CN220326586U

CN220326586U - Winding device for full-automatic fishhook wire binding machine

Info

Publication number: CN220326586U
Application number: CN202321810826.5U
Authority: CN
Inventors: 张孝勇; 刘小飞
Original assignee: Individual
Current assignee: Individual
Priority date: 2023-07-11
Filing date: 2023-07-11
Publication date: 2024-01-12
Anticipated expiration: 2033-07-11

Abstract

The utility model discloses a winding device for a full-automatic fishhook wire binding machine, which comprises a winding component, a rotary driving piece and a linear displacement driving piece; the winding component is used for hooking and pulling the straightened fish wire to form a triangular coil; the rotary driving piece is used for driving the winding component to rotate when the tail of the fishhook is positioned in the coil, so that the fishline is wound on the tail of the fishhook; the linear displacement driving piece is used for driving the winding component to be close to the straightened fish line, and driving the winding component to do linear motion along the tail axis of the hook when the rotation driving piece drives the winding component to rotate. The winding device is simple in structure and simple in winding process, and the functions of automatically separating the fishhook from the winding component are integrated after the fishhook is wound and the winding is finished; when winding, the winding component can rotate and move along the axial direction of the fishhook at the same time, so that the fishline is uniformly wound on the fishhook.

Description

Winding device for full-automatic fishhook wire binding machine

Technical Field

The utility model relates to the technical field of fishing gear production equipment, in particular to a winding device for a full-automatic fishhook wire binding machine.

Background

The current fishline binding machine is used for winding the fishline on the fishhook, so that the trouble of manually winding the fishline on the fishhook is saved, and the fishhook binding efficiency is improved; the winding device of the fishhook wire binding machine in the prior art has a complex structure, and a plurality of components are matched to complete the wire winding (binding) action, so that the winding process of the structure is complex and the production cost is high.

Disclosure of Invention

The utility model aims to overcome the defects of the prior art, and provides a winding device for a full-automatic fishhook wire binding machine, which has the advantages of simple structure, simple winding process, and integration of the functions of automatically separating a fishhook from a winding member after fishhook winding and winding are finished; when winding, the winding component can rotate and move along the axial direction of the fishhook at the same time, so that the fishline is uniformly wound on the fishhook.

The aim of the utility model is realized by the following technical scheme:

the winding device for the full-automatic fishhook wire binding machine comprises a winding component, a rotary driving piece and a linear displacement driving piece;

the winding component is used for hooking and pulling the straightened fish wire to form a triangular coil;

the rotary driving piece is used for driving the winding component to rotate when the tail of the fishhook is positioned in the coil, so that the fishline is wound on the tail of the fishhook;

the linear displacement driving piece is used for driving the winding component to be close to the straightened fish line, and driving the winding component to do linear motion along the tail axis of the hook when the rotation driving piece drives the winding component to rotate.

Further, the winding component comprises a fixing frame and a movable frame, wherein the fixing frame is of an L-shaped structure, and one end of the fixing frame is fixedly connected with the rotary driving piece; the other end of the fixing frame is provided with a crochet hook, and the needle hook of the crochet hook is upwards arranged;

one end of the movable frame is hinged with the middle part of the fixed frame, a drag hook is arranged at the other end of the movable frame, a needle hook of the drag hook is arranged towards the rotary driving part, the movable frame can rotate around a hinge point between one end of the movable frame and the middle part of the fixed frame, and a reset part for resetting the movable frame after rotating is arranged between the movable frame and the fixed frame;

the length of the crochet hook is smaller than that of the drag hook.

Further, the reset piece is a spring.

Further, the rotary driving member is a motor.

Further, the linear displacement driving piece comprises a first screw rod and a second screw rod which are arranged in a vertically staggered mode and are perpendicular to each other in axis, a first sliding block is arranged on the first screw rod, and the rotary driving piece is connected with the first sliding block through a connecting plate; the second screw rod is provided with a second sliding block, and the first screw rod is connected with the second sliding block through a base.

Further, a stay wire clamp is further arranged on the connecting plate and used for pulling the thread end of the fish wire after the fish wire is wound at the tail of the fishhook, so that the fish wire wound at the tail of the fishhook is tensioned.

