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CN-122013415-A - Weaving equipment with intelligent width adjustment and processing technology thereof

CN122013415ACN 122013415 ACN122013415 ACN 122013415ACN-122013415-A

Abstract

The invention relates to the technical field of weaving processing, in particular to a weaving device with intelligent width adjustment and a processing technology thereof; the leveling shaft drives the lower conveying belt to rotate on two sides of the tensioning box through the bevel gear, the lower conveying belt drives the upper conveying belt to rotate on two sides through the bevel gear, cloth between the upper conveying belt and the lower conveying belt is conveyed through the lower conveying belt, the lower side of the upper conveying belt and the upper side of the lower conveying belt push the upper side and the lower side of the cloth respectively, the cloth is unfolded, if the cloth before entering the upper conveying belt and the lower conveying belt is wrinkled, the upper conveying belt and the lower conveying belt can smooth the cloth when the cloth enters between the upper conveying belt and the lower conveying belt, the problem that the lower conveying belt is wrinkled when the cloth is wound by the winding shaft is avoided, and winding effect of the cloth is guaranteed.

Inventors

  • Zeng kaiyuan
  • ZHENG DANPING
  • ZHOU HONGBO
  • CAO XINGLIN
  • LI JIEJUN

Assignees

  • 旺江纺织科技(安徽)有限公司

Dates

Publication Date
20260512
Application Date
20260409

Claims (8)

