CN112030315A - Color-segment bamboo-joint concave-convex fabric and preparation method thereof - Google Patents

Abstract

The invention discloses a color section slub concave-convex fabric and a preparation method thereof, wherein the fabric is formed by interweaving warps and wefts, the warps and the wefts are blended yarns, and the warps are formed by blending 18.5-20tex color section slub yarns, 23.6-25tex modified polyester yarns and 14.7-16tex spandex core-spun yarns; the weft yarns are formed by blending 18.5-20tex siro-spun bright pure polyester bunchy yarns and 42.2-45tex bright pure polyester dense bunchy yarns; the slub yarn is lined in the middle of the fabric to form a concave-convex structure similar to a 'loop'. The warp yarns of the fabric are formed by blending the color section slub yarns, the modified polyester yarns and the spandex core-spun yarns, and the slub yarns are padded in the middle of the fabric, so that the surface of the fabric has a concave-convex effect similar to a 'circle' and the fabric presents a section color slub concave-convex style.

Description

Color-segment bamboo-joint concave-convex fabric and preparation method thereof

Technical Field

The invention relates to the technical field of textile fabrics, in particular to a color-section bamboo-joint concave-convex fabric and a preparation method thereof.

Background

The slub yarn is one of the names of yarn defects, the slub yarn is finally generated by changing the speed of a spinning roller, namely the speed of an input or output roller is instantly changed, the output quantity is further increased or reduced, so that slubs are generated, the thickness of the slubs is controlled by the speed change of the roller, the length of the slubs is controlled according to the running time of the change speed, and the length between two slubs is determined by setting on a slub control device.

The conventional slub yarn has both elasticity and softness, but the yarn is single in color, and meanwhile, the fabric woven by the yarn is single in style.

Disclosure of Invention

The invention aims to provide a color section slub concave-convex fabric and a preparation method thereof aiming at the defects in the prior art.

In order to achieve the purpose, the invention adopts the technical scheme that:

the invention provides a color section slub concave-convex fabric, which is formed by interweaving warps and wefts, wherein the warps and the wefts are blended yarns, and the warps are formed by blending 18.5-20tex color section slub yarns, 23.6-25tex modified polyester yarns and 14.7-16tex spandex core-spun yarns; the weft yarns are formed by blending 18.5-20tex siro-spun bright pure polyester bunchy yarns and 42.2-45tex bright pure polyester dense bunchy yarns; the slub yarn is lined in the middle of the fabric to form a concave-convex structure similar to a 'loop'.

Preferably, the number ratio of the color-segment slub yarns to the modified polyester yarns to the spandex core-spun yarns is 2:1:1-3:1: 1.

Preferably, the number ratio of the sirospun glossy pure polyester slub yarn to the glossy pure polyester dense slub yarn is 2:1-3: 1.

The second aspect of the invention provides a preparation method of the color-section bamboo joint concave-convex fabric, which comprises the following steps:

step S1, respectively carrying out hot air drying on the polymer slices and the color master batches, mixing the polymer slices and the color master batches in proportion, feeding the mixture into a screw extruder for spinning, extruding a polymer melt by the screw extruder to prepare a primary yarn, cooling, oiling, stretching, then feeding the primary yarn into a winding machine for winding into a shape to prepare a color-segment slub yarn for later use;

step S2, preparing single-strand yarns from the spun color-segment slub yarns prepared in the step S1, preparing three-ply yarns as warp yarns from the single-strand yarns, the modified polyester yarns and the spandex core-spun yarns through a doubling and twisting machine, weaving the warp yarns and the weft yarns on a machine, and padding the slub yarns in the middle to prepare grey cloth;

step S3, dyeing the grey cloth prepared in the step S2 by adopting a high-temperature high-pressure one-bath method of cationic dye and disperse dye, taking out the grey cloth from a cylinder, washing the grey cloth with water, and dyeing the grey cloth with reactive dye by adopting a jet dyeing machine;

step S4, immersing the grey cloth dyed in the step S3 in finishing liquid for post finishing, and drying and shaping to obtain the color-section bamboo joint concave-convex fabric;

and S5, calendering the color-section slub concave-convex fabric prepared in the S4.

