CN116636510A

CN116636510A - Full-automatic fishhook wire binding machine

Info

Publication number: CN116636510A
Application number: CN202310845275.4A
Authority: CN
Inventors: 刘小飞; 张孝勇
Original assignee: Individual
Current assignee: Individual
Priority date: 2023-07-11
Filing date: 2023-07-11
Publication date: 2023-08-25

Abstract

The application discloses a full-automatic fishhook wire binding machine, which comprises a wire feeding device, at least one wire clamping device, at least one hook feeding device and at least one winding device, wherein the wire feeding device comprises a wire feeding device, a wire clamping device and a wire winding device; 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 application integrates the functions of automatic wire feeding, wire winding, binding, conveying and the like, wherein the wire winding can be realized by only matching a wire winding component with two clamps, and the fish wire can be automatically tightened after the wire winding; the device has simple integral structure, low manufacturing cost and simple working process.

Description

Full-automatic fishhook wire binding machine

Technical Field

The application relates to the technical field of fishing gear production equipment, in particular to a full-automatic fishhook wire binding machine.

Background

In the prior art, the fishhook binding wire is usually bound by manual or semi-automatic equipment, the efficiency of binding wires by manual binding is low, the quality of binding wires is uneven, and the fishhook is easy to hurt people, so that potential safety hazards exist; the problem that the equipment structure is complex and the binding procedure is complex exists in the semi-automatic equipment binding wire.

Therefore, a fully automatic fishhook wire binding machine with simple structure and compact wire binding process is needed.

Disclosure of Invention

The application aims to overcome the defects of the prior art, and provides a full-automatic fishhook wire binding machine which integrates the functions of automatic wire feeding, wire winding, binding, conveying and the like, wherein the wire winding can be realized by only matching a wire winding component with two clamps, and the wire winding can be automatically realized after the wire winding; the device has simple integral structure, low manufacturing cost and simple working process.

The aim of the application is realized by the following technical scheme:

the full-automatic fishhook wire binding machine comprises a wire feeding device, at least one wire clamping device, at least one hook feeding device and at least one winding device;

the wire feeding device is used for conveying the fish wires with specified lengths;

the wire clamping device is used for clamping two ends of the fish wire conveyed by the wire feeding device and straightening the fish wire;

the hook conveying device is used for conveying the fishhooks;

the winding device 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 the hinge point, 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, a stay wire clamp is further arranged on the linear displacement driving piece and used for winding the fish wire around the tail of the fishhook and pulling the wire head of the fish wire to tighten the fish wire wound around the tail of the fishhook.

Further, the linear displacement driving piece is also provided with an automatic shear, and the automatic shear is used for shearing redundant thread heads after the fish wire is tensioned.

Further, the wire feeding device comprises a wire penetrating column, a wire pulling assembly and a wire cutting member; the threading post and the thread cutting component are connected with the thread pulling component, and the threading post is provided with a threading hole coaxial with the threading post;

one end of the fish wire is penetrated out through the threading hole;

the guy wire component is used for clamping the fish wire penetrated out of the threading hole, and pulling the fish wire finger to a preset length and then conveying the fish wire to the wire clamping device;

the thread cutting member is used for cutting the fishing thread clamped by the thread clamping device.

Further, the guy wire assembly comprises a guy wire chuck, a transverse reciprocating piece and a vertical reciprocating piece, and the vertical reciprocating piece is connected with a frame of the full-automatic fishhook wire binding machine;

the transverse reciprocating piece drives the traction wire clamping head to do reciprocating rectilinear motion in the horizontal direction, and the vertical reciprocating piece drives the transverse reciprocating piece and the traction wire clamping head to do reciprocating rectilinear motion in the vertical direction.

Further, the line clamping device comprises a first clamp and a second clamp, and the first clamp and the second clamp can do reciprocating linear motion along the length direction of the fish line.

Further, the hook feeding device comprises a fishhook chuck and a longitudinal reciprocating part, and the longitudinal reciprocating part drives the fishhook chuck to do reciprocating linear motion along the direction perpendicular to the length of the fishing line.

Further, the wire feeding device, the wire clamping device, the hook feeding device and the winding device are arranged on the rack;

the wire clamping device, the hook feeding device and the winding device are respectively two; the wire clamping device, the wire feeding device and the wire winding device are arranged in a group, and the two groups of wire clamping devices, the wire feeding device and the wire winding device are symmetrically arranged by taking the axis of the wire feeding device as a symmetrical axis.