  1. 1. The intelligent-width-adjusting weaving equipment comprises a finished-product weaving winding system, wherein the winding system comprises a machine body (1), a winding shaft (11) is arranged at one end of the machine body (1), a feeding hole (12) is formed in the upper end of the machine body (1), two guide rollers (121) are arranged in the feeding hole (12), the guide rollers (121) are driven by a motor arranged at the end part, and the intelligent-width-adjusting weaving equipment is characterized in that the machine body (1) further comprises: The tensioning box (13) is arranged at one end of the machine body (1) far away from the rolling shaft (11), the tensioning box (13) is obliquely arranged, and the horizontal height of one end of the tensioning box (13) close to the machine body (1) is higher than that of the other end, wherein the interior of the tensioning box (13) is a cavity; The middle plate (131) is arranged in the cavity of the tensioning box (13), leveling shafts (132) are uniformly connected to the two sides of the middle plate (131) in a rotating mode, one ends of the leveling shafts (132), which are far away from the middle plate (131), are connected to the inner wall of the tensioning box (13) in a rotating mode, the leveling shafts (132) are driven by a driving motor arranged on the outer side of the tensioning box (13), the leveling shafts (132) are obliquely arranged, one ends of the leveling shafts (132) located on the middle plate (131) are close to the machine body (1), one ends of the leveling shafts (132), which are close to the side wall of the tensioning box (13), are far away from the machine body (1), and the rotating directions of the two leveling shafts (132) are opposite and rotate towards the outer side of the tensioning box (13); The support plate (14) is two in number, the tensioning boxes (13) are close to the inner wall of one end of the machine body (1), the support plates (14) are obliquely arranged, the inclination angle of the support plates (14) is the same as that of the upper end of each tensioning box (13), mounting plates (141) are arranged on two sides of each support plate (14) so that the support plates (14) are located between the two mounting plates (141), driving shafts (142) are arranged on the two mounting plates (141) on the same support plate (14), lower conveying belts (15) are sleeved on the two driving shafts (142) on the same support plate (14), a gear I (151) is arranged at the end part of each driving shaft (142) close to each other of the two support plates (14), bevel gears (143) are arranged at the end part of each leveling shaft (132) close to the support plate (14), the bevel gears (143) are located at one end of each driving shaft (142) close to the neutral plate (131), and the bevel gears (143) are meshed with the gear I (151).
  2. 2. The intelligent width-adjustable weaving device according to claim 1, wherein a U-shaped plate (144) is arranged on the supporting plates (14), two ends of the U-shaped plate (144) are respectively fixed above mounting plates (141) which are far away from each other on the two supporting plates (14), a gap is reserved between the middle parts of two sections of the U-shaped plate (144) and the supporting plates (14), two upper conveying belts (16) are rotatably connected to the U-shaped plate (144), each upper conveying belt (16) is positioned above the corresponding lower conveying belt (15), a gap is reserved between each upper conveying belt (16) and each lower conveying belt (15), one ends of the upper conveying belt (16) and one end of each lower conveying belt (15) which are far away from the leveling shafts (132) are meshed through gears, and the gear meshing position of each upper conveying belt (16) and each lower conveying belt (15) is positioned at one end which is close to the outer side of the tensioning box (13), so that the middle part of each U-shaped plate (144) is not blocked.
  3. 3. An intelligent width-adjusting weaving device as claimed in claim 2, characterized in that a heating plate (145) is provided on the end of the support plate (14) remote from the leveling shaft (132), and the width of the upper conveyor belt (16) is greater than that of the lower conveyor belt (15), such that the heating plate (145) is located below the upper conveyor belt (16) without the heating plate (145) contacting the lower heating plate (145).
  4. 4. A weaving device with intelligent width adjustment according to claim 3, characterized in that the belt thickness of the upper conveyor belt (16) on the side right above the heating plate (145) is larger than that of the upper conveyor belt (16) on the side above the lower conveyor belt (15), so that the upper conveyor belt (16) is distributed stepwise from the side close to the leveling shaft (132) to the side far from the leveling shaft (132).
  5. 5. The intelligent width-adjustable weaving device as claimed in claim 4, wherein the outer sides of the upper conveying belt (16) and the lower conveying belt (15) are respectively provided with a strip-shaped groove (161), and one side of the upper conveying belt (16) with a thicker thickness is not provided with the strip-shaped groove (161).
  6. 6. The intelligent width-adjustable weaving device according to claim 5, wherein cam posts (152) are arranged on driving shafts (142) of two lower conveying belts (15) which are far away from each other, the two cam posts (152) are arranged in the same direction, a sliding groove (146) is formed in one end of each supporting plate (14) which is far away from the machine body (1), an L-shaped plate (147) is connected inside the sliding groove (146) in a sliding mode, a rectangular frame (148) is arranged at the upper end of the L-shaped plate (147), a driving rod (149) is arranged at one end of the two L-shaped plates (147) which is far away from each other, and the driving rod (149) is in contact with the cam posts (152).
  7. 7. The intelligent width-adjustable weaving device as set forth in claim 5, wherein the upper inner wall and the lower inner wall of the rectangular frame (148) are respectively provided with a saw tooth bar, a gap is reserved between the saw tooth bar of the upper inner wall and the saw tooth bar of the lower inner wall, and the saw tooth bar is connected with the upper inner wall and the lower inner wall of the rectangular frame (148) in a sliding manner through springs.
  8. 8. A weaving process with intelligent width adjustment, which is suitable for weaving equipment with intelligent width adjustment according to any one of the claims 1-7, is characterized in that the process comprises the following steps; Firstly, a worker firstly checks a weaving device and a finished weaving winding system, and confirms that a machine body (1), a winding shaft (11), a guide roller (121), a tensioning box (13), a leveling shaft (132), an upper conveying belt (16), a lower conveying belt (15), a heating plate (145), a cam column (152), an L-shaped plate (147), a rectangular frame (148) and saw-tooth strip components are firmly installed without damage; s2, allowing workers to pass through the blank to be rolled after weaving by a weaving device from the upper end of a leveling shaft (132) in a tensioning box (13), allowing the blank to pass through a rectangular frame (148) so that the blank is positioned between upper and lower saw-tooth strips of the rectangular frame (148) to ensure that the saw-tooth strips are tightly attached to the surface of the blank under the action of springs; S3, after the step S2, a worker starts a winding system, a motor at the end part of a guide roller (121) drives the guide roller (121) to operate, and the guide roller is matched with a winding shaft (11) to realize uniform winding of the grey cloth, meanwhile, a driving motor at the outer side of a tensioning box (13) is started, a leveling shaft (132) is driven to rotate towards the outer side of the tensioning box (13), the grey cloth is initially flattened, when the leveling shaft (132) rotates, the lower conveying belt (15) is driven to synchronously rotate through meshing of a bevel gear (143) and a gear I (151), and the lower conveying belt (15) is driven to rotate through meshing of the gears; S4, when the grey cloth is wound to a preset length, the equipment is controlled by a worker to stop, the grey cloth is cut off, the wound and formed cloth roll is taken off from the winding shaft (11) to be marked and stored, impurities in the strip grooves (161) of the upper conveying belt (15) and the lower conveying belt (15) and flocks in the rectangular frames (148) are cleaned, all driving motors and heating plates (145) are closed, the states of all parts are checked, the leveling shaft (132), the upper conveying belt (16), the lower conveying belt (15) and the rectangular frames (148) are reset to the initial positions, the weaving winding process is completed, and winding operation of the next batch of grey cloth is prepared.

