A winding device for composite network wire
By designing a winding device that adapts to various bobbin outer diameters, the problem of misalignment when the bobbin inner diameter increases is solved, achieving uniform winding and stable winding of composite network yarn, and improving winding quality and convenience.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- TONGXIANG MINGXIN TEXTILE CO LTD
- Filing Date
- 2025-08-15
- Publication Date
- 2026-07-03
AI Technical Summary
Existing winding equipment cannot effectively solve the misalignment problem when the inner diameter of the bobbin increases, resulting in the composite network yarn not being able to wind evenly, which affects the winding quality.
A winding device comprising an operating table, a winding section, a positioning section, and a guiding section was designed. The positioning section assists in the installation of the bobbin and maintains the alignment of the central axis, while the guiding section enables uniform winding of the composite network yarn, adapting to various bobbin outer diameter specifications.
It improves the stability and winding uniformity of the bobbin, adapts to various bobbin outer diameters, and enhances the ease of use and winding quality of the winding equipment.
Smart Images

Figure CN224449816U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of composite network wire winding technology, specifically a winding device for composite network wire. Background Technology
[0002] Composite network yarn is a special type of yarn that combines two or more different fibers or filaments and forms a network structure through a special process. This structure gives composite network yarn unique properties, making it widely used in the textile industry.
[0003] When winding, winding equipment is required. Existing winding equipment can generally only use spools with the same inner diameter. When the inner diameter of the spool increases, misalignment of the spool on the winding equipment is likely to occur, causing the spool to swing more when winding the composite network yarn. This makes it impossible for the composite network yarn to be evenly wound on the spool, affecting the winding quality. Utility Model Content
[0004] The purpose of this invention is to provide a winding device for composite network yarns, which aims to solve the problems mentioned in the background art.
[0005] To achieve the above objectives, the present invention adopts the following technical solution: the winding device for the composite network yarn includes:
[0006] Control panel;
[0007] A winding section is provided on the operating table. The winding section is used to install a bobbin, which can rotate on the winding section and can wind up the composite network yarn.
[0008] The positioning part is installed on the operating table. The positioning part is used to assist the bobbin in being installed on the winding part so that the central axis of the bobbin coincides with the rotational central axis of the winding part. At the same time, it can press the composite network wire onto the bobbin.
[0009] A guide section is provided on the operating table. The guide section is used to guide the composite network wire to be evenly wound around the surface of the spool. The winding section is used to provide power to the guide section.
[0010] Preferably, the winding section includes a base plate with two upright plates on the base plate. A horizontal shaft is rotatably connected to the two upright plates. A driven synchronous pulley is disposed on the horizontal shaft and between the two upright plates. A motor is disposed on the operating table, and a main synchronous pulley is disposed at the output end of the motor. The main synchronous pulley and the driven synchronous pulley are driven by a synchronous belt. A positioning plate is disposed on the horizontal shaft, and a threaded hole is opened at one end of the horizontal shaft. The section also includes a screw cap, and a stud and an annular pressure cylinder are disposed at one end of the screw cap. The stud is located inside the pressure cylinder.
[0011] Preferably, the positioning part includes a horizontal plate, on which two guide rods are provided. The guide rods are slidably connected to the horizontal plate. The upper ends of the two guide rods are provided with V-shaped support plates, and the lower ends of the guide rods are provided with limit posts. The lower surface of the horizontal plate is provided with an installation cylinder. The limit posts are located inside the installation cylinder and are slidably connected to the installation cylinder. A spring is provided inside the installation cylinder. A through hole for the installation cylinder to pass through is provided on the operating table. An installation frame is provided on the operating table. A lead screw is rotatably connected to the installation frame. A knob is provided at the upper end of the lead screw. A threaded sleeve that is threadedly connected to the lead screw is provided on one side of the horizontal plate.
[0012] Preferably, an indicator plate is provided on one side of the screw sleeve, a through groove is provided on the mounting bracket for the indicator plate to move, and a scale plate is provided on the side of the mounting bracket for indicating spools of different outer diameters.
[0013] Preferably, the guide includes a support platform, a reciprocating screw is provided on the support platform, a fixed rod is provided on the support platform, and a slide block that cooperates with the reciprocating screw. The slide block is slidably connected to the fixed rod, and a guide groove is provided at the upper end of the slide block. A driven wheel is provided at one end of the reciprocating screw, and a driving wheel is provided at one end of the horizontal shaft. The driven wheel and the driving wheel are driven by a transmission belt, and the rotational speed of the driving wheel is greater than that of the driven wheel.
