CN210017912U - Washing-resistant antiviral antibacterial deodorant sock - Google Patents

Abstract

A water-fast antiviral antibiotic deodorant socks of type that washes, includes: an organic whole toe, sock body, heel and the leg of a stocking of making into, the sock body divide into sock body instep face and sock body instep face, sock body instep face includes: the sock comprises a second inner layer, a second front yarn connecting layer, a front ground structure, a back yarn connecting layer and a second surface layer, wherein a double-head latch needle jacquard circular machine is adopted in the six-layer structure, the second inner layer and the second surface layer are woven into a whole by integrating the mutual interweaving of the second front yarn connecting layer, the back yarn connecting layer, the front ground structure and the back ground structure, the second inner layer, the front ground structure, the back ground structure or the second surface layer are woven by anti-virus and anti-bacterial combed cotton yarns, and the sock head and the sock heel and the sock body sole are of the same fabric structure. The utility model discloses a six layer construction are adopted to undertoe, sock body sole, heel, and are more wear-resisting than ordinary socks, and permanent antiviral antibiotic is deodorant, belongs to the biological antibiotic of non-leaching out nature, resistant washing many times.

Description

Washing-resistant antiviral antibacterial deodorant sock

Technical Field

The utility model relates to a light industry textile technology field, concretely relates to antiviral antibiotic deodorant socks of resistant washing type.

Background

Under the normal condition, the shoes need to be worn with socks, firstly for deodorization, and secondly for preventing the feet from bubbling and skin abrasion caused by excessive friction between the feet and the shoes, which may cause harm to the health of the human body. The sock is generally divided into a sock head, a sock body, a sock heel and a sock leg from the structural point of view. According to the function, the socks are divided into common socks, deodorant socks, antibacterial socks, antivirus antibacterial socks, magnet quantum health care socks, foot massage socks and the like.

At present, in order to achieve the antibacterial and bacteriostatic functions, the common method in the market is to realize the antibacterial function by soaking or padding the antibacterial auxiliary agent in the post-process of sock production, however, socks added with the antibacterial auxiliary agent are not washable, antibacterial substances are dissolved out and overflow after each washing, and the problem of allergy to human skin may be caused; the second method is that the yarn realizes antibiosis by adding nano silver ions, copper ions or zinc oxide master batches, and the heavy metal antibiosis is not suitable for directly contacting human underfoot skin, because the heavy metal can cause carcinogenesis and allergy of a wearer and seriously harm human health.

Therefore, how to improve the defects of the existing socks and manufacture the water-washing-resistant type antiviral, antibacterial and deodorant functional socks becomes a problem which needs to be solved urgently.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that overcome above-mentioned prior art not enough, provide a washing-resistant type antiviral antibiotic deodorant socks.

The utility model provides a technical scheme that above-mentioned technical problem adopted is: a water-fast antiviral antibiotic deodorant socks of type that washes, includes: an organic whole toe, sock body, heel and the leg of a stocking of making into, the sock body divide into sock body instep face and sock body instep face, sock body instep face includes: the sock comprises a second inner layer, a second front yarn connecting layer, a front ground structure, a back yarn connecting layer and a second surface layer, wherein a double-head latch needle jacquard circular machine is adopted in the six-layer structure, the second inner layer and the second surface layer are woven into a whole by integrating the mutual interweaving of the second front yarn connecting layer, the back yarn connecting layer, the front ground structure and the back ground structure, the second inner layer, the front ground structure, the back ground structure or the second surface layer are woven by anti-virus and anti-bacterial combed cotton yarns, and the sock head and the sock heel and the sock body sole are of the same fabric structure.

The instep of sock body includes: the first surface layer is the same as the second inner layer, the first inner layer is the same as the front ground structure, and the first front yarn connecting layer is tightly interwoven with the first surface layer and the first inner layer, and the sock leg and the sock body instep adopt the same fabric structure.

The first front surface thread yarn connecting layer is made of hydrophilic all-cotton yarns.

