CN220109252U - Sports shoes and soles capable of improving anti-skid property - Google Patents

Abstract

The utility model discloses a sports shoe and a sports sole capable of improving skid resistance, wherein the sports sole comprises an outsole, a midsole and a first supporting part; the outsole comprises a first outsole and a second outsole which respectively cover the front sole, the heel and the arch area, wherein a U-shaped first anti-skid part, a semicircular second anti-skid part and a rectangular third and fourth anti-skid part are arranged on the first outsole; the first anti-skid part surface matrix is provided with a plurality of diamond-shaped first bulges, the surfaces of the second, third and fourth anti-skid parts and the second outsole are uniformly provided with strip-shaped bulges with right triangle cross sections, and the inclined edges of the right triangle are formed to form a preset included angle with the ground contact surface. According to the utility model, through the strip-shaped bulges and the diamond-shaped bulges in different arrangement modes, each bulge forms a preset included angle with the ground contact surface, so that the friction coefficient of the sole can be greatly enhanced, and the athlete can quickly react when doing various foot actions without slipping.

Description

Sports shoes and soles capable of improving anti-skid property

Technical Field

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

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.

In order to improve the friction force between the shoes and the ground during walking and reduce the impact of the ground on foot joints during walking, particularly in high-strength sports, the sole not only needs to provide a certain elastic force, but also mainly provides enough friction force and ground grabbing force to match with the athlete to do explosive actions in all directions, for example, in badminton, when the athlete hits a back ball, the athlete needs to quickly withdraw, when the athlete does withdrawing, the sole mainly depends on the sole toe part to provide friction force, and when the athlete does scram steering action, the sole not only needs to provide enough ground grabbing force but also provides lateral friction force, and the current sports shoe sole cannot meet the existing requirements.

Disclosure of Invention

The utility model mainly solves the technical problem of providing the sports shoes and the sports soles which can improve the anti-skidding performance, and can ensure that athletes can quickly react when doing various foot actions without skidding.

In order to solve the technical problems, the utility model adopts a technical scheme that: an athletic shoe sole capable of improving skid resistance comprises an outsole, a midsole and a first supporting part, wherein the outsole and the first supporting part are 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 area from the front sole, the foot arch to the edge of the heel; comprising the following steps: the first anti-skid part is an anti-skid area similar to a U shape and correspondingly covers an area surrounding the edge of the toe; the ground contact matrix of the first anti-skid part is provided with a plurality of diamond-shaped first bulges, a preset included angle x is formed between the side edge of the first bulges in the height direction and the ground contact, x is larger than 0 and smaller than or equal to 90 degrees, and x is a natural number; the second anti-skid part is an anti-skid area which is approximately semicircular and corresponds to an area covering the edge of the heel, and the linear side edges of the semicircular anti-skid area are distributed on a connecting line from the center of the inner edge of the heel to the center of the outer edge of the heel; the ground contact matrix of the second anti-skid part is provided with a plurality of diamond-shaped second bulges, a preset included angle y is formed between the side edge of the second bulges in the height direction and the ground contact, y is 0< 90 degrees, and y is a natural number; the third anti-skid part is an approximately rectangular anti-skid area and is positioned in an area formed by one end of the first anti-skid part positioned at the outer side of the toe and one end of the second anti-skid part positioned at the outer side of the heel; the ground contact surface of the third anti-skid part is provided with a plurality of strip-shaped third bulges, and the length direction of the third bulges is vertical to the extending direction from the toe to the heel; the cross section of each third bulge is similar to a right triangle, a hypotenuse forming the right triangle forms a preset included angle m with the ground contact surface, 0<m degrees are smaller than or equal to 90 degrees, m is a natural number, and one right angle side forming the right triangle is arranged on the ground contact surface of the third anti-skid part; the fourth anti-skid part is an approximately rectangular anti-skid area and is positioned in an area formed by one end of the inner side of the toe of the first anti-skid part and one end of the inner side of the heel of the second anti-skid part; the ground contact surface of the fourth anti-skid part is provided with a plurality of strip-shaped fourth bulges, and the length direction of the fourth bulges is vertical to the extending direction from the toe to the heel; the cross section of each fourth bulge is similar to a right triangle, a hypotenuse forming the right triangle forms a preset included angle n with the ground contact surface, 0<n degrees are smaller than or equal to 90 degrees, n is a natural number, and one right angle side forming the right triangle is arranged on the ground contact surface of the fourth anti-skid part; the second outsole is an approximately elliptic anti-skid area and is arranged on the ground contact surface of the outsole, is positioned in the area formed by the first outsole and correspondingly covers the area which is not covered by the first outsole in the front sole area; the ground contact surface of the second outsole is provided with a plurality of strip-shaped fifth bulges, and the length direction of the fifth bulges is perpendicular to the extending direction from the toe to the heel; the cross section of each fifth bulge is similar to a right triangle, a hypotenuse forming the right triangle forms a preset included angle h with the ground contact surface, 0<h degrees are smaller than or equal to 90 degrees, h is a natural number, and one right angle side forming the right triangle is arranged on the ground contact surface of the second outsole; the first supporting part is arranged on the ground contact surface of the outsole, is positioned in the area formed by the first outsole and correspondingly covers the area, which is not covered by the first outsole, in the heel area.

