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CN-121970938-A - Sports sock with function partition silica gel layer

CN121970938ACN 121970938 ACN121970938 ACN 121970938ACN-121970938-A

Abstract

The invention provides sports socks with functional partition silica gel layers, which comprise main foot socks and auxiliary foot socks, wherein the main foot socks and the auxiliary foot socks comprise sock bodies and sock legs connected above the sock bodies, the sock bodies comprise sock bodies and silica gel layer structures arranged at the bottoms of the sock bodies, the silica gel layer structures comprise a half sole thrust area, an arch support area, a heel stabilizing area and a toe root grabbing area, the half sole thrust area comprises a plurality of strip-shaped silica gel blocks, the strip-shaped silica gel blocks are arranged at the first to fifth metatarsal ends along the direction perpendicular to the length direction of the metatarsal, the arch support area comprises a plurality of silica gel support belts, the silica gel support belts are longitudinally arranged along the inner side of the arch, the heel stabilizing area comprises a plurality of arc-shaped silica gel sections, the arc-shaped silica gel sections encircle to form a C-shaped semi-ring or O-shaped full-ring structure and are arranged around the heel, and the toe root grabbing area comprises a plurality of silica gel points, and the silica gel points are arranged at the positions below the first to the fifth metatarsal joints.

Inventors

  • HUANG HONGYAN
  • JIN LONG

Assignees

  • 中煜福新能源科技(深圳)有限公司

Dates

Publication Date
20260505
Application Date
20260205

Claims (12)

  1. 1. Sports socks with function subregion silica gel layer, a serial communication port, sports socks includes main foot socks and vice foot socks, main foot socks with vice foot socks all include the sock body and connect in the leg of a stocking of sock body top, the sock body include the socks body with set up in the silica gel layer structure of the bottom of socks body, silica gel layer structure includes following region: the half sole thrust area comprises a plurality of strip-shaped silica gel blocks, and the strip-shaped silica gel blocks are arranged at the first to fifth metatarsal ends along the direction perpendicular to the length direction of the metatarsal; the arch support area comprises a plurality of silica gel support belts which are longitudinally arranged along the inner side of the arch; The heel stabilizing area comprises a plurality of arc-shaped silica gel sections, wherein the arc-shaped silica gel sections encircle to form a C-shaped semi-ring or O-shaped full-ring structure and are arranged around the heel; A heel grabbing area comprising a plurality of silica gel points arranged at a position below the first to fifth metatarsophalangeal joints, wherein The hardness of the strip-shaped silica gel blocks of the half sole thrust area of the main foot sock is higher than that of the strip-shaped silica gel blocks of the half sole thrust area of the auxiliary foot sock; the thickness of the silica gel supporting band of the arch supporting area of the auxiliary foot sock gradually decreases from front to back; the arc-shaped silica gel section of the heel stabilizing area of the main foot sock surrounds the inner side and the rear side of the heel, and the arc-shaped silica gel section of the heel stabilizing area of the auxiliary foot sock surrounds the center and the outer side of the heel; The distribution density of the silica gel points of the heel grabbing area of the main foot sock arranged below the fifth metatarsophalangeal joint is smaller than the distribution density of the silica gel points of the heel grabbing area of the auxiliary foot sock arranged below the fifth metatarsophalangeal joint.
  2. 2. The sport sock with a functionally partitioned silicone layer according to claim 1, wherein the length of the strip-shaped silicone blocks is 8-15 mm and the width is 1.5-3 mm, the distance between every two adjacent strip-shaped silicone blocks is 2-4 mm, the edges of the strip-shaped silicone blocks are provided with micro-arc-shaped chamfers, and the curvature radius of the chamfers is 0.2-0.5mm.
  3. 3. The sport sock with a functionally partitioned silicone layer according to claim 2, wherein the strip-shaped silicone block comprises a base layer in contact with the sock body and a surface layer remote from the sock body, the base layer having a shore hardness less than a shore hardness of the surface layer.
  4. 4. The sport sock with the functional partition silica gel layer according to claim 1, wherein the length direction of the silica gel supporting band is parallel to the plantar midline, the thickness of the silica gel supporting band is 0.6-1.0 mm, and the section of the silica gel supporting band is in an i shape or a T shape.
  5. 5. The sport sock with a functionally partitioned silicone layer according to claim 4, wherein the surface of the silicone support belt is provided with evenly distributed raised textures, the raised height of the textures being 0.1-0.2 mm.
  6. 6. The sport sock with a functionally partitioned silicone layer according to claim 1, wherein the thickness of the arc-shaped silicone section is 0.8-1.2 mm, the radius of curvature of the arc is 28-35 mm, and the distance between each two adjacent arc-shaped silicone sections is 0.5-1.0 mm, and the side surfaces of the arc-shaped silicone sections are provided with fin-shaped protrusions and/or corrugated protrusions.
  7. 7. The sport sock with the functional partition silica gel layer according to claim 1, wherein the silica gel point is of a circular or oval structure, the maximum diameter is 2-5 mm, the height is 0.6-1.0 mm, the top of the silica gel point is provided with a spherical bulge, and the curvature radius of the spherical bulge is 1.5-3 mm.
  8. 8. The sport sock with the functional partition silica gel layer according to claim 7, wherein the silica gel point is a core-cladding structure, and the shore hardness of the core silica gel material of the silica gel point is lower than the shore hardness of the cladding silica gel material.
  9. 9. The sport socks with function partition silica gel layer according to claim 1, wherein the front ends of the strip silica gel block closest to the foot center and the silica gel supporting band of the arch supporting area of the fore-sole thrust area are provided with silica gel connecting ribs, the width of the silica gel connecting ribs is 0.5-0.8 mm, and the shore hardness of the silica gel connecting ribs is smaller than the shore hardness of the strip silica gel block and the silica gel supporting band.
  10. 10. Sport socks with a functionally partitioned silicone layer according to any one of claims 1 to 9, characterized in that the surface of the silicone layer structure is textured by plasma treatment and the silicone material used for the silicone layer structure is doped with elastic particles.
  11. 11. Sports sock with a functionally partitioned silicone layer according to any of claims 1 to 9, characterized in that the silicone layer structure is formed by a silicone infusion channel reserved by means of local plating and inlay technique during the manufacture of the sock.
  12. 12. Sports sock with a functionally partitioned silicone layer according to any of claims 1 to 9, characterized in that the silicone material used for the silicone layer structure is doped with a biomechanical sensor.

