CN218008237U - Antibacterial knitted sweater - Google Patents

Abstract

The utility model discloses an antibacterial knitted sweater, including the abdomen portion, chest back portion is connected on abdomen portion upper portion, chest back portion bilateral symmetry connection sleeve, the abdomen portion is woven by solona fibre, cotton fiber and is made the surface fabric that forms, the chest back portion is woven by cotton fiber, solona fibre and antibacterial composite fiber and is made the surface fabric that forms, antibacterial composite fiber includes the core yarn, the core yarn is formed by one T400 elastic fiber, one antibacterial spandex fibre plying, the silver ion fiber is twined to the outside S of core yarn package, and the magnetic fiber is twined to the Z package. Through the structure, the problem that the cotton jersey and the surface of the skin of a human body are easy to become a hotbed for breeding bacteria and mites after the human body secretes grease is effectively solved.

Description

Antibacterial knitted sweater

Technical Field

The utility model relates to a knitted sweater, in particular to an antibacterial knitted sweater.

Background

The knitted sweater is a technical product which uses a knitting needle to form loops by various raw materials and varieties of yarns, and then is connected into knitted fabric through serial sleeving, namely the knitted fabric is knitted by the knitting needle. The fabric is soft, has good wrinkle resistance and air permeability, has larger extensibility and elasticity, and is comfortable to wear. Cotton jersey, one of the knitwear, is widely used as underwear because of its good skin-contact and elasticity. The chest and the shoulder of a human body are known to be areas with vigorous grease secretion, and the grease which is secreted cannot be quickly adsorbed after the common cotton sweater is contacted with the skin of the human body, so that the grease is accumulated to become a hotbed for breeding bacteria and mites, and the skin is easy to be allergic or have acne. Therefore, there is a need for a knitted sweater with antibacterial function to inhibit the growth of bacteria and mites.

SUMMERY OF THE UTILITY MODEL

In view of the above insufficiency, the utility model aims to provide an antibacterial knitted sweater to solve the problem of breeding of bacteria and mites at the thorax and the shoulder and back.

In order to achieve the above purpose, the technical scheme of the utility model is that:

the utility model provides an antibacterial knitted sweater, includes abdomen portion, chest back portion is connected on abdomen portion upper portion, and chest back portion bilateral symmetry connects the sleeve, abdomen portion is made by the surface fabric that solona fibre, cotton fiber woven and form, chest back portion is made by the surface fabric that cotton fiber, solona fibre and antibacterial composite fiber woven and form, antibacterial composite fiber includes the core yarn, the core yarn is formed by one T400 elastic fiber, one antibacterial spandex fiber plying, the outside S of core yarn twists with the fingers and wraps silver ion fiber, and Z twists with the fingers and wraps magnetic fiber.

The manufacturing fabric of the chest and the back uses the cotton fiber to enable the fabric to have the skin-friendly performance of sweat absorption and ventilation when being woven, and simultaneously enables the fabric to have better elasticity after the Solona fiber is mixed in, so that the fitting performance of the chest and the back and a human body is improved. And the bacteriostatic composite fiber has the effect of inhibiting bacterial breeding and mites. Specifically, core yarn among the antibacterial composite fiber adopts and has elastic T400 elastic fiber and the antibacterial spandex fiber plying formation that has antibacterial ability, and the core yarn of this kind of form possesses better elasticity for antibacterial fiber has better elasticity extending ability, has guaranteed to use antibacterial composite fiber's the elasticity extending ability of back not influenced, and it is then in order to restrain the bacterium that human back bred easily through silver ion fibrous characteristic of disinfecting at the outside package silver ion fibre of core yarn. In addition, the wrapped magnetic fibers can promote metabolism of the surface layer of the skin of the human body through a micro magnetic field formed on the magnetic fibers, and discharge metabolites out of the human body quickly, so that mites are prevented from breeding in pores of the human body.

Preferably, the core yarn is wrapped with a strand of microporous fiber.

The microporous fiber has strong adsorption capacity, and after a human body secretes grease, the porous fiber can quickly adsorb the grease secreted by the human body, so that the grease is prevented from being accumulated on the surface of the skin of the human body to form a hotbed for breeding bacteria and mites.

Preferably, a strand of alginate fiber is further arranged in the core yarn.

