A twist rod top manufacturing device

By designing a twisted rod sliver manufacturing equipment with an electric winding and pulling traction mechanism, the problems of low efficiency and poor uniformity of manual winding have been solved, realizing automated uniform winding and improving production efficiency and product quality.

CN122144557APending Publication Date: 2026-06-05NINGBO BEILUN QIANYUAN STATIONERY CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Applications(China)
Current Assignee / Owner
NINGBO BEILUN QIANYUAN STATIONERY CO LTD
Filing Date
2026-03-19
Publication Date
2026-06-05

AI Technical Summary

Technical Problem

The traditional process of winding pipe cleaner strips relies on manual operation, which is inefficient and cannot guarantee the uniform distribution of decorative strips.

Method used

A torsion bar fabrication device was designed, which includes an electric winding mechanism and an electric pulling mechanism. Through the cooperation of the electric winding mechanism and the electric pulling mechanism, the decorative bar is uniformly wound on the metal wire.

Benefits of technology

The automated winding process of pipe cleaner strips has been achieved, which improves work efficiency, ensures the uniform distribution of decorative strips, and enhances product quality.

✦ Generated by Eureka AI based on patent content.

Smart Images

  • Figure CN122144557A_ABST
    Figure CN122144557A_ABST
Patent Text Reader

Abstract

The application discloses a twist stick wool top manufacturing equipment, which comprises a support, a motor winding mechanism is installed on the support, the motor winding mechanism comprises a metal wire placing assembly and a feeding winding assembly, and a motor pulling traction mechanism is further arranged and cooperated with the metal wire placing assembly to drive the metal wire placing assembly to pay off wire; the motor pulling traction mechanism comprises a traction support, a pair of traction rollers which are parallel to each other and can be elastically deformed are rotatably installed on the inner side of the traction support, and a traction motor is fixedly installed on the outer side of the traction support and used for driving one of the traction rollers to rotate; the twist stick wool top automatic manufacturing equipment is designed, the decorative wool top is uniformly wound on the metal wire through cooperation of the motor winding mechanism and the motor pulling traction mechanism, continuous automatic winding manufacturing is realized, the working effect is higher, the winding is more uniform, and the quality of products is ensured.
Need to check novelty before this filing date? Find Prior Art

Description

Technical Field

[0001] This invention belongs to the field of pipe cleaner manufacturing technology, specifically relating to a pipe cleaner manufacturing equipment. Background Technology

[0002] Pipe cleaners, as a material that combines decoration and practicality for crafting, are widely used in various fields such as DIY crafts, children's educational creations, and handicrafts. Pipe cleaners consist of flexible metal wire and decorative bobby strips wrapped around the wire. Traditionally, wrapping the decorative bobby strips around the metal wire is mostly done manually, which is inefficient and cannot guarantee that the decorative bobby strips are evenly distributed on the metal wire.

[0003] Therefore, the present invention designs a device for manufacturing twisted pipe trimmers. Summary of the Invention

[0004] The purpose of this invention is to provide a device for manufacturing twisted pipe cleaners to solve the problems mentioned in the background art.

[0005] To achieve the above objectives, the present invention provides the following technical solution: a twisted rod lint manufacturing device, including a support frame, on which an electric winding mechanism is installed. The electric winding mechanism includes a wire placement assembly and a feeding winding assembly, and also includes an electric pulling and traction mechanism that cooperates with the wire placement assembly to drive the wire placement assembly to release the wire.

[0006] Preferably, the wire placement assembly includes a U-shaped mounting base fixed to the top of the bracket, a rotating roller rotatably mounted inside the U-shaped mounting base, and a wire wound onto the rotating roller.

[0007] Preferably, the electric pulling and traction mechanism includes a traction bracket, a pair of parallel and elastically deformable traction rollers rotatably mounted on the inner side of the traction bracket, a traction motor fixedly mounted on the outer side of the traction bracket for driving one of the traction rollers to rotate, one end of the metal wire passing through the gap between the pair of traction rollers, and the traction motor driving the traction rollers to pull and convey the coiled metal wire outward.

[0008] Preferably, the feeding and winding assembly includes a decorative strip for winding around the outside of a metal wire, a rotating rod rotatably mounted on one side of a U-shaped mounting base, a mounting plate mounted on the rotating rod and rotating synchronously with the rotating rod, a guide tube extending through the edge of the mounting plate, a driven gear plate fixed on the mounting plate, and a drive motor fixedly mounted on one side of the U-shaped mounting base. The output end of the drive motor is provided with a driving gear, which meshes with the driven gear plate for transmission. One end of the decorative strip passes sequentially through the rotating rod and the guide tube and then winds around the metal wire located between the rotating roller and the traction roller and is in a stretched state.

