CN220116753U - Textile composite yarn - Google Patents

Abstract

The utility model relates to the technical field of yarns, in particular to a textile composite yarn, which comprises a wool yarn, two viscose fiber yarns and two breathable fiber yarns, wherein the two viscose fiber yarns and the two breathable fiber yarns are interwoven and twisted with each other by taking the wool yarn as a base core to form the composite yarn, the wool yarn is taken as a base core, the viscose fiber yarns and the breathable fiber yarns are twisted and wound on the outer surface of the wool yarn to form the composite yarn, and the two viscose fiber yarns and the two breathable fiber yarns are alternately arranged on the outer surface of the wool yarn at equal angles, wherein the addition of the viscose fiber yarns can improve the comfort of the yarn, and the addition of the breathable fiber yarns can improve the breathability of the yarn, so that the practicability of the composite yarn is greatly improved, and the wearing experience of a composite yarn product is improved.

Description

Textile composite yarn

Technical Field

The utility model relates to the technical field of yarns, in particular to a textile composite yarn.

Background

The yarn is a textile, is processed into products with certain fineness by various textile fibers, is used for weaving, rope making, thread making, knitting, embroidery and the like, is divided into short fiber yarns, continuous filaments and the like, and the composite yarn is a structure that two different fibers are intertwined together in a single yarn or filaments like a strand, and can be spun on a modified spinning machine or a hollow spindle.

When the existing textile composite yarn is actually used, most of the textile composite yarn has single function, and the comfort performance and the air permeability of the textile composite yarn are poor, so that the composite yarn is poor in practicality and cannot be used for wearing well.

Disclosure of Invention

In order to overcome the defects in the prior art, the technical problems to be solved by the utility model are as follows: the utility model provides a weaving composite yarn can improve the practicality of composite yarn, and then has improved the wearing experience of composite yarn goods.

In order to solve the technical problems, the utility model adopts the following technical scheme:

the composite spinning yarn comprises a wool yarn, two viscose fiber yarns and two breathable fiber yarns, wherein the viscose fiber yarns and the breathable fiber yarns are interwoven and twisted with the wool yarn as a basic core to form the composite yarn, and the viscose fiber yarns and the breathable fiber yarns are alternately arranged on the surface of the wool yarn at equal angles.

Further, the twisting direction among the viscose fiber yarn, the breathable fiber yarn and the wool yarn is the same as the twisting direction of the wool yarn, the viscose fiber yarn and the breathable fiber yarn.

Further, fibrilia is wrapped on the outer wall of the composite yarn.

Further, the outer wall of the composite yarn is wrapped with bamboo charcoal fibers.

Further, elastic fibers are twisted in the wool filaments, the viscose fiber filaments and the breathable fiber filaments, and the wool filaments, the viscose fiber filaments and the breathable fiber filaments respectively take the elastic fibers as base cores.

Further, the viscose fiber yarn is formed by twisting four viscose fibers and one elastic fiber, and the breathable fiber yarn is formed by twisting four silk fibers and one elastic fiber.

Further, the elastic fiber is polyurethane elastic fiber.

The utility model has the beneficial effects that:

according to the utility model, the wool yarn is taken as a base core, the viscose fiber yarn and the breathable fiber yarn are twisted and wound on the outer surface of the wool yarn to form the composite yarn, and the two viscose fiber yarns and the two breathable fiber yarns are alternately arranged on the outer surface of the wool yarn, so that the viscose fiber yarn and the breathable fiber yarn can be uniformly wound on the wool yarn when the wool yarn is twisted, wherein the comfort of the yarn can be improved by adding the viscose fiber yarn, the breathability of the yarn can be improved by adding the breathable fiber yarn, and therefore, the practicability of the composite yarn is greatly improved, and the wearing experience of a composite yarn product is improved.

Drawings

FIG. 1 is a schematic view of a textile composite yarn according to the present utility model;

FIG. 2 is a schematic cross-sectional view of a first embodiment of a textile composite yarn according to the present utility model;

FIG. 3 is a schematic cross-sectional view of a second embodiment of a textile composite yarn according to the present utility model;

FIG. 4 is a schematic view showing the structure of viscose fiber yarn in the textile composite yarn according to the present utility model;

FIG. 5 is a schematic view of the structure of breathable filaments in a textile composite yarn according to the present utility model;

description of the reference numerals:

1. wool silk; 2. viscose fiber yarn; 21. viscose fiber; 3. breathable fiber yarn; 31. breathable fibers; 4. fibrilia; 5. bamboo charcoal fiber; 6. an elastic fiber.

Detailed Description

In order to describe the technical contents, the achieved objects and effects of the present utility model in detail, the following description will be made with reference to the embodiments in conjunction with the accompanying drawings.

