JP2007020498A - Ear tip rod - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a ear tip rod prevented in forming a bulged part on the surface of the rod tip end surface of a small diameter rod body, hardly causing rigidity shift and capable of drawing a circular arc form having good junction. <P>SOLUTION: A receiving inclined surface 2B obtained by enlarging rod tip side inner diameter to thin the thickness of a large diameter rod body 2, and a cylindrical part 2A having a constant inner diameter and formed on the rod rear end side of the receiving inclined surface 2B, are formed on the inner periphery surface of a rod tip end of a hollow large diameter rod body 2. A contacting inclined surface 1A contacting with the receiving inclined surface 2B, and a cylindrical part 1B internally fitted in the cylindrical part 2A at the rod rear end side of the contacting inclined surface 1A, are formed on the rod rear end part of a solid virgate small rod body 1. The rod tip maximum inner diameter of the receiving inclined surface 2B and the rod tip side maximum outer diameter of the contacting inclined surface 1A are set to be the same size, and the outer diameter of the cylindrical part 1B and the inner diameter of the cylindrical part 2A are set the same diameter to closely contact without remaining space. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a spike.

  One type of spikelet is a solid rod-shaped small-diameter frame and a hollow large-diameter frame that connects and fixes the small-diameter frame (see Patent Document 1).

JP 2005-27593 A (paragraph numbers [0003], [0005], [0023], FIGS. 3 to 6)

As described above, the use of a solid rod-shaped small-diameter rod is to achieve both good response and light weight when a fish is caught. However, since the heel side is a solid rod-like body and the heel side is a hollow member, various contrivances have been devised in the connection structure between them, but there are still the following problems.
That is, as shown in FIG. 6 of the above-mentioned publication, the fitting surface for fitting the butt end of the small-diameter housing located on the heel side to the tip opening of the large-diameter housing located on the heel side is shaved. In order to process, the reinforcing pattern made of prepreg was attached to the inner peripheral surface of the tip opening as a cutting allowance, but the outer peripheral surface of the tip of the large-diameter frame was raised or wound around the outer side of the reinforcing pattern There is a problem that a step portion is formed in the main pattern and wrinkles occur at the step portion.
In addition, since the reinforcing pattern is provided on the heel side, when the small-diameter housing is connected and fixed to the large-diameter housing, the outer peripheral surface of the heel tip of the large-diameter housing is raised. As shown in FIG. 2 of the publication, a step is formed between the outer peripheral surfaces of the small diameter casing and the large diameter casing. Therefore, in order to fill the stepped portion, a configuration is adopted in which a thick coating of paint or the like is applied.
Then, application of this paint causes swell in the applied part, and the continuity of rigidity is impaired between the heel end of the small-diameter casing and the heel end of the large-diameter casing. It was supposed to lack smoothness at the joints.

  An object of the present invention is to provide a pointed kite that can bend the kite at the connecting portion as expected.

〔Constitution〕
The characteristic configuration of the invention according to claim 1 includes a solid rod-shaped small-diameter housing located on the heel side and a hollow large-diameter housing located on the heel side connected and fixed to the small-diameter housing. An inner fitting bulging portion protruding inwardly is formed on the inner peripheral surface of the heel tip of the large-diameter housing, and the inner diameter of the inner fitting bulging portion is increased toward the heel side to increase the A receiving inclined surface for reducing the wall thickness of the diameter casing and a cylindrical portion having a constant inner diameter or a substantially constant inner diameter on the side of the tail end of the receiving inclined surface are formed. A constant outer diameter or a substantially constant diameter that is fitted inside the cylindrical portion at the end, a contact inclined surface that contacts the receiving inclined surface of the large-diameter housing, and a buttock end side of the contact inclined surface A cylindrical portion having an outer diameter of the receiving inclined surface, and the maximum inner diameter on the tip side of the receiving inclined surface and the maximum outer diameter on the tip side of the contact inclined surface are set to be the same or substantially the same, Part There the outer peripheral surface and the inner peripheral surface of the cylindrical portion to a point that is set on the same diameter of no gap in close contact, the effects thereof are as follows.