Wherein, a plurality of third bulges distributed on the third anti-skid part and a plurality of fourth bulges distributed on the fourth anti-skid part are symmetrically distributed relative to the connecting line from the center of the toe to the center of the heel; the fifth bulges distributed on the second outsole and the third bulges distributed on the third anti-skid part are not positioned on the same straight line in the length direction; the fifth bulges distributed on the second outsole and the fourth bulges distributed on the fourth anti-skid part are not positioned on the same straight line in the length direction.

Wherein, distribute in a plurality of first arch of first antiskid portion, distribute in a plurality of second arch of second antiskid portion, distribute in a plurality of third arch of third antiskid portion, distribute in a plurality of antiskid fourth arch of fourth antiskid portion, and distribute in a plurality of fifth arch of second outsole, the outer fringe of ground contact end is located same horizontal plane basically.

Wherein, the midsole includes: an outer ring portion disposed on an upper surface of the outsole around the outsole edge; the second supporting part is arranged on the outer ring part and correspondingly covers the area formed by the connecting part of the front sole and the foot arch to the heel.

And the outer side surface of the outer ring part is also provided with a groove corresponding to the area covering the arch.

In order to solve the technical problems, the utility model adopts another technical scheme that: an athletic shoe capable of improving the skid resistance comprises a shoelace and a vamp which is closely attached to the lower side of the shoelace; the shoe comprises a shoe upper, a shoe tongue, a shoe sole, a shoelace, a shoe sole and a pair of sport soles, wherein the shoe upper is internally reserved with a shoe eyelet button, the shoelace is connected in a penetrating way in the shoe upper, and the lower side of the shoe upper is closely attached to the upper side of the shoe tongue.

The sports shoe sole comprises an outsole, a midsole and a first supporting part, wherein the outsole and the first supporting part are connected to the lower surface of the midsole; the midsole comprises: an outer ring portion disposed on an upper surface of the outsole around the outsole edge; the second supporting part is arranged on the outer ring part and correspondingly covers the area formed by the connecting part of the front sole and the foot arch to the heel; the front side of the vamp is fixedly connected with a front piece, and a net surface is sewn and fixed in the front piece; the back side fixedly connected with heel of vamp, the heel with the region fixed connection of heel edge is corresponded to supporting part.

Wherein, still include: the first protection part takes the central axis of the heel as the center, takes the connecting position of the outer ring part corresponding to the outer side/inner side edge of the front sole and the groove as the starting point, and takes the central position of the outer ring part corresponding to the heel edge as the ending point, and is fixedly connected with the positions corresponding to the outer ring part and the second support part; the outer side surface of the outer ring part is provided with the grooves corresponding to the area covering the arch; the second protection part takes the central axis of the heel as the center, takes the joint of the outer side/inner side edge of the heel corresponding to the second support part and the groove as the starting point, and takes the central position of the heel edge corresponding to the outer ring part as the ending point, is fixedly connected with the second support part and covers the surface of the first protection part.

Wherein, still include: the first cladding piece is a strip-shaped magic tape, one end of the first cladding piece is fixedly connected with one end of the first protection part, which is positioned at the outer side of the vamp, and the other end of the first cladding piece is fixedly connected with one end of the first protection part, which is positioned at the inner side of the vamp, so as to cladding the upper surface of the eyelet button arranged adjacent to the front piece.

