CN212753889U - Reverse-pull hook buoy - Google Patents

Abstract

The utility model discloses a reverse draw hook buoy, which comprises a floating ball, wherein a positioning cylinder is inserted on the floating ball, a guide cylinder is arranged in the positioning cylinder, a push-pull rod extending into the guide cylinder is arranged in the positioning cylinder in a sliding manner, an outer expansion sleeve adapted to the inner wall of the guide cylinder is arranged on the push-pull rod, and a first rebound mechanism is arranged between the outer expansion sleeve and the guide cylinder; an inner expansion sleeve is arranged at an expansion opening of the outer expansion sleeve, a second rebounding mechanism is arranged between the outer expansion sleeve and the inner expansion sleeve, and a hook connecting bus is arranged at the bottom of the inner expansion sleeve. The utility model discloses a reverse-pulling hook is cursory belongs to fishing tackle technical field, can be when the fish bites the hook automatic drag hook, and when the fish bites the fishhook on the hook generating line, can drag the bounce-back trigger downwards, the bounce-back trigger can trigger the bounce-back ware and slide upwards fast in the guide cylinder, drive the bounce-back trigger, connect the hook generating line to slide upwards fast, can hook the fish.

Description

Reverse-pull hook buoy

Technical Field

The utility model relates to a fishing tackle technical field, more specifically say that it relates to a reverse fishhook is cursory.

Background

The fishing float is a tool for the information reaction of fish biting when fishing. People can judge the eating condition of the fish through the action of the float so as to determine the timing of lifting the rod, and can judge what fish is biting the hook through the action of the float.

Therefore, the float is an important link for harvesting the fish. The float is made of lighter materials, most of the existing floats are made of chemical products or feather, wood and bamboo of birds, and the float has different performances and various shapes. According to the difference of self-weight and buoyancy of the float, the float can be divided into a hollow float and a solid float. The hollow float has small self weight, large buoyancy and sensitive reaction; the solid float has good stability but is not sensitive. The float can be divided into a horizontal float and a vertical float according to the shape of the float. The lying float is a commonly-known seven-star float, when fishing, the particle float is scattered on the water surface, the sensitivity is high, the vibration is small when the rod is lifted, but the lying float is not suitable for fishing when the wind and the waves are large. The vertical float is a float which is vertically arranged in water, and is commonly in a rod shape, a cone shape, a round shape, a gyro shape and the like.

The existing float can only play a certain warning role, and when a fish bites the hook, a fisherman cannot find the fish to be hooked immediately due to factors such as eyesight and environmental interference, so that the optimal time for getting free of fishing can be missed.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to the above-mentioned some not enough of prior art, the utility model aims at providing a can be when the fish bite the anti-fishhook float of automatic drag hook.

In order to achieve the purpose, the utility model provides a reverse-pull hook buoy, which comprises a floating ball, wherein a positioning cylinder is inserted on the floating ball, a guide cylinder is arranged in the positioning cylinder, a push-pull rod extending into the guide cylinder is arranged in the positioning cylinder in a sliding manner, an outer expansion sleeve adapted to the inner wall of the guide cylinder is arranged on the push-pull rod, and a first rebound mechanism is arranged between the outer expansion sleeve and the guide cylinder; an inner expansion sleeve is arranged at an expansion opening of the outer expansion sleeve, a second rebounding mechanism is arranged between the outer expansion sleeve and the inner expansion sleeve, and a hook connecting bus is arranged at the bottom of the inner expansion sleeve.

Further, the first rebounding mechanism comprises a first spring, the upper end and the lower end of the first rebounding mechanism are respectively connected with the top of the guide cylinder and the top of the outer expanding sleeve; the second rebounding mechanism comprises a guide rod which is arranged on the outer expansion sleeve and axially inserted into the inner expansion sleeve, and a second spring is arranged between the guide rod and the top wall of the inner expansion sleeve.

Furthermore, a screw cap is arranged at the top of the guide cylinder, the push-pull rod can relatively slide and penetrate through the screw cap to be connected with the top of the outer expansion sleeve, and a first connecting piece and a second connecting piece which are respectively connected with the upper end and the lower end of the first spring are arranged at the bottom of the screw cap and the top of the outer expansion sleeve.

