JP2023008099A - Lure for fishing - Google Patents

Abstract

To provide a lure for fishing, capable of easily achieving a movement with high reality.SOLUTION: A fishing lure 10 comprises: a body part 11; and a coupling member 40 fitted to the body part 11. A front body 13 of the body part 11 has a notch groove 50 extending rearward from a front end 13D thereof. The coupling member 40 has: an eyelet (line eye) 41 for coupling the line; and a shaft hole 44 which is separated from the eyelet 41, and rotatably supported by the body part 11. The coupling member 40 is configured so that, in the notch groove 50, the shaft hole 44 is supported by a spindle 61.SELECTED DRAWING: Figure 5

Description

The present invention relates to fishing lures used for fishing.

2. Description of the Related Art So-called lure fishing is widely known, in which artificial baits called lures are used to catch target fish. The angler casts the lure, operates the rod, and retrieves the lure while adding a lure action similar to the movement of small fish or insects that are baits. This invites the part-time job of the target fish.

A lure used for lure fishing is provided with a line eye to which a line pulled out from a rod is fixed (see Patent Document 1). A line eye provided on the lure is fixed to the lure body.

JP 2019-216657 A

However, since the conventional lure has the line eye fixed to the lure body, the pulling force due to the rod operation is directly transmitted to the lure through the line. Therefore, advanced rod operation is required to make the lure move with high reality. In particular, when using a large lure called a big bait lure, the water resistance received by the lure body is greater than that of a normal size lure, and the weight is also considered, so it is possible to realize realistic movement of the bait. It's not easy.

SUMMARY OF THE INVENTION An object of the present invention is to provide a fishing lure capable of realizing highly realistic movements.

(1) A fishing lure according to one aspect of the present invention comprises a lure body and a connecting member attached to the lure body. In the fishing lure, the connecting member has an eyelet for connecting a line, and a supported portion separated from the eyelet and rotatably supported by the lure body.

(2) In the fishing lure of the present invention, the lure body has cut grooves formed from the outer surface toward the inside. The connecting member has an insertion portion that extends from the eyelet toward the supported portion and is inserted through the cut groove. In this case, the connecting member is supported so as to be rotatable about the supported portion in the extending direction of the cut groove while the insertion portion is inserted through the cut groove.

(3) In the fishing lure of the present invention, the supported portion includes an axial hole formed in the insertion portion, and the lure body extends across the cut groove in the groove width direction of the cut groove. and has a support shaft inserted through the shaft hole within the cut groove.

(4) In the fishing lure of the present invention, the supported portion includes a plurality of axial holes formed at intervals in the extending direction of the insertion portion. In this case, the connecting member is rotatably supported about the supported portion by inserting the support shaft through any one of the plurality of shaft holes.

(5) In the fishing lure of the present invention, the lure body has a mounting hole that intersects the cut groove and extends in the groove width direction. The support shaft is attached to the attachment hole.

(6) In the fishing lure of the present invention, the lure body has a plurality of mounting holes spaced apart in the depth direction of the cut groove. Also, the support shaft is attached to one of the plurality of attachment holes.

(7) In the fishing lure of the present invention, the cut groove has a deeper groove toward the interior of the lure body.

(8) In the fishing lure of the present invention, the cut groove is formed in the lure body so as to extend from the front end on the forward side in the traveling direction of the fishing lure toward the rear in the traveling direction.

(9) In the fishing lure of the present invention, the connecting member is provided in the front part of the lure main body on the forward side in the traveling direction of the fishing lure.

According to the present invention, it is possible to realize highly realistic motions.

FIG. 1 is a side view showing a fishing lure according to a first embodiment of the invention. FIG. 2 is a top view showing the fishing lure according to the first embodiment of the present invention. FIG. 3 is a diagram showing the internal structure of the front body of the fishing lure according to the first embodiment of the present invention, and is a cross-sectional view taken along section III-III in FIG. FIG. 4 is a cross-sectional view taken along section IV-IV in FIG. FIG. 5 is an enlarged vertical cross-sectional view of the head portion of the fishing lure, showing the first attachment state of the connecting member. FIG. 6 is a cross-sectional view taken along section VI-VI in FIG. 5, and is a diagram for explaining the operation of the connecting member in the first mounting state. FIG. 7 is an enlarged vertical cross-sectional view of the head portion of the fishing lure, showing a second attachment state of the connecting member. FIG. 8 is a cross-sectional view taken along section VIII-VIII in FIG. 7, and is a diagram for explaining the operation of the connecting member in the second mounting state. FIG. 9 is an enlarged vertical cross-sectional view of the head portion of the fishing lure, showing a third attachment state of the connecting member. 10 is a cross-sectional view taken along the line XX in FIG. 9, and is a diagram for explaining the operation of the connecting member in the third mounting state. FIG. 11 is an enlarged vertical cross-sectional view of the head portion of the fishing lure, showing a fourth attachment state of the connecting member. FIG. 12A is an enlarged horizontal cross-sectional view of the head portion of the fishing lure according to the second embodiment of the present invention, showing a fifth mounting state of the connecting member. 12B is an enlarged horizontal cross-sectional view of the head portion of the fishing lure according to the second embodiment of the present invention, showing a sixth mounting state of the connecting member. FIG. FIG. 12C is an enlarged horizontal cross-sectional view of the head portion of the fishing lure according to the second embodiment of the present invention, showing a seventh mounting state of the connecting member. FIG. 13 is an enlarged horizontal cross-sectional view of the head portion of the fishing lure according to the second embodiment of the present invention, showing an eighth attachment state of the connecting member. FIG. 14 is a side view showing the front body of the fishing lure according to the third embodiment of the invention. FIG. 15 is a top view showing the front body of the fishing lure according to the third embodiment of the present invention. FIG. 16 is a diagram for explaining the movement of the fishing lure according to the first embodiment of the present invention. FIG. 17 is an enlarged horizontal cross-sectional view of the head portion of the fishing lure according to the fourth embodiment of the present invention. FIG. 18 is a cross-sectional view of section XVIII-XVIII in FIG. FIG. 19 is a top view showing the front body of the fishing lure according to the fifth embodiment of the present invention. FIG. 20 is a side view showing the front body of the fishing lure according to the fifth embodiment of the present invention;