Preferably, in step S1, the temperature during spinning is 220-240 ℃, and the initial pressure during spinning is 15-17 mpa.

Preferably, in step S2, the single yarn has a yarn count of 20-35S and the triple yarn has a yarn count of 20-35S/3.

Preferably, in step S3, the reactive dye is dyed at a bath ratio of 5: 1.

Preferably, in step S4, the warp density of the color segment bamboo joint concave-convex fabric is 480 pieces/meter and the weft density is 325 pieces/meter and 390 pieces/meter.

Preferably, in step S4, the finishing liquid includes the following components in parts by weight: 16-25 wt% of modified butyronitrile emulsion, 15-22 wt% of phosphate, 12-18 wt% of nano silver and the balance of water.

Preferably, in step S5, the calendering temperature is 180-220 ℃ and the vehicle speed is 6-10 m/min.

By adopting the technical scheme, compared with the prior art, the invention has the following technical effects:

warp yarns of the fabric are formed by blending color section slub yarns, modified polyester yarns and spandex core-spun yarns, and the slub yarns are padded in the middle of the fabric, so that the surface of the fabric has a concave-convex effect similar to a 'circle' and the fabric presents a section color slub concave-convex style; the addition of the spandex core-spun yarn enables the cloth cover to have good elasticity.

Detailed Description

The present invention is further illustrated by the following examples, which are not to be construed as limiting the invention.

It should be noted that the embodiments and features of the embodiments may be combined with each other without conflict.

The invention provides a color section slub concave-convex fabric which is formed by interweaving warps and wefts, wherein the warps and the wefts are blended yarns, and the warps are formed by blending 18.5-20tex color section slub yarns, 23.6-25tex modified polyester yarns and 14.7-16tex spandex core-spun yarns; the weft yarns are formed by blending 18.5-20tex siro-spun bright pure polyester bunchy yarns and 42.2-45tex bright pure polyester dense bunchy yarns; the slub yarn is lined in the middle of the fabric to form a concave-convex structure similar to a 'loop'.

As a preferred embodiment, the number ratio of the color-segment slub yarns, the modified polyester yarns and the spandex core-spun yarns is 2:1:1-3:1: 1. The number ratio of the sirospun bright pure-polyester slub yarn to the bright pure-polyester dense-slub yarn is 2:1-3: 1.

The preparation method of the color-section bamboo joint concave-convex fabric comprises the following steps:

step S1, respectively carrying out hot air drying on the polymer slices and the color master batches, mixing the polymer slices and the color master batches in proportion, feeding the mixture into a screw extruder for spinning, extruding a polymer melt by the screw extruder to prepare a primary yarn, cooling, oiling, stretching, then feeding the primary yarn into a winding machine for winding into a shape to prepare a color-segment slub yarn for later use;

step S2, preparing single-strand yarns from the spun color-segment slub yarns prepared in the step S1, preparing three-ply yarns as warp yarns from the single-strand yarns, the modified polyester yarns and the spandex core-spun yarns through a doubling and twisting machine, weaving the warp yarns and the weft yarns on a machine, and padding the slub yarns in the middle to prepare grey cloth;

step S3, dyeing the grey cloth prepared in the step S2 by adopting a high-temperature high-pressure one-bath method of cationic dye and disperse dye, taking out the grey cloth from a cylinder, washing the grey cloth with water, and dyeing the grey cloth with reactive dye by adopting a jet dyeing machine;

step S4, immersing the grey cloth dyed in the step S3 in finishing liquid for post finishing, and drying and shaping to obtain the color-section bamboo joint concave-convex fabric;

and S5, calendering the color-section slub concave-convex fabric prepared in the S4.

