepregs 60a and 60b in two sets. , 60c, 60d, 60e, 60f, 60g, and 60h, the main layer 50 is formed. 11 and 13, only the four main prepregs 60a, 60b, 60c, 60d in the first set are shown. Further, the main prepreg 60 has a predetermined margin with respect to the entire length of the rear grip housing 21 so that the end portion of the main prepreg 60 can be cut to form the rear grip housing 21 having a predetermined length. It has become a length. The width of the main prepreg 60 is a width corresponding to approximately ¼ of the circumference of the third region 73 of the mandrel 70. However, when winding around the mandrel 70, the end portions (side edge portions) in the width direction of the main prepreg 60 are overlapped on the inside and outside, so that they overlap each other with a width corresponding to 1/4 of the circumference. The width dimension is obtained by adding the amount corresponding to the width of the portion 54.

  All of the eight main prepregs 60 for forming the main layer 50 have the same configuration, and more specifically, as shown in FIG. 12A, a two-layer structure in which two prepregs are stacked. It is. As shown in FIG. 12B, the main prepreg 60 includes a longitudinal sheet 61 that is a prepreg in which reinforcing fibers are aligned along the longitudinal direction (the axial direction of the rear grip housing 21), and the lateral direction. It consists of the laminated sheet which bonded and integrated the horizontal sheet 62 which is a prepreg with which the reinforcing fiber was aligned. The main prepreg 60 made of the laminated sheet is wound around the mandrel 70 with the vertical sheet 61 on the outside and the horizontal sheet 62 on the inside. The vertical sheet 61 and the horizontal sheet 62 may be bonded to each other in a predetermined shape. However, the vertical sheet 61 and the horizontal sheet 62 having a large area are first stacked and then cut into a predetermined shape. It is preferable to use what was done. The reinforcing fibers of the vertical sheet 61 are preferably carbon fibers, and the reinforcing fibers of the horizontal sheet 62 are also preferably carbon fibers. It is preferable that the reinforcing fibers of the horizontal sheet 62 have a higher elastic modulus than the reinforcing fibers of the vertical sheet 61. For example, a low elastic material is used for the vertical sheet 61 and a medium elastic material is used for the horizontal sheet 62. Is used. The vertical sheet 61 may be relatively thick and the horizontal sheet 62 may be relatively thin.

  As shown in the schematic diagram of FIG. 13, the four main prepregs 60a, 60b, 60c, and 60d are attached to the mandrel 70 as a set. To explain in sequence, one set of main prepregs 60a, 60b, 60c, 60d of four sheets are attached to the mandrel 70 one by one. First, as shown in FIG. 14, the center of the first main prepreg 60 a is aligned with the center of the mandrel 70, and, for example, the main prepreg 60 a is attached from the upper side of the mandrel 70. When the first main prepreg 60a is wound around the mandrel 70, in the third region 73 of the mandrel 70, as shown in FIG. The main prepreg 60a is wound, and the central angle θ1 is, for example, 110 degrees which is an angle obtained by adding a length corresponding to the overlapping portion 54 to 90 degrees. In FIG. 14, hatching indicating the cross-sectional shape of the mandrel 70 is omitted, and the same applies to FIG. In the first region 71 of the mandrel 70, as shown in FIG. 14B, the first main prepreg 60a is wound around substantially half of the entire circumference of the mandrel 70, and the center angle θ2 is, for example, The angle obtained by adding the length corresponding to the overlapping portion 54 to 180 degrees is 220 degrees.

  Subsequently, the second main prepreg 60b is attached to the mandrel 70. At this time, the second main prepreg 60b is attached to a position opposite to the first main prepreg 60a by 180 degrees. Accordingly, the mandrel 70 in a state where the first main prepreg 60a is wound is rotated 180 degrees so that the first main prepreg 60a is positioned on the lower side, and the second main prepreg 60b is moved from the upper side. Paste to be placed on 70. When the second main prepreg 60b is wound around the mandrel 70, the second region 73 of the mandrel 70 is secondly positioned 180 degrees opposite to the first main prepreg 60a as shown in FIG. The first main prepreg 60b is located, and both side edges of the first main prepreg 60a and both side edges of the second main prepreg 60b are separated from each other and are not overlapped. On the other hand, in the first region 71 of the mandrel 70, both side edges of the first main prepreg 60a and both side edges of the second main prepreg 60b are overlapped as shown in FIG. 15B. In this state, a pair of overlapping portions 54 are formed facing left and right. Both side edges of the second main prepreg 60b are located outside the side edges of the first main prepreg 60a. By winding the second main prepreg 60b in this way, in the first region 71 of the mandrel 70, the entire circumference of the mandrel 70 is covered by the two main prepregs 60a and 60b. It becomes a winding state. In the second region 72 of the mandrel 70, the distance between the two main prepregs 60a and 60b gradually decreases and overlaps from the middle.

