A type of toe bone corrective stocking

By incorporating an elastic band, an outer soft magnetic sheet, and an inner soft magnetic sheet into the socks, along with an auxiliary structure of an elastic mesh and a binding cord, the problem of reduced elasticity at the sock cuff is solved, achieving the effects of preventing the socks from slipping off and promoting blood circulation.

CN224421271UActive Publication Date: 2026-06-30金华德仁康复辅具有限公司

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
金华德仁康复辅具有限公司
Filing Date
2025-04-23
Publication Date
2026-06-30

AI Technical Summary

Technical Problem

Existing socks, with their elasticated cuffs, lose elasticity after prolonged wear, causing the socks to bunch up on the soles of the feet, affecting comfort and blood circulation.

Method used

The design incorporates a connecting structure consisting of elastic bands, an outer soft magnetic sheet, and an inner soft magnetic sheet, as well as an auxiliary structure of elastic mesh and binding rope. It is magnetically attached and tied to the calf to promote blood circulation and prevent the socks from slipping off.

Benefits of technology

It improves the socks' ability to prevent slipping, enhances wearing comfort and blood circulation, and reduces the discomfort of the elastic mesh slipping.

✦ Generated by Eureka AI based on patent content.

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Abstract

This utility model relates to the field of sock technology, specifically a toe correction sock, comprising: a sock body; a connecting structure is provided on the upper outer side of the sock body, the connecting structure including an elastic band, the elastic band being sewn to the upper outer side of the sock body, an outer soft magnetic sheet being sewn onto the inner wall of the elastic band, and an inner soft magnetic sheet being sewn onto the upper outer wall of the sock body; an auxiliary structure is provided on the upper side of the sock body, the auxiliary structure including an elastic mesh sleeve, the elastic mesh sleeve being located on the upper side of the sock body. This utility model, by setting an elastic mesh sleeve, can be worn on the calf to promote blood circulation, and the upper end of the elastic mesh sleeve is fixed by a drawstring, making it easy to operate and less burdensome. Simultaneously, the outer and inner soft magnetic sheets can be clamped on the inner and outer sides of the elastic mesh sleeve, pulling and fixing the sock body from the upper side, thereby improving the anti-slip effect of the sock body.
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Description

Technical Field

[0001] This utility model relates to the field of sock technology, specifically to a toe bone corrective sock. Background Technology

[0002] Hallux valgus is a common foot problem with many causes, such as congenital heredity, long-term wearing of narrow-toed shoes or high heels causing compression and deformation of the big toe, and common flat feet are also one of the causes. Mild hallux valgus can be improved with various orthopedic devices, while severe cases can only be treated with surgery.

[0003] In response, Chinese patent application number CN202020989124.8 discloses a corrective sock, comprising a sock body and an insulating pad; the sock body is for wearing over a foot, and has a sock opening and an intertoe area; the sock opening is for fastening around the ankle of the foot; the intertoe area has a big toe opposing portion, a fourth toe opposing portion, and a cavity located between the big toe opposing portion and the fourth toe opposing portion, the big toe opposing portion allowing the big toe to pass through or at least partially accommodate it; the fourth toe opposing portion allows at least half of the four toes other than the big toe to be exposed; the insulating pad is detachably inserted into the cavity of the sock body, thereby isolating the big toe and second toe of the foot; accordingly, it can provide a good corrective effect for those with hallux valgus.

[0004] These socks are designed to fit snugly around the ankle at the cuff. However, the cuff is often made of elastic material, which reduces its elasticity after prolonged wear. This causes the socks to bunch up on the soles of the feet, affecting the wearing experience. Furthermore, prolonged toe correction can impede blood circulation and reduce comfort.

[0005] Therefore, in order to solve the above problems, a toe bone corrective stocking is proposed. Utility Model Content

[0006] The purpose of this utility model is to provide a toe correction sock to solve the problem mentioned in the background art that the socks in the prior art can be fitted around the ankle by setting a sock opening, but the sock opening is mostly made of elastic material. After wearing the sock for a long time, the elasticity of the sock opening will decrease, making the sock easy to pile up on the bottom of the foot, affecting the wearing experience. In addition, long-term toe correction can easily cause poor blood circulation and affect comfort.

[0007] To achieve the above objectives, this utility model provides the following technical solution: a toe correction sock, comprising: a sock body;

[0008] A connecting structure is provided on the upper outer side of the sock body. The connecting structure includes an elastic band. The elastic band is sewn to the upper outer side of the sock body. An outer soft magnetic sheet is sewn onto the inner wall of the elastic band. An inner soft magnetic sheet is sewn onto the upper outer wall of the sock body.

[0009] An auxiliary structure is provided on the upper side of the sock body. The auxiliary structure includes an elastic mesh sleeve located on the upper side of the sock body. An opening is provided on the upper surface of the elastic mesh sleeve. A cloth loop is sewn to the upper end of the elastic mesh sleeve. A rubber lining is sewn to the inner wall of the cloth loop. A tie is threaded through the inner side of the cloth loop.

