CN214801810U

CN214801810U - Buoy structure

Info

Publication number: CN214801810U
Application number: CN202120636575.8U
Authority: CN
Inventors: 刘金弘
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-11-05
Filing date: 2021-03-29
Publication date: 2021-11-23
Anticipated expiration: 2031-03-29
Also published as: TWM608135U

Abstract

The utility model relates to a buoy structure, which is specially used in a stable water wave or indoor shrimp fishing field or indoor fishing field and comprises a floating body and two positioning pieces. The floating body comprises a containing hole positioned in the longitudinal shaft of the floating body and a pipe body which is arranged in the containing hole of the floating body and is provided with a combining hole. The positioning pieces are respectively placed in and arranged at the bottom end of the floating body along the direction corresponding to the top end inside the combining hole of the pipe body, or respectively placed in the directions corresponding to the top end and the bottom end inside the combining hole of the pipe body. The utility model discloses these locating parts are borrowd this to this buoy, work as this fishing line in this buoy of pulling, can avoid this buoy to have the fishing line break point to form the siphon effect and crooked sometimes in the fishing line pulling for this buoy of location does not empty, can promote the state of standing that this buoy remains stable in aqueous, and then lets the fisherman can distinguish the signal of being angled the thing and catching hold of the hook fast.

Description

Buoy structure

Technical Field

The present invention relates to a buoy, and more particularly to a buoy structure for positioning a buoy without toppling and keeping the buoy in a stable standing state in water.

Background

At present, in general, in fishing tackle for stable water waves, indoor shrimp fishing farms or indoor fishing farms, signals for fishing shrimps or fishing hooks are judged by the action, the rising or the falling of a float of the fishing tackle. Referring to fig. 1, a conventional buoy a includes a body a11 and two space beans a12 respectively penetrating the top and bottom ends of the body a 11. Wherein the body A11 and the space beans A12 are respectively provided with a fishing line A13 inside. When the buoy A meets the water flow A14 in water, when the fishing line A13 pulls the buoy A, the space bean A12 at the top end of the buoy A is influenced by the water flow A14, so that the space bean A12 forms a siphon effect at the break point A131 of the fishing line A13, the space bean A12 is inclined, the buoy A floats on the water surface in an inclined manner along with the inclination of the space bean A12, water is easy to enter an inner hole of the buoy A, the buoyancy of the buoy A is reduced, the floating speed of the buoy A is relatively slow, the fishing line A13 is independent of the buoy A, the direction of the buoy A floating on the water surface is influenced, the floating signal transmission of the buoy A is weakened, the stability of the buoy A in water is reduced, and the situation that a fisherman misjudges a fishing object to pull the fishing line A13 upwards is caused.

In order to improve the defect of the conventional float a, the inventor has developed another float structure of taiwan patent publication No. M471151, please refer to fig. 2, in which a float body 11 of the float structure 1 is penetrated from top to bottom to form a through hole 111, the through hole 111 is in a tapered shape with a wide top and a narrow bottom, and a weight block 12 and a bean stopper 13 located above the weight block 12 are accommodated in the through hole 111. This buoy structure 1 belongs to the sea fishing usefulness, in the practical use, meet the big rivers of wave when this buoy structure 1 in aqueous, make this fender beans 13 in this through-hole 111 sway, and communicate with each other with rivers in the below of this through-hole 111, and easily intake to this through-hole 111 in, this buoy structure 1's buoyancy not only reduces quick submergence again, and delay the speed that this buoy structure 1 floated the surface of water, influence the position that this buoy structure 1 floated the surface of water and weaken the floating signal of this buoy structure 1 and convey, cause the fishing friend to judge by mistake the signal of fishing the thing upper hook and with the situation that a fishing line 14 upwards pulled.

