CN220519814U

CN220519814U - Plastic wire winding device

Info

Publication number: CN220519814U
Application number: CN202321742409.1U
Authority: CN
Inventors: 舒宇; 林卫彪
Original assignee: Rugao Guanghan New Material Technology Co ltd
Current assignee: Rugao Guanghan New Material Technology Co ltd
Priority date: 2023-07-05
Filing date: 2023-07-05
Publication date: 2024-02-23
Anticipated expiration: 2033-07-05

Abstract

The utility model discloses a plastic wire winding device, which belongs to the technical field of plastic wire winding equipment and comprises a guide seat, wherein a first sliding frame is inserted in the guide seat in a sliding manner, a second sliding frame is installed in the first sliding frame in a sliding manner, a spring is movably sleeved outside the second sliding frame, one end of the spring is fixedly connected with the second sliding frame, the other end of the spring is fixedly connected with the first sliding frame, a rotating wheel is fixedly connected in the second sliding frame, a plastic wire is clamped on a winding drum, the rotating wheel is driven to rotate by a speed reducing motor, the winding drum is driven to rotate by the rotating wheel, the plastic wire is wound on the winding drum, in the winding process, the plastic wire automatically moves to a side part in a low-position direction by utilizing the elasticity of the spring, when the plastic wire moves to the edge of the winding drum, the plastic wire is wound up in situ by utilizing the edge of the winding drum to become high, the plastic wire is wound to the other side in a self-adaptive manner, and the plastic wire is conveniently and automatically distributed according to the thickness of the plastic wire.

Description

Plastic wire winding device

Technical Field

The utility model belongs to the technical field of plastic wire winding equipment, and particularly relates to a plastic wire winding device.

Background

After the plastic wires are formed, the plastic wires are required to be wound on the winding drum by the winding mechanism, part of the winding drum can be automatically switched, and the winding drum swings back and forth in the winding process, so that the plastic wires are uniformly wound.

Because conventional plastic wire winding mechanism relies on fixed mechanical structure in dependence of reciprocating swing, and the number of turns of plastic wire winding full-covered reel of different thickness is different, adopts same frequency swing only to be applicable to single thick plastic wire, and too thick is piled up easily, and too thin extravagant space to cause conventional winding mechanism to the comparatively low problem of adaptability of different thickness plastic wires.

Therefore, we propose a plastic wire winding device to solve the above problems.

Disclosure of Invention

The utility model aims to solve the problem that the adaptability of a conventional winding mechanism to plastic wires with different thicknesses is low.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

the utility model provides a plastic wire coiling mechanism, includes the guide holder, the inside slip of guide holder has inserted first balladeur train, the inside slidable mounting of first balladeur train has the second balladeur train, the outside movable sleeve of second balladeur train has the spring, the one end and the second balladeur train fixed connection of spring, the other end and the first balladeur train fixed connection of spring, the inside fixedly connected with runner of second balladeur train, the pivot of runner runs through the second balladeur train, the outside fixedly connected with gear motor of second balladeur train, gear motor and first balladeur train contactless, gear motor's rotor and the pivot fixed connection of runner, the outside cover of runner has the reel, the reel rotates the cover on first balladeur train. When the plastic wire winding device is used, the plastic wire is clamped onto the winding drum, the rotating wheel is driven to rotate by the reducing motor, the winding drum is driven to rotate by the rotating wheel, the plastic wire is wound on the winding drum, in-process elasticity of the spring is utilized to act between the plastic wire and the winding drum, the plastic wire automatically moves towards the side part in the low-position direction in the winding process, when the plastic wire moves to the edge of the winding drum, the plastic wire is wound in situ to be higher by shielding the edge of the winding drum, the plastic wire is wound on the other side in a self-adaptive manner, and the plastic wire is conveniently and automatically distributed according to the thickness of the plastic wire.

Preferably, the guide seat comprises a seat body and guide wheels, the guide wheels are rotatably connected in the seat body, and the guide wheels are symmetrically arranged with four guide wheels. The guide wheel is used for guiding the first sliding frame to slide, so that the sliding resistance of the first sliding frame is reduced.

Preferably, the guide seat further comprises a guide frame, and the guide frame is fixedly connected to the side part of the seat body. And guiding the plastic wire by using the guide ratio frame to stabilize the wire winding direction.

