CN112655673B - Bait for artificial bait - Google Patents

Abstract

The invention provides a simulated bait. The lure (2) has: a main body (4) having a structure in which a first half body part (4 a) and a second half body part (4 b) are bonded from the left-right direction and having a cavity (22) therein; a swinging part (6) which is provided with a hole (28) penetrating in the left-right direction, is movably arranged on the main body (4) in the cavity (22), and emits light; and a rod (10) which penetrates the hole (28) and limits the movable range of the swinging part (6). The main body (4) is configured to be capable of visually checking light from the swing part (6) from outside. The swinging part (6) can still act after the artificial bait (2) is changed from the active state to the stop state. The lever (10) has a cantilever structure extending from the first half body portion (4 a). The end of the lever (10) is located outside the movable range of the swing part (6). Accordingly, the lure of the present invention has excellent assemblability and attracts fish-eating fishes after stopping the action.

Description

Bait for artificial bait

Technical Field

The present invention relates to a lure (lure) for fishing.

Background

Largehead jewfish (micropterus salmoides), seriola quinquefoil, and their young fish, weever, etc. predate small fish. These large fish are called fish-eating fish (fish). As a means for capturing fish-eating fish, a lure fishing method is widely used. In the lure fishing method, a lure suspected of being a bait such as a small fish is used. The lure flies in the air by being thrown (cast) and soon falls into the water. The lure is made to swim in the water by winding the fishing line. The lure is mistaken for a fish-feeding fish, which is a bait, to bite the lure. The fishhook mounted on the lure penetrates into the fish-feeding fish to thereby fish the fish-feeding fish. The frequency with which a fish-eating fish bites on a lure is called the hook up rate.

Various improvements have been made to baits in order to increase the hooking rate. For example, a glossy painting is performed on the lure. In this lure, when the lure is operated, the reflection state of light changes, and the fish-eating fish is attracted. Another lure has a Rattle ball (Rattle ball) in the space within the lure body. When the lure acts, the ball rolls to make a sound, attracting the fish-feeding fish. A lure is also known which moves while vibrating when pulled. These kinds of baits have been disclosed by the "2017 island wild fishing gear catalogue" issued by the island of the k.a..

[ Prior Art literature ]

[ non-patent literature ]

Non-patent document 1: 2017 island wild fishing gear catalog issued by Kagaku island "

Disclosure of Invention

[ problem to be solved by the invention ]

In the lure fishing method, a fisherman repeats the pulling action of the fishing line and the stopping action after throwing out the lure. When pulling of the lure is stopped, the action of the lure is substantially stopped in a place where water does not substantially flow, such as a still water area, a sea area where ocean currents and ocean waves are small. The fishing rate can be improved as long as the fish-feeding fish can be attracted after the action of the artificial bait is stopped.

In assembling the lure, generally, a first half body portion and a second half body portion having a shape in which the body of the lure is divided left and right are prepared and bonded. The above-described mechanism for attracting fish is important in that the assemblability of the lure is not reduced.

The present invention provides a lure which has excellent assemblability and attracts fish-eating fishes after stopping the action of the lure.

[ solution for solving the problems ]

The invention relates to a lure, which comprises a main body, a swinging part and a rod, wherein the main body comprises a first half main body part and a second half main body part which respectively extend along the front-back direction, the first half main body part and the second half main body part are bonded from the left-right direction, and the main body is provided with a cavity inside; the swing part is provided with a hole penetrating in the left-right direction, is movably arranged on the main body in the cavity and emits light; the rod penetrates the hole for limiting the movable range of the swinging part. The main body is configured to visually confirm light from the swing portion from outside. The swinging part can still act after the artificial bait changes from the active state to the stop state. The lever has a cantilever structure extending from the first half body portion. The end of the lever is located outside the movable range of the swing portion.

