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JP4570138B2 - Body for through-holes and through-holes - Google Patents
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JP4570138B2 - Body for through-holes and through-holes - Google Patents

Body for through-holes and through-holes Download PDF

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JP4570138B2
JP4570138B2 JP2004261346A JP2004261346A JP4570138B2 JP 4570138 B2 JP4570138 B2 JP 4570138B2 JP 2004261346 A JP2004261346 A JP 2004261346A JP 2004261346 A JP2004261346 A JP 2004261346A JP 4570138 B2 JP4570138 B2 JP 4570138B2
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rod
inclined surface
fishing line
heel
line support
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JP2006075053A (en
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幸信 塩谷
健治 山澤
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Shimano Inc
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Shimano Inc
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Description

本発明は、竿体の内周壁で囲む内部空間を糸案内経路として形成するとともに前記内周壁面から内部空間に向けて突出する釣り糸支持突部を形成してある中通し竿の竿体及び中通し竿に関する。   The present invention provides a through-rod rod body and an intermediate rod formed with a fishing line support projection protruding from the inner wall surface toward the internal space while forming an inner space surrounded by the inner peripheral wall of the rod body as a line guide path. Regarding threading.

釣り糸支持突部は、竿先側傾斜面の傾斜度と竿尻側傾斜面の傾斜度とを同一傾斜度に形成していた。つまり、竿先側傾斜面の竿尻側への倒れ角度と、竿尻側傾斜面の竿先側への倒れ角度とを同一のものにして、釣り糸支持突部の断面形状を台形状に形成していた(特許文献1の図3を参照)。   In the fishing line support protrusion, the inclination of the heel-side inclined surface and the inclination of the heel-side inclined surface are formed to have the same inclination. In other words, the angle of inclination of the heel-side inclined surface to the heel-end side and the angle of inclination of the heel-end-side inclined surface to the heel-end side are the same, and the cross-sectional shape of the fishing line support protrusion is formed in a trapezoidal shape. (See FIG. 3 of Patent Document 1).

特開平10−94349号公報(公報段落番号〔0021〕、図3)Japanese Patent Laid-Open No. 10-94349 (paragraph number [0021], FIG. 3)

上記したように、釣り糸支持突部の断面形状が台形状であるので、釣り糸支持突部に至った水は、竿先側にも竿尻側にも流れにくくなっており、竿尻側か又は竿先側の一方の開口部に水を導く効果が薄く、竿体内に水が溜まる傾向にあった。また、開口部から侵入した水が釣り糸支持突部を越えて竿の奥側へ入り込み易い傾向にあった。
複数の竿体が一体に継ながった状態では、一番竿の先端と元竿の後端とに開口部が限定されるので、中竿に水が溜まる傾向にあった。
As described above, since the cross-sectional shape of the fishing line support protrusion is trapezoidal, the water that reaches the fishing line support protrusion is less likely to flow to the tip side or the tail side, The effect of guiding water to one opening on the tip side is thin, and water tends to accumulate in the housing. In addition, water that has entered from the opening tends to easily enter the rear side of the rod over the fishing line support protrusion.
In a state where a plurality of casings are joined together, the opening is limited to the leading end of the first casing and the rear end of the main casing, so that water tends to accumulate in the middle casing.

本発明の目的は、中通し竿であっても、糸案内経路内に持ち込まれた水を竿先側か竿尻側の一方に導くとともに水の内部空間内への侵入を阻止して、水の排出を良好に行えるものを提供する点にある。   The object of the present invention is to guide the water brought into the yarn guide path to one of the tip end side or the heel end side, and prevent the water from entering the internal space, It is to provide the one that can discharge the gas well.

〔構成〕
請求項1に係る発明の特徴構成は、内周壁で囲む内部空間を糸案内経路として形成するとともに内周壁面から内部空間に向けて先細り状に突出する釣り糸支持突部を形成してある竿体を複数本備えている中通し竿であって、
通し竿における竿先側に位置する小径竿体においては、前記釣り糸支持突部における竿先側傾斜面の傾斜度を、竿尻側傾斜面の傾斜度より急傾斜に形成し、前記中通し竿における竿尻側に位置する大径竿体においては、前記釣り糸支持突部における前記竿先側傾斜面の傾斜度を、前記竿尻側傾斜面の傾斜度より緩傾斜に形成してある点にあり、その作用効果は次の通りである。
〔Constitution〕
Characterizing feature of the invention according to claim 1, is formed a fishing line support protrusion that protrudes in a tapered shape toward an inner space surrounded by the inner peripheral wall from the inner wall surface together to form a yarn guide path in the interior space rod A penetrating bag with multiple bodies,
In the small-diameter rod body located on the rod tip side in the fishing rod, the inclination of the rod tip side inclined surface in the fishing line support projection, formed steeper than the slope of the rod butt side inclined surface, passing in the in a large径竿body located on the rod butt side of the rod, in that the inclination of the rod tip side inclined surface in the fishing line support projection, it is formed on the gentle slope than the slope of the rod butt side inclined surface The effects are as follows.

