CN216123917U - Can improve sports shoes and sports shoes sole of antiskid performance - Google Patents

Abstract

The utility model discloses a sports shoe and a sports shoe sole capable of improving anti-skid performance, wherein the sports shoe sole comprises two outsole bodies, wherein the outsole bodies comprise front sole bodies and rear heel areas which correspondingly cover the outsole bodies; the first big sole is divided into three anti-skid areas corresponding to the inner side of the front sole, the toes and the outer side area of metatarsal of the front sole by the first groove, and a plurality of linear anti-skid protrusions vertical to the central axis of the big sole are respectively distributed in the first anti-skid area and the second anti-skid area in parallel; a plurality of wave-shaped third anti-skidding bulges are distributed in the third anti-skidding area in parallel and perpendicular to the central axis of the outsole; the second big sole is divided into two anti-skidding areas which cover the inner side and the outer side of the heel of the second big sole by the second grooves, the ground contact surface of the fourth anti-skidding area is smooth, and a plurality of round anti-skidding grooves are distributed in the fifth anti-skidding area in a matrix mode. The utility model can provide matched friction force in a targeted manner, and ensures that the athlete can keep enough anti-skid performance when realizing flexible movement.

Description

Can improve sports shoes and sports shoes sole of antiskid performance

Technical Field

The utility model relates to the technical field of shoes, in particular to a sports shoe and a sports shoe sole capable of improving anti-skid performance.

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.

In order to improve the friction force between the shoes and the ground during walking and reduce the impact on foot joints during walking, particularly in high-strength sports, the sole needs to provide certain elasticity, and most importantly, enough friction force and grip force are provided to match with the explosive actions of players in all directions, for example, in badminton, when a player hits a ball behind the back, the player needs to withdraw quickly, when the player does the withdrawal action, the sole mainly depends on the toe part of the half sole to provide the friction force, when the player does the sudden stop and steering action, the half sole of the sole needs to provide enough grip force and also provides lateral friction force, and the sole of the existing sports shoes cannot meet the existing requirements.

SUMMERY OF THE UTILITY MODEL

The utility model mainly solves the technical problem of providing the sports shoes and the sports soles capable of improving the anti-skid performance, and the anti-skid performance of the base layer of the soles can be improved, so that athletes can quickly respond to various foot actions without skidding.

In order to solve the technical problems, the utility model adopts a technical scheme that: a sports shoe sole capable of improving anti-skid performance comprises an outsole, a midsole and a middle waist, wherein the outsole is connected to the lower surface of the midsole, the middle waist is arranged corresponding to an arch area, and the outsole comprises: the first outsole is arranged corresponding to a front sole area covering the outsole, the second outsole is arranged corresponding to a heel area covering the outsole, the first groove is formed in the first outsole, and the second groove is formed in the second outsole and communicated with the middle waist; the middle waist is arranged between the first outsole and the second outsole; the first grooves divide the first outsole into a first anti-skid area correspondingly covering the inner side area of the sole of the first outsole, a second anti-skid area correspondingly covering the tiptoe area of the first outsole and a third anti-skid area correspondingly covering the outer side area of the metatarsal bones of the sole of the first outsole; a plurality of linear first anti-skid protrusions are distributed on the ground contact surface of the first anti-skid area, and the first anti-skid protrusions are distributed in parallel with each other and are parallel to the central axis of the outsole; a plurality of linear second anti-skid protrusions are distributed on the ground contact surface of the second anti-skid area, are parallel to each other and are perpendicular to the central axis of the outsole; a plurality of wave-shaped third anti-skidding bulges are distributed on the ground contact surface of the third anti-skidding area, are parallel to each other and are vertical to the central axis of the outsole; the second groove divides the second outsole into a fourth anti-skidding area correspondingly covering the inner side area of the heel of the second outsole and a fifth anti-skidding area correspondingly covering the outer side area of the heel of the second outsole; the ground contact surface of the fourth anti-slip area is smooth, and a plurality of round anti-slip grooves are distributed in the ground contact surface matrix of the fifth anti-slip area.

The cross section of the second anti-skid protrusions is triangular, a side edge of each second anti-skid protrusion, which is close to the toe region, forms a preset included angle with the ground, and the other side edge, which is opposite to the side edge, of each second anti-skid protrusion is perpendicular to the ground; the cross section of the third anti-sliding bulge is triangular, a preset included angle is formed between one side edge of the third anti-sliding bulge, which is close to the toe region, and the other side edge, which is opposite to the side edge, of the third anti-sliding bulge and the ground, is perpendicular to the ground.

