JPH10165062A - Stick float - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a stick float which can easily be thrown far away, can be surely thrown at a target position even in case of head wind, improves sensitivity to the bite of fish, improves visibility so as to be used even when it is dark around such as at night, further, can attach a weight at a prescribed position and can be used in a fishing field on various conditions. SOLUTION: Thin float is provided with a sinking adjuster 4 having a buoyancy body 2, upper bar 3 fixed at the upper part of buoyancy body 2, stopper part 3a formed or fixed at the top end of upper bar 3a while being expanded, upside through hole 5 for inserting the upper bar 3 so as to freely slide it and upside conduction hole part 6 formed on an upper surface, buffer part 7 arranged at the base part of upper bar 3 and lower bar 8 fixed at the lower end of buoyancy body 2.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a stick float for fishing in a lagoon or a place where the tide of the Don current moves slowly.

[0002]

2. Description of the Related Art Conventionally, rod floats made of wood such as paulownia, synthetic resin, foam material, etc., have a rod float having a built-in weight such as lead or brass below the buoyant body, and a lead float having a built-in weight. Some rod floats do not have built-in weights such as brass and brass. A rod float with a built-in weight such as lead or brass in the buoyant body can fly to the target position with the rod float alone because the rod float itself is heavy, but is less sensitive to fish biting than a light rod float. Had problems. In addition, rod floats that do not have built-in weights such as lead or brass in the buoyant body have a lighter rod float body, so they are more sensitive to fish biting than heavy rod floats,
There was a problem that the rod float itself was difficult to fly, could not be cast far away, and could not fly to the target position. Therefore, conventionally, when using a rod float having no built-in weight such as lead or brass, it is common to use an underwater float in combination. Hereinafter, a state in which a conventional rod float having no built-in weight and an underwater float is used will be described with reference to the drawings. FIG. 10 is a front view of a main part showing a state in which both a rod float and an underwater float are used. In the drawing, reference numeral 40 denotes a bar float having no built-in weight such as lead or brass, 40a denotes an upper bar formed on the top of the bar float 40, 41 denotes a thread passing portion fixed to a lower portion of the bar float 40, 42 Is a thread inserted through the thread threading portion 41; 42a is a back stop provided on the thread 42; 43 is an anti-tangling tool disposed on the thread 42 below the rod float 40; 42, the underwater float that is heavier than the rod float 40 attached to the thread 42, 45 is the weight of a gun ball or the like attached to the thread 42 below the underwater float 44, 46
Is a sarkan attached below the weight 45, 47 is Harris attached to the sarkan 46, 48 is Harris 47
, X is the sea surface. Conventionally,
When using a rod float 40 having no built-in weight such as lead or brass, as shown in FIG. 10, an underwater float 44 or a weight 45 is attached to a road thread 42 between the rod float 40 and the sarkan 46. It is common to do. This allows the rod float 40 to fly to the target position using the weight of the underwater float 44.

[0003]

However, when the rod float 40 is used in combination with the underwater float 44, the rod float 40 is light, so that when the rod float 40 is inserted, the rod float 40 reverses the road thread 42 and the underwater float 44 is used. However, only the weight 45 and the harness 47 fly away, and the rod float 40 cannot be reliably put into the target position. Also, when the fish dig into the bait (not shown) attached to the tension 48,
In most cases, it is drawn horizontally or diagonally downward with respect to the water surface. Furthermore, when the underwater float 44 is used and the harris 47 is not weighted with gun balls or the like, after the rod float 40 has landed, as shown in FIG.
, And the harris 47 below the sarkans 46 are light and therefore oblique to the rod float 40 due to the flow of tide, and bend below the underwater float 44 to settle down. As a result, when the fish devours the bait attached to the tension 48, the underwater float 44 is largely moved,
The larger the underwater float 44, the more fish
There is a problem that the resistance when moving the fish increases, and when the fish bites, the fish feels uncomfortable and easily releases the food. In addition, in the case of complete shark fishing such as medina fishing, a weight is attached to the thread, so when the fish pulls in the bait, the weight attached to the thread affects the fish, giving the fish a sense of incongruity, However, there was a problem that it was difficult to penetrate.

[0004] The present invention solves the above-mentioned problems of the prior art, which makes it easy to cast a long distance, can be reliably thrown into a target position even in the case of a head wind, etc., has good sensitivity to fish biting, and has good visibility. It is an object of the present invention to provide a rod float that can be used excellently even when the surroundings are dark, such as at night, and that can be attached to a predetermined position and that can be used in fishing places in various situations.

