CN218315658U - Antistatic crease-resistant polyester fabric - Google Patents

Abstract

The utility model discloses an antistatic crease-resistant terylene face fabric, which comprises a terylene face fabric layer, a moisture absorption heating face fabric layer, a crease-resistant film layer and an antistatic film; the polyester fabric layer is formed by interweaving polyester filaments with different cross sections, the polyester filaments with different cross sections have a twist of 1400-1600 twists/m, and are arranged according to the sequence of 2-4S twists and 2-4Z twists; the moisture absorption and heating fabric layer is formed by interweaving moisture absorption and heating fiber yarns; the terylene fabric layer and the moisture absorption heating fabric layer are connected by binding weft yarns. The polyester fabric layer and the moisture absorption and heating fabric layer are connected by the binding weft, and the polyester fabric layer is made of polyester filaments with different cross sections, so that liquid can be quickly guided to the moisture absorption and heating fabric layer, moisture absorption and heating are realized, the thickness of the worn clothes can be reduced, and the thin clothes can be worn.

Description

Antistatic crease-resistant polyester fabric

Technical Field

The utility model belongs to the technical field of textile fabric technique and specifically relates to an antistatic crease-resistant polyester fabric.

Background

With the progress of science and technology and the development of society, the demands and requirements of people on textile fabrics are increased and improved. At present, the fabric adopted by the clothes worn by people is usually formed by interweaving simple warps and wefts, if the pure cotton fabric is processed into the clothes, the pure cotton fabric has the defect of poor crease resistance, and after the pure cotton fabric is processed into the clothes, the crease resistance of the pure cotton fabric is slightly improved, but the pure cotton fabric is easy to deform and wrinkle after being washed or used for many times, so that people need to spend time on ironing. If chemical fiber fabric is adopted to easily generate static electricity in dry weather, people design antistatic crease-resistant fabric, for example, in the Chinese utility model patent with the publication number of CN207416150U, the antistatic crease-resistant fabric is disclosed, the fabric is of a five-layer structure and sequentially comprises an antistatic film layer, a crease-resistant film layer I, a dyed fabric base layer, a crease-resistant film layer II and an antistatic film layer from top to bottom, and the antistatic film layer, the crease-resistant film layer I, the dyed fabric base layer, the crease-resistant film layer II and the antistatic film layer are attached through a bonding agent; the dyed fabric base layer is a fabric formed by interweaving nylon space-variant yarns, warps and polyester filament yarns in a floating and sinking manner, the density of the warps is 55 yarns/cm, and the density of the wefts is 48 yarns/cm.

Because the static phenomenon usually occurs in autumn and winter, the temperature is low, and the clothes worn by people are thick and heavy, if the fabric with the functions of moisture absorption and heat generation is prepared, the problem that the clothes worn by people are thick and heavy can be solved.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an antistatic crease-resistance dacron surface fabric through setting up the one deck moisture absorption precoat that generates heat, can accomplish the function that the moisture absorption generates heat, can be so that people can wear slim clothing in autumn and winter.

In order to solve the technical problem, the purpose of the utility model is to realize the following:

the utility model relates to an antistatic crease-resistant polyester fabric, which comprises a polyester fabric layer, a moisture absorption and heating fabric layer, a crease-resistant film layer and an antistatic film;

the polyester fabric layer is formed by interweaving polyester filaments with different cross sections, the polyester filaments with different cross sections have a twist of 1400-1600 twists/m, and are arranged according to the sequence of 2-4S twists and 2-4Z twists;

the moisture absorption and heating fabric layer is formed by interweaving moisture absorption and heating fiber yarns;

the terylene fabric layer and the moisture absorption and heating fabric layer are connected by binding weft yarns.

On the basis of the above scheme and as a preferable scheme of the scheme: the fineness of the polyester filament with the different cross sections is 110-165dtex/36-48F, wherein the cross section of each monofilament is Y-shaped or cross-shaped.

On the basis of the above scheme and as a preferable scheme of the scheme: the fabric weave structure adopted by the terylene fabric layer is a variable square weave with one upper part, one lower part, two upper parts, two lower parts, three upper parts and three lower parts.

On the basis of the above scheme and as a preferable scheme of the scheme: the antistatic film layer is a resin layer containing alkyl quaternary ammonium salts.

On the basis of the above scheme and as a preferable scheme of the scheme: and the antistatic crease-resistant polyester fabric is provided with nanoscale air holes penetrating through the crease-resistant film layer and the antistatic film layer.

The utility model has the advantages that: the utility model relates to an antistatic crease-resistance dacron precoat, dacron precoat and the moisture absorption precoat that generates heat adopt the tying latitude to connect and form to the dacron precoat adopts different cross-section dacron filament, can realize that the moisture absorption generates heat with the water conservancy diversion that liquid can be quick to the moisture absorption precoat that generates heat, thereby can reduce the thickness of the clothing of dress, can wear slim clothing.

Drawings

FIG. 1 is a schematic structural diagram of an antistatic crease-resistant polyester fabric according to an embodiment;

fig. 2 is a schematic structural diagram of an antistatic crease-resistant polyester fabric according to a second embodiment.

