CN115161863A

CN115161863A - Zero-dyeing baby cotton functional fabric and processing technology thereof

Info

Publication number: CN115161863A
Application number: CN202210919377.1A
Authority: CN
Inventors: 周宏江; 刘甜; 周小东
Original assignee: Hongdou Group Wuxi Hongdou Children's Wear Co ltd
Current assignee: Hongdou Group Wuxi Hongdou Children's Wear Co ltd
Priority date: 2022-08-02
Filing date: 2022-08-02
Publication date: 2022-10-11

Abstract

The invention discloses a zero-dyeing baby cotton functional fabric which is formed by blending organic colored cotton and raw cotton; the mass ratio of the organic colored cotton fiber to the original cotton fiber in the blended yarn is 2:8-8:2. The invention also discloses a processing technology of the zero-dyeing baby cotton functional fabric, which comprises the following processing steps in sequence: preparing raw materials, spinning fiber raw materials into yarns, weaving the yarns into fabrics, carrying out sanding treatment on the fabrics, carrying out iron polishing treatment after the sanding treatment, and then carrying out fluffy treatment. The functional fabric of baby cotton prepared by the invention is thick, soft and soft, and does not need dyeing; the invention can avoid the crumple print on the surface of the fabric before and after sanding and reduce the hole abrasion during sanding of the fabric.

Description

Zero-dyeing baby cotton functional fabric and processing technology thereof

Technical Field

The invention relates to a zero-dyeing baby cotton functional fabric and a processing technology thereof.

Background

The contact touch feeling of the sanded fabric and the skin is soft and is similar to that of the napped fabric, but the sanded fabric and the skin do not have itching feeling, the rigidity of the fiber is weakened after the fiber is severely rubbed, the fiber can be used as close-fitting clothing, the fluff is often strong in rigidity and has stimulation effect on the skin, and the two fabrics have great difference in appearance and style. The principle of the sanding or napping treatment is as follows: the abrasive grains on the sand skin are closely contacted with the fabric, and the fiber is pulled out and cut off and then ground into velvet. The patent with the publication number of CN103966745B relates to a baby cotton functional fabric and a production method thereof, and comprises the steps of raw material selection, yarn formation, weaving on a machine, dyeing, fabric treatment after dyeing, open width drying and finishing, sanding treatment, softening treatment and tentering finishing and sizing, wherein 90% of fluff has the length of 0.3-0.6 mm, and the average density of the suede is 100 pieces/cm ² . The process treatment mode of dyeing first and grinding second is adopted, so that the problems of chromatic aberration and white core are easily caused. In addition, although the prior sanding equipment for sanding the fabric for sanding is developed rapidly, for example, a horizontal sanding finishing machine, a vertical sanding finishing machine, a planetary sanding machine and the like exist on the market at present, the prior sanding equipment is directly stacked before or after the fabric is sanded, and uneven warp and weft crumpling marks are generated on the surface of the fabric due to gravity when the fabric is stacked; none of the prior art, including the patent publication No. CN103966745B, has an effective method to solve this problem.

Disclosure of Invention

The invention aims to overcome the defects in the prior art and provide the baby cotton functional fabric with zero dyeing, and the prepared baby cotton functional fabric is thick, soft and does not need dyeing; the invention can avoid the wrinkle marks on the surface of the fabric before and after sanding and reduce the wearing holes during sanding of the fabric.

In order to achieve the purpose, the technical scheme of the invention is to design a zero-dyeing baby cotton functional fabric, wherein the zero-dyeing baby cotton functional fabric is formed by blending organic colored cotton and raw cotton; the mass ratio of the organic colored cotton fiber to the original cotton fiber in the blended yarn is 2:8-8:2. After the fibers are rubbed violently, the rigidity of the fabric is weakened, and the fabric can be used as close-fitting clothes without stimulation to skin; the bulky acrylic fibers which are soft and comfortable and have excellent heat insulation are adopted, and then sanding treatment is combined, so that the prepared cotton functional fabric for babies is thick, soft and comfortable in hand feeling. Directly adopts organic colored cotton (in the golden cotton field special for 39 degrees north latitude in Xinjiang in China, 3000k + illumination and 180 days of growth), adopts biological cultivation, adopts organic fertilizer, does not contain herbicide, adopts natural picking, naturally sends out cotton with color, is naturally blended with raw cotton, does not use chemical dye, and does not need dyeing.

