CN114668196A - Novel socks - Google Patents

Abstract

The novel sock is provided with an arch support device corresponding to the arch part of a human body; the arch support device comprises two parts, wherein one part is an elastic band structure corresponding to the instep of a human body, the other part is a sole support structure corresponding to the sole of the human body, and the elastic band structure and the sole support structure are respectively connected at two sides corresponding to the foot of the human body. The arch support device realizes the support of the arch structure through the matching of the two parts, and the elastic band structure above the instep provides enough strong elasticity, thereby not only realizing the compression of the top point of the arch, but also not feeling strong oppression and providing enough pressure and buffer force for the arch. The sole supporting structure under the sole is a structure obtained by thickening the sock body inwards, can support the arch of the human body and relieve the pressure of the arch of the foot, and further gives enough support to the arch of the foot during movement to prevent the arch of the foot from being injured and deformed.

Description

Novel socks

Technical Field

The invention relates to the field of functional structures of socks, in particular to a novel sock.

Background

With the development of society and the enhancement of health willingness of people, running is increasingly becoming a fitness choice for many people. Then the pressure of running on the arch of the human body is large, and the long-time running movement easily causes fatigue and even damage to the arch.

At present, people generally design various structures on sports shoes to achieve the purpose of protection, but research on socks which are in direct contact with human bodies in the shoes is insufficient. The novel sock is a functional sock suitable for being worn during running. The sock has the characteristics of being comfortable to wear, having better impact resistance and wear resistance, and also having reinforced protection on the arch of the foot of a human body to prevent injury.

The existing novel socks are usually replaced by thicker socks to improve the elasticity and wear resistance of the socks. However, in actual use, it has been found that excessively thick socks result in poor air permeability of the skin surface of the foot, and thus, after long-term exercise, foot discomfort is likely to occur. In addition, thicker socks also mean that the socks are more prone to deformation, resulting in insufficient grip. In addition, the existing socks lack support protection for the arch part, and are more prone to sports injury after long-time sports. These athletic injuries include abrasions caused by excessive foot friction with the footwear, as well as arch injuries caused by prolonged exposure to body weight.

The above-mentioned problem is that the existing socks lack the functional components set for the sport mode of running, and the lack of these functional components results in the existing socks not being adaptable to the use of the user while running, so there is a need to develop a new and better sock.

Disclosure of Invention

Aiming at the defect that function strengthening aiming at novel socks is lacked in the prior art, the invention provides the novel socks which are provided with specially designed arch support devices and can better achieve the function of motion protection.

In order to achieve the purpose, the invention can adopt the following technical scheme:

a novel sock comprises an arch support device corresponding to the arch part of a human body; the arch support device comprises two parts, wherein one part is an elastic band structure corresponding to the instep of a human body, the other part is a sole support structure corresponding to the sole of the human body, and the sole support structure is formed by thickening towards the direction of the inner wall of the sock body; the elastic band structure and the sole supporting structure are respectively connected with two sides of the corresponding human foot.

Further, as an embodiment of the present invention, in an embodiment of the present invention, the elastic band structure is a band structure disposed at a position corresponding to an arch apex of a human body, and extends to both sides of a foot.

Further, as an embodiment of the present invention, in an embodiment of the present invention, the sole support structure corresponds to the elastic band structure, is also a band-shaped structure, extends to both sides of the foot, wraps both sides of the foot, and is connected to both ends of the elastic band at the instep.

Further, as an embodiment of the present invention, in an embodiment of the present invention, the elastic band structure includes a plurality of elastic ribs parallel to each other, and an extending direction of the elastic ribs is the same as an extending direction of the human foot.

Further, as an embodiment of the present invention, in an embodiment of the present invention, the sole support structure includes a plurality of closely arranged protrusion structures, and the sole support structure is thickened toward the inner wall of the sock body.

Further, as an embodiment of the present invention, in an embodiment of the present invention, the protrusion structures are axisymmetrically distributed with a center line of the sole support structure as an axis.

Further, as an embodiment of the present invention, in an embodiment of the present invention, the area of the convex structure in a direction extending from the middle portion of the sole toward the instep gradually increases.

Further, as an embodiment of the present invention, in an embodiment of the present invention, the instep portion of the novel sock is a mesh ventilation device except for the elastic band structure.

Further, as an embodiment of the present invention, in an embodiment of the present invention, the sole portion of the novel sock is a shock absorbing device except for the sole support structure.

