CN114808235B - Elastic thermal fabric and preparation method thereof - Google Patents

Abstract

The invention discloses an elastic thermal fabric which comprises the following materials in parts by weight: 20-50 parts of modified polyester fiber, 15-40 parts of PTT/PET composite fiber, 10-30 parts of high-strength high-elasticity polyurethane fiber, 0.5-3 parts of antibacterial agent and a plurality of air. According to the invention, through the selection of materials and the improvement of the process, a certain amount of air can be stored in the elastic fabric, so that the effects of cold insulation and heat preservation are achieved.

Description

Elastic thermal fabric and preparation method thereof

Technical Field

The invention relates to the technical field of fabrics, in particular to an elastic thermal fabric and a preparation method thereof.

Background

The fabric is a material for making clothing, and as one of three factors of clothing, the fabric can not only explain the style and the characteristics of clothing, but also directly show the color and the modeling effect of the clothing, and in the world of clothing, the fabric of clothing is confetti and is daily and moon, but in general, high-quality and high-grade fabric has the characteristics of comfort in wearing, sweat absorption and ventilation, draping and stiff, noble vision, soft and graceful touch and the like, and along with the development progress of society, the elastic fabric appears in the market in order to meet the diversity of people's demands.

In cold winter, people put new demands on the performance of thermal clothes, and the demands on the thermal performance are more severe. The existing elastic fabric does not have a warm-keeping function.

Disclosure of Invention

The invention aims to provide an elastic thermal fabric and a preparation method thereof.

In order to solve the technical problems, the invention adopts the following technical scheme: an elastic thermal fabric comprises the following materials in parts by weight: 20-50 parts of modified polyester fiber, 15-40 parts of PTT/PET composite fiber, 10-30 parts of high-strength high-elasticity polyurethane fiber, 0.5-3 parts of antibacterial agent and a plurality of air.

Further, the fabric is composed of a surface material layer, an upper barrier layer, a lower barrier layer, a lining material layer and a connector; the surface fabric layer and the lining fabric layer are elastic fabric layers formed by interweaving PTT/PET composite fibers; the upper barrier layer and the lower barrier layer have the same structure and are sheet-shaped structures formed by longitudinally and transversely arranging a plurality of cold air barrier units in sequence and then connecting the cold air barrier units through connecting bodies; the cold air blocking units of the upper blocking layer and the lower blocking layer are arranged in a staggered way; the cold air blocking unit is an air capsule body; the periphery of the air capsule body is made of a fabric formed by interweaving modified polyester fibers; the outer surface and the inner surface of the fabric are coated with an anti-ventilation coating; the air capsule is filled with air; the connecting body is made of high-strength high-elastic polyurethane fibers, the air capsule bodies of two adjacent longitudinal rows and two adjacent transverse rows are connected by the high-strength high-elastic polyurethane fibers, and the upper barrier layer and the lower barrier layer are connected with each other through the high-strength high-elastic polyurethane fibers.

Further, the air volume in the air capsule body accounts for two thirds of the capacity of the air capsule body.

Further, a functional heating fiber body is arranged between the upper barrier layer and the lower barrier layer; the functional heating fiber body is arranged on the air capsule body.

Further, the functional heating fiber body is prepared by the following method: the phase-change fiber and heating fiber are interwoven.

Further, the antibacterial agent comprises, by weight, 0.5-2 parts of alpinia zerumbet extract, 0.5-2 parts of garden balsam stem extract, 0.05-1 part of tea tree seed extract, 0.05-0.1 part of stabilizer and 0.05-1 part of antistatic agent.

Further, an air capsule protection body is arranged between the upper barrier layer and the surface layer fabric layer and between the lower barrier layer and the inner layer fabric layer; the air capsule protection body is arranged on the inner sides of the surface material layer and the inner material layer in a lattice arrangement mode.

