CN218942397U - Sport sole and sport shoes with shock-absorbing function - Google Patents

Abstract

The utility model discloses a sports shoe with a cushioning function and a sports sole, wherein the sports sole comprises an outsole and a midsole, the outsole comprises a through groove arranged corresponding to the central area of an arch of foot and five soles corresponding to different areas of the sole, and the ground contact surface of each outsole is provided with an anti-skid area formed by arranging protrusions/grooves in different shapes; the midsole comprises a first outer ring part and a second outer ring part which are distributed in sequence from the upper surface of the edge of the outsole, a first accommodating space is formed between the first outer ring part and the second outer ring part, and the supporting part is accommodated in the first accommodating space; a plurality of grooves are formed in one side, far away from the ground contact surface, of the first outer ring portion, and a plurality of hollow second accommodating spaces are formed in one side, close to the ground contact surface, of the supporting portion. According to the utility model, the plurality of grooves and the hollow space are arranged on the midsole to form the corresponding supporting mechanism, so that good shock absorption performance is provided.

Description

Sport sole and sport shoes with shock-absorbing function

Technical Field

The utility model relates to the technical field of shoes, in particular to a sports sole with a shock absorption function and a sports shoe.

Background

Shoes are indispensable articles for daily use in people's daily life, and the sole is the most important part of a pair of shoes, and it not only plays the most important guard action, and elasticity, skid resistance and the comfort level of shoes all depend on sole's structure and material.

The soles of the existing sports shoes are mostly made of MD, RB, EVA and other materials in a multi-layer bonding or single-layer solid structure, so that the soles have certain flexibility and elasticity to play a role in shock absorption, or the soles are directly arranged into shock absorption structures, so that the impact force in the sports process is relieved. However, there are different demands on the performance of the sports shoe in different sports environments, for example, the need for portability and wear resistance of the sports shoe is primary in marathon games and the need for support performance of the sports shoe is primary in hiking off-road environments. Such improvements have limited effectiveness if cushioning is provided by shock absorbing, shock absorbing structures, or by material selection to change the weight of the sole.

Disclosure of Invention

The utility model mainly solves the technical problem of providing the sports sole with the shock absorption function and the sports shoes, which can play a role in shock absorption when feet exert acting force on the sole body in the walking or sports process of an athlete, and improve the comfort of the sole body.

In order to solve the technical problems, the utility model adopts a technical scheme that: the sports sole with the shock absorption function comprises an outsole and a midsole, wherein the outsole is connected to the lower surface of the midsole; the outsole comprises a through groove, is arranged on the ground contact surface of the outsole and is arranged corresponding to the center area of the arch; the first outsole is arranged on the ground contact surface of the outsole and is arranged along an area formed by the center of the outer side edge of the front sole and the center of the inner side edge of the front sole from the toe; the first antiskid area is a circular arc-shaped strip-shaped bulge and correspondingly covers the toe area; the second anti-skid area is a triangular bulge and correspondingly covers the central area of the outer side edge of the front sole; one triangle bottom edge of the second anti-skid area is connected with the first anti-skid area, and the other triangle bottom edge is extended and distributed along the outer side edge of the front sole; the third anti-slip area is a triangular bulge and correspondingly covers the central area of the inner side edge of the front sole; one triangle bottom edge of the third anti-skid area is connected with the first anti-skid area, and the other triangle bottom edge is extended and distributed along the outer side edge of the front sole; the second outsole is arranged on the ground contact surface of the outsole, and is arranged along the outer side edge of the outsole by taking the center of the outer side edge of the front sole as a starting point and taking the outer side of the arch of the foot as an end point, which is close to the outer side position of the heel; comprising the following steps: the first anti-slip area is arranged on the ground contact surface of the outsole, and is arranged along the outer side edge of the outsole by taking the center of the outer side edge of the front sole as a starting point and taking the outer side of the arch of the foot as an end point, which is close to the outer side position of the heel; the second anti-skid area is in an oval shape and is arranged on the first anti-skid area and correspondingly covers the center of the outer side edge of the front sole to the area formed by the outer side of the front sole and one end, close to the arch; the third anti-slip area is an elliptical annular band-shaped groove with a hollow interior and is arranged on the first anti-slip area and correspondingly covers the area formed from the outer side of the front sole and one end of the arch close to the rear heel to the end of the arch close to the rear heel; the third outsole is arranged on the ground contact surface of the outsole, and is arranged along the inner side edge of the outsole by taking the center of the inner side edge of the front sole as a starting point and taking the inner side of the arch of the foot as an end point near the inner side position of the heel; comprising the following steps: the first anti-slip area is arranged on the ground contact surface of the outsole, and is arranged along the inner side edge of the outsole by taking the center of the inner side edge of the front sole as a starting point and taking the inner side of the arch of the foot as an end point, which is close to the inner side position of the heel; the second anti-skid area is in an oval shape and is arranged on the first anti-skid area and correspondingly covers the center of the edge of the inner side of the front sole to the area formed by the inner side of the front sole and one end, close to the arch; the third anti-slip area is an elliptical annular band-shaped groove with a hollow interior and is arranged on the first anti-slip area and correspondingly covers the area formed from the inner side of the front sole and one end of the arch close to the rear heel to the end of the arch close to the rear heel; a fourth outsole disposed on a ground contact surface of the outsole, disposed in an area formed by the first outsole, the second outsole, and the third outsole; comprising the following steps: the first anti-skid area is oval and is arranged on the ground contact surface of the first outsole and is close to the toe area; the second anti-skid area is oval and is arranged on the ground contact surface of the first outsole and is close to the arch area; the fifth outsole is arranged on the ground contact surface of the outsole and correspondingly covers the heel area; comprising the following steps: the first anti-slip area is a circular arc-shaped strip-shaped bulge and correspondingly covers the outer edge area of the heel; the second anti-skid area is oval and is arranged on the ground contact surface of the fifth outsole and correspondingly covers the area formed from the center of the outer side edge of the heel to the outer side of the heel and one end, close to the arch; the third anti-skid area is oval and is arranged on the ground contact surface of the fifth outsole and correspondingly covers the center of the edge of the inner side of the heel to the area formed by the inner side of the heel and one end, close to the arch; the fourth anti-skid area is oval and is arranged on the ground contact surface of the fifth outsole, and the through groove and the heel part form an area; the midsole comprises: the first outer ring part is arranged on the upper surface of the outsole around the edge of the outsole; the second outer ring parts are distributed along the edge of the first outer ring part to be arranged above the first outer ring part and fixedly connected with the area of the first outer ring part corresponding to the toe edge; a first accommodation space formed between the first outer ring portion and the second outer ring portion; and a supporting part accommodated in the first accommodation space; the side, far away from the outsole ground, of the first outer ring part is provided with a plurality of grooves, and a plurality of hollow second accommodating spaces are formed by the plurality of grooves and the side, close to the outsole ground, of the supporting part correspondingly.