Referring to fig. 1, a textile composite yarn includes a wool yarn, two viscose fiber yarns and two air-permeable fiber yarns, wherein the two viscose fiber yarns and the two air-permeable fiber yarns are interwoven and twisted with the wool yarn as a base core to form the composite yarn, and the two viscose fiber yarns and the two air-permeable fiber yarns are alternately arranged on the surface of the wool yarn at equal angles.

From the above description, the beneficial effects of the utility model are as follows:

according to the utility model, the wool yarn is taken as a base core, the viscose fiber yarn and the breathable fiber yarn are twisted and wound on the outer surface of the wool yarn to form the composite yarn, and the two viscose fiber yarns and the two breathable fiber yarns are alternately arranged on the outer surface of the wool yarn, so that the viscose fiber yarn and the breathable fiber yarn can be uniformly wound on the wool yarn when the wool yarn is twisted, wherein the comfort of the yarn can be improved by adding the viscose fiber yarn, the breathability of the yarn can be improved by adding the breathable fiber yarn, and therefore, the practicability of the composite yarn is greatly improved, and the wearing experience of a composite yarn product is improved.

Further, the twisting direction among the viscose fiber yarn, the breathable fiber yarn and the wool yarn is the same as the twisting direction of the wool yarn, the viscose fiber yarn and the breathable fiber yarn.

As is apparent from the above description, by setting the twisting directions the same, it is possible to avoid loosening of the twisting of viscose fiber filaments, breathable fiber filaments and wool filaments when the composite yarn is twisted, thereby ensuring the compactness of the twisting of the composite yarn.

Further, fibrilia is wrapped on the outer wall of the composite yarn.

From the above description, it is known that not only the air permeability of the composite yarn can be ensured, but also the toughness of the composite yarn can be improved by wrapping a layer of fibrilia.

Further, the outer wall of the composite yarn is wrapped with bamboo charcoal fibers.

From the above description, the bamboo charcoal fiber can improve the moisture absorption performance of the composite yarn, and can provide the yarn with antibacterial, bacteriostatic and bactericidal effects.

Further, elastic fibers are twisted in the wool filaments, the viscose fiber filaments and the breathable fiber filaments, and the wool filaments, the viscose fiber filaments and the breathable fiber filaments respectively take the elastic fibers as base cores.

From the above description, it is known that by adding elastic fibers in wool, viscose fiber and breathable fiber, the toughness of each yarn can be improved, thereby improving the toughness of the whole composite yarn, and setting the elastic fibers as a base core can avoid the exposure of the elastic fibers to affect the comfort of the composite yarn.

Further, the viscose fiber yarn is formed by twisting four viscose fibers and one elastic fiber, and the breathable fiber yarn is formed by twisting four silk fibers and one elastic fiber.

From the above description, it is known that elastic fibers can be well wrapped inside.

Further, the elastic fiber is polyurethane elastic fiber.

From the above description, it is apparent that the polyurethane elastic fiber has excellent tensile strength and tear resistance.

Referring to fig. 1, 2, 4 and 5, a first embodiment of the present utility model is as follows:

please refer to fig. 1: the spinning composite yarn comprises one wool yarn 1, two viscose fiber yarns 2 and two breathable fiber yarns 3, wherein the viscose fiber yarns 2 and the breathable fiber yarns 3 are interwoven and twisted by taking the wool yarn 1 as a base core to form the composite yarn, and the twisting direction among the viscose fiber yarns 2, the breathable fiber yarns 3 and the wool yarn 1 is the same as the twisting direction of the wool yarn 1, the viscose fiber yarns 2 and the breathable fiber yarns 3.

Please refer to fig. 2: and fibrilia 4 is wrapped on the outer wall of the composite yarn.

Please refer to fig. 2: the two viscose fiber filaments 2 and the two breathable fiber filaments 3 are alternately arranged on the surface of the wool yarn at equal angles.

Please refer to fig. 4 and 5: elastic fibers 6 are twisted in the wool silk 1, the viscose fiber silk 2 and the breathable fiber silk 3, the wool silk 1, the viscose fiber silk 2 and the breathable fiber silk 3 respectively take the respective elastic fibers 6 as base cores, the viscose fiber silk 2 is formed by twisting four viscose fibers 21 and one elastic fiber 6, the breathable fiber silk 3 is formed by twisting four silk fibers 31 and one elastic fiber 6, and the elastic fibers are polyurethane elastic fibers.

