Textile cloth winding device
The winding roller is stabilized by a limiting rod and a clamping mechanism. Combined with a limiting plate and clamping rod, the stability and flexibility of the textile winding are achieved, which solves the problems of winding roller sway and width adaptability, and improves the neatness of textile winding and replacement efficiency.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- GUANGDONG HAIBO TEXTILE CO LTD
- Filing Date
- 2025-07-10
- Publication Date
- 2026-07-07
AI Technical Summary
Existing textile winding devices require manual assistance when changing winding rollers, and the winding rollers are prone to shaking, causing the textile fabric to loosen. They cannot be stably clamped, and the limit position cannot be flexibly adjusted to prevent winding deviation, thus failing to adapt to the winding of textile fabrics of different widths.
A textile fabric winding device was designed. The winding roller is stabilized by a limiting rod and a clamping mechanism. The textile fabric is limited and prevented from rolling off-center by a limiting plate and a clamping rod, so as to achieve stable disassembly of the winding roller and winding of textile fabrics of different widths.
It achieves stable engagement of the take-up roller, prevents the textile fabric from loosening, and allows for quick disassembly and replacement of the take-up roller, adapting to the neat winding of textile fabrics of different widths.
Smart Images

Figure CN224467117U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of textile fabric winding technology, and in particular to a textile fabric winding device. Background Technology
[0002] Textiles are products made from textile fibers through processing. They are divided into two main categories: woven fabrics and knitted fabrics. In the textile process, a textile winding device is needed to wind up the produced textile fabric into rolls. After winding, the winding roller containing the textile fabric needs to be removed and a new winding roller needs to be installed.
[0003] For example, the prior art Chinese patent publication number "CN216785212U" provides a winding device for textile fabric, including a base plate, a winding roller, and two first support frames slidably disposed on the surface of the base plate. The surface of the base plate is provided with a sliding component for driving the two first support frames to move in opposite directions. The surface of each first support frame is provided with a support block for supporting the winding roller. The two ends of the winding roller are respectively inserted through the surface of the support block. The surface of any first support frame is provided with a first drive motor. The output shaft of the first drive motor is connected to the winding roller in a transmission connection. The surface of the base plate is also provided with a picking and placing component for picking up and placing the winding roller.
[0004] This device, employing the technical solution of this utility model, can solve the problem that existing winding devices require manual assistance when changing winding rollers, thereby improving the speed of winding roller assembly and disassembly, and is simple and convenient to operate.
[0005] Existing textile fabric winding devices use a rotating winding roller to rotate the textile fabric, causing the fabric to wind and wind around the roller's surface. However, after the winding roller finishes winding the fabric, it fails to securely engage and position itself, leading to the roller easily wobbling and rotating. This results in the neatly wound fabric becoming loose, making it difficult to securely engage the winding roller after winding and then disassemble and replace it. Furthermore, since the length of the winding roller is fixed, and the width of the textile fabric being wound varies, the fabric is prone to uneven winding on the roller's surface. The device fails to limit and prevent uneven winding on both sides of the wound fabric, and it is not convenient to flexibly adjust the position of the limiting and anti-rolling structure to limit the width of the textile fabric.
[0006] Therefore, a textile fabric winding device is proposed. Utility Model Content
[0007] The purpose of this invention is to solve the problem in the prior art where, after the winding of textile fabric is completed, the winding roller is not properly engaged and positioned, which leads to the winding roller easily shaking and rotating, causing the neatly wound textile fabric to become loose. This makes it difficult to securely engage the winding roller after the textile fabric is wound and then disassemble and replace it. Therefore, this invention proposes a textile fabric winding device.
[0008] To achieve the above objectives, this utility model provides the following technical solution:
[0009] Design a textile fabric winding device, including a base, a guide roller installed at one end of the top of the base, a winding roller installed at the other end of the top of the base, a limit adjustment mechanism installed at both ends of the winding roller, a first support plate fixed to both sides of one end of the base installed at both ends of the winding roller, a drive rotation mechanism installed at one end of the winding roller, and a snap-fit mechanism installed at the other end of the winding roller.