Hereinafter, each embodiment of the present invention will be described with reference to the drawings as appropriate. It should be noted that each embodiment described below is merely an example that embodies the present invention, and does not limit the technical scope of the present invention.

[First embodiment]
FIG. 1 is a left side view of a fishing lure 10 (an example of the fishing lure of the present invention) according to the first embodiment of the present invention, and FIG. 2 is a top view of the fishing lure 10. FIG. In addition, in FIG. 2, the outline of the outer shape of the fishing lure 10 is indicated by a dashed line.

A fishing lure 10 (hereinafter abbreviated as "lure 10") is a lure for luring a bite of a target fish in lure fishing such as bass fishing and salt lure fishing. The fishing lure 10 is, for example, a large lure called a so-called big bait lure.

In this embodiment, a lure 10 called a big bait lure will be described as an example, but the fishing lure of the present invention is not limited to a big bait lure, and only a large lure such as a big bait lure. However, the present invention can also be applied to smaller lures.

As shown in FIG. 1, the lure 10 is formed in a shape imitating a bait that is preyed on by a target fish. formed. The shape of the lure 10 is not limited to a shape that imitates a baitfish. good.

The lure 10 has a body part 11 (an example of the lure body of the present invention) formed in a shape imitating a body of a fish, and a tail part 12 formed in a shape imitating a caudal fin of a fish. The body portion 11 is made of a hard resin material such as ABS resin. Further, the tail portion 12 is made of a soft resin material such as silicon or elastomer, and has elasticity. Note that the tail portion 12 may be made of a hard resin material.

The tail portion 12 is attached to the rear end portion of the body portion 11 , that is, to the rear end portion 15</b>B of the rear body 15 . The tail portion 12 may be fixed to the body portion 11, or may be detachable from the body portion 11 so as to be replaceable.

The body portion 11 has a three-division structure in which three parts are divided in the front-rear direction D11. It has a rear body 15 arranged on the side. The front body 13 is formed in a shape that imitates about two-thirds of the front side including the head portion 13A (an example of the front portion of the present invention) of the body from the head to the caudal fin of the fish.

In this embodiment, an example in which the body portion 11 has a three-divided structure will be described, but the body portion 11 may have a structure divided into a plurality of parts in the front-rear direction D11. Of course, the present invention is applicable even if the body portion 11 does not have a split structure.

The front body 13 is formed in a shape imitating a front portion including a head portion 13A corresponding to the head of a fish. Also, the central body 14 is formed in a shape that imitates a portion including the abdomen of the body of a fish. The rear body 15 is formed in a shape that imitates the rear part of the body of a fish.

As shown in FIG. 2 , the body portion 11 has a connecting portion 16 that connects the front body 13 and the center body 14 . That is, the front body 13 and the center body 14 are connected by the connecting portion 16 . In this embodiment, the rear end portion 13B of the front body 13 and the front end portion 14A of the center body 14 are connected by the connection portion 16 in the left-right direction D13 (hereinafter referred to as the width direction D13) with respect to the traveling direction D1 (forward direction) of the lure 10. Also called.) is connected so as to be bendable.

The body portion 11 also has a connecting portion 17 that connects the center body 14 and the rear body 15 . That is, the central body 14 and the rear body 15 are connected by the connecting portion 17 . In this embodiment, the rear end portion 14B of the central body 14 and the front end portion 15A of the rear body 15 are connected by the connecting portion 17 so as to be bendable in the horizontal direction D13 (width direction D13) with respect to the traveling direction D1 of the lure 10. It is

The connecting portion 16 has two connecting rings 21 fixed to the rear end portion 13B of the front body 13 and a support shaft 22 provided to the front end portion 14A of the central body 14 . Each connecting ring 21 is arranged at intervals in the vertical direction D12, and each connecting ring 21 protrudes rearward. A proximal end portion of the connecting ring 21 is fixed to the rear end portion 13B. An annular portion is provided at the projecting end of the connecting ring 21 . The support shaft 22 is a shaft member inserted through a vertically extending insertion hole formed in the front end portion 14A. By inserting the support shaft 22 through the annular portion of the connecting ring 21, the center body 14 can rotate relative to the front body 13 in the width direction D13 intersecting the traveling direction D1 of the lure 10. The front body 13 and the center body 14 are connected.