  Subsequently, the mandrel 70 is rotated 90 degrees to attach the third main prepreg 60c, and the mandrel 70 is rotated 180 degrees so that the fourth main prepreg 60d faces the third main prepreg 60c. Paste like so. In the third region 73 of the mandrel 70, both side edges of the third main prepreg 60c are respectively connected to one side edge of the first main prepreg 60a and the second sheet as shown in FIG. The side rims of the fourth main prepreg 60d are overlapped on the outer side of one side edge of the main prepreg 60b, respectively, and the other side edge of the first main prepreg 60a and the second main prepreg 60b, respectively. Is superimposed on the outside of the other side edge. In the third region 73 of the mandrel 70, a total of four overlapping portions 54 are formed at intervals of 90 degrees in the circumferential direction, and the entire circumference of the mandrel 70 is formed by the four main prepregs 60a, 60b, 60c, 60d. Is covered, and it will be in the winding state for one round. On the other hand, in the first region 71 of the mandrel 70, the third main prepreg 60c and the fourth main prepreg 60d are further wound by one turn, and the first and second wound first and second When combined with one turn by the main prepregs 60a and 60b of the first sheet, the winding state is a total of two turns. In addition, the overlapping portions 54 are formed at two positions facing each other by 180 degrees, and a total of two turns is formed at four positions every 90 degrees.

  Thus, by winding four sets of main prepregs 60 a, 60 b, 60 c, 60 d around the mandrel 70, the third region 73 of the mandrel 70 is wound for one round, and the first mandrel 70 has a first winding state. In the region 71, the winding state is two rounds. Repeat this one more set. When the two main prepregs 60e, 60f, 60g, 60h of the second set are further wound, the third region 73 of the mandrel 70 is wound in two turns as shown in FIG. As shown in FIG. 17B, the first region 71 of the mandrel 70 is in a wound state for four turns.

  Subsequent to the formation process of the main layer 50, the formation process of the sub layer 51 is performed. The sub layer 51 is formed by winding a tape-shaped prepreg in a spiral shape. The sub layer 51 is formed over the entire length of the main layer 50. For example, a tape-shaped prepreg is spirally wound from the tip side to the buttock side, but the direction may be reversed. The tape-shaped prepreg is long, and reinforcing fibers such as carbon fibers and glass fibers are continuous along the longitudinal direction. The width and pitch of the tape-shaped prepreg may vary, but preferably the pitch is ½ the width. Therefore, the side portions of adjacent tape-shaped prepregs overlap each other by half of the tape width. The tape-shaped prepreg is thus wound over the entire length, so that a sub-layer 51 having a constant thickness is formed outside the main layer 50.

  After that, as shown in FIG. 11, the trapezoidal reinforcing reinforcement prepreg 64 is wound around only the front portion outside the sub-layer 51 to form the oral reinforcing layer 52. The mouth wound reinforcing prepreg 64 preferably uses glass fibers as reinforcing fibers and is aligned in the circumferential direction. Thereafter, a molding tape (not shown) is wound and heated and fired, the molding tape is removed, the mandrel 70 is decentered, and the end portion is cut and removed as necessary to form the rear grip housing 21. Note that, for example, the front region of the wound reinforcement layer 52 is centerless polished to be thinned by one step to form the sheet attachment portion 42b. Further, a desired pattern or coating is applied to the surface. As described above, the rear grip rod body 21 is formed, joined to and integrated with the main rod body 20, the rod body 2 is formed, and the reel seat 1 is mounted to complete the fishing rod.

