JP2004129533A - Landing net handle - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a landing net handle whose length can be adjusted in response to the environment of a fishing place. <P>SOLUTION: The landing net handle 10 comprises a butt section 16, the first section 14, the intermediate sections 14, 15, and a penetrated hole 11 disposed in the butt section 16 and having a shape enabling the easy insertion of the finger of an angler thereinto. The tips of the intermediate sections 14, 15 correspond to the position of the penetrated hole 11. The second section 14 among the intermediate sections 14, 15 is formed to be longer than the third intermediate section 15. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a handle member to which a duck net for scooping fish is attached, that is, a structure of a duck handle.
[0002]
Problems to be solved by the prior art and the invention
For example, in surf fishing or the like, a scooping tool for landing is used to capture fish caught (for example, see Non-Patent Document 1). This landing scooping tool has a duck net and a duck pattern, and the duck net is attached to the tip of the duck pattern.
FIG. 7 is a perspective view of a conventional common duck handle 1. This duck handle 1 is of a so-called swing-out type, and includes a plurality of tubular members 2 to 5. These tubular members 2 to 5 are referred to as a first node, a second node, a third node, and a fourth node, respectively.
[0003]
The fourth node 5 (in general, the cylindrical member having the largest diameter) is particularly called an original node. In addition, the second node 3 and the third node 4 (in general, cylindrical members excluding the first node and the original node) are particularly collectively referred to as intermediate nodes.
In the case where a plurality of intermediate nodes are provided, as in the case of a duck handle 1 shown in the figure, the second node 3 is referred to as a first intermediate component node and the third node, in order from the one with the smaller outer diameter. 4 is referred to as a second intermediate configuration section.
[0004]
The first node 2 is accommodated inside the second node 3, the second node 3 is accommodated inside the third node 4, the third node 4 is accommodated inside the original node 5, The third section 4 is freely drawn from the original section 5.
When the angler uses the landing scooping tool, he swings out each of the above-mentioned nodes 2 to 4 to extend the duck handle 1, and scoops the fish with the duck net.
In such a swing-type duck handle 1, the first knot 2 is held by the second knot 3 with a constant holding force in a state in which the knots 2 to 4 are completely swung from the original knot 5. , The second node 3 and the third node 4 are held by the third node 4 and the fourth node 5 with a constant holding force, respectively. That is, the duck handle 1 is normally used stably in the fully extended state.
[0005]
By the way, the environment of the fishing place is various, for example, when the angler's standing position is close to the water surface, etc., when the duck pattern 1 is fully extended, the duck pattern 1 is too long to use. It may be.
Conventionally, in such an environment of a fishing place, the angler has responded to the environment by, for example, extending the duck handle 1 by half. However, in this case, since each of the nodes 2 to 4 is not held and the length of the ash pattern 1 is not stable, the ash pattern 1 is difficult to use in the end.
[0006]
Therefore, an object of the present invention is to provide a duck handle whose length can be adjusted according to the environment of a fishing place.
[0007]
[Non-patent document 1]
Shimano Corporation 2002 Fishing Tackle Catalog (pages 61-62)
[0008]
[Means for Solving the Problems]
(1) In order to achieve the above-mentioned object, the handle of the duck according to the present application is composed of a main knot held by a fisherman, a plurality of knots incorporated inside the main knot in a swingable manner, and a predetermined position on an outer peripheral surface of the base knot. And a through-hole formed in a shape into which the angler's finger can be inserted.
[0009]
According to this configuration, the angler can swing out each node accommodated in the original clause from the original clause by gripping and operating the former clause. As a result, each section is normally pulled out of the original section and fully extended, and is set to the rated length.
Here, since the through-hole is provided in the main knot, the angler can insert a finger into the through-hole and press a desired knot arranged inside the main knot. When the node is pressed, the node cannot be extended from the original node. However, the node on the distal end side of the pressed node is fully extended.
Therefore, the angler can adjust the extension length of the duck handle. In addition, since the knot is held down by the angler's finger, the knot extended from the base knot when the duck handle is used does not rotate with respect to the base knot and is stable.
