CN215590143U - Anti-pulling antibacterial breathable fiber fabric - Google Patents

Abstract

The utility model discloses an anti-pulling antibacterial breathable fiber fabric which comprises a fabric body, a nano-silver fiber fabric layer, a bamboo charcoal fiber layer, a first cotton plant fiber layer and a weaving layer, wherein the weaving layer is arranged at the central position inside the fabric body, the first cotton plant fiber layer is arranged inside the fabric body above the weaving layer, the bamboo charcoal fiber layer is arranged inside the fabric body at one end, away from the weaving layer, of the first cotton plant fiber layer, the nano-silver fiber fabric layer is arranged inside the fabric body above the bamboo charcoal fiber layer, an upper fabric base layer is arranged inside the fabric body at one end, away from the bamboo charcoal fiber layer, of the nano-silver fiber fabric layer, and a second cotton plant fiber layer is arranged inside the fabric body below the weaving layer. The utility model not only reduces the damage of the fiber fabric to human body when in use, improves the comfort of human body when in use, but also prolongs the service life of the fiber fabric.

Description

Anti-pulling antibacterial breathable fiber fabric

Technical Field

The utility model relates to the technical field of fabrics, in particular to an anti-pulling antibacterial breathable fiber fabric.

Background

The fabric is a material for making clothes, is one of three elements of the clothes, can explain the style and the characteristics of the clothes, directly controls the expression effects of the color and the shape of the clothes, and is different from day to day in the world of the clothes.

With the improvement of living standard of people, textile industry is continuously developed, so that corresponding fiber fabrics are derived, and the fiber fabrics in the market are common in antibacterial performance, so that a large amount of bacteria are easy to breed, and further, the human body is greatly damaged.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an anti-pulling antibacterial breathable fiber fabric to solve the problem that the antibacterial performance of the fiber fabric is general in the background technology.

In order to achieve the purpose, the utility model provides the following technical scheme: an anti-pulling antibacterial breathable fiber fabric comprises a fabric body, a nano-silver fiber fabric layer, a bamboo charcoal fiber layer, a first cotton plant fiber layer and a weaving layer, wherein the weaving layer is arranged at the central position inside the fabric body, the first cotton plant fiber layer is arranged inside the fabric body above the weaving layer, the bamboo charcoal fiber layer is arranged inside the fabric body at one end, away from the weaving layer, of the first cotton plant fiber layer, the nano-silver fiber fabric layer is arranged inside the fabric body above the bamboo charcoal fiber layer, an upper fabric base layer is arranged inside the fabric body at one end, away from the bamboo charcoal fiber layer, of the nano-silver fiber fabric layer, a second cotton plant fiber layer is arranged inside the fabric body below the weaving layer, a tencel fiber layer is arranged inside the fabric body at one end, away from the weaving layer, of the second cotton plant fiber layer, and a kapok fiber layer is arranged inside the fabric body below the tencel fiber layer, the inner part of the fabric body at one end, far away from the tencel fiber layer, of the kapok fiber layer is provided with a lower fabric base layer.

Preferably, the top of the upper fabric base layer is painted with drawings at equal intervals, so that the aesthetic property of the fiber fabric is improved.

Preferably, the top of the first cotton plant fiber layer is provided with first air holes at equal intervals, and the bottom ends of the first air holes extend to the outside of the first cotton plant fiber layer, so that the ventilation performance of the fiber fabric is improved.

Preferably, the inside cross arrangement of weaving layer has equidistant cellulose base graphene fiber warp and the weft of cellulose base graphene fiber, cellulose base graphene fiber warp and the both ends of cellulose base graphene fiber weft all with the inner wall fixed connection of weaving layer to make the anti-pulling performance of fibre surface fabric obtain promoting.

Preferably, the top of the second cotton plant fiber layer is provided with second air holes at equal intervals, and the bottom ends of the second air holes extend to the outside of the first cotton plant fiber layer, so that the ventilation performance of the fiber fabric is improved.

Preferably, crisscross first strengthening wire and the second strengthening wire of being provided with on the outer wall of cellulose base graphite alkene fibre warp, the both ends of first strengthening wire and second strengthening wire all with the inner wall fixed connection of weaving layer to make the tensile resistance of fibre surface fabric obtain promoting.

Compared with the prior art, the utility model has the beneficial effects that: the anti-pulling antibacterial breathable fiber fabric has the advantages that the phenomenon that the fiber fabric is damaged by human bodies when used is reduced, the comfort of the human bodies when the fiber fabric is used is improved, and the service life of the fiber fabric is prolonged.

(1) Through setting up nano silver fiber precoat and bamboo charcoal fiber layer inside the surface fabric body of first cotton plant fiber layer top, and set up tencel fiber layer and kapok fiber layer inside the surface fabric body of second cotton plant fiber layer below, because of nano silver fiber precoat, bamboo charcoal fiber layer, tencel fiber layer and kapok fiber layer all have good antibacterial property, make fibrous fabric's antibacterial property promoted, breed a large amount of bacteriums in order to reduce fibrous surface fabric, thereby the phenomenon of harm is caused to the human body when having reduced fibrous surface fabric and using.