As a preferred embodiment, in step S1, the temperature during spinning is 220-240 ℃, and the initial pressure during spinning is 15-17 mpa. In step S2, the single yarn has a yarn count of 20-35S, and the triple yarn has a yarn count of 20-35S/3. In step S3, the bath ratio of the reactive dye during dyeing is 5: 1. In step S4, the warp density of the color segment bamboo joint concave-convex fabric is 480 pieces/meter, and the weft density is 325 pieces/meter and 390 pieces/meter. In step S4, the finishing liquid includes the following components in parts by weight: 16-25 wt% of modified butyronitrile emulsion, 15-22 wt% of phosphate, 12-18 wt% of nano silver and the balance of water. In step S5, the calendering temperature is 180-220 ℃, and the vehicle speed is 6-10 m/min.

Example 1

The color section slub concave-convex fabric is formed by interweaving warps and wefts, wherein the warps and the wefts are blended yarns, and the warps are formed by blending 18.5tex color section slub yarns, 23.6tex modified polyester yarns and 14.7tex spandex core-spun yarns with the root ratio of 2:1: 1; the weft yarns are formed by blending 18.5tex siro-spun bright pure polyester bunchy yarns and 42.2tex bright pure polyester bunchy yarns with the root ratio of 2: 1; the slub yarn is lined in the middle of the fabric to form a concave-convex structure similar to a 'loop'.

The preparation method of the color-section bamboo joint concave-convex fabric comprises the following steps:

s1, respectively carrying out hot air drying on the polymer slices and the color master batches, mixing the polymer slices and the color master batches in proportion, then feeding the mixture into a screw extruder for spinning, wherein the spinning temperature is 220 ℃, the spinning initial pressure is 15mpa, the screw extruder extrudes a polymer melt to prepare a primary yarn, cooling, oiling and stretching the primary yarn, and then feeding the primary yarn into a winding machine for winding into a shape to prepare the color-segment slub yarn for later use;

step S2, making the color-segment slub yarn spun by the step S1 into single-strand yarn, wherein the yarn count of the single-strand yarn is 20S, then making the single-strand yarn, the modified polyester yarn and the spandex core-spun yarn into three-strand yarn through a cabling machine, wherein the yarn count of the three-strand yarn is 20S/3, then weaving the three-strand yarn and the weft yarn through a machine, and padding the slub yarn at the middle position to obtain grey cloth;

step S3, dyeing the grey cloth prepared in the step S2 by adopting a high-temperature high-pressure one-bath method of cationic dye and disperse dye, taking the grey cloth out of a cylinder, washing the grey cloth by water, and dyeing the grey cloth by adopting a jet dyeing machine, wherein the bath ratio of the reactive dye to the reactive dye is 5: 1;

step S4, immersing the grey cloth dyed in the step S3 in finishing liquid for post finishing, wherein the finishing liquid comprises the following components in parts by weight: 16 wt% of modified butyronitrile emulsion, 15 wt% of phosphate, 12 wt% of nano-silver and the balance of water; drying and shaping to obtain the color section bamboo joint concave-convex fabric, wherein the warp density of the color section bamboo joint concave-convex fabric is 420 pieces/meter, and the weft density of the color section bamboo joint concave-convex fabric is 325 pieces/meter;

and S5, calendering the color-section slub concave-convex fabric prepared in the S4 at the calendering temperature of 180 ℃ and the vehicle speed of 6 m/min.

Example 2

The color section slub concave-convex fabric is formed by interweaving warps and wefts, wherein the warps and the wefts are blended yarns, and the warps are formed by blending 19tex color section slub yarns, 24tex modified polyester yarns and 15tex spandex core-spun yarns with the root ratio of 2:1: 1; the weft yarns are formed by blending 19tex siro-spun bright pure polyester bunchy yarns and 43tex bright pure polyester dense bunchy yarns with the root ratio of 3: 1; the slub yarn is lined in the middle of the fabric to form a concave-convex structure similar to a 'loop'.

