A fiber blended fabric winding device

By combining pressure rollers and fabric guiding devices with ion wind static elimination rods, the problem of impurity adsorption and adhesion caused by static electricity during the winding process of fiber blended fabrics is solved, achieving a high-quality winding effect.

CN224477705UActive Publication Date: 2026-07-10HANGZHOU JUYUAN KNITTING CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
HANGZHOU JUYUAN KNITTING CO LTD
Filing Date
2025-08-05
Publication Date
2026-07-10

AI Technical Summary

Technical Problem

During the winding process, the friction of the fiber blended fabric generates static electricity, causing the fabric surface to become charged and attract dust and impurities. Static electricity can also cause the fabric to stick together, affecting the winding quality and the appearance of the finished product.

Method used

The system uses a pressure roller and fabric guiding device in conjunction with an ion wind static eliminator to keep the fabric taut through the fabric channel, ensuring that it enters the working range of the ion wind static eliminator, eliminating static electricity and preventing sticking.

Benefits of technology

It effectively eliminates static electricity in the fabric, prevents impurities from adsorbing, ensures the quality of fabric winding and the consistency of the finished product's appearance, and avoids adhesion and deformation.

✦ Generated by Eureka AI based on patent content.

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    Figure CN224477705U_ABST
Patent Text Reader

Abstract

This utility model relates to a fiber blended fabric winding device, including a support base, a winding roller disposed at the end of the support base, a pressure roller disposed at the front end of the support base, and an antistatic device disposed at the top of the support base. The antistatic device includes a fixed plate connected to the top of the side wall of the support base, an ion wind antistatic eliminator connected to the fixed plate, and a fabric guiding device connected to the antistatic device. The fabric guiding device has a fabric channel, and the distance between the outlet of the fabric channel and the ion wind antistatic eliminator is within the working area of ​​the ion wind antistatic eliminator. The pressure roller applies pressure to the fabric during its movement, keeping the fabric taut and allowing it to pass smoothly through the fabric channel. The fabric channel ensures that the fabric, after exiting the winding, is within the working range of the ion wind antistatic eliminator, and its performance does not change with the increase in the diameter of the wound fabric roll, thus ensuring a consistently stable antistatic effect, preventing the wound fabric from carrying static electricity, and guaranteeing the quality of fabric winding.
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Description

Technical Field

[0001] This utility model belongs to the field of fabric processing, and in particular relates to a winding device for fiber blended fabrics. Background Technology

[0002] Fiber blended fabrics are made by blending two or more different types of fibers, which combine the advantages of different fibers. For example, the blend of natural fibers and chemical fibers can retain the comfort, breathability, moisture absorption and skin-friendly properties of natural fibers, while the chemical fibers can improve the strength, abrasion resistance and wrinkle resistance of the fabric. At the same time, by adjusting the blend ratio, it can be flexibly adapted to the needs of various scenarios such as clothing and home decoration. Therefore, it is widely used in the textile industry.

[0003] After processing, the fabric must be wound up by a winding device. The wound fabric forms neat rolls, which are convenient for storage and transportation.

[0004] However, during the fabric's movement, the continuous friction between the rotating rollers and the fabric generates static electricity, causing the fabric surface to become charged. This charge then strongly attracts dust, lint, fiber debris, and other impurities from the surrounding air. If the fabric is not treated before being rolled up, these impurities will remain attached, easily causing defects in subsequent processing, leading to a decline in fabric quality, or even rendering it waste. Furthermore, static electricity causes mutual attraction between fabric particles, leading to localized adhesion during winding. This results in uneven tension within the roll; some areas may be too tight, causing stretching and deformation, while others may be too loose, forming wrinkles. Such rolls will develop irreversible creases during subsequent cutting or use, severely affecting the finished product's appearance and dimensional accuracy.

[0005] Therefore, before rolling the material into rolls, it is necessary to remove static electricity from the fabric to eliminate static electricity that attracts impurities, and also to prevent sticking during the rolling process, thus ensuring the quality of the rolled fabric. Summary of the Invention

[0006] This invention provides a fiber blended fabric winding device, which aims to improve the defect in the prior art where static electricity generated by friction and other reasons affects the quality of the fabric.

