CN218942388U - Sport sole and sport shoes with shock-absorbing function - Google Patents

Abstract

The utility model discloses a sports shoe with a shock absorption function and a sports sole, wherein the sports sole comprises an outsole, a midsole and a supporting part, and the outsole comprises a first outsole and a second outsole which correspondingly cover a front sole area and a rear heel area; the midsole comprises a first air cushion and a second air cushion which correspondingly cover the front sole area and the rear heel area and are arranged on the upper surface of the outsole, and the first air cushion and the second air cushion are connected with each other through a supporting part to form an air cushion supporting area for supporting the whole sole; the upper surface of the supporting part keeps a preset distance with the corresponding position of the outer ring part so as to form a hollow space. According to the utility model, the air cushion is correspondingly arranged in the area corresponding to the front sole and the heel, and the two air cushions are connected through the supporting part, so that a rebound damping area is formed in the whole sole, and good damping 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, a midsole and a 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 correspondingly covers the heel area; the supporting part is arranged between the first outsole and the second outsole and correspondingly covers the arch area; the midsole comprises: the first air cushion is arranged on the upper surface of the outsole and corresponds to the area covering the front sole; the second air cushion is arranged on the upper surface of the outsole and corresponds to the area covering the heel; the outer ring part surrounds the edges of the first air cushion and the second air cushion and is arranged on the upper surfaces of the first air cushion and the second air cushion; wherein the first and second air cushions are connected to each other by the support section to form an air cushion support area for supporting the entire sole; the upper surface of the supporting part and the corresponding position of the outer ring part keep a preset distance so as to form a hollow space.

Wherein, the first outsole includes: the first anti-slip part is arranged on the ground contact surface of the first outsole and is an anti-slip area in an elliptical shape, one circular arc side edge of the elliptical area corresponding to the long shaft extends to a position at which the outer side of the front sole is connected with the outer side of the arch along the central position of the outer side of the front sole, and the other opposite circular arc side edge of the elliptical area is distributed in the center area of the front sole; the ground contact surface of the first anti-skid part is further provided with a plurality of circular annular first anti-skid bulges in a matrix distribution mode, and the sizes of the first anti-skid bulges are basically the same; the second anti-slip part is arranged on the ground contact surface of the first outsole and is an anti-slip area which is approximately elliptical, one circular arc side edge of the elliptical area corresponding to the long axis extends to a position where the inner side of the front sole is connected with the inner side of the arch along the central position of the inner side of the front sole, and the other opposite circular arc side edge is distributed in the center area of the front sole; the ground contact surface of the second anti-skid part is also provided with a plurality of circular annular second anti-skid bulges in a matrix distribution mode, and the sizes of the second anti-skid bulges are basically the same; the third anti-skid part is arranged on the ground contact surface of the first outsole and corresponds to the area of the front sole which is not covered by the first anti-skid part and the second anti-skid part; the ground contact surface of the third anti-skid part is also provided with a plurality of third anti-skid bulges similar to the shape of a V and a plurality of fourth anti-skid bulges similar to the shape of a W in a matrix distribution mode; the third anti-slip protrusions and the fourth anti-slip protrusions are distributed in a staggered manner on the same row and are connected end to form a plurality of anti-slip textures parallel to the extending direction from the inner side to the outer side of the front sole, and the plurality of anti-slip textures are distributed side by side and in parallel in sequence along the direction perpendicular to the extending direction from the inner side to the outer side of the front sole; the sizes of the third anti-slip bulges are basically the same, and the sizes of the fourth anti-slip bulges are basically the same; and

the first groove is arranged on the ground contact surface of the third anti-skid part, is correspondingly arranged in the third anti-skid part and corresponds to the region in the center of the front sole, and is positioned between the first anti-skid part and the second anti-skid part; the first groove is an oval groove, and the long axis direction of the first groove is parallel to the extending direction of the toe to the heel.