[Action]
When the bottom end of the small-diameter housing is fitted and attached to the top end of the large-diameter housing, the cylindrical portion of the small-diameter housing fits into the cylindrical portion of the large-diameter housing and the two are in close contact with each other. . On the other hand, on the heel side, the contact inclined surface of the small-diameter housing contacts the receiving inclined surface of the large-diameter housing. In this way, with the butt end portion of the small-diameter frame inserted into and mounted on the heel tip of the large-diameter frame, the heel-side maximum outer diameter of the contact inclined surface and the heel-side of the receiving inclined surface Since the maximum inner diameter is set to be the same or substantially the same, the tip side end of the contact inclined surface and the tip side end of the receiving inclined surface coincide with each other.
In this way, even when the tip side end of the contact inclined surface and the tip side end of the receiving inclined surface coincide with each other, There will be a level difference.
However, since the receiving inclined surface is formed in such a state that the diameter is increased toward the tip side and the thickness of the large diameter case is reduced toward the tip side, the outer peripheral surface of the tip end of the large diameter case and the small diameter case are formed. The tip end of the contact inclined surface of the body comes into contact with a small step. With such a structure, the step at the connecting portion between the small-diameter housing and the large-diameter housing can be suppressed as much as possible.
In addition, by providing a contact inclined surface on the small-diameter housing and providing a receiving inclined surface that contacts the contact inclined surface on the large-diameter housing, the volume related to the section modulus on the small-diameter housing side is gradually reduced. However, since the method of increasing the volume on the large-diameter housing side is taken, the large-diameter housing side receives the rigidity while suppressing a large change in rigidity as a whole at the connecting portion of the small-diameter housing and the large-diameter housing. By holding it, it is possible to avoid sudden fluctuations in rigidity and to achieve good arc characteristics when the heel is loaded.
On the other hand, since the same diameter is set so that the outer peripheral surface of the columnar portion and the inner peripheral surface of the cylindrical portion are in close contact with each other without a gap, the load acting on the small-diameter frame is not rattled through the close-contact portion. By being propagated to the body, the small-diameter housing can be securely supported by the large-diameter housing.

〔effect〕
As described above, the tip that can maintain a stable connection structure with little change in rigidity by adopting a configuration in which the role is divided between the part that receives the load and the part that suppresses the level difference in the connecting part of both housings. I came to be able to offer a kite.

〔Constitution〕
A characteristic configuration of the invention according to claim 2 is the invention according to claim 1, wherein the small diameter casing and the large diameter casing are combined with each other on the basis of the tip side end position of the receiving inclined surface. A thread to be clamped and fixed over a certain range of the heel side and the heel side is wound in a spiral with the adjacent threads in close contact with each other, and a coating film covering the clamping and fixing thread is wound from the certain range. It is applied over an enlarged range that extends over the side and the buttocks side, and the coating film is polished to finish the outer peripheral surface without unevenness. is there.

[Function and effect]
Here, not only simply fitting and fixing the butt end of the small-diameter housing to the heel tip of the large-diameter housing, but also tightening and tightening the fastening thread around the outer peripheral surface of the fitting portion It is. As a result, the connection state between the small-diameter housing and the large-diameter housing is strengthened. And since the winding method of the tightening fixing yarn is also in a closely wound state in which the yarns wound spirally are in close contact with each other, as clearly shown in Table 1 to be described later, As compared with this, it is less likely to protrude in the direction of the diameter where the yarns do not overlap.
Therefore, even if the yarn is wound around the outer peripheral surface and the fixed state is strengthened, the expansion in the radial direction can be minimized.
Further, a paint is applied on the wound yarn to harden the wound state of the yarn and to strengthen the connected state. And, in order to form the paint layer, it is applied to a region that covers the yarn and expands beyond the region where the yarn is applied. Therefore, it is possible to grind in a gentle state so that the thickness of the yarn is not conspicuous compared with the case where the coating is applied only to the region where the yarn is wound.
In other words, since the paint layer can also show a gentle inclined surface from the hem part of the paint layer toward the center part where the yarn is applied, the entire painted surface can be made smooth with no irregularities, By reducing the change in rigidity, stress concentration and the like can be avoided in advance, and coating cracks and the like can be avoided.