[0007] The specific technical solution of this utility model is as follows: a fiber blended fabric winding device includes a support base, a winding roller disposed at the end of the support base, a pressure roller disposed at the front end of the support base, and an antistatic device disposed at the top of the support base; the antistatic device includes a fixed plate connected to the top of the side wall of the support base, an ion wind antistatic eliminator connected to the fixed plate, and a fabric guiding device connected to the antistatic device, the fabric guiding device having a fabric channel, and the distance between the outlet of the fabric channel and the ion wind antistatic eliminator is within the working area of ​​the ion wind antistatic eliminator.

[0008] The pressure roller and the fabric guide device are two contact components that the fabric must pass through before it is wound up. The pressure roller applies pressure to the fabric during its movement, keeping it taut and allowing it to pass smoothly through the fabric channel. The fabric channel ensures that the fabric is within the working range of the ion wind static eliminator after it exits the channel, and this range remains unchanged as the diameter of the fabric roll increases. This ensures that the static eliminator effect is always stable, preventing the wound fabric from carrying static electricity and guaranteeing the quality of the fabric winding.

[0009] Preferably, the fabric guiding device includes a support plate connected to an antistatic device, a roller parallel to and separate from the support plate, U-shaped bends connected to both ends of the roller, the U-shaped bends being fixed to both ends of the support plate, and the gap between the roller and the support plate being the fabric channel.

[0010] Preferably, the fixing plate is connected to the mounting shell of the ion wind static eliminator, the ion wind static eliminator is installed inside the mounting shell, the fabric guiding device is located on the side of the ion wind static eliminator, and the support plate is connected to the side of the mounting shell through an L-shaped bend.

[0011] Preferably, the fixing plate and the mounting shell are connected by an elastic component, which includes an inner tube and an outer tube that are nested together. A tension spring is installed inside the inner tube, and the tension spring connects the inner tube and the outer tube. Through the elastic component, when the fabric is tensioned and passes through the fabric channel, the ion wind static elimination sleeve can float up and down, and the tilt angle of the fabric exiting the fabric channel will be slightly adjusted, thereby adapting to the change of the fabric roll from the smallest to the largest.

[0012] Preferably, the top of the side wall of the support base is provided with a mounting groove, and the two ends of the fixing plate are inserted into the mounting groove.

[0013] Preferably, the end of the fixing plate is provided with a limit pin, and the mounting groove is connected to a plug groove, which has a socket for the end of the limit pin to be inserted, and the limit pin is connected to a limit component.

[0014] Preferably, the insertion slot is provided at the end of the mounting slot, and the two ends of the fixing plate are provided with sliding grooves. The opening of the sliding groove is located at the end face of the fixing plate. The limiting pin is provided in the sliding groove and can move in the sliding groove. The limiting component is a limiting spring provided in the sliding groove. One end of the limiting spring abuts against the inner end of the sliding groove, and the other end of the limiting spring abuts against the end of the limiting pin.

[0015] Preferably, the upper surface of the sliding groove is slotted, the limiting pin is L-shaped, the long side is parallel to the fixed plate and is located in the sliding groove, and the end edge is perpendicular to the fixed plate and extends out of the sliding groove through the slot.

[0016] Preferably, the insertion slot is located on the side of the mounting slot and is connected to the mounting slot. The insertion port of the insertion slot is located on the inner wall of the side wall of the support base. The limiting pin is located on the side of the fixing plate. The position of the limiting pin is on the same straight line as the position of the insertion slot. The limiting component is a limiting spring, which is located at the tail end of the limiting pin.

[0017] Preferably, the lower side of the pressure roller is lower than the inlet of the fabric channel, the position of the take-up roller is lower than the outlet of the fabric channel, and the height difference between the take-up roller and the outlet of the fabric channel is at least the radius of the fabric roll.

[0018] The beneficial effects of this utility model are as follows: The pressure roller and the fabric guiding device are two contact components that the fabric must pass through before winding. The pressure roller applies pressure to the fabric during its movement, keeping the fabric taut and allowing it to pass smoothly through the fabric channel. The fabric channel ensures that the fabric is within the working range of the ion wind static eliminator after it exits, and this range does not change as the diameter of the rolled fabric increases, thus ensuring a stable static elimination effect and preventing the rolled fabric from carrying static electricity, thereby ensuring the quality of the fabric winding. The elastic component allows the ion wind static eliminator to have the ability to float up and down when the fabric passes through the fabric channel after it is taut. The tilt angle of the fabric exiting the fabric channel will be slightly adjusted to adapt to the change in the size of the fabric roll from the smallest to the largest. Attached Figure Description