[0005]

According to the present invention, there is provided a rod float according to the present invention, comprising: an upper bar fixed to an upper portion; and a retaining portion formed in a bulging shape at a tip end of the upper bar. A buffer provided at the base of the upper bar, a buoyant body having a lower bar fixed to the lower part, and an upper lower outer shell formed into a spherical or spindle shape and divided into upper and lower parts. An upper lower inner filling portion made of a foamed resin or a synthetic resin housed in the upper lower outer shell portion; an upper lower through hole formed at the top of the upper lower outer shell portion; An insertion hole penetrating the center of the side internal filling portion, communicating with the upper lower through hole, and slidably penetrating the upper bar; and a buoyancy adjusting hole formed in the upper lower inner filling portion. And an upper portion that is pierced in the upper and lower surfaces of the upper lower shell portion and communicates with the buoyancy adjustment hole portion. It has a lateral through hole portion, and the sedimentation adjuster having a a. Thus, since the upper bar of the buoyant body is inserted into the insertion hole of the sedimentation adjusting tool, the floating bar can be jumped to the target position without using the underwater float. In addition, since the buffer is provided at the base of the upper bar, when the sedimentation adjuster slides on the upper bar by a wave or the like and moves to the base side of the upper bar, the sedimentation adjuster hits the buffer. In addition, the shock absorbing portion can absorb shocks and vibrations, and has an effect of preventing the vibrations from being transmitted to the buoyant body. In addition, the buoyancy adjusting hole formed in the upper lower inner filling portion of the sedimentation adjusting tool, and the upper lower conduction hole formed in the upper lower outer shell communicating with the buoyancy adjusting hole, settling adjustment. It has the effect that the buoyancy of the tool can be adjusted.

[0006]

DETAILED DESCRIPTION OF THE INVENTION A rod float according to claim 1 of the present invention comprises an upper bar fixed to an upper portion, a retaining portion formed in a bulging shape at a tip of the upper bar, A buoyant body including a buffer portion disposed at the base of the bar, and a lower bar fixed to a lower portion; an upper lower outer shell portion formed in a spherical or spindle shape and divided into upper and lower portions; An upper lower inner filling portion made of a foamed resin or a synthetic resin housed in the lower outer shell portion; an upper lower through hole formed at the top of the upper lower outer shell portion; and the upper lower inner filling portion. An upper hole is slidably inserted through the central portion of the portion, communicates with the upper lower through hole, the upper bar is slidably inserted, a buoyancy adjusting hole formed in the upper lower internal filling portion, Upper and lower conduction holes that are perforated on the upper and lower surfaces of the upper and lower outer shells and communicate with the buoyancy adjustment holes. It has a sedimentation adjuster, a. With this configuration, since the upper bar of the buoyant body is slidably inserted into the insertion hole of the sedimentation adjuster, the bar float can be easily thrown into the distance without using the underwater float. In addition, since the upper bar of the buoyancy body can slide through the insertion hole of the sedimentation adjustment tool, when the fish bites, the resistance of the sedimentation adjustment tool does not affect the fish, and only the buoyancy body can be moved up and down. Has an action. In addition, since the buffer is provided at the base of the upper bar, the sedimentation adjuster slides on the upper bar by a wave or the like and moves to the base side of the upper bar. Has the effect of preventing vibrations from being transmitted. In addition, the buoyancy adjusting hole formed in the upper lower inner filling portion of the sedimentation adjusting tool, and the upper lower conduction hole formed in the upper lower outer shell communicating with the buoyancy adjusting hole, settling adjustment. It has the effect that the buoyancy of the tool can be adjusted. Here, an elastic member such as a rubber tube is used as the buffer. This has the function of absorbing the impact when the sedimentation adjuster hits the buffer. Further, as a material of the sedimentation adjusting tool, a synthetic resin such as polyolefin, polyester, polyacrylate, and polyimide, a metal thin plate such as iron and aluminum, and a foamed synthetic resin of polyolefin such as polyurethane and PS are used. In addition, the upper lower inner filling portion and the upper lower outer shell portion are made of synthetic resin or foam synthetic resin, and the upper lower outer shell portion is made of a thin metal plate. The materials may be different. Further, the upper and lower conduction holes may be formed symmetrically with the center of the insertion hole and communicate with each other via the buoyancy adjustment hole, and may not necessarily be formed in the same straight line. Also, one or more upper and lower conduction holes may be formed in the upper and lower outer shell. Further, it is preferable that the diameter of the lower conduction hole is formed smaller than that of the upper conduction hole. Water can gradually flow into the buoyancy adjusting hole.

According to a second aspect of the present invention, in the rod float according to the first aspect, the upper outer shell portion or the lower outer shell portion is formed integrally with the upper or lower through hole by a pipe. It is formed in a shape, and is inserted through the insertion hole portion,
And the upper bar insertion portion fixed to the lower or upper through hole. With this configuration, the upper and lower outer shell portions and the upper and lower inner filling portion can be easily assembled, and the upper bar can easily slide.

According to a third aspect of the present invention, there is provided a rod float having a sedimentation adjusting tool, an upper bar fixed to an upper portion, and a retaining portion formed in a bulging shape at a tip end of the upper bar. When,
A buffer provided at the base of the upper bar, a buoyant body including a lower bar fixed to the lower part, and an upper lower outer shell formed into a spherical or spindle shape and divided into upper and lower parts, An upper lower through-hole formed at each top of the upper lower outer shell,
An upper bar insertion portion formed in a tubular shape integrally with any one of the upper and lower through holes and through which the upper bar is slidably inserted; and an upper and lower through hole of the upper and lower outer shell portion. A plurality of upper and lower conductive holes formed respectively at equidistant positions, and an insertion portion through which the upper bar insertion portion is inserted are provided at the center, and are respectively fixed to the openings of the upper and lower outer shells. An upper buoyancy adjusting cylinder portion having an upper portion provided on the upper flange portion communicating with the upper conduction hole portion and a base portion formed in a bulging shape; A lower buoyancy adjusting cylinder having a base portion formed coaxially with the upper buoyancy adjusting cylinder and communicating with the lower conduction hole. With this configuration, since the upper bar of the buoyant body is slidably inserted into the insertion hole of the sedimentation adjuster, the bar float can be easily thrown into the distance without using the underwater float. In addition, since the upper bar of the buoyancy body can slide through the insertion hole of the sedimentation adjustment tool, when the fish bites, the resistance of the sedimentation adjustment tool does not affect the fish, and only the buoyancy body can be moved up and down. Has an action. In addition, since the buffer is provided at the base of the upper bar, the sedimentation adjuster slides on the upper bar by a wave or the like and moves to the base side of the upper bar. Has the effect of preventing vibrations from being transmitted. Furthermore,
The buoyancy of the sedimentation adjuster can be adjusted by the upper and lower buoyancy adjusting cylinder of the sedimentation adjuster and the upper and lower conduction holes formed in the upper and lower outer shell so as to communicate with the upper and lower buoyancy adjuster. It has the action of:

