CN216193150U - Zinc antibacterial elastic breathable fabric - Google Patents

Abstract

The application relates to a ventilative surface fabric of antibiotic elasticity of zinc, it includes the surface fabric body, the surface fabric body is woven by three sley bars of GB1, GB2 and GB3 and is formed, at least one includes antibiotic polyamide fibre yarn in GB1 and GB2, antibiotic polyamide fibre yarn is antibiotic polyamide fibre of zinc, GB3 includes elasticity yarn. The antibacterial nylon yarn is characterized in that both GB1 and GB2 are antibacterial nylon yarns, the elastic yarns are spandex, the tissue structure of GB1 is 10/12/23/21, the tissue structure of GB2 is 23/21/10/12, and the tissue structure of GB3 is 10/12/23/21. The fabric body is provided with densely distributed breathable meshes. This application has the antibiotic effect that just possesses the gas permeability of extension.

Description

Zinc antibacterial elastic breathable fabric

Technical Field

The application relates to the field of fabrics, in particular to a zinc antibacterial elastic breathable fabric.

Background

Warp-knitted fabrics are fabrics formed by simultaneously looping one or more sets of parallel aligned yarns over all the working needles of a warp-feed machine. Warp-knitted fabrics are usually made from synthetic filament yarns of terylene, chinlon, polypropylene and the like, and also from cotton, wool, silk, hemp, chemical fiber and blended yarns thereof.

The warp-knitted fabric can be used for various occasions such as clothes, curtains, sofas and the like. Warp-knitted fabrics also have good dimensional stability, and in order to achieve some special functions of the fabrics, such as improving air permeability, antibacterial ability, warmth retention, etc., the woven fabrics are often subjected to post-finishing treatment.

In view of the above related technologies, the inventor believes that when the fabric needs to achieve a certain antibacterial capacity, the antibacterial performance is achieved by coating an antibacterial coating on the surface of the fabric, and the antibacterial coating is easy to fall off in subsequent multiple washing processes, so that the antibacterial time is shortened.

SUMMERY OF THE UTILITY MODEL

In order to prolong the antibacterial time of the fabric body, the application provides a zinc antibacterial elastic breathable fabric.

The application provides a ventilative surface fabric of antibiotic elasticity of zinc adopts following technical scheme:

the zinc antibacterial elastic breathable fabric comprises a fabric body, wherein the fabric body is formed by weaving three guide bars of GB1, GB2 and GB3, at least one of GB1 and GB2 comprises antibacterial nylon yarns, and GB3 comprises elastic yarns.

By adopting the technical scheme, one part of the yarn has antibacterial property, and the yarn has antibacterial capacity, so that subsequent antibacterial treatment on the fabric body is not required after weaving is finished, an antibacterial layer is not required to be coated on the surface of the fabric body, the antibacterial capacity of the fabric body can be better maintained in multiple washing processes, the antibacterial time of the fabric body is correspondingly prolonged, the fabric is more environment-friendly, good rebound resilience can be achieved when the fabric is used as a garment fabric, and the fabric body is more suitable for being used as underwear.

Optionally, both GB1 and GB2 are antibacterial nylon yarns, the elastic yarn is spandex, the weave structure of GB1 is 10/12/23/21, the weave structure of GB2 is 23/21/10/12, and the weave structure of GB3 is 10/12/23/21.

Through adopting above-mentioned technical scheme, the antibiotic polyamide fibre yarn of adoption can possess the effect of polyamide fibre simultaneously, can reach antibiotic effect again, and the close skin nature of polyamide fibre is good, and soft handle can be more comfortable when as next to shin underwear surface fabric.

Optionally, the threading structures of GB1 and GB2 are both through 1 and empty 1, and the threading structure of GB3 is full through.

By adopting the technical scheme, the weave structure and the threading structure of the three guide bars are combined, so that the formed structure after weaving has a certain gap, thereby having good air permeability and improving the defect of poor air permeability of spandex fabrics.

Optionally, the antibacterial nylon yarn is zinc antibacterial nylon.

By adopting the technical scheme, the nylon yarn has zinc, and can have good antibacterial performance by depending on the zinc, so that bacteria can be resisted from being attached to clothes.

Optionally, the fabric body is formed with densely-distributed breathable meshes.