Further, a conveyor belt is arranged below the frame and used for conveying the fishhooks bound with the lines.

The beneficial effects of the application are as follows:

the application integrates the functions of automatic wire feeding, wire winding, binding, conveying and the like, wherein the wire winding can be realized by only matching a wire winding component with two clamps, and the fish wire can be automatically tightened after the wire winding; the device has simple integral structure, low manufacturing cost and simple working process.

Drawings

FIG. 1 is a schematic diagram of the overall structure of a fully automatic fishhook machine in accordance with an embodiment of the application;

FIG. 2 is a schematic view of the housing with the housing removed;

FIG. 3 is a schematic diagram of the positional relationship of the winding members on the machine;

FIG. 4 is a schematic diagram showing a specific structure of a winding device;

FIG. 5 is a first operational state diagram of a winding member;

FIG. 6 is a second operational state diagram of the winding member;

fig. 7 is a third operational state diagram of the winding member;

FIG. 8 is an enlarged schematic view of portion A of FIG. 1;

fig. 9 is a schematic diagram of a specific structure of the wire feeding device;

FIG. 10 is a schematic view of a traction wire clamp;

in the figure, 1, a wire feeding device; 2. a wire clamping device; 3. a hook feeding device; 4. a winding device; 5. a winding member; 6. a rotary driving member; 7. a linear displacement driving member; 8. a fish line; 9. a fixing frame; 10. a movable frame; 11. a crochet hook; 12. a drag hook; 13. a reset member; 14. a stay wire clamp; 15. automatic shearing; 16. a threading column; 17. a guy wire assembly; 18. a wire cutting member; 19. a traction wire chuck; 20. a transverse reciprocating member; 21. a vertical reciprocating member; 22. a first clamp; 23. a second clamp; 24. a fishhook chuck; 25. a longitudinal reciprocating member; 26. a frame; 27. a conveyor belt.

Detailed Description

The technical solutions of the present application 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 application, 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 application, based on the embodiments of the present application.

Referring to fig. 1 to 10, the present application provides a technical solution:

examples:

as shown in fig. 1 to 10, a fully automatic fishhook wire binding machine comprises a wire feeding device 1, at least one wire clamping device 2, at least one hook feeding device 3 and at least one winding device 4;

the wire feeding device 1 is used for conveying a specified length of fish wire 8;

the wire clamping device 2 is used for clamping two ends of the fishing wire 8 conveyed by the wire feeding device 1 and straightening the fishing wire 8;

the hook conveying device 3 is used for conveying the fishhooks;

the winding device 4 comprises a winding member 5, a rotary driving piece 6 and a linear displacement driving piece 7;

the winding component 5 is used for hooking and pulling the straightened fish wire 8, so that the fish wire 8 forms a triangular coil;

as shown in fig. 2-8, the rotary driving piece 6 is used for driving the winding member 5 to rotate when the tail of the fishhook is positioned in the coil, so that the fishline 8 is wound around the tail of the fishhook;

the linear displacement driving piece 7 is used for driving the winding member 5 to be close to the straightened fish line 8, and driving the winding member 5 to do linear motion along the tail axis of the hook when the rotation driving piece 6 drives the winding member 5 to rotate.

The winding member 5 comprises a fixed frame 9 and a movable frame 10, the fixed frame 9 is of an L-shaped structure, and one end of the fixed frame 9 is fixedly connected with the rotary driving piece 6; the other end of the fixed frame 9 is provided with a crochet hook 11, and the needle hook of the crochet hook 11 is upwards arranged;

one end of the movable frame 10 is hinged with the middle part of the fixed frame 9, the other end of the movable frame 10 is provided with a draw hook 12, a needle hook of the draw hook 12 is arranged towards the rotary driving piece 6, the movable frame 10 can rotate around the hinge point, and a reset piece 13 for resetting after the movable frame 10 rotates is arranged between the movable frame 10 and the fixed frame 9;

the length of the crochet hook 11 is smaller than that of the draw hook 12.

The linear displacement driving piece 7 is also provided with a stay wire clamp 14, and the stay wire clamp 14 is used for pulling the thread end of the fish wire 8 after the fish wire 8 is wound at the tail of the fish hook, so that the fish wire 8 wound at the tail of the fish hook is tensioned.

