CN220109257U - Sports shoe sole with stable supporting function and sports shoe - Google Patents

Abstract

The utility model discloses a sports shoe with a stable supporting function and a sports sole, wherein the sports sole comprises an outsole, a midsole and a first supporting part, the outsole comprises a first outsole, a second outsole and a third outsole which correspondingly cover the outsides of a front sole, a rear heel and an arch, the first supporting part is approximately V-shaped, and the center of the rear heel is correspondingly covered by the first supporting part; the first supporting part comprises a first supporting part and a second supporting part; a first supporting member correspondingly covering the outer side of the arch to the center area of the inner side of the arch; and a second supporting member corresponding to a region formed in the medial arch to the center of the heel. By the utility model, the first supporting parts which are approximately V-shaped are arranged on the outer side and the inner side of the arch, so that a stable supporting mechanism can be formed, and good stable supporting performance is provided.

Description

Sports shoe sole with stable supporting function and sports shoe

Technical Field

The utility model relates to the technical field of shoes, in particular to an athletic sole with a stable supporting function and an athletic 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 stable supporting function and the sports shoes, which can play a role in stable supporting when the feet apply acting force to 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 stable supporting function comprises an outsole, a midsole and a first supporting part, wherein the outsole is connected to the lower surface of the midsole; the outsole includes: the first outsole is arranged on the ground contact surface of the outsole and correspondingly covers the front sole area; the second outsole is arranged on the ground contact surface of the outsole and corresponds to the area of the heel which is not covered by the first supporting part; the third outsole is arranged on the ground contact surface of the outsole and corresponds to an area, which is covered on the outer side of the arch and is not covered by the first supporting part, of the foot arch; the first supporting part is a supporting area similar to a V shape, is arranged on the ground contact surface of the outsole and corresponds to an area from the arch to the center of the heel; the first support portion includes: a first supporting member correspondingly covering the outer side of the arch to the center area of the inner side of the arch; and a second supporting member corresponding to a region formed in the medial arch to the center of the heel; the ground contact surface of the second supporting component is also provided with a groove, and the inner surface of the groove is smooth.

Wherein, the first outsole includes: the first anti-skid area is arranged on the ground contact surface of the first outsole and correspondingly covers the toe area; the first anti-skid area is a triangular area, the triangular bottom edges of the triangular area are distributed along the edges of the toes, and triangular vertexes opposite to the triangular bottom edges are arranged at positions of the front sole close to the toes; a plurality of first anti-skidding bulges similar to square columns are distributed on the surface matrix of the first anti-skidding area; the second anti-slip area is arranged on the ground contact surface of the first outsole and correspondingly covers an area formed from the outer side of the toe to the outer side of the front sole; the second anti-skid area is a triangular area, the triangular bottom edge of the second anti-skid area is distributed along the outer side edge of the front sole, and the triangular vertex opposite to the triangular bottom edge is arranged at the position of the center of the front sole; a plurality of second anti-skidding bulges similar to square columns are distributed on the surface matrix of the second anti-skidding area; the third anti-slip area is arranged on the ground contact surface of the first outsole and correspondingly covers an area formed from the inner side of the toe to the inner side of the front sole; the third anti-skid area is an elliptical area, and circular arcs corresponding to the major axis of the ellipse are distributed along the inner side edge of the front sole; a plurality of third anti-skidding bulges similar to square columns are distributed on the surface matrix of the third anti-skidding area; the fourth anti-skid area is arranged on the ground contact surface of the first outsole and corresponds to an area which covers the front sole and is not covered by the first anti-skid area, the second anti-skid area and the third anti-skid area; the second outsole includes: the first anti-slip area is arranged on the ground contact surface of the second outsole and correspondingly covers the outer side edge area of the heel; the first anti-skid area is a triangular area, the triangular bottom edges of the first anti-skid area are distributed along the outer side edge of the heel part of the heel, and the triangular top points opposite to the triangular bottom edges are arranged at the position, close to the heel part, of the heel; a plurality of first anti-skidding bulges similar to square columns are distributed on the surface matrix of the first anti-skidding area; the second anti-slip area is arranged on the ground contact surface of the second outsole and correspondingly covers the inner side edge area of the heel; the second anti-skid area is a triangular area, the triangular bottom edges of the second anti-skid area are distributed along the inner side edge of the heel part of the heel, and the triangular top points opposite to the triangular bottom edges are arranged at the position, close to the heel part, of the heel; a plurality of second anti-skidding bulges similar to square columns are distributed on the surface matrix of the second anti-skidding area; the third anti-slip area is arranged on the ground contact surface of the second outsole and correspondingly covers the inner side edge area of the heel; the third anti-skid area is a triangular area, the triangular bottom edges of the third anti-skid area are distributed along the inner side edges of the rear heels, and the triangular vertexes opposite to the triangular bottom edges are arranged at the positions of the rear heels, which are close to the arch of the foot; a plurality of third anti-skidding bulges similar to square columns are distributed on the surface matrix of the third anti-skidding area; the fourth anti-skid area is arranged on the ground contact surface of the second outsole and corresponds to an area of the heel which is not covered by the first anti-skid area, the second anti-skid area and the third anti-skid area; the surface matrix of the third outsole is provided with a plurality of anti-skidding bulges of elliptical columns; the first supporting part of the first supporting part is arranged in a region between the second anti-skid unit of the first outsole and the second anti-skid unit of the second outsole; the second supporting part of the first supporting part is arranged in a region between the third outsole and a fourth anti-skid region of the second outsole.