The included angle formed by the second anti-skid protrusions and the ground is gradually increased along with the distribution of the second anti-skid protrusions from the tiptoe area to the center of the sole of the foot; and an included angle formed by the third anti-skidding bulge and the ground is gradually increased along with the distribution of the third anti-skidding bulge from the center area of the sole to the arch area.

The first groove is approximately Y-shaped, is arranged in the central area of the first outsole and separates the first anti-slip area, the second anti-slip area and the third anti-slip area from each other.

Wherein the first groove is filled with a first reinforcing strip; and respectively arranging a second reinforcing strip in one or more of the first anti-slip area, the second anti-slip area and the third anti-slip area.

Wherein the midsole comprises: the heel-supporting shoe comprises an outer ring part, a first supporting part and a second supporting part, wherein the first supporting part is arranged between the outer ring part and the outsole and corresponds to a heel part; the surface of the outer ring part is also provided with a first supporting plate and a second supporting plate corresponding to the inner side and the outer side of the front sole respectively; first backup pad, second backup pad are the trapezium shape, fixed connection in the junction of insole and outsole, and along the surface of outer ring portion upwards extends, and with touch the contained angle that ground formed a default angle.

The first supporting plate and the second supporting plate are respectively arranged corresponding to two free end positions of the first groove, which are positioned at two sides of the front sole, and the free ends respectively extend from two sides of the edge of the first outsole to the outer ring part so as to form grooves in the first supporting plate and the second supporting plate; and a third reinforcing strip is respectively filled in each groove.

In order to solve the technical problem, the utility model adopts another technical scheme that: a sports shoe capable of improving anti-skid performance comprises a shoelace and an upper 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.

The first lifting belt is arranged along the central axis of the heel, one end of the first lifting belt is fixed on the second supporting part and extends upwards along the central axis of the heel; the heel is also provided with an arc-shaped belt-shaped wrapping part, and two ends of the wrapping part are arranged around two sides of the heel so as to be transversely sewn on the heel; and a second lifting belt is arranged on the surface which extends upwards along the central axis of the heel and covers part of the covering part.

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 and the second wrapping sheet are both composed of a net surface and a wrapping belt surrounding the net surface, two ends of the wrapping belt are fixedly connected with two ends of the first supporting plate respectively so as to form a closed area with the outer annular portion, and the net surface covers the closed area.

According to the sports shoe and the sports shoe sole capable of improving the anti-skid performance, the outsole is divided into the plurality of anti-skid areas through the first groove and the second groove according to the force rule of the sole during sports, the anti-skid texture formed by the anti-skid protrusions is arranged on the ground contact surface of each anti-skid area, further, the anti-skid texture of different areas is adjusted through adjusting the distance and the angle between the anti-skid protrusions distributed in different areas and the included angle formed by one side edge of each anti-skid protrusion and the ground contact surface, so that the friction force is correspondingly changed, the sole can pertinently provide matched friction force when a player touches the front sole and the heel, and the sole can maintain enough grip performance and anti-skid performance when the player rotates to any direction. The grooves formed in the first outsole and the second outsole are filled with reinforcing belts, so that on one hand, the antiskid regions provided with different antiskid protrusions can be separated, and effective antiskid parts are arranged according to different requirements of different sole regions on friction force; on the other hand, the stability of the front sole of the sole can be enhanced, so that when the athlete takes the action of bending the sole, the foot twisting caused by the excessive bending of the sole can not be avoided.

Drawings

FIG. 1 is a schematic plan view of a sports shoe sole capable of improving anti-slip performance according to an embodiment of the present invention;

FIG. 2 is a schematic structural view of the outer side of a sports shoe sole capable of improving anti-slip performance according to an embodiment of the present invention;

FIG. 3 is a schematic view of the medial side of a sports shoe sole capable of improving slip resistance according to an embodiment of the present invention;

FIG. 4 is a schematic view showing a structure of an outer side of a sports shoe capable of improving anti-slip performance according to an embodiment of the present invention;

FIG. 5 is a schematic view showing the inner structure of a sports shoe capable of improving anti-slip performance according to an embodiment of the present invention;

fig. 6 is a schematic view showing a heel side structure of a sports shoe capable of improving anti-slip performance 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.