Description

Weaving equipment with intelligent width adjustment and processing technology thereof Technical Field The invention relates to the technical field of weaving processing, in particular to a weaving device with intelligent width adjustment and a processing technology thereof. Background The main stream type comprises an air jet loom, a water jet loom, a rapier loom, a circular weft loom and the like, and the core is provided with weaving core mechanisms such as an opening, weft insertion, looping, beating-up, warp feeding, preliminary winding and the like, and is key equipment for realizing the forming from yarn to grey cloth; The weaving equipment is matched with the cloth winding equipment in the cloth production, and the core reason is that the weaving process of the weaving equipment is continuous and uninterrupted assembly line operation, the winding equipment is a necessary matched unit for guaranteeing continuous, stable and efficient weaving, if no winding equipment is arranged, the continuous grey cloth after weaving can be piled, wound and wrinkled beside a loom, the weaving is directly interrupted, yarns and loom parts are damaged, and meanwhile, the forming quality of the grey cloth cannot be guaranteed; The winding device is not a simple containing tool, but is precisely linked and cooperatively matched with the weaving action of the weaving device, the normal production of the weaving is guaranteed from four core dimensions of production continuity, grey cloth quality, equipment safety and procedure connection, the specific reasons are as follows, the tension stability requirement of the grey cloth is extremely high in the weaving process of the weaving device, the weft yarns are tightly pressed into warp gaps by a beating-up mechanism of a beating-up loom to form the grey cloth with fixed density, the grey cloth with the fixed density cannot be automatically wound up if the tension is unstable, uneven grey cloth density, width deviation, edge wrinkling and fabric face deflection (such as weft-skew of woven cloth and hemming of knitted fabric) are directly caused to become defective products, but the conventional weaving winding device usually winds the cloth in a tightening mode between winding rollers when the woven cloth, so that the wrinkling of the cloth is avoided when the cloth is wound up, and the problem that the cloth is folded when the cloth is wound up is caused by the fact that the wrinkling of the cloth cannot be automatically flattened when the wrinkling of the cloth is achieved. In summary, in order to solve the technical problems presented herein, the invention provides a weaving device with intelligent width adjustment and a processing technology thereof. Disclosure of Invention In order to solve the problems that the prior fabric winding device usually adopts a mode of tightening between winding rollers to wind the fabric, so that after the winding rollers tighten the fabric, the fabric is prevented from wrinkling during winding, the effect can realize the tensioning of the fabric and reduce the probability of wrinkling of the fabric, but if the fabric is wrinkled, the fabric cannot be automatically wrinkled and smoothed, so that the fabric is folded during winding on the winding rollers, the invention provides the fabric winding device with intelligent width adjustment, which comprises a finished fabric winding system, the winding system comprises a machine body, one end of the machine body is provided with the winding rollers, the upper end of the machine body is provided with a feed inlet, two guide rollers are arranged in the feed inlet, the guide rollers are driven by a motor arranged at the end part, and the machine body further comprises: The tensioning box is arranged at one end of the machine body far away from the winding shaft, is obliquely arranged, and is higher than the other end in level at one end, close to the machine body, of the tensioning box; the middle plate is arranged in the cavity of the tensioning box, two sides of the middle plate are uniformly and rotatably connected with leveling shafts, one ends of the leveling shafts, which are far away from the middle plate, are rotatably connected to the inner wall of the tensioning box, the leveling shafts are driven by a driving motor arranged on the outer side of the tensioning box, the leveling shafts are obliquely arranged, one ends of the leveling shafts, which are positioned on the middle plate, are close to the machine body, one ends of the leveling shafts, which are close to the side wall of the tensioning box, are far away from the machine body, and the rotation directions of the two leveling shafts are opposite and rotate towards the outer side of the tensioning box; The two support plates are arranged in a tilting mode, the tilting angles of the support plates are identical to the tilting angles of the upper ends of the tensioning boxes, the mounting plates are arranged on two sides of each support