CN217523969U - Socks with antiskid function - Google Patents

Abstract

The application relates to socks with antiskid function, it includes the socks body, the bottom of the socks body is equipped with a plurality of anti-skidding film, the anti-skidding film forms inside sunken sucking disc after the socks body struts. This application has the effect of alleviating the gliding problem of yoga practitioner.

Description

Socks with antiskid function

Technical Field

The application relates to the field of socks, in particular to a sock with an anti-skidding function.

Background

The socks are common clothing articles in daily life of human beings, and various socks of different types are formed due to different occasions, different wearing and putting-on and different functions. People have different requirements for different types of socks. If yoga socks, it is the socks that design according to yujia practitioner's needs for protect yoga practitioner, reduce the probability of slipping in the training process.

At present, the Chinese utility model with the bulletin number of CN203302361U discloses an anti-slip sock, which comprises a sock body, wherein anti-slip pads are arranged below a sole and a heel outside the sock body, auxiliary anti-slip pads are arranged below toes outside the sock body, a heel anti-slip pad is arranged behind the heel outside the sock body, and the anti-slip pads, the auxiliary anti-slip pads and the heel anti-slip pads are fixed outside the sock body in a hot melting or sticking or spraying manner; the antiskid mat is used for preventing skidding during walking, and the auxiliary antiskid mat relieves the skidding during walking and standing on tiptoe.

In view of the above-mentioned related arts, the inventor believes that when a person exercises yoga movement, the force applied to the ground by the foot is not perpendicular to the ground, which may cause a component force applied to the ground by the foot to be reduced, and further cause a friction force to be reduced, thereby causing a drawback that the yoga exerciser slips.

SUMMERY OF THE UTILITY MODEL

In order to help alleviating the gliding problem of yoga practitioner, this application provides a socks with antiskid function.

The application provides a socks with antiskid function adopts following technical scheme: including the socks body, the bottom of the socks body is equipped with a plurality of anti-skidding film, the anti-skidding film forms inside sunken sucking disc after the socks body struts.

Through adopting above-mentioned technical scheme, socks are after being dressed, and the socks body can be strutted, and after the socks body was strutted greatly, the anti-skidding film was tensile under the effect of the socks body, and because the socks body concentrates on the one side that is close to the socks body to the tensile of anti-skidding film to the anti-skidding film edge is crooked to the direction that deviates from the socks body, and then has formed the structure of similar sucking disc. When the yoga practicer steps on the ground, the disc-shaped anti-skidding film is adsorbed on the ground. When the force applied to the ground by the foot is not vertical to the ground, the component force applied to the ground by the foot and vertical to the ground is reduced, the component force vertical to the ground is increased by utilizing the adsorption force generated by the anti-slip rubber sheet, the friction force between the sock and the ground is increased, and the problem of slippage of a yoga exerciser is relieved.

Optionally, the anti-slip rubber sheet comprises a diamond-shaped rubber sheet, and one diagonal line of the diamond-shaped rubber sheet is parallel to the stretching direction of the position of the diamond-shaped rubber sheet after the sock body is worn.

Through adopting above-mentioned technical scheme, after the socks body is stretched, the rhombus film is stretched along the diagonal. The diagonal position is the longest straight line in the rhombus film, and consequently the static tensile ratio here is also the biggest, and consequently four angles of rhombus film are elongated the back, and the pulling force that four limits of rhombus film received is compared in four angles littleer to four limits are crooked to the direction of the socks body of keeping away from more easily under the effect of the socks body, and four limits are crooked to the direction of the socks body of keeping away from, form inside sunken sucker structure more easily.

Optionally, the thickness of the edge of the rhombic rubber sheet is greater than that of the center of the rhombic rubber sheet, and one surface of the rhombic rubber sheet, which is far away from the sock bottom, is an inward-concave arc surface.

Through adopting above-mentioned technical scheme for the rhombus film forms inside sunken sucking disc more easily.