Wherein, still include: and the third protection part is arranged along the edge of the front piece around the toe area, one end of the third 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 third protection part, which is positioned at the inner side of the front piece, is fixedly connected with one end of the first cladding piece, which corresponds to the inner side area of the front sole.

As described above, according to the difference of forces applied to the athlete's foot motion during the exercise, the first outsole and the second outsole covering different areas are divided on the outsole, so that the athlete can play a multi-directional anti-slip role by the friction force generated in all directions by the strip-shaped protrusions arranged in the pressure areas when the foot is landed and lifted, the phenomenon of slipping can not occur, the sole is used for enabling the athlete to quickly react when doing various foot motions, and each protrusion forms a preset included angle with the ground contact surface through the strip-shaped protrusions and the diamond-shaped protrusions in different arrangement modes, so that the friction coefficient of the sole can be greatly enhanced, and the complex requirements of the road conditions during the exercise are met. Further, when the groove is formed in the outer ring portion corresponding to the arch region, the groove can conform to the change trend of pressure generated by the sole and the ground when the foot of the athlete lands or lifts in the motion process, so that deformation occurs to disperse the pressure or recover the second deformation to provide restoring force, the rebound resilience performance of the sole is enhanced, the action change of the foot of the athlete in the motion process is met, the accurate buffering and rebound functions are achieved, the foot of the athlete is protected, and the motion performance of the athlete is improved.

Drawings

FIG. 1 is a schematic view of a construction of an athletic shoe sole capable of improving slip resistance in accordance with an embodiment of the present utility model;

FIG. 2 is a schematic view showing a lateral structure of an athletic shoe sole capable of improving slip resistance according to an embodiment of the present utility model;

FIG. 3 is a schematic view showing a medial structure of an athletic shoe sole capable of improving slip resistance according to an embodiment of the present utility model;

FIG. 4 is a schematic view of a lateral side structure of an athletic shoe capable of improving slip resistance in accordance with an embodiment of the present utility model;

fig. 5 is a schematic view showing a medial side structure of an athletic shoe capable of improving slip resistance 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.

EVA (Ethylene Vinyl Acetate Copolymer, ethylene-vinyl acetate copolymer) has a very wide application field, and is particularly applied to shoe soles and interior materials of middle-and-high-grade sneakers, mountain climbing shoes, slippers, sandals, and the like in the shoe industry.

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

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

Referring to fig. 1 to 3, a schematic structural diagram of an athletic sole capable of improving anti-skid performance according to an embodiment of the present utility model is shown, where the athletic sole 100 includes an outsole 1, a midsole 2, and a first support portion 3; wherein, the midsole 2 is connected to the upper surface of the outsole 1, and the first supporting part 3 is connected to the lower surface of the midsole 2.

The outsole 1 comprises:

the first outsole 11 is arranged on the ground contact surface of the outsole 1 and correspondingly covers the area from the front sole, the arch of the foot to the edge of the heel;

the second outsole 12 is disposed on the ground contact surface of the outsole 1, and the first outsole 11 is formed in a region corresponding to and covering a region of the front sole region which is not covered by the first outsole 11.

The first supporting part 3 is disposed on the ground contacting surface of the outsole 1, and the first outsole 11 is formed in the area corresponding to the area of the heel area not covered by the first outsole 11.

In this embodiment, the first outsole 11 and the second outsole 12 are both made of wear-resistant rubber materials to ensure wear-resistant and anti-slip properties of the athletic shoe.

Specifically, the first outsole 11 includes:

the first antiskid part 111 is an antiskid area similar to a U shape, is arranged on the ground contact surface of the first outsole 11, and correspondingly covers an area surrounding the edge of the toe; wherein, the ground contact surface of the first anti-slip part 111 is further provided with a plurality of diamond-shaped anti-slip first protrusions 1110 in a matrix distribution; each of the anti-slip first protrusions 1110 is a diamond-shaped protrusion, and the side edges forming the height direction of the protrusion form a preset included angle x with the ground contact surface, x is 0< x less than or equal to 90 °, and x is a natural number. In this embodiment, the size of each of the anti-slip first protrusions 1110 is substantially the same.