Like the connecting portion 16, the connecting portion 17 has two connecting rings 21 fixed to the rear end portion 14B of the center body 14 and a support shaft 22 provided to the front end portion 15A of the rear body 15. are doing. The connecting portion 17 connects the center body 14 and the rear body 15 so that the rear body 15 can rotate relative to the center body 14 in the width direction D<b>13 of the lure 10 .

As shown in FIG. 1, the body portion 11 is provided with hook eyes 25, 26, and 27. As shown in FIG. A hook eye 25 is fixed to the lower portion of the front body 13 , a hook eye 26 is fixed to the lower portion of the center body, and a hook eye 27 is fixed to the lower portion of the rear body 15 . A hook 29 is connected to the hook eyes 23 , 26 , 27 .

A connecting member 40 (an example of the connecting member of the present invention) is provided on the head portion 13A of the front body 13 . The connecting member 40 is a member that is attached to the head portion 13A that is part of the body portion 11 . In this embodiment, the connecting member 40 is attached to the head portion 13A so as to be rotatable in the width direction D13. The connecting member 40 has an annular line eye 41 (an example of the eyelet of the present invention) to which a line (not shown) pulled out from the rod is connected directly or indirectly via a swivel, snap, or the like.

Hereinafter, the configuration of the connecting member 40 and the mounting structure of the connecting member 40 will be described with reference to FIGS. 3 to 6. FIG. Here, FIG. 3 is a longitudinal sectional view showing the internal structure of the front body 13 of the lure 10. As shown in FIG. FIG. 4 is a cross-sectional view taken along section IV-IV in FIG. FIG. 5 is an enlarged vertical cross-sectional view of the head portion 13A of the lure 10, showing the first mounting state of the connecting member 40. As shown in FIG. FIG. 6 is a diagram showing the operation of the connecting member 40 in the first mounted state. FIG. 6 shows the range of rotational movement of the connecting member 40, and the positions in which the connecting member 40 is turned to the rightmost position and to the leftmost position are indicated by dotted lines. A posture in which the eye 41 is arranged on the front side of the head portion 13A is indicated by a solid line.

As shown in FIG. 3, a cut groove 50 is formed in the head portion 13A. The cut groove 50 is a groove cut toward the rear of the head portion 13A from the front end portion 13D on the most front side of the head portion 13A. Specifically, the cut groove 50 is cut rearward from the front end portion 13D of the head portion 13A along the horizontal plane when the front body 13 is in the upright posture shown in FIG. A groove bottom portion 50A, which is the rear end portion of the cut groove 50, is formed linearly along the width direction D13. Therefore, as shown in FIG. 4, the cut groove 50 extends from one side surface of the head portion 13A to the other side surface. The groove width (size in the vertical direction in FIG. 4) of the cut groove 50 is formed to a size that allows insertion of an insertion portion 43 (see FIG. 3) of the connecting member 40, which will be described later.

Note that the cut groove 50 is not limited to a groove horizontally cut rearward from the front end portion 13D of the head portion 13A. For example, the cut groove 50 may be a groove cut obliquely downward rearward from the front end portion 13D of the head portion 13A, or a groove cut obliquely upward rearward from the front end portion 13D. Further, the cut start position of the cut groove 50 is not limited to the front end portion 13D of the head portion 13A. For example, the cut groove 50 is a groove horizontally cut rearward from the upper surface of the head portion 13A into the inside of the head portion 13A, a groove cut obliquely downward rearward from the upper surface of the head portion 13A, or a groove cut diagonally downward from the upper surface of the head portion 13A. A groove horizontally cut rearward from the lower surface of the head portion 13A into the inside of the head portion 13A, or a groove cut diagonally upward rearward from the lower surface of the head portion 13A may be used.

As shown in FIG. 3, a mount portion 52 for rotatably supporting the connecting member 40 is provided inside the head portion 13A. The mount portion 52 supports the connecting member 40 so as to be rotatable in the extending direction of the cut groove 50 (that is, the width direction D13). The mount portion 52 is formed integrally with the front body 13 .

The mount portion 52 has a lower mount 54 located below the cut groove 50 and an upper mount 55 located above the cut groove 50 . The lower mount 54 and the upper mount 55 are arranged so as to sandwich the cut groove 50 in the vertical direction D11.

The mount portion 52 is formed with a mounting hole 57 extending in the vertical direction D11 (corresponding to the groove width direction) across the cut groove 50 . The mounting hole 57 is a hole for mounting a support shaft 61 that rotatably supports the connecting member 40 .

In this embodiment, the mounting portion 52 is formed with a plurality of mounting holes 57 . Each mounting hole 57 is a hole for mounting the support shaft 61 . The support shaft 61 is attached to one of the plurality of attachment holes 57 . A plurality of mounting holes 57 are drilled vertically upward from the lower surface 54A of the lower mount 54, and their ends reach the front of the upper surface 55A of the upper mount 55. As shown in FIG. That is, each mounting hole 57 does not extend upward through the upper surface 55A of the upper mount 55 .

Each mounting hole 57 is arranged in the center of the width direction D13 in the head portion 13A. In this embodiment, four attachment holes 57 (571 to 574) are formed in the mount portion 52. As shown in FIG. Of the four mounting holes 57, the mounting hole 571 is positioned on the most forward side, the mounting hole 572 is positioned on the rear side, and the mounting hole 573 is positioned on the rear side. A mounting hole 574 is located on the rearmost side. The mounting holes 57 are arranged side by side at equal intervals along the front-rear direction D12.