Furthermore, a nut is arranged at the bottom of the guide rod, and the second spring is arranged between the nut and the top wall of the inner expansion sleeve; the side wall of the inner expansion sleeve is provided with a position adjusting hole, and one side of the nut is provided with a clamping hole which can be matched with the position adjusting hole.

As a further improvement, the bottom of the side wall of the outer expansion sleeve is opened and provided with at least two cutting grooves, and the top of the inner expansion sleeve is provided with a top cone part capable of expanding the side wall at the bottom of the outer expansion sleeve.

Furthermore, the bottom end of the outer wall of the outer expansion sleeve is provided with a convex edge which is matched with the inner wall of the guide cylinder.

As a further improvement, a weight piece is arranged at the bottom end of the positioning cylinder, the hook connecting bus can penetrate through the weight piece from top to bottom, an annular groove is formed in the side wall of the weight piece, and a lead sheet is arranged on the annular groove.

Furthermore, an underwater float capable of adjusting position up and down is sleeved at the bottom of the positioning cylinder, and the underwater float is a long floating ball with a wide upper part and a narrow lower part.

Furthermore, a plurality of water holes are formed in the wall of the positioning cylinder.

Advantageous effects

Compared with the prior art, the utility model discloses a reverse hook floats beneficial effect as follows:

(1) the reverse draw hook float of the utility model can automatically draw the hook when the fish bites the hook, and the reaction is rapid;

(2) the reverse draw hook of the utility model floats, the push-pull rod pushes the rebound device downwards by pressing the prompter, and then the rebound device is mutually clamped with the guide cylinder under the action of the rebound trigger; when a fish bites a fishhook on the hook bus, the rebounding trigger can be dragged downwards, the rebounding trigger can separate the rebounding device from the guide cylinder, so that the rebounding device slides upwards in the guide cylinder quickly, the rebounding device drives the rebounding trigger to slide upwards quickly, the rebounding trigger pulls the hook bus upwards, and the fishhook on the hook bus can hook the fish.

Drawings

FIG. 1 is a sectional view of the reverse hook float of the present invention;

FIG. 2 is an enlarged cross-sectional view of the structure of the combination of the guide cylinder, the rebounder and the rebounding trigger;

fig. 3 is an enlarged sectional view of the structure of the combination of the rebound trigger and the rebound trigger of the present invention;

fig. 4 is an enlarged schematic view of the structure of the middle rebounder of the present invention;

fig. 5 is an enlarged schematic view of the structure of the middle bounce trigger of the present invention;

fig. 6 is a schematic structural view of the reverse hook float with the underwater float of the present invention.

In the figure: 1. a floating ball; 2. a positioning cylinder; 3. a guide cylinder; 4. a push-pull rod; 5. a rebounder; 6. a bounce trigger; 7. a hook connecting bus; 8. an external expansion sleeve; 9. an inner expansion sleeve; 10. a first spring; 11. a guide bar; 12. a second spring; 13. a screw cap; 14. a first connecting member; 15. a second connecting member; 16. a nut; 17. a positioning hole; 18. a clamping hole; 19. cutting a groove; 20. a nose cone portion; 21. a convex edge; 22. a counterweight; 23. an annular groove; 24. lead skin; 25. a water pore; 26. a first screw; 27. a second screw; 28. a prompter; 29. and (5) floating underwater.

Detailed Description

The present invention will be further described with reference to the following examples, which are not intended to limit the scope of the present invention, but are intended to be covered by the appended claims in any way.

The specific embodiment of the present invention is such: referring to fig. 1-6, a reverse-pull hook buoy comprises a floating ball 1, a positioning cylinder 2 is inserted on the floating ball 1, a guide cylinder 3 is arranged in the positioning cylinder 2, a push-pull rod 4 extending into the guide cylinder 3 is slidably arranged in the positioning cylinder 2, the top end of the push-pull rod 4 is connected with a fishing line of a fishing rod, an outer expansion sleeve 8 matched with the inner wall of the guide cylinder 3 is arranged on the push-pull rod 4, a first rebound mechanism is arranged between the outer expansion sleeve 8 and the guide cylinder 3, and the outer expansion sleeve 8 and the first rebound mechanism form a rebound device 5; an inner expansion sleeve 9 is arranged at the expansion opening of the outer expansion sleeve 8, a second rebounding mechanism is arranged between the outer expansion sleeve 8 and the inner expansion sleeve 9, the inner expansion sleeve 9 and the second rebounding mechanism form a rebounding trigger 6, and a hook connecting bus 7 is arranged at the bottom of the inner expansion sleeve 9.

