CN213891589U - Flame-retardant anti-tearing oxford - Google Patents

Abstract

The utility model discloses a flame-retardant anti-tearing oxford, which comprises an oxford main body layer, wherein the upper and lower surfaces of the oxford main body layer are provided with heat insulation layers, the outer side of the heat insulation layers is provided with a flame-retardant antistatic layer, the outer side of the flame-retardant antistatic layer is provided with a wear-resistant layer, the oxford main body layer comprises an oxford base cloth layer, the oxford base cloth layer is arranged in a vertical symmetrical distribution manner, a tear-resistant reinforced layer is arranged between the oxford base cloth layers, and an adhesive layer is arranged between the oxford base cloth layer and the tear-resistant reinforced layer. Meanwhile, the strength is low, the tearing is easy, and the service life is short.

Description

Flame-retardant anti-tearing oxford

Technical Field

The utility model relates to an oxford technical field specifically is a fire-retardant resistance tears an oxford.

Background

Oxford originated in the uk, a traditional combed cotton fabric named oxford university, also known as oxford. The thin combed high count yarn is used as double warp and is interwoven with thick weft yarn by weft weight and plain weave. Has soft color, soft cloth body, good air permeability and comfortable wearing, and is widely used as shirts, sports suits, pajamas and the like. The product has more varieties and patterns, such as plain color, bleaching, white weft of color warp, color weft of color warp, light color stripe pattern and the like; and also woven with polyester cotton yarn.

Most of the conventional oxfords are simple in structure, poor in functionality, lack of flame retardant property, low in strength, easy to tear and short in service life.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a fire-retardant anti-tear oxford to solve the problem of proposing among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme:

the utility model provides a fire-retardant anti-tear oxford, includes oxford main part layer, the upper and lower both sides surface of oxford main part layer is provided with the insulating layer, the outside of insulating layer is provided with fire-retardant antistatic layer, the outside of fire-retardant antistatic layer is provided with the wearing layer, oxford main part layer includes oxford base cloth layer, symmetrical distribution sets up about the oxford base cloth layer, be provided with anti enhancement layer of tearing between the oxford base cloth layer, be provided with the viscose layer between oxford base cloth layer and the anti enhancement layer of tearing.

Preferably, the oxford base fabric layer is woven by using 160D nylon air-jet textured yarns as weft yarns and 200D polyester air-jet textured yarns as warp yarns in a plain weave manner.

Preferably, the tear-resistant reinforcing layer comprises a reinforcing non-woven fabric layer and a metal wire mesh layer, and the reinforcing non-woven fabric layer is arranged on the upper side and the lower side of the metal wire mesh layer.

Preferably, the insulating layer includes ventilative rete and thermal barrier coating, ventilative rete sets up between oxford main part layer and fire-retardant antistatic layer, the upper and lower surface at ventilative rete is coated to the thermal barrier coating.

Preferably, fire-retardant antistatic layer includes first fire-retardant layer, the fire-retardant layer of second and antistatic layer, first fire-retardant layer is the fire-retardant surface fabric of aramid fiber, the fire-retardant layer of second is formed by weaving fire-retardant viscose fiber and acrylic fiber filament warp and weft float and sink, the antistatic layer is woven by polyaniline conductive fiber filament and is formed.

Preferably, the wearing layer is formed by floating and sinking of spandex fiber filament and nanometer carbon fiber filament warp, the spandex fiber filament is as warp, nanometer carbon fiber filament is weft.

Compared with the prior art, the beneficial effects of the utility model are that: the flame-retardant anti-tearing oxford fabric is provided with the anti-tearing reinforcing layer, and the reinforced non-woven fabric layer wraps the metal wire mesh layer, so that the overall strength of the oxford fabric is greatly improved, and the anti-tearing capability is strong; the flame retardant performance and the antistatic capability of the oxford fabric are improved through the design of the first flame retardant layer, the second flame retardant layer and the antistatic layer in the flame retardant antistatic layer, meanwhile, the wear-resistant effect of the oxford fabric is improved through the wear-resistant layer, the flame retardant antistatic layer is protected, and the flame retardant performance is prevented from losing after the oxford fabric is worn; the design of the thermal insulation layer inside improves the thermal insulation effect of the oxford fabric. The utility model relates to a fire-retardant anti-tear oxford through setting up fire-retardant antistatic layer, wearing layer and wire mesh layer etc. has reached fire-retardant anti-tear and has drawn, and intensity is high, long service life, effect such as wear-resisting, has solved present most of oxford simple structure, and the functionality is relatively poor, lacks fire behaviour, and intensity is lower simultaneously, easily tears, the short problem of life.

Drawings

FIG. 1 is a schematic structural view of a flame retardant tear resistant oxford fabric;

FIG. 2 is a schematic structural view of an oxford body layer in a flame retardant tear resistant oxford;

FIG. 3 is a schematic structural diagram of a tear-resistant reinforcing layer in a flame retardant tear-resistant oxford fabric.

In the figure: 1-oxford fabric main body layer, 2-heat insulation layer, 3-flame-retardant antistatic layer, 4-wear-resistant layer, 5-oxford fabric base cloth layer, 6-tearing-resistant reinforcing layer, 7-adhesive layer, 8-reinforced non-woven fabric layer and 9-metal wire mesh layer.