Wherein the through groove is arranged in an area formed by the second anti-skid area, the third anti-skid area, the fourth anti-skid area and the fifth anti-skid area.

Wherein, on the first outsole, the second anti-skid region comprises: the first anti-slip bulge is a triangular annular strip bulge with a hollow inside; the second anti-skid bulges are strip-shaped bulges and are parallel to each other and are distributed in a hollow area formed in the first anti-skid bulges side by side; the length direction of the second anti-slip protrusions is parallel to the extending direction from the inner side to the outer side of the front sole, and the length and the width of each second anti-slip protrusion are different; on the first outsole, the third cleat area includes: the first anti-slip bulge is a triangular annular strip bulge with a hollow inside; the second anti-skid bulges are strip-shaped bulges and are parallel to each other and are distributed in a hollow area formed in the first anti-skid bulges side by side; the length direction of the second anti-slip protrusions is parallel to the extending direction from the inner side to the outer side of the front sole, and the length and the width of each second anti-slip protrusion are different; on the second outsole, the second cleat area includes: the first anti-slip groove is an elliptical hollow annular strip-shaped groove, and the short axis direction of the first anti-slip groove and the extending direction from the inner side to the outer side of the front sole are parallel to each other; the second anti-slip bulges are strip-shaped bulges and are parallel to each other and are distributed in a hollow area formed in the first anti-slip groove side by side; the length direction of the second anti-slip protrusions is parallel to the extending direction from the inner side to the outer side of the front sole, and the length and the width of each second anti-slip protrusion are different; on the third outsole, the second cleat area includes: the first anti-slip groove is an elliptical hollow annular strip-shaped groove, and the short axis direction of the first anti-slip groove and the extending direction from the inner side to the inner side of the front sole are parallel to each other; the second anti-skid bulges are strip-shaped bulges and are parallel to each other and are distributed in a hollow area formed in the first anti-skid bulges side by side; the length direction of the second anti-slip protrusions is parallel to the extending direction from the inner side to the inner side of the front sole, and the length and the width of each second anti-slip protrusion are different; on the fourth outsole, the first cleat area includes: the first anti-slip bulge is an elliptical and hollow annular strip bulge, and the short axis direction of the first anti-slip bulge is parallel to the extending direction from the inner side to the inner side of the front sole; the second anti-skid bulges are strip-shaped bulges and are parallel to each other and are distributed in a hollow area formed in the first anti-skid bulges side by side; the length direction of the second anti-slip protrusions is parallel to the extending direction from the inner side to the inner side of the front sole, and the length and the width of each second anti-slip protrusion are different; on the fourth outsole, the second cleat area includes: the first anti-slip bulge is an elliptical and hollow annular strip bulge, and the short axis direction of the first anti-slip bulge is parallel to the extending direction from the inner side to the inner side of the front sole; the second anti-skid bulges are strip-shaped bulges and are parallel to each other and are distributed in a hollow area formed in the first anti-skid bulges side by side; the length direction of the second anti-slip protrusions is parallel to the extending direction from the inner side to the inner side of the front sole, and the length and the width of each second anti-slip protrusion are different; on the fifth outsole, the second cleat area includes: the first anti-slip bulge is an elliptical hollow annular band-shaped groove, and the short axis direction of the first anti-slip bulge is parallel to the extending direction from the inner side to the outer side of the heel; the second anti-skid bulges are strip-shaped bulges and are parallel to each other and are distributed in a hollow area formed in the first anti-skid bulges side by side; the length direction of the second anti-slip protrusions is parallel to the extending direction from the inner side to the inner side of the front sole, and the length and the width of each second anti-slip protrusion are different; on the fifth outsole, the third cleat area includes: the first anti-slip bulge is an elliptical hollow annular strip-shaped groove, and the short axis direction of the first anti-slip bulge is parallel to the extending direction from the inner side to the inner side of the heel; the second anti-skid bulges are strip-shaped bulges and are parallel to each other and are distributed in a hollow area formed in the first anti-skid bulges side by side; wherein the length direction of the second anti-slip protrusions and the extending direction from the inner side to the inner side of the heel are parallel to each other, and the length and the width of each second anti-slip protrusion are different; on the fifth outsole, the fourth cleat area includes: the first anti-slip bulge is an elliptical and hollow annular strip bulge, and the short axis direction of the first anti-slip bulge is parallel to the extending direction from the inner side to the inner side of the front sole; the second anti-skid bulges are strip-shaped bulges and are parallel to each other and are distributed in a hollow area formed in the first anti-skid bulges side by side; the length direction of the second anti-slip protrusions is parallel to the extending direction from the inner side to the inner side of the front sole, and the length and the width of each second anti-slip protrusion are different.

Wherein, on the fourth outsole, the sizes of the major axis and the minor axis of the ellipse of the first anti-skid area are smaller than the sizes of the major axis and the minor axis of the ellipse of the second anti-skid area; on the fifth outsole, the dimensions of the major axis and the minor axis of the ellipse of the second anti-skid region are equal to the dimensions of the major axis and the minor axis of the ellipse of the third anti-skid region, and are smaller than the dimensions of the major axis and the minor axis of the ellipse of the fourth anti-skid region.

