A winding apparatus for producing a pps fiber product

By adjusting the position of the guide block using the lifting and translation components, and combining the fixing components of the operating and driving parts, uniform winding and segmented bonding of PPS fiber products are achieved, solving the problems of fiber filament entanglement, messiness, and loosening, thus improving the performance.

CN122276533APending Publication Date: 2026-06-26HUNAN UNIV OF SCI & ENG

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Applications(China)
Current Assignee / Owner
HUNAN UNIV OF SCI & ENG
Filing Date
2026-04-29
Publication Date
2026-06-26

AI Technical Summary

Technical Problem

Existing winding equipment produces PPS fiber products with messy fiber winding orientation, easy knotting, and easy loosening and falling off at the end of winding, resulting in poor performance.

Method used

The lifting and translation components work together to adjust the position of the guide block and achieve uniform winding of the fiber filaments; the fixing component composed of the operation part and the drive part is used to bond and fix the fiber filaments in sections.

Benefits of technology

It solves the problems of fiber filament entanglement, messiness, and loosening, and improves the stability and performance of the fiber filaments on the surface of the take-up roller.

✦ Generated by Eureka AI based on patent content.

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Abstract

This invention belongs to the field of plastic fiber processing technology and discloses a winding device for producing PPS fiber products, including a base and a winding roller. A vertical rod is fixedly installed on the surface of the base, and a bearing block is fixedly installed at the top of the vertical rod. A control component is provided on the surface of the bearing block. A guide block is provided above the winding roller, and a guide coil is fixedly installed at the bottom of the side wall of the guide block. A positioning mechanism is provided between the two bearing blocks. The positioning mechanism includes a lifting component and a translation component. A control cavity is opened inside the guide block, and a bottom hole is opened on the bottom wall of the guide block. An adhesive bonding mechanism is provided in the control cavity. The adhesive bonding mechanism includes a glue guiding component and a fixing component. The fixing component includes an operating part and a driving part. By setting the fixing component composed of the operating part and the driving part and the glue guiding component to cooperate with each other, the fiber filaments on the surface of the winding roller can be bonded and fixed in segments during the winding process, which effectively improves the stability of the fiber filaments on the surface of the winding roller.
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Description

Technical Field

[0001] This invention relates to the field of plastic fiber processing technology, specifically a winding device for producing PPS fiber products. Background Technology

[0002] Polyphenylene sulfide (PPS) is a polymer with a rigid macromolecular backbone formed by the connection of sulfur atoms at the para-position of benzene rings. The PPS molecular chain consists of alternating para-position sulfur atoms linked to benzene rings. Its molecular structure contains rigid, heat-resistant phenylene groups and flexible, heat-resistant thioether bonds. Furthermore, the rigid structure of the benzene rings is connected by these flexible thioether bonds, resulting in fibers with superior heat resistance and thermal stability compared to conventional fibers. It exhibits excellent strength, rigidity, and fatigue resistance at high temperatures and can be used continuously at 200-240°C. It is relatively stable in air or nitrogen at temperatures below 400°C with virtually no weight loss.

[0003] Existing winding equipment has a limited function when winding linear PPS fiber products. It can only control the rotation of the rollers to wind the fiber filaments onto the roller surface, resulting in a rather chaotic winding pattern. During unwinding, the fiber filaments are prone to tangling and knotting. Furthermore, it cannot position the fiber filaments in segments on the roller surface during the winding process; it only fixes the two ends of the fiber filaments at the beginning and end of winding. When the outermost end of the fiber filament is out of control, the entire roll of fiber easily loosens and falls off the roller surface, resulting in poor performance. Summary of the Invention

[0004] The purpose of this invention is to provide a winding device for the production of PPS fiber products, so as to solve the problems mentioned in the background art.