〔Constitution〕
The characteristic configuration of the invention according to claim 3 resides in that the thickness of the flange tip of the large-diameter casing is set to a value between 0 mm and 0.1 mm, and the effects thereof are as follows. is there.

[Function and effect]
As described above, as a result of the structure of the heel tip of the large diameter casing being formed in a state where the receiving inclined surface is enlarged toward the tip side and the thickness of the large diameter casing is decreased toward the tip side. Since the thickness of the heel tip of the large-diameter housing can be formed to a value between 0 mm and 0.1 mm, the outer peripheral surface of the heel tip of the large-diameter housing and the contact inclined surface of the small-diameter housing Will be connected to the tip side of the tip without any step. As a result, even if the small-diameter frame and the large-diameter frame are further connected, it is possible to suppress the variation in rigidity at the connection part and to obtain a good bend of the heel.

  The point rod A in the parallel-type or swing-out type fishing rod will be described. As shown in FIG. 1, the tip rod A includes a solid rod-shaped small-diameter frame 1 and a hollow large-diameter frame 2 connected and fixed to the small-diameter frame 1. Here, a description will be given using a small-diameter rod body 1 and a large-diameter rod body 2 provided with an external fishing line guide 3.

  The solid rod-shaped small-diameter housing 1 will be described. As shown in FIG. 1 (b), the small-diameter frame 1 is formed in a conical rod shape that gradually increases in diameter along the axis X direction of the rod, and is the largest that is formed near the base end. An abutting inclined surface 1A that decreases in diameter toward the base end from the diameter portion a and a cylindrical columnar portion 1B on the base side thereof are formed, and can be connected to the large-diameter housing 2. It is configured.

  On the other hand, the hollow large-diameter housing 2 will be described. As shown in FIG. 1 (b), a receiving inclined surface 2B having a diameter decreasing toward the back side is formed in the opening portion of the large-diameter housing 2 and further toward the far side from the receiving inclined surface 2B. The inner fitting bulging portion 2A is formed, and the inner fitting bulging portion 2A forms a small diameter hole-like cylindrical portion. The small-diameter hole-like inner fitting bulging portion 2A is formed only to a certain length, and has a normal thickness on the heel side from the heel side end of the inner fitting bulging portion 2A. A body part 2C is formed.

The manufacturing method of the small-diameter housing 1 is as follows. Although not shown in the figure, a bundle of glass reinforcing fibers (500 to 1000) bundled along the axis is submerged in the thermosetting resin liquid and impregnated with the resin, and then pulled out from the die to a predetermined length. Cut to form a solid bar-like member. Here, although carbon fiber etc. can be used as a reinforced fiber, a glass fiber with a low elasticity modulus and high flexibility compared with carbon fiber etc. is employ | adopted.
The reason why the member used at the tip of the spear is in the form of a solid rod is that it is necessary to configure the spear to react sensitively when fish is hung, and it is provided at the tip of the spear In addition, the solid rod shape can be reduced in diameter while being lighter than the hollow rod.

However, if the rigidity is too high, it is not possible to cope with rapid fish pulling and the like, and there is a risk of breakage or cracking. Therefore, it is better to use glass fiber in order to maintain toughness.
Grinding is performed in a conical shape that gradually increases in diameter toward the base side with respect to the outer peripheral surface of the solid rod-shaped member formed as described above, and the base end portion is ground and processed. A contact inclined surface 1A having a smaller diameter and a columnar portion 1B having a constant diameter on the base side are formed.

