A device for improving the efficiency of textile thread transmission

By using a moving device that combines a bidirectional screw with a drive component, the tension of the textile thread is compensated in real time and the roller angle is adjusted, thus solving the problems of loosening and breakage during the transmission of the textile thread and achieving efficient and stable transmission of the textile thread.

CN224467245UActive Publication Date: 2026-07-07WUXI ZHONGSEN MASCH TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
WUXI ZHONGSEN MASCH TECH CO LTD
Filing Date
2025-06-18
Publication Date
2026-07-07

AI Technical Summary

Technical Problem

Existing textile thread conveying equipment is prone to loosening of the line when the tension is inconsistent, resulting in intermittent transmission and difficulty in adjusting the angle between the conveying roller and the spinning thread, which can lead to thread breakage.

Method used

The moving device employs a bidirectional screw and a drive component. The vertical lifting of the connecting rod is achieved through the hinged first rod, which compensates for the tension of the textile thread in real time. The height and angle of the rollers are dynamically adjusted through the hinged transmission component structure to form a variable tension range, ensuring that the textile thread is always taut.

Benefits of technology

It effectively prevents textile threads from loosening and breaking, reduces downtime for thread replacement, adapts to multi-thread parallel transmission scenarios, and improves transmission efficiency.

✦ Generated by Eureka AI based on patent content.

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  • Figure CN224467245U_ABST
    Figure CN224467245U_ABST
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Abstract

The utility model relates to a device of promoting textile line transmission efficiency, including support, sliding link rod on the support, drive mobile device that link rod moves up and down, transmission piece that transmits textile line, the both sides of support are equipped with first slot, the first slot is provided with guide rod, the both ends fixed connection of link rod have the connecting block, the effect end of mobile device connects connecting block to drive connecting block and move up and down along guide rod, transmission piece is detachably connected in link rod, transmission piece can install multiple groups according to the textile line number. Solve the process of line movement and cause the line between transmission roll to slacken because of the pulling strength of external equipment is not the same, transmission stop stop, break off, lead to the problem that textile line will fall off from the outside of transmission roll, simultaneously, the angle of transmission roll and spinning line is difficult to adjust in the transmission process of current transmission textile line, lead to spinning line to be always under stress in the transmission process not the same, thereby make spinning line breakage.
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Description

Technical Field

[0001] This utility model relates to the textile field, and in particular to a device for improving the transmission efficiency of textile threads. Background Technology

[0002] In existing technologies, the term "textile" originally referred to the general concepts of spinning and weaving. However, with the continuous development and improvement of textile knowledge and disciplines, especially with the emergence of technologies such as nonwoven textile materials and three-dimensional composite weaving, it has expanded beyond traditional hand spinning and weaving to include nonwoven fabric technology, modern three-dimensional weaving technology, and modern electrostatic nano-web forming technology for producing clothing, industrial, and decorative textiles. In the garment manufacturing process, existing equipment for transporting textile threads mostly only increases the smoothness of the line movement. However, during the line movement, uneven pulling force from external equipment can cause the lines between the transport rollers to loosen, resulting in intermittent transmission and the textile threads falling off the transport rollers. At the same time, existing methods for transporting textile threads make it difficult to adjust the angle between the transport rollers and the yarn, resulting in uneven force on the yarn during transmission and thus yarn breakage. Utility Model Content

[0003] This application provides a device to improve the transmission efficiency of textile threads, solving the problem in the prior art where the uneven pulling force of external equipment during the movement of the thread causes the connection between the transmission rollers to loosen, resulting in intermittent transmission and the textile thread falling off the outside of the transmission rollers. At the same time, it is difficult to adjust the angle between the transmission roller and the spinning thread during the transmission process of existing textile threads, resulting in the spinning thread being subjected to uneven force during the transmission process, which leads to the breakage of the spinning thread.

[0004] The technical solutions adopted in the embodiments of this application are as follows.

[0005] A device for improving the transmission efficiency of textile threads includes a bracket, a connecting rod sliding on the bracket, a moving device that drives the connecting rod to move up and down, and a transmission component for transmitting textile threads. The bracket has first grooves on both sides; a guide rod is disposed within each of the first grooves; connecting blocks are fixedly connected to both ends of the connecting rod; the working end of the moving device is connected to the connecting blocks, thereby driving the connecting blocks to move up and down along the guide rods; the transmission component is detachably connected to the connecting rod; multiple sets of the transmission component can be installed according to the number of textile threads.

