CN113279126A - Knitted fabric with antibacterial and bacteriostatic physical gradual change effect and weaving method thereof - Google Patents

Abstract

The invention discloses a knitted fabric with antibacterial and bacteriostatic physical gradual change effects and a weaving method thereof, wherein the knitted fabric comprises a fabric body and is characterized in that: the fabric body comprises at least one woven layer, wherein the at least one woven layer is a gradient layer, the gradient layer comprises a plurality of connected weaving sections, the weaving sections are formed by weaving at least two yarns with different colors and different color depths, the weaving density of the weaving yarns of each weaving section is different, and the weaving density of at least one same weaving yarn in each weaving section is sequentially changed in a gradient direction of the gradient layer; weaving density through the yarn and making whole fabric body produce the gradual change effect under the effect on gradual change layer, for the gradual change effect that adopts inkjet or printing and dyeing to reach, environmental protection pollution-free more adopts integrative the weaving, and efficiency is higher, does not influence the gas permeability of whole surface fabric simultaneously.

Description

Knitted fabric with antibacterial and bacteriostatic physical gradual change effect and weaving method thereof

Technical Field

The invention relates to the field of textile fabrics, in particular to a knitted fabric with antibacterial and bacteriostatic physical gradual change effects and a weaving method thereof.

Background

In the design and weaving process of the knitted fabric, the gradual change effect is required to be made on the fabric, generally, ink jet or printing and dyeing and other methods are used, the method not only increases the production steps, but also seriously pollutes the environment, and simultaneously, the air vents of the fabric are easily blocked by pigment, thereby influencing the air permeability of the whole fabric.

Disclosure of Invention

The invention aims to overcome the defects and provide a knitted fabric with antibacterial and bacteriostatic physical gradual change effects and a weaving method thereof.

The invention discloses a knitted fabric with antibacterial and bacteriostatic physical gradual change effects, which comprises a fabric body, wherein the fabric body comprises at least one woven layer, the at least one woven layer is a gradual change layer, the gradual change layer comprises a plurality of connected woven sections, the woven sections are woven by at least two yarns with different colors and different color depths, the weaving density of the woven yarns of each woven section is different, and the weaving density of at least the same woven yarn in each woven section is gradually changed according to the gradual change direction of the gradual change layer.

Preferably, the graded layer comprises at least three connected braided segments.

Preferably, the fabric body is woven by using antibacterial yarns.

Preferably, each of the knitting segments is integrally knitted.

In another aspect, the present invention discloses a knitting method of a knitted fabric, including:

s1, adopting at least two yarns with different colors and depths to perform needle-separating surface knitting to form a surface knitting layer; the surface knitting layer forms a gradual change layer comprising a plurality of knitting sections, knitting yarns of each knitting section have different knitting densities, and each knitting section has independent knitting densities, and the knitting densities of the yarns of each knitting section are gradually changed according to the gradual change direction of the gradual change layer;

and S2, alternately weaving the bottom weaving surface with a mesh and the bottom weaving by adopting yarns to form a bottom weaving layer connected with the surface weaving layer, and connecting the surface weaving layer with the bottom weaving layer to form the fabric body.

Preferably, in S1, the needles of the two yarns with different color depth are staggered.

Preferably, the dislocated needle position is one needle position.

Preferably, each knitting section is repeatedly knitted by at least two knitting groups during the yarn knitting process, and the knitting groups are knitted by at least two knitting action groups, wherein the knitting action groups are composed of a plurality of knitting rows and knitting combinations, and each knitting action of the two knitting action groups is staggered by one needle position compared with each other.

Preferably, in S1, the two yarns with different color depths are both polyester high-elasticity yarns subjected to antibacterial treatment.

Preferably, the method further comprises the following steps: and S3, heating the woven fabric body.

By adopting the technical scheme, the invention has the beneficial effects that:

the fabric body has been woven the gradual change layer, the gradual change layer includes a plurality of sections of weaving, it adopts the different yarns of two at least colour degree of depth to weave the section, the density that two yarns were woven is different, and the yarn between each weaving layer weaves according to the knitting mode that density becomes progressively, the density of weaving through the yarn is makeed whole fabric body and is produced the gradual change effect under the effect on gradual change layer, for the gradual change effect that adopts inkjet or printing and dyeing to reach, environmental protection pollution-free more, adopt integrative the weaving, the efficiency is higher, do not influence the gas permeability of whole surface fabric simultaneously.