[0010]
(2) The plurality of nodes have at least a first node formed with the smallest diameter to which the duck net is attached, and an intermediate node in which the first node is retractably housed. It is desirable that the intermediate node is housed in the original node and the tip is set to a predetermined length so that the tip is located at the position where the through hole is provided.
In this configuration, the angler can insert a finger into the through hole to press the intermediate node, whereby only the node housed inside the pressed intermediate node is completely pulled out of the original node. At this time, since the tip of the intermediate node is located at the position of the through-hole, the angler can simply and surely press the intermediate node simply by inserting a finger into the through-hole.
[0011]
(3) It is preferable that the intermediate node is composed of a plurality of intermediate structural nodes, and the narrow intermediate structural node is formed longer than the large-diameter intermediate structural node.
In this configuration, the smaller the diameter of the intermediate component is, the longer the intermediate component is formed. Therefore, when the intermediate node is accommodated in the original node, the position of the tip of each intermediate component is shifted. Therefore, when the angler inserts his / her finger into the through hole, the angler can easily confirm which intermediate component is to be pressed. This allows the angler to more easily and reliably adjust the extension length of the duck handle.
[0012]
(4) The base section may include a lock member attached to a peripheral edge of the through-hole and capable of abutting on the intermediate section.
When the lock member is attached to the main joint, the lock member comes into contact with the intermediate joint, and thus the intermediate joint does not swing out of the original joint. This allows the angler to more easily adjust the extension length of the handle of the duck without pressing the middle knot with his finger.
[0013]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, the present invention will be described in detail based on preferred embodiments with reference to the drawings as appropriate.
[0014]
FIG. 1 is a front view of a duck handle 10 according to an embodiment of the present invention.
The duck handle 10 constitutes a handle portion of a landing scooping tool used for fishing. A predetermined duck net is attached to the tip of the duck handle 10. The angler scoops the fish by holding the duck handle 10 and operating the duck net.
The feature of the present embodiment lies in the structure of the duck handle 10, specifically, in that a through hole 11 into which an angler's finger is inserted is provided in the base section 16 of the duck handle 10. is there. Thereby, the angler can freely adjust the extension length of the duck handle 10 according to the environment of the fishing place. Hereinafter, the configuration of the duck handle 10 will be described in detail.
[0015]
The handle 10 of the ash is composed of four cylindrical members 13 to 16. In the present embodiment, the duck handle 10 includes four tubular members 13 to 16, but may be constituted by a larger number of tubular members.
Each of the tubular members 13 to 16 is referred to as a “knot”, and the first knot 13, the second knot 14, and the third knot 13 in order from the one with the smallest outer diameter (in order from the tip side of the duck handle 10). These are referred to as a node 15 and a fourth node 16. Note that, as a general theory, also in the case where the duck handle is provided with a greater number of n cylindrical members, similarly, the first section, the second section,. Called the verse. The cylindrical member having the largest diameter (the fourth node 16 in the present embodiment) is particularly called an original node.
The second node 14 and the third node 15 are collectively referred to as an intermediate node, the second node 14 is also referred to as a first intermediate component node, and the third node 15 is particularly referred to as a second intermediate component node.
Each of the sections 13 to 16 is configured in a known manner. For example, the carbon prepreg is cut into a predetermined shape, and is wound into a cylindrical shape, thereby forming cylindrical contacts 13 to 16.
[0016]
Each of the nodes 13 to 16 is configured as a so-called swing-out type. That is, the first node 13 is housed inside the second node 14 so as to be able to be pulled out. The first node 13 is formed in a tapered shape so that the outer diameter of the rear end portion is larger than the outer diameter of the front end portion. The rear end diameter of the first node 13 is set larger than the front end diameter of the second node 14.
Therefore, when the first node 13 is pulled out from the second node 14, the rear end of the first node 13 engages with the front end of the second node 14, so that both are fixed. I have. Note that the relationship between the second node 14 and the third node 15 and the relationship between the third node 15 and the original node 16 are the same.
