Production equipment of antibacterial and flame-retardant yak wool colored yarn
By using the main push rod and side push rod to raise and lower the extension rod, combined with the motor-driven moving rod and fixing components, the problem of inconvenient yarn fixing position adjustment is solved, enabling quick fixing and replacement of yarn bobbins and improving production efficiency.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- TONGXIANG YUNSHENG TEXTILE
- Filing Date
- 2025-09-30
- Publication Date
- 2026-06-05
AI Technical Summary
The inconvenience of adjusting the position when the yarn is fixed leads to low replacement efficiency. Replacing the yarn after it is used up is time-consuming and laborious, affecting the work speed.
The extension rod is raised and lowered by the main push rod and the side push rod, and the moving rod is moved by the main motor and the side motor. Combined with the fixing components and the fixing base, the height of the yarn plate can be adjusted and quickly replaced. The yarn bobbin can be quickly fixed and replaced by the electric push rod and the lead screw mechanism.
It enables rapid adjustment and replacement of yarn position, reduces lumbar strain on workers, improves work efficiency, and reduces the time and labor intensity of yarn bobbin replacement.
Smart Images

Figure CN224324966U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of yarn production technology, specifically to production equipment for antibacterial and flame-retardant yak wool colored yarn. Background Technology
[0002] As living standards improve, people have higher requirements for textiles. Single-function textiles can no longer meet people's growing needs. Generally, textiles with multiple functions are prepared by mixing functional materials with fiber materials and then spinning them or by using core-sheath structures.
[0003] In the yarn spinning process, workers simply fix different yarns to their corresponding positions and then feed them into the equipment for production. When fixing the yarn, the fixing position is often too low, requiring workers to squat or bend over to secure it. This makes it difficult to quickly adjust the height of the fixed yarn position for easy fixation. When replacing used yarn with new yarn, repeated disassembly and reassembly are necessary, which is time-consuming and laborious, affecting work speed. Furthermore, it is not convenient for workers to quickly remove the used yarn spool for easy replacement. Therefore, this utility model is proposed to solve the above problems. Utility Model Content
[0004] (a) Technical problems to be solved
[0005] To address the shortcomings of existing technologies, this utility model provides a production equipment for antibacterial and flame-retardant yak wool yarn, which solves the problem of reduced replacement efficiency caused by adjusting the fixed yarn position too low during yarn fixing, and allows for quick replacement of used yarn with new yarn, reducing the time and effort required for replacement and affecting work speed.
[0006] (II) Technical Solution
[0007] To achieve the above objectives, this utility model provides the following technical solution: a production equipment for antibacterial and flame-retardant yak wool yarn, comprising a main support, a main push rod inserted inside the main support, side supports inserted on both sides of the main support, side push rods inserted inside the side supports, a main extension rod sleeved at one end of the main push rod, a main yarn plate sleeved at one end of the main extension rod, side components provided on both sides of the main yarn plate, a main motor inserted inside the main yarn plate, a main lead screw inserted at one end of the main motor, a main moving rod slidably connected inside the main yarn plate, a main fixing seat provided on the upper surface of the main yarn plate, a fixing component inserted on the upper surface of the main fixing seat, a main stop rod inserted on one side of the main yarn plate, a side fixing seat provided on the upper surface of the side components, and a side extension rod inserted on the lower surface of the side components.
[0008] Optionally, the side assembly includes a side plate, a side motor, a side lead screw, a side moving rod, a side bearing, a side stop rod, and a side bolt. The side motor is inserted into the side plate, and a side lead screw is sleeved on one end of the side motor. A side moving rod is slidably connected to the inside of the side plate. A side bearing is inserted into one side of the side plate, and a side stop rod is inserted into the inside of the side bearing. A side stop rod is installed at one end of the side plate by a side bolt.
[0009] Optionally, the inner wall of the side plate is provided with a side sliding groove, and the two sides of the side moving rod are provided with side sliders. The side sliders are slidably connected inside the side sliding groove, and the internal threads of the side sliders are connected to the side lead screws.
[0010] Optionally, the fixing component includes a fixing post, a fixing groove, a fixing push rod, and a fixing plate. The fixing post has fixing grooves on both sides, a fixing push rod is inserted into the fixing groove, and a fixing plate is sleeved on one end of the fixing push rod.