Description

Sports sock with function partition silica gel layer Technical Field The invention belongs to the field of socks, and particularly relates to sports socks with a functional partition silica gel layer. Background In the prior art, the sport socks generally adopt an integral silica gel coating or a full-sole covered anti-slip structure to improve the friction force between soles and shoes, and the design can prevent feet from sliding to a certain extent, but generally has the problems of stiff structure, poor air permeability, reduced flexibility and the like. Because the silica gel material is continuously distributed on the whole sock bottom, the local elasticity of the sock body is limited, wearing comfort and natural gait are affected, and particularly in a sports scene such as a golf swing process requiring fine foot control, dynamic stability and flexibility are difficult to be considered. In addition, the conventional design does not take into account the actual pressure distribution differences of different areas of the sole in motion and the different foot pressure differences of the feet, lacks the targeting of critical stress points, and causes the inefficient distribution of cushioning and supporting functions. Some products attempt to improve local performance by patterning silica gel printing, but are still limited to planarization and homogenization treatment modes, and can not realize on-demand layout and functional partitioning, so that unnecessary material accumulation in a non-bearing area and stress concentration phenomenon in a bearing area coexist. The structure not only increases invalid weight, but also weakens original fitting sense and breathing performance of the sock body, and cannot meet comprehensive requirements of accurate control, long-acting comfort and high-efficiency energy conduction in a high-end sports scene. Korean patent application publication No. KR101102167B1 discloses a sports sock with functional zones, which adopts different silica gel layer structures for different foot areas, but has a rough functional zone division, does not consider dynamic mechanical response between areas, has a simple combination mode of silica gel and a substrate, is easy to fall off, and lacks a fine design for the cooperation of left and right feet of a special sport (such as golf). Disclosure of Invention Aiming at the defects of the prior art, the invention provides sport socks with a functional partition silica gel layer. Solves the technical problems that the prior sport socks are easy to fatigue, have partial friction damage and different pressure applying parts of feet and have poor comfort caused by lacking of effective buffering and moisture absorption partition designs in the long-time use process. The invention provides sports socks with a functional partition silica gel layer, which comprise main foot socks and auxiliary foot socks, wherein the main foot socks and the auxiliary foot socks comprise sock bodies and sock legs connected above sock bodies, the sock bodies comprise sock bodies and silica gel layer structures arranged at the bottoms of the sock bodies, and the silica gel layer structures comprise the following areas: the half sole thrust area comprises a plurality of strip-shaped silica gel blocks, and the strip-shaped silica gel blocks are arranged at the first to fifth metatarsal ends along the direction perpendicular to the length direction of the metatarsal; the arch support area comprises a plurality of silica gel support belts which are longitudinally arranged along the inner side of the arch; The heel stabilizing area comprises a plurality of arc-shaped silica gel sections, wherein the arc-shaped silica gel sections encircle to form a C-shaped semi-ring or O-shaped full-ring structure and are arranged around the heel; A heel grabbing area comprising a plurality of silica gel points arranged at a position below the first to fifth metatarsophalangeal joints, wherein The hardness of the strip-shaped silica gel blocks of the half sole thrust area of the main foot sock is higher than that of the strip-shaped silica gel blocks of the half sole thrust area of the auxiliary foot sock; the thickness of the silica gel supporting band of the arch supporting area of the auxiliary foot sock gradually decreases from front to back; the arc-shaped silica gel section of the heel stabilizing area of the main foot sock surrounds the inner side and the rear side of the heel, and the arc-shaped silica gel section of the heel stabilizing area of the auxiliary foot sock surrounds the center and the outer side of the heel; The distribution density of the silica gel points of the heel grabbing area of the main foot sock arranged below the fifth metatarsophalangeal joint is smaller than the distribution density of the silica gel points of the heel grabbing area of the auxiliary foot sock arranged below the fifth metatarsophalangeal joint. Further, the length of the strip-shaped silica