Optionally, the anti-skidding film still includes the cross film, the cross film is including being horizontal bar and the vertical retort that sets up perpendicularly, the both ends of horizontal bar and vertical retort all are connected with one the rhombus film.

Through adopting above-mentioned technical scheme, utilize the cross film to increase the area of contact of anti-skidding film and ground.

Optionally, the diagonal line of the diamond-shaped film and the horizontal bar or the vertical bar connected with the diamond-shaped film are arranged in a collinear manner.

By adopting the technical scheme, the influence of the cross-shaped film on the four edges of the diamond-shaped film is reduced.

Optionally, the bottom of the socks body is sole district, arch of foot district and heel district, and the socks body is dressed after the stretching direction in sole district and arch of foot district is the length direction and the width direction of the socks body, the stretching in heel district is for using the central point of heel district to radiate to the periphery as the center.

Through adopting above-mentioned technical scheme, people's heel is similar to the hemisphere, and the tensile mode of setting up in socks heel district can make the better parcel people's of socks heel.

Optionally, the central point in heel district puts and is provided with an anti-skidding film to the central point in heel district puts the anti-skidding film that the central point who sets up a plurality of diagonals pointing to the central point in heel district as centre of a circle circumference.

By adopting the technical scheme, the stretched direction of the anti-skid film in the heel area is the same as the length direction of the diagonal line of the rhombic film and the length direction of the transverse strip and the vertical strip of the cross-shaped film, and the diagonal line of the rhombic film in the heel area is parallel to the stretching direction of the position of the rhombic film.

Optionally, the anti-slip film is divided into a small anti-slip film and a large anti-slip film at least, and the sole area is provided with one large anti-slip film.

Through adopting above-mentioned technical scheme, when standing, the sole is the main atress region of foot, and the place uses big anti-skidding film can increase the area of contact of anti-skidding film and sole, improves the comfort when the foot steps on the ground.

In summary, the present application includes at least one of the following beneficial technical effects:

the bottom of the sock body is provided with an anti-slip rubber sheet which forms an inward concave sucker after the sock body is propped open. When the yoga practicer steps on the ground, the disc-shaped anti-skidding film is adsorbed on the ground. The component force vertical to the ground is increased by utilizing the adsorption force generated by the anti-skid rubber sheet, help increasing the frictional force between socks and the ground to help alleviating the problem that the yoga practitioner slided.

The anti-slip film comprises a cross-shaped film, the two ends of the transverse strip and the vertical strip of the cross-shaped film are connected with a rhombic film, and the diagonal line of the rhombic film is arranged in a collinear way with the transverse strip or the vertical strip connected with the rhombic film. At least one diagonal line of the diamond-shaped film is parallel to the stretching direction of the position of the diamond-shaped film after the sock body is worn. Therefore, when the sock body is stretched, the diamond-shaped rubber sheets are stretched along the diagonal lines. The diagonal position is the longest straight line in the rhombic film, so the static stretching rate is also the largest, after four corners of the rhombic film are elongated, four sides of the rhombic film are bent to the direction away from the sock body under the action of the tensile force of the sock, and the rhombic film is easier to form the concave sucker.

The thickness of rhombus film border position is greater than the thickness of its central point position, and the anti-skidding film adsorbs in ground more easily, helps increasing the frictional force between socks and the ground to reduce the gliding possibility of yoga practitioner.

Drawings

Fig. 1 is a structural view for showing the whole sock body according to the embodiment of the present application.

Fig. 2 is a schematic diagram for showing the distribution of the anti-slip films according to the embodiment of the present application.

Fig. 3 is a force analysis diagram for showing diamond-shaped films according to the embodiment of the present application.

Fig. 4 is a schematic structural diagram for showing another diamond-shaped film according to the embodiment of the present application.

Fig. 5 is a structural diagram for showing another anti-slip film according to the embodiment of the present application.

Fig. 6 is a structural view for showing a cross-shaped film according to the embodiment of the present application.

Fig. 7 is a structural view showing a large anti-slip film and a small anti-slip film according to an embodiment of the present application.

