CN210538949U - Noninductive heel-off-preventing ankle sock - Google Patents

Abstract

The utility model provides a ankle socks is followed to noninductive anticreep, noninductive anticreep adopts elastic fiber or the fibre yarn material that constitutes by rubber band silk and cladding yarn with the rid cuff border of ankle socks, and the internal surface at rid cuff border adheres to the smooth viscose of anticreep, and the viscose is taken off in the antiskid for example silica gel can adopt to scald to press or the mode of point gluing adheres to. When the ankle sock is worn, the rib top edge of the ankle sock is most attached to the heel, and the rib top edge is attached to the concave part of the Achilles tendon at the upper part of the heel, so that the rib top edge is the best stressed position with the tightest fit between the ankle sock and the foot of a person and the best position for anti-slip treatment; in addition, the rib top edge is made of elastic fibers or fiber yarns, so that the sock top is tightly attached to the foot of a person, the attaching is firm, the tension is reasonable, the anti-heel-falling effect can be realized to the maximum extent, the problem that the heel of the traditional ankle sock falls is effectively improved, and the wearing comfort of a user is improved.

Description

Noninductive heel-off-preventing ankle sock

Technical Field

The utility model relates to a ankle socks especially relate to a noninductive anticreep is with ankle socks, noninductive anticreep is with ankle socks adopts ultra-thin viscose to carry out the anticreep smooth processing in welt border department, has improved the comfort level of dress.

Background

The heel of the existing ankle socks, particularly shallow ankle socks, is easy to fall off when the existing ankle socks are worn, so that a plurality of ankle socks are discarded due to the falling of the heel after the existing ankle socks are worn once, the existing ankle socks become disposable products, and the great social resource waste is caused. The problem of heel falling of the ankle socks always becomes a big pain point in the industry.

Although current ankle socks have also adopted traditional hot melt adhesive or silica gel to carry out the mode of gluing in the main part position of ankle socks heel and have solved the problem of taking off the heel for the mode that the point was glued and the fabric combines together is fixed, but the ankle socks are hidden within the upper of a shoe because of its rid cuff, and the position of gluing in the ankle socks rid cuff is generally all at the middle part of heel, and the point is glued the position and is on the low side, leads to gluing the face and is in non-main atress position, and in addition the influence of heel radian, the glue face is glued in the point and is taken off with the effect. And traditional ankle socks all adopt all sign indicating number, and the foot sign indicating number can't match according to actual foot type when the user of all sign indicating number scope wearing ankle socks, and ankle socks czochralski tension is too tight or loose, and the gluing face is glued to the ankle socks point and the heel laminating is not inseparable and lead to the point to glue the position and move down, and the anticreep is lost with the effect. Secondly, adopt traditional hot melt adhesive or silica gel to carry out the mode of gluing and only rely on the viscidity of some glue to realize the anti-skidding, the viscidity of some glue is not enough to the viscidity of some glue is degenerated after socks are washed many times, and this also can further lead to socks to fall with the heel. In summary, the heel slip prevention effect of the footgear is mainly limited by the heel wrapping property and the slip prevention adhesiveness.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a no sense anticreep is with ankle socks solves current ankle socks and falls easily with, the comfort level of dress is poor, and causes the problem of social resource waste for the disposable product.

In order to solve the problem, the utility model provides a ankle socks is followed to noninductive anticreep, noninductive anticreep adopts elastic fiber or the fibre yarn material that comprises rubber band silk and cladding yarn with the rid cuff border of ankle socks, the smooth viscose of internal surface adhesion anticreep at rid cuff border.

According to an embodiment of the present invention, the anti-slip viscose is formed by forming a gel film by a sol-gel method and then attaching the gel film to the rib top edge.

According to an embodiment of the present invention, the anti-slip viscose is formed by pressing the gel film to adhere to the edge of the rib top.

According to the utility model discloses an embodiment, anti-skidding viscose is scalded the mode of gluing through the point by the gel film and is attached to the formation at the rid cuff border.

According to the utility model relates to an embodiment, the mode that the rid cuff border was glued through some boiling hot adheres to the multichannel and is wavy smooth viscose of anticreep.

According to an embodiment of the present invention, the rib top edge is made of one of nylon, spandex or polyester.

According to the utility model discloses an embodiment, anti-skidding viscose is silica gel or hot melt adhesive.