The invention also provides a technical scheme that the process for processing the zero-dyeing baby cotton functional fabric comprises the following process steps which are sequentially carried out: preparing raw materials, spinning fiber raw materials into yarns, weaving the yarns into fabrics, carrying out sanding treatment on the fabrics, dyeing after the sanding treatment, then carrying out dyeing after-treatment, and finally carrying out open-width drying treatment. The process of grinding before dyeing is adopted, so that the problem of large color difference of medium and deep color fabrics before and after sanding can be avoided, and the effects of plump suede and no need of dyeing can be achieved. The fine velvet shearing process enables the fabric to achieve neat fluff of about 0.3-0.5 mm. The lustre treatment makes the fabric skin-friendly and does not lose hair.

The further technical scheme is that in the sanding treatment process, a horizontal sanding finishing machine is adopted to carry out sanding treatment on the fabric; and a stacking and storing process is also arranged between the weaving process and the napping treatment process and after the open width drying treatment process, and a stacking machine is adopted to stack and store the woven fabric in the stacking and storing process. At present, folding can occur due to long stacking time or semi-finished product folding, and folding is caused by other reasons, and the existing solution is that tentering repair is needed subsequently. The stacker of the present invention not only avoids creasing, but also solves this problem without tenter rework. In addition, the problem of grinding holes during sanding can be avoided, and because the grinding holes are sometimes caused by folding the cloth or crumpling marks on the cloth surface during cloth feeding, the arrangement of the stacking machine can avoid the crumpling marks, so that the grinding holes can be reduced.

The further technical proposal is that a dark color identification label is covered on the horizontal sanding finishing machine; the dyeing equipment used for dyeing is also covered with a dark color identification sticker. A deep color identification sticker is pasted on the sanding machine for indicating sanding treatment of medium-deep colored woven fabric; and corresponding marks are also pasted on subsequent dyeing equipment to indicate that dyeing is carried out after sanding, and the problems of chromatic aberration and white core can be solved by sanding treatment and dyeing treatment. The color difference before and after sanding is larger for medium and dark fabrics, so the method is suitable for the prior sanding and subsequent dyeing process, and can achieve the best effects of plump suede and no need of dyeing.

The technical scheme is that the fabric comprises bulk acrylic fibers, combed cotton and polypropylene fibers, and the yarn is woven into the fabric by a double-sided circular knitting machine with the machine number of E16 in the weaving process.

The stacking machine comprises a machine body in a rectangular shell, wherein a plurality of rows of fabric carrier rollers are arranged in the machine body, and each row is provided with two fabric carrier rollers; a plurality of air exhaust and ventilation fans are arranged on the machine body; the last fabric carrier roller along the fabric feeding direction is a driving roller, a roller shaft of the driving roller is connected with an output shaft of a speed reducer through a coupler, and the speed reducer is connected with a driving motor. Each row of fabric carrier rollers is arranged from top to bottom or from left to right in sequence, namely the fabric carrier rollers are provided with a plurality of rows from top to bottom or from left to right, and each row of fabric carrier rollers are transversely arranged horizontally or longitudinally. The arrangement of the air exhaust and ventilation fan can avoid the problem that the air is not ventilated between the fabrics after the fabrics are sequentially wound between the fabric carrier rollers of each row, and the air exhaust and ventilation fan transversely blows air to strengthen the ventilation between the fabrics between the fabric carrier rollers of each row. The arrangement of the driving roller enables the stacking machine to realize active rolling, so that the series of problems of crumpling and the like caused by direct stacking in the prior art are avoided. The fabric can be stacked and stored in a shorter time by adopting a stacking machine instead of a driving roller (namely a winding roller) (because part of the fabric is lapped on a fabric carrier roller or an auxiliary roller, the fabric is not required to be completely wound on the driving roller, so that the time is shorter); in addition, a forward and reverse rotating motor can be used as a driving motor, so that after stacking and storing, the driving motor is driven to rotate reversely at intervals, and then the driving compression roller is matched to rotate reversely, so that a part of the fabric partially wound on the driving roller is unwound, and therefore the situation that the fabric in the stacking machine body always abuts against the fabric carrier roller after stacking and storing is avoided, and a part of the fabric area always abuts against the fabric carrier roller is reduced; in order to better realize the scheme, the roller shaft of the fabric carrier roller close to the fabric inlet can be connected with a speed reducer through a coupler, and the speed reducer is connected with another driving motor (the driving motor is also a forward and reverse rotating motor) to realize the purpose.