The bottom of the hook connecting bus 7 is provided with an 8-shaped connecting buckle, the bottom end of the hook connecting bus 7 is provided with a fishhook, and the top end of the push-pull rod 4 is provided with a prompter 28 matched with the inner hole of the positioning cylinder 2.

In the reverse-pull hook buoy, the push-pull rod 4 pushes the rebounder 5 downwards by pressing the prompter 28, and then the rebounder 5 is clamped with the guide cylinder 3 under the action of the rebounding trigger 6; when a fish bites a fishhook on the hook bus 7, the rebounding trigger 6 is dragged downwards, the rebounding trigger 6 can separate the rebounding device 5 from the guide cylinder 3, so that the rebounding device 5 slides upwards in the guide cylinder 3 quickly, the rebounding trigger 5 drives the rebounding trigger 6 to slide upwards quickly, the rebounding trigger 6 pulls the hook bus 7 upwards, and the fish can be hooked by the fishhook on the hook bus 7; therefore, the reverse draw hook buoy can automatically draw the hook when a fish bites the hook, and the reaction is quick.

The inner expansion sleeve 9 can extrude the expansion opening of the outer expansion sleeve 8 through the rebound effect of the second rebound mechanism, so that the outer wall of the bottom end of the outer expansion sleeve 8 is abutted against the inner wall of the guide cylinder 3, and the outer expansion sleeve 8 and the guide cylinder 3 are positioned under the friction effect;

the cover 8 expands outward, interior bloated cover 9 is plastic construction, the fishhook on the connecing hook generating line 7 of interior bloated cover 9 receives the pulling of fish when, interior bloated cover 9 can the lapse, interior bloated cover 9 separates with outer bloated cover 8, the mouth that expands of outer bloated cover 8 contracts, there is the clearance outer wall of outer bloated cover 8 and the inner wall of guide cylinder 3, thereby make outer bloated cover 8 upwards quick slip under the bounce-back effect of first bounce-back mechanism, also upwards slide through the bloated cover 9 in the drive of second bounce-back mechanism simultaneously, thereby will connect the fishhook on the hook generating line 7 to upwards draw.

In this embodiment, the first rebounding mechanism includes a first spring 10 having upper and lower ends respectively connected to the top of the guide cylinder 3 and the top of the outer expanding sleeve 8; the second rebounding mechanism comprises a guide rod 11 which is arranged on the outer expansion sleeve 8 and axially inserted into the inner expansion sleeve 9, and a second spring 12 is arranged between the guide rod 11 and the top wall of the inner expansion sleeve 9.

The top of the guide cylinder 3 is provided with a screw cap 13, the push-pull rod 4 can relatively slide and pass through the screw cap 13 to be fixedly connected with the top of the outer expansion sleeve 8, and the bottom of the screw cap 13 and the top of the outer expansion sleeve 8 are provided with a first connecting piece 14 and a second connecting piece 15 which are respectively connected with the upper end and the lower end of the first spring 10. The push-pull rod 4 is fixedly connected with the outer expansion sleeve 8 and is in sliding connection with the screw cap 13.

When the push-pull rod 4 pushes the outer expansion sleeve 8 downwards to the bottom end opening of the guide cylinder 3, the outer wall of the outer expansion sleeve 8 expands outwards under the extrusion of the inner expansion sleeve 9, so that the outer expansion sleeve and the guide cylinder 3 are positioned; at this time, the distance between the first link 14 and the second link 15 becomes large, and the first spring 10 is stretched to have a stretch repulsive force.

In the embodiment, the bottom of the guide rod 11 is provided with a nut 16, the guide rod 11 is provided with a thread structure connected with the nut 16, and the second spring 12 is arranged between the nut 16 and the top wall of the inner expansion sleeve 9; the side wall of the inner expanding sleeve 9 is provided with a position adjusting hole 17, and one side of the nut 16 is provided with a clamping hole 18 which can be matched with the position adjusting hole 17. The position of the nut 16 on the guide rod 11 can be adjusted by inserting the pin into the position adjusting hole 17 and the clamping hole 18 and then rotating the inner expansion sleeve 9, and the compressed amplitude of the second spring 12 is adjusted, so that the elastic force of the second spring 12 is adjusted, and the extrusion force of the inner expansion sleeve 9 on the expansion opening of the outer expansion sleeve 8 can be adjusted; when a fish bites the hook, the strength of the pulling hook-connecting bus 7 corresponds to the elastic force of the second spring 12, and the elastic force of the second spring 12 is adjusted, so that the size of the fish which is prevented from being fished by the reverse-pulling hook buoy can be adjusted, the requirement of a fisher is met, and the fish which is prevented from being fished is too small.