Drawings

In order to more clearly illustrate the embodiments or technical solutions in the prior art of the present invention, the drawings used in the description of the embodiments or prior art will be briefly described below, it is obvious that the drawings in the following description are only one or several embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to such drawings without creative efforts.

FIG. 1 is a schematic diagram of a graded layer structure according to an embodiment of the present invention;

FIG. 2 is a fabric weave diagram of an embodiment of the present invention;

figure 3 is a cross-sectional view of a fabric body of various embodiments of the present invention.

Description of the main reference numerals: 1 gradient layer, 11 gradient sections, 111 weaving sections, 2 surface weaving layers and 3 bottom weaving layers.

Detailed Description

The following detailed description of the embodiments of the present invention will be provided with reference to the drawings and examples, so that how to apply the technical means to solve the technical problems and achieve the technical effects can be fully understood and implemented. It should be noted that, as long as there is no conflict, the embodiments and the features of the embodiments of the present invention may be combined with each other, and the technical solutions formed are within the scope of the present invention.

In the following description, for purposes of explanation, numerous specific details are set forth in order to provide a thorough understanding of the embodiments of the invention. It will be apparent, however, to one skilled in the art that the present invention may be practiced without some of these specific details or with other methods described herein.

[ according to the invention provides a knitted fabric with antibacterial and bacteriostatic physical gradient effect ]

A knitted fabric with antibacterial and bacteriostatic physical gradient effects comprises a fabric body, referring to fig. 1, wherein the fabric body comprises at least one woven layer, wherein the at least one woven layer is a gradient layer 1, the gradient layer 1 comprises a plurality of connected woven sections 111, the woven sections 111 are integrally woven, the woven sections 111 are woven by adopting at least two yarns with different colors and different color depths, the yarns can adopt but not limited to light-color polyester high-elasticity and dark-color polyester high-elasticity, and the two yarns are subjected to antibacterial treatment, so that the fabric has antibacterial and bacteriostatic effects, the weaving densities of the woven yarns of the woven sections 111 are different, and the weaving densities of at least the same woven yarn in the woven sections 111 are sequentially changed according to the gradient direction of the gradient layer 1; when the knitting density of the deep color/light color polyester high stretch knitting of a certain knitting section 111 is higher, the knitting section 111 mainly shows the deep color/light color effect, and then the knitting density of the deep color/light color polyester high stretch knitting of the knitting sections 111 which are continuously arranged is decreased/increased progressively, so that the gradual change layer 1 forms the gradual change effect from deep to light/from light to deep.

The fabric body can be single weaving layer structure or many weaving layer structures, when the fabric body is single weaving layer structure, this weaving layer is gradual change layer 1, when the fabric body is two weaving layer structures, surface weaving layer 2 is gradual change layer 1, when the fabric body is multilayer structure, except that end weaving layer 3, all the other weaving layers can be gradual change layer 1, gradual change layer 1 comprises at least three section 111 of weaving, the quantity of weaving section 111 more gradual change layer 1's colour is excessive more even.

[ knitting method of a knitted Fabric according to the present invention ]

A method of knitting a knitted fabric, the method comprising:

s1, knitting the needle separating surface by adopting at least two yarns with different colors and depths to form a surface knitting layer 2; the two yarns with different color depths are polyester high-elastic yarns subjected to antibacterial treatment, the surface knitting layer 2 forms a gradual change layer 1 comprising a plurality of knitting sections 111, the knitting densities of the knitting yarns of the knitting sections 111 are different, the knitting sections 111 with independent knitting densities are formed, and the knitting densities of the yarns of the knitting sections 111 are gradually changed according to the gradual change direction of the gradual change layer 1;

s2, alternately weaving the bottom weaving surface with a mesh and the bottom weaving by adopting yarns to form a bottom weaving layer 3 connected with a surface weaving layer 2, and connecting the surface weaving layer 2 and the bottom weaving layer 3 to form a fabric body;

further comprising: s3, heating the woven fabric body; for the fabric without the thermal fuse, the high-temperature treatment is to ensure that the fabric is heated and fully contracted to achieve a proper fabric effect; for the fabric using the thermal fuse, the thermal fuse needs to be melted and bonded in the fabric through high-temperature treatment, so that a proper fabric effect is achieved.