Preferably, the first sliding frame comprises a frame body, a guide sleeve and a fixed shaft, and the guide sleeve is fixedly connected with the frame body into a whole. When the plastic wire is rolled, a deflection force is generated on the first sliding frame, and the frame body slides along the guide seat to facilitate self-adaptation of the wire feeding position of the plastic wire.

Preferably, the first carriage further comprises a first stop block, and the first stop block is fixedly connected to one end of the frame body, which is opposite to the guide sleeve. The first stop block is used for stopping at the outer side of the guide wheel, plays a role in limiting the sliding amplitude of the frame body, prevents the frame body from separating from the guide seat, and ensures the stability of the butt joint state of the guide seat and the first sliding frame.

Preferably, the second carriage comprises a bearing frame, a sliding rod and a second stop block, and the sliding rod is fixedly connected between the bearing frame and the second stop block. The spring is used for providing pressure for the bearing frame, so that the bearing frame acts on the rotating wheel, the rotating wheel is enabled to be stably pressed on the plastic wires in the winding drum, and the rotating wheel is enabled to conveniently drive the winding drum to synchronously rotate.

Preferably, the second carriage further comprises a pull button fixedly connected to the outer end of the second stop block. The second stop block is pulled outwards by pinching the pull button by hand, so that the second stop block acts on the slide bar outwards, the slide bar overcomes the elasticity of the spring to drive the bearing bracket to move outwards, the bearing bracket drives the rotating wheel to separate from the winding drum, then the plastic wire is cut off, the winding drum is taken down, and a new winding drum is installed back, so that the winding drum is convenient to replace.

In summary, the technical effects and advantages of the present utility model are:

1. the plastic wire is clamped into the winding drum, the rotating wheel is driven to rotate by the reducing motor, the winding drum is driven to rotate by the rotating wheel, the plastic wire is wound on the winding drum, in-process elasticity of the spring is utilized to act between the plastic wire and the winding drum, the plastic wire automatically moves towards the side part in the low-position direction in the winding process, when the plastic wire moves to the edge of the winding drum, the plastic wire is blocked by the edge of the winding drum, in-situ winding of the plastic wire becomes high, the plastic wire is wound on the other side in a self-adaptive manner, and the plastic wire is conveniently and automatically distributed according to the thickness of the plastic wire.

2. When the plastic wire is rolled, a deflection force is generated on the first sliding frame, and the frame body slides along the guide seat to facilitate self-adaptation of the wire feeding position of the plastic wire.

3. The spring is used for providing pressure for the bearing frame, so that the bearing frame acts on the rotating wheel, the rotating wheel is enabled to be stably pressed on the plastic wires in the winding drum, and the rotating wheel is enabled to conveniently drive the winding drum to synchronously rotate.

4. The second stop block is pulled outwards by pinching the pull button by hand, so that the second stop block acts on the slide bar outwards, the slide bar overcomes the elasticity of the spring to drive the bearing bracket to move outwards, the bearing bracket drives the rotating wheel to separate from the winding drum, then the plastic wire is cut off, the winding drum is taken down, and a new winding drum is installed back, so that the winding drum is convenient to replace.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is a schematic view of a guide structure according to the present utility model;

FIG. 3 is a schematic view of a first carriage structure of the present utility model;

fig. 4 is a schematic view of a second carriage structure of the present utility model.

In the figure: 1. a reel; 2. a guide seat; 3. a first carriage; 4. a second carriage; 5. a spring; 6. a rotating wheel; 7. a speed reducing motor; 21. a base; 22. a guide wheel; 23. a guide ratio frame; 31. a frame body; 32. a first stopper; 33. guide sleeve; 34. a fixed shaft; 41. a bearing bracket; 42. a slide bar; 43. a second stopper; 44. pulling the button.

Description of the embodiments

The following description of the technical solutions in the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings in the embodiments of the present utility model, and it is apparent that the described embodiments are only some embodiments of the present utility model, not all embodiments.