In this embodiment, the first connecting member 14 and the second connecting member 15 are hollow screw structures, and the push-pull rod 4 is disposed through the hollow screw structures; the push-pull rod 4 is fixedly connected with the outer expansion sleeve 8, the guide rod 11 is a guide section at the bottom end of the push-pull rod 4, penetrates through the outer expansion sleeve 8 and reaches the inner expansion sleeve 9, and the nut 16 is arranged on the guide section.

In this embodiment, the bottom of the side wall of the outer expanding sleeve 8 is opened and is provided with at least two cutting grooves 19, the top of the inner expanding sleeve 9 is provided with an apex cone portion 20 which can outwards eject the side wall of the bottom of the outer expanding sleeve 8, the side wall of the outer expanding sleeve 8 is divided into two or more pieces by the arrangement of the cutting grooves 19, then the side wall of the outer expanding sleeve 8 can be elastically deformed, and the conical surface of the apex cone portion 20 can outwards eject the side walls of the outer expanding sleeve 8.

In this embodiment, the bottom of the outer wall of the outer expansion sleeve 8 is provided with a convex edge 21 adapted to the inner wall of the guide cylinder 3, when the outer expansion sleeve 8 expands, the convex edge 21 can block the bottom of the guide cylinder 3, and a transition chamfer is arranged between the convex edge 21 and the outer wall of the outer expansion sleeve 8, so that the axial spacing reliability of the outer expansion sleeve 8 and the guide cylinder 3 is further ensured, the relative looseness of the easy occurrence of the condition such as collision and the like can be avoided, and the reliability of the rebounder 5 is ensured.

In this embodiment, the bottom end of the positioning cylinder 2 is provided with a weight 22, the hook connecting bus 7 can penetrate through the weight 22 from top to bottom, the side wall of the weight 22 is provided with an annular groove 23, the annular groove 23 is provided with a lead sheath 24, the weight 22 is of a cylindrical structure adapted to the inner wall of the positioning cylinder 2, and the annular groove 23 is arranged on the cylindrical surface of the cylindrical structure.

In the embodiment, the bottom of the positioning cylinder 2 is sleeved with an underwater float 29 which can be adjusted up and down, the underwater float 29 is an oval float with a wide upper part and a narrow lower part, and the underwater float 29 is underwater; under the conditions that the water surface fluctuates and the underwater undercurrent does not exist, the floating ball 1 on the water surface fluctuates along with the water flow, but the underwater float 29 under the water cannot displace to a large extent, so that the underwater float 29 can position the whole float at the position when the float is thrown, the condition of serious water leakage cannot occur, and the whole float cannot flow along with the water flow and greatly leave the position of the float.

When the flow rate of the underwater undercurrent is overlarge, the underwater buoy 29 can be removed, the water flow impact force on the bottom of the buoy is reduced, and the flow of the buoy is reduced.

In the embodiment, the distance between the underwater float 29 and the floating ball 1 is 10-15 cm.

In this embodiment, a plurality of water holes 25 are formed on the wall of the positioning cylinder 2, and the water holes 25 facilitate the discharge of water entering the positioning cylinder 2.

In this embodiment, the sidewall of the positioning cylinder 2 is provided with a first screw 26 connected with the guide cylinder 3, and the sidewall of the positioning cylinder 2 is provided with a water hole 25 adapted to the top end of the guide cylinder 3. The side wall of the bottom end of the positioning cylinder 2 is provided with a second screw 27 connected with the counterweight 22.