[0005] To achieve the above objectives, the present invention provides the following technical solution:

[0006] A winding device for producing PPS fiber products includes a base and a winding roller. Two opposing vertical rods are fixedly mounted on the surface of the base. A support block is fixedly mounted at the top of each vertical rod. A control component is provided on the surface of the support block for positioning the winding roller between the two support blocks. A guide block is positioned above the winding roller, and a guide coil is fixedly mounted at the bottom end of the side wall of the guide block. A positioning mechanism is provided between the two support blocks. The positioning mechanism includes a lifting component and a translation component. The lifting component is located between the two support blocks and connected to the guide block. The lifting component controls the vertical movement of the guide block. The translation component... The component is connected to the lifting component. The translation component is used to control the movement of the guide block along the axis of the take-up roller. The guide block has a control cavity inside. The bottom wall of the guide block has a bottom hole that communicates with the control cavity. The control cavity is equipped with an adhesive mechanism. The adhesive mechanism includes an adhesive guiding component and a fixing component. The adhesive guiding component is located in the control cavity and is used to control the movement of the adhesive material above the bottom hole. The fixing component includes an operating part and a driving part. The operating part is located in the control cavity and the driving part is located in the control cavity and connected to the operating part. The driving part cuts the adhesive material and presses the adhesive material toward the take-up roller by cooperating with the operating part.

[0007] As a further aspect of the present invention: the control component includes a telescopic hole opened in the side wall of a support block, a pad slidably installed in the telescopic hole, a return spring fixedly installed in the telescopic hole, the telescopic end of the return spring being connected to the pad, a first motor fixedly installed on the surface of another support block, the end of the output shaft of the first motor extending to the other side of the support block and having a slot, and a locking block fixedly installed at one end of the take-up roller.

[0008] As a further embodiment of the present invention: the lifting assembly includes a support rod that is slidably mounted on the surface of the bearing block in the vertical direction, a support plate that is fixedly mounted on the top of the support rod, two support plates that are distributed opposite to each other that are fixedly mounted on a guide rod, and the guide block that is slidably mounted on the surface of the guide rod.

[0009] As a further aspect of the present invention: the translation component includes a threaded rod that is rotatably mounted on two support plates, the threaded rod being threadedly connected to the conductor block, and one end of the threaded rod extending to the outside of the support plate and connected to a second motor.

[0010] As a further aspect of the present invention: the adhesive guiding assembly includes a film reel rotatably mounted inside a control cavity, a third motor fixedly mounted inside the control cavity, a take-up tray fixedly mounted on the output shaft of the third motor, adhesive tape wound on the surface of the film reel, and the end of the adhesive tape away from the film reel being connected to the take-up tray.

[0011] As a further aspect of the present invention: the operating part includes an extrusion column disposed within a control cavity, the extrusion column being located above the bottom hole and the tape, a sleeve being sleeved on the outer side of the extrusion column, an annular cutting blade being fixedly installed on the bottom wall of the sleeve, a limit groove being formed on the inner side wall of the sleeve, a limit block being fixedly installed on the side wall of the extrusion column, the limit block being slidably installed within the limit groove, a compression spring being fixedly installed on the bottom wall of the limit groove, the extension end of the compression spring being connected to the limit block, and a washer being fixedly installed at the bottom of the control cavity via a bracket, the washer being located directly below the cutting blade.

[0012] As a further aspect of the present invention: the driving unit includes a connecting rod fixedly installed at the top of the extrusion column, a guide strip fixedly installed at the top of the connecting rod, the guide strip being slidably installed in the control cavity in the vertical direction, a guide groove being formed on the surface of the guide strip, a fourth motor being fixedly installed in the control cavity, a control disk being fixedly installed on the output shaft of the fourth motor, and a guide protrusion being provided on the surface of the control disk at a position off-center, the guide protrusion being inserted into the guide groove.

[0013] As a further aspect of the present invention, rollers are rotatably mounted on both sides of the conductor block.

[0014] As a further aspect of the present invention: two stop rods are fixedly installed inside the control cavity, and the two stop rods are located on both sides of the bottom hole and below the tape.

[0015] As a further embodiment of the present invention: two opposing support plates are fixedly installed on the surface of the base, and two parallel extrusion rollers are mounted on the two support plates together in a rotating manner.