The support shaft 61 is a shaft member that rotatably supports the connecting member 40, and is provided in the head portion 13A. That is, the head portion 13A has the support shaft 61. As shown in FIG. In the head portion 13A, the support shaft 61 crosses the cut groove 50 and extends in the vertical direction D11 (the groove width direction of the cut groove 50).

The support shaft 61 is inserted into the mounting hole 57 . The support shaft 61 is attached to the mount portion 52 by being inserted into the attachment hole 57 . A male screw is formed at the distal end of the support shaft 61 so that the support shaft 61 does not easily come off in a state where the support shaft 61 is attached to the mounting hole 57 . A female screw is formed in the inner part of the mounting hole 57 . The support shaft 61 is fixed to the mount portion 52 by screwing the support shaft 61 into the mounting hole 57 . The support shaft 61 is not limited to a shaft member having a threaded portion, and may be fixed to the mounting hole 57 and removable from the mounting hole 57. For example, a rivet fitted into the mounting hole 57 may be used. It may be a pin member such as.

As shown in FIG. 6 , the connecting member 40 has an insertion portion 43 extending from the outer peripheral portion of the line eye 41 in the diametrical direction of the line eye 41 . The insertion portion 43 is a portion that is inserted into the cut groove 50, and is a plate-like member that is thinner than the groove width of the cut groove 50 and long in the extending direction.

A shaft hole 44 (an example of the supported portion of the present invention) is formed in the insertion portion 43 . The support shaft 61 is inserted through the shaft hole 44 while the insertion portion 43 is inserted through the cut groove 50 . With the support shaft 61 inserted through the shaft hole 44 , the connecting member 40 is supported so as to be rotatable about the support shaft 61 in the width direction D<b>13 (extending direction of the cut groove 50 ).

In this embodiment, a plurality of shaft holes 44 are formed in the insertion portion 43 . Each shaft hole 44 is a hole through which the support shaft 61 is passed. The support shaft 61 is inserted through any one of the plurality of shaft holes 44 . The plurality of shaft holes 44 are through holes that vertically pass through the insertion portion 43 , and have an outer diameter that allows the support shaft 61 to be inserted therethrough.

Each shaft hole 44 is arranged in the insertion portion 43 toward the distal end portion in the extending direction of the insertion portion 43 . In this embodiment, four shaft holes 44 (441 to 444) are formed in the insertion portion 43. As shown in FIG. Among the four shaft holes 44, the shaft hole 441 is positioned on the most front side, the shaft hole 442 is positioned on the rear side thereof, and the shaft hole 443 is positioned on the rear side, A shaft hole 444 is located on the rearmost side. The shaft holes 44 are arranged side by side at equal intervals from the distal end portion of the insertion portion 43 toward the line eye 41 side (base end portion side).

As shown in FIG. 3, a vertical groove 65 extending in the front-rear direction D11 is formed in the lower portion of the head portion 13A. The longitudinal groove 65 extends rearward from the front end portion 13D of the head portion 13A on the lower surface 13C and reaches the lower surface 13C at a position forward of the hook eye 25. As shown in FIG.

As shown in FIG. 4, the vertical groove 65 is formed in the center of the width direction D13 on the lower surface 13C of the head portion 13A. The front side opening of the vertical groove 65 is exposed to the outside at the front end portion 13D of the head portion 13A.

As shown in FIG. 3, the lower surface 54A of the mount portion 52 constitutes part of the bottom surface 66 of the longitudinal groove 65. As shown in FIG. The lower surface 54A is a flat surface parallel to the horizontal direction. The bottom surface 66 of the vertical groove 65 includes an inclined surface 66A extending from the front end 13D to the front end of the lower surface 54A, the lower surface 54A, and an inclined surface 66B extending from the rear end of the lower surface 54A to the lower surface 13C. 66 A of inclined surfaces are surfaces which incline from the front-end part 13D to the back diagonally downward direction. In addition, the inclined surface 66B is a surface that is inclined rearward and obliquely downward from the rear end of the lower surface 54A.

In this embodiment, the support shaft 61 is attached to one of four attachment holes 57 formed in the mount portion 52 . In addition, in a state in which the insertion portion 43 of the connecting member 40 is inserted through the cut groove 50 , the support shaft 61 is inserted through one of the shaft holes 44 of the connecting member 40 and supported. As a result, the connecting member 40 is rotatably supported around the support shaft 61 .

5 and 6 show the first mounting state of the connecting member 40. FIG. Here, in the first mounting state, the support shaft 61 is attached to the mounting hole 574 located on the rearmost side of the mount portion 52 , and the shaft hole 444 located on the rearmost side of the insertion portion 43 is attached to the support shaft 61 . is rotatably supported by

As shown in FIG. 6, the connecting member 40 can rotate about the support shaft 61 within the range of angle θ. The angle θ indicates the range (angle range) in which the connecting member 40 can rotate. The angle θ is a rotation angle from one end of the width direction D13 of the groove bottom 50A until the connecting member 40 comes into contact with the other end. In other words, the rotation range of the connecting member 40 is restricted by both ends of the groove bottom 50A in the width direction D13. That is, the rotation of the connecting member 40 is restricted by the contact of the connecting member 40 with both ends of the groove bottom 50A in the width direction D13. Also, the angle θ is determined by the mounting position of the support shaft 61 , the position of the shaft hole 44 through which the support shaft 61 is inserted, and the groove depth of the cut groove 50 . Here, the groove depth is the length from the front end portion 13D of the head portion 13A to the groove bottom portion 50A. In this embodiment, the angle θ1 when the connecting member 40 is in the first mounted state is about 270°.

