Antiskid warm sock

By incorporating multiple anti-slip structures on the outer layer of the socks, the problem of socks slipping on shoes is solved, achieving better anti-slip performance and warmth retention.

CN224369113UActive Publication Date: 2026-06-19何惠言

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
何惠言
Filing Date
2025-06-06
Publication Date
2026-06-19

AI Technical Summary

Technical Problem

Existing socks lack anti-slip structures at the ankle area above the heel, making them prone to slipping between the socks and shoes during walking, which poses a risk of falls, especially for the elderly.

Method used

A non-slip and warm sock was designed, which adopts a double-layer structure of inner and outer sock body. The outer sock body has multiple anti-slip structures at the ankle, including a first anti-slip structure, a second anti-slip structure, a wrinkled anti-slip structure and a third anti-slip structure, all of which are formed by a combination of loop and mesh knitting. A fourth anti-slip structure is set at the foot wrapping part of the outer sock body to increase friction.

Benefits of technology

It effectively increases the friction between the outer ankle wrap and the shoe, reduces slippage between the sock and the shoe, and improves comfort and safety.

✦ 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 non-slip warm sock, comprising an inner sock body and an outer sock body. The inner sock body includes an inner leg wrap, an inner ankle wrap, and an inner foot wrap connected in sequence. The outer sock body includes an outer leg wrap corresponding to the inner leg wrap, an outer ankle wrap corresponding to the inner ankle wrap, and an outer foot wrap corresponding to the inner foot wrap. The front side of the outer ankle wrap has a first anti-slip structure, and the rear side of the outer ankle wrap has a second anti-slip structure. Both the first and second anti-slip structures have a gathered loop structure, and a wrinkled anti-slip structure is provided between the first and second anti-slip structures. On the one hand, the double-layer warming structure achieves better warmth retention; on the other hand, the multiple anti-slip structures increase the friction between the outer ankle wrap and the shoe, effectively preventing falls.
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Description

Technical Field

[0001] This utility model relates to the field of sock technology, specifically a non-slip and warm sock. Background Technology

[0002] The ankle is one of the most important joints in the human body. The blood vessels in the ankle area are relatively thin and superficial. When the ankle gets cold, the blood vessels constrict, slowing blood circulation and affecting blood and oxygen supply to the feet, making them feel cold and potentially causing numbness and pain. To prevent ankles from getting cold, socks on the market generally extend the cuff upwards to cover the ankle. However, most socks on the market lack a non-slip structure at the ankle area above the heel. Especially for the elderly, if the friction between the sock and the shoe is insufficient, the sock can easily slip during walking, leading to falls. Utility Model Content

[0003] The purpose of this invention is to provide a non-slip and warm sock, which solves the problem that existing socks do not have a non-slip structure at the ankle area above the heel, causing the socks to slip and fall while walking.

[0004] To solve the above problems, the present invention provides the following technical solution:

[0005] A non-slip, warm sock includes an inner sock body and an outer sock body. The inner sock body includes an inner leg wrap, an inner ankle wrap, and an inner foot wrap connected in sequence. The outer sock body includes an outer leg wrap corresponding to the inner leg wrap, an outer ankle wrap corresponding to the inner ankle wrap, and an outer foot wrap corresponding to the inner foot wrap. The front side of the outer ankle wrap has a first non-slip structure, and the rear side of the outer ankle wrap has a second non-slip structure. Both the first and second non-slip structures have a gathered loop structure, and a wrinkled non-slip structure is provided between the first and second non-slip structures.

[0006] As described above, in an anti-slip and warm sock, the upper side of the outer foot wrapping part is provided with a third anti-slip structure, and the third anti-slip structure is provided with a tucking mechanism.

[0007] As described above, in an anti-slip and warm sock, the third anti-slip structure is connected to the first anti-slip structure.

[0008] As described above, in an anti-slip and warm sock, the first anti-slip structure, the second anti-slip structure, and the third anti-slip structure are all formed by a combination of looped and mesh knitting.