The first anti-skid area and the second anti-skid area of the fourth outsole, the through groove and the elliptic long axis of the fourth anti-skid area of the fifth outsole are basically positioned on the same straight line.

The cross section of the groove is semicircular, and the arc opening direction of the groove is arranged towards the direction of the second outer ring part; the grooves are arranged corresponding to the positions of the second anti-skid area, the through groove and the fourth anti-skid area of the fifth outsole.

In order to solve the technical problems, the utility model adopts another technical scheme that: an athletic shoe with a damping function comprises a shoelace and a vamp closely attached to the lower side of the shoelace; the shoe comprises a shoe upper, a shoe sole, a shoelace, a shoe tongue and a sport sole, wherein the shoe upper is reserved in the shoe upper, the shoelace penetrates through the shoe upper, and the upper is tightly attached to the lower side of the shoe upper.

The front side of the vamp is fixedly connected with a front sheet, a net surface is sewn and fixed in the front sheet, and the rear side of the vamp is fixedly connected with a heel; the surface of the heel is provided with a first protection part, and the first protection part extends to the left and right sides of the vamp by taking the central axis of the heel as the center to be fixedly connected with the position of the second outer ring part corresponding to the fifth outsole.

Wherein, the outer side and the inner side surfaces of the vamp are respectively provided with a first cladding sheet and a second cladding sheet; the first wrapping sheet is an elliptical strip-shaped film with hollowed-out inner part, is arranged along the outer side edge of the second outer ring part corresponding to the arch position and extends towards the front sheet, and part of the circular arc of the first wrapping sheet is arranged below the second outer ring part and covers the upper part of the vamp; the second coating piece is an elliptical strip-shaped film with hollowed-out inner part, extends to the front piece along the inner side edge of the second outer ring part corresponding to the arch position, and is arranged below the second outer ring part in a partial circular arc mode and covers the upper part of the vamp.

And a second protection part is further arranged on the surface of the front piece and surrounds the edge of the front piece along the toe area.

According to the sports shoe with the cushioning function and the sports sole, the first outsole, the second outsole, the third outsole, the fourth outsole and the fifth outsole which cover different areas are divided on the outsoles according to different forces born by foot actions of a player in a sports process, so that the player can play a role in multi-directional anti-skidding due to friction forces generated in all directions by the strip-shaped protrusions arranged in the pressure areas when the player lands and lifts the foot, the phenomenon of skidding cannot occur, the sports shoe is used for enabling the player to quickly react when the player performs various foot actions, and friction coefficients of the sole can be greatly enhanced through mutual matching of the strip-shaped protrusions and the round protrusions in different arrangement modes, and therefore the requirement of complex road conditions in sports is met. Further, the grooves are formed in the inner side and the outer side of the second outer ring part corresponding to the positions of the oval anti-slip area and the through groove formed from the toe to the heel, so that corresponding hollow second accommodating spaces are formed on the lower surface of the supporting part, a parallel supporting area is formed on the whole sole, and a cushioning and rebound area is formed on the front sole, the arch and the heel area, so that the stress trend of the sole of an athlete in the process of sports is met, the cushioning and rebound functions are achieved, and the cushioning and rebound functions of the reaction force generated by the ground when the athlete follows the ground in the process of sports are met, so that the feet of the athlete are protected.

Drawings

FIG. 1 is a schematic plan view of an athletic sole with cushioning in accordance with an embodiment of the present utility model;

FIG. 2 is a schematic view showing a lateral structure of an athletic sole with cushioning function according to an embodiment of the present utility model;

FIG. 3 is a schematic view showing a medial structure of an athletic sole with cushioning function according to an embodiment of the present utility model;

FIG. 4 is a schematic view showing a lateral structure of an athletic shoe with cushioning function according to an embodiment of the present utility model;

fig. 5 is a schematic view showing a medial structure of an athletic shoe with cushioning function according to an embodiment of the present utility model.

Detailed Description

The prior art nouns to which the present utility model relates are explained first as follows.

The MD sole is also called a PHYLON sole, commonly called a flying dragon, so that the burden of feet can be reduced, and the material is soft, good in elastic effect and good in shockproof effect, but when the MD sole encounters high temperature, the shoe is easy to shrink and can be wrinkled.

TPU (Thermoplastic polyurethanes) is a high molecular material formed by jointly reacting and polymerizing diisocyanate molecules such as diphenylmethane diisocyanate (MDI) or Toluene Diisocyanate (TDI) with macromolecular polyol and low molecular polyol (chain extender). TPU has excellent characteristics of high tension, toughness and aging resistance, and is a mature environment-friendly material. The plastic has the characteristics of high strength, good toughness, wear resistance, cold resistance, oil resistance, water resistance, aging resistance, weather resistance and the like which are incomparable with other plastic materials, and simultaneously has a plurality of excellent functions of high waterproof moisture permeability, wind resistance, cold resistance, antibacterial property, mildew resistance, warmth retention, ultraviolet resistance, energy release and the like.

In order to describe the technical content, the structural features, the achieved objects and the effects of the present utility model in detail, the present utility model will be described in detail with reference to the accompanying drawings and embodiments.

Please refer to fig. 1-3, which are schematic diagrams of a sports sole with a damping function according to an embodiment of the present utility model.

The sports shoe sole 100 comprises an outsole 1 and a midsole 2; wherein, the midsole 2 is connected to the upper surface of the outsole 1. In this embodiment, the outsole 1 is made of a 3D high-elastic material, and the midsole 2 is made of an ultra-light-weight soft material.