The present invention relates to another lure comprising a main body, a swing portion, and a rod, wherein the main body comprises a first half body portion and a second half body portion extending in a front-rear direction, respectively, and has a structure in which the first half body portion and the second half body portion are bonded from a left-right direction, and the main body has a cavity inside; the swing part is provided with a hole penetrating in the left-right direction, is movably arranged on the main body in the cavity and emits light; the lever extends from the first half body portion to the second half body portion through the hole for restricting a movable range of the swing portion. The main body is configured to visually confirm light from the swing portion from outside. The swinging part can still act after the artificial bait changes from the active state to the stop state. The joint of the rod and the second half body part is located outside the movable range of the swinging part.

Preferably, the joint has a concave-convex shape between the end of the rod and the surface of the second half body, and the concave-convex shape of the rod is engaged with the concave-convex shape of the second half body.

Preferably, the joint between the lever and the first half body portion is located outside the movable range of the swing portion.

Preferably, the rocking part is any one of a reflector, a fluorescent body, a phosphor, and a transmissive body that receives light from the outside and emits the light.

The rocking part may be a light emitting body which emits light itself.

[ Effect of the invention ]

The invention relates to a lure, which comprises: a swing part movably installed in the cavity of the main body and emitting light; and a rod which appropriately limits the movable range of the rocking section in the cavity. The swing part still acts for a period of time after the artificial bait changes from the active state to the stop state. The visible mode of the light from the swinging part is changed after the artificial bait is in a stop state. With this lure, the fish-feeding fish can be attracted after the action of the lure is stopped. The lever has a cantilever structure extending from a first half of the body. The rod does not interfere with the assemblability when the first half body portion and the second half body portion are attached. The lure is easy to assemble. Good assemblability can be achieved by the lure.

Drawings

Fig. 1 is a side view showing a lure according to an embodiment of the present invention.

FIG. 2 is a cross-sectional view of the lure of FIG. 1 along line II-II.

Fig. 3 is a cross-sectional view of the lure of fig. 2 along line III-III.

Fig. 4 is a sectional view showing a state in which a swing portion in the lure of fig. 2 operates.

Fig. 5 (a) is a cross-sectional view showing a lure according to another embodiment of the present invention, and fig. 5 (B) is a cross-sectional view showing a state in which a swing portion in the lure of fig. 5 (a) operates.

Fig. 6 is a cross-sectional view showing a lure according to another embodiment of the present invention.

Fig. 7 (a) is a cross-sectional view showing a lure according to another embodiment of the present invention, and fig. 7 (B) is a cross-sectional view showing a state in which a swing portion in the lure of fig. 7 (a) operates.

Fig. 8 is a cross-sectional view showing a part of a lure according to still other embodiment of the present invention.

[ description of reference numerals ]

2. 40, 52, 70, 82: a simulated bait; 4. 42, 56: a main body; 4a, 42a, 56a, 72a: a first half body portion; 4b, 42b, 56b, 72b, 88: a second half body portion; 6. 44, 62, 78: a swinging part; 8: an elastic body (spring); 10. 46, 54, 74, 84: a rod; 12: a wire loop; 14: a connecting ring; 16: a fishing hook; 18: a head; 20: tail part; 22. 47: a cavity; 24 hooking parts; 26: a notch; 28. 50, 64, 80: a hole; 30: an end of the rod; 32: a fishing line; 48. 60, 76: a joint; 58. 90: a protrusion; 86: a concave portion; 92: a convex part.

Detailed Description

The present invention will be described in detail below based on preferred embodiments, with reference to the accompanying drawings as appropriate.

Fig. 1 is a side view showing a lure 2 according to an embodiment of the present invention. In fig. 1, the direction indicated by the arrow X is the front of the lure 2, and the opposite direction is the rear of the lure 2. The direction indicated by arrow Z is above lure 2 and the opposite direction is below lure 2. The direction perpendicular to the paper surface is the left-right direction of the lure 2. Fig. 2 is a sectional view taken along line II-II of fig. 1. In fig. 2, the direction indicated by the arrow Y is the right of the lure 2, and the opposite direction is the left of the lure 2. The direction indicated by arrow Z is above the lure 2, and the opposite direction is below the lure 2. The direction perpendicular to the paper surface is the front-rear direction of the lure 2. Fig. 3 is a cross-sectional view taken along line III-III of fig. 2. In fig. 3, the direction indicated by the arrow X is the front of the lure 2, and the opposite direction is the rear of the lure 2. The direction indicated by arrow Z is above the lure 2, and the opposite direction is below the lure 2. The direction perpendicular to the paper surface is the left-right direction of the lure 2. As shown in fig. 1 to 3, the lure 2 has a main body 4, a swinging portion 6, an elastic body 8, a rod 10, a wire loop 12, a connecting hook 14, and a hook 16.