The preparation method of the color-section bamboo joint concave-convex fabric comprises the following steps:

step S1, respectively carrying out hot air drying on the polymer slices and the color master batches, mixing the polymer slices and the color master batches in proportion, then feeding the mixture into a screw extruder for spinning, wherein the spinning temperature is 230 ℃, the spinning initial pressure is 16mpa, the screw extruder extrudes a polymer melt to prepare a primary yarn, cooling, oiling and stretching the primary yarn, then feeding the primary yarn into a winding machine for winding into a shape, and preparing the color-segment slub yarn for later use;

step S2, making the color-segment slub yarn spun by the step S1 into a single-strand yarn, wherein the yarn count of the single-strand yarn is 25S, then making the single-strand yarn, the modified polyester yarn and the spandex core-spun yarn into a three-strand yarn through a cabling machine, wherein the yarn count of the three-strand yarn is 25S/3, then weaving the three-strand yarn and the weft yarn through a machine, and padding the slub yarn at the middle position to obtain grey cloth;

step S3, dyeing the grey cloth prepared in the step S2 by adopting a high-temperature high-pressure one-bath method of cationic dye and disperse dye, taking the grey cloth out of a cylinder, washing the grey cloth by water, and dyeing the grey cloth by adopting a jet dyeing machine, wherein the bath ratio of the reactive dye to the reactive dye is 5: 1;

step S4, immersing the grey cloth dyed in the step S3 in finishing liquid for post finishing, wherein the finishing liquid comprises the following components in parts by weight: 20 wt% of modified butyronitrile emulsion, 19 wt% of phosphate, 15 wt% of nano-silver and the balance of water; drying and shaping to obtain the color section slub concave-convex fabric, wherein the warp density of the color section slub concave-convex fabric is 450 pieces/meter, and the weft density of the color section slub concave-convex fabric is 360 pieces/meter;

and S5, calendering the color-section slub concave-convex fabric prepared in the S4 at the calendering temperature of 200 ℃ and the vehicle speed of 8 m/min.

Example 3

The color section slub concave-convex fabric is formed by interweaving warps and wefts, wherein the warps and the wefts are blended yarns, and the warps are formed by blending 20tex color section slub yarns, 25tex modified polyester yarns and 16tex spandex core-spun yarns with the root ratio of 3:1: 1; the weft yarns are formed by blending 20tex siro-spun bright pure polyester bunchy yarns and 45tex bright pure polyester bunchy yarns with the root ratio of 2: 1; the slub yarn is lined in the middle of the fabric to form a concave-convex structure similar to a 'loop'.

The preparation method of the color-section bamboo joint concave-convex fabric comprises the following steps:

step S1, respectively carrying out hot air drying on the polymer slices and the color master batches, mixing the polymer slices and the color master batches in proportion, then feeding the mixture into a screw extruder for spinning, wherein the spinning temperature is 240 ℃ and the spinning initial pressure is 17mpa, extruding a polymer melt by the screw extruder to prepare a primary yarn, cooling, oiling and stretching the primary yarn, then feeding the primary yarn into a winding machine for winding into a shape to prepare a color-segment slub yarn for later use;

step S2, making the color-segment slub yarn spun by the step S1 into single-strand yarn, wherein the yarn count of the single-strand yarn is 35S, then making the single-strand yarn, the modified polyester yarn and the spandex core-spun yarn into three-strand yarn through a cabling machine, wherein the yarn count of the three-strand yarn is 35S/3, then weaving the three-strand yarn and the modified polyester yarn through a machine, and padding the slub yarn in the middle position to obtain grey cloth;

step S3, dyeing the grey cloth prepared in the step S2 by adopting a high-temperature high-pressure one-bath method of cationic dye and disperse dye, taking the grey cloth out of a cylinder, washing the grey cloth by water, and dyeing the grey cloth by adopting a jet dyeing machine, wherein the bath ratio of the reactive dye to the reactive dye is 5: 1;

step S4, immersing the grey cloth dyed in the step S3 in finishing liquid for post finishing, wherein the finishing liquid comprises the following components in parts by weight: 25 wt% of modified butyronitrile emulsion, 22 wt% of phosphate, 18 wt% of nano-silver and the balance of water; drying and shaping to obtain the color section slub concave-convex fabric, wherein the warp density of the color section slub concave-convex fabric is 480 pieces/meter, and the weft density of the color section slub concave-convex fabric is 390 pieces/meter;

and S5, calendering the color-section slub concave-convex fabric prepared in the S4 at the calendering temperature of 220 ℃ and the vehicle speed of 10 m/min.