[0009] As described above, the anti-slip and warm socks have a fourth anti-slip structure on the outer foot wrapping part. The fourth anti-slip structure extends from the lower end of the third anti-slip structure along the lower side of the outer foot wrapping part, and the fourth anti-slip structure has strip-shaped anti-slip patterns.

[0010] As described above, the anti-slip and warm socks have longitudinal anti-slip stripes and transverse pleats on the pleated anti-slip structure.

[0011] As described above, the anti-slip and warm socks include an inner foot wrapping section comprising an inner toe area, an inner instep area, an inner sole area, and an inner heel area, with an inner seam between the inner toe area and the inner instep area; the outer foot wrapping section comprises an outer toe area, an outer instep area, an outer sole area, and an outer heel area, with an outer seam between the outer toe area and the outer instep area, and the inner seam and the outer seam are integrally connected.

[0012] In the aforementioned type of anti-slip and warm socks, the inner layer seam and the outer layer seam are parallel to the front end of the third anti-slip structure.

[0013] As described above, the anti-slip and warm socks have moisture-absorbing and heat-generating fibers on the inner layer of the sock.

[0014] The anti-slip and warm socks described above have copper ion antibacterial fibers on the inner layer.

[0015] Compared with the prior art, the present invention has the following advantages:

[0016] This utility model provides an anti-slip and warm sock. On the one hand, the inner and outer sock layers form a double-layer warming structure, which can effectively increase the overall thickness and achieve a better warming effect. On the other hand, the outer sock has a first anti-slip structure, a second anti-slip structure, and a wrinkled anti-slip structure at the outer ankle wrapping part, which can effectively increase the friction between the outer ankle wrapping part and the shoe, reduce the occurrence of slippage between the sock and the shoe during walking, and make it more comfortable and safe to use. Attached Figure Description

[0017] To more clearly illustrate the technical solutions in the embodiments of this application, the accompanying drawings used in the description of the embodiments will be briefly introduced below. Obviously, the accompanying drawings described below are only some embodiments of this application. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.

[0018] Figure 1 This is a structural schematic diagram of an anti-slip and warm sock according to an embodiment of the present utility model.

[0019] Figure 2This is a schematic diagram of the unfolded structure of an anti-slip and warm sock according to an embodiment of the present invention.

[0020] The corresponding numbers for the accompanying drawings in the instruction manual are as follows:

[0021] 1. Inner sock body; 11. Inner leg wrap; 12. Inner ankle wrap; 13. Inner foot wrap; 1301. Inner toe area; 1302. Inner instep area; 1303. Inner sole area; 1304. Inner heel area; 1305. Inner seam; 2. Outer sock body; 21. Outer leg wrap; 211. Elastic compression ring; 22. Outer ankle wrap; 221. First anti-slip structure; 222. Second anti-slip structure; 223. Pleated anti-slip structure; 23. Outer foot wrap; 2301. Outer toe area; 2302. Outer instep area; 2303. Outer sole area; 2304. Outer heel area; 2305. Outer seam; 231. Third anti-slip structure; 232. Fourth anti-slip structure. Detailed Implementation

[0022] 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 a part of the embodiments of the present utility model, and not all of them. 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.

[0023] Please see the appendix Figure 1 and attached Figure 2 This embodiment provides an anti-slip and warm sock, including an inner sock body 1 and an outer sock body 2. The inner sock body 1 includes an inner leg wrapping part 11, an inner ankle wrapping part 12, and an inner foot wrapping part 13 connected in sequence. The outer sock body 2 includes an outer leg wrapping part 21 that is fitted to the inner leg wrapping part 11, an outer ankle wrapping part 22 that is fitted to the inner ankle wrapping part 12, and an outer foot wrapping part 23 that is fitted to the inner foot wrapping part 13. The front side of the outer ankle wrapping part 22 is provided with a first anti-slip structure 221, and the rear side of the outer ankle wrapping part 22 is provided with a second anti-slip structure 222. Both the first anti-slip structure 221 and the second anti-slip structure 222 are provided with a gathered structure, and a wrinkled anti-slip structure 223 is provided between the first anti-slip structure 221 and the second anti-slip structure 222.