The linear displacement driving piece 7 is also provided with an automatic shear 15, and the automatic shear 15 is used for shearing redundant thread ends of the tensioned fish thread 8.

Wherein, 1, the reset piece 13 is a spring; the rotary driving piece 6 is a motor; 2. in fig. 2, X and Y are directions of movement of the linear displacement driving member 7, i.e. X, Y are a transverse direction and a longitudinal direction (wherein Z is vertical), X, Y are perpendicular to each other, X is a direction parallel to the straightened fish line 8, and Y is a direction perpendicular to the straightened fish line 8.

The wire feeding device 1 comprises a wire penetrating column 16, a wire pulling assembly 17 and a wire cutting member 18; the threading post 16 and the thread cutting member 18 are connected with the thread pulling assembly 17, and the threading post 16 is provided with a threading hole coaxial with the threading hole;

one end of the fish wire 8 is penetrated out from the threading hole;

the guy wire component 17 is used for clamping the fishing wire 8 penetrated out of the threading hole, and pulling the fishing wire 8 to a preset length and then conveying the fishing wire 8 to the wire clamping device 2;

the thread cutting member 18 is used for cutting the fishing line 8 clamped by the thread clamping device 2.

As shown in fig. 2, 9 and 10, the wire pulling assembly 17 comprises a wire pulling chuck 19, a transverse reciprocating member 20 and a vertical reciprocating member 21, wherein the vertical reciprocating member 21 is connected with a frame 26 of the full-automatic fishhook wire binding machine; the transverse reciprocating member 20 and the vertical reciprocating member 21 are respectively screw rod sliding block mechanisms, the transverse reciprocating member 20 moves along the X direction, and the vertical reciprocating member 21 moves along the Z direction.

The transverse reciprocating member 20 drives the traction wire clamping head 19 to do reciprocating rectilinear motion in the horizontal direction, and the vertical reciprocating member 21 drives the transverse reciprocating member 20 and the traction wire clamping head 19 to do reciprocating rectilinear motion in the vertical direction.

Wherein, 1, the thread cutting member 18 is a pneumatic or electric cutter; 2. the fishing line 8 can be arranged on the winding wheel, so that the fishing line 8 can be conveniently paid off.

The line clamping device 2 comprises a first clamp 22 and a second clamp 23, wherein the first clamp 22 and the second clamp 23 can do reciprocating linear motion along the length direction of the fish line 8, and both move along the X direction in the figure. Wherein, 1, anchor clamps are pneumatic drive anchor clamps, and prior art for press from both sides tight fish tape 8, its specific structure is as shown, and this is not repeated here. 2. The clamping points of the first clamp 22 and the second clamp 23 are positioned on the same straight line, and the first clamp 22 and the second clamp 23 are respectively driven by two parallel screw rod sliding block mechanisms.

Wherein the wire-drawing clamp is arranged opposite to the first clamp 22 and the second clamp 23

As shown in fig. 2, the hook feeding device 3 includes a hook chuck 24 and a longitudinal reciprocating member 25, and the longitudinal reciprocating member 25 drives the hook chuck 24 to reciprocate in a linear direction perpendicular to the length of the fishing line 8. The longitudinal reciprocation member 25 is a screw slider mechanism and moves in the aforementioned Y direction.

A conveyor belt 27 is arranged below the frame 26, and the conveyor belt 27 is used for conveying the fishhooks bound with the line. Wherein the housing 26 is provided with a shell.

Working principle: (1) passing the fishing line 8 through the threading post 16 through the threading hole; (2) The vertical reciprocating member 21 moves vertically (downwards) to drive the transverse reciprocating member 20 and the traction wire clamping head 19 to move downwards until the transverse reciprocating member and the traction wire clamping head are positioned on the same horizontal line with the wire clamping device 2;

(3) The pull wire clamp 19 clamps the head of the penetrated fish wire 8, the transverse reciprocating motion piece 20 drives the pull wire clamp 19 to transversely move, and the fish wire 8 is pulled when the pull wire clamp 19 moves, so that the fish wire 8 (paying-off) is lengthened. The traction wire clamping head 19 drives the fish wire 8 to sequentially pass through the first clamping head and the second clamping head.

When the pull wire holder 19 is in place, the line 8 reaches a predetermined length, at which point. The clamping member on the line clamping station clamps the fish line 8.