The outsole 1 includes:

the first outsole 11 is arranged on the ground contact surface of the outsole 1 and is arranged along a region formed from the center of the outer side edge of the front sole and the toe to the center of the inner side edge of the front sole;

a second outsole 12 disposed on the ground contact surface of the outsole 1, and disposed along the outer edge of the outsole 1 with the center of the outer edge of the front sole as a starting point and the outer side of the arch as an ending point near the outer side of the heel;

a third outsole 13, which is arranged on the ground contact surface of the outsole 1, and is arranged along the inner side edge of the outsole 1 with the center of the inner side edge of the front sole as a starting point and the inner side of the arch near the inner side of the heel as an ending point;

A fourth outsole 14 disposed on the ground surface of the outsole 1 and disposed in a region formed by the first outsole 11, the second outsole 12, and the third outsole 13, that is, disposed with a position of the front sole center near the toe as a starting point and a position of the front sole center near the arch as an ending point;

a fifth outsole 15 disposed on the ground contact surface of the outsole 1 and correspondingly covering the heel area;

the through groove 16 is formed on the ground surface of the outsole 1, is provided corresponding to the center region of the arch, and is provided in the region formed by the second anti-skid region 12, the third anti-skid region 13, the fourth anti-skid region 14, and the fifth anti-skid region 15.

The first outsole 11, the second outsole 12, the third outsole 13, the fourth outsole 14 and the fifth outsole 15 are integrally formed to form the outsole 1, and are connected to the lower surface of the midsole 2.

The first outsole 11 includes:

the first anti-slip region 111 is a circular arc-shaped band-shaped protrusion, and correspondingly covers the toe region;

the second anti-slip area 112 is a triangular bulge and correspondingly covers the central area of the outer side edge of the front sole; one triangle base of the second anti-skid area 112 is connected with the first anti-skid area 111, and the other base extends and distributes along the outer side edge of the front sole; wherein the second anti-skid region 112 includes a first anti-skid protrusion 1121 and a plurality of second anti-skid protrusions 1122; the first anti-slip protrusions 1121 are triangular annular band-shaped protrusions with hollow interiors, and the second anti-slip protrusions 1122 are band-shaped protrusions and are distributed in parallel with each other in a hollow area formed inside the first anti-slip protrusions 1121; the length direction of the second anti-slip protrusions 1122 is parallel to the extending direction from the inner side to the outer side of the front sole, and each of the second anti-slip protrusions 1122 has different lengths and the same width;

The third anti-slip area 113 is a triangular bulge and correspondingly covers the center area of the inner side edge of the front sole; one triangle base of the third anti-skid area 113 is connected with the first anti-skid area 111, and the other base extends and distributes along the outer side edge of the front sole; wherein the third anti-slip region 113 comprises a first anti-slip protrusion 1131 and a plurality of second anti-slip protrusions 1132; the first anti-slip protrusions 1131 are triangular annular strip-shaped protrusions with hollow interiors, and the second anti-slip protrusions 1132 are strip-shaped protrusions and are parallel to each other and distributed in parallel in a hollow area formed in the interiors of the first anti-slip protrusions 1131; the length direction of the second anti-slip protrusions 1132 is parallel to the extending direction from the medial side to the lateral side of the forefoot, and each of the second anti-slip protrusions 1132 has a different length and a same width.

The second outsole 12 includes:

a first anti-slip region 121 disposed on the ground contact surface of the outsole 1, and disposed along the outer edge of the outsole 1 with the center of the outer edge of the front sole as a starting point and the outer side of the arch as an ending point at a position near the outer side of the rear heel;

the second anti-slip region 122 is oval and is disposed on the first anti-slip region 121, and correspondingly covers the center of the outer edge of the front sole to a region formed by the outer side of the front sole and one end of the arch; wherein the second anti-skid region 122 includes a first anti-skid groove 1221 and a plurality of second anti-skid protrusions 1222; the first anti-slip groove 1221 is an elliptical hollow annular band-shaped groove, and the short axis direction and the extending direction from the inner side to the outer side of the forefoot are parallel to each other; the second anti-slip protrusions 1222 are strip-shaped protrusions and are arranged in parallel with each other in the hollow area formed inside the first anti-slip groove 1221; the length direction of the second anti-skid protrusions 1222 and the extending direction from the inner side to the outer side of the forefoot are parallel to each other, and each of the second anti-skid protrusions 1222 has different lengths and the same width;

The third anti-slip region 123 is an oval annular band-shaped groove with a hollow interior, and is disposed on the first anti-slip region 121 and covers a region formed from an outer side of the front sole and an end of the arch near the arch to an end of the arch near the heel.

The third outsole 13 includes:

a first anti-slip region 131, which is disposed on the ground contact surface of the outsole 1, and is disposed along the inner edge of the outsole 1 with the center of the inner edge of the front sole as a starting point and the inner side of the arch as an ending point near the inner position of the rear heel;

the second anti-slip region 132 is in an oval shape and is arranged on the first anti-slip region 131, and correspondingly covers the center of the edge of the inner side of the front sole to the region formed by the inner side of the front sole and one end, close to the arch; wherein the second anti-slip region 132 includes a first anti-slip groove 1321 and a plurality of second anti-slip protrusions 1322; the first anti-slip groove 1321 is an elliptical hollow annular band-shaped groove, and the short axis direction and the extending direction from the inner side to the inner side of the front sole are parallel to each other; the second anti-slip protrusions 1322 are strip-shaped protrusions and are arranged in parallel with each other in a hollow area formed inside the first anti-slip protrusions 1321; the length direction of the second anti-slip protrusions 1322 is parallel to the extending direction from the inner side to the inner side of the forefoot, and each of the second anti-slip protrusions 1322 has different lengths and the same width;

The third anti-slip region 133 is an oval annular band-shaped groove with a hollow interior, and is disposed on the first anti-slip region 131, and covers a region formed from an end of the inner side of the front sole, which is close to the arch, to an end of the rear heel, which is close to the arch.