Wherein, the second outsole includes: the fourth anti-skid part is arranged on the ground contact surface of the second outsole and is an approximately U-shaped anti-skid area, the U-shaped area is arranged around the edge from the outer side to the inner side of the heel, and the opening direction of the U-shaped area faces the direction of the arch of the foot; the ground contact surface of the fourth anti-skid part is further provided with a plurality of circular annular fifth anti-skid bulges in a matrix distribution mode, and the sizes of the fifth anti-skid bulges are basically the same; the fifth anti-skid part is arranged on the ground contact surface of the second outsole and corresponds to the area of the heel which is not covered by the fourth anti-skid part; the ground contact surface of the fifth anti-skid part is further provided with a plurality of V-shaped sixth anti-skid protrusions and W-shaped seventh anti-skid protrusions in a matrix mode, the sixth anti-skid protrusions and the seventh anti-skid protrusions are distributed in a staggered mode on the same column and connected end to form a plurality of anti-skid textures parallel to the extending direction from the inner side to the outer side of the heel, and the plurality of anti-skid textures are sequentially distributed side by side and parallel along the direction perpendicular to the extending direction from the inner side to the outer side of the heel; the sizes of the sixth anti-slip protrusions are basically the same, and the sizes of the seventh anti-slip protrusions are basically the same; the second groove is arranged on the ground contact surface of the fifth anti-skid part, is correspondingly arranged in the area corresponding to the center of the heel in the fifth anti-skid part, and is positioned in the opening of the U-shaped area of the fourth anti-skid part; the second groove is an oval groove, and the long axis direction of the second groove is parallel to the extending direction of the toe to the heel.

The sizes of the major axis and the minor axis of the ellipse of the first groove are larger than those of the major axis and the minor axis of the ellipse of the second groove.

Wherein, the non-slip raised areas distributed on the first outsole and the non-slip raised areas distributed on the second outsole are basically positioned on the same horizontal plane.

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 vamp is fixedly connected with a front piece, a net surface is sewn and fixed in the front piece, and a heel is fixedly connected with the rear side of the vamp.

Wherein the surface of the heel is provided with a first protection part which takes the central axis of the heel as the center, the vamps on the left side and the right side extend to the central positions of the edges of the outer ring part, which correspond to the outer side and the inner side of the heel, are fixedly connected to the surface of the heel and are spaced with the outer ring part by a preset distance.

The outer side surface of the vamp is also provided with a first cladding sheet, the first cladding sheet is a circular arc-shaped strip-shaped film, one end of the circular arc-shaped film is fixedly connected to the outer ring part at a position corresponding to the center of the outer side edge of the front sole, the other end of the circular arc-shaped film is fixedly connected to the outer ring part at a position corresponding to the center of the outer side edge of the foot arch, the circular arc of the film extends and distributes on the outer side of the vamp in a direction away from the ground contact surface, and the circular arc is fixedly connected with a region where a first shoe eye buckle arranged on the outer side of the vamp and close to the front sheet is positioned; the inner side surface of the vamp is also provided with a second coating sheet, the second coating sheet is a circular arc-shaped band-shaped film, one end of the circular arc band-shaped film is fixedly connected to the position of the outer ring part corresponding to the center of the inner side edge of the front sole, the other end of the circular arc band-shaped film is fixedly connected to the position of the outer ring part corresponding to the center of the inner side edge of the foot arch, the circular arc of the second coating sheet extends and distributes on the inner side of the vamp in the direction away from the ground contact surface, and the second coating sheet is fixedly connected with the region where the first shoe eye buckle arranged on the inner side of the vamp and close to the front sheet is positioned.

The surface of the front piece is also provided with a second protection part, the second protection part is arranged along the edge of the front piece around the toe area, one end of the second protection part, which is positioned at the outer side of the front piece, is fixedly connected with one end of the first cladding piece, which corresponds to the outer side area of the front sole, and one end of the second protection part, which is positioned at the inner side of the front piece, is fixedly connected with one end of the second cladding piece, which corresponds to the inner side area of the front sole.