In order to improve the disadvantages of the other conventional buoy structure 1, the inventor has further developed another improved structure of the buoy disclosed in taiwan patent publication No. M525625, please refer to fig. 3, in which a buoy body section 21 of the buoy structure 2 has a plurality of upper through holes 211, lower through holes 212 and transverse through holes (not shown), and a tail section 213 and a leg section 214 are fixedly connected to the upper and lower ends of the buoy body section 21. In practical use, when the buoy structure 2 is in water, although water can enter rapidly due to the upper through holes 211, the lower through holes 212 and the transverse through holes of the buoy body section 21, the buoyancy of the buoy structure 2 is relatively reduced and the buoy structure sinks into water rapidly, and the floating speed of the buoy structure 2 is delayed, so that the floating direction of the buoy structure 2 is influenced, the floating signal transmission of the buoy structure 2 is weakened, the situation that a fisherman misjudges the signal of the hooked fish and pulls up a fishing line 22 is caused, and the practicability of the buoy structure 2 is greatly reduced.

In order to overcome the disadvantages of the conventional buoy structure 2, the inventor has developed a buoy for fishing shrimps in taiwan patent publication No. M575653, and please refer to fig. 4, in which the buoy 3 includes a floating body 31 and a central tube 32 having a through hole 321. The central tube 32 extends longitudinally through the float 31 to form a central axis of the buoy 3. In use, the fishing line 34 passes through the through hole 321 of the central tube 32, and the buoy 3 is fixed in position on the fishing line 34 by two tightening rings 33 respectively disposed on the top and bottom ends of the buoy 3. However, when the float 3 encounters water flow in the water and the fishing line 34 pulls the float 3, the tightening ring 33 at the top of the float 3 is affected by the water flow, so that the tightening ring 33 at the top of the float 3 forms a siphon effect at the break point 341 of the fishing line 34, the tightening ring 33 is inclined, which relatively causes the buoy 3 to float on the water surface in an inclined shape along with the inclination of the tightening ring 33, so that water is easy to enter the through hole 321 of the central tube 32, the buoyancy of the buoy 3 is reduced, the floating speed of the buoy 3 is slower, the fishing line 34 is independent of the buoy 3, the floating direction of the buoy 3 is influenced, the floating signal transmission of the buoy 3 is weakened, the stability of the buoy 3 in water is reduced, the situation that a fisherman misjudges the signal of the hooked fish to pull the fishing line 34 upwards is caused, and the practicability of the buoy 3 is also reduced.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the technical problem that will solve lies in: the buoy structure is specially used for buoys used in stable water waves or indoor shrimp fishing fields or indoor fishing fields, the buoys are used for the positioning pieces, when the fishing line pulls the buoy, the situation that the buoy is inclined due to the siphon effect formed by the broken point of the fishing line when the fishing line is pulled can be avoided, the buoy is not toppled and is stable in water, meanwhile, the resistance of the buoy in water is reduced, and a fisherman can quickly distinguish the hooked state of an object to be fished.

The technical means adopted by the utility model are as follows.

The utility model provides a buoy structure, which is specially used in a stable water wave or indoor shrimp fishing field or indoor fishing field, and comprises a floating body and two positioning pieces. The floating body comprises a containing hole positioned in the longitudinal shaft of the floating body and a pipe body which is arranged in the containing hole of the floating body and is provided with a combining hole. The positioning pieces are respectively placed in the bottom end of the floating body along the direction corresponding to the top end inside the combining hole of the pipe body, or are respectively placed in the directions corresponding to the top end and the bottom end inside the combining hole of the pipe body, wherein the positioning pieces are respectively provided with a vertical shrinkage hole for a fishing line to penetrate and be positioned.

Furthermore, the positioning elements are two buffer beans or two space beans.