The composite yarn in this embodiment takes the wool silk as the base core, and twist and twine viscose fiber silk and ventilative fiber silk in the wool silk outward appearance and form, wherein viscose fiber silk's addition can improve the travelling comfort of yarn, ventilative fiber silk's addition can improve the air permeability of yarn, simultaneously, wrap up and set up fibrilia and twist into elastic fiber in wool silk, viscose fiber silk and ventilative fiber silk outside the composite yarn for the air permeability of composite yarn has not only been guaranteed, also the toughness of composite yarn has been improved greatly, thereby make composite yarn possess stronger practicality.

Referring to fig. 1, 3, 4 and 5, a second embodiment of the present utility model is as follows:

please refer to fig. 1: the spinning composite yarn comprises one wool yarn 1, two viscose fiber yarns 2 and two breathable fiber yarns 3, wherein the viscose fiber yarns 2 and the breathable fiber yarns 3 are interwoven and twisted by taking the wool yarn 1 as a base core to form the composite yarn, and the twisting direction among the viscose fiber yarns 2, the breathable fiber yarns 3 and the wool yarn 1 is the same as the twisting direction of the wool yarn 1, the viscose fiber yarns 2 and the breathable fiber yarns 3.

Please refer to fig. 3: the outer wall of the composite yarn is wrapped with bamboo charcoal fibers 5.

Please refer to fig. 3: the two viscose fiber filaments 2 and the two breathable fiber filaments 3 are alternately arranged on the surface of the wool yarn at equal angles.

Please refer to fig. 4 and 5: elastic fibers 6 are twisted in the wool silk 1, the viscose fiber silk 2 and the breathable fiber silk 3, the elastic fibers 6 are base cores of the wool silk 1, the viscose fiber silk 2 and the breathable fiber silk 3, the viscose fiber silk 2 is formed by twisting four viscose fibers 21 and one elastic fiber 6, the breathable fiber silk 3 is formed by twisting four silk fibers 31 and one elastic fiber 6, and the elastic fiber 6 is polyurethane elastic fiber.

The composite yarn in this embodiment uses the wool silk as the basic core to twist winding viscose fiber silk and ventilative fiber silk in the wool silk outward appearance and form, wherein viscose fiber silk's addition can improve the travelling comfort of yarn, ventilative fiber silk's addition can improve the air permeability of yarn, simultaneously, at the outside parcel of composite yarn sets up the bamboo charcoal fiber, can improve the hygroscopicity of composite yarn, and make the yarn possess antibiotic, antibacterial and bactericidal effect, and twist into elastic fiber in wool silk, viscose fiber silk and ventilative fiber silk, also improve the toughness of composite yarn greatly, thereby make composite yarn possess stronger practicality.

In summary, according to the textile composite yarn provided by the utility model, the wool yarn is taken as a base core, the viscose fiber yarn and the breathable fiber yarn are twisted and wound on the outer surface of the wool yarn to form the composite yarn, and the two viscose fiber yarns and the two breathable fiber yarns are alternately arranged on the outer surface of the wool yarn at equal angles, so that the viscose fiber yarn and the breathable fiber yarn can be uniformly wound on the wool yarn when the wool yarn is twisted, wherein the comfort of the yarn can be improved due to the addition of the viscose fiber yarn, and the breathability of the yarn can be improved due to the addition of the breathable fiber yarn, so that the practicability of the composite yarn is greatly improved, and the wearing experience of a composite yarn product is improved.

The foregoing description is only illustrative of the present utility model and is not intended to limit the scope of the utility model, and all equivalent changes made by the specification and drawings of the present utility model, or direct or indirect application in the relevant art, are included in the scope of the present utility model.

Claims (7)

1. The composite spinning yarn is characterized by comprising a wool yarn, two viscose fiber yarns and two breathable fiber yarns, wherein the viscose fiber yarns and the breathable fiber yarns are interwoven and twisted by taking the wool yarn as a base core to form the composite yarn, and the viscose fiber yarns and the breathable fiber yarns are alternately arranged on the surface of the wool yarn at equal angles.

2. The textile composite yarn of claim 1 wherein the direction of twist between the viscose, breathable and wool filaments is the same as the direction of twist of the wool filaments, viscose and breathable filaments themselves.

3. The textile composite yarn of claim 1 wherein said composite yarn outer wall is wrapped with a fibrilia.

4. The textile composite yarn of claim 1 wherein the composite yarn outer wall is wrapped with bamboo carbon fibers.

5. The textile composite yarn of claim 1 wherein said wool filaments, viscose filaments and breathable filaments are each twisted with elastic fibers and wherein said wool filaments, viscose filaments and breathable filaments are each based on respective elastic fibers.

6. The textile composite yarn of claim 5 wherein said viscose filaments are formed by twisting four viscose fibers and one elastic fiber and said breathable filaments are formed by twisting four silk fibers and one elastic fiber.

7. The textile composite yarn of claim 5 wherein said elastic fiber is polyurethane elastic fiber.