(2) Through setting up first cotton plant fiber layer and the cotton plant fiber layer of second inside the surface fabric body at weaving layer both ends, all have good air permeability because of first cotton plant fiber layer and the cotton plant fiber layer of second, and the inside that is located first cotton plant fiber layer and the cotton plant fiber layer of second is provided with equidistant first bleeder vent and second bleeder vent respectively, make fibrous surface fabric's air permeability obtain promoting, and then can reduce the human phenomenon emergence that produces sweat stain, thereby human travelling comfort when having improved fibrous surface fabric and using.

(3) Through setting up cellulose base graphite alkene fibre warp and cellulose base graphite alkene fibre weft in the inside of weaving layer alternately, and be located crisscross first enhancement silk and the second enhancement silk of being provided with on the outer wall of cellulose base graphite alkene fibre warp to make the tenacity intensity of fibre surface fabric obtain promoting, and then can reduce the fibre surface fabric and produce deformation or cracked phenomenon because of dragging, thereby prolonged the life of fibre surface fabric.

Drawings

Fig. 1 is a schematic front sectional view of the present invention.

Fig. 2 is a schematic top view of the woven layer of the present invention.

Fig. 3 is a schematic top view of the present invention.

Fig. 4 is a schematic top view of the first cotton plant fiber layer of the present invention.

Fig. 5 is a schematic top view of a second cotton plant fiber layer of the present invention.

In the figure: 1. a fabric body; 2. a top material base layer; 3. a nano silver fiber fabric layer; 4. a bamboo charcoal fiber layer; 5. a first cotton plant fiber layer; 6. weaving layer; 7. a second cotton plant fiber layer; 8. a tencel fiber layer; 9. a kapok fiber layer; 10. a lower material base layer; 11. cellulose-based graphene fiber warp threads; 12. a first reinforcing wire; 13. cellulose-based graphene fiber weft yarns; 14. a second reinforcing wire; 15. drawing; 16. a first air vent; 17. and a second air hole.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-5, an embodiment of the present invention is shown: the utility model provides an antibiotic ventilative fibre surface fabric that anti-pulling was dragged, including surface fabric body 1, nano silver fiber precoat 3, bamboo charcoal fiber layer 4, first cotton plant fiber layer 5 and weaving layer 6, 1 inside central point department of putting of surface fabric body is equipped with weaving layer 6, 6 inside alternately of weaving layer is provided with equidistant cellulose base graphite alkene fiber warp 11 and cellulose base graphite alkene fiber weft 13, cellulose base graphite alkene fiber warp 11 and cellulose base graphite alkene fiber weft 13 both ends all with 6 inner wall fixed connection of weaving layer.

During the use, through crossing the warp 11 with cellulose base graphene fiber weft 13 in weaving layer 6 to make the tensile performance of dragging of fibre surface fabric obtain promoting.

The outer wall of the cellulose-based graphene fiber warp 11 is provided with first reinforcing wires 12 and second reinforcing wires 14 in a staggered manner, and the two ends of the first reinforcing wires 12 and the two ends of the second reinforcing wires 14 are fixedly connected with the inner wall of the woven layer 6.

During the use, be provided with first reinforcing wire 12 and second reinforcing wire 14 through being located cellulose base graphene fiber warp 11's outer wall on the mistake to make fibre surface fabric's anti-pulling performance obtain promoting.

The inside first cotton plant fiber layer 5 that is equipped with of surface fabric body 1 of 6 tops of weaving layer, the top of first cotton plant fiber layer 5 is equipped with equidistant first bleeder vent 16, and the bottom of first bleeder vent 16 extends to the outside of first cotton plant fiber layer 5.

During the use, through setting up the inside of first cotton plant fiber layer 5 with first bleeder vent 16 equidistant to make the ventilation performance of fiber fabric obtain promoting.

The inside bamboo charcoal fiber layer 4 that is equipped with of surface fabric body 1 that weaving layer 6 one end was kept away from to first cotton plant fiber layer 5, the inside nano silver fiber precoat 3 that is equipped with of surface fabric body 1 above bamboo charcoal fiber layer 4, nano silver fiber precoat 3 keep away from the inside basic unit 2 of surface fabric body of surface fabric of bamboo charcoal fiber layer 4 one end, the top of basic unit 2 of surface fabric is painted the drawing of equidistant 15.

When the fabric is used, the drawings 15 are arranged on the top of the upper fabric base layer 2 at equal intervals, so that the attractiveness of the fabric is improved.

The inside cotton plant fiber layer 7 of second that is equipped with of surface fabric body 1 of weaving layer 6 below, the top of the cotton plant fiber layer 7 of second is equipped with equidistant second bleeder vent 17, and the bottom of second bleeder vent 17 extends to the outside of first cotton plant fiber layer 5.