Wherein the fourth anti-skid region of the first outsole approximates a "V" shaped region comprising: the first anti-skid unit is arranged at the outer side edge of the front sole, and the area between the second anti-skid area and the second outsole; the surface of the first anti-skid unit is provided with a plurality of fourth anti-skid bulges side by side, each fourth anti-skid bulge is a wave-shaped bulge formed by connecting a plurality of circular arcs end to end, and the wave length direction of the wave-shaped bulge is parallel to the extending direction from the outer side to the inner side of the front foot badge; the second anti-skid unit is arranged on the ground contacted with the front sole, and the area between the second anti-skid area and the third anti-skid area; one ends of the first anti-skid unit and the second anti-skid unit are connected with each other, are arranged at the inner edge of the front sole and are positioned in the area between the third anti-skid area and the first supporting part; a plurality of fifth anti-skid protrusions of the elliptical cylinders are distributed on the surface matrix of the second anti-skid unit; the fourth cleat area of the second outsole, comprising: the first anti-skid unit is a V-shaped area, one free end of the V-shaped area is arranged at the outer edge of the heel and is positioned in the area between the first anti-skid area and the second outsole, the vertex of the V-shaped area is arranged at the center of the edge of the heel and is positioned between the first anti-skid area and the second anti-skid area, and the other free end of the V-shaped area is arranged on the ground contacted with the heel and is positioned between the first supporting part and the second anti-skid area; the surface of the first anti-skid unit is provided with a plurality of fourth anti-skid bulges side by side, each fourth anti-skid bulge is a wave-shaped bulge formed by connecting a plurality of circular arcs end to end, and the wave length direction of the wave-shaped bulge is parallel to the extending direction from the outer side to the inner side of the front foot badge; the second anti-skid unit is a V-shaped area, one free end of the V-shaped area is arranged at the inner side edge of the heel and is positioned in the area between the first supporting part and the third anti-skid area, the vertex of the V-shaped area is arranged at the center position of the connection between the heel and the arch, and the other free end of the V-shaped area is arranged at the inner side edge of the heel and is positioned between the second anti-skid area and the third anti-skid area; the surface of the second anti-skid unit is provided with a plurality of fifth anti-skid protrusions in parallel, and the fifth anti-skid protrusions are wavy protrusions formed by connecting a plurality of circular arcs end to end.

Wherein, the midsole includes: the first outer ring part is arranged on the upper surface of the outsole around the edge of the outsole; a second support part surrounding the outer side edge of the heel corresponding to the first outer ring part and covering the surface of the first outer ring part; wherein, the surface matrix of the second supporting part is distributed with a plurality of circular grooves; the third supporting part corresponds to the center from the outer side of the arch to the outer side edge of the heel and covers the surface of the first outer ring part; and the fourth supporting part corresponds to the center of the edge from the inner side of the arch to the inner side of the heel and covers the surface of the first outer ring part.

Wherein, the third supporting part includes: the first part is a circular arc strip-shaped part and is arranged along the edge of the third supporting part, which is close to the outer side of the arch, and the circular arc opening direction of the first part faces to the direction, which is far away from the arch; the second component is an approximate triangle component and is arranged in the arc of the first component to form a third supporting part which is approximate to a semicircle together with the first component; the fourth supporting part includes: the third component is a circular arc strip-shaped component and is arranged along the edge of the side, close to the inner side of the arch, of the fourth supporting part, and the circular arc opening direction of the third component faces to the direction away from the side of the arch; the fourth component is an approximate triangle component and is arranged in the arc of the third component to form a fourth supporting part approximate to a semicircle together with the third component.

In order to solve the technical problems, the utility model adopts another technical scheme that: an athletic shoe with a stable supporting 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 sports shoe sole comprises an outsole, a midsole and a first supporting part, wherein the outsole is connected to the lower surface of the midsole; the midsole comprises: the first outer ring part is arranged on the upper surface of the outsole around the edge of the outsole; a second support part surrounding the outer side edge of the heel corresponding to the first outer ring part and covering the surface of the first outer ring part; wherein, the surface matrix of the second supporting part is distributed with a plurality of circular grooves; the third supporting part corresponds to the center from the outer side of the arch to the outer side edge of the heel and covers the surface of the first outer ring part; a fourth supporting part corresponding to the center of the edge from the inner side of the arch to the inner side of the heel and covering the surface of the first outer ring part; the front side of the vamp is fixedly connected with a front sheet, a net surface is sewn and fixed in the front sheet, the rear side of the vamp is fixedly connected with a heel, and the heel is fixedly connected with the first outer ring part; the surface of the heel is provided with a protection part, the protection part takes the central axis of the heel as the center, one end of the protection part extends to the outside vamp to be fixedly connected with the second supporting part, and the other end extends to the inside vamp to be fixedly connected with the third supporting part; the central position of the heel is also provided with a lifting belt which is arranged along the central axis of the heel and is vertically sewn on the heel; one end of the lifting belt is fixed on the protection part and extends upwards to the edge along the central axis of the heel.