Here, an elastic member such as a rubber tube is used as the buffer. This has the function of absorbing the impact when the sedimentation adjuster hits the buffer. In addition, as the material of the sedimentation adjusting tool, polyolefin, polyester,
A synthetic resin such as polyacrylate or polyimide, a thin metal plate such as iron or aluminum, or a foamed synthetic resin of polyolefin such as polyurethane or PS is used. In addition, the upper lower inner filling portion and the upper lower outer shell portion are made of synthetic resin or foam synthetic resin, and the upper lower outer shell portion is made of a thin metal plate. The materials may be different. Further, it is preferable that the diameter of the lower conduction hole is formed smaller than that of the upper conduction hole. Water can gradually flow into the upper and lower buoyancy adjusting cylinders. Also, one or more upper and lower conduction holes may be formed in the upper and lower outer shell. Further, one or more lower conduction holes are formed at a position equidistant from the lower through-hole of the lower outer shell and at a distance farther than the distance between the upper conduction hole and the upper through-hole, and bent. It may communicate with the lower buoyancy adjusting cylinder. The weight can be sandwiched between the lower buoyancy adjusting cylinder portions that are bent and communicate with the lower conduction hole portion.

According to a fourth aspect of the present invention, there is provided the rod float according to any one of the first to third aspects, wherein the entire specific gravity of the sedimentation adjusting device is preferably 0.95 to 1.2. It has a configuration formed between 0.98 and 1.03. According to this configuration, the sedimentation adjusting tool can be floated to the very edge of the water surface, or can sink into the water slowly and settle to the lower part of the upper bar, so that there is an effect that it is difficult to give the fish the resistance of the sedimentation adjusting tool. Here, the adjustment of the overall specific gravity of the sedimentation adjusting tool is performed by adjusting the size and material of the upper and lower outer shells and the material of the upper and lower buoyancy adjusting holes and the upper and lower buoyancy adjusting cylinders. This can be done by changing the diameter of the portion or the upper and lower buoyancy adjusting cylinders.

A rod float according to a fifth aspect of the present invention is the rod float according to any one of the first to fourth aspects, wherein the diameter of the upper conduction hole is a rod-shaped light-emitting body such as a firefly. It has a configuration of 1.8 mm to 3.5 mm, preferably 2.2 mm to 3.2 mm, which can be detachably inserted. According to this configuration, a rod-shaped light-emitting body such as a firefly can be inserted into the upper conduction hole of the sedimentation adjusting tool. In such a case, the rod float can be used. Also, when a rod-shaped light emitting body such as a firefly is inserted into the upper conduction hole of the sedimentation adjusting tool, water is prevented from flowing from the lower conduction hole into the buoyancy adjustment hole or the upper lower buoyancy adjustment cylinder. For this reason, air accumulates in the buoyancy adjustment holes or the upper and lower buoyancy adjustment cylinders, increasing the buoyancy of the settling adjuster,
This has the effect of preventing the sedimentation adjuster from sinking into the water due to the weight of the illuminant, thereby preventing the visibility of the illuminant from deteriorating.

According to a sixth aspect of the present invention, there is provided a rod float, comprising: a buoyant body; an upper bar fixed to an upper part of the buoyant body; a lower bar fixed to a lower part of the buoyant body; And a weight stopper formed in a convex shape on a part of the outer peripheral surface. With this configuration, a weight such as a gun ball can be attached to the lower bar, and the bar can be used in a fishing spot in various situations. Also, a weight such as a gun ball is attached to the lower bar, and when the weight such as a gun ball slides on the lower bar, the weight is prevented from moving to the base of the lower bar, and the rod float is difficult to stand. Has the effect of preventing. Here, as the weight stopper, a part formed on the lower bar in a bulging or protruding shape with an adhesive or the like, or the diameter of the lower bar below the weight stopper is a lower bar above the weight stopper. The diameter is smaller than the diameter of the lower bar, a pipe made of resin or the like having an outer diameter larger than the diameter of the lower bar is inserted into the lower bar, or the lower bar is integrally formed in a protruding shape at the time of forming the lower bar. . Further, a weight retaining portion may be formed on the rod float according to any one of the first to fifth aspects. By forming the weight stopper, the weight can be attached to a predetermined position of the lower bar, so that the rod float can be used also for fishing of a completely fogged fish such as a median fishing.