The second anti-slip part 112 is an anti-slip area with approximate semicircular shape, is arranged on the ground contact surface of the first outsole 11, and corresponds to an area covering the heel edge of the heel; wherein the straight side edges of the semicircular anti-slip areas of the second anti-slip part 112 are distributed along a line from the center of the medial edge of the rear heel to the center of the lateral edge of the rear heel; a plurality of diamond-shaped anti-skid second protrusions 1120 are also distributed on the ground contact surface of the second anti-skid portion 112 in a matrix manner; each of the anti-slip second protrusions 1120 is a diamond-shaped protrusion, and the side edges forming the height direction of the protrusion form a preset included angle y with the ground contact surface, wherein y is a natural number, and y is 0< 90 degrees. In this embodiment, each of the anti-slip second protrusions 1120 is substantially the same size.

The third anti-slip part 113 is an approximately rectangular anti-slip area, and is provided on the ground contact surface of the first outsole 11, and is located in an area formed by one end of the first anti-slip part 111 located outside the toe and one end of the second anti-slip part 112 located outside the heel; the ground contact surface of the third anti-slip part 113 is further provided with a plurality of anti-slip third protrusions 1130, and the third protrusions 1130 are elongated protrusions, and the length direction of each protrusion is perpendicular to the extending direction from the toe to the heel; further, the cross section of each third protrusion 1130 approximates to a right triangle, the hypotenuse of which forms a right triangle form a preset angle m,0<m is less than or equal to 90 ° with the ground contact surface, m is a natural number, and one right angle side forming a right triangle is disposed on the ground contact surface of the third anti-slip portion 113. In this embodiment, the dimensions of each of the anti-slip third protrusions 1130 are substantially the same.

The fourth anti-slip part 114 is an approximately rectangular anti-slip area, which is provided on the ground contact surface of the first outsole 11 and is formed by an end of the first anti-slip part 111 located inside the toe and an end of the second anti-slip part 112 located inside the heel; the ground contact surface of the fourth anti-slip part 114 is further provided with a plurality of anti-slip fourth protrusions 1140, and the plurality of fourth protrusions 1140 are elongated protrusions, and the length direction of each of the protrusions is perpendicular to the extending direction from the toe to the heel; further, the cross section of each of the fourth protrusions 1140 approximates to a right triangle, the hypotenuse of which forms a right triangle form a preset angle n,0<n is less than or equal to 90 ° with the ground contact surface, n is a natural number, and one right angle side forming a right triangle is disposed on the ground contact surface of the fourth anti-slip portion 114. In this embodiment, the size of each of the anti-slip fourth protrusions 1140 is substantially the same.

Further, the third protrusions 1130 and the fourth protrusions 1140 of the fourth anti-skid part 114 are symmetrically distributed with respect to the line connecting the center of the toe to the center of the heel.

The second outsole 12 is an approximately elliptical anti-slip area, is disposed on the ground contact surface of the first outsole 11, and is located in an area formed by the first anti-slip portion 111, the second anti-slip portion 112, the third anti-slip portion 113, and the first support portion 3; the ground contact surface of the second outsole 12 is further provided with a plurality of anti-slip fifth protrusions 120, the plurality of fifth protrusions 120 are elongated protrusions, and the length direction of each of the plurality of fifth protrusions is perpendicular to the extending direction from the toe to the heel; further, the cross section of each of the fifth protrusions 120 approximates to a right triangle, the hypotenuse of which forms a right triangle form a preset angle h with the ground contact surface, 0<h is less than or equal to 90 °, h is a natural number, and one right angle side forming a right triangle is disposed on the ground contact surface of the second outsole 12.

In the present embodiment, the fifth protrusions 120 distributed on the second outsole 12 and the third protrusions 1130 distributed on the third anti-slip portion 113 are not located on the same line in the length direction; likewise, the fifth protrusions 120 distributed on the second outsole 12 and the fourth protrusions 1140 distributed on the fourth anti-skid part 114 are not located on the same line in the length direction; that is, the fifth protrusions 120 distributed on the second outsole 12, the third protrusions 1130 distributed on the third anti-skid portion 113, and the fourth protrusions 1140 distributed on the fourth anti-skid portion 114 are staggered.