[0011] Optionally, the inner sidewall of the main yarn plate is provided with a main slide groove, and the two sides of the main moving rod are provided with main sliders. The main slider is slidably connected inside the main slide groove, and the main lead screw is threaded through the internal thread of the main slider.
[0012] Optionally, a main bolt is threaded through one side of the main yarn plate, and a main threaded hole is provided at one end of the main stop bar.
[0013] Optionally, a main bearing is provided on one side of the main yarn plate, and a main stop rod is inserted into the main bearing.
[0014] Optionally, a fixing component is installed on the upper surface of both the main fixing seat and the side fixing seat, and the number of the main fixing seat, the side fixing seat and the fixing component is several.
[0015] In summary, the technical effects and advantages of this utility model are as follows:
[0016] 1. This utility model has a reasonable structure. The side push rod causes the side extension rod to move the side assembly up and down on the side bracket. The main push rod causes the main extension rod to move the main yarn plate up and down on the main bracket, which can quickly adjust the height of the main yarn plate and the side assembly. This makes it convenient for workers to install and fix the yarn on the main yarn plate and the side assembly. It reduces the need for workers to squat or bend over to fix the yarn when the position is too low, which may cause back injuries. The yarn bobbin is placed on the surface of the fixing plate. The fixing push rod causes the fixing plate to move outward on both sides of the fixing column to fix the yarn bobbin. This allows the yarn bobbin to be installed on the main fixing seat and the side fixing seat in the equipment. This can quickly fix the yarn bobbin and reduce the impact of the yarn bobbin falling off during use on the work progress.
[0017] 2. In this utility model, the main moving rod is moved within the main yarn plate by the main motor, which in turn moves the main fixed seat. By removing the main bolt, the main stop rod is released from its fixation, allowing it to open on the main yarn plate and be removed from the main yarn plate. This allows the subsequent main fixed seat to move forward to replace the yarn and continue working. Similarly, the side moving rod is moved within the side plate by the side motor, which in turn moves the side fixed seat. By removing the side bolt, the side stop rod is released from its fixation, allowing it to open on the side plate and be quickly removed from the side plate. This allows the subsequent side fixed seat to move forward to replace the yarn and continue working. After the yarn on the yarn bobbin is used up, workers can quickly remove the yarn bobbin and easily replace it with new yarn. Attached Figure Description
[0018] Figure 1 This is a schematic diagram of the structure of this utility model;
[0019] Figure 2 This is an exploded view of the main support structure of this utility model;
[0020] Figure 3 This is an exploded view of the main yarn plate structure of this utility model;
[0021] Figure 4 This is an exploded view of the side plate structure of this utility model;
[0022] Figure 5 This is an exploded view of the main fixing base structure of this utility model;
[0023] Figure 6 This is an exploded view of the fixed column structure of this utility model;
[0024] Figure 7 This is an exploded view of the side extension rod structure of this utility model.
[0025] In the diagram: 1. Main support; 2. Main push rod; 3. Side support; 4. Side push rod; 5. Main extension rod; 6. Main yarn plate; 601. Main bolt; 602. Main bearing; 7. Side assembly; 701. Side plate; 702. Side motor; 703. Side lead screw; 704. Side moving rod; 705. Side bearing; 706. Side stop rod; 707. Side bolt; 8. Main motor; 9. Main lead screw; 10. Main moving rod; 11. Main fixed seat; 12. Fixed assembly; 121. Fixed column; 122. Fixed groove; 123. Fixed push rod; 124. Fixed plate; 13. Main stop rod; 131. Main threaded hole; 14. Side fixed seat; 15. Side extension rod. Detailed Implementation
[0026] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.
[0027] Example: Reference Figures 1-7 The production equipment for antibacterial and flame-retardant yak wool yarn shown includes a main support 1, a main push rod 2 inserted inside the main support 1, side supports 3 inserted on both sides of the main support 1, a side push rod 4 inserted inside the side supports 3, a main extension rod 5 sleeved at one end of the main push rod 2, a main yarn plate 6 sleeved at one end of the main extension rod 5, side components 7 on both sides of the main yarn plate 6, a main motor 8 inserted inside the main yarn plate 6, a main lead screw 9 inserted at one end of the main motor 8, a main moving rod 10 slidably connected inside the main yarn plate 6, a main fixing seat 11 on the upper surface of the main yarn plate 6, a fixing component 12 inserted on the upper surface of the main fixing seat 11, a main stop rod 13 inserted on one side of the main yarn plate 6, a side fixing seat 14 on the upper surface of the side component 7, and a side extension rod 15 inserted on the lower surface of the side component 7.