The working process is as follows:

the top position of a prompter 28 connected with the middle push-pull rod 4 is pressed down, the outer expansion sleeve 8 fixed on the push-pull rod 4 and the inner expansion sleeve 9 are pushed together to the port of the guide cylinder 3, the inner expansion sleeve 9 automatically pushes open an expansion sheet at the expansion port at the bottom of the outer expansion sleeve 8 during boundary, the expansion sheet and the port of the guide cylinder 3 are clamped and positioned mutually, and a hook connecting bus 7 on the inner expansion sleeve 9 is connected with a sub-line with a hook; when a fish bites the hook, the hook on the sub-line is pulled to touch the inner expansion sleeve 9, the inner expansion sleeve 9 can be separated from the outer expansion sleeve 8 instantly in boundary, and when the outer expansion sleeve 8 does not have the jacking of the inner expansion sleeve 9, the outer expansion sleeve 8 and the inner expansion sleeve 9 can be pulled back to the guide cylinder 3 in an instant reverse pulling mode, so that the purpose of reverse pulling the hook is achieved, the reaction speed is high, the operation is simple and convenient, and a fisher can easily understand the operation by hands.

The above is only a preferred embodiment of the present invention, and it should be noted that for those skilled in the art, without departing from the structure of the present invention, several modifications and improvements can be made, which will not affect the utility of the invention and the utility of the patent.

Claims (9)

1. A reverse draw hook buoy comprises a floating ball (1), and is characterized in that a positioning cylinder (2) is inserted on the floating ball (1), a guide cylinder (3) is arranged in the positioning cylinder (2), a push-pull rod (4) extending into the guide cylinder (3) is slidably arranged in the positioning cylinder (2), an outer expansion sleeve (8) adapted to the inner wall of the guide cylinder (3) is arranged on the push-pull rod (4), and a first reverse-spring mechanism is arranged between the outer expansion sleeve (8) and the guide cylinder (3); the expansion joint of the outer expansion sleeve (8) is provided with an inner expansion sleeve (9), a second rebounding mechanism is arranged between the outer expansion sleeve (8) and the inner expansion sleeve (9), and the bottom of the inner expansion sleeve (9) is provided with a hook connecting bus (7).

2. A counter-hook float according to claim 1, wherein the first rebounding mechanism comprises a first spring (10) having upper and lower ends respectively connected to the top of the guide cylinder (3) and the top of the outer expanding sleeve (8); the second rebounding mechanism comprises a guide rod (11) which is arranged on the outer expanding sleeve (8) in the axial direction and is inserted into the inner expanding sleeve (9), and a second spring (12) is arranged between the guide rod (11) and the top wall of the inner expanding sleeve (9).

3. A counter-hook buoy according to claim 2, characterized in that the top of the guide cylinder (3) is provided with a threaded cap (13), the push-pull rod (4) is slidably connected with the top of the outer expansion sleeve (8) through the threaded cap (13), and the bottom of the threaded cap (13) and the top of the outer expansion sleeve (8) are provided with a first connecting piece (14) and a second connecting piece (15) which are respectively connected with the upper end and the lower end of the first spring (10).

4. A counter-hook float according to claim 3, characterized in that the bottom of the guide bar (11) is provided with a nut (16), and the second spring (12) is arranged between the nut (16) and the top wall of the inner expansion sleeve (9); the side wall of the inner expansion sleeve (9) is provided with a position adjusting hole (17), and one side of the nut (16) is provided with a clamping hole (18) which can be matched with the position adjusting hole (17).

5. A counter-hook buoy according to claim 1 or 2 or 3 or 4 characterized in that the bottom of the side wall of the outer expansion sleeve (8) is open and provided with at least two cut grooves (19), and the top of the inner expansion sleeve (9) is provided with a tip cone (20).

6. A counter-hook float according to claim 5, characterized in that the bottom end of the outer wall of the outer expansion sleeve (8) is provided with a protruding edge (21) adapted to the inner wall of the guide cylinder (3).

7. A counter-hook buoy according to claim 5 characterized in that the bottom end of the positioning cylinder (2) is provided with a weight (22), the hook connecting bus (7) can pass through the weight (22) up and down, the side wall of the weight (22) is provided with an annular groove (23), and the annular groove (23) is provided with a lead sheet (24).

8. A counter-hook buoy according to claim 6 or 7 characterized in that the bottom of the positioning cylinder (2) is sleeved with an underwater buoy (29) which can be adjusted up and down, and the underwater buoy (29) is a long floating ball which is wide at the top and narrow at the bottom.

9. A counter-hook buoy according to claim 8, characterized in that the wall of the positioning cylinder (2) is provided with a plurality of water holes (25).

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