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 to 3, the present invention provides a technical solution: the utility model provides a fire-retardant anti-tear oxford, includes oxford main part layer 1, the upper and lower both sides surface of oxford main part layer 1 is provided with insulating layer 2, the outside of insulating layer 2 is provided with fire-retardant antistatic layer 3, the outside of fire-retardant antistatic layer 3 is provided with wearing layer 4, oxford main part layer 1 includes oxford base cloth layer 5, 5 longitudinal symmetry on the oxford base cloth layer set up, be provided with anti enhancement layer 6 of tearing between the oxford base cloth layer 5, be provided with viscose layer 7 between oxford base cloth layer 5 and the anti enhancement layer 6 of tearing.

The oxford fabric base cloth layer 5 is woven by using 160D nylon air-jet textured yarns as weft yarns and 200D polyester air-jet textured yarns as warp yarns in a plain weave change mode.

The tear-resistant reinforcing layer 6 comprises a reinforcing non-woven fabric layer 8 and a metal wire mesh layer 9, wherein the reinforcing non-woven fabric layer 8 is arranged on the upper side and the lower side of the metal wire mesh layer 9.

Insulating layer 2 includes ventilative rete and thermal barrier coating, ventilative rete sets up between oxford main part layer 1 and fire-retardant antistatic layer 3, the upper and lower surface at ventilative rete is coated to the thermal barrier coating.

Flame-retardant antistatic layer 3 includes first fire-retardant layer, the fire-retardant layer of second and antistatic layer, first fire-retardant layer is the fire-retardant surface fabric of aramid fiber, the fire-retardant layer of second is formed by weaving fire-retardant viscose fiber and acrylic fiber filament warp and weft float and sink, the antistatic layer is woven by polyaniline conductive fiber filament and is formed.

The wearing layer 4 is formed by floating and sinking of spandex fiber filaments and carbon nanofiber filaments in warp, the spandex fiber filaments are used as warp, and the carbon nanofiber filaments are used as weft.

The utility model discloses a theory of operation is: the flame-retardant anti-tearing oxford fabric is provided with the anti-tearing reinforcing layer 6, and the reinforcing non-woven fabric layer 8 wraps the metal wire mesh layer 9, so that the overall strength of the oxford fabric is greatly improved, and the anti-tearing capability is strong; the flame retardant performance and the antistatic capability of the oxford fabric are improved through the design of the first flame retardant layer, the second flame retardant layer and the antistatic layer in the flame retardant antistatic layer 3, meanwhile, the wear-resistant effect of the oxford fabric is improved through the wear-resistant layer 4, the flame retardant antistatic layer 3 is protected, and the flame retardant performance is prevented from losing after the oxford fabric is worn; the design of 2 insulating layers of inside has improved the thermal-insulated effect of oxford.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (6)

1. The utility model provides a fire-retardant anti-tear oxford, includes oxford main part layer (1), its characterized in that: the upper and lower both sides surface of oxford main part layer (1) is provided with insulating layer (2), the outside of insulating layer (2) is provided with fire-retardant antistatic layer (3), the outside of fire-retardant antistatic layer (3) is provided with wearing layer (4), oxford main part layer (1) includes oxford base cloth layer (5), the upper and lower symmetric distribution of oxford base cloth layer (5) sets up, be provided with between oxford base cloth layer (5) and tear enhancement layer (6), be provided with between oxford base cloth layer (5) and the tear enhancement layer (6) viscose layer (7).

2. The flame retardant oxford tear resistant fabric according to claim 1, wherein: the oxford base fabric layer (5) is woven by using 160D nylon air-jet textured yarns as weft yarns and 200D polyester air-jet textured yarns as warp yarns in a plain weave change mode.

3. The flame retardant oxford tear resistant fabric according to claim 2, wherein: the tear-resistant reinforcing layer (6) comprises a reinforcing non-woven fabric layer (8) and a metal wire mesh layer (9), and the reinforcing non-woven fabric layer (8) is arranged on the upper side and the lower side of the metal wire mesh layer (9).

4. The flame retardant oxford tear-resistant fabric according to claim 3, wherein: insulating layer (2) are including ventilative rete and thermal barrier coating, ventilative rete sets up between oxford main part layer (1) and fire-retardant antistatic layer (3), the upper and lower surface of thermal barrier coating at ventilative rete.

5. The flame retardant oxford tear resistant fabric according to claim 4, wherein: flame-retardant antistatic layer (3) are including first fire-retardant layer, the fire-retardant layer of second and antistatic layer, first fire-retardant layer is the fire-retardant surface fabric of aramid fiber, the fire-retardant layer of second is formed by weaving fire-retardant viscose fiber and acrylic fiber filament warp and weft float and sink, the antistatic layer is woven by polyaniline conductive fiber filament and is formed.

6. The flame retardant oxford tear resistant fabric according to claim 5, wherein: the wear-resistant layer (4) is formed by floating and sinking of spandex fiber filaments and carbon nanofiber filaments in warp and weft, the spandex fiber filaments serve as warps, and the carbon nanofiber filaments serve as wefts.

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