CN114808246B - Creel direct-supply warp shaftless toothed open disc weaving device with servo motor - Google Patents

Abstract

The application discloses creel direct supply warp shaftless profile of tooth shedding disc weaving device and special hank tissue net cloth, creel direct supply warp shaftless profile of tooth shedding disc weaving device includes first warp bobbin, second warp bobbin, shaftless profile of tooth shedding disc, rigid rapier weft insertion ware and reed, first warp bobbin is used for releasing main warp, shaftless profile of tooth shedding disc rotates the installation, first warp bobbin and second warp bobbin rotate the same side that sets up at shaftless profile of tooth shedding disc, rigid rapier weft insertion ware and reed set up in one side of shaftless profile of tooth shedding disc, second warp bobbin is used for releasing vice warp, first opening and second opening have been seted up on the shaftless profile of tooth shedding disc, and first opening and second opening are the passageway of passing of main warp and vice warp respectively, rigid rapier weft insertion ware is used for guiding the woof. The application also discloses a special hank weave scrim.

Description

Creel direct-supply warp shaftless toothed open disc weaving device with servo motor

The application is a divisional application of a creel direct-supply warp shaftless toothed open disc weaving device and a hank organization grid cloth, wherein the application date is 10 months of 2020 and 26 days, the application number is 2020111555305.

Technical Field

The invention relates to the field of textile weaving equipment, in particular to a creel direct-supply shaftless toothed open disc weaving device and hank weave gridding cloth.

Background

As one of industrial textiles, mesh fabrics (grids) have a wide range of uses in the composite and geotextile fields. The traditional mesh fabric is mainly formed by interweaving plain weave or leno weave (leno heddle openings) warp and weft, and after weaving, a stable grid-shaped net structure can be realized only by coating, gluing, heat setting and bonding. However, on one hand, the general grid cloth is directly woven by polyester industrial yarns, glass fiber filaments or carbon fiber filaments, and because the adjacent warp and weft yarns are only interwoven or twisted once, for the fabric with ultra-low density, the adjacent warp and weft yarns are far apart, the structure is unstable before shaping and bonding, slippage or bending deformation is very easy to occur after tension looseness, the longitudinal and transverse strength and stress uniformity are seriously influenced, and the technical requirements of high-precision composite materials or geotextiles cannot be met; on the other hand, the opening method of the leno heddle structure adopts half heddle dead weight to guide the leno heddle to sink by left and right twisting so as to form a shed, and for the high modulus (high strength and low elongation) ultra-thick denier industrial yarn, very large on-machine tension is required during manufacturing, the half heddle weight of the conventional leno heddle is limited, and the high-speed weaving process can not be realized by normal opening at all.

Disclosure of Invention

The invention provides a creel direct-supply warp shaftless toothed open disc weaving device and hank weave gridding cloth aiming at the problems.

The technical scheme adopted by the invention is as follows:

the utility model provides a creel direct feed shaftless profile of tooth shedding disc weaving device, includes first warp bobbin, second warp bobbin, shaftless profile of tooth shedding disc, rigid rapier weft insertion ware and reed, first warp bobbin is used for releasing main warp, shaftless profile of tooth shedding disc rotates the installation, first warp bobbin and second warp bobbin rotate the same side that sets up at shaftless profile of tooth shedding disc, rigid rapier weft insertion ware and reed set up in one side of shaftless profile of tooth shedding disc, second warp bobbin is used for releasing vice warp, first aperture and second aperture have been seted up on the shaftless profile of tooth shedding disc, and first aperture and second aperture are the passway of crossing of main warp and vice warp respectively, rigid rapier weft insertion ware is used for guiding the woof, shaftless shedding disc is in the same place main warp and vice warp through rotation of oneself, the reed is used for pushing the woof to the twist to the weaving department that main warp and vice warp formed, shaftless profile of tooth shedding disc weaving device is provided with the reed of foot driving motion.

The device adopts a circumferential tooth transmission shaftless shedding disc shedding mode when weaving the fabric, and can realize the special hank yarn structure interweaving of 1 multiplied by 1, 2 multiplied by 2, 3 multiplied by 3 and the like (continuous positive hank times multiplied by continuous negative hank times) of each group of two warp yarns (namely the main warp yarn and the auxiliary warp yarn) when weaving one weft yarn, thereby forming a stable hank yarn structure grid cloth structure with the characteristic of uniform stress load. When the device is used for weaving, a beam is not needed, and a warping processing link before weaving is omitted; the toothed disc shedding device is adopted to realize the whole active lifting motion of the shedding period of the warp yarns, so that complex structures such as a leno heddle, a half heddle, a ground heddle and a heddle frame are omitted, the mechanism is simple, the production efficiency is high, and the adaptability to ultra-coarse denier high-modulus industrial yarns is strong.

