CN215455462U - Functional marathon socks - Google Patents

Abstract

The utility model relates to a functional marathon sock. The marathon sock comprises a sock head, a sock bottom, a sock face, a sock heel, an ankle part, a sock tube and a sock. The sock mouth is woven with vertical thread organization, the sock tube is woven with vertical elastic organization, the sock surface is woven with a mesh breathable layer, the bottom of the sock is provided with a compression part at the arch of the foot, and the compression part is woven with elastic bands. The compression part forms concave-convex stripes along the length of the foot, and the concave-convex stripes extend upward to connect with the mesh breathable layer. The marathon socks of the utility model are designed according to the changes in the humidity and heat of the feet during the marathon and the physiological structure of the feet. It provides safety protection, comfortable and breathable, and avoids foot wear.

Description

Functional marathon socks

Technical Field

The utility model relates to the technical field of sports socks, in particular to a functional marathon sock.

Background

In the marathon exercise process, the feet are used as an extremely important part during running, and play roles in buffering the body and keeping stability in the exercise process of the human body. However, in the course of a long run, the muscles of the lower limbs of the human body feel fatigue and even sports injuries such as muscle spasm and strain occur along with the shaking of fat, joint soft tissues and the like. In addition, as the exercise lasts for a long time, a large amount of sweat generated by the feet is easy to cause the growth of bacteria and induce skin diseases. The high-performance tight sports equipment can reduce the frequency of injury and protect the human body in the process of sports. Internationally, there are also academic studies showing that exercise equipment having functionality during exercise can reduce lactic acid accumulation and promote blood circulation to some extent, and can reduce soft tissue vibration and the like. However, the existing sports functional socks are unreasonable in structure, so that the heels, toes and other parts are often worn, and the feet are injured to a certain degree. Therefore, a set of functional marathon socks meeting the requirements of modern people in many aspects is developed and designed, so that the marathon sports can be better developed, and the health consciousness and the health level of people are improved.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a functional marathon sock, which solves the problem that the sock is unreasonable in structure and causes foot abrasion during sports.

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

the functional marathon sock comprises a sock head part, a sock bottom part, a sock face part, a sock heel part, an ankle part, a sock cylinder part and a sock mouth part; the sock mouth part is knitted with a vertical thread structure; the sock leg part is knitted with a vertical rubber band tissue; a mesh breathable layer is woven on the surface of the sock; the bottom of the sock is provided with a compression part at the arch position, the compression part is woven by rubber bands, concave-convex stripes are formed on the compression part along the length direction of the foot, and the concave-convex stripes extend upwards to be connected with the mesh breathable layer.

Further, the sock head part, the sock bottom part, the sock face part, the sock heel part, the ankle part, the sock cylinder part and the sock mouth part are all woven by mixing CoolMax fibers and cotton fibers.

Further, a terry layer is knitted at the heel part of the sock.

Further, the leg portion and the welt portion are provided with light reflecting portions.

Furthermore, a terry layer is knitted on the sole of the sock bottom, and the terry layer forms concave-convex stripes along the width direction of the foot.

Furthermore, the ankle part is woven with a terry layer, and the terry layer forms concave-convex stripes on the ankle part in the transverse direction.

Furthermore, a terry layer is weaved between the heel and the arch of the foot at the heel part of the sock, and the terry layer forms concave-convex stripes along the width direction of the foot.

The utility model has the beneficial effects that:

the utility model relates to a functional marathon sock, which comprises a sock head part, a sock bottom part, a sock face part, a sock heel part, an ankle part, a sock barrel part and a sock opening part. The sock is characterized in that a vertical thread tissue is knitted at the sock mouth part, a vertical rubber band tissue is knitted at the sock barrel part, a mesh breathable layer is knitted at the sock surface part, a compression part is arranged at the sock bottom part at the arch position and is woven by adopting rubber bands, concave and convex stripes are formed at the compression part along the length direction of the foot part, and the concave and convex stripes extend upwards to be connected with the mesh breathable layer. According to the marathon sock, the sock is not easy to fall off according to the damp-heat change of feet in marathon movement and the physiological structure design of the feet, has good air permeability, supports the arch of the foot, adopts the concave-convex stripes to perspire, can provide safety protection for a runner, and avoids foot abrasion.

Drawings

Fig. 1 is a right side view of a functional marathon sock of the present invention after flattening (left-right direction);

fig. 2 is a rear view of a functional marathon sock of the present invention after flattening (front-to-back);

fig. 3 is a front view of a functional marathon sock of the present invention after flattening (front-to-back).