The fourth outsole 14 includes:

the first anti-slip region 141 is oval and is disposed on the ground contact surface of the first outsole 11 and near the toe region; wherein the first anti-skid region 141 includes a first anti-skid protrusion 1411 and a plurality of second anti-skid protrusions 1412; the first anti-slip protrusion 1411 is an elliptical, hollow, annular band-shaped protrusion, and the short axis direction and the medial-lateral extension direction of the forefoot are parallel to each other; the second anti-slip protrusions 1412 are strip-shaped protrusions and are arranged in parallel with each other in a hollow area formed inside the first anti-slip protrusions 1411; the length direction of the second anti-slip protrusions 1412 and the extending direction from the inner side to the inner side of the forefoot are parallel to each other, and each of the second anti-slip protrusions 1412 has a different length and a same width;

the second anti-slip region 142 is in an oval shape and is arranged on the ground contact surface of the first outsole 11 and is close to the arch region; wherein the first anti-skid region 142 includes a first anti-skid protrusion 1421 and a plurality of second anti-skid protrusions 1422; the first cleat projection 1421 is an elliptical hollow annular belt-shaped projection, and the minor axis direction thereof and the extending direction from the inner side to the inner side of the forefoot are parallel to each other; the second anti-slip protrusions 1422 are strip-shaped protrusions and are parallel to each other and are arranged in parallel in a hollow area formed inside the first anti-slip protrusions 1421; the length direction of the second anti-slip bump 1422 is parallel to the extending direction from the inner side to the inner side of the forefoot, and each second anti-slip bump 1422 has a different length and a same width.

Further, the dimensions of the major axis and the minor axis of the ellipse of the first anti-skid region 141 are smaller than those of the major axis and the minor axis of the ellipse of the second anti-skid region 142.

The fifth outsole 15 includes:

the first anti-slip region 151 is a circular arc-shaped band-shaped protrusion, and correspondingly covers the lateral edge region of the heel;

the second anti-slip area 152 is oval and is disposed on the ground contact surface of the fifth outsole 15, and correspondingly covers the area from the center of the outer edge of the heel to the outer side of the heel and near one end of the arch; wherein the second anti-skid region 152 includes a first anti-skid protrusion 1521 and a plurality of second anti-skid protrusions 1522; the first anti-slip protrusion 1521 is an elliptical hollow annular band-shaped groove, and the short axis direction and the extending direction from the medial side to the lateral side of the heel are parallel to each other; the second anti-slip protrusions 1522 are strip-shaped protrusions and are arranged parallel to each other in parallel in the hollow area formed inside the first anti-slip protrusions 1521; the length direction of the second anti-slip protrusions 1522 and the extending direction from the medial side to the lateral side of the heel are parallel to each other, and each of the second anti-slip protrusions 1522 has a different length and a same width;

The third anti-slip area 153 is oval and is disposed on the ground contacting surface of the fifth outsole 15, and correspondingly covers the area from the center of the inner edge of the rear heel to the area formed by the inner side of the rear heel and one end of the arch; wherein the third anti-skid region 153 includes a first anti-skid protrusion 1531 and a plurality of second anti-skid protrusions 1532; the first anti-slip protrusion 1531 is an elliptical hollow annular band-shaped groove, and the short axis direction thereof and the medial-to-medial extension direction of the heel are parallel to each other; the second anti-skid protrusions 1532 are strip-shaped protrusions and are arranged in parallel with each other in a hollow area formed inside the first anti-skid protrusions 1531; the length direction of the second anti-slip protrusions 1532 and the medial-to-medial extension direction of the heel are parallel to each other, and each of the second anti-slip protrusions 1532 has a different length and a same width;

a fourth anti-slip region 154 having an oval shape and disposed on the ground contact surface of the fifth outsole 15, wherein the through-slot 16 and the heel are formed in a region; wherein the fourth cleat region 154 includes a first cleat 1541 and a plurality of second cleats 1542; the first cleat 1541 is an oval-shaped, hollow-inside annular band-shaped protrusion, and the short axis direction thereof and the extending direction from the inner side to the inner side of the forefoot are parallel to each other; the second anti-slip protrusions 1542 are strip-shaped protrusions and are arranged in parallel with each other in a hollow area formed inside the first anti-slip protrusions 1541; the length direction of the second anti-slip bump 1542 and the extending direction from the inner side to the inner side of the forefoot are parallel to each other, and each of the second anti-slip bumps 1542 has a different length and a same width.

Further, the dimensions of the major and minor axes of the ellipse of the second anti-skid region 152 are equal to the dimensions of the major and minor axes of the ellipse of the third anti-skid region 153 and are smaller than the dimensions of the major and minor axes of the ellipse of the fourth anti-skid region 154.

In the present embodiment, the first and second anti-skid areas 141 and 142 of the fourth outsole 14, the through grooves 16, and the oval long axes of the fourth anti-skid area 154 of the fifth outsole 15 are substantially aligned.

As described above, according to the difference of forces applied to the player's foot during the movement, the first outsole 11, the second outsole 12, the third outsole 13, the fourth outsole 14 and the fifth outsole 15 covering different areas are divided on the outsole 1, and each outsole is provided with the anti-slip texture formed by the staggered distribution of the protrusions and the grooves with different shapes, so that the anti-slip sole has a multi-directional anti-slip effect due to the friction force generated by the sole in all directions, and the player can generate relative friction force by the sole when the foot is landed and lifted, so that the phenomenon of slipping does not occur.

Referring to fig. 2 to 3, the midsole 2 includes:

a first outer ring portion 21 provided on an upper surface of the outsole 1 around an edge of the outsole 1;

The second outer ring portions 22 are distributed along the edge of the first outer ring portion 21 to be disposed above the first outer ring portion 21 and fixedly connected with the region of the first outer ring portion 21 corresponding to the toe edge;

a first accommodation space 23 formed between the first outer ring portion 21 and the second outer ring portion 22;

a support portion 24 accommodated in the first accommodation space 23.

Further, a plurality of grooves 210 are formed on a side of the first outer ring portion 21 away from the ground contacting surface of the outsole 1, and a plurality of hollow second accommodating spaces 240 are formed by the plurality of grooves 210 and a side of the supporting portion 24 close to the ground contacting surface of the outsole 1.