In summary, the device has high production efficiency, simpler production process and simple production equipment when in weaving.

The mesh fabric woven by the device has the following purposes that 1, the reinforced and toughened composite material prepreg base fabric; 2. stone subsidence and diffusion prevention reinforced roadbed geotextile (grid cloth); 3. building wall crack repair material (wall "band-aid"); 4. the mountain steep slope falling rocks intercept the protective net; 5. artificial island embankments, river flood control 'stone stacks' bags (mesh bags) and the like.

Optionally, the yarn guiding device further comprises a yarn guiding frame, a first yarn guiding tensioner, a second yarn guiding tensioner, a first positioning yarn guiding roller, a positioning reed and a positioning frame, wherein the yarn guiding frame is arranged between the shaftless toothed open disc and the first warp bobbin, the first yarn guiding tensioner and the second yarn guiding tensioner are all rotatably arranged on the yarn guiding frame, the positioning reed is arranged between the shaftless toothed open disc weaving device and the yarn guiding frame through the positioning frame, and the first positioning yarn guiding roller is rotatably arranged between the positioning reed and the yarn guiding frame.

Optionally, the device further comprises a warp pull roll, a first silk pressing roll, a second silk pressing roll, a tension balance roll, a silk guiding roll, a split rod and a second positioning silk guiding roll, wherein the warp pull roll is rotationally arranged between the positioning reed and the shaftless toothed open disc weaving device, the first silk pressing roll and the second silk pressing roll are rotationally arranged on one side of the warp pull roll, the silk guiding roll is rotationally arranged on one side of the warp pull roll, the tension balance roll is rotationally arranged between the silk guiding roll and the warp pull roll, the second positioning silk guiding roll is arranged between the silk guiding roll and the shaftless toothed open disc weaving device, and the split rod is arranged between the second positioning silk guiding roll and the silk guiding roll.

Optionally, the device further comprises a servo motor, a first transmission gear shaft, a second transmission gear shaft, a first positioning roller, a second positioning roller, a third positioning roller and a fourth positioning roller, wherein the first positioning disk, the second positioning disk and the interval positioning rotor are all rotationally arranged on one side of the shaftless toothed opening disc, and the first positioning roller, the second positioning roller, the third positioning roller and the fourth positioning roller are used for limiting the rotation of the shaftless toothed opening disc; the first positioning disc and the second positioning disc are respectively arranged at two sides of the shaftless gear disc, the interval positioning rotor is arranged between the first positioning disc and the shaftless gear disc, the first positioning disc and the second positioning disc are kept parallel, and the first positioning roller, the second positioning roller, the third positioning roller and the fourth positioning roller are perpendicular to the first positioning disc and the second positioning disc; the first transmission gear shaft and the second transmission gear shaft are arranged on one side of the shaftless toothed open disc, and the servo motor drives the shaftless toothed open disc to rotate through the first transmission gear shaft and the second transmission gear shaft.

Optionally, the cloth rolling device further comprises a first cloth pressing roller, a second cloth pressing roller, a winding roller and a cloth rolling roller, wherein the winding roller is rotatably arranged on one side of the shaftless tooth-shaped opening disc weaving device, the cloth rolling roller is rotatably arranged on one side of the shaftless tooth-shaped opening disc weaving device, the first cloth pressing roller and the second cloth pressing roller are rotatably arranged on the periphery of the winding roller, and the first cloth pressing roller and the second cloth pressing roller are tightly attached to the winding roller.

Optionally, the device further comprises a wallboard, wherein the wallboard is fixed on the ground, and the shaftless toothed open disc weaving device is arranged on the wallboard.

A special hank yarn weave grid cloth comprises main warp yarns, auxiliary warp yarns and weft yarns, wherein the main warp yarns and the auxiliary warp yarns are twisted together, and the weft yarns pass through the twisting positions between the main warp yarns and the auxiliary warp yarns.

