CN215455777U - High elasticity sports shoes and sports shoes sole - Google Patents

Abstract

The utility model discloses a high-elasticity sports shoe and a sports shoe sole, wherein the sports shoe sole comprises an outsole and a midsole, and the outsole comprises: the first groove is formed in the ground contact surface of the outsole and correspondingly formed in an area extending from the tiptoe position to the heel position along the central axis of the sole; when the first groove extends from the tiptoe part to the heel part along the central axis of the sole, the depth and the width are gradually increased; the anti-skid part is arranged on the ground contacting surface of the outsole, and a plurality of strip-shaped second grooves are distributed on the surface of the anti-skid part; the middle sole comprises an outer ring part, a protection part formed on the outer ring part corresponding to a heel part, and a supporting part formed on the outer ring part corresponding to the outer side of the heel; the supporting part is V-shaped, and two free ends of the supporting part are fixedly connected with the outer ring part respectively. By the utility model, the adaptive resilience and support function can be provided by combining the bending form of the foot structure of the human body.

Description

High elasticity sports shoes and sports shoes sole

Technical Field

The utility model relates to the technical field of shoes, in particular to a high-elasticity sports shoe and a sports shoe sole.

Background

Shoes are indispensable articles for daily life of people, soles are the most important parts of a pair of shoes, the most important protection effect is achieved, and the elasticity, the skid resistance and the comfort degree of the shoes are all determined by the structure and the materials of the soles.

The sole of the existing sports shoes is mostly of a multilayer bonded or single-layer solid structure made of materials such as MD, RB, EVA and the like, so that the sole has certain flexibility and elasticity and plays a role in shock absorption, or the sole is directly arranged into a shock absorption structure, and therefore impact force in the movement process is relieved. However, according to the research of biomechanics, when the foot touches the ground during the exercise process, such a huge impact force is generated, if the sole is buffered by adopting shock absorption and shock absorption means, the energy loss of the sports shoes during the exercise process is serious, the exercise shoes are not beneficial to the exertion of the foot, and fatigue is easily caused during long-time walking or exercise, and the comfort is reduced.

SUMMERY OF THE UTILITY MODEL

The utility model mainly solves the technical problem of providing a high-elasticity sports shoe and a sports shoe sole, which can play a role in springback support when acting force is applied to the shoe sole body by feet in the process of walking or sports of athletes, and improve the comfort of the shoe sole body.

In order to solve the technical problems, the utility model adopts a technical scheme that: a high-elasticity sports shoe sole comprises an outsole and a midsole, wherein the outsole is connected to the lower surface of the midsole; the outsole comprises: the first groove is formed in the ground contact surface of the outsole and correspondingly formed in an area extending from the tiptoe position to the heel position along the central axis of the sole; when the first groove extends from the tiptoe part to the heel part along the central axis of the sole, the depth and the width are gradually increased; the anti-skid part is arranged on the ground contacting surface of the outsole, and a plurality of strip-shaped second grooves are distributed on the surface of the anti-skid part; the middle sole comprises an outer ring part, a protection part formed on the outer ring part corresponding to a heel part, and a supporting part formed on the outer ring part corresponding to the outer side of the heel; the supporting part is V-shaped, and two free ends of the supporting part are fixedly connected with the outer ring part respectively.

One end of the first groove is arranged at the edge position of the toe region corresponding to the ground contacted by the outsole, and the other end of the first groove is arranged at the position of the central region of the heel corresponding to the ground contacted by the outsole; the first groove and the anti-slip part are integrally formed.

Wherein the non-slip portion is divided by the first groove into: the first anti-slip area is correspondingly arranged on the inner side of an area formed by the toe of the front sole and the heel center of the outsole; a plurality of arc-shaped strip-shaped second grooves and a plurality of annular third grooves are distributed on the ground contact surface, the plurality of annular third grooves are arranged in a nesting arrangement mode corresponding to the positions of the roots of the metatarsus of the femurs, and the plurality of second grooves are distributed in sequence along the third grooves positioned on the outermost ring by taking the circle centers of the plurality of third grooves as the circle centers of arcs; the second antiskid area is arranged at the outer side of the area formed from the center of the front sole to the center of the heel of the outsole correspondingly, and is in contact with a plurality of linear banded second grooves distributed on the ground and arranged in sequence in parallel along the direction vertical to the central axis; and the third anti-skid area is correspondingly arranged from the center of the heel to the edge of the outsole, is in contact with a plurality of linear strip-shaped second grooves distributed on the ground, and is sequentially arranged in parallel along the direction vertical to the central axis.

