CN216466627U - Antibacterial breathable coat - Google Patents

Abstract

The utility model discloses an antibiotic ventilative jacket belongs to clothing technical field, which comprises a body, the body both sides are provided with the coat-sleeve, armpit department between coat-sleeve and the body is sewed up and is provided with ventilative antibiotic cloth, and ventilative antibiotic cloth extends to the chest department of body, ventilative antibiotic cloth from interior to exterior includes close skin layer, antibiotic layer, hygroscopic layer, fast dry layer and ventilative wearing layer in proper order. The breathable and antibacterial cloth improves the breathability and antibacterial performance of armpits, so that sweat cannot accumulate at the armpits of the jacket, bacteria cannot grow, and discomfort caused by the sweat and the bacteria is avoided; the breathable antibacterial cloth extends to the chest of the body, so that even when the armpit is clamped by the sleeves, outside air and sweat in clothes can enter and be discharged from the chest, the breathability of the armpit is guaranteed, and the phenomenon that the armpit is blocked and cannot ventilate due to the fact that the sleeves are clamped is avoided.

Description

Antibacterial breathable coat

Technical Field

The utility model discloses an antibacterial breathable coat, which belongs to the technical field of clothes.

Background

The jacket appeared in the era of invar in china at the latest. The jacket is developed to be a variety which is selected from a plurality of varieties such as a shirt, a jacket, a vest and the like, and has certain influence on the dressing of Japan, Korea, Vietnam, Singapore and other southeast Asia countries in the forms of plane shape and unique collar, flap, button and the like. The ancient Egypt, ancient Greece and ancient Roman have been the jackets of Hiton clothes, corset clothes, shirts and the like for a long time. Western-style men commonly wear western-style clothes since the middle of the 19 th century. Various portable tops that facilitate outdoor activities are increasingly used in the future.

The existing jacket has poor heat dissipation and antibiosis for armpits, so that sweat can be accumulated under the armpits frequently, bacteria can be bred, and discomfort of a wearer can be caused.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the problems and provide an antibacterial breathable coat.

The utility model discloses a following technical scheme realizes above-mentioned purpose, an antibiotic ventilative jacket, which comprises a body, the body both sides are provided with the coat-sleeve, armpit department between coat-sleeve and the body is sewed up and is provided with ventilative antibiotic cloth, and ventilative antibiotic cloth extends to the chest department of body, ventilative antibiotic cloth from interior to exterior includes close skin layer, antibiotic layer, moisture absorption layer, fast dry layer and ventilative wearing layer in proper order.

By adopting the technical scheme, the breathable and antibacterial cloth is arranged at the armpit between the upper garment body and the sleeves, so that the breathability and antibacterial performance of the armpit are improved, sweat cannot accumulate at the armpit of the upper garment, bacteria cannot grow, and discomfort caused by the sweat and the bacteria is avoided; the breathable antibacterial cloth extends to the chest part of the body, so that even when the armpit is clamped by the sleeves, outside air and sweat in the clothes can enter and discharge from the chest part, the breathability of the armpit is ensured, and the phenomenon that the armpit is blocked due to clamping of the sleeves and cannot ventilate is avoided; the breathable and antibacterial cloth achieves the performances of breathability, skin friendliness, antibiosis, wear resistance and the like through the skin-friendly layer, the antibacterial layer, the moisture absorption layer, the quick drying layer and the breathable wear-resistant layer, and the comfort of a wearer is improved.

Preferably, the antibacterial layer is formed by weaving antibacterial yarns, the antibacterial yarns are formed by spirally winding first yarns and second yarns on base yarns, the first yarns are kapok fibers, the second yarns are chitosan fibers, and the base yarns are fibrilia.

By adopting the technical scheme, the antibacterial yarns formed by winding the kapok fibers and the chitosan fibers on the fibrilia can provide antibacterial performance for the breathable antibacterial cloth, and the three yarns have resistance to different strains and can limit the breeding of bacteria in different modes, so that the antibacterial performance is improved.