The second surface layer is formed by interweaving two back ground weave weft yarns in a jacquard mode, wherein one back ground weave weft yarn is an antiviral and antibacterial combed cotton yarn, and the other back ground weave weft yarn is an antiviral and antibacterial combed cotton yarn or a common cotton yarn.

The surface of the second surface layer is formed with a concave-convex herringbone square structure through jacquard interweaving.

The second inner layer is formed by plain weaving of two front side ground weave weft yarns, wherein one front side ground weave weft yarn is an antiviral and antibacterial combed cotton yarn, and the other front side ground weave weft yarn is an antiviral and antibacterial combed cotton yarn or a common cotton yarn.

The second front surface thread yarn connecting layer and the back surface thread yarn connecting layer are both formed by weaving hydrophilic all-cotton yarns.

The anti-virus and anti-bacterial combed cotton yarn is prepared by grafting and modifying cotton fibers through an anti-virus group and an anti-bacterial group, and is a non-dissoluble biological anti-bacterial yarn.

Compared with the prior art, the beneficial effects of the utility model are that:

(1) the sock head, the sole of the sock body and the heel adopt six-layer structures, so that the sock is more wear-resistant than common socks, and the sole can achieve natural massage effect when walking; the leg and the instep of the sock body adopt a three-layer structure, so that the sock is comfortable and breathable to wear;

(2) permanent antivirus, antibiosis and deodorization, belongs to non-dissolution biological antibiosis, and resists multiple water washing;

(3) the gel is safe and nontoxic, has no stimulation to skin, and has good biocompatibility;

(4) the all-natural environment-friendly cellulose fiber material can be naturally biodegraded and is environment-friendly.

Drawings

In order to more clearly illustrate the technical solution in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced, wherein:

FIG. 1 is a schematic structural diagram of a preferred embodiment of the present invention;

FIG. 2 is a schematic view showing the structure of the back layer of the leg and body of the sock according to the preferred embodiment of the present invention;

FIG. 3 is a schematic view showing the structure of the toe, heel and sole layer of the sock body according to the preferred embodiment of the present invention;

fig. 4 is a front view and a back view of the preferred embodiment of the present invention.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and the detailed description. In the preferred embodiments, the terms "upper", "lower", "left", "right", "middle" and "a" are used for the sake of clarity only, and are not intended to limit the scope of the invention, its relative relationship between the terms and their derivatives, and the scope of the invention should be understood as being limited by the claims.

Referring to fig. 1, the anti-virus, anti-bacterial and anti-odor socks designed according to the preferred embodiment of the present invention mainly include: the toe 1, the body 2, the heel 3 and the shaft 4, which are connected to each other in this order, are described in detail below.

The sock body 2 can be divided into an upper surface and a lower surface, wherein the upper surface is the sock body instep surface 22, and the lower surface is the sock body instep surface 21. The sock body instep surface 22 and the sock leg 4 are made of the same fabric material, and the sock head 1, the sock body instep surface 21 and the sock heel 3 are made of the same fabric material. Different parts of the sock are designed into different fabric structures according to the use condition when the sock is worn, so that the sock has the advantages that the foot protection is better realized on the seriously worn sock head 1, the sock body sole surface 21 and the sock heel 3, the parts sweat most, the fabric structure is improved, and the antiviral, antibacterial and deodorant effects are realized; for the sock body instep 22 and the sock leg 4 which are less worn, the cost is considered, and only the sock body instep 22 and the sock leg 4 are comfortable and breathable.

Referring to fig. 2, the instep surface 22 of the sock body includes: first top layer 221, first positive side line yarn articulamentum 222 and the first inlayer 223 that set gradually adopt the three-layer organizational structure of single face, and first positive side line yarn articulamentum 222 is hydrophilic all cotton yarn, directly links the inlayer of socks and the top layer of socks in an organic whole, more directly, rapidly, more convenient in moisture absorption sweat discharging, outwards conducts the sweat on the foot seedling, is absorbed by the top layer and is evaporated to outer environment. The leg 4 and the instep 22 of the sock body are integrally woven by the same fabric structure.