(Embodiment 1) A rod float according to Embodiment 1 of the present invention will be described with reference to the drawings. FIG. 1 is a perspective view of the rod float according to the first embodiment. In the figure, 1
Is a bar float in the first embodiment, 2 is a buoyant body, 3 is an upper bar fixed to the upper part of the buoyant body 2, 3a is a retaining portion formed or fixed to the tip of the upper bar 3 in a bulging manner, Is a sedimentation adjuster which is slidably inserted into the upper bar 3 through a through hole, and is adjusted so that the overall specific gravity is 0.98 to 1.03, and 5 is the top of the upper outer shell of the sedimentation adjuster 4 , An upper through hole formed in the upper surface of the upper outer shell of the sedimentation adjuster 4, and an elastic member such as a rubber tube disposed in the base of the upper bar 3. Buffer part, 8 is buoyant body 2
, A lower thread bar fixed to the end of the lower bar 8, a lower thread 9 inserted through the lower thread thread 8 a, and a rod 9 a attached to the lower thread 9 Reference numeral 10 denotes a spring provided on the float 1 and a tension member 10 attached to the tip of the warp yarn 9. The upper bar 3 of the buoyant body 2 is made of FRP, PE, PP,
It is made of a rod-like material or a pipe made of a synthetic resin such as polyolefin such as PS, polyester, or polyacrylate, or a composite thereof, such as FRTP, nylon, or a metal wire or the like, the surface of which is rust-proofed with a coating. Is formed to be larger than the diameter of the upper through hole 5 of the settling adjuster 4. Also, when the rod float 1 is used, the retaining portion 3a projects above the water surface and serves as a visual recognition tool of the rod float 1. Therefore, the retaining portion 3a is painted with a lemon or orange fluorescent paint, and Is formed so that the visibility of the image can be improved. Further, the thread passing portion 8a may be fixed to the tip of the lower bar 8 via a swing formed of a hollow mesh thread.

Next, the sedimentation adjuster will be described with reference to the drawings. FIG. 2 is a cross-sectional view of a main part of the settling adjuster according to the first embodiment. 4 is a sedimentation adjuster, 5 is an upper through hole, 6
Is an upper conducting hole, which is the same as that in FIG. 11a is an upper shell formed in a hemispherical shape, 11b is a lower shell formed in a hemispherical shape and has a weight insertion opening on the lower surface, and 12a is an upper inner filling portion housed in the upper shell 11a. , 12b is a lower inner filling portion accommodated in the lower outer shell 11b, 13 is a lower through hole formed at the top of the lower outer shell 11b, and 14 is a perforation in the lower surface of the lower outer shell 11b. Lower conduction hole, 15 is an upper lower through hole 5,
An insertion hole portion 16 communicated with the upper portion 13 and formed in a central portion of the upper and lower inner filling portions 12a and 12b is formed in a pipe shape integrally with the upper through hole 5, and is inserted into the insertion hole portion 15. , An upper bar insertion portion fixed to the lower through hole 13,
Reference numeral 7 denotes a buoyancy adjusting hole communicating with the upper and lower conductive holes 6 and 14 and formed in the upper and lower inner filling portions 12a and 12b.
Is a weight portion, such as lead or brass, provided below the sedimentation adjusting tool 4. In addition, the upper and lower outer shell portions 11a, 1 of the settling adjuster 4
1b is made of a synthetic resin such as the above-mentioned polyolefin, polyester, polyacrylate, or polyimide, or a thin metal plate such as iron or aluminum, and the upper and lower inner filling portions 12a and 12b are made of a foamed synthetic resin of a polyolefin such as polyurethane or PS. ing. In addition, the upper conduction hole 6 of the settling adjuster 4
Are formed at two locations that are line-symmetric with the center of the upper through hole 5. Further, similarly to the upper conduction hole 6, the lower conduction hole 14 is formed at two locations symmetrical with the center of the lower through-hole 13. Here, the upper conduction hole 6 and the lower conduction hole 14
May be connected through the buoyancy adjusting hole 17 so that the water flowing into the buoyancy adjusting hole 17 can be discharged.
It is not always necessary to form them in the same straight line. In addition, the buoyancy adjusting hole 17 is formed in a curved cavity shape having no corner, and after landing, the sedimentation adjusting tool 4 sinks to the edge of the water surface or slowly sinks in the water, and calms down at the lower part of the upper bar.
The sedimentation adjusting tool 4 is formed with such a buoyancy that the buoyant body 2 has almost no influence on the buoyancy body 2 and does not sink the buoyancy body 2.