[0028] As a preferred embodiment of this example, Figures 2 to 7As shown, a main push rod 2 is inserted inside the main support 1, and side supports 3 are inserted on both sides of the main support 1. Side push rods 4 are inserted inside the side supports 3. The main push rod 2 and the side push rods 4 are electric push rods. Electric push rods, also known as linear actuators, are a new type of linear actuator mainly composed of a motor push rod and control device. They can be considered as an extension of the rotary motor in terms of structure. A main extension rod 5 is sleeved at one end of the main push rod 2, and a main yarn plate 6 is sleeved at one end of the main extension rod 5. A main bearing 602 is provided on one side of the main yarn plate 6, and a main stop rod 13 is inserted inside the main bearing 602. Side components 7 are provided on both sides of the main yarn plate 6. The side components 7 include a side plate 701, a side motor 702, a side lead screw 703, a side moving rod 704, and a side bearing. 705, side stop bar 706, and side bolt 707; a side motor 702 is inserted inside the side plate 701, and a side lead screw 703 is sleeved on one end of the side motor 702; a side moving rod 704 is slidably connected inside the side plate 701; a side bearing 705 is inserted into one side of the side plate 701, and a side stop bar 706 is inserted inside the side bearing 705; a side stop bar 706 is installed on one end of the side plate 701 via a side bolt 707; a side sliding groove is formed on the inner side wall of the side plate 701; side sliders are formed on both sides of the side moving rod 704; side sliders are slidably connected inside the side sliding groove; the side lead screw 703 passes through the internal thread of the side slider; a main motor 8 is inserted inside the main yarn plate 6, and a main lead screw 9 is inserted into one end of the main motor 8; the main yarn plate 6 is slidably connected inside... The main moving rod 10 has a main sliding groove on the inner side wall of the main yarn plate 6. Main sliders are located on both sides of the main moving rod 10. The main sliders are slidably connected inside the main sliding groove. A main lead screw 9 passes through the internal thread of the main slider. A main fixing seat 11 is located on the upper surface of the main yarn plate 6. A fixing assembly 12 is inserted into the upper surface of the main fixing seat 11. The fixing assembly 12 includes a fixing post 121, a fixing groove 122, a fixing push rod 123, and a fixing plate 124. Fixing grooves 122 are located on both sides of the fixing post 121. A fixing push rod 123 is inserted into the fixing groove 122. A fixing plate 124 is sleeved on one end of the fixing push rod 123. The fixing push rod 123 is an electric push rod, also known as a linear actuator, which mainly consists of a motor, a push rod, and a control device. A novel linear actuator, which can be considered a structural extension of a rotary motor, has a fixed bearing inserted into the lower surface of the fixed component 12. A main stop rod 13 is inserted into one side of the main yarn plate 6, and a main bolt 601 is threaded through one side of the main yarn plate 6. A main threaded hole 131 is opened at one end of the main stop rod 13. A side fixing seat 14 is provided on the upper surface of the side component 7. Fixed components 12 are installed on the upper surfaces of both the main fixing seat 11 and the side fixing seat 14. There are several main fixing seats 11, side fixing seats 14, and fixed components 12. A side extension rod 15 is inserted into the lower surface of the side component 7. During use, the side extension rod 15 is driven to rise and fall by the side push rod 4, so that the side extension rod 15 drives the side component 7 to rise and fall on the side support 3.The main push rod 2 drives the main extension rod 5 to rise and fall, causing the main extension rod 5 to move the main yarn plate 6 up and down on the main support 1. This allows for quick adjustment of the height of the main yarn plate 6 and the side assembly 7, facilitating workers to install and fix yarn on the main yarn plate 6 and the side assembly 7. This reduces the need for workers to squat or bend over to fix yarn at low positions, which could lead to back injuries during prolonged work. By placing the yarn spool on the surface of the fixing plate 124, the fixing push rod 123 drives the fixing plate 124 to extend and retract, causing the fixing plate 124 to move outward on both sides of the fixing column 121, thus allowing the fixing plate 124 to move. The yarn bobbin is fixed against the inner wall of the machine, allowing it to be installed on the main fixing seat 11 and side fixing seat 14 within the equipment. This enables quick fixation of the yarn bobbin, reducing the risk of it falling and affecting work