The outer side surface of the vamp is further provided with a first coating sheet which is an elliptical strip-shaped film hollowed out in the interior, the first coating sheet extends to the front sheet along the outer side edge of the first outer ring part corresponding to the arch position, and part of circular arcs of the first coating sheet are arranged below the first outer ring part and the first supporting part and cover the upper part of the vamp.

Wherein, still include: the first film is arranged in a region formed among the eyelet button, the front piece, the first cladding piece and the protection part; the first adhesive film is formed by a plurality of strip-shaped adhesive films which are distributed in a staggered manner to form a plurality of irregular polygonal hollowed-out areas outside the vamp, so that the part of the outside of the vamp corresponding to the hollowed-out areas is exposed; the second film is arranged in a region formed among the eyelet button, the front piece, the third supporting part and the protection part; the second adhesive films are formed by a plurality of strip-shaped adhesive films in a staggered mode so as to form a plurality of irregular polygonal hollowed-out areas on the inner side of the vamp, and the part, corresponding to the hollowed-out areas, of the inner side of the vamp is exposed.

Wherein, still include: the toe protection part is arranged along the toe area around the edge of the front piece, and is positioned at one end of the outer side of the front piece and fixedly connected with the first film, and is positioned at one end of the inner side of the front piece and fixedly connected with the second film.

According to the sports shoe with the stable supporting function and the sports sole provided by the embodiment of the utility model, the first outsole, the second outsole and the third outsole with the anti-skid textures are arranged on the ground contact surface of the outsole, so that when a player rotates in any direction when the front sole and the heel are in a ground contact state, the sole can provide enough friction force to ensure that the player can keep enough ground grabbing performance and anti-skid performance when realizing flexible movement. The first supporting part is arranged at the arch part, so that the stability of the sole can be kept when a player does various foot actions, and the phenomenon of twisting feet due to excessive bending can be avoided. The first outsole, the second outsole and the third outsole are provided with grooves, on one hand, the anti-skid areas provided with different anti-skid protrusions can be separated, and effective anti-skid parts are arranged according to different requirements of different sole areas on friction force; on the other hand, the stability of the sole front sole can be enhanced, so that when an athlete does the action of bending the sole, the phenomenon that the sole is excessively bent to twist the foot can be avoided, and the comfort and the experience of the sport are affected.

Drawings

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

FIG. 2 is a schematic view of a lateral structure of an athletic sole with a stabilized support function in accordance with an embodiment of the present utility model;

FIG. 3 is a schematic view showing a medial structure of an athletic sole with a stable supporting function in accordance with an embodiment of the present utility model;

FIG. 4 is a schematic view showing a lateral structure of an athletic shoe with a stable supporting 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 a stable supporting 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.

Referring to fig. 1 to 3, an athletic shoe sole 100 with a stable supporting function includes: outsole 1, midsole 2 and first support 3; wherein, the midsole 2 is connected with the upper surface of the outsole 1.

The first supporting part 3 is arranged on the ground contact surface of the outsole 1, and corresponds to the area from the arch to the center of the heel, and the hardness of the material for manufacturing the first supporting part 3 is higher than that of the material for manufacturing the outsole 1 and the midsole 2. In this embodiment, the first support 3 is made of TPU material. The outsole 1 is made of wear-resistant rubber, the midsole 2 is made of ultra-light materials, the characteristics of portability and comfort of the sports shoes are guaranteed, and particularly, the midsole 2 is made of MD materials.

The outsole 1 comprises:

the first outsole 11 is arranged on the ground contact surface of the outsole 1 and correspondingly covers the front sole area;

a second outsole 12 disposed on the ground contact surface of the outsole 1 and corresponding to a region where the heel is not covered by the first support 3;

a third outsole 13 disposed on the ground contact surface of the outsole 1 and corresponding to a region of the outer side of the arch that is not covered by the first supporting portion 3;

The first support 3 separates the first outsole 11 and the second outsole 12 from each other; the third outsole 13 is arranged between the first outsole 11 and the second outsole 12.

The first outsole 11 includes:

a first anti-slip region 111 disposed on the ground contact surface of the first outsole 11 and corresponding to the toe region; wherein, the first anti-slip region 111 is a triangular region, the triangular base of which is distributed along the edge of the toe, and the triangular vertex opposite to the triangular base is arranged at the position of the front sole near the toe; a plurality of first anti-skid protrusions 1110 are distributed on the surface of the first anti-skid region 111 in a matrix manner to form anti-skid textures on the surface of the first anti-skid region 111; the first anti-slip protrusion 1110 is an approximately square column;

the second anti-slip area 112 is disposed on the ground contact surface of the first outsole 11, and corresponds to an area formed from the outer side of the toe to the outer side of the forefoot; wherein, the second anti-slip region 112 is a triangular region, the triangular bottom edge of which is distributed along the outer side edge of the front sole, and the triangular vertex opposite to the triangular bottom edge is arranged at the position of the center of the front sole; a plurality of second anti-skid protrusions 1120 are distributed on the surface matrix of the second anti-skid region 112 to form anti-skid textures on the surface of the second anti-skid region 112; the second anti-slip boss 1120 is an approximately square column;

A third anti-slip region 113 disposed on the ground contact surface of the first outsole 11 and corresponding to a region formed from the inner side of the toe to the inner side of the forefoot; wherein, the third anti-slip region 113 is an elliptical region, and the circular arcs corresponding to the major axis of the ellipse are distributed along the inner edge of the front sole; a plurality of third anti-skid protrusions 1130 are distributed on the surface matrix of the third anti-skid region 113 to form an anti-skid texture on the surface of the third anti-skid region 113; the third anti-slip protrusion 1130 is an approximately square cylinder;

the fourth anti-skid area 114 is disposed on the ground contact surface of the first outsole 11, and corresponds to an area of the front sole that is not covered by the first anti-skid area 11, the second anti-skid area 12, and the third anti-skid area 13.