Furthermore, the combining hole of the tube body is a single big hole which is concave from the combining hole to the direction of the top end of the combining hole and a small hole which is positioned between the single big hole and the bottom end of the combining hole and is used for the fishing line to penetrate, or a double big hole which is concave from the combining hole to the directions of the top end and the bottom end which are opposite to the combining hole and a small hole which is positioned between the double big holes and is used for the fishing line to penetrate, or a straight through hole; one end of each buffering bean is a convex arc body, the flat bottom of each convex arc body extends downwards to form a cylinder, the bottom of each cylinder forms an outer convex arc circle, the cylinder of one buffering bean is placed in the single big hole of the combination hole at the top end of the tube body, the convex arc body of the other buffering bean is abutted against the bottom end of the floating body, the fishing line penetrates and is positioned in each vertical contraction hole and the small hole of each buffering bean, or each cylinder of each buffering bean is placed in the double big holes at the top end and the bottom end of the tube body oppositely, the fishing line penetrates and is positioned in the small hole between each vertical contraction hole and the double big holes of each buffering bean, or each cylinder of each buffering bean is placed in the top end of the tube body oppositely, In the through hole at the bottom end, in each vertical shrinkage hole and the through hole of each buffering bean, the fishing line can penetrate and be positioned in each vertical shrinkage hole; wherein, each space bean is respectively arranged in the double big holes at the top and the bottom of the tube body, and each vertical shrinkage hole of each space bean and the small hole between the double big holes are used for the fishing line to penetrate and be positioned in each vertical shrinkage hole.

Furthermore, the tube body is in a hole shape matching the single large hole and the small hole, or the double large holes and the small hole, or the straight through hole formed by the combination holes of the tube body, and is in an appearance structure of a single large tube, or a double large tube, or a straight through tube which are mutually connected.

Furthermore, the shape of the containing hole of the floating body is matched with the shape structure of the pipe body.

Furthermore, each convex arc of each buffer bean is a fluorescent, luminous segment.

Furthermore, the positioning parts are a buffering bean and a marking foot rod; the floating body does not comprise the tube body and the combination hole in the tube body further comprises the containing hole positioned in the longitudinal shaft of the floating body, the top end inside the containing hole is a large hole for the buffer bean to be placed in, and an insertion hole which is positioned below the large hole at the top end inside the containing hole and used for the mark foot rod to be inserted in is arranged, and the fishing line penetrates through the vertical shrinkage hole and the mark foot rod inside the vertical shrinkage hole of the buffer bean and the mark foot rod.

Furthermore, the floating body is in an elliptical shape, a triangular cone shape, an elongated cone shape, a spherical ball shape or an elongated rod shape.

Furthermore, the floating body and the positioning pieces of the buoy are respectively connected in series by a metal wire body, and are respectively connected in series by a pull handle for fixedly connecting one end of each metal wire body to form a series connection group, wherein the other end, opposite to the metal wire body, of the metal wire body forms a through opening for the fishing line to pass through, and the positioning pieces are respectively placed in the bottom end of the floating body along the direction corresponding to the top end inside the combination hole of the pipe body or are respectively placed in the top end and the bottom end of the combination hole of the pipe body along the directions corresponding to the top end and the bottom end inside the combination hole.

Furthermore, the series connection group is packaged by a packaging bag.

The utility model has the advantages as follows: the utility model discloses this buoy borrows by these setting elements, and this buoy can be at the stable state of standing of aquatic, when this fishing line in this buoy of pulling, this buoy can not receive the influence of rivers and have this fishing line break point to form siphon effect and crooked for this buoy of location does not topple over, reduces the resistance to this buoy in the aquatic simultaneously, can improve the speed that this buoy floated the surface of water by a wide margin, and then makes the friend that angles distinguish the signal of being angled the thing and catching hold of the hook fast.

Drawings

FIG. 1: is a schematic diagram of the prior buoy.

FIG. 2: is a cross-sectional view of the structure configuration of a buoy of another existing taiwan patent publication No. M471151.

FIG. 3: is a cross-sectional view of a buoy structure of another taiwan patent publication No. M525625.

FIG. 4: is a cross-sectional view of a buoy for fishing shrimps in another existing Taiwan patent publication No. M575653.