Further, as an embodiment of the present invention, in an embodiment of the present invention, the shock absorbing device is composed of a plurality of closely arranged polygonal or circular protruding structures, and the protruding structures are thickened toward the outer wall of the sock body.

Compared with the prior art, the invention has the following remarkable technical effects:

the novel socks provided by the invention are provided with the arch support device corresponding to the arch part of the human body; the arch support device comprises two parts, wherein one part is an elastic band structure corresponding to the instep of a human body, the other part is a sole support structure corresponding to the sole of the human body, and the elastic band structure and the sole support structure are respectively connected at two sides corresponding to the foot of the human body. The arch support device realizes the support of the arch structure through the matching of the two parts, and the elastic band structure above the instep provides enough strong elasticity, thereby not only realizing the compression of the top point of the arch, but also not feeling strong oppression and providing enough pressure and buffering force for the arch. The sole supporting structure under the sole is a structure obtained by thickening the sock body inwards, can support the arch of the human body and relieve the pressure of the arch of the foot, and further gives enough support to the arch of the foot during movement to prevent the arch of the foot from being injured and deformed.

Furthermore, the novel socks can be combined with novel fibers, and the novel fibers are utilized to protect feet, so that different function strengthening effects can be improved in a targeted manner.

Furthermore, the novel sock provided by the invention has the advantages that the sole supporting structure comprises a plurality of closely arranged protruding structures, and the area of the protruding structures in the direction extending from the middle part of the sole to the instep is gradually increased. According to the stress characteristics of the human arch, the constantly-changing convex structure is designed to better support the arch.

Furthermore, the instep part of the novel sock is a mesh ventilation device except for the elastic band structure. The mesh ventilating device with a large area is arranged on the instep, so that the functions of heat dissipation/ventilation and moisture absorption can be fully realized, and the comfort of a user is improved.

Furthermore, the sole part of the novel sock is a damping device except for the sole supporting structure. The sock is characterized by comprising a plurality of tightly arranged polygonal or circular protruding structures, and the protruding structures thicken towards the outer wall of the sock body. The damping device is formed by the tightly arranged polygonal raised structures, so that sufficient buffering can be provided for the soles of users, the vibration displacement between the feet of the human bodies and the shoes can be reduced, and the feet can be protected.

Drawings

Fig. 1 is a structural schematic diagram of the novel sock observed from the side.

Detailed Description

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

Example 1

Fig. 1 is a schematic side view of the novel sock. As shown in fig. 1, a novel sock with an arch support function is suitable for being worn during running, and a plurality of devices suitable for running are particularly arranged on the sock.

Specifically, the novel sock comprises a foot arch supporting device corresponding to the arch part of the human body.

The arch support device comprises two parts, wherein one part is an elastic band structure 3 corresponding to the instep of a human body, and the other part is a sole support structure 7 corresponding to the sole of the human body.

The elastic band structure 3 is a band-shaped structure arranged at the position corresponding to the vertex of the arch of the human body, is transversely arranged on the instep and extends towards the two sides of the foot.

In one embodiment of the present invention, the elastic belt structure 3 includes a plurality of mutually parallel elastic vertical stripes, and the extending direction of the elastic vertical stripes is the same as the extending direction of the human foot. In one embodiment of the present invention, the elastic force of the stretch band structure 3 is strong enough to press the top of the arch of foot without feeling a strong pressure feeling, and provide sufficient pressure and cushioning to the arch of foot.

Generally, the new sock of the present invention is often provided with a trademark or other logo sewn to the stretch band structure.

The sole supporting structure 7 corresponds to the elastic band structure 3, is also a band-shaped structure, extends towards two sides of the foot, wraps two side surfaces of the foot, and is respectively connected with two ends of the elastic band structure 3 at two ends of the instep. The sole supporting structure 7 is formed by thickening towards the inner wall direction of the sock body, can support the arch of the human body and relieve the pressure of the arch of the foot, and further provides enough support for the arch of the foot during movement to prevent the arch of the foot from being injured and deformed.

In one embodiment of the invention, the plantar support structure 7 comprises a plurality of closely spaced raised structures that thicken towards the inner wall of the sock body.

In a preferred embodiment, the raised structures are distributed axisymmetrically about the centerline of the plantar support structure. The area of the direction that the convex structure begins to extend to the instep from the middle part of the sole of the foot increases gradually. According to the stress characteristics of the human arch, the constantly-changing convex structure is designed to better support the arch.