  When such a fishing rod is used, fishing is performed with the reel mounted on the reel sheet 1. Vibrations such as fish claws are transmitted from the fishing line to the reel, and from the reel to the hand holding the fishing rod. In addition, vibrations such as fish claws are transmitted from the fishing line to the rod body 2 (blank), and are transmitted to the rear grip rod body 21, and are transmitted to the hand holding the fishing rod. FIG. 18 shows an example of the usage state. Fishing can be performed by gripping the fishing rod by bringing the rear grip portion 41 into contact with the forearm or elbow of the hand holding the fishing rod. For example, the fish can be caught while winding the reel. At that time, vibration is transmitted from the reel and the main body 2 to the palm of the hand holding the fishing rod, and at the same time, vibration is also transmitted from the rear grip 41 to the forearm. . Since the rear grip portion 41 is not a separate structure such as a cork but an integrated structure by the rear grip housing 21, vibration can be directly sensed and vibration can be caught with high sensitivity in a state where vibration attenuation is small. .

  Since the thickness of the rear grip portion 41, particularly the large diameter portion 45, is thinner than the thickness of the small diameter portion 40 of the rear grip housing 21, the vibration transmitted from the front side to the rear grip portion 41 is attenuated. Hateful. In addition, since the thickness of the rear grip portion 41 where the forearm is in contact is thin, the vibration is transmitted to the forearm with high sensitivity.

  Further, by changing the thickness itself of the main layer 50, the small-diameter portion 40 of the rear grip housing 21 is thick and the large-diameter portion 45 is thin. The main layer 50 is continuously formed from the front end portion to the rear end portion of the rear grip housing 21, and the reinforcing fibers, specifically, the reinforcing fibers of the longitudinal sheet 61 are also formed at the front end portion of the rear grip housing 21. Although the reinforcing fiber itself is continuously present up to the rear end portion although the wall thickness of the main layer 50 is reduced to the rear end portion, the vibration is generated through the reinforcing fibers in the axial direction in particular. It is reliably transmitted to the rear end portion and transmitted from the rear grip portion 41 to the forearm. Further, since the sub layer 51 is also formed over the entire length of the rear grip housing 21, vibration is transmitted to the rear end portion through the sub layer 51.

  On the other hand, the small-diameter portion 40 is thick and the main layer 50 in the small-diameter portion 40 is formed thick, so that the strength of the entire rear grip housing 21 can be sufficiently ensured. In particular, since the reel sheet 1 is mounted on the small-diameter portion 40, high strength is required. However, since the thickness is large, sufficient strength is ensured. In particular, since the sheet mounting portion 42b is thickened by increasing the thickness of the main layer 50, the strength of the sheet mounting portion 42b is increased or decreased compared to the configuration in which the sheet mounting portion 42b is partially thickened by a separate layer. The continuity of the direction is also ensured, and the strength of the entire rear grip housing 21 can be easily secured.

  In addition, since the main layer 50 is composed of a plurality of divided strip-like pieces 53, even if it has a rear grip portion 41 with an integrated configuration, distortion, wrinkles, etc. are unlikely to occur, and the accurately shaped rear grip The body 21 can be easily obtained and desired strength can be ensured. Moreover, since a wrinkle etc. is hard to generate | occur | produce, a favorable aesthetics is also obtained. Since the sub layer 51 is formed over the entire length outside the main layer 50, even if the overlapping portion 54 is formed on the main layer 50, the sub layer 51 is covered with the sub layer 51 and is less noticeable. Further, the number of the strip-like strips 53 is not the same in the front end portion and the rear end portion of the rear grip portion 41, but the same number, the number of windings in the rear end portion is small, and the number of windings is increased in the front end portion. Since it is configured to have a change, the front end can be made thick and the rear end can be made thin while ensuring continuity in the axial direction. Further, since the four divided strip pieces 53 are arranged as one set and are shifted by 90 degrees at the rear end portion, the manufacturing is easy and the occurrence of wrinkles can be prevented. Since the main layer 50 is formed from a total of eight divided strip pieces 53 with the four divided strip pieces 53 as one set, necessary thickness and strength can be secured while maintaining ease of manufacturing. Further, the first pair of divided strip pieces 53 constitutes one round inside the main layer 50, and the second pair of divided strip pieces 53 constitutes one round outside the main layer 50, Since the four divided band-like pieces 53 are constituted by the one pair of divided band-like pieces 53 and the second pair of divided band-like pieces 53, the process of forming the main layer 50 of the rear grip housing 21 is easy. The shape of the rear grip housing 21 is also highly accurate.