Further, in S1, the needle positions knitted by the two yarns with different color depths are staggered, and the staggered needle position is a needle position, so that the color distribution of the surface knitted layer 2 knitted by the two knitted yarns is more uniform.

Furthermore, each knitting section 111 is formed by repeatedly knitting at least two knitting groups in the yarn knitting process, and each knitting group is formed by knitting at least two knitting action groups, wherein each knitting action group is formed by knitting and combining a plurality of knitting rows, and each knitting action of the two knitting action groups is compared with each knitting action group, and one needle position is staggered, so that the knitting organization arrangement is more uniform, and the fabric surface is more flat.

Further comprising: and S3, heating the woven fabric body.

Example 1

Referring to fig. 2 and a in fig. 3, in this embodiment, the fabric body includes a top woven layer 2 and a bottom woven layer 3, the top woven layer 2 is a gradient layer 1, and A, B, C yarns are selected, the yarn a is light-color polyester high-elasticity subjected to antibacterial treatment, the yarn B is dark-color polyester high-elasticity subjected to antibacterial treatment, the yarn C is bottom polyester high-elasticity, and the yarn 1 is a yarn a knitted on a needle separating surface; the 2 nd weaving line is that B yarn is knitted by a needle separating surface, and is staggered with the needle separating knitting of the A yarn by one needle position, and can be combined with the 1 st weaving line to form a complete gradual change layer 1 weaving line; (the function is to evenly distribute A, B yarns on the surface of the fabric), and the 3 rd weaving line is the alternative weaving of the C yarn as the bottom weaving surface and the bottom weaving. (for connecting the bottom knitting layer 3 and the gradual change layer 1.) the knitting action of the 4 th, 5 th and 6 th knitting lines and the knitting action of the 1 st, 2 th and 3 th knitting lines are the same, and the positions are staggered by one needle position. (the function is to evenly arrange the knitting structure and the fabric surface becomes flat.) the knitting action of the 7 th to 12 th knitting rows is consistent with that of the 1 st to 6 th knitting rows, the knitting density of the yarn is also consistent, and the 1 st to 12 th knitting rows are a section of gradual change fabric with a single density knitting section 111. The knitting motion of the 13 th to 24 th rows is the same as that of the 1 st to 12 th rows, but the yarn knitting density is different, and a second section of the gradient fabric with the single density knitting section 111 is formed; similarly, the knitting motion of the 25 th to 36 th rows and the 37 th to 48 th rows is the same as that of the 1 st to 12 th rows, but the yarn knitting density is different, forming a third section of the gradient fabric with a single density knitting section 111. The gradual change fabrics with the independent density weaving sections 111 in the first section, the second section and the third section form a knitted fabric with gradual change effect;

when the gradual change color of the fabric is required to be changed from light to dark, the 7 th density section of the light-color yarn A in the 1 st to 6 th weaving rows can be adjusted to be looser, and the 8 th density section of the darker-color yarn B needs to be adjusted to be tighter, so that the visual effect presented by the weaving section 111 on the fabric is that the light-color yarn A is more than the dark-color yarn B; the 9 th density section of the yarn A in the 7 th to 13 th weaving rows is tighter than the 7 th density section of the previous weaving section 111, the 10 th density section of the yarn B in the section is looser than the 8 th density section of the front section, so that the visual effect of the section is that the light color and the dark color are more uniform than the previous section, the total light color is still slightly more, and the two sections form fabric sections gradually changing from light to dark; in particular, in the same knitting section 111, the density values of the a and B yarns affect the visual effect presented by the fabric. If the density of yarn a is greater than that of yarn B, yarn a will develop more color than yarn B. On the contrary, the yarn B will develop more color than the yarn A. When the density of the yarn a is close to that of the yarn B, the color development is relatively uniform. The greater the number of individual knitted sections 111, the more uniform the gradient transition.