Alginate fiber has extremely strong bacteriostatic action equally, and the core yarn is in bacteriostatic composite fiber's central point and puts, increases alginate fiber and can promote the bacteriostatic ability that bacteriostatic composite fiber provided inside.

Preferably, the upper part of the chest and back is provided with a collar standing part which is woven by bacteriostatic composite fibers.

The stand collar part is wrapped around the neck of a human body, grease on the neck is more vigorously secreted, and the stand collar part is made of the fabric which is directly woven by the bacteriostatic composite fibers and has the function of restraining growth of bacteria and mites to the maximum extent.

Has the beneficial effects that: through the structure, the problem that the cotton jersey and the surface of the skin of a human body are easy to become a hotbed for breeding bacteria and mites after the human body secretes grease is effectively solved.

Drawings

Fig. 1 is a front view of the present invention;

fig. 2 is a rear view of the present invention;

FIG. 3 is a structural diagram of a fabric for making waist and abdomen;

FIG. 4 is a weave diagram of a chest and back side making fabric;

FIG. 5 is a structural view of a fabric for making a stand-up collar portion;

fig. 6 is a schematic structural diagram of the bacteriostatic composite yarn.

Reference numerals: 100. 200 parts of waist and abdomen, 300 parts of chest and back, 400 parts of sleeves, 500 parts of standing collar, 600 parts of Solona fibers, 700 parts of cotton fibers, 710 parts of bacteriostatic composite fibers, 711 parts of core yarns, 712 parts of T400 elastic fibers, 713 parts of antibacterial spandex fibers, 720 parts of alginate fibers, 730 parts of silver ion fibers, 740 parts of magnetic fibers and microporous fibers.

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.

An antibacterial knitted sweater as shown in fig. 1 to 6 includes a waist part 100 covering a waist and an abdomen of a human body, a chest part 200 covering a chest and a back of the human body is provided on an upper part of the waist part, and two sleeves 300 are symmetrically provided on both sides of the chest part. Meanwhile, a standing collar part 400 capable of wrapping the neck of the human body is arranged on the chest and back part.

The abdomen part 100 is made of a fabric woven from the sorona fibers 500 and the cotton fibers 600, and as shown in fig. 3, the fabric of the abdomen part is in a rib weave form. The chest and back 200 is made of a fabric woven by cotton fibers 600, solona fibers 500 and bacteriostatic composite fibers 700. And takes the form of a rib weave as shown in figure 4. The bacteriostatic composite fiber is composed of a core yarn 710, and silver ion fibers 720 and magnetic fibers 730 wrapped around the core yarn. Wherein, silver ion fiber S twists are wrapped outside the core yarn, and magnetic fiber Z twists are wrapped outside the core yarn. The core yarn is formed by plying a plurality of yarns. Specifically, the core yarn 710 includes a strand of T400 elastic fiber 711 and a strand of antibacterial spandex fiber 712. In order to increase the bacteriostatic ability of the core yarn, a strand of alginate fiber 713 can be added into the core yarn. In addition, the standing collar part 400 is made of a fabric woven by bacteriostatic composite fibers. The organization structure is shown in fig. 5.

It should be noted that, in order to improve the grease adsorption capacity of the chest and back, the bacteriostatic composite fiber further comprises a microporous fiber 740 wrapped outside the core yarn. Specifically, the microporous fiber is provided by a Kentate fiber.

Claims (4)

1. An antibacterial knitted sweater, which is characterized in that: including abdomen portion, abdomen portion upper portion connects the chest back portion, and chest back portion both sides symmetry connects the sleeve, abdomen portion is made by the surface fabric that the solona fibre, cotton fiber weave formed, the chest back portion is made by the surface fabric that cotton fiber, solona fibre and antibacterial composite fiber weave formed, antibacterial composite fiber includes the core yarn, the core yarn is formed by one T400 elastic fiber, one antibacterial spandex fiber plying, the outside S of core yarn twists with a thread and wraps silver ion fiber, and Z twists with a thread and wraps magnetic fiber.

2. An antibacterial knitted sweater according to claim 1, characterized in that: and a strand of microporous fiber is wrapped outside the core yarn.

3. An antibacterial knitted sweater according to claim 1, characterized in that: a strand of alginate fiber is also arranged in the core yarn.

4. An antibacterial knitted sweater according to claim 1, characterized in that: the upper portion of the chest and back portion is provided with a collar standing portion, and the collar standing portion is formed by weaving antibacterial composite fibers.

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