[0006] As a further improvement to the above technical solution: a second groove is provided on the top of the bracket; the moving device includes a first block, a second block sliding in the second groove, a moving rod that drives the second block to move, and a driving component that drives the moving rod to rotate; the moving rod rotates in the second groove; the moving rod is a bidirectional screw; two sets of the first block and the second block are arranged opposite each other; the threads on both sides of the moving rod are respectively threaded to the threads on both sides of the second block; a first rod is hinged between the first block and the second block; the first rod drives the second block to move up and down; the first block is disposed on the connecting block.

[0007] As a further improvement to the above technical solution: the transmission component includes a third block, a fourth block hinged to the third block, rollers for transmitting textile threads, and a connector for easy disassembly of the transmission component; the third block and the fourth block are semi-circular; one end of the third block and the fourth block are hinged; a gap is left between the other ends of the third block and the fourth block to accommodate connecting rods of different diameters; the connector is disposed between the third block and the fourth block; and the rollers are provided on both the third block and the fourth block.

[0008] As a further improvement to the above technical solution: the connecting member includes a locking member and a fixing member for fixing the transmission member on the connecting rod; two sets of locking members are arranged opposite each other and the two sets of locking members are respectively arranged on the third block and the fourth block; the fixing member rotates on one side of the locking member and the fixing member is threaded through the other side of the locking member.

[0009] As a further improvement to the above technical solution: the roller is provided with a groove adapted to the textile thread.

[0010] One or more technical solutions provided in the embodiments of this application have at least the following technical effects or advantages:

[0011] 1. The moving device employs a bidirectional screw and drive unit to drive two sets of second blocks to move synchronously in opposite directions. The vertical lifting and lowering of the connecting rod is achieved through the hinged first rod, compensating for the tension of the textile thread in real time and eliminating the risk of loosening caused by uneven external pulling. The transmission component dynamically adjusts the roller height as the connecting rod rises and falls, forming a variable tension range to ensure the textile thread remains taut throughout different processes, preventing interruptions or accumulation. The third and fourth blocks form an opening and closing structure through hinges, and the gap design allows the transmission component to rotate freely around the axis of the connecting rod, dynamically adapting to the traction angle of the textile thread and reducing the risk of breakage due to unilateral force. The grooves on the rollers form an embedded fit with the textile thread, preventing lateral slippage while allowing longitudinal sliding, balancing guiding accuracy and flexible buffering. The transmission component is quickly assembled and disassembled with the connecting rod through a semi-circular clamping structure, allowing for quantity adjustments based on production line needs, adapting to multi-line parallel transmission scenarios, and reducing downtime for line changes. The gap between the third and fourth blocks is adjustable to accommodate connecting rods of different diameters. Attached Figure Description

[0012] Figure 1 This is a schematic diagram of the device for improving the transmission efficiency of textile threads in this utility model.

[0013] Figure 2 This is a cross-sectional view of the device for improving the transmission efficiency of textile threads in this utility model.

[0014] Figure 3 for Figure 1 A magnified view of part A in the image.

[0015] In the diagram: 1. Bracket; 11. First groove; 12. Guide rod; 13. Second groove; 2. Connecting rod; 21. Connecting block; 3. Moving device; 31. First block; 32. Second block; 33. Moving rod; 34. Driving component; 35. First rod; 4. Transmission component; 41. Third block; 42. Fourth block; 43. Roller; 431. Slot; 44. Connecting component; 45. Locking component; 46. Fixing component. Detailed Implementation

[0016] This application provides a device to improve the transmission efficiency of textile threads, solving the problem in the prior art where the uneven pulling force of external equipment during the movement of the thread causes the connection between the transmission rollers to loosen, resulting in intermittent transmission and the textile thread falling off the outside of the transmission rollers. At the same time, it is difficult to adjust the angle between the transmission roller and the spinning thread during the transmission process of existing textile threads, resulting in the spinning thread being subjected to uneven force during the transmission process, which leads to the breakage of the spinning thread.