According to the utility model discloses an embodiment, the thickness of anticreep smooth viscose is less than or equal to 0.2 mm.

According to an embodiment of the present invention, the anti-slip adhesive attached to the edge of the rib top is shaped like a rice grain, a honeycomb, a wave, a net or a dot.

Compared with the prior art, the technical scheme has the following advantages:

because the rib top edge of the ankle sock is most attached to the heel when the ankle sock is worn and the rib top edge is attached to the concave part of the Achilles tendon at the upper part of the heel, the rib top edge is the best stressed position with the tightest fit between the ankle sock and the foot of a person and is the best position for performing anti-skid and anti-drop treatment on the ankle sock. The utility model discloses a noninductive anticreep is with the smooth viscose of internal surface adhesion anticreep at ankle joint border of ankle joint socks, and the welt border adopts elastic fiber or fibre yarn material in addition for the tight people's of laminating foot of welt when wearing, it is firm to laminate, and tension is reasonable, can realize the anticreep with the effect like this furthest, effectively improves the problem that traditional ankle joint socks fell with, promotes user's comfort level of wearing.

Drawings

Fig. 1 is a schematic structural view of a non-inductive heel-off preventing ankle sock provided by the present invention;

fig. 2 is a schematic view of a partial structure of a noninductive heel-off preventing ankle sock provided by the present invention, in which the rib top edge is turned outwards, so as to show the attachment position of the anti-slip adhesive;

FIG. 3 is a schematic view of the force applied to the non-inductive heel-off preventing ankle sock provided by the present invention;

fig. 4A is a shape of the anti-slip viscose adhered to the non-inductive anti-slip ankle sock provided by the present invention, wherein the anti-slip viscose is in a shape of rice grains;

fig. 4B is another form of the anti-slipping adhesive attached to the non-inductive anti-slipping ankle sock provided by the present invention, wherein the anti-slipping adhesive is honeycomb-shaped;

fig. 4C is another form of the anti-slipping adhesive attached to the non-inductive anti-slipping ankle sock provided by the present invention, wherein the anti-slipping adhesive is wavy;

fig. 4D is still another form of the anti-slipping adhesive attached to the non-inductive anti-slipping ankle sock provided by the present invention, wherein the anti-slipping adhesive is in a dot shape;

fig. 5 shows four types of applications of the non-inductive heel-off preventing ankle socks provided by the present invention.

Detailed Description

The following description is only intended to disclose the invention so as to enable any person skilled in the art to practice the invention. The embodiments in the following description are given by way of example only, and other obvious variations will occur to those skilled in the art. The principles of the invention, as defined in the following description, may be applied to other embodiments, variations, modifications, equivalents, and other arrangements without departing from the spirit and scope of the invention.

As shown in fig. 1 and 2, the utility model provides a noninductive anticreep is with ankle socks 1, noninductive anticreep has effectively improved the problem that traditional ankle socks fall with ankle socks 1, and it is firm with people's foot laminating when wearing, can not fall with, and the comfort level of wearing promotes greatly.

Specifically, the rib top edge 11 of the non-inductive heel-off preventing ankle sock 1 is made of elastic fiber or fiber yarn material composed of rubber band yarn and wrapping yarn. Optionally, the rib top edge 11 is made of one of nylon, spandex or terylene. It can be understood that the elastic fiber or the fiber yarn material has elasticity, and the rib top edge 11 is made of the elastic material, so that the noninductive heel-preventing ankle sock 1 can be firmly attached to the feet of a person when being worn, and the tension is reasonable.

Furthermore, the anti-slip viscose glue 12 is attached to the inner surface of the rib top edge 11, that is, the anti-slip treatment is performed on the non-inductive anti-slip ankle sock 1 by attaching the viscose glue 12 to the inner surface of the rib top edge 11. In this embodiment, the anti-slipping adhesive 12 is silica gel; in other embodiments, the anti-slip adhesive 12 may be other suitable adhesives with sufficient adhesion, such as hot melt adhesive for the anti-slip adhesive 12.