The sole is provided with a first groove, a second groove and a third groove, wherein the first groove is formed in the sole, penetrates through the sole along the direction perpendicular to the central axis, is arranged corresponding to the transition region from the arch of foot to the heel, and separates the first anti-skid region and the second anti-skid region from the third anti-skid region; the ground contact surface of the first anti-skid area is also provided with a fifth groove which is arranged at the outer side of the third groove positioned at the outermost ring and surrounds the third groove, and the fifth groove is a circular arc-shaped groove so as to separate the third groove from the second groove; the ground contact surface of the third anti-skid area is also provided with a plurality of sixth grooves which are similar to V-shaped, the sixth grooves are distributed in the adjacent areas of the third anti-skid area, the first anti-skid area and the second anti-skid area in parallel in sequence, and a preset included angle is formed between the sixth grooves and the plurality of second grooves distributed on the ground contact surface of the third anti-skid area.

The protection part is arranged around the surface of the heel, the protection part is arranged at the position of the central axis of the heel and protrudes upwards, the two ends of the protection part respectively extend towards the two sides of the heel, and the height of the protection part is gradually reduced.

In order to solve the technical problem, the utility model adopts another technical scheme that: a high-elasticity sports shoe comprises a shoelace and a vamp which is tightly attached to the lower side of the shoelace; the shoe comprises a vamp and a sports shoe sole, wherein an eyelet is reserved in the vamp, a shoelace is connected to the inside of the eyelet in a penetrating manner, the lower side of the vamp is tightly attached to the upper side of a tongue, and the sports shoe sole is as above.

Wherein, the surfaces of the inner side and the outer side of the vamp are respectively provided with a first wrapping sheet and a second wrapping sheet; the first wrapping sheet is approximately triangular, one end of the first wrapping sheet is fixedly connected with the outer ring part corresponding to the outer side of the front sole, and the other end of the first wrapping sheet extends to the central axis position of the heel and is fixedly connected with the outer ring part; the second wrapping sheet is approximately triangular, one end of the second wrapping sheet is fixedly connected with the outer ring part corresponding to the inner side of the front sole, and the other end of the second wrapping sheet extends to be fixedly connected with the heel and keeps a preset distance from the central axis of the second wrapping sheet.

The top end of the first wrapping sheet is further provided with a fixing device, the top end of the second wrapping sheet is further provided with a wrapping belt, one end of the wrapping belt is fixedly connected with the top end of the second wrapping sheet, and the other end of the wrapping belt extends along the welt to cover the tongue, the shoelace and the shoelace button holes and is fixedly connected with the fixing device.

The shoe eyelet comprises a first eyelet, a second eyelet and a third eyelet; the first buttonholes are arranged on the vamp in pairs and distributed corresponding to two sides of the tongue; the second buttonholes are arranged on the vamp in pairs and are respectively adjacent to the first wrapping sheet and the second wrapping sheet; the third button hole is arranged on the front piece and corresponds to the position of the tiptoe.

Wherein, a layer of protective film is covered on the front sheet, and the protective film extends from the center area of the tiptoe to the root of the tongue to form an approximate triangle shape; the third buttonhole is arranged on the surface of the protective film.