  A method for manufacturing the hollow large-diameter housing 2 will be described. First, the shape of the mandrel 4 will be described. As shown in FIG. 3, the rod-shaped material is ground and the outer peripheral surface is formed from the tip side to the base side to form a rod-like body 4B whose diameter is increased at a constant rate, and the tip is stepped. A small-diameter portion 4A that decreases in diameter toward the tip side is formed through the surface 4a.

  The prepreg pattern on the side wound around the mandrel 4 will be described. As shown in FIG. 3, a prepreg 5A constituted by impregnating a carbon fiber (glass fiber) c aligned in a posture inclined with respect to the saddle axis X with a thermosetting resin (thermoplastic resin) and the prepreg 5A Superimposing reinforced fiber (glass fiber) c and prepreg 5B composed of impregnated thermosetting resin (thermoplastic resin) with reinforcing fiber (glass fiber) c arranged symmetrically across the axis X A main pattern 5 having a length corresponding to the entire length along the axial direction of the heel is prepared. Further, a reinforcing pattern 6 is prepared by cutting a prepreg in which carbon fibers c (or glass fibers) are aligned in the circumferential direction to a length shorter than a length corresponding to a ridge.

A fiber having an elastic modulus of 20 to 24 tons / square millimeter is selected as the reinforcing fiber used in the hollow large-diameter casing 2. Generally, this elastic modulus belongs to the middle elastic system, and PAN-based carbon fiber, aramid fiber, boron fiber, or the like can be used as the reinforcing fiber.
A fiber having an elastic modulus of 5 to 10 tons / square millimeter is selected as the reinforcing fiber used for the solid rod-shaped small-diameter casing 1. In general, this elastic modulus belongs to a low elastic system, and glass fiber or the like can be used as the reinforcing fiber.

A hollow large-diameter housing 2 is formed from the main pattern 5 and the reinforcing pattern 6 formed as described above. As shown in FIG. 3, the two prepregs 5 </ b> A and 5 </ b> B are wound around the mandrel 4 in a state where the carbon fibers intersect each other. The two prepregs 5A and 5B are also wound around the small-diameter portion 4A of the mandrel 4, and are wound over the entire length of the mandrel 4 of the rod-shaped body 4B from the small-diameter portion 4A. .
The reinforcing pattern 6 is wound at a position corresponding to the small diameter portion 4A of the mandrel 4 in a state where the two prepregs 5A and 5B are wound.

  The thickness of the prepregs 5A and 5B wound as described above is 0.05 mm. When the prepregs 5A and 5B are wound by 5 plies, the thickness of the prepreg becomes 0.5 mm. On the other hand, as the reinforcing pattern 6, a prepreg having a thickness of 0.05 mm is wound about 3 plies. Therefore, the small diameter portion 4A in the mandrel 4 is formed with a step of about 0.15 mm.

  After winding the reinforcing pattern 6, although not shown, it is bound with a cellophane tape or the like, and after firing in a firing furnace, the tape is peeled off and cut into a predetermined length. After cutting, it is processed into a predetermined outer shape with a centerless polishing machine or the like. That is, it is formed in a cylindrical body that gradually increases in diameter when hung on the heel side, and a large-diameter housing 2 is formed by attaching a predetermined paint or fishing line guide 3 or the like.

As shown in FIG. 4 (a), an inner fitting bulging portion 2A formed by winding the reinforcing pattern 6 is formed on the inner peripheral surface of the heel end of the large diameter casing 2 by the manufacturing method as described above. The cylindrical portion 1B of the small-diameter housing 1 is configured to fit inside.
In order to form a connecting portion with the small-diameter housing 1 at the stage of processing into a predetermined outer surface shape with a centerless polishing machine or the like, an appropriate tool such as a drill is used as shown in FIGS. As a result, a receiving inclined surface 2B is formed at the inlet of the inner fitting bulging portion 2A.