〔作用効果〕
つまり、前記中通し竿における竿先側に位置する小径竿体においては、釣り糸支持突部における竿先側傾斜面の傾斜度を竿尻側傾斜面の傾斜度より急傾斜としてあるので、竿体の内部空間内に持ち込まれた水は、緩やかな傾斜度の竿尻側から傾斜度の急な竿先側に向けて流れ易くなる。
前記中通し竿における竿尻側に位置する大径竿体においては、釣り糸支持突部における竿先側傾斜面の傾斜度を竿尻側傾斜面の傾斜度より緩傾斜としてあるので、竿体の内部空間内に持ち込まれた水は、緩やかな傾斜度の竿先側から傾斜度の急な竿尻側に向けて流れ易くなる。
竿体内に侵入しようとする水に対しては、急傾斜部分で阻止することができる。
これによって、小径竿体では排出口となる一番竿の先端開口部に向けて水を集めることができ、大径竿体では排出口となる元竿の後端開口部に向けて水を集めることができ、排出口からの水の侵入を阻止して、竿内で水が滞留することを抑制できる。
竿内での水の滞留を阻止するのに、小径竿体では一番竿の先端開口部に向けて大径竿体では元竿の後端開口部に向けて、夫々、排水し易い側へ水を導くとともに水の侵入を阻止すべく、小径竿体では、釣り糸支持突部の竿先側傾斜面の傾斜度を竿尻側傾斜面の傾斜度より急な傾斜に形成するだけの、また、大径竿体では、釣り糸支持突部の竿先側傾斜面の傾斜度を竿尻側傾斜面の傾斜度より緩やかな傾斜に形成するだけの、簡単で、かつ、合理的な改造を行うだけで達成できるに至った。
[Function and effect]
In other words, in the small-diameter frame located on the tip side of the threading rod, the inclination of the tip side inclined surface in the fishing line support protrusion is steeper than the inclination of the rod end side inclined surface. The water brought into the interior space of the water easily flows from the heel side with a gentle slope toward the tip side with a steep slope.
In the large-diameter frame located on the heel side of the center rod, the inclination of the heel side inclined surface in the fishing line support projection is set to be gentler than the inclination of the heel side inclined surface. The water brought into the internal space easily flows from the tip side of the gentle slope toward the buttock side of the steep slope.
The steep slope can prevent water that is about to enter the enclosure.
As a result, water can be collected toward the opening of the front end of the first rod serving as the discharge port in the small-diameter frame, and water is collected toward the rear end opening of the main rod serving as the discharge port in the large-diameter frame. It is possible to prevent water from entering from the discharge port and suppress water from staying in the tub.
To prevent water from staying in the tub, the small-diameter housing is directed toward the front end opening of the first heel and the large-diameter housing is directed toward the rear end opening of the main housing, respectively, to the side where it is easy to drain water. In order to guide water and prevent water intrusion, the small-diameter frame only forms the inclination of the tip side inclined surface of the fishing line support projection to be steeper than the inclination of the heel side inclined surface. In the large-diameter frame, a simple and rational modification is performed by simply forming the slope of the tip side inclined surface of the fishing line support protrusion to be gentler than the slope angle of the heel side inclined surface. I was able to achieve it alone.