While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the invention.

Claims (10)

1. The color section slub concave-convex fabric is characterized by being formed by interweaving warps and wefts, wherein the warps and the wefts are blended yarns, and the warps are formed by blending 18.5-20tex color section slub yarns, 23.6-25tex modified polyester yarns and 14.7-16tex spandex core-spun yarns; the weft yarns are formed by blending 18.5-20tex siro-spun bright pure polyester bunchy yarns and 42.2-45tex bright pure polyester dense bunchy yarns; the slub yarn is lined in the middle of the fabric to form a concave-convex structure similar to a 'loop'.

2. The color-segment slub concave-convex fabric according to claim 1, wherein the number ratio of the color-segment slub yarns to the modified polyester yarns to the spandex core-spun yarns is 2:1:1-3:1: 1.

3. The color-segment slub concave-convex fabric according to claim 1, wherein the number ratio of the sirospun bright pure-polyester slub yarn to the bright pure-polyester dense-slub yarn is 2:1-3: 1.

4. The preparation method of the color-section bamboo-joint concave-convex fabric according to any one of claims 1 to 3, characterized by comprising the following steps:

step S1, respectively carrying out hot air drying on the polymer slices and the color master batches, mixing the polymer slices and the color master batches in proportion, feeding the mixture into a screw extruder for spinning, extruding a polymer melt by the screw extruder to prepare a primary yarn, cooling, oiling, stretching, then feeding the primary yarn into a winding machine for winding into a shape to prepare a color-segment slub yarn for later use;

step S2, preparing single-strand yarns from the spun color-segment slub yarns prepared in the step S1, preparing three-ply yarns as warp yarns from the single-strand yarns, the modified polyester yarns and the spandex core-spun yarns through a doubling and twisting machine, weaving the warp yarns and the weft yarns on a machine, and padding the slub yarns in the middle to prepare grey cloth;

step S3, dyeing the grey cloth prepared in the step S2 by adopting a high-temperature high-pressure one-bath method of cationic dye and disperse dye, taking out the grey cloth from a cylinder, washing the grey cloth with water, and dyeing the grey cloth with reactive dye by adopting a jet dyeing machine;

step S4, immersing the grey cloth dyed in the step S3 in finishing liquid for post finishing, and drying and shaping to obtain the color-section bamboo joint concave-convex fabric;

and S5, calendering the color-section slub concave-convex fabric prepared in the S4.

5. The preparation method of the color-segment bamboo-joint concave-convex fabric as claimed in claim 4, wherein in the step S1, the temperature during spinning is 220-240 ℃, and the initial pressure during spinning is 15-17 mpa.

6. The method for preparing the color-section slub concave-convex fabric according to claim 4, wherein in step S2, the single-ply yarn has a yarn count of 20-35S, and the three-ply yarn has a yarn count of 20-35S/3.

7. The method for preparing the color-section slub concave-convex fabric according to claim 4, wherein in step S3, the bath ratio of the reactive dye during dyeing is 5: 1.

8. The method for preparing the color-section slub concave-convex fabric as claimed in claim 4, wherein in step S4, the warp density of the color-section slub concave-convex fabric is 480 pieces/m, and the weft density is 325 pieces/m and 390 pieces/m.

9. The preparation method of the color-section slub concave-convex fabric according to claim 4, wherein in step S4, the finishing liquid comprises the following components in parts by weight: 16-25 wt% of modified butyronitrile emulsion, 15-22 wt% of phosphate, 12-18 wt% of nano silver and the balance of water.

10. The preparation method of the color-section bamboo-joint concave-convex fabric as claimed in claim 4, wherein in step S5, the calendering temperature is 180-220 ℃ and the vehicle speed is 6-10 m/min.