CN214727070U - High-strength flame-retardant elastic filament fabric - Google Patents

Abstract

The utility model belongs to the technical field of textile fabrics, in particular to a high-strength flame-retardant elastic filament fabric, which comprises a first fabric layer, wherein a first elastic supporting layer is arranged below the first fabric layer, the first elastic supporting layer is fixedly connected with the first fabric layer, an elastic telescopic layer is arranged below the first elastic supporting layer, the elastic telescopic layer is fixedly connected with the first elastic supporting layer, and a second elastic supporting layer is arranged below the elastic telescopic layer; through all setting up fire-retardant precoat between every layer of precoat, wherein fire-retardant polyester fiber of fire-retardant precoat, fire-retardant polyamide fibre and fire-retardant regeneration cellulose fibre can play good fire-retardant effect to make whole face material body have fire-retardant effect, first elastic support layer, the flexible layer of elasticity and the cooperation of second elastic support layer can let the surface fabric have higher elasticity simultaneously, and can transversely and vertically shrink.

Description

High-strength flame-retardant elastic filament fabric

Technical Field

The utility model belongs to the technical field of textile fabric, concretely relates to fire-retardant elasticity long filament surface fabric of excelling in.

Background

Polyester (polyethylene terephthalate, PET) is polymerized by PTA and MEG, PET is rice grain shape, the variety is various, 75% is used for terylene for chemical fiber, the manufactured terylene short is used for manufacturing terylene short fiber and terylene filament according to the requirement of textile industry, the terylene fiber is divided into two types of filament and short fiber, the terylene filament is the filament with the length of more than kilometer, the filament is wound into a group, and the terylene short fiber is the short fiber with the length of several centimeters to more than ten centimeters.

The existing filament fabric has the characteristics of high strength, wear resistance, acid resistance, alkali resistance, high temperature resistance, light weight, good heat preservation and electrical insulation, mildew and moth resistance and the like of synthetic fibers, but the existing filament fabric is easy to burn and easily causes fire when being used in some places.

SUMMERY OF THE UTILITY MODEL

To solve the problems set forth in the background art described above. The utility model provides a fire-retardant elastic filament surface fabric of excelling in has fire-retardant characteristics.

In order to achieve the above object, the utility model provides a following technical scheme: a high-strength flame-retardant elastic filament fabric comprises a first fabric layer, wherein a first elastic supporting layer is arranged below the first fabric layer and fixedly connected with the first fabric layer, an elastic telescopic layer is arranged below the first elastic supporting layer and fixedly connected with the first elastic supporting layer, a second elastic supporting layer is arranged below the elastic telescopic layer and fixedly connected with the elastic telescopic layer, a second fabric layer is arranged below the second elastic supporting layer and fixedly connected with the second elastic supporting layer, flame-retardant fabric layers are arranged among the first fabric layer, the first elastic supporting layer, the elastic telescopic layer, the second elastic supporting layer and the second fabric layer, and are respectively located between the first fabric layer and the first elastic supporting layer, The flame-retardant fabric layer is respectively fixedly connected with the first fabric layer, the first elastic supporting layer, the elastic telescopic layer, the second elastic supporting layer and the second fabric layer.

Preferably, the elastic expansion layer comprises transverse woven fibers and longitudinal woven fibers, and the transverse woven fibers and the longitudinal woven fibers are mutually interwoven and fixed.

Preferably, the transversely woven fibers and the longitudinally woven fibers are transversely woven.

Preferably, the first elastic supporting layer and the second elastic supporting layer are both curved serpentine ropes, and the bending directions of the first elastic supporting layer and the second elastic supporting layer are perpendicular to the direction of the elastic telescopic layer.

Preferably, the flame-retardant fabric layer comprises flame-retardant polyester fibers, flame-retardant polyamide fibers and flame-retardant regenerated cellulose fibers.

Preferably, the first elastic supporting layer, the elastic telescopic layer and the second elastic supporting layer are all made of high-strength glass fibers, and elastic spaces are formed among the first elastic supporting layer, the elastic telescopic layer and the second elastic supporting layer.