According to the high-elasticity sports shoe and the sports shoe sole provided by the embodiment of the utility model, the insole is provided with the outer ring part, the protection part formed on the outer ring part corresponding to the heel part and the support part formed on the outer ring part corresponding to the outer side of the heel, the support part is designed into a V shape, two free ends of the support part are respectively and fixedly connected with the outer ring part, meanwhile, the protection part is arranged on the central axis of the heel and protrudes upwards, two ends of the protection part respectively extend towards two sides of the heel, and the height of the protection part is gradually reduced, so that the outer ring part structure of the insole is arranged into a streamline mountain-shaped support bottom, on one hand, the stability of the insole can be supported, the excessive deformation of the heel of the anti-skid insole is prevented, and the safety protection of feet is effectively provided; on the other hand, the resilience of the midsole can be enhanced, and the adaptive resilience and supporting function can be provided by combining the bending form of the structure of the foot of the human body. Furthermore, the outsole comprises anti-skid parts, the surfaces of the anti-skid parts are provided with different grooves or bulges according to the stress rule of feet in the movement process, and each anti-skid part is provided with different grooves or bulges according to the arranged position, so that the downward pressure and the buffer performance of the sole body in the stress state are increased, the grip force of the sole and the friction force in each direction are ensured, athletes can quickly respond when doing various foot actions, and the phenomenon of skidding cannot occur; the vamp realizes a special threading design and good coating performance through the design of the first button hole, the second button hole, the third button hole and the coating and fixing device.

Drawings

FIG. 1 is a schematic plan view of a highly elastic athletic shoe sole according to an embodiment of the present invention;

FIG. 2 is a schematic view showing the outer side structure of a highly elastic athletic shoe sole according to an embodiment of the present invention;

FIG. 3 is a schematic view showing the inner structure of a highly elastic athletic shoe sole according to an embodiment of the present invention;

FIG. 4 is a schematic view of the outer side structure of a highly elastic sports shoe according to an embodiment of the present invention;

FIG. 5 is a schematic view showing the inner structure of a highly elastic sports shoe according to an embodiment of the present invention;

FIG. 6 is a schematic view showing a heel side structure of a highly elastic sports shoe according to an embodiment of the present invention;

fig. 7 is a schematic view showing the structure of an upper of a highly elastic athletic shoe according to an embodiment of the present invention.

Detailed Description

First, the following explanation will be made of the prior art terms to which the present invention relates.

EVA (Ethylene Vinyl Acetate Copolymer) has a wide application field, and is particularly applied to shoe making industry, and is applied to soles and interior materials of medium-high-grade travel shoes, climbing shoes, slippers and sandals.

TPU (Thermoplastic polyurethane elastomers) is a high molecular material which is formed by jointly reacting and polymerizing diisocyanate molecules such as diphenylmethane diisocyanate (MDI) or Toluene Diisocyanate (TDI), macromolecular polyol and low molecular polyol (chain extender), has the properties 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 has a plurality of excellent functions such as high waterproofness, moisture permeability, wind resistance, cold resistance, bacteria resistance, mildew resistance, warmth retention, ultraviolet resistance, energy release and the like, thereby being a mature environment-friendly material.

In order to explain technical contents, structural features, and objects and effects of the present invention in detail, the present invention will be explained in detail below with reference to the accompanying drawings and embodiments.

Referring to fig. 1-3, a high-elasticity sports shoe sole 100 includes an outsole 1 and a midsole 2; wherein, the outsole 1 is connected below the midsole 2.

In the present embodiment, the outsole 1 is made of a 3D high-elastic material; the middle sole 2 is made of 3D rubber and plastic materials.

The outsole 1 comprises a first groove 11 and an anti-skid part 12, wherein the first groove 11 is formed in the center of the outsole 1, namely, the first groove extends towards the heel from the toe along the central axis A-A' of the sole; the anti-slip part 12 is formed on the ground contacting surface of the outsole 1, and the surface of the anti-slip part 12 is distributed with a plurality of second grooves 120 in a belt shape, so as to form anti-slip lines on the surface of the anti-slip part 12.

Specifically, the first recess 11 gradually increases in depth as it extends from the toe to the heel.

Further, the width of the first groove 11 gradually increases as it extends from the toe to the heel; the width of the first groove 11 is measured along a direction perpendicular to the central axis a-a' of the first groove 11.

In this embodiment, one end of the first concave groove 11 is disposed at the edge of the heel region corresponding to the ground contacting surface of the outsole 1, and the other end is disposed at the position of the heel center region corresponding to the ground contacting surface of the outsole 1.