[0017] The technical solution in this application embodiment is to solve the above problems, and the overall idea is as follows:

[0018] To better understand the above technical solutions, the following will provide a detailed explanation of the technical solutions in conjunction with the accompanying drawings and specific implementation methods.

[0019] A device for improving the transmission efficiency of textile threads includes a support 1, a connecting rod 2 sliding on the support 1, a moving device 3 that drives the connecting rod 2 to move up and down, and a transmission component 4 for transmitting textile threads. The support 1 has first grooves 11 on both sides; guide rods 12 are installed in the first grooves 11; connecting blocks 21 are fixedly connected to both ends of the connecting rod 2; the working end of the moving device 3 is connected to the connecting blocks 21, thereby driving the connecting blocks 21 to move up and down along the guide rods 12; the transmission component 4 is detachably connected to the connecting rod 2; multiple sets of the transmission component 4 can be installed according to the number of textile threads.

[0020] The top of the bracket 1 is provided with a second groove 13; the moving device 3 includes a first block 31, a second block 32 that slides in the second groove 13, a moving rod 33 that drives the second block 32 to move, and a driving member 34 that drives the moving rod 33 to rotate; the moving rod 33 rotates in the second groove 13; the moving rod 33 is a bidirectional screw; two sets of the first block 31 and the second block 32 are arranged opposite each other; the threads on both sides of the moving rod 33 are respectively threaded to the two sides of the second block 32; a first rod 35 is hinged between the first block 31 and the second block 32; the first rod 35 drives the second block 32 to move up and down; the first block 31 is set on the connecting block 21.

[0021] The transmission component 4 includes a third block 41, a fourth block 42 hinged to the third block 41, a roller 43 for transmitting textile threads, and a connector 44 for easy disassembly of the transmission component 4; the third block 41 and the fourth block 42 are semi-circular; one end of the third block 41 and the fourth block 42 are hinged; a gap is left between the other ends of the third block 41 and the fourth block 42 to accommodate connecting rods 2 of different diameters; the connector 44 is disposed between the third block 41 and the fourth block 42; rollers 43 are provided on both the third block 41 and the fourth block 42.

[0022] The connector 44 includes a locking member 45 and a fixing member 46 that fixes the transmission member 4 to the connecting rod 2; two sets of locking members 45 are arranged opposite each other and the two sets of locking members 45 are respectively arranged on the third block 41 and the fourth block 42; the fixing member 46 rotates on one side of the locking member 45 and the fixing member 46 is threaded through the other side of the locking member 45.

[0023] The roller 43 has a groove 431 that is adapted to the textile thread.

[0024] The moving device 3 uses a bidirectional screw and a drive component 34 to drive the two sets of second blocks 32 to move synchronously in opposite directions. The vertical lifting and lowering of the connecting rod 2 is achieved through the hinged first rod 35, which compensates for the tension of the textile thread in real time and eliminates the risk of loosening caused by uneven external pulling. The transmission component 4 dynamically adjusts the height of the roller 43 as the connecting rod 2 rises and falls, forming a variable tension range to ensure that the textile thread is always taut in different processes, avoiding interruption or accumulation. The third block 41 and the fourth block 42 form an opening and closing structure through hinges. The gap design allows the transmission component 4 to rotate freely around the axis of the connecting rod 2, dynamically adapting to the traction angle of the textile thread and reducing the risk of breakage caused by unilateral force. The slot 431 on the roller 43 forms an embedded fit with the textile thread, preventing the thread from slipping laterally and allowing longitudinal sliding, taking into account both guiding accuracy and flexible buffering. The transmission component 4 can be quickly assembled and disassembled with the connecting rod 2 through a semi-circular clamping structure. The number can be increased or decreased according to the production line requirements, adapting to multi-line parallel transmission scenarios and reducing downtime for changing lines. The gap between the third block 41 and the fourth block 42 is adjustable to accommodate connecting rods 2 of different diameters.