The fourth anti-skid region 114 is an approximately "V" -shaped region, comprising:

a first anti-slip unit 1141 disposed at the outer edge of the forefoot, in a region between the second anti-slip region 12 and the second outsole 12; the surface of the first anti-slip unit 1141 is provided with a plurality of fourth anti-slip protrusions 1141a side by side to form anti-slip textures on the surface of the first anti-slip unit 1141, the fourth anti-slip protrusions 1141a are wave-shaped protrusions formed by connecting a plurality of circular arcs end to end, and the wave length direction of the wave-shaped protrusions is parallel to the extending direction from the outer side to the inner side of the front foot badge;

A second anti-slip unit 1142 disposed on the sole of the foot, in a region between the second anti-slip region 12 and the third anti-slip region 13; one ends of the first anti-slip unit 1141 and the second anti-slip unit 1142 are connected to each other and disposed at the medial edge of the forefoot, the area between the third anti-slip area 113 and the first support part 3; wherein, a plurality of fifth anti-skid protrusions 1142a are distributed on the surface of the second anti-skid unit 1142 in matrix to form anti-skid textures on the surface of the second anti-skid unit 1142, and the fifth anti-skid protrusions 1142a are elliptical cylinders;

the second outsole 12 includes:

a first anti-slip region 121 disposed on the ground contact surface of the second outsole 12 and correspondingly covering the heel lateral edge region; wherein the first anti-slip region 121 is a triangular region, and a triangular bottom edge thereof is distributed along an outer edge of the heel, and a triangular vertex opposite to the triangular bottom edge is disposed at a position of the heel near the heel; a plurality of first anti-skid protrusions 1210 are distributed on the surface of the first anti-skid region 121 in a matrix manner to form anti-skid textures on the surface of the first anti-skid region 121; the first anti-slip protrusion 1210 is an approximately square column;

A second anti-slip region 122 disposed on the ground contact surface of the second outsole 12 and correspondingly covering the medial edge region of the heel; wherein the second anti-slip region 122 is a triangular region, and the triangular bottom edge thereof is distributed along the inner side edge of the heel, and the triangular vertex opposite to the triangular bottom edge is disposed at the position of the heel near the heel; a plurality of second anti-slip protrusions 1220 are distributed on the surface of the second anti-slip region 122 in a matrix manner to form anti-slip textures on the surface of the second anti-slip region 122; the second stud 1220 is approximately square;

a third anti-slip region 123 disposed on the ground contact surface of the second outsole 12 and correspondingly covering the medial edge region of the rear heel; wherein, the third anti-slip area 123 is a triangular area, the triangular bottom edge of which is distributed along the inner side edge of the heel, and the vertex of the triangle opposite to the bottom edge of the triangle is arranged at the position of the heel near the arch; a plurality of third anti-skid protrusions 1230 are distributed on the surface of the third anti-skid region 123 in a matrix manner to form anti-skid textures on the surface of the third anti-skid region 123; the third protrusion 1230 is an approximately square column;

A fourth anti-skid region 124 disposed on the ground contact surface of the second outsole 12 and corresponding to a region of the heel that is not covered by the first anti-skid region 121, the second anti-skid region 122, and the third anti-skid region 123; lateral edge to heel center area.

The fourth anti-slip region 124 includes:

the first anti-slip unit 1241 is a V-shaped area, one free end of the V-shape is disposed at the outer edge of the heel, the vertex of the V-shape is disposed at the center of the heel edge between the first anti-slip area 121 and the second outsole 12, the other free end of the V-shape is disposed between the first anti-slip area 121 and the second anti-slip area 122, and the other free end of the V-shape is disposed between the first support 3 and the second anti-slip area 122; the surface of the first anti-skid unit 1241 is provided with a plurality of fourth anti-skid protrusions 1241a in parallel to form anti-skid textures on the surface of the first anti-skid unit 1241, the fourth anti-skid protrusions 1241a are wave-shaped protrusions formed by connecting a plurality of circular arcs end to end, and the wave length direction of the wave-shaped protrusions is parallel to the extending direction from the outer side to the inner side of the front seal;

the second anti-slip unit 1242 is a V-shaped area, one free end of the V-shape is disposed at the medial edge of the heel, the vertex of the V-shape is disposed at the center of the connection between the heel and the arch, the other free end of the V-shape is disposed at the medial edge of the heel, and the second anti-slip area 122 and the third anti-slip area 123 are disposed between; the surface of the second anti-skid unit 1242 is provided with a plurality of fifth anti-skid protrusions 1242a in parallel to form anti-skid textures on the surface of the second anti-skid unit 1242, the fifth anti-skid protrusions 1242a are wavy protrusions formed by connecting a plurality of circular arcs end to end, and the length direction of the waves is parallel to the extending direction from the outer side to the inner side of the front seal;

