A warp winding machine for processing of lining cloth

By introducing a motor-driven warp beam and an adjustable limit ring structure into the warping machine, the problem of yarn winding caused by fixed baffles was solved, achieving uniform yarn tension and adaptive adjustment, and improving the production efficiency of the warping machine.

CN224362959UActive Publication Date: 2026-06-16QIDONG LEXIN TEXTILE TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
QIDONG LEXIN TEXTILE TECH CO LTD
Filing Date
2025-07-25
Publication Date
2026-06-16

AI Technical Summary

Technical Problem

The fixed positions of the baffles at both ends of the warp beam of the warping machine cause narrow yarns to easily detach from the winding area, while wide yarns are deformed by the pressure of the baffles, making it impossible to adjust the baffle spacing according to the type of yarn.

Method used

A warping machine comprising a base, mounting frame, electric guide rail, yarn collection frame, support frame, warp beam, adjustment component, and positioning component is designed. The warp beam is driven to rotate by a motor, and combined with a threaded sleeve, limit ring, and positioning roller, it achieves uniform tension and precise arrangement of yarns, and the spacing of the limit ring can be adjusted to adapt to different types of yarns.

Benefits of technology

This technology allows for adjusting the spacing of the limiting rings according to the type of yarn, preventing narrow yarns from detaching and wide yarns from deforming, ensuring uniform yarn winding, and improving the adaptability and production efficiency of the warping machine.

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Abstract

The utility model provides a kind of based on lining cloth processing's warper, it is related to lining cloth processing technical field, including base, the base upper surface one side is fixedly installed with installation frame, the inner bottom of installation frame is provided with electric guide rail, the mobile end of electric guide rail is fixedly installed with yarn collector frame, the base one side is provided with the positioning assembly for positioning, the base upper surface other side is fixedly installed with two support frames.In the utility model, when the spacing between the two limiting rings needs to be adjusted, the staff adjusts the spacing between the two limiting rings by rotating the two threaded sleeves.
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Description

Technical Field

[0001] This utility model relates to the field of interlining processing technology, and more specifically, to a warping machine for interlining processing. Background Technology

[0002] A warping machine is a key piece of equipment in the textile industry used to prepare warp yarns. Its function is to arrange a certain number of cones or skeins of yarn in parallel according to process requirements and wind them onto a warp beam or weaving beam with uniform tension, providing warp sheets of the required density and length for subsequent weaving processes. For example, publication number "CN206736462U" includes a main body for warping the yarn, a frame, a warp beam mounted on the frame for collecting the warped yarn, and a dust cover mounted on the frame. The dust cover includes a support frame fixedly connected to the frame and a cover body mounted on the support frame. The cover body includes several arc-shaped sleeves that slide against each other, and the outer radial direction of the arc-shaped sleeves gradually decreases towards the side away from the support frame.

[0003] However, in the above technical solution, the positions of the baffles at both ends of the warp beam of the warping machine are fixed, which makes it impossible for the workers to adjust the baffle spacing according to the type of yarn. As a result, narrow yarns are easy to detach from the warp beam winding area, while wide yarns are deformed by the pressure of the baffles. Utility Model Content

[0004] The main purpose of this utility model is to provide a warping machine for lining processing, which can effectively solve the problem in the background art where the positions of the baffles at both ends of the warp beam are fixed, making it impossible for workers to adjust the baffle spacing according to the type of yarn. This causes narrow yarns to easily detach from the warp beam winding area, while wide yarns are deformed due to the pressure of the baffles.

[0005] To achieve the above objectives, the technical solution adopted by this utility model is as follows:

[0006] A warping machine for lining processing includes a base, an installation frame fixedly mounted on one side of the upper surface of the base, an electric guide rail disposed at the bottom inside the installation frame, a yarn collecting frame fixedly mounted on the moving end of the electric guide rail, and a positioning component for positioning disposed on one side of the base.

[0007] Two support frames are fixedly installed on the other side of the upper surface of the base, and a warp shaft is rotatably installed between the two support frames. Adjustment components for adjusting the spacing are provided on both sides of the warp shaft.

[0008] One of the support frames has a motor fixedly installed on one side, and one end of the shaft passes through the corresponding support frame and is fixedly connected to the output shaft end of the motor.