Further, the connecting plate is also provided with an automatic shear, and the automatic shear is used for shearing redundant thread heads after the fish wires are tensioned.

The beneficial effects of the utility model are as follows:

1) The winding device is simple in structure and simple in winding process, and the functions of automatically separating the fishhook from the winding component are integrated after the fishhook is wound and the winding is finished; when winding, the winding component can rotate and move along the axial direction of the fishhook at the same time, so that the fishline is uniformly wound on the fishhook.

Drawings

Fig. 1 is a schematic diagram of the overall structure of a winding device for a fully automatic fishhook machine in an embodiment of the utility model;

FIG. 2 is a schematic diagram of the position of a winding device for a fully automatic fishhook machine on the fully automatic fishhook machine;

FIG. 3 is a first operational state diagram of a winding member;

FIG. 4 is a second operational state diagram of the winding member;

fig. 5 is a third operational state diagram of the winding member;

FIG. 6 is an enlarged schematic view of portion A of FIG. 3;

in the figure, 1, a winding member; 2. a rotary driving member; 3. a linear displacement driving member; 4. a fish line; 5. a fixing frame; 6. a movable frame; 7. a crochet hook; 8. a drag hook; 9. a reset member; 10. a first screw rod; 11. a second screw rod; 12. a first slider; 13. a second slider; 14. a connecting plate; 15. a stay wire clamp; 16. and (5) automatic shearing.

Detailed Description

The technical solutions of the present utility model will be clearly and completely described below with reference to the embodiments, and it is apparent that the described embodiments are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by a person skilled in the art without any inventive effort, are intended to be within the scope of the present utility model, based on the embodiments of the present utility model.

Referring to fig. 1-6, the present utility model provides a technical solution:

examples:

as shown in fig. 1 to 6, a winding device for a full-automatic fishhook wire binding machine comprises a winding member 1, a rotary driving piece 2 and a linear displacement driving piece 3;

the winding component 1 is used for hooking and pulling the straightened fish wire 4, so that the fish wire 4 forms a triangular coil;

the rotary driving piece 2 is used for driving the winding component 1 to rotate when the hook tail of the fishhook is positioned in the coil, so that the fishline 4 is wound on the hook tail of the fishhook;

the linear displacement driving piece 3 is used for driving the winding component 1 to be close to the straightened fish line 4, and driving the winding component 1 to do linear motion along the tail axis of the hook when the rotation driving piece 2 drives the winding component 1 to rotate.

The winding component 1 comprises a fixed frame 5 and a movable frame 6, wherein the fixed frame 5 is of an L-shaped structure, and one end of the fixed frame 5 is fixedly connected with the rotary driving piece 2; the other end of the fixed frame 5 is provided with a crochet hook 7, and the needle hook of the crochet hook 7 is upwards arranged (as shown in figure 6);

one end of the movable frame 6 is hinged with the middle part of the fixed frame 5, the other end of the movable frame 6 is provided with a draw hook 8, a needle hook of the draw hook 8 is arranged towards the rotary driving part 2, the movable frame 6 can rotate around a hinge point between one end of the movable frame 6 and the middle part of the fixed frame 5, and a reset part 9 for resetting the movable frame 6 after rotating is arranged between the movable frame 6 and the fixed frame 5;

the length of the crochet hook 7 is smaller than that of the draw hook 8.

The return member 9 is a spring.

The rotary driving member 2 is a motor.

The linear displacement driving piece 3 comprises a first screw rod 10 and a second screw rod 11 which are arranged in a vertically staggered mode and are perpendicular to each other in axis, a first sliding block 12 is arranged on the first screw rod 10, and the rotary driving piece is connected with the first sliding block through a connecting plate 14; the second screw rod 11 is provided with a second sliding block 13, and the first screw rod 10 is connected with the second sliding block 13 through a base.