The main body 4 has a similar shape to a small fish as a bait. The body 4 is formed of a hard material. Typically, the main body 4 is formed of a synthetic resin composition. The main body 4 may be formed of a soft material such as a thermoplastic elastomer. The front portion of the body 4 is referred to as the head 18 and the rear portion is referred to as the tail 20.

As shown in fig. 2, the main body 4 has a first half body portion 4a and a second half body portion 4b. The first half body portion 4a and the second half body portion 4b extend in the front-rear direction, respectively. The main body 4 is formed by bonding the first half body portion 4a and the second half body portion 4b from the left-right direction. The main body 4 has a structure in which a first half body portion 4a and a second half body portion 4b are bonded from the left-right direction. Further, in the sectional view of fig. 3, the cross section of the main body 4 and the internal structure of the lure 2 are shown. In other words, fig. 3 is a side view of the lure 2 with the second body half 4b removed.

As shown in fig. 2 and 3, the main body 4 has a cavity 22 inside. The body 4 has transparency to the extent that light penetrates into the cavity 22. Although not shown in fig. 1, the inside of the cavity 22 can be visually confirmed from the outside. The light from the rocking part 6 can be visually confirmed from the outside. As shown in fig. 3, the main body 4 has a hooking portion 24 extending in the left-right direction from the inner surface (outer surface of the cavity 22). In this embodiment, there are a first hooking portion 24a located in front of the swing portion 6 and a second hooking portion 24b located behind the swing portion 6.

The rocking section 6 is located inside the cavity 22. The rocking portion 6 extends in the front-rear direction. The rocking part 6 is plate-shaped. As shown in fig. 2 and 3, the rocking part 6 has a hole 28 penetrating in the thickness direction. As shown in fig. 3, notches 26 are provided in the front end portion and the rear end portion of the swing portion 6, respectively. The rocking part 6 receives light from the outside and emits light. In this embodiment, the rocking part 6 is a reflector. That is, the surface of the rocking part 6 reflects light. The surface of the rocking part 6 has gloss. It is also possible to color or engrave a pattern on the surface of the rocking section 6. Typically, the rocking section 6 is formed of a synthetic resin composition. The rocking part 6 may be formed of metal. As a typical wobble portion 6, a hologram plate (holo plate) is exemplified.

The elastomer 8 is located inside the cavity 22. In this embodiment, the elastic body 8 is a spring 8. As shown in fig. 3, in this embodiment, there are a first spring 8a and a second spring 8b. The first spring 8a is hooked on the notch 26 of the front end portion of the swing portion 6. The first spring 8a extends forward from the front end of the rocking part 6. The second spring 8b is hooked on the notch 26 of the rear end portion of the swing portion 6. The second spring 8b extends rearward from the rear end of the swing portion 6. The swinging part 6 is installed between the first spring 8a and the second spring 8b.

As shown in fig. 3, the front end of the first spring 8a is hooked on the first hooking portion 24 a. The rear end of the second spring 8b is hung on the second hooking portion 24b. The swinging part 6 is mounted on the main body 4 by a spring 8. The swinging part 6 can vibrate with respect to the main body 4 by the spring 8. The swing portion 6 can swing back and forth, up and down, and left and right by the spring 8. The rocking part 6 is movable relative to the main body 4 by the spring 8. The swinging part 6 is movably mounted on the main body 4 by a spring 8.

As shown in fig. 2, the lever 10 extends from the first half body portion 4a to the second half body portion 4b. The lever 10 is fixed to the first half body portion 4 a. In this embodiment, the lever 10 and the first half body portion 4a are formed as one body. A gap is provided between the end 30 of the rod 10 and the inner surface of the second half body portion 4b. The lever 10 is not engaged with the second half body portion 4b. The rod 10 has a cantilever structure.