Next, an example of a method of manufacturing the sedimentation adjusting tool 4 will be described with reference to the drawings. FIG. 3 is an exploded perspective view of a main part of the settling adjuster according to the first embodiment. In the figure, reference numeral 19 denotes a fitting portion formed on the peripheral wall of the upper and lower inner filling portions 12a and 12b, and reference numeral 20 denotes a ridge or projection formed on the inner peripheral wall of the upper and lower outer shell portions 11a and 11b. The fitting portion 21 into which the portion 19 is fitted, 21 is a projection formed on the flat portion of the upper internal filling portion 12a, 22 is formed on the flat portion of the lower internal filling portion 12b, and the projection 21 is fitted. This is the concave portion to be formed. If necessary, an adhesive or the like is applied to the protrusion 21 and the recess 22 and fitted, and the upper and lower inner filling portions 12a and 12b are bonded and fixed. Next, an adhesive or the like is applied to the outer peripheral surfaces of the upper and lower inner filling portions 12a and 12b as necessary, and
Are inserted into the insertion holes 15 of the upper and lower internal filling portions 12a and 12b, and the weight portion 18 is attached to the lower internal filling portion 12b.
And stored in a weight storage chamber (not shown) of the upper outer shell 11.
a into the fitting portion 19 formed in the upper inner filling portion 12a, the upper outer shell portion 11a and the upper inner filling portion 12a are bonded, and Part 11
b is fitted to the fitting portion 19 formed in the lower inner filling portion 12b, and the lower outer shell portion 11b and the lower inner filling portion 12b are adhered to each other. The end of the insertion portion 16 is fixed to the lower through-hole 13 of the lower outer shell 11b by bonding or the like, thereby producing the settling adjuster 4.

Next, another example of manufacturing the sedimentation adjusting device will be described with reference to the drawings. FIG. 4 is an exploded sectional view of a main part of the sedimentation adjusting tool, and FIG. 5 is a perspective view of a main part of a buoyancy adjusting member of the sedimentation adjusting tool. In addition, the same thing as FIG. 2 and FIG.
The same reference numerals are given and the description is omitted. In the figure, reference numeral 4 'denotes a sedimentation adjusting member formed of resin, 17a denotes a buoyancy adjusting member formed by injection molding of the synthetic resin member, and 23a denotes an upper outer shell portion 11a.
The upper flange portion 23b fixed to the opening of the lower shell portion 23b is fixed to the opening portion of the lower outer shell portion 11b.
Is formed at the center of the upper and lower flange portions 23a and 23b, and is an insertion portion through which the upper bar insertion portion 16 is inserted. 25a is an upright buoyancy adjusting cylinder which stands upright on the upper flange portion 23a and communicates with the upper conduction hole portion 6. Part, 25b is the lower flange part 23
b, and is formed coaxially with the upper buoyancy adjusting cylinder 25a, and communicates with the lower conduction hole 14.
Reference numeral 6 denotes a weight holding portion for holding the weight portion 18 between the lower buoyancy adjusting cylinder portions 25b. Hereinafter, a method of manufacturing the sedimentation adjusting tool 4 'configured as described above will be described. The upper bar insertion portion 16 is inserted into the insertion portion 24 to fix the upper buoyancy adjusting cylinder 25a in the upper conduction hole 6, and the upper flange portion 23a is fixed to the opening of the upper outer shell 11a. Next, an end of the upper bar insertion portion 16 is fixed to the lower through hole 13 by sandwiching the weight portion 18 between the weight holding portion 26 and the upper bar insertion portion 16, and the lower conduction hole portion 14 is provided with a lower side. The buoyancy adjusting cylinder 25b is fixed, and the lower flange 23b is fixed to the opening of the lower outer shell 11b to produce the settling adjuster 4 '.

With respect to the rod float 1 of the first embodiment configured as described above, the operation at the time of throwing in the sea fishing and after landing will be described with reference to the drawings. FIG. 6 shows the first embodiment.
It is a principal part perspective view which shows the state at the time of throwing in of the rod float. As shown in FIG. 6, when the rod float 1 is inserted, the sedimentation adjusting tool 4 slides on the upper bar 3 and moves to the retaining portion 3 a side. The rod float 1 is sent to the target position. Settling adjuster 4 is sea surface X
After landing, seawater flows into the buoyancy adjustment hole 17 from the lower conduction hole 14, and the air inside the sedimentation adjustment tool 4 flows out from the upper conduction hole 6 to the outside of the sedimentation adjustment tool 4. Slowly sinks into the water or sinks into the water, and calms down at the lower part of the upper bar 3, or moves up and down near the lower part of the upper bar 3 when there is a wave. Next, the operation of the stick float 1 according to the first embodiment when a fish bites will be described with reference to the drawings. FIG. 7 (a)
FIG. 7B is a schematic diagram showing the state of the stick float when the fish holds the bait, and FIG. 7B is a schematic diagram showing the state of the stick float when the fish eats the bait. In the case of two-stage pulling in which the fish stops by adding the bait once or when the fish slowly pulls in the bait, when the fish holds the bait, as shown in FIG. The upper bar 3 protrudes above the water surface. Then, when the fish pulled the food downward,
As shown in (b), the upper bar 3 of the rod float 1 slides in the upper bar insertion portion 16 of the settling adjuster 4, and the buoyant body 2 is drawn into the water. Subsequently, the sedimentation adjuster 4 is retracted,
As shown in FIG. 7B, the robot slowly moves to the position A.