Preferably, the moisture absorption layer comprises a diffusion layer and moisture absorption yarns, the diffusion layer is formed by weaving third yarns in a weft knitting tuck knitting mode, the moisture absorption yarns extend from the skin-friendly layer to the diffusion layer and form up-and-down sinking and floating with the diffusion layer, and the third yarns are high-moisture-conductivity polyester fibers.

By adopting the technical scheme, the moisture absorption yarns extend from the skin-friendly layer to the diffusion layer, so that sweat generated by a wearer can be absorbed at the first time and guided to the diffusion layer, and the moisture absorption efficiency is increased; the diffusion layer formed by weaving the high moisture-conducting polyester fiber weft knitted tucks can rapidly conduct and disperse sweat absorbed by the moisture-absorbing yarns, so that the moisture-absorbing yarns can continuously absorb the sweat, and the moisture-absorbing efficiency is improved.

Preferably, the breathable wear-resistant layer is formed by weaving fourth yarns, fifth yarns and sixth yarns according to a plain weave, the fourth yarns are polyester fibers, the fifth yarns are polybutylene terephthalate fibers, and the sixth yarns are mohair fibers.

By adopting the technical scheme, the breathable wear-resistant layer woven by the polyester fibers, the polybutylene terephthalate fibers and the mohair fibers in the plain weave can greatly improve the wear resistance and the breathability of the breathable antibacterial cloth, prevent the breathable antibacterial cloth from being damaged due to frequent friction between the sleeves and the body, and prolong the service life of the breathable antibacterial cloth.

Preferably, the warp threads in the breathable wear-resistant layer are interwoven with the weft threads in a three-space-one mode.

Through adopting above-mentioned technical scheme, set up warp and weft in the wear-resisting layer of breathing freely into the mode of weaving that separates the sky one for can produce ventilative hole on the wear-resisting layer of breathing freely, increased the ventilation effect of ventilative antibiotic cloth.

Preferably, the skin-friendly layer is woven from lyocell fibers.

By adopting the technical scheme, the lyocell fiber has the characteristics of comfort, good hand feeling, easy dyeing and the like, and the skin-friendly layer woven by the lyocell fiber can bring more comfortable wearing experience to a wearer.

Preferably, the quick drying layer is formed by weaving Cool Dry moisture absorption and sweat releasing fibers.

By adopting the technical scheme, the Cool Dry moisture absorption and sweat releasing fiber integrates the comfort of cotton and the fast drying property of terylene, so that the skin of a human body keeps Dry and comfortable all the time, and the fast drying layer formed by weaving the Cool Dry moisture absorption and sweat releasing fiber can enable sweat on the moisture absorption layer to be volatilized fast.

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

the breathable and antibacterial cloth composed of the skin-friendly layer, the antibacterial layer, the moisture absorption layer, the quick-drying layer and the breathable wear-resistant layer is arranged at the armpit of the clothes body, so that the breathable and antibacterial performances of the armpit of the clothes are greatly improved, and sweat can not accumulate at the armpit and bacteria can not easily grow after a wearer wears the coat; and the breathable antibacterial cloth extends to the chest of the body, so that air can enter the armpit when the armpit is blocked by the sleeves, and the breathability of the armpit is ensured.

Drawings

Fig. 1 is a schematic view of the overall structure of an antibacterial breathable coat according to the present invention;

fig. 2 is a schematic cross-sectional view of the air-permeable and antibacterial cloth of the antibacterial and air-permeable upper garment of the present invention;

fig. 3 is a schematic structural view of the antibacterial yarn of the antibacterial breathable upper garment of the present invention;

fig. 4 is a schematic view of the weaving structure of the moisture absorption layer of the antibacterial breathable coat;

fig. 5 is a schematic view of the weaving structure of the air-permeable wear-resistant layer of the antibacterial air-permeable coat of the present invention.