[0017]
A cap member 17 is attached to the tip of the first node 13. The cap member 17 is adapted to be fitted inside the distal end portion of the base section 16 when the sections 13 to 15 are accommodated inside the base section 16.
Although not shown, a cylindrical sleeve is fitted inside the distal end of the first knot 13, and a duck net is mounted on the sleeve.
Rings R1 to R3 are attached to the distal ends of the second joints 14 to the original joints 16 in order to improve the rigidity of the corresponding sections and secure the engagement between adjacent joints.
Further, a plug member 12 is provided at the rear end of the main joint 16. The plug member 12 is screwed to the base joint 16 and is detachable from the base joint 16. By removing the plug member 12, the second node 14 and the third node 15 are taken out from the base node 16.
[0018]
FIG. 2 is a longitudinal sectional view of the duck handle 10, and illustrates the internal structure of the duck handle 10. In the same drawing, a state in which the first to third nodes 13 to 15 are accommodated in the original section 16, that is, the duck handle 10 in an accommodated state is illustrated.
As shown in the figure, when the duck handle 10 is in the housed state, the third knot 15 is housed inside the base knot 16, and the rear end of the third knot 15 comes into contact with the end face of the plug member 12. ing. The second node 14 is housed inside the third node 15, and the rear end of the second node 14 is in contact with the end surface of the plug member 12. Further, the first node 13 is housed inside the second node 14, the rear end of the first node 13 abuts on the end face of the plug member 12, and the cap member 17 is fitted into the distal end of the base node 16. ing.
[0019]
FIG. 3 is an enlarged cross-sectional view of a main part of the duck handle 10, and FIG. 4 is an enlarged plan view of the main part of the duck handle 10. These figures show in detail the structure of the portion of the base section 16 where the through hole 11 is provided.
The through hole 11 is formed in the base section 16. The through hole 11 is formed at a distance A from the tip of the base joint 16. However, this distance A can be appropriately set in the range of 10 mm to 500 mm. The original clause 16 is gripped and operated by the angler, and the angler swings out each of the nodes 13 to 15 while gripping the original clause 16. Therefore, by setting the distance A to the above dimension, the angler can easily swing out each of the nodes 13 to 15 from the original node 16.
[0020]
The through hole 11 is formed in a circular long hole as shown in FIG. The through-hole 11 extends along the axial direction of the base joint 16, and the length B of the through-hole 11 can be appropriately set in a range of 10 mm to 50 mm.
Further, the width dimension C of the through hole 11 can be appropriately set in a range of 10 mm to 30 mm.
The function and effect of the provision of the through hole 11 will be described later in detail.
[0021]
The third node 15 is formed shorter than the original node 16. When the duck handle 10 is in the housed state, the tip of the third node 15 is located at a position where the through hole 11 is provided. However, as shown in FIG. 3, the tip of the third node 15 is located closer to the rear of the through hole 11.
The second node 14 is formed longer than the third node. Therefore, when the duck handle 10 is in the housed state, the tip of the second node 14 protrudes from the tip of the third node 15 and is disposed at the position where the through hole 11 is provided. However, as shown in FIG. 3, the tip of the second node 14 is located closer to the front of the through hole 11. That is, the positions of the tip of the second node 14 and the tip of the third node 15 are shifted.
The first node 13 is formed to be longer than the second node 14, and a cap member 17 provided at the tip thereof is fitted into the base node 16.
[0022]
This duck handle 10 is used as follows.
The angler first attaches the net to the tip of the first node 13 and assembles the landing scooping tool. When the angler scoops the fish using the landing scooping tool, the fisherman grasps and operates the original section 16 and swings out the first section 13 to the third section 15 from the original section 16. When each of the nodes 13 to 15 is completely swung out, the duck handle 10 is fully extended, and the duck handle 10 is set to the rated length.
[0023]
The base section 16 is provided with the through hole 11. The angler can insert his / her finger into the through-hole 11 as needed, and hold down the second node 14 or the third node 15 disposed inside the main node 16.