As shown in fig. 2 and 3, the rod 10 passes through the aperture 28 of the rocking section 6. The outer diameter of the rod 10 is smaller than the inner diameter of the bore 28 of the wobble portion 6. When the swing portion 6 is stationary in a normal posture in which the lure 2 moves, the rod 10 is not in contact with the inner surface of the hole 28 of the swing portion 6. When the rocking part 6 is actuated, the rocking part 6 may be in contact with the lever 10. The lever 10 limits the movable range of the swing portion 6 in the front-rear and up-down directions. The lever 10 has transparency to the extent that the rocking section 6 can be visually confirmed from the outside of the main body 4.

Fig. 4 is a cross-sectional view showing a state in which the lure 2 is vigorously operated and the swing portion 6 is vibrated to the maximum extent. As shown in fig. 4, even when the swing portion 6 vibrates to the maximum, the swing portion 6 does not reach the position of the end 30 of the lever 10. In other words, in this lure 2, the end 30 of the rod 10 is located outside the movable range of the swinging portion 6.

The wire loop 12 is mounted at the front end of the head 18. The attachment shackle 14 is mounted near the centre of the main body 4 and on the tail 20. Wire loop 12 and attachment loop 14 are formed by bending a wire. Both ends of the metal wire are buried in the main body 4. The wire loop 12 and the attachment loop 14 are firmly fixed to the body 4. A fishing line 32 is attached to the wire loop 12. A hook 16 is attached to each link 14. In this embodiment, the number of hooks 16 is 2.

In this assembly of the lure 2, the first half body portion 4a, the second half body portion 4b, the wire forming the wire loop 12 and the link loop 14, the first spring 8a, the second spring 8b, and the swinging portion 6 are prepared. A wire loop 12 and a wire for connecting the loop 14, a first spring 8a, a second spring 8b, and the swinging part 6 are attached to the first half body part 4 a. The second half body portion 4b is covered on the first half body portion 4 a. The surfaces of the first half body portion 4a and the second half body portion 4b that are in contact with each other are welded. Hereby, the lure 2 is completed.

Next, the operational effects of the present invention will be described.

The lure 2 according to the present invention has a rocking part 6 for emitting light in a cavity 22 of a main body 4. The rocking part 6 is a reflector. The surface of the rocking part 6 reflects light. The body 4 has transparency to the extent that light penetrates into the cavity 22. The light reflected by the rocking part 6 can be visually confirmed from the outside. The light reflected by the rocking part 6 attracts the fish-eating fish. With this lure 2, a high hooking rate can be expected.

The swinging part 6 of the lure 2 is mounted on the body 4 by a spring 8. When the angler pulls the lure 2, or when the flow of water or tide is fast, the swing portion 6 swings back and forth, up and down, and left and right by the spring 8 in the operating state of the lure 2. By the operation of the rocking part 6, the reflection state of light changes. The visible pattern of the light emitted from the rocking part 6 changes. The rocking section 6 appears to flicker. This effectively attracts fish-eating fish. With this lure 2, a high hooking rate can be expected.

The swing portion 6 of the lure 2 is movably mounted on the body 4 by a spring 8. The spring 8 is still activated for a while when the angler stops pulling the lure 2, or when the lure 2 is changed from the active state to the inactive state, such as when the flow of water or tide is stopped. The swing part 6 swings back and forth, up and down, and left and right for a while after the lure 2 is changed from the active state to the inactive state. At this time, the rocking section 6 still looks flickering. The swing portion 6 is effective to attract the fish-feeding fish for a while after the lure 2 is brought to a stopped state. With this lure 2, a high hooking rate can be expected.

The lure 2 has a rod 10 which restricts the movable range of the swinging part 6. By the lever 10, the rocking part 6 is largely operated, and thus the rocking part 6 is prevented from being caught in or caught in a structure inside the cavity 22. The rocking part 6 is prevented from being fixed in an abnormal position. Further, the lever 10 can suppress the rocking of the rocking section 6 from becoming excessively large. The swinging part 6 can swing at a high frequency. The rocking section 6 appears to flicker. This attracts fish-eating fish more effectively. With this lure 2, a high hooking rate can be expected.