Through adopting above-mentioned technical scheme, make the surface fabric body possess good gas permeability, overcome the gas permeability that the spandex originally did not possess to promote the travelling comfort of monoblock surface fabric body in the in-process of dress.

Optionally, the specification of the antibacterial nylon yarn is 40D/30F.

By adopting the technical scheme, the yarn can reach a good specification size, so that the wearing comfort of the fabric body can be improved by combining the woven texture structure.

Optionally, GB1 still includes the moisture absorbable and breathable yarn that sets up with antibiotic polyamide fibre yarn side by side.

Through adopting above-mentioned technical scheme, when the surface fabric body was as next-to-skin underwear, rely on moisture absorption perspire yarn can absorb and discharge the produced sweat of human body more fast, make the in-process of wearing comfortable more, promote the travelling comfort of dress.

Optionally, the elastic yarn is wrapped with a protective layer.

Through adopting above-mentioned technical scheme, because elasticity yarn can have the easy ageing problem, so can play the protection effect to inside elasticity yarn through the cladding protective layer, prolong the life of elasticity yarn.

In summary, the present application includes at least one of the following beneficial technical effects:

the antibacterial nylon yarns and the elastic yarns are utilized, so that the fabric body has elastic capacity and can achieve good antibacterial property, and the fabric is more suitable for underwear fabrics;

by combining the weave structures and the threading structures of GB1, GB2 and GB3, the fabric finally woven and formed can form meshes, has good air permeability and improves the wearing comfort.

Drawings

Fig. 1 is a structural diagram of GB1 in the zinc antibacterial stretch breathable fabric of example 1.

Fig. 2 is a structural diagram of GB2 in the zinc antibacterial stretch breathable fabric of this example 1.

Fig. 3 is a structural diagram of GB3 in the zinc antibacterial stretch breathable fabric of this example 1.

Fig. 4 is a structural diagram of the zinc antibacterial elastic breathable fabric of the embodiment 1.

Fig. 5 is a cross-sectional view of the elastic yarn of the zinc antibacterial elastic breathable fabric of this embodiment 3.

Description of reference numerals: 1. antibacterial polyester yarn; 2. an elastic yarn; 3. and a protective layer.

Detailed Description

The present application is described in further detail below with reference to figures 1-5.

The embodiment of the application discloses a zinc antibacterial elastic breathable fabric.

Example 1:

the zinc antibacterial elastic breathable fabric comprises a fabric body, wherein the fabric body is formed by weaving three guide bars GB1, GB2 and GB3, GB1 is a first guide bar, GB2 is a second guide bar, and GB3 is a third guide bar.

GB1 and GB2 are antibacterial nylon yarn 1, the specification of the antibacterial nylon yarn 1 is 40D/37F, the antibacterial nylon yarn 1 is zinc antibacterial nylon, the zinc antibacterial nylon is obtained by mixing nano zinc powder into a polyamide raw material and spinning, and the zinc antibacterial nylon obtained by spinning has antibacterial property and nylon effect. In the actual production process, yarns of one of the groups of GB1 or GB2 can be set as nylon yarns according to the actual fabric performance requirements.

Referring to fig. 1, the weave structure of GB1 is 10/12/23/21// wear 1 empty 1, 10/12/23/21 is the yarn laying number, and wear 1 empty 1 is the threading mode.

Referring to fig. 2, the weave structure of GB2 is 23/21/10/12// wear 1 empty 1, 23/21/10/12 is the yarn laying number, and wear 1 empty 1 is the threading mode.

Referring to fig. 3, GB3 includes an elastic yarn 2, the elastic yarn 2 is spandex, the weave structure of GB3 is 10/12/23/21// full through, 10/12/23/21 is a yarn laying number, and full through is a threading manner.