By pressing the second node 14, the second node 14 is not pulled out from the original clause 16, and only the first node 13 is pulled out from the original clause 16. At this time, the first node 13 is completely pulled out with respect to the second node 14 and is held by the second node 14 with a predetermined holding force.
When the third node 15 is pressed, the third node 15 is not pulled out from the original node 16, and only the first node 13 and the second node 14 are extracted from the original node 16. At this time, the first node 13 is completely pulled out with respect to the second node 14 and is held with a predetermined holding force with respect to the second node 14, and the second node 14 is moved to the third node 15. It is completely pulled out and held against the third node 15 with a predetermined holding force.
[0024]
Thus, the angler can adjust the extension length of the duck handle 10. Moreover, since the knots (the second knot 14 or the third knot 15) which are not pulled out from the original knot 16 are held down by the angler's finger, when the duck handle 10 is used, As a result, the first node 13 or the second node 14 does not rotate. Further, the first knot 13 or the second knot 14 drawn from the base knot 16 is held with a predetermined holding force, so that the length of the duck handle 10 is stable.
[0025]
Therefore, in this duck handle 10, the angler can extend only the first knot 13 or only the first knot 13 and the second knot 14 with respect to the original knot 16, so that the fishing ground environment, For example, the extension length of the duck handle 10 can be adjusted according to the height of the standing position or the like. As a result, the angler can shorten the extension length of the duck handle 10 at a fishing place where the standing position is low, and can increase the length of the duck handle 10 at a fishing place where the standing position is high. The handle 10 of the ash can be used comfortably.
[0026]
In particular, in the present embodiment, the axial lengths of the intermediate nodes 14 and 15 are set as described above, and the tips of the intermediate nodes 14 and 15 are arranged at positions where the through holes 11 are provided.
Therefore, the angler can press the intermediate nodes 14 and 15 only by inserting a finger into the through hole 11. As a result, only the nodes (only the first node 13 or only the first node 13 and the second node 14) accommodated in the pressed intermediate nodes 14 and 15 are completely pulled out from the original node 16. .
That is, there is an advantage that the extension length of the duck handle 10 is easily and reliably adjusted.
[0027]
Further, in the present embodiment, the intermediate component having a smaller outer diameter is formed longer. That is, since the second node 14 is formed longer than the third node 15, the tip positions of the two nodes are shifted. Therefore, when the angler inserts his / her finger into the through hole 11, the angler can easily confirm which of the second node 14 and the third node 15 is to be pressed. When the angler presses the second knot 14, the extension length of the duck handle 10 can be shortened. When the angler presses the third knot 15, the extension length of the duck handle 10 is reduced. Can be longer.
As a result, the angler can more easily and reliably adjust the extension length of the duck handle 10 to a desired length.
[0028]
Next, a modified example of the present embodiment will be described.
FIG. 5 is an enlarged cross-sectional view of a main part of a duck handle 10 according to a modification of the present embodiment. FIG. 2 shows a state in which the lock member 20 is fitted into the through hole 11 of the base section 16.
This modified example is different from the above-described embodiment in that the lock member 20 is provided in the base section 16. Other configurations are the same as those of the duck handle 10 according to the above embodiment.
[0029]
FIG. 6 is a perspective view of the lock member 20.
The lock member 20 includes a base 21, a fitting part 22, and a contact piece 23. These are integrally formed of, for example, rubber, resin, metal, or the like.
The base 21 is formed in a thin plate shape, and is formed in a substantially oval shape.
The fitting portion 22 is also formed in a thin plate shape, and is formed in a shape similar to the base portion 21. That is, the fitting portion 22 is formed in a substantially oval shape obtained by reducing the substantially oval shape of the base portion 21, and its thickness dimension corresponds to the thickness dimension of the base section 16.
The contact piece 23 is formed in a block shape as shown in FIG. The contact piece 23 protrudes from the fitting portion 22, and the protrusion dimension h is set to a predetermined dimension as described later.