Compared with the prior art, the beneficial effects of the utility model are that:

the utility model discloses in, through all setting up fire-retardant precoat between every layer of precoat, wherein fire-retardant polyester fiber of fire-retardant precoat, fire-retardant polyamide fibre and fire-retardant regenerated cellulose fibre can play good fire-retardant effect to make the whole face material body have fire-retardant effect, first elastic support layer, elastic stretching layer and the cooperation of second elastic support layer can let the surface fabric have higher elasticity simultaneously, and can transversely and vertically shrink.

Drawings

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description serve to explain the invention and not to limit the invention. In the drawings:

fig. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic structural view of the elastic layer of the present invention;

fig. 3 is an enlarged schematic view of a portion a in fig. 1.

In the figure: 1. a first fabric layer; 2. a first resilient support layer; 3. an elastic stretchable layer; 31. transversely weaving fibers; 32. longitudinally weaving fibers; 4. a second resilient support layer; 5. a second fabric layer; 6. a flame-retardant fabric layer; 7. an elastic space.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-3, the present invention provides the following technical solutions: a high-strength flame-retardant elastic filament fabric comprises a first fabric layer 1, wherein a first elastic supporting layer 2 is arranged below the first fabric layer 1, the first elastic supporting layer 2 is fixedly connected with the first fabric layer 1, an elastic telescopic layer 3 is arranged below the first elastic supporting layer 2, the elastic telescopic layer 3 is fixedly connected with the first elastic supporting layer 2, a second elastic supporting layer 4 is arranged below the elastic telescopic layer 3, the second elastic supporting layer 4 is fixedly connected with the elastic telescopic layer 3, a second fabric layer 5 is arranged below the second elastic supporting layer 4, the second fabric layer 5 is fixedly connected with the second elastic supporting layer 4, a flame-retardant fabric layer 6 is arranged between the first fabric layer 1, the first elastic supporting layer 2, the elastic telescopic layer 3, the second elastic supporting layer 4 and the second fabric layer 5, and the flame-retardant fabric layer 6 is respectively positioned between the first fabric layer 1 and the first elastic supporting layer 2, Between the first elastic supporting layer 2 and the elastic telescopic layer 3, between the elastic telescopic layer 3 and the second elastic supporting layer 4, between the second elastic supporting layer 4 and the second fabric layer 5, and between the flame-retardant fabric layer 6 and the first fabric layer 1, the first elastic supporting layer 2, the elastic telescopic layer 3, the second elastic supporting layer 4 and the second fabric layer 5 are fixedly connected respectively.

In this embodiment, a second elastic supporting layer 4 is arranged below the elastic telescopic layer 3, the second elastic supporting layer 4 is fixedly connected with the elastic telescopic layer 3, a second fabric layer 5 is arranged below the second elastic supporting layer 4, the second fabric layer 5 is fixedly connected with the second elastic supporting layer 4, flame retardant fabric layers 6 are arranged between the first fabric layer 1, the first elastic supporting layer 2, the elastic telescopic layer 3, the second elastic supporting layer 4 and the second fabric layer 5, and flame retardant fabric layers 6 are arranged between the fabric layers of each layer, wherein the flame retardant fabric layers 6 are made of flame retardant polyester fibers, flame retardant polyamide fibers and flame retardant regenerated cellulose fibers, so that good flame retardant effect can be achieved, the whole fabric body has flame retardant effect, and meanwhile, the first elastic supporting layer 2, the elastic telescopic layer 3 and the second elastic supporting layer 4 are matched, so that the fabric has high elasticity, and is capable of being contracted in the transverse direction and the longitudinal direction.

Specifically, the elastic telescopic layer 3 comprises transversely woven fibers 31 and longitudinally woven fibers 32, the transversely woven fibers 31 and the longitudinally woven fibers 32 are mutually interwoven and fixed, the transversely woven fibers 31 and the longitudinally woven fibers 32 are transversely woven, and meanwhile, the first elastic supporting layer 2, the elastic telescopic layer 3 and the second elastic supporting layer 4 are matched, so that the fabric has high elasticity and can be transversely and longitudinally contracted.

Specifically, first elasticity supporting layer 2 and second elasticity supporting layer 4 are crooked snakelike rope line, the crooked direction perpendicular to elasticity telescopic layer 3's of first elasticity supporting layer 2, second elasticity supporting layer 4 direction, and first elasticity supporting layer 2, elasticity telescopic layer 3 and the cooperation of second elasticity supporting layer 4 can let the surface fabric have higher elasticity simultaneously to can transversely contract with vertically.