According to the sports shoe with the cushioning function and the sports sole, the first outsole and the second outsole which cover different areas are divided on the outsole according to different forces born by foot actions of a sportsman in a sports process, and the first outsole and the second outsole which cover the toe and the heel areas are provided with the protrusions with different shapes and the anti-skid textures formed according to different arrangement modes, so that the sole generates relative friction force when the sportsman lands on the foot and lifts up, and the phenomenon of skidding does not occur; protrusions in a V shape and a W shape are distributed on the area covering the center of the front sole and the center of the heel in a staggered manner to form anti-slip textures in a wavy shape, and the anti-slip protrusions are used for friction force generated in all directions of the sole to play a multi-direction anti-slip role, so that athletes can quickly react when doing various foot actions, and friction coefficients of the sole can be greatly enhanced through the mutual matching of the protrusions in different arrangement modes, thereby meeting the requirement of complex road conditions during outdoor exercises. Simultaneously, the corresponding region that sets up an air cushion in preceding sole and heel to link together two air cushions through supporting part, make supporting part and outer loop portion correspond the region formation cavity space of arch of foot, thereby form the region of resilience shock attenuation in whole sole, in order to satisfy the atress trend that the sportsman lands in the motion, thereby play the bradyseism, rebound function, form the region of bradyseism in the arch of foot region, and satisfy the buffering and the rebound function of the reaction force that the sportsman produced on the ground when the sole lands in the motion, thereby protect the sportsman's foot.

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 lateral structure of an athletic shoe with cushioning function according to an embodiment of the present utility model;

fig. 4 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.

Referring to fig. 1-2, a schematic structural diagram of an athletic sole with a damping function according to an embodiment of the utility model is shown.

The sports shoe sole 100 comprises an outsole 1, a midsole 2 and a supporting part 3; 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 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 correspondingly covering the heel area;

the supporting part 3 is disposed between the first outsole 11 and the second outsole 12, and covers the arch area correspondingly.

The first outsole 11 includes:

a first anti-slip part 111 disposed on the ground contact surface of the first outsole 11, and being an approximately elliptical anti-slip region, wherein one circular arc side edge of the elliptical region corresponding to the major axis extends along the center position of the outer side of the front sole to a position where the outer side of the front sole is connected with the outer side of the arch, and the other opposite circular arc side edge is distributed in the center region of the front sole; in this embodiment, each first anti-slip protrusion 1110 is an approximately circular annular protrusion, and the sizes of the first anti-slip protrusions 1110 are substantially the same;

a second anti-slip part 112, which is disposed on the ground contact surface of the first outsole 11, is an approximately elliptical anti-slip region, and is disposed with one circular arc side edge of the elliptical region corresponding to the major axis extending along the center position of the inner side of the front sole to the position where the inner side of the front sole is connected to the inner side of the arch, and with the other opposite circular arc side edge thereof being disposed in the center region of the front sole; in this embodiment, each of the second anti-slip protrusions 1120 is an approximately circular annular protrusion, and the dimensions of each of the second anti-slip protrusions 1120 are substantially the same;

a third anti-skid part 113 disposed on the ground contact surface of the first outsole 11 and corresponding to a region of the front sole that is not covered by the first and second anti-skid parts 111, 112; wherein, the ground contact surface of the third anti-skid part 113 is further provided with a plurality of third anti-skid protrusions 1131 and a plurality of fourth anti-skid protrusions 1132 in a matrix distribution manner; the third anti-slip protrusions 1131 are protrusions with a shape similar to a V, the fourth anti-slip protrusions 1132 are protrusions with a shape similar to a W, the third anti-slip protrusions 1131 and the fourth anti-slip protrusions 1132 are staggered on the same column and are connected end to form a plurality of anti-slip textures parallel to the extending direction from the inner side to the outer side of the front sole, and the plurality of anti-slip textures are sequentially distributed side by side and parallel along the direction perpendicular to the extending direction from the inner side to the outer side of the front sole, so that anti-slip textures are formed on the surface of the third anti-slip portion 113; in this embodiment, the dimensions of the third plurality of cleats 1131 are substantially the same and the dimensions of the fourth plurality of cleats 1132 are substantially the same;