The surface matrix of the third outsole 13 is provided with a plurality of anti-skid protrusions 130 to form anti-skid textures on the surface of the third outsole 13, and the anti-skid protrusions 130 are elliptical cylinders;

the first supporting portion 3 is a supporting area having an approximate V shape, and includes:

a first supporting member 31 disposed in a center region from an outer side of the arch to an inner side of the arch, a region between the second anti-slip unit 1142 of the first outsole 11 and the second anti-slip unit 1242 of the second outsole 12;

a second support member 32 disposed in a region formed from the medial arch to the center of the heel, the region between the third outsole 13 and the fourth non-slip region 124 of the second outsole 12; the ground contact surface of the second support member 32 is further provided with a groove 320, and the inner surface of the groove 320 is smooth for printing patterns and marks.

In this embodiment, the square protrusions, the wave-shaped protrusions, the oval protrusions distributed on the first outsole 11, the square protrusions, the wave-shaped protrusions distributed on the second outsole 12, and the oval protrusions distributed on the third outsole 13 are located on the same horizontal plane.

Further, the first outsole 11, the second outsole 12, the third outsole 13 and the first supporting part 3 are isolated from each other by providing corresponding grooves to form isolation belts; similarly, the first anti-slip region 111, the second anti-slip region 112, the third anti-slip region 113 and the fourth anti-slip region 114 distributed on the first outsole 11 are isolated from each other by providing corresponding grooves to form isolation belts; the first anti-slip region 121, the second anti-slip region 122, the third anti-slip region 123 and the fourth anti-slip region 124 distributed on the second outsole 12 are isolated from each other by providing corresponding grooves to form isolation belts.

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;

a second supporting portion 22 surrounding the outer edge of the first outer ring portion 21 corresponding to the heel, and covering the surface of the first outer ring portion 22; wherein, the surface of the second supporting portion 22 is provided with a plurality of circular grooves 220 in a matrix;

a third supporting portion 23 covering the surface of the first outer ring portion 21 corresponding to the center of the outer side edge of the arch to the outer side edge of the heel;

and a fourth supporting part 24 corresponding to the center of the medial edge of the arch to the medial edge of the heel and covering the surface of the first outer ring part 21.

Wherein the third supporting part 23 includes:

the first member 231 is a circular arc strip member, and is disposed along the edge of the third support 23 on the side of the outer side of the arch, and the circular arc opening direction of the first member is directed in the direction of the outer side of the arch; wherein the first part 231 is made of TPU material;

the second member 232 is an approximately triangular member, and is disposed inside the arc of the first member 231 to form an approximately semicircular third supporting portion 23 together with the first member 231; wherein the second part 232 is made of a 3D high-elastic material;

Wherein the fourth supporting portion 24 includes:

the third member 241 is a circular arc strip member, and is provided along the edge of the fourth support portion 24 on the side closer to the inner side of the arch, and the circular arc opening direction is directed in the direction away from the side of the arch; wherein the third part 241 is made of TPU material;

a fourth member 242, which is an approximately triangular member, disposed inside the circular arc of the third member 241 to form an approximately semicircular fourth supporting portion 24 together with the third member 241; wherein the fourth part 242 is made of a 3D high-elastic material.

As described above, the presence of the first outsole 11, the second outsole 12, and the third outsole 13, which are provided with anti-slip textures on the surfaces, enables the sole to provide sufficient friction when the athlete rotates in any direction in a ball-and-heel strike state, so as to ensure that the athlete can maintain sufficient traction and anti-slip performance while achieving a flexible movement. The first supporting part 3 is arranged at the arch part, so that the stability of the sole can be kept when a player performs various foot actions, and the phenomenon of twisting feet due to excessive bending can be avoided. The first outsole 11, the second outsole 12 and the third outsole 13 are provided with grooves, on one hand, the anti-skid areas provided with different anti-skid protrusions can be separated, and effective anti-skid parts are arranged according to different requirements of different sole areas on friction force; on the other hand, the stability of the sole front sole can be enhanced, so that the phenomenon that the sole is excessively bent to twist feet can be avoided when an athlete does the action of bending the sole.

Further, the first supporting portion 3 has a V-shape, and when the athlete bends the arch while doing the foot motion, the two free ends of the V-shape, the outer side edge and the inner side edge disposed at the arch portion can avoid twisting the foot due to excessive bending of the sole; the semicircular supporting part arranged on the surface of the outer ring part 21 is correspondingly arranged in the middle of the arch part, and can decompose the reverse acting force generated by bending the feet on two sides, so that the loss and the influence on the comfort and the experience of the movement caused by the fact that the sole is too hard are avoided when the athlete does the action of bending the soles.

Referring to fig. 4 to 5, an athletic shoe 400 with a stable supporting function includes a shoelace 41, wherein the underside of the shoelace 41 is tightly attached with an upper 42, and an eyelet button 43 is reserved in the upper 42, and the shoelace 41 is connected in a penetrating manner in the eyelet button 43; the underside of the upper 42 is closely fitted with the upper side of the tongue 44.