Referring to fig. 3, the sole 21 of the sock body includes: the second back layer 211, the second front side thread yarn connecting layer 212, the front side ground weave 213, the back side ground weave 214, the back side thread yarn connecting layer 215 and the second surface layer 216 are arranged in sequence. The second inner layer 211 is formed by two front side weave wefts through plain weaving, and is tightly connected with the front side weave 213 through a second front side yarn connecting layer 212; the second surface layer 216 is formed by two back ground weave wefts which are interwoven by jacquard, the second surface layer is in a concave-convex herringbone square structure, and the second surface layer is tightly connected with the back ground weave 214 through a back yarn connecting layer 215. The six-layer weave structure adopts a double-head latch needle jacquard circular knitting machine, integrates the mutual interweaving of the second front side thread yarn connecting layer, the back side thread yarn connecting layer, the front side ground weave and the back side ground weave, and orderly combines the second inner layer and the second surface layer of the sock into a whole. The sock head 1 and the sock heel 3 and the sock body sole surface 21 are integrally woven by adopting the same fabric structure.

At least one layer of the second inner layer, the front ground weave, the back ground weave and the second surface layer is formed by weaving anti-virus and anti-bacterial combed cotton yarns. For example, one of the front side weave weft yarns of the second inner layer is formed by the anti-virus and anti-bacterial combed cotton yarn, and the other front side weave weft yarn can be formed by the anti-virus and anti-bacterial combed cotton yarn or common cotton yarn; or, similarly, one back weave weft yarn of the second surface layer is formed by the antivirus and antibacterial combed cotton yarn, and the other back weave weft yarn can be formed by the antivirus and antibacterial combed cotton yarn or common cotton yarn. The second front surface thread yarn connecting layer and the back surface thread yarn connecting layer are both formed by weaving hydrophilic all-cotton yarns.

Referring to fig. 4, the front ground weave and the back ground weave are connected by a weft plain stitch structure, and are serially sleeved in a continuous loop manner, wherein one side is completely a front loop and the other side is completely a back loop. The front ground weave and the back ground weave are knitted fabrics formed by feeding two yarns in a weft direction, sequentially bending the yarns into a series of loops, and mutually interlooping a new loop generated at the time and an old loop generated at the previous time.

The utility model adopts a double-head latch needle jacquard circular machine, which is a double-head latch needle jacquard circular machine with an upper needle cylinder and a lower needle cylinder superposed by 180 degrees. During weaving, a complete weaving structure comprises six rows, the first row and the third row respectively weave plain knitting to form a second inner layer and a front ground texture, the fourth row and the sixth row respectively weave jacquard to form a back ground texture and a second surface layer, and the second surface layer synchronously forms a concave-convex herringbone square surface structure; in the second row, a second front surface thread yarn connecting layer is formed by weaving hydrophilic all cotton yarns into double-sided tucks, and a second inner layer and a front surface ground structure which are arranged on two sides of the second front surface thread yarn connecting layer are connected simultaneously; in the fifth row, the back yarn connecting layer is formed by weaving hydrophilic all cotton yarn into double-sided tuck, and the second surface layer and the back ground structure are connected at the same time. The whole process of the sock weaving is completed by computer programming full-automatic control, from the sock head → the sock body → the sock heel → the sock leg. When the sock body is knitted, the sock body instep surface is similar to the six-layer process of the sock head, after the six-layer structure of the sock body instep surface is knitted, when the sock body instep surface is knitted, the fourth, fifth and sixth rows of knitting needles do not participate in knitting, the three-layer structure of the sock body instep surface and the sock cylinder is knitted only by the first, second and third rows of knitting needles, namely the first surface layer and the second inner layer use the same yarns, the first front side thread and yarn connecting layer and the second front side thread and yarn connecting layer use the same yarns, the front side ground texture and the first inner layer use the same yarns, the front side ground texture is actually the inner layer of the sock body instep surface, and the front side of the sock body instep surface is connected with the two sides of the sock body instep surface while being knitted.

