A mechanism for winding a blend of polyester fibers

Abstract

The utility model discloses a kind of blended polyester fiber winding mechanisms, it is related to winding mechanism technical field, including: mechanism frame, the front of mechanism frame is equipped with silk thread traction mechanism;Winding assembly, winding assembly is set to the front of mechanism frame, winding assembly is used to wind blended silk thread, winding assembly includes even winding part.The utility model is rotated by motor driving convex strip clamping rod, convex strip clamping rod drives and is connected with reciprocating silk rod rotation, the reciprocating silk rod will drive all winding rod and reciprocating silk rod rotation by connecting piece, while winding rod is wound silk thread, reciprocating silk rod is moved left and right along convex strip clamping rod under the thread connection of connecting sleeve, so as to pull winding rod repeatedly moves under silk thread composite mechanism, to guarantee that the silk thread of composite is evenly wound on winding rod, avoid silk thread winding when appearing loose, wrinkling, appearing irregular edge problem.

Description

Technical Field

[0001] This utility model relates to the field of winding mechanism technology, specifically to a winding mechanism for blended polyester fibers. Background Technology

[0002] Blended polyester fiber is a textile material made by mixing polyester fiber with other types of fibers (such as cotton, wool, nylon, etc.). This blended material combines the advantages of different fibers and is widely used in various clothing and home textiles. It has good durability, easy care, bright colors and wrinkle resistance. In the production process of blended polyester fiber, the winding mechanism is used to collect the fiber from the spinning machine and wind it into a roll for subsequent processing and transportation.

[0003] A document with publication number CN205874604U discloses a blended polyester fiber winding mechanism, including a frame with two crossbars installed on the upper part of the frame. Thread guide grooves are connected to the crossbars, with at least two thread guide grooves forming a group. A thread positioning block is provided in the middle below the two thread guide grooves. A thread composite groove is located below the thread positioning block, and a winding roller is located below the thread composite groove. During operation, two different types of polyester fibers are passed through the two thread guide grooves respectively. After being positioned by the thread positioning block, the two polyester fibers simultaneously enter the thread composite groove, where they intertwine and are then wound onto the winding roller, thus achieving the mixed winding of two different types of polyester fibers, facilitating the weaving of blended fabrics.

[0004] The aforementioned blended polyester fiber winding mechanism can only wind the yarn at a fixed position when the winding roller winds it. Due to the lack of dynamic adjustment, the coils wound on the winding roller will be uneven. Uneven winding will result in loose, wrinkled or uneven edges. Utility Model Content

[0005] The purpose of this utility model is to provide a blended polyester fiber winding mechanism, which solves the problem that in the existing blended polyester fiber winding mechanism, the winding roller can only wind the yarn at a fixed position, and the coil wound on the winding roller will be uneven, resulting in loose, wrinkled or uneven edges.

[0006] This utility model solves the above-mentioned technical problems through the following technical solution: This utility model includes:

[0007] A frame, the front of which is equipped with a wire traction mechanism;

[0008] A winding assembly is disposed on the front side of the mechanism frame. The winding assembly is used to wind blended yarns. The winding assembly includes a leveling member, which includes a motor fixed to the front side of the mechanism frame and multiple connecting sleeves fixed to the front side of the mechanism frame. One end of the motor output shaft is fixed with a protruding locking rod. The internal threads of the multiple connecting sleeves are all provided with reciprocating screws. One of the reciprocating screws has a groove inside, and the protruding locking rod passes through the groove. A connecting rod slides inside one of the connecting sleeves. One end of the multiple reciprocating screws is provided with a winding member.

[0009] Preferably, the winding component includes a winding rod, and both ends of the winding rod are provided with connectors, which are used to quickly connect the winding rod and the reciprocating lead screw.

[0010] Preferably, the connector includes two connecting discs and a limiting disc fixed to one end of the winding rod. An external threaded shaft is fixed to one side of the connecting disc, and a square hole is opened at one end of the external threaded shaft. A fixed shaft is fixed to one side of the limiting disc, and an internal threaded sleeve slides on the outside of the fixed shaft. A square head post rotates on the inside of the internal threaded sleeve.

