CN210960452U - Professional sport sock foot-molding and protecting weaving process structure - Google Patents

Abstract

The utility model belongs to the technical field of articles for daily use, concretely relates to foot protection weaving process structure is moulded to professional sport socks, including the socks body, the socks body is equipped with undertoe and heel, and the heel is three-dimensional design, and the upper portion and the welt of heel are connected, are equipped with the rubber band in the welt, and the position that the socks body lies in the instep is equipped with ventilative layer, and ventilative layer is equipped with many space lines, and the space line falls into many elasticity strips with ventilative layer, and the position that the socks body lies in the instep is equipped with the beam waist area, and undertoe and heel adopt the thickening design, and the undertoe, the socks body, heel and welt all adopt ocean fiber to weave and form. The utility model provides an ocean fiber has stronger antibiotic deodorization effect for socks antibiotic deodorization is effectual, and socks are wear-resisting and have certain shock attenuation antiskid, and socks elasticity is sufficient, and the gas permeability is good, sweat-absorbing drainage, and laminating foot can prevent the sole and pull, and can the rapid-curing cutback, and the left and right feet of undertoe adopts the oblique angle three-dimensional tailorring, makes socks laminating foot type, and the dress is more comfortable.

Description

Professional sport sock foot-molding and protecting weaving process structure

Technical Field

The utility model belongs to the technical field of articles for daily use, concretely relates to foot protector weaving technology structure is moulded to specialty sport socks.

Background

The socks are indispensable articles in daily life of people and play an important role in the daily life of people. It can not only play the role of cold protection and warm keeping, but also play the role of decoration.

Because socks are in the in-process of wearing, broken hole appears easily in undertoe and heel, and the socks body is still intact. However, due to the damage of the sock head and the sock heel, even if the sock body is intact, a pair of socks has to be scrapped, which causes great waste of resources and is not in line with the low-carbon environment-friendly green life advocated by modern society.

People can produce some sweat moisture at the in-process of motion, and sweat moisture can't in time discharge, and socks breed a large amount of bacteriums easily, can make the foot produce the peculiar smell, may harm human health even.

At present, various antibacterial and deodorant socks are available on the market, but the antibacterial and deodorant effects are not good, and some socks are uncomfortable to wear.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a wear-resisting, effectual, the comfortable foot guard weaving process structure is moulded to antibiotic deodorization's professional sport socks to solve the problem that proposes among the above-mentioned background art.

In order to achieve the technical purpose, the utility model adopts the technical scheme that:

a technical structure for weaving professional sport socks with a plastic foot protector comprises a sock body, wherein the front part of the sock body is provided with a sock head, the rear part of the sock body is provided with a sock heel, the sock heel is U-shaped, and the upper part of the sock heel is connected with a sock opening through a heel connecting part; the welt comprises a first tightening part and a second tightening part, the first tightening part and the second tightening part are symmetrically arranged, the first tightening part and the second tightening part are connected through a first connecting part and a second connecting part, the height of the first connecting part and the height of the second connecting part are smaller than that of the first tightening part and the second tightening part, and rubber bands are arranged in the first connecting part, the second connecting part, the first tightening part and the second tightening part; the sock body is provided with a breathable layer at the instep, the breathable layer is provided with a plurality of spacing lines, the spacing lines divide the breathable layer into a plurality of elastic strips with gradually reduced width from the sock head to the sock heel, and a waistband is arranged at the sock body at the foot nest; the thicknesses of the breathable layer and the waistband are smaller than those of the rest part of the sock body, the sock head and the sock heel; the sock head, the sock body, the sock heel and the sock opening are all formed by weaving marine fibers.

As an improvement, the part of the sock body excluding the breathable layer and the waistband is provided with a plurality of dividing lines, the dividing lines divide the sock body into a plurality of sock body anti-slip strips with the width gradually reduced from the sock head to the sock heel, and the sock body anti-slip strips are arranged along the sock body width direction.

As a further improvement, the heel connecting part is provided with an elastic strip which is provided with two arched convex strips.