Wherein, 1, the axis of first lead screw 10 is parallel to the setting of line 4 that stretches out straight, and the axis of second lead screw 11 sets up perpendicularly to line 4 that stretches out straight. 2. The first screw 10 and the second screw 11 are respectively driven by motors. 3. The fish line 4 is clamped and stretched in line by two clamps. 3. In fig. 2, X and Y are respectively two movement directions of the linear displacement driving member, X, Y are perpendicular to each other, X is a direction parallel to the straightened fish line, and Y is a direction perpendicular to the straightened fish line.

Working principle: as shown in fig. 3 and 4, the linear displacement driving member 3 drives the winding member 1 to move toward the straightened fishing line 4 until the drag hook 8 passes over the fishing line 4. One of the clamps (for convenience of the following description, here named clamp one, which is the clamp in fig. 3 near the rotary drive 2, i.e. the clamp on the left) is then moved towards the other clamp (for convenience of the following description, here named clamp two, the clamp on the right), causing the fish wire 4 to relax, the slack portion of the fish wire 4 being moved towards the crochet hook 7 until the clamp stops when it passes over the tip of the crochet hook 7. ( At this time, the hook needle 7 and the draw hook 8 are positioned between the two clamps; 2. the fish line 4 cannot return to a straight state due to the hooking of the tip of the hooking needle 7. )

At this time, the position arrangement of the fishing line 4, the drag hook 8 and the crochet hook 7 is completed, and the next step is that the rotary driving piece 2 drives the winding member 1 to rotate until the drag hook 8 presses the fishing line 4. Next, the aforementioned clamp (clamp number one) continues to move toward the other clamp (clamp number two) until the drag hook 8 is located outside the two clamps, which is to tighten the fishing line 4 by the drag hook 8, so as to prevent the fishing line 4 from being separated from the drag hook 8.

The rotary driving piece 2 drives the winding component 1 to reset, at this time, a triangular coil is formed among the clamp, the drag hook 8 and the crochet hook 7 (as shown in fig. 5, wherein in fig. 5, the first clamp only clamps one end of the fishing line, the fishing line extended from the second clamp is positioned below the first clamp), the tail of the fishhook is placed into the coil (the fishhook can be clamped and fed through the fishhook clamping piece), and the rotary driving piece 2 drives the winding component 1 to rotate, so that the fishhook winding can be realized. The rotary driving piece 2 drives the winding component 1 to rotate during winding, and meanwhile, the linear displacement driving piece 3 also drives the winding component 1 to do linear motion, so that uniform winding is ensured when the fishhook is wound on the fishhook in a rotary mode in advance.

As shown in fig. 5, when the fishing line is wound, the triangular edge of the coil between the first clamp and the crochet hook 7 is wound, and after the triangular edge is wound, the line length is reduced, and the reduced line length is complemented by the other two triangular edges, specifically: the length of the triangular side winding is reduced in the process, the drag hook is tensioned, the drag hook rotates around the hinging point, the drag hook is tensioned to enable the spring to stretch, at the moment, one vertex of the formed triangular coil is changed, and the lengths of the other two triangular sides are reduced to supplement the length of the triangular side winding.

After the fishhook winding is finished, the second clamp moves towards the direction away from the first clamp, so that the triangular coil is contracted, the drag hook 8 rotates around the hinging point in the process, and the spring on the drag hook is compressed; the fish wire 4 is pulled until the fish wire 4 is separated from the position of the drag hook 8, and when the fish wire 4 is separated from the drag hook 8, the spring is reset. Then separating the crochet hook 7 from the fish line 4, and driving the winding member 1 to continuously move towards the fish line 4 by the linear displacement driving piece 3 until the crochet hook 7 is separated from the fish line 4, wherein the crochet hook 7 can be rotated until the needle hook faces downwards after separation, so that the fish line 4 is prevented from being hooked again when the crochet hook is retracted.

The order of unhooking the draw hook and the crochet can be reversed, namely the crochet 7 can be separated firstly, and then the draw hook 8 can be separated. The advantage of this arrangement of the unhooking sequence is that the fish line is pulled by the draw hook 8 after the crochet hook 7 has been disengaged. Therefore, when the subsequent fishing line is stressed, the force can be transmitted to the spring, and the spring is correspondingly stretched, so that the fishing line is prevented from being directly pulled, and the fishing line is deformed. The displacement of the spring compensates the stress of the fishing line, so that the direct deformation of the fishing line is avoided when the fishing line is stressed, and the strength of the fishing line is reduced.