[0009] Preferably, the adjusting assembly includes a connecting ring, which is fixedly installed on one side of the warp roller body. An annular groove is formed on one side surface of the connecting ring. A threaded sleeve is rotatably installed on one side of the inner wall of the annular groove. A threaded post is threaded inside the threaded sleeve. A limit ring is fixedly installed at one end of the threaded post. A sliding sleeve is fixedly installed on one side of the inner wall of the annular groove. A sliding post is slidably arranged inside the sliding sleeve. One end of the sliding post is fixedly connected to the limit ring.

[0010] Preferably, the inner wall surfaces of the two annular grooves are provided with circular grooves, and positioning rings are fixedly installed in the two circular grooves. Rotating columns are rotatably installed in the two positioning rings, and rotating blocks are fixedly installed at the upper ends of the two rotating columns. Hexagonal grooves are provided on the upper surfaces of the two rotating blocks.

[0011] Preferably, a first bevel gear is fitted on one side of the two threaded sleeves, and a second bevel gear is fitted on one side of the two rotating columns, with the two second bevel gears meshing with the corresponding first bevel gears.

[0012] Preferably, telescopic rods are provided on both sides of the upper surface of the two positioning rings, and a clamping ring is fixedly installed on the moving end of the adjacent telescopic rods.

[0013] Preferably, each of the two circular grooves has a sliding groove on its inner wall surface, and a slider is slidably disposed in each of the two sliding grooves. A lead screw is rotatably installed between the two sides of the inner wall of the two sliding grooves, and the upper ends of the two lead screws pass through corresponding connecting rings and are fixedly installed with rotating wheels.

[0014] Preferably, the positioning component includes two right-angle brackets, both of which are fixedly installed on one side of the base, and a positioning plate is fixedly installed between the two right-angle brackets. A plurality of positioning holes are opened through one side surface of the positioning plate.

[0015] A positioning roller is rotatably mounted between the two right-angle frames.

[0016] Compared with the prior art, the present invention has the following beneficial effects:

[0017] (1) When it is necessary to adjust the distance between the two limit rings, the staff can control the rotation of the two threaded sleeves. When the threaded sleeves rotate, the threaded column can drive the sliding column and the limit ring to move along the sliding sleeve direction, so that the staff can adjust the distance between the two limit rings according to the yarn type. Attached Figure Description

[0018] Figure 1 This is a schematic diagram of the overall structure of a warping machine for lining processing according to the present invention;

[0019] Figure 2This is a top view schematic diagram of a warping machine for lining processing according to the present invention;

[0020] Figure 3 This utility model relates to a warping machine for lining fabric processing. Figure 2 Schematic diagram of the cross-sectional structure at point AA;

[0021] Figure 4 This utility model relates to a warping machine for lining fabric processing. Figure 2 Schematic diagram of the cross-sectional structure at point BB;

[0022] Figure 5 This utility model relates to a warping machine for lining fabric processing. Figure 3 Enlarged schematic diagram of the structure at point A;

[0023] Figure 6 This utility model relates to a warping machine for lining fabric processing. Figure 4 Enlarged schematic diagram of the structure at point B.

[0024] In the diagram: 1. Base; 2. Mounting frame; 3. Electric guide rail; 4. Yarn collecting frame; 5. Positioning assembly; 501. Right-angle frame; 502. Positioning plate; 503. Positioning hole; 504. Positioning roller; 6. Support frame; 7. Warp beam; 8. Adjustment assembly; 801. Connecting ring; 802. Annular groove; 803. Threaded sleeve; 804. Threaded column; 805. Limiting ring; 806. Sliding sleeve; 807. Sliding column; 9. Circular groove; 10. Positioning ring; 11. Rotating column; 12. Rotating block; 13. Hexagonal groove; 14. First bevel gear; 15. Second bevel gear; 16. Telescopic rod; 17. Pressing ring; 18. Sliding groove; 19. Sliding block; 20. Lead screw; 21. Rotating wheel; 22. Motor. Detailed Implementation

[0025] The technical solutions of this utility model will be clearly and completely described below with reference to the embodiments of this utility model. Obviously, the described embodiments are only some embodiments of this utility model, and not all embodiments. Based on the embodiments of this utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of this utility model.

[0026] like Figures 1-6 As shown, a warping machine for lining processing includes a base 1, an installation frame 2 is fixedly installed on one side of the upper surface of the base 1, an electric guide rail 3 is provided at the bottom inside the installation frame 2, a yarn collection frame 4 is fixedly installed at the moving end of the electric guide rail 3, and a positioning component 5 for positioning is provided on one side of the base 1.