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 to 3, a sports shoe sole 100 capable of improving anti-slip performance includes: a big sole 1, a middle sole 2 and a middle waist 3; wherein, the middle sole 2 is connected with the upper surface of the outsole 1; the middle waist 3 is arranged corresponding to the arch area.

The outsole 1 is made of rubber materials, the midsole 2 is made of ultra-light materials, the sport shoes are light and comfortable, and particularly the outsole 1 is made of rubber materials with the thickness of 6 mm. The middle waist 3 is arranged at the position corresponding to the arch of foot, and the hardness of the material for manufacturing the middle waist 3 is greater than the hardness of the material for manufacturing the outsole 1 and the midsole 2.

The outsole 1 comprises a first outsole 11 correspondingly covering a forefoot area and a second outsole 12 correspondingly covering a heel area, and particularly, the middle waist 3 separates the first outsole 11 and the second outsole 12 from each other; the ground contact surfaces of the first outsole 11 and the second outsole 12 are provided with anti-skid protrusions so as to form corresponding anti-skid lines.

Further, the outsole 1 further includes a first groove 110 formed in the first outsole 11, and the first groove 110 divides the first outsole 11 into a first anti-slip area 111 correspondingly covering a medial area of a forefoot, a second anti-slip area 112 correspondingly covering a toe area, and a third anti-slip area 113 correspondingly covering a lateral area of metatarsals of the forefoot.

A plurality of first anti-slip protrusions 1110 are distributed on the ground contact surface of the first anti-slip region 111, and in the present embodiment, the shape of the first anti-slip protrusions 1110 is a linear shape and is distributed in the first anti-slip region 111 in parallel; each first anti-slip bulge 1110 is parallel to the central axis a-a' of the outsole 1.

A plurality of second anti-slip protrusions 1120 are distributed on the ground contact surface of the second anti-slip region 112, and in this embodiment, the second anti-slip protrusions 1120 are linear and are sequentially distributed in the second anti-slip region 112 in parallel. Each second stud 1120 is perpendicular to the central axis a-a' of the outsole 1. In this embodiment, each second anti-skid protrusion 1120 has a triangular cross section, and a plurality of second anti-skid protrusions 1120 form a serrated anti-skid pattern when distributed in the second anti-skid region 112. Specifically, a side of the second stud 1120 close to the toe region forms a predetermined angle with the ground, and the other side opposite to the side is perpendicular to the ground. Further, the predetermined angle between each second anti-skid protrusion 1120 and the ground surface may be the same or different. In this embodiment, the included angle gradually increases as the second anti-slip projection 1120 is distributed from the toe region to the center of the sole. Accordingly, the second anti-slip region 112 has a gradually larger anti-slip pattern from the toe region to the sole center, and the friction force is increased accordingly.

A plurality of third anti-slip protrusions 1130 are distributed on the ground contact surface of the third anti-slip region 113, and each third anti-slip protrusion 1130 is perpendicular to the central axis a-a' of the outsole 1. In this embodiment, the third anti-slip protrusions 1130 have a wavy ring shape, and the plurality of third anti-slip protrusions 1130 are sequentially distributed in the third anti-slip region 113 in parallel with each other. In this embodiment, each third anti-slip bump 1130 has a triangular cross-section, and a plurality of third anti-slip bumps 1130 form a serrated anti-slip pattern when the third anti-slip regions 113 are distributed. Specifically, a side of the third anti-slip bulge 1130 close to the toe region forms a predetermined included angle with the ground, and the other side opposite to the side is perpendicular to the ground. Further, the predetermined angle between each third anti-slip protrusion 1130 and the ground surface may be the same or different. In this embodiment, the included angle gradually increases as the third anti-slip bulge 1130 is distributed from the center region of the sole of the foot to the arch region of the foot. Accordingly, the third anti-slip region 113 has a gradually increased anti-slip pattern from the toe region to the sole center, and the friction force is increased accordingly.

In the present embodiment, the first groove 110 is substantially Y-shaped, is disposed in a central region of the first outsole 11, and separates the first non-slip region 111, the second non-slip region 112, and the third non-slip region 113 from each other.