Specifically, the flame-retardant fabric layer 6 comprises flame-retardant polyester fibers, flame-retardant polyamide fibers and flame-retardant regenerated cellulose fibers, and can play a good flame-retardant role, so that the whole panel body has a flame-retardant role.

Specifically, the first elastic supporting layer 2, the elastic telescopic layer 3 and the second elastic supporting layer 4 are all made of high-strength glass fibers, and elastic spaces 7 are formed among the first elastic supporting layer 2, the elastic telescopic layer 3 and the second elastic supporting layer 4, so that the fabric has air permeability.

The utility model discloses a theory of operation and use flow: the utility model discloses install the back, through all setting up fire-retardant precoat 6 between every layer of precoat, wherein the fire-retardant polyester fiber of fire-retardant precoat 6, fire-retardant polyamide fibre and fire-retardant regenerated cellulose fibre, can play good flame retardant action, thereby make the whole face material body have fire-retardant effect, first elastic support layer 2, the cooperation of elastic telescopic layer 3 and second elastic support layer 4 simultaneously, can let the surface fabric have higher elasticity, and can transversely and vertically shrink.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described in the foregoing embodiments, or equivalents may be substituted for elements thereof. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (6)

1. A high-strength flame-retardant elastic filament fabric is characterized in that: the fabric comprises a first fabric layer (1), wherein a first elastic supporting layer (2) is arranged below the first fabric layer (1), the first elastic supporting layer (2) is fixedly connected with the first fabric layer (1), an elastic telescopic layer (3) is arranged below the first elastic supporting layer (2), the elastic telescopic layer (3) is fixedly connected with the first elastic supporting layer (2), a second elastic supporting layer (4) is arranged below the elastic telescopic layer (3), the second elastic supporting layer (4) is fixedly connected with the elastic telescopic layer (3), a second fabric layer (5) is arranged below the second elastic supporting layer (4), the second fabric layer (5) is fixedly connected with the second elastic supporting layer (4), and the first fabric layer (1), the first elastic supporting layer (2), the elastic telescopic layer (3) and the second fabric layer (5) are fixedly connected, And flame-retardant fabric layers (6) are arranged between the second elastic supporting layer (4) and the second fabric layer (5), the flame-retardant fabric layers (6) are respectively positioned between the first fabric layer (1) and the first elastic supporting layer (2), between the first elastic supporting layer (2) and the elastic telescopic layer (3), between the elastic telescopic layer (3) and the second elastic supporting layer (4), and between the second elastic supporting layer (4) and the second fabric layer (5), and the flame-retardant fabric layers (6) are respectively fixedly connected with the first fabric layer (1), the first elastic supporting layer (2), the elastic telescopic layer (3), the second elastic supporting layer (4) and the second fabric layer (5).

2. The high-strength flame-retardant elastic filament fabric according to claim 1, characterized in that: the elastic telescopic layer (3) comprises transverse woven fibers (31) and longitudinal woven fibers (32), and the transverse woven fibers (31) and the longitudinal woven fibers (32) are mutually interwoven and fixed.

3. The high-strength flame-retardant elastic filament fabric according to claim 2, characterized in that: the transverse woven fibers (31) and the longitudinal woven fibers (32) are both transversely woven.

4. The high-strength flame-retardant elastic filament fabric according to claim 1, characterized in that: the first elastic supporting layer (2) and the second elastic supporting layer (4) are both bent snake-shaped cords, and the bending directions of the first elastic supporting layer (2) and the second elastic supporting layer (4) are perpendicular to the direction of the elastic telescopic layer (3).

5. The high-strength flame-retardant elastic filament fabric according to claim 1, characterized in that: the flame-retardant fabric layer (6) comprises flame-retardant polyester fibers, flame-retardant polyamide fibers and flame-retardant regenerated cellulose fibers.

6. The high-strength flame-retardant elastic filament fabric according to claim 1, characterized in that: the elastic support layer is characterized in that the first elastic support layer (2), the elastic telescopic layer (3) and the second elastic support layer (4) are all made of high-strength glass fibers, and elastic spaces (7) are formed among the first elastic support layer (2), the elastic telescopic layer (3) and the second elastic support layer (4).

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