Even when the connecting member 40 is in the first mounted state, if the groove depth of the cut groove 50 is shorter than the length shown in FIG. Become.

Since the connecting member 40 is configured to be rotatable in this way, the angler operates the rod during lure fishing to apply an action to pull the lure 10 in the traveling direction D1, or retrieve it so as to draw it. In this case, the pulling force at that time is transmitted to the line eye 41 through the line L1, and the connecting member 40 rotates in the pulled direction (see FIG. 16(A)).

In the case of a conventional lure in which a line eye is fixed to the tip of the lure body, the direction of the head portion 13A changes immediately, so that the conventional lure moves in the pulling direction of the line in response to the rod operation. However, in the lure 10 of this embodiment, as shown in FIG. 16(A), the connecting member 40 rotates toward the side surface (the right side surface in the example of FIG. 16(A)) of the head portion 13A of the lure 10. . When the lure 10 is retrieved in this state, the head side surface of the head portion 13A receives water resistance (see arrow R1 in FIG. 16A). Here, the head side surface is a region extending from the connecting member 40 rotated and displaced toward the side surface of the head portion 13A to the front end portion 13D (see FIG. 6). For this reason, the lure 10 does not immediately change its direction in the pulling direction of the line L1, but receives the resistance of the water on the side surface of the head, so that the lure 10 maintains the traveling direction D1 before the rotation of the connecting member 40. Go straight in the traveling direction D1 (see FIG. 16(B)). When a lure with a lip such as a crankbait or a sinking minnow is retrieved, the lure with the lip does not move in the pulling direction of the line due to the water resistance received by the lip (webbed), but instead moves diagonally downward. It is the same principle as the operation to do.

After that, as the lure 10 moves straight in the traveling direction D1, the angle φ (hereinafter referred to as the line angle φ) formed by the line L1 and the traveling direction D1 increases, and the component of the pulling force of the line L1 (more specifically, component force perpendicular to the traveling direction D1) also gradually increases. Then, when the balance between the force component and the resistance received by the side surface of the head (see arrow R1) is reversed, the head portion 13A of the lure 10 changes direction in the pulling direction of the line L1, and the central body 14 and the rear body 15 are also pulled. It gradually changes its direction in the same direction and advances in that direction (see FIG. 16(C)). At this time, as the orientation of the head portion 13A is changed, the connecting member 40 rotates to the opposite side surface (for example, the left side surface) of the head portion 13A. Then, the lure 10 advances in the opposite direction this time by receiving water resistance on the opposite side surface. After that, after moving forward for a while, the lure 10 moves in the same manner as described above and changes direction in the pulling direction of the line L1. By repeating this action, the lure 10 repeats the action of advancing rightward and leftward.

In this manner, when an action of drawing in the lateral direction with respect to the traveling direction D1 is performed, the connecting member 40 rotates to the side surface side, so that the side surface of the head functions like the lip. As a result, the lure 10 does not immediately change its direction in the direction in which it was pulled, but instead proceeds in the direction in which the lure 10 was traveling before the action, and after traveling for a while, changes its direction in the direction in which the line L1 is pulled. do. As a result, the lure 10 does not move unnaturally in response to the operation of the rod, but moves realistically similar to the movement of an actual bait.

Further, in this embodiment, since the mounting portion 52 is formed with the plurality of mounting holes 57 , the mounting positions of the support shaft 61 with respect to the plurality of mounting holes 57 can be arbitrarily changed. Here, FIGS. 7 and 8 show the second mounting state of the connecting member 40. As shown in FIG. In the second mounting state, the support shaft 61 is attached to the attachment hole 571 located on the most forward side of the mount portion 52 , and the shaft hole 444 located on the most rearward side of the insertion portion 43 is rotated by the support shaft 61 . It is possible to be supported.

As shown in FIG. 8, in the second mounted state, the angle θ at which the connecting member 40 can be rotated is within an angle θ2 that is wider than the angle θ1 in the first mounted state. be able to. In other words, the angle θ2 in the second wearing state is larger than the angle θ1. Thus, according to this embodiment, the position of the center of rotation of the connecting member 40 can be changed by changing the mounting position of the support shaft 61 . As a result, the angle θ, which is the rotation range of the connecting member 40, can be changed. Further, by changing the mounting position of the support shaft 61, the distance from the front end portion 13D of the head portion 13A to the line eye 41, that is, the position of the line eye 41 can be changed. A change in the position of the line eye 41 causes a change in the movement of the lure 10 and a change in the feeling of operation of the rod. In other words, the angler can adjust the center of rotation and the range of rotation of the connecting member 40 so that the movement of the lure 10 and the feeling of operation of the rod suit his/her preference, and the angle of the line eye 41 can be adjusted. Position can be adjusted.