The symbols in the figure illustrate the following: 1-a terylene fabric layer; 2-moisture absorption heating fabric layer; 3-anti-wrinkling film layer; 4-antistatic film layer; 5-nanometer grade air holes.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and specific embodiments.

Example one

This embodiment will be described in detail with reference to fig. 1. The embodiment relates to an antistatic crease-resistant polyester fabric, which comprises a polyester fabric layer 1, a moisture absorption heating fabric layer 2, a crease-resistant film layer 3 and an antistatic film layer 4.

The terylene fabric layer 1 and the moisture absorption heating fabric layer 2 are connected through binding weft yarns, namely a binding weft double-layer structure. The moisture absorption heating fabric 2 and the crease-resistant film layer 3 are compounded through a hot melt adhesive net film, and the crease-resistant film layer 3 and the antistatic film layer 4 are compounded through an adhesive phase.

The polyester fabric layer 1 is formed by interweaving polyester filaments with different cross sections, the polyester filaments with different cross sections have a twist of 1400-1600 twists/m, and are arranged according to the sequence of 2-4S twists and 2-4Z twists. The moisture absorption and heat generation fabric layer 2 is formed by interweaving moisture absorption and heat generation fiber yarns.

The surface of the polyester filament with the different cross sections is provided with grooves, so that the polyester filament has a good wicking effect, and can quickly guide liquid to the moisture absorption and heat generation fabric layer 2. Because the moisture absorption heating fabric layer has the moisture absorption heating effect, the temperature of the skin surface of a human body can be effectively improved.

And the Z-twist direction and the S-twist direction strong-twist different-section polyester filament yarns are adopted, so that the lining layer has the effect of linen-like fabric, and the wrinkled part of the lining layer fabric is in contact with the skin of a human body. The user can do strenuous exercise in autumn and winter, so that the inner fabric can not be completely attached to the skin of the human body even if the skin of the human body sweats a lot in a short time, and the wearing discomfort is avoided.

Furthermore, the fineness of the polyester filament with the special section is 110-165dtex/36-48F, and the section of each monofilament is Y-shaped or cross-shaped. In the present embodiment a wye is selected.

Furthermore, the fabric weave structure adopted by the terylene fabric layer 1 is a variable square weave structure with one upper part, one lower part, two upper parts, two lower parts, three upper parts and three lower parts. The Z twist and the S twist are combined in the changed square and flat texture, so that the terylene fabric layer 1 has good air permeability.

Further, the antistatic film layer 4 is a resin layer containing alkyl quaternary ammonium salts. The alkyl quaternary ammonium salt compound has hydrophilic groups in the alkyl groups, so that the water absorption of the fabric cannot be hindered, the water absorption is better and better along with the increase of the hydrophilic groups, and the antistatic performance can be effectively improved.

Example two

This embodiment will be described in detail with reference to fig. 2. The antistatic crease-resistant polyester fabric related to the embodiment is different from the first embodiment in that: the antistatic crease-resistant polyester fabric is provided with nanoscale air holes 5 penetrating through the crease-resistant film layer 3 and the antistatic film layer 4. The nanoscale air holes 5 are arranged, so that water vapor molecules in the air can pass through, and liquid water cannot pass through, and the antistatic crease-resistant polyester fabric has a good waterproof and breathable effect.

The foregoing has described in detail preferred embodiments of the present invention. It should be understood that numerous modifications and variations can be devised by those skilled in the art in light of the present teachings without departing from the inventive concepts. Therefore, the technical solutions that can be obtained by logical analysis, reasoning or limited experiments based on the prior art according to the concepts of the present invention by those skilled in the art should be within the scope of protection defined by the claims.

Claims (4)

1. The antistatic crease-resistant polyester fabric is characterized by comprising a polyester fabric layer (1), a moisture absorption heating fabric layer (2), a crease-resistant film layer (3) and an antistatic film layer (4);

the polyester fabric layer (1) is formed by interweaving polyester filaments with different cross sections, the polyester filaments with different cross sections have a twist of 1400-1600 twists/m, and are arranged according to the sequence of 2-4S twists and 2-4Z twists;

the moisture absorption and heat generation fabric layer (2) is formed by interweaving moisture absorption and heat generation fiber yarns;

the terylene fabric layer (1) and the moisture absorption and heat generation fabric layer (2) are connected by binding weft yarns.

2. The antistatic crease-resistant polyester fabric as claimed in claim 1, wherein the fineness of the polyester filaments with different cross sections is 110-165dtex/36-48F, and the cross section of each monofilament is Y-shaped or cross-shaped.

3. The antistatic crease-resistant polyester fabric according to claim 1, wherein the fabric weave structure adopted by the polyester fabric layer (1) is a variable square weave structure of one over one under two, one over two, two under two, three over, three under.

4. The antistatic crease-resistant polyester fabric as claimed in claim 1, wherein the antistatic crease-resistant polyester fabric is provided with nanoscale air holes (5) penetrating through the crease-resistant film layer (3) and the antistatic film layer (4).

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