CN218084510U - Anti-pilling knitted cotton sock - Google Patents

Abstract

The utility model discloses a prevent knitted cotton socks of pilling relates to socks technical field, aims at solving the easy problem of pilling of socks, and its technical scheme main points are: including surface course and nexine, the nexine has a plurality of electrically conductive lugs near one side array distribution of surface course, and a plurality of holding tanks have been seted up to one side that the surface course is close to the nexine, and electrically conductive lug stretches into to the holding tank in, electrically conductive lug and nexine be the integrated into one piece structure, and the nexine lacks the pad warp knitting tissue through a plurality of electrically conductive yarns and a plurality of first compound yarn warp knitting formation. Through adopting the copper fiber, the copper fiber has fine electrically conductive effect, can derive static, has guaranteed the anti pilling performance of whole socks.

Description

Anti-pilling knitted cotton sock

Technical Field

The utility model relates to a socks technical field, more specifically say, it relates to a prevent knitted cotton socks of pilling.

Background

Socks, a dress article worn on feet. The text of saying: ", foot wear. "has the functions of protecting feet and preventing foot odor. The socks are general names, and are divided into cotton yarn socks, wool socks, silk socks, various chemical fiber socks and the like according to raw materials, and are divided into stockings, mid-stockings, ankle socks, panty-hose and the like according to shapes, and also have multiple types and varieties such as plain ends, rib ends, heelless, jacquard weave, woven weave and the like.

When current socks are worn in autumn or winter in drier weather, the feet of the socks are not easy to sweat, and the socks can be continuously rubbed during walking, and in order to ensure the elasticity of the socks, polyester-cotton blending materials can be utilized to be made, wherein terylene has no good antistatic effect, when continuously rubbing, the socks are easy to generate static electricity, if the yarn strength is poor, the yarn surface is easy to fuzz, when static electricity is encountered, the wool can be held into a ball, thereby the phenomenon of pilling appears, and the influence is attractive.

Therefore, a new solution is needed to solve this problem.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art exists, the utility model aims to provide a prevent knitted cotton socks of pilling reaches the effect of preventing pilling through the setting of structure.

The above technical purpose of the present invention can be achieved by the following technical solutions: the utility model provides a prevent knitted cotton socks of pilling, includes surface course and nexine, one side array distribution that the nexine is close to the surface course has a plurality of electrically conductive lugs, a plurality of holding tanks have been seted up to one side that the surface course is close to the nexine, electrically conductive lug stretches into to the holding tank in, electrically conductive lug and nexine be the integrated into one piece structure, the nexine lacks pad warp knitting tissue through a plurality of electrically conductive yarns and a plurality of first compound yarn warp knitting formation.

Through adopting the above technical scheme, including surface course and nexine, there are a plurality of electrically conductive lugs in one side array distribution that the nexine is close to the surface course, a plurality of holding tanks have been seted up to one side that is close to the nexine at the surface course, make electrically conductive lug stretch into to the holding tank in, make electrically conductive lug be close external environment more, the electrically conductive effect of electrically conductive yarn has been strengthened, thereby the antistatic effect of whole socks has been guaranteed, effectively play the effect of preventing pilling, and electrically conductive lug is the integrated into one piece structure with the nexine, the wholeness of nexine has been guaranteed, thereby holistic structural strength has been guaranteed.

The utility model discloses further set up to: conductive yarn's thickness degree is greater than the thickness degree of first compound yarn, the nexine is weavingd by sley bar GB1 and sley bar GB2 and is formed and lack the pad warp knitting tissue, sley bar GB 1's lapping yarn motion is: (0-1/1-0) X3/(0-0) X3//, and the four conductive yarns and the two first composite yarns are taken as a group to be circularly arranged and fully penetrated, and the yarn laying motion of the guide bar GB2 is as follows: 1-0/2-3/and is full with the first composite yarn.