The first groove 11 and the non-slip part 12 are integrally formed to form the outsole 1.

The anti-skid portion 12 is divided into a first anti-skid area 121, a second anti-skid area 122 and a third anti-skid area 123 by the first groove 11; the third anti-slip area 123 is disposed to cover an area from the heel center to the edge of the outsole 1, the first anti-slip area 121 is disposed to cover the inner side of an area formed from the forefoot tip to the heel center of the outsole 1, and the second anti-slip area 122 is disposed to cover the outer side of the area formed from the forefoot center to the heel center of the outsole 1.

The ground contact surface of the first anti-skid area 121 is distributed with a plurality of strip-shaped second grooves 120 and a plurality of annular third grooves 124; specifically, the plurality of circular third grooves 124 are arranged in a nested arrangement manner corresponding to the positions of the roots of the metatarsal bones of the femurs, the second grooves 120 distributed in the first anti-slip region 121 contacting the ground are arc-shaped, and the centers of circles of the plurality of third grooves 124 are taken as the centers of circles of arcs and are sequentially distributed along the third groove 124 located on the outermost ring.

The plurality of second grooves 120 in the shape of strips distributed on the ground contact surface of the second anti-slip region 122 are linear and are sequentially arranged in parallel to each other along a direction perpendicular to the central axis a-a'.

The plurality of strip-shaped second grooves 120 distributed on the ground contact surface of the third anti-slip region 123 are linear and are sequentially arranged in parallel with each other along the direction perpendicular to the central axis a-a'.

The outsole 1 is further provided with a fourth groove 13, the fourth groove penetrates through the outsole 1 along a direction perpendicular to the central axis A-A', the fourth groove is arranged corresponding to the transition region from the arch of the foot to the heel of the foot, and the first anti-slip region 121, the second anti-slip region 122 and the third anti-slip region 123 are isolated from each other respectively.

In this embodiment, the ground contact surface of the first anti-slip region 121 is further provided with a fifth groove 125, which is disposed outside and around the third groove 124 located at the outermost ring, and the fifth groove 125 is a circular arc-shaped groove, so as to separate the third groove 124 from the second groove 123. Further, the distribution direction of the plurality of second grooves 123 corresponding to the arch region and disposed on the first anti-slip region 121 to touch the ground is opposite to the distribution direction of the plurality of second grooves 123 corresponding to the forefoot region and disposed on the first anti-slip region 121 to touch the ground.

In this embodiment, the ground contact surface of the third anti-slip region 123 is further provided with a plurality of sixth grooves 126 which are approximately V-shaped, and are sequentially distributed in parallel to each other in adjacent regions of the third anti-slip region 123, the first anti-slip region 121, and the second anti-slip region 122, and form a preset included angle with the plurality of second grooves 120 distributed on the ground contact surface of the third anti-slip region 123.

Further, a logo printing area 127 is further arranged in the center of the area where the plurality of sixth grooves 126 are distributed, and the surface of the logo printing area 127 is smooth and is used for printing logos.

In the present embodiment, the outer edge of the ground contacting end of the protrusion formed by each of the first groove 11, the second groove 120, the third groove 124, the fourth groove 13, the fifth groove 125, and the sixth groove 126 distributed on the first outsole 11 is substantially flush.

The antiskid parts 12 with the strip-shaped grooves distributed on the surface are arranged on the ground contact surface of the outsole 1, so that the grip force of the sole and the friction force in the forward and backward directions are ensured; simultaneously, the V style of calligraphy recess that the ring that distributes through first antiskid region changes recess, third antiskid region distributes guarantees that the sole can not appear the condition of transversely skidding when the motion, can ensure that the sportsman can both make the reaction fast when doing various foot actions, the phenomenon that can not appear skidding. Further, offer first recess 13 on outsole 1, can be when the step motion is buckled, be unlikely to buckle because the horizontal transition of the antiskid recess that sets up appears, can strengthen the intensity of sole, guaranteed that the sportsman can both keep the stability of sole when doing various foot actions, can not appear excessive bending and turn round the phenomenon of foot, simultaneously, the pliability and the stability of reinforcing sole.