[0010] The drive rotation mechanism includes:
[0011] The first gear is fixed at both ends of the take-up roller, and the bottom end of the first gear is meshed with a second gear.
[0012] A limiting groove is formed on both ends of the take-up roller, and a rotating groove is formed at the top of the first support plate. Both ends of the take-up roller slide through the rotating groove, and a limiting rod slides through the top of the limiting groove. Both ends of the limiting rod pass through the rotating groove.
[0013] The latching mechanism includes:
[0014] A second support plate is fixed to the outside of the first support plate, and a snap-fit toothed plate is installed at the top of the second support plate.
[0015] Furthermore, a third support plate is fixed on both sides of one end of the base, and the guide roller is rotatably installed on the inner top of the two third support plates. The guide roller and the winding roller are parallel to each other, and the first support plate is vertically arranged.
[0016] Furthermore, the rotating groove has a U-shaped structure and is vertically arranged, with first connecting holes on both sides inside. The two ends of the limiting rod slide through the first connecting holes. The limiting rod has a threaded rod structure, with nuts connected to both ends of the limiting rod at positions outside the first connecting holes.
[0017] Furthermore, the limiting groove is an annular structure and is located inside the rotating groove. The limiting rod is horizontally arranged and perpendicular to the winding roller. The first gear is vertically arranged and slidably installed on the outside of the first support plate.
[0018] Furthermore, a mounting bracket is fixed to the outer bottom end of the first support plate. The mounting bracket has an L-shaped structure and is vertically arranged. The second gear is rotatably installed inside the mounting bracket and vertically meshed with the bottom end of the first gear. A motor is installed on the side of the second gear and is fixedly installed on the outer side of the mounting bracket.
[0019] Furthermore, the second support plate is a rectangular plate structure and is horizontally arranged in the middle of the outer side of the first support plate. A second connecting hole is opened in the middle of the second support plate. The second connecting hole is a threaded hole structure, and a lifting bolt is rotatably passed through its internal thread. The lifting bolt is vertically arranged.
[0020] Furthermore, positioning holes are opened at both ends of the surface of the second support plate, the snap-fit toothed plate has an arc-shaped structure and the gap is set below the first gear and overlaps the top of the second support plate, and positioning rods are fixed at both ends of the bottom end of the snap-fit toothed plate. The positioning rods slide vertically through the positioning holes, and the top end of the lifting bolt abuts against the middle of the bottom end of the snap-fit toothed plate.
[0021] Furthermore, the limit adjustment mechanism includes:
[0022] A connecting sleeve is slidably fitted onto the surface of the take-up roller, and tightening bolts are evenly passed through the inside of the connecting sleeve;
[0023] A limiting plate is fixed inside the connecting sleeve, and a clamping rod is fixed inside the limiting plate.
[0024] Furthermore, the surface of the connecting sleeve is uniformly provided with a third connecting hole, which is a threaded hole structure. The tightening bolt rotates through the third connecting hole and its inner end abuts against the surface of the take-up roller. The tightening bolts are distributed in a cross shape. The limiting plate is a circular plate structure and is vertically slidably sleeved on the surface of the take-up roller. The clamping rod is horizontally spaced on the outside of the take-up roller.
[0025] The textile fabric winding device proposed in this utility model has the following advantages:
[0026] 1. This utility model features a rotating groove at the top of a first support plate. The two ends of a take-up roller are slidably mounted in the rotating groove and pass through the limiting grooves at both ends of the take-up roller via limiting rods. Nuts securely fasten the limiting rods to the first support plate. First gears are fixed at both ends of the take-up roller. Therefore, the take-up roller can be detachably and rotatably mounted on the top of the first support plate. A motor drives a second gear to rotate, which in turn drives the first gear and the take-up roller to rotate, thus winding the textile fabric. After the take-up roller has finished winding the textile fabric, the rotation of the motor and the second gear is stopped. Simultaneously, the lifting bolt is turned to push the locking tooth plate upwards. The locking tooth plate moves upwards along the positioning rod and engages with the bottom end of the first gear, thereby positioning and locking the take-up roller. This provides stable support for the wound textile fabric. Furthermore, by removing the limiting rods, the take-up roller and the textile fabric on its surface can be quickly disassembled and replaced, ensuring the textile fabric remains neat and secure after winding.