The specific main warp yarn and the auxiliary warp yarn can be the same kind of silk yarn or different kinds of silk yarn, and the main warp yarn can be a special extrusion molding composite core-spun yarn-a core layer: polyester industrial yarn, glass fiber filament or carbon fiber filament; cortex: polyethylene (PE), polyvinyl chloride (PVC), polyurethane (PU), low melting point Polyester (PET), and the like.

The beneficial effects of the invention are as follows: the method is suitable for weaving the ultra-coarse denier high-strength high-modulus industrial yarn, has high production efficiency during weaving, simpler production process, simple production equipment, small vibration in the opening process and stable operation.

Description of the drawings:

FIG. 1 is a schematic and simplified schematic structural diagram of a creel direct-supply shaftless toothed open disc weaving device,

figure 2 is a schematic cross-sectional view in the direction A-A of figure 1,

figure 3 is a schematic block diagram of a skein weave mesh embodiment 1,

figure 4 is a schematic and simplified schematic illustration of a skein weave mesh embodiment 2,

FIG. 5 is a schematic block diagram of a skein weave mesh example 3.

The reference numerals in the drawings are as follows: 1. a bobbin creel, 2, a beam, 3, a first warp bobbin, 4, a second warp bobbin, 5, a yarn guide frame, 6, a first yarn guide tensioner, 7, a first positioning yarn guide roller, 8, a positioning frame, 9, a positioning reed, 10, a warp traction roller, 11, a first yarn pressing roller, 12, a second yarn pressing roller, 13, a tension balance roller, 14, a yarn guide roller, 15, a split rod, 16, a second positioning yarn guide roller, 17, a shaftless toothed split disc, 18, a first split hole (corresponding to the heald eye of an odd numbered heald), 19, a second split hole (corresponding to the heald eye of an even numbered heald), 20, a first transmission gear shaft, 21, a second transmission gear shaft, 22, a first positioning roller, 23, a second positioning roller, 24, a third positioning roller, 25, a fourth positioning roller, 26, a space positioning rotor, 27, a reed, 28, an upper layer warp, 29, a lower layer warp, 30, a rigid bar weft insertion device, 31, a weaving port, 32, a grid fabric, 33, a breast beam, 34, a first cloth pressing roller, 35, a winding roller, 36, a first cloth pressing roller, 37, a cloth rolling roller, 38, a servo motor, 39, a first positioning disk, 40, a second positioning disk, 41, a reed seat foot, 42, a second guide wire tension device, 43 and a wallboard.

The specific embodiment is as follows:

the present invention will be described in detail below.

It is necessary to explain the 5 figures of fig. 1 to 5, in which a represents the main warp yarn, b represents the secondary warp yarn and c represents the weft yarn.

As shown in fig. 1 and 2, a creel direct warp supply (corresponding to heald eyes of a singular heald) comprises a first warp bobbin 3, a second warp bobbin 4, a shaftless toothed shedding disc 17, a rigid rapier weft insertion device 30 and a reed 27, wherein the first warp bobbin 3 is used for releasing main warp yarns, the shaftless toothed shedding disc 17 is rotatably installed, the first warp bobbin 3 and the second warp bobbin 4 are rotatably arranged on the same side of the shaftless toothed shedding disc 17, the rigid rapier weft insertion device 30 and the reed 27 are arranged on one side of the shaftless toothed shedding disc 17, the second warp bobbin 4 is used for releasing auxiliary warp yarns, the shaftless toothed shedding disc 17 is provided with a first shedding hole 18 and a second shedding hole 19, the first shedding hole 18 and the second shedding hole 19 are respectively the running channels of the main warp yarns and the auxiliary warp yarns, the rigid rapier weft insertion device is used for guiding weft yarns, the shaftless shedding disc 17 is used for twisting the main warp yarns and the auxiliary warp yarns together to form sheds and weaving sheds through rotation of the shackles, the reed 27 is used for pushing the weft yarns to the position of the main warp yarns and the auxiliary warp yarns to form the sheds by self, and the shackles are arranged outside the shackles and the shedding disc 17.