Referring to fig. 2 to 3, the midsole 2 includes an outer ring portion 21, a protection portion 22 formed on the outer ring portion 21 corresponding to a heel portion, and a support portion 23 formed on the outer ring portion 21 corresponding to an outer side of the heel. The outer ring part 21 and the protection part 22 are integrally formed and made of 3D rubber and plastic materials, so that the sports shoe has the characteristics of lightness and comfort, and the sole has high elasticity, high strength and high elongation performance, and also has good flexibility and excellent heat-resistant aging performance. The support 23 is made of TPU material.

Specifically, the support portion 23 is V-shaped, and two free ends thereof are respectively fixedly connected with the outer ring portion 21.

The heel adopts the design of the cyclic annular TPU of half enclose, prevents the excessive deformation of insole heel, effectively provides safety protection.

Referring to fig. 6, the protection part 22 is disposed around the heel 422, and specifically, two ends of the protection part 22 extend to two sides of the heel 422, and a portion located at a central axis of the heel 422 protrudes upward, so as to form a shape with a high middle and low two sides.

Referring to fig. 4 to 7, a pair of high-elasticity sports shoes 400 includes a shoelace 41, wherein the lower side of the shoelace 41 is tightly attached to a vamp 42, an eyelet 43 is reserved inside the vamp 42, and the shoelace 41 is connected to the eyelet 43 in a penetrating manner; the underside of the upper 42 is fitted snugly against the upper side of the tongue 44.

A front piece 421 is fixedly connected to the front side of the upper 42, and a mesh surface is sewn and fixed inside the front piece 421; the rear side of the upper 42 is fixedly connected with a heel 422, and the heel 422 part is fixedly connected with the outer ring part 21.

A first lifting belt 423 and a second lifting belt 424 are further arranged at the center of the heel 422; specifically, both ends of the first lifting strap 423 are disposed around both sides of the heel 422 to be sewn on the heel 422 in a lateral direction; the second strap 423 is provided along a central axis of the heel 422 to be vertically sewn to the heel 422. Further, one end of the second strap 424 is fixed to the guard portion 22, extends upward along the central axis of the heel 422, and covers a portion of the surface of the first strap 423. In this embodiment, the first and second carrying straps 423, 424 are made of a semi-transparent woven material.

The two sides of the upper 42 are respectively sewn and fixed with the two sides of the heel 422 correspondingly to form the whole sports shoe 400. A first wrapping sheet 425 and a second wrapping sheet 426 are further respectively arranged on the surfaces of the inner side and the outer side of the upper 42; the first wrapping sheet 425 is approximately triangular, one end of the first wrapping sheet is fixedly connected with the outer ring part 21 corresponding to the outer side of the front sole, and the other end of the first wrapping sheet extends to the central axis of the heel 422 and is fixedly connected with the central axis. The second wrapping sheet 426 is approximately triangular, one end of the second wrapping sheet is fixedly connected with the outer ring part 21 corresponding to the inner side of the front sole, and the other end of the second wrapping sheet extends to be fixedly connected with the heel 422 and keeps a preset distance from the central axis of the second wrapping sheet. In this embodiment, the first wrapping sheet 425 is made of a translucent film material, for example, HF-WV 04542P; the second wrapping sheet 426 is made of a leather material, for example, DE-41.

Further, a fixing device 427 is further disposed at the top end of the first wrapping sheet 425, and correspondingly, a wrapping band 428 is further disposed at the top end of the second wrapping sheet 426, one end of the wrapping band 428 is fixedly connected with the top end of the second wrapping sheet 426, and the other end extends along the shoe opening, and accordingly covers the tongue 44, the shoelace 41 and the shoelace eyelets 43, and is fixedly connected with the fixing device 427, so as to play a role in assisting tightening of the shoelace of the shoe opening and enhancing the shoe covering effect. In the present embodiment, the cover band 428 is made of a knitted material having elasticity, specifically, the cover band 428 has a width of 25 mm; the fixing device 427 is a buckle, one end of which is fixed on the surface of the first wrapping sheet 425, and the other end of which is fixedly connected with the free end of the wrapping sheet 428, so as to realize the effect of opening and buckling.