Through adopting above-mentioned technical scheme, the nexine is woven by sley bar GB1 and sley bar GB2 and is formed and lack the warp knitting tissue of filling up, and adopt the above-mentioned structure of weaving, wherein sley bar GB1 is preceding comb, sley bar GB2 is the back comb, because the thickness degree of conductive yarn is greater than the thickness degree of first compound yarn, lack pad department in the front, all be with first compound yarn lopping, it is whole thinner, remainder department, because conductive yarn is thicker, this part protrusion, make one side integrated into one piece of nexine be a plurality of electrically conductive lugs, the wholeness of nexine has been guaranteed.

The utility model discloses further set up to: the conductive yarn comprises a first core layer and a plurality of copper fibers wound around the first core layer.

By adopting the technical scheme, the copper fiber has a good conductive effect, and the conductive effect of the conductive bump is ensured.

The utility model discloses further set up to: the core layer I is formed by twisting a plurality of core wires, each core wire comprises first special-shaped section fibers and viscose fibers wound around the first special-shaped section fibers, and the sections of the first special-shaped section fibers are trilobal.

By adopting the technical scheme, the surface area of the first special-shaped section fiber of the trilobal is large, the cohesive force between the fibers is guaranteed, the viscose fiber has a good moisturizing effect, is wholly moist, and effectively plays an antistatic effect.

The utility model discloses further set up to: the first composite yarn is formed by twisting combed cotton and hollow cotton.

By adopting the technical scheme, the combed cotton has a good warm-keeping effect, the combed cotton is not easy to pilling, and the hollow cotton has a good moisture absorption and quick drying effect.

The utility model discloses further set up to: the surface layer is formed by warp knitting a plurality of second composite yarns, the second composite yarns sequentially comprise a second core layer, a reinforcing layer and a coating layer from inside to outside, the second core layer comprises second special-shaped section fibers, the second core layer is formed by twisting, and the section of the second special-shaped section fibers is a five-leaf type.

By adopting the technical scheme, the surface of the second special-shaped section fiber of the five-leaf profile is concave-convex, the surface area is large, and the cohesive force between the fibers is ensured.

The utility model discloses further set up to: the reinforcing layer is wound on the second outer side of the core layer through a plurality of fibers with the third different cross sections, and the cross section of the fibers with the third different cross sections is cross-shaped.

By adopting the technical scheme, the cross-shaped third-type cross-section fiber has a good moisture absorption and sweat releasing effect, the surface area is large, the cohesive force between the fiber is ensured, and the strength of the second composite yarn is ensured.

The utility model discloses further set up to: the coating layer is wound on the outer side of the reinforcing layer through a plurality of coating yarns, and the coating yarns are formed by twisting nylon and flax fibers.

Through adopting above-mentioned technical scheme, the polyamide fibre has fine elasticity, and has fine wear-resisting effect, and flax fiber has fine moisture absorption and releases wet function, and the surface has the line mark, has increased the roughness of surface, has guaranteed the cohesive force between fibre and the fibre to the intensity of second compound yarn has been guaranteed, makes the surface course be difficult to the balling-up.

To sum up, the utility model discloses following beneficial effect has:

including surface course and nexine, one side array distribution that is close to the surface course at the nexine has a plurality of electrically conductive lugs, one side that is close to the nexine at the surface course has seted up a plurality of holding tanks, make electrically conductive lug stretch into to the holding tank in, make electrically conductive lug be close external environment more, the electrically conductive effect of electrically conductive yarn has been strengthened, thereby the antistatic effect of whole socks has been guaranteed, effectively play the effect of preventing pilling, and electrically conductive lug is the integrated into one piece structure with the nexine, the wholeness of nexine has been guaranteed, thereby holistic structural strength has been guaranteed.

Drawings

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

fig. 2 is a cross-sectional view of the conductive yarn of the present invention;

fig. 3 is a cross-sectional view of a first composite yarn of the present invention;

fig. 4 is a cross-sectional view of a second composite yarn of the present invention;

FIG. 5 is a yarn laying movement diagram of the guide bar GB1 of the present invention;

fig. 6 is a yarn laying movement diagram of the guide bar GB2 of the present invention.