[0010] Preferably, the outer soft magnetic sheet and the inner soft magnetic sheet are arranged correspondingly and cooperate with each other.

[0011] Preferably, the bottom end of the elastic mesh sleeve is fitted onto the outer side of the upper end of the sock body, and the elastic band is fitted onto the outer side of the bottom end of the elastic mesh sleeve.

[0012] Preferably, the outer soft magnetic sheet and the inner soft magnetic sheet are located on the inner and outer sides of the bottom end of the elastic mesh sleeve, respectively.

[0013] Preferably, the length of the binding rope is greater than the length of the cloth loop, and the two ends of the binding rope protrude from the two ends of the cloth loop.

[0014] Compared with the prior art, the beneficial effects of this utility model are: by setting an elastic mesh sleeve, this utility model can be worn on the calf to promote blood circulation. The upper end of the elastic mesh sleeve is fixed by a tie, which is convenient to operate and has little burden. At the same time, the outer and inner soft magnetic sheets can be clamped on the inner and outer sides of the elastic mesh sleeve and pulled and fixed the sock body on the upper side, thereby improving the anti-slip effect of the sock body.

[0015] This utility model, through the provision of a connecting structure and an auxiliary structure, allows the main body of the sock to be worn on the foot, and then the elastic mesh sleeve to be placed on the outside of the calf. The elasticity of the elastic mesh sleeve itself will conform to the surface of the calf, promoting blood circulation in the user's lower limbs. Then, the elastic band is turned up so that the upper end of the sock main body is exposed, and the lower end of the elastic mesh sleeve is placed on the outside of the upper end of the sock main body. Then, the elastic band is restored, and the outer soft magnetic sheet will magnetically attract the inner soft magnetic sheet through the elastic mesh sleeve, thereby fixing the lower end of the elastic mesh sleeve to the outside of the upper end of the sock main body. Pull the two ends of the binding rope and tie them together to tighten the upper end of the elastic mesh cover. The size of the opening at the upper end of the elastic mesh cover is fixed, and the rubber lining pad will fit against the surface of the calf. At this time, the upper end of the elastic mesh cover will be located at the upper end of the calf. Since the calf has a structure that is thick in the middle and thin at both ends, the binding rope tied at the upper end of the calf will not slide down. Therefore, the elastic mesh cover is fixed. Furthermore, the upper end of the sock body can be pulled by the outer and inner soft magnetic sheets to prevent the sock body from falling off. It has strong functionality. Attached Figure Description

[0016] Figure 1 This is a schematic diagram of the structure of the present invention in its wearable state;

[0017] Figure 2 This is a side view of the structure of this utility model;

[0018] Figure 3 This is an exploded view of the structure of this utility model;

[0019] Figure 4 This is a front view cross-sectional schematic diagram of the elastic band structure of this utility model.

[0020] In the picture: 1. Sock body; 2. Connecting structure; 21. Elastic band; 22. Outer soft magnetic sheet; 23. Inner soft magnetic sheet; 3. Auxiliary structure; 31. Elastic mesh sleeve; 32. Opening; 33. Cloth loop sleeve; 34. Rubber inner lining pad; 35. Tie rope. Detailed Implementation

[0021] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.

[0022] Please see Figures 1-4 An embodiment of a toe bone corrective sock provided by this utility model:

[0023] The sock body 1 used in this application is a product that can be directly purchased on the market. Its principle and connection method are existing technologies well known to those skilled in the art, so they will not be described in detail here.

[0024] A toe correction sock, comprising: a sock body 1;

[0025] A connecting structure 2 is provided on the upper outer side of the sock body 1. The connecting structure 2 includes an elastic band 21. The elastic band 21 is sewn to the upper outer side of the sock body 1. An outer soft magnetic sheet 22 is sewn to the inner wall of the elastic band 21. An inner soft magnetic sheet 23 is sewn to the upper outer wall of the sock body 1.

[0026] An auxiliary structure 3 is provided on the upper side of the sock body 1. The auxiliary structure 3 includes an elastic mesh sleeve 31, which is located on the upper side of the sock body 1. An opening 32 is reserved on the upper surface of the elastic mesh sleeve 31. A cloth loop 33 is sewn to the upper end of the elastic mesh sleeve 31. A rubber inner lining pad 34 is sewn to the inner wall of the cloth loop 33. A tie 35 is threaded through the inner side of the cloth loop 33. The elastic mesh sleeve 31 can be worn on the calf to promote blood circulation. The upper end of the elastic mesh sleeve 31 is fixed by the tie 35, which is convenient to operate and has little burden. At the same time, the outer soft magnetic sheet 22 and the inner soft magnetic sheet 23 can be clamped on the inner and outer sides of the elastic mesh sleeve 31 and pulled and fixed the sock body 1 on the upper side, thereby improving the anti-slip effect of the sock body 1.

[0027] Furthermore, the outer soft magnetic sheet 22 and the inner soft magnetic sheet 23 are correspondingly arranged and cooperate with each other. The outer soft magnetic sheet 22 cooperates with the inner soft magnetic sheet 23 to fix the elastic mesh sleeve 31 between the sock body 1 and the elastic band 21, so as to provide tension on the sock body 1 from the top to prevent the sock body 1 from falling off.