The invention also discloses a preparation method of the elastic thermal fabric, which comprises the following steps:

1) Preparing a surface fabric: the warp yarns and the weft yarns are PTT/PET composite fibers, so that a surface fabric is prepared;

2) Preparing lining fabric: the warp yarns and the weft yarns are PTT/PET composite fibers, so that an inner layer fabric is prepared;

3) Preparing an air capsule: preparing an air capsule fabric layer with warp density of 480-520 pieces/10 cm and weft density of 460-500 pieces/10 cm by adopting modified superfine polyester fibers; a nonporous nano polyurethane film with the thickness of 0.01-0.03mm is arranged between two layers of air capsule fabric layers; fixing a nonporous nanometer polyurethane film between two layers of air capsule fabric layers in a hot-pressing composite mode, coating an antibacterial coating layer on the outer sides of the two layers of air capsule fabric layers to form an air capsule outerwear fabric, preparing the air capsule outerwear into a hollow block structure, and filling air into the hollow block structure to prepare an air capsule body;

4) The air capsule body is connected with the surface layer and the inner layer: the high-strength high-elastic polyurethane fiber is adopted as warp-direction binding yarns and weft-direction binding yarns; two adjacent air capsule bodies in each row are connected through a plurality of weft binding threads; each weft binding thread is interwoven with the inner layer fabric and then enters between the surface layer fabric and the inner layer fabric, then is interwoven with the weft binding thread which is interwoven with the surface layer fabric and then enters between the surface layer fabric and the inner layer fabric at the corresponding position, bypasses two air capsule bodies and then is interwoven with the inner layer fabric, then enters between the surface layer fabric and the inner layer fabric again, and is interwoven with the weft binding thread which is interwoven with the surface layer fabric and the inner layer fabric at the corresponding position, and then bypasses two air capsule bodies and then is interwoven with the inner layer fabric, so that the two air capsule bodies reciprocate; each warp-wise binding wire is interwoven with the inner layer fabric and then enters between the surface layer fabric and the inner layer fabric, then is interwoven with the warp-wise binding wire which enters between the surface layer fabric and the inner layer fabric after being interwoven with the surface layer fabric at the corresponding position, bypasses two air capsule bodies and then is interwoven with the inner layer fabric, then enters between the surface layer fabric and the inner layer fabric again, and is interwoven with the warp-wise binding wire which enters between the surface layer fabric and the inner layer fabric after being interwoven with the surface layer fabric at the corresponding position, and then is interwoven with the inner layer fabric after bypassing two air capsule bodies, so that the elastic thermal fabric is formed;

5) Post-treatment: the prepared elastic thermal fabric is placed into an antibacterial agent and immersed for 2-5 hours, and the temperature is controlled at 20-30 ℃.

Further, after the step 2) is completed, arranging air capsule protection bodies on the inner surfaces of the surface fabric and the inner layer fabric in a lattice manner; and after the air capsule body is compounded on the inner side of the air capsule protection body, the surface layer and the inner layer are connected.

Further, after the step 2) is completed, a layer of functional heating fiber body is compounded outside the air capsule body.

The beneficial effects of the invention are as follows:

1) According to the invention, through the selection of materials and the improvement of the process, a certain amount of air can be stored in the elastic fabric, so that the effects of cold insulation and heat preservation are achieved.

2) The air capsule bodies are arranged in a lattice mode, and the inside of the fabric is fixed in the fabric through the high-strength high-elasticity polyurethane fibers, so that the elasticity of the fabric is not affected, and the fabric has a warm-keeping effect.

3) According to the fabric disclosed by the invention, the warp and weft yarns and the binding yarns are all made of high-elasticity fibers, so that when the fabric is stretched, the space between the air capsule bodies is pulled, the air-permeable fabric has the air permeability function, and the redundant heat in the fabric can be discharged.

Drawings

The invention is further described below with reference to the drawings and examples.

Fig. 1 is a schematic structural view of the present invention.

Detailed Description

The technical scheme of the present invention will be clearly and completely described in the following detailed description.

Example 1

Referring to fig. 1, the elastic thermal fabric provided by the invention comprises the following materials in parts by weight: 20-50 parts of modified polyester fiber, 15-40 parts of PTT/PET composite fiber, 10-30 parts of high-strength high-elasticity polyurethane fiber, 0.5-3 parts of antibacterial agent and a plurality of air.

The fabric of this embodiment is composed of a surface fabric layer 1, an upper barrier layer 2, a lower barrier layer 3, an inner fabric layer 4 and a connector 5.

The surface layer 1 and the inner layer 4 are elastic fabric layers formed by interweaving PTT/PET composite fibers.