When the fabric body is woven, the fabric body is woven according to the following motion modes: as shown in fig. 1, GB1 is swung in from the needle space 1 and swung out from the needle space 0 to form a first course; then, GB1 is swung in from the needle space 1 and swung out from the needle space 2, thereby forming a second course; then GB1 swings in from the needle space 2 and swings out from the needle space 3, thereby forming a third stitch row; thereafter, GB1 is swung in from the needle space 2 and swung out from the needle space 1 to form a fourth course, and GB1 is swung in from the needle space 1 again to start knitting of the next stitch, thereby continuously performing the circular knitting. Referring to fig. 2, GB2 moves in the opposite direction to GB1, threading is 1-space-1, GB2 swings in from the needle space 2 and out from the needle space 3, thus forming a first course; then, GB2 is swung in from the needle space 2 and swung out from the needle space 1, thereby forming a second stitch row; then GB2 swings in from the needle space 1 and swings out from the needle space 0, thereby forming a third stitch row; thereafter, GB2 is swung in from the needle space 1 and swung out from the needle space 2 to form a fourth course, and GB2 is swung in from the needle space 2 again to start knitting of the next stitch, thereby continuously performing the circular knitting. Referring to fig. 3, GB3 and GB1 move in the same manner as GB1, and the threading manner is full-through, swinging in from the needle space 1 to the needle space 0, thereby forming a first course; then, GB3 is swung in from the needle space 1 and swung out from the needle space 2, thereby forming a second course; then GB3 swings in from the needle space 2 and swings out from the needle space 3, thereby forming a third stitch row; thereafter, GB3 is swung in from the needle space 2 and swung out from the needle space 1 to form a fourth course, and GB3 is swung in from the needle space 1 again to start knitting of the next stitch, thereby continuously performing the circular knitting. As shown in fig. 4, by the above-described knitting method, the air permeability of the fabric main body can be improved by forming densely-woven air permeable meshes in the fabric main body after the weaving.

Example 2:

the zinc antibacterial elastic breathable fabric is different from embodiment 1 in that GB1 further comprises moisture absorption and sweat releasing yarns which are arranged in parallel with zinc antibacterial nylon at intervals, the moisture absorption and sweat releasing yarns are spun by Topcool fibers spun by Taiwan far east China and have good water absorption and moisture conduction properties, and before warp knitting, the zinc antibacterial nylon and the moisture absorption and sweat releasing yarns are sequentially arranged at intervals and warped to the same pan head and are used for subsequent warp knitting by a warp knitting machine.

Example 3:

the utility model provides a zinc antibiotic elasticity surface fabric that breathes freely, with embodiment 1's difference lie in, as shown with reference to fig. 5, it has protective layer 3 to wrap in the outside of elasticity yarn 2, protective layer 3 is the polyamide fibre yarn, polyamide fibre yarn spiral winding is in the outside of elasticity yarn 2, then can play the protection effect to easy ageing elasticity yarn 2, avoid elasticity yarn 2 directly to expose and shorten its life, simultaneously in elasticity yarn 2 by tensile in-process, because the spiral winding's of polyamide fibre yarn mode can not cause the influence to the drawing of elasticity yarn 2.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (7)

1. The utility model provides a ventilative surface fabric of antibiotic elasticity of zinc, includes the surface fabric body, the surface fabric body is woven by three sley bars of GB1, GB2 and GB3 and is formed its characterized in that: at least one of GB1 and GB2 comprises an antibacterial nylon yarn (1), and GB3 comprises an elastic yarn (2); the antibacterial nylon yarn is characterized in that both GB1 and GB2 are antibacterial nylon yarns (1), the elastic yarns (2) are spandex, the tissue structure of GB1 is 10/12/23/21, the tissue structure of GB2 is 23/21/10/12, and the tissue structure of GB3 is 10/12/23/21.

2. The zinc antibacterial elastic breathable fabric according to claim 1, characterized in that: the threading structures of GB1 and GB2 are both through 1 and empty 1, and the threading structure of GB3 is full through.

3. The zinc antibacterial elastic breathable fabric according to claim 1, characterized in that: the antibacterial nylon yarn (1) is zinc antibacterial nylon.

4. The zinc antibacterial elastic breathable fabric according to claim 2, characterized in that: the fabric body is provided with densely distributed breathable meshes.

5. The zinc antibacterial elastic breathable fabric according to claim 1, characterized in that: the specification of the antibacterial nylon yarn (1) is 40D/30F.

6. The zinc antibacterial elastic breathable fabric according to claim 1, characterized in that: the GB1 also comprises moisture absorption and sweat releasing yarns which are arranged in parallel with the antibacterial nylon yarn (1).

7. The zinc antibacterial elastic breathable fabric according to claim 1, characterized in that: the elastic yarn (2) is coated with a protective layer (3).

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