Further, the eyelet 43 includes a first eyelet 431, a second eyelet 432, and a third eyelet 433; wherein the first grommets 431 are provided in pairs on the upper 42, corresponding to both sides of the tongue 44; the second eyelets 432 are provided in pairs on the upper 42 and are respectively provided adjacent to the first and second wrapping sheets 425 and 426; the third button holes 433 are disposed on the front piece 422 and corresponding to the toe positions.

In this embodiment, the number of the first grommets 431 is 3, the number of the second grommets 432 is 1, and the number of the third grommets 433 is 1; wherein the third button hole 433 is made of TPU material.

Further, a protective film 429 is covered on the front sheet 421; the protective membrane 429 is made of a water-resistant material. Wherein the third grommet 433 is disposed on the surface of the protective film 429; specifically, the protective membrane 429 extends from the central region of the toe toward the root of the tongue 44 to form an approximately triangular shape.

In the present embodiment, the upper 42 is made of a breathable creel jacquard material and has good breathability.

By utilizing the utility model, the outer ring part, the protection part formed on the outer ring part corresponding to the heel part and the support part formed on the outer ring part corresponding to the outer side of the heel are arranged on the insole, the support part is designed into a V shape, two free ends of the support part are respectively fixedly connected with the outer ring part, meanwhile, the protection part is arranged at the part of the central axis of the heel and protrudes upwards, two ends of the protection part respectively extend towards two sides of the heel, and the height of the protection part is gradually reduced, so that the outer ring structure of the insole is arranged into the streamline mountain-shaped support bottom, on one hand, the stability of the insole can be added, the excessive deformation of the heel of the anti-slip insole can be realized, and the safety protection of feet can be effectively provided; on the other hand, the resilience of the midsole can be enhanced, and the adaptive resilience and supporting function can be provided by combining the bending form of the structure of the foot of the human body. Furthermore, the outsole comprises anti-skid parts, the surfaces of the anti-skid parts are provided with different grooves or bulges according to the stress rule of feet in the movement process, and each anti-skid part is provided with different grooves or bulges according to the arranged position, so that the downward pressure and the buffer performance of the sole body in the stress state are increased, the grip force of the sole and the friction force in each direction are ensured, athletes can quickly respond when doing various foot actions, and the phenomenon of skidding cannot occur; the vamp realizes a special threading design and good coating performance through the design of the first button hole, the second button hole, the third button hole and the coating and fixing device.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all equivalent structures or equivalent transformations made by the present specification and the attached drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (10)

1. A high-elasticity sports shoe sole comprises an outsole and a midsole, wherein the outsole is connected to the lower surface of the midsole; it is characterized in that the outsole comprises:

the first groove is formed in the ground contact surface of the outsole and correspondingly formed in an area extending from the tiptoe position to the heel position along the central axis of the sole; when the first groove extends from the tiptoe part to the heel part along the central axis of the sole, the depth and the width are gradually increased;

the anti-skid part is arranged on the ground contacting surface of the outsole, and a plurality of strip-shaped second grooves are distributed on the surface of the anti-skid part;

the middle sole comprises an outer ring part, a protection part formed on the outer ring part corresponding to a heel part, and a supporting part formed on the outer ring part corresponding to the outer side of the heel; the supporting part is V-shaped, and two free ends of the supporting part are fixedly connected with the outer ring part respectively.

2. The highly elastic athletic shoe sole of claim 1, wherein one end of the first groove is disposed at an edge of the outsole ground-contacting surface corresponding to a toe region, and the other end of the first groove is disposed at a position of the outsole ground-contacting surface corresponding to a center region of the heel;

the first groove and the anti-slip part are integrally formed.