Referring to fig. 1, a plastic wire winding device comprises a guide seat 2, a first sliding frame 3 is inserted in the guide seat 2 in a sliding manner, a second sliding frame 4 is installed in the first sliding frame 3 in a sliding manner, a spring 5 is sleeved outside the second sliding frame 4 in a movable manner, one end of the spring 5 is fixedly connected with the second sliding frame 4, the other end of the spring 5 is fixedly connected with the first sliding frame 3, a rotating wheel 6 is fixedly connected inside the second sliding frame 4, a rotating shaft of the rotating wheel 6 penetrates through the second sliding frame 4, a speed reducing motor 7 is fixedly connected with the outer portion of the second sliding frame 4, the speed reducing motor 7 is not in contact with the first sliding frame 3, a rotor of the speed reducing motor 7 is fixedly connected with the rotating shaft of the rotating wheel 6, a winding drum 1 is sleeved outside the rotating wheel 6, and the winding drum 1 is rotatably sleeved on the first sliding frame 3. When the plastic wire winding machine is used, plastic wires are clamped onto the winding drum 1, the rotating wheel 6 is driven to rotate by the gear motor 7, the winding drum 1 is driven to rotate by the rotating wheel 6, the plastic wires are wound on the winding drum 1, in the process, the elastic force of the spring 5 is used for acting between the plastic wires and the winding drum 1, the plastic wires automatically move towards the side part low-position direction in the winding process, when the plastic wires move to the edge of the winding drum 1, the edge of the winding drum 1 is used for shielding, so that in-situ winding of the plastic wires is increased, and the plastic wires are wound on the other side in a self-adaptive manner.

Referring to fig. 1 and 2, the guide holder 2 includes a holder body 21 and guide wheels 22, the guide wheels 22 are rotatably coupled to the inside of the holder body 21, and the guide wheels 22 are symmetrically provided with four. The first carriage 3 is guided to slide by the guide roller 22, and the sliding resistance of the first carriage 3 is reduced.

Referring to fig. 1 and 2, the guide holder 2 further includes a guide frame 23, and the guide frame 23 is fixedly coupled to a side portion of the holder body 21. The plastic wire is guided by the guide frame 23 to stabilize the wire winding direction.

Referring to fig. 1, 2 and 3, the first carriage 3 includes a frame 31, a guide sleeve 33 and a fixed shaft 34, the frame 31 is inserted between the guide wheels 22, the guide wheels 22 are in rolling contact with the frame 31, the winding drum 1 is rotatably mounted at the outside of the fixed shaft 34, and the guide sleeve 33 is fixedly connected with the frame 31 as a whole. When the plastic wire is winded, the first sliding frame 3 generates a deflection force, and the frame body 31 slides along the guide seat 2 to adapt to the wire feeding position of the plastic wire.

Referring to fig. 1, 2 and 3, the first carriage 3 further includes a first stopper 32, and the first stopper 32 is fixedly connected to an end of the frame 31 facing away from the guide sleeve 33. The first stop block 32 is blocked on the outer side of the guide wheel 22, so that the sliding range of the frame 31 is limited, and the frame 31 is prevented from being separated from the guide seat 2.

Referring to fig. 1, 3 and 4, the second carriage 4 includes a bearing frame 41, a slide bar 42 and a second stopper 43, the rotating wheel 6 is rotatably connected in the bearing frame 41, and a rotor of the rotating wheel 6 is rotatably connected through the bearing frame 41 and a rotor of the gear motor 7, a housing of the gear motor 7 is fixedly connected with the bearing frame 41, the slide bar 42 is slidably mounted in the guide sleeve 33, and the slide bar 42 is penetrated through the guide sleeve 33, one end of the spring 5 is fixedly connected with the bearing frame 41, the other end of the spring 5 is fixedly connected with the guide sleeve 33, the spring 5 is movably sleeved outside the slide bar 42, and the slide bar 42 is fixedly connected between the bearing frame 41 and the second stopper 43. The spring 5 is used for providing pressure for the bearing frame 41, so that the bearing frame 41 acts on the rotating wheel 6, and the rotating wheel 6 is stably pressed on the plastic wire in the winding drum 1.

Referring to fig. 1 and 4, the second carriage 4 further includes a pull button 44, and the pull button 44 is fixedly coupled to an outer end of the second stopper 43. The second stop block 43 is pulled outwards by pinching the pull button 44 by hand, so that the second stop block 43 acts outwards on the slide rod 42, the slide rod 42 overcomes the elastic force of the spring 5 to drive the bearing frame 41 to move outwards, the bearing frame 41 drives the rotating wheel 6 to separate from the winding drum 1, then the plastic wire is cut off, the winding drum 1 is taken down, and a new winding drum 1 is put back.