After the fish wire 4 is separated from the drag hook 8 and the crochet hook 7, both ends of the wire head are pulled, so that the fish wire 4 wound on the fishhook through the coil is tightened. If the thread end near one end of the fishhook is longer, the thread end can be cut off by scissors.

The winding device has a simple structure, a simple winding process and the functions that the fish wire 4 is automatically separated from the winding component 1 into a whole after the fishhook is wound and the winding is finished; during winding, the winding member 1 can rotate and move along the axial direction of the fishhook, so that the fishline 4 is uniformly wound on the fishhook.

Further, a pull wire clamp 15 is further arranged on the connecting plate 14, and the pull wire clamp 15 is used for pulling the thread end of the fishing line 4 after the fishing line 4 is wound at the tail of the fishhook, so that the fishing line 4 wound at the tail of the fishhook is tensioned. The stay wire clamp 15 is used for clamping the thread end of the fishing line 4 and pulling the fishing line 4 after the fishing line 4 is separated from the drag hook 8 and the crochet hook 7 in the process, so as to achieve the function of tightening the fishing line 4; simultaneously, the second clamp is matched, the second clamp reversely pulls the fish wire 4 towards the direction opposite to the pull wire clamp 15 when the pull wire clamp 15 acts, so that the tightening efficiency of the fish wire 4 can be improved, and the winding position of the fish wire 4 can be ensured to be at the tail of a fish hook.

Further, an automatic shear 16 is further provided on the connecting plate 14, and the automatic shear 16 is used for shearing off the redundant thread ends of the tensioned fishing line 4. The automatic scissors can be electric scissors or pneumatic scissors, and when the thread end close to one end of the fishhook is longer, the thread end can be cut off through the automatic scissors.

The foregoing is merely a preferred embodiment of the utility model, and it is to be understood that the utility model is not limited to the form disclosed herein but is not to be construed as excluding other embodiments, but is capable of numerous other combinations, modifications and environments and is capable of modifications within the scope of the inventive concept, either as taught or as a matter of routine skill or knowledge in the relevant art. And that modifications and variations which do not depart from the spirit and scope of the utility model are intended to be within the scope of the appended claims.

Claims

1. Winding device for full-automatic fishhook wire binding machine, its characterized in that: comprises a winding component, a rotary driving piece and a linear displacement driving piece;

2. The winding device for a fully automatic fishhook machine according to claim 1, wherein: the winding component comprises a fixed frame and a movable frame, the fixed frame is of an L-shaped structure, and one end of the fixed frame is fixedly connected with the rotary driving piece; the other end of the fixing frame is provided with a crochet hook, and the needle hook of the crochet hook is upwards arranged;

the length of the crochet hook is smaller than that of the drag hook.

3. The winding device for a fully automatic fishhook machine as claimed in claim 2, wherein: the reset piece is a spring.

4. The winding device for a fully automatic fishhook machine according to claim 1, wherein: the rotary driving piece is a motor.

5. The winding device for a fully automatic fishhook machine according to claim 1, wherein: the linear displacement driving piece comprises a first screw rod and a second screw rod which are arranged in a vertically staggered mode and are perpendicular to each other in axis, a first sliding block is arranged on the first screw rod, and the rotary driving piece is connected with the first sliding block through a connecting plate; the second screw rod is provided with a second sliding block, and the first screw rod is connected with the second sliding block through a base.

6. The winding device for a fully automatic fishhook machine of claim 5, wherein: and the connecting plate is also provided with a stay wire clamp, and the stay wire clamp is used for winding the fish wire around the tail of the fishhook and pulling the wire head of the fish wire so as to tighten the fish wire wound around the tail of the fishhook.

7. The winding device for a fully automatic fishhook machine according to claim 5 or 6, wherein: the automatic scissors are also arranged on the connecting plate and are used for shearing redundant thread heads after the fishing line is tensioned.