(4) After the fishing line 8 is clamped, the line cutting member 18 cuts the fishing line 8 (ensures that the end of the fishing line 8 extends out of the threading hole by 1-2cm, and is convenient for the next time the line clamping head 19 is used for clamping the fishing line 8). After the line 8 is cut, the transverse reciprocating member 20 is reset to prepare for the next line feed.

Wherein, setting up horizontal reciprocating motion spare 20 is in order to make fish tape 8 reach appointed length, setting up vertical reciprocating motion spare 21 is in order to send fish tape 8 to appointed station (flush with wire clamping device 2), and fish tape 8 is sent the back, and horizontal reciprocating motion spare 20, second slider reset, and then can avoid automatic wire feeding device 1 to produce the influence or take place to interfere the motion of follow-up process.

(5) When the fishing line 8 is sent to the line clamping device 2, the first clamp 22 and the second clamp 23 of the line clamping device 2 clamp the two ends of the fishing line 8 respectively and straighten the fishing line 8.

(6) The linear displacement driving piece 7 drives the winding component 5 to move towards the straightened fish line 8 until the drag hook 12 passes over the fish line 8. The first clamp 22 is then moved towards the second clamp 23 to loosen the line 8. The slack portion of the fish line 8 moves toward the hook 117 until it passes over the tip of the hook 11, and the one-gauge clamp 22 stops moving. ( At this time, the crochet hook 11 and the drag hook 12 are both positioned between the two clamps (the first clamp 22 and the second clamp 23); and the fish line 8 cannot return to a straight state due to the hooking of the tip of the hooking needle 11. )

(7) At this time, the position arrangement of the fishing line 8, the drag hook 12 and the crochet hook 11 is completed, and the next step is that the rotary driving piece 6 drives the winding member 5 to rotate until the drag hook 12 presses the fishing line 8. Next, the first clamp 22 continues to move towards the second clamp 23, and moves to the side, away from the second clamp 23, of the first clamp 22, where the drag hook 12 and the crochet hook 11 are located, in order to tighten the fishing line 8 by the drag hook 12, so as to prevent the fishing line 8 from being separated from the drag hook 12.

The rotary driving member 6 drives the winding member 5 to reset, and a triangular coil is formed among the clamp, the drag hook 12 and the hook needle 11 (as shown in the figure, the first clamp 22 only clamps one end of the fishing line 8, and the fishing line 8 extended by the second clamp 23 is located below the first clamp 22).

(8) The fishhook is clamped by the fishhook clamping head 24 of the fishhook feeding device 3, the fishhook clamping head 24 clamps the hook part of the fishhook, and the hook tail part of the straight shank is exposed to facilitate subsequent winding (in the step, the fishhook can be fed into the fishhook clamping head 24 manually or can be fed into the fishhook by the automatic fishhook feeding device 3 in the prior art). Then, the fishhook is driven by the hook feeding device 3 to feed the hook tail of the fishhook into the coil, and the winding member 5 is driven to rotate by the rotary driving piece 6, so that the fishhook winding can be realized. The rotary driving piece 6 drives the winding member 5 to rotate during winding, and meanwhile, the linear displacement driving piece 7 also drives the winding member 5 to do linear motion (namely, the coil rotates and retreats during winding), so that uniform winding is ensured when the coil is wound on the fishhook in a pre-rotation mode.

When the fish wire 8 is wound, the triangular edge of the coil between the first clamp 22 and the crochet hook 11 is wound, and after the triangular edge is wound, the wire length is reduced, and the reduced wire length is complemented by the other two triangular edges, specifically: in the process, the length of the triangular side winding is reduced, the drag hook 12 is tensioned, the drag hook 12 rotates around the hinging point, the drag hook 12 is pulled 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, so that the length of the triangular side winding is supplemented.

(9) After the fishhook winding is finished, the second clamp 23 moves towards the direction away from the first clamp 22, so that the triangular coil is contracted, the drag hook 12 rotates around the hinging point in the process, and the spring on the drag hook is compressed; the fish wire 8 is pulled until the fish wire 8 is separated from the position of the drag hook 12, and when the fish wire 8 is separated from the drag hook 12, the spring is reset.

(10) Then separating the crochet hook 11 from the fish line 8, and driving the winding member 5 to move towards the fish line 8 continuously by the linear displacement driving piece 7 until the crochet hook 11 is separated from the fish line 8, wherein the crochet hook 11 can be rotated until the needle hook faces downwards after separation, so that the fish line 8 is prevented from being hooked again when the crochet hook is retracted.