[0014] The beneficial effects of this utility model are:
[0015] When in use, this winding equipment can maintain the central axis of the bobbin basically aligned with the central axis of the horizontal shaft by using a support plate and controlling the up and down movement of the support plate. This improves the stability of the bobbin when it rotates with the horizontal shaft and also allows the winding equipment to use bobbins of various outer diameters, thus improving the ease of use. Attached Figure Description
[0016] Figure 1 This is a structural schematic diagram of a specific embodiment of the present utility model.
[0017] Figure 2 This is a top view of a specific embodiment of the present invention.
[0018] Figure 3 This is a magnified view of a portion of the indicator panel.
[0019] Figure 4 This is a schematic diagram of the installation of the horizontal shaft and the bobbin.
[0020] In the diagram: 1. Composite network wire; 2. Operating table; 3. Wire spool; 4. Base plate; 5. Vertical plate; 6. Horizontal shaft; 7. Driven synchronous pulley; 8. Motor; 9. Main synchronous pulley; 10. Synchronous belt; 11. Positioning plate; 12. Rotary cap; 13. Stud; 14. Pressure cylinder; 15. Horizontal plate; 16. Guide rod; 17. Support plate; 18. Limiting post; 19. Mounting cylinder; 20. Spring; 21. Mounting bracket; 22. Lead screw; 23. Knob; 24. Screw sleeve; 25. Indicator plate; 26. Support platform; 27. Reciprocating lead screw; 28. Fixed rod; 29. Slide seat; 30. Guide groove; 31. Driven pulley; 32. Driving pulley; 33. Transmission belt. Detailed Implementation
[0021] The specific embodiments of this utility model will be further described below with reference to the accompanying drawings.
[0022] like Figure 1-4 As shown, a winding device for composite network wire includes:
[0023] Control panel 2;
[0024] The winding section is set on the operating table 2. The winding section is used to install the bobbin 3. The bobbin 3 can rotate on the winding section and can wind up the composite network wire 1.
[0025] The positioning part is installed on the operating table 2. The positioning part is used to assist the bobbin 3 in being installed on the winding part so that the central axis of the bobbin 3 coincides with the rotational central axis of the winding part. At the same time, the composite network wire 1 can be pressed onto the bobbin 3.
[0026] The guide section is located on the operating table 2. The guide section is used to guide the composite network wire 1 to be evenly wound around the surface of the spool 3. The winding section is used to provide power to the guide section.
[0027] Furthermore, the winding section includes a base plate 4, on which two vertical plates 5 are mounted. A horizontal shaft 6 is rotatably connected to the two vertical plates 5. A driven synchronous pulley 7 is mounted on the horizontal shaft 6 and located between the two vertical plates 5. A motor 8 is mounted on the operating table 2. A main synchronous pulley 9 is mounted at the output end of the motor 8. The main synchronous pulley 9 and the driven synchronous pulley 7 are driven by a synchronous belt 10. A positioning plate 11 is mounted on the horizontal shaft 6. A threaded hole is opened at one end of the horizontal shaft 6. The section also includes a screw cap 12. A stud 13 and an annular pressure cylinder 14 are mounted at one end of the screw cap 12. The stud 13 is located inside the pressure cylinder 14.
[0028] When installing the bobbin 3 onto the horizontal shaft 6, first, the bobbin 3 is placed on the horizontal shaft 6, and one end of the bobbin 3 abuts against the positioning plate 11. Then, the stud 13 is screwed into the threaded hole at one end of the horizontal shaft 6. Then, the stud 13 is continuously screwed into the horizontal shaft 6 by the screw cap 12 until the front end of the pressure cylinder 14 abuts against the bobbin 3. Then, the stud 13 is screwed in again to clamp the bobbin 3 between the positioning plate 11 and the pressure cylinder 14, thus completing the fixing of the bobbin 3. After the bobbin 3 is fixed, it is necessary to control the rotation of the bobbin 3 to wind the composite network yarn 1. Specifically, the motor 8 is started, and the motor 8 drives the main synchronous pulley 9 to rotate. Through the transmission of the synchronous belt 10, the synchronous pulley 7 and the horizontal shaft 6 can be driven to rotate. When the horizontal shaft 6 rotates, it can drive the bobbin 3 fixed on the horizontal shaft 6 to rotate, thereby realizing the winding of the composite network yarn 1.
[0029] Motor 8 is controlled by a controller, and the speed of motor 8 can be adjusted.