The upper barrier layer 2 and the lower barrier layer 3 have the same structure and are sheet-shaped structures formed by longitudinally and transversely arranging a plurality of cold air barrier units in sequence and then connecting the cold air barrier units through a connecting body 5; the cold air barrier units of the upper barrier layer 2 and the lower barrier layer 3 are arranged in a staggered way; the cold air blocking unit is an air capsule body.

The outer periphery of the air capsule body is made of fabric formed by interweaving modified polyester fibers; the outer surface and the inner surface of the fabric are coated with an anti-ventilation coating; the air capsule is filled with air; the volume of air in the air capsule body accounts for two thirds of the volume of the air capsule body. The air capsule body of the invention is preferably a block structure with the length and width of about 0.5-0.8cm and the starting thickness of about 0.2-0.4 cm. The air capsule bodies on the upper barrier layer 2 fill up the gaps between the adjacent air capsule bodies of the lower barrier layer 3, and the air capsule bodies on the lower barrier layer 3 fill up the gaps between the adjacent air capsule bodies of the upper barrier layer 2.

The connecting body 5 is made of high-strength high-elastic polyurethane fibers, the air capsule bodies of two adjacent longitudinal rows and two adjacent transverse rows are connected by the high-strength high-elastic polyurethane fibers, and the upper barrier layer 2 and the lower barrier layer 3 are connected with each other through the high-strength high-elastic polyurethane fibers.

According to the invention, air is injected into a hollow coat formed by interweaving modified polyester fibers to form an air capsule body, the air capsule body is fixed in the fabric by the elastic fibers, and the sequentially arranged lattice-shaped air capsule bodies are tightly connected together due to the elastic characteristics of the elastic fibers, so that a cold air insulator similar to a shielding wall is formed, and the high heat preservation performance is achieved.

In addition, as the warp and weft yarns and the binding yarns of the fabric are all made of high-elasticity fibers, when the fabric is stretched, the space between the air capsule bodies is pulled apart to generate a plurality of ventilation holes, so that the fabric has ventilation function and can discharge redundant heat in the fabric. And when the fabric is not stretched, the fabric is restored to the original state.

Preferably, an air capsule protection body is arranged between the upper barrier layer 2 and the surface layer fabric layer 1 and between the lower barrier layer 3 and the inner layer fabric layer 4; the air capsule protection bodies are arranged at the inner sides of the surface fabric layer 1 and the inner fabric layer 4 in a lattice arrangement manner; the air capsule protective body is an anti-puncture fabric layer or a fabric buffer glue layer which is compounded in the surface fabric layer 1 and the inner fabric layer 4.

According to the invention, through the arrangement of the air capsule protection body, on one hand, the strength of the fabric is improved, and on the other hand, the air capsule body in the fabric can be effectively protected, so that accidental damage of the air capsule body is avoided, and the warm-keeping effect is influenced.

The antibacterial agent comprises, by weight, 0.5-2 parts of alpinia zerumbet extract, 0.5-2 parts of garden balsam stem extract, 0.05-1 part of tea tree seed extract, 0.05-0.1 part of stabilizer and 0.05-1 part of antistatic agent.

According to the embodiment, the antibacterial performance of the fabric is improved through the arrangement of the antibacterial agent.

Example 2

In this embodiment, a functional heat-generating fiber body is provided between the upper barrier layer 2 and the lower barrier layer 3; the functional heating fiber body is arranged on the air capsule body. The functional heating fiber body is prepared by the following method: the phase-change fiber and heating fiber are interwoven.

In the embodiment, the functional heating fiber body is arranged, so that the thermal insulation property of the fabric can be further improved.

Example 3

The invention relates to a preparation method of elastic thermal fabric, which comprises the following steps:

1) Preparing a surface fabric: the warp yarns and the weft yarns are PTT/PET composite fibers, so that a surface fabric is prepared;

2) Preparing lining fabric: the warp yarns and the weft yarns are PTT/PET composite fibers, so that an inner layer fabric is prepared;

3) Preparing an air capsule: preparing an air capsule fabric layer with warp density of 480-520 pieces/10 cm and weft density of 460-500 pieces/10 cm by adopting modified superfine polyester fibers; a nonporous nano polyurethane film with the thickness of 0.01-0.03mm is arranged between two layers of air capsule fabric layers; fixing a nonporous nanometer polyurethane film between two layers of air capsule fabric layers in a hot-pressing composite mode, coating an antibacterial coating layer on the outer sides of the two layers of air capsule fabric layers to form an air capsule outerwear fabric, preparing the air capsule outerwear into a hollow block structure, and filling air into the hollow block structure to prepare an air capsule body;