In the lure of the related art, generally, the first half body portion and the second half body portion are formed in a bilaterally symmetrical shape. In the lure having the swing portion and the rod, when the first half body portion and the second half body portion are formed in a laterally symmetrical shape as in the conventional art, the rod is divided at the center in the lateral direction. The lever is formed of a first portion extending from the first half body portion and a second portion extending from the second half body portion. The first portion and the second portion are configured to butt against each other at the center in the lateral direction. In this lure, there is a joint between the first portion and the second portion (herein, the joint between the parts formed separately is referred to as a "joint"). The joint on the lever may interfere with the operation of the swing portion. At this seam, the positions of the first and second portions need to be aligned, and therefore this reduces the ease of assembly of the lure.

In this lure 2, the rod 10 has a cantilever structure extending from the first half body portion 4 a. A gap is provided between the end 30 of the rod 10 and the second half body portion 4b. At the end 30 of the rod 10, there is no seam with other parts. The lure 2 is easy to assemble. The lure 2 is excellent in assemblability.

In this lure 2, the end 30 of the rod 10 is located outside the movable range of the swinging portion 6. Even if the swing portion 6 vibrates to the maximum, the swing portion 6 does not get caught on the end 30 of the lever 10. The lever 10 does not excessively interfere with the operation of the swing portion 6. The rocking part 6 effectively attracts fish-eating fish. With this lure 2, a high hooking rate can be expected.

Preferably, the rocking section 6 is mounted between the first spring 8a and the second spring 8b. In this embodiment, the rocking part 6 is sandwiched between the first spring 8a and the second spring 8b from front to rear. In this way, the rocking of the rocking section 6 can be suppressed from becoming excessively large. The swinging part 6 can swing at a high frequency. The rocking section 6 appears to flicker. This attracts fish-eating fish more effectively. With this lure 2, a high hooking rate can be expected.

As described above, after the lure 2 is changed from the active state to the inactive state, the swinging portion 6 swings back and forth, up and down, and left and right for a while. The vibration time of the swinging part 6 is preferably 3 seconds or more, more preferably 5 seconds or more, and still more preferably 10 seconds or more.

The reflectance of the rocking part 6 is preferably 0.3 or more, more preferably 0.5 or more, and even more preferably 0.7 or more, from the viewpoint of effectively attracting fish-eating fishes.

Fig. 5 (a) is a cross-sectional view showing a lure 40 according to another embodiment of the present invention. The direction indicated by arrow Y is to the right of the lure 40, and the opposite direction is to the left of the lure 40. The direction indicated by arrow Z is above the lure 40 and the opposite direction is below the lure 40. The direction perpendicular to the paper surface is the front-rear direction of the lure 40. The lure 40 has a body 42, a swing portion 44, and a rod 46. Although not shown, the lure 40 also has a wire loop, a shackle, a hook, and an elastomer. The loops, attachment ring, hook, sway portion 44 and elastic members of the lure 40 are identical to those of the lure 2 of figures 1-3. The elastomer of the lure 40 is a spring.

The main body 42 has a similar shape to a small fish as a bait. The body 42 is formed of a hard material. Typically, the main body 42 is formed of a synthetic resin composition. The body 42 may be formed of a soft material such as a thermoplastic elastomer.

As shown in fig. 5 (a), the main body 42 has a first half main body portion 42a and a second half main body portion 42b. The first half body portion 42a and the second half body portion 42b extend in the front-rear direction, respectively. The main body 42 is formed by bonding a first half body portion 42a and a second half body portion 42b from the left-right direction. The main body 42 has a structure in which a first half body portion 42a and a second half body portion 42b are bonded from the left-right direction. The body 42 has a cavity 47 therein. The body 42 has transparency to the extent that light penetrates into the cavity 47. The interior of the cavity 47 can be visually confirmed from the outside. The light from the rocking section 44 can be visually confirmed from the outside. Although not shown, the main body 42 further has a hooking portion. The hooking portion of the lure 40 is the same as the hooking portion of the lure 2 of fig. 3.