[0024] This embodiment provides an anti-slip and warm sock. On the one hand, the inner sock body 1 and the outer sock body 2 form a double-layer warming structure, which can effectively increase the overall thickness and achieve a better warming effect. On the other hand, the outer sock body 2 has a first anti-slip structure 221, a second anti-slip structure 222, and a wrinkled anti-slip structure 223 on the outer ankle wrapping part 22, which can effectively increase the friction between the outer ankle wrapping part 22 and the shoe, reduce the occurrence of slippage between the sock and the shoe during walking, and make it more comfortable and safe to use.

[0025] Furthermore, since both the first anti-slip structure 221 and the second anti-slip structure 222 are provided with a tufted structure, the tufted structure can effectively increase the friction between the outer ankle wrapping part 22 and the shoe, and further improve the warmth retention effect.

[0026] Specifically, tuck stitch refers to a knitted fabric structure where, in addition to a closed old loop, there are one or more unclosed overhangs on certain loops. Because the tuck stitch creates space for bending and stretching within the fabric, it not only has good elasticity but also a more textured overall structure, effectively increasing friction between socks and shoes.

[0027] Specifically, because of the suspended arc of the tucked weave, it is thicker than plain weave and rib weave. Moreover, the tucked weave creates air layers inside the fabric, and since air is a poor conductor of heat, these air layers can provide excellent insulation.

[0028] Furthermore, because the tucked weave has a suspended arc, it shortens the fabric length. While both the first and second anti-slip structures 221 and 222 have tucked weaves, the area between them lacks tucked weaves. Therefore, the fabric length corresponding to the first and second anti-slip structures 221 is shorter than the fabric length corresponding to the area between them, cleverly creating a wrinkled anti-slip structure 223 between them. Due to the wrinkles, the wrinkled anti-slip structure 223 has greater friction with the shoe, effectively reducing slippage between the sock and shoe during walking.

[0029] Preferably, the pleated anti-slip structure 223 is provided with longitudinal anti-slip stripes and transverse pleats. This simultaneously increases friction in both the transverse and longitudinal directions of the outer foot wrap 23, achieving a better anti-slip effect.

[0030] Furthermore, the upper side of the outer foot wrap 23 is provided with a third anti-slip structure 231, which has a gathered structure. The third anti-slip structure 231 corresponds to the position of the instep and can effectively increase the friction between the outer foot wrap 23 on the outer sock body 2 and the shoe, further reducing the occurrence of slippage between the sock and the shoe during walking.

[0031] Preferably, the third anti-slip structure 231 is connected to the first anti-slip structure 221. This results in a larger anti-slip area and a better anti-slip effect.

[0032] Furthermore, the first anti-slip structure 221, the second anti-slip structure 222, and the third anti-slip structure 231 are all formed by a combination of looped and textured knitting. The overall texture is well-defined, effectively reducing friction between the socks and shoes, and also provides good elasticity, aesthetics, and comfort.

[0033] Furthermore, the outer foot wrap 23 is provided with a fourth anti-slip structure 232, which extends from the lower end of the third anti-slip structure 231 along the lower side of the outer foot wrap 23. The fourth anti-slip structure 232 has strip-shaped anti-slip patterns. These strip-shaped anti-slip patterns extend from the outer toe area 2301 towards the outer heel area 2304. This not only effectively increases the friction between the lower side of the outer foot wrap 23 and the shoe, but also conforms to the human foot, providing comfortable wear.