  On the other hand, as described above, for example, when the fishing rod is gripped with the right hand, the forearm of the right hand can be brought into contact with the rear grip portion 41. The enlarged diameter portion 44 of the rear grip portion 41 is formed with an annular corner portion 44c and has an edge-like shape. However, when the rear grip portion 41 is brought into contact with the forearm, the rear grip The surface portion 44 b (convex curved surface portion) on the rear side of the enlarged diameter portion 44 and the large diameter portion 45 mainly hit the portion 41. Therefore, even if the rear grip portion 41 has the annular corner portion 44c, the forearm is soft and can be applied to the rear grip portion 41 without a sense of incongruity. Vibration can be directly felt from the side surface portion 44b and the large diameter portion 45.

  On the other hand, as shown in FIG. 19, the rear grip portion 41 can be gripped with a hand opposite to the hand gripping the fishing rod. The rear grip portion 41 is not a separate component made of EVA or cork, but is an integral component integrally formed with the rear grip housing 21, but an annular corner 44c is formed in the rear grip portion 41. Therefore, even if the rear grip portion 41 is gripped, it is difficult to slip. That is, the annular corner portion 44c has a mountain shape in cross section, and the front corner portion 44a and the rear surface portion 44b are bent at the annular corner portion 44c. For example, a thumb and an index finger can be hooked on the front surface portion 44a located at the front side. Even when the fishing rod is swung, the annular corner portion 44c is formed, so that the hand gripping the rear grip portion 41 is not slippery and the rear grip portion 41 can be securely gripped. it can.

  This is particularly effective when casting. For example, it is possible to double-hand cast by holding the fishing rod with the right hand and holding the rear grip portion 41 with the left hand. At this time, the rear grip portion 41 can be gripped by hooking the thumb and index finger of the left hand on the front surface portion 44 a of the rear grip portion 41. Therefore, the rear grip portion 41 can be gripped with a light force, and the left hand does not come out of the rear grip portion 41 because the annular corner portion 44c is formed even when gripped with a light force. Can extend the flight distance. In particular, since more than half of the inner diameter difference between the front end portion and the rear end portion of the enlarged diameter portion 44 is formed by the front surface portion 44a, the finger catching characteristics are excellent and a further anti-slip effect is exhibited.

  Moreover, since the rear grip part 41 is not a separate structure but an integrated structure, it is excellent in direct feeling at the time of casting. Even in the case of touching, the vibration at that time is directly transmitted to the hand from the rear grip part 41 as an uncomfortable feeling, and the cast can be interrupted by instantaneously catching the state. In addition, it is possible to feel attrition during the fall immediately after casting and vibrations when the weight is attached to the bottom not only from the right hand but also from the left hand. Even in such a case, since the rear grip portion 41 has an integrated configuration, vibration can be directly felt with high sensitivity from the left hand.

  In addition, since the front surface portion 44a is a concave curved surface portion, finger catching is better than when the front surface portion 44a is a linear inclined surface portion that is inclined at a constant inclination angle (gradient), More slippery. On the other hand, since the rear surface portion 44b is a convex curved surface portion, it has an excellent feel when the rear grip portion 41 is applied to the forearm, and the rear grip portion 41 is easy to fit on the forearm, and can be used for long-time fishing. Is suitable.

  The main housing 20 may not be hollow, and may be solid as a whole, or may be partially solid such as a hook. The divided strip-shaped piece 53 has a rectangular shape with a constant width in the axial direction, but may have a trapezoidal shape with different width dimensions at the front and rear, for example, a trapezoidal shape in which the rear end is wider than the front end. Conversely, a trapezoidal shape in which the rear end portion is narrower than the front end portion may be used. Further, of the four main prepregs 60, two sheets opposed to each other by 180 degrees are pasted first, and then the remaining two main prepregs 60 orthogonal thereto are pasted, but the mandrel 70 is kept at a constant 90 degrees. The main prepregs 60 may be attached one by one in the circumferential direction while rotating in the direction.

