CN212979450U - Can prevent compound non-woven fabrics structure of static water thorn - Google Patents

Abstract

The utility model relates to a spunlace composite non-woven fabric structure capable of preventing static electricity, which comprises a spunlace non-woven fabric bottom layer, an active carbon filter screen layer and a spunlace non-woven fabric outer layer, wherein the outer side of the active carbon filter screen layer is reinforced with the spunlace non-woven fabric outer layer through spunlace; the outer layer of the spunlace non-woven fabric comprises an adhesive fiber non-woven fabric layer and a bamboo fiber non-woven fabric layer from inside to outside, and an antistatic film with water permeable holes is arranged between the adhesive fiber non-woven fabric layer and the bamboo fiber non-woven fabric layer. According to the spunlace composite non-woven fabric, two twill polyester fiber layers are used as the bottom layers, so that the spunlace composite non-woven fabric has good crease resistance and shape retention, high strength and elastic recovery capability, crease resistance and wear resistance; viscose fiber non-woven fabrics layer can make bamboo original fiber non-woven fabrics layer and active carbon filter screen layer combine closely, and bamboo original fiber non-woven fabrics layer has natural antibiotic, antibacterial effect, can effectively avoid bacterial growing, and the antistatic membrane that has the hole of permeating water can prevent to produce static.

Description

Can prevent compound non-woven fabrics structure of static water thorn

Technical Field

The utility model relates to a non-woven fabrics technique, especially a can prevent compound non-woven fabric structure of water thorn of static.

Background

The spunlace non-woven fabric is formed by spraying high-pressure micro water flow onto one or more layers of fiber nets to enable fibers to be mutually entangled, so that the fiber nets can be reinforced to form a fabric, and the fiber raw materials of the spunlace non-woven fabric are wide in source and can be terylene, chinlon, polypropylene fiber, viscose fiber, chitin fiber, superfine fiber, tencel, silk, bamboo fiber, wood pulp fiber, alginate fiber and the like.

The spunlace non-woven fabrics on the current market are not friction-resistant and easy to generate static electricity in the use process, and the fibers of the existing spunlace non-woven fabrics are arranged in a certain sequence and can be fried into spunlace non-woven fabrics for circulation due to external uneven friction, so that the service life of the spunlace non-woven fabrics is shortened.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a can prevent compound non-woven fabric structure of water thorn of static for solve current water thorn non-woven fabrics and do not resist the problem of friction, produce static easily.

In order to solve the problems, the utility model provides a spunlace composite non-woven fabric structure capable of preventing static electricity, which comprises a spunlace non-woven fabric bottom layer, an activated carbon filter screen layer and a spunlace non-woven fabric outer layer, wherein the spunlace non-woven fabric bottom layer is two twill polyester fiber layers, the activated carbon filter screen layers are respectively arranged on two sides of the spunlace non-woven fabric bottom layer, and the spunlace non-woven fabric outer layer is reinforced on the outer side of the activated carbon filter screen layers through spunlace; the outer layer of the spunlace non-woven fabric comprises an viscose fiber non-woven fabric layer and a bamboo fiber non-woven fabric layer from inside to outside, and a layer of antistatic film with water permeable holes is arranged between the viscose fiber non-woven fabric layer and the bamboo fiber non-woven fabric layer.

The utility model provides a can prevent water thorn composite non-woven fabric structure of static still has following technical characteristic:

further, the spunlace non-woven fabric bottom layer and the activated carbon filter screen layer are subjected to hot-pressing compounding through microporous breathable hot melt adhesive.

Furthermore, uniform small holes are densely distributed on the bottom layer of the spunlace non-woven fabric.

Further, the antistatic film is provided with antistatic particles embedded in the bamboo charcoal fiber non-woven fabric layer.

The utility model discloses following beneficial effect has: by adopting two twill polyester fiber layers as the bottom layer, the spunlace composite non-woven fabric has better crease resistance and shape retention, higher strength and elastic recovery capability, crease resistance and wear resistance; viscose fiber non-woven fabrics layer can make bamboo original fiber non-woven fabrics layer and active carbon filter screen layer combine closely, and bamboo original fiber non-woven fabrics layer has natural antibiotic, antibacterial effect, can effectively avoid bacterial growing, and the antistatic membrane that has the hole of permeating water can prevent to produce static.