The preparation method of the antiviral and antibacterial combed cotton yarn comprises the steps of improving the hydrophilic performance of raw material yarns through pretreatment, placing the treated yarns in grafting liquid of antiviral group monomers and antibacterial group monomers to be fully soaked and wetted, combining the antiviral group monomers and the antibacterial group monomers with OH-hydroxyl groups and NH 3-amino covalent bonds of cotton fibers through grafting modification and chemical modification methods, and firmly combining the obtained products on the yarn fibers to obtain the modified yarns with the antiviral and antibacterial properties, so that the socks can achieve permanent antiviral and antibacterial properties, and can resist repeated washing without failure.

Sock head, heel and sock body sole face adopt six layers of organizational structure of two-sided, it is mainly that these three positions have played the effect of the most banket, seal for a long time after the sole perspires and breed the bacterial virus in the shoes more easily, so more need more antiviral antibiotic cotton yarn to fill, through six layers of organizational structure on two sides, than the leg of a stocking, the sock body instep has had more antiviral antibiotic warp, antiviral antibiotic woof, strengthened the deodorant protection of disinfecting of tiptoe, sole, heel greatly. Meanwhile, the second surface layer is of a concave-convex herringbone square structure, so that the thickness of the sole part of the sock body is increased, and the sock is more wear-resistant.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention in any way, and any person skilled in the art may modify, modify and modify any brief introduction, equivalent changes and modifications made by the technical spirit of the present invention without departing from the technical scope of the present invention.

Claims (8)

1. A water-fast antiviral antibiotic deodorant socks of type that washes, includes: the integrally knitted sock head, sock body, sock heel and sock leg, the sock body is divided into sock body instep and sock body sole surface, characterized in that,

the sole surface of sock body includes: the sock comprises a second inner layer, a second front yarn connecting layer, a front ground structure, a back yarn connecting layer and a second surface layer, wherein a double-head latch needle jacquard circular machine is adopted in the six-layer structure, the second inner layer and the second surface layer are woven into a whole by integrating the mutual interweaving of the second front yarn connecting layer, the back yarn connecting layer, the front ground structure and the back ground structure, the second inner layer, the front ground structure, the back ground structure or the second surface layer are woven by anti-virus and anti-bacterial combed cotton yarns, and the sock head and the sock heel and the sock body sole are of the same fabric structure.

2. The washable, antiviral, antibacterial, and odor resistant sock of claim 1, wherein the sock body instep comprises: the first surface layer is the same as the second inner layer, the first inner layer is the same as the front ground structure, and the first front yarn connecting layer is tightly interwoven with the first surface layer and the first inner layer, and the sock leg and the sock body instep adopt the same fabric structure.

3. The washable, antiviral, antibacterial, and odor resistant sock of claim 2, wherein the first face yarn attachment layer is a hydrophilic all cotton yarn.

4. The washable, antiviral, antibacterial and deodorant sock according to claim 1, wherein the second cover layer is formed by jacquard interweaving of two back side ground weave weft yarns, one of the back side ground weave weft yarns being an antiviral and antibacterial combed cotton yarn, and the other of the back side ground weave weft yarns being an antiviral and antibacterial combed cotton yarn or a normal cotton yarn.

5. The washable, antiviral, antibacterial, and odor resistant sock according to claim 4, wherein the surface of said second surface layer is formed with a concave-convex herringbone square structure by jacquard interweaving.

6. The washable, antiviral, antibacterial and odor-resistant sock according to claim 1, wherein said second inner layer is formed by plain weaving of two front side weave wefts, one of which is an antiviral and antibacterial combed cotton yarn and the other is an antiviral and antibacterial combed cotton yarn or a regular cotton yarn.

7. The washable, antiviral, antibacterial, and odor resistant sock of claim 1, wherein the second front and back side thread yarn attachment layers are each woven from hydrophilic all cotton yarn.

8. The washable antiviral, antibacterial and deodorant sock according to claim 1, wherein the antiviral and antibacterial combed cotton yarn is made from cotton fiber by grafting modification of antiviral groups and antibacterial groups, and is a non-leaching biological antibacterial.

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