4) The air capsule body is connected with the surface layer and the inner layer: the high-strength high-elastic polyurethane fiber is adopted as warp-direction binding yarns and weft-direction binding yarns; two adjacent air capsule bodies in each row are connected through a plurality of weft binding threads; each weft binding thread is interwoven with the inner layer fabric and then enters between the surface layer fabric and the inner layer fabric, then is interwoven with the weft binding thread which is interwoven with the surface layer fabric and then enters between the surface layer fabric and the inner layer fabric at the corresponding position, bypasses two air capsule bodies and then is interwoven with the inner layer fabric, then enters between the surface layer fabric and the inner layer fabric again, and is interwoven with the weft binding thread which is interwoven with the surface layer fabric and the inner layer fabric at the corresponding position, and then bypasses two air capsule bodies and then is interwoven with the inner layer fabric, so that the two air capsule bodies reciprocate; each warp-wise binding wire is interwoven with the inner layer fabric and then enters between the surface layer fabric and the inner layer fabric, then is interwoven with the warp-wise binding wire which enters between the surface layer fabric and the inner layer fabric after being interwoven with the surface layer fabric at the corresponding position, bypasses two air capsule bodies and then is interwoven with the inner layer fabric, then enters between the surface layer fabric and the inner layer fabric again, and is interwoven with the warp-wise binding wire which enters between the surface layer fabric and the inner layer fabric after being interwoven with the surface layer fabric at the corresponding position, and then is interwoven with the inner layer fabric after bypassing two air capsule bodies, so that the elastic thermal fabric is formed;

5) Post-treatment: the prepared elastic thermal fabric is placed into an antibacterial agent and immersed for 2-5 hours, and the temperature is controlled at 20-30 ℃.

Preferably, after the step 2), arranging air capsule protection bodies on the inner surfaces of the surface fabric and the inner layer fabric in a lattice manner; and after the air capsule body is compounded on the inner side of the air capsule protection body, the surface layer and the inner layer are connected.

Preferably, after step 2) is completed, a layer of functional heat-generating fiber body is compounded outside the air capsule body.

The foregoing description of the preferred embodiments of the present invention is not intended to limit the invention, and those skilled in the art may make various modifications and equivalents within the spirit and scope of the invention, and such modifications and equivalents should also be considered as falling within the scope of the technical solution of the present invention.

Claims (8)

1. An elastic thermal fabric is characterized in that: the fabric comprises the following materials in parts by weight: 20-50 parts of modified polyester fiber, 15-40 parts of PTT/PET composite fiber, 10-30 parts of high-strength high-elasticity polyurethane fiber, 0.5-3 parts of antibacterial agent and a plurality of air;

the fabric consists of a surface fabric layer (1), an upper barrier layer (2), a lower barrier layer (3), a lining fabric layer (4) and a connector (5); the surface fabric layer (1) and the lining fabric layer (4) are elastic fabric layers formed by interweaving PTT/PET composite fibers; the upper barrier layer (2) and the lower barrier layer (3) have the same structure and are of a sheet structure formed by longitudinally and transversely arranging a plurality of cold air barrier units in sequence and then connecting the cold air barrier units through a connecting body (5); the cold air blocking units of the upper blocking layer (2) and the lower blocking layer (3) are arranged in a staggered way; the cold air blocking unit is an air capsule body; the periphery of the air capsule body is made of a fabric formed by interweaving modified polyester fibers; the outer surface and the inner surface of the fabric are coated with an anti-ventilation coating; the air capsule is filled with air; the connecting body (5) is made of high-strength high-elastic polyurethane fibers, two adjacent longitudinal rows and two adjacent transverse rows of air capsule bodies are connected by the high-strength high-elastic polyurethane fibers, and the upper barrier layer (2) and the lower barrier layer (3) are connected with each other through the high-strength high-elastic polyurethane fibers;

the preparation method of the elastic thermal fabric comprises the following steps:

1) Preparing a surface fabric: the warp yarns and the weft yarns are PTT/PET composite fibers, so that a surface fabric is prepared;

2) Preparing lining fabric: the warp yarns and the weft yarns are PTT/PET composite fibers, so that an inner layer fabric is prepared;

3) Preparing an air capsule: preparing an air capsule fabric layer with warp density of 480-520 pieces/10 cm and weft density of 460-500 pieces/10 cm by adopting modified superfine polyester fibers; a nonporous nano polyurethane film with the thickness of 0.01-0.03mm is arranged between two layers of air capsule fabric layers; fixing a nonporous nanometer polyurethane film between two layers of air capsule fabric layers in a hot-pressing composite mode, coating an antibacterial coating layer on the outer sides of the two layers of air capsule fabric layers to form an air capsule outerwear fabric, preparing the air capsule outerwear into a hollow block structure, and filling air into the hollow block structure to prepare an air capsule body;

4) The air capsule body is connected with the surface layer and the inner layer: the high-strength high-elastic polyurethane fiber is adopted as warp-direction binding yarns and weft-direction binding yarns; two adjacent air capsule bodies in each row are connected through a plurality of weft binding threads; each weft binding thread is interwoven with the inner layer fabric and then enters between the surface layer fabric and the inner layer fabric, then is interwoven with the weft binding thread which is interwoven with the surface layer fabric and then enters between the surface layer fabric and the inner layer fabric at the corresponding position, bypasses two air capsule bodies and then is interwoven with the inner layer fabric, then enters between the surface layer fabric and the inner layer fabric again, and is interwoven with the weft binding thread which is interwoven with the surface layer fabric and the inner layer fabric at the corresponding position, and then bypasses two air capsule bodies and then is interwoven with the inner layer fabric, so that the two air capsule bodies reciprocate; each warp-wise binding wire is interwoven with the inner layer fabric and then enters between the surface layer fabric and the inner layer fabric, then is interwoven with the warp-wise binding wire which enters between the surface layer fabric and the inner layer fabric after being interwoven with the surface layer fabric at the corresponding position, bypasses two air capsule bodies and then is interwoven with the inner layer fabric, then enters between the surface layer fabric and the inner layer fabric again, and is interwoven with the warp-wise binding wire which enters between the surface layer fabric and the inner layer fabric after being interwoven with the surface layer fabric at the corresponding position, and then is interwoven with the inner layer fabric after bypassing two air capsule bodies, so that the elastic thermal fabric is formed;

5) Post-treatment: the prepared elastic thermal fabric is placed into an antibacterial agent and immersed for 2-5 hours, and the temperature is controlled at 20-30 ℃.

2. The elastic thermal fabric according to claim 1, wherein: the volume of air in the air capsule body accounts for two thirds of the volume of the air capsule body.

3. The elastic thermal fabric according to claim 1, wherein: a functional heating fiber body is arranged between the upper barrier layer (2) and the lower barrier layer (3); the functional heating fiber body is arranged on the air capsule body.

4. An elastic thermal fabric according to claim 3, wherein: the functional heating fiber body is prepared by the following method: the phase-change fiber and heating fiber are interwoven.

5. The elastic thermal fabric according to claim 1, wherein: the antibacterial agent comprises, by weight, 0.5-2 parts of alpinia zerumbet extract, 0.5-2 parts of garden balsam stem extract, 0.05-1 part of tea tree seed extract, 0.05-0.1 part of stabilizer and 0.05-1 part of antistatic agent.

6. The elastic thermal fabric according to claim 1, wherein: an air capsule protection body is arranged between the upper barrier layer (2) and the surface fabric layer (1) and between the lower barrier layer (3) and the inner fabric layer (4); the air capsule protection bodies are arranged on the inner sides of the surface fabric layer (1) and the inner fabric layer (4) in a lattice mode.

7. The elastic thermal fabric according to claim 1, wherein: after the step 2) is completed, arranging air capsule protection bodies on the inner surfaces of the surface fabric and the inner layer fabric in a lattice mode; and after the air capsule body is compounded on the inner side of the air capsule protection body, the surface layer and the inner layer are connected.

8. The elastic thermal fabric according to claim 1, wherein: and 2) after the step 2) is completed, compounding a layer of functional heating fiber body outside the air capsule body.

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