〔構成〕
請求項2に係る発明の特徴構成は、内周壁で囲む内部空間を糸案内経路として形成するとともに内周壁面から内部空間に向けて先細り状に突出する釣り糸支持突部を形成してある竿体を複数本備えている中通し竿であって、
通し竿における竿先側に位置する小径竿体においては、前記釣り糸支持突部における竿先側面を前記小径竿体の軸線に直交する垂直面に、かつ、竿尻側面を傾斜面に形成し、前記中通し竿における竿尻側に位置する大径竿体においては、前記釣り糸支持突部における前記竿先側面を傾斜面に、かつ、前記竿尻側面を前記大径竿体の軸線に直交する垂直面に形成してある点にあり、その作用効果は次の通りである。
〔Constitution〕
Characterizing feature of the invention according to claim 2, it is formed with fishing line support protrusion that protrudes in a tapered shape toward an inner space surrounded by the inner peripheral wall from the inner wall surface together to form a yarn guide path in the interior space rod A penetrating bag with multiple bodies,
In the small diameter rod body located on the rod side of the through rod, the rod side surface of the fishing line support protrusion is formed on a vertical plane perpendicular to the axis of the small diameter rod and the rod side surface is formed on an inclined surface. in the large径竿body located on the rod butt side of rod passing in said, the inclined surface the Saosaki side in the fishing line supporting projection, and orthogonal to the Saoshiri side to the axis of said large-diameter rod body The function and effect are as follows.

〔作用効果〕
つまり、前記中通し竿における竿先側に位置する小径竿体においては、釣り糸支持突部における竿先側面を垂直面とし竿尻側面を傾斜面としてあるので、竿体の内部空間内に持ち込まれた水は、緩やかな傾斜度の竿尻側から垂直面の竿先側に向けて流れ易くなる。
前記中通し竿における竿尻側に位置する大径竿体においては、釣り糸支持突部における竿尻側面を垂直面とし竿先側面を傾斜面としてあるので、竿体の内部空間内に持ち込まれた水は、緩やかな傾斜度の竿先側から垂直面の竿尻側に向けて流れ易くなる。
竿体内に侵入しようとする水に対しては、垂直面で阻止することができる。
これによって、小径竿体では排出口となる一番竿の先端開口部に向けて水を集めることができ、大径竿体では排出口となる元竿の後端開口部に向けて水を集めることができ、竿体内への水の侵入を阻止して、竿内で水が滞留することを抑制できる。
竿内での水の滞留を阻止するのに、小径竿体では一番竿の先端開口部に向けて大径竿体では元竿の後端開口部に向けて、夫々、排水し易い側へ水を導くべく、小径竿体では、釣り糸支持突部における竿先側面を垂直面とし竿尻側面を傾斜面に形成するだけの、また、大径竿体では、釣り糸支持突部における竿尻側面を垂直面とし竿先側面を傾斜面に形成するだけの、簡単で、かつ、合理的な改造を行うだけで達成できるに至った。
[Function and effect]
That is, in the small-diameter frame located on the tip side of the threading rod, the tip side of the fishing line support protrusion is a vertical surface and the side of the buttock is an inclined surface, so it is brought into the internal space of the rod. Water tends to flow from the heel side of the gentle slope toward the tip side of the vertical surface.
In the large-diameter rod body located on the rod tail side of the through rod, since the rod hip side surface in the fishing line support protrusion is a vertical surface and the rod tip side surface is an inclined surface, it was brought into the internal space of the rod body Water becomes easy to flow from the tip side of the gentle slope toward the butt end of the vertical surface.
Water that tries to enter the enclosure can be blocked by a vertical surface.
Thus, the small-diameter rod body can collect water toward the distal end opening portion of the top rod of the outlet water is collected toward the rear end opening of the original rod comprising a discharge port in a large径竿body It is possible to prevent water from entering the casing and to prevent water from staying in the casing.
To prevent water from staying in the tub, the small-diameter housing is directed toward the front end opening of the first heel and the large-diameter housing is directed toward the rear end opening of the main housing, respectively, to the side where it is easy to drain water. In order to guide water, in the small diameter frame, the tip side of the fishing line support protrusion is formed as a vertical surface and the side surface of the buttock is formed as an inclined surface. It is possible to achieve this by simply and rationally remodeling, with a vertical surface and an inclined surface on the tip side.

海釣り、磯釣り等に使用される中通し竿Aについて説明する。
図1に示すように、一番竿1、二番竿2、三番竿3、元竿4を伸縮自在に挿嵌して振出し型の中通し竿を構成する。元竿4は両軸受けリール5を取り付けたリールシート6を備えており、元竿4の外面に取り付けた糸ガイド8に形成した導入孔から送り込んだ釣り糸Lを元竿4の内部、三番竿3、二番竿2、及び、一番竿1の内部に形成した糸案内経路Xを介して竿外に送り出すよう構成してある。尚、これらの竿の素材は炭素繊維、ガラス繊維で成るプリプレグを芯材に巻回し焼成することで高い屈撓性を有した筒状に成形したものである。
A description will be given of the penetrating rod A used for sea fishing, carp fishing and the like.
As shown in FIG. 1, a swing-out type through collar is configured by inserting a first collar 1, a second collar 2, a third collar 3, and a main collar 4 in a telescopic manner. The main rod 4 is provided with a reel seat 6 to which both bearing reels 5 are attached. The fishing line L fed from the introduction hole formed in the yarn guide 8 attached to the outer surface of the main rod 4 is supplied to the inside of the main rod 4, the third rod. 3, the second reed 2, and the yarn guide path X formed inside the first reed 1 are configured to be sent out of the reed. In addition, the material of these ridges is formed into a cylindrical shape having high flexibility by winding a prepreg made of carbon fiber and glass fiber around a core material and firing it.