The front side of the vamp 42 is fixedly connected with a front sheet 421, and a net surface is sewn and fixed in the front sheet 421; the rear side of the vamp 42 is fixedly connected with a heel 422, and the heel 422 is fixedly connected with the outer ring part 21. The two sides of the vamp 42 are respectively sewn and fixed with the two sides of the heel 422, so as to form the whole sports shoe 400.

In this embodiment, the shoe upper 42 is made of a bicolor creel jacquard material, for example, D398-19.

The heel 422 has a protective portion 423 provided on a surface thereof, and the protective portion 423 extends toward the left and right uppers 42 with respect to the central axis B-B of the heel 422. Specifically, the protecting portion 423 is centered on the central axis B-B of the heel 423, and has one end extending to the outer vamp 42 to be fixedly connected with the third supporting portion 23 and the other end extending to the inner vamp 42 to be fixedly connected with the fourth supporting portion 24.

In this embodiment, the guard 423 is made of leather material and is disposed on the surface of the heel 422 through a sewing process.

A lifting strap 424 is further provided at the center of the heel 422, along the central axis of the heel 422, to be vertically sewn to the heel 422. Further, one end of the strap 424 is fixed to the guard 424 and extends upward to the edge along the central axis of the heel 422. In this embodiment, the lifting strap 424 is made of a translucent woven material.

A first wrapping sheet 425 is further disposed on a lateral surface of the vamp 42, and in this embodiment, the first wrapping sheet 425 is made of TPU material and disposed on the lateral surface of the vamp 42 through 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 outer ring portion 21 corresponding to the arch position, and a partial arc of the first wrapping sheet 425 is disposed below the outer ring portion 21 and the second supporting portion 22 and covers the upper portion of the vamp 42; the first wrapping sheet 425 is an oval tape-shaped film with hollowed-out interior.

Further, a first adhesive film 426 and a second adhesive film 427 are provided on the lateral surface and the medial surface of the vamp 42, respectively. Specifically, the first adhesive film 426 is disposed in an area formed between the eyelet button 43, the front sheet 421, the first wrapping sheet 425, and the protecting portion 424, the first adhesive film 426 is a plurality of adhesive films of a strip shape, which are distributed alternately to form a plurality of irregular polygonal hollow areas outside the vamp 42, and a portion of the vamp 42 corresponding to the hollow areas is exposed. The second adhesive film 427 is disposed in a region formed between the eyelet button 43, the front sheet 421, the third supporting portion 23, and the protecting portion 424, the second adhesive film 427 is formed by a plurality of strip-shaped adhesive films that are distributed alternately to form a plurality of irregular polygonal hollow regions on the inner side of the vamp 42, and a portion of the vamp 42 corresponding to the hollow regions is exposed.

In this embodiment, the first film 426 and the second film 427 are translucent matte films, and are disposed on the outer side surface of the vamp 42 by a film laminating process.

The front plate 421 is further provided with a toe guard 428 along the toe region around the edge of the front plate 421, and one end of the front plate 421 outside is fixedly connected with the first adhesive film 426, and one end of the front plate 421 inside is fixedly connected with the second adhesive film 427. In this embodiment, the toe guard 428 is formed by a matte opaque film and is disposed on the upper surface of the front sheet 421 by a film-laminating and edge-pressing printing process.

According to the utility model, the first outsole, the second outsole and the third outsole with the anti-skid textures are arranged on the ground contact surface of the outsole, so that when the player rotates in any direction when the front sole and the heel are in the ground contact state, the sole can provide enough friction force to ensure that the player can keep enough ground grabbing performance and anti-skid performance when realizing flexible movement. The first supporting part is arranged at the arch part, so that the stability of the sole can be kept when a player does various foot actions, and the phenomenon of twisting feet due to excessive bending can be avoided. The first outsole, the second outsole and the third outsole are provided with grooves, on one hand, the anti-skid areas provided with different anti-skid protrusions can be separated, and effective anti-skid parts are arranged according to different requirements of different sole areas on friction force; on the other hand, the stability of the sole front sole can be enhanced, so that the phenomenon that the sole is excessively bent to twist feet can be avoided when an athlete does the action of bending the sole. The first supporting part is in a V shape, when the athlete does foot action and bends the arch, the two free ends of the V shape and the outer side edge and the inner side edge arranged at the arch part can avoid twisting the foot due to excessive bending of the sole; the semicircular supporting part arranged on the surface of the outer ring part is correspondingly arranged in the middle of the arch part, and can decompose the reverse acting force generated by bending the feet on two sides, so that the loss and the influence on the comfort and the experience of the movement caused by the fact that the soles are too hard are avoided when the athlete does the action of bending the soles.