FIG. 5: is the three-dimensional exploded view of the first embodiment of the floating body and the positioning piece of the buoy of the utility model.

FIG. 6: is an assembled perspective view of the buoy of fig. 5.

FIG. 7: a cross-sectional view of the first embodiment of the float and tube and the arrangement of the cushioning bean of fig. 5 is shown.

FIG. 8: a cross-sectional view of a second embodiment of the float and tube and the arrangement of the cushioning bean of fig. 5 is shown.

FIG. 9: a cross-sectional view of a third embodiment of the float and tube and the arrangement of the cushioning bean of fig. 5 is shown.

FIG. 10: a cross-sectional view of a fourth embodiment of the buoy and tube and the arrangement with the space beam of fig. 5.

FIG. 11: is the cross section of the floating body second embodiment and the buffering bean configuration of the utility model.

FIG. 12: is the cross section of the floating body third embodiment and the buffering bean configuration of the utility model.

FIG. 13: the utility model discloses the cross-sectional view of the fourth embodiment of body of buoy and buffering beans, the configuration of sighting rod.

FIG. 14: the buoy of the utility model is provided with a floating body, a positioning piece, a metal wire body and a pull handle which are arranged in series and are packaged in packaging bags in different patterns.

Description of the figure numbers:

existing

A: float for angling

A11: body

A12: space bean

A13: fishing line

A131: break point

A14: water flow

1: buoy structure

11: buoy body

111: through hole

12: balancing weight

13: bean blocking device

14: fishing line

2: buoy structure

21: marking section

211: upper through hole

212: lower through hole

213: end section

214: marking leg section

22: fishing line

3: float for angling

31: floating body

32: central tube

321: perforation

33: fastening ring

34: fishing line

341: break point

The utility model discloses

4: float for angling

5: floating body

51: containing hole

511: macropore

512: jack hole

52: pipe body

520: combining hole

522: single large hole

523: small hole

524. 525: double macropore

526: small hole

527: straight-through hole

6: locating piece

61: buffering bean

610. 620: vertical shrinkage hole

611: convex arc body

612: cylinder body

613: convex arc circle

62: space bean

63: mark foot rod

64: metal wire body

641: one end of

642: piercing port

65: pull handle

7: fishing line

8: water flow

6 a: series connection group

61 a: and (6) packaging the bag.

Detailed Description

Referring to fig. 5 and 6 in combination with fig. 7 to 10, the buoy structure of the present invention is especially suitable for use in stable water waves, indoor shrimp fishing fields or indoor fishing fields. The buoy 4 comprises a floating body 5 and two positioning members 6. The floating body 5 includes a receiving hole 51 formed in a longitudinal axis of the floating body 5, and a tube 52 inserted into the receiving hole 51 of the floating body 5 and having a coupling hole 520. In one embodiment, the floating body 5 is elliptical, triangular conical as shown in fig. 11, elongated conical as shown in fig. 12, spherical as shown in fig. 13, or elongated rod as shown in fig. 14, but not limited thereto.

Referring to fig. 5 and 6 in conjunction with the first to fourth embodiments of the tube 52 shown in fig. 7 to 10, the combining hole 520 of the tube 52 is a single large hole 522 recessed from the combining hole 520 to the top end of the combining hole 520 and a small hole 523 located between the single large hole 522 and the bottom end of the combining hole 520, or a double

large holes

524 and 525 recessed from the combining hole 520 to the top and bottom ends of the combining hole 520 and a small hole 526 located between the double

large holes

524 and 525, or a straight through hole 527. More specifically, the tube 52 is formed by matching the hole shapes of the single large hole 522 and the small hole 523, or the double

large holes

524 and 525 and the small hole 526, or the through hole 527 formed by the combining hole 520 of the tube 52, and is a single large tube (as shown in fig. 7), or a double large tube (as shown in fig. 8 and 10, and fig. 11 and 12), or a straight tube (as shown in fig. 9). In addition, the shape of the receiving hole 51 of the floating body 5 is configured to match the external configuration of the tube 52, and is not limited thereto.