In one embodiment of the invention, the instep portion of the new sock is a mesh ventilation device 4, except for the stretch band structure. The mesh ventilation device 4 with large area is arranged on the instep, so that the functions of heat dissipation/ventilation and moisture absorption can be fully realized, and the comfort of a user is improved. Ventilative device 4 can present multiple shape, but as a better scheme, ventilative device 4 includes the horizontal ventilative line of multiseriate along the length direction range of human foot, a fastness for the hoisting device, in order to further improve ventilative device 202's fastness, ventilative line's middle part or the most formation that is located instep middle part are a triangle-shaped towards the place ahead, because the friction with shoes when the human body runs is resisted to socks, in addition, the ventilative line of triangle-shaped can carry out partial deformation when the foot moves, thereby the wearing and tearing of ventilative line when reducing the motion.

In one embodiment of the invention, the sole portion of the new sock, except for the sole support structure 7, is a shock absorbing device 6. The shock absorbing device 6 is divided into two parts, a front sole part and a rear sole part, by a sole support structure 7.

The two parts of damping devices 6 are all composed of a plurality of tightly arranged polygonal or circular protruding structures, and the protruding structures thicken towards the direction of the outer wall of the sock body. In a preferred embodiment, the raised structures of the shock-absorbing device 6 are hexagonal, the raised structures are connected with each other and are closely arranged like a honeycomb, and the shock-absorbing device 6 is formed by arranging the polygonal raised structures which are closely arranged, so that sufficient buffer can be provided for the soles of users, the shock displacement between the feet of the human bodies and the shoes can be reduced, and the feet can be protected.

The novel sock further comprises a sock opening 2 and a sock tongue 1 connected above the rear side of the sock opening 2, wherein the sock tongue 1 protrudes out of the sock opening 2, and a user can easily grasp the sock when wearing the sock.

The novel sock further comprises toe parts 5 corresponding to the toe parts of the human body, in a preferred embodiment, the toe parts 5 are not divided into toes and are further reinforced by nylon, so that the wear resistance of the toe parts 5 is improved, and meanwhile, the friction force between the toe parts and the shoe is enhanced, so that the injury to the foot of the human body caused by the relative displacement between the shoe and the sock during running is reduced.

The novel sock further comprises a heel part 8 corresponding to the heel part of a human body, and the middle of the heel part 8 is reinforced by a large Y-shaped suture line so as to play a role of firmness, durability and skid resistance.

In summary, the above-mentioned embodiments are only preferred embodiments of the present invention, and all equivalent changes and modifications made in the claims of the present invention should be covered by the claims of the present invention.

Claims (10)

1. A novel sock is characterized in that the novel sock comprises an arch support device corresponding to the arch part of a human body; the arch support device comprises two parts, wherein one part is an elastic band structure corresponding to the instep of a human body, the other part is a sole support structure corresponding to the sole of the human body, and the sole support structure is formed by thickening towards the direction of the inner wall of the sock body; the elastic band structure and the sole supporting structure are respectively connected with two sides corresponding to feet of a human body.

2. A novel sock according to claim 1, wherein the stretch band structure is a band structure located at a position corresponding to the apex of the human arch and extending to both sides of the foot.

3. A novel sock according to claim 1, wherein the plantar support structure corresponds to the stretch band structure, is also a band like structure, extends to both sides of the foot, wraps around both sides of the foot and is connected at both ends to the ends of the stretch band at the instep.

4. A novel sock according to claim 2, wherein the stretch band structure includes a plurality of mutually parallel stretch wales extending in the same direction as the human foot.

5. A sock according to claim 3, wherein the sole support structure comprises a plurality of closely spaced raised formations which thicken towards the inner wall of the sock body.

6. A novel sock according to claim 5, wherein the raised formations are distributed axisymmetrically about the centre line of the plantar support structure.

7. A novel sock according to claim 6, wherein the raised formations progressively increase in area in a direction extending from a mid-portion of the sole towards the instep.

8. A new sock according to claim 1, wherein the instep portion of the new sock is a mesh ventilation device except for the stretch band structure.

9. A novel sock according to claim 1, wherein the sole portion of the novel sock, with the exception of the plantar support structure, is a shock absorbing device.

10. A novel sock according to claim 9, wherein the cushioning means is formed by a plurality of closely spaced polygonal or circular raised formations which thicken towards the outer wall of the sock body.

Images