図2及び図3に示すように、糸ガイド8は元竿4の中間位置の外面に取り付けられ、元竿4の導入孔の開口縁に耐磨耗性の長円形のセラミックリング7を備えて、釣り糸Lの導入孔との接触抵抗を緩和し、円滑な釣り糸Lの繰出しを形成している。   As shown in FIGS. 2 and 3, the yarn guide 8 is attached to the outer surface of the intermediate position of the main rod 4, and is provided with an abrasion-resistant oval ceramic ring 7 at the opening edge of the introduction hole of the main rod 4. The contact resistance with the introduction hole of the fishing line L is eased, and the smooth feeding of the fishing line L is formed.

一番竿1、及び、二番竿2等の内面には図2に示す如く螺旋状の突条Sを竿材と一体形成して釣り糸Lとの接触面積を小さくして釣り糸Lの出し入れ時の摩擦抵抗の低減と、釣り糸Lの付着の抑制とを図ってある。この突条Sを釣り糸支持突部と称する。   As shown in FIG. 2, a spiral protrusion S is formed integrally with the rod material on the inner surface of the first rod 1 and the second rod 2 to reduce the contact area with the fishing line L, and when the fishing line L is taken in and out. The friction resistance is reduced, and the adhesion of the fishing line L is suppressed. This protrusion S is called a fishing line support protrusion.

次に、突条Sの実施構造について説明する。
〔第1実施形態〕
ここでは、小径竿体としての一番竿1、二番竿2に対する突条Sの構造について説明する。図2に示すように、小径竿体の内周壁で囲む内部空間を糸案内経路Xとして形成するとともに内周壁面aから内部空間に向けて先細り状に突出する釣り糸支持突部としての突条Sを小径竿体と一体で形成する。
図3(イ)に示すように、小径竿体の軸線Yを含む縦断面で切断した場合の突条Sの断面の形状について説明する。突条Sの断面を略三角形状に形成するとともに、前記三角形状断面の頂点からその底辺に垂直におろした基準線bと竿先側傾斜面cのなす角度θ1を、前記基準線bと竿尻側傾斜面dとのなす角度θ2より小さくして、竿先側傾斜面cの傾斜度を、竿尻側傾斜面dの傾斜度より急傾斜に形成してある。
Next, the implementation structure of the ridge S will be described.
[First embodiment]
Here, the structure of the protrusion S with respect to the first rod 1 and the second rod 2 as the small-diameter frame will be described. As shown in FIG. 2, the ridge S as a fishing line support protrusion that forms an inner space surrounded by the inner peripheral wall of the small-diameter frame as a thread guide path X and projects in a tapered manner from the inner peripheral wall surface a toward the inner space. Is formed integrally with the small-diameter housing.
As shown in FIG. 3 (a), the shape of the cross section of the ridge S when cut along a vertical cross section including the axis Y of the small-diameter frame will be described. The cross section of the ridge S is formed in a substantially triangular shape, and an angle θ1 formed by a reference line b perpendicular to the bottom side from the apex of the triangular cross section and the tip side inclined surface c is defined as the reference line b and The inclination angle of the heel-side inclined surface c is made steeper than the inclination angle of the heel-side inclined surface d by making it smaller than the angle θ2 formed with the butt-side inclined surface d.

上記のような構成によって、竿尻側から竿先側への水の流れ易さを確保するとともに、竿先側からの小径竿体内への水侵入を抑制できて、竿体内への水の滞留を抑えることができる。   With the configuration as described above, it is possible to secure the ease of water flow from the heel side to the heel side, and to suppress the intrusion of water from the heel side into the small-diameter housing, so that the water stays in the housing. Can be suppressed.