As a further improvement, stepped elastic strips are arranged on two sides of the front part of the breathable layer, trapezoidal elastic strips are arranged on two sides of the rear part of the breathable layer respectively, the waistband is provided with two parallel horizontal elastic strips, two ends of one horizontal elastic strip are connected with two ends of the stepped elastic strips, two ends of the other horizontal elastic strip are connected with one ends of the two trapezoidal elastic strips respectively, the other ends of the two trapezoidal elastic strips extend to the heel connecting part respectively to form inverted-right-angle-shaped elastic strips, and the two inverted-right-angle-shaped elastic strips are located on two sides of the elastic strips respectively.

As a further improvement, the breathable layer, the waistband, the welt and the elastic strip are knitted with marine fiber nylon, the part of the sock body excluding the breathable layer and the waistband, the sock head, the sock heel and the heel connecting part are knitted with marine fiber cotton thickened terry, and the spacing line, the dividing line, the stepped elastic strip, the trapezoidal elastic strip and the horizontal elastic strip are knitted with marine fiber nylon.

As an improvement, the waistband is provided with a plurality of foot pit anti-slip strips along the length direction of the sock body.

As an improvement, the sock body is of a single-layer structure, and the sock opening is of a double-layer structure.

As a further improvement, the sock head is divided into a left sock head and a right sock head, wherein the left sock head is provided with an inclined plane which is high from right to left and low from left to right, and the right sock head is provided with an inclined plane which is high from left to right and low from left to right.

Due to the adoption of the technical scheme, the beneficial effects of the utility model are that:

the utility model discloses wholly adopt the marine fiber to weave and form, the marine fiber is by ordinary fibre and chitin and nano-material xinmei N20 (main component is zinc, iron, calcium etc.) blending that extract from marine life such as kelp, marine alga, the marine fiber has stronger antibiotic deodorization effect, the thickening design is adopted to the front sole portion of undertoe, heel and socks body, increase the wearing resistance of socks and have the cushioning effect, the heel adopts three-dimensional molding design reducible friction, increase the wearing resistance; the breathable layer arranged on the instep part of the sock body can improve the stuffiness, sweat absorption and drainage of the sock, has enough elasticity, is attached to the instep, prevents the foot sole from being pulled and is quick to dry; the waistband arranged on the foot nest part of the sock body is more attached to the foot nest, so that the comfort level is improved; the sock opening adopts a double-layer design to enable the package to be compact; the left foot and the right foot of the sock head are cut out in an oblique angle stereoscopic mode, so that the sock fits the foot type and is more comfortable to wear.

Drawings

FIG. 1 is a schematic front structure view of a technical structure for manufacturing a plastic foot protector for professional sport socks;

FIG. 2 is a schematic view of the back structure of the technical structure of the foot-protecting and foot-molding process for professional sport socks of the present invention;

wherein: 1-sock body, 2-sock head, 3-sock heel, 4-heel connecting part, 5-sock mouth, 6-breathable layer, 7-waistband, 8-inverted-right-angle elastic strip, 11-parting line, 12-sock body antislip strip, 41-elastic strip, 42-arch convex strip, 51-first tightening part, 52-second tightening part, 53-first connecting part, 54-second connecting part, 61-parting line, 62-elastic strip, 63-ladder-shaped elastic strip, 64-ladder-shaped elastic strip, 71-foot nest antislip strip and 72-horizontal elastic strip.

Detailed Description

The present invention will be further described with reference to the following embodiments. Wherein the showings are for the purpose of illustration only and are shown by way of illustration only and not in actual form, and are not to be construed as limiting the present patent; for a better understanding of the embodiments of the present invention, some parts of the drawings may be omitted, enlarged or reduced, and do not represent the size of an actual product; it will be understood by those skilled in the art that certain well-known structures in the drawings and descriptions thereof may be omitted.

The same or similar reference numerals in the drawings of the embodiments of the present invention correspond to the same or similar parts; in the description of the present invention, it should be understood that if there are the terms "upper", "lower", "left", "right", etc. indicating the orientation or positional relationship based on the orientation or positional relationship shown in the drawings, it is only for convenience of description and simplification of the description, but it is not intended to indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and therefore the terms describing the positional relationship in the drawings are only for illustrative purposes and are not to be construed as limitations of the present patent, and those skilled in the art can understand the specific meanings of the terms according to specific situations.

As shown in figure 1 and figure 2 jointly, a foot banket weaving process structure is moulded to professional sport socks, including the socks body 1, the front portion of the socks body 1 is equipped with undertoe 2, and undertoe 2 divide into left and right undertoe, and left and right undertoe adopts the oblique angle solid to tailor, and wherein, left undertoe is equipped with and is the inclined plane of height on the right side left side, and right undertoe is equipped with and is the inclined plane of height on the left side right side from the right side left side.