Furthermore, the anti-slip viscose 12 is formed by forming a gel film by a sol-gel method and then attaching the gel film to the rib top edge 11. Furthermore, the thickness of the anti-slip adhesive 12 is less than or equal to 0.2 mm. The Sol-gel method (SG method for short) is that a compound containing high chemical active components is used as a precursor, the raw materials are uniformly mixed in a liquid phase, and hydrolysis and condensation chemical reactions are carried out to form a stable transparent Sol system in a solution, the Sol is slowly polymerized among aged colloidal particles to form gel with a three-dimensional network structure, a solvent losing fluidity is filled among gel networks to form gel, and the gel is dried, sintered and solidified to prepare the material with molecular or even nano substructure. When the gel is dissolved, the ultrathin gel film which is not easy to air dry and can be used repeatedly is selected, and the non-feeling experience when the wearer wears the garment is realized. Specifically, in the production process, under a certain condition, sol, colloidal particles or macromolecules in a solution are condensed by a sol coating process to form an ultrathin gel film with the thickness of not more than 0.2mm, and the ultrathin gel film is attached to the non-inductive anti-falling ankle sock 1. Different with traditional bit glue technology, the preparation noninductive anticreep is with ankle socks 1 forms the stable, ultra-thin, high elasticity of one deck, the anti-skidding viscose 12 that is difficult for droing of elastic fiber or the fibre yarn at rid cuff border 11 with the technology of gel film through thermal transfer printing, and in addition under the elastic tissue pulling force effect of socks itself, anti-skidding viscose 12 can closely laminate heel skin steadily, forms dual anti-following effect.

Optionally, the anti-slip adhesive 12 is formed by pressing a gel film onto the rib top edge 11 during the production process. Or the anti-slip viscose 12 is formed by adhering a gel film to the rib top edge 11 in a spot hot glue mode; for example, a plurality of wave-shaped anti-slip adhesives 12 can be adhered to the rib top edge 11 by spot hot pressing.

As shown in fig. 4A to 4D, the anti-slip adhesive 12 attached to the rib top edge 11 is shaped like a rice grain, a honeycomb, a wave or a dot. In application, the anti-slip adhesive 12 attached to the rib top edge 11 may also be designed into other reasonable shapes according to different application scenarios and requirements, for example, the anti-slip adhesive 12 attached to the rib top edge 11 is in a net shape.

Through adhering to the smooth viscose of anticreep 12 at rid cuff border 11, the smooth viscose of anticreep 12 can increase the frictional force between the rid cuff border 11 of ankle socks 1 and people's foot is helped the inseparable laminating between ankle cuff border 11 and people's foot to avoid the noninductive anticreep falls with ankle socks 1 with the heel. It can be understood that, as shown in fig. 3, when the non-sensory anti-heel-off ankle sock 1 is worn, the rib top edge 11 is positioned (i.e., the position a in fig. 3) to be most closely attached to the heel, and the rib top edge 11 is positioned to be closely attached to the depression of the achilles tendon at the upper part of the heel, so that the rib top edge 11 is positioned at the best stress point where the non-sensory anti-heel-off ankle sock 1 and the human foot are most closely fitted, and is the best position for performing the anti-skid and anti-heel-off treatment on the non-sensory anti-heel-off ankle sock 1. Based on the direction shown in fig. 3, the position a of the rib top edge 11 is subjected to three forces, namely, an upward friction force F1 exerted by the anti-slip adhesive 12; secondly, the tension F2 of the elastic fiber or the fiber yarn of the rib top edge 11; third, F3 is the sum of the weight of the rib top edge 11 itself and the downward friction of the shoe against the rib top edge 11. By disposing the anti-slip adhesive 12 on the inner surface of the rib top edge 11 of the non-inductive anti-slip ankle sock 1, the friction force F1 and the pulling force F2 are concentrated on the same stress point, i.e., the a position, so that the two forces can act in a synergistic manner to ensure that the rib top edge 11 does not fall off the heel. In addition, the rib top edge 11 is made of elastic fibers or fiber yarns, so that the sock top is tightly attached to the foot of a user when the ankle sock is worn, the foot-attaching-preventing ankle sock is firm in attaching and reasonable in tension, the heel-attaching-preventing effect can be achieved to the maximum extent, the problem that the heel of a traditional ankle sock falls is effectively solved, and the wearing comfort of the user is improved.

Compare in traditional ankle socks moreover and carry out the mode that anti-skidding was handled in heel middle part position, the utility model provides a noninductive anticreep is only done anti-skidding with ankle socks 1 at rid cuff border 11 and is handled, and the area of adhering to anticreep smooth viscose 12 like this is littleer, reduces the area that anti-skidding was handled and also can improve the comfort level that the user wore.