[0016] Compared with existing technologies, the advantages of this invention are: by setting the lifting component and the translation component to cooperate with each other, the position of the lead block and the lead coil can be easily adjusted on the surface of the take-up roller, thereby evenly winding the fiber filaments onto the surface of the take-up roller. This solves the problem that the winding direction of the fiber filaments is relatively messy and the fiber filaments are easy to tangle and knot when the roller rotates to wind the fiber filaments.

[0017] By setting up a fixing assembly consisting of an operating unit and a driving unit, which works in conjunction with the adhesive guiding assembly, the fiber filaments on the surface of the take-up roller can be bonded and fixed in segments during the winding process, effectively improving the stability of the fiber filaments on the surface of the take-up roller. This solves the problem that currently, when the outermost end of the fiber filament is out of control, the entire roll of fiber filaments easily loosens and falls off the roller surface, resulting in poor performance. Attached Figure Description

[0018] Figure 1 This is a three-dimensional structural diagram of a winding device for producing PPS fiber products provided in an embodiment of the present invention.

[0019] Figure 2 This is a schematic front view of a winding device for producing PPS fiber products provided in an embodiment of the present invention.

[0020] Figure 3 This is a schematic diagram of the support block and its connection structure in a winding device for producing PPS fiber products, provided in an embodiment of the present invention.

[0021] Figure 4 This is a schematic diagram of the drive component in a winding device for producing PPS fiber products, provided in an embodiment of the present invention.

[0022] Figure 5 This is a schematic diagram of the winding roller in a winding device for producing PPS fiber products, provided in an embodiment of the present invention.

[0023] Figure 6 This is a schematic diagram of the lead block and its connection structure in a winding device for producing PPS fiber products provided in an embodiment of the present invention.

[0024] Figure 7 This is a schematic diagram of the tape and its connection structure in a winding device for producing PPS fiber products, provided in an embodiment of the present invention.

[0025] Figure 8 This is a schematic diagram of the extrusion column and its connection in a winding device for producing PPS fiber products provided in an embodiment of the present invention.

[0026] The components are as follows: 1-base, 2-vertical rod, 21-bearing block, 3-rewinding roller, 4-control assembly, 41-telescopic hole, 42-reset spring, 43-pad plate, 44-first motor, 45-slot, 46-block, 5-lead block, 51-coil, 6-positioning mechanism, 61-lifting assembly, 611-support rod, 612-support plate, 613-guide rod, 62-translation assembly, 621-threaded rod, 622-second motor, 7-control cavity, 71-bottom hole, 8-adhesion mechanism, 81-adhesive guiding assembly, 811-film reel, 812-... - Adhesive tape, 813- Receiving tray, 814- Third motor, 82- Fixing assembly, 821- Operating unit, 8211- Extrusion column, 8212- Sleeve, 8213- Cutting blade, 8214- Limiting groove, 8215- Extrusion spring, 8216- Limiting block, 8217- Washer, 822- Drive unit, 8221- Connecting rod, 8222- Guide bar, 8223- Guide groove, 8224- Fourth motor, 8225- Control panel, 8226- Guide protrusion, 9- Roller, 10- Stop bar, 11- Support plate, 12- Extrusion roller. Detailed Implementation

[0027] It should be noted that, unless otherwise specified, the embodiments and features described in the present invention can be combined with each other.

[0028] The specific implementation of the present invention will be described in detail below with reference to specific embodiments.