Description of the reference numerals: 100. a sock body; 101. a sole region; 102. a region of the arch; 103. a heel region; 104. the instep is opened to expose; 200. an anti-slip film; 201. a small anti-slip film; 202. a large anti-slip film; 210. a diamond-shaped film; 220. a cross-shaped film; 221. a horizontal bar; 222. and (5) vertical bars.

Detailed Description

The present application is described in further detail below with reference to figures 1-7.

The embodiment of the application discloses socks with antiskid function. Referring to fig. 1 and 2, the sock includes:

a sock body 100;

a plurality of anti-slip rubber sheets 200 fixedly attached to the bottom of the sock body 100 for increasing the frictional force between the sock and the ground.

The bottom of the sock body 100 is a portion corresponding to the sole of the foot after the sock is worn. After the sock is worn, the bottom of the sock body 100 is divided into a sole area 101, an arch area 102 and a heel area 103 at different positions corresponding to the sole of the foot. The longitudinal direction of the sock body 100 is the same as the longitudinal direction of the foot, and the width direction of the sock is the same as the width direction of the sole.

Referring to fig. 2, after the sock is worn, the stretching directions of the ball area 101 and the arch area 102 are the length and width directions of the sock body 100; the stretching direction of the heel area 103 is radial around the center position of the heel area 103, and the sock body 100 can tightly cover the foot to reduce the slippage between the foot and the sock body 100.

Referring to fig. 1, the portion of the sock body 100 corresponding to the instep is the back of the sock body 100, and the instep opening 104 is formed in the back of the sock body 100, so that the air permeability of the sock can be improved, the compression of the sock to the instep is reduced, and the blood flow of the instep is smoother.

Referring to fig. 2, the non-slip film 200 includes a diamond-shaped film 210. The diamond-shaped rubber sheet 210 is fixedly connected to the bottom of the sock body 100 in a dispensing manner by using PVC soft rubber or silica gel. Referring to fig. 3, the sock body 100 is subjected to a tensile force F1 after being worn. The pulling force applied to the diamond-shaped rubber sheet 210 by the sock body 100 is F2. The diamond-shaped rubber sheets 210 are stretched under the action of the tensile force F2, the stretching force F2 for the diamond-shaped rubber sheets 210 is concentrated on one side close to the sock body 100, and one side of the diamond-shaped rubber sheets 210, which is far away from the sock body 100, is not easily stretched under the action of the self elastic force F3 of the diamond-shaped rubber sheets 210. Under the action of the pulling force F2 and the elastic force F3, the edges of the diamond-shaped rubber sheets 210 bend to the direction away from the sock body 100, and thus a structure similar to a suction cup is formed. When the diamond-shaped rubber sheet 210 with the structure similar to the suction cup is absorbed on the ground, the friction force between the sock and the ground can be increased.

Referring to fig. 2, one diagonal line of the diamond-shaped film 210 is parallel to the stretching direction of the position of the diamond-shaped film 210 after the sock body 100 is worn.

More specifically, the diamond-shaped rubber sheets 210 located in the ball area 101 and the arch area 102 have one diagonal line parallel to the length direction of the sock body 100 and the other diagonal line parallel to the width direction of the sock body 100, so that the diamond-shaped rubber sheets 210 are stretched along the diagonal lines by the sock body 100 after the sock body 100 is worn.

Referring to fig. 2, an anti-slip film 200 is compounded at the center of the heel area 103, and a plurality of anti-slip films 200 with diagonal lines pointing to the center of the heel area 103 are compounded circumferentially around the center of the heel area 103.

Referring to fig. 4, in order to further form the diamond-shaped film 210 into a structure similar to a suction cup, the thickness of the edge position of the diamond-shaped film 210 is greater than that of the center position thereof, and the side of the diamond-shaped film 210 facing away from the bottom of the sock is an inwardly concave arc surface.