During the use, through setting up the inside in second cotton plant fiber layer 7 with second bleeder vent 17 equidistant to make the ventilation performance of fiber fabric obtain promoting.

The cotton plant fiber layer 7 of second keeps away from 1 inside being equipped with the tencel fibrous layer 8 of surface fabric body of 6 one ends of weaving layer, and 1 inside being equipped with kapok fibrous layer 9 of surface fabric body of 8 below of tencel fibrous layer, and kapok fibrous layer 9 keeps away from 1 inside being equipped with down material basic unit 10 of surface fabric body of 8 one ends of tencel fibrous layer.

When the fabric is used, the nano-silver fiber fabric layer 3 and the bamboo charcoal fiber layer 4 are arranged inside the fabric body 1 above the first cotton plant fiber layer 5, the tencel fiber layer 8 and the kapok fiber layer 9 are arranged inside the fabric body 1 below the second cotton plant fiber layer 7, so that the antibacterial performance of the fiber fabric is improved due to the good antibacterial performance of the nano-silver fiber fabric layer 3, the bamboo charcoal fiber layer 4, the tencel fiber layer 8 and the kapok fiber layer 9, then the first cotton plant fiber layer 5 and the second cotton plant fiber layer 7 are arranged inside the fabric body 1 at two ends of the woven layer 6, the first cotton plant fiber layer 5 and the second cotton plant fiber layer 7 have good air permeability, and the first air vent 16 and the second air vent 17 which are arranged at equal intervals inside the first cotton plant fiber layer 5 and the second cotton plant fiber layer 7 are respectively, make the ventilation performance of fibre surface fabric obtain promoting, set up in the inside of weaving layer 6 through crossing cellulose base graphene fiber warp 11 and cellulose base graphene fiber weft 13 at last, and be located the crisscross first enhancement silk 12 and the second enhancement silk 14 that is provided with on the outer wall of cellulose base graphene fiber warp 11 to make the tenacity intensity of fibre surface fabric obtain promoting, and then reach the mesh that the tensile was dragged, thereby accomplish the use of fibre surface fabric.

Claims (6)

1. The anti-pulling antibacterial breathable fiber fabric is characterized by comprising a fabric body (1), a nano-silver fiber fabric layer (3), a bamboo charcoal fiber layer (4), a first cotton plant fiber layer (5) and a weaving layer (6), wherein the weaving layer (6) is arranged at the central position inside the fabric body (1), the first cotton plant fiber layer (5) is arranged inside the fabric body (1) above the weaving layer (6), the bamboo charcoal fiber layer (4) is arranged inside the fabric body (1) at the end, far away from the weaving layer (6), of the first cotton plant fiber layer (5), the nano-silver fiber fabric layer (3) is arranged inside the fabric body (1) above the bamboo charcoal fiber layer (4), the upper fabric base layer (2) is arranged inside the fabric body (1) at the end, far away from the bamboo charcoal fiber layer (4), of the nano-silver fiber fabric layer (3), the fabric comprises a fabric body (1) and is characterized in that a second cotton plant fiber layer (7) is arranged inside the fabric body (1) below the weaving layer (6), a tencel fiber layer (8) is arranged inside the fabric body (1) far away from one end of the weaving layer (6) on the second cotton plant fiber layer (7), a kapok fiber layer (9) is arranged inside the fabric body (1) below the tencel fiber layer (8), and a lower fabric base layer (10) is arranged inside the fabric body (1) far away from one end of the tencel fiber layer (8) on the kapok fiber layer (9).

2. The stretch-resistant antibacterial breathable fiber fabric according to claim 1, characterized in that: the top of the upper material base layer (2) is drawn with picture drawings (15) with equal intervals.

3. The stretch-resistant antibacterial breathable fiber fabric according to claim 1, characterized in that: the top of first cotton plant fiber layer (5) is equipped with equidistant first bleeder vent (16), the bottom of first bleeder vent (16) extends to the outside of first cotton plant fiber layer (5).

4. The stretch-resistant antibacterial breathable fiber fabric according to claim 1, characterized in that: the weaving layer (6) is internally and crossly provided with cellulose base graphene fiber warp (11) and cellulose base graphene fiber weft (13) at equal intervals, and both ends of the cellulose base graphene fiber warp (11) and the cellulose base graphene fiber weft (13) are fixedly connected with the inner wall of the weaving layer (6).

5. The stretch-resistant antibacterial breathable fiber fabric according to claim 1, characterized in that: the top of the second cotton plant fiber layer (7) is provided with second air holes (17) at equal intervals, and the bottom ends of the second air holes (17) extend to the outside of the first cotton plant fiber layer (5).

6. The stretch-resistant antibacterial breathable fiber fabric according to claim 4, wherein: the outer wall of the cellulose-based graphene fiber warp (11) is provided with first reinforcing wires (12) and second reinforcing wires (14) in a staggered mode, and the two ends of the first reinforcing wires (12) and the two ends of the second reinforcing wires (14) are fixedly connected with the inner wall of the woven layer (6).

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