CN216193025U

CN216193025U - Bacteriostatic pure viscose vortex spun yarn

Info

Publication number: CN216193025U
Application number: CN202122086080.5U
Authority: CN
Inventors: 董坚强; 韩明兴; 黄敏会
Original assignee: Yibin Tianzhihua Textile Technology Co ltd
Current assignee: Yibin Tianzhihua Textile Technology Co ltd
Priority date: 2021-08-31
Filing date: 2021-08-31
Publication date: 2022-04-05
Anticipated expiration: 2031-08-31

Abstract

The utility model discloses bacteriostatic pure viscose vortex spun yarns, which comprise peripheral yarn bundles, central yarn bundles and interlayer yarn bundles, wherein the peripheral yarn bundles are provided with a plurality of strands and comprise wool yarn bundles, the outer sides of the wool yarn bundles are coated with non-stick coatings, the central yarn bundles are arranged in the central parts of the plurality of strands of peripheral yarn bundles and comprise polyamide filament bundles and polyester filament bundles, the polyamide filament bundles of each central yarn bundle at least comprise two strands, and the two strands of polyamide filament bundles are alternately and obliquely wound on the outer sides of the polyester filament bundles; the peripheral wire harness is coated with the non-stick coating, so that the integral oil stain resistance of the wire harness can be improved; further, the nano silver fasciculus with the bacteriostatic action is in a bolt shape and is wound on the outer side of the adhesive fasciculus, the whole length of the increased nano silver fasciculus and the coverage range of the increased nano silver fasciculus on the adhesive fasciculus improve the bacteriostatic effect of the nano silver fasciculus, and meanwhile, the nano silver fasciculus is beneficial to shaping of the nano silver fasciculus through the adhesive fasciculus.

Description

Bacteriostatic pure viscose vortex spun yarn

Technical Field

The utility model relates to the field of yarns, in particular to bacteriostatic pure viscose vortex spun yarn.

Background

Yarn is a generic term for yarn and thread, a continuous strip of textile fibres that is thin and flexible and has certain thickness and physical and mechanical properties. Including yarns, threads, filaments, and the like.

The vortex spinning is to directly spin the fiber sliver into cheese, so as to save two procedures of roving and spooling like other novel spinning. Because the end breakage rate of the vortex spinning is very low, the return loss is less, and the finished product rate is up to more than 99%.

Although some bacteriostatic yarn products appear in the yarn products manufactured by vortex spinning at present, the stain resistance and the overall elasticity of the yarn are relatively poor when the yarn is used, so that the comfort degree is relatively common when the yarn is made into a fabric for use.

Therefore, how to solve the defects of the prior art is a subject of the present invention.

Disclosure of Invention

In order to solve the problems, the utility model discloses bacteriostatic pure viscose vortex spun yarn.

In order to achieve the above purpose, the utility model provides the following technical scheme: the bacteriostatic pure viscose vortex spun yarn comprises a peripheral yarn bundle, a central yarn bundle and an interlayer yarn bundle, wherein the peripheral yarn bundle is provided with a plurality of strands and comprises a wool yarn bundle, the outer side of the wool yarn bundle is coated with a non-stick coating, the central yarn bundle is arranged in the central part of the multi-strand peripheral yarn bundle and comprises polyamide fiber tows and polyester fiber tows, the polyamide fiber tows of each central yarn bundle at least comprise two strands, and the two strands of the polyamide fiber tows are alternately wound on the outer side of the polyester fiber tows;

the sandwich wire harness is arranged between the central wire harness and the peripheral wire harness and positioned in the filling gap, the sandwich wire harness comprises a plurality of double-strand wire harnesses which are arranged together, and the double-strand wire harnesses comprise adhesive fiber bundles and nano-silver fiber bundles;

the nano silver fiber bundle is wound on the outer side of the adhesive fiber bundle in a bolt shape, so that a plurality of wire bundle rings are formed on the outer side of the adhesive fiber bundle, and a gap is reserved between every two adjacent wire bundle rings.

In the scheme, the peripheral yarn bundles are also provided with polyester long fiber yarn bundles which are wound together, and the outer surface of each polyester long fiber yarn bundle is coated with a polytetrafluoroethylene coating.

In the scheme, the three central wire harnesses are abutted together, three concave parts are formed around the central wire harnesses, three filling gaps are formed between the three concave parts and the peripheral wire harnesses, and sandwich wire harnesses are filled in each filling gap.

In the scheme, the length of the polyester long fiber strand is 50-60 mm.

Compared with the prior art, the utility model has the following advantages: the bacteriostatic pure viscose vortex spun yarn takes the nylon tows and the polyester tows with better rebound resilience as the central tows, so that the overall elasticity performance of the yarn can be improved; the peripheral wire harness is coated with the non-stick coating, so that the integral oil stain resistance of the wire harness can be improved; further, the nano silver fasciculus with the bacteriostatic action is in a bolt shape and is wound on the outer side of the adhesive fasciculus, the whole length of the increased nano silver fasciculus and the coverage range of the increased nano silver fasciculus on the adhesive fasciculus improve the bacteriostatic effect of the nano silver fasciculus, and meanwhile, the nano silver fasciculus is beneficial to shaping of the nano silver fasciculus through the adhesive fasciculus.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic diagram of a center wire harness;

fig. 3 is a schematic structural diagram of the adhesive fiber bundle and the nano silver fiber bundle.

Detailed Description

The present invention will be further illustrated below with reference to specific embodiments, which are to be understood as merely illustrative and not limitative of the scope of the present invention. It should be noted that the terms "front," "back," "left," "right," "upper" and "lower" used in the following description refer to directions in the drawings, and the terms "inner" and "outer" refer to directions toward and away from, respectively, the geometric center of a particular component.