[0029] like Figure 1 , Figure 2 , Figure 4 , Figure 6 The diagram shows a structural diagram of a winding device for producing PPS fiber products according to an embodiment of the present invention. It includes a base 1 and a winding roller 3. Two opposing vertical rods 2 are fixedly mounted on the surface of the base 1. A bearing block 21 is fixedly mounted on the top of each vertical rod 2. A control component 4 is provided on the surface of the bearing block 21. The control component 4 is used to position the winding roller 3 between the two bearing blocks 21. A guide block 5 is provided above the winding roller 3. A guide coil 51 is fixedly mounted on the bottom of the side wall of the guide block 5. A positioning mechanism 6 is provided between the two bearing blocks 21. The positioning mechanism 6 includes a lifting component 61 and a translation component 62. The lifting component 61 is located between the two bearing blocks 21 and connected to the guide block 5. The lifting component 61 is used to control the movement of the guide block 5 in the vertical direction. The translation component 62... Component 62 is connected to lifting component 61. Translation component 62 is used to control the movement of lead block 5 along the axis of take-up roller 3. The lead block 5 has a control cavity 7 inside. The bottom wall of the lead block 5 has a bottom hole 71 that communicates with the control cavity 7. The control cavity 7 is provided with an adhesive mechanism 8. The adhesive mechanism 8 includes an adhesive guiding component 81 and a fixing component 82. The adhesive guiding component 81 is located in the control cavity 7 and is used to control the movement of adhesive material above the bottom hole 71. The fixing component 82 includes an operating part 821 and a driving part 822. The operating part 821 is located in the control cavity 7, and the driving part 822 is located in the control cavity 7 and connected to the operating part 821. The driving part 822 cuts the adhesive material and presses the adhesive material toward the take-up roller 3 by cooperating with the operating part 821.

[0030] In use, the take-up roller 3 is installed between two support blocks 21 via the control component 4. The fiber filaments are passed through the guide coil 51 and fixed to the surface of the take-up roller 3. The control component 4 drives the take-up roller 3 to rotate around itself, winding the fiber filaments onto its surface. During the winding process, the translation component 62 controls the guide block 5 to reciprocate along the axis of the take-up roller 3. The guide block 5 drives the guide coil 51 to reciprocate synchronously, ensuring the fiber filaments are evenly wound onto the surface of the take-up roller 3. During winding, the adhesive guiding component 81 positions the adhesive material above the bottom hole 71. After the fiber filaments have wound a certain length, the drive unit 822 and the operation unit 821 cooperate to cut the adhesive material directly above the bottom hole 71 and press the cut adhesive material towards the take-up roller 3. The adhesive material presses onto the surface of the fiber filaments, further fixing their position on the surface of the take-up roller 3. After a single pressing of the adhesive material, the take-up roller 3 can be controlled to rotate again to continue winding the fiber filaments. This cycle repeats, allowing for segmented bonding and fixation of the fiber filaments wound on the surface of the take-up roller 3. During the unwinding operation of the fiber filaments on the surface of the take-up roller 3, tension is applied to the fiber filaments. At this time, the adhesive material automatically releases its restraint on the fiber filaments, without hindering the unwinding process. When the ends of the fiber filaments lose traction and control, a small portion of the fiber filaments on the surface of the take-up roller 3 loosens. When the loose fiber filaments extend to the bonding points of the adhesive material, the continued spread of loosening of the fiber filaments is effectively prevented.

[0031] like Figure 3 , Figure 4 , Figure 5 As shown, in a preferred embodiment of the present invention, the control component 4 includes a telescopic hole 41 opened in the side wall of a support block 21, a pad 43 slidably installed in the telescopic hole 41, a return spring 42 fixedly installed in the telescopic hole 41, the telescopic end of the return spring 42 being connected to the pad 43, a first motor 44 fixedly installed on the surface of another support block 21, the end of the output shaft of the first motor 44 extending to the other side of the support block 21 and having a slot 45, and a locking block 46 fixedly installed at one end of the take-up roller 3.

[0032] When installing the take-up roller 3, insert one end of the take-up roller 3 into the telescopic hole 41 and push it further into the inner cavity of the telescopic hole 41. Insert the locking block 46 at the other end of the take-up roller 3 into the locking groove 45. At this time, the return spring 42 applies a pushing force to the pad 43 and the take-up roller 3, and the take-up roller 3 is stably positioned between the two support blocks 21. Through the cooperation of the locking groove 45 and the locking block 46, the first motor 44 can drive the take-up roller 3 to rotate around its own axis. After the fiber filament is wound up, push the take-up roller 3 into the inner cavity of the telescopic hole 41. At this time, the locking groove 45 and the locking block 46 separate from each other, and the take-up roller 3 can be easily removed from between the two support blocks 21.