Reference numerals: 1. a body; 2. sleeves; 3. a breathable antibacterial cloth; 4. a skin-friendly layer; 5. an antimicrobial layer; 6. a moisture-absorbing layer; 7. a quick-drying layer; 8. a breathable wear-resistant layer; 9. a first yarn; 10. a second yarn; 11. a base yarn; 12. a third yarn; 13. a moisture-wicking yarn; 14. a fourth yarn; 15. a fifth yarn; 16. and a sixth yarn.

Detailed Description

In the following description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like refer to the orientation or position relationship shown in the drawings, and are only for convenience of description and simplification of the description, but do not refer to or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus are not to be construed as limiting the present invention. 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.

As shown in fig. 1, 2, 3, 4 and 5, the antibacterial breathable coat comprises a body 1, sleeves 2 are arranged on two sides of the body 1, and breathable antibacterial cloth 3 is sewn at armpits between the sleeves 2 and the body 1. The breathable antibacterial cloth 3 sequentially comprises a skin-friendly layer 4, an antibacterial layer 5, a moisture absorption layer 6, a quick-drying layer 7 and a breathable wear-resistant layer 8 from inside to outside, so that the breathable antibacterial cloth 3 has the characteristics of skin friendliness, antibiosis, moisture absorption, quick drying, breathability, wear resistance and the like, sweat can not be accumulated under the armpit and bacteria can not be bred when a wearer wears the coat, and the breathable antibacterial cloth is more comfortable to wear.

The skin-friendly layer 4 is formed by weaving lyocell fibers, the lyocell fibers have the characteristics of comfort, good hand feeling, easiness in dyeing and the like, and the skin-friendly layer 4 formed by weaving the lyocell fibers can bring more comfortable wearing experience to a wearer.

The antibacterial layer 5 is formed by weaving antibacterial yarns, and the antibacterial yarns are formed by spirally winding a first yarn 9 formed by weaving kapok fibers and a second yarn 10 formed by weaving chitosan fibers on a base yarn 11 formed by weaving hemp fibers. The kapok fiber has a large hollow structure with two closed ends, is not beneficial to the survival of anaerobic bacteria, has an obvious bacteriostatic action on escherichia coli, and has an obvious mite-repellent effect. The chitosan fiber has good affinity and nontoxicity to protein, and has good antibacterial effect on various bacteria and fungi. The fibrilia also has obvious bacteriostatic action, and is especially obvious for pseudomonas aeruginosa, candida albicans and the like. The antibacterial yarn formed by weaving the three antibacterial fibers has a stronger antibacterial effect, so that the possibility of bacteria breeding at the armpit of a wearer is greatly reduced.

The moisture absorption layer 6 comprises moisture absorption yarns 13 for absorbing sweat and a diffusion layer for conducting sweat away. The moisture-absorbing yarns 13 extend from the skin-friendly layer 4 to the diffusion layer and float up and down with the diffusion layer, so that the moisture-absorbing yarns 13 can contact sweat of a wearer when the sweat is generated, absorb the sweat and then conduct the sweat to the diffusion layer. The third yarn 12 that the diffusion layer was woven by high wet polyester fiber adopts the weft knitting tuck to weave and forms, has consequently formed the more broad sweat space of leading to because high wet polyester fiber has the characteristics of leading fast, consequently after sweat is conducted to the diffusion layer from moisture absorption yarn 13, will be led rapidly and scatter, makes sweat can not be amassed in moisture absorption yarn 13, and can make the continuous absorption sweat of moisture absorption yarn 13. The moisture absorption effect is enhanced.

The quick-drying layer 7 is formed by weaving the Cool Dry moisture absorption and sweat release fibers, the Cool Dry moisture absorption and sweat release fibers integrate the comfort of cotton and the quick-drying property of terylene, so that the skin of a human body can be kept Dry and comfortable all the time, and the quick-drying layer 7 formed by weaving the Cool Dry moisture absorption and sweat release fibers can enable sweat on the moisture absorption layer 6 to be volatilized quickly, so that the drying of the breathable antibacterial cloth 3 is ensured, and a wearer feels more comfortable.