[0027] 2. In this invention, a limiting plate is installed on the surface of the take-up roller via a connecting sleeve, and a clamping rod is fixed inside the limiting plate. Therefore, the distance between the two limiting plates can be adjusted to be slightly greater than the width of the textile fabric by using the connecting sleeve, and the connecting sleeve is securely installed on the surface of the take-up roller by tightening bolts, keeping the limiting plate stably installed. In this way, the textile fabric ends are wrapped around the surface of the take-up roller, and the clamping rod holds the surface of the take-up roller in contact with it. During the rotation of the take-up roller and the winding of the textile fabric, the limiting plate limits the two sides of the textile fabric to prevent roll-off deviation. Therefore, roll-off deviation can be limited and prevented for textile fabrics of different widths, keeping the textile fabric neatly wound. Attached Figure Description
[0028] Figure 1 This is a schematic diagram of the overall structure of this utility model;
[0029] Figure 2 This utility model Figure 1 Schematic diagram of the first and second support plates;
[0030] Figure 3 This utility model Figure 1 A schematic diagram of the take-up roller and the limiting rod;
[0031] Figure 4 This utility model Figure 1 A schematic diagram of the snap-fit toothed plate and lifting bolts;
[0032] Figure 5 This utility model Figure 1 A schematic diagram of the connecting sleeve and limiting plate.
[0033] In the diagram: 1. Base; 2. Third support plate; 3. Guide roller; 4. Limiting plate; 5. Take-up roller; 6. Clamping rod; 7. First gear; 8. First support plate; 9. Tightening bolt; 10. Connecting sleeve; 11. Limiting rod; 12. Second gear; 13. Mounting bracket; 14. Motor; 15. Rotating groove; 16. First connecting hole; 17. Second connecting hole; 18. Second support plate; 19. Positioning hole; 20. Limiting groove; 21. Third connecting hole; 22. Nut; 23. Positioning rod; 24. Lifting bolt; 25. Snap-fitting toothed plate. Detailed Implementation
[0034] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments of the present utility model. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments.
[0035] Example 1
[0036] Please see Figure 1 , Figure 2 , Figure 3 , Figure 4 and Figure 5 The illustrated textile fabric winding device includes a base 1, a guide roller 3 installed at one end of the top of the base 1, a winding roller 5 installed at the other end of the top of the base 1, limit adjustment mechanisms installed at both ends of the winding roller 5, first support plates 8 fixed to both sides of one end of the base 1 installed at both ends of the winding roller 5, a drive rotation mechanism installed at one end of the winding roller 5, and a snap-fit mechanism installed at the other end of the winding roller 5.
[0037] The drive rotation mechanism includes: a first gear 7 fixed at both ends of the take-up roller 5, and a second gear 12 meshing and drivingly connected to the bottom end of the first gear 7;
[0038] Limiting grooves 20 are formed on the surfaces of both ends of the take-up roller 5. A rotating groove 15 is formed at the top of the first support plate 8. Both ends of the take-up roller 5 slide through the rotating groove 15. A limiting rod 11 slides through the inside of the top of the limiting groove 20. Both ends of the limiting rod 11 pass through the rotating groove 15.
[0039] The rotating groove 15 has a U-shaped structure and is vertically arranged. The two sides inside have first connecting holes 16. The two ends of the limiting rod 11 slide through the first connecting holes 16. The limiting rod 11 has a threaded rod structure, and nuts 22 are connected to its two ends and located outside the first connecting holes 16.
[0040] The limiting groove 20 has a circular structure and is located inside the rotating groove 15. The limiting rod 11 is set horizontally and is perpendicular to the winding roller 5. The first gear 7 is set vertically and is slidably installed on the outside of the first support plate 8.
[0041] By opening a rotating groove 15 at the top of the first support plate 8, the two ends of the take-up roller 5 are slidably installed inside the rotating groove 15, and the limiting rod 11 slides through the limiting groove 20 at both ends of the take-up roller 5. The limiting rod 11 and the first support plate 8 are detachably fastened and connected by the nut 22, and the first gear 7 is fixed at both ends of the take-up roller 5, which makes it easy to disassemble and replace the take-up roller 5.