Names corresponding to the marks in the figure:

1. sock head, 2, sock bottom, 21, compression part, 3, sock surface, 31, mesh ventilation layer 4, heel, 5, ankle, 6, sock leg, 7, sock opening, 71, thread structure.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments that can be derived by one of ordinary skill in the art from the embodiments given herein are intended to be within the scope of the present invention.

Example 1 of the utility model:

as shown in fig. 1 to 3, the functional marathon sock includes a sock head portion 1, a sock bottom portion 2, a sock top portion 3, a heel portion 4, an ankle portion 5, a sock leg portion 6, and a sock mouth portion 7.

As shown in figure 1, the sock mouth part 7 is knitted with a thread tissue 71, has certain compactness, is convenient to put on and take off, can prevent the sock from slipping off, and avoids influencing running.

Concave-convex stripes are woven on the sock leg part 6, the concave-convex stripes are woven by rubber bands, certain wrapping performance is achieved, and the damage caused by severe muscle shaking of the shank during running is avoided.

As shown in figures 1 and 3, according to the characteristics of running exercise and the characteristics of foot stress, the sock face part 3 is woven with the mesh breathable layer 31 to increase the breathability of the product, and the mesh breathable layer 31 is positioned above the arch part and the sole part on the sock face part 3.

The terry layer has been knitted in socks bottom 2 in the sole position, and terry layer thickening design, and the terry layer forms concave-convex stripe along foot width direction, and concave-convex stripe structure can improve the wearability of socks, slows down the impact force when running, plays the effect of shock attenuation, buffering, and concave-convex stripe structure still helps the perspire.

The position of the sock bottom 2 between the arch of foot and the heel is also woven with a terry layer, the terry layer is thickened, and the terry layer forms concave-convex stripes along the width direction of the foot.

The heel part 4 of the sock is woven with a terry layer to play a role in buffering and damping.

As shown in fig. 1-3, a compression part 21 is woven at the arch position of the sock bottom 2, the compression part 21 is woven by rubber bands, concave and convex stripes are formed along the length direction of the foot by the compression part 21, the concave and convex stripes extend upwards to be connected with the mesh air-permeable layer 31, the compression part 21 forms pressure on the arch to support the arch, the movement pressure can be relieved, and the compression part 21 wraps the whole arch and is connected with the mesh air-permeable layer 31, so that the heat dissipation of the sock surface part 3 is not affected.

Ankle portion 5 weaves there is the terry layer, terry layer thickening design, and the terry layer is along horizontal formation concave-convex stripe, wraps up ankle department, is similar to the bandage design, can reduce the tired sense of ankle and protect the ankle, avoids ankle wearing and tearing.

In this embodiment, sock head 1, sole 2, instep 3, heel 4, ankle 5, leg 6, welt 7 all adopt the coolMax fibre to mix with cotton fiber and weave into, make socks not only have good gas permeability, have improved the hygroscopicity of coolMax fibre simultaneously, have reduced cotton fiber's excessive hygroscopicity, have promoted the travelling comfort of socks.

For the security that improves runner's running night, leg portion 6 and welt portion 7 all are equipped with reflecting material, and in this embodiment, reflecting material adopts reflection of light yarn, and reflection of light yarn weaves at leg portion 6 and welt portion 7, can provide certain safety guarantee for the runner with the light reflection of penetrating directly at the in-process of running.

Claims (6)

1. a functional marathon sock, it is characterized in that: comprise sock head part, sock bottom part, sock face part, sock heel part, ankle part, sock tube part, sock mouth part; The sock opening is woven with vertical thread organization; The sock tube portion is woven with a vertical elastic tissue; The sock face is woven with a mesh breathable layer; The bottom of the sock is provided with a compression part at the position of the arch of the foot, the compression part is woven with elastic bands, and the compression part forms concave-convex stripes along the length of the foot, and the concave-convex stripes extend upward to connect with the mesh breathable layer. 2 . The functional marathon socks according to claim 1 , wherein the heel portion of the socks is woven with a loop layer. 3 . 3 . The functional marathon socks according to claim 1 , wherein the sock tube part and the sock opening part are provided with reflective parts. 4 . 4 . The functional marathon socks according to claim 1 , wherein the bottom of the sock is woven with a loop layer at the sole of the foot, and the loop layer forms concave-convex stripes along the width direction of the foot. 5 . 5 . The functional marathon socks according to claim 1 , wherein the ankle portion is woven with a terry layer, and the terry layer forms concave-convex stripes in the lateral direction of the ankle portion. 6 . 6 . The functional marathon socks according to claim 1 , wherein a loop layer is woven between the heel and the arch of the foot, and the loop layer forms concave-convex stripes along the width direction of the foot. 7 .

Images