[0030]
As shown in FIG. 5, the lock member 20 is fitted into the main joint 16 along the radial direction. At this time, the fitting portion 22 is fitted into the through hole 11, and the base 21 is arranged so as to cover the peripheral edge of the through hole 11. Further, in this state, the contact piece 23 protrudes into the base section 16. The protruding dimension h of the contact piece 23 is set such that the distal end does not contact the first node 13 and contacts the distal end surface of the second node 14.
[0031]
In this modified example, the provision of the lock member 20 causes the contact piece 23 of the lock member 20 to contact the second node 14. Thus, the second clause 14 and the third clause 15 are not extracted from the original clause 16, and only the first clause 13 is extracted from the original clause 16. Therefore, the angler can extend the duck handle 10 by pulling out only the first knot 13 from the base knot 16 without pressing the middle knot with a finger.
The projecting dimension h of the contact piece 23 may be set so as not to contact the second node 14 but to contact only the end face of the third node 15. In this case, the third node 15 is not extracted from the original node 16, and only the first node 13 and the second node 14 are extracted from the original node 16. Accordingly, the angler can extend the duck handle 10 by pulling out the first knot 13 and the second knot 15 from the original knot 16 without pressing the middle knot with a finger.
[0032]
Therefore, in this modified example, the extension length of the duck handle 10 is automatically adjusted only by providing the lock member 20 without the angler pressing the intermediate node with a finger. Therefore, the angler can more easily adjust the extension length of the duck handle 10.
[0033]
In the above embodiment and the modified example, the long hole-shaped through-hole 11 is formed in the base section 16, but the shape of the through-hole 11 is not limited to this, and the angler can easily insert a finger. If so, other shapes may be employed.
Further, the lock member 20 has a contact piece 23 formed to lock the intermediate nodes 14 and 15, but the present invention is not limited to this, and the locking members 20 may move the intermediate nodes 14 and 15 with respect to the base node 16. Other structures that can be regulated may be employed.
[0034]
【The invention's effect】
As described above, according to the present invention, the angler can extend only the desired knot with respect to the original knot, so that the elongation of the duck's handle in accordance with the environment of the fishing place, for example, the height of the standing position, etc. The length can be adjusted. This allows the angler to shorten the length of the duck handle at a fishing position with a low standing position and to increase the length of the duck pattern at a fishing position with a high standing position. Can be used comfortably.
[Brief description of the drawings]
FIG. 1 is a front view of a duck handle according to an embodiment of the present invention.
FIG. 2 is a vertical cross-sectional view of a duck handle according to one embodiment of the present invention.
FIG. 3 is an enlarged sectional view of a main part of a handle of an ash according to an embodiment of the present invention.
FIG. 4 is an enlarged plan view of a main part of a handle of an ash according to an embodiment of the present invention.
FIG. 5 is an enlarged cross-sectional view of a main part of a handle of a duck according to a modification of one embodiment of the present invention.
FIG. 6 is a perspective view of a lock member according to a modification of the embodiment of the present invention.
FIG. 7 is a perspective view of a conventional general duck handle.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 10 ... Duck handle 11 ... Through-hole 13 ... 1st joint 14 ... 2nd joint 15 ... 3rd joint 16 ... Original joint 20 ... Lock member 21 ··· Base 22 ··· Fitting part 23 ··· Contact piece

Claims (4)

The original clause held by the angler,
Multiple clauses incorporated in the swing expression inside the original clause,
A duck handle provided at a predetermined position on the outer peripheral surface of the main joint and having a through hole formed into a shape into which a fisher's finger can be inserted; The multiple sections above
At least, the first knot formed with the smallest diameter to which the net is attached and an intermediate knot in which the first knot is housed so as to be freely drawn out,
The handle of claim 1, wherein the intermediate node is set to a predetermined length such that a tip of the intermediate node is located at a position where the through hole is provided in a state where the intermediate node is housed in the original node. . The handle of claim 2, wherein the intermediate node is composed of a plurality of intermediate nodes, and the narrow intermediate node is longer than the large-diameter intermediate node. The above clause is
The handle according to claim 2 or 3, further comprising a lock member attached to a peripheral portion of the through hole and capable of contacting the intermediate node.

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