[0033] like Figure 1 , Figure 2 , Figure 3 As shown, in a preferred embodiment of the present invention, the lifting assembly 61 includes a support rod 611 that is slidably mounted on the surface of the bearing block 21 in the vertical direction. A support plate 612 is fixedly mounted on the top of the support rod 611. Two support plates 612 that are distributed opposite to each other are fixedly mounted on a guide rod 613. The guide block 5 is slidably mounted on the surface of the guide rod 613.

[0034] The support rod 611 positions the support plate 612, the two support plates 612 position the guide rod 613, and the guide rod 613 positions the wire block 5. The wire block 5 is stably positioned above the take-up roller 3. As the thickness of the fiber filament wound on the surface of the take-up roller 3 continues to increase, the support rod 611 moves vertically on the surface of the bearing block 21, which can automatically adjust the height of the wire block 5 so that the wire block 5 is always positioned above the take-up roller 3 and the fiber filament.

[0035] like Figure 1 , Figure 2 , Figure 3 As shown, in a preferred embodiment of the present invention, the translation component 62 includes a threaded rod 621 that is rotatably mounted on two support plates 612. The threaded rod 621 is threadedly connected to the conductor block 5. One end of the threaded rod 621 extends to the outside of the support plate 612 and is connected to a second motor 622.

[0036] As the take-up roller 3 rotates, it winds the fiber filaments onto its surface. During the winding process, the second motor 622 drives the threaded rod 621 to rotate around its own axis. As the threaded rod 621 rotates, it controls the guide block 5 to move back and forth along the axis of the take-up roller 3. The guide block 5 drives the guide coil 51 to move back and forth synchronously, thereby adjusting the winding orientation of the fiber filaments so that the fiber filaments are evenly distributed on the surface of the take-up roller 3.

[0037] like Figure 1 , Figure 6 , Figure 7 As shown, in a preferred embodiment of the present invention, the adhesive guiding assembly 81 includes a film reel 811 rotatably mounted in a control cavity 7, a third motor 814 fixedly mounted in the control cavity 7, a take-up tray 813 fixedly mounted on the output shaft of the third motor 814, and adhesive tape 812 wound on the surface of the film reel 811, with one end of the adhesive tape 812 away from the film reel 811 connected to the take-up tray 813.

[0038] The film reel 811 and take-up reel 813 work together to easily position the tape 812 within the control cavity 7. The tape 812 is horizontally unfolded above the bottom hole 71. When it is necessary to bond and position the fibers on the surface of the take-up roller 3, the operating unit 821 cuts the tape 812 directly above the bottom hole 71. After cutting, the operating unit 821 further applies a pushing force to the cut tape 812, covering the surface of the fibers and pressing it onto the surface of the take-up roller 3. The tape 812 can stably fix the fibers on the surface of the take-up roller 3. After a single bonding and positioning, the take-up roller 3 continues to rotate to wind up the fibers. At this time, the third motor 814 drives the take-up reel 813 to rotate at a certain angle, and the take-up reel 813 pulls the tape 812 to move, facilitating subsequent bonding and positioning of the fibers.

[0039] like Figure 6 , Figure 7 , Figure 8 As shown, in a preferred embodiment of the present invention, the operating part 821 includes a pressing column 8211 disposed in the control cavity 7. The pressing column 8211 is located above the bottom hole 71 and the tape 812. A sleeve 8212 is sleeved on the outside of the pressing column 8211. An annular cutting blade 8213 is fixedly installed on the bottom wall of the sleeve 8212. A limiting groove 8214 is formed on the inner side wall of the sleeve 8212. A limiting block 8216 is fixedly installed on the side wall of the pressing column 8211. The limiting block 8216 is slidably installed in the limiting groove 8214. A compression spring 8215 is fixedly installed on the bottom wall of the limiting groove 8214. The telescopic end of the compression spring 8215 is connected to the limiting block 8216. A washer 8217 is fixedly installed at the bottom of the control cavity 7 by a bracket. The washer 8217 is located directly below the cutting blade 8213.