[0030] Furthermore, the positioning part includes a horizontal plate 15, on which two guide rods 16 are provided. The guide rods 16 are slidably connected to the horizontal plate 15. The upper ends of the two guide rods 16 are provided with V-shaped support plates 17, and the lower ends of the guide rods 16 are provided with limit posts 18. The lower surface of the horizontal plate 15 is provided with a mounting cylinder 19. The limit posts 18 are located inside the mounting cylinder 19 and are slidably connected to the mounting cylinder 19. The inside of the mounting cylinder 19 is provided with a spring 20. The operating table 2 has a through hole for the mounting cylinder 19 to pass through. The operating table 2 is provided with a mounting bracket 21. A lead screw 22 is rotatably connected to the mounting bracket 21. A knob 23 is provided at the upper end of the lead screw 22. A threaded sleeve 24 that is threadedly connected to the lead screw 22 is provided on one side of the horizontal plate 15.
[0031] For the spool 3, whose inner diameter is larger than the outer diameter of the horizontal shaft 6, in order to keep the central axis of the spool 3 basically coincident with the central axis of the horizontal shaft 6 and improve the stability of the spool 3 during rotation, it is necessary to first adjust the position of the support plate 17 when installing the spool 3 onto the horizontal shaft 6. Specifically, by rotating the knob 23, the knob 23 drives the lead screw 22 to rotate. Through the threaded connection between the lead screw 22 and the screw sleeve 24, the horizontal plate 15 can be moved downward. When the horizontal plate 15 moves downward, it can drive the guide rod 16 and the support plate 17 to move downward. When the distance between the support plate 17 and the horizontal axis 6 allows the spool 3 to be placed on the horizontal axis 6, first put the spool 3 on the horizontal axis 6, then place the spool 3 on the support plate 17, and then raise the height of the support plate 17 by rotating the knob 23 in the opposite direction. When the central axis of the spool 3 is basically aligned with the central axis of the horizontal axis 6, screw the stud 13 into the horizontal axis 6, and then clamp and fix the spool 3 through the pressure cylinder 14 and the positioning plate 11. This method can reduce the positional deviation of the spool 3 during rotation and improve the stability of the spool 3 during rotation.
[0032] Meanwhile, the support plate 17 can keep the composite network wire 1 pressed on the spool 3 at all times, so as to prevent the composite network wire 1 on the spool 3 from becoming scattered in the event of an accidental breakage.
[0033] Furthermore, as the thickness of the composite network wire 1 in the bobbin 3 increases, the composite network wire 1 can compress the support plate 17, causing the support plate 17 to compress the spring 20 inside the mounting cylinder 19 through the guide rod 16 and the limiting post 18. This prevents the support plate 17 from affecting the normal winding of the composite network wire 1. The clamping force of the pressure cylinder 14 and the positioning plate 11 on the bobbin 3 is greater than the force exerted by the support plate 17 on the bobbin 3. Therefore, after the bobbin 3 is fixed, its position will not change due to the support plate 17.
[0034] Furthermore, an indicator plate 25 is provided on one side of the screw sleeve 24, and a through groove for the indicator plate 25 to move is provided on the mounting bracket 21. A scale plate is provided on the side of the mounting bracket 21, and the scale plate is used to indicate the spools 3 with different outer diameters.
[0035] When the spool 3 is placed on the support plate 17, the spring 20 has appropriate strength, ensuring that the height of the support plate 17 does not change significantly after the spool 3 is placed on it. The scale plate indicates the corresponding outer diameter of the spool 3. The difference between the outer diameter and the inner diameter of the spool 3 is approximately 2-3 mm. For example, the scale plate indicates several commonly used outer diameters of the spool 3, such as 8 cm, 10 cm, and 12 cm. When a spool 3 with an outer diameter of 8 cm is placed on the horizontal axis 6 and on the support plate... When the support plate 17 is in place, simply turn the knob 23 to rotate the lead screw 22. Through the threaded connection between the lead screw 22 and the screw sleeve 24, the indicator plate 25 is moved. When both ends of the indicator plate 25 are aligned with 8cm, it indicates that the height adjustment of the support plate 17 is complete. At this time, the spool 3 can be fixed to the horizontal axis 6 by rotating the knob 12. This method does not require observing the positional relationship between the spool 3 and the horizontal axis 6. It is only necessary to make the indicator plate 25 correspond to the value on the scale plate, which improves the installation efficiency and accuracy of the spool 3.
[0036] Furthermore, the guide unit includes a support platform 26, on which a reciprocating screw 27 is mounted, and a fixed rod 28 is mounted on the support platform 26. It also includes a slide block 29 that cooperates with the reciprocating screw 27. The slide block 29 is slidably connected to the fixed rod 28. A guide groove 30 is provided at the upper end of the slide block 29. A driven wheel 31 is provided at one end of the reciprocating screw 27, and a driving wheel 32 is provided at one end of the horizontal shaft 6. The driven wheel 31 and the driving wheel 32 are driven by a transmission belt 33. The rotational speed of the driving wheel 32 is greater than that of the driven wheel 31.