〔第2実施形態〕
ここでは、小径竿体としての一番竿1、二番竿2に対する突条Sの別構造について説明する。第1実施形態の場合と異なっている点について説明する。 図3(ロ)に示すように、第1実施形態では竿先側面cを傾斜面としたが、ここでは、三角形状断面の竿先側面cを前記基準線bに沿った垂直面に形成してある。前記した垂直面が、請求項3に記載する、前記竿体の軸線Yに直交する径方向断面に平行な垂直面に該当する。
[Second Embodiment]
Here, another structure of the protrusion S with respect to the first rod 1 and the second rod 2 as the small-diameter frame will be described. Differences from the first embodiment will be described. As shown in FIG. 3B, in the first embodiment, the tip side c is inclined, but here, the tip side c of a triangular cross section is formed on a vertical plane along the reference line b. It is. The above-described vertical plane corresponds to a vertical plane parallel to a radial cross section perpendicular to the axis Y of the casing.

上記のような構成によって、竿尻側から竿先側への水の流れ易さを確保するとともに、竿先側からの小径竿体内への水侵入を抑制できて、竿体内への水の滞留を抑えることができる。   With the configuration as described above, it is possible to secure the ease of water flow from the heel side to the heel side, and to suppress the intrusion of water from the heel side into the small-diameter housing, so that the water stays in the housing. Can be suppressed.

〔第3実施形態〕
主として、第2実施形態の場合と異なる点について説明する。図3(ハ)に示すように、前記三角形状断面の頂点からその底辺に垂直におろした基準線bと竿先側傾斜面cのなす角度θ1を、竿尻側傾斜面dと同様の傾斜方向となるようにしてある。そして、その傾斜角θ1は、竿尻側傾斜面dのなす角度θ2より小さくして、竿先側傾斜面cの傾斜度を、竿尻側傾斜面dの傾斜度より急傾斜に形成してある。
[Third Embodiment]
Differences from the second embodiment will be mainly described. As shown in FIG. 3C, the angle θ1 formed by the reference line b perpendicular to the base from the apex of the triangular cross section and the tip side inclined surface c is the same as that of the heel side inclined surface d. It is in the direction. The inclination angle θ1 is smaller than the angle θ2 formed by the heel-side inclined surface d, and the inclination of the heel-side inclined surface c is formed to be steeper than the inclination of the heel-side inclined surface d. is there.

上記のような構成によって、竿尻側から竿先側への水の流れ易さを確保するとともに、竿先側からの小径竿体内への水侵入を抑制する効果を高くできて、竿体内への水の滞留を抑えることができる。   With the configuration as described above, it is possible to secure the ease of water flow from the heel side to the heel side, and to increase the effect of suppressing water intrusion from the heel side into the small diameter body, Of water can be suppressed.

〔第4実施形態〕
第3実施形態のものとの違いを説明すると、図3(二)に示すように、竿先側面cの形状が異なっており、竿先側面cは竿尻側傾斜面dに近接する方向に凹入する円弧状面に形成してある。
[Fourth Embodiment]
Explaining the difference from the third embodiment, as shown in FIG. 3 (2), the shape of the heel side surface c is different, and the heel side surface c is in a direction close to the heel side inclined surface d. It is formed on a concave arcuate surface.

上記のような構成によって、竿尻側から竿先側への水の流れ易さを確保するとともに、竿先側からの小径竿体内への水侵入を抑制する効果を高くできて、竿体内への水の滞留を抑えることができる。   With the configuration as described above, it is possible to secure the ease of water flow from the heel side to the heel side, and to increase the effect of suppressing water intrusion from the heel side into the small diameter body, Of water can be suppressed.