Example (b): referring to fig. 1-3, an antibacterial pure viscose vortex spun yarn comprises a peripheral yarn bundle 100, a central yarn bundle 200 and an interlayer yarn bundle 300, wherein the peripheral yarn bundle 100 is provided with a plurality of strands, the peripheral yarn bundle 100 comprises a wool yarn bundle 101, the outer side of the wool yarn bundle 101 is coated with a non-stick coating 102, the central yarn bundle 200 is arranged at the central part of the plurality of strands of peripheral yarn bundles 100 and comprises a nylon yarn bundle 201 and a polyester yarn bundle 202, the nylon yarn bundle 201 of each central yarn bundle 200 at least comprises two strands, and the two strands of the nylon yarn bundle 201 are alternately wound on the outer side of the polyester yarn bundle 202;

the number of the central wire harnesses 200 is at least three, the plurality of the peripheral wire harnesses 100 are spirally wound on the outer side of the central wire harness 200, a filling gap is formed between the central wire harness 200 and the peripheral wire harnesses 100, the interlayer wire harness 300 is arranged between the central wire harness 200 and the peripheral wire harnesses 100 and is positioned in the filling gap, the interlayer wire harness 300 comprises a plurality of double-strand wire harnesses which are arranged together, and the double-strand wire harness comprises an adhesive fiber bundle 301 and a nano-silver fiber bundle 302;

the nano silver fiber bundle 302 is wound on the outer side of the adhesive fiber bundle 301 in a bolt shape, so that a plurality of wire bundle rings are formed on the outer side of the adhesive fiber bundle 301, and a gap is reserved between adjacent wire bundle rings.

The nylon tows and the polyester tows with good rebound resilience are used as the central wire harness, so that the overall elasticity performance of the nylon tows and the polyester tows can be improved; the peripheral wire harness is coated with the non-stick coating, so that the integral oil stain resistance of the wire harness can be improved; further, the nano silver fasciculus with the bacteriostatic action is in a bolt shape and is wound on the outer side of the adhesive fasciculus, the whole length of the increased nano silver fasciculus and the coverage range of the increased nano silver fasciculus on the adhesive fasciculus improve the bacteriostatic effect of the nano silver fasciculus, and meanwhile, the nano silver fasciculus is beneficial to shaping of the nano silver fasciculus through the adhesive fasciculus.

In order to further improve the anti-fouling performance of the peripheral wire harness 100, the peripheral wire harness is a twisted polyester filament wire harness, and a polytetrafluoroethylene coating is coated on the outer surface of each polyester filament wire harness.

The three central wire harnesses 200 are abutted against each other to form three recesses around the central wire harnesses, three filling gaps are formed between the three recesses and the peripheral wire harness 100, and each filling gap is filled with the interlayer wire harness 300 and the filling gaps formed by the plurality of army cloths, so that the central wire harness can accommodate the plurality of interlayer wire harnesses 300 as much as possible.

The length of the polyester long fiber bundle is 50-70mm, so that the polyester long fiber bundle has better tensile property.

The technical means disclosed in the utility model scheme are not limited to the technical means disclosed in the above embodiments, but also include the technical scheme formed by any combination of the above technical features. It should be noted that those skilled in the art can make various improvements and modifications without departing from the principle of the present invention, and such improvements and modifications are also considered to be within the scope of the present invention.

Claims

1. The utility model provides an antibacterial pure viscose vortex spun yarn which characterized in that: the anti-sticking and anti-sticking fabric comprises a peripheral wiring harness (100), a central wiring harness (200) and an interlayer wiring harness (300), wherein the peripheral wiring harness (100) is provided with a plurality of strands, the peripheral wiring harness comprises a wool yarn bundle (101), the outer side of the wool yarn bundle (101) is coated with a non-stick coating (102), the central wiring harness (200) is arranged at the central part of the plurality of strands of peripheral wiring harnesses (100) and comprises nylon tows (201) and polyester tows (202), the nylon tows (201) of each central wiring harness (200) at least comprise two strands, and the two strands of nylon tows (201) are wound on the outer side of the polyester tows (202) alternately;

the number of the central wire harnesses (200) is at least three, the peripheral wire harnesses (100) are spirally wound on the outer side of the central wire harness (200), a filling gap is formed between the peripheral wire harnesses (200) and the central wire harness, the interlayer wire harness (300) is arranged between the central wire harness (200) and the peripheral wire harnesses (100) and is positioned in the filling gap, the interlayer wire harness (300) comprises a plurality of double-strand wire harnesses which are arranged together, and the double-strand wire harness comprises an adhesive fiber bundle (301) and a nano silver fiber bundle (302); the nano silver fiber bundles (302) are wound on the outer side of the adhesive fiber bundles (301) in a bolt shape, so that a plurality of bundle rings are formed on the outer side of the adhesive fiber bundles (301), and gaps are reserved between the adjacent bundle rings.

2. The bacteriostatic pure viscose vortex spun yarn of claim 1, wherein: the periphery wiring harness (100) is also provided with polyester filament wiring harnesses which are wound together, and the surfaces of the polyester filament wiring harnesses and the wool yarn wiring harnesses (101) are coated with polytetrafluoroethylene coatings.

3. The bacteriostatic pure viscose vortex spun yarn of claim 1, wherein: the three central wire harnesses (200) are abutted against each other to form three recesses around the central wire harnesses, three filling gaps are formed between the three recesses and the peripheral wire harnesses (100), and each filling gap is filled with an interlayer wire harness (300).

4. The bacteriostatic pure viscose vortex spun yarn of claim 2, wherein: the length of the polyester long fiber bundle is 50-60 mm.