As shown in fig. 5 (a), the lever 46 extends from the first half body portion 42a to the second half body portion 42b. The lever 46 and the first half body portion 42a are formed as one body. Thus, in this lure 40, there is no seam between the stem 46 and the first body half 42 a. The end of the rod 46 engages the inner surface of the second body half 42b. In this lure 40, there is a seam 48 between the stem 46 and the second body half 42b. In this embodiment, the lever 46 has transparency to the extent that the rocking portion 44 can be visually confirmed from the outside of the main body 42.

As shown in fig. 5 (a), the rod 46 passes through the hole 50 of the swing portion 44. The outer diameter of the stem 46 is smaller than the inner diameter of the bore 50 of the wobble portion 44. When the rocking section 44 is stationary in a normal posture in which the lure 40 moves, the rod 46 is not in contact with the inner surface of the hole 50 of the rocking section 44. When the rocking portion 44 is actuated, the rocking portion 44 may contact the lever 46. The lever 46 limits the movable range of the swing portion 44 in the front-rear and up-down directions.

Fig. 5 (B) is a cross-sectional view showing a state in which the lure 40 is vigorously operated and the swing portion 44 is maximally vibrated. As shown in fig. 5 (B), even when the rocking part 44 vibrates to the maximum extent, the rocking part 44 does not reach the joint 48 between the rod 46 and the second half body 42B. In other words, in this lure 40, the joint 48 between the rod 46 and the second half-body portion 42b is located outside the movable range of the swinging portion 44.

Next, the operational effects of the present invention will be described.

The swing portion 44 of the lure 40 is movably mounted on the body 42 by a spring. The spring still acts for a while when the angler stops pulling the lure 40, or when the lure 40 changes from the active state to the inactive state, such as when the flow of water or tide is stopped. In the lure 40, the fish-feeding fish can be effectively attracted after the operation of the lure 40 is stopped.

The lure 40 also has a rod 46 that limits the movable range of the rocking portion 44. By the lever 46, the rocking part 44 is largely operated, and thereby the rocking part 44 is prevented from being caught in or caught in a structure inside the cavity 47. The rocking portion 44 is prevented from being fixed in an abnormal position. Further, the lever 46 can suppress the rocking of the rocking section 44 from becoming excessively large. The rocking section 44 can rock at a high frequency. The rocking section 44 appears to blink. This attracts fish-eating fish more effectively. With this lure 40, a high hooking rate can be expected.

In this lure 40, the rod 46 extends from the first half body portion 42a to the second half body portion 42b, and engages with the inner surface of the second half body portion 42b. The seam 48 between the lever 46 and the second body half 42b is located outside the movable range of the swing portion 44. Even if the rocking portion 44 vibrates to the maximum, the rocking portion 44 does not reach the joint 48. The seam 48 does not interfere with the movement of the rocker 44. The lever 46 does not excessively interfere with the operation of the swing portion 44. The rocking portion 44 effectively attracts fish-eating fish. With this lure 40, a high hooking rate can be expected.

In this lure 40, since the joint 48 does not interfere with the movement of the swing portion 44, the positional alignment accuracy of the rod 46 and the second half body portion 42b at the joint 48 is not required. The lure 40 is easy to assemble. The lure 40 has excellent assemblability.

Fig. 6 is a cross-sectional view showing a lure 52 according to still other embodiment of the present invention. The lure 52 is identical to the lure 40 of fig. 5 (a), except for the shape of the stem 54 and the second body half 56b.

As shown in fig. 6, the lever 54 extends from a first half body portion 56a to a second half body portion 56b. The lever 54 and the first half body portion 56a are formed as one body. Thus, there is no seam between the stem 54 and the first body half 56 a. The second body half 56b has a protrusion 58 on its inner surface. The end of the rod 54 contacts the surface of the projection 58. The end of the rod 54 engages the surface of the projection 58. On this lure 52, there is a seam 60 between the stem 54 and the second body half 56b. In this embodiment, the lever 54 has transparency to the extent that the rocking portion 62 can be visually confirmed from the outside of the main body 56.