〔第5実施形態〕
ここでは、大径竿体としての三番竿3、元竿4に対する突条Sの構造について説明する。図4に示すように、大径竿体の内周壁で囲む内部空間を糸案内経路Xとして形成するとともに内周壁面aから内部空間に向けて先細り状に突出する釣り糸支持突部としての突条Sを大径竿体と一体で形成する。
図5(イ)に示すように、大径竿体の軸線Yを含む縦断面で切断した場合の突条Sの断面の形状について説明する。突条Sの断面を略三角形状に形成するとともに、前記三角形状断面の頂点からその底辺に垂直におろした基準線bと竿先側傾斜面cのなす角度θ3を、前記基準線bと竿尻側傾斜面dとのなす角度θ4より大きくして、竿先側傾斜面cの傾斜度を、竿尻側傾斜面dの傾斜度より緩傾斜に形成してある。
この第5実施形態における突条Sの断面形状は、第1実施形態の場合と、竿先側傾斜面cと竿尻側傾斜面dとの傾斜度が逆の関係になっている。
[Fifth Embodiment]
Here, the structure of the ridge S with respect to the third rod 3 and the main rod 4 as the large-diameter frame will be described. As shown in FIG. 4, a ridge as a fishing line support protrusion that forms an inner space surrounded by the inner peripheral wall of the large-diameter frame as a thread guide path X and projects in a tapered manner from the inner peripheral wall surface a toward the inner space. S is formed integrally with the large-diameter housing.
As shown in FIG. 5 (a), the shape of the cross section of the protrusion S when cut along a vertical cross section including the axis Y of the large-diameter frame will be described. The cross section of the ridge S is formed in a substantially triangular shape, and the angle θ3 formed by the reference line b perpendicular to the base of the triangular cross section and the base side inclined surface c is set to the reference line b and The inclination angle of the heel-side inclined surface c is set to be gentler than the inclination angle of the heel-side inclined surface d by making it larger than the angle θ4 formed with the butt-side inclined surface d.
In the cross-sectional shape of the protrusion S in the fifth embodiment, the inclination of the tip side inclined surface c and the heel side inclined surface d is opposite to that in the first embodiment.

上記のような構成によって、竿先側から竿尻側への水の流れ易さを確保するとともに、竿尻側からの大径竿体内への水侵入を抑制できて、大径竿体内への水の滞留を抑えることができる。 With the configuration as described above, it is possible to ensure the ease of water flow from the heel side to the buttock side, and to suppress the water intrusion from the buttock side to the large diameter box. Water retention can be suppressed.

〔第6実施形態〕
第5実施形態の場合と異なっている点について説明する。図5(ロ)に示すように、第5実施形態では竿尻側面dを傾斜面としたが、ここでは、三角形状断面の竿尻側面dを前記基準線bに沿った垂直面に形成してある。前記した垂直面が、請求項5に記載する、前記竿体の軸線Yに直交する径方向断面に平行な垂直面に該当する。
この第6実施形態における突条Sの断面形状は、第2実施形態の場合と、竿先側面cと竿尻側面dとの傾斜度が逆の関係になっている。
[Sixth Embodiment]
Differences from the fifth embodiment will be described. As shown in FIG. 5 (b), the buttock side surface d is an inclined surface in the fifth embodiment, but here, the buttock side surface d having a triangular cross section is formed on a vertical surface along the reference line b. It is. The vertical surface described above corresponds to a vertical surface parallel to a radial cross section perpendicular to the axis Y of the housing.
The cross-sectional shape of the ridge S in the sixth embodiment has an inverse relationship between the inclination of the heel side surface c and the heel side surface d in the case of the second embodiment.

上記のような構成によって、竿先側から竿尻側への水の流れ易さを確保するとともに、竿尻側からの小径竿体内への水侵入を抑制できて、竿体内への水の滞留を抑えることができる。   With the configuration as described above, it is possible to secure the ease of water flow from the heel side to the buttock side, and to suppress water intrusion from the buttock side into the small-diameter housing, so that the water stays in the housing. Can be suppressed.

〔第7実施形態〕
主として、第6実施形態の場合と異なる点について説明する。図5(ハ)に示すように、前記三角形状断面の頂点からその底辺に垂直におろした基準線bと竿尻側傾斜面dのなす角度θ4を、前記基準線bを越えて竿先側傾斜面cと同様の傾斜方向となるようにしてある。そして、その傾斜角θ4は、竿先側傾斜面cのなす角度θ3より小さくして、竿先側傾斜面cの傾斜度を、竿尻側傾斜面dの傾斜度より緩傾斜に形成してある。
この第7実施形態における突条Sの断面形状は、第3実施形態の場合と、竿先側面cと竿尻側面dとの傾斜度が逆の関係になっている。
[Seventh Embodiment]
Differences from the case of the sixth embodiment will be mainly described. As shown in FIG. 5 (c), the angle θ4 formed by the reference line b perpendicular to the base from the apex of the triangular cross section and the heel-side inclined surface d is beyond the reference line b and the tip side The inclination direction is the same as that of the inclined surface c. And the inclination angle θ4 is made smaller than the angle θ3 formed by the tip side inclined surface c, and the inclination degree of the tip side inclined surface c is formed to be gentler than the inclination degree of the heel side inclined surface d. is there.
In the cross-sectional shape of the protrusion S in the seventh embodiment, the inclination between the tip side c and the heel side d is opposite to that in the third embodiment.