The device adopts the opening mode of a circular tooth transmission shaftless opening disc in the weaving process, and can realize the interweaving of special hank yarn structures of 1 multiplied by 1, 2 multiplied by 2, 3 multiplied by 3 and the like (continuous positive hank times multiplied by continuous negative hank times) of each group of two warp yarns (namely main warp yarns and auxiliary warp yarns) when each weft yarn is woven, so that a stable hank yarn structure grid cloth structure with the characteristic of uniform stress load is formed. When the device is used for weaving, a beam is not needed, and a warping processing link before weaving is omitted; the shaftless toothed opening disc opening device is adopted to realize the whole-course active lifting movement of the opening period of the warp yarns, so that complex structures such as a leno heddle, a half heddle, a ground heddle and a heddle frame are omitted, the mechanism is simple, the production efficiency is high, the vibration is small, and the adaptability to ultra-coarse denier high-modulus industrial yarns is strong.

In a word, the device has high production efficiency when in weaving, the production process is simpler, and the production equipment is simple.

The mesh fabric woven by the device has the following purposes that 1, the reinforced and toughened composite material prepreg base fabric; 2. stone subsidence and diffusion prevention reinforced roadbed geotextile (grid cloth); 3. building wall crack repair material (wall "band-aid"); 4. the mountain steep slope falling rocks intercept the protective net; 5. artificial island embankments, river flood control 'stone stacks' bags (mesh bags) and the like.

As shown in fig. 1 and 2, the yarn package further comprises a creel 1, and the first warp yarn package 3 and the second warp yarn package 4 are rotatably mounted on a beam of the creel 1.

As shown in fig. 1 and 2, the yarn guiding device further comprises a yarn guiding frame 5, a first yarn guiding tensioner 6, a second yarn guiding tensioner 42, a first positioning yarn guiding roller 7, a positioning reed 9 and a positioning frame 8, wherein the yarn guiding frame 5 is arranged between the shaftless toothed opening disc 17 and the first warp yarn bobbin 3, the first yarn guiding tensioner 6 and the second yarn guiding tensioner 42 are both rotatably arranged on the yarn guiding frame 5, the positioning reed 9 is arranged between the shaftless gear rotating shaft and the yarn guiding frame 5 through the positioning frame 8, and the first positioning yarn guiding roller 7 is rotatably arranged between the positioning reed 9 and the yarn guiding frame 5.

As shown in fig. 1 and fig. 2, the device further comprises a warp pulling roll 10, a first godet 11, a second godet 12, a tension balance roll 13, a godet 14, a skein 15 and a second positioning godet 16, wherein the warp pulling roll 10 is rotatably arranged between the positioning reed 9 and the shaftless tooth-shaped opening disc 17, the first godet 11 and the second godet 12 are rotatably arranged on one side of the warp pulling roll 10, the godet 14 is rotatably arranged on one side of the warp pulling roll 10, the tension balance roll 13 is rotatably arranged between the godet 14 and the warp pulling roll 10, the second positioning godet 16 is arranged between the godet 14 and the shaftless tooth-shaped opening disc 17, and the skein 15 is arranged between the second positioning godet 16 and the godet 14.

As shown in fig. 1 and fig. 2, the device further comprises a first positioning roller 22, a second positioning roller 23, a third positioning roller 24, a fourth positioning roller 25, a first positioning disk 39, a second positioning disk 40 and a spacing positioning rotor 26, wherein the first positioning roller 22, the second positioning roller 23, the third positioning roller 24 and the fourth positioning roller 25 are all rotatably arranged on one side of the shaftless toothed open disc 17, and the first positioning roller 22, the second positioning roller 23, the third positioning roller 24 and the fourth positioning roller 25 are used for limiting the rotation of the shaftless toothed open disc 17; the first positioning disk 39 and the second positioning disk 40 are respectively arranged at two sides of the shaftless gear disk, the interval positioning rotor 26 is arranged between the first positioning disk 39 and the second positioning disk 40 and the shaftless tooth-shaped opening disk 17, the first positioning disk 39 and the second positioning disk 40 are kept parallel, and the first positioning roller 22, the second positioning roller 23, the third positioning roller 24 and the fourth positioning roller 25 are perpendicular to the first positioning disk 39 and the second positioning disk 40; the first transmission gear shaft 20 and the second transmission gear shaft 21 are arranged on one side of the shaftless toothed open disc, and the servo motor 38 drives the shaftless toothed open disc 17 to rotate through the first transmission gear shaft 20 and the second transmission gear shaft 21.