[0037] When the horizontal shaft 6 rotates, the driving wheel 32 on the horizontal shaft 6 will also rotate with the horizontal shaft 6. Then, through the transmission belt 33, it drives the driven wheel 31 on the reciprocating screw 27 to rotate, which in turn drives the reciprocating screw 27 to rotate. Since the slide 29 is slidably connected to the fixed rod 28, the slide 29 can make reciprocating linear motion on the reciprocating screw 27. Then, through the guide groove 30, the composite network wire 1 is evenly wound on the spool 3.
[0038] The driving wheel 32, driven wheel 31, and transmission belt 33 can be gears and toothed belts, sprockets and chains, or pulleys and belts. However, the transmission ratio needs to be controlled so that the composite network wire 1 can be evenly wound on the spool 3.
[0039] Furthermore, the drive wheel 32 on the horizontal shaft 6 can also act as a counterweight for the horizontal shaft 6 to balance the components such as the spool 3 at the other end of the horizontal shaft 6, further improving the stability of the device during operation.
[0040] Meanwhile, this winding equipment is not limited to winding composite network yarn 1, but can also wind other types of yarn. The length of the bobbins 3 used during winding is the same, so as to match the movement range of the guide groove 30.
[0041] In the description of this utility model, unless otherwise explicitly specified and limited, the terms "installation," "connection," and "linking" should be interpreted broadly. For example, they can refer to a fixed connection, a detachable connection, or an integral connection; they can refer to a mechanical connection or an electrical connection; they can refer to a direct connection or an indirect connection through an intermediate medium; and they can refer to the internal connection of two components. Those skilled in the art can understand the specific meaning of the above terms in this utility model based on the specific circumstances.
Claims
1. A winding apparatus for a composite network filament, characterized by, include: Control panel; A winding section is provided on the operating table. The winding section is used to install a bobbin, which can rotate on the winding section and can wind up the composite network yarn. The positioning part is installed on the operating table. The positioning part is used to assist the bobbin in being installed on the winding part so that the central axis of the bobbin coincides with the rotational central axis of the winding part. At the same time, it can press the composite network wire onto the bobbin. A guide section is provided on the operating table. The guide section is used to guide the composite network wire to be evenly wound around the surface of the spool. The winding section is used to provide power to the guide section.
2. The composite network filament winding apparatus of claim 1, wherein, The winding section includes a base plate with two upright plates. A horizontal shaft is rotatably connected to the two upright plates. A driven synchronous pulley is located on the horizontal shaft and between the two upright plates. A motor is mounted on the operating platform, and a main synchronous pulley is located at the output end of the motor. The main synchronous pulley and the driven synchronous pulley are driven by a synchronous belt. A positioning plate is mounted on the horizontal shaft, and a threaded hole is opened at one end of the horizontal shaft. The section also includes a screw cap, one end of which is provided with a stud and an annular pressure cylinder. The stud is located inside the pressure cylinder.
3. The composite network filament winding apparatus of claim 2, wherein, The positioning part includes a horizontal plate with two guide rods slidably connected to it. A V-shaped support plate is provided at the upper end of each guide rod, and a limiting post is provided at the lower end of each guide rod. A mounting cylinder is provided on the lower surface of the horizontal plate, and the limiting post is located inside the mounting cylinder and slidably connected to it. A spring is provided inside the mounting cylinder. A through hole for the mounting cylinder to pass through is provided on the operating table. A mounting frame is provided on the operating table, and a lead screw is rotatably connected to the mounting frame. A knob is provided at the upper end of the lead screw, and a threaded sleeve threadedly connected to the lead screw is provided on one side of the horizontal plate.
4. The composite network filament winding apparatus of claim 3, wherein, An indicator plate is provided on one side of the threaded sleeve, and a through groove is provided on the mounting bracket for the indicator plate to move. A scale plate is provided on the side of the mounting bracket for indicating spools of different outer diameters.
5. The composite network filament winding apparatus of claim 3, wherein, The guide unit includes a support platform, on which a reciprocating lead screw is mounted, and a fixed rod is mounted. It also includes a slide block that cooperates with the reciprocating lead screw. The slide block is slidably connected to the fixed rod. A guide groove is provided at the upper end of the slide block. A driven wheel is provided at one end of the reciprocating lead screw, and a driving wheel is provided at one end of the horizontal shaft. The driven wheel and the driving wheel are driven by a transmission belt. The rotational speed of the driving wheel is greater than that of the driven wheel.