上記のような構成によって、竿先側から竿尻側への水の流れ易さを確保するとともに、竿尻側からの小径竿体内への水侵入を抑制する効果を高くできて、竿体内への水の滞留を抑えることができる。   With the configuration as described above, it is possible to secure the ease of water flow from the heel side to the buttock side, and to increase the effect of suppressing water intrusion from the buttock side into the small-diameter frame, Of water can be suppressed.

〔第8実施形態〕
第7実施形態のものとの違いを説明すると、図5(二)に示すように、竿尻側面cの形状が異なっており、竿先側面cは傾斜面で第7実施形態のものと同様に傾斜面となっている。つまり、竿尻側面dは竿先側傾斜面cに近接する方向に凹入する円弧状面に形成してある。
[Eighth Embodiment]
The difference from the seventh embodiment will be described. As shown in FIG. 5B, the shape of the heel side surface c is different, and the heel side surface c is an inclined surface similar to that of the seventh embodiment. It has an inclined surface. That is, the buttock side surface d is formed as an arcuate surface that is recessed in a direction close to the tip side inclined surface c.

上記のような構成によって、竿先側から竿尻側への水の流れ易さを確保するとともに、竿尻側からの小径竿体内への水侵入を抑制する効果を高くできて、竿体内への水の滞留を抑えることができる。   With the configuration as described above, it is possible to secure the ease of water flow from the heel side to the buttock side, and to increase the effect of suppressing water intrusion from the buttock side into the small-diameter frame, Of water can be suppressed.

〔別実施形態〕
(1) 釣り糸支持突部Sの形態として、次のようなものでもよい。前記実施形態では、釣り糸支持突部Sを螺旋状に形成したが、釣り糸支持突部Sをリング状のものに形成してもよい。図示はしていないが、リング状に形成した釣り糸支持突部Sを竿体の軸線Y方向に沿って所定の間隔で複数個配置する。リング状の釣り糸支持突部Sの断面形状としては、前記した実施形態を採用すればよい。
つまり、一番竿1や二番竿2である小径竿体においては、前記した第1実施形態から第4実施形態で記載した断面形状をリング状の釣り糸支持突部Sの断面として採用する。
三番竿3や元竿4である大径竿体においては、前記した第5実施形態から第8実施形態で記載した断面形状をリング状の釣り糸支持突部Sの断面として採用する。
[Another embodiment]
(1) As a form of the fishing line support protrusion S, the following may be used. In the embodiment, the fishing line support protrusion S is formed in a spiral shape, but the fishing line support protrusion S may be formed in a ring shape. Although not shown, a plurality of fishing line support protrusions S formed in a ring shape are arranged at a predetermined interval along the axis Y direction of the rod. As the cross-sectional shape of the ring-shaped fishing line support protrusion S, the above-described embodiment may be adopted.
That is, in the small-diameter frame that is the first rod 1 or the second rod 2, the cross-sectional shape described in the first to fourth embodiments is employed as the cross-section of the ring-shaped fishing line support protrusion S.
In the large-diameter frame which is the third rod 3 or the main rod 4, the cross-sectional shape described in the fifth to eighth embodiments is adopted as the cross-section of the ring-shaped fishing line support protrusion S.

(2) 前記した実施形態としては、釣り糸支持突部Sの断面形状を、一番竿1及び二番竿2では、竿先側傾斜面cの傾斜度を竿尻側傾斜面dの傾斜度より急傾斜に形成し、三番竿3及び元竿4では、竿先側傾斜面cの傾斜度を竿尻側傾斜面dの傾斜度より緩傾斜に形成している (2) In the above-described embodiment, the cross-sectional shape of the fishing line support protrusion S is the same as that of the first rod 1 and the second rod 2, and the inclination of the tip side inclined surface c is the inclination of the heel side inclined surface d. It is formed with a steeper slope, and in the third saddle 3 and the main fence 4, the inclination of the tip side inclined surface c is formed more gently than the inclination of the heel side inclined surface d .

(3) 糸の挿通抵抗を軽減する構成としては、予め螺旋状に形成した釣り糸支持突部S、又は、リング状に形成した釣り糸支持突部Sを竿体内に挿入後接着して装着するようにしてもよい。ここでの釣り糸支持突部Sの材質としては、耐磨耗性の高い金属等を使用してもよい。 (3) As a configuration for reducing the insertion resistance of the line, the fishing line support protrusion S formed in a spiral shape or the fishing line support protrusion S formed in a ring shape is inserted into the housing and then adhered and attached. It may be. As a material of the fishing line support protrusion S here, a metal having high wear resistance may be used.