Further, in the present embodiment, since a plurality of shaft holes 44 are formed in the insertion portion 43 of the connecting member 40, the supporting positions of the support shaft 61 with respect to the plurality of shaft holes 44 can be arbitrarily changed. Here, FIGS. 9 and 10 show the third mounting state of the connecting member 40. As shown in FIG. In the third mounting state, the support shaft 61 is attached to the attachment hole 572 positioned second from the front of the mount portion 52 , and the shaft hole 442 positioned second from the front of the insertion portion 43 is moved by the support shaft 61 . It is in a state of being rotatably supported.

By changing the mounting position of the support shaft 61 with respect to the plurality of mounting holes 57 as in the third mounting state shown in FIG. 10, the position and rotation center of the line eye 41 can be adjusted. By changing the support position of the plurality of shaft holes 44 by the shaft 61, the turning radius of the connecting member 40 can be adjusted. Further, by changing the turning radius of the connecting member 40, the angle θ, which is the turning range of the connecting member 40, can be arbitrarily adjusted. In this embodiment, since a plurality of mounting holes 57 and a plurality of shaft holes 44 are provided, the combination of the mounting hole 57 to which the support shaft 61 is mounted and the shaft hole 44 that is rotatably supported by the support shaft 61 is changed. This allows for a wide range of adjustments. As a result, the angler can adjust the movement of the lure 10 and the feeling of operation of the rod to his liking by adjusting the rotation range and rotation radius of the connecting member 40 and the position of the line eye 41 .

FIG. 10 shows a state in which the connecting member 40 is inserted into the cut groove 50 . , the range of rotation of the connecting member 40 is restricted while the connecting portion is in contact with the side surface of the head portion 13A. In order to prevent the connecting member 40 from entering the cut groove 50, a stopper member may be provided inside the cut groove 50 to contact the connecting member 40 before the connecting member 40 enters the cut groove 50. good. Also, the line eye 41 may be provided on the connecting member 40 so as to be oriented vertically so that the center axis of the inner hole is oriented horizontally.

Further, as shown in FIG. 11, the support shafts 61 can be attached to any two of the plurality of attachment holes 57, and each support shaft 61 can be inserted into the shaft hole 44 of the insertion portion 43. Thus, the connecting member 40 can be locked so that the connecting member 40 cannot rotate. This allows the angler to position the line eye 41 at the front end portion 13D of the head portion 13A as required.

[Second embodiment]
A fishing lure 10A (an example of the fishing lure of the present invention) according to a second embodiment of the present invention will be described below. The fishing lure 10A (hereinafter abbreviated as the lure 10A) differs from the lure 10 of the above-described first embodiment in that a deep groove portion 51 is provided in the cut groove 50, and other portions is common to the configuration of the lure 10. Therefore, in the following description, only the different parts will be described, and the description of the common parts will be omitted by attaching the reference numerals used in the above-described first embodiment.

FIG. 12A is a cross-sectional view of the head portion 13A of the lure 10A according to this embodiment. As shown in FIG. 12A, the cut groove 50 has a deep groove portion 51 . Deep groove portion 51 is formed in groove bottom portion 50A of cut groove 50 . A groove bottom portion 50A of the cut groove 50 is formed linearly along a direction (width direction D13) orthogonal to the traveling direction D1 except for the central portion in the width direction D13. The deep groove portion 51 is formed in the center portion of the groove bottom portion 50A in the width direction D13.

The deep groove portion 51 is formed in a recessed shape in which the central portion of the groove bottom portion 50A is recessed rearward. The contour shape of the deep groove portion 51 when viewed from above is a trapezoid that tapers toward the rear. The shape of the deep groove portion 51 is not limited to the above-described trapezoidal shape, and may be, for example, a triangular shape that tapers toward the rear, or a rectangular shape having parallel opposing walls to the rear.

In this embodiment, at least one mounting hole 57 is formed in the mount portion 52 at a position corresponding to the deep groove portion 51 . Specifically, as shown in FIG. 12A , a mounting hole 574 is formed inside the deep groove portion 51 when viewed from above.

Here, FIG. 12A shows the fifth mounting state of the connecting member 40 . In the fifth mounting state, the support shaft 61 is attached to the attachment hole 574 positioned fourth from the front of the mount portion 52 , and the shaft hole 444 positioned fourth from the front of the insertion portion 43 is supported by the support shaft 61 . It is in a state of being rotatably supported.

As shown in FIG. 12A, in the fifth mounting state, the rear end portion 43A of the insertion portion 43 enters the deep groove portion 51, and the inner wall of the deep groove portion 51 in the width direction D13 restricts the rotation of the rear end portion 43A. . That is, the rotation range (angle θ) of the connecting member 40 is limited by the inner wall of the deep groove portion 51 . When the connecting member 40 is in the fifth mounted state shown in FIG. 12A, the rotation range of the connecting member 40 about the support shaft 61 is limited to the angle θ3. Here, the angle θ3 is determined by the size of the concave shape of the deep groove portion 51, and is, for example, about 90° in the example shown in FIG. 12A.

Also, FIG. 12B shows the sixth mounting state of the connecting member 40 . In the sixth mounting state, the support shaft 61 is attached to the mounting hole 573 positioned third from the front of the mount portion 52 , and the shaft hole 443 positioned third from the front of the insertion portion 43 is moved by the support shaft 61 . It is in a state of being rotatably supported.