As shown in FIG. 1 (b), the outer diameter d ₁ of the cylindrical portion 1B of the small-diameter rod body 1, the outer diameter d ₂ of the cylindrical portion 1B of the large径竿body 2, and set to a dimension which is in close contact It is. That is, there is a dimensional tolerance of 0.002 to 0.005 mm between the outer diameter d ₁ and the outer diameter d ₂ in this conventional part, and the cylindrical portion 1B of the small-diameter casing 1 and the large-diameter casing 2 The cylindrical portion 1B is configured to be fitted with a slight gap. On the other hand, in the present invention, there is no dimensional tolerance as described above, and the gap is set to 0 mm so that the load applied to the small-diameter casing 1 is reliably received by the large-diameter casing 2.

As shown in FIG. 4B, the thickness t of the heel tip of the large-diameter housing 2 is set to a value between 0 mm and 0.1 mm by forming the receiving inclined surface 2B. The tip diameter of the large-diameter housing 2 in this case is about 1.5 mm to 1.6 mm when estimated from the measured values described later. In this way, when the small diameter casing 1 is connected to the large diameter casing 2 by reaming the large diameter casing 2 so that the thickness t of the large diameter casing 2 is approximately 0 mm, the maximum large diameter portion of the small diameter casing 1 is obtained. The outer diameter of a and the outer diameter of the heel tip of the large-diameter casing 2 are the same.
With such a configuration, there is no step at the connecting portion between the small-diameter housing 1 and the large-diameter housing 2, and the continuity of the bending of the heel is improved.
As described above, a connecting portion between the small-diameter casing 1 and the large-diameter casing 2 is formed, and the contact inclined surface 1A of the small-diameter casing 1 and the columnar portion 1B are received and inclined to receive the large-diameter casing 2. It is mounted in the surface 2B and the cylindrical part. An adhesive is applied to the mounting surface, and the small-diameter housing 1 and the large-diameter housing 2 are bonded and fixed.

  Next, the thread 7 to be fastened and fixed to the connecting portion hardened with an adhesive is wound. As shown in FIG. 2A, a tightening thread 7 is wound from the outer peripheral surface of the small-diameter casing 1 to the outer peripheral surface of the large-diameter casing 2. The yarn 7 used here is a non-twisted cotton yarn. The winding method of the yarn 7 is referred to as close winding, and is configured such that the yarns are adjacent to each other in the axial direction in the process of winding the yarn 7 in a spiral shape. There is a method called twill winding for this close winding. The traverse winding is performed in such a manner that the yarns 7 cross each other.

After tightening with the thread 7, as shown in FIG. 2 (b), a clear coating agent is sprayed and applied onto the thread 7 to form the coating layer 8. The enforcement range of the thread 7 is distributed to the same lengths b and b along the axial direction of the shaft with the maximum large-diameter portion a serving as a connection point between the large-diameter housing 2 and the small-diameter housing 1 being centered. Yes. As described above, when the diameter near the connection point is φ1.5 to 1.6 mm, b = about 10 mm. On the other hand, the coating area of the coating agent is set to c = 20 mm on the heel side and d = 30 mm on the heel side with the maximum large diameter portion a as the center.
Conventionally, the coating area of the coating agent has been 10 mm on the heel side and 10 mm on the buttock side with the maximum large diameter portion a as the center.

  After applying the coating agent, as shown in FIG. 2C, the centerless polishing machine 9 performs flat polishing so that the coating film thickness is as thin as possible without the yarn 7 being exposed. By this polishing, as shown in FIG. 2 (d), the connection state between the small-diameter housing 1 and the large-diameter housing 2 is recognized only when the surface of the coating film is gently raised without causing a convex portion. The finish is such that it cannot be done.