The further technical proposal is that the machine body is a frame structure, and the air exhaust and ventilation fan is fixedly arranged on the machine body of the frame structure; the lower half part of the machine body is provided with a fabric feeding hole, and the woven fabric is wound on the driving roller after sequentially winding the fabric on the fabric carrier roller. The frame structure's organism makes around establishing the air permeability of the surface fabric on the surface fabric bearing roller better, avoids having in comparatively inclosed organism. The fabric feeding port is arranged at the lower half part of the machine body, so that the operation of workers is facilitated.

The further technical scheme is that each row of the fabric carrier rollers are transversely or longitudinally arranged. Every row of fabric bearing rollers is preferably vertically arranged, so that workers do not need to ascend and climb when winding the fabric to the driving roller in the initial operation, the safety is better, and the defect is that more transverse space of a workshop is occupied.

The further technical scheme is that the opposite side of a fabric carrier roller close to a fabric feed inlet in a machine body is provided with driving press rollers which are arranged in pairs with the fabric carrier roller. The driving compression roller can stop the action of the driving roller after the driving roller acts for a period of time so as to enable the driving compression roller to act, so that the states of Xu Xiachui (or drooping) of the fabric between adjacent fabric carrier rollers can be realized, the storage material amount of the machine body can be increased, and the fabric stored and stacked in the stacking machine can be prevented from being in a tension state all the time; after the design, the crumple print caused by direct stacking in the prior art is avoided, and the damage to the fabric caused by the fact that the fabric is always in a tension state after the scheme is adopted is also avoided.

The further technical proposal is that the fabric feeding speed of the horizontal sanding finishing machine is 5-30 m/min, and the rotational speed of a sanding roller in the horizontal sanding finishing machine is 950r/min or 1200r/min or 1600r/min. The rotating speed of the sanding roller in the sanding machine is regulated in a stepped mode, and three levels are also three gears.

The invention has the advantages and beneficial effects that: after the fibers are rubbed violently, the rigidity of the fabric is weakened, and the fabric can be used as close-fitting clothes without stimulation to skin; the bulk acrylic fiber which is soft and comfortable and has excellent heat preservation is adopted, and the napping treatment is combined, so that the prepared cotton functional fabric for babies is thick, soft and comfortable in hand feeling. By using the process of grinding before dyeing, the problem of large color difference before and after sanding of medium and dark color fabrics can be avoided, and the effects of plump suede and no need of dyeing can be achieved. The invention can avoid the crumple print on the surface of the fabric before and after sanding and reduce the hole abrasion during sanding of the fabric.

By adopting the stacking machine disclosed by the invention, not only can the crumpling mark be avoided, but also the problem that folds are generated on the surface of the fabric can be solved without stentering and repairing. In addition, the problem of grinding holes during sanding can be avoided, and because the grinding holes are sometimes caused by folding the cloth or crumpling marks on the cloth surface during cloth feeding, the arrangement of the stacking machine can avoid the crumpling marks, so that the grinding holes can be reduced.

A deep color identification sticker is pasted on the sanding machine for indicating sanding treatment of medium-deep colored woven fabric; and corresponding marks are also pasted on subsequent dyeing equipment to indicate that dyeing is carried out after sanding, and the problems of chromatic aberration and white core can be solved by sanding treatment and dyeing treatment. The color difference before and after sanding is larger for medium and dark fabrics, so the method is suitable for the prior sanding and subsequent dyeing process, and can achieve the best effects of plump suede and no need of dyeing.

Each row of fabric carrier rollers is arranged from top to bottom or from left to right in sequence, namely the fabric carrier rollers are provided with a plurality of rows from top to bottom or from left to right, and each row of fabric carrier rollers are transversely arranged horizontally or longitudinally. The air exhaust ventilation fan can avoid the problem that air is not ventilated between the fabrics after the fabrics are sequentially wound between the fabric carrier rollers of each row, and the air exhaust ventilation fan can transversely blow air to strengthen ventilation between the fabrics between the fabric carrier rollers of each row. The arrangement of the driving roller enables the stacking machine to realize active rolling, so that the series of problems of crumpling and the like caused by direct stacking in the prior art are avoided.

The frame structure's organism makes around establishing the air permeability of the surface fabric on the surface fabric bearing roller better, avoids having in comparatively inclosed organism. The fabric feeding port is arranged at the lower half part of the machine body, so that the operation of workers is facilitated.

Every row of surface fabric bearing roller is preferred vertically to be set up, and the workman need not ascend a height and climb when making the surface fabric wind to establish the drive roll at initial operation like this, and the security is better, and the shortcoming occupies more horizontal space in workshop.

The arrangement of the driving compression roller avoids crumpling caused by direct stacking in the prior art, and avoids damage to the fabric caused by the fact that the fabric is always in a tension state after the scheme is adopted.