As shown in FIG. 12B, in the sixth mounted state, the pivot point of the support shaft 61 is displaced forward compared to the fifth mounted state. Therefore, the rotation range of the rear end portion 43A is further restricted by the inner wall of the deep groove portion 51 in the width direction D13. In the sixth mounting state shown in FIG. 12B, the rotation range of the connecting member 40 is limited within the angle θ4 smaller than the angle θ3. In the example shown in FIG. 12B, the angle θ4 is, for example, approximately 40°.

Also, FIG. 12C shows the seventh mounting state of the connecting member 40 . In the seventh mounting state, the support shaft 61 is attached to the attachment hole 571 located at the frontmost position of the mount portion 52, and the shaft hole 441 located at the frontmost position of the insertion portion 43 is rotatable by the support shaft 61. It is in a supported state.

As shown in FIG. 12C, in the seventh mounted state, the pivot point of the support shaft 61 is displaced further forward than in the sixth mounted state. Therefore, the rotation range of the rear end portion 43A is further restricted by the inner wall of the deep groove portion 51 in the width direction D13. In the seventh mounting state shown in FIG. 12C, the rotation range of the connecting member 40 is limited within the angle θ5 smaller than the angle θ4. In the example shown in FIG. 12C, the angle θ5 is, for example, approximately 10°.

Further, FIG. 13 shows an eighth mounting state of the connecting member 40. As shown in FIG. In the eighth mounting state, the support shaft 61 is attached to the attachment hole 571 positioned most forward of the mount portion 52 , and the shaft hole 444 positioned most rearward of the insertion portion 43 is rotatable by the support shaft 61 . It is in a supported state.

As shown in FIG. 13, in the eighth mounting state, the rear end 43A of the insertion portion 43 does not enter the deep groove portion 51 and is positioned forwardly away from the deep groove portion 51. As shown in FIG. Therefore, unlike the fifth to seventh mounting states, the inner wall of the deep groove portion 51 in the width direction D13 does not restrict the rotation of the rear end portion 43A. In this case, the connecting member 40 contacts both ends of the groove bottom 50A in the width direction D13, and the rotation range of the connecting member 40 is restricted. In the eighth mounting state shown in FIG. 13, the rotation range of the connecting member 40 is limited to an angle θ6 larger than the angle θ3. In the example shown in FIG. 13, the angle θ6 is approximately 240°, for example.

Thus, according to the lure 10A of the present embodiment, the deep groove portion 51 is provided in the groove bottom portion 50A of the cut groove 50, so that the rotation range (angle θ) of the connecting member 40 is set to the angle θ3 to A wide range of adjustment is possible within the range of the angle θ6.

[Third embodiment]
A fishing lure 10B (an example of the fishing lure of the present invention) according to a third embodiment of the present invention will be described below. The fishing lure 10B (hereinafter abbreviated as the lure 10B) differs from the lure 10 of the above-described first embodiment in that a connecting member 40A having a different configuration is provided instead of the connecting member 40. , the cut groove 50 is not provided, and the mounting portion 52 is not provided. Therefore, in the following description, only the different parts will be described, and the description of the common parts will be omitted by attaching the reference numerals used in the above-described first embodiment.

FIG. 14 is a top view of the head portion 13A of the lure 10B according to this embodiment, and FIG. 15 is a side view of the head portion 13A of the lure 10B. As shown in FIGS. 14 and 15, a connecting member 40A is attached to the head portion 13A so as to be movable in the width direction D13. The connecting member 40A includes a line eye 41 for connecting lines, and an arm portion 47 (an example of the supported portion of the present invention) made of a metal wire separated from the line eye 41 and rotatably supported by the head portion 13A. ) and The arm portion 47 has its front end joined to the line eye 41, and an upper arm 47A extending from the joint portion with the line eye 41 toward the upper portion of the head portion 13A and an upper arm 47A extending from the joint portion of the line eye 41 and a lower arm 47B extending toward the lower portion of the head portion 13A.

Each of the upper arm 47A and the lower arm 47B is provided with a hook-shaped support shaft 48 that is inserted into a shaft hole 49 (see FIG. 15) formed in the head portion 13A. A support shaft 48 is a supported portion separated from the line eye 41 and rotatably supported by the head portion 13A. Axial holes 49 are formed in the upper portion of the head portion 13A and the lower portion of the head portion 13A, and are bored downward from the upper surface and upward from the lower surface. By inserting each support shaft 48 into each shaft hole 49, the connecting member 40A is supported so as to be rotatable about the support shaft 48 in the width direction D13.

Even with the lure 10B including the connecting member 40A configured in this way, it is possible to achieve the same effects as those of the above-described embodiments. That is, when the action of drawing the lure 10B in the lateral direction with respect to the advancing direction D1 is performed, the side surface of the head functions like the lip by rotating the connecting member 40A to the side surface side. As a result, the lure 10B does not immediately change its direction in the direction in which it was pulled, but instead proceeds in the direction in which the lure 10 was traveling before the action, and after progressing for a while, changes its direction in the direction in which the line L1 is pulled. do. As a result, the lure 10B does not move unnaturally in response to the operation of the rod, but moves realistically similar to the movement of an actual bait.