The positioning members 6 are two buffer beans 61 or two space beans 62 as shown in fig. 10. In the embodiment shown in fig. 7 to 10, the buffer beans 61 or the space beans 62 are respectively inserted into and disposed at the bottom end of the floating body 5 along the direction corresponding to the top end inside the combining hole 520 of the tube 52, or respectively inserted into the tube 52 along the direction corresponding to the top end and the bottom end inside the combining hole 520.

Referring to fig. 7 to 10, the buffer beans 61 or the space beans 62 have vertical shrink holes 610 and 620, respectively. Wherein, one end of each buffering bean 61 is a convex arc 611 with buffering effect, a cylinder 612 extends downwards from the flat bottom of each convex arc 611, a convex arc 613 is formed at the bottom of each cylinder 612, the cylinder 612 of one buffering bean 61 is placed in the single large hole 522 of the combining hole 520 at the top end of the tube 52, the convex arc 611 of the other buffering bean 61 abuts against the bottom end of the floating body 5, each vertical shrinkage hole 610 and the small hole 523 of each buffering bean 61 are provided for the fishing line 7 to pass through and be positioned in each vertical shrinkage hole 610, so that the fishing line 7 is guided, and the buoy 4 is fixed at a proper position of the fishing line 7 by the fact that one space bean 62 abuts against the lower part of the convex arc 613 of the other buffering bean 61 outside the bottom end of the buoy 4, or each cylinder 612 of each buffering bean 61 is placed in the tube 52 relatively, In the double large holes 524, 525 at the bottom end, in each vertical shrinkage hole 610 of each buffer bean 61 and the small hole 526 between the double large holes 524, 525, for the fishing line 7 to pass through and be positioned at each vertical shrinkage hole 610, so as to guide the fishing line 7, and by means of one space bean 62 abutting against the lower part of the convex arc body 611 of the buffer bean 61 inside the bottom end of the buoy 4, the buoy 4 is fixed at the proper position of the fishing line 7, or by means of each cylinder 612 of each buffer bean 61 being oppositely placed into the through hole 527 at the top and bottom end of the tube body 52, in each vertical shrinkage hole 610 and the through hole 527 of each buffer bean 61, for the fishing line 7 to pass through and be positioned at each vertical shrinkage hole 610, so as to guide the fishing line 7, and by means of one space bean 62 abutting against the lower part of the convex arc body 611 of the buffer bean 61 inside the bottom end of the buoy 4, the float 4 is fixed in position on the fishing line 7. Each of the space beans 62 is respectively placed in the two

large holes

524, 525 at the top and bottom ends of the tube 52, and each of the vertical shrinkage holes 620 of each of the space beans 62 and the small hole 526 between the two

large holes

524, 525 are used for the fishing line 7 to penetrate and be positioned in each of the vertical shrinkage holes 620, so that the fishing line 7 is guided, and the buoy 4 is fixed at a proper position of the fishing line 7 by the fact that one of the space beans 62 abuts against the lower side of the space bean 62 in the bottom end of the buoy 4.

Referring to fig. 13, the positioning members 6 are a buffering bean 61 and a pin 63. The floating body 5 does not include the tube 52 and the combining hole 520 in the tube 52 further includes the accommodating hole 51 located in the longitudinal axis of the floating body 5, the top end inside the accommodating hole 51 is a large hole 511 for the buffering bean 61 to be inserted, and a plug hole 512 located below the large hole 511 at the top end inside the accommodating hole 51 and for the pin rod 63 to be inserted, and inside the vertical shrinkage hole 610 of the buffering bean 61 and the pin rod 63, the fishing line 7 is extended and positioned in the vertical shrinkage hole 610 and the pin rod 63, so that the fishing line 7 is guided, and the buoy 4 is fixed in place by the convex arc 611 of the other buffering bean 61 abutting against the bottom end inside the pin rod 63 of the buoy 4, and by the convex arc 613 of the other buffering bean 62 abutting against the outer arc 613 of the other buffering bean 61. Therefore, the buoy 4 can keep a stable standing state in water, and when the fishing line 7 pulls the buoy 4, the buoy 4 can be prevented from being pulled by the fishing line 7 to lie down.