Working principle: the plastic wire is clamped onto the winding drum 1, the rotating wheel 6 is driven to rotate by the gear motor 7, the winding drum 1 is driven to rotate by the rotating wheel 6, the plastic wire is wound up by the winding drum 1, in the process, the elastic force of the spring 5 is used for acting between the plastic wire and the winding drum 1, the plastic wire is automatically moved to the side part in the low-position direction in the winding process, when the plastic wire moves to the edge of the winding drum 1, the edge of the winding drum 1 is used for shielding, the plastic wire is wound up in situ to be higher, the plastic wire is enabled to be wound up to the other side in an adaptive manner, the first sliding frame 3 is guided to slide by the guide wheel 22, the sliding resistance of the first sliding frame 3 is reduced, when the plastic wire is wound up, the deflection force is generated to the first sliding frame 3 in the winding process, the self-adaptive plastic wire is slid along the guide seat 2 by the frame 31, the spring 5 is used for providing pressure for the bearing frame 41, the bearing frame 41 is enabled to act on the rotating wheel 6, the rotating wheel 6 is enabled to be stably pressed on the plastic wire in the winding drum 1, the second stop 43 is pulled outwards by the hand outside the pulling button 44, the elastic force of the sliding frame 42 is enabled to overcome the elastic force of the sliding bar 42 to move outwards, the bearing frame 41 is enabled to be driven to move outwards to the bearing frame 41 to be separated from the outer side of the first sliding frame 3, and the sliding frame 1 is enabled to be separated from the winding drum 1, and then the new sliding bar 1 is wound.

The foregoing is only a preferred embodiment of the utility model, but the scope of the utility model is not limited thereto, and any person skilled in the art who is in the field of the utility model can apply equivalent substitution or modification to the technical solution and the inventive concept according to the utility model within the scope of the utility model.

The application direction is simply mentioned in the description for the prior art that the utility model is known to the person skilled in the art and has not changed, and the utility model is combined to form the complete technology; techniques well known to those skilled in the art to avoid undue popularity are employed to assist those skilled in the art in quickly understanding the principles of the utility model.

Claims

1. A plastic wire coiling mechanism, its characterized in that: including guide bracket (2), the inside slip of guide bracket (2) has inserted first balladeur train (3), the inside slidable mounting of first balladeur train (3) has second balladeur train (4), the outside movable sleeve of second balladeur train (4) has spring (5), the one end and the second balladeur train (4) fixed connection of spring (5), the other end and the first balladeur train (3) fixed connection of spring (5), the inside fixedly connected with runner (6) of second balladeur train (4), the pivot of runner (6) runs through second balladeur train (4), the outside fixedly connected with gear motor (7) of second balladeur train (4), gear motor (7) and first balladeur train (3) contactless, the rotor of gear motor (7) and the pivot fixed connection of runner (6), the outside cover of runner (6) has reel (1), reel (1) rotate the cover on first balladeur train (3).

2. A plastic wire winding device according to claim 1, wherein: the guide seat (2) comprises a seat body (21) and guide wheels (22), the guide wheels (22) are rotatably connected inside the seat body (21), and the guide wheels (22) are symmetrically arranged with four guide wheels.

3. A plastic wire winding device according to claim 2, wherein: the guide seat (2) further comprises a guide frame (23), and the guide frame (23) is fixedly connected to the side part of the seat body (21).

4. A plastic wire winding device according to claim 1, wherein: the first sliding frame (3) comprises a frame body (31), a guide sleeve (33) and a fixed shaft (34), and the guide sleeve (33) is fixedly connected with the frame body (31) into a whole.

5. A plastic wire winding device according to claim 4, wherein: the first sliding frame (3) further comprises a first stop block (32), and the first stop block (32) is fixedly connected to one end of the frame body (31) opposite to the guide sleeve (33).

6. A plastic wire winding device according to claim 1, wherein: the second sliding frame (4) comprises a bearing frame (41), a sliding rod (42) and a second stop block (43), and the sliding rod (42) is fixedly connected between the bearing frame (41) and the second stop block (43).

7. The plastic wire winding device according to claim 6, wherein: the second carriage (4) further comprises a pull button (44), and the pull button (44) is fixedly connected to the outer end of the second stop block (43).