As shown in fig. 1 and fig. 2, the cloth rolling machine further comprises a first cloth pressing roller 34, a second cloth pressing roller 36, a winding roller 35 and a cloth rolling roller 37, wherein the winding roller 35 is rotatably arranged on one side of the shaftless tooth-shaped opening disc 17, the cloth rolling roller 37 is rotatably arranged on one side of the shaftless tooth-shaped opening disc 17, the first cloth pressing roller 34 and the second cloth pressing roller 36 are rotatably arranged on the periphery of the winding roller 35, and the first cloth pressing roller 34 and the second cloth pressing roller 36 are tightly attached to the winding roller 35.

As shown in fig. 1 and 2, the wall plate 43 is further included, the wall plate 43 is fixed on the ground, and the shaftless toothed open disc 17 is mounted on the wall plate 43.

With reference to fig. 1 and 2, the operation of the device will be described in further detail, wherein the main warp a (a 1, a2, a3, …) and the auxiliary warp b (b 1, b2, b3, …) are respectively unwound from the first warp bobbin 3 and the second warp bobbin 4 mounted on the cross beam 2 of the bobbin frame 1, respectively, and pass through the positioning reed 9 mounted on the positioning frame 8 by the first positioning godet 7 through the first opening hole 18 and the second opening hole 19 mounted on the wire guide frame 5, and pass through the tension balance roller 13, the wire guide roller 14, the split bar 15 and the second positioning godet 16 by the traction of the warp pull roller 10 and the first and second godet 11, respectively, and sequentially pass through the shaftless toothed disc 17 from the left side of the shaftless toothed disc 17 to the right side of the shaftless disc 17 through the wire set of one and then pass through the shaftless disc 17. The shaftless toothed open disc 17 is driven by the servo motor 38, the first transmission gear shaft 21 and the second transmission gear shaft 22 to rotate anticlockwise or clockwise according to the process requirement, so that the main warp yarn a and the auxiliary warp yarn b which pass through the first open hole 18 and the second open hole 19 on the shaftless toothed open disc 17 are driven to twist longitudinally and float upwards and downwards, and accordingly the main warp yarn a and the auxiliary warp yarn b respectively form an upper warp yarn 28 and a lower warp yarn 29 of a shed, and are alternately changed. When the shaftless toothed shedding disc 17 completes one revolution of primary warp yarn a and secondary warp yarn b shedding, the rigid rapier weft insertion device 30 pulls one weft yarn c into the shed (between the upper warp yarn 28 and the lower warp yarn 29). The weft yarn c entering the shed slides towards the fell 31 under the pushing of the reed 27, and interweaving with the hank weave of the main warp yarn a and the auxiliary warp yarn b is realized at the fell 31, so that the grid fabric 32 is formed. The mesh fabric 32 is led downwards by a winding roller 35, a first cloth roller 34 and a second cloth roller 36, crosses over the breast beam 33, is further output to a cloth roller 37, is wound on the cloth roller 37, and completes the weaving process.

Hank weave mesh fabric embodiment 1 as shown in fig. 3, a special hank weave mesh fabric includes a main warp yarn a, a sub warp yarn b, and a weft yarn c, the main warp yarn a and the sub warp yarn b are twisted together, and a weft yarn g passes through the twisted position between the main warp yarn a and the sub warp yarn b. A plurality of twisting holes are formed between the main warp yarn a and the auxiliary warp yarn b, and weft yarns c are arranged in each twisting hole.

Hank weave mesh fabric example 2 as shown in fig. 4, a hank weave mesh fabric includes a main warp yarn a, a sub warp yarn b, and a weft yarn c, the main warp yarn a and the sub warp yarn b being twisted together, and a weft yarn g passing through the twisted position between the main warp yarn a and the sub warp yarn b. A plurality of stranding holes are formed between the main warp yarn a and the auxiliary warp yarn b, and 1 stranding hole is formed between two adjacent weft yarns c.

Hank weave mesh fabric example 3 as shown in fig. 5, a hank weave mesh fabric includes a main warp yarn a, a sub warp yarn b, and a weft yarn c, the main warp yarn a and the sub warp yarn b being twisted together, and a weft yarn g passing through the twisted position between the main warp yarn a and the sub warp yarn b. A plurality of twisting holes are formed between the main warp yarn a and the auxiliary warp yarn b, and 2 twisting holes are formed between two adjacent weft yarns c.