[0019] Figure 1 This is a structural schematic diagram of the present invention;

[0020] Figure 2 This is an exploded view of the present invention;

[0021] Figure 3 This is a connection diagram of an ion wind static electricity eliminator rod according to this utility model;

[0022] Figure 4 This is a utility model Figure 2 Enlarged diagram of point A in the diagram;

[0023] Figure 5 This is a partial end view of a fixing plate according to the present invention;

[0024] In the diagram: 1. Support base, 2. Pressure roller, 3. Antistatic device, 4. Fixing plate, 5. Fabric guiding device, 6. Fixing rod, 7. Drive motor, 8. Take-up roller, 9. Mounting groove, 10. Elastic component, 11. Cover plate, 12. Limiting pin, 13. Mounting shell, 14. L-shaped bend, 15. Support plate, 16. Roller, 17. Fabric channel, 18. U-shaped bend, 19. Sliding groove, 20. Limiting spring, 21. Insertion groove. Detailed Implementation

[0025] The present invention will be further described below through specific embodiments and in conjunction with the accompanying drawings. Example 1:

[0026] like Figure 1 Figure 2 Figure 3 As shown, a fiber blended fabric winding device includes a support base 1, a winding roller 8 located at the end of the support base, a pressure roller 2 located at the front end of the support base, an antistatic device 3 located on the top of the support base, and a fixing rod 6 connected to the upper part of the support base, the fixing rod being positioned above the winding roller. The antistatic device includes a fixing plate 4 connected to the top of the side wall of the support base, and a mounting shell 13 connected to the fixing plate for mounting an ion wind antistatic bar. The ion wind antistatic bar is located inside the mounting shell. A fabric guiding device 5 is connected to the antistatic device, the fabric guiding device having a fabric channel 17, the distance between the outlet of the fabric channel and the ion wind antistatic bar being within the working area of ​​the ion wind antistatic bar. The lower side of the pressure roller is lower than the inlet of the fabric channel, and the position of the winding roller is lower than the outlet of the fabric channel, the height difference between the winding roller and the outlet of the fabric channel being at least the radius of the fabric roll. A drive motor 7 is located on the side of the support base, and the end of the winding roller is connected to the drive motor.

[0027] The fixed plate and the mounting shell are connected by an elastic component, which includes an inner tube and an outer tube that are nested together. A tension spring is installed inside the inner tube, and the tension spring connects the inner tube and the outer tube.

[0028] like Figure 2 Figure 3 Figure 4 Figure 5 As shown, the top of the side wall of the support base is provided with a mounting groove 9, and the two ends of the fixing plate are inserted into the mounting groove. The end of the fixing plate is provided with a limit pin 12, and the mounting groove is connected to a plug groove 21. The plug groove has a socket for the end of the limit pin to be inserted, and the limit pin is connected to a limit component.

[0029] A plug-in slot is located at the end of the mounting slot. Sliding grooves 19 are provided at both ends of the fixing plate, with openings on the end faces of the fixing plate. A limiting pin is located within the sliding groove and can move within it. The limiting component is a limiting spring 20 located within the sliding groove; one end of the limiting spring abuts against the inner end of the sliding groove, and the other end abuts against the end of the limiting pin. The upper surface of the sliding groove is slotted. The limiting pin is L-shaped, with its long side parallel to the fixing plate within the sliding groove, and its end edge perpendicular to the fixing plate and extending out of the sliding groove through the slot. Under the action of the limiting spring, the long end of the limiting pin extends along the length of the fixing plate to the end face of the fixing plate. A cover plate 11 is connected to the short side of the limiting pin, located on the upper surface of the fixing plate, covering the slotted portion of the upper surface of the sliding groove.

[0030] The fabric guiding device is located on the side of the ion wind static elimination rod. The fabric guiding device includes a support plate 15 connected to the mounting shell and a roller 16 parallel to and separate from the support plate. The support plate is connected to the side of the mounting shell through an L-shaped bend 14. The two ends of the roller are connected to U-shaped bends 18, which are fixed to the two ends of the support plate. The gap between the roller and the support plate is the fabric channel 17. Example 2:

[0031] A fiber blended fabric winding device differs from Embodiment 1 in that an insertion slot is located on the side of the mounting slot and is connected to the mounting slot. The insertion port of the insertion slot is located on the inner wall of the support base sidewall. A limiting pin is located on the side of the fixing plate, and the position of the limiting pin is on the same straight line as the position of the insertion slot. The limiting component is a limiting spring, which is located at the tail end of the limiting pin. The remaining structure is the same as in Embodiment 1.