[0042] A mounting bracket 13 is fixed to the bottom outer side of a first support plate 8. The mounting bracket 13 has an L-shaped structure and is vertically arranged. A second gear 12 is rotatably installed inside the mounting bracket 13 and vertically meshed with the bottom of the first gear 7. A motor 14 is installed on the side of the second gear 12 and is fixedly installed on the outside of the mounting bracket 13.
[0043] The take-up roller 5 is detachably and rotatably mounted on the top of the first support plate 8. The motor 14 drives the second gear 12 to rotate. The second gear 12 meshes with and drives the first gear 7 and the take-up roller 5 to rotate, thereby taking up the textile fabric. After the take-up roller 5 has finished taking up the textile fabric, the rotation of the motor 14 and the second gear 12 is stopped, and the take-up roller 5 and the textile fabric on its surface are removed and replaced.
[0044] Example 2
[0045] Please see Figure 1 , Figure 2 , Figure 3 , Figure 4 and Figure 5 The illustrated textile fabric winding device includes a base 1, a guide roller 3 installed at one end of the top of the base 1, a winding roller 5 installed at the other end of the top of the base 1, limit adjustment mechanisms installed at both ends of the winding roller 5, first support plates 8 fixed to both sides of one end of the base 1 installed at both ends of the winding roller 5, a drive rotation mechanism installed at one end of the winding roller 5, and a snap-fit mechanism installed at the other end of the winding roller 5.
[0046] The snap-fit mechanism includes a second support plate 18 fixed to the outside of a first support plate 8, and a snap-fit toothed plate 25 is installed on the top of the second support plate 18.
[0047] The second support plate 18 is a rectangular plate structure and is horizontally set in the middle of the outer side of the first support plate 8. The second support plate 18 has a second connecting hole 17 in the middle. The second connecting hole 17 is a threaded hole structure, and the internal thread rotates through the lifting bolt 24. The lifting bolt 24 is set vertically.
[0048] The second support plate 18 has positioning holes 19 at both ends of its surface. The snap-fit toothed plate 25 has an arc-shaped structure and the gap is set below the first gear 7 and overlaps the top of the second support plate 18. Positioning rods 23 are fixed at both ends of the bottom of the snap-fit toothed plate 25. The positioning rods 23 slide vertically through the positioning holes 19. The top of the lifting bolt 24 abuts against the middle of the bottom of the snap-fit toothed plate 25.
[0049] After the take-up roller 5 has finished taking up the textile fabric, the lifting bolt 24 is turned to push the locking tooth plate 25 upward. The locking tooth plate 25 moves upward along the positioning rod 23 and engages with the bottom end of the first gear 7, thereby positioning and locking the take-up roller 5. This allows for stable support and placement of the taken-up textile fabric. By removing the limiting rod 11, the take-up roller 5 and the textile fabric on its surface can be quickly disassembled and replaced, ensuring that the textile fabric is neat and not loose after being taken up.
[0050] Example 3
[0051] Please see Figure 1 , Figure 2 , Figure 3 , Figure 4 and Figure 5 The illustrated textile fabric winding device includes a base 1, a guide roller 3 installed at one end of the top of the base 1, a winding roller 5 installed at the other end of the top of the base 1, limit adjustment mechanisms installed at both ends of the winding roller 5, first support plates 8 fixed to both sides of one end of the base 1 installed at both ends of the winding roller 5, a drive rotation mechanism installed at one end of the winding roller 5, and a snap-fit mechanism installed at the other end of the winding roller 5.
[0052] The limit adjustment mechanism includes: a connecting sleeve 10 that is slidably sleeved on the surface of the take-up roller 5, and a tightening bolt 9 is evenly passed through the inside of the connecting sleeve 10;
[0053] A limiting plate 4 is fixed inside the connecting sleeve 10, and a clamping rod 6 is fixed inside the limiting plate 4.
[0054] The surface of the connecting sleeve 10 is evenly provided with third connecting holes 21. The third connecting holes 21 are threaded holes. The tightening bolts 9 rotate through the third connecting holes 21 and their inner ends abut against the surface of the take-up roller 5. The tightening bolts 9 are distributed in a cross shape.