[0040] The drive unit 822 positions the extrusion column 8211 within the control cavity 7. The extrusion column 8211 positions the sleeve 8212 and the cutting blade 8213. When it is necessary to bond and position the fibers on the surface of the take-up roller 3, the drive unit 822 pushes the extrusion column 8211 vertically downward. The extrusion column 8211 drives the sleeve 8212 and the cutting blade 8213 to move downward synchronously. When the cutting blade 8213 extrudes the tape 812 and contacts the washer 8217, the extrusion column 8211... As it continues to move downwards, the limiting block 8216 continues to move downwards within the limiting groove 8214. The compression spring 8215 continuously increases the pressure on the cutting blade 8213, allowing the cutting blade 8213 to compress and cut the tape 812. The cut tape 812 then covers the surface of the fiber filaments. The compression column 8211 pushes the tape 812 to continue moving downwards, pressing the tape 812 onto the surface of the take-up roller 3. The tape 812 can stably fix the fiber filaments on the surface of the take-up roller 3.

[0041] like Figure 6 , Figure 7 , Figure 8 As shown, in a preferred embodiment of the present invention, the driving unit 822 includes a connecting rod 8221 fixedly mounted on the top end of the extrusion column 8211. A guide strip 8222 is fixedly mounted on the top end of the connecting rod 8221. The guide strip 8222 is slidably mounted in the control cavity 7 in the vertical direction. A guide groove 8223 is formed on the surface of the guide strip 8222. A fourth motor 8224 is fixedly mounted in the control cavity 7. A control disk 8225 is fixedly mounted on the output shaft of the fourth motor 8224. A guide protrusion 8226 is provided on the surface of the control disk 8225 at a position off-center. The guide protrusion 8226 is inserted into the guide groove 8223.

[0042] When bonding and positioning the fiber filaments on the surface of the take-up roller 3, the fourth motor 8224 drives the control disk 8225 to rotate. The control disk 8225 drives the guide protrusion 8226 to rotate synchronously. The guide protrusion 8226 and the guide groove 8223 cooperate with each other to drive the guide bar 8222 to move back and forth vertically in the control cavity 7. When the guide bar 8222 moves downward, it cooperates with the connecting rod 8221 to push the extrusion column 8211 to move downward synchronously. After a single bonding and fixing, the guide bar 8222 moves vertically upward. The guide bar 8222 drives the extrusion column 8211 and the cutting blade 8213 to move upward synchronously to their original positions.

[0043] like Figure 1 , Figure 6 As shown, in a preferred embodiment of the present invention, rollers 9 are rotatably mounted on both sides of the conductor block 5.

[0044] The roller 9 can position the lead wire block 5 on the surface of the take-up roller 3, so that there is a certain gap between the lead wire block 5 and the fiber filaments on the surface of the take-up roller 3, which can effectively prevent the lead wire block 5 from interfering with the fiber filaments when it moves.

[0045] like Figure 6 As shown, in a preferred embodiment of the present invention, two stop rods 10 are fixedly installed in the control cavity 7. The two stop rods 10 are located on both sides of the bottom hole 71 and below the tape 812. The stop rods 10 can position the tape 812, and during continuous use, can control the tape 812 to always remain horizontal and below the cutting blade 8213.

[0046] like Figure 1 , Figure 2 As shown, in a preferred embodiment of the present invention, two opposing support plates 11 are fixedly installed on the surface of the base 1, and two parallel extrusion rollers 12 are rotatably mounted on the two support plates 11.

[0047] During winding, the fiber filament passes between the two extrusion rollers 12. When the winding roller 3 winds up the fiber filament, the extrusion roller 12 applies tension to the fiber filament, keeping the fiber filament taut at all times, which can effectively improve the winding effect of the fiber filament.

[0048] The working principle of this invention is as follows: When installing the take-up roller 3, one end of the take-up roller 3 is inserted into the telescopic hole 41 and pushed further into the inner cavity of the telescopic hole 41. The locking block 46 at the other end of the take-up roller 3 is inserted into the locking groove 45. At this time, the return spring 42 applies a pushing force to the pad 43 and the take-up roller 3, and the take-up roller 3 is stably positioned between the two bearing blocks 21. The fiber filaments are passed through the guide coil 51 and fixed to the surface of the take-up roller 3. The first motor 44 drives the take-up roller 3 to rotate around itself. When the take-up roller 3 rotates, it winds the fiber filaments onto the surface of the take-up roller 3. During the winding process, the second motor 622 drives the threaded rod 621 to rotate around its own axis. When the threaded rod 621 rotates, it controls the guide block 5 to move back and forth along the axis of the take-up roller 3. The guide block 5 drives the guide coil 51 to move back and forth synchronously, thereby adjusting the winding orientation of the fiber filaments so that the fiber filaments are evenly distributed on the surface of the take-up roller 3.