progress. Multiple main fixing seats 11 are placed on the main yarn plate 6, and the main motor 8 drives the main screw 9 to rotate, causing the main moving rod 10 to move back and forth within the main yarn plate 6. The movement of the main moving rod 10 drives the main fixing seats 11 to move forward. Rotating the main bolt 601 releases its fixation on the main stop rod 13, and the main bearing 602 drives the main stop rod 13 to rotate. The movement causes the main stop lever 13 to rotate on the main yarn plate 6, opening the contact barrier against the main fixed seat 11. This allows the yarn on the yarn bobbin on the main fixed seat 11 to be quickly removed from the main yarn plate 6 after use, causing the yarn bobbins on the subsequent main fixed seats 11 to move forward to replace the yarn and continue working. By placing multiple side fixed seats 14 on the side plate 701, the side motor 702 drives the side screw 703 to rotate, causing the side moving rod 704 to move back and forth within the side plate 701. The movement of the side moving rod 704 drives the side fixed seat 14 to move forward. By rotating, the side bolt 707 is removed, releasing the side stop lever 707 from the side stop. The rod 706 is fixed by rotating the side stop rod 706 via the side bearing 705. This causes the side stop rod 706 to rotate on the side plate 701, opening the contact with the obstruction of the opposite side fixing seat 14. This allows the yarn in the yarn bobbin on the side fixing seat 14 to be quickly removed from the side plate 701 after use, enabling the yarn bobbins on the subsequent side fixing seats 14 to move forward to replace with new yarn and continue working. This facilitates quick removal of the used yarn bobbins by workers, reducing the time and effort required for replacement and slowing down the work process.
[0029] The working principle of this practical application is as follows:
[0030] During use, the worker uses the side push rod 4 to raise and lower the side extension rod 15, causing the side extension rod 15 to move the side assembly 7 up and down on the side bracket 3. The main push rod 2 raises and lowers the main extension rod 5, causing the main yarn plate 6 to move up and down on the main bracket 1. This allows for quick adjustment of the height of the main yarn plate 6 and the side assembly 7, facilitating the worker's installation and fixing of the yarn bobbin on the main yarn plate 6 and the side assembly 7. By placing the yarn bobbin on the surface of the fixing plate 124, the fixing push rod 123 causes the fixing plate 124 to extend and retract, allowing the fixing plate 124 to move outward on both sides of the fixing column 121. The movement causes the fixing plate 124 to press against the inner wall of the yarn bobbin for fixation, thus installing the yarn bobbin onto the main fixing seat 11 and side fixing seat 14 within the equipment. This quickly secures the yarn bobbin, reducing the impact of it falling during use on the work progress. By placing multiple main fixing seats 11 on the main yarn plate 6, the main motor 8 drives the main screw 9 to rotate, causing the main moving rod 10 to move back and forth within the main yarn plate 6. The movement of the main moving rod 10 drives the main fixing seats 11 to move forward. By rotating and removing the main bolt 601, the main bolt 601 is released from fixing the main stop rod 13. The main bearing 602 then drives the main stop rod 13. 3. Rotate the main stop lever 13 on the main yarn plate 6 to open the contact barrier against the main fixed seat 11, allowing the yarn on the yarn bobbin on the main fixed seat 11 to be quickly removed from the main yarn plate 6 after use. This allows the yarn bobbins on the subsequent main fixed seats 11 to move forward to replace the yarn and continue working. By placing multiple side fixed seats 14 on the side plate 701, the side motor 702 drives the side lead screw 703 to rotate, causing the side moving rod 704 to move back and forth within the side plate 701. The movement of the side moving rod 704 drives the side fixed seat 14 to move forward, and the side bolt 707 is removed by rotation. The side stop lever 706 is fixed by rotating the side bearing 705, causing the side stop lever 706 to rotate on the side plate 701 and open the contact with the obstruction of the opposite side fixing seat 14. This allows the yarn on the yarn bobbin on the side fixing seat 14 to be quickly removed from the side plate 701 after use, so that the yarn bobbin on the rear side fixing seat 14 can move forward to replace the yarn and continue working. After the yarn on the yarn bobbin is used up, it is convenient for workers to quickly remove the yarn bobbin after use and replace it with new yarn. This reduces the time and effort required for workers to replace the yarn bobbin after use, which affects the work speed.