3. The highly elastic athletic shoe sole of claim 1, wherein the non-slip portion is divided by the first groove into:

the first anti-slip area is correspondingly arranged on the inner side of an area formed by the toe of the front sole and the heel center of the outsole; a plurality of arc-shaped strip-shaped second grooves and a plurality of annular third grooves are distributed on the ground contact surface, the plurality of annular third grooves are arranged in a nesting arrangement mode corresponding to the positions of the roots of the metatarsus of the femurs, and the plurality of second grooves are distributed in sequence along the third grooves positioned on the outermost ring by taking the circle centers of the plurality of third grooves as the circle centers of arcs;

the second antiskid area is arranged at the outer side of the area formed from the center of the front sole to the center of the heel of the outsole correspondingly, and is in contact with a plurality of linear banded second grooves distributed on the ground and arranged in sequence in parallel along the direction vertical to the central axis;

and the third anti-skid area is correspondingly arranged from the center of the heel to the edge of the outsole, is in contact with a plurality of linear strip-shaped second grooves distributed on the ground, and is sequentially arranged in parallel along the direction vertical to the central axis.

4. The highly elastic athletic shoe sole of claim 3, wherein a fourth groove is formed in the outsole, extends through the outsole in a direction perpendicular to the central axis, and is disposed in correspondence to the arch-to-heel transition region, and separates the first anti-slip region, the second anti-slip region, and the third anti-slip region from each other;

the ground contact surface of the first anti-skid area is also provided with a fifth groove which is arranged at the outer side of the third groove positioned at the outermost ring and surrounds the third groove, and the fifth groove is a circular arc-shaped groove so as to separate the third groove from the second groove;

the ground contact surface of the third anti-skid area is also provided with a plurality of sixth grooves which are similar to V-shaped, the sixth grooves are distributed in the adjacent areas of the third anti-skid area, the first anti-skid area and the second anti-skid area in parallel in sequence, and a preset included angle is formed between the sixth grooves and the plurality of second grooves distributed on the ground contact surface of the third anti-skid area.

5. The sole of claim 1, wherein the protective portion is disposed around the surface of the heel, and is upwardly protruded from a central axis of the heel, and has two ends extending toward two sides of the heel respectively and gradually decreasing in height.

6. A high-elasticity sports shoe comprises a shoelace and a vamp which is tightly attached to the lower side of the shoelace; an eyelet is reserved inside the vamp, a lace is connected inside the eyelet in a penetrating way, 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 as claimed in any one of claims 1 to 5.

7. The high-elasticity sneaker according to claim 6, wherein a first wrapping sheet and a second wrapping sheet are further provided on the inner and outer surfaces of the upper, respectively; the first wrapping sheet is approximately triangular, one end of the first wrapping sheet is fixedly connected with the outer ring part corresponding to the outer side of the front sole, and the other end of the first wrapping sheet extends to the central axis position of the heel and is fixedly connected with the outer ring part;

the second wrapping sheet is approximately triangular, one end of the second wrapping sheet is fixedly connected with the outer ring part corresponding to the inner side of the front sole, and the other end of the second wrapping sheet extends to be fixedly connected with the heel and keeps a preset distance from the central axis of the second wrapping sheet.

8. The high-elasticity sneaker according to claim 7, wherein a fixing means is further provided at the top end of the first wrapping sheet, and a wrapping band is further provided at the top end of the second wrapping sheet, one end of the wrapping band being fixedly connected to the top end of the second wrapping sheet, and the other end thereof extending along the throat to cover the tongue, the shoelace, and the eyelets to be fixedly connected to the fixing means.

9. The highly elastic athletic shoe of claim 8, wherein a front piece is fixedly attached to the front side of the upper; the eyelet button comprises a first button hole, a second button hole and a third button hole; the first buttonholes are arranged on the vamp in pairs and distributed corresponding to two sides of the tongue; the second buttonholes are arranged on the vamp in pairs and are respectively adjacent to the first wrapping sheet and the second wrapping sheet; the third button hole is arranged on the front piece and corresponds to the position of the tiptoe.

10. The highly elastic athletic shoe of claim 9, wherein said front piece is covered with a protective membrane extending from a central region of the toe to a root of said tongue to form an approximately triangular shape;

the third buttonhole is arranged on the surface of the protective film.