(11) After the fish wire 8 is separated from the drag hook 12 and the crochet hook 11, both ends of the wire head are pulled by the wire pulling clamp 14 and the second clamp 23 respectively, so that the fish wire 8 wound on the fish hook 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 the automatic scissors 15.

(12) Finally, the clamp is released, and the fishhook with the wire is automatically dropped onto the conveyor belt 27 to be sent out.

The order of the step (9) and the step (10) can be reversed, namely, the crochet hook 11 can be separated firstly, and then the drag hook 12 can be separated. The advantage of this arrangement of the unhooking sequence is that the fish line is pulled by the draw hook 12 after the crochet hook 11 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.

The screw rod slide block mechanisms related to the wire feeding device 1, the wire clamping device 2, the wire feeding device 3 and the wire winding device 4 are all driven by motors, and the motors are controlled by a controller to realize automation. The model and structure of the motor and the controller and the control process of the controller are in the prior art, and are not described here.

The application integrates the functions of automatic wire feeding, wire winding, binding, conveying and the like, wherein the wire winding can be realized by only matching the wire winding component 5 with two clamps, and the fish wire 8 can be automatically tightened after the wire winding; the device has simple integral structure, low manufacturing cost and simple working process.

Further, as shown in fig. 2, the wire feeding device 1, the wire clamping device 2, the hook feeding device 3 and the winding device 4 are arranged on the rack 26;

the wire clamping device 2, the hook feeding device 3 and the winding device 4 are respectively two; the wire clamping device 2, the hook feeding device 3 and the winding device 4 are in a group, and the two groups of wire clamping devices 2, the hook feeding device 3 and the winding device 4 are symmetrically arranged by taking the axis of the wire feeding device 1 as a symmetrical axis.

The screw rod sliding block mechanism in the application can also be other reciprocating parts, such as a telescopic cylinder and a telescopic motor.

The two groups of wire clamping devices 2, the hook feeding device 3 and the winding device 4 are arranged for the purpose of: when the wire is fed, the length of the wire is twice that of the wire which is wound by the single hook, the fish wire 8 is clamped by the four clamps, and then the two ends are simultaneously wound (the winding process is as described above and is not repeated here), so that the two fish hooks are simultaneously tied, and the applicability of the device is improved.

The foregoing is merely a preferred embodiment of the application, and it is to be understood that the application 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 application are intended to be within the scope of the appended claims.

Claims

1. Full-automatic fishhook wiring machine, its characterized in that: comprises a wire feeding device, at least one wire clamping device, at least one hook feeding device and at least one winding device;

the hook conveying device is used for conveying the fishhooks;

2. The fully automatic fishhook machine of 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 fully automatic fishhook machine of claim 2, wherein: and the linear displacement driving piece 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.

4. A fully automatic fishhook machine as claimed in claim 3, wherein: the linear displacement driving piece is also provided with an automatic shear, and the automatic shear is used for shearing redundant thread heads after the fish wires are tensioned.

5. The fully automatic fishhook machine of claim 1, wherein: the wire feeding device comprises a wire penetrating column, a wire pulling assembly and a wire cutting member; the threading post and the thread cutting component are connected with the thread pulling component, and the threading post is provided with a threading hole coaxial with the threading post;

one end of the fish wire is penetrated out through the threading hole;

6. The fully automatic fishhook machine of claim 5, wherein: the guy wire assembly comprises a guy wire chuck, a transverse reciprocating piece and a vertical reciprocating piece, and the vertical reciprocating piece is connected with a frame of the full-automatic fishhook wire binding machine;

7. The fully automatic fishhook machine of claim 1, wherein: the line clamping device comprises a first clamp and a second clamp, and the first clamp and the second clamp can do reciprocating linear motion along the length direction of the fish line.

8. The fully automatic fishhook machine of claim 1, wherein: the fishhook feeding device comprises a fishhook chuck and a longitudinal reciprocating motion piece, and the longitudinal reciprocating motion piece drives the fishhook chuck to do reciprocating linear motion along the direction perpendicular to the length of the fishline.

9. The fully automatic fishhook machine of any of claims 1-8, wherein: the wire feeding device, the wire clamping device, the hook feeding device and the winding device are arranged on the rack;

10. The fully automatic fishhook machine of claim 9, wherein: and a conveyor belt is arranged below the frame and used for conveying the fishhooks with the bound wires.