The foregoing description is only of the preferred embodiments of the present invention, and is not intended to limit the scope of the invention, but is intended to cover all equivalent modifications, direct or indirect, as would be included in the scope of the invention.

Claims (2)

1. The creel direct-supply shaftless toothed open disc weaving device with the servo motor is used for preparing hank weave gridding cloth and is characterized by comprising a first warp bobbin, a second warp bobbin, a shaftless toothed open disc, a rigid rapier weft insertion device and a reed, wherein the first warp bobbin is used for releasing main warps, the shaftless toothed open disc is rotationally arranged, the first warp bobbin and the second warp bobbin are rotationally arranged on the same side of the shaftless toothed open disc, the rigid rapier weft insertion device and the reed are arranged on one side of the shaftless toothed open disc, the second warp bobbin is used for releasing auxiliary warps, the shaftless toothed open disc is provided with a first open hole and a second open hole, the first open hole and the second open hole are respectively a threading channel of the main warps and the auxiliary warps, the rigid rapier weft insertion device is used for guiding the wefts, the shaftless toothed open disc is rotationally twisted with the main warps and the auxiliary warps together through the rotation of the shaftless toothed open disc, the reed is used for pushing the wefts to the position formed by the main warps and the auxiliary warps, and the shaftless open reed is arranged outside the reed toothed open disc;

the yarn guiding device comprises a yarn guiding frame, a first yarn guiding tension device, a second yarn guiding tension device, a first positioning yarn guiding roller, a positioning reed and a positioning frame, wherein the yarn guiding frame is arranged between a shaftless toothed open disc and a first warp bobbin, the first yarn guiding tension device and the second yarn guiding tension device are both rotatably arranged on the yarn guiding frame, the positioning reed is arranged between a shaftless toothed open disc weaving device and the yarn guiding frame through the positioning frame, and the first positioning yarn guiding roller is rotatably arranged between the positioning reed and the yarn guiding frame;

the first warp yarn bobbin and the second warp yarn bobbin are rotatably arranged on a beam of the bobbin creel;

the device also comprises a warp traction roller, a first silk pressing roller, a second silk pressing roller, a tension balance roller, a silk guiding roller, a leasing rod and a second positioning silk guiding roller, wherein the warp traction roller is rotationally arranged between the positioning reed and the shaftless toothed opening disc, the first silk pressing roller and the second silk pressing roller are rotationally arranged at one side of the warp traction roller, the yarn guiding roller is rotatably arranged on one side of the warp traction roller, the tension balance roller is rotatably arranged between the yarn guiding roller and the warp traction roller, the second positioning yarn guiding roller is arranged between the yarn guiding roller and the shaftless toothed opening disc, and the split rod is arranged between the second positioning yarn guiding roller and the yarn guiding roller;

the device comprises a first gear shaft, a second gear shaft, a first positioning roller, a second positioning roller, a third positioning roller and a fourth positioning roller, wherein the first positioning roller, the second positioning roller, the third positioning roller and the fourth positioning roller are respectively arranged on one side of a shaftless tooth-shaped opening disc in a rotating way, and the first positioning roller, the second positioning roller, the third positioning roller and the fourth positioning roller are used for limiting the rotation of the shaftless tooth-shaped opening disc; the first positioning disc and the second positioning disc are respectively arranged at two sides of the shaftless toothed opening disc, the interval positioning rotor is arranged between the first positioning disc and the shaftless toothed opening disc, the first positioning disc is parallel to the second positioning disc, and the first positioning roller, the second positioning roller, the third positioning roller and the fourth positioning roller are perpendicular to the first positioning disc and the second positioning disc; the servo motor drives the shaftless toothed open disc to rotate through the first transmission gear shaft and the second transmission gear shaft;

the cloth rolling machine further comprises a first cloth pressing roller, a second cloth pressing roller, a winding roller and a cloth rolling roller, wherein the winding roller is rotatably arranged on one side of the shaftless tooth-shaped opening disc, the cloth rolling roller is rotatably arranged on one side of the shaftless tooth-shaped opening disc, the first cloth pressing roller and the second cloth pressing roller are rotatably arranged on the periphery of the winding roller, and the first cloth pressing roller and the second cloth pressing roller are tightly attached to the winding roller.

2. The creel direct supply shaftless toothed open disc weaving device of claim 1, further comprising a wall panel, said wall panel being secured to the ground, said shaftless toothed open disc weaving device being mounted to the wall panel.

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