In the first and second embodiments described above, the configuration in which a plurality of shaft holes 44 are formed in the insertion portion 43 and a plurality of mounting holes 57 are formed in the mount portion 52 has been exemplified. configuration. The present invention can also be applied to a configuration in which at least one shaft hole 44 is formed in the insertion portion 43 and at least one attachment hole 57 in the mount portion 52 is formed. In addition, the present invention is configured such that one shaft hole 44 is formed in the insertion portion 43 and a plurality of mounting holes 57 are formed in the mount portion 52, or a plurality of shaft holes 44 are formed in the insertion portion 43, A configuration in which one mounting hole 57 is formed in the mount portion 52 is also applicable.

[Fourth embodiment]
Moreover, in the above-described first and second embodiments, the configuration in which the connecting member 40 rotates in the width direction D13 with respect to the lures 10 and 10A was illustrated, but the present invention is not limited to such a configuration. For example, as shown in FIGS. 17 and 18, the cut groove 50 may be cut rearward along the vertical plane from the front end portion 13D of the head portion 13A when the front body 13 is in the standing posture. In this case, as shown in FIG. 17, a mount portion 52 is provided so that the support shaft 61 can be inserted from the side surface of the head portion 13A.

With this configuration, the connecting member 40 rotates about the support shaft 61 in the vertical direction D12. In this case, when the lure 10 is retrieved so as to be drawn toward the angler, when the connecting member 40 rotates toward the upper surface side or the lower surface side of the head portion 13A, the upper surface or the lower surface of the head portion 13A becomes like the lip. Function. In this case, the lure 10 does not immediately change its direction in the pulled direction, but proceeds in the direction in which the head portion 13A of the lure 10 is facing, and after a while changes its direction in the direction in which the line L1 is pulled. . For example, when the connecting member 40 rotates toward the upper surface of the head portion 13A and receives water resistance from the upper surface, the lure 10 advances in the sinking direction, and after sinking for a while, pulls the line in the pulling direction (diagonally). upwards). At this time, as the orientation of the head portion 13A is changed, the connecting member 40 rotates toward the lower surface of the head portion 13A. Then, by receiving water resistance on the lower surface, this time the lure 10 advances further upward than in the pulling direction. After that, after moving forward for a while, it changes its direction to the pulling direction of the line (diagonally upward). By repeating this action, the lure 10 repeats diving and rising. As a result, the lure 10 does not move unnaturally in response to the operation of the rod, but moves realistically similar to the movement of an actual bait.

[Fifth embodiment]
Further, in the above-described third embodiment, the configuration in which the connecting member 40A rotates in the width direction D13 with respect to the lure 10B was illustrated, but the present invention is not limited to such a configuration. For example, as shown in FIGS. 19 and 20, the connecting member 40 may be attached to the head portion 13A so as to be rotatable in the vertical direction D12.

Further, in each of the above-described embodiments, the configuration in which the connecting members 40 and 40A are attached to the head portion 13A of the front body 13 has been exemplified, but the present invention is not limited to such a configuration. For example, the present invention can also be applied to a configuration in which the connecting members 40 and 40A are attached to the central body 14 or the rear body 15.

10, 10A, 10B: fishing lure 11: body portion 12: tail portion 13: front body 13A: head portion 13B: rear end portion 13C: lower surface 13D: front end portion 14: center body 15: rear bodies 16, 17: connection Portions 40, 40A: Connecting member 41: Line eye 43: Insertion portion 43A: Rear end portion 44: Shaft hole 47: Arm portion 47A: Upper arm 47B: Lower arm 48: Support shaft 49: Shaft hole 50: Cut groove 50A: Groove bottom 51 : Deep groove 52 : Mounting portion 57 : Mounting hole 61 : Support shaft 65 : Vertical groove

Claims (9)

the lure body,
and a connecting member attached to the lure body,
The connecting member is
an eyelet for joining lines;
a supported portion that is separated from the eyelet and rotatably supported by the lure body. The lure body is
Having cut grooves formed from the outer surface toward the inside,
The connecting member is
an insertion portion extending from the eyelet toward the supported portion and inserted through the cut groove;
2. The fishing lure according to claim 1, wherein said connecting member is supported so as to be rotatable about said supported portion in an extending direction of said cut groove while said insertion portion is inserted through said cut groove. . The supported portion includes a shaft hole formed in the insertion portion,
3. The fishing lure according to claim 2, wherein said lure body has a support shaft extending in the groove width direction of said cut groove so as to intersect said cut groove and inserted through said shaft hole within said cut groove. The supported portion includes a plurality of axial holes formed at intervals in the extending direction of the insertion portion,
4. The fishing lure according to claim 3, wherein said connecting member is rotatably supported about said supported portion by inserting said support shaft through any one of said plurality of shaft holes. . The lure body has a mounting hole that intersects the cut groove and extends in the groove width direction,
5. The fishing lure according to claim 3, wherein said support shaft is attached to said attachment hole. The lure body has a plurality of mounting holes formed at intervals in the depth direction of the cut groove,
The fishing lure according to claim 5, wherein said support shaft is attached to any one of said plurality of attachment holes. 7. The fishing lure according to any one of claims 2 to 6, wherein said cut groove has a deeper groove toward the interior of said lure body. The fishing according to any one of claims 2 to 7, wherein the cut groove is formed in the lure body from a front end portion on the front side in the direction of travel of the fishing lure toward the rear in the direction of travel. Lure for. The fishing lure according to any one of claims 1 to 8, wherein the connecting member is provided at a front portion of the lure main body on the front side in the traveling direction of the fishing lure.

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