In this embodiment, the first protrusions 1110 distributed on the first anti-slip portion 111, the second protrusions 1120 distributed on the second anti-slip portion 112, the third protrusions 1130 distributed on the third anti-slip portion 113, the fourth protrusions 1140 distributed on the fourth anti-slip portion 114, and the fifth protrusions 120 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 athlete's foot motion during the exercise, the first outsole 11 and the second outsole 12 covering different areas are divided on the outsole 1, so that the athlete can play a multi-directional anti-slip role by the friction force generated in all directions by the belt-shaped protrusions arranged in the pressure areas when the foot lands and lifts, the phenomenon of slipping can not occur, the sole can be used for enabling the athlete to quickly react when doing various foot motions, and each protrusion forms a preset included angle with the ground contact surface through the belt-shaped protrusions and the diamond-shaped protrusions in different arrangement modes, so that the friction coefficient of the sole can be greatly enhanced, thereby meeting the requirement of complex road conditions during exercise.

The first supporting part 3 is disposed in a region formed by the first outsole 11 and the second outsole 12 corresponding to a region covered from the center of the arch to the center of the heel.

As described above, the support member is provided between the first outsole 11 and the second outsole 12, so that the sole 100 is formed as a stable support member, and the sole stabilizing function can be further enhanced.

Referring to fig. 2 to 3, the midsole 2 is made of a 3D high-elastic material.

The midsole 2 includes:

an outer ring portion 21 provided around the edge of the outsole 1 on the upper surface of the outsole 1,

a second supporting part 22 disposed on the outer ring part 21 and corresponding to a region formed by covering a junction of the front sole and the arch to the rear heel;

in this embodiment, the outer ring portion 21 and the second support portion 22 are made of MD material.

As described above, by providing the outer ring portion 21 and the second support portion 22 in the heel region corresponding to the outer ring portion 21, the rebound damping effect of the sole can be further enhanced by further forming the elastic region of the sole 100.

Further, the outer side surface of the outer ring portion 21 is further provided with a groove 210 corresponding to the region covering the arch.

As described above, when the outer ring portion 21 is provided with the groove corresponding to the arch region, the athlete generates downward pressure to the ground when the foot is landed during the exercise, and the groove can disperse the generated pressure in compliance with the downward pressure trend, thereby relieving the reaction force of the ground to the arch; when the athlete lifts the foot during the exercise, the plurality of supporting areas can generate upward restoring force when the deformation generated by the pressure returns to the original state, so that the upward restoring force can be supplemented and provided, and the rebound performance of the sole is enhanced. Therefore, the device can meet the requirement that the motion change of the feet of the athlete in the motion process plays a role in accurately buffering and rebounding, so that the feet of the athlete are protected, and the motion performance of the athlete is improved.

Referring to fig. 4 to 5, a schematic structural diagram of an outdoor sports shoe capable of improving anti-slip performance according to an embodiment of the present utility model is shown.

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 connected to the rear side of the vamp 42, and the heel 422 is fixedly connected to the second support portion 22 in a region corresponding to the heel edge.

A first protection part 424 and a second protection part 425 are provided on the surface of the heel 423, and the first protection part 424 and the second protection part 425 extend to the left and right sides of the vamp 42 with the central axis B-B of the heel 423 as the center. In this embodiment, the first guard 424 and the second guard 425 are made of leather material and are disposed on the surface of the heel 423 by a sewing process.

The first protection portion 424 is fixedly connected to the outer ring portion 21 and the second support portion 22 at a position corresponding to the central position of the heel edge of the heel corresponding to the outer ring portion 21, with the central axis B-B of the heel 423 as a center, with a position corresponding to the outer/inner edge of the front sole of the outer ring portion 21 connected to the recess 210 as a start point, and with a position corresponding to the central position of the heel edge of the heel corresponding to the outer ring portion 21 as an end point;

the second protecting portion 425 is centered on the central axis B-B of the heel 423, is fixedly connected to the second supporting portion 22 at a position corresponding to the center of the heel edge of the outer ring portion 21, and covers the surface of the first protecting portion 424, with the connection between the lateral/medial edge of the heel corresponding to the second supporting portion 22 and the recess 210 as a starting point, and with the connection between the lateral/medial edge of the heel corresponding to the outer ring portion 21 and the central position of the heel edge as an ending point.

The surface of the front plate 421 is further provided with a first wrapping plate 426, specifically, the first wrapping plate 426 is a strip-shaped magic tape, one end of the first wrapping plate 426 is fixedly connected with one end of the first protection portion 424, which is located at the outer side of the vamp 42, and the other end of the first wrapping plate is fixedly connected with one end of the first protection portion 424, which is located at the inner side of the vamp 42, so as to wrap the upper surface of the eyelet button 43, which is adjacent to the front plate 421.