[0055] A limiting plate 4 is installed on the surface of the take-up roller 5 via a connecting sleeve 10, and a clamping rod 6 is fixed inside the limiting plate 4. Therefore, the distance between the two limiting plates 4 can be adjusted to be slightly greater than the width of the textile fabric via the connecting sleeve 10, and the connecting sleeve 10 is securely installed on the surface of the take-up roller 5 by tightening bolts 9, so as to keep the limiting plate 4 stably installed.
[0056] The limiting plate 4 is a circular plate structure and is vertically slidably sleeved on the surface of the take-up roller 5. The clamping rod 6 is horizontally spaced on the outside of the take-up roller 5.
[0057] The base 1 has two third support plates 2 fixed on both sides at one end. The guide roller 3 is rotatably installed on the inner top of the two third support plates 2. The guide roller 3 and the winding roller 5 are parallel to each other. The first support plate 8 is set vertically.
[0058] The fabric end is wrapped around the surface of the take-up roller 5 and clamped and attached to the surface of the take-up roller 5 by the clamping rod 6. During the rotation of the take-up roller 5 and the take-up of the fabric, the limiting plate 4 limits the two sides of the fabric to prevent roll-off. Therefore, roll-off can be limited and prevented from rolling off the fabric of different widths, so as to keep the fabric neatly rolled up.
[0059] Working method: By opening a rotating groove 15 at the top of the first support plate 8, the two ends of the take-up roller 5 are slidably installed inside the rotating groove 15, and the limiting rod 11 slides through the limiting groove 20 at both ends of the take-up roller 5. The limiting rod 11 and the first support plate 8 are detachably fastened and connected by the nut 22, and the first gear 7 is fixed at both ends of the take-up roller 5.
[0060] Therefore, the take-up roller 5 is detachably and rotatably mounted on the top of the first support plate 8. The motor 14 drives the second gear 12 to rotate, and the second gear 12 meshes with and drives the first gear 7 and the take-up roller 5 to rotate, thus winding up the textile fabric. After the take-up roller 5 has finished winding up the textile fabric, the rotation of the motor 14 and the second gear 12 is stopped. At the same time, the lifting bolt 24 is turned up to push the locking tooth plate 25 upward. The locking tooth plate 25 moves upward along the positioning rod 23 and meshes with and locks onto the bottom end of the first gear 7, thereby positioning and locking the take-up roller 5. This allows for stable support and placement of the wound textile fabric. By removing the limiting rod 11, the take-up roller 5 and the textile fabric on its surface can be quickly disassembled and replaced, keeping the textile fabric neat and not loose after winding.
[0061] A limiting plate 4 is installed on the surface of the take-up roller 5 via a connecting sleeve 10, and a clamping rod 6 is fixed inside the limiting plate 4. Therefore, the distance between the two limiting plates 4 can be adjusted to be slightly greater than the width of the textile fabric via the connecting sleeve 10, and the connecting sleeve 10 is securely installed on the surface of the take-up roller 5 by tightening bolts 9, so as to keep the limiting plate 4 stably installed.
[0062] Thus, the fabric end is wrapped around the surface of the take-up roller 5 and clamped and attached to the surface of the take-up roller 5 by the clamping rod 6. During the rotation of the take-up roller 5 and the take-up of the fabric, the limiting plate 4 limits the two sides of the fabric to prevent roll-off. Therefore, roll-off can be limited and prevented from rolling off the fabric of different widths, keeping the fabric neatly rolled up.
[0063] The above are merely preferred embodiments of this utility model, but the scope of protection of this utility model is not limited thereto. Any equivalent substitutions or modifications made by those skilled in the art within the scope of the technology disclosed in this utility model, based on the technical solution and inventive concept of this utility model, should be included within the scope of protection of this utility model.