[0009] Preferably, the gap width between the pair of traction rollers is smaller than the diameter of the metal wire.

[0010] Preferably, the electric pulling and traction mechanism includes a traction bracket, a pair of parallel and tangent traction rollers rotatably installed inside the traction bracket, and a traction motor fixedly installed outside the traction bracket. The traction motor drives the lower traction roller to rotate, and a tensioning component is provided between the upper traction roller and the traction bracket. One end of the metal wire passes through the pair of traction rollers, and the traction motor drives the traction rollers to pull and convey the coiled metal wire outward.

[0011] Preferably, the tensioning assembly includes a pair of movable guide slots symmetrically opened at both ends of the traction bracket, a pair of limiting movable bearing seats that are movably and vertically arranged in the pair of movable guide slots, and the two ends of the traction roller located above are respectively rotatably connected to the limiting movable bearing seats. A tensioning spring for maintaining the compressed state is provided between the top of each limiting movable bearing seat and the top of the corresponding movable guide slot.

[0012] Compared with the prior art, the beneficial effects of the present invention are:

[0013] This invention designs an automatic manufacturing equipment for pipe cleaner strips. By cooperating with an electric winding mechanism and an electric pulling and traction mechanism, decorative strips are evenly wound onto metal wire, achieving continuous automated winding processing and manufacturing. This results in higher work efficiency, more uniform winding, and ensures product quality. Attached Figure Description

[0014] Figure 1 This is a three-dimensional structural diagram of the present invention;

[0015] Figure 2 This is a bottom-view structural diagram of the present invention;

[0016] Figure 3 This is a schematic diagram of the tensioning assembly according to Embodiment 2 of the present invention;

[0017] In the diagram: 1. Traction bracket; 2. Traction motor; 3. Traction roller; 4. Bracket; 5. U-shaped mounting base; 6. Rotating roller; 7. Metal wire; 8. Decorative strip; 9. Rotating rod; 10. Mounting disc; 11. Driven gear disc; 12. Driving gear; 13. Guide tube; 14. Drive motor; 15. Belt gear; 16. Synchronous toothed belt. Detailed Implementation

[0018] The technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of the present invention, and not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by those skilled in the art without creative effort are within the scope of protection of the present invention.

[0019] Example 1

[0020] Please see Figures 1 to 2 This invention provides a technical solution: a torsion bar manufacturing device, including a support 4, an electric winding mechanism mounted on the support 4, the electric winding mechanism including a wire placement assembly and a feeding winding assembly, and an electric pulling and traction mechanism that cooperates with the wire placement assembly to drive the wire placement assembly to release the wire. In this embodiment, preferably, the wire placement assembly includes a U-shaped mounting base 5 fixed to the top of the support 4, a rotating roller 6 rotatably mounted inside the U-shaped mounting base 5, and a wire 7 wound on the rotating roller 6. In this embodiment, preferably, the electric pulling and traction mechanism includes a traction support 1, a pair of parallel and elastically deformable traction rollers 3 rotatably mounted inside the traction support 1, and a traction motor 2 fixedly mounted outside the traction support 1 for driving one of the traction rollers 3 to rotate. One end of the wire 7 passes through the gap between the pair of traction rollers 3, and the traction motor 2 drives the traction roller 3 to pull and convey the wound wire 7 outward. In this embodiment, preferably, the feeding and winding assembly includes a decorative strip 8 for winding around the metal wire 7, a rotating rod 9 rotatably mounted on one side of the U-shaped mounting base 5, a mounting plate 10 mounted on the rotating rod 9 and rotating synchronously with the rotating rod 9, a guide tube 13 penetrating and mounted on the edge of the mounting plate 10, a driven gear plate 11 fixed on the mounting plate 10, and a drive motor 14 fixedly mounted on one side of the U-shaped mounting base 5. The output end of the drive motor 14 is provided with a driving gear 12, which meshes with the driven gear plate 11 for transmission. One end of the decorative strip 8 passes sequentially through the rotating rod 9 and the guide tube 13 and then winds around the metal wire 7, which is located between the rotating roller 6 and the traction roller 3 and is in a stretched state. In this embodiment, preferably, the gap width between the pair of traction rollers 3 is smaller than the diameter of the metal wire 7.