中通し竿の全体側面図Overall side view of the punch 一番竿、二番竿の糸案内経路に形成された釣り糸支持突部を示す縦断側面図Longitudinal side view showing the fishing line support protrusion formed in the first and second line guide routes 図2における釣り糸支持突部の拡大図Enlarged view of the fishing line support projection in FIG. 三番竿、元竿の糸案内経路に形成された釣り糸支持突部を示す縦断側面図Longitudinal side view showing fishing line support protrusions formed on the line guide path of No. 3 and Marshal 図4における釣り糸支持突部の拡大図Enlarged view of the fishing line support protrusion in FIG.

1 一番竿
2 二番竿
3 三番竿
4 元竿
a 内周壁面
c 竿先側傾斜面
d 竿尻側傾斜面
S 釣り糸支持突部
X 糸案内経路
DESCRIPTION OF SYMBOLS 1 First rod 2 Second rod 3 Third rod 4 Gentle rod a Inner peripheral wall surface c Tip side inclined surface d Bottom edge side inclined surface S Fishing line support protrusion X Thread guide path

Claims (2)

内周壁で囲む内部空間を糸案内経路として形成するとともに内周壁面から内部空間に向けて先細り状に突出する釣り糸支持突部を形成してある竿体を複数本備えている中通し竿であって、
通し竿における竿先側に位置する小径竿体においては、前記釣り糸支持突部における竿先側傾斜面の傾斜度を、竿尻側傾斜面の傾斜度より急傾斜に形成し、前記中通し竿における竿尻側に位置する大径竿体においては、前記釣り糸支持突部における前記竿先側傾斜面の傾斜度を、前記竿尻側傾斜面の傾斜度より緩傾斜に形成してある中通し竿。
The internal space enclosed by the inner peripheral wall with the rod through While comprises a plurality of the rod body is formed with fishing line support protrusion that protrudes in a tapered shape toward the internal space from the inner wall surface together to form a yarn guide path There,
In the small-diameter rod body located on the rod tip side in the fishing rod, the inclination of the rod tip side inclined surface in the fishing line support projection, formed steeper than the slope of the rod butt side inclined surface, passing in the in a large径竿body located on the rod butt side of the rod, in that said slope of said rod tip side inclined surface in the fishing line supporting protrusion, is formed on the gentle slope than the slope of the rod butt side inclined surface Thread through.
内周壁で囲む内部空間を糸案内経路として形成するとともに内周壁面から内部空間に向けて先細り状に突出する釣り糸支持突部を形成してある竿体を複数本備えている中通し竿であって、
通し竿における竿先側に位置する小径竿体においては、前記釣り糸支持突部における竿先側面を前記小径竿体の軸線に直交する垂直面に、かつ、竿尻側面を傾斜面に形成し、前記中通し竿における竿尻側に位置する大径竿体においては、前記釣り糸支持突部における前記竿先側面を傾斜面に、かつ、前記竿尻側面を前記大径竿体の軸線に直交する垂直面に形成してある中通し竿。
The internal space enclosed by the inner peripheral wall with the rod through While comprises a plurality of the rod body is formed with fishing line support protrusion that protrudes in a tapered shape toward the internal space from the inner wall surface together to form a yarn guide path There,
In the small diameter rod body located on the rod side of the through rod, the rod side surface of the fishing line support protrusion is formed on a vertical plane perpendicular to the axis of the small diameter rod and the rod side surface is formed on an inclined surface. in the large径竿body located on the rod butt side of rod passing in said, the inclined surface the Saosaki side in the fishing line supporting projection, and orthogonal to the Saoshiri side to the axis of said large-diameter rod body A through hole formed on the vertical surface.
JP2004261346A 2004-09-08 2004-09-08 Body for through-holes and through-holes Expired - Fee Related JP4570138B2 (en)

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JPH08131026A (en) * 1994-11-11 1996-05-28 Daiwa Seiko Inc Internally threaded fishing rod
JP2000069884A (en) * 1998-06-19 2000-03-07 Ryobi Ltd Internally threaded fishing rod and its production
JP2000060370A (en) * 1998-08-17 2000-02-29 Ryobi Ltd Internally threaded fishing rod
JP2001008583A (en) * 1999-04-28 2001-01-16 Ryobi Ltd Internally threaded fishing rod and its production
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