As shown in fig. 6, the rod 54 passes through the aperture 64 of the rocker 62. The outer diameter of the stem 54 is less than the inner diameter of the bore 64 of the wobble portion 62. When the rocking section 62 is stationary in the normal posture in which the lure 52 is swimming, the rod 54 is not in contact with the inner surface of the hole 64 of the rocking section 62. When the rocking portion 62 is actuated, the rocking portion 62 may be in contact with the lever 54. The lever 54 limits the movable range of the swing portion 62 in the front-rear and up-down directions.

Although not shown, in the case where the lure 52 is operated vigorously and the swing portion 62 vibrates to the maximum extent, the swing portion 62 does not reach the joint 60 between the rod 54 and the protrusion 58 of the second half body portion 56b. In other words, in this lure 52, the seam 60 between the stem 54 and the projection 58 of the second half body portion 56b is located outside the movable range of the swing portion 44.

In this lure 52, the seam 60 between the stem 54 and the projection 58 of the second half body portion 56b is located outside the movable range of the swing portion 62. Even if the swing portion 62 vibrates to the maximum, the swing portion 62 does not reach the joint 60. The seam 60 does not interfere with the movement of the rocking portion 62. The lever 54 does not excessively interfere with the operation of the swing portion 62. The rocking portion 62 effectively attracts fish-eating fish. With this lure 52, a high hooking rate can be expected.

In this lure 52, the joint 60 does not interfere with the action of the swing portion 62, and therefore, the positional alignment accuracy between the lever 54 and the projection 58 of the second half body portion 56b is not required. The lure 52 is easy to assemble. The lure 52 has excellent assemblability.

Fig. 7 (a) is a cross-sectional view showing a lure 70 according to still another embodiment of the present invention. The lure 70 is identical to the lure 40 of fig. 5 (a), except for the first body half 72a and the stem 74.

As shown in fig. 7 (a), the lever 74 is located between the first half body portion 72a and the second half body portion 72 b. The first end of the lever 74 engages the first half body portion 72 a. In this lure 70, there is a seam 76 between the stem 74 and the first body half 72 a. Seam 76 of stem 74 and first body half 72a is referred to as first seam 76a. A second end of the lever 74 engages the second body half 72 b. In this lure 70, there is a seam 76 between the stem 74 and the second body half 72 b. Seam 76 of rod 74 and second body half 72b is referred to as second seam 76b.

As shown in fig. 7 (a), the rod 74 passes through the aperture 80 of the wobble portion 78. The outer diameter of the rod 74 is smaller than the inner diameter of the bore 80 of the wobble portion 78. When the rocking portion 78 is stationary in a normal posture in which the lure 70 is swimming, the rod 74 is not in contact with the inner surface of the hole 80 of the rocking portion 78. When the rocking portion 78 is actuated, the rocking portion 78 may be in contact with the lever 74. The lever 74 limits the movable range of the swing portion 78 in the front-rear and up-down directions. The lever 74 has transparency to the extent that the rocking portion 78 can be visually confirmed from the outside of the main body.

Fig. 7 (B) is a cross-sectional view showing a state in which the lure 70 is vigorously operated and the swing portion 78 is maximally vibrated. As shown in fig. 7 (B), even when the swing portion 78 vibrates to the maximum extent, the swing portion 78 does not reach the first joint 76a. In other words, the first joint 76a is located outside the movable range of the swing portion 78. Although not shown, when the swing portion 78 vibrates to the maximum extent, the swing portion 78 does not reach the second joint 76b. In other words, the second joint 76b is located outside the movable range of the swing portion 78.

In the lure 70, since the first joint 76a and the second joint 76b are both located outside the movable range of the swinging portion 78, even if the swinging portion 78 vibrates to the maximum extent, the swinging portion 78 does not reach the joints 76. These seams 76 do not interfere with the action of the rocking portion 78. The lever 74 does not excessively interfere with the operation of the swing portion 78. The rocking portion 78 effectively attracts fish-eating fish. With this lure 70, a high hooking rate can be expected.