[0049] When the fiber filaments have been wound to a certain length and the fiber filaments on the surface of the take-up roller 3 need to be bonded and positioned, the fourth motor 8224 drives the control disk 8225 to rotate. The control disk 8225 drives the guide protrusion 8226 to rotate synchronously. The guide protrusion 8226 cooperates with the guide groove 8223 to drive the guide strip 8222 to move back and forth vertically in the control cavity 7. When the guide strip 8222 moves downward, it cooperates with the connecting rod 8221 to push the extrusion column 8211 to move downward synchronously. The extrusion column 8211 drives the sleeve 8212 and the cutting blade 8213 to move downward synchronously. When the cutting blade... After the tape 812 is squeezed and comes into contact with the washer 8217, the squeezing column 8211 continues to move downward. At this time, the limiting block 8216 continues to move downward within the limiting groove 8214, and the squeezing spring 8215 continuously increases the pressure on the cutting blade 8213. The cutting blade 8213 can squeeze and cut the tape 812. The cut tape 812 covers the surface of the fiber filaments. The squeezing column 8211 pushes the tape 812 to continue moving downward, pressing the tape 812 onto the surface of the take-up roller 3. The tape 812 can stably fix the fiber filaments on the surface of the take-up roller 3. After a single bonding and fixing, the guide strip 8222 moves vertically upward, driving the squeezing column 8211 and the cutting blade 8213 to move upward synchronously back to their original positions. This cycle is repeated to bond and fix the fiber filaments wound on the surface of the take-up roller 3 in segments. When unwinding the fibers on the surface of the take-up roller 3, tension is applied to the fibers. At this time, the tape 812 can automatically release the restriction on the fibers, without hindering the unwinding process. When the ends of the fibers lose traction and control, a small portion of the fibers on the surface of the take-up roller 3 loosely wraps around the fibers. When the loose fibers extend to the bonding point of the tape 812, the loosening of the fibers can be effectively prevented from continuing to spread.

[0050] The preferred embodiments of the present invention have been described in detail above. However, the present invention is not limited to the above embodiments. Within the scope of knowledge possessed by those skilled in the art, various changes can be made without departing from the spirit of the present invention.

Claims

1. A winding device for producing PPS fiber products, comprising a base (1) and a winding roller (3), wherein two opposing vertical rods (2) are fixedly mounted on the surface of the base (1), and a bearing block (21) is fixedly mounted on the top end of the vertical rods (2), characterized in that, The surface of the bearing block (21) is provided with a control component (4), which is used to position the take-up roller (3) between the two bearing blocks (21). A wire block (5) is provided above the take-up roller (3), and a wire coil (51) is fixedly installed at the bottom of the side wall of the wire block (5). A positioning mechanism (6) is provided between the two support blocks (21), and the positioning mechanism (6) includes a lifting component (61) and a translation component (62). The lifting assembly (61) is located between the two bearing blocks (21) and connected to the guide block (5). The lifting assembly (61) is used to control the guide block (5) to move in the vertical direction. The translation component (62) is connected to the lifting component (61), and the translation component (62) is used to control the guide block (5) to move along the axis of the take-up roller (3); The conductor block (5) has a control cavity (7) inside. The bottom wall of the conductor block (5) has a bottom hole (71) that communicates with the control cavity (7). The control cavity (7) is provided with an adhesive mechanism (8). The adhesive mechanism (8) includes an adhesive guiding component (81) and a fixing component (82). The adhesive guiding assembly (81) is located inside the control cavity (7) and is used to control the movement of the adhesive material above the bottom hole (71); The fixing component (82) includes an operating part (821) and a driving part (822). The operating part (821) is located in the control cavity (7), and the driving part (822) is located in the control cavity (7) and connected to the operating part (821). The driving part (822) cuts the rubber material and presses the rubber material toward the take-up roller (3) by cooperating with the operating part (821).