[0027] Two support frames 6 are fixedly installed on the other side of the upper surface of the base 1. A warp shaft 7 is rotatably installed between the two support frames 6. Adjustment components 8 for adjusting the spacing are provided on both sides of the warp shaft 7.

[0028] One of the support frames 6 has a motor 22 fixedly installed on one side, and one end of the shaft 7 passes through the corresponding support frame 6 and is fixedly connected to the output shaft end of the motor 22.

[0029] The adjusting assembly 8 includes a connecting ring 801, which is fixedly installed on one side of the warp beam 7. An annular groove 802 is formed on one side surface of the connecting ring 801. A threaded sleeve 803 is rotatably installed on one side of the inner wall of the annular groove 802. A threaded post 804 is provided in the threaded sleeve 803. A limit ring 805 is fixedly installed at one end of the threaded post 804. A sliding sleeve 806 is fixedly installed on one side of the inner wall of the annular groove 802. A sliding column 807 is slidably arranged in the sliding sleeve 806. One end of the sliding column 807 is fixedly connected to the limit ring 805.

[0030] The positioning component 5 includes two right-angle brackets 501, both right-angle brackets 501 are fixedly installed on one side of the base 1, and a positioning plate 502 is fixedly installed between the two right-angle brackets 501. Several positioning holes 503 are opened through one side surface of the positioning plate 502.

[0031] A positioning roller 504 is rotatably mounted between the two right-angle brackets 501.

[0032] The operator starts the motor 22, causing its output shaft to drive the warp beam 7 to rotate. After the warp beam 7 rotates, it pulls the yarn, which is then restricted to pass through the positioning roller 504 to ensure uniform initial tension. The yarn then passes through the corresponding positioning hole 503 on the positioning plate 502 for precise alignment. Finally, it passes through the yarn divider reed of the yarn collecting frame 4 to form a regular yarn sheet. The yarn sheet is then wound onto the surface of the warp beam 7. When it is necessary to adjust the distance between the two limiting rings 805, the operator controls the two threaded sleeves 803 to rotate. When the threaded sleeves 803 rotate, the threaded column 804 can drive the sliding column 807 and the limiting rings 805 to move along the sliding sleeve 806, which makes it convenient for the operator to adjust the distance between the two limiting rings 805 according to the type of yarn.

[0033] In another embodiment of this utility model, a circular groove 9 is provided through the inner wall surface of the two annular grooves 802, a positioning ring 10 is fixedly installed in the two circular grooves 9, a rotating column 11 is rotatably installed through the two positioning rings 10, a rotating block 12 is fixedly installed at the upper end of the two rotating columns 11, and a hexagonal groove 13 is provided on the upper surface of the two rotating blocks 12.

[0034] Two threaded sleeves 803 are fitted with a first bevel gear 14 on one side of their sleeve bodies, and two rotating columns 11 are fitted with a second bevel gear 15 on one side of their column bodies. The two second bevel gears 15 mesh with the corresponding first bevel gears 14.

[0035] The operator inserts one end of the rotating tool into the hexagonal slot 13, and then controls the rotating block 12 to rotate through the rotating tool, which drives the rotating column 11 to rotate, which in turn drives the second bevel gear 15 to rotate. Under the meshing action of the second bevel gear 15 and the first bevel gear 14, the threaded sleeve 803 rotates, causing the limiting ring 805 to move.

[0036] In another embodiment of this utility model, telescopic rods 16 are provided on both sides of the upper surface of the two positioning rings 10, and a clamping ring 17 is fixedly installed on the moving end of the adjacent telescopic rods 16.

[0037] The inner wall surfaces of the two circular grooves 9 are provided with sliding grooves 18, and sliders 19 are slidably arranged in the two sliding grooves 18. Lead screws 20 are rotatably installed between the two sides of the inner wall of the two sliding grooves 18. The upper ends of the two lead screws 20 pass through the corresponding connecting rings 801 and are fixedly installed with rotating wheels 21.

[0038] The operator rotates the rotating wheel 21, which drives the lead screw 20 to rotate. The rotating lead screw 20 drives the slider 19 to move along the slide groove 18 by screwing in. The moving slider 19 can drive the pressing ring 17 to move along the telescopic rod 16, so that the pressing ring 17 can press against the rotating block 12. This prevents the rotating block 12 from being rotated by external force when the limiting ring 805 limits the yarn, causing the limiting ring 805 to move and lose its limiting effect.