the first groove 114 is disposed on the ground contact surface of the third anti-slip portion 113, and is correspondingly disposed in a region corresponding to the center of the front sole of the foot inside the third anti-slip portion 113, and is located between the first anti-slip portion 111 and the second anti-slip portion 112; the first grooves 114 are used for exposing the midsole 2 at corresponding positions; the first groove 114 is an oval groove, and the long axis direction of the groove is parallel to the extending direction from the toe to the heel.

The second outsole 12 includes:

a fourth anti-slip part 121 disposed on the ground contact surface of the second outsole 12, and being an approximately U-shaped anti-slip region, wherein the U-shaped region is disposed around the edge from the outer side to the inner side of the heel, and the opening direction of the U-shaped region faces the direction of the arch; in this embodiment, each fifth anti-slip protrusion 1210 is an approximately circular annular protrusion, and the size of each fifth anti-slip protrusion 1210 is substantially the same;

a fifth anti-skid part 122 disposed on the ground contact surface of the second outsole 12 and corresponding to a region of the heel not covered by the fourth anti-skid part 121; wherein, the ground contact surface of the fifth anti-skid part 122 is further provided with a plurality of sixth anti-skid protrusions 1221 and a plurality of seventh anti-skid protrusions 1222 in a matrix distribution; the sixth anti-slip bump 1221 is a bump having a shape similar to a V, the seventh anti-slip bump 1222 is a bump having a shape similar to a W, the sixth anti-slip bump 1221 and the seventh anti-slip bump 1222 are staggered on the same column and connected end to form a plurality of anti-slip textures parallel to the extending direction from the medial side to the lateral side of the heel, and the plurality of anti-slip textures are sequentially distributed side by side and parallel along the direction perpendicular to the extending direction from the medial side to the lateral side of the heel, so as to form anti-slip textures on the surface of the fifth anti-slip portion 122; in the present embodiment, the sixth plurality of stud 1221 are substantially the same size and the seventh plurality of stud 1222 are substantially the same size;

the second groove 123 is disposed on the ground contact surface of the fifth anti-skid part 122, and is correspondingly disposed in a region corresponding to the center of the heel inside the fifth anti-skid part 122, and is disposed in the opening of the U-shaped region of the fourth anti-skid part 121; the second grooves 123 are used for exposing the midsole 2 at corresponding positions. The second groove 123 is an oval groove, and the long axis direction of the second groove is parallel to the extending direction from the toe to the heel.

Further, the major and minor axes of the ellipse of the first groove 114 are larger than the major and minor axes of the ellipse of the second groove 123.

In this embodiment, the protrusions distributed on the first outsole 11 and the protrusions distributed on the second outsole 12 are located on the same horizontal plane.

As described above, according to the difference of forces applied to the foot during the movement of the athlete, the first outsole 11 and the second outsole 12 covering different areas are divided on the outsole 1, and the first outsole 11 and the second outsole 12 covering the toe and heel areas are provided with protrusions of different shapes and anti-slip textures formed according to different arrangement modes, so that the athlete generates relative friction force by the sole during the landing and lifting of the foot, and no slipping phenomenon occurs; protrusions in a V shape and a W shape are distributed on the area covering the center of the front sole and the center of the heel in a staggered manner to form anti-slip textures in a wavy shape, and the anti-slip protrusions are used for friction force generated in all directions of the sole to play a multi-direction anti-slip role, so that athletes can quickly react when doing various foot actions, and friction coefficients of the sole can be greatly enhanced through the mutual matching of the protrusions in different arrangement modes, thereby meeting the requirement of complex road conditions during outdoor exercises.