Claims
1. A textile fabric winding device, comprising a base (1), characterized in that: A guide roller (3) is installed at one end of the top of the base (1), and a take-up roller (5) is installed at the other end of the top of the base (1). Limit adjustment mechanisms are installed at both ends of the take-up roller (5). First support plates (8) fixed on both sides of one end of the base (1) are installed at both ends of the take-up roller (5). A drive rotation mechanism is installed at one end of the take-up roller (5), and a snap-fit mechanism is installed at the other end of the take-up roller (5). The drive rotation mechanism includes: The first gear (7) is fixed at both ends of the take-up roller (5), and the bottom end of the first gear (7) is meshed with the second gear (12). Limiting grooves (20) are formed on the surfaces of both ends of the take-up roller (5). A rotating groove (15) is formed at the top of the first support plate (8). Both ends of the take-up roller (5) slide through the rotating groove (15). A limiting rod (11) slides through the top of the limiting groove (20). Both ends of the limiting rod (11) pass through the rotating groove (15). The latching mechanism includes: A second support plate (18) is fixed to the outside of a first support plate (8), and a snap-fit toothed plate (25) is installed at the top of the second support plate (18).
2. The textile fabric winding device according to claim 1, characterized in that: The base (1) has two third support plates (2) fixed on both sides of one end. The guide roller (3) is rotatably installed on the inner top of the two third support plates (2). The guide roller (3) and the winding roller (5) are parallel to each other. The first support plate (8) is vertically set.
3. The textile fabric winding device according to claim 1, characterized in that: The rotating groove (15) is a U-shaped structure and is vertically arranged. It has a first connecting hole (16) on both sides inside. The two ends of the limiting rod (11) slide through the first connecting hole (16). The limiting rod (11) is a threaded rod structure, and nuts (22) are connected to its two ends and located outside the first connecting hole (16).
4. A textile fabric winding device according to claim 3, characterized in that: The limiting groove (20) is a circular structure and is located inside the rotating groove (15). The limiting rod (11) is horizontally arranged and perpendicular to the winding roller (5). The first gear (7) is vertically arranged and slidably installed on the outside of the first support plate (8).
5. A textile fabric winding device according to claim 1, characterized in that: A mounting bracket (13) is fixed to the bottom outer side of the first support plate (8). The mounting bracket (13) is an L-shaped structure and is vertically arranged. The second gear (12) is rotatably installed inside the mounting bracket (13) and vertically meshed with the bottom end of the first gear (7). A motor (14) is installed on the side of the second gear (12). The motor (14) is fixedly installed on the outside of the mounting bracket (13).
6. A textile fabric winding device according to claim 1, characterized in that: The second support plate (18) is a rectangular plate structure and is horizontally arranged in the middle of the outer side of the first support plate (8). The second support plate (18) has a second connecting hole (17) in the middle. The second connecting hole (17) is a threaded hole structure, and the internal thread rotates through the lifting bolt (24). The lifting bolt (24) is vertically arranged.
7. A textile fabric winding device according to claim 6, characterized in that: The second support plate (18) has positioning holes (19) at both ends of its surface. The snap-fit toothed plate (25) has an arc-shaped structure and the gap is set below the first gear (7) and overlaps the top of the second support plate (18). The bottom ends of the snap-fit toothed plate (25) are fixed with positioning rods (23). The positioning rods (23) slide vertically through the positioning holes (19). The top of the lifting bolt (24) abuts against the middle of the bottom end of the snap-fit toothed plate (25).
8. A textile fabric winding device according to claim 1, characterized in that: The limit adjustment mechanism includes: A connecting sleeve (10) is slidably fitted onto the surface of the take-up roller (5), and a tightening bolt (9) is uniformly passed through the inside of the connecting sleeve (10); A limiting plate (4) is fixed inside the connecting sleeve (10), and a clamping rod (6) is fixed inside the limiting plate (4).
9. A textile fabric winding device according to claim 8, characterized in that: The surface of the connecting sleeve (10) is uniformly provided with a third connecting hole (21). The third connecting hole (21) is a threaded hole structure. The tightening bolt (9) rotates through the third connecting hole (21) and its inner end abuts against the surface of the take-up roller (5). The tightening bolt (9) is distributed in a cross shape. The limiting plate (4) is a circular plate structure and is vertically slidably sleeved on the surface of the take-up roller (5). The clamping rod (6) is horizontally spaced on the outside of the take-up roller (5).