[0031] All electrical components mentioned in this article are connected to an external main controller and 220V AC mains power, and the main controller can be a conventional known device such as a computer that can control it.
[0032] Finally, it should be noted that the above description is only a preferred embodiment of the present utility model and is not intended to limit the present utility model. Although the present utility model has been described in detail with reference to the foregoing embodiments, those skilled in the art can still modify the technical solutions described in the foregoing embodiments or make equivalent substitutions for some of the technical features. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of the present utility model should be included within the protection scope of the present utility model.
Claims
1. Production equipment for antibacterial and flame-retardant yak wool colored yarn, including a main support (1), characterized in that: A main push rod (2) is inserted inside the main support (1). Side supports (3) are inserted on both sides of the main support (1). Side push rods (4) are inserted inside the side supports (3). A main extension rod (5) is sleeved on one end of the main push rod (2). A main yarn plate (6) is sleeved on one end of the main extension rod (5). Side components (7) are provided on both sides of the main yarn plate (6). A main motor (8) is inserted inside the main yarn plate (6). One end is connected to a main screw (9), and the inside of the main yarn plate (6) is slidably connected to a main moving rod (10). The upper surface of the main yarn plate (6) is provided with a main fixing seat (11), and the upper surface of the main fixing seat (11) is connected to a fixing component (12). The side of the main yarn plate (6) is connected to a main stop rod (13), and the upper surface of the side component (7) is provided with a side fixing seat (14). The lower surface of the side component (7) is connected to a side extension rod (15).
2. The production equipment for antibacterial and flame-retardant yak wool colored yarn according to claim 1, characterized in that: The side assembly (7) includes a side plate (701), a side motor (702), a side lead screw (703), a side moving rod (704), a side bearing (705), a side stop rod (706), and a side bolt (707). The side motor (702) is inserted into the side plate (701), and the side lead screw (703) is sleeved on one end of the side motor (702). The side moving rod (704) is slidably connected inside the side plate (701). The side bearing (705) is inserted into one side of the side plate (701), and the side stop rod (706) is inserted into the side bearing (705). The side stop rod (706) is installed on one end of the side plate (701) by the side bolt (707).
3. The production equipment for antibacterial and flame-retardant yak wool colored yarn according to claim 2, characterized in that: The inner wall of the side plate (701) is provided with a side sliding groove, and the two sides of the side moving rod (704) are provided with side sliders. The side sliders are slidably connected inside the side sliding groove, and the side screw (703) is threaded through the inside of the side slider.
4. The production equipment for antibacterial and flame-retardant yak wool colored yarn according to claim 1, characterized in that: The fixing component (12) includes a fixing post (121), a fixing groove (122), a fixing push rod (123), and a fixing plate (124). The fixing post (121) has fixing grooves (122) on both sides. The fixing push rod (123) is inserted into the fixing groove (122). The fixing plate (124) is sleeved on one end of the fixing push rod (123).
5. The production equipment for antibacterial and flame-retardant yak wool colored yarn according to claim 1, characterized in that: The inner sidewall of the main yarn plate (6) is provided with a main slide groove, and the two sides of the main moving rod (10) are provided with main sliders. The main slider is slidably connected inside the main slide groove, and the main screw (9) is threaded through the inside of the main slider.
6. The production equipment for antibacterial and flame-retardant yak wool colored yarn according to claim 1, characterized in that: The main yarn plate (6) has a threaded main bolt (601) on one side, and the main stop bar (13) has a main threaded hole (131) at one end.
7. The production equipment for antibacterial and flame-retardant yak wool colored yarn according to claim 1, characterized in that: A main bearing (602) is provided on one side of the main yarn plate (6), and a main stop rod (13) is inserted inside the main bearing (602).
8. The production equipment for antibacterial and flame-retardant yak wool colored yarn according to claim 1, characterized in that: The upper surfaces of the main fixing seat (11) and the side fixing seat (14) are each equipped with a fixing component (12), and the number of the main fixing seat (11), the side fixing seat (14) and the fixing component (12) is several.