Example 2

In the B diagram in fig. 3, in this embodiment, the fabric body includes a surface knitted layer 2, a middle knitted layer and a bottom knitted layer 3, where the middle knitted layer is a gradual change layer 1, the gradual change layer 1 can be formed by knitting a yarn and a yarn B through a needle separating surface, the surface knitted layer 2 can be formed by knitting a transparent yarn, and the gradual change layer 1 can be protected through the surface knitted layer 2 without affecting the gradual change effect of the whole fabric.

Example 3

In the embodiment, the fabric body includes a surface knitting layer 2, a middle knitting layer and a bottom knitting layer 3, wherein the middle knitting layer and the surface knitting layer 2 are both a gradual change layer 1, the gradual change layer 1 can be formed by knitting yarns a and B through a needle separating surface, and under the action of the two gradual change layers 1, a double-layer gradual change effect of the fabric is achieved.

Example 4

In fig. 3 d, in this embodiment, the fabric body includes a surface knitted layer 2, a middle knitted layer and a bottom knitted layer 3, wherein the middle knitted layer and the surface knitted layer 2 form a spaced-staggered double-gradient-layer 1 structure, specifically, the surface knitted layer 2 and the middle knitted layer are both gradient layers 1 having gradient sections 11 (the gradient sections 11 are parts of the knitted layer with gradient effect formed by the plurality of knitted sections 111) which are arranged at intervals and are provided with a plurality of knitted sections 111, and the knitted sections 111 of the two knitted layers are distributed in a staggered manner, so that the whole fabric forms a spaced-hidden gradient effect.

It should be noted that in the foregoing description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, however, the present invention may be practiced in other ways than those specifically described herein, and thus the scope of the present invention is not limited by the specific embodiments disclosed below.

Claims (10)

1. The utility model provides a knitted fabric with antibiotic antibacterial physics gradual change effect, includes the fabric body, its characterized in that: the fabric body comprises at least one woven layer, wherein the at least one woven layer is a gradient layer, the gradient layer comprises a plurality of connected weaving sections, the weaving sections are formed by weaving at least two yarns with different colors and different color depths, the weaving density of the weaving yarns of each weaving section is different, and the weaving density of at least one same weaving yarn in each weaving section is sequentially changed in a gradient direction of the gradient layer.

2. The knitted fabric of claim 1, wherein: the graded layer includes at least three connected braided segments.

3. The knitted fabric of claim 1, wherein: the fabric body is woven by adopting antibacterial yarns.

4. The knitted fabric according to claim 1 or 2, characterized in that: all the weaving sections are integrally woven.

5. A method of knitting a knitted fabric according to any of claims 1 to 4, characterised in that: the knitting method comprises the following steps:

s1, adopting at least two yarns with different colors and depths to perform needle-separating surface knitting to form a surface knitting layer; the surface knitting layer forms a gradual change layer comprising a plurality of knitting sections, knitting yarns of each knitting section have different knitting densities, and each knitting section has independent knitting densities, and the knitting densities of the yarns of each knitting section are gradually changed according to the gradual change direction of the gradual change layer;

and S2, alternately weaving the bottom weaving surface with a mesh and the bottom weaving by adopting yarns to form a bottom weaving layer connected with the surface weaving layer, and connecting the surface weaving layer with the bottom weaving layer to form the fabric body.

6. The knitting method of claim 5, wherein: in S1, the needles of the two yarns with different color depth are staggered.

7. The knitting method of claim 6, characterized in that: the staggered needle position is a needle position.

8. The knitting method of claim 5, wherein: each knitting section is formed by repeatedly knitting at least two knitting groups in the yarn knitting process, each knitting group is formed by knitting at least two knitting action groups, each knitting action group is formed by a plurality of knitting rows and knitting combinations, and each knitting action of the two knitting action groups is staggered by one needle position compared with each knitting action of the two knitting action groups.

9. The knitting method of claim 5, wherein: in S1, the two yarns with different color depths are both polyester high-elastic yarns subjected to antibacterial treatment.

10. The knitting method of claim 5, wherein: further comprising:

and S3, heating the woven fabric body.

Images