In the figure: 1. a surface layer; 2. an inner layer; 3. a conductive bump; 4. accommodating grooves; 5. a conductive yarn; 6. viscose fibers; 7. a first profiled cross-section fiber; 8. copper fibers; 9. a first composite yarn; 10. hollow cotton; 11. combing cotton; 12. a second composite yarn; 13. a second profiled cross-section fiber; 14. a third type cross-section fiber; 15. nylon; 16. flax fiber.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings and examples.

The utility model provides a prevent knitted cotton socks of pilling, as shown in figure 1, includes surface course 1 and nexine 2, and nexine 2 has a plurality of electrically conductive lugs 3 near one side array distribution of surface course 1, and surface course 1 is close to one side of nexine 2 and has seted up a plurality of holding tanks 4, and electrically conductive lug 3 stretches into to the holding tank in, electrically conductive lug 3 and nexine 2 are the integrated into one piece structure.

As shown in fig. 1-6, a first profiled cross-section fiber 7 with a trilobal cross-section is formed by spinning polyester fibers by using a spinneret plate, a viscose fiber 6 is obtained, the viscose fiber 6 is wound outside the first profiled cross-section fiber 7 in a spindle-running manner by using a spindle-running machine to form a core wire, a plurality of core wires are put into a twisting machine to be twisted to form a first core layer, a processed first core layer and a plurality of copper fibers 8 are put into the spindle-running machine, a plurality of copper fibers 8 are wound outside the first core layer in a spindle-running manner to obtain a whole conductive yarn 5, cotton fiber is taken out and put into the twisting machine to obtain combed cotton 11, hollow cotton 10 and combed cotton 11 are taken and put into the twisting machine to be twisted to form a first composite yarn 9, combed cotton 11 and hollow cotton 10 are taken as guide bars GB1 and GB2, a plurality of conductive yarns 5 and a plurality of first composite yarns 9 are taken as guide bars GB1 and GB2, wherein the guide bar GB1 is taken as a front guide bar GB2, the guide bar GB2 is taken as a rear guide bar and put into a warp knitting machine to be warp knitting to form a back layer 2 in a warp knitting structure in a way without a warp cushion yarn, and a cushion yarn movement of the guide bar GB1 is: (0-1/1-0) X3/(0-0) X3//, and the four conductive yarns 5 and the two first composite yarns 9 are circularly arranged and fully penetrated, and the lapping movement of the guide bar GB2 is: 1-0/2-3/, and the first composite yarn 9 is fully penetrated, the first composite yarn 9 is looped at the front comb gap pad, the whole is thinner, and the part at the rest part protrudes because the conductive yarn 5 is thicker, so that one side of the inner layer 2 is integrally formed into a plurality of conductive bumps 3, and the integrity of the inner layer 2 is ensured.

As shown in fig. 1-6, a second special-shaped cross-section fiber 13 with a cross-section is formed by spinning polyester through a spinneret plate and is used as a second core layer, a third special-shaped cross-section fiber 14 with a cross-section is formed by spinning polyester through a spinneret plate, the processed second core layer and the third special-shaped cross-section fibers 14 are placed in a spindle former, the third special-shaped cross-section fibers 14 are wound on the outer side of the core layer in a spindle-moving mode to form a reinforcing layer, a nylon 15 and a flax fiber 16 are placed in a twisting machine to be twisted to form a covering yarn, the processed reinforcing layer and the covering yarns are placed in the spindle former, the covering yarns are wound on the outer side of the reinforcing layer in a spindle-moving mode to form a covering layer, so that the whole second composite yarn 12 is obtained, the second composite yarns 12 are placed in a warp knitting machine to form a surface layer 1 through warp knitting, a plurality of accommodating grooves 4 are formed in a hot press molding mode on one side of the surface layer 1, one side of the inner layer 2 with conductive bumps 3 is close to one side of the surface layer 1 with the accommodating grooves 4, the conductive bumps 3 are stretched into the accommodating grooves 4, and the fabric is sewn.