[0039] The working principle of a warping machine for lining processing:

[0040] In use, the operator starts the motor 22, causing its output shaft to drive the warp beam 7 to rotate. After the warp beam 7 rotates, the yarn is pulled and restricted through the positioning roller 504 to ensure uniform initial tension. Then, it passes through the corresponding positioning hole 503 on the positioning plate 502 to achieve precise alignment. Finally, it passes through the yarn divider reed of the yarn collecting frame 4 to form a regular yarn sheet. The yarn sheet is then wound on the surface of the warp beam 7. When it is necessary to adjust the distance between the two limiting rings 805, the operator controls the two threaded sleeves 803 to rotate. When the threaded sleeves 803 rotate, the threaded column 804 can drive the sliding column 807 and the limiting rings 805 to move along the sliding sleeve 806, which makes it convenient for the operator to adjust the distance between the two limiting rings 805. This allows the operator to adjust the distance between the two limiting rings 805 according to the type of yarn.

[0041] Obviously, the above embodiments of this utility model are merely examples for clearly illustrating this utility model, and are not intended to limit the implementation of this utility model. For those skilled in the art, other variations or modifications can be made based on the above description. It is impossible to exhaustively list all the implementation methods here. Any obvious variations or modifications derived from the technical solutions of this utility model are still within the protection scope of this utility model.

Claims

1. A warping machine for lining fabric processing, comprising a base (1), characterized in that: An installation frame (2) is fixedly installed on one side of the upper surface of the base (1). An electric guide rail (3) is provided at the bottom inside the installation frame (2). A yarn collection frame (4) is fixedly installed at the moving end of the electric guide rail (3). A positioning component (5) for positioning is provided on one side of the base (1). Two support frames (6) are fixedly installed on the other side of the upper surface of the base (1). A warp shaft (7) is rotatably installed between the two support frames (6). Adjustment components (8) for adjusting the spacing are provided on both sides of the warp shaft (7). One of the support frames (6) has a motor (22) fixedly installed on one side, and one end of the shaft (7) passes through the corresponding support frame (6) and is fixedly connected to the output shaft end of the motor (22).

2. A warping machine for lining fabric processing according to claim 1, characterized in that: The adjusting component (8) includes a connecting ring (801), which is fixedly installed on one side of the warp beam (7). An annular groove (802) is provided on one side surface of the connecting ring (801). A threaded sleeve (803) is rotatably installed on one side of the inner wall of the annular groove (802). A threaded post (804) is threaded inside the threaded sleeve (803). A limit ring (805) is fixedly installed at one end of the threaded post (804). A sliding sleeve (806) is fixedly installed on one side of the inner wall of the annular groove (802). A sliding column (807) is slidably arranged inside the sliding sleeve (806). One end of the sliding column (807) is fixedly connected to the limit ring (805).

3. A warping machine for lining fabric processing according to claim 2, characterized in that: Both annular grooves (802) have circular grooves (9) through their inner walls. Both circular grooves (9) have positioning rings (10) fixedly installed inside them. Both positioning rings (10) have rotating columns (11) through them. Both rotating columns (11) have rotating blocks (12) fixedly installed at their upper ends. Both rotating blocks (12) have hexagonal grooves (13) on their upper surfaces.

4. A warping machine for lining fabric processing according to claim 3, characterized in that: The two threaded sleeves (803) are fitted with a first bevel gear (14) on one side of their sleeves, and the two rotating columns (11) are fitted with a second bevel gear (15) on one side of their columns. The two second bevel gears (15) mesh with the corresponding first bevel gears (14).

5. A warping machine for interlining processing according to claim 4, characterized in that: Both sides of the upper surface of the two positioning rings (10) are provided with telescopic rods (16), and the moving ends of the adjacent telescopic rods (16) are fixedly installed with clamping rings (17).

6. A warping machine for interlining processing according to claim 5, characterized in that: The inner wall surfaces of the two circular grooves (9) are provided with sliding grooves (18), and the sliding sliders (19) are slidably arranged in the two sliding grooves (18). A lead screw (20) is rotatably installed between the two sides of the inner wall of the two sliding grooves (18). The upper ends of the two lead screws (20) pass through the corresponding connecting rings (801) and are fixedly installed with a rotating wheel (21).

7. A warping machine for interlining processing according to claim 1, characterized in that: The positioning component (5) includes two right-angle brackets (501), both right-angle brackets (501) are fixedly installed on one side of the base (1), and a positioning plate (502) is fixedly installed between the two right-angle brackets (501). A plurality of positioning holes (503) are opened through one side surface of the positioning plate (502). A positioning roller (504) is rotatably mounted between the two right-angle frames (501).