上記した表１のものより、糸７の巻き付け方の違いを評価すると、密巻きの方が外径が小さくなっており、この接続部分での剛性の変動を抑制することができることが分かった。 The following is a measurement of the difference in the outer diameter of the heel end of the large diameter casing 1 due to the difference in the winding method of the yarn 7 described above. The reinforcing pattern 6 was measured using a glass reinforcing fiber and a carbon fiber reinforcing fiber. Three sets of fishing rods to be measured were manufactured and measured.

From the results shown in Table 1, when the difference in the winding method of the yarn 7 is evaluated, it has been found that the tight winding has a smaller outer diameter, and the variation in rigidity at this connecting portion can be suppressed.

[Another embodiment]
As a rod to which this kind of tip rod A is applied, it can be used for a rod that does not have the fishing line guide 3 on the outer surface.

(A) is a side view showing a state in which a solid rod-shaped small-diameter rod body and a hollow large-diameter rod body constituting the tip rod are connected, and (B) is a rear end portion of the solid rod-shaped small-diameter rod body; A longitudinal side view showing a state before connection with the tip of the hollow large-diameter housing, (c) is a longitudinal side view showing a state after connection (A) Longitudinal side view showing a state of winding a thread to be fastened and fixed to a connecting portion in a state where a small diameter casing is connected to a large diameter casing, and (B) a state in which a coating layer is formed on the thread to be fastened and fixed (C) Vertical side view showing the state of grinding the coating layer, (d) Vertical side view showing the state after grinding The perspective view which shows the manufacturing method of a hollow large diameter frame, and shows the state before winding a main pattern and a reinforcement pattern around a mandrel (A) is a longitudinal side view showing a hollow large-diameter housing formed only with an inner fitting bulge by the manufacturing method of FIG. 3, and (b) is a heel from the state of (a) to the tip opening. Longitudinal side view showing a state where a receiving inclined surface with a smaller diameter is formed on the side.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Small-diameter housing 1A Contact inclination surface 1B Cylindrical part 2 Large-diameter housing 2A Inner fitting bulging part 2B Inclination surface 4 Mandrel 4A Small-diameter part 4B Rod-like body 4a Stepped surface 5 Main pattern 6 Reinforcement pattern 7 Tightening Fixed yarn 8 Paint film c Reinforcing fiber

Claims (3)

  A solid rod-like small-diameter housing located on the tip side and a hollow large-diameter housing located on the base side connected to and fixed to the small-diameter housing, An inner fitting bulge that protrudes inwardly on the peripheral surface is formed, and the inner diameter of the inner fitting bulge is increased toward the tip side to reduce the thickness of the large-diameter frame. An inclined surface and a cylindrical portion having a constant inner diameter or a substantially constant inner diameter are formed on the side of the buttocks end of the receiving inclined surface, and the large-diameter housing is received at the buttocks end of the small-diameter housing. A contact inclined surface that contacts the stop inclined surface and a columnar portion having a constant outer diameter or a substantially constant outer diameter that is fitted inside the cylindrical portion on the butt end side of the contact inclined surface are formed. The tip-side maximum inner diameter of the receiving inclined surface and the tip-side maximum outer diameter of the contact inclined surface are set to be the same or substantially the same, and the outer peripheral surface of the columnar part and the inner part of the cylindrical part With the circumference Top rod that is set on the same diameter of no gap in close contact.   The tip of the receiving inclined surface is set with the outer diameter of the cylindrical portion and the inner diameter of the cylindrical portion set to the same diameter so as to closely contact each other, and the small-diameter housing and the large-diameter housing are combined. A yarn that is fastened and fixed over a certain range between the tip end side and the heel end side with respect to the side end position is wound in a spiral in a state where adjacent yarns are in close contact with each other, and a coating film that covers the fastening fixing yarn is provided. The tip according to claim 1, which is applied over an enlarged range extending from the fixed range to the tip side and the buttock side, and the coating film is polished to finish the outer peripheral surface without unevenness. rod.     The spikelet according to claim 1, wherein the thickness of the heel tip of the large-diameter skeleton is set to a value between 0 mm and 0.1 mm.

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