  Further, the direction of the reel sheet 1 may be reversed. That is, in the above embodiment, the fixing nut 9 is used on the front side, but the fixing nut 9 may be used on the rear side as shown in FIG. As described above, the reel sheet 1 may be either in the mounting mode in which the fixing nut 9 is positioned on the front side or in the mounting mode in which the fixing nut 9 is positioned on the rear side. The configuration in which the fixing nut 9 is located on the front side is suitable for fishing such as catching a fish while swinging the fishing rod up and down, and when the reel seat 1 is gripped from above, the fishing rod can be easily swung up and down. At that time, by applying the rear grip 41 to the forearm, the fishing rod and the forearm can be integrated and fishing can be performed easily. Such a configuration is suitable for lure fishing, for example. On the other hand, the configuration in which the fixing nut 9 is located on the rear side is suitable for fishing performed while winding the reel, that is, fishing at the center of the retrieve, and the reel is easily wound when the reel sheet 1 is gripped from the side instead of from above. By applying the rear grip part 41 to the forearm, the fishing rod and the forearm can be integrated and the reel can be wound easily. Such a configuration is suitable for lure fishing, for example. Note that the reel sheet 1 on which a double-axis reel is mounted instead of the spinning reel may be used.

  The front surface portion 44a of the enlarged diameter portion 44 may be an inclined flat surface portion that is linearly inclined toward the rear side instead of the concave curved surface portion. Similarly, the rear surface portion 44b of the enlarged diameter portion 44 may be an inclined flat surface portion instead of the convex curved surface portion. The front surface portion 44a preferably has a steeper gradient in diameter toward the rear side than the rear surface portion 44b.

DESCRIPTION OF SYMBOLS 1 Reel seat 2 ２ Main body 3 Reel leg 4 Leg main part 4a Ankle part 5 Mounting leg part 5a One leg tip part 5b The other leg tip part 7 Reel seat body 8 Movable hood 8a Hood part 9 Fixed nut 11 Reel leg support surface 12 Fixed Hood 13 Male Thread 15 Recess 20 Main Housing 21 Rear Grip Housing 22 Spacer 23 Spacer 24 Flange Mouth Body 25 Rear Mouth Body 26 Front Mouth Body 27 Bottom Plug 28 Supporting Member 28a Insertion Cylindrical portion 28b Annular ridge 28c Plate support surface 28d Through hole 29 Buffer member 30 Design plate 40 Small diameter portion 41 Rear grip portion 42 Reinforcement portion 42a Reverse taper surface portion 42b Seat mounted portion 42c Stepped portion 43 Non-reinforcement portion 44 Wide diameter portion 44a Front side surface portion 44b Rear side surface portion 44c Annular corner portion 45 Large diameter portion 50 Main layer 51 Sub layer 52 Round wound reinforcement layer 53 Divided strip-shaped piece 54 Superposed portion 55 Long strip-shaped piece 60 Main prepreg 61 Vertical sheet 62 Horizontal sheet 64 Wound reinforced prepreg 70 Mandrel 71 First region 72 Second region 73 Third region 74 Corner forming portion

Claims (5)

A fishing rod having a hollow rear grip rod body in which a predetermined length region on the rear end side is enlarged and a rear grip portion is integrally formed,
A fishing rod characterized in that an annular corner is formed in a boundary portion between a front surface portion and a rear surface portion in the rear grip portion.   The rear grip portion has a diameter-expanding portion that expands toward the rear side with a steeper slope than the small-diameter portion located on the front side of the rear grip portion, and a rear grip housing from the rear end portion of the diameter-expanded portion. A large-diameter portion constituting a region up to the rear end portion, and an annular corner portion is formed in the enlarged-diameter portion, and the enlarged-diameter portion is partitioned into a front surface portion and a rear-side surface portion by the annular corner portion. The fishing rod according to claim 1.   The fishing rod according to claim 2, wherein the front surface portion is a concave curved surface portion having an outer concave shape.   The fishing rod according to claim 3, wherein the rear surface portion is a convex curved surface portion having an outer convex shape.   The fishing rod according to any one of claims 2 to 4, wherein a half or more of an inner diameter difference between the front end portion and the rear end portion in the expanded diameter portion is formed by the front surface portion.

Images