Specifically, the cross-sectional shape of the groove 210 is a semicircle, and the circular arc opening direction thereof is set toward the direction of the second outer ring portion 22. The grooves 210 are disposed corresponding to the positions of the second non-slip region 142 of the fourth outsole 14, the through grooves 16, and the fourth non-slip region 154 of the fifth outsole 15.

In this embodiment, the support 24 is made of TPU material.

As described above, the grooves 210 are formed on the inner and outer sides of the second outer ring portion 22 corresponding to the oval anti-slip area and the through groove formed from the toe to the heel, so as to form the corresponding hollow second accommodating space 240 with the lower surface of the supporting portion 24, thereby forming the parallel supporting area on the whole sole, and forming the cushioning and rebound areas on the front sole, the arch and the heel area, so as to satisfy the force trend of the sole landing of the athlete during the exercise, thereby playing the cushioning and rebound functions, and the cushioning and rebound functions of the reaction force generated by the ground when the athlete lands on the heel during the exercise, thereby protecting the foot of the athlete.

Further, a plurality of semicircular grooves are formed in the midsole 2, and the circular arc opening direction of the semicircular grooves faces the direction of the second outer ring part, so that when a corresponding supporting area is formed, downward pressure is generated to the ground when the feet of the athlete are landed in the movement process, and the plurality of supporting areas can conform to the downward pressure trend to disperse the generated pressure, so that the reaction force of the ground to the sole is relieved; when the athlete lifts the foot during the exercise, the plurality of supporting areas can generate upward restoring force when the deformation generated by the pressure returns to the original state, so that the upward restoring force can be supplemented and provided, and the rebound performance of the sole is enhanced. Therefore, the device can meet the requirement that the motion change of the feet of the athlete in the motion process plays a role in accurately buffering and rebounding, so that the feet of the athlete are protected, and the motion performance of the athlete is improved.

Fig. 4 to 5 are schematic structural views of an athletic shoe with shock absorbing function according to an embodiment of the present utility model.

The sports shoe 400 comprises a shoelace 41, wherein the lower side of the shoelace 41 is tightly attached with an vamp 42, an eyelet button 43 is reserved in the vamp 42, the shoelace 41 is connected with the inside of the eyelet button 43 in a penetrating way, and the lower side of the vamp 42 is tightly attached with the upper side of a tongue 44.

The front side of the vamp 42 is fixedly connected with a front sheet 421, and a net surface 422 is sewn and fixed in the front sheet 421; a heel 423 is fixedly coupled to a rear side of the upper 42.

The surface of the heel 423 is provided with a first protection part 424, and the first protection part 424 extends to the left and right sides of the vamp 42 with the central axis B-B of the heel 423 as the center. Specifically, the first protection portion 424 is centered on the central axis B-B of the heel 423, and the uppers 42 on the left and right sides extend to the position corresponding to the fifth outsole 15 of the second outer ring portion 22 for fixed connection.

In this embodiment, the first guard 424 is made of TPU material.

A first coating tab 425 is also disposed on a lateral surface of the upper 42 and a second coating tab 426 is also disposed on a medial surface of the upper 42

In this embodiment, the first cover sheet 425 and the second cover sheet 426 are made of TPU material and are disposed on the lateral and medial surfaces of the vamp 42 by a film-bonding and edge-pressing printing process.

Specifically, the shape of the first wrapping sheet 425 is approximately elliptical, and the first wrapping sheet 425 extends toward the front sheet 421 along the outer edge of the second outer ring 22 corresponding to the arch position, and a partial arc of the first wrapping sheet 425 is disposed below the second outer ring 22 and covers the upper of the vamp 42; the first wrapping sheet 425 is an oval tape-shaped film with hollowed-out interior. Similarly, the second wrapping sheet 426 has an approximately elliptical shape, and extends toward the front sheet 421 along the inner edge of the second outer ring 22 corresponding to the arch position, and a partial arc of the second wrapping sheet 426 is disposed below the second outer ring 22 and covers the upper portion of the vamp 42; the second coating piece 426 is an oval strip-shaped film with hollowed-out inner part.

Further, a second guard 427 is provided on the surface of the front plate 421, and is provided along the toe region around the edge of the front plate 421. In this embodiment, the second protection part 427 is made of TPU material, and is disposed on the upper surface of the front plate 421 by a film-sticking and edge-pressing printing process.

According to the utility model, according to different forces applied to the foot action of the athlete in the motion process, the first outsole, the second outsole, the third outsole, the fourth outsole and the fifth outsole which cover different areas are divided on the outsole, so that the athlete can play a role in multi-directional anti-skid by the friction force generated in all directions by the strip-shaped protrusions arranged in the pressure areas when the foot is landed and lifted, the phenomenon of skid can not occur, the sole is used for enabling the athlete to quickly react when the athlete performs various foot actions, and the friction coefficient of the sole can be greatly enhanced by the mutual matching of the strip-shaped protrusions and the circular protrusions in different arrangement modes, thereby meeting the requirement of complex road conditions in the motion process. Further, the grooves are formed in the inner side and the outer side of the second outer ring part corresponding to the positions of the oval anti-slip area and the through groove formed from the toe to the heel, so that corresponding hollow second accommodating spaces are formed on the lower surface of the supporting part, a parallel supporting area is formed on the whole sole, and a cushioning and rebound area is formed on the front sole, the arch and the heel area, so that the stress trend of the sole of an athlete in the process of sports is met, the cushioning and rebound functions are achieved, and the cushioning and rebound functions of the reaction force generated by the ground when the athlete follows the ground in the process of sports are met, so that the feet of the athlete are protected.

The foregoing description is only illustrative of the present utility model and is not intended to limit the scope of the utility model, and all equivalent structures or equivalent changes made by the description of the utility model and the accompanying drawings, or direct or indirect application in other relevant technical fields, are included in the scope of the utility model.