[0034] Furthermore, the inner foot wrapping portion 13 includes an inner toe area 1301, an inner instep area 1302, an inner sole area 1303, and an inner heel area 1304, with an inner layer seam 1305 between the inner toe area 1301 and the inner instep area 1302; the outer foot wrapping portion 23 includes an outer toe area 2301, an outer instep area 2302, an outer sole area 2303, and an outer heel area 2304, with an outer layer seam 2305 between the outer toe area 2301 and the outer instep area 2302, and the inner layer seam 1305 and the outer layer seam 2305 are integrally connected.

[0035] The inner layer seam 1305 and the outer layer seam 2305 are integrally connected. A first method of seam connection involves the inner layer seam 1305 connecting the inner toe area 1301 to the inner instep area 1302, while the outer layer seam 2305 connects the outer toe area 2301 to the outer instep area 2302, before finally connecting the inner layer seam 1305 and the outer layer seam 2305 together. A second method of seam connection involves using only one seam that serves as both the inner layer seam 1305 and the outer layer seam 2305, connecting the inner toe area 1301 to the inner instep area 1302 and the outer toe area 2301 to the outer instep area 2302 in a single connection. Preferably, the second method of seam connection is used to improve wearing comfort.

[0036] As attached Figure 2 As shown, during production, the inner foot wrap 13, inner ankle wrap 12, inner leg wrap 11, outer leg wrap 21, outer ankle wrap 22, and outer foot wrap 23 are knitted sequentially using a knitting machine. Then, the inner leg wrap 1 and outer leg wrap 21 are folded together, and the inner sock body 1 is placed inside the outer sock body 2. Subsequently, the inner toe area 1301 and the inner instep area 1302, as well as the outer toe area 2301 and the outer instep area 2302, are connected by a second method of stitching. Thus, the inner sock body 1 and the outer sock body 2 are stably connected at the corresponding positions between the toes and the instep, effectively preventing the inner sock body 1 and the outer sock body 2 from slipping at the corresponding positions between the toes and the instep, making them more comfortable to wear.

[0037] Furthermore, the inner layer seam 1305 and the outer layer seam 2305 are parallel to the front end of the third anti-slip structure 231. The third anti-slip structure 231 has a positioning function for the inner layer seam 1305 and the outer layer seam 2305. The inner toe area 1301 and the inner instep area 1302, as well as the outer toe area 2301 and the outer instep area 2302, can be aligned with the front end of the third anti-slip structure 231 as a reference, which facilitates the setting of seams to connect the inner sock body 1 and the outer sock body 2 at the corresponding positions between the toes and the instep of the human foot.

[0038] The outer instep area 2302 of the outer foot wrapping part 23 is provided with the third anti-slip structure 231 in the middle, the outer instep area 2302 and the outer sole area 2303 are provided with the fourth anti-slip structure 232, and the outer toe area 2301 and the outer heel area 2304 are both provided with flat texture.

[0039] In addition, the outer leg wrap 21 has a plain weave, and the upper ends of the outer leg wrap 21 and the inner leg wrap 11 have elastic tightening rings 211, so that the outer leg wrap 21 and the inner leg wrap 11 fit the human leg more closely when worn, and prevent them from falling off.

[0040] Furthermore, in some embodiments, the inner sock body 1 is provided with moisture-absorbing and heat-generating fibers. Moisture-absorbing and heat-generating fibers are special fibers that can absorb moisture and release heat, and are widely used in thermal clothing to provide warmth and comfort to people in cold environments.

[0041] Furthermore, in some embodiments, the inner sock body 1 is provided with copper ion antibacterial fibers. Copper ion antibacterial fibers are synthetic fibers containing copper, exhibiting broad-spectrum antibacterial effects against various bacteria, fungi, and viruses. Moreover, copper ion antibacterial fibers produced through a blending spinning method possess long-lasting antibacterial properties and are washable. Due to their highly efficient and long-lasting antibacterial properties and good safety, copper ion antibacterial fibers are widely used in medical, apparel, home furnishing, and outdoor products.