2. The winding equipment for producing PPS fiber products according to claim 1, characterized in that, The control component (4) includes a telescopic hole (41) on the side wall of a support block (21), a pad (43) is slidably installed in the telescopic hole (41), a return spring (42) is fixedly installed in the telescopic hole (41), the telescopic end of the return spring (42) is connected to the pad (43), a first motor (44) is fixedly installed on the surface of another support block (21), the end of the output shaft of the first motor (44) extends to the other side of the support block (21) and has a slot (45), and a locking block (46) is fixedly installed on one end of the take-up roller (3).

3. The winding equipment for producing PPS fiber products according to claim 1, characterized in that, The lifting assembly (61) includes a support rod (611) that is slidably installed on the surface of the bearing block (21) in the vertical direction. A support plate (612) is fixedly installed on the top of the support rod (611). Two support plates (612) that are distributed opposite to each other are fixedly installed on a guide rod (613). The guide block (5) is slidably installed on the surface of the guide rod (613).

4. The winding equipment for producing PPS fiber products according to claim 3, characterized in that, The translation component (62) includes a threaded rod (621) that is rotatably mounted on two support plates (612). The threaded rod (621) is threadedly connected to the conductor block (5). One end of the threaded rod (621) extends to the outside of the support plate (612) and is connected to a second motor (622).

5. A winding device for producing PPS fiber products according to claim 1, characterized in that, The adhesive guiding assembly (81) includes a film reel (811) rotatably mounted in a control cavity (7), a third motor (814) fixedly mounted in the control cavity (7), a take-up tray (813) fixedly mounted on the output shaft of the third motor (814), and a tape (812) wound on the surface of the film reel (811). The end of the tape (812) away from the film reel (811) is connected to the take-up tray (813).

6. A winding device for producing PPS fiber products according to claim 5, characterized in that, The operating part (821) includes an extrusion column (8211) disposed in the control cavity (7). The extrusion column (8211) is located above the bottom hole (71) and the tape (812). A sleeve (8212) is sleeved on the outside of the extrusion column (8211). An annular cutting blade (8213) is fixedly installed on the bottom wall of the sleeve (8212). A limit groove (8214) is formed on the inner side wall of the sleeve (8212). A limiting block (8216) is fixedly installed on the side wall. The limiting block (8216) is slidably installed in the limiting groove (8214). A compression spring (8215) is fixedly installed on the bottom wall of the limiting groove (8214). The extension end of the compression spring (8215) is connected to the limiting block (8216). A washer (8217) is fixedly installed at the bottom of the control cavity (7) through a bracket. The washer (8217) is located directly below the cutting blade (8213).

7. A winding device for producing PPS fiber products according to claim 6, characterized in that, The drive unit (822) includes a connecting rod (8221) fixedly installed at the top of the extrusion column (8211). A guide strip (8222) is fixedly installed at the top of the connecting rod (8221). The guide strip (8222) is slidably installed in the control cavity (7) in the vertical direction. A guide groove (8223) is opened on the surface of the guide strip (8222). A fourth motor (8224) is fixedly installed in the control cavity (7). A control disk (8225) is fixedly installed on the output shaft of the fourth motor (8224). A guide protrusion (8226) is provided on the surface of the control disk (8225) at a position off the center. The guide protrusion (8226) is inserted into the guide groove (8223).

8. A winding device for producing PPS fiber products according to claim 1, characterized in that, Rollers (9) are rotatably mounted on both sides of the conductor block (5).

9. A winding device for producing PPS fiber products according to claim 5, characterized in that, Two stop bars (10) are fixedly installed inside the control cavity (7). The two stop bars (10) are located on both sides of the bottom hole (71) and below the tape (812).

10. A winding device for producing PPS fiber products according to claim 1, characterized in that, The base (1) has two opposing support plates (11) fixedly installed on its surface, and the two support plates (11) are rotatably mounted with two parallel extrusion rollers (12).