After this surface fabric made socks, including surface course 1 and nexine 2, it has a plurality of electrically conductive lugs 3 to distribute in one side array that nexine 2 is close to surface course 1, a plurality of holding tanks 4 have been seted up in one side that surface course 1 is close to nexine 2, make electrically conductive lug 3 stretch into to holding tank 4 in, make electrically conductive lug 3 be close external environment more, the electrically conductive effect of electrically conductive yarn has been strengthened, thereby the antistatic effect of whole socks has been guaranteed, effectively play the effect of preventing pilling, and electrically conductive lug 3 is the integrated into one piece structure with nexine 2, the wholeness of nexine 2 has been guaranteed, thereby holistic structural strength has been guaranteed.

It is above only the utility model discloses a preferred embodiment, the utility model discloses a scope of protection does not only confine above-mentioned embodiment, the all belongs to the utility model discloses a technical scheme under the thinking all belongs to the utility model discloses a scope of protection. It should be noted that modifications and embellishments within the scope of the present disclosure may be made by those skilled in the art without departing from the principles of the present disclosure.

Claims (8)

1. The utility model provides a prevent knitting cotton socks of pilling which characterized in that: including surface course (1) and nexine (2), one side array distribution that nexine (2) are close to surface course (1) has a plurality of electrically conductive lug (3), a plurality of holding tank (4) have been seted up to one side that surface course (1) are close to nexine (2), electrically conductive lug (3) stretch into to holding tank (4) in, electrically conductive lug (3) are the integrated into one piece structure with nexine (2), nexine (2) lack the pad warp knitting tissue through a plurality of electrically conductive yarn (5) and a plurality of first compound yarn (9) warp knitting formation.

2. The anti-pilling knitted cotton sock according to claim 1, wherein: the thickness degree of electrically conductive yarn (5) is greater than the thickness degree of first compound yarn (9), nexine (2) are woven by sley bar GB1 and sley bar GB2 and are formed and lack the warp knitting tissue of filling up, sley bar GB 1's the yarn motion of filling up is: (0-1/1-0) X3/(0-0) X3//, and four conductive yarns (5) and two first composite yarns (9) are taken as a group to be circularly arranged and fully penetrated, and the yarn laying motion of the guide bar GB2 is as follows: 1-0/2-3/and is full with the first composite yarn (9).

3. The anti-pilling knitted cotton sock according to claim 2, wherein: the conductive yarn (5) comprises a first core layer and a plurality of copper fibers (8) wound around the first core layer.

4. The anti-pilling knitted cotton sock according to claim 3, wherein: the core layer I is formed by twisting a plurality of core wires, each core wire comprises a first special-shaped section fiber (7) and viscose fibers (6) wound around the first special-shaped section fiber (7), and the section of each first special-shaped section fiber (7) is of a trilobal shape.

5. The anti-pilling knitted cotton sock according to claim 2, wherein: the first composite yarn (9) is formed by twisting combed cotton (11) and hollow cotton (10).

6. The anti-pilling knitted cotton sock according to claim 1, wherein: surface course (1) is through a plurality of second composite yarn (12) warp knitting and forms, second composite yarn (12) are inside to outside to include sandwich layer two, enhancement layer and coating in proper order, sandwich layer two includes that second heterotypic cross-section fibre (13) twist forms, the cross-section of second heterotypic cross-section fibre (13) is the five leaf type.

7. The anti-pilling knitted cotton sock according to claim 6, wherein: the reinforcing layer is wound on the outer side of the second core layer through a plurality of fibers (14) with the third type section, and the section of the fibers (14) with the third type section is in a cross shape.

8. The anti-pilling knitted cotton sock according to claim 7, wherein: the coating layer is wound on the outer side of the reinforcing layer through a plurality of coating yarns, and the coating yarns are formed by twisting nylon (15) and flax fibers (16).

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