[0025] Because the moving device 3 uses a bidirectional screw and a driving component 34 to drive the two sets of second blocks 32 to move synchronously in opposite directions, the vertical lifting and lowering of the connecting rod 2 is achieved through the hinged first rod 35, which compensates for the tension of the textile thread in real time and eliminates the risk of loosening caused by uneven external pulling. The transmission component 4 dynamically adjusts the height of the roller 43 as the connecting rod 2 rises and falls, forming a variable tension range to ensure that the textile thread is always taut in different processes, avoiding interruption or accumulation. The third block 41 and the fourth block 42 form an opening and closing structure through hinges. The gap design allows the transmission component 4 to rotate freely around the axis of the connecting rod 2, dynamically adapting to the traction angle of the textile thread and reducing the risk of breakage caused by unilateral force. The slot 431 on the roller 43 forms an embedded fit with the textile thread, preventing the thread from slipping laterally and allowing longitudinal sliding, taking into account both guiding accuracy and flexible buffering. The transmission component 4 can be quickly assembled and disassembled with the connecting rod 2 through a semi-circular clamping structure. The number can be increased or decreased according to the production line requirements, adapting to multi-line parallel transmission scenarios and reducing downtime for changing lines. The gap between the third block 41 and the fourth block 42 is adjustable to accommodate connecting rods 2 of different diameters.

[0026] Although preferred embodiments of the present invention have been described, those skilled in the art, upon learning the basic inventive concept, can make other changes and modifications to these embodiments. Therefore, the appended claims are intended to be interpreted as including the preferred embodiments as well as all changes and modifications falling within the scope of the present invention.

[0027] Obviously, those skilled in the art can make various modifications and variations to this utility model without departing from its spirit and scope. Therefore, if these modifications and variations fall within the scope of the claims of this utility model and their equivalents, this utility model also intends to include these modifications and variations.

Claims

1. A device for improving the transmission efficiency of textile threads, characterized in that, The device includes a bracket (1), a connecting rod (2) that slides on the bracket (1), a moving device (3) that drives the connecting rod (2) to move up and down, and a transmission component (4) for transmitting textile threads. The bracket (1) has a first groove (11) on both sides. A guide rod (12) is provided in the first groove (11). The two ends of the connecting rod (2) are fixedly connected to connecting blocks (21). The working end of the moving device (3) is connected to the connecting block (21) so as to drive the connecting block (21) to move up and down along the guide rod (12). The transmission component (4) is detachably connected to the connecting rod (2). Multiple sets of the transmission component (4) can be installed according to the number of textile threads.

2. The device for improving the transmission efficiency of textile threads as described in claim 1, characterized in that, The top of the bracket (1) is provided with a second groove (13); the moving device (3) includes a first block (31), a second block (32) sliding in the second groove (13), a moving rod (33) that drives the second block (32) to move, and a driving member (34) that drives the moving rod (33) to rotate; the moving rod (33) rotates in the second groove (13); the moving rod (33) is a bidirectional screw; the first block (31) and the second block (32) are arranged in two sets opposite to each other; the threads on both sides of the moving rod (33) are respectively threaded to the second blocks (32) on both sides; a first rod (35) is hinged between the first block (31) and the second block (32); the first rod (35) drives the second block (32) to move up and down; the first block (31) is set on the connecting block (21).

3. The device for improving the transmission efficiency of textile threads as described in claim 2, characterized in that, The transmission component (4) includes a third block (41), a fourth block (42) hinged to the third block (41), a roller (43) for transmitting textile threads, and a connector (44) for easy disassembly of the transmission component (4); the third block (41) and the fourth block (42) are semi-circular; one end of the third block (41) and the fourth block (42) are hinged; a gap is left between the other end of the third block (41) and the fourth block (42) to accommodate connecting rods (2) of different diameters; the connector (44) is disposed between the third block (41) and the fourth block (42); the roller (43) is disposed on both the third block (41) and the fourth block (42).

4. The device for improving the transmission efficiency of textile threads as described in claim 3, characterized in that, The connector (44) includes a locking member (45) and a fixing member (46) for fixing the transmission member (4) on the connecting rod (2); two sets of locking members (45) are arranged opposite each other and the two sets of locking members (45) are respectively arranged on the third block (41) and the fourth block (42); the fixing member (46) rotates on one side of the locking member (45) and the fixing member (46) is threaded through the other side of the locking member (45).

5. The device for improving the transmission efficiency of textile threads as described in claim 3, characterized in that, The roller (43) is provided with a groove (431) adapted to the textile thread.