As described above, the rod float according to the first embodiment has the following functions. a. When the rod float is thrown, the settling adjuster slides on the upper bar and moves to the retaining portion side, so that centrifugal force due to the gravity of the settle adjuster acts, and the rod float can be thrown into the target position, Has the effect of being able to throw. b. After landing on the sedimentation adjuster, the specific gravity of the whole
1.03, and water flows into the buoyancy adjustment hole or the buoyancy adjustment cylinder from the lower conduction hole, and further, internal air is discharged from the upper conduction hole communicating with the buoyancy adjustment hole or the buoyancy adjustment cylinder. To flow out, by the buoyancy adjustment hole or buoyancy adjustment cylinder,
This has the effect that the buoyancy of the sedimentation adjuster can be adjusted so that the sedimentation adjuster is just below the surface of the water or slowly sinks into the water and settles at the lower part of the upper bar. c. The entire specific gravity of the sedimentation adjusting tool is adjusted to 0.98 to 1.03, and air is discharged and water enters by the buoyancy adjusting hole or the buoyancy adjusting cylinder, so that the sedimentation adjusting tool affects the buoyant body. Since the buoyancy body can be set to a buoyancy that does not sink into the water, when the fish is fed with food, the weight of the buoyancy body alone is applied to the fish, so that the weight of the sedimentation adjuster is not applied. d. Since the sedimentation adjuster can be set so that it sinks just below the water surface or slowly sinks below the water surface and settles at the bottom of the upper bar,
This has the effect that the settling adjuster can be prevented from jumping up and down the waves. e. The upper bar can slide inside the upper bar insertion part of the sedimentation adjuster when pulling the bait slowly or when the fish slowly pulls in the bait. Has the effect of being able to draw in only f. Since the shock absorber is arranged at the base of the upper bar, when the sedimentation adjuster collides with the shock absorber due to waves etc., the shock absorber can absorb the vibration at the time of collision and prevent the vibration from being transmitted to the buoyant body It has the action of:

Embodiment 2 A rod float according to Embodiment 2 of the present invention will be described with reference to the drawings. FIG. 8 is a main part front view showing a use state of the rod float according to the second embodiment. The rod float 27 of the second embodiment is different from that of the first embodiment in that a rod-shaped light-emitting body such as a firefly is attached to the upper conduction hole 6 and the upper internal filling portion or the upper buoyancy adjusting cylinder communicating therewith. That is the point. In the figure, reference numeral 27 denotes a rod float according to the second embodiment suitable for use at night or the like, and reference numeral 28 denotes a rod-shaped luminous body such as a firefly inserted into the upper conduction hole 6 of the settling adjuster 4. The diameter of the upper conducting hole portion 6 and the upper internal filling portion or the upper buoyancy adjusting cylinder portion communicating therewith is 2.2 mm to 3.2 mm to which a rod-shaped light emitting member such as a firefly can be inserted and fixed, so that the light emitting member does not easily fall off. It is formed as follows. The operation of the rod float 27 configured as described above according to the second embodiment at the time of being used and after landing will be described with reference to the drawings. The operation at the time of loading the rod float 27 in the second embodiment is substantially the same as that in the first embodiment. Since the luminous body 28 is inserted into the upper conduction hole 6 of the sedimentation adjusting tool 4 after the sedimentation adjusting tool 4 has landed thereon, the buoyancy adjustment hole 17 is formed through the lower conduction hole 14.
No water flows into the buoyancy adjusting hole 17, and air is accumulated. For this reason, as shown in FIG. 8, the buoyancy of the sedimentation adjusting tool 4 is increased, and the luminous body 28 projects above the water surface.

Since the rod float according to the second embodiment is configured as described above, in addition to the operation of the first embodiment, a rod-shaped light-emitting body such as a firefly is inserted into the upper conduction hole of the settling adjuster. By doing so, the rod float can be used even in dark surroundings such as at night. Also, by inserting a rod-shaped luminous body such as a firefly into the upper conduction hole of the sedimentation adjustment tool, air can be accumulated in the buoyancy adjustment hole of the sedimentation adjustment tool, so that the buoyancy of the sedimentation adjustment tool increases, A luminous body such as a firefly can be made to protrude above the water, which has the effect of improving the visibility of the rod float. In addition, since the buoyancy adjustment hole and the buoyancy adjustment cylinder are formed in a curved hollow shape, when the luminous body is attached to the rod float, water flowing from the lower conduction hole into the buoyancy adjustment hole is removed by the upper conduction hole. It has the effect that it can be removed simply by blowing in the breath from the part.

(Embodiment 3) A rod float according to Embodiment 3 of the present invention will be described with reference to the drawings. FIG. 9 is a front view of the rod float according to the third embodiment. Note that the same components as those in the first embodiment are denoted by the same reference numerals, and description thereof is omitted. In the figure, 29 is a rod float in the third embodiment,
Reference numeral 30 denotes a lower bar fixed to the lower portion of the buoyant body 2, 31 denotes a weight stopper formed below the lower bar 30, and 32 denotes a weight of a gun ball or the like attached to the lower bar 30 below the weight stopper 31. It is. Note that the structure of the sedimentation adjusting tool 4 is the same as that of the first embodiment, and a description thereof will be omitted. Here, as the weight stopper 31, a member formed on the outer peripheral surface of the lower bar 30 in a bulging or projecting shape with an adhesive or the like on the outer peripheral surface at a predetermined position of the lower bar 30 is preferably used. May be integrally formed in a protruding shape at the time of molding. The operation of the rod float 29 of the third embodiment configured as described above at the time of loading and after landing is substantially the same as that of the first embodiment. In addition, when attaching a weight to the bar float 29 in the third embodiment, as shown in FIG.
A weight 32 is inserted or fitted below 1 for use.