The rear portion of the socks body 1 is equipped with heel 3, heel 3 is the U type, heel 3's upper portion is connected with welt 5 through heel connecting portion 4, heel 3 can be perpendicular three-dimensional design with welt 5, be equipped with the rubber band in the welt 5, the sole part of the socks body 1, the undertoe 2, heel 3 and heel connecting portion 4 are woven by marine fiber cotton thickening looped pile and are formed, the sole perspires the humidity and can make skin soft, the foot increases with the frictional force of socks, the sole produces the vacuole easily, thickening looped pile both can multiplicable socks's abrasion resistance, still reducible because of the vacuole probability that the friction leads to.

The welt 5 comprises a first tightening part 51 and a second tightening part 52, the first tightening part 51 and the second tightening part 52 are symmetrically arranged, two ends of the first tightening part 51 and the second tightening part 52 are respectively connected through a first connecting part 53 and a second connecting part 54, the height of the first connecting part 53 and the height of the second connecting part 54 are smaller than the height of the first tightening part 51 and the height of the second tightening part 52, two ends of the welt 5 are in an inverted trapezoid shape, the welt 5 can be wrapped and tightened by the design, and the ankle cannot be tightened too tightly.

The position that the socks body 1 is located the instep is equipped with ventilative layer 6, and ventilative layer 6 is equipped with many space lines 61, and space line 61 will ventilative layer 6 divide into many and gradually reduce the elasticity strip 62 from 2 to 3 direction widths of heel of a sock, and this design can make socks body 1 all have certain degree of relaxation in horizontal and vertical, can not make the instep by the parcel too tightly and have the swelling sense, and more laminating foot lines, increase the travelling comfort. The position that the socks body 1 is located the foot nest is equipped with beam waist area 7, and beam waist area 7 is equipped with many foot nest antislip strip 71, and foot nest antislip strip 71 sets up along the length direction of the socks body 1, and the frictional force at the bottom of the multiplicable socks of beam waist area 7 plays certain antiskid. The thickness of the breathable layer 6 and the waistband 7 is smaller than that of the rest part of the sock body, the sock head 2 and the sock heel 3, and the design can increase the breathability of the instep and the sole and guide sweat and drain water.

The whole socks are all woven by adopting marine fibers. The marine fiber is prepared by blending common fiber (such as cotton fiber, polyester fiber, nylon, acrylic fiber, vinylon, polypropylene fiber, etc.), chitin extracted from sea organisms such as kelp, seaweed, etc., and nano material Xinmei N20 (main components are zinc, iron, calcium, etc.).

In this embodiment, the part that the ventilative layer 6 of socks body 1 detached and waistband 7 is equipped with many cut-off lines 11, and many cut-off lines 11 are along the width direction parallel arrangement of the socks body 1, and cut-off line 11 divide into many socks body antislip strip 12 that gradually dwindles from the toe to heel direction width with the socks body 1, and socks body antislip strip 12 sets up along the width direction of the socks body, and the frictional force of the multiplicable sole of socks body antislip strip 12 plays certain antiskid.

In this embodiment, heel connecting portion 4 is equipped with elasticity strip 41, is equipped with two arch sand grips 42 on elasticity strip 41, and elasticity strip 41 can make heel connecting portion 4 laminate well with the ankle, increases the comfort level, and arch sand grip 42 can increase the vertical and horizontal elasticity of heel connecting portion 4.

In this embodiment, stepped elastic strips 63 are disposed on two sides of the front portion of the air-permeable layer 6, trapezoidal elastic strips 64 are disposed on two sides of the rear portion of the air-permeable layer 6, two parallel horizontal elastic strips 72 are disposed on the waistband 7, two ends of one horizontal elastic strip 72 are connected to two ends of the stepped elastic strip 63, two ends of the other horizontal elastic strip 72 are connected to one ends of the two trapezoidal elastic strips 64, the other ends of the two trapezoidal elastic strips 64 extend to the heel connecting portion 4 to form inverted-right-angle-shaped elastic strips 8, and the two inverted-right-angle-shaped elastic strips 8 are disposed on two sides of the elastic tightening strip 41.