The air-permeable and wear-resistant layer 8 is woven by a plain weave of fourth yarns 14 knitted with polyester fibers, fifth yarns 15 knitted with polybutylene terephthalate fibers, and sixth yarns 16 knitted with mohair fibers. The polyester fiber has the advantages of good crease resistance and shape retention, high strength and elastic recovery capability, firmness and durability, crease resistance, no ironing and no hair sticking. The polybutylene terephthalate fiber has excellent chemical resistance, light resistance and heat resistance, good durability, dimensional stability and better elasticity, and the elasticity is not influenced by humidity, soft hand feeling, good moisture absorption, wear resistance and fiber crimpability, and excellent tensile elasticity and compression elasticity. The mohair fiber has the characteristics of high elastic recovery rate, strong crease resistance, good wear resistance and good moisture absorption. The three are woven by plain weave, so that the breathable wear-resistant layer 8 has extremely high wear resistance, and the breathable performance of the breathable wear-resistant layer is not affected. And the warps of the breathable wear-resistant layer 8 are interwoven with the wefts in a three-space-one separating mode, so that a plurality of large pores are generated on the breathable wear-resistant layer 8, and the breathability of the breathable wear-resistant layer 8 is enhanced.

The air-permeable antibacterial cloth 3 extends to the chest of the body 1, so that even if the armpit is clamped by the sleeves 2 and the air-permeable antibacterial cloth 3 of the armpit is blocked, the outside air can enter the armpit from the chest, and the sweat in the armpit can be discharged to the chest from the armpit. The air permeability of the armpit is guaranteed, and the situation that the armpit cannot be ventilated due to the fact that the armpit is clamped by the sleeves 2 is avoided.

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 specification describes embodiments, not every embodiment includes only a single embodiment, and such description is for clarity purposes only, and it is to be understood that all embodiments may be combined as appropriate by one of ordinary skill in the art to form other embodiments as will be apparent to those of skill in the art from the description herein.

Claims (7)

1. The utility model provides an antibiotic ventilative jacket, includes body (1), its characterized in that: the body (1) both sides are provided with coat-sleeve (2), armpit department between coat-sleeve (2) and body (1) is sewed up and is provided with ventilative antibiotic cloth (3), and ventilative antibiotic cloth (3) extend to the chest department of body (1), ventilative antibiotic cloth (3) include skin-friendly layer (4), antibiotic layer (5), moisture absorption layer (6), fast dry layer (7) and ventilative wearing layer (8) from interior to exterior in proper order.

2. The antibacterial breathable coat according to claim 1, wherein: the antibacterial layer (5) is formed by weaving antibacterial yarns, the antibacterial yarns are formed by spirally winding first yarns (9) and second yarns (10) on base yarns (11), the first yarns (9) are kapok fibers, the second yarns (10) are chitosan fibers, and the base yarns (11) are fibrilia.

3. The antibacterial breathable coat according to claim 1, wherein: the moisture absorption layer (6) comprises a diffusion layer and moisture absorption yarns (13), the diffusion layer is formed by weaving third yarns (12) in a weft knitting tuck mode, the moisture absorption yarns (13) extend to the diffusion layer from the skin-friendly layer (4) and are up-down floated with the diffusion layer, and the third yarns (12) are high-moisture-conductivity polyester fibers.

4. The antibacterial breathable coat according to claim 1, wherein: the breathable wear-resistant layer (8) is formed by weaving fourth yarns (14), fifth yarns (15) and sixth yarns (16) according to a plain weave, the fourth yarns (14) are polyester fibers, the fifth yarns (15) are polybutylene terephthalate fibers, and the sixth yarns (16) are mohair fibers.

5. The antibacterial breathable coat according to claim 4, wherein: the warps in the breathable wear-resistant layer (8) are interwoven with the wefts in a three-space-one mode.

6. The antibacterial breathable coat according to claim 1, wherein: the skin-friendly layer (4) is formed by weaving lyocell fibers.

7. The antibacterial breathable coat according to claim 1, wherein: the quick drying layer (7) is formed by weaving Cool Dry moisture absorption and sweat releasing fibers.

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