Since the bar float of the third embodiment is configured as described above, in addition to the functions of the first and second embodiments, the weight attached to the lower bar is used when the bar float is inserted. Is prevented from sliding on the lower bar and moving toward the buoyant body side of the base of the lower bar by the weight stopper. In addition, since the weight can be attached to the lower bar, there is an effect that the rod float can be used even in the case of complete shark fishing such as fishing in the middle. In addition, since the buoyancy of the bar float can be adjusted by attaching a weight to the lower bar, there is an effect that one bar float can be used in a fishing ground in various situations.

[0023]

As described above, since the rod float according to the present invention is constituted, it has the following excellent effects. (1) Since the slidable settling adjuster is inserted into the upper bar having a bulging retaining portion at the tip, the settle adjuster prevents the upper bar from falling off when the rod float is inserted. Centrifugal force due to the gravity of the sedimentation adjuster acts on the part, acting in the same way as a conventional underwater float, allowing it to be reliably thrown into the target position, and in the event of headwinds, etc. Has an excellent effect that it can be easily performed. (2) Since the entire specific gravity of the sedimentation adjusting device is adjusted to 0.95 to 1.2, preferably 0.98 to 1.03, and further provided with a buoyancy adjusting hole and a buoyancy adjusting cylinder, after landing, Water flows into the buoyancy adjusting hole or upper lower buoyancy adjusting cylinder from the lower conducting hole, and furthermore, air flows out from the upper conducting hole. The buoyancy can be set to be settled at the lower part of the upper bar, and the sedimentation adjuster does not affect the buoyancy body, preventing the buoyancy body from sinking. This has the effect of improving the sensitivity of the float. (3) After the landing of the rod float, the sedimentation adjuster stops just below or below the surface of the water, so that the sedimentation adjuster can be prevented from following the wave up and down and jumping over the water surface,
This has the effect of improving sensitivity without giving the fish a vigilance. (4) When the fish has eaten the bait, the upper bar slides in the insertion hole of the sedimentation adjuster or the inside of the upper bar insertion part, so that the weight of the sedimentation adjuster is not applied to the fish, and only the buoyant body is drawn into the fish. This makes it possible to improve the bite and improve the fishing results without giving the fish a sense of incongruity at the beginning of the attack where the fish is most wary. (5) When the fish is pulled in two steps or when the fish slowly pulls in the bait, the first retraction causes the upper bar to slide in the insertion hole of the sedimentation adjuster or the upper bar insertion hole, and only the buoyant body is pulled. While the fish is retracted, the sedimentation adjustment tool slides on the upper bar and moves to the lower buoyant body side until the fish is retracted for the second time.
The effect that the upper bar can slide for the same stroke as the first stroke without applying the buoyancy of the sedimentation adjuster to the fish for the first time, and only the buoyancy body can be retracted, giving the fish a sense of incongruity and increasing the fishing results. Having. (6) Since the base portion of the upper bar is provided with a buffer, when the sedimentation adjuster moves toward the buoyant body and collides with the buffer due to waves or the like, the vibration can be absorbed by the buffer and the vibration is applied to the buoyant body. This has the effect of preventing transmission of the fish, preventing the fish from escaping when the fish is holding the bait, and improving the fishing results. (7) Since the buoyancy adjusting hole or the upper and lower buoyancy adjusting cylinders of the sedimentation adjusting tool are formed in a curved hollow shape, when attaching a rod-shaped luminous body such as a firefly to the sedimentation adjusting tool, Water that has flowed into the buoyancy adjusting hole or the upper lower buoyancy adjusting cylinder from the lower conductive hole can be removed only by blowing in the air from the upper conductive hole, and the rod float is excellent in convenience. (8) By forming the diameter of the upper conduction hole of the sedimentation adjusting tool to be 1.8 mm to 3.5 mm, preferably 2.2 mm to 3.2 mm, into which a rod-shaped light-emitting body such as chemifirefly can be inserted, the Since the rod-shaped light-emitting body can be inserted into the upper conduction hole, it can be used even when the surroundings are dark, such as at night, and the rod float can be used day and night. (9) By inserting a rod-shaped luminous body such as a firefly into the upper conduction hole of the sedimentation adjusting tool, the buoyancy adjusting hole or the upper lower buoyancy adjusting cylinder is formed from the lower conduction hole of the sedimentation adjusting tool. Prevents the inflow of water, air is accumulated in the buoyancy adjustment hole or upper and lower buoyancy adjustment cylinder, and the buoyancy of the sinking adjuster can be increased, and the sinker adjuster sinks in the water due to the weight of the rod-shaped light emitter. , The rod-shaped luminous body can be projected above the water surface, the visibility of the rod float can be improved, the fish can be easily caught, and the fishing results can be improved even in dark surroundings such as at night. It has the effect that can be done. (10) Since the gun ball or the like attached to the lower bar is made of lead or the like and is soft, when the attachment of the gun ball or the like is loose, the weight of the gun ball or the like is reduced by the weight stopper formed on the lower bar. This has the effect of preventing the base float from moving toward the buoyancy body and preventing the rod float from becoming difficult to stand. (11) By attaching a weight to the lower bar, the rod float can be used even in the case of complete fishing, such as medina fishing, so that it can be used in fishing places in various situations, and has an effect of being excellent in convenience.

[Brief description of the drawings]

FIG. 1 is a perspective view of a rod float according to a first embodiment.