[0011] Preferably, the thread traction mechanism includes an adjustable angle thread traction rail disposed on the front of the mechanism frame, a thread guide block disposed on the front of the mechanism frame, and a thread composite mechanism disposed on the front of the mechanism frame.

[0012] Preferably, both ends of the adjustable angle wire traction rail are provided with arc-shaped edges, which are used to prevent the wire from being scratched.

[0013] Preferably, the plurality of the wire guide blocks and the plurality of wire composite mechanisms are located above the plurality of winding rods.

[0014] Compared with the prior art, the beneficial effects of this utility model are as follows:

[0015] The motor drives the convex bar clamp to rotate, which in turn drives the reciprocating screw connected to it to rotate. This reciprocating screw, through the connector, drives all the winding rods and the reciprocating screw to rotate. While the winding rod winds the yarn, the reciprocating screw, connected to the connecting sleeve by threads, moves left and right along the convex bar clamp. This pulls the winding rod to move repeatedly below the yarn compounding mechanism, ensuring that the compounded yarn is evenly wound on the winding rod and preventing problems such as loosening, wrinkling, and uneven edges during yarn winding. Attached Figure Description

[0016] Figure 1 This is the front view of the present invention;

[0017] Figure 2 This is a partial cross-sectional view of the winding assembly in this utility model;

[0018] Figure 3 for Figure 2 Enlarged schematic diagram of part A in the middle.

[0019] The numbers in the image represent:

[0020] 1. Mechanism frame; 2. Wire traction mechanism; 21. Adjustable angle wire traction rail; 22. Wire guide block; 23. Wire composite mechanism; 3. Winding assembly; 31. Motor; 32. Connecting sleeve; 33. Protruding bar retaining rod; 34. Reciprocating screw; 35. Slot; 36. Connecting rod; 37. Winding component; 371. Winding rod; 372. Connecting disc; 373. Limiting disc; 374. External threaded shaft; 375. Square hole; 376. Fixed shaft; 377. Internal threaded sleeve. Detailed Implementation

[0021] The above-mentioned and other technical features and advantages of this utility model will be described in more detail below with reference to the accompanying drawings.

[0022] This embodiment provides a technical solution: a blended polyester fiber winding mechanism, such as... Figure 1-3 As shown, the assembly includes a frame 1 and a winding assembly 3. The front of the frame 1 is equipped with a thread traction mechanism 2. The thread traction mechanism 2 includes an adjustable angle thread traction rail 21, a thread guide block 22, and a thread composite mechanism 23, all located on the front of the frame 1. Both ends of the adjustable angle thread traction rail 21 are provided with arc-shaped edges to prevent the thread from being scratched. Multiple thread guide blocks 22 and multiple thread composite mechanisms 23 are located above multiple winding rods 371.

[0023] The winding assembly 3 is disposed on the front side of the mechanism frame 1. The winding assembly 3 is used to wind the blended yarn. The winding assembly 3 includes a uniform winding member, which includes a motor 31 fixed to the front side of the mechanism frame 1 and multiple connecting sleeves 32 fixed to the front side of the mechanism frame 1. One end of the output shaft of the motor 31 is fixed with a protruding locking rod 33. A connecting rod 36 slides inside one of the connecting sleeves 32 located at the outermost edge. The other connecting sleeves 32 are threaded with reciprocating screws 34. A groove 35 is opened inside one of the reciprocating screws 34 near the motor 31. The protruding locking rod 33 passes through the groove 35. One end of each of the multiple reciprocating screws 34 is provided with a winding member 37.

[0024] The winding component 37 includes a winding rod 371, with connectors at both ends of the winding rod 371. The connectors are used to quickly connect the winding rod 371 and the reciprocating lead screw 34. The connectors include two connecting discs 372 and a limiting disc 373 fixed to one end of the winding rod 371. The connecting disc 372 in the connector between the two reciprocating lead screws 34 is fixed to one end of the reciprocating lead screw 34. The connecting disc 372 in the connector between one reciprocating lead screw 34 and the connecting rod 36 is fixed to one end of the reciprocating lead screw 34 or one end of the connecting rod 36. An external threaded shaft 374 is fixed to one side of the connecting disc 372. A square hole 375 is opened at one end of the external threaded shaft 374. A fixed shaft 376 is fixed to one side of the limiting disc 373. An internal threaded sleeve 377 slides on the outside of the fixed shaft 376. A square head post 378 rotates on the inside of the internal threaded sleeve 377.