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. An athletic sole with a stable supporting function comprises an outsole, a midsole and a first supporting part, wherein the outsole is connected with the lower surface of the midsole; the outsole is characterized by comprising:

the first outsole is arranged on the ground contact surface of the outsole and correspondingly covers the front sole area;

the second outsole is arranged on the ground contact surface of the outsole and corresponds to the area of the heel which is not covered by the first supporting part; and

the third outsole is arranged on the ground contact surface of the outsole and corresponds to an area which covers the outer side of the arch and is not covered by the first supporting part;

the first supporting part is a supporting area similar to a V shape, is arranged on the ground contact surface of the outsole and corresponds to an area from the arch to the center of the heel; the first support portion includes:

a first supporting member correspondingly covering the outer side of the arch to the center area of the inner side of the arch; and

A second supporting member corresponding to a region formed in the medial arch to the center of the heel; the ground contact surface of the second supporting component is also provided with a groove, and the inner surface of the groove is smooth.

2. The athletic sole with stabilized support function of claim 1, wherein the first outsole includes:

the first anti-skid area is arranged on the ground contact surface of the first outsole and correspondingly covers the toe area; the first anti-skid area is a triangular area, the triangular bottom edges of the triangular area are distributed along the edges of the toes, and triangular vertexes opposite to the triangular bottom edges are arranged at positions of the front sole close to the toes; a plurality of first anti-skidding bulges similar to square columns are distributed on the surface matrix of the first anti-skidding area;

the second anti-slip area is arranged on the ground contact surface of the first outsole and correspondingly covers an area formed from the outer side of the toe to the outer side of the front sole; the second anti-skid area is a triangular area, the triangular bottom edge of the second anti-skid area is distributed along the outer side edge of the front sole, and the triangular vertex opposite to the triangular bottom edge is arranged at the position of the center of the front sole; a plurality of second anti-skidding bulges similar to square columns are distributed on the surface matrix of the second anti-skidding area;

The third anti-slip area is arranged on the ground contact surface of the first outsole and correspondingly covers an area formed from the inner side of the toe to the inner side of the front sole; the third anti-skid area is an elliptical area, and circular arcs corresponding to the major axis of the ellipse are distributed along the inner side edge of the front sole; a plurality of third anti-skidding bulges similar to square columns are distributed on the surface matrix of the third anti-skidding area; and

the fourth anti-skid area is arranged on the ground contact surface of the first outsole and corresponds to an area which covers the front sole and is not covered by the first anti-skid area, the second anti-skid area and the third anti-skid area; the second outsole includes:

the first anti-slip area is arranged on the ground contact surface of the second outsole and correspondingly covers the outer side edge area of the heel; the first anti-skid area is a triangular area, the triangular bottom edges of the first anti-skid area are distributed along the outer side edge of the heel part of the heel, and the triangular top points opposite to the triangular bottom edges are arranged at the position, close to the heel part, of the heel; a plurality of first anti-skidding bulges similar to square columns are distributed on the surface matrix of the first anti-skidding area;

the second anti-slip area is arranged on the ground contact surface of the second outsole and correspondingly covers the inner side edge area of the heel; the second anti-skid area is a triangular area, the triangular bottom edges of the second anti-skid area are distributed along the inner side edge of the heel part of the heel, and the triangular top points opposite to the triangular bottom edges are arranged at the position, close to the heel part, of the heel; a plurality of second anti-skidding bulges similar to square columns are distributed on the surface matrix of the second anti-skidding area;

The third anti-slip area is arranged on the ground contact surface of the second outsole and correspondingly covers the inner side edge area of the heel; the third anti-skid area is a triangular area, the triangular bottom edges of the third anti-skid area are distributed along the inner side edges of the rear heels, and the triangular vertexes opposite to the triangular bottom edges are arranged at the positions of the rear heels, which are close to the arch of the foot; a plurality of third anti-skidding bulges similar to square columns are distributed on the surface matrix of the third anti-skidding area; and

the fourth anti-skid area is arranged on the ground contact surface of the second outsole and corresponds to an area of the heel which is not covered by the first anti-skid area, the second anti-skid area and the third anti-skid area;

the surface matrix of the third outsole is provided with a plurality of anti-skidding bulges of elliptical columns;

the first supporting part of the first supporting part is arranged in a region between the second anti-skid unit of the first outsole and the second anti-skid unit of the second outsole;

the second supporting part of the first supporting part is arranged in a region between the third outsole and a fourth anti-skid region of the second outsole.

3. The athletic sole with stabilized support function of claim 2, wherein the fourth cleat area of the first outsole approximates a "V" shaped area, comprising:

The first anti-skid unit is arranged at the outer side edge of the front sole, and the area between the second anti-skid area and the second outsole; the surface of the first anti-skid unit is provided with a plurality of fourth anti-skid bulges side by side, each fourth anti-skid bulge is a wave-shaped bulge formed by connecting a plurality of circular arcs end to end, and the wave length direction of the wave-shaped bulge is parallel to the extending direction from the outer side to the inner side of the front foot badge;

the second anti-skid unit is arranged on the ground contacted with the front sole, and the area between the second anti-skid area and the third anti-skid area; one ends of the first anti-skid unit and the second anti-skid unit are connected with each other, are arranged at the inner edge of the front sole and are positioned in the area between the third anti-skid area and the first supporting part; a plurality of fifth anti-skid protrusions of the elliptical cylinders are distributed on the surface matrix of the second anti-skid unit;

the fourth cleat area of the second outsole, comprising:

the first anti-skid unit is a V-shaped area, one free end of the V-shaped area is arranged at the outer edge of the heel and is positioned in the area between the first anti-skid area and the second outsole, the vertex of the V-shaped area is arranged at the center of the edge of the heel and is positioned between the first anti-skid area and the second anti-skid area, and the other free end of the V-shaped area is arranged on the ground contacted with the heel and is positioned between the first supporting part and the second anti-skid area; the surface of the first anti-skid unit is provided with a plurality of fourth anti-skid bulges side by side, each fourth anti-skid bulge is a wave-shaped bulge formed by connecting a plurality of circular arcs end to end, and the wave length direction of the wave-shaped bulge is parallel to the extending direction from the outer side to the inner side of the front foot badge;