In this embodiment, the first wrapping sheet 426 is made of a rubber plastic material, and is disposed on the surface of the front sheet 421 through a hook and loop structure.

Further, a third protection 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 third protection portion, which is located at the outer side of the front plate 421, is fixedly connected with one end of the first wrapping portion 425, which corresponds to the outer side region of the front sole, and one end of the third protection portion, which is located at the inner side of the front plate 421, is fixedly connected with one end of the first wrapping portion 425, which corresponds to the inner side region of the front sole. In the present embodiment, the third protecting part 427 is made of leather material and is disposed on the upper surface of the front plate 421 through a sewing process.

According to the sport shoe and the sport sole capable of improving the skid resistance, the first outsole and the second outsole which cover different areas are divided on the outsole according to different forces born by the action of the foot of a player in the sport process, so that the skid resistance in multiple directions is achieved by friction forces generated in all directions by the strip-shaped protrusions arranged in the pressure receiving areas when the foot of the player is landed and lifted, the skid resistance phenomenon is avoided, the sport shoe and the sport sole are used for enabling the player to quickly react when the player performs various foot actions, and each protrusion forms a preset included angle with the ground contact surface through the strip-shaped protrusions in different arrangement modes, so that the friction coefficient of the sole can be greatly enhanced, and the requirement of complex road conditions in the sport process is met. Further, when the groove is formed in the outer ring portion corresponding to the arch region, the groove can conform to the change trend of pressure generated by the sole and the ground when the foot of the athlete lands or lifts in the motion process, so that deformation occurs to disperse the pressure or recover the second deformation to provide restoring force, the rebound resilience performance of the sole is enhanced, the action change of the foot of the athlete in the motion process is met, the accurate buffering and rebound functions are achieved, the foot of the athlete is protected, and the motion performance of the athlete is improved.

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

Claims (10)

1. An athletic shoe sole capable of improving skid resistance comprises an outsole, a midsole and a first supporting part, wherein the outsole and the first supporting part are 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 area from the front sole, the foot arch to the edge of the heel; comprising the following steps:

the first anti-skid part is an anti-skid area similar to a U shape and correspondingly covers an area surrounding the edge of the toe; the ground contact matrix of the first anti-skid part is provided with a plurality of diamond-shaped first bulges, a preset included angle x is formed between the side edge of the first bulges in the height direction and the ground contact, x is larger than 0 and smaller than or equal to 90 degrees, and x is a natural number;

the second anti-skid part is an anti-skid area which is approximately semicircular and corresponds to an area covering the edge of the heel, and the linear side edges of the semicircular anti-skid area are distributed on a connecting line from the center of the inner edge of the heel to the center of the outer edge of the heel; the ground contact matrix of the second anti-skid part is provided with a plurality of diamond-shaped second bulges, a preset included angle y is formed between the side edge of the second bulges in the height direction and the ground contact, y is 0< 90 degrees, and y is a natural number;

the third anti-skid part is an approximately rectangular anti-skid area and is positioned in an area formed by one end of the first anti-skid part positioned at the outer side of the toe and one end of the second anti-skid part positioned at the outer side of the heel; the ground contact surface of the third anti-skid part is provided with a plurality of strip-shaped third bulges, and the length direction of the third bulges is vertical to the extending direction from the toe to the heel; the cross section of each third bulge is similar to a right triangle, a hypotenuse forming the right triangle forms a preset included angle m with the ground contact surface, 0<m degrees are smaller than or equal to 90 degrees, m is a natural number, and one right angle side forming the right triangle is arranged on the ground contact surface of the third anti-skid part; and

the fourth anti-skid part is an approximately rectangular anti-skid area and is positioned in an area formed by one end of the inner side of the toe of the first anti-skid part and one end of the inner side of the heel of the second anti-skid part; the ground contact surface of the fourth anti-skid part is provided with a plurality of strip-shaped fourth bulges, and the length direction of the fourth bulges is vertical to the extending direction from the toe to the heel; the cross section of each fourth bulge is similar to a right triangle, a hypotenuse forming the right triangle forms a preset included angle n with the ground contact surface, 0<n degrees are smaller than or equal to 90 degrees, n is a natural number, and one right angle side forming the right triangle is arranged on the ground contact surface of the fourth anti-skid part;