In another embodiment of the present application, referring to fig. 5 and 6, the anti-slip film 200 further includes a cross-shaped film 220, and the material of the cross-shaped film 220 is the same as that of the diamond-shaped film 210. The cross-shaped film 220 includes a horizontal bar 221 and a vertical bar 222 arranged vertically. The horizontal bar 221 is parallel to the length direction of the sock body 100, and the vertical bar 222 is parallel to the width direction of the sock body 100. Both ends of the horizontal bar 221 and the vertical bar 222 of the cross-shaped film 220 are connected to a diamond-shaped film 210, so that the diagonal line of the diamond-shaped film 210 is arranged in line with the horizontal bar 221 or the vertical bar 222. The cross-shaped rubber sheet 220 is used to increase the contact area of the anti-slip rubber sheet 200 with the ground.

In another embodiment of the present application, referring to fig. 7, the anti-slip film 200 is divided into at least a small anti-slip film 201 and a large anti-slip film 202 according to size. Wherein, the sole area 101 is connected with a large anti-slip film 202 to increase the stress area between the anti-slip film 200 and the sole and improve the comfort when the foot steps on the ground. While other locations employ small anti-slip films 201.

The implementation principle of the socks with the antiskid function in the embodiment of the application is as follows: after the socks are worn, the sock bodies 100 can be stretched, then the anti-slip films 200 can form inward concave suckers, and when a yoga exerciser steps on the ground, the disc-shaped anti-slip films 200 are adsorbed on the ground. When the force applied by the foot to the ground is not vertical to the ground, the component force applied by the foot and vertical to the ground is reduced, the component force vertical to the ground is increased by utilizing the adsorption force generated by the anti-slip rubber sheet 200, the friction force between the sock and the ground is increased, and the possibility of sliding of the yoga practicer is reduced.

The above are preferred embodiments of the present application, and the scope of protection of the present application is not limited thereto, so: equivalent changes in structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (7)

1. Socks with antiskid function, its characterized in that: the anti-skidding sock comprises a sock body (100), wherein a plurality of anti-skidding rubber sheets (200) are arranged at the bottom of the sock body (100), and the anti-skidding rubber sheets (200) form inwards-sunken suckers after the sock body (100) is unfolded; the anti-slip rubber sheet (200) comprises a diamond-shaped rubber sheet (210), and one diagonal line of the diamond-shaped rubber sheet (210) is parallel to the stretching direction of the position of the diamond-shaped rubber sheet (210) after the sock body (100) is worn.

2. A sock with anti-slip function as claimed in claim 1, wherein: the thickness of the edge position of the rhombic rubber sheet (210) is larger than that of the center position of the rhombic rubber sheet, and one surface, deviating from the sock bottom, of the rhombic rubber sheet (210) is an inwards-concave arc surface.

3. Socks with anti-slip function according to claim 1, characterized in that: antiskid film (200) still include cross film (220), cross film (220) are including being horizontal bar (221) and vertical retort (222) of perpendicular setting, the both ends of horizontal bar (221) and vertical retort (222) all are connected with one rhombus film (210).

4. Socks with anti-slip function according to claim 3, characterized in that: the diagonal lines of the diamond-shaped films (210) are arranged in a collinear way with the transverse bars (221) or the vertical bars (222) connected with the diamond-shaped films (210).

5. A sock with anti-slip function according to any of claims 1-4, wherein: the bottom of the socks body (100) is sole district (101), arch of foot district (102) and heel district (103), and after the socks body (100) was worn the tensile direction in sole district (101) and arch of foot district (102) is the length direction and the width direction of the socks body (100), the tensile of heel district (103) is for using the central point of heel district (103) to radiate to all around as the center.

6. Sock with anti-slip function according to claim 5, characterized in that: the central point of heel district (103) puts and is provided with an anti-skidding film (200) to the central point of heel district (103) puts as centre of a circle circumference and sets up anti-skidding film (200) that the central point of a plurality of diagonal points to heel district (103) puts.

7. Socks with anti-slip function as claimed in claim 5, characterized in that: the anti-skid film (200) is at least divided into a small anti-skid film (201) and a large anti-skid film (202), and the sole area (101) is provided with the large anti-skid film (202).

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