Referring to fig. 2, the midsole 2 includes:

the first air cushion 21 is arranged on the upper surface of the outsole 1 and corresponds to the area covering the front sole;

a second air cushion 22 disposed on the upper surface of the outsole 1 and corresponding to a region covering the heel;

an outer ring portion 23 surrounding edges of the first and second air cushions 21 and 22 and disposed on upper surfaces of the first and second air cushions 21 and 22;

wherein the first cushion 21 and the second cushion 22 are connected to each other by the support 3 to form a cushion support area for supporting the entire sole.

Further, the upper surface of the supporting portion 3 is kept at a predetermined distance from the corresponding position of the outer ring portion 23, so as to form a hollow space 24.

In the present embodiment, the outer ring portion 23 is made of a superelastic material.

As described above, the region corresponding to the front sole and the rear heel is provided with an air cushion correspondingly, and the two air cushions are connected through the supporting part, so that the supporting part and the outer ring part form a hollow space corresponding to the region of the foot arch, thereby forming a rebound damping region on the whole sole, meeting the stress trend of the sole landing of the athlete in the process of movement, playing a role in cushioning and rebound, forming a cushioning region on the foot arch region, and meeting the buffering and rebound functions of the reaction force generated by the ground of the athlete when the sole lands in the process of movement, thereby protecting the foot of the athlete.

Please refer to fig. 3-4, which are schematic structural diagrams of an athletic shoe with shock-absorbing and rebounding functions 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 central positions of the outer ring portion 22 corresponding to the outer and inner sides of the heel, and are fixedly connected to the surface of the heel 423 and spaced from the outer ring portion 22 by a predetermined distance.

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

A first cover sheet 425 is also disposed on a lateral surface of the upper 42 and a second cover sheet 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 first wrapping sheet 425 is a circular arc-shaped band-shaped film, one end of the circular arc band-shaped film is fixedly connected to the outer ring portion 22 at a position corresponding to the center of the outer edge of the front sole, the other end of the circular arc band-shaped film is fixedly connected to the outer ring portion 22 at a position corresponding to the center of the outer edge of the arch, the circular arc of the circular arc is extended and distributed on the outer side of the vamp 42 in a direction away from the ground contact surface, and the circular arc is fixedly connected to the region of the vamp outer side 42 where the first eyelet button 43 close to the front sheet 421 is located. Similarly, the second wrapping sheet 426 is disposed on the medial side of the vamp 42 as described above, and will not be described in detail herein.

Further, a second protecting portion 427 is further disposed on the surface of the front plate 421, and is disposed around the edge of the front plate 421 along the toe region, wherein one end of the front plate 421 located outside is fixedly connected with one end of the first wrapping plate 425 corresponding to the front sole outside region, and one end of the front plate 421 located inside is fixedly connected with one end of the second wrapping plate 426 corresponding to the front sole inside region. 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 and the second outsole which cover different areas are divided on the outsole, and the first outsole and the second outsole which cover the toe and the heel areas are provided with the bulges with different shapes and the anti-skid textures formed according to different arrangement modes, so that the athlete can generate relative friction force by the sole when the foot is landed and lifted, and the phenomenon of skidding can not occur; protrusions in a V shape and a W shape are distributed on the area covering the center of the front sole and the center of the heel in a staggered manner to form anti-slip textures in a wavy shape, and the anti-slip protrusions are used for friction force generated in all directions of the sole to play a multi-direction anti-slip role, so that athletes can quickly react when doing various foot actions, and friction coefficients of the sole can be greatly enhanced through the mutual matching of the protrusions in different arrangement modes, thereby meeting the requirement of complex road conditions during outdoor exercises. Simultaneously, the corresponding region that sets up an air cushion in preceding sole and heel to link together two air cushions through supporting part, make supporting part and outer loop portion correspond the region formation cavity space of arch of foot, thereby form the region of resilience shock attenuation in whole sole, in order to satisfy the atress trend that the sportsman lands in the motion, thereby play the bradyseism, rebound function, form the region of bradyseism in the arch of foot region, and satisfy the buffering and the rebound function of the reaction force that the sportsman produced on the ground when the sole lands in the motion, thereby protect the sportsman's foot.