In one embodiment, each convex arc 611 of each buffer bean 61 is a fluorescent and luminous segment, which facilitates the visual function of the fishing players at night.

Referring to fig. 14 in conjunction with fig. 7, 8, 10 and 13, the floating body 5 and the positioning members 6 of the buoy 4 of the present invention are configured such that the floating body 5 and the positioning members 6 of the buoy 4 are connected in series by a metal wire 64 and a pull handle 65 for fixing one end 641 of each metal wire 64 to form a series connection group 6a, and then the series connection groups 6a are packaged into different shapes by a packaging bag 61a, so that the fishing tackle can be adjusted and matched for use in a stable water wave, an indoor shrimp fishing farm or an indoor fishing farm. The opposite end of the metal wire 64 forms a through hole 642 for the fishing line 7 to pass through, and the positioning members 6 can be inserted into and disposed at the bottom end of the floating body 5 by the positioning members 6 respectively along the direction corresponding to the top end inside the combining hole 520 of the tube 52, or inserted into the combining hole 520 of the tube 52 along the directions corresponding to the top and bottom ends, so that the buoy 4 is fixed at the proper position of the fishing line 7.

Referring to fig. 5 and 6 in conjunction with fig. 7 to 9, the buoy 4 of the present invention can be used in a stable water wave or indoor shrimp fishing field or indoor fishing field, and the position of the buoy 4 is adjusted, and the top end inside the combining hole 520 of the tube 52 of the floating body 5 and the bottom end of the floating body 5, or the opposite top and bottom ends inside the combining hole 520 of the tube 52 of the floating body 5 are respectively inserted into the buffer beans 61, or the space beans 62 as shown in fig. 10, so that the buffer beans 61, or the space beans 62 are inserted into the fishing line 7 at one end and are inserted into the water flow 8, and the buoy 4 is inserted into the water flow 8 through the buffer beans 61, or the space beans 62 inserted into the combining hole 520 of the tube 52 of the floating body 5, so that when the buoy 4 encounters the water flow 8 in water, the fishing line 7 is inclined due to the siphon effect formed at the folding point of the fishing line 7, the buoy 4 can not be driven to move by the resistance of the water flow 8, the speed of the buoy 4 floating out of the water surface can be greatly increased, and the buoy 4 can be kept in a stable standing state in water, so that the stability of the buoy 4 in water is improved, a signal for a fisherman to hook an object to be fished can be rapidly distinguished, the floating noise of the buoy 4 is reduced, and the situation that the fishing line 7 is pulled upwards due to the fact that the fishline is hooked by the object to be fished by mistake is not easy to occur.

To sum up, compare the produced shortcoming of this buoy A, 1, 2, 3 that gains earlier, the utility model discloses borrow by these setting elements 6 and put into this combination hole 520 inside top and this body 5 bottom of this body 52 of this body 5, or the inside relative top, the bottom of this combination hole 520 of this body 52 of this body 5, when this fishing line 7 is when this buoy 4 of pulling, this buoy 4 can not receive the influence of rivers 8 and have this fishing line 7 breakpoint formation siphon effect and crooked, can avoid this buoy 4 to empty, also can not receive rivers 8's resistance and drive this buoy 4 displacement, can improve the speed that this buoy 4 floated the surface of water by a wide margin, help conveying the signal that is fished the thing and hooks up fast.