The second anti-skid unit is a V-shaped area, one free end of the V-shaped area is arranged at the inner side edge of the heel and is positioned in the area between the first supporting part and the third anti-skid area, the vertex of the V-shaped area is arranged at the center position of the connection between the heel and the arch, and the other free end of the V-shaped area is arranged at the inner side edge of the heel and is positioned between the second anti-skid area and the third anti-skid area; the surface of the second anti-skid unit is provided with a plurality of fifth anti-skid protrusions in parallel, and the fifth anti-skid protrusions are wavy protrusions formed by connecting a plurality of circular arcs end to end.

4. The athletic sole with stabilized support function of claim 1, wherein the midsole comprises:

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

a second support part surrounding the outer side edge of the heel corresponding to the first outer ring part and covering the surface of the first outer ring part; wherein, the surface matrix of the second supporting part is distributed with a plurality of circular grooves;

the third supporting part corresponds to the center from the outer side of the arch to the outer side edge of the heel and covers the surface of the first outer ring part;

And the fourth supporting part corresponds to the center of the edge from the inner side of the arch to the inner side of the heel and covers the surface of the first outer ring part.

5. The athletic sole with stabilized support function of claim 4, wherein the third support includes:

the first part is a circular arc strip-shaped part and is arranged along the edge of the third supporting part, which is close to the outer side of the arch, and the circular arc opening direction of the first part faces to the direction, which is far away from the arch;

the second component is an approximate triangle component and is arranged in the arc of the first component to form a third supporting part which is approximate to a semicircle together with the first component;

the fourth supporting part includes:

the third component is a circular arc strip-shaped component and is arranged along the edge of the side, close to the inner side of the arch, of the fourth supporting part, and the circular arc opening direction of the third component faces to the direction away from the side of the arch;

the fourth component is an approximate triangle component and is arranged in the arc of the third component to form a fourth supporting part approximate to a semicircle together with the third component.

6. An athletic shoe with a stable supporting 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 1-5.

7. The athletic shoe with stable support function of claim 6, wherein the athletic shoe sole comprises an outsole, a midsole, and a first support, the outsole being attached to a lower surface of the midsole; the midsole comprises:

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

a second support part surrounding the outer side edge of the heel corresponding to the first outer ring part and covering the surface of the first outer ring part; wherein, the surface matrix of the second supporting part is distributed with a plurality of circular grooves;

the third supporting part corresponds to the center from the outer side of the arch to the outer side edge of the heel and covers the surface of the first outer ring part;

a fourth supporting part corresponding to the center of the edge from the inner side of the arch to the inner side of the heel and covering the surface of the first outer ring part;

the front side of the vamp is fixedly connected with a front sheet, a net surface is sewn and fixed in the front sheet, the rear side of the vamp is fixedly connected with a heel, and the heel is fixedly connected with the first outer ring part;

the surface of the heel is provided with a protection part, the protection part takes the central axis of the heel as the center, one end of the protection part extends to the outside vamp to be fixedly connected with the second supporting part, and the other end extends to the inside vamp to be fixedly connected with the third supporting part;

The central position of the heel is also provided with a lifting belt which is arranged along the central axis of the heel and is vertically sewn on the heel; one end of the lifting belt is fixed on the protection part and extends upwards to the edge along the central axis of the heel.

8. The sports shoe with the stable supporting function according to claim 7, wherein a first wrapping sheet is further arranged on the outer side surface of the vamp, is an oval strip-shaped film with hollowed-out inner part, extends towards the front sheet along the outer side edge of the first outer ring part corresponding to the arch position, and is partially circular arc-shaped and arranged below the first outer ring part and the first supporting part and covers the upper part of the vamp.

9. The sports shoe with a stable support function according to claim 8, further comprising:

the first film is arranged in a region formed among the eyelet button, the front piece, the first cladding piece and the protection part; the first adhesive film is formed by a plurality of strip-shaped adhesive films which are distributed in a staggered manner to form a plurality of irregular polygonal hollowed-out areas outside the vamp, so that the part of the outside of the vamp corresponding to the hollowed-out areas is exposed;

The second film is arranged in a region formed among the eyelet button, the front piece, the third supporting part and the protection part; the second adhesive films are formed by a plurality of strip-shaped adhesive films in a staggered mode so as to form a plurality of irregular polygonal hollowed-out areas on the inner side of the vamp, and the part, corresponding to the hollowed-out areas, of the inner side of the vamp is exposed.

10. The sports shoe with a stable support function according to claim 9, further comprising:

the toe protection part is arranged along the toe area around the edge of the front piece, and is positioned at one end of the outer side of the front piece and fixedly connected with the first film, and is positioned at one end of the inner side of the front piece and fixedly connected with the second film.