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, a midsole and a supporting part, wherein the outsole is connected to 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 correspondingly covers the heel area;

the supporting part is arranged between the first outsole and the second outsole and correspondingly covers the arch area;

the midsole comprises:

the first air cushion is arranged on the upper surface of the outsole and corresponds to the area covering the front sole;

the second air cushion is arranged on the upper surface of the outsole and corresponds to the area covering the heel;

the outer ring part surrounds the edges of the first air cushion and the second air cushion and is arranged on the upper surfaces of the first air cushion and the second air cushion;

wherein the first and second air cushions are connected to each other by the support section to form an air cushion support area for supporting the entire sole; the upper surface of the supporting part and the corresponding position of the outer ring part keep a preset distance so as to form a hollow space.

2. The athletic sole with cushioning function of claim 1, wherein the first outsole comprises:

the first anti-slip part is arranged on the ground contact surface of the first outsole and is an anti-slip area in an elliptical shape, one circular arc side edge of the elliptical area corresponding to the long shaft extends to a position at which the outer side of the front sole is connected with the outer side of the arch along the central position of the outer side of the front sole, and the other opposite circular arc side edge of the elliptical area is distributed in the center area of the front sole; the ground contact surface of the first anti-skid part is further provided with a plurality of circular annular first anti-skid bulges in a matrix distribution mode, and the sizes of the first anti-skid bulges are basically the same;

the second anti-slip part is arranged on the ground contact surface of the first outsole and is an anti-slip area which is approximately elliptical, one circular arc side edge of the elliptical area corresponding to the long axis extends to a position where the inner side of the front sole is connected with the inner side of the arch along the central position of the inner side of the front sole, and the other opposite circular arc side edge is distributed in the center area of the front sole; the ground contact surface of the second anti-skid part is also provided with a plurality of circular annular second anti-skid bulges in a matrix distribution mode, and the sizes of the second anti-skid bulges are basically the same;

the third anti-skid part is arranged on the ground contact surface of the first outsole and corresponds to the area of the front sole which is not covered by the first anti-skid part and the second anti-skid part; the ground contact surface of the third anti-skid part is also provided with a plurality of third anti-skid bulges similar to the shape of a V and a plurality of fourth anti-skid bulges similar to the shape of a W in a matrix distribution mode; the third anti-slip protrusions and the fourth anti-slip protrusions are distributed in a staggered manner on the same row and are connected end to form a plurality of anti-slip textures parallel to the extending direction from the inner side to the outer side of the front sole, and the plurality of anti-slip textures are distributed side by side and in parallel in sequence along the direction perpendicular to the extending direction from the inner side to the outer side of the front sole; the sizes of the third anti-slip bulges are basically the same, and the sizes of the fourth anti-slip bulges are basically the same; and

the first groove is arranged on the ground contact surface of the third anti-skid part, is correspondingly arranged in the third anti-skid part and corresponds to the region in the center of the front sole, and is positioned between the first anti-skid part and the second anti-skid part; the first groove is an oval groove, and the long axis direction of the first groove is parallel to the extending direction of the toe to the heel.