Claims

1. A buoy structure, especially for use in stable water waves or indoor shrimp fishing farms or indoor fishing farms, comprising

The floating body comprises a containing hole positioned in the longitudinal axis of the floating body and a pipe body which is arranged in the containing hole of the floating body and is provided with a combining hole; and

and the positioning pieces are respectively placed in the bottom end of the floating body along the direction corresponding to the top end inside the combination hole of the pipe body or respectively placed in the directions corresponding to the top end and the bottom end inside the combination hole of the pipe body, and the positioning pieces are respectively provided with a vertical shrinkage hole for a fishing line to penetrate through for positioning.

2. The buoy structure of claim 1, wherein the positioning members are two buffering beans or two space beans.

3. The buoy structure as claimed in claim 2, wherein the combining hole of the tube is a single large hole recessed from the combining hole to the top end of the combining hole and a small hole between the single large hole and the bottom end of the combining hole for the fishing line to pass through, or a double large hole recessed from the combining hole to the top and bottom ends opposite to the combining hole and a small hole between the double large holes for the fishing line to pass through, or a straight through hole; one end of each buffering bean is a convex arc body, the flat bottom of each convex arc body extends downwards to form a cylinder, the bottom of each cylinder forms an outer convex arc circle, the cylinder of one buffering bean is placed in the single big hole of the combination hole at the top end of the tube body, the convex arc body of the other buffering bean is abutted against the bottom end of the floating body, the fishing line penetrates and is positioned in each vertical contraction hole and the small hole of each buffering bean, or each cylinder of each buffering bean is placed in the double big holes at the top end and the bottom end of the tube body oppositely, the fishing line penetrates and is positioned in the small hole between each vertical contraction hole and the double big holes of each buffering bean, or each cylinder of each buffering bean is placed in the top end of the tube body oppositely, In the through hole at the bottom end, in each vertical shrinkage hole and the through hole of each buffering bean, the fishing line can penetrate and be positioned in each vertical shrinkage hole; wherein, each space bean is respectively arranged in the double big holes at the top and the bottom of the tube body, and each vertical shrinkage hole of each space bean and the small hole between the double big holes are used for the fishing line to penetrate and be positioned in each vertical shrinkage hole.

4. The buoy structure defined in claim 3 wherein the tube is in the shape of a hole formed by the single large hole and the small hole or the double large holes and the small hole or the through hole and formed by matching the combination holes of the tube, and is in the shape of a single large tube, or a double large tube, or a straight tube.

5. The buoy structure as claimed in claim 4, wherein the hole shape of the receiving hole of the floating body is configured to match the external configuration of the pipe body.

6. The buoy structure of claim 3, wherein each convex arc of each buffering bean is a fluorescent, luminescent segment.

7. The buoy structure of claim 1, wherein the positioning members are a cushioning bean and a foot bar; the floating body does not comprise the tube body and the combination hole in the tube body further comprises the containing hole positioned in the longitudinal shaft of the floating body, the top end inside the containing hole is a large hole for the buffer bean to be placed in, and an insertion hole which is positioned below the large hole at the top end inside the containing hole and used for the mark foot rod to be inserted in is arranged, and the fishing line penetrates through the vertical shrinkage hole and the mark foot rod inside the vertical shrinkage hole of the buffer bean and the mark foot rod.

8. The buoy structure of claim 1, wherein the float is in the shape of an oval, or a triangular cone, or an elongated cone, or a sphere, or an elongated rod.

9. The buoy structure of claim 1, wherein the floating body and the positioning members of the buoy are respectively connected in series by a metal wire and are respectively connected in series by a pull handle for fixing one end of each metal wire to form a series connection set, wherein the opposite end of the metal wire forms a through opening for the fishing line to pass through, and the positioning members are respectively placed in the direction corresponding to the top end of the interior of the combining hole of the tube body and are arranged at the bottom end of the floating body, or are respectively placed in the direction corresponding to the top end and the bottom end of the interior of the combining hole of the tube body.

10. The buoy structure of claim 9, wherein the concatenated group is packaged in a packaging bag.