[0042] It should be understood that the terms "first," "second," etc., are used in this utility model to describe various information, but this information should not be limited to these terms. These terms are only used to distinguish information of the same type from each other. For example, without departing from the scope of this utility model, "first" information can also be referred to as "second" information, and similarly, "second" information can also be referred to as "first" information. In addition, the terms "center," "upper," "lower," "left," "right," "vertical," "horizontal," "inner," "outer," etc., indicate the orientation or positional relationship based on the orientation or positional relationship shown in the accompanying drawings. They are only for the convenience of describing this utility model and simplifying the description, and do not indicate or imply that the device or element referred to must have a specific orientation, or be constructed and operated in a specific orientation. Therefore, they should not be construed as limitations on this utility model.

[0043] The above description is the preferred embodiment of this utility model. It should be noted that for those skilled in the art, several improvements and modifications can be made without departing from the principle of this utility model, and these improvements and modifications are also considered to be within the protection scope of this utility model.

Claims

1. A type of non-slip, warm sock, characterized in that, The sock includes an inner sock body (1) and an outer sock body (2). The inner sock body (1) includes an inner leg wrap (11), an inner ankle wrap (12), and an inner foot wrap (13) connected in sequence. The outer sock body (2) includes an outer leg wrap (21) that corresponds to the inner leg wrap (11), an outer ankle wrap (22) that corresponds to the inner ankle wrap (12), and an outer foot wrap (13) that corresponds to the inner foot wrap (13). The outer foot wrap (23) is fitted with a corresponding outer ankle wrap (22). The front side of the outer ankle wrap (22) is provided with a first anti-slip structure (221), and the rear side of the outer ankle wrap (22) is provided with a second anti-slip structure (222). Both the first anti-slip structure (221) and the second anti-slip structure (222) are provided with a tufted structure, and a pleated anti-slip structure (223) is provided between the first anti-slip structure (221) and the second anti-slip structure (222).

2. The anti-slip and warm socks according to claim 1, characterized in that, The upper side of the outer foot wrap (23) is provided with a third anti-slip structure (231), and the third anti-slip structure (231) is provided with a tufted structure.

3. The anti-slip and warm socks according to claim 2, characterized in that, The third anti-slip structure (231) is connected to the first anti-slip structure (221).

4. The anti-slip and warm socks according to claim 3, characterized in that, The first anti-slip structure (221), the second anti-slip structure (222), and the third anti-slip structure (231) are all formed by a combination of loops and mesh weaving.

5. The anti-slip and warm socks according to claim 2, characterized in that, The outer foot wrapping part (23) is provided with a fourth anti-slip structure (232), which extends from the lower end of the third anti-slip structure (231) along the lower side of the outer foot wrapping part (23), and the fourth anti-slip structure (232) is provided with strip-shaped anti-slip texture.

6. The anti-slip and warm socks according to claim 1, characterized in that, The pleated anti-slip structure (223) is provided with longitudinal anti-slip stripes and transverse pleats.

7. The anti-slip and warm socks according to claim 2, characterized in that, The inner foot wrapping part (13) includes an inner toe area (1301), an inner instep area (1302), an inner sole area (1303), and an inner heel area (1304). An inner layer seam (1305) is provided between the inner toe area (1301) and the inner instep area (1302). The outer foot wrapping part (23) includes an outer toe area (2301), an outer instep area (2302), an outer sole area (2303), and an outer heel area (2304). An outer layer seam (2305) is provided between the outer toe area (2301) and the outer instep area (2302). The inner layer seam (1305) and the outer layer seam (2305) are integrally connected.

8. The anti-slip and warm socks according to claim 7, characterized in that, The inner layer stitch (1305) and the outer layer stitch (2305) are parallel to the front end of the third anti-slip structure (231).

9. The anti-slip and warm socks according to claim 1, characterized in that, The inner sock body (1) is provided with moisture-absorbing and heat-generating fibers.

10. The anti-slip and warm socks according to claim 1, characterized in that, The inner sock body (1) is provided with copper ion antibacterial fibers.