[0025] In use: The thread is passed sequentially through the adjustable angle thread traction rail 21, the thread guide block 22, and the thread compounding mechanism 23. The thread compounded by the thread compounding mechanism 23 is then wound onto the winding rod 371. During winding, the motor 31 drives the convex bar clamp 33 to rotate, which in turn drives the reciprocating screw 34 connected to it to rotate. The reciprocating screw 34, through the connector, drives all the winding rods 371 and the reciprocating screw 34 to rotate. While the winding rod 371 is winding the thread, the reciprocating screw 34, in its threaded connection with the connecting sleeve 32, moves left and right along the convex bar clamp 33. This pulls the winding rod 371 to move repeatedly below the thread compounding mechanism 23, ensuring that the compounded thread is evenly wound onto the winding rod 371, and preventing problems such as loosening, wrinkling, and uneven edges during winding.

[0026] After a certain amount of thread is wound onto the winding rod 371, the internal threaded sleeves 377 at both ends of the winding rod 371 are rotated until they are unscrewed from the external threaded shaft 374. The internal threaded sleeves 377 will then drive the square head post 378 out of the square hole 375, releasing the restriction on the winding rod 371 and completing the removal of the winding rod 371. When installing a new winding rod 371, the square head post 378 at both ends of the winding rod 371 is inserted into the corresponding square hole 375, and the internal threaded sleeve 377 is screwed onto the external threaded shaft 374.

[0027] The above description is merely a preferred embodiment of the present utility model and is illustrative rather than restrictive. Those skilled in the art will understand that many changes, modifications, and even equivalents can be made within the spirit and scope defined by the claims of the present utility model, all of which will fall within the protection scope of the present utility model.

Claims

1. A blended polyester fiber winding mechanism, characterized in that, include: A frame (1) is provided with a wire traction mechanism (2) on its front side; A winding assembly (3) is disposed on the front side of the mechanism frame (1). The winding assembly (3) is used to wind blended yarn. The winding assembly (3) includes a uniform winding member. The uniform winding member includes a motor (31) fixed to the front side of the mechanism frame (1) and multiple connecting sleeves (32) fixed to the front side of the mechanism frame (1). One end of the output shaft of the motor (31) is fixed with a protruding locking rod (33). The internal threads of the multiple connecting sleeves (32) are all provided with reciprocating screws (34). One of the reciprocating screws (34) has a slot (35) inside. The protruding locking rod (33) passes through the slot (35). A connecting rod (36) slides inside one of the connecting sleeves (32). One end of the multiple reciprocating screws (34) is provided with a winding member (37).

2. The blended polyester fiber winding mechanism as described in claim 1, characterized in that, The winding member (37) includes a winding rod (371), and both ends of the winding rod (371) are provided with connectors, which are used to quickly connect the winding rod (371) and the reciprocating screw (34).

3. The blended polyester fiber winding mechanism as described in claim 2, characterized in that, The connector includes two connecting discs (372) and a limiting disc (373) fixed to one end of the winding rod (371). An external threaded shaft (374) is fixed on one side of the connecting disc (372), and a square hole (375) is opened at one end of the external threaded shaft (374). A fixed shaft (376) is fixed on one side of the limiting disc (373). An internal threaded sleeve (377) slides on the outside of the fixed shaft (376), and a square head post (378) rotates on the inside of the internal threaded sleeve (377).

4. The blended polyester fiber winding mechanism as described in claim 3, characterized in that, The thread traction mechanism (2) includes an adjustable angle thread traction rail (21) disposed on the front of the mechanism frame (1), a thread guide block (22) disposed on the front of the mechanism frame (1), and a thread composite mechanism (23) disposed on the front of the mechanism frame (1).

5. The blended polyester fiber winding mechanism as described in claim 4, characterized in that, Both ends of the adjustable angle traction rail (21) are provided with arc-shaped edges, which are used to prevent the traction wire from being scratched.

6. The blended polyester fiber winding mechanism as described in claim 5, characterized in that, Multiple wire guide blocks (22) and multiple wire composite mechanisms (23) are located above multiple winding rods (371).

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