In the lure 70, since the first joint 76a and the second joint 76b do not interfere with the movement of the swinging portion 78, the positional alignment accuracy at these joints 76 is not required. The lure 70 is easy to assemble. The lure 70 has excellent assemblability.

In the embodiment of fig. 5-7, the end of the rod at the seam and the surface of either the first or second body halves are flat surfaces. The end portion of the lever may have irregularities on the surface of the first half body portion or the second half body portion, and these irregularities may be engaged. Fig. 8 shows this case. In the lure 82, the end of the rod 84 has a concave portion 86, and the surface of the projection 90 of the second half body portion 88 has a convex portion 92. The recess 86 engages with the projection 92.

In the embodiments described above, the rocking section is a reflector. The rocking part may be a phosphor or a phosphor that receives light from the outside and emits the light. The rocking part may be a transmitting body that receives light from the outside and condenses or diffuses the light. As typical transmissive bodies, lenses and prisms are exemplified.

The rocking part may be a light emitting body which emits light itself. Typical examples of the light-emitting body include a chemiluminescent body which utilizes luminescence generated by a chemical reaction. As another example of the light-emitting body, a light-emitting device can be given. For example, a swing portion having a light emitting diode and a battery fixed to a main body thereof is used.

The present invention has been described above by taking an embodiment of a fish lure as an example. Although not shown here, the present invention can be applied to a lure for aquatic products other than fish such as cuttlefish.

As described above, the lure according to the present invention can effectively attract fish-eating fish. The lure can attract fish after changing from active state to stop state. Furthermore, the lure has excellent assemblability. Thus, the advantages of the present invention are apparent.

[ Industrial Applicability ]

The artificial bait is suitable for fishing in various places such as lakes, ponds, reservoirs, rivers, seas and the like.

Claims (6)

1. A kind of artificial bait, which is characterized in that,

has a main body, a swinging part and a rod, wherein,

the main body comprises a first half main body part and a second half main body part which extend along the front-back direction respectively, the first half main body part and the second half main body part are bonded from the left-right direction, and the main body is provided with a cavity inside;

the swing part has a hole penetrating in the left-right direction, and is movably mounted to the main body through an elastic body in the cavity to emit light;

the rod penetrates through the hole for limiting the movable range of the swinging part,

the main body is configured to visually confirm light from the swing part from outside,

the swinging part can still vibrate after the artificial bait changes from the active state to the stop state,

the lever has a cantilever structure extending from the first half body portion,

the end of the lever is located outside the movable range of the swing portion.

2. A kind of artificial bait, which is characterized in that,

has a main body, a swinging part and a rod, wherein,

the main body comprises a first half main body part and a second half main body part which extend along the front-back direction respectively, the first half main body part and the second half main body part are bonded from the left-right direction, and the main body is provided with a cavity inside;

the swing part has a hole penetrating in the left-right direction, and is movably mounted to the main body through an elastic body in the cavity to emit light;

the rod extends from the first half body portion to the second half body portion through the hole for restricting a movable range of the swing portion,

the main body is configured to visually confirm light from the swing part from outside,

the swinging part can still vibrate after the artificial bait changes from the active state to the stop state,

the joint of the rod and the second half body part is located outside the movable range of the swinging part.

3. The lure according to claim 2, wherein the bait comprises a plurality of groups of particles,

at the joint, the end of the rod and the surface of the second half body part are provided with concave-convex parts, and the concave-convex parts of the rod are meshed with the concave-convex parts of the second half body part.

4. The lure according to claim 2 or 3, it is characterized in that the method comprises the steps of,

the seam between the lever and the first half body portion is located outside the movable range of the swing portion.

5. The lure according to any claim 1-4, wherein the bait comprises a metal or metal oxide,

the rocking part is any one of a reflector, a fluorescent body, a phosphor, and a transmissive body that receives light from the outside and emits the light.

6. The lure according to any claim 1-4, wherein the bait comprises a metal or metal oxide,

the rocking part is a luminous body which emits light.