The anti-slip viscose glue 12 is enough and moderate in viscosity, is attached to and does not have trace and feel behind the rib top edge 11 positions, improves comfort level, fitting degree and anti-slip effect when the user wears, ensures simultaneously the anti-slip viscose glue 12 is still enough after the noninductive anti-slip ankle sock 1 is washed many times, the noninductive anti-slip ankle sock 1 still has better anti-slip effect. Through the test, the utility model provides a noninductive anticreep is with ankle socks 1 does not fall after 30 times of powerful water washes with, and anticreep viscose 12 does not have to drop and viscidity is enough.

In addition, in the traditional technology, as the ankle socks are all in uniform size, for a user with the foot size outside the uniform size range, if the foot size of the sock is large, the heel of the ankle sock is loosened, and the anti-skidding function of the heel is invalid; if the foot is big and small, the heel of the ankle sock can move downwards due to stretching, the anti-skidding position of the heel is deviated, and the anti-skidding effect is greatly reduced. Therefore, correspondingly in the utility model provides an in the scheme, noninductive anticreep carries out the size according to user's foot sign indicating number size with ankle socks 1 and divides, and the segmentation of preparation many socks sign indicating numbers provides better parcel when the user wears and experiences for more obedient between heel of a sock and the heel of a foot, this also can play the effect that the anticreep was followed and provide anti-skidding basis to a certain extent.

The utility model discloses a do the antiskid at rib top border 11 positions and handle, the antiskid effect stack of the fibre yarn at rib top border 11 or elastic fiber's elasticity laminating effect cooperation anti-skidding viscose 12 can play dual antiskid and take off the effect. The non-inductive anti-slip ankle sock 1 is combined with the foot shape, the optimal force point of the mechanics principle is fully utilized for anti-slip treatment, and in addition, multi-code design is carried out, so that more fitting wearing experience can be provided. The structural design of the non-inductive heel-off preventing ankle sock 1 can be applied to various ankle socks with different models, different styles and different elastic fibers, such as ultra-shallow-mouth non-heel invisible ankle socks, ultra-shallow-mouth invisible ankle socks, shallow-mouth ankle socks, invisible ankle socks, common ankle socks and the like. Fig. 5 shows in sequence the heelless shallow ankle sock, invisible sock and ankle sock to which the scheme of the utility model is applied.

It is to be understood by persons skilled in the art that the embodiments of the present invention described above and shown in the drawings are given by way of example only and are not limiting of the present invention. The objects of the present invention have been fully and effectively accomplished. The functional and structural principles of the invention have been shown and described in the embodiments without departing from the principles of the invention, embodiments of the invention may be subject to any deformation and modification.

Claims (8)

1. The noninductive anti-falling heel ankle sock is characterized in that the rib top edge of the noninductive anti-falling heel ankle sock is made of elastic fibers or fiber yarn materials consisting of rubber threads and wrapping yarns, anti-falling viscose glue is attached to the inner surface of the rib top edge, and the anti-falling viscose glue attached to the rib top edge is rice grain-shaped, honeycomb-shaped or net-shaped.

2. The non-inductive heel drop prevention ankle sock according to claim 1, wherein the anti-slip adhesive is formed by attaching a gel film to the rib top edge.

3. The non-inductive heel drop prevention ankle sock according to claim 2, wherein the anti-slip adhesive is formed by a gel film which is attached to the rib top edge by hot pressing.

4. The non-inductive heel drop prevention ankle sock according to claim 2, wherein the anti-slip adhesive is formed by a gel film attached to the rib top edge by means of spot gluing.

5. The non-inductive heel-off-preventing ankle sock according to claim 4, wherein a plurality of wavy anti-slipping adhesive tapes are attached to the rib top edge in a spot hot glue manner.

6. The non-inductive heel drop preventing ankle sock according to any one of claims 1-5, wherein the rib top edge is made of one of nylon, spandex or polyester.

7. The non-inductive heel-off preventing ankle sock according to any one of claims 1 to 5, wherein the anti-slip adhesive is silica gel or hot melt adhesive.

8. The non-inductive heel drop prevention ankle sock according to any one of claims 1 to 5, wherein the thickness of the anti-slip adhesive is less than or equal to 0.2 mm.

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