[0028] Furthermore, the bottom end of the elastic mesh sleeve 31 is fitted onto the upper outer side of the sock body 1, and the elastic band 21 is fitted onto the bottom outer side of the elastic mesh sleeve 31. The contact area between the elastic mesh sleeve 31, the sock body 1, and the elastic band 21 is large, resulting in greater friction and preventing the elastic mesh sleeve 31 from falling off between the elastic band 21 and the sock body 1.

[0029] Furthermore, the outer soft magnetic sheet 22 and the inner soft magnetic sheet 23 are located on the inner and outer sides of the bottom end of the elastic mesh sleeve 31, respectively. The outer soft magnetic sheet 22, together with the inner soft magnetic sheet 23, can further fix the elastic mesh sleeve 31 between the sock body 1 and the elastic band 21.

[0030] Furthermore, the length of the binding rope 35 is greater than the length of the cloth loop 33, and the two ends of the binding rope 35 are exposed at the two ends of the cloth loop 33 respectively. The two ends of the binding rope 35 can be tied together, and the exposed part of the binding rope 35 can be located inside the movable opening 32 to reduce discomfort.

[0031] Working principle: When wearing, put the sock body 1 on the foot, and then put the elastic mesh sleeve 31 on the outside of the calf. The elasticity of the elastic mesh sleeve 31 will conform to the surface of the calf, promoting blood circulation in the user's lower limbs. Then, unfold the elastic band 21 so that the upper end of the sock body 1 is exposed and the lower end of the elastic mesh sleeve 31 is put on the outside of the upper end of the sock body 1. Then, restore the elastic band 21. The outer soft magnetic sheet 22 will magnetically attract the inner soft magnetic sheet 23 through the elastic mesh sleeve 31 to fix the lower end of the elastic mesh sleeve 31 to the outside of the upper end of the sock body 1.

[0032] Pull the two ends of the binding rope 35 and tie them together to tighten the upper end of the elastic mesh sleeve 31. The size of the opening at the upper end of the elastic mesh sleeve 31 is fixed, and the rubber inner lining 34 will fit against the surface of the calf. At this time, the upper end of the elastic mesh sleeve 31 will be located at the upper end of the calf. Since the calf is shaped like a structure that is thick in the middle and thin at both ends, the binding rope 35 tied at the upper end of the calf will not slide down. Therefore, the elastic mesh sleeve 31 is fixed. The upper end of the sock body 1 can be pulled by the outer soft magnetic sheet 22 and the inner soft magnetic sheet 23 to prevent the sock body 1 from falling off. It has strong functionality.

[0033] The above description is merely a preferred embodiment of this utility model and is not intended to limit the utility model in any way. Those skilled in the art can readily implement this utility model based on the accompanying drawings and the above description. However, any modifications, alterations, or equivalent variations made by those skilled in the art without departing from the scope of the utility model's technical solution, utilizing the disclosed technical content, are considered equivalent embodiments of this utility model. Furthermore, any equivalent changes, alterations, or variations made to the above embodiments based on the essential technology of this utility model are still within the protection scope of this utility model's technical solution.

Claims

1. A toe correction stocking, comprising: Sock body (1); Its features are: A connecting structure (2) is provided on the upper outer side of the sock body (1). The connecting structure (2) includes an elastic band (21). The elastic band (21) is sewn to the upper outer side of the sock body (1). An outer soft magnetic sheet (22) is sewn onto the inner wall of the elastic band (21). An inner soft magnetic sheet (23) is sewn onto the upper outer wall of the sock body (1). An auxiliary structure (3) is provided on the upper side of the sock body (1). The auxiliary structure (3) includes an elastic mesh sleeve (31). The elastic mesh sleeve (31) is located on the upper side of the sock body (1). An opening (32) is reserved on the upper surface of the elastic mesh sleeve (31). A cloth loop sleeve (33) is sewn to the upper end of the elastic mesh sleeve (31). A rubber inner lining pad (34) is sewn on the inner wall of the cloth loop sleeve (33). A binding rope (35) is threaded through the inner side of the cloth loop sleeve (33).

2. The toe correction stocking according to claim 1, characterized in that: The outer soft magnetic sheet (22) and the inner soft magnetic sheet (23) are arranged correspondingly and cooperate with each other.

3. The toe correction stocking according to claim 1, characterized in that: The bottom end of the elastic mesh sleeve (31) is fitted onto the outer side of the upper end of the sock body (1), and the elastic fabric strip (21) is fitted onto the outer side of the bottom end of the elastic mesh sleeve (31).

4. The toe correction stocking according to claim 1, characterized in that: The outer soft magnetic sheet (22) and the inner soft magnetic sheet (23) are located on the inner and outer sides of the bottom end of the elastic mesh sleeve (31), respectively.

5. The toe correction stocking according to claim 1, characterized in that: The length of the binding rope (35) is greater than the length of the cloth loop (33), and the two ends of the binding rope (35) are exposed at the two ends of the cloth loop (33).