In this embodiment, preferably, the air-permeable layer 6, the waistband 7, the welt 5, the elastic strip 41, the spacing line 61, the dividing line 11, the stepped elastic strip 63, the trapezoidal elastic strip 64, and the horizontal elastic strip 71 are all woven from marine fiber nylon.

In this embodiment, preferably, the socks body 1 is single-layer structure, and the socks body 1 adopts its gas permeability of single-layer structure multiplicable, and welt 5 is bilayer structure, and welt 5 adopts the parcel compactness of bilayer structure multiplicable welt and ankle.

The above description of the present invention does not limit the scope of the present invention. Any other corresponding changes and modifications made according to the technical idea of the present invention should be included in the scope of the claims of the present invention.

Claims (8)

1. A technical structure for weaving professional sport socks with a plastic foot protector comprises a sock body, wherein the front part of the sock body is provided with a sock head, and the rear part of the sock body is provided with a heel;

the welt comprises a first tightening part and a second tightening part, the first tightening part and the second tightening part are symmetrically arranged, the first tightening part and the second tightening part are connected through a first connecting part and a second connecting part, the height of the first connecting part and the height of the second connecting part are smaller than that of the first tightening part and the second tightening part, and rubber bands are arranged in the first connecting part, the second connecting part, the first tightening part and the second tightening part;

the sock body is provided with a breathable layer at the instep, the breathable layer is provided with a plurality of spacing lines, the spacing lines divide the breathable layer into a plurality of elastic strips with gradually reduced width from the sock head to the sock heel, and a waistband is arranged at the sock body at the foot nest;

the thicknesses of the breathable layer and the waistband are smaller than those of the rest part of the sock body, the sock head and the sock heel;

the sock head, the sock body, the sock heel and the sock opening are all formed by weaving marine fibers.

2. The technical structure for manufacturing the professional sport sock with the foot plastic and the foot protective according to claim 1, wherein a plurality of dividing lines are arranged on the part of the sock body excluding the breathable layer and the waistband, the dividing lines divide the sock body into a plurality of sock body anti-slip strips with gradually reduced width from the sock head to the sock heel, and the sock body anti-slip strips are arranged along the width direction of the sock body.

3. The technical structure for manufacturing the professional sport socks with the plastic feet and the protective feet according to claim 2, wherein the heel connecting part is provided with an elastic strip, and the elastic strip is provided with two arch-shaped convex strips.

4. The technical structure for weaving the plastic feet and the protective feet of the professional sport socks according to claim 3, wherein step-shaped elastic strips are arranged on two sides of the front part of the air-permeable layer, step-shaped elastic strips are arranged on two sides of the rear part of the air-permeable layer respectively, the waistband is provided with two parallel horizontal elastic strips, two ends of one horizontal elastic strip are connected with two ends of the step-shaped elastic strips, two ends of the other horizontal elastic strip are connected with one ends of the two step-shaped elastic strips respectively, the other ends of the two step-shaped elastic strips extend to the mouth-heel connecting part respectively to form inverted right-angle elastic strips, and the two inverted right-angle elastic strips are located on two sides of the elastic tightening strips respectively.

5. The technical structure for manufacturing the plastic foot protector of the professional sport socks according to claim 4, wherein the air-permeable layer, the waistband, the welt and the elastic strip are knitted by ocean fiber nylon, the part of the sock body excluding the air-permeable layer and the waistband, the sock head, the sock heel and the heel connecting part are knitted by ocean fiber cotton thickened terry, and the spacing line, the dividing line, the stepped elastic strip, the trapezoidal elastic strip and the horizontal elastic strip are knitted by ocean fiber nylon.

6. The technical structure for manufacturing the professional sport sock foot-shaping and protecting fabric according to claim 1, wherein the waistband is provided with a plurality of foot pit anti-slip strips along the length direction of the sock body.

7. The technical structure for manufacturing the professional sport sock foot-shaping and protecting fabric according to claim 1, wherein the sock body is of a single-layer structure, and the sock opening is of a double-layer structure.

8. The technical structure for manufacturing the professional sport sock foot-shaping and protecting fabric according to any one of claims 1 to 7, wherein the sock head is divided into a left sock head and a right sock head, wherein the left sock head is provided with a slope which is right-high and left-low from right to left, and the right sock head is provided with a slope which is left-high and right-low from left to right.

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