[0021] Example 2

[0022] The difference between this embodiment and Embodiment 1 is that, in this embodiment, the electric pulling and traction mechanism includes a traction bracket 1, a pair of parallel and tangent traction rollers 3 rotatably mounted inside the traction bracket 1, and a traction motor 2 fixedly mounted outside the traction bracket 1. The traction motor 2 drives the lower traction roller 3 to rotate. A tensioning assembly is provided between the upper traction roller 3 and the traction bracket 1. One end of the metal wire 7 passes through the pair of traction rollers 3, and the traction motor 2 drives the traction roller 3 to pull and convey the coiled metal wire 7 outward. In this embodiment, preferably, the tensioning assembly includes a pair of movable guide grooves 15 symmetrically opened at both ends of the traction bracket 1, a pair of limiting movable bearing seats 17 movably arranged in the pair of movable guide grooves 15, and the two ends of the upper traction roller 3 are respectively rotatably connected to the limiting movable bearing seats 17. A tension spring 16 for maintaining a compressed state is provided between the top of each limiting movable bearing seat 17 and the top of the corresponding movable guide groove 15, which can be applied to metal wires 7 of different thicknesses within a certain range.

[0023] Although embodiments of the invention have been shown and described in detail above, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the invention, the scope of which is defined by the appended claims and their equivalents.

Claims

1. A device for manufacturing twisted pipe cleaners, comprising a support frame (4), characterized in that, An electric winding mechanism is installed on the bracket (4). The electric winding mechanism includes a wire placement assembly and a feeding winding assembly, and also includes an electric pulling and traction mechanism that cooperates with the wire placement assembly to drive the wire placement assembly to release the wire.

2. The equipment for manufacturing torsion bar yarn according to claim 1, characterized in that, The wire placement assembly includes a U-shaped mounting base (5) fixed to the top of the bracket (4), a rotating roller (6) rotatably mounted inside the U-shaped mounting base (5), and a wire (7) wound on the rotating roller (6).

3. The equipment for manufacturing torsion bar yarn according to claim 2, characterized in that, The electric pulling and traction mechanism includes a traction bracket (1), a pair of parallel and elastically deformable traction rollers (3) rotatably installed inside the traction bracket (1), and a traction motor (2) fixedly installed outside the traction bracket (1) for driving one of the traction rollers (3) to rotate. One end of the metal wire (7) passes through the gap between the pair of traction rollers (3), and the traction motor (2) drives the traction rollers (3) to pull and convey the coiled metal wire (7) outward.

4. The equipment for manufacturing torsion bar yarn according to claim 3, characterized in that, The feeding and winding assembly includes a decorative strip (8) for winding around the outside of the metal wire (7), a rotating rod (9) rotatably set on one side of the U-shaped mounting base (5), a mounting plate (10) set on the rotating rod (9) and rotating synchronously with the rotating rod (9), a guide tube (13) that passes through the edge of the mounting plate (10), a driven gear plate (11) fixed on the mounting plate (10), and a drive motor (14) fixedly set on one side of the U-shaped mounting base (5). The output end of the drive motor (14) is provided with a drive gear (12). The drive gear (12) meshes with the driven gear plate (11) for transmission. One end of the decorative strip (8) passes through the rotating rod (9) and the guide tube (13) in sequence and then winds around the metal wire (7) located between the rotating roller (6) and the traction roller (3) and is in a stretched state.

5. The equipment for manufacturing torsion bar yarn according to claim 4, characterized in that, The gap width between the pair of traction rollers (3) is smaller than the diameter of the wire (7).

6. The equipment for manufacturing torsion bar yarn according to claim 2, characterized in that, The electric traction mechanism includes a traction bracket (1), a pair of parallel and tangent traction rollers (3) rotatably installed inside the traction bracket (1), and a traction motor (2) fixedly installed outside the traction bracket (1). The traction motor (2) drives the lower traction roller (3) to rotate. A tensioning component is provided between the upper traction roller (3) and the traction bracket (1). One end of the metal wire (7) passes through the pair of traction rollers (3), and the traction motor (2) drives the traction rollers (3) to pull and convey the coiled metal wire (7) outward.

7. The torsion bar fabrication equipment according to claim 6, characterized in that, The tensioning assembly includes a pair of movable guide slots (15) symmetrically opened at both ends of the traction bracket (1), a pair of limiting movable bearing seats (17) that are movably and vertically arranged in the pair of movable guide slots (15), and the two ends of the traction roller (3) located above are rotatably connected to the limiting movable bearing seats (17) respectively. A tensioning spring (16) for maintaining the pressed state is provided between the top of each limiting movable bearing seat (17) and the top of the corresponding movable guide slot (15).