[0032] Compress the limiting spring, place both ends of the fixing plate into the mounting groove 9, then release the limiting spring. Under the action of the limiting spring, the limiting pin extends forward and the end of the limiting pin is inserted into the insertion groove. At this time, the fixing plate is locked.

[0033] The above description is merely a preferred embodiment of the present utility model and does not constitute any limitation on the present utility model. Any simple modifications, alterations, or equivalent transformations made to the above embodiments based on the technical essence of the present utility model shall still fall within the protection scope of the present utility model.

Claims

1. A fiber blended fabric winding device, characterized in that, It includes a support base (1), a take-up roller (8) located at the end of the support base, a pressure roller (2) located at the front end of the support base, and an antistatic device (3) located at the top of the support base; the antistatic device includes a fixed plate (4) connected to the top of the side wall of the support base, an ion wind antistatic eliminator connected to the fixed plate, a fabric guiding device (5) connected to the antistatic device, the fabric guiding device having a fabric channel (17), and the distance between the outlet of the fabric channel and the ion wind antistatic eliminator is within the working area of ​​the ion wind antistatic eliminator.

2. The fiber blended fabric winding device according to claim 1, characterized in that, The fabric guiding device includes a support plate (15) connected to an antistatic device and a roller (16) parallel to and separate from the support plate. U-shaped bends (18) are connected to both ends of the roller. The U-shaped bends are fixed to both ends of the support plate. The gap between the roller and the support plate is the fabric channel.

3. The fiber blended fabric winding device according to claim 2, characterized in that, The fixed plate is connected to the mounting shell (13) for the ion wind static elimination rod. The ion wind static elimination rod is installed inside the mounting shell. The fabric guiding device is located on the side of the ion wind static elimination rod. The support plate is connected to the side of the mounting shell through an L-shaped bend (14).

4. A fiber blended fabric winding device according to claim 3, characterized in that, The fixed plate and the mounting shell are connected by an elastic component (10). The elastic component includes an inner tube and an outer tube that are nested together. A tension spring is provided inside the inner tube, and the tension spring connects the inner tube and the outer tube.

5. A fiber blended fabric winding device according to claim 1, 2, or 3, characterized in that, The top of the side wall of the support base is provided with a mounting groove (9), and the two ends of the fixing plate are inserted into the mounting groove.

6. A fiber blended fabric winding device according to claim 5, characterized in that, The end of the fixed plate is provided with a limit pin (12), and the mounting groove is connected to a plug groove (21). The plug groove has a socket for the end of the limit pin to be inserted, and the limit pin is connected to a limit component.

7. A fiber blended fabric winding device according to claim 6, characterized in that, The insertion slot is located at the end of the mounting slot. The two ends of the fixing plate are provided with sliding grooves (19). The opening of the sliding groove is located at the end face of the fixing plate. The limiting pin is located in the sliding groove and can move in the sliding groove. The limiting component is a limiting spring (20) located in the sliding groove. One end of the limiting spring abuts against the inner end of the sliding groove, and the other end of the limiting spring abuts against the end of the limiting pin.

8. A fiber blended fabric winding device according to claim 7, characterized in that, The upper surface of the sliding groove is slotted, and the limiting pin is L-shaped, with its long side parallel to the fixed plate and located inside the sliding groove, and its end edge perpendicular to the fixed plate and extending out of the sliding groove through the slot.

9. A fiber blended fabric winding device according to claim 6, characterized in that, The insertion slot is located on the side of the mounting slot and is connected to the mounting slot. The insertion port of the insertion slot is located on the inner wall of the support base side wall. The limiting pin is located on the side of the fixing plate. The position of the limiting pin is on the same straight line as the position of the insertion slot. The limiting component is a limiting spring, which is located at the tail end of the limiting pin.

10. A fiber blended fabric winding device according to claim 1, characterized in that, The lower side of the pressure roller is below the inlet of the fabric channel, and the position of the take-up roller is below the outlet of the fabric channel. The height difference between the take-up roller and the outlet of the fabric channel is at least the radius of the fabric roll.