FIG. 2 is a sectional view of a main part of the sedimentation adjusting device according to the first embodiment.

FIG. 3 is an exploded perspective view of a main part of the settling adjuster according to the first embodiment.

FIG. 4 is an exploded sectional view of a main part of the sedimentation adjusting device.

FIG. 5 is a perspective view of a main part of a buoyancy adjusting member of the settling adjuster.

FIG. 6 is an essential part perspective view showing a state at the time of loading of the rod float according to the first embodiment.

FIG. 7A is a schematic diagram showing a state of a stick float when a fish holds a bait. FIG. 7B is a schematic diagram showing a state of a stick float when a fish eats a bait.

FIG. 8 is a front view of a main part showing a use state of the rod float according to the second embodiment.

FIG. 9 is a front view of a rod float according to the third embodiment.

FIG. 10 is a main part front view showing a state in which a rod float and a water float are used together.

[Explanation of symbols]

 REFERENCE SIGNS LIST 1 rod float 2 buoyant body 3 upper bar 3a retaining portion 4 sedimentation adjustment tool 5 upper through hole 6 upper conduction hole 7 buffering portion 8 lower bar 8a road threading portion 9 road thread 9a backstop 10 tension 11a upper outer shell 11b Lower outer shell part 12a Upper inner filling part 12b Lower inner filling part 13 Lower through hole 14 Lower conduction hole part 15 Insertion hole part 16 Upper bar insertion part 17 Buoyancy adjusting hole part 17a Buoyancy adjusting member 18 Weight part 19 Fitting part 20 Fitted part 21 Protrusion part 22 Depression 23a Upper flange part 23b Lower flange part 24 Insertion part 25a Upper buoyancy adjustment cylinder part 25b Lower buoyancy adjustment cylinder part 26 Weight holding part 27 Rod float 28 Light emitter 29 Rod Float 30 Lower bar 31 Weight stopper 32 Weight 40 Bar float 40a Upper bar 41 Way threading part 42 Way thread 42a Back stop 43 Entanglement prevention tool 44 Medium float 45 weight 46 Sarukan 47 Harris 48 Halifax

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[Procedure amendment]

[Submission date] February 6, 1997

[Procedure amendment 1]

[Document name to be amended] Drawing

[Correction target item name] Fig. 7

[Correction method] Change

[Correction contents]

[Fig. 7]

Claims (6)

[Claims] A) an upper bar fixed to an upper portion, a retaining portion formed in a bulging shape at a tip end of the upper bar,
A buoyant body including a buffer portion provided at a base of the upper bar and a lower bar fixed to a lower portion; b, an upper lower shell portion formed into a spherical or spindle shape and divided into upper and lower parts; An upper lower inner filling portion made of a foamed resin or a synthetic resin accommodated in the upper lower outer shell portion; an upper lower through hole formed at the top of the upper lower outer shell portion; An insertion hole that penetrates a central portion of the lower inner filling portion, communicates with the upper lower through hole, and through which the upper bar is slidably inserted, and a buoyancy adjustment formed in the upper lower inner filling portion A sedimentation adjustment tool having a hole, and an upper and lower conduction hole that is perforated on the upper and lower surfaces of the upper and lower outer shells and communicates with the buoyancy adjustment hole. Stick floating. 2. The upper shell or the lower shell,
The upper or lower through hole is formed integrally with the upper or lower through hole into a pipe shape, is inserted into the insertion hole portion, and includes the upper bar insertion portion fixed to the lower or upper through hole. The rod float according to claim 1, characterized in that: 3. An upper bar fixed to an upper portion, a retaining portion formed in a bulging shape at a tip end of the upper bar,
A buoyant body including a buffer portion provided at a base of the upper bar and a lower bar fixed to a lower portion; b, an upper lower shell portion formed into a spherical or spindle shape and divided into upper and lower parts; And an upper lower through-hole formed at each top of the upper lower outer shell, and a cylindrical body integrally formed with one of the upper lower through-holes, and the upper bar is slidably inserted therethrough. An upper bar insertion portion, a plurality of upper lower conduction holes formed respectively at equal distances from the upper lower through hole of the upper lower shell, and the upper bar insertion portion being inserted. An upper lower flange portion fixed to an opening of the upper lower shell portion, and an upper portion provided upright on the upper flange portion communicates with the upper conduction hole portion. An upper buoyancy adjusting cylinder portion whose base portion is formed in a bulging shape; A rod float having a lowering adjuster having a lower buoyancy adjusting cylinder formed coaxially with the upper buoyancy adjusting cylinder and communicating with the lower conduction hole. 4. The whole specific gravity of the sedimentation adjusting device is 0.95 to 0.95.
The rod float according to any one of claims 1 to 3, wherein the rod float is formed to have a thickness of preferably from 0.98 to 1.03. 5. The diameter of the upper conduction hole portion is 1.8 mm or more so that a rod-shaped light emitting body such as a firefly can be removably inserted.
The rod float according to any one of claims 1 to 4, wherein the rod float is formed to have a length of 3.5 mm, preferably 2.2 mm to 3.2 mm. 6. A buoyant body, an upper bar fixed to an upper part of the buoyant body, a lower bar fixed to a lower part of the buoyant body, and a convex portion formed on an outer peripheral surface of a part of the lower bar. A bar float, comprising: a weight stopper.