the second outsole is an approximately elliptic anti-skid area and is arranged on the ground contact surface of the outsole, is positioned in the area formed by the first outsole and correspondingly covers the area which is not covered by the first outsole in the front sole area; the ground contact surface of the second outsole is provided with a plurality of strip-shaped fifth bulges, and the length direction of the fifth bulges is perpendicular to the extending direction from the toe to the heel; the cross section of each fifth bulge is similar to a right triangle, a hypotenuse forming the right triangle forms a preset included angle h with the ground contact surface, 0<h degrees are smaller than or equal to 90 degrees, h is a natural number, and one right angle side forming the right triangle is arranged on the ground contact surface of the second outsole;

the first supporting part is arranged on the ground contact surface of the outsole, is positioned in the area formed by the first outsole and correspondingly covers the area, which is not covered by the first outsole, in the heel area.

2. The athletic shoe sole of claim 1, wherein a plurality of third protrusions distributed on the third cleat and a plurality of fourth protrusions distributed on the fourth cleat are symmetrically distributed with respect to a toe center to heel center line;

the fifth bulges distributed on the second outsole and the third bulges distributed on the third anti-skid part are not positioned on the same straight line in the length direction;

the fifth bulges distributed on the second outsole and the fourth bulges distributed on the fourth anti-skid part are not positioned on the same straight line in the length direction.

3. The athletic shoe sole of claim 2, wherein the first plurality of protrusions are disposed on the first cleat, the second plurality of protrusions are disposed on the second cleat, the third plurality of protrusions are disposed on the third cleat, the fourth plurality of protrusions are disposed on the fourth cleat, and the fifth plurality of protrusions are disposed on the second outsole, the outer edge of the ground engaging end being substantially in the same horizontal plane.

4. The athletic shoe sole of claim 1, wherein the midsole comprises:

an outer ring portion disposed on an upper surface of the outsole around the outsole edge;

the second supporting part is arranged on the outer ring part and correspondingly covers the area formed by the connecting part of the front sole and the foot arch to the heel.

5. The athletic shoe sole of claim 4, wherein the outer surface of the outer ring portion is further grooved in the area corresponding to the arch covering area.

6. An athletic shoe capable of improving the skid resistance comprises a shoelace and a vamp which is closely attached to the lower side of the shoelace; the sports shoe is characterized by further comprising the sports shoe sole according to any one of claims 1-5.

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

the midsole comprises:

an outer ring portion disposed on an upper surface of the outsole around the outsole edge;

the second supporting part is arranged on the outer ring part and correspondingly covers the area formed by the connecting part of the front sole and the foot arch to the heel;

the front side of the vamp is fixedly connected with a front piece, and a net surface is sewn and fixed in the front piece; the back side fixedly connected with heel of vamp, the heel with the region fixed connection of heel edge is corresponded to supporting part.

8. The athletic shoe of claim 7, further comprising:

the first protection part takes the central axis of the heel as the center, takes the connecting position of the outer ring part corresponding to the outer side/inner side edge of the front sole and the groove as the starting point, and takes the central position of the outer ring part corresponding to the heel edge as the ending point, and is fixedly connected with the corresponding positions of the outer ring part and the second support part; the outer side surface of the outer ring part is provided with the grooves corresponding to the area covering the arch;

the second protection part takes the central axis of the heel as the center, takes the joint of the outer side/inner side edge of the heel corresponding to the second support part and the groove as the starting point, and takes the central position of the heel edge corresponding to the outer ring part as the ending point, is fixedly connected with the second support part and covers the surface of the first protection part.

9. The athletic shoe of claim 8, further comprising:

the first cladding piece is a strip-shaped magic tape, one end of the first cladding piece is fixedly connected with one end of the first protection part, which is positioned at the outer side of the vamp, and the other end of the first cladding piece is fixedly connected with one end of the first protection part, which is positioned at the inner side of the vamp, so as to cladding the upper surface of the eyelet button arranged adjacent to the front piece.

10. The athletic shoe of claim 9, further comprising:

and the third protection part is arranged along the edge of the front piece around the toe area, one end of the third 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 third protection part, which is positioned at the inner side of the front piece, is fixedly connected with one end of the first cladding piece, which corresponds to the inner side area of the front sole.