Claims (10)

1. The sports sole with the shock absorption function comprises an outsole and a midsole, wherein the outsole is connected to the lower surface of the midsole; the outsole is characterized by comprising:

the through groove is formed in the ground contact surface of the outsole and corresponds to the center area of the arch;

the first outsole is arranged on the ground contact surface of the outsole and is arranged along an area formed by the center of the outer side edge of the front sole and the center of the inner side edge of the front sole from the toe; comprising the steps of (a) a step of,

the first anti-slip area is a circular arc-shaped strip-shaped bulge and correspondingly covers the toe area;

the second anti-skid area is a triangular bulge and correspondingly covers the central area of the outer side edge of the front sole; one triangle bottom edge of the second anti-skid area is connected with the first anti-skid area, and the other triangle bottom edge is extended and distributed along the outer side edge of the front sole; and

The third anti-skid area is a triangular bulge and correspondingly covers the central area of the inner side edge of the front sole; one triangle bottom edge of the third anti-skid area is connected with the first anti-skid area, and the other triangle bottom edge is extended and distributed along the outer side edge of the front sole;

the second outsole is arranged on the ground contact surface of the outsole, and is arranged along the outer side edge of the outsole by taking the center of the outer side edge of the front sole as a starting point and taking the outer side of the arch of the foot as an end point, which is close to the outer side position of the heel; comprising the following steps:

the first anti-slip area is arranged on the ground contact surface of the outsole, and is arranged along the outer side edge of the outsole by taking the center of the outer side edge of the front sole as a starting point and taking the outer side of the arch of the foot as an end point, which is close to the outer side position of the heel;

the second anti-skid area is in an oval shape and is arranged on the first anti-skid area and correspondingly covers the center of the outer side edge of the front sole to the area formed by the outer side of the front sole and one end, close to the arch; and

the third anti-skid area is an elliptical annular band-shaped groove with a hollow interior and is arranged on the first anti-skid area and correspondingly covers the area formed from the outer side of the front sole and one end of the arch close to the rear heel to the end of the arch close to the rear heel;

The third outsole is arranged on the ground contact surface of the outsole, and is arranged along the inner side edge of the outsole by taking the center of the inner side edge of the front sole as a starting point and taking the inner side of the arch of the foot as an end point near the inner side position of the heel; comprising the following steps:

the first anti-slip area is arranged on the ground contact surface of the outsole, and is arranged along the inner side edge of the outsole by taking the center of the inner side edge of the front sole as a starting point and taking the inner side of the arch of the foot as an end point, which is close to the inner side position of the heel;

the second anti-skid area is in an oval shape and is arranged on the first anti-skid area and correspondingly covers the center of the edge of the inner side of the front sole to the area formed by the inner side of the front sole and one end, close to the arch; and

the third anti-skid area is an elliptical annular band-shaped groove with a hollow interior and is arranged on the first anti-skid area and correspondingly covers the area formed from the inner side of the front sole and one end of the arch close to the rear heel to the end of the arch close to the rear heel;

a fourth outsole disposed on a ground contact surface of the outsole, disposed in an area formed by the first outsole, the second outsole, and the third outsole; comprising the following steps:

the first anti-skid area is oval and is arranged on the ground contact surface of the first outsole and is close to the toe area; and

The second anti-skid area is oval and is arranged on the ground contact surface of the first outsole and is close to the arch area;

the fifth outsole is arranged on the ground contact surface of the outsole and correspondingly covers the heel area; comprising the following steps:

the first anti-slip area is a circular arc-shaped strip-shaped bulge and correspondingly covers the outer edge area of the heel;

the second anti-skid area is oval and is arranged on the ground contact surface of the fifth outsole and correspondingly covers the area formed from the center of the outer side edge of the heel to the outer side of the heel and one end, close to the arch;

the third anti-skid area is oval and is arranged on the ground contact surface of the fifth outsole and correspondingly covers the center of the edge of the inner side of the heel to the area formed by the inner side of the heel and one end, close to the arch; and

the fourth anti-skid area is oval and is arranged on the ground contact surface of the fifth outsole, and the through groove and the heel part form an area;

the midsole comprises:

the first outer ring part is arranged on the upper surface of the outsole around the edge of the outsole;

the second outer ring parts are distributed along the edge of the first outer ring part to be arranged above the first outer ring part and fixedly connected with the area of the first outer ring part corresponding to the toe edge;

A first accommodation space formed between the first outer ring portion and the second outer ring portion; and

a support portion accommodated in the first accommodation space;

the side, far away from the outsole ground, of the first outer ring part is provided with a plurality of grooves, and a plurality of hollow second accommodating spaces are formed by the plurality of grooves and the side, close to the outsole ground, of the supporting part correspondingly.

2. The athletic sole with cushioning function of claim 1, wherein the through groove is disposed in an area formed by the second, third, fourth, and fifth cleat areas.

3. The athletic sole with cushioning of claim 1, wherein the second non-slip area on the first outsole comprises:

the first anti-slip bulge is a triangular annular strip bulge with a hollow inside;

the second anti-skid bulges are strip-shaped bulges and are parallel to each other and are distributed in a hollow area formed in the first anti-skid bulges side by side; the length direction of the second anti-slip protrusions is parallel to the extending direction from the inner side to the outer side of the front sole, and the length and the width of each second anti-slip protrusion are different;

On the first outsole, the third cleat area includes:

the first anti-slip bulge is a triangular annular strip bulge with a hollow inside;

the second anti-skid bulges are strip-shaped bulges and are parallel to each other and are distributed in a hollow area formed in the first anti-skid bulges side by side; the length direction of the second anti-slip protrusions is parallel to the extending direction from the inner side to the outer side of the front sole, and the length and the width of each second anti-slip protrusion are different;

on the second outsole, the second cleat area includes:

the first anti-slip groove is an elliptical hollow annular strip-shaped groove, and the short axis direction of the first anti-slip groove and the extending direction from the inner side to the outer side of the front sole are parallel to each other;

the second anti-slip bulges are strip-shaped bulges and are parallel to each other and are distributed in a hollow area formed in the first anti-slip groove side by side; the length direction of the second anti-slip protrusions is parallel to the extending direction from the inner side to the outer side of the front sole, and the length and the width of each second anti-slip protrusion are different;

on the third outsole, the second cleat area includes:

The first anti-slip groove is an elliptical hollow annular strip-shaped groove, and the short axis direction of the first anti-slip groove and the extending direction from the inner side to the inner side of the front sole are parallel to each other;

the second anti-skid bulges are strip-shaped bulges and are parallel to each other and are distributed in a hollow area formed in the first anti-skid bulges side by side; the length direction of the second anti-slip protrusions is parallel to the extending direction from the inner side to the inner side of the front sole, and the length and the width of each second anti-slip protrusion are different;

on the fourth outsole, the first cleat area includes:

the first anti-slip bulge is an elliptical and hollow annular strip bulge, and the short axis direction of the first anti-slip bulge is parallel to the extending direction from the inner side to the inner side of the front sole;

the second anti-skid bulges are strip-shaped bulges and are parallel to each other and are distributed in a hollow area formed in the first anti-skid bulges side by side; the length direction of the second anti-slip protrusions is parallel to the extending direction from the inner side to the inner side of the front sole, and the length and the width of each second anti-slip protrusion are different;

on the fourth outsole, the second cleat area includes:

The first anti-slip bulge is an elliptical and hollow annular strip bulge, and the short axis direction of the first anti-slip bulge is parallel to the extending direction from the inner side to the inner side of the front sole;

the second anti-skid bulges are strip-shaped bulges and are parallel to each other and are distributed in a hollow area formed in the first anti-skid bulges side by side; the length direction of the second anti-slip protrusions is parallel to the extending direction from the inner side to the inner side of the front sole, and the length and the width of each second anti-slip protrusion are different;

on the fifth outsole, the second cleat area includes:

the first anti-slip bulge is an elliptical hollow annular band-shaped groove, and the short axis direction of the first anti-slip bulge is parallel to the extending direction from the inner side to the outer side of the heel;

the second anti-skid bulges are strip-shaped bulges and are parallel to each other and are distributed in a hollow area formed in the first anti-skid bulges side by side; the length direction of the second anti-slip protrusions is parallel to the extending direction from the inner side to the inner side of the front sole, and the length and the width of each second anti-slip protrusion are different;

on the fifth outsole, the third cleat area includes:

The first anti-slip bulge is an elliptical hollow annular strip-shaped groove, and the short axis direction of the first anti-slip bulge is parallel to the extending direction from the inner side to the inner side of the heel;

the second anti-skid bulges are strip-shaped bulges and are parallel to each other and are distributed in a hollow area formed in the first anti-skid bulges side by side; wherein the length direction of the second anti-slip protrusions and the extending direction from the inner side to the inner side of the heel are parallel to each other, and the length and the width of each second anti-slip protrusion are different;

on the fifth outsole, the fourth cleat area includes:

the first anti-slip bulge is an elliptical and hollow annular strip bulge, and the short axis direction of the first anti-slip bulge is parallel to the extending direction from the inner side to the inner side of the front sole;

the second anti-skid bulges are strip-shaped bulges and are parallel to each other and are distributed in a hollow area formed in the first anti-skid bulges side by side; the length direction of the second anti-slip protrusions is parallel to the extending direction from the inner side to the inner side of the front sole, and the length and the width of each second anti-slip protrusion are different.

4. The sports shoe sole with shock absorbing function according to claim 3, wherein,

On the fourth outsole, the sizes of the major axis and the minor axis of the ellipse of the first anti-skid area are smaller than those of the major axis and the minor axis of the ellipse of the second anti-skid area;

on the fifth outsole, the dimensions of the major axis and the minor axis of the ellipse of the second anti-skid region are equal to the dimensions of the major axis and the minor axis of the ellipse of the third anti-skid region, and are smaller than the dimensions of the major axis and the minor axis of the ellipse of the fourth anti-skid region.

5. The athletic sole with cushioning of claim 3, wherein the first and second cleat areas of the fourth outsole, the through slot, and the elliptical major axis of the fourth cleat area of the fifth outsole are substantially co-linear.

6. The sports shoe sole with cushioning function according to claim 3, wherein the cross-sectional shape of the groove is a semicircle, and the circular arc opening direction thereof is set toward the direction of the second outer ring portion; the grooves are arranged corresponding to the positions of the second anti-skid area, the through groove and the fourth anti-skid area of the fifth outsole.

7. An athletic shoe with a damping function comprises a shoelace and a vamp closely attached to the lower side of the shoelace; an eyelet button is reserved in the vamp, a shoelace is connected in the eyelet button in a penetrating way, and the lower side of the vamp is tightly attached to the upper side of the tongue, and the sports shoe sole is characterized by further comprising the sports shoe sole according to any one of claims 1-6.

8. The sports shoe with the shock absorbing function according to claim 7, wherein a front piece is fixedly connected to the front side of the vamp, a net surface is sewn and fixed in the front piece, and a heel is fixedly connected to the rear side of the vamp;

the surface of the heel is provided with a first protection part, and the first protection part extends to the left and right sides of the vamp by taking the central axis of the heel as the center to be fixedly connected with the position of the second outer ring part corresponding to the fifth outsole.

9. The sports shoe with the shock absorbing function according to claim 8, wherein the lateral side surface and the medial side surface of the vamp are respectively provided with a first cladding sheet and a second cladding sheet;

the first wrapping sheet is an elliptical strip-shaped film with hollowed-out inner part, is arranged along the outer side edge of the second outer ring part corresponding to the arch position and extends towards the front sheet, and part of the circular arc of the first wrapping sheet is arranged below the second outer ring part and covers the upper part of the vamp;

the second coating piece is an elliptical strip-shaped film with hollowed-out inner part, extends to the front piece along the inner side edge of the second outer ring part corresponding to the arch position, and is arranged below the second outer ring part in a partial circular arc mode and covers the upper part of the vamp.

10. The shock absorbing sports shoe of claim 8, wherein a second guard is further provided on the surface of the front panel, around the edge of the front panel along the toe region.

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