Drawings

FIG. 1 is a schematic view of a stacking machine involved in the zero-dyeing baby cotton functional fabric of the present invention;

FIG. 2 is a top view of FIG. 1;

figure 3 is a schematic view of the drive roll of figure 1.

In the figure: 1. a body; 2. a fabric carrier roller; 3. an air exhaust and ventilation fan; 4. a drive motor; 5. a fabric feeding hole; 6. a drive roll; 7. and (4) driving a press roll.

Detailed Description

The following description of the embodiments of the present invention will be made with reference to the accompanying drawings. The following examples are only for illustrating the technical solutions of the present invention more clearly, and the protection scope of the present invention is not limited thereby.

As shown in fig. 1 to 3 (for convenience of illustration, a driving motor and a speed reducer are not shown in fig. 1; in fig. 1, a fabric carrier roller is shown for convenience of illustration, although the fabric carrier roller is partially shielded by a frame structure, the fabric carrier roller is still shown in fig. 1), the invention relates to a zero-dyeing cotton functional fabric for babies, which is formed by blending organic colored cotton and raw cotton; the mass ratio of the organic colored cotton fiber to the original cotton fiber in the blended yarn is 2:8-8:2.

The process for processing the zero-dyeing baby cotton functional fabric comprises the following process steps in sequence: preparing raw materials, spinning fiber raw materials into yarns, weaving the yarns into fabrics, carrying out sanding treatment on the fabrics, dyeing after the sanding treatment, then carrying out dyeing after-treatment, and finally carrying out open-width drying treatment. In the sanding treatment process, a horizontal sanding finishing machine is adopted to carry out sanding treatment on the fabric; and a stacking and storing process is also arranged between the weaving process and the napping treatment process and after the open width drying treatment process, and a stacking machine is adopted to stack and store the woven fabric in the stacking and storing process. A dark color identification label is attached to the horizontal sanding finishing machine; the dyeing equipment used for dyeing is also covered with a dark color identification sticker. The horizontal sanding finishing machine is also provided with a character identification sticker in an attaching mode, and the fabric is dyed through fabric dyeing equipment in the dyeing process; a Wen Zibiao pasting layer is pasted and covered on the dyeing equipment; the characters in the Wen Zibiao pasting layers on the horizontal sanding finishing machine and the dyeing equipment are different, the characters in the character pasting layer on the horizontal sanding finishing machine are 'first', the characters in the character pasting layer on the dyeing equipment are 'second', and the characters are used for prompting workers to grind and dye the fabric firstly. The medium dark color fabric is firstly ground and then dyed by matching with the dark color identification label. The raw materials comprise bulk acrylic fibers, combed cotton and polypropylene fibers, and the yarn is woven into the fabric by a double-sided knitting circular weft knitting machine with the machine number of E16 in the weaving process.

The stacking machine comprises a machine body 1 in a rectangular shell, wherein a plurality of rows of fabric carrier rollers 2 are arranged in the machine body 1 from top to bottom in sequence, and each row is provided with two fabric carrier rollers 2; a plurality of air exhaust and ventilation fans 3 are arranged on the machine body 1; the last fabric carrier roller 2 along the fabric feeding direction is a driving roller 6, a roller shaft of the driving roller 6 is connected with an output shaft of a speed reducer through a coupler, and the speed reducer is connected with a driving motor 4. The machine body 1 is of a frame structure, and the air exhaust ventilating fan 3 is fixedly arranged on the machine body 1 of the frame structure; the lower half part of the machine body 1 is provided with a fabric feeding hole 5, and the woven fabric is wound on a driving roller 6 after sequentially winding a fabric carrier roller 2. Each row of the fabric carrier rollers 2 is longitudinally arranged. The opposite side of the fabric carrier roller 2 close to the fabric feeding hole 5 in the machine body 1 is provided with a driving compression roller 7 which is arranged in pair with the fabric carrier roller 2. The fabric feeding speed of the horizontal sanding finishing machine is 5-30 m/min, and the rotating speed of a sanding roller in the horizontal sanding finishing machine is 950r/min or 1200r/min or 1600r/min. The auxiliary roller can be arranged in the machine body, the auxiliary roller is rotatably arranged on a pair of sliding blocks, the pair of sliding blocks are arranged on the machine body of the frame structure in a sliding mode (precisely, a sliding groove used for sliding of the sliding blocks is formed in one cross rod of the machine body of the frame structure), the sliding direction of the sliding blocks is favorable for the arrangement direction of the fabric carrier rollers, and the sliding direction of the sliding blocks is horizontal and transverse due to the fact that each row of the fabric carrier rollers are longitudinally arranged in the embodiment.