3. The athletic sole with cushioning function of claim 2, wherein the second outsole comprises:

the fourth anti-skid part is arranged on the ground contact surface of the second outsole and is an approximately U-shaped anti-skid area, the U-shaped area is arranged around the edge from the outer side to the inner side of the heel, and the opening direction of the U-shaped area faces the direction of the arch of the foot; the ground contact surface of the fourth anti-skid part is further provided with a plurality of circular annular fifth anti-skid bulges in a matrix distribution mode, and the sizes of the fifth anti-skid bulges are basically the same;

the fifth anti-skid part is arranged on the ground contact surface of the second outsole and corresponds to the area of the heel which is not covered by the fourth anti-skid part; the ground contact surface of the fifth anti-skid part is further provided with a plurality of V-shaped sixth anti-skid protrusions and W-shaped seventh anti-skid protrusions in a matrix mode, the sixth anti-skid protrusions and the seventh anti-skid protrusions are distributed in a staggered mode on the same column and connected end to form a plurality of anti-skid textures parallel to the extending direction from the inner side to the outer side of the heel, and the plurality of anti-skid textures are sequentially distributed side by side and parallel along the direction perpendicular to the extending direction from the inner side to the outer side of the heel; the sizes of the sixth anti-slip protrusions are basically the same, and the sizes of the seventh anti-slip protrusions are basically the same; and

the second groove is arranged on the ground contact surface of the fifth anti-skid part, is correspondingly arranged in the area corresponding to the center of the heel in the fifth anti-skid part, and is positioned in the opening of the U-shaped area of the fourth anti-skid part; the second groove is an oval groove, and the long axis direction of the second groove is parallel to the extending direction of the toe to the heel.

4. The athletic shoe sole with cushioning of claim 3, wherein the major and minor axes of the ellipse of the first groove are both greater in size than the major and minor axes of the ellipse of the second groove.

5. The athletic sole with cushioning of claim 4, wherein cleats disposed on the first outsole are substantially level with cleats disposed on the second outsole and the outer edge of the ground engaging end is substantially level.

6. 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 1-5.

7. The sports shoe with shock absorbing function according to claim 6, wherein a front plate is fixedly connected to the front side of the vamp, a net surface is sewn and fixed to the inside of the front plate, and a heel is fixedly connected to the rear side of the vamp.

8. The sports shoe with shock absorbing function according to claim 7, wherein a first protection part is provided on the surface of the heel, the first protection part is centered on the central axis of the heel, the uppers on the left and right sides extend to the central positions of the outer ring part corresponding to the outer side and the inner side edges of the heel, and are fixedly connected to the surface of the heel and spaced from the outer ring part by a preset distance.

9. The sports shoe with the cushioning function according to claim 8, wherein a first wrapping sheet is further arranged on the outer side surface of the vamp, the first wrapping sheet is a circular arc-shaped strip-shaped film, one end of the circular arc strip-shaped film is fixedly connected to the outer ring part at a position corresponding to the center of the outer side edge of the front sole, the other end of the circular arc strip-shaped film is fixedly connected to the outer ring part at a position corresponding to the center of the outer side edge of the arch, and the circular arc of the circular arc strip-shaped film extends and distributes on the outer side of the vamp in a direction away from the ground and is fixedly connected with a region where a first eyelet button arranged on the outer side of the vamp and close to the front sheet is located;

the inner side surface of the vamp is also provided with a second coating sheet, the second coating sheet is a circular arc-shaped band-shaped film, one end of the circular arc band-shaped film is fixedly connected to the position of the outer ring part corresponding to the center of the inner side edge of the front sole, the other end of the circular arc band-shaped film is fixedly connected to the position of the outer ring part corresponding to the center of the inner side edge of the foot arch, the circular arc of the second coating sheet extends and distributes on the inner side of the vamp in the direction away from the ground contact surface, and the second coating sheet is fixedly connected with the region where the first shoe eye buckle arranged on the inner side of the vamp and close to the front sheet is positioned.

10. The sports shoe with shock absorbing function according to claim 9, wherein a second protecting portion is further provided on the surface of the front plate, and is provided along the toe region around the edge of the front plate, wherein one end of the second protecting portion located outside the front plate is fixedly connected with one end of the first wrapping plate corresponding to the outer region of the front sole, and one end of the second wrapping plate located inside the front plate is fixedly connected with one end of the second wrapping plate corresponding to the inner region of the front sole.

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