Drawings

Fig. 1 is a schematic structural diagram of a spunlace composite nonwoven fabric structure capable of preventing static electricity according to an embodiment of the present invention.

Detailed Description

The present invention will be described in detail below with reference to the accompanying drawings in conjunction with embodiments. It should be noted that, in the present invention, the embodiments and features of the embodiments may be combined with each other without conflict.

As shown in fig. 1, in an embodiment of the anti-static spunlace composite nonwoven fabric structure of the present invention, the anti-static spunlace composite nonwoven fabric structure of the embodiment includes a spunlace nonwoven fabric bottom layer 10, an activated carbon filter screen layer 20 and a spunlace nonwoven fabric outer layer 30, the spunlace nonwoven fabric bottom layer 10 is two twill polyester fiber layers, the activated carbon filter screen layers 20 are respectively disposed on two sides of the spunlace nonwoven fabric bottom layer 10, and the spunlace nonwoven fabric outer layer 30 is reinforced on the outer side of the activated carbon filter screen layers 20 by spunlace; the outer layer 30 of the spunlace nonwoven fabric comprises an adhesive fiber nonwoven fabric layer 31 and a bamboo fiber nonwoven fabric layer 32 from inside to outside, and an antistatic film 301 with water permeable holes is arranged between the adhesive fiber nonwoven fabric layer 31 and the bamboo fiber nonwoven fabric layer 32. According to the spunlace composite non-woven fabric, two twill polyester fiber layers are used as the bottom layers, so that the spunlace composite non-woven fabric has good crease resistance and shape retention, high strength and elastic recovery capability, crease resistance and wear resistance; viscose fiber non-woven fabrics layer can make bamboo original fiber non-woven fabrics layer and active carbon filter screen layer combine closely, and bamboo original fiber non-woven fabrics layer has natural antibiotic, antibacterial effect, can effectively avoid bacterial growing, and the antistatic membrane that has the hole of permeating water can prevent to produce static.

In one embodiment of the present application, preferably, the spunlace nonwoven fabric bottom layer 10 and the activated carbon filter layer 20 are thermally and pressure-bonded by the microporous breathable hot melt adhesive, so that the spunlace nonwoven fabric bottom layer 10 and the activated carbon filter layer 20 are tightly bonded; preferably, the bottom layer 10 of the spunlace nonwoven fabric is densely provided with uniform small holes to improve the water permeability of the spunlace composite nonwoven fabric. Preferably, the antistatic film 301 is provided with antistatic particles embedded in the bamboo charcoal fiber nonwoven fabric layer 32, whereby the antistatic performance of the spunlace composite nonwoven fabric can be improved.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention in its corresponding aspects.

Claims (4)

1. The anti-static spunlace composite nonwoven fabric structure is characterized by comprising a spunlace nonwoven fabric bottom layer, an activated carbon filter screen layer and a spunlace nonwoven fabric outer layer, wherein the spunlace nonwoven fabric bottom layer is two twill polyester fiber layers, the activated carbon filter screen layers are respectively arranged on two sides of the spunlace nonwoven fabric bottom layer, and the spunlace nonwoven fabric outer layer is reinforced on the outer sides of the activated carbon filter screen layers through spunlacing; the outer layer of the spunlace non-woven fabric comprises an viscose fiber non-woven fabric layer and a bamboo fiber non-woven fabric layer from inside to outside, and a layer of antistatic film with water permeable holes is arranged between the viscose fiber non-woven fabric layer and the bamboo fiber non-woven fabric layer.

2. A hydroentangled composite nonwoven structure according to claim 1, characterized in that: and the spunlace non-woven fabric bottom layer and the activated carbon filter screen layer are subjected to hot-pressing compounding through microporous breathable hot melt adhesive.

3. A hydroentangled composite nonwoven structure according to claim 2, characterized in that: the bottom layer of the spunlace non-woven fabric is densely provided with uniform small holes.

4. A hydroentangled composite nonwoven structure according to claim 1, characterized in that: the antistatic membrane is provided with antistatic particles embedded in the natural bamboo fiber non-woven fabric layer.

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