The working principle is as follows:

the fabric is manually led in from the feed inlet and then sequentially wound on the rows of fabric carrier rollers longitudinally arranged and then a part of the fabric is wound on the driving roller, and then the driving motor acts to gradually wind the fabric on the driving roller. After the fabric is stacked and stored, the motor is driven to rotate reversely at intervals, and then the driving compression roller is matched to rotate reversely, so that the fabric partially wound on the driving roller is partially unwound, and therefore, the situation that the fabric in the stacking machine body always abuts against the fabric carrier roller after being stacked and stored is avoided, and the situation that a part of fabric regions always abut against the fabric carrier roller is reduced; in order to better realize the scheme, the roller shaft of the fabric carrier roller close to the fabric inlet can be connected with a speed reducer through a coupler, and the speed reducer is connected with another driving motor (the driving motor is also a forward and reverse rotating motor) to realize the purpose. Because the surface fabric droops a bit when initiative compression roller moves, so the auxiliary roll presses to the surface fabric and makes drooping surface fabric take on the auxiliary roll when initiative compression roller moves, has avoided the surface fabric to be in tension state all the time after setting up like this, avoids drooping surface fabric to contact bottom surface under the organism again.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the technical principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims

1. A zero-dyeing baby cotton functional fabric is characterized in that the zero-dyeing baby cotton functional fabric is formed by blending organic colored cotton and raw cotton; the mass ratio of the organic colored cotton fiber to the original cotton fiber in the blended yarn is 2:8-8:2.

2. The process for processing the zero-dyeing baby cotton functional fabric as claimed in claim 1, which is characterized by comprising the following process steps in sequence: preparing raw materials, spinning fiber raw materials into yarns, weaving the yarns into fabrics, carrying out sanding treatment on the fabrics, carrying out iron polishing treatment after the sanding treatment, and then carrying out fluffy treatment.

3. The processing technology of the zero-dyeing baby cotton functional fabric according to claim 2, characterized in that in the sanding treatment process, a horizontal sanding finishing machine is adopted to perform sanding treatment on the fabric; and a stacking and storing process is also arranged between the weaving process and the napping treatment process and after the open width drying treatment process, and a stacking machine is adopted to stack and store the woven fabric in the stacking and storing process.

4. The processing technology of the zero-dyeing baby cotton functional fabric according to claim 2, characterized in that a dark color identification sticker is pasted on the horizontal sanding finishing machine; the dyeing equipment used for dyeing is also covered with a dark color identification sticker.

5. The processing technology of the zero-dyeing baby cotton functional fabric according to claim 2 or 4, characterized in that the raw materials comprise bulk acrylic, combed cotton and polypropylene, and the yarn is woven into the fabric by a double-sided circular knitting machine with the machine number of E16 in the weaving process.

6. The processing technology of zero-dyeing baby cotton functional fabric according to claim 3, characterized in that the stacking machine comprises a rectangular shell body, a plurality of rows of fabric carrier rollers are arranged in the shell body, and each row is provided with two fabric carrier rollers; a plurality of air exhaust and ventilation fans are arranged on the machine body; the last fabric carrier roller along the fabric feeding direction is a driving roller, a roller shaft of the driving roller is connected with an output shaft of a speed reducer through a coupler, and the speed reducer is connected with a driving motor.

7. The processing technology of the zero-dyeing baby cotton functional fabric according to claim 6, characterized in that the machine body is of a frame structure, and the exhaust ventilation fan is fixedly arranged on the machine body of the frame structure; the lower half part of the machine body is provided with a fabric feeding hole, and the woven fabric is wound on the driving roller after sequentially winding the fabric on the fabric carrier roller.

8. The processing technology of zero-dyeing cotton functional fabric for babies as claimed in claim 7, wherein each row of fabric carrier rollers are transversely or longitudinally arranged.

9. The processing technology of zero-dyeing cotton functional fabric for babies as claimed in claim 8, wherein the opposite side of the fabric carrier roller near the fabric feed inlet in the machine body is provided with driving press rollers which are paired with the fabric carrier roller.

10. The processing technology of the zero-dyeing cotton functional fabric for babies as claimed in claim 9, wherein the fabric feeding speed of the horizontal sanding finishing machine is 5-30 m/min, and the rotating speed of a sanding roller in the horizontal sanding finishing machine is 950r/min or 1200r/min or 1600r/min.