The outsole 1 further comprises a second groove 120 formed in the second outsole 12, and the second groove 120 is communicated with the middle waist 3; the second recess 120 divides the second outsole 12 into a fourth non-slip region 121, which corresponds to cover the inner region of the heel, and a fifth non-slip region 122, which corresponds to cover the outer region of the heel. The contact surface of the fourth anti-slip area 121 is smooth, the contact surface of the fifth anti-slip area 122 is distributed with anti-slip grooves 1220, in this embodiment, the anti-slip grooves 1220 are circular, and are distributed in the fifth anti-slip area 122 in a matrix. Further, the fifth anti-slip region 122 is L-shaped and is disposed along the lateral heel edge to the rear heel edge.

In the present embodiment, the shape of the middle waist 3 is a zigzag shape, and is distributed between the first and second large soles 11 and 12 to separate the first and second large soles 11 and 12 from each other.

In this embodiment, the first groove 110 is filled with a first reinforcing strip 114; specifically, three free ends of the Y-shaped first groove 110 are respectively filled with one first reinforcing strip 114, and one or two free ends thereof may be respectively filled with one first reinforcing strip 114 according to design requirements.

Further, a second reinforcing strip 115 is respectively arranged in one or more of the first non-slip area 111, the second non-slip area 112 and the third non-slip area 113; in the present embodiment, the number of the second reinforcing strips 115 is 3, and one second reinforcing strip 115 is provided in each of the first non-slip region 111, the second non-slip region 112, and the third non-slip region 113.

The first and second reinforcing strips 114 and 115 are made of a material having a hardness greater than that of the material of the first outsole 11.

The middle sole 2 comprises an outer ring part 21, a first supporting part 22 arranged between the outer ring part 21 and the outsole 1 corresponding to the heel part, and a second supporting part 23 arranged on the first supporting part 22.

In the present embodiment, the second support portion 23 is made of a rubber material.

Further, a first support plate 24 and a second support plate 25 are provided on the surface of the outer ring portion 21 in regions corresponding to the inner side and the outer side of the forefoot. The surface of the guard 22 is also provided with technical textures. In the present embodiment, the first support plate 24 and the second support plate 25 are both in a trapezoid shape, and are fixedly connected at the connection position of the midsole 2 and the outsole 1, and extend upward along the surface of the outer ring portion 21, and form a preset included angle with the ground contacting surface. The first support plate 24 and the second support plate 25 are both made of rubber materials.

Further, the first support plate 24 and the second support plate 25 are respectively disposed at two free ends 110a and 110b of the first groove 110 on two sides of the sole of foot, and correspondingly, the free ends 110a and 110b respectively extend from two sides of the edge of the first outsole 11 to the outer ring portion 21 to form the grooves 110a and 110b in the first support plate 24 and the second support plate 25. Each of the grooves 110a, 110b is further filled with a third reinforcing strip 116, 117 for reinforcing the supporting strength of the first and second supporting plates 24, 25, respectively.

In the present embodiment, the first support plate 24 and the second support plate 25 cover the outer ring portion 21 and a partial region of the upper 42, and the third reinforcing strips 116 and 117 cover the outer ring portion 21 and do not extend to the region of the upper 42.

The existence of the first outsole 11 and the second outsole 12 with the anti-skid textures on the surfaces enables a player to be in a front sole and heel touchdown state, and when the player rotates towards any direction, the sole can provide enough friction force so as to ensure that the player can keep enough ground gripping performance and anti-skid performance when the player can realize flexible movement. The middle waist 3 is arranged at the arch part, so that the stability of the sole can be kept when the athlete does various foot actions, and the phenomenon of foot twisting caused by over bending can be avoided. The first outsole 11 and the second outsole 12 are provided with grooves and filled with reinforcing belts, so that on one hand, the antiskid regions provided with different antiskid bulges can be separated, and effective antiskid parts are arranged according to different requirements of different sole regions on friction force; on the other hand, the stability of the front sole of the sole can be enhanced, so that when the athlete takes the action of bending the sole, the foot twisting caused by the excessive bending of the sole can not be avoided.

Further, set up first supporting part 22 that first ultralight material made and second supporting part 23 that rubber materials made in the heel position for the sportsman provides good resilience force when the heel lands, plays the cushioning effect, does not receive the motion damage with the protection foot, has promoted the travelling comfort and the experience nature of motion simultaneously.

Referring to fig. 4 to 6, a sports shoe 400 capable of improving anti-slip performance includes a shoelace 41, wherein a vamp 42 is closely attached to a lower side of the shoelace 41, 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; a heel 422 is fixedly connected to the rear side of the upper 42, and the heel 422 is fixedly connected to the second supporting portion 23.

In this embodiment, the upper 42 is made of multiple layers of mesh material, such as HF-SD 9381.

A first lifting belt 423 is further arranged at the center of the heel 422; specifically, the first strap 423 is disposed along a central axis of the heel 422 to be vertically sewn to the heel 422. Further, one end of the first strap 423 is fixed to the second support portion 23 and extends upward along the central axis of the heel 422. In this embodiment, the first strap 423 is made of a woven material, and in particular, the first strap 423 is made of a 15mm wide woven material.

The heel 422 is also provided with a wrapping part 424; specifically, the wrapping part 424 is in the shape of an arc belt, and two ends of the wrapping part are arranged around two sides of the heel 422 so as to be transversely sewn on the heel 422; further, the second strap 424 extends upward along the central axis of the heel 422 and covers a surface of the cover 424. In this embodiment, the covering 424 is made of a leather 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; wherein the first wrapping sheet 425 and the second wrapping sheet 426 are both approximately elliptical in shape. The first wrapping sheet 425 is composed of a net surface 4251 and a wrapping band 4252 surrounding the net surface 4251, two ends of the wrapping band 4252 are fixedly connected with the outer ring part 21 respectively to form a closed area with the outer ring part 21, and the net surface 4251 covers the closed area. Specifically, both ends of the cover tape 4252 are respectively disposed at both ends of the first support plate 25. In this embodiment, the mesh 4251 is made of a single layer of woolen mesh material and the wrap 4252 is made of TPU material.

The second wrapping sheet 426 is also disposed on the inner side of the upper 42 in the same manner, and will not be described herein.

Because vamp 42 is made by the mesh material, and the material is softer, sets up cladding part respectively in vamp 42's both sides, heel, also is in order to consolidate vamp both sides and heel, strengthens the cladding nature and the steadiness of vamp, avoids the foot to move back and forth in the shoes and appears spraining the injured condition such as foot.

According to the sole traction device, the outsole is divided into a plurality of anti-skidding areas through the first groove and the second groove according to the sole stress rule during movement, anti-skidding textures formed by anti-skidding protrusions are arranged on the ground contact surface of each anti-skidding area, and further, the anti-skidding textures in different areas are adjusted by adjusting the distance and the angle between the anti-skidding protrusions distributed in different areas and the angle between one side edge of each anti-skidding protrusion and the ground contact surface, so that the friction force is correspondingly changed, the sole can pertinently provide matched friction force when a player touches the ground at the front sole and the heel of the player, and the player can keep enough ground gripping performance and anti-skidding performance when the player rotates in any direction. The grooves formed in the first outsole and the second outsole are filled with reinforcing belts, so that on one hand, the antiskid regions provided with different antiskid protrusions can be separated, and effective antiskid parts are arranged according to different requirements of different sole regions on friction force; on the other hand, the stability of the front sole of the sole can be enhanced, so that when the athlete takes the action of bending the sole, the foot twisting caused by the excessive bending of the sole can not be avoided.

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. The utility model provides a can improve sports shoe sole of antiskid performance, includes outsole, insole and well waist, the outsole is connected the lower surface in insole, well waist corresponds the regional setting of arch of foot, its characterized in that, the outsole includes: the first outsole is arranged corresponding to a front sole area covering the outsole, the second outsole is arranged corresponding to a heel area covering the outsole, the first groove is formed in the first outsole, and the second groove is formed in the second outsole and communicated with the middle waist;

the middle waist is arranged between the first outsole and the second outsole;

the first grooves divide the first outsole into a first anti-skid area correspondingly covering the inner side area of the sole of the first outsole, a second anti-skid area correspondingly covering the tiptoe area of the first outsole and a third anti-skid area correspondingly covering the outer side area of the metatarsal bones of the sole of the first outsole; a plurality of linear first anti-skid protrusions are distributed on the ground contact surface of the first anti-skid area, and are distributed in parallel with each other and are parallel to the central axis of the outsole; a plurality of linear second anti-skid protrusions are distributed on the ground contact surface of the second anti-skid area, are parallel to each other and are perpendicular to the central axis of the outsole; a plurality of wave-shaped third anti-skidding bulges are distributed on the ground contact surface of the third anti-skidding area, are parallel to each other and are vertical to the central axis of the outsole;

the second groove divides the second outsole into a fourth anti-skidding area correspondingly covering the inner side area of the heel of the second outsole and a fifth anti-skidding area correspondingly covering the outer side area of the heel of the second outsole; the ground contact surface of the fourth anti-slip area is smooth, and a plurality of round anti-slip grooves are distributed in the ground contact surface matrix of the fifth anti-slip area.

2. The sports shoe sole according to claim 1, wherein the second stud has a triangular cross-section, one side of the second stud adjacent to the toe region forms a predetermined angle with the ground, and the other side of the second stud opposite to the one side is perpendicular to the ground;

the cross section of the third anti-sliding bulge is triangular, a preset included angle is formed between one side edge of the third anti-sliding bulge, which is close to the toe region, and the other side edge, which is opposite to the side edge, of the third anti-sliding bulge and the ground, is perpendicular to the ground.

3. The sports shoe sole according to claim 2, wherein the angle formed by the second stud bumps with the ground increases as the second stud bumps are distributed from the toe area to the center of the ball;

and an included angle formed by the third anti-skidding bulge and the ground is gradually increased along with the distribution of the third anti-skidding bulge from the center area of the sole to the arch area.

4. The sports shoe sole according to claim 2 or 3, wherein the first groove is approximately Y-shaped and is provided in a central region of the first outsole to separate the first, second and third slip prevention regions from each other.

5. The sports shoe sole capable of improving the grip performance according to claim 4, wherein said first groove is filled with a first reinforcing band;

and respectively arranging a second reinforcing strip in one or more of the first anti-slip area, the second anti-slip area and the third anti-slip area.

6. The sports shoe sole capable of improving slip resistance according to claim 1, wherein said midsole comprises: the heel-supporting shoe comprises an outer ring part, a first supporting part and a second supporting part, wherein the first supporting part is arranged between the outer ring part and the outsole and corresponds to a heel part;

the surface of the outer ring part is also provided with a first supporting plate and a second supporting plate corresponding to the inner side and the outer side of the front sole respectively;

first backup pad, second backup pad are the quadrangle shape, and fixed connection is in the junction of insole and outsole, and along the surface of outer ring portion upwards extends, and with touch the contained angle that ground formed the angle of predetermineeing the angle.

7. A sports shoe sole according to claim 6, wherein said first and second support plates are disposed at two free end positions of said first groove on both sides of the forefoot, respectively, said free ends extending from both sides of the edge of said first outsole to said outer ring portion, respectively, so as to form grooves in said first and second support plates; and a third reinforcing strip is respectively filled in each groove.

8. A sports shoe capable of improving anti-skid performance comprises a shoelace and an upper 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 7.

9. The sports shoe capable of improving the anti-skid performance according to claim 8, wherein a first lifting strap is further arranged at the center of the heel of the sports shoe, the first lifting strap is arranged along the central axis of the heel, and one end of the first lifting strap is fixed on the second supporting portion and extends upwards along the central axis of the heel; the second supporting part is arranged on the first supporting part which is arranged between the outer ring part of the middle sole and the outsole of the sports shoe and corresponds to the rear heel part;

the heel is also provided with an arc-shaped belt-shaped wrapping part, and two ends of the wrapping part are arranged around two sides of the heel so as to be transversely sewn on the heel; and a second lifting belt is arranged on the surface which extends upwards along the central axis of the heel and covers part of the covering part.

10. The sports shoe capable of improving the anti-skid performance according to claim 8, wherein the surfaces of the inner side and the outer side of the upper are further provided with a first wrapping sheet and a second wrapping sheet respectively;

the first wrapping sheet and the second wrapping sheet are both composed of a net surface and a wrapping belt surrounding the net surface, two ends of the wrapping belt are fixedly connected with two ends of the first supporting plate respectively so as to form a closed area with the outer ring part, and the net surface covers the closed area; the first supporting plate is arranged on the surface of the outer ring part of the insole of the sports shoe and corresponds to the inner side and the outer side area of the front sole, the first supporting plate is in a quadrilateral shape and is fixedly connected at the joint